*DECK,PIP IDENT PIP,PPFW NETWORK DRIVER FOR FRONT ENDS VERSION MICRO 1,,*RHP/PRU INTERFACE DRIVER* TITLE PIP - "VERSION" DRIVER FOR FRONT ENDS. PERIPH SST LIST X COMMENT PIP - "VERSION" FOR FRONT ENDS 79/12/01. COMMENT COPYRIGHT CONTROL DATA SYSTEMS INC. 1994. AUTHOR SPACE 5,15 *** PIP - NHP/PRU INTERFACE DRIVER FOR NPU. * * R. M. KERR 79/12/01 AUTHOR SPACE 2,15 *** PIP - MODIFIED FOR PRU MODE FILE TRANSFERS. * * R. M. KERR 82/12/01 * AUTHOR SPACE 2,15 *** PIP - MODIFIED FOR MAINFRAME DEVICE INTERFACE. * * R. M. KERR 83/12/15 * FUNCTION TITLE DRIVER FUNCTIONAL DESCRIPTION. FUNCTION SPACE 2,40 *** DRIVER FUNCTIONAL DESCRIPTION. * * THE DRIVER IS THE LOGICAL INTERFACE BETWEEN THE * SOFTWARE RUNNING IN A FRONT END NPU (CCP) OR THE * SOFTWARE RUNNING IN THE MAINFRAME DEVICE INTERFACE * AND THE SOFTWARE RUNNING IN THE HOST (NETWORK HOST * PRODUCTS). THE DRIVER RUNS AT THE NETWORK ACCESS * METHOD (NAM) CONTROL POINT AND PROVIDES DATA EXCHANGE * SERVICES TO NAM. NAM IS THEN RESPONSIBLE FOR PROVIDING * DATA EXCHANGE SERVICES TO OTHER NETWORK APPLICATION * PROGRAMS IN THE SYSTEM. THE DRIVER IS TRANSPARENT TO * THE DATA EXHANGES BETWEEN NAM AND THE FRONT END * ALTHOUGH DATA TRANSFORMS CAN OCCUR (DISPLAY CODE TO * ASCII TRANSLATION). THE DRIVER ALSO SUPPORTS A HIGH * PERFORMANCE HIGH VOLUME DATA INTERFACE REFERRED TO AS * THE PRU INTERFACE. WITH THE PRU INTERFACE A NETWORK * APPLICATION RETAINS HIGH LEVEL CONTROL OVER THE DATA * STREAM WHILE THE DRIVER IS RESPONSIBLE FOR THE ACTUAL * DATA TRANSFER BETWEEN ROTATING MASS STORAGE (RMS) AND * THE FRONT END. THE PHYSICAL DATA THAT IS TRANSFERRED * DOES NOT HAVE TO PASS THROUGH THE APPLICATION WITH THE * PRU INTERFACE. WHEN ABNORMAL CONDITIONS OCCUR ON SUCH * A STREAM THE CONDITION AND THE CONTROL OF THE STREAM IS * RETURNED TO THE APPLICATION RESPONSIBLE FOR THE STREAM. * * THIS DRIVER IMPLEMENTATION SUPPORTS TWO TYPES OF * NETWORK APPLICATIONS USING THE PRU INTERFACE. THE * FIRST TYPE OF PRU NETWORK APPLICATION IS RBF WHICH * SUPPORTS PASSIVE PRU STREAMS. THE PASSIVE PRU STREAMS * ARE ASSOCIATED WITH PASSIVE DEVICES SUCH AS CARD * READERS, LINE PRINTERS AND SO ON. THE STREAMS ARE * USED FOR REMOTE JOB ENTRY INTO THE HOST SYSTEM FROM * TERMINALS THAT ARE CONNECTED TO THE NETWORK. THE * SECOND TYPE OF PRU STREAM SUPPORTED IS AN ACTIVE PRU * STREAM. ACTIVE PRU STREAMS ARE PEER TO PEER OR * APPLICATION TO APPLICATION CONNECTIONS AND ARE USED * FOR FILE TRANSFERS BETWEEN HOSTS AND TAKE ADVANTAGE OF * THE EFFICIENCY OF THE PRU INTERFACE FOR THE DATA * TRANSFER PHASE OF THE FILE TRANSFER. THESE * APPLICATIONS NEGOTIATE THE ATTRIBUTES OF THE FILE * TRANSFER USING A TRANSPARENT OR IVT CONNECTION. ONCE * AGREEMENT HAS BEEN REACHED ON THE FILE TRANSFER THE * CONNECTION IS SWITCHED TO PRU MODE AND THE DRIVER * BECOMES RESPONSIBLE FOR THE DATA TRANSFER PHASE OF THE * FILE TRANSFER. THE DRIVER WILL PROCESS ALL DATA * TRANSFERS AND LEVEL SEVEN OR CONTROL PROTOCOL ELEMENTS * WHILE IN DATA TRANSFER PHASE. CONTROL IS RETURNED TO * THE APPLICATION AT THE COMPLETION OF THE FILE TRANSFER * OR WHEN AN ERROR CONDITION IS DETECTED. USE OF THE * PRU INTERFACE REQUIRES EQUIVALENT FILE STRUCTURES ON *** BOTH ENDS OF THE CONNECTION. FUNCTION SPACE 2,10 *** DAYFILE MESSAGES. * * PIP - INVALID REQUEST. * PIP - UNDEFINED FUNCTION CODE. * PIP - NO PARAMETER AREA SPECIFIED. * PIP - ADDRESS OUT OF RANGE. * PIP - CONTROL POINT ERROR. * PIP - ERROR IN EST SCAN. * PIP - NO EQUIPMENT IN EST. * PIP - NAM TABLE AREA TOO SMALL. * * PIP - MSS OPTION VOIDS SYSTEM SECURITY. (IF MSS OPTION) * PIP - HALTED NPU XX. * PIPN - ERROR XXX. *** PIPN TERMINATED. FUNCTION SPACE 2,10 *** ROUTINES USED. * * 1DL - PPU OVERLAY LOADER, * 1RP - PPU RESIDENT LOADER, *** CIO - MASS STORAGE INPUT/OUTPUT. FUNCTION SPACE 2,10 ** BLOCK PROTOCOL. * * THE BLOCK PROTOCOL DESCRIBES THE FORMAT OF DATA * INTERCHANGES BETWEEN THE DRIVER AND THE FRONT END. * ALL EXCHANGES BEGIN WITH THE BLOCK PROTOCOL HEADER. * *TBL 8/DN/,8/SN,8/CN,1/PRI,3/BSN,3/BT * * WHERE - * * DN = DESTINATION NODE (RECEIVER), * SN = SOURCE NODE (SENDER), * CN = CONNECTION NUMBER, * PRI = PRIORITY FLAG (1 = HIGH PRIORITY), * BSN = BLOCK SERIAL NUMBER, * BT = BLOCK TYPE. * * THE FRONT END CAN BE CONSIDERED AS A MULTIPLEXED DATA * SOURCE WITH DATA EXCHANGES MULTIPLEXED ON A MESSAGE * BASIS. THE IDENTIFICATION OF A DATA STREAM IN THIS * STRUCTURE IS ACCOMPLISHED BY SOURCE NODE PLUS * CONNECTION NUMBER FOR INBOUND TRAFFIC OR BY DESTINATION * NODE PLUS CONNECTION NUMBER FOR OUTBOUND TRAFFIC. THE * CONNECTION NUMBER IS A TRANSITORY NUMBER ASSIGNED WHEN * A DATA STREAM BECOMES ACTIVE AND IS USED TO IDENTIFY * THAT DATA STREAM UNTIL SOME CONDITION OCCURS THAT * TERMINATES THE DATA STREAM. CONNECTION NUMBER ZERO IS * THE SERVICE CHANNEL, IS ALWAYS ACTIVE AND IS USED FOR * THE HIGHEST LEVEL OF CONTROL AND FRONT END STATUS * INFORMATION. THE BLOCK SERIAL NUMBER IS THE SEQUENTIAL * NUMBER, MODULE EIGHT, ASSIGNED BY THE EXCHANGE * ORIGINATOR. NUMBERING BEGINS WITH ONE WHEN A * CONNECTION IS ESTABLISHED AND IS INDEPENDENT FOR * INBOUND (TO HOST) AND OUTBOUND (FROM HOST). THE * BLOCK SERIAL NUMBER FOR THE SERVICE CHANNEL IS ALWAYS * ZERO AND A ZERO BLOCK SERIAL NUMBER IS NEVER USED FOR * A NON-ZERO CONNECTION NUMBER. THE BLOCK TYPE * IDENTIFIES THE CONTENTS OF THE EXCHANGE. * * FOR NON-PRU DATA STREAMS THE DRIVER IS TRANSPARENT TO * THE BLOCK PROTOCOL. HOWEVER, THE DRIVER DOES USE THE * BLOCK TYPE TO DETERMINE THE TYPE OF TRANSFORMATION THAT ** HAS TO BE DONE FOR A GIVEN EXCHANGE. FUNCTION SPACE 2,10 ** THE DRIVER IS RESPONSIBLE FOR PROCESSING ALL EXCHANGES * WITH THE FRONT END ON PRU DATA STREAMS INDEPENDENT OF * THE REST OF THE NETWORK. THE FOLLOWING BLOCK TYPES ARE * SUPPORTED BY THE DRIVER FOR PRU DATA STREAMS. * * BLOCK TYPE MSG - * * A MSG TYPE BLOCK IS AN EXCHANGE CONTAINING DATA. * * BLOCK TYPE BACK - * * A BACK IS ISSUED AS A RESPONSE TO MSG AND CMD * BLOCKS BY THE RECEIVER. THIS ALLOWS THE RECEIVER * TO ACKNOWLEDGE PREVIOUS TRANSACTIONS AND ALSO * CONTROLS THE RATE TRANSACTIONS ARE ISSUED BY THE * TRANSMITTER. * * BOCK TYPE CMD - * * CMD BLOCKS ARE USED FOR STREAM CONTROL AND * STATUS INFORMATION OF DATA CHANNELS. * * BLOCK TYPE ICMD - * * ICMD BLOCKS ARE USED FOR OUTBOUND STREAM CONTROL. * THE INTERRUPT COMMAND MAY BYPASS DATA AND COMMAND * BLOCKS IN QUEUE. * * BLOCK TYPE ICMDR - * * ICMDR IS USED TO ACKNOWLEDGE AN INTERRUPT COMMAND ** ON A DATA STREAM IN THE OPPOSITE DIRECTION. FUNCTION SPACE 2,10 ** THE FOLLOWING IS A LIST OF THE COMMANDS ISSUED FOR * PASSIVE PRU DATA STREAMS AND THE FUNCTION THAT * THEY PERFORM. * * COMMAND FUNCTION * ------- -------- * * START PRU INPUT START INPUT FROM * PASSIVE DEVICE * * START TRANSPARENT START TRANSPARENT INPUT * PRU INPUT FROM PASSIVE DEVICE (NOT * CURRENTLY SUPPORTED BY ANY * PRU APPLICATION) * * RESUME INPUT RESTART INPUT FROM * PASSIVE DEVICE * * ABORT INPUT ABORT INPUT FROM * PASSIVE DEVICE * * SET PASSIVE DEVICE SET CHANGEABLE ATTRIBUTES * CHARACTERISTICS FOR PASSIVE DEVICE * * SET FILE SET CHANGEABLE ATTRIBUTES * CHARACTERISTICS FOR FOLLOWING DATA * * TERMINATE OUTPUT DELINEATES POSITION IN * STREAM MARKER DATA STREAM WHICH COMPLETES ** ABORT SEQUENCE FUNCTION SPACE 2,10 ** THE FOLLOWING IS A LIST OF INTERRUPT COMMANDS ISSUED * FOR PRU DATA STREAMS AND THE FUNCTION THEY PERFORM. * * INTERRUPT COMMAND FUNCTION * --------- ------- -------- * * RESTART OUTPUT RESTART A STOPPED * OUTPUT STREAM * ** ABORT OUTPUT TERMINATE OUTPUT STREAM FUNCTION SPACE 2,10 ** THE FOLLOWING IS A LIST OF THE COMMANDS RECEIVED * FROM THE FRONT END REPORTING STATUS ON PASSIVE * PRU DATA STREAMS. * * COMMAND REASON * ------- ------ * * INPUT STOPPED INPUT STREAM STOPPED * REASON CODE SPECIFIES * THE CONDITION * * OUTPUT STOPPED OUTPUT STREAM STOPPED * REASON CODE SPECIFIES * THE CONDITION * * ACCOUNTING DATA ACKNOWLEDGES DELIVERY OF * AT EOI EOI BLOCK TO TERMINAL AND * PROVIDES ACCOUNTING DATA * * ACCOUNTING DATA ACKNOWLEDGES TERMINATION * AT TERMINATION OF THE DATA STREAM AND ** PROVIDES ACCOUNTING DATA FUNCTION SPACE 2,10 ** NON-PRU DATA INTERFACE. * * EACH FRONT END THAT IS TO BE SERVICED BY THE DRIVER HAS * AN ASSOCIATED NETWORK BUFFER TABLE LOCATED IN THE FIELD * LENGTH OF NAM WHICH IS USED FOR DATA AND CONTROL * INFORMATION TRANSFER. EACH NETWORK BUFFER TABLE * CONSISTS OF TWO INBOUND FETS FOLLOWED BY THREE OUTBOUND * PSEUDO FETS. * * THE INBOUND FETS ARE USED BY THE DRIVER TO TRANSFER * NON-PRU DATA AND ALL CONTROL INFORMATION TO NAM FOR A * GIVEN FRONT END. THE INBOUND FETS DESCRIBE NORMAL * CIRCULAR BUFFERS AND ARE USED ALTERNATELY. * * IMMEDIATELY FOLLOWING THE INBOUND FETS ARE THREE * OUTBOUND PSEUDO FETS ASSOCIATED WITH THE FRONT END. * EACH OUTBOUND PSEUDO FET CORRESPONDS TO AN OUTPUT * PRIORITY LEVEL. THE FIRST OUTBOUND PSEUDO FET IS THE * HIGHEST PRIORITY LEVEL AND THE THIRD OUTBOUND PSEUDO * FET IS THE LOWEST PRIORITY LEVEL. THE OUTBOUND PSEUDO * FETS ARE USED BY NAM FOR NON-PRU DATA AND CONTROL * TRANSFERS TO THE ASSOCIATED FRONT END. * * EACH OUTBOUND PSEUDO FET IS USED TO DESCRIBE AN OUTPUT * MESSAGE LIST AS OPPOSED TO THE NORMAL CIRCULAR BUFFER. * WHEN THE FIRST OUTBOUND MESSAGE IS QUEUED, THE IN * POINTER IS SET TO THE ADDRESS OF THE MESSAGE HEADER * WORD. AS SUBSEQUENT MESSAGES ARE QUEUED THE IN POINTER * IS UPDATED TO THE ADDRESS OF THE LAST MESSAGE IN THE * QUEUE AND EACH MESSAGE IN QUEUE IS LINKED TO THE * PREVIOUS MESSAGE THROUGH THE LINK ADDRESS FIELD OF THE * PREVIOUS MESSAGE HEADER WORD. THE INITIAL MESSAGE IS * REMOVED FROM THE QUEUE LOCATED BY THE FIRST POINTER IN * THE PSEUDO FET. AFTER THE OUTBOUND MESSAGE IS * PROCESSED, THE OUT POINTER OF THE PSEUDO FET IS UPDATED * TO THE ADDRESS OF THE MESSAGE HEADER WORD FOR THE * MESSAGE JUST PROCESSED. SUSEQUENT OUTBOUND MESSAGES * ARE DEQUEUED FROM THE LINK ADDRESS FIELD OF THE MESSAGE * HEADER WORD LOCATED BY THE OUT POINTER IN THE PSEUDO * FET. WHEN THE OUT AND IN POINTERS ARE EQUAL IN THE ** PSEUDO FET THE OUTBOUND QUEUE HAS BEEN EXHAUSTED. FUNCTION SPACE 2,10 ** PRU DATA INTERFACE. * * THE PRU DATA INTERFACE PERMITS HIGH PERFORMANCE HIGH * VOLUME DATA TRANSFER BETWEEN THE HOST AND THE FRONT * END. THE PRU DATA INTERFACE IS HALF DUPLEX IN THAT A * GIVEN STREAM CAN RECEIVE OR SEND DATA BUT NOT BOTH. IN * THE TYPICAL CASE THE FORMAT OF THE DATA IS DISPLAY * CODED PRU IMAGES. ON OUTPUT THE DRIVER WILL READ PRU * IMAGES OF DATA AND TRANSFER THE PRU IMAGES TO THE FRONT * END. ZERO BYTE END OF RECORD TERMINATORS ARE REMOVED * AND REPLACED BY A SINGLE HEXIDECIMAL *FF*. THE FRONT * END THEN CONVERTS THE PRU IMAGES INTO RECORD IMAGES * PERFORMING CHARACTER CODE CONVERSION AND COMPRESSION, * RECORD FOLDING; PROCESSING PM MESSAGES PLUS CARRIAGE * CONTROL CHARACTERS FOR PRINT FILES. ON INPUT THE FRONT * END DOES CHARACTER CONVERSION AND CHARACTER EXPANSION, * BLANK TRUNCATION AND INSERTS ZERO BYTE RECORD * TERMINATORS. THESE RECORDS ARE BUILT INTO PRU IMAGES * WHICH ARE DELIVERED TO THE HOST. * * ASCII DATA IS SUPPORTED FOR ALL OUTPUT STREAMS. ASCII * DATA FORMAT IS 7-BIT/12-BIT BYTE. ZERO BYTE END OF * RECORD TERMINATORS ARE REMOVED AND REPLACED BY A SINGLE * HEXIDECIMAL *FF*. * * TRANSPARENT DATA TRANSFER IS SUPPORTED FOR TERMINALS * THAT CAN SEND/RECEIVE TRANSPARENT DATA. TRANSPARENT * DATA FORMAT IS 8-BIT/12-BIT BYTE. THE DATA STRUCTURE * FOR TRANSPARENT DATA IS THE DATA STRUCTURE OF THE * TERMINAL. NO RECORD FOLDING, CHARACTER CONVERSION OR * CARRIAGE CONTROL INTERPRETATION IS DONE FOR TRANSPARENT * DATA. * * ALL PRU DATA IS STORED IN PRU BUFFERS LOCATED IN THE * FIELD LENGTH OF NAM. THESE BUFFERS ARE REQUESTED FROM * NAM AS THE PRU DATA LOAD INCREASES AND NAM WILL * RELEASE THE BUFFERS AS THE PRU LOAD DECREASES. * PRU BUFFERS ARE MAINTAINED AS FOLLOWS. * * FOR PRU HANDLING BY A PIP NIP ALLOCATES PRU BUFFERS TO THE PIP * AT A REQUEST FROM THE PIP AS A CHAIN OF BUFFERS FOR EACH TYPE * OF PRU SIZES AND THE PIP MAINTAINS THE CHAIN BY TAKING A * BUFFER FROM THE CHAIN WHEN A BUFFER IS NEEDED FOR A PRU * ACTIVITY AND RETURNING A BUFFER TO THE CHAIN WHEN A BUFFER IS * FREED FROM A PRU ACTIVITY. * * PERIODICALLY, PIP LOOKS FOR ANY PRU ACTIVITIES HELD UP FOR A * LACK OF FREE PRU BUFFERS AND MAKES A REQUEST TO NIP FOR MORE * BUFFERS IF THE TOTAL COUNT OF ASSIGNED BUFFERS DOES NOT EXCEED * A LIMIT SET BY NIP FOR THIS TYPE OF BUFFERS FOR THIS PIP. * * ONCE IN A PREDETERMINED PERIOD (2 SECONDS, FOR EXAMPLE) PIP * CHECKS THE COUNT OF BUFFERS ON THE CHAIN AND, IF IT IS GREATER * THAN A LIMIT SET BY NIP FOR THIS CHAIN, PIP MAKES A REQUEST TO * RELEASE A BUFFER FROM THE CHAIN. * * PIT ENTRY FOR A PIP HAS A SET OF TWO CM WORDS FOR EACH TYPE OF * PRU SIZES FOR THE MAINTENANCE OF THE PRU BUFFER CHAIN. * * ONE CM WORD CALLED NIP WORD IN THIS DESCRIPTION CONTAINS DATA * THAT ARE ONLY WRITTEN BY NIP: * MFB = MIN/MAX COUNTS OF BUFFERS TO BE KEPT BY PIP, * NCA = COUNT OF BUFFERS CURRENTLY ASSIGNED, * NC = NUMBER OF CONNECTIONS * FPB = ADDRESS OF THE FIRST BUFFER ON THE CHAIN SUPPLIED * BY NIP. * * ONE CM WORD CALLED PIP WORD IN THIS DESCRIPTION CONTAINS DATA * THAT ARE NORMALLY WRITTEN ONLY BY PIP: * NFB = COUNT OF BUFFERS ON THE FREE CHAIN, * NRA = COUNT OF TOTAL ASSIGNMENT REQUESTED BY PIP, * (A BYTE RESERVED FOR PERFORMANCE DATA,) * RBF = ADDRESS OF THE BUFFER RELEASED FROM PIP. * * AS WRITE ACTIVITIES ARE LIMITED TO THEIR OWN CM WORD, THERE * ARE NO INTERLOCK SCHEME PROVIDED EXCEPT FOR GARBAGE COLLECTION * AND FOR INITIAL BUFFER ASSIGNMENT BY NIP DISCUSSED LATER. * * PIP KEEPS INTERNALLY SOME DATA FOR EACH TYPE: * NSA = NCA VALUE STORED WHEN NIP WORD WAS LAST ACCESSED, * TIMER FOR RELEASING A BUFFER TO NIP, * NUMBER OF ACTIVE INBOUND BUFFERS. * * INITIALLY ALL FIELDS OF THE TWO WORDS ARE ZERO EXCEPT MFB THAT * CONTAINS COUNTS OF MINIMUM AND MAXIMUM BUFFERS TO BE KEPT BY * PIP. * * WHEN PIP FINDS A NEED FOR PRU BUFFERS OF A SPECIFIC TYPE, PIP * PLACES THE NEEDED BUFFER COUNT IN NRA OF THE PIP WORD FOR THE * SPECIFIC TYPE. PIP REMEMBERS THE CURRENT NCA IN NSA SO THAT * PIP WILL KNOW WHEN NIP FULFILLS THE REQUEST AND UPDATES NCA. * * PERIODICALLY PIP CHECKS FOR A CHANGE OF NCA AND, WHEN IT * INCREASES, PIP UPDATES NFB BY THE COUNT OF THE ADDED BUFFERS. * * WHEN NIP FINDS NCA IS ZERO AND NRA IS NON-ZERO, NIP MAKES A * CHAIN OF BUFFERS OF THE SPECIFIED TYPE AND PLACES THE ADDRESS * OF THE FIRST BUFFER IN FPB OF NIP WORD AND THEN THE COUNT OF * THE BUFFERS IN NCA. * * WHEN NIP FINDS A NEW PRU CONNECTION FOR A TYPE CURRENTLY HAS * NO BUFFER ASSIGNED, NIP PLACES THE INTERLOCK AT THE PIT AND * ASSIGNS A CHAIN OF MINIMUM COUNT OF BUFFERS ANS SETS NCA AND * NRA TO THE COUNT. PIP WILL UPDATES NFB TO THE COUNT LATER * WHEN PIP FINDS THAT THE INTERNAL NSA IS ZERO AND NCA IS NOT. * * PRU BUFFERS ON THE FREE CHAINS ARE ALWAYS CHAINED BY ADDRESS * FIELD (BITS 42-59) OF THE NAM BLOCK HEADER WORD. * * WHEN PIP NEEDS MORE BUFFERS, PIP SIMPLY INCREASES NRA TO THE * DESIRED TOTAL ASSIGNMENT COUNT IF THE NEW COUNT DOES NOT * EXCEED MAX IN MFB. PIP REMEMBERS CURRENT NCA IN NSA TO KNOW * WHEN NIP FULFILLS THE REQUEST. * * WHEN NIP FINDS NCA IS SMALLER THAN NRA, THIS IS THE SIGNAL OF * A REQUEST FOR MORE BUFFERS FROM PIP. IF IT IS ACCEPTABLE, NIP * MAKES PRU BUFFERS AND CHAINS IT AT THE TOP OF THE EXISTING * BUFFER POINTED BY FPB AND INCREMENTS NCA BY THE COUNT ADDED. * * WHEN PIP KNOWS NIP HAS SATIFSIED THE REQUEST (AT LEAST * PARTIALLY) BY FINDING NSA AND CURRENT NCA BEING NOT EQUAL, PIP * UPDATES NFB BY THE COUNT OF ADDED BUFFERS. * * FROM TIME TO TIME PIP TRIES TO TAKE A BUFFER FROM THE FREE * BUFFER CHAIN TO USE IT FOR A PRU ACTIVITY. FIRST IT CHECKS * THE COUNT OF AVAILABLE BUFFERS KEPT IN NFB TO KNOW IF A BUFFER * IS AVAILABLE. * * THE PROCESS TO GET A BUFFER FROM THE CHAIN IS DIFFERENT BASED * ON THE STATUS OF BUFFERS ON THE CHAIN. * * IF NFB IS NOT ZERO, THE SEARCH IS MADE ON THE BUFFER CHAIN TO * FIND A FREE BUFFER PREFERABLY NOT AT THE TOP OF CHAIN. IF A * BUFFER IS FOUND, THE BUFFER ID IS CHANGED TO INDICATE THAT THE * BUFFER IS NOT FREE. THEN, IF THE BUFFER IS NOT AT THE TOP OF * THE CHAIN, THE BUFFER IS DELINKED FORM THE CHAIN. IF THE ONLY * FREE BUFFER IS AT THE TOP OF THE CHAIN, BUFFER IS NOT DELINKED * AND THE BUFFER ID IS SET TO INDICATE THAT THE BUFFER IS USED * ON THE CHAIN. * * WHEN A BUFFER IS MADE ACTIVE, PIP DECREMENTS NFB BY ONE EVEN * WHEN THE BUFFER IS USED ON THE CHIAN. * * WHEN A BUFFER IS FREED FROM A PRU ACTIVITY, IT IS RETURNED TO * THE ORIGINAL FREE BUFFER CHAIN. IF THE BLOCK HEADER HAS THE * ID CODE FOR USED-ON-THE-CHAIN, PIP RETURNS IT TO THE FREE * CONDITION BY SIMPLY CHANGING THE ID CODE TO FREE. IF THE * BLOCK HEADER HAS THE NORMAL ID CODE, PIP RETURNS IT TO THE * FREE CHAIN NEXT TO THE BUFFER POINTED BY FPB. NFB IS * INCREMENTED BY ONE WHEN A BUFFER IS FREED. * * WHEN PIP FINDS A BUFFER WITH USED-ON-THE-CHAIN ID NOT AT THE * TOP OF THE FREE CHAIN WHILE PIP IS DOING PERIODIC CHECK-UP, * PIP DELINKS IT AFTER CHANGING ITS ID TO THE NORMAL VALUE. * * AS A BUFFER ON THE FREE CHAIN WITH THE ID OF USED-ON-THE-CHAIN * IS ACTIVE BUFFER, NIP IS NOT TO MOVE IT IN GARBAGE COLLECTION * PROCESSING. NIP MAY DELINK IT OR MAY KEEP IT ON THE CHAIN * WITHOUT MOVING IT. * * ONCE IN A PREDETERMINED PERIOD PIP CHECKS TO SEE IF IT HAS * TOO MANY BUFFERS ON ITS FREE BUFFER CHAIN. IF NFB IS GREATER * THAN MIN IN MFB, IT MAKES A REQUEST TO RELEASE A BUFFER FROM * THE CHAIN. FIRST, PIP PICKS UP ONE FREE BUFFER ON THE CHAIN * AND DELINKS IT FROM THE CHAIN AS IS DONE IN ASSIGNING A * BUFFER TO AN ACTIVITY, AND PLACES ITS ADDRESS IN RBP. * THEN PIP DECREMENTS NRA AND NFB BY ONE. * * WHEN PIP IS TO RELEASE A BUFFER, IF THE NC FIELD IS ZERO, PIP * RELEASED A BUFFER, REGARDLESS OF THE MINIMUM COUNT, UNTIL ALL * FREE BUFFERS ARE RELEASED INCLUDING THE BUFFER POINTED BY FPB. * WHEN THE LAST BUFFER IS RELEASED, PIP CLEARS NSA ANTICIPATING * THAT NIP MAY FIND A PRU CONNECTION AND ASSIGNS BUFFERS BEFORE * PIP CAN READ NIP WORD WITH NCA BEING SET TO ZERO. * * WHEN NIP FINDS NCA IS GREATER THAN NRA, THIS IS THE SIGNAL OF * A REQUEST FOR RELEASING A BUFFER FROM THE CHAIN. NIP FINDS * THE ADDRESS OF THE BUFFER ALREADY DELINKED FROM THE CHAIN * IN RPB AND RETURNS IT TO SYSTEM FREE BUFFER POOL. THEN NIP * UPDATES NCA BY DECREMENTING IT BY ONE. * * WHEN PIP WANTS TO RELEASE ALL THE BUFFERS ON THE FREE CHAIN * BECAUSE OF NO PRU ACTIVITIES OR PIP GOING TO DROP, PIP SIMPLY * CLEARS NRA AND NFB. * * WHEN NIP FINDS NRA IS ZERO AND NCA IS NOT, NIP RELEASES ALL * THE BUFFERS STARTING AT FPB TO THE SYSTEM FREE BUFFER POOL * AND CLEARS FPB AND NCA. * * WHEN THERE IS NO ACTIVE BUFFERS, THAT IS NFB AND NRA ARE * EQUAL, NIP MAY RELEASE ALL THE BUFFERS BY FIRST REQUESTING * INTERLOCK TO PIT. THEN NIP MAY RELEASE ALL THE BUFFERS * ON THE CHAIN BY CLEARING FPB, NCA, NFB AND NRA. * * WHEN NCA AND NRA ARE NOT EQUAL, THERE IS A REQUEST TO NIP * OUTSTANDING. SO, PIP WILL NOT MAKE ANOTHER REQUEST UNTIL * THE REQUEST IS COMPLETED BY NIP AND THE NUMBERS ARE MADE * EQUAL. * * IN THE PIT ENTRY, AFTER A SET OF NBTE POINTER WORDS, NIP WORDS * FOR THREE SIZES OF PRUS COME FOLLOWED BY PIP WORDS FOR THREE * SIZES OF PRUS. WHEN INTERLOCK REQUEST IS SET FOR THE PIT, PIP * WRITES ITS PIP WORDS AND READS NIP WORDS AND PIP WORDS AFTER * THE INTERLOCK IS RELEASED. * * WHENEVER PIP READS NIP WORD FOR ANY REASON, PIP UPDATES NSA * AND UPDATES NFB IF NCA IS INCREASED. ** FUNCTION SPACE 2,10 ** PRU APPLICATION INTERFACE. * * THE PRU APPLICATION IS RESPONSIBLE FOR THE DEFINITION * AND CONTROL OF THE PRU DATA STREAMS. WHEN THE * APPLICATION ESTABLISHES THE PRU STREAM THE PRU CONTROL * BLOCK (PCB) IS LINKED INTO THE PRU CONTROL BLOCK * RING FOR THE PROPER FRONT END. THE DRIVER PROCESSES * ALL PRU DATA STREAMS FROM THE PRU CONTROL BLOCK RING. * THE PRU APPLICATION REQUESTS DRIVER PROCESSING BY * ISSUEING A SERVICE MESSAGE TO NAM. NAM WILL GENERATE * A WORKLIST FROM THE SERVICE MESSAGE AND QUEUE THAT * WORKLIST TO THE PCB IN THE PRU CONTROL BLOCK RING. THE * DRIVER WILL THEN PROCESS THE WORKLIST WHEN POSSIBLE * DURING ITS PCB RING PROCESSING. THERE ARE THREE * WORKLIST QUEUE PRIORITIES; IMMEDIATE, INTERRUPT ** AND NORMAL. FUNCTION SPACE 2,10 ** THE FOLLOWING IS A LIST OF IMMEDIATE PRIORITY * WORKLISTS AND THE FUNCTION THEY PERFORM. * * WORKLIST FUNCTION * -------- -------- * * TERMINATE USED ONLY BY NAM TO * PRU STREAM TERMINATE PRU PROCESSING ** ON THE STREAM FUNCTION SPACE 2,10 ** THE FOLLOWING IS A LIST OF THE INTERRUPT PRIORITY * WORKLISTS AND THE FUNCTION THEY PERFORM FOR * PASSIVE PRU STREAMS. * * WORKLIST FUNCTION * -------- -------- * * RESTART OUTPUT ISSUE RESTART OUTPUT * INTERRUPT COMMAND TO * FRONT END * * ABORT OUTPUT ISSUE ABORT OUTPUT * INTERRUPT COMMAND TO ** FRONT END FUNCTION SPACE 2,10 ** THE FOLLOWING IS A LIST OF THE NORMAL PRIORITY * WORKLISTS AND THE FUNCTION THEY PERFORM FOR * PASSIVE PRU STREAMS. * * WORKLIST FUNCTION * -------- -------- * * START PRU INPUT ISSUE START PRU INPUT * COMMAND TO FRONT END * * START TRANSPARENT ISSUE START TRANSPARENT * PRU INPUT PRU INPUT COMMAND TO * FRONT END * (NOT CURRENTLY SUPPORTED * BY ANY PRU APPLICATION) * * RESTART INPUT ISSUE RESTART INPUT * COMMAMD TO FRONT END * * ABORT INPUT ISSUE ABORT INPUT * COMMAND TO FRONT END * * BYPASS INPUT DISCARD DATA TO * END OF INFORMATION * * JOB VALIDATED RESPONSE TO DRIVER REQUEST * FOR JOB VALIDATION * * START OUTPUT BEGIN TRANSFER OF PRU * OUTPUT FROM SPECIFIED FILE * * STOP OUTPUT CEASE TRANSFER OF PRU * OUTPUT * * RESUME OUTPUT RESUME TRANSFER OF * PRU OUTPUT * * ABORT OUTPUT ISSUE TERMINATE OUTPUT * DATA MARKER STREAM MARKER TO FRONT END * * DIRECT OUTPUT ISSUE INCLUDED OUTPUT * TO FRONT END ON PRU STREAM * * END OF JOB ISSUE INCLUDED OUTPUT * DIRECT OUTPUT TO FRONT END ON PRU STREAM * WITH END OF JOB SET * * SET DEVICE ISSUE SET DEVICE * CHARACTERISTICS CHARACTERISTICS COMMAND * TO FRONT END * * SET FILE ISSUE SET FILE * CHARACTERISTICS CHARACTERISTICS COMMAND * TO FRONT END * * THE DRIVER TRANSFERS WORKLISTS TO A PRU APPLICATION BY * MEANS OF THE INBOUND BUFFER FOR THE ASSOCIATED FRONT * END. NAM WILL REMOVE WORKLISTS FROM THE INBOUND BUFFER ** AND QUEUE THEM TO THE APPLICATION. FUNCTION SPACE 2,10 ** THE FOLLOWING IS A LIST OF THE WORKLISTS GENERATED BY * THE DRIVER FOR PASSIVE PRU STREAMS AND THE FUNCTION * THEY PERFORM. * * WORKLIST FUNCTION * -------- -------- * * WORKLIST COMPLETED INDICATES TO NAM THAT THE * SPECIFIED APPLICATION * WORKLIST HAS BEEN PROCESSED * * REQUEST JOB REQUEST APPLICATION TO * VALIDATION VALIDATE INBOUND JOB * * INPUT STREAM INPUT STREAM STOPPED * STOPPED REASON CODE SPECIFIES * THE CONDITION * * INPUT STREAM INPUT STREAM END * END OF JOB OF JOB RECEIVED * * INPUT STREAM INPUT STREAM END * END OF BYPASS OF BYPASS RECEIVED * * INPUT STREAM INPUT STREAM END * END OF STREAM OF STREAM RECEIVED * * OUTPUT STREAM OUTPUT STREAM STOPPED * STOPPED REASON CODE SPECIFIES * THE CONDITION * * OUTPUT STREAM OUTPUT STREAM END OF JOB * END OF JOB DELIVERED ACKNOWLEDGMENT * RECEIVED * * OUTPUT STREAM OUTPUT STREAM ABORTED * ABORTED ACKNOWLEDGMENT RECEIVED * * DIRECT OUTPUT OUTPUT ACKNOWLEDGMENT ** ACKNOWLEDGMENT RECEIVED FOR DIRECT OUTPUT FUNCTION SPACE 2,10 ** DRIVER IMPLEMENTATION. * * THE DRIVER IS IMPLEMENTED AS A TABLE DRIVER * MULTIDIMENSIONAL STATE PROCESSOR. EACH ENTITY (FRONT * END, BLOCK HANDLER, STREAM, ETC) PROCESSED BY THE * DRIVER HAS AN ASSOCIATED STATE IDENTIFIED BY A NUMBER. * A STATE HAS AN ASSOCIATED PROCESSOR THAT SERVICES THAT * ENTITY IN ITS STATE. THE STATE PROCESSOR MAY ATTEMPT * TO INITIATE THE NEXT LOGICAL ACTION FOR THAT STATE OR * CHECK FOR REQUESTS FOR EXTERNAL ACTIONS. THE STATE * PROCESSOR STRUCTURE ALLOWS ATTEMPTED ACTIONS TO BE * UNSUCCESSFUL AND RETRIED ON THE NEXT PROCESSING CYCLE. * ACTIONS SUCCESSFULLY COMPLETED, EITHER INTERNAL OR * EXTERNAL, WILL CAUSE A RESPONSE TO BE EXECUTED BY THE * DRIVER. NORMALLY A RESPONSE ACTION WILL CAUSE AN * ASSOCIATED STATE CHANGE BUT NEED NOT. * * THERE ARE TWO BASIC INTERDEPENDENT BUT ASYNCHRONOUS * STATES FOR ANY DATA STREAM. THE HIGHER ORDER STATE IS * THE BLOCK HANDLER STATE. THE BLOCK HANDLER STATE * IDENTIFIES WHAT TYPE OF TRANSACTIONS ARE VALID FOR THE * DATA STREAM. THE BLOCK HANDLER STATE PROCESSORS * INITIATE AND CONTROL EXCHANGES WITH THE FRONT END. THE * LOWER ORDER STATE IS THE STREAM STATE. THE STREAM * STATE IDENTIFIES WHAT TYPE OF TRANSACTIONS ARE * CURRENTLY VALID FOR THE DATA STREAM. THE STREAM STATE * PROCESSORS ARE CONCERNED WITH THE DATA TRANSFER TO THE * TERMINAL DEVICES OR REMOTE APPLICATIONS AND THE CONTROL ** OF THOSE DATA STREAMS. FUNCTION SPACE 2,14 ** * BLOCK HANDLER STATES FRONT END STATES * ---------------------------------------------------------------------- * I I I I I I I I I * SERVICE IVT PRU PRU I INITIAL LOAD . REQUEST MDI * CHANNEL STREAM STREAM STREAM I STATE NPU . INITIALIZAT * I * I * I * STREAM STATES I * ---------------------------------------------------------------------- * I I I I I I I I I I I I I I I I I * IVT PRU INPUT PRU OUTPUT ** FUNCTION SPACE 2,10 ** AN ACTION IS ALSO IDENTIFIED BY A NUMBER. WHEN AN * ACTION OCCURS FOR A GIVEN PROCESSING ENTITY THE STATE * OF THE PROCESSING ENTITY PLUS THE ACTION IDENTIFIES AN * ENTRY IN THE DRIVER CONTROL TABLES. THE CONTENTS OF * THAT ENTRY SPECIFIES THE RESPONSE TO BE EXECUTED PLUS * THE NEXT STATE FOR THE PROCESSING ENTITY. ACTIONS CAN * BE INITIATED EXTERNALLY FROM THE FRONT END OR NAM OR * INTERNALLY BY THE STATE PROCESSORS THEMSELVES. BECAUSE * OF THE CONTROL TABLE STRUCTURE THE DRIVER DIAGNOSES ALL * ILLOGICAL ACTIONS EITHER INTERNALLY OR EXTERNALLY * INITIATED AND TAKES APPROPRIATE ACTION. SINCE THE * RESPONSE PROCESSORS ARE ISOLATED SECTIONS OF CODE WITH * STRAIGHTFORWARD ENTRY AND EXIT WITH NO INTERFERENCE * WITH OTHER DRIVER CODE THE DRIVER IS EXTREMELY ** PROTECTIVE OF SYSTEM INTEGRITY. FUNCTION SPACE 2,18 ** ACTIONS ARE STRUCTURED TO USE COMMON CODE IN ORDER TO * CONSERVE PPU MEMORY AND HAVE THE FOLLOWING STRUCTURE - * * * E(TYPE)RA * I * I * I * -------------------------------------- * I I I I I I I I I I I I * A1 A2 A3 A4 A5 A6 A7 A8 A9 A10 A11 A12 * I I I I I I I I I I I I * -------------------------------------- * I * I * I ** E(TYPE)RAX FUNCTION SPACE 2,10 ** FOR THE MOST PART ALL DECISION PROCESSES ARE CONTROLLED * BY THE STATIC DRIVER CONTROL TABLES. THIS APPROACH WAS * CHOSEN TO PROVIDE FLEXIBILITY AND EXPANDABILITY PLUS * STABILITY. IT IS SUGGESTED THAT THE DRIVER CONTROL * TABLES SHOULD BE STUDIED CAREFULLY FOR A FULL * UNDERSTANDING OF HOW THE DRIVER FUNCTIONS. IN GENERAL * THE LOGIC FLOW OF THE DRIVER CAN BE UNDERSTOOD THROUGH ** THE DRIVER CONTROL TABLES. BHSTATES EJECT ** BLOCK HANDLER STATE RESPONSE ACTION TABLES. * * THE FOLLWOING ARE THE BLOCK HANDLER STATE RESPONSE * ACTION TABLES FOR THE DRIVER. THE FORMAT OF AN ENTRY * IS THE ACTION ORDINAL AND THE STATE CHANGE, IF ANY. ** A LIST OF THE ACTIONS FOLLOWS THE TABLES. BHSTATES SPACE 2,10 ** ******************************************************************** * * * B S C * B I S * B P I * B P O * B I F S* B N I R* * * * H E H * H V T * H R N * H R U * H N E T* N P N E* * * STATE * S R A * S T R * S U P * S U T * S I A* S U I Q* * * * 0 V N * 1 E * 2 V * 3 P * 4 T T* 5 T U* * * * I N * A * T * U * I E* E* * INPUT * * C E * M * * T * A * S* * * * E L * S * * * L * T* ** ******************************************************************** * INPUT DATA * BE * BA7 * BA11 * BE * DE * DE * * INPUT BACK * DE * DE * BA12 * BA12 * DE * DE * * INPUT COMMAND * DE * DE * BA13 * BA13 * DE * DE * * INPUT TEXT * BA1 * BA1 * DE * DE * DE * DE * * INP NULL TEXT * BE * BA8 * DE * DE * DE * DE * * INPUT ICMD * BE * BA1 * BE * BE * DE * DE * * INP ICMD RESP * BE * BA8 * BE * BA18 * DE * DE * * INP Q-MESSAGE * DE * DE * BA14 * BA14 * DE * DE * * OUTPUT DATA * AE * BA9 * DE * BA9 * DE * DE * * OUTPUT BACK * DE * DE * BA6 * BA& * DE * DE * * OUTPUT COMMANS* DE * DE * BA15 * BA15 * DE * DE * * OUTPUT TEXT * BA2 * BA2 * DE * DE * DE * DE * * OUTPUT ICMD * AE * BA2 * DE * BA20 * DE * DE * * OUT ICMD RESP * AE * BA2 * DE * DE * DE * DE * * OUTPUT RESET * DE * DE * BA16 * BA16 * DE * DE * * OUT Q-MESSAGE * DE * DE * BA17 * BA17 * DE * DE * * PASS COMMAND * BA3 * DE * DE * DE * BA21 * BA21 * * LOAD NPU * BA4 * DE * DE * DE * BA4 * BA4 * * START NPU * BA4 * DE * DE * DE * BA4 * BA4 * * CHANGE REG LEV* BA5 * DE * DE * DE * BA21 * BA21 * * PROC COMMAND * DE * DE * DE * DE * DE * BA5,6 * * NPU OPERATION * DE * DE * DE * DE * DE * DE * * INIT REQUESTED* BA6,17 * BA6,17 * BA6,17 * BA6,17 * BA6,5 * BA6 * * INIT COMPLETED* BA6,19 * BA6,19 * BA6,19 * BA6,19 * BA6,7 * BE * * NPU TIMEOUT * BA6,11 * BA6,11 * BA6,11 * BA6,11 * BA6,8 * BA6,8 * * LOAD TIMEOUT * DE * DE * DE * DE * DE * DE * * MDI DIAGNOSTIC* BA6,21 * BA6,21 * BA6,21 * BA6,21 * BA6,23 * DE * * MDI AVAILABLE * DE * DE * DE * DE * DE * DE * * NO MDI STATUS * BA6,10 * BA6,10 * BA6,10 * BA6,10 * BA6,26 * DE * * UNABLE TO REST* BA6,10 * BA6,10 * BA6,10 * BA6,10 * BA6,26 * DE * * MDI INOPERAT * BA6,10 * BA6,10 * BA6,10 * BA6,10 * BA6,26 * DE * * NPU CHAN ERROR* BA6,10 * BA6,10 * BA6,10 * BA6,10 * BA6,8 * BA6,8 * * MDI CHAN ERROR* BA6,25 * BA6,25 * BA6,25 * BA6,25 * BA6,26 * DE * * PROTOCOL ERROR* BA6,11 * BA10 * BA10 * BA10 * BA6,8 * BA6,8 * * EST TURNED OFF* BA6,13 * BA6,13 * BA6,13 * BA6,13 * BA6,13 * BA6,13 * * REG ZERO RESP * AE * AE * AE * AE * AE * AE * ** ******************************************************************** BHSTATES SPACE 2,10 ** ******************************************************************** * * * B L P T* B F E O* B F E I* B L N B* B I E M* B I R Z* * * * H O R E* H R N P* H R N N* H O P O* H S R E* H S E E* * * STATE * S A O X* S O D E* S O D O* S A U O* S S R S* S S G R* * * * 6 D G T* 7 N R* 8 N P* 9 D T* 1 U O S* 1 U U O* * * * R * T A* T E* * O E R A* 1 E L * * INPUT * * N A * T* R* * G* * * * * P M * * * * E* * ** ******************************************************************** * INPUT DATA * BE * DE * DE * DE * DE * DE * * INPUT BACK * DE * DE * DE * DE * DE * DE * * INPUT COMMAND * DE * DE * DE * DE * DE * DE * * INPUT TEXT * BA1 * DE * DE * DE * DE * DE * * INP NULL TEXT * BE * DE * DE * DE * DE * DE * * INPUT ICMD * BE * DE * DE * DE * DE * DE * * INP ICMD RESP * BE * DE * DE * DE * DE * DE * * INP Q-MESSAGE * DE * DE * DE * DE * DE * DE * * OUTPUT DATA * DE * DE * DE * DE * DE * DE * * OUTPUT BACK * DE * DE * DE * DE * DE * DE * * OUTPUT COMMAND* DE * DE * DE * DE * DE * DE * * OUTPUT TEXT * BA2 * DE * BA21 * BA21 * DE * DE * * OUTPUT ICMD * DE * DE * DE * DE * DE * DE * * OUT ICMD RESP * DE * DE * DE * DE * DE * DE * * OUTPUT RESET * DE * DE * DE * DE * DE * DE * * OUT Q-MESSAGE * DE * DE * DE * DE * DE * DE * * PASS COMMAND * BA3 * BA3 * BA21 * BA21 * BA21 * BA21 * * LOAD NPU * BA3 * BA4 * BA4 * BA5 * BA4 * BA4 * * START NPU * BA3 * BA4 * BA4 * BA5,4 * BA4 * BA4 * * CHANGE REG LEV* BA21 * BA21 * BA21 * BA21 * BA21 * BA21 * * PROC COMMAND * DE * BA5,0 * BA5,9 * DE * BA5,11 * BA5,12 * * NPU OPERATION * DE * DE * DE * DE * DE * DE * * INIT REQUESTED* BA6,5 * BE * BA6,5 * BE * BA6 * BA6 * * INIT COMPLETED* BA6,7 * BE * BA6,7 * BE * BA6 * BA6 * * NPU TIMEOUT * BA6,8 * BA6,8 * BA6 * BA6,8 * BA6 * BA6 * * LOAD TIMEOUT * DE * DE * DE * BA6,16 * DE * DE * * MDI DIAGNOSTIC* DE * DE * BA6,23 * DE * DE * DE * * MDI AVAILABLE * DE * DE * DE * DE * DE * DE * * MDI OPERATION * DE * DE * BA6,7 * DE * DE * DE * * NO MDI STATUS * DE * DE * BA6 * DE * DE * DE * * UNABLE TO REST* DE * DE * BA6 * DE * DE * DE * * MDI INOPERAT * DE * DE * BA6 * DE * DE * DE * * NPU CHAN ERROR* BA6,8 * BA6,8 * BA6 * BA6,8 * BA6 * BA6 * * MDI CHAN ERROR* DE * BA6,8 * BA6 * DE * DE * DE * * PROTOCOL ERROR* BA6,8 * BA6,8 * BA6 * BA6,8 * BA6 * BA6 * * EST TURNED OFF* BA6,13 * BA6,13 * BA6,13 * BA6,13 * BA6 * BA6 * * REG ZERO RESP * AE * AE * AE * AE * AE * AE * ** ******************************************************************** BHSTATES SPACE 2,10 ** ******************************************************************** * * * B W R R* B I R Z* B W R R* B F T O* B B L T* B I R Z* * * * H A E E* H S E E* H A E E* H E U F* H O O I* H S E E* * * STATE * S I G S* S S G R* S I G S* S R F* S O A M* S S G R* * * * 1 T U P* 1 U U O* 1 T U P* 1 N *1 T D E* 1 U U O* * * * 2 L * 3 E L * 4 L * 5 E * 6 O* 7 E L * * INPUT * * * * * D * U* * * * * * * * * T* * ** ******************************************************************** * INPUT DATA * DE * DE * DE * DE * DE * DE * * INPUT BACK * DE * DE * DE * DE * DE * DE * * INPUT COMMAND * DE * DE * DE * DE * DE * DE * * INPUT TEXT * DE * DE * DE * DE * DE * DE * * INP NULL TEXT * DE * DE * DE * DE * DE * DE * * INPUT ICMD * DE * DE * DE * DE * DE * DE * * INP ICMD RESP * DE * DE * DE * DE * DE * DE * * INP Q-MESSAGE * DE * DE * DE * DE * DE * DE * * OUTPUT DATA * DE * DE * DE * DE * DE * DE * * OUTPUT BACK * DE * DE * DE * DE * DE * DE * * OUTPUT COMMAND* DE * DE * DE * DE * DE * DE * * OUTPUT TEXT * DE * DE * DE * DE * DE * DE * * OUTPUT ICMD * DE * DE * DE * DE * DE * DE * * OUT ICMD RESP * DE * DE * DE * DE * DE * DE * * OUTPUT RESET * DE * DE * DE * DE * DE * DE * * OUT Q-MESSAGE * DE * DE * DE * DE * DE * DE * * PASS COMMAND * BA21 * BA21 * BA21 * BA21 * BA21 * BA21 * * LOAD NPU * BA4 * BA4 * BA4 * BA4 * BA4 * BA4 * * START NPU * BA4 * BA4 * BA4 * BA4 * BA4 * BA4 * * CHANGE REG LEV* BA21 * BA21 * BA21 * BA21 * BA21 * BA21 * * PROC COMMAND * DE * BA5,14 * DE * BA5 * BA5,8 * BA5,18 * * NPU OPERATION * DE * DE * DE * DE * DE * DE * * INIT REQUESTED* BA6 * BA6 * BA6 * BA6 * BA6 * BA6 * * INIT COMPLETED* BA6 * BA6 * BA6 * BA6 * BA6 * BA6 * * NPU TIMEOUT * BA6 * BA6 * BA6 * BA6 * BA6 * BA6 * * LOAD TIMEOUT * DE * DE * DE * DE * DE * DE * * MDI DIAGNOSTIC* DE * DE * DE * DE * DE * DE * * MDI AVAILABLE * DE * DE * DE * DE * DE * DE * * MDI OPERATION * DE * DE * DE * DE * DE * DE * * NO MDI STATUS * DE * DE * DE * DE * DE * DE * * UNABLE TO REST* DE * DE * DE * DE * DE * DE * * MDI INOPERAT * DE * DE * DE * DE * DE * DE * * NPU CHAN ERROR* BA6 * BA6 * BA6 * BA6 * BA6 * BA6 * * MDI CHAN ERROR* DE * DE * DE * DE * DE * DE * * PROTOCOL ERROR* BA6 * BA6 * BA6 * BA6 * BA6 * BA6 * * EST TURNED OFF* BA6 * BA6 * BA6 * BA6 * BA6 * BA6 * * REG ZERO RESP * BA21,8 * AE * BA21,15* AE * AE * AE * ** ******************************************************************** BHSTATES SPACE 2,10 ** ******************************************************************** * * * B W R R* B I R Z* B W R R* B I R Z* B W R R* B R M I* * * * H A E E* H S E E* H A E E* H S E E* H A E E* H E D N* * * STATE * S I G S* S S G R* S I G S* S S G R* S I G S* S Q I I* * * * 1 T U P* 1 U U O* 2 T U P* 2 U U O* 2 T U P* 2 U T* * * * 8 L * 9 E L * 0 L * 1 E L * 2 L * 3 E I* * INPUT * * * * * * * S A* * * * * * * * * T L* ** ******************************************************************** * INPUT DATA * DE * DE * DE * DE * DE * DE * * INPUT BACK * DE * DE * DE * DE * DE * DE * * INPUT COMMAND * DE * DE * DE * DE * DE * DE * * INPUT TEXT * DE * DE * DE * DE * DE * DE * * INP NULL TEXT * DE * DE * DE * DE * DE * DE * * INPUT ICMD * DE * DE * DE * DE * DE * DE * * INP ICMD RESP * DE * DE * DE * DE * DE * DE * * INP Q-MESSAGE * DE * DE * DE * DE * DE * DE * * OUTPUT DATA * DE * DE * DE * DE * DE * DE * * OUTPUT BACK * DE * DE * DE * DE * DE * DE * * OUTPUT COMMAND* DE * DE * DE * DE * DE * DE * * OUTPUT TEXT * DE * DE * DE * DE * DE * DE * * OUTPUT ICMD * DE * DE * DE * DE * DE * DE * * OUT ICMD RESP * DE * DE * DE * DE * DE * DE * * OUTPUT RESET * DE * DE * DE * DE * DE * DE * * OUT Q-MESSAGE * DE * DE * DE * DE * DE * DE * * PASS COMMAND * BA21 * BA21 * BA21 * BA21 * BA21 * BA21 * * LOAD NPU * BA4 * BA4 * BA4 * BA4 * BA4 * BA4 * * START NPU * BA4 * BA4 * BA4 * BA4 * BA4 * BA4 * * CHANGE REG LEV* BA21 * BA21 * BA21 * BA21 * BA21 * BA21 * * PROC COMMAND * DE * BA5,20 * DE * BA5,22 * DE * BA5,24 * * NPU OPERATION * DE * DE * DE * DE * DE * DE * * INIT REQUESTED* BA6 * BA6 * BA6 * DE * DE * DE * * INIT COMPLETED* BA6 * BA6 * BA6 * DE * DE * DE * * NPU TIMEOUT * BA6 * BA6 * BA6 * DE * DE * DE * * LOAD TIMEOUT * DE * DE * DE * DE * DE * DE * * MDI DIAGNOSTIC* DE * DE * DE * BA6 * BA6 * BA6 * * MDI AVAILABLE * DE * DE * DE * DE * DE * DE * * MDI OPERATION * DE * DE * DE * DE * DE * DE * * NO MDI STATUS * DE * DE * DE * BA6 * BA6 * BA6 * * UNABLE TO REST* DE * DE * DE * BA6 * BA6 * BA6 * * MDI INOPERAT * DE * DE * DE * BA6 * BA6 * BA6 * * NPU CHAN ERROR* BA6 * BA6 * BA6 * DE * DE * DE * * MDI CHAN ERROR* DE * DE * DE * BA6 * BA6 * BA6 * * PROTOCOL ERROR* BA6 * BA6 * BA6 * BA6 * BA6 * BA6 * * EST TURNED OFF* BA6 * BA6 * BA6 * BA6 * BA6 * BA6 * * REG ZERO RESP * BA21,5 * AE * BA21,7 * AE * BA21,23* AE * ** ******************************************************************** BHSTATES SPACE 2,10 ** ***************************************** * * * B C M A* B I E M* B I E M* * * * H H D V* H S R E* H S R E* * * STATE * S E I A* S S R S* S S R S* * * * 2 C I* 2 U O S* 2 U O S* * * * 4 K L* 5 E R A* 6 E R A* * INPUT * * * G* G* * * * * E* E* ** ***************************************** * INPUT DATA * DE * DE * DE * * INPUT BACK * DE * DE * DE * * INPUT COMMAND * DE * DE * DE * * INPUT TEXT * DE * DE * DE * * INP NULL TEXT * DE * DE * DE * * INPUT ICMD * DE * DE * DE * * INP ICMD RESP * DE * DE * DE * * INP Q-MESSAGE * DE * DE * DE * * OUTPUT DATA * DE * DE * DE * * OUTPUT BACK * DE * DE * DE * * OUTPUT COMMAND* DE * DE * DE * * OUTPUT TEXT * DE * DE * DE * * OUTPUT ICMD * DE * DE * DE * * OUT OCMD RESP * DE * DE * DE * * OUTPUT RESET * DE * DE * DE * * OUT Q-MESSAGE * DE * DE * DE * * PASS COMMAND * BA21 * BA21 * BA21 * * LOAD NPU * BA4 * BA4 * BA4 * * START NPU * BA4 * BA4 * BA4 * * CHANGE REG LEV* BA21 * BA21 * BA21 * * PROC COMMAND * DE * BA5,0 * BA5,4 * * NPU OPERATION * DE * DE * DE * * INIT REQUESTED* DE * DE * DE * * INIT COMPLETED* DE * DE * DE * * NPU TIMEOUT * DE * DE * DE * * LOAD TIMEOUT * DE * DE * DE * * MDI DIAGNOSTIC* DE * BA6 * BA6 * * MDI AVAILABLE * BA6,4 * DE * DE * * MDI OPERATION * DE * DE * DE * * NO MDI STATUS * DE * BA6 * BA6 * * UNABLE TO REST* DE * BA6 * BA6 * * MDI INOPERAT * DE * BA6 * BA6 * * NPU CHAN ERROR* DE * DE * DE * * MDI CHAN ERROR* DE * BA6 * BA6 * * PROTOCOL ERROR* DE * BA6 * BA6 * * EST TURNED OFF* BA6,13 * BA6 * BA6 * * REG ZERO RESP * AE * AE * AE * ** ***************************************** BHSTATES EJECT * BLOCK HANDLER STATE RESPONSE ACTION DIRECTORY. * * ACTION NAME FUNCTION * ------ ---- -------- * * * BE BRIL BLOCK PROTOCOL ERROR * DE BRLE DRIVER ERROR * AE BRAE APPLICATION ERROR * BA1 BRND INPUT TEXT VIA STREAM RESPONSE * BA2 BROT OUTPUT TEXT VIA STREAM STATE RESPONSE * BA3 BRPT PASS COMMAND THROUGH TO NPU * BA4 BRCE GENERATE COMMAND ERROR RESPONSE * BA5 BRCO PROCESS COMMAND VIA OUTPUT COMMAND ACTION PROCESSOR * BA6 BRNA NO ACTION * BA7 BRDI INPUT DATA TEXT VIA STREAM STATE RESPONSE * BA8 BRNI INPUT NULL TEXT VIA STREAM STATE RESPONSE * BA9 BROH OUTPUT DATA TEXT VIA STREAM STATE RESPONSE * BA10 BRPE PROCESS BLOCK PROTOCOL ERROR * BA11 BRIH INPUT PRU DATA TEXT VIA STREAM STATE RESPONSE * BA12 BRIB INPUT BACK FOR PRU STREAM * BA13 BRIC INPUT COMMAND FOR PRU STREAM * BA14 BRIQ INPUT Q-MESSAGE FOR PRU STREAM * BA15 BRTC TRANSFER COMMAND FOR PRU STREAM * BA16 BROR TRANSFER RESET FOR PRU STREAM * BA17 BROQ TRANSFER Q-MESSAGE FOR PRU STREAM * BA18 BRIR INPUT INTERRUPT COMMAND RESPONSE FOR PRU STREAM * BA19 BROH TRANSFER PRU DATA TEXT VIA STREAM RESPONSE * BA20 BRTI OUTPUT INTERRUPT COMMAND FOR PRU STREAM * BA21 BRBO BYPASS CURRENT OUTPUT STSTATES EJECT ** STREAM STATE RESPONSE ACTION TABLES. * * THE FOLLWOING ARE THE STREAM STATE RESPONSE ACTION * TABLES FOR THE DRIVER. THE FORMAT OF AN ENTRY IS THE * ACTION ORDINAL AND THE STATE CHANGE, IF ANY. A LIST ** OF THE ACTIONS FOLLOWS THE TABLES. STSTATES SPACE 2,10 ** ******************************************************************** * * * S I S * S I P S* S P I I* S S P I* S W J C* S R J V* * * * T V T * T N R T* T R N D* T T R N* T A O A* T E O A* * * STATE * S T R * S I U A* S U P L* S A U P* S I B R* S Q B L* * * * 0 E * 1 T T* 2 U E* 3 R U* 4 T D* 5 U I* * * * A * I E* T * T T* * E D* * INPUT * * M * A * * * * S A* * * * * L * * * * T T* ** ******************************************************************** * INPUT DATA * SA1 * BE * BE * BE * SA9 * SA9 * * INPUT BACK * DE * BE * SA5 * SA5 * SA5 * SA5 * * INVALID INPUT * SA2 * DE * DE * DE * DE * DE * * OUTPUT DATA * SA3 * DE * DE * DE * DE * DE * * START PRU JOB * DE * DE * SA5,3 * DE * AE * DE * * START PRU DATA* DE * DE * SA5,17 * DE * AE * DE * * START IN FILE * DE * DE * SA5,18 * DE * AE * DE * * START OUT FILE* DE * DE * AE * DE * AE * DE * * VALID JOB * DE * DE * AE * DE * AE * DE * * INVALID JOB * DE * DE * AE * DE * AE * DE * * STOP PRU * DE * DE * AE * DE * AE * DE * * RESTART PRU * DE * DE * SA6 * DE * DA6 * DE * * BYPASS PRU * DE * DE * SA6 * DE * SA5,16 * DE * * ABORT PRU * DE * DE * SA6 * DE * SA5,13 * DE * * ABORT MARKER * DE * DE * AE * DE * AE * DE * * RESUME PRU OUT* DE * DE * AE * DE * AE * DE * * DIRECT OUTPUT * DE * DE * AE * DE * AE * DE * * EOJ OUTPUT * DE * DE * AE * DE * AE * DE * * SET FILE * DE * DE * AE * DE * AE * DE * * SET DEVICE * DE * DE * AE * DE * AE * DE * * COMMAND QUEUED* DE * DE * SA7 * SA7 * SA7 * SA7 * * QUEUED INPUT * DE * DE * BE * BE * SA5,5 * DE * * OUTPUT ALLOWED* DE * DE * DE * DE * DE * DE * * NO OUTPUT * DE * DE * DE * DE * DE * DE * * STREAM STOPPED* DE * DE * BE * DE * SA8,11 * DE * * BATCH INTER * DE * DE * SA8,11 * DE * SA8,11 * DE * * END OF INFORM * DE * DE * BE * DE * BE * DE * * END OF STREAM * DE * DE * BE * DE * SA8,2 * DE * * STREAM ABORTED* DE * DE * BE * DE * BE * DE * * ICMD RESPONSE * DE * DE * BE * BE * BE * BE * * ICMD ISSUED * DE * DE * DE * DE * DE * DE * * NPU CMD ISSUED* DE * DE * DE * SA6,4 * DE * DE * * RESET ISSUED * DE * DE * DE * DE * DE * DE * * APP REQUESTED * DE * DE * DE * DE * DE * SA10,6 * * RMS REQUESTED * DE * DE * DE * DE * DE * DE * * RMS COMPLETED * DE * DE * DE * DE * DE * DE * * RMS EOI * DE * DE * DE * DE * DE * DE * * RMS ERROR * DE * DE * DE * DE * DE * DE * * END FILE TRANS* DE * DE * DE * DE * DE * DE * * TRANS RMS ERR * DE * DE * DE * DE * DE * DE * * CHECKMARK * DE * DE * SE * DE * DE * DE * * END OF STREAM * DE * DE * SE * DE * BE * DE * * REQUEST REST * DE * DE * SE * DE * BE * DE * * CHECKMARK RPLY* DE * DE * SE * DE * BE * DE * * QUIT * DE * DE * SE * DE * BE * DE * * L7 CMD ISSUED * DE * DE * DE * DE * DE * DE * * TERMINATE PRU * DE * SA6,62 * SA6,62 * SA6,62 * SA6,62 * DE * * PRU TERMINATED* DE * DE * DE * DE * DE * DE * * FE INOPER * SA4 * SA5,61 * SA5,61 * SA5,61 * SA5,61 * SA5,61 * * PROTOCOL ERROR* SA5 * SA5,61 * SA5,61 * SA5,61 * SA5,61 * SA5,61 * * LEVEL SEVEN ER* DE * DE * SA5,61 * DE * DE * DE * * LOGIC ERROR * DE * DE * DE * DE * DE * DE * ** ******************************************************************** STSTATES SPACE 2,10 ** ******************************************************************** * * * S W J V* S R R O* S W R C* S P I A* S E W T* S S S E* * * * T A O A* T E M U* T A M O* T R N C* T O R O* T T T X* * * STATE * S I B L* S Q S T* S I S M* S U P T* S I I * S R O T* * * * 6 T I* 7 U P* 8 T P* 9 U I* 1 T R* 1 E P E* * * * D* E U* L* T V* 0 T M* 1 A P R* * INPUT * * A* S T* * E* E S* M E N* * * * T* T * * * N * D * ** ******************************************************************** * INPUT DATA * SA9 * SA9 * SA9 * SA9 * SA9 * SA9 * * INPUT BACK * SA5 * SA5 * SA5 * SA5 * SA5 * SA5 * * INVALID INPUT * DE * DE * DE * DE * DE * DE * * OUTPUT DATA * DE * DE * DE * DE * DE * DE * * START PRU JOB * AE * DE * DE * AE * AE * SA12,*** * START PRU DATA* AE * DE * DE * AE * AE * SA12,*** * START IN FILE * AE * DE * DE * AE * AE * AE * * START OUT FILE* AE * DE * DE * AE * AE * AE * * VALID JOB * SA6,7 * DE * DE * AE * AE * SA6 * * INVALID JOB * SA6,16 * DE * DE * AE * AE * SA6 * * STOP PRU * AE * DE * DE * AE * AE * AE * * RETSTART PRU * SA6 * DE * DE * SA6 * SA6 * SA5,12 * * BYPASS PRU * SA11,16* DE * DE * SA5,16 * SA6 * SA13 * * ABORT PRU * SA11,13* DE * DE * SA5,13 * SA5,13 * SA5,13 * * ABORT MARKER * AE * DE * DE * AE * AE * AE * * RESUME PRU OUT* AE * DE * DE * AE * AE * AE * * DIRECT OUTPUT * AE * DE * DE * AE * AE * AE * * EOJ OUTPUT * AE * DE * DE * AE * AE * AE * * SET FILE * AE * DE * DE * AE * AE * AE * * SET DEVICE * AE * DE * DE * AE * AE * AE * * COMMAND QUEUED* SA7 * SA7 * SA7 * SA7 * SA7 * SA7 * * QUEUED INPUT * DE * DE * DE * SA5,7 * SA5,7 * SA12,*** * OUTPUT ALLOWED* DE * DE * DE * DE * DE * DE * * NO OUTPUT * DE * DE * DE * DE * DE * DE * * STREAM STOPPED* DE * DE * DE * SA8,11 * SA8,11 * SA8 * * BATCH INT * DE * DE * DE * SA8,11 * SA8,11 * SA8 * * END OF INFORM * DE * DE * DE * BE * SA8,4 * SA12,*** * END OF STREAM * DE * DE * DE * BE * BE * SA12,*** * STREAM ABORTED* DE * DE * DE * BE * BE * BE * * ICMD RESPONSE * BE * BE * BE * BE * BE * BE * * ICMD ISSUED * DE * DE * DE * DE * DE * DE * * NPU CMD ISSUED* DE * DE * DE * DE * DE * DE * * RESET ISSUED * DE * DE * DE * DE * DE * DE * * APP REQUESTED * DE * DE * DE * DE * DE * DE * * RMS REQUESTED * DE * SR5,8 * DE * DE * DE * DE * * RMS COMPLETED * DE * DE * SA11,9 * DE * DE * DE * * RMS EOI * DE * DE * SA11,10* DE * DE * DE * * RMS ERROR * DE * DE * SA11,15* DE * DE * DE * * END FILE TRANS* DE * DE * SA11,20* DE * DE * DE * * TRANS RMS ERR@* DE * DE * SA11,60* DE * DE * DE * * CHECKMARK * DE * DE * DE * SA14,22* BE * BE * * END OF STREAM * DE * DE * DE * SE * BE * BE * * REQUEST REST * DE * DE * DE * SE * BE * BE * * CHECKMARK RPLY* DE * DE * DE * SE * BE * BE * * QUIT * DE * DE * DE * SE * BE * BE * * L7 CMD ISSUED * DE * DE * DE * DE * DE * DE * * TERMINATE PRU * SA6,62 * DE * DE * SA6,62 * SA6,62 * SA6,62 * * PRU TERMINATED* DE * DE * DE * DE * DE * DE * * FE INOPER * SA5,61 * SA5,61 * SA5,61 * SA5,61 * SA5,61 * SA5,61 * * PROTOCOL ERROR* SA5,61 * SA5,61 * SA5,61 * SA5,61 * SA5,61 * SA5,61 * * LEVEL SEVEN ER* DE * SA5,59 * SA5,59 * SA5,59 * DE * DE * * LOGIC ERROR * DE * DE * DE * DE * DE * DE * ** ******************************************************************** STSTATES SPACE 2,10 ** ******************************************************************** * * * S I R I* S I A I* S W S A* S S S I* S W E * S I S I* * * * T S E N* T S B N* T A T B* T T T N* T A O * T S T N* * * STATE * S S S P* S S O P* S I R O* S R O T* S I I * S S A P* * * * 1 U T U* 1 U P U* 1 T E R* 1 E P E* 1 T * 1 U R U* * * * 2 E A T* 3 E T T* 4 A T* 5 A P R* 6 * 7 E T T* * INPUT * * R * * M E* M E N* * * * * * T * * D* D * * * ** ******************************************************************** * INPUT DATA * SA9 * SA9 * SA16 * SA16 * SA16 * BE * * INPUT BACK * SA5 * SA5 * SA5 * SA5 * SA5 * BE * * INVALID INPUT * DE * DE * DE * DE * DE * DE * * OUTPUT DATA * DE * DE * DE * DE * DE * DE * * START PRU JOB * DE * DE * AE * DE * AE * DE * * START PRU DATA* DE * DE * AE * DE * AE * DE * * START IN FILE * DE * DE * AE * DE * AE * DE * * START OUT FILE* DE * DE * AE * DE * AE * DE * * VALID JOB * DE * DE * SA6 * DE * SA6 * DE * * INVALID JOB * DE * DE * SA6 * DE * SA6 * DE * * STOP PRU * DE * DE * AE * DE * AE * DE * * RESTART PRU * DE * DE * SA6 * DE * SA6 * DE * * BYPASS PRU * DE * DE * AE * DE * SA6 * DE * * ABORT PRU * DE * DE * AE * DE * SA5,13 * DE * * ABORT MARKER * DE * DE * AE * DE * AE * DE * * RESUME PRU OUT* DE * DE * AE * DE * AE * DE * * DIRECT OUTPUT * DE * DE * AE * DE * AE * DE * * EOJ OUTPUT * DE * DE * AE * DE * AE * DE * * SET FILE * DE * DE * AE * DE * AE * DE * * SET DEVICE * DE * DE * AE * DE * AE * DE * * COMMAND QUEUED* SA7 * SA7 * SA7 * SA7 * SA7 * DE * * QUEUED INPUT * DE * DE * SA11 * DE * SA11 * DE * * OUTPUT ALOOWED* DE * DE * DE * DE * DE * DE * * NO OUTPUT * DE * DE * DE * DE * DE * DE * * STREAM STOPPED* DE * DE * SA8 * DE * SA8,11 * DE * * BATCH INTER * DE * DE * SA8 * DE * SA8,11 * DE * * END OF INFORM * DE * DE * SA8 * DE * SA8,4 * DE * * END OF STREAM * DE * DE * SA8,2 * DE * SA8,2 * DE * * STRAM ABORTED * DE * DE * SA8,2 * DE * BE * DE * * ICMD RESPONSE * BE * BE * BE * BE * BE * BE * * ICMD ISSUED * DE * DE * DE * DE * DE * DE * * NPU CMD ISSUED* SA15,*** SA6,14 * DE * DE * DE * SA6,9 * * RESET ISSUED * DE * DE * DE * DE * DE * DE * * APP REQUESTED * DE * DE * DE * SA10,16* DE * DE * * RMS REQUESTED * DE * DE * DE * DE * DE * DE * * RMS COMPLETED * DE * DE * DE * DE * DE * DE * * RMS EOI * DE * DE * DE * DE * DE * DE * * RMS ERROR * DE * DE * DE * DE * DE * DE * * END FILE TRANS* DE * DE * DE * DE * DE * DE * * TRANS RMS ERR * DE * DE * DE * DE * DE * DE * * CHECKMARK * DE * DE * BE * DE * BE * DE * * END OF STREAM * DE * DE * BE * DE * BE * DE * * REQUEST RESET * DE * DE * BE * DE * BE * DE * * CHECKMARK RPLY* DE * DE * BE * DE * BE * DE * * QUIT * DE * DE * BE * DE * BE * DE * * L7 CMD ISSUED * DE * DE * DE * DE * DE * DE * * TERMINATE PRU * SA6,62 * SA6,62 * SA6,62 * DE * SA6,62 * SA6,62 * * PRU TERMINATED* DE * DE * DE * DE * DE * DE * * FE INOPER * SA5,61 * SA5,61 * SA5,61 * SA5,61 * SA5,61 * SA5,61 * * PROTOCOL ERROR* SA5,61 * SA5,61 * SA5,61 * SA5,61 * SA5,61 * SA5,61 * * LEVEL SEVEN ER* DE * DE * DE * DE * DE * DE * * LOGIC ERROR * DE * DE * DE * DE * DE * DE * ** ******************************************************************** STSTATES SPACE 2,10 ** ******************************************************************** * * * S I F O* S I S R* S E F I* S W E S* S I C R* S P O I* * * * T S I N* T S T E* T N I N* T A N T* T S H E* T R U D* * * STATE * S S L * S S A P* S D L * S I D R* S S E P* S U T L* * * * 1 U E * 1 U R L* 2 E * 2 T E* 2 U C L* 2 P E* * * * 8 E * 9 E T Y* 0 * 1 O A* 2 E K Y* 3 U * * INPUT * * I * * * F M* M * T * * * * N * * * * K * * ** ******************************************************************** * INPUT DATA * BE * DE * DE * BE * SA9 * BE * * INPUT BACK * BE * BE * SA5 * SA5 * SA5 * BE * * INVALID INPUT * DE * DE * DE * DE * DE * DE * * OUTPUT DATA * DE * DE * DE * DE * DE * DE * * START PRU JOB * DE * DE * DE * AE * DE * AE * * START PRU DATA* DE * DE * DE * AE * DE * SA6,29 * * START IN FILE * DE * DE * DE * AE * DE * AE * * START OUT FILE* DE * DE * DE * AE * DE * SA6,29 * * VALID JOB * DE * DE * DE * AE * DE * AE * * INVALID JOB * DE * DE * DE * AE * DE * AE * * STOP PRU * DE * DE * DE * AE * DE * SA6 * * RESTART PRU * DE * DE * DE * AE * DE * SA6 * * BYPASS PRU * DE * DE * DE * AE * DE * AE * * ABORT PRU * DE * DE * DE * AE * DE * SA5,50 * * ABORT MARKER * DE * DE * DE * AE * DE * AE * * RESUME PRU OUT* DE * DE * DE * AE * DE * AE * * DIRECT OUTPUT * DE * DE * DE * AE * DE * SA5,26 * * EOJ OUTPUT * DE * DE * DE * AE * DE * SA5,35 * * SET FILE * DE * DE * DE * AE * DE * SA5,24 * * SET DEVICE * DE * DE * DE * AE * DE * SA5,24 * * COMMAND QUEUED* DE * DE * SA7 * SA7 * SA7 * DE * * QUEUED INPUT * DE * DE * DE * BE * DE * DE * * OUTPUT ALLOWED* DE * DE * DE * DE * DE * SA5 * * NO OUTPUT * DE * DE * DE * DE * DE * DE * * STREAM STOPPED* DE * DE * DE * BE * DE * SA19,39* * BATCH INT * DE * DE * DE * BE * DE * SA19,39* * END OF INFORM * DE * DE * DE * BE * DE * BE * * END OF STREAM * DE * DE * DE * BE * DE * BE * * STREAM ABORTED* DE * DE * DE * BE * DE * BE * * ICMD RESPONSE * BE * BE * BE * BE * DE * BE * * ICMD ISSUED * DE * DE * DE * DE * DE * DE * * NPU CMD ISSUED* SA17,19* DE * DE * DE * DE * DE * * RESET ISSUED * DE * DE * DE * DE * DE * DE * * APP REQUESTED * DE * DE * SA10,21* DE * DE * DE * * RMS REQUESTED * DE * DE * DE * DE * DE * DE * * RMS COMPLETED * DE * DE * DE * DE * DE * DE * * RMS EOI * DE * DE * DE * DE * DE * DE * * RMS ERROR * DE * DE * DE * DE * DE * DE * * END FILE TRANS* DE * DE * DE * DE * DE * DE * * TRANS RMS ERR * DE * DE * DE * DE * DE * DE * * CHECKMARK * DE * DE * DE * SE * DE * SE * * END OF STREAM * DE * DE * DE * SA8,61 * DE * SE * * REQUEST REST * DE * DE * DE * SE * DE * SE * * CHECKMARK RPLY* DE * DE * DE * SE * DE * SE * * QUIT * DE * DE * DE * SE * DE * SE * * L7 CMD ISSUED * DE * SA5,9 * DE * DE * SA18,9 * DE * * TERMINATE PRU * SA6,62 * SA6,62 * DE * SA6,62 * SA6,62 * SA6,62 * * PRU TERMINATED* DE * DE * DE * DE * DE * DE * * FE INOPER * SA5,61 * SA5,61 * SA5,61 * SA5,61 * SA5,61 * SA5,61 * * PROTOCOL ERROR* SA5,61 * SA5,61 * SA5,61 * SA5,61 * SA5,61 * SA5,61 * * LEVEL SEVEN ER* SA5,59 * SA5,59 * SA5,59 * SA5,59 * SA5,59 * SA5,59 * * LOGIC ERROR * DE * DE * DE * DE * DE * DE * ** ******************************************************************** STSTATES SPACE 2,10 ** ******************************************************************** * * * S I C T* S W C A* S I D O* S D O A* S W O A* S P O A* * * * T S O O* T A O C* T S I U* T I U C* T A U C* T R U C* * * STATE * S S M * S I M K* S S R T* S R T T* S I T T* S U T T* * * * 2 U M N* 2 T M N* 2 U E P* 2 E P I* 2 T P I* 2 P I* * * * 4 E A P* 5 A O* 6 E C U* 7 C U V* 8 U V* 9 U V* * INPUT * * N U* N W* T T* T T E* N T I* T E* * * * D * D * * * O T* * ** ******************************************************************** * INPUT DATA * BE * BE * BE * BE * BE * BE * * INPUT BACK * BE * SA5,23 * SA20 * SA20 * SA20 * SA5 * * INVALID INPUT * DE * DE * DE * DE * DE * DE * * OUTPUT DATA * DE * DE * SA21,27* DE * DE * DE * * START PRU JOB * DE * AE * DE * AE * AE * AE * * START PRU DATA* DE * AE * DE * SA5,28 * AE * AE * * START IN FILE * DE * AE * DE * AE * AE * AE * * START OUT FILE* DE * AE * DE * AE * AE * AE * * VALID JOB * DE * AE * DE * AE * AE * AE * * INVALID JOB * DE * AE * DE * AE * AE * AE * * STOP PRU * DE * AE * DE * SA5,28 * AE * SA6,41 * * RESTART PRU * DE * AE * DE * SA5 * AE * SA6 * * BYPASS PRU * DE * AE * DE * AE * AE * AE * * ABORT PRU * DE * SA5,50 * DE * SA5,50 * SA5,50 * SA5,50 * * ABORT MARKER * DE * AE * DE * AE * AE * AE * * RESUME PRU OUT* DE * AE * DE * AE * AE * AE * * DIRECT OUTPUT * DE * AE * DE * SA5,26 * AE * AE * * EOJ OUTPUT * DE * AE * DE * AE * AE * AE * * SET FILE * DE * AE * DE * SA5,28 * AE * SA5,47 * * SET DEVICE * DE * AE * DE * SA5,28 * AE * SA5,47 * * COMMAND QUEUED* DE * DE * DE * DE * DE * DE * * QUEUED INPUT * DE * DE * DE * DE * DE * DE * * OUTPUT ALLOWED* DE * DE * DE * SA5 * DE * SA5,30 * * NO OUTPUT * DE * SA5,23 * DE * DE * SA5,23 * DE * * STREAM STOPPED* SA10,39* SA19,39* SA10,39* SA19,39* SA19,39* SA19,39* * BATCH INTER * SA10,39* SA19,39* SA10,39* SA19,39* SA19,39* SA19,39* * END OF INFORM * BE * BE * BE * BE * BE * BE * * END OF STREAM * BE * BE * BE * BE * BE * BE * * STREAM ABORTED* BE * BE * BE * BE * BE * BE * * ICMD RESPONSE * BE * BE * BE * BE * BE * BE * * ICMD ISSUED * DE * DE * DE * DE * DE * DE * * NPU CMD ISSUED* SA6,25 * DE * DE * DE * DE * DE * * RESET ISSUED * DE * DE * DE * DE * DE * DE * * APP REQUESTED * DE * DE * DE * DE * DE * DE * * RMS REQUESTED * DE * DE * DE * DE * DE * DE * * RMS COMPLETED * DE * DE * DE * DE * DE * DE * * RMS EOI * DE * DE * DE * DE * DE * DE * * RMS ERROR * DE * DE * DE * DE * DE * DE * * END FILE TRANS* DE * DE * DE * DE * DE * DE * * TRANS RMS ERR * DE * DE * DE * DE * DE * DE * * CHECKMARK * SE * SE * SE * SE * BE * SE * * END OF STREAM * SE * SE * SE * SE * BE * SE * * REQUEST REST * SE * SE * SE * SE * BE * SE * * CHECKMARK RPLY* SE * SE * SE * SE * BE * SA5 * * QUIT * SE * SE * SE * SE * BE * SE * * L7 CMD ISSUED * DE * DE * DE * DE * DE * SA22 * * TERMINATE PRU * SA6,62 * SA6,62 * SA6,62 * SA6,62 * SA6,62 * SA6,62 * * PRU TERMINATED* DE * DE * DE * DE * DE * DE * * FE INOPER * SA5,61 * SA5,61 * SA5,61 * SA5,61 * SA5,61 * SA5,61 * * PROTOCOL ERROR* SA5,61 * SA5,61 * SA5,61 * SA5,61 * SA5,61 * SA5,61 * * LEVEL SEVEN ER* DE * DE * DE * DE * DE * SA5,59 * * LOGIC ERROR * DE * DE * DE * DE * DE * DE * ** ******************************************************************** STSTATES SPACE 2,10 ** ******************************************************************** * * * S R R I* S W R C* S I P O* S I L O* S W E D* S I E O* * * * T E M N* T A M O* T S R U* T S A U* T A O E* T S O U* * * STATE * S Q S P* S I S M* S S U T* S S S T* S I I L* S S J T* * * * 3 U U* 3 T P* 3 U P* 3 U T P* 3 T I* 3 U P* * * * 0 E T* 1 L* 2 E U* 3 E U* 4 V* 5 E U* * INPUT * * S * * T* T* E* T* * * * T * * * * R* * ** ******************************************************************** * INPUT DATA * BE * BE * BE * BE * BE * BE * * INPUT BACK * SA5 * SA5 * SA5 * SA5 * SA5 * BE * * INVALID INPUT * DE * DE * DE * DE * DE * DE * * OUTPUT DATA * DE * DE * SA23,29* SA23,34* DE * SA21,36* * START PRU JOB * DE * DE * DE * DE * AE * DE * * START PRU DATA* DE * DE * DE * DE * AE * DE * * START IN FILE * DE * DE * DE * DE * AE * DE * * START OUT FILE* DE * DE * DE * DE * AE * DE * * VALID JOB * DE * DE * DE * DE * AE * DE * * INVALID JOB * DE * DE * DE * DE * AE * DE * * STOP PRU * DE * DE * DE * DE * AE * DE * * RESTART PRU * DE * DE * DE * DE * AE * DE * * BYPASS PRU * DE * DE * DE * DE * AE * DE * * ABORT PRU * DE * DE * DE * DE * SA5,50 * DE * * ABORT MARKER * DE * DE * DE * DE * AE * DE * * RESUME PRU OUT* DE * DE * DE * DE * AE * DE * * DIRECT OUTPUT * DE * DE * DE * DE * AE * DE * * EOJ OUTPUT * DE * DE * DE * DE * AE * DE * * SET FILE * DE * DE * DE * DE * AE * DE * * SET DEVICE * DE * DE * DE * DE * AE * DE * * COMMAND QUEUED* DE * DE * DE * DE * DE * DE * * QUEUED INPUT * DE * DE * DE * DE * DE * DE * * OUTPUT ALLOWED* DE * DE * DE * DE * DE * DE * * NO OUTPUT * DE * DE * DE * DE * SA5 * DE * * STREAM STOPPED* SA10,39* SA10,39* SA10,38* SA24,38* SA19,39* SA10,39* * BATCH INTER * SA10,39* SA10,37* SA10,38* SA24,38* SA19,39* SA10,39* * END OF INFORM * BE * BE * BE * BE * SA10,23* BE * * END OF STREAM * BE * BE * BE * BE * BE * BE * * STREAM ABORTED* BE * BE * BE * BE * BE * BE * * ICMD RESPONSE * BE * BE * BE * BE * BE * BE * * ICMD ISSUED * DE * DE * DE * DE * DE * DE * * NPU CMD ISSUED* DE * DE * DE * DE * DE * DE * * RESET ISSUED * DE * DE * DE * DE * DE * DE * * APP REQUESTED * DE * DE * DE * DE * DE * DE * * RMS REQUESTED * SA5,21 * DE * DE * DE * DE * DE * * RMS COMPLETED * DE * SA5,32 * DE * DE * DE * DE * * RMS EOI * DE * SA5,33 * DE * DE * DE * DE * * RMS ERROR * DE * SA11,44* DE * DE * DE * DE * * END FILE TRANS* DE * SA5,55 * DE * DE * DE * DE * * TRANS RMS ERR * DE * SA11,60* DE * DE * DE * DE * * CHECKMARK * SE * SE * SE * BE * BE * BE * * END OF STREAM * SE * SE * SE * BE * BE * BE * * REQUEST REST * SE * SE * SE * BE * BE * BE * * CHECKMARK RPLY* SA5 * SA5 * SA5 * BE * BE * BE * * QUIT * SE * SE * SE * BE * BE * BE * * L7 CMD ISSUED * DE * DE * DE * DE * DE * DE * * TERMINATE PRU * DE * DE * DE * DE * SA6,62 * DE * * PRU TERMINATED* DE * DE * DE * DE * DE * DE * * FE INOPER * SA5,61 * SA5,61 * SA5,61 * SA5,61 * SA5,61 * SA5,61 * * PROTOCOL ERROR* SA5,61 * SA5,61 * SA5,61 * SA5,61 * SA5,61 * SA5,61 * * LEVEL SEVEN ER* SA5,59 * SA5,59 * SA5,59 * DE * DE * DE * * LOGIC ERROR * DE * DE * DE * DE * DE * DE * ** ******************************************************************** STSTATES SPACE 2,10 ** ******************************************************************** * * * S W E D* S W R C* S I P O* S S S E* S I L O* S W O A* * * * T A O E* T A M O* T S R U* T T T X* T S A U* T A U C* * * STATE * S I I L* S I S M* S S U T* S R O T* S S S T* S I T T* * * * 3 T I* 3 T P* 3 U P* 3 E P E* 4 U T P* 4 T P I* * * * 6 V* 7 L* 8 E U* 9 A P R* 0 E U* 1 U V* * INPUT * * E* * T* M E N* T* N T I* * * * R* * * D * * D T* ** ******************************************************************** * INPUT DATA * BE * BE * BE * BE * BE * BE * * INPUT BACK * SA5 * BE * BE * SA5 * BE * SA5 * * INVALID INPUT * DE * DE * DE * DE * DE * DE * * OUTPUT DATA * DE * DE * SA23,39* DE * SA23,39* DE * * START PRU JOB * AE * DE * DE * AE * DE * AE * * START PRU DATA* AE * DE * DE * SA5 * DE * AE * * START IN FILE * AE * DE * DE * AE * DE * AE * * START OUT FILE* AE * DE * DE * AE * DE * AE * * VALID JOB * AE * DE * DE * AE * DE * AE * * INVALID JOB * AE * DE * DE * AE * DE * AE * * STOP PRU * AE * DE * DE * SA6 * DE * AE * * RESTART PRU * AE * DE * DE * SA5,48 * DE * AE * * BYPASS PRU * AE * DE * DE * AE * DE * AE * * ABORT PRU * SA5,50 * DE * DE * SA5,50 * DE * SA5,50 * * ABORT MARKER * AE * DE * DE * AE * DE * AE * * RESUME PRU OUT* AE * DE * DE * SA6 * DE * AE * * DIRECT OUTPUT * AE * DE * DE * SA5 * DE * AE * * EOJ OUTPUT * AE * DE * DE * SA5 * DE * AE * * SET FILE * AE * DE * DE * SA5 * DE * AE * * SET DEVICE * AE * DE * DE * SA5 * DE * AE * * COMMAND QUEUED* DE * DE * DE * DE * DE * DE * * QUEUED INPUT * DE * DE * DE * DE * DE * DE * * OUTPUT ALLOWED* DE * DE * DE * SA5 * DE * DE * * NO OUTPUT * SA5 * DE * DE * DE * DE * SA5,42 * * STREAM STOPPED* SA19,39* SA10 * BE * SA10 * SA10 * SA10,39* * BATCH INTER * SA19,39* SA10 * SA10 * SA10 * SA10 * SA10,39* * END OF INFORM * SA10,23* BE * BE * SA10,23* BE * BE * * END OF STREAM * BE * BE * BE * BE * BE * BE * * STREAM ABORTED* BE * BE * BE * BE * BE * BE * * ICMD RESPONSE * BE * BE * BE * BE * BE * BE * * ICMD ISSUED * DE * DE * DE * DE * DE * DE * * NPU CMD ISSUED* DE * DE * DE * DE * DE * DE * * RESET ISSUED * DE * DE * DE * DE * DE * DE * * APP REQUESTED * DE * DE * DE * DE * DE * DE * * RMS REQUESTED * DE * DE * DE * DE * DE * DE * * RMS COMPLETED * DE * SA5,38 * DE * DE * DE * DE * * RMS EOI * DE * SA24,38* DE * DE * DE * DE * * RMS ERROR * DE * SA11,46* DE * DE * DE * DE * * END FILE TRANS* DE * DE * DE * DE * DE * DE * * TRANS RMS ERR * DE * DE * DE * DE * DE * DE * * CHECKMARK * BE * BE * BE * BE * BE * BE * * END OF STREAM * BE * BE * BE * BE * BE * BE * * REQUEST REST * BE * BE * BE * BE * BE * BE * * CHECKMARK RPLY* BE * BE * BE * BE * BE * BE * * QUIT * BE * BE * BE * BE * BE * BE * * L7 CMD ISSUED * DE * DE * DE * DE * DE * DE * * TERMINATE PRU * SA6,62 * DE * DE * SA6,62 * DE * SA6,62 * * PRU TERMINATED* DE * DE * DE * DE * DE * DE * * FE INOPER * SA5,61 * SA5,61 * SA5,61 * SA5,61 * SA5,61 * SA5,61 * * PROTOCOL ERROR* SA5,61 * SA5,61 * SA5,61 * SA5,61 * SA5,61 * SA5,61 * * LEVEL SEVEN ER* DE * DE * DE * DE * DE * DE * * LOGIC ERROR * DE * DE * DE * DE * DE * DE * ** ******************************************************************** STSTATES SPACE 2,10 ** ******************************************************************** * * * S R S S* S S S B* S R S S* S S S I* S R S S* S I C T* * * * T E T T* T T T Y* T E T T* T T T N* T E T T* T S O O* * * STATE * S P R O* S R O * S P R O* S R O T* S P R O* S S M * * * * 4 O E P* 4 E P A* 4 O E P* 4 E P E* 4 O E P* 4 U M N* * * * 2 R A P* 3 A P P* 4 R A P* 5 A P R* 6 R A P* 7 E A P* * INPUT * * T M E* M E P* T M E* M E N* T M E* N U* * * * D* D* D* D * D* D * ** ******************************************************************** * INPUT DATA * BE * BE * BE * BE * BE * BE * * INPUT BACK * BE * BE * SA5 * SA5 * SA5 * SA5 * * INVALID INPUT * DE * DE * DE * DE * DE * DE * * OUTPUT DATA * DE * DE * DE * DE * DE * DE * * START PRU JOB * DE * AE * DE * AE * DE * DE * * START PRU DATA* DE * AE * DE * AE * DE * DE * * START IN FILE * DE * AE * DE * AE * DE * DE * * START OUT FILE* DE * AE * DE * AE * DE * DE * * VALID JOB * DE * AE * DE * AE * DE * DE * * INVALID JOB * DE * AE * DE * AE * DE * DE * * STOP PRU * DE * AE * DE * SA6 * DE * DE * * RESTART PRU * DE * AE * DE * AE * DE * DE * * BYPASS PRU * DE * AE * DE * AE * DE * DE * * ABORT PRU * DE * SA5,50 * DE * SA5,50 * DE * DE * * ABORT MARKER * DE * AE * DE * AE * DE * DE * * RESUME PRU OUT* DE * SA15,*** DE * AE * DE * DE * * DIRECT OUTPUT * DE * AE * DE * AE * DE * DE * * EOJ OUTPUT * DE * AE * DE * AE * DE * DE * * SET FILE * DE * AE * DE * SA5 * DE * DE * * DET DEVICE * DE * AE * DE * SA5 * DE * DE * * COMMAND QUEUED* DE * DE * DE * DE * DE * DE * * QUEUED INPUT * DE * DE * DE * DE * DE * DE * * OUTPUT ALLOWED* DE * SA5 * DE * SA5 * DE * DE * * NO OUTPUT * DE * DE * DE * DE * DE * DE * * STREAM STOPPED* SA10,39* SA10,39* SA10,46* SA10,39* SA10 * SA10,39* * BATCH INTER * SA10,39* SA10,39* SA10,46* SA10,39* SA10 * SA10,39* * END OF INFORM * BE * BE * BE * BE * BE * BE * * END OF STREAM * BE * BE * BE * BE * BE * BE * * STREAM ABORTED* BE * BE * BE * BE * BE * BE * * ICMD RESPONSE * BE * BE * BE * BE * BE * BE * * ICMD ISSUED * DE * DE * DE * DE * DE * DE * * NPU CMD ISSUED* DE * DE * DE * DE * DE * SA15,*** * RESET ISSUED * DE * DE * DE * DE * DE * DE * * APP REQUESTED * SA10,43* DE * SA10,43* DE * SA10,39* DE * * RMS REQUESTED * DE * DE * DE * DE * DE * DE * * RMS COMPLETED * DE * DE * DE * DE * DE * DE * * RMS EOI * DE * DE * DE * DE * DE * DE * * RMS ERROR * DE * DE * DE * DE * DE * DE * * END FILE TRANS* DE * DE * DE * DE * DE * DE * * TRANS RMS ERR * DE * DE * DE * DE * DE * DE * * CHECKMARK * BE * BE * BE * BE * BE * BE * * END OF STREAM * BE * BE * BE * BE * BE * BE * * REQUEST REST * BE * BE * BE * BE * BE * BE * * CHECKMARK RPLY* BE * BE * BE * BE * BE * BE * * QUIT * BE * BE * BE * BE * BE * BE * * L7 CMD ISSUED * DE * DE * DE * DE * DE * DE * * TERMINATE PRU * DE * SA6,62 * DE * SA6,62 * DE * SA6,62 * * PRU TERMINATED* DE * DE * DE * DE * DE * DE * * FE INOPER * SA5,61 * SA5,61 * SA5,61 * SA5,61 * SA5,61 * SA5,61 * * PROTOCOL ERROR* SA5,61 * SA5,61 * SA5,61 * SA5,61 * SA5,61 * SA5,61 * * LEVEL SEVEN ER* DE * DE * DE * DE * DE * DE * * LOGIC ERROR * DE * DE * DE * DE * DE * DE * ** ******************************************************************** STSTATES SPACE 2,10 ** ******************************************************************** * * * S I R I* S W I R* S I A I* S W I R* S W A M* S I A M* * * * T S E C* T A C E* T S B C* T A C E* T A B A* T S B A* * * STATE * S S S M* S I M S* S S O M* S I M S* S I O R* S S O R* * * * 4 U T D* 4 T D P* 5 U R D* 5 T D P* 5 T R K* 5 U R K* * * * 8 E A * 9 O* 0 E T * 1 O* 2 T E* 3 E T E* * INPUT * * R * N* * N* R* R* * * * T * S* * S* * * ** ******************************************************************** * INPUT DATA * BE * BE * BE * BE * BE * BE * * INPUT BACK * BE * SA5 * SA5 * SA5 * SA5 * SA5 * * INVALID INPUT * DE * DE * DE * DE * DE * DE * * OUTPUT DATA * DE * DE * DE * DE * DE * DE * * START PRU JOB * DE * AE * DE * AE * AE * DE * * START PRU DATA* DE * SA5 * DE * SA6 * SA6 * DE * * START IN FILE * DE * AE * DE * AE * AE * DE * * START OUT FILE* DE * AE * DE * AE * AE * DE * * VALID JOB * DE * AE * DE * AE * AE * DE * * INVALID JOB * DE * AE * DE * AE * AE * DE * * STOP PRU * DE * AE * DE * SA6 * SA6 * DE * * RESTART PRU * DE * AE * DE * AE * AE * DE * * BYPASS PRU * DE * AE * DE * AE * AE * DE * * ABORT PRU * DE * SA5 * DE * AE * AE * DE * * ABORT MARKER * DE * AE * DE * AE * SA5,53 * DE * * RESUME PRU OUT* DE * AE * DE * AE * SA6 * DE * * DIRECT OUTPUT * DE * AE * DE * SA6 * SA6 * DE * * EOJ OUTPUT * DE * AE * DE * SA6 * SA6 * DE * * SET FILE * DE * AE * DE * SA6 * SA6 * DE * * SET DEVICE * DE * AE * DE * SA6 * SA6 * DE * * COMMAND QUEUED* DE * DE * DE * DE * DE * DE * * QUEUED INPUT * DE * DE * DE * DE * DE * DE * * OUTPUT ALLOWED* DE * DE * DE * DE * SA5 * DE * * NO OUTPUT * DE * SA5 * DE * SA5 * DE * SA5 * * STREAM STOPPED* BE * BE * SA10 * SA10 * SA10 * SA10 * * BATCH INTER * BE * SA5 * SA10 * SA10 * SA10 * SA10 * * END OF INFORM * BE * BE * SA10 * SA10 * SA10 * SA10 * * END OF STREAM * BE * BE * BE * BE * BE * BE * * STREAM ABORTED* BE * BE * BE * BE * BE * BE * * ICMD RESPONSE * BE * SA12,*** BE * SA5,52 * BE BE * * ICMD ISSUED * SA6,49 * DE * SA6,51 * DE * DE * DE * * NPU CMD ISSUED* DE * DE * DE * DE * DE * SA6,54 * * RESET ISSUED * DE * DE * DE * DE * DE * DE * * APP REQUESTED * DE * DE * DE * DE * DE * DE * * RMS REQUESTED * DE * DE * DE * DE * DE * DE * * RMS COMPLETED * DE * DE * DE * DE * DE * DE * * RMS EOI * DE * DE * DE * DE * DE * DE * * RMS ERROR * DE * DE * DE * DE * DE * DE * * END FILE TRANS* DE * DE * DE * DE * DE * DE * * TRANS RMS ERR * DE * DE * DE * DE * DE * DE * * CHECKMARK * BE * BE * BE * BE * BE * BE * * END OF STREAM * BE * BE * BE * BE * BE * BE * * REQUEST REST * BE * BE * BE * BE * BE * BE * * CHECKMARK RPLY* BE * BE * BE * BE * BE * BE * * QUIT * BE * BE * BE * BE * BE * BE * * L7 CMD ISSUED * DE * DE * DE * DE * DE * DE * * TERMINATE PRU * SA6,62 * SA6,62 * SA6,62 * SA6,62 * SA6,62 * SA6,62 * * PRU TERMINATED* DE * DE * DE * DE * DE * DE * * FE INOPER * SA5,61 * SA5,61 * SA5,61 * SA5,61 * SA5,61 * SA5,61 * * PROTOCOL ERROR* SA5,61 * SA5,61 * SA5,61 * SA5,61 * SA5,61 * SA5,61 * * LEVEL SEVEN ER* DE * DE * DE * DE * DE * DE * * LOGIC ERROR * DE * DE * DE * DE * DE * DE * ** ******************************************************************** STSTATES SPACE 2,10 ** ******************************************************************** * * * S W S A* S I L O* S W O A* S E F O* S U S S* S R T E* * * * T A T B* T S A U* T A U C* T N I U* T N T T* T E R R* * * STATE * S I R O* S S S T* S I T T* S D L T* S U R A* S P A R* * * * 5 T E R* 5 U T P* 5 T P I* 5 E * 5 S E I* 5 O N O* * * * 4 A T* 5 E U* 6 U V* 7 * 8 E A E* 9 R S R* * INPUT * * M E* T* N T I* * D M * T F * * * * D* * O T* * * * ** ******************************************************************** * INPUT DATA * BE * BE * DE * DE * DE * SA15 * * INPUT BACK * SA5 * SA5 * SA5 * DE * DE * SA5 * * INVALID INPUT * DE * DE * DE * DE * DE * DE * * OUTPUT DATA * DE * SA23,56* DE * DE * DE * DE * * START PRU JOB * AE * DE * AE * DE * DE * DE * * START PRU DATA* AE * DE * AE * DE * DE * DE * * START IN FILE * AE * DE * AE * DE * DE * DE * * START OUT FILE* AE * DE * AE * DE * DE * DE * * VALID JOB * AE * DE * AE * DE * DE * DE * * INVALID JOB * AE * DE * AE * DE * DE * DE * * STOP PRU * AE * DE * AE * DE * DE * DE * * RESTART PRU * AE * DE * AE * DE * DE * DE * * BYPASS PRU * AE * DE * AE * DE * DE * DE * * ABORT PRU * AE * DE * AE * DE * DE * DE * * ABORT MARKER * AE * DE * AE * DE * DE * DE * * RESUME PRU OUT* AE * DE * AE * DE * DE * DE * * DIRECT OUTPUT * AE * DE * AE * DE * DE * DE * * EOJ OUTPUT * AE * DE * AE * DE * DE * DE * * SET FILE * AE * DE * AE * DE * DE * DE * * SET DEVICE * AE * DE * AE * DE * DE * DE * * COMMAND QUEUED* DE * DE * DE * DE * DE * DE * * QUEUED INPUT * DE * DE * DE * DE * DE * DE * * OUTPUT ALLOWED* DE * DE * DE * DE * DE * DE * * NO OUTPUT * SA5 * DE * SA5,57 * DE * DE * DE * * STREAM STOPPED* SA10 * DE * DE * DE * DE * DE * * BATCH INTER * SA10 * DE * DE * DE * DE * DE * * END OF INFORM * SA10 * DE * DE * DE * DE * DE * * END OF STREAM * BE * DE * DE * DE * DE * DE * * STREAM ABORTED* SA10,23* DE * DE * DE * DE * DE * * ICMD RESPONSE * BE * DE * DE * DE * DE * DE * * ICMD ISSUED * DE * DE * DE * DE * DE * DE * * NPU CMD ISSUED* DE * DE * DE * DE * DE * DE * * RESET ISSUED * DE * DE * DE * DE * DE * DE * * APP REQUESTED * DE * DE * DE * SA10,61* DE * SA10,61* * RMS REQUESTED * DE * DE * DE * DE * DE * DE * * RMS COMPLETED * DE * DE * DE * DE * DE * DE * * RMS EOI * DE * DE * DE * DE * DE * DE * * RMS ERROR * DE * DE * DE * DE * DE * DE * * END FILE TRANS* DE * DE * DE * DE * DE * DE * * TRANS RMS ERR * DE * DE * DE * DE * DE * DE * * CHECKMARK * BE * SE * SE * SE * DE * SE * * END OF STREAM * BE * SE * SE * SE * DE * SE * * REQUEST REST * BE * SE * SE * SE * DE * SE * * CHECKMARK RPLY* BE * SA5 * SA5 * SA5 * DE * SE * * QUIT * BE * SE * SE * SE * DE * SE * * L7 CMD ISSUED * DE * DE * DE * DE * DE * DE * * TERMINATE PRU * SA6,62 * DE * SA6,62 * DE * DE * DE * * PRU TERMINATED* DE * DE * DE * DE * DE * DE * * FE INOPER * SA5,61 * SA5,61 * SA5,61 * SA5,61 * DE * DE * * PROTOCOL ERROR* SA5,61 * SA5,61 * SA5,61 * SA5,61 * DE * DE * * LEVEL SEVEN ER* DE * SA5,59 * SA5,59 * SA5,59 * DE * SA5 * * LOGIC ERROR * DE * DE * DE * DE * DE * DE * ** ******************************************************************** STSTATES SPACE 2,10 ** ************************************************** * * * S R R E* S C I W* S T P S* S P S T* * * * T E M R* T H M O* T E R T* T R T E* * * STATE * S P S R* S E M R* S R U R* S U R R* * * * 6 O O* 6 C E K* 6 M E* 6 E M* * * * 0 R R* 1 K D L* 2 I A* 3 A I* * INPUT * * T * S* N M* M N* * * * * T* * * ** ************************************************** * INPUT DATA * SA16 * DSA16 * SA16 * SA16 * * INPUT BACK * SA5 * SA5 * SA5 * SA5 * * INVALID INPUT * DE * DE * DE * DE * * OUTPUT DATA * DE * DE * DE * DE * * START PRU JOB * DE * DE * DE * DE * * START PRU DATA* DE * DE * DE * DE * * START IN FILE * DE * DE * DE * DE * * START OUT FILE* DE * DE * DE * DE * * VALID JOB * DE * DE * DE * DE * * INVALID JOB * DE * DE * DE * DE * * STOP PRU * DE * DE * DE * DE * * RESTART PRU * DE * DE * DE * DE * * BYPASS PRU * DE * DE * DE * DE * * ABORT PRU * DE * DE * DE * DE * * ABORT MARKER * DE * DE * DE * DE * * RESUME PRU OUT* DE * DE * DE * DE * * DIRECT OUTPUT * DE * DE * DE * DE * * EOJ OUTPUT * DE * DE * DE * DE * * SET FILE * DE * DE * DE * DE * * SET DEVICE * DE * DE * DE * DE * * COMMAND QUEUED* SA7 * SA5 * SA5 * SA5 * * QUEUED INPUT * DE * DE * SA11 * DE * * OUTPUT ALLOWED* DE * DE * DE * DE * * NO OUTPUT * DE * DE * DE * DE * * STREAM STOPPED* DE * DE * SA5 * SA5 * * BATCH INTER * DE * DE * SA5 * SA5 * * END OF INFORM * DE * DE * SA5 * SA5 * * END OF STREAM * DE * DE * SA5 * SA5 * * STREAM ABORTED* DE * DE * SA5 * SA5 * * ICMD RESPONSE * BE * BE * SA5 * SA5 * * ICMD ISSUED * DE * DE * DE * DE * * NPU CMD ISSUED* DE * DE * SA25 * DE * * RESET ISSUED * DE * DE * SA26 * DE * * APP REQUESTED * SA10,61* DE * DE * DE * * RMS REQUESTED * DE * DE * DE * DE * * RMS COMPLETED * DE * DE * DE * DE * * RMS EOI * DE * DE * DE * DE * * RMS ERROR * DE * DE * DE * DE * * END FILE TRANS* DE * DE * DE * DE * * TRANS RMS ERR * DE * DE * DE * DE * * CHECKMARK * SE * SE * SE * SE * * END OF STREAM * SE * SE * SE * SE * * REQUEST REST * SE * SE * SE * SE * * CHECKMARK RPLY* SE * SA5 * SE * SE * * QUIT * SE * SE * SE * SE * * L7 CMD ISSUED * DE * DE * DE * DE * * TERMINATE PRU * DE * SA6,62 * DE * DE * * PRU TERMINATED* DE * DE * SA10,63* DE * * FE INOPER * SA5 * SA5 * SA5 * SA5 * * PROTOCOL ERROR* SA5 * SA5 * SA5 * SA5 * * LEVEL SEVEN ER* SA5,59 * SA5 * SA5 * SA5 * * LOGIC ERROR * DE * DE * DE * DE * ** ************************************************** STSTATES EJECT * STREAM STATE RESPONSE ACTION DIRECTORY. * * ACTION NAME FUNCTION * ------ ---- -------- * * * BE SRIL BLOCK PROTOCOL ERROR * DE SRLE DRIVER ERROR * AE SRAE APPLICATION ERROR * SE S7IL LEVEL SEVEN ERROR * SA1 SRIT INPUT TEXT FROM FRONT END * SA2 SRII BYPASS INVALID IVT INPUT * SA3 SROT OUTPUT TEXT TO FRONT END * SA4 SRUO UPDATE FET OUTPUT POINTER * SA5 SRNA NO ACTION * SA6 SRWC TRANSFER WORKLIST COMPLETED RESPONSE * SA7 SROW QUEUE UPBOUND WORKLIST * SA8 SRAQ ADVANCE QUEUE AND TRANSFWER WORKLIST * SA9 SRIP INPUT PRU DATA FROM FRONT END AND QUEUE * SA10 SRTW TRANSFER WORKLIST TO APPLICATION * SA11 SRRB RETURN PRU BUFFER TO LIMBO CHAIN * SA12 SRRS RETURN TO OLD STATE AND TRANSFER WORKLIST * SA13 SRSB SET OLD STATE TO BYPASS STATE * SA14 SRQA ADVANCE QUEUE * SA15 SROS RETURN TO OLD STATE * SA16 SRBI BYPASS INPUT FROM FRONT END * SA17 SRFO SET PRU MODE ON FOR FILE TRANSFER * SA18 SPMR UPDATE INBOUND CHECKMARK CONTROL * SA19 SRSO SET OLD STATE TO CURRENT STATE * SA20 SROA TRANSFER ACKNOWLEDGE WORKLIST TO APPLICATION * SA21 SRDO ISSUE DIRECT OUTPUT TO FRONT END * SA22 SPMS UPDATE OUTBOUND CHECKMARK CONTROL * SA23 SRPO ISSUE PRU OUTPUT TO FRONT END * SA24 SRWE SET OLD STATE TO WAIT EOI DELIVERED * SA25 SROF RESET PRU MODE ON FOR FILE TRANSFER * SA26 SRBR RESET BREAK RECEIVED FUNCTION SPACE 2,10 ** DRIVER INITIALIZATION. * * THE FOLLOWING IS THE FORMAT OF THE DRIVER CALL. * *TBL 18/PIP,1/0,5/CP,12/FC,6/0,18/PAD * * WHERE - * * PIP = DRIVER NAME, * CP = CONTROL POINT NUMBER, * FC = FUNCTION CODE, * PAD = PARAMETER ADDRESS. * * SCAN EQUIPMENT STATUS TABLE FOR NEW EQUIPMENT (FC = 2). * * THE SCAN EQUIPMENT STATUS TABLE FOR NEW EQUIPMENT * FUNCTION IS USED BY NAM TO DETECT WHEN A FRONT END * EQUIPMENT HAS BEEN TURNED ON BY THE SYSTEM OPERATOR * AND IS AVAILABLE FOR PROCESSING. THE INITIALIZATION * OVERLAY *2IN* IS LOADED AND THE SCAN EST ROUTINE *SEST* * IS ENTERED. THE PARAMETER ADDRESS CONTAINS THE ADDRESS * OF THE COUPLER EQUIPMENT TABLE WITHIN THE FIELD LENGTH * OF NAM. THE DRIVER WILL USE THE COUPLER EQUIPMENT * TABLE AND THE SYSTEM EST TO DETERMINE IF ANY FRONT * END EQUIPMENTS HAVE BEEN TURNED ON. AT THE COMPLETION * OF PROCESSING THE UPDATED COUPLER EQUIPMENT TABLE IS * RETURNED TO NAM. * * INITIALIZE NAM FIELD LENGTH (FC = 1). * * THE INITIALIZE NAM FIELD LENGTH FUNCTION CAUSES THE * INITIALIZATION OVERLAY *2IN* TO BE LOADED AND THE * INITIALIZE NAM FIELD LENGTH ROUTINE *INFL* IS ENTERED. * THE PARAMETER ADDRESS CONTAINS THE ADDRESS OF THE * TABLE AREA THAT WILL BE INITIALIZED. THE DRIVER WILL * INITIALIZE THE NETWORK BUFFER TABLE, THE DRIVER * INTERFACE TABLE AND THE COUPLER EUIPMENT TABLE. IN * ADDITION THE DRIVER TRANSIENT OVERLAYS WILL BE LOADED * AND COPIED TO THE DRIVER OVERLAY AREA IN THE FIELD * LENGTH OF NAM. * * PROCESS FRONT END (FC = 0). * * THE PROCESS FRONT END FUNCTION CAUSES THE * INITIALIZATION OVERLAY *3IN* TO BE LOADED AND THE * PRESET DRIVER ROUTINE *PRS* IS EXECUTED. THE PARAMETER * ADDRESS CONTAINS THE ADDRESS OF THE DRIVER INTERFACE * TABLE TO BE USED BY THIS DRIVER. THE DRIVER PRESETS * CONSTANT ADDRESSES AND VALUES AND TRANSFERS CONTROL ** TO THE MAIN DRIVER CONTROL ROUTINE. FUNCTION SPACE 2,10 ** NPU INITIALIZATION. * * WHEN A NPU IS OPERATIONAL THE BLOCK HANDLER STATE * IDENTIFIES THE TYPE OF STREAM BEING PROCESSED. * BLOCK HANDLER STATES WITH VALUES GREATER THAN ANY OF * THE OPERATIONAL BLOCK HANDLER STATES ARE REFERRED TO * AS NPU STATES AND ARE USED TO CONTROL INITIALIZATION * AND ERROR PROCESSING OF A NPU. THIS STRUCTURE PROVIDES * A CONVENIENT METHOD FOR DISCARDING ANY QUEUED OUTBOUND * DATA WHEN A NPU GOES INOPERATIVE. WHEN A NPU IS FIRST * SERVICED BY THE DRIVER THE NPU STATE IS SET TO THE * INITIAL NPU STATE. IF AN INITIALIZATION REQUEST IS * RECEIVED FROM THE NPU THE NPU STATE IS CHANGED TO * REPORT INITIALIZATION REQUESTED. IF AN INITIALIZATION * COMPLETED STATUS IS RECEIVED FROM THE NPU THE NPU STATE * IS CHANGED TO REPORT INITIALIZATION COMPLETED AND THE * ACTIVE BLOCK HANDLER STATE WILL BE ENTERED. IF THE * NPU IS TIMED OUT FROM THE INITIAL STATE THE NPU * INOPERATIVE STATE WILL BE ENTERED. THE NPU INOPERATIVE * STATE WILL WAIT FOR AN INITIALIZATION REQUEST OR * INITIALIZATION COMPLETED STATUS FROM THE NPU IF THE NPU * HAS A SYSTEM AUTO START MODULE OR WILL GENERATE A LOAD * NPU BOOTSTRAP PROGRAM REQUEST IF THERE IS NO SYSTEM * AUTO START MODULE ON THE NPU. AFTER THE LOAD REQUEST * HAS BEEN GENERATED THE DRIVER WILL SET THE NPU STATE * TO LOAD NPU BOOTSTRAP PROGRAM STATE WHICH WILL LOAD * THE NPU BOOTSTRAP PROGRAM WHEN THE PROGRAM TEXT IS * FOUND IN THE DOWNLINE BUFFER. WHEN THE START NPU * COMMAND IS FOUND IN THE DOWNLINE BUFFER THE NPU WILL * BE STARTED AND THE NPU STATE WILL BE SET TO THE * INITIAL NPU STATE WHICH WILL WAIT FOR THE NPU ** INITIALIZATION REQUEST. FUNCTION SPACE 2,10 ** DRIVER CONTROL ROUTINES. * * THE MAIN DRIVER CONTROL FLOW IS MANAGED BY THE DRIVER * CONTROL ROUTINES WHICH ARE LOCATED AT THE BEGINNING OF * THE EXECUTABLE CODE IN THE MAIN DRIVER. FROM A CONTROL * POINT OF VIEW THE DRIVER IS ALWAYS ATTEMPTING TO * TRANSFER OUTPUT IF AVAILABLE TO THE FRONT END. INPUT * IS NEVER EXPLICITLY SOLICITED FROM THE FRONT END. * OUTPUT ATTEMPTS ARE CONTROLLED BY THE COUPLER EXCHANGE * HANDLER SUBROUTINE *CEH*. IF OUTPUT IS NOT POSSIBLE * THE *CEH* SUBROUTINE WILL CHECK FOR INPUT AVAILABLE * FROM THE FRONT END. IF INPUT IS AVAILABLE AND THERE IS * BUFFER SPACE AVAILABLE THE INPUT IS ACCEPTED AND * PROCESSED. THE STATE STRUCTURE OF THE DRIVER ALLOWS * THIS ASYNCHRONOUS PROCESSING OF OUTPUT AND INPUT WHILE * MAINTAINING THE ABILITY OF THE DRIVER TO RESUME OUTPUT * PROCESSING AFTER AN ASYNCHRONOUS INPUT HAS BEEN * RECEIVED. IN ORDER TO ASSURE THAT THE FRONT END HAS AN * OPPORTUNITY TO INPUT TO THE DRIVER THE DRIVER SETS AN * OUTPUT DELAY TIMER AFTER AN OUTPUT HAS BEEN DONE. NO * FURTHER OUTPUT WILL BE ATTEMPTED UNTIL THIS TIMER ** EXPIRES OR INPUT HAS BEEN RECEIVED FROM THE FRONT END. FUNCTION SPACE 2,10 ** DRIVER CONTROL ROUTINE *DCR* CHECKS FOR ACTIVE FRONT * ENDS AND ACTIVE PRU STREAMS. IF THERE ARE NO ACTIVE * FRONT ENDS OR PRU STREAMS THE DRIVER DROPS DUE TO * INACTIVITY. OTHERWISE THE FRONT END TABLE OFFSET IS * INITIALIZED FOR THE FIRST DRIVER FRONT END TABLE ENTRY * AND THE NETWORK BUFFER TABLE POINTER WORD FOR THE * INTERFACE TABLE IS INITIALIZED FOR THE FIRST NETWORK ** BUFFER TABLE POINTER. FUNCTION SPACE 2,10 ** DRIVER CONTROL ROUTINE *DCR.2* CHECKS FOR A KNOWN * NETWORK BUFFER TABLE ADDRESS BY EXAMINING THE ADDRESS * IN THE FRONT END TABLE. IF THE NETWORK BUFFER TABLE * ADDRESS IS KNOWN THE FRONT END HAS BEEN PROCESSED * PREVIOUSLY AND CONTROL IS TRANSFERRED DIRECTLY TO THE * FRONT END PROCESSING ROUTINE. OTHERWISE THE PROCESSOR * TO CHECK THE POINTER WORD IN THE INTERFACE TABLE FOR A * NEW NETWORK BUFFER TABLE ADDRESS IS LOADED AND ** EXECUTED. FUNCTION SPACE 2,10 ** DRIVER CONTROL PROCESSOR *PFE* CALLS THE PROCESSOR TO * CHECK FOR NAM REQUESTS AND TO INITIALIZE THE IVT DATA * CYCLE TIMER. THE CHANNEL OF THE NEW FRONT END IS * CHECKED AGAINST THE CURRENTLY ACTIVE FRONT END CHANNEL. * IF THE CHANNELS ARE NOT THE SAME THE PROCESSOR IS * CALLED TO CHECK THAT THE CORRECT DEVICE DEPENDENT * OVERLAY IS LOADED AND TO INITIALIZE THE CHANNEL ** INSTRUCTIONS IN THE DEVICE DEPENDENT OVERLAY. FUNCTION SPACE 2,10 ** DRIVER CONTROL ROUTINE *PFE.1* SCANS THE FRONT END * OUTPUT FETS FOR IVT OUTPUT. IF IVT OUTPUT IS AVAILABLE * THE COUPLER EXCHANGE HANDLER IS CALLED TO INITIATE THE * OUTPUT. IF THE FRONT END IS UNABLE TO ACCEPT THE * OUTPUT OR ALL FRONT END OUTPUT FETS HAVE BEEN ** PROCESSED, PRU PROCESSING IS INITIATED. FUNCTION SPACE 2,10 ** DRIVER CONTROL ROUTINE *PPRU* CHECKS FOR PRU STREAMS ON * THE CURRENT FRONT END. IF PRU STREAMS ARE PRESENT THE * ADDRESS OF THE PCB IS SAVED AND THE PRU STREAM STATE ** PROCESSING IS PERFORMED. FUNCTION SPACE 2,10 ** DRIVER CONTROL ROUTINE *PPRU.5* IS THE RETURN POINT * FROM PRU STREAM STATE PROCESSING. IF THIS IS NOT THE * LAST PRU STREAM FOR THE CURRENT FRONT END STREAM STATE ** PROCESSING IS PERFORMED FOR THE NEXT PRU STREAM. FUNCTION SPACE 2,10 ** DRIVER CONTROL ROUTINE *NFE* UPDATES THE STATISTICS FOR * THE CURRENT FRONT END AND SETS UP TO PROCESS THE NEXT * FRONT END. IF ALL FRONT ENDS HAVE BEEN PROCESSED THE * PRU BUFFER MANAGER IS ENTERED TO MAINTAIN THE DRIVER * LIMBO BUFFER POOL. OTHERWISE THE FRONT END TABLE IS * ADVANCED TO THE NEXT FRONT END AND PROCESSING CONTINUES ** WITH THAT FRONT END. FUNCTION SPACE 2,50 ** DRIVER OUTPUT SEQUENCE CONTROL. * * THE FOLLOWING IS A LIST OF THE PROCESSORS USED BY THE * DRIVER TO TRANSFER OUTPUT TO THE FRONT END AND THE * FUNCTION THAT THEY PERFORM. * ** ********************************************************************* *PROCESSOR *INPUT *TABLE *FUNCTION * ** ********************************************************************* * * * * * *COUPLER EXCHANGE *BLOCK TYPE *NONE *COORDINATE OUTPUT WITH * *HANDLER (CEH) * * *FRONT END * * * * * * *BLOCK HANDLER STATE *BLOCK STATE *BHSTATES*SETUP FOR OUTPUT * * * * * * *OUTPUT INITIATOR *BLOCK TYPE *IOIT *VALIDATE OUTPUT TEXT (IVT) * *ACTION *PRU MODE *POIT *CHECK FLOW CONTROL (PRU) * * * * * * *REQUEST COUPLER *ORDER WORD *NONE *REQUEST PERMISSION TO * *OUTPUT (RCO) * * *OUTPUT TO FRONT END * * * * * * *OUTPUT RESPONSE *BLOCK TYPE *OBR *TRANSFER BLOCK HEADER * *ACTION * * * * * * * * * *BLOCK RESPONSE *BLOCK STATE *BHSRP *TRANSFER HEADER INFORMATION* *ACTION *+RESPONSE * *UNIQUE TO BLOCK TYPE * * * * * * *STREAM RESPONSE *STREAM STATE*SSRP *TRANSFER DATA TEXT * *ACTION *+RESPONSE * * * * * * * * ** ********************************************************************* FUCNTION SPACE 2,50 ** DRIVER INPUT SEQUENCE CONTROL. * * THE FOLLOWING IS A LIST OF THE PROCESSORS USED BY THE * DRIVER TO ACCEPT INPUT FROM THE FRONT END AND THE * FUNCTION THAT THEY PERFORM. * ** ********************************************************************* *PROCESSOR *INPUT *TABLE *FUNCTION * ** ********************************************************************* * * * * * *INPUT INITIATOR *INPUT ORDER *IIT *CHECK FOR AVAILABLE * *ACTION *CODE * *BUFFER * * * * * * *INPUT BLOCK *NONE *NONE *ACCEPT BLOCK HEADER * *HEADER (IBH) * * *FROM FRONT END * * * * * * *INPUT RESPONSE *BLOCK TYPE *IIBR *NO ACTION (IVT) * *ACTION *PRU MODE *PIBR *CHECK FLOW CONTROL * * * * * * *BLOCK RESPONSE *BLOCK STATE *BHSRP *ACCEPT HEADER INFORMATION * *ACTION *+RESPONSE * *UNIQUE TO BLOCK TYPE * * * * * * *STREAM RESPONSE *STREAM STATE*SSRP *ACCEPT DATA TEXT * *ACTION *+RESPONSE * * * * * * * * ** ********************************************************************* COMMON TITLE EXTERNAL COMMON DECKS. QUAL NOS BASE M OPL XTEXT COMSSSD SUBSYSTEM IDENTIFICATIONS OPL XTEXT COMPMAC SYSTEM PPU MACRO DEFINITIONS OPL XTEXT COMSCPS BASE D QUAL *CALL,COMPCHNM STATE TITLE DRIVER CONTROL MACRO DEFINITIONS. STATE SPACE 2,18 ** MACRO STATE. * * MACRO STATE IDENTIFIES A DRIVER STATE PROCESSOR. * * MACRO CALL - * * NAME STATE * * WHERE - * ** *NAME* = NAME OF STATE PROCESSOR. PURGMAC STATE MACRO STATE,A A BSS 0 STATE ENDM STATE. SPACE 2,20 ** MACRO STATE.. * * MACRO STATE. OCCURS IN THE DRIVER STATE TABLES AND * LOCATES THE STATE PROCESSOR THAT IS RESPONSIBLE FOR * PROCESSING THE LOGICAL ENTITY THAT IS IN THE STATE. * * MACRO CALL - * * STATE. NAME * * WHERE - * ** *NAME* = NAME OF STATE PROCESSOR. PURGMAC STATE. STATE. MACRO A CON /STATES/A STATE. ENDM ACTION SPACE 2,18 ** MACRO ACTION. * * MACRO ACTION IDENTIFIES A DRIVER ACTION AND GENERATES * AN ENTRY IN THE ACTION DIRECTORY LOCATING THE ACTION. * * MACRO CALL- * * NAME ACTION * * WHERE - * ** *NAME* = NAME OF ACTION. PURGMAC ACTION MACRO ACTION,A A BSS 0 "TYPEACT" RMT A_. CON /ACTIONS/A "TYPEACT" RMT NOREF /ACTORD/A_. ACTION ENDM RESP SPACE 2,22 ** MACRO RESP. * * MACRO RESP GENERATES A DRIVER RESPONSE TABLE ENTRY. * A DRIVER RESPONSE TABLE ENTRY CONSISTS OF A CONTROL * PARAMETER AND AN ACTION DIRECTORY ORDINAL. * * MACRO CALL - * * RESP ACTION,CTL * * WHERE - * * *CTL* = CONTROL PARAMETER. ** *ACTION* = NAME OF ACTION TO BE PERFORMED, PURGMAC RESP RESP MACRO A,B .1 SET /ACTORD/A_. 2 ERRNG L.ACTOR-.1 .2 SET B .STATE CON .2*L.ACTOR+.2&.1 RESP ENDM PURGMAC RAIC RAIC MACRO A .3 SET 0 .4 SET 3+A*3 .5 DECMIC .STATE STS_".5"_RF EQU A RAIC ENDM PURGMAC RAIX RAIX MACRO A,B 3 ERRNZ A-.3 .3 SET .3+1 VFD .4/B RAIX ENDM PURGMAC RAIL MACRO RAIL,A CON A_RT*2+A_RF RAIL ENDM CTL SPACE 2,20 ** MACRO CTL. * * MACRO CTL GENERATES A DRIVER CONTROL TABLE ENTRY. * A DRIVER CONTROL TABLE ENTRY CONSISTS OF TWO * CONTROL PARAMETERS. * * MACRO CALL - * * CTL P1,P2 * * WHERE - * * *P1* = FIRST CONTROL PARAMETER, ** *P2* = SECOND CONTROL PARAMETER. PURGMAC CTL CTL MACRO A,B .1 SET A 2 ERRNG L.ACTOR-.1 .2 SET B CON .1*L.ACTOR+.1&.2 CTL ENDM INCMD SPACE 2,24 ** MACRO INCMD. * * MACRO INCMD GENERATES A TABLE ENTRY THAT DESCRIBES * A COMMAND THAT IS RECEIVED ON A PRU INTERFACE * CONNECTION FROM THE NPU. * * MACRO CALL - * * INCMD PFC,SFC * * * WHERE - * * *PFC* = PRIMARY FUNCTION CODE IN HEXIDECIMAL, * *SFC* = SECONDARY FUNCTION CODE IN HEXIDECIMAL. * * THE MAXIMUM VALUE THAT CAN BE ** SPECIFIED BY *SFC* IS 17B. PURGMAC INCMD INCMD MACRO A,B .1 SET 0#_A .2 SET 0#_B 2 ERRNG 17B-.2 VFD 8/.1,4/.2 INCMD ENDM OUTCMD SPACE 2,24 ** MACRO OUTCMD. * * MACRO OUTCMD GENERATES A TABLE ENTRY THAT DESCRIBES * A COMMAND THAT IS SENT ON A PRU CONNECTION TO THE NPU. * * MACRO CALL - * * OUTCMD PFC,SFC * * WHERE - * * *PFC* = PRIMARY FUNCTION CODE IN HEXIDECIMAL, * *SFC* = SECONDARY FUNCTION CODE IN HEXIDECIMAL. * * THE MAXIMUM VALUE THAT CAN BE ** SPECIFIED BY *SFC* IS 17B. PURGMAC OUTCMD OUTCMD MACRO A,B .1 SET 0#_A .2 SET 0#_B 2 ERRNG 17B-.2 VFD 8/.1,4/.2 OUTCMD ENDM CMDACT SPACE 2,20 ** MACRO CMDACT. * * MACRO CMDACT GENERATES A TABLE ENTRY THAT DESCRIBES * A COMMAND ACTION THAT IS PERFORMED FOR A NPU COMMAND. * * MACRO CALL - * * CMDACT ACTION,OLN * * WHERE - * * *ACTION* = NAME OF ACTION TO BE PERFORMED, ** *OLN* = OVERLAY NAME OF ACTION PROCESSOR. PURGMAC CMDACT CMDACT MACRO A,B .1 SET /ACTORD/A_. 2 ERRNG L.ACTOR-.1 .B IFC EQ,*B** .2 SET 0 .B ELSE .2 SET #_B .B ENDIF CON .2*L.ACTOR+.2&.1 CMDACT ENDM ERRACT SPACE 2,20 ** MACRO ERRACT. * * MACRO ERRACT GENERATES A TABLE ENTRY THAT DESCRIBES AN * ERROR ACTION THAT IS PERFORMED AS A RESULT OF AN ERROR. * * MACRO CALL - * * ERRACT ACTION,OLN * * WHERE - * * *ACTION* = NAME OF ACTION TO BE PERFORMED, ** *OLN* = OVERLAY NAME OF ACTION PROCESSOR. PURGMAC ERRACT ERRACT MACRO A,B .1 SET /ACTORD/A_. 2 ERRNG L.ACTORD-.1 .B IFC EQ,*B** .2 SET 0 .B ELSE .2 SET #_B .B ENDIF CON .2*L.ACTORD+.2&.1 ERRACT ENDM LINK SPACE 2,22 ** MACRO LINK. * * MACRO LINK DEFINES AN ENTRY POINT WITHIN A PROCESS * THAT IS USED BY AN EXTERNAL PROCESS TO ACCOMPLISH A * COMMON FUNCTION. WITHIN THE CONTEXT OF THE DRIVER, * THE LINK MACRO IS USED TO HIGHLIGHT A PATHOLOGICAL * LINKAGE THAT IS REQUIRED TO CONSERVE PPU MEMORY SPACE. * * MACRO CALL - * * NAME LINK * * WHERE - * ** *NAME* = NAME OF THE LINKED PROCESS. PURGMAC LINK MACRO LINK,A A BSS 0 LINK ENDM EXIT SPACE 2,20 ** MACRO EXIT. * * MACRO EXIT TRANSFERS CONTROL BY MEANS OF LINKED JUMPS. * WITHIN THE CONTEXT OF THE DRIVER, MACRO EXIT IS USED TO * HIGHLIGHT TRANSFER OF CONTROL BETWEEN PROCESSORS. * * MACRO CALL - * * EXIT NAME * * WHERE - * * *NAME* = NAME OF PROCESS TO WHICH ** CONTROL IS TRANSFERRED. PURGMAC EXIT EXIT MACRO A .1 IF DEF,._A .3 IFLT *-._A,40B UJN ._A .3 ELSE ._A SET * LJM A .3 ENDIF .1 ELSE .2 IF DEF,A IFLT *-A,40B,1 ._A SET A IFGE *-A,40B,1 ._A SET * .2 ELSE ._A SET * .2 ENDIF UJK A .1 ENDIF EXIT ENDM EREXIT SPACE 2,20 ** MACRO EREXIT. * * MACRO EREXIT TRANSFERS CONTROL TO THE ERROR ROUTINE. * WITHIN THE CONTEXT OF THE DRIVER, MACRO EREXIT IS * USED TO HIGHLIGHT ERROR PROCESSING. * * MACRO CALL - * * EREXIT CODE * * WHERE - * ** *CODE* = ERROR CODE. PURGMAC EREXIT EREXIT MACRO A IFLT /ERROR/A,100B,1 LCN 100B-/ERROR/A IFGE /ERROR/A,100B,1 LDN /ERROR/A-100B EXIT ERROR EREXIT ENDM LCMA SPACE 2,20 ** MACRO LCMA. * * MACRO LCMA IS USED TO LOAD A CONSTANT CENTRAL MEMORY * OFFSET. THE MACRO GENERATES A LOAD INSTRUCTION AND * AN ENTRY IN THE CORRESPONDING ADDRESS TABLE WHICH WILL * BE USED TO STORE THE OFFSET DURING INITIALIZATION. * * MACRO CALL - * * LCMA WORD * * WHERE - * ** *WORD* = NAME OF CENTRAL MEMORY WORD. PURGMAC LCMA LCMA MACRO A LOCAL B QUAL B LDC /INIT/A-/INIT/A QUAL * A RMT CON B A RMT LCMA ENDM ACMA SPACE 2,20 ** MACRO ACMA. * * MACRO ACMA IS USED TO ADD A CONSTANT CENTRAL MEMORY * OFFSET. THE MACRO GENERATES AN ADD INSTRUCTION AND * AN ENTRY IN THE CORRESPONDING ADDRESS TABLE WHICH WILL * BE USED TO STORE THE OFFSET DURING INITIALIZATION. * * MACRO CALL - * * ACMA WORD * * WHERE - * ** *WORD* = NAME OF CENTRAL MEMORY WORD. PURGMAC ACMA ACMA MACRO A LOCAL B QUAL B ADC /INIT/A-/INIT/A QUAL * A RMT CON B A RMT ACMA ENDM LOPA SPACE 2,20 ** MACRO LOPA. * * MACRO LOPA IS USED TO LOAD AN OVERLAY PROCESSOR ADDRESS * AND THE OVERLAY ORDINAL THAT CONTAINS THAT PROCESSOR. * * MACRO CALL - * * LOPA OLN,PN * * WHERE - * * *OLN* = OVERLAY NAME CONTAINING PROCESSOR, ** *PN* = PROCESSOR NAME. PURGMAC LOPA LOPA MACRO A,B LDC #_A*10000B&_B LOPA ENDM LOOR SPACE 2,20 ** MACRO LOOR. * * MACRO LOOR IS USED TO LOAD THE OVERLAY * ORDINAL OF A SPECIFIED OVERLAY NAME. * * MACRO CALL - * * LOOR OLN * * WHERE - * ** *OLN* = OVERLAY NAME. PURGMAC LOOR LOOR MACRO A LDN #_A LOOR ENDM FEIO SPACE 2,18 ** MACRO FEIO. * * MACRO FEIO IS USED TO INTERFACE TO THE HIGH LEVEL * LOGICAL INPUT/OUTPUT STRUCTURE OF THE DRIVER. * * MACRO CALL - * * FEIO EPO * * WHERE - * ** *EPO* = LOGICAL ENTRY POINT ORDINAL. PURGMAC FEIO FEIO MACRO A RJM A FEIO ENDM CLIO SPACE 2,18 ** MACRO CLIO. * * MACRO CLIO IS USED TO INTERFACE TO THE LOW LEVEL * LOGICAL INPUT/OUTPUT STRUCTURE OF THE DRIVER. * * MACRO CALL - * * CLIO EPO * * WHERE - * ** *EPO* = LOGICAL ENTRY POINT ORDINAL. PURGMAC CLIO CLIO MACRO A RJM A CLIO ENDM IODE SPACE 2,18 ** MACRO IODE * * MACRO IODE IS USED TO SET UP A LOGICAL INPUT/OUTPUT * INTERFACE DIRECTORY ENTRY. * * MACRO CALL - * * IODE ENTRY,PROC * * WHERE - * * *ENTRY* = ADDRESS OF LOGICAL FUNCTION ENTRY POINT, ** *PROC* = ADDRESS OF DRIVER FUNCTION PROCESSOR. PURGMAC IODE IODE MACRO A,B A SUBR LJM B IODE ENDM OVERLAY SPACE 2,28 ** MACRO OVERLAY. * * MACRO OVERLAY IS USED TO DEFINE AN OVERLAY THAT IS * USED IN MAIN DRIVER PROCESSING. IF A PREVIOUS OVERLAY * HAS BEEN DEFINED THAT OVERLAY IS CLOSED OUT AND THE NEW * OVERLAY IS INITIATED. * * MACRO CALL - * * OVERLAY F=FWA,T1=(MTITLE),T2=(STITLE) * * WHERE - * * FWA = FIRST WORD ADDRESS, * MTITLE = MAIN TITLE, * STITLE = SECONDARY TITLE. * * MACRO ENTRY - * ** O.OVL = CURRENTLY ACTIVE OVERLAY ORDINAL. PURGMAC OVERLAY OVERLAY MACROE F,T1,T2 .1 IF MIC,O.N LIST M .2 SET ."O.N"-.FWA+4 .2 SET .2/5 L.COA SET L.COA+.2 N.OPW SET N.OPW+1 #"O.N" EQU O.OVL O.OVL SET O.OVL+1 L."O.N" EQU .2 ERRNG 7772B-* LIST * ONT MICRO 1,,$"ONT",18/OV."O.N",6/0,12/L."O.N",24/**$ .1 ELSE ONT MICRO 1,,$VFD 18/OV.0IP,6/0,12/L.0IP,24/**$ .1 ENDIF O MICRO O.OVL*2-2+1,2,*0102030405060710111213141516172021222324 ,252600* O.N MICRO O.OVL*3-3+1,3,*1IL1IP3IL2IQ3IQ4IQ5IQ2IP3IP4IP2IM3IM4IM2 ,IO3IO4IO5IO1IE2IE3IE4IE2PE0IP* TTL "O.N" "O" "VERSION" _T1_. "O.N" TITLE T2. LIST M IDENT "O.N",OF.F T1 ORG OF.F .FWA SET OL.F COMMENT "O.N"/PIP - "VERSION" T1. COMMENT COPYRIGHT CONTROL DATA SYSTEMS INC. 1994. LIST * OVERLAY ENDM DCMA SPACE 2,22 CEQU TITLE MISCELLANEOUS MACRO DEFINITIONS. CEQU SPACE 2,22 ** MACRO CEQU. * * MACRO CEQU ALLOWS THE CONDITIONAL EQUIVALENCE OF A * SYMBOL. IF THE SYMBOL HAS BEEN DEFINED THE PREVIOUS * DEFINITION IS USED. OTHERWISE THE CURRENT DEFINITION * IS USED FOR THE SYMBOL. * * MACRO CALL - * * SYMBOL CEQU VALUE * * WHERE - * * *SYMBOL* = NAME OF VALUE BEING DEFINED, * *VALUE* = VALUE FOR SYMBOL IF NOT ** PREVIOUSLY DEFINED. PURGMAC CEQU MACRO CEQU,A,B IF DEF,A,1 .1 SET A IF -DEF,A,1 .1 SET B A EQU .1 CEQU ENDM ASCII SPACE 2,20 ** MACRO ASCII. * * MACRO ASCII GENERATES AN ASCII OUTPUT CHARACTER. * * MACRO CALL - * * DPC ASCII CH,PROC * * WHERE - * * *DPC* = DISPLAY CODE VALUE, * *CH* = *ASCII* CHARACTER VALUE IN HEXIDECIMAL, ** *PROC* = SPECIAL CHARACTER PROCESSOR ORDINAL. PURGMAC ASCII MACRO ASCII,A,B,C IFC EQ,*C**,1 CON 0#_B IFC NE,*C**,1 CON C*400B&0#_B ASCII ENDM LEN SPACE 2,26 ** MACRO LEN. * * MACRO LEN IS USED TO DEFINE THE LENGTH OF COMMANDS OR * COMMAND RESPONSES. THE TEXT LENGTH OF THE ELEMENT PLUS * THE CENTRAL WORD LENGTH OF THE ELEMENT IS RETURNED. * * MACRO CALL - * * LEN ELEM * * WHERE - * * *ELEM* = NAME OF COMMAND OR COMMAND RESPONSE. * * EXIT - * * *ELEMC* = ELEMENT LENGTH IN TEXT CHARACTERS, ** *ELEMCM* = ELEMENT LENGTH IN CENTRAL WORDS. PURGMAC LEN LEN MACRO A .1 SET /BLOCK/L.CH+/BLOCK/L.A A_C EQU .1 .1 SET .1*2+14 .1 SET .1/15+/NAM/L.BH+/NAM/L.NH A_CM EQU .1 LEN ENDM LENWL SPACE 2,24 ** MACRO LENWL. * * MACRO LENWL IS USED TO DEFINE THE LENGTH OF A WORKLIST * ENTRY. THE WORKLIST TEXT LENGTH AND THE CENTRAL WORD * LENGTH OF THE WORKLIST ENTRY ARE RETURNED. * * MACRO CALL - * * LENWL ELEM * * WHERE - * * *ELEM* = NAME OF WORKLIST ENTRY. * * EXIT - * * *ELEMT* = WORKLIST TEXT LENGTH IN CENTRAL WORDS, ** *ELEMCM* = WORKLIST LENGTH IN CENTRAL WORDS. PURGMAC LENWL LENWL MACRO A .1 SET L._A+4 A_T EQU .1/5 A_CM EQU A_T+/NAM/L.BH+/NAM/L.NH LENWL ENDM SUBR SPACE 2,26 ** MACRO SUBR. * * MACRO SUBR IS USED TO DEFINE THE ENTRY AND, OPTIONALLY, * THE EXIT POINTS OF A SUBROUTINE. THE ENTRY POINT OF * THE SUBROUTINE IS THE NAME SPECIFIED ON THE MACRO * CALL. IF THE NO EXIT OPTION IS NOT SELECTED THE * EXIT POINT IS THE NAME SPECIFIED ON THE MACRO CALL * CONCATENATED WITH THE LETTER *X*. WHEN THE NO EXIT * OPTION IS USED, THE SUBROUTINE IS RESPONSIBLE FOR * PROVIDING THE CORRECT EXIT SEQUENCE. * * MACRO CALL - * * NAME SUBR NOX * * WHERE - * * *NAME* = NAME OF SUBROUTINE, ** *NOX* = NO EXIT GENERATED OPTION. PURGMAC SUBR MACRO SUBR,A,B IFC NE,*B*NOX*,1 A_X EQU * LJM * A EQU *-1 SUBR ENDM UJK SPACE 2,18 ** MACRO UJK. * * MACRO UJK GENERATES A LONG OR SHORT JUMP BASED ON * THE SYMBOL VALUE SPECIFIED IN THE MACRO CALL. * * MACRO CALL - * * UJK SYMBOL * * WHERE - * ** *SYMBOL* = NAME TO WHICH CONTROL IS TRANSFERRED. PURGMAC UJK UJK MACRO A .1 IF DEF,A .1 IFLE *-A,37B UJN A .1 ELSE LJM A .1 ENDIF UJK ENDM QUAL TITLE DEFINE QUALIFIER ORDER. QUAL SPACE 2,6 * DEFINE QUALIFIER ORDER. QUAL MAIN DRIVER CODE NOREF .1,.2 NOREF .LWA NOREF .LAST NOREF L.ACTOR QUAL NOS QUAL STATES STATE PROCESSORS QUAL ACTIONS ACTION PROCESSORS QUAL NPU DEVICE DEPENDENT CODE FOR NPU QUAL MDI DEVICE DEPENDENT CODE FOR MDI QUAL INIT INITIALIZATION CODE QUAL ACTORD ACTION DIRECTORY TABLES .LAST SET 0 NOREF .LAST QUAL TABLES DRIVER CONTROL TABLES .1 SET 0 NOREF .1 .2 SET 0 NOREF .2 .3 SET 0 NOREF .3 .4 SET 0 NOREF .4 .LAST SET 0 NOREF .LAST .STATE SET 0 NOREF .STATE QUAL ERROR ERROR CODES .1 SET 0 NOREF .1 .2 SET 0 NOREF .2 QUAL FUNCTION FRONT END FUNCTION CODES QUAL CSTATUS COUPLER STATUS CODES QUAL NSTATUS NPU STATUS CODES QUAL NORDER NPU ORDER CODES QUAL MSTATUS MDI STATUS CODES .1 SET 0 NOREF .1 QUAL BLOCK BLOCK PROTOCOL DEFINITIONS .1 SET 0 NOREF .1 .2 SET 0 NOREF .2 QUAL NAM NAM DEPENDENT DEFINITIONS .1 SET 0 NOREF .1 QUAL REMOTE TITLE INITIALIZE REMOTE CODE BLOCKS. REMOTE SPACE 2,6 * INITIALIZE REMOTE CODE BLOCKS. CIT RMT CHANNEL INITIALIZATION ADDRESS LIST CIT RMT W.OVLP RMT OVERLAY POINTER TABLE ADDRESS LIST W.OVLP RMT W.CTLT RMT DRIVER CONTROL TABLE ADDRESS LIST W.CTLT RMT W.DIN RMT DRIVER INTERLOCK WORD ADDRESS LIST W.DIN RMT W.DIT RMT DRIVER INTERLOCK TABLE ADDRESS LIST W.DIT RMT W.TNTP RMT TERMINAL NODE TABLE POINTER ADDRESS LIST W.TNTP RMT W.PITP RMT PIP INTERFACE TABLE HEADER ADDRESS LIST W.PITP RMT W.PRBP RMT PRU BUFFER POINTER TABLE LIST W.PRBP RMT W.CPT RMT SPECIAL CHARACTER PROCESSOR TABLE ADDRESS W.CPT RMT W.ATT RMT DISPLAY TO ASCII TRANSLATION TABLE ADDRESS W.ATT RMT W.SCPT RMT SPECIAL CHARACTER PROCESSOR TABLE W.SCPT RMT W.ASCII RMT DISPLAY TO ASCII TRANSLATION TABLE W.ASCII RMT OUTINT RMT OUTPUT INITIATOR RESPONSE ACTION DIRECTORY OUTINT RMT BLKIN RMT BLOCK INPUT RESPONSE ACTION DIRECTORY BLKIN RMT BLOCK RMT BLOCK HANDLER RESPONSE ACTION DIRECTORY BLOCK RMT CMDIN RMT INPUT COMMAND RESPONSE ACTION DIRECTORY CMDIN RMT CMDOUT RMT OUTPUT COMMAND RESPONSE ACTION DIRECTORY CMDOUT RMT STREAM RMT STREAM RESPONSE ACTION DIRECTORY STREAM RMT WORK RMT WORKLIST ACTION DIRECTORY WORK RMT ERROR RMT ERROR ACTION DIRECTORY ERROR RMT CHANNEL TITLE ERROR CODE DEFINITIONS. QUAL ERROR CHANNEL SPACE 2,6 ***** CHANNEL ERROR CODES. ABF EQU 1 CHANNEL ACTIVE BEFORE FUNCTION AAF EQU 2 CHANNEL ACTIVE AFTER FUNCTION ABA EQU 3 CHANNEL ACTIVE BEFORE ACTIVATE IAA EQU 4 CHANNEL INACTIVE AFTER ACTIVATE AAD EQU 5 CHANNEL ACTIVE AFTER DISCONNECT IDO EQU 6 CHANNEL INACTIVE DURING OUTPUT HFO EQU 7 CHANNEL HUNG FULL DURING OUTPUT IDI EQU 8 CHANNEL INACTIVE DURING INPUT HEI EQU 9 CHANNEL HUNG EMPTY DURING INPUT HFI EQU 10D CHANNEL HUNG FULL AFTER INPUT NPU SPACE 2,6 * NPU ERROR CODES. NOT EQU 14 NPU ORDER WORD TIMEOUT NTO EQU 15 NPU TIMEOUT NMP EQU 16 NPU MEMORY PROTECT ERROR MDI SPACE 2,6 * MDI ERROR CODES. NMS EQU 20 UNABLE TO OBTAIN MDI STATUS MES EQU 21 MDI ERROR STATUS REPORTED MIN EQU 22 MDI INOPERATIVE URM EQU 23 UNABLE TO RESET MDI INTERFACE MHE EQU 24 MDI HEADER FORMAT ERROR MIO EQU 25 MDI ERROR REPORTED ON INPUT/OUTPUT DATA MRD EQU 26 MDI REQUESTING DIAGNOSTICS NSS EQU 27D PIP DOES NOT SUPPORT MCI CH PROTOCOL VERS NAM SPACE 2,6 * NAM ERROR CODES. NBT EQU 30 NETWORK BUFFER TABLE FORMAT ERROR OFE EQU 31 DRIVER OVERLAY FORMAT ERROR AOR EQU 32 ADDRESS OUT OF RANGE BLE EQU 33 OUTPUT BUFFER LINK ERROR CNU EQU 34 OUTPUT ON UNASSIGNED CONNECTION NUMBER CPE EQU 35 CONTROL POINT ERROR PSE EQU 36 PCB SIZE ERROR ILO EQU 37 ILLEGAL OUTPUT BLOCK IAR EQU 38 ILLEGAL APPLICATION REQUEST IOC EQU 39 ILLEGAL OUTPUT COMMAND NTP EQU 40 NO DRIVER TABLE POINTER DOE EQU 41 DRIVER ORDINAL ERROR DDR EQU 42 DRIVER DUMP REQUEST BHS EQU 43 ILLEGAL BLOCK HANDLER STATE PBS EQU 44 ILLEGAL PCB PRU BUFFER SIZE BWL EQU 45 BAD WORKLIST FROM NAM PCE EQU 46 PCB CHAIN ERROR PCN EQU 47 PRU CONNECTION NUMBER UNASSIGNED BTS EQU 48 INBOUND BUFFER NOT LARGE ENOUGH CET EQU 49 COUPLER EQUIPMENT TABLE FORMAT ERROR URB EQU 50 UNABLE TO RETURN LIMBO BUFFERS ILE EQU 51 INLINE DIAGNOSTICS HANDLING ERROR DRIVER SPACE 2,6 * DRIVER ERROR CODES. UBT EQU 54 UNKNOWN NETWORK BUFFER TABLE ADDRESS LBE EQU 55 LIMBO BUFFER FORMAT ERROR BSE EQU 56 ILLEGAL PRU BUFFER SIZE NCT EQU 57 NO CONNECTION TABLE ADDRESS OIA EQU 58 ILLEGAL OUTPUT INITIATOR RESPONSE ACTION DFC EQU 59 DRIVER FLOW CONTROL LOGIC ERROR OBI EQU 60 ILLEGAL OUTPUT BLOCK RESPONSE ACTION BRE EQU 61 ILLOGICAL BLOCK HANDLER STATE RESPONSE SRE EQU 62 ILLOGICAL STREAM STATE RESPONSE ACTION ISS EQU 63 ILLEGAL STREAM STATE ENTERED ISE EQU 64 ILLEGAL BUFFER SIZE FOR IVT INPUT FIE EQU 65 INPUT ACCEPTED WHILE BUFFER SPACE REQUESTED ICA EQU 66 ILLOGICAL COMMAND ACTION DQE EQU 67 DRIVER QUEUING LOGIC ERROR DWE EQU 68 ILLOGICAL WORKLIST ACTION FTR EQU 69 NO FNT ADDRESS ON ACTIVE STREAM OME EQU 70 PRU OUTPUT MODE ERROR CTE EQU 71 FRONT END CHANNEL TABLE ERROR CLE EQU 72 CHECKMARK LOGIC ERROR OSV EQU 73 OVERLAY STRUCTURE VIOLATION BLOCK SPACE 2,6 * BLOCK PROTOCOL ERROR CODES. IUC EQU 80 INPUT ON UNASSIGNED CONNECTION NUMBER BHE EQU 81 BLOCK PROTOCOL HEADER FORMAT ERROR DHE EQU 82 DATA HEADER FORMAT ERROR ICM EQU 83 FRONT END COMMAND FORMAT ERROR BFE EQU 84 BACK FORMAT ERROR IBS EQU 85 ILLEGAL PRU BUFFER SIZE SPECIFIED IBI EQU 86 ILLEGAL INPUT BLOCK RESPONSE ACTION NFC EQU 87 FRONT END FLOW CONTROL LOGIC ERROR NSE EQU 88 FRONT END BLOCK NUMBER SEQUENCE ERROR IBR EQU 89 ILLEGAL BLOCK HANDLER STATE RESPONSE ACTION ISR EQU 90 ILLEGAL STREAM STATE RESPONSE ACTION IMS EQU 91 INPUT MESSAGE EXCEEDS SPECIFIED SIZE MFE EQU 92 INPUT MESSAGE FORMAT ERROR PIE EQU 93 PRU INPUT MESSAGE FORMAT ERROR CFE EQU 94 PRU COMMAND FORMAT ERROR ICE EQU 95 PRU ICMD RESPONSE FORMAT ERROR ILH EQU 97 INLINE DIAGNOSTICS TEST HEADER ERROR PRUAPP SPACE 2,6 * PRU APPLICATION ERROR CODES. SAE EQU 115 ILLEGAL PRU APPLICATION STREAM ACTION WLE EQU 116 ILLEGAL PRU WORKLIST ENTRY LEVEL7 SPACE 2,6 * A-A LEVEL SEVEN ERROR CODES. L7E EQU 120 A-A LEVEL SEVEN PROTOCOL ERROR L7H EQU 121 A-A LEVEL SEVEN HEADER FORMAT ERROR L7D EQU 122 A-A LEVEL SEVEN DATA FORMAT ERROR QME EQU 123 Q-MESSAGE FORMAT ERROR IN PRU MODE CNE EQU 124 CHECKMARK OR CHECKMARK REPLY NUMBER ERROR TBR EQU 125 TRANSPORT LEVEL BREAK RECEIVED TO7 EQU 126 LEVEL SEVEN TIMEOUT ***** QUAL TABLES LOC 0 .SRID BSS 1 INPUT DATA - INPUT TEXT FROM FRONT END .SRIB BSS 1 INPUT BACK - DRIVER ERROR .SRII BSS 1 INVALID IVT INPUT - BYPASS INPUT .SROD BSS 1 OUTPUT DATA - OUTPUT TEXT TO FRONT END .SSJS BSS 1 START PRU JOB STREAM - DRIVER ERROR .SSDS BSS 1 START PRU DATA STREAM - DRIVER ERROR .SFTI BSS 1 START INBOUND FILE TRANSFER - DRIVER ERROR .SFTO BSS 1 START OUTBOUND FILE TRANSFER - DRIVER ERROR .SJBV BSS 1 VALID JOB - DRIVER ERROR .SJBE BSS 1 INVALID JOB - DRIVER ERROR .SSPS BSS 1 STOP PRU STREAM - DRIVER ERROR .SRST BSS 1 RESTART PRU STREAM - DRIVER ERROR .SBYP BSS 1 BYPASS PRU STREAM - DRIVER ERROR .SABT BSS 1 ABORT PRU STREAM - DRIVER ERROR .SASD BSS 1 ABORT DATA DELIMITER - DRIVER ERROR .SROS BSS 1 RESUME OUTPUT STREAM - DRIVER ERROR .SDOR BSS 1 DIRECT OUTPUT REQUEST - DRIVER ERROR .SEOR BSS 1 EOJ OUTPUT REQUEST - DRIVER ERROR .SSFC BSS 1 SET FILE CHARACTERISTICS - DRIVER ERROR .SSDC BSS 1 SET DEVICE CHARACTERISTICS - DRIVER ERROR .SCMQ BSS 1 COMMAND QUEUED - DRIVER ERROR .SQID BSS 1 QUEUED INPUT DATA - DRIVER ERROR .SOPA BSS 1 OUTPUT ALLOWED - DRIVER ERROR .SNOA BSS 1 NO OUTPUT ACTIVITY - DRIVER ERROR .SSTP BSS 1 STREAM STOPPED - DRIVER ERROR .SSBI BSS 1 BATCH INTERRUPT - DRIVER ERROR .SEOI BSS 1 END OF INFORMATION - DRIVER ERROR .SEND BSS 1 END OF STREAM - DRIVER ERROR .SSAB BSS 1 STREAM ABORTED - DRIVER ERROR .SICR BSS 1 ICMD RESPONSE - DRIVER ERROR .SICI BSS 1 ICMD ISSUED - DRIVER ERROR .SNCI BSS 1 FRONT END COMMAND ISSUED - DRIVER ERROR .SRSI BSS 1 RESET ISSUED - DRIVER ERROR .SARQ BSS 1 APPLICATION REQUESTED - DRIVER ERROR .SMSR BSS 1 MASS STORAGE REQUESTED - DRIVER ERROR .SMSC BSS 1 MASS STORAGE COMPLETED - DRIVER ERROR .SMSE BSS 1 MASS STORAGE EOI - DRIVER ERROR .SMER BSS 1 MASS STORAGE ERROR - DRIVER ERROR .SFTE BSS 1 END OF FILE TRANSFER - DRIVER ERROR .SFTR BSS 1 TRANSFER MASS STORAGE ERROR - DRIVER ERROR .S7MS BSS 1 CHECKMARK - DRIVER ERROR .S7ES BSS 1 END OF STREAM - DRIVER ERROR .S7RR BSS 1 REQUEST RESTART - DRIVER ERROR .S7MR BSS 1 CHECKMARK REPLY - DRIVER ERROR .S7QR BSS 1 QUIT - DRIVER ERROR .S7CI BSS 1 LEVEL SEVEN COMMAND ISSUED - DRIVER ERROR .STPS BSS 1 TERMINATE PRU STREAM - DRIVER ERROR .SPST BSS 1 PRU STREAM TERMINATED - DRIVER ERROR .SFEI BSS 1 FRONT END INOPERATIVE - UPDATE FET OUT POINTER .SBPE BSS 1 BLOCK PROTOCOL ERROR - NO ACTION .SL7E BSS 1 LEVEL SEVEN ERROR - DRIVER ERROR .SDLE BSS 1 DRIVER LOGIC ERROR - DRIVER ERROR TITLE FRONT END DEPENDENT DEFINITIONS. QUAL FUNCTION NPU SPACE 2,12 **** NPU FUNCTION CODES. * * THE FOLLOWING ARE THE NPU FUNCTION CODES USED BY ** THE DRIVER TO CONTROL THE NETWORK PROCESSING UNIT. ID EQU 003 INPUT DATA ISW EQU 004 INPUT NPU STATUS WORD ICS EQU 005 INPUT NPU COUPLER STATUS IOW EQU 006 INPUT NPU ORDER WORD IP EQU 007 INPUT PROGRAM OMA0 EQU 010B OUTPUT MEMORY ADDRESS REGISTER ZERO OMA1 EQU 011B OUTPUT MEMORY ADDRESS REGISTER ONE OD EQU 014B OUTPUT DATA OP EQU 015B OUTPUT PROGRAM OOW EQU 016B OUTPUT NPU ORDER WORD SNP EQU 040B START NPU HNP EQU 100B HALT NPU CLN EQU 200B CLEAR NPU CLC EQU 400B CLEAR NPU COUPLER **** MDI SPACE 2,12 **** MDI FUNCTION CODES. * * THE FOLLOWING ARE THE MDI FUNCTION CODES USED BY ** THE DRIVER TO CONTROL THE MAINFRAME INTERFACE. DIRECT FUNCTIONS MCL EQU 400B MASTER CLEAR RGS EQU 410B REQUEST GENERAL STATUS WDT EQU 420B WRITE DATA RDT EQU 430B READ DATA S.DF EQU 8 DIRECT FUNCTION FLAG POSITION TRANSPARENT FUNCTIONS RDS EQU 1 REQUEST DETAIL STATUS RER EQU 3 DRIVER REPORTS READ ERROR IRT EQU 4 INTERFACE RESET SRR EQU 5 START REGULATION SPR EQU 6 STOP REGULATION RDI EQU 7 REQUEST DIAGNOSTICS SPV EQU 26D SET PROTOCOL VERSION ILET EQU 40B INLINE DIAGNOSTICS ECHO TIMEOUT ILRE EQU 41B INLINE DIAGNOSTICS UNABLE TO READ MESSAGE NOR EQU 42B NORMAL OPERATION NFON EQU 43B NORMAL FLOW CONTROL ON NFOF EQU 44B NORMAL FLOW CONTROL OFF RPV EQU 200B REQUEST PROTOCOL VERSION (200B - 377B) **** NPU SPACE 2,12 **** NPU COUPLER STATUS BITS. * * THE FOLLOWING ARE THE NPU COUPLER STATUS BITS USED * BY THE DRIVER TO DETERMINE THE PHYSICAL STATUS OF THE ** NETWORK PROCESSING UNIT. QUAL CSTATUS MPE EQU 1S0 MEMORY PARITY ERROR MPF EQU 1S1 MEMORY PROTECT FAULT NSL EQU 1S2 STATUS WORD LOADED MAL EQU 1S3 MEMORY ADDRESS REGISTER LOADED ECA EQU 1S4 EXTERNAL CABINET ALARM TC EQU 1S5 TRANSFER COMPLETE TCN EQU 1S6 TRANSFER TERMINATED BY NPU TCP EQU 1S7 TRANSFER TERMINATED BY PPU OWL EQU 1S8 ORDER WORD LOADED NSR EQU 1S9 STATUS WORD READ CTO EQU 1S10 CHANNEL TIMEOUT CPE EQU 1S11 CHANNEL PARITY ERROR S.OWL EQU 8 ORDER WORD LOADED POSITION **** NPU SPACE 2,12 **** NPU STATUS WORD VALUES. * * THE FOLLOWING ARE THE NPU STATUS WORD VALUES THAT ARE * USED BY THE DRIVER TO DETERMINE THE FUNCTIONAL STATUS ** OF THE NETWORK PROCESSING UNIT. QUAL NSTATUS IGN EQU 0 IGNORE AND READ STATUS AGAIN IDL EQU 1 IDLE RO EQU 2 READY FOR OUTPUT NRO EQU 3 NOT READY FOR OUTPUT IAS EQU 4 INPUT AVAILABLE - IVT LE 256 BYTES IAL EQU 5 INPUT AVAILABLE - IVT GT 256 BYTES IAP EQU 6 INPUT AVAILABLE - PRU NIR EQU 7 NPU INITIALIZATION REQUESTED NIC EQU 10B NPU INITIALIZATION COMPLETED L.SC EQU 17B LENGTH OF STATUS CODE S.NPRU EQU 10 PRU COUNT POSITION FOR PRU INPUT **** NPU SPACE 2,12 **** NPU ORDER WORD CODES. * * THE FOLLOWING ARE THE NPU ORDER WORD CODES USED BY ** THE DRIVER TO CONTROL THE NETWORK PROCESSING UNIT. QUAL NORDER OL1 EQU 1 OUTPUT LEVEL ONE - SERVICE MESSAGES OL2 EQU 2 OUTPUT LEVEL TWO - HIGH PRIORITY OL3 EQU 3 OUTPUT LEVEL THREE - LOW PRIORITY NRI EQU 4 DRIVER NOT READY FOR INPUT RGC EQU 5 REGULATION LEVEL CHANGE INA EQU 6 INITIALIZATION REQUEST ACKNOWLEDGMENT S.NPUOL EQU 8 OUTPUT LEVEL POSITION **** MDI SPACE 2,12 **** MDI GENERAL STATUS VALUES. * * THE FOLLOWING ARE THE MDI GENERAL STATUS VALUES THAT * ARE USED BY THE DRIVER TO DETERMINE THE FUNCTIONAL ** STATUS OF THE MAINFRAME INTERFACE. QUAL MSTATUS ERR EQU 11 MDI ERROR MER EQU 10 MDI MEMORY ERROR DAV EQU 9 DATA AVAILABLE SDT EQU 8 PERMISSION TO SEND DATA BSY EQU 7 BUSY - IGNORE AND READ STATUS AGAIN OPR EQU 6 OPERATIONAL SDTM EQU 1S8 MASK FOR PERMISSION TO SEND DATA NOT OPERATIONAL MST EQU 3 MDI STATE IF NOT OPERATIONAL M.MST EQU 7S3 MDI STATE MASK MDI STATE VALUES FRS EQU 0 MDI RESET DGN EQU 1 DIAGNOSTICS MTN EQU 2 MAINTENANCE STR EQU 3 STARTING LOD EQU 4 LOADING CRS EQU 5 MCI RESET LCD EQU 6 LOGICALLY CLOSED DWN EQU 7 DOWN START EQU STR*10B STARTING STATE POSITIONED TO STATE OPERATIONAL MIA EQU 3 INPUT AVAILABILITY IF OPERATIONAL M.MIA EQU 7S3 INPUT AVAILABILITY MASK INPUT AVAILABLE VALUES IAS EQU 0 IVT INPUT LE 256 BYTES IAL EQU 1 IVT INPUT GT 256 BYTES PI1 EQU 2 PRU INPUT - ONE PRU PI2 EQU 3 PRU INPUT - TWO PRU PI3 EQU 4 PRU INPUT - THREE PRU ILC EQU 5 INLINE DIAGNOSTICS DATA INPUT AVAILABLE GLOBAL FLOW CONTROL FLAGS FOF EQU 0 NORMAL FLOW CONTROL IS OFF FON EQU 1 NORMAL FLOW CONTROL IS ON **** **** MCI CHANNEL PROTOCOL VERSIONS SUPPORTED * * THE FOLLOWING IS THE MININUM AND MAXIMUM MCI CHANNEL * PROTOCOL VERSIONS SUPPORTED BY THIS VERSION OF PIP. * AT EVERY NHP RELEASE, THESE NUMBERS MAY NEED TO BE * UPDATED TO INDICATE THAT PIP SUPPORTS THE LATEST * VERSION OF THE MCI CHANNEL PROTOCOL. ** MINV EQU 3 MINIMUM MCI CHANNEL PROTOCOL VERSION SUPPORTED BY THIS VERSION OF PIP MAXV EQU 4 MAXIMUM MCI CHANNEL PROTOCOL VERSION SUPPORTED BY THIS VERSION OF PIP VERSION4 EQU 4 LOWEST MCI CHANNEL VERSION NUMBER WHICH SUPPORTS NORMAL OPERATION, FLOW CONTROL ON, AND FLOW CONTROL OFF TRANSPARENT FUNCTIONS, AND SUPPORTS FLOW CONTROL BIT IN GENERAL STATUS REGISTER. **** MDI SPACE 2,12 **** MDI DETAILED STATUS FORMAT. * * THE FOLLOWING IS THE FORMAT OF THE MDI DETAILED STATUS * WHICH THE DRIVER OBTAINS AFTER THE MDI HAS REPORTED AN ** ERROR CONDITION. LOC 0 VERNO BSS 1 CHANNEL PROTOCOL VERSION BSS 1 SLOT NUMBER BSS 2 SYSTEM VERSION BSS 2*3 SYSTEM ID BSS 1 LAST I/O OPERATION BSS 1 LAST TRANSPARENT FUNCTION BSS 2 LAST PPU FUNCTION BSS 2 LAST BUT ONE PPU FUNCTION BSS 2 SUMMARY FLAGS AND MCI GENERAL STATUS BSS 1 MCI STATUS REGISTER ONE BSS 1 MCI STATUS REGISTER THREE BSS 2 SOFTWARE STATUS FLAGS BSS 2*2 MAXIMUM PDU SIZE **** L.DS8 EQU * LENGTH OF DETAIL STATUS IN EIGHT BITS .1 SET *+2 .1 SET .1/3 L.DSP EQU .1*2 LENGTH IN PACKED TWELVE-BIT BYTES QUAL MDI * BIT DEFINITIONS FOR A REGISTER TO BE USED FOR ALL * ROUTINES THAT CALL SUBROUTINE GMS. THE SETTINGS OF * THESE BITS CONTROLS THE ERROR PROCESSING IN SUBROUTINE * GMS. S.ABTNMS EQU 0 BIT POSITION OF ABTNMS FLAG S.ABTMES EQU 1 BIT POSITION OF ABTMES FLAG S.ABTMIO EQU 2 BIT POSITION OF ABTMIO FLAG S.ABTSTR EQU 3 BIT POSITION OF ABTSTR FLAG B.ABTNMS EQU 1 ERROR EXIT IF UNABLE TO GET MDI GS B.ABTMES EQU 2 ERROR EXIT IF ERR BIT SET IN GS B.ABTMIO EQU 4 ERROR EXIT IF ERR BIT SET IN GS AFTER I/O B.ABTSTR EQU 8 ERROR EXIT IF MDI IN STARTING STATE BLOCK TITLE FRONT END BLOCK PROTOCOL DEFINITIONS. QUAL BLOCK NPUBLOCK SPACE 2,12 **** FRONT END BLOCK TYPES. * * THE FOLLOWING IS A LIST OF THE BLOCK TYPES THAT ** ARE EXCHANGED BETWEEN THE DRIVER AND THE FRONT END. LOC 1 BLK BSS 1 BLOCK (FORWARD DATA) MSG BSS 1 MESSAGE (FORWARD DATA) BACK BSS 1 BACK (REVERSE SUPERVISION) CMD BSS 1 COMMAND (FORWARD DATA) BRK BSS 1 BREAK (REVERSE SUPERVISION) QBLK BSS 1 Q-BLOCK (FORWARD DATA) QMSG BSS 1 Q-MESSAGE (FORWARD DATA) RST BSS 1 RESET (FORWARD SUPERVISION) INITR BSS 1 INIT REQUEST (FORWARD SUPERVISION) INITN BSS 1 INIT RESPONSE (REVERSE SUPERVISION) TERM BSS 1 TERMINATE (FORWARD SUPERVISION) ICMD BSS 1 INTERRUPT COMMAND (FORWARD SUPERVISION) ICMDR BSS 1 INTERRUPT COMMAND RESPONSE (REVERSE SUPERVISION) **** MAXBT BSS 0 DEFINE MAXIMUM VALID BLOCK TYPE VALUE SPACE 2,6 **** NPU BLOCK PROTOCOL VALUE ASSIGNMENTS. MAXTEXT EQU 105 MAXIMUM NPU WORD COUNT FOR LOAD/DUMP TEXT S.EOT EQU 11 END OF TRANSFER FLAG AT COUPLER POSITION B.EOT EQU 1S11 FLAG INDICATING END OF TRANSFER AT COUPLER * FRONT END BLOCK PROTOCOL VALUE ASSIGNMENTS. B.NR EQU 1S6 NORMAL COMMAND RESPONSE BIT, B.ER EQU 1S7 ERROR COMMAND RESPONSE BIT **** MDIHEAD SPACE 2,12 **** MDI HEADER FOR INBOUND TRAFFIC. * * THE MDI HEADER FOR INBOUND TRAFFIC BEGINS EACH INBOUND ** TRANSACTION WITH THE MAINFRAME INTERFACE FRONT END. LOC 0 BSS 6 DESTINATION ADDRESS BSS 6 SOURCE ADDRESS BLKLEN BSS 2 BLOCK LENGTH (16-BITS) BLKSTRT BSS 1 DESTINATION SAP BSS 1 SOURCE SAP BSS 1 CONTROL BSS 2 FRAME-ALIGNMENT BYTES **** L.MDIHDR BSS 0 DEFINE LENGTH OF MDI HEADER DIAGHDR SPACE 2,12 **** MDI HEADER DEFINED FOR INLINE DIAGNOSTICS * * THE MDI HEADER FOR INLINE DIAGNOSTICS IS IN PACKED * FORMAT, I.E. ALL 12 BITS OF EACH PP WORD IS USED. ** LOC 0 BSS 4 DESTINATION ADDRESS BSS 4 SOURCE ADDRESS L.ILLEN BSS 0 DEFINE LENGTH UP TO LENGTH WORD ILLEN BSS 1 WORD CONTAINING UPPER 12 BITS OF LENGTH ILDSAP BSS 1 WORD CONTAINING LOWER 4 BITS OF LENGTH AND DESTINATION SAP ILSSAP BSS 1 WORD CONTAINING SOURCE SAP AND UPPER 4 ILCTRL BSS 0 BITS OF CONTROL L.ILFLG BSS 0 DEFINE LENGTH UP TO ILFLAG WORD ILFLAG BSS 1 WORD CONTAINING LOWER 4 BITS OF CONTROL AND UPPER 8 BITS OF DIAGNOSTICS FLAGS ILSEQ BSS 1 WORD CONTAINING LOWER 8 BITS OF DIAG FLGS AND UPPER 4 BITS OF MESSAGE SEQUENCE NUMBER BSS 1 WORD CONTAINING LOWER 12 BITS OF SEQ NUMBER ILLNG BSS 1 WORD CONTAINING UPPER 12 BITS OF MSG LENGTH ILSEED BSS 1 WORD CONTAINING LOWER 4 BITS OF MSG LENGTH AND UPPER 8 BITS OF SEED BSS 1 WORD CONTAINING LOWER 8 BITS OF SEED **** L.ILHDR BSS 0 LENGTH OF INLINE DIAGNOSTICS HEADER L.ILFLAG EQU L.ILFLG/5 LENGTH UP TO DIAG FLAG BYTE IN CM WORDS L.ILHEAD EQU L.ILHDR/5 LENGTH OF INLINE DIAG HEADER IN CM WORDS L.ILHDR8 EQU 11D NO OF 8 BIT BYTES IN HEADER FROM DESTINATION SAP FIELD TO SEED FIELD S.ILFNO EQU 10D NO FLAGS ABOVE THIS BIT POSITION S.ILFDC EQU 9 DISCARD MESSAGE S.ILFBB EQU 8 BLOCK MODE BACK S.ILFRB EQU 7 REGISTER MODE BACK S.ILFDB EQU 6 REGISTER MODE BACK WITH DELAY S.ILFBR EQU 5 BLOCK MODE READ S.ILFRR EQU 4 REGISTER MODE READ M.ILLENU EQU 7777B UPPER BITS OF LENGTH MASK M.ILLENL EQU 7400B LOWER BITS OF LENGTH MASK M.ILFBK EQU 7S6 BACK MODE MASK M.ILFRD EQU 3S4 READ MODE MASK N.ILLENL EQU 4 NO OF LENGTH BITS IN SECOND BYTE MDIHEAD SPACE 2,12 **** MDI HEADER FOR OUTBOUND TRAFFIC. * * THE MDI HEADER FOR OUTBOUND TRAFFIC BEGINS EACH * OUTBOUND TRANSACTION WITH THE MAINFRAME INTERFACE ** FRONT END. LOC 0 BSS 6 DESTINATION ADDRESS BSS 6 SOURCE ADDRESS BSS 2 ZERO (16-BITS) BSS 1 DESTINATION SAP BSS 1 SOURCE SAP BSS 1 CONTROL BSS 2 FRAME-ALIGNMENT BYTES **** L.MDIHDR BSS 0 DEFINE LENGTH OF MDI HEADER HEADER SPACE 2,12 **** BLOCK PROTOCOL HEADER. * ** THE BLOCK PROTOCOL HEADER PRECEDES VARIABLE TEXT FOR * EACH TRANSACTION WITH A FRONT END AND HAS THE FOLLOWING ** FORMAT. LOC 0 DN BSS 1 DESTINATION NODE (RECEIVER) SN BSS 1 SOURCE NODE (SENDER) CN BSS 1 CONNECTION NUMBER BNBT BSS 1 PRIORITY, BLOCK NUMBER, BLOCK TYPE S.PR EQU 7 PRIORITY BIT POSITION S.BSN EQU 4 BLOCK SERIAL NUMBER POSITION M.BSN EQU 0#7S4 BLOCK SERIAL NUMBER MASK S.BT EQU 0 BLOCK TYPE POSITION L.BT EQU 0#F BLOCK TYPE LENGTH **** L.BH BSS 0 DEFINE LENGTH OF BLOCK PROTOCOL HEADER DATAHEAD SPACE 2,12 **** DATA BLOCK HEADER. * * ALL DATA BLOCKS TRANSFERRED BETWEEN THE DRIVER AND *+ THE FRONT END HAVE THE FOLLOWING DATA BLOCK HEADER. LOC 0 DBC BSS 1 DATA BLOCK CLARIFIER **** L.DH BSS 0 DEFINE LENGTH OF DATA BLOCK HEADER PRUDBC SPACE 2,6 **** PRU DBC BIT DEFINITIONS. S.PRU EQU 7 PRU BLOCK (1 = YES) B.PRU EQU 1S7 PRU BLOCK BIT S.EOI EQU 6 EOI FLAG (1 = YES) B.EOI EQU 1S6 EOI BIT S.EOR EQU 5 EOR FLAG (1 = YES) B.EOR EQU 1S5 EOR BIT S.EBD EQU 4 EIGHT BIT DATA FLAG (1 = YES) B.EBD EQU 1S4 8-BIT/TRANSPARENT DATA BIT S.LVL EQU 0 LEVEL NUMBER POSITION L.LVL EQU 17B LENGTH OF LEVEL NUMBER FIELD **** IVTDBC SPACE 2,6 **** IVT DBC BIT DEFINITIONS. S.FE EQU 3 FORMAT EFFECTOR FLAG (1 = NO) **** DATA SPACE 2,12 **** NPU DATA TEXT. * * THE NPU DATA TEXT FOLLOWS THE NPU DATA BLOCK ** HEADER AND HAS THE FOLLOWING FORMAT. LOC 0 DATA BSS 0 DATA TEXT **** L.DATA EQU 2048-L.BH-L.DH DEFINE MAXIMUM LENGTH OF DATA TEXT BACK SPACE 2,12 **** NPU BACK FORMAT. * * THE FOLLOWING IS THE FORMAT OF THE BLOCK ** ACKNOWLEDGMENT ELEMENT OF THE BLOCK PROTOCOL. LOC 0 BSS 0 BACK CONTAINS NO TEXT **** L.BACK BSS 0 DEFINE LENGTH OF BACK TEXT CMD SPACE 2,12 **** NPU COMMAND FORMAT. * * THE FOLLOWING IS THE FORMAT OF THE ** COMMAND ELEMENT OF THE BLOCK PROTOCOL. LOC 0 PFC BSS 1 PRIMARY FUNCTION CODE SFC BSS 1 SECONDARY FUNCTION CODE L.CH BSS 0 DEFINE LENGTH OF COMMAND HEADER LOC 0 CTEXT BSS 0 COMMAND TEXT **** L.CMD EQU 2047-L.BH-L.CH DEFINE MAXIMUM LENGTH OF COMMAND TEXT OVER(1) SPACE 2,14 **** NPU OVERLAY COMMAND LOAD FORMAT. * * THE FOLLOWING IS THE FORMAT OF THE OVERLAY COMMAND * ELEMENT OF THE BLOCK PROTOCOL USED FOR REQUESTING A * LOAD OF A NPU. THE DRIVER IS RESPONSIBLE FOR * PROCESSING LOAD REQUESTS WHICH ARE ADDRESSED TO A ** FRONT END NPU. LOC 0 BSS 1 PORT BSS 1 SUB-PORT FUNC BSS 1 FUNCTION CODE (1) BSS 1 LOAD SEQUENCE NUMBER BSS 1 FILL BADR BSS 3 BEGINNING LOAD ADDRESS BC BSS 1 BATCH COUNT (NON-ZERO INDICATES REQUEST RETURN OF ACCUMULATED BATCH COUNT) BSS 1 FILL BSS 2 CHECKSUM NPUTEXTL BSS MAXTEXT*2 NPU TEXT **** L.OV(1) BSS 0 DEFINE LENGTH OF OVERLAY COMMAND MAXCMD SET L.OV(1) OVER(1)R SPACE 2,14 **** NPU OVERLAY COMMAND LOAD RESPONSE FORMAT. * * THE FOLLOWING IS THE FORMAT OF THE OVERLAY RESPONSE * ELEMENT OF THE BLOCK PROTOCOL USED AS A RESULT OF A * LOAD REQUEST. THE DRIVER IS RESPONSIBLE FOR GENERATING * THE OVERLAY COMMAND LOAD RESPONSE AS A RESULT OF AN ** OVERLAY LOAD COMMAND ADDRESSED TO A FRONT END NPU. LOC 0 OP BSS 1 PORT OSP BSS 1 SUB-PORT FUNC BSS 1 FUNCTION CODE (1) BSS 1 LOAD SEQUENCE NUMBER ORC BSS 1 RESPONSE CODE BADR BSS 3 BEGINNING LOAD ADDRESS BC BSS 1 BATCH COUNT **** L.OV(1)R BSS 0 DEFINE LENGTH OF OVERLAY COMMAND RESPONSE MAXCMD MAX MAXCMD,L.OV(1)R OVER(2) SPACE 2,18 **** NPU OVERLAY COMMAND START/WAIT FORMAT. * * THE FOLLOWING IS THE FORMAT OF THE OVERLAY COMMAND * ELEMENT OF THE BLOCK PROTOCOL USED FOR REQUESTING THE * START OF A NPU AFTER A LOAD AND WAIT FOR A NPU * RESPONSE. THE DRIVER IS RESPONSIBLE FOR PROCESSING * START/WAIT REQUESTS WHICH ARE ADDRESSED TO A FRONT ** END NPU. LOC 0 BSS 1 PORT BSS 1 SUB-PORT FUNC BSS 1 FUNCTION COE (2) BSS 1 LOAD SEQUENCE NUMBER **** L.OV(2) BSS 0 DEFINE LENGTH OF OVERLAY COMMAND MAXCMD MAX MAXCMD,L.OV(2) OVER(2)R SPACE 2,18 **** NPU OVERLAY COMMAND START/WAIT RESPONSE FORMAT. * * THE FOLLOWING IS THE FORMAT OF THE OVERLAY RESPONSE * ELEMENT OF THE BLOCK PROTOCOL USED AS A RESULT OF A * START/WAIT REQUEST. THE DRIVER IS RESPONSIBLE FOR * GENERATING THE OVERLAY COMMAND START/WAIT RESPONSE AS * A RESULT OF AN OVERLAY START/WAIT COMMAND ADDRESSED TO ** A FRONT END NPU. LOC 0 OP BSS 1 PORT OSP BSS 1 SUB-PORT FUNC BSS 1 FUNCTION CODE (2) BSS 1 LOAD SEQUENCE NUMBER ORC BSS 1 RESPONSE CODE **** L.OV(2)R BSS 0 DEFINE LENGTH OF OVERLAY COMMAND RESPONSE MAXCMD MAX MAXCMD,L.OV(2)R OVER(4) SPACE 2,16 **** NPU OVERLAY COMMAND START FORMAT. * * THE FOLLOWING IS THE FORMAT OF THE OVERLAY COMMAND * ELEMENT OF THE BLOCK PROTOCOL USED FOR REQUESTING THE * START OF A NPU. THE DRIVER IS RESPONSIBLE FOR * PROCESSING START REQUESTS WHICH ARE ADDRESSED TO A ** FRONT END NPU. LOC 0 BSS 1 PORT BSS 1 SUB-PORT FUNC BSS 1 FUNCTION CODE (4) BSS 1 LOAD SEQUENCE NUMBER **** L.OV(4) BSS 0 DEFINE LENGTH OF OVERLAY COMMAND MAXCMD MAX MAXCMD,L.OV(4) OVERER SPACE 2,16 **** NPU OVERLAY COMMAND ERROR RESPONSE FORMAT. * * THE FOLLOWING IS THE FORMAT OF THE OVERLAY COMMAND * ERROR RESPONSE ELEMENT OF THE BLOCK PROTOCOL USED AS * A RESULT OF AN OVERLAY COMMAND THAT WAS FOUND TO BE * IN ERROR. THE DRIVER IS RESPONSIBLE FOR GENERATING * AN OVERLAY COMMAND ERROR RESPONSE AS A RESULT OF AN * OVERLAY COMMAND ADDRESSED TO A FRONT END NPU THAT IS ** IN ERROR. LOC 0 OP BSS 1 PORT OSP BSS 1 SUB-PORT FUNC BSS 1 FUNCTION CODE BSS 1 LOAD SEQUENCE NUMBER ORC BSS 1 ERROR RESPONSE CODE **** L.OVERER BSS 0 DEFINE LENGTH OF OVERLAY ERROR RESPONSE MAXCMD MAX MAXCMD,L.OVERER LOADRQ SPACE 2,16 **** NPU LOAD REQUEST COMMAND FORMAT. * * THE FOLLOWING IS THE FORMAT OF THE LOAD NPU COMMAND * ELEMENT OF THE BLOCK PROTOCOL. THE DRIVER IS * RESPONSIBLE FOR GENERATING THE LOAD NPU COMMAND WHEN * AN INITIALIZATION REQUEST IS RECEIVED FROM A FRONT END * NPU OR A TIMEOUT OCCURS ON A FRONT END NPU THAT DOES ** NOT HAVE A SYSTEM AUTOSTART MODULE. LOC 0 LP BSS 1 PORT LSP BSS 1 SUB-PORT LTYP BSS 1 LOAD TYPE (0 = BOOTSTRAP, 1 = LOCAL NPU) **** L.LDRQ BSS 0 DEFINE LENGTH OF LOAD NPU COMMAND MAXCMD MAX MAXCMD,L.LDRQ CEERROR SPACE 2,14 **** FRONT END CE ERROR COMMAND FORMAT. * * THE FOLLOWING IS THE FORMAT OF THE CE ERROR COMMAND * ELEMENT OF THE BLOCK PROTOCOL. THE DRIVER IS * RESPONSIBLE FOR GENERATING THE CE ERROR COMMAND FOR ** ERRORS DETECTED IN PROCESSING A FRONT END. LOC 0 CEERC BSS 1 ERROR CODE CEDEC BSS 1 DRIVER ERROR CODE CECSR BSS 2 FRONT END STATUS REGISTER CONTENTS S.CESOFT EQU 4 MDI SOFT ERROR FLAG POSITION (IN CECSR) **** L.CEER BSS 0 DEFINE LENGTH OF CE ERROR COMMAND MAXCMD MAX MAXCMD,L.CEER CRGL SPACE 2,22 **** FRONT END REGULATION CHANGE COMMAND FORMAT. * * THE FOLLOWING IS THE FORMAT OF THE FRONT END REGULATION * CHANGE COMMAND. THIS COMMAND IS USED BY THE DRIVER * TO INDICATE THAT TRAFFIC CAN NO LONGER BE SENT TO THE * FRONT END. THIS OCCURS WHEN THE FRONT END IS TURNED * OFF IN THE EQUIPMENT STATUS TABLE, A FRONT END ERROR * HAS OCCURRED, THE NPU IS TIMED OUT, THE NPU HAS SENT * AN INITIALIZATION REQUEST OR THE MDI IS DETECTED AS * INOPERTIVE. IN ADDITION THE DRIVER WILL RECEIVE THE * COMMAND AS A RESPONSE TO SENDING THE COMMAND WHEN ALL * TRAFFIC HAS BEEN DELETED FOR THE FRONT END AND ALSO * UNSOLICITED WHEN NAM FIRST BEGINS SERVICING THE FRONT * END OR WHEN THE HOST REGULATION LEVEL OF THE HOST ** CHANGES. LOC 0 REG BSS 1 REGULATION LEVEL CONTROL BYTE S.NS EQU 3 NETWORK SUPERVISOR FLAG POSITION S.CS EQU 2 COMMUNICATION SUPERVISOR FLAG POSITION L.ORL EQU 3 OUTPUT REQULATION LEVEL LENGTH REGR BSS 1 RESPONSE FLAG (1 = RESPONSE TO DRIVER) **** L.RGCP BSS 0 DEFINE LENGTH OF REGULATION CHANGE COMMAND MAXCMD MAX MAXCMD,L.RGCP RGST SPACE 2,12 **** REGULATION STATUS REQUEST COMMAND. * * THE FOLLOWING IS THE FORMAT OF THE REGULATION STATUS * REQUEST COMMAND. THIS COMMAND IS USED BY THE DRIVER ** TO REQUEST THE REGULATION LEVEL OF THE HOST. LOC 0 BSS 0 REGULATION STATUS REQUEST CONTAINS NO TEXT **** L.RGST BSS 0 DEFINE LENGTH OF REGULATION STATUS REQUEST MAXCMD MAX MAXCMD,L.RGST MDII SPACE 2,14 **** REQUEST MDI INITIALIZATION COMMAND. * * THE FOLLOWING IS THE FORMAT OF THE REQUEST MDI * INITIALIZATION COMMAND. THE COMMAND IS USED BY THE * DRIVER TO REPORT THE DETECTION OF A MDI THAT REQUIRES ** INITIALIZATION. LOC 0 BSS 0 REQUEST MDI INITIALIZATION CONTAINS NO TEXT **** L.RMDI BSS 0 DEFINE LENGTH OF REQUEST MDI INITIALIZATION MAXCMD MAX MAXCMD,L.RMDI ESTOFF SPACE 2,14 **** EST TURNED OFF COMMAND FORMAT. * * THE FOLLOWING IS THE FORMAT OF THE EQUIPMENT STATUS * TABLE ENTRY TURNED OFF COMMAND. THIS COMMAND IS USED * BY THE DRIVER TO INDICATE THAT THE EQUIPMENT STATUS * TABLE ENTRY ASSOCIATED WITH AN ACTIVE FRONT END HAS ** BEEN TURNED OFF. LOC 0 BSS 0 EST TURNED OFF COMMAND CONTAINS NO TEXT **** L.EQTO BSS 0 DEFINE LENGTH OF EST TURNED OFF COMMAND MAXCMD MAX MAXCMD,L.EQTO BSTO SPACE 2,12 **** BOOTSTRAP LOAD TIMEOUT COMMAND. * * THE FOLLWOING IS THE FORMAT OF THE BOOTSTRAP LOAD * TIMEOUT COMMAND. THIS COMMAND IS USED BY THE DRIVER ** TO INDICATE THAT THE BOOTSTRAP LOAD HAS BEEN TIMED OUT. LOC 0 BSS 0 BOOTSTRAP LOAD TIMEOUT CONTAINS NO TEXT **** L.BSTO BSS 0 DEFINE LENGTH OF BOOTSTRAP TIMEOUT COMMAND MAXCMD MAX MAXCMD,L.BSTO HALTFE SPACE 2,14 **** HALT FRONT END COMMAND. * * THE FOLLOWING IS THE FORMAT OF THE HALT FRONT END * COMMAND. THE HALT FRONT END COMMAND IS SENT TO THE * FRONT END BY THE DRIVER WHEN A BLOCK PROTOCOL ERROR HAS * BEEN DETECTED BY THE DRIVER AND THE HALT FRONT END ON ** ERROR FLAG IS SET IN THE DRIVER INTERFACE TABLE. LOC 0 DDP BSS 1 DUMP NPU PARAMETER DSS BSS 2 DRIVER STREAM STATE DAC BSS 1 DRIVER ACTION ORDINAL DBS BSS 1 DRIVER BLOCK HANDLER STATE DOV BSS 1 DRIVER OVERLAY ORDINAL OF LOADED OVERLAY DCC BSS 1 DRIVER CHARACTER COUNT OF LAST INPUT DLI BSS 1 DRIVER LAST INPUT CHARACTER DET BSS 1 DRIVER END OF TRANFER FLAG DIC BSS 2 DRIVER LAST INPUT CALL ADDRESS DER BSS 1 DRIVER ERROR CODE DHN BSS 1 HOST NODE NUMBER DTN BSS 1 TERMINAL NODE NUMBER DAD BSS 1 DRIVER ACTION DIRECTORY OFFSET DRT BSS 2 DRIVER RESPONSE TABLE ENTRY DCO BSS 1 DRIVER COMMAND ORDINAL/INPUT ORDER CODE DBA BSS 2 DRIVER BLOCK SEQUENCE NUMBERS DBT BSS 1 MESSAGE BLOCK TYPE DNS BSS 1 DRIVER NEXT STREAM STATE DPR BSS 1 PRU BUFFER SIZE DRE BSS 1 DRIVER REQUEST END OF OUTPUT FLAG DOW BSS 2 NPU ORDER WORD DCP BSS 2 DRIVER OUTPUT/INPUT PROCESSOR DCN BSS 1 CONNECTION NUMBER **** L.HFE BSS 0 DEFINE LENGTH OF HALT FRONT END COMMAND MAXCMD MAX MAXCMD,L.HFE SFCH SPACE 2,14 **** SET FILE CHARACTERISTICS COMMAND. * * THE FOLLOWING IS THE FORMAT OF THE SET FILE * CHARACTERISTICS COMMAND. THE COMMAND IS USED BY THE * DRIVER TO SET THE FILE ATTRIBUTES OF THE FOLLOWING ** OUTPUT FILE. LOC 0 FN BSS 1 FIELD NAME FV BSS 1 FIELD VALUE **** SFCHFM SPACE 2,6 **** FILE MODE VALUES. DISO26 EQU 0 DISPLAY CODE O26 DISO29 EQU 1 DISPLAY CODE O29 ASCII EQU 2 ASCII TRANS EQU 3 TRANSPARENT **** OSPM SPACE 2,14 **** OUTPUT STOPPED BY PM MESSAGE COMMAND. * * THE FOLLOWING IS THE FORMAT OF THE OUTPUT STOPPED BY A * PM MESSAGE COMMAND ELEMENT OF THE BLOCK PROTOCOL. THE * COMMAND IS USED TO INDICATE THAT A PRU OUTPUT STREAM * HAS BEEN STOPPED BECAUSE A PM MESSAGE WAS DETECTED IN ** THE OUTPUT DATA STREAM. LOC 0 PMTEXT BSS 80 PM TEXT **** L.OSPM BSS 0 DEFINE LENGTH OF OUTPUT STOPPED BY PM MAXCMD MAX MAXCMD,L.OSPM+5*2 EOF SPACE 2,14 **** END OF FILE COMMAND. * * THE FOLLOWING IS THE FORMAT OF THE END OF FILE COMMAND * ELEMENT OF THE BLOCK PROTOCOL. THE COMMAND IS USED TO * INDICATE THAT ALL DATA HAS BEEN PROCESSED AND TO RETURN ** THE ACCOUNTING INFORMATION FOR THE FILE. LOC 0 ACCDATA BSS 3 ACCOUNTING DATA **** L.EOF BSS 0 DEFINE LENGTH OF END OF FILE COMMAND MAXCMD MAX MAXCMD,L.EOF FABT SPACE 2,14 **** FILE ABORTED COMMAND. * * THE FOLLOWING IS THE FORMAT OF THE FILE ABORTED COMMAND * ELEMENT OF THE BLOCK PROTOCOL. THE COMMAND IS USED TO * INDICATE THAT THE FILE ON THE STREAM HAS BEEN ABORTED ** AND TO RETURN THE ACCOUNT INFORMATION FOR THE FILE. LOC 0 ACCDATA BSS 3 ACCOUNTING DATA **** L.FABT BSS 0 DEFINE LENGTH OF FILE ABORTED COMMAND MAXCMD MAX MAXCMD,L.FABT PRUON SPACE 2,14 ** APPPLICATION TO APPLICATION PRU ON COMMAND. * * THE FOLLOWING IS THE FORMAT OF THE PRU ON COMMAND * WHICH IS USED BY THE DRIVER TO SWITCH THE FRONT END * INTO PRU MODE FOR AN INCOMING APPLICATION TO ** APPLICATION FILE TRANSFER. LOC 0 BLKSZ BSS 2 BLOCK SIZE IN CHARACTERS L.PRUON BSS 0 DEFINE LENGTH OF PRU ON COMMAND MAXCMD MAX MAXCMD,L.PRUON PRUOFF SPACE 2,14 ** APPLICATION TO APPLICATION PRU OFF COMMAND. * * THE FOLLOWING IS THE FORMAT OF THE PRU OFF COMMAND * WHICH IS USED BY THE DRIVER TO SWITCH THE FRONT END * FROM PRU MODE AFTER AN INCOMING APPLICATION TO ** APPLICATION FILE TRANSFER. LOC 0 BSS 0 PRU OFF COMMAND CONTAINS NO TEXT L.PRUOFF BSS 0 DEFINE LENGTH OF PRU OFF COMMAND MAXCMD MAX MAXCMD,L.PRUOFF BRK SPACE 2,12 **** NPU BREAK FORMAT. * * THE FOLLOWING IS THE FORMAT OF THE ** BREAK ELEMENT OF THE BLOCK PROTOCOL. LOC 0 RC BSS 1 REASON CODE **** L.BRK BSS 0 DEFINE LENGTH OF BREAK TEXT STP SPACE 2,12 **** NPU STP FORMAT. * * THE FOLLOWING IS THE FORMAT OF THE ** STOP ELEMENT OF THE BLOCK PROTOCOL. LOC 0 RC BSS 1 REASON CODE **** L.STP BSS 0 DEFINE LENGTH OF STOP TEXT STRT SPACE 2,12 **** NPU STRT FORMAT. * * THE FOLLOWING IS THE FORMAT OF THE ** START ELEMENT OF THE BLOCK PROTOCOL. LOC 0 RC BSS 1 REASON CODE (NOT CURRENTLY USED) **** L.STRT BSS 0 DEFINE LENGTH OF START TEXT RST SPACE 2,12 **** NPU RST FORMAT. * * THE FOLLOWING IS THE FORMAT OF THE ** RESET ELEMENT OF THE BLOCK PROTOCOL. LOC 0 BSS 0 RESET CONTAINS NO TEXT **** L.RST BSS 0 DEFINE LENGTH OF RESET TEXT INIT SPACE 2,12 **** NPU INIT FORMAT. * * THE FOLLOWING IS THE FORMAT OF THE ** INIT ELEMENT OF THE BLOCK PROTOCOL. LOC 0 BSS 0 INIT CONTAINS NO TEXT **** L.INIT BSS 0 DEFINE LENGTH OF INIT TEXT ICMD SPACE 2,12 **** NPU ICMD FORMAT. * * THE FOLLOWING IS THE FORMAT OF THE INTERRUPT ** COMMAND ELEMENT OF THE BLOCK PROTOCOL. LOC 0 RC BSS 1 REASON CODE **** L.ICMD BSS 0 DEFINE LENGTH OF INTERRUPT COMMAND TEXT ICMDR SPACE 2,12 **** NPU ICMDR FORMAT. * * THE FOLLOWING IS THE FORMAT OF THE INTERRUPT ** COMMAND RESPONSE ELEMENT OF THE BLOCK PROTOCOL. LOC 0 BSS 0 ICMDR CONTAINS NO TEXT **** L.ICMDR BSS 0 DEFINE LENGTH OF INTERRUPT RESPONSE TEXT DRCALL TITLE NAM DEPENDENT DEFINITIONS. QUAL NAM DRCALL SPACE 2,20 ** DRIVER CALL. * * THE FOLLOWING IS THE FORMAT OF THE VARIOUS * DRIVER CALLS WHICH ARE MADE OF THE DRIVER. * *TBL 18/PIP,1/0,5/CP,12/FC,6/0,18/PAD * * WHERE - * * PIP = DRIVER NAME IN DISPLAY CODE, * CP = CONTROL POINT NUMBER, * FC = FUNCTION CODE, ** PAD = PARAMETER ADDRESS. LOC 0 BSS 1 DRIVER CALL IMAGE C.DFC EQU 2 DRIVER FUNCTION CODE (0 - 2) C.PAD EQU 3 - 4 PARAMETER AREA ADDRESS (BITS 5-0+11-0) PARAM(0) SPACE 2,12 ** PARAMETER AREA FOR PROCESS FRONT ENDS CALL. * * THE PARAMETER ADDRESS SPECIFIED IN THE PROCESS FRONT * END CALL, (FC = 0), LOCATES THE DRIVER INTERFACE TABLE * WHICH WILL BE USED TO PROCESS ASSIGNED FRONT ENDS. THE * DRIVER INTERFACE TABLE FORMAT IS SUBSEQUENTLY DESCRIBED ** UNDER THE PIP INTERFACE TABLE. PARAM(1) SPACE 2,14 ** PARAMETER AREA FOR INITIALIZE NAM FIELD LENGTH CALL. * * THE PARAMETER ADDRESS SPECIFIED IN AN INITIALIZE NAM * FIELD LENGTH CALL, (FC = 1), IS THE ADDRESS OF A BLOCK * OF MEMORY TO BE INITIALIZED. THE NETWORK BUFFER * TABLES, THE DRIVER INTERFACE TABLES, THE COUPLER * EQUIPMENT TABLE AND THE DRIVER OVERLAY AREA ARE * INITIALIZED. THE FORMAT OF THESE TABLES ARE ** SUBSEQUENTLY DESCRIBED UNDER THE NAME OF THE TABLE. PARAM(2) SPACE 2,12 ** PARAMETER AREA FOR SCAN EST FOR NEW EQUIPMENT CALL. * * THE PARAMETER ADDRESS SPECIFIED IN A SCAN EST FOR NEW * EQUIPMENT CALL, (FC = 2), IS THE ADDRESS OF THE COUPLER * EQUIPMENT TABLE IN THE FIELD LENGTH OF NAM. THE * FORMAT OF THE COUPLER EQUIPMENT TABLE IS SUBSEQUENTLY ** DESCRIBED UNDER THE NAME OF THE TABLE. DRVPTR SPACE 2,20 ** DRIVER POINTER AREA. * * THE FOLLOWING IS THE FORMAT OF THE DRIVER POINTER AREA * WHICH ALLOWS THE DRIVER TO LOCATE THE DRIVER CONTROL * AREAS AND NAM CONTROL TABLES. * *TBL 42/0,18/DOA *TBL, 42/0,18/DIT *TBL, 42/0,18/NPT * * WHERE - * * DOA = ADDRESS OF DRIVER OVERLAY AREA, * DIT = ADDRESS OF DRIVER INTERLOCK TABLE, ** NPT = ADDRESS OF NAM POINTER TABLE. LOC 60B W.DOVA BSS 1 DRIVER OVERLAY AREA POINTER WORD C.DPT EQU 3 - 4 OVERLAY AREA POINTER (BITS 5-0+11-0) W.DITP BSS 1 DRIVER INTERFACE TABLE POINTER WORD C.DPT EQU C.DPT INTERFACE TABLE POINTER (BITS 5-0+11-0) W.NPTA BSS 1 NAM POINTER AREA POINTER WORD C.DPT EQU C.DPT NAM POINTER AREA POINTER (BITS 5-0+11-0) DOA SPACE 2,42 ** DRIVER OVERLAY AREA. * * THE DRIVER OVERLAY AREA IS ALLOCATED BY NAM AND * INITIALIZED BY THE DRIVER. ONCE THE AREA IS * INITIALIZED IT IS USED SOLELY BY THE DRIVERS TO * LOCATE AND LOAD TRANSIENT OVERLAYS USED BY THE * DRIVERS. THE FORMAT OF THE DRIVER OVERLAY AREA * IS DESCRIBED BELOW - * *TBL 6/BID,18/BWD,35/0,1/C *TBL, 18/PPN,6/0,12/OVL,6/0,18/OVA *TBL, . . *TBL, . . *TBL, 12/TBL,12/TBL,12/TBL,12/TBL,12/0 *TBL, . . *TBL, . . *TBL, 12/OVT,12/OVT,12/OVT,12/OVT,12/OVT * * WHERE - * * BID = NAM BUFFER ID, * BWD = BLOCK SIZE IN CENTRAL WORDS, * C = DRIVER COMPLETED INITIALIZATION FLAG, * PPN = NAM OF PPU OVERLAY, * OVL = LENGTH OF PPU OVERLAY, * OVA = CENTRAL MEMORY ADDRESS OF PPU OVERLAY, * TBL = TABLE TEXT BYTE, * OVL = OVERLAY TEXT BYTE. * * THERE IS A POINTER TO THE CONTROL TABLE OVERLAY * ACCESSED BY THE DRIVER FLOLLOWED BY POINTERS TO EACH * TRANSIENT OVERLAY LOADED BY THE DRIVER FOLLOWED BY * CONTROL TABLE TEXT FOLLOWED BY THE TRANSIENT OVERLAY * TEXTS. THE CONTROL TABLE TEXT IS STORED AS FOUR PPU * BYTES PER CENTRAL MEMORY WORD. THE FIFTH BYTE OF THE * WORDS FOR CENTRAL TABLE TEXT ARE USED TO HELP DIVISION * BY FIVE PROCESSING. N-TH CM WORD OF THE TABLE HAS THE * ROUND-UP QUOTIENT OF N DIVIDED BY FIVE AND THE DEFICIT ** BYTE COUNT TO MAKE A MULTIPLE OF FIVE. LOC 0 BSS 1 NAM HEADER WORD C.BID EQU 0 BLOCK ID BYTE (BITS 11-6) S.BID EQU 6 BLOCK ID POSITION C.BWD EQU 0 - 1 BLOCK SIZE IN CENTRAL WORDS (BITS 5-0+11-0) C.DOAC EQU 4 INITIALIZATION COMPLETE FLAG BYTE B.DOAC EQU 1S0 INITIALIZATION COMPLETE FLAG W.DOA BSS 1 DRIVER OVERLAY POINTER WORDS C.DOAPN EQU 0 PPU PROGRAM NAME (BITS 11-0+11-6) C.DOAOL EQU 2 PPU PROGRAM LENGTH IN CENTRAL WORDS C.DOAOA EQU 3 - 4 PPU PROGRAM ADDRESS (BITS 5-0+11-0) C.QUOT EQU 4 DIVISION BY FIVE QOTIENT AND DEFICIT S.QUOT EQU 3 QUOTIENT POSITION M.DEFC EQU 7 MASK FOR DEFICIT BYTE COUNT PRUBUF SPACE 2,50 ** PRU BUFFERS. * * THE PRU BUFFERS ARE ALLOCATED DURING INITIALIZATION BY * NAM AND RESIDE WITHIN THE FIELD LENGTH OF NAM. ONCE * THE PRU BUFFERS ARE ALLOCATED, THEY ARE MAINTAINED AND * USED SOLELY BY THE DRIVERS. THE PRU BUFFERS ARE USED * BY THE DRIVERS TO STORE DATA IN THE PROCESS OF BEING * TRANSFERRED BETWEEN CENTRAL MEMORY AND MASS STORAGE. * ALL PRU BUFFERS ARE SHARED BY ALL DRIVERS AND TIME- * SHARED BETWEEN ALL ACTIVE PRU DATA STREAMS. A PRU * BUFFER IS ASSIGNED TO A PRU DATA STREAM ONLY FOR THE * TIME THAT THE PRU DATA EXISTS IN CENTRAL MEMORY. * * THE FORMAT OF THE NAM PORTION OF THE PRU BUFFER IS * DESCRIBED BELOW - * *TBL 6/BID,18/BWD,36/0 * * WHERE - * * BID = NAM BUFFER ID, * BWD = BLOCK SIZE IN CENTRAL MEMORY WORDS. * * THE FORMAT OF THE DRIVER PORTION OF THE PRU BUFFER IS * DESCRIBED BELOW - * *TBL 3/BT,6/PRU,3/DOR,6/0,18/PCB,1/EIR,5/0,18/DLK *TBL, 24/0, 36/TBA *TBL, 24/BUC, 36/TBU *TBL, 24/0, 36/LTA *TBL, 60/0 *TBL, 36/0,24/ACT *TBL, 6/IN,6/OUT,6/WO,6/WO,6/WO,6/WO,6/WO,6/WO,6/WO,6/0 *TBL, 42/LFN, 4/LVL,4/ATC,9/STS *TBL, 12/0,1/R,1/0,1/EP,9/0,12/0, 6/LN,18/FST *TBL, 42/0, 18/IN *TBL, 42/0, 18/OUT *TBL, 12/FNT,12/0, 18/0,18/LMT *TBL, 60/0 *TBL, 30/CRI, 6/0,24/RRQ *TBL, 12/DAT,12/DAT,12/DAT,12/DAT,12/DAT * * WHERE - * * BT = DRIVER BUFFER TYPE, * PRU = PRU BUFFER SIZE ORDINAL, * DOR = DRIVER ORDINAL, * PCB = ADDRESS PRU CONNECTION BLOCK OWNING BUFFER, * EIR = END OF INFORMATION RECEIVED FLAG, * DLK = ADDRESS OF NEXT BUFFER IN DRIVER CHAIN, * TBA = TIME BUFFER WAS ALLOCATED (MS), * BUC = NUMBER OF TIMES BUFFER WAS USED, * TBU = TOTAL TIME BUFFER WAS USED (MS), * LTA = LAST TIME BUFFER WAS ASSIGNED (MS), * ACT = ACCOUNTING DATA, * IN = WORKLIST QUEUE IN POINTER, * OUT = WORKLIST QUEUE OUT POINTER, * WO = QUEUED WORKLIST COMMAND ORDINAL, * LFN = LOCAL FILE NAME, * LVL = END OF RECORD LEVEL NUMBER, * ATC = ABNORMAL TERMINATION CODE, * STS = FILE STATUS, * R = RANDOM FLAG, * EP = ERROR PROCESSING SELECTED, * LN = FET LENGTH (2), * FST = FIRST DATA POINTER, * IN = IN DATA POINTER, * OUT = OUT DATA POINTER, * FNT = FNT ADDRESS, * LMT = LIMIT DATA POINTER, * CRI = CURRENT RANDOM INDEX, * RRQ = RANDOM REQUEST PRU ORDINAL, ** DAT = DATA BYTE. LOC 0 W.PRNH BSS 1 NAM HEADER WORD C.BID EQU C.BID BLOCK ID BYTE (BITS 11-6) S.BID EQU S.BID BLOCK ID POSITION C.BWD EQU C.BWD BLOCK SIZE IN CENTRAL WORDS (BITS 5-0+11-0) C.DPT EQU 3 - 4 FREE BUFFER LINK POINTER ( BITS 5-0+11-0) QUAL LOC 0 W.PRDH BSS 1 DRIVER HEADER WORD C.BST EQU 0 BUFFER STATUS BYTE S.BTP EQU 9 BUFFER TYPE POSITION S.PBS EQU 3 PRU BUFFER SIZE ORDINAL POSITION M.PBS EQU 77BS3 MASK FOR PRU BUFFER SIZE ORDINAL M.DOR EQU 7 MASK FOR DRIVER ORDINAL C.PCB EQU 1 - 2 OWNING PCB ADDRESS (BITS 5-0+11-0) C.DLK EQU 3 - 4 ADDRESS OF NEXT BUFFER (BITS 5-0+11-0) S.EIR EQU 11 END OF INFORMATION RECEIVED POSITION B.EIR EQU 1S11 END OF INFORMATION RECEIVED FLAG W.TMA BSS 1 TIME BUFFER ALLOCATED WORD C.TM EQU 2 - 4 TIME BUFFER ALLOCATED (MS) W.TMU BSS 1 BUFFER USE WORD C.BUC EQU 0 - 1 BUFFER USE COUNT C.TM EQU C.TM TOTAL TIME BUFFER USED (MS) W.TML BSS 1 LAST TIME BUFFER ASSIGNED WORD C.TM EQU C.TM LAST TIME BUFFER ASSIGNED (MS) BSS 1 FILL W.ACT BSS 1 ACCOUNTING WORD C.ACT EQU 3 - 4 ACCOUNTING INFORMATION W.CLQ BSS 1 COMMAND LINK QUEUE WORD C.QIO EQU 0 QUEUE IN/OUT POINTER (6/IN,6/OUT) C.QUE EQU 1 - 4 QUEUE W.PRFS BSS 1 FILE STATUS WORD C.FSB EQU 3 - 4 FILE STATUS W.PRFRST BSS 1 FET FIRST POINTER WORD C.FPP EQU 1 FET PROCESSING PARAMETERS B.RP EQU 1S11 RANDOM PROCESSING FLAG C.PRUFP EQU 3 - 4 FET FIRST DATA POINTER (BITS 5-0+11-0) W.PRIN BSS 1 FET IN POINTER WORD C.PRUIP EQU 3 - 4 FET IN DATA POINTER (BITS 5-0+11-0) W.PROUT BSS 1 FET OUT POINTER WORD C.PRUOP EQU 3 - 4 FET OUT DATA POINTER (BITS 5-0+11-0) W.PRLM BSS 1 FET LIMIT POINTER WORD C.FNT EQU 0 FNT ORDINAL C.PRULP EQU 3 - 4 FET LIMIT DATA POINTER (BITS 5-0+11-0) BSS 1 FILL W.FFP BSS 1 FILE POSITION WORD C.FFP EQU 0 - 2 FILE POSITION (BITS 11-0+11-0+11-6) C.RWR EQU 2 REWRITE-IN-PLACE FLAG BYTE B.RWR EQU 1S5 REWRITE-IN-PLACE FLAG C.RRQ EQU 3 - 4 RANDOM REQUEST PRU ORDINAL C.DEC EQU 4 DETAIL MASS STORAGE ERROR CODE W.PRDAT BSS 1 FIRST DATA WORD BUFTYPE SPACE 2,6 **** DRIVER PRU BUFFER TYPES. Q.FRB EQU 0 DRIVER FREE BUFFER TYPE Q.INB EQU 2 DRIVER INBOUND BUFFER TYPE Q.OTB EQU 3 DRIVER OUTBOUND BUFFER TYPE **** NPT SPACE 2,28 QUAL NAM ** NAM POINTER TABLE. * * THE FOLLOWING IS THE FORMAT OF THE NAM POINTER TABLE * WHICH IS USED BY THE DRIVER TO LOCATE THE ASSOCIATED * NAM TABLE. * *TBL 42/0LPT,18/-0 *TBL, 42/0,18/NBTA *TBL, 42/0,18/PITA *TBL, 42/0,18/CETA *TBL, 42/0,18/TNTA *TBL, 42/0,18/ATA * * WHERE - * * NBTA = NETWORK BUFFER TABLE ADDRESS, * PITA = PIP INTERFACE TABLE ADDRESS, * CETA = COUPLER EQUIPMENT TABLE ADDRESS, * TNTA = TERMINAL NODE TABLE ADDRESS, ** ATA = APPLICATION TABLE ADDRESS. LOC 0 BSS 1 NAM POINTER TABLE HEADER WORD W.NBTP BSS 1 NETWORK BUFFER TABLE POINTER WORD C.DPT EQU C.DPT NETWORK TABLE ADDRESS (BITS5-0+11-0) W.CETP BSS 1 COUPLER EQUIPMENT TABLE POINTER WORD C.DPT EQU C.DPT EQUIPMENT TABLE ADDRESS (BITS 5-0+11-0) W.TNTP BSS 1 TERMINAL NODE TABLE POINTER WORD C.DPT EQU C.DPT TERMINAL NODE TABLE ADDRESS (BITS 5-0+11-0) W.ATP BSS 1 APPLICATION TABLE POINTER C.DPT EQU C.DPT APPLICATION TABLE ADDRESS (BITS 5-0+11-0) NBT SPACE 2,50 ** NETWORK BUFFER TABLE. * * EACH FRONT END THAT IS TO BE SERVICED BY THE DRIVER HAS * AN ASSOCIATED NETWORK BUFFER TABLE LOCATED IN THE FIELD * LENGTH OF NAM WHICH IS USED FOR DATA AND CONTROL * INFORMATION TRANSFER. EACH NETWORK BUFFER TABLE * CONSISTS OF TWO INBOUND FETS FOLLOWED BY THREE OUTBOUND * PSEUDO FETS FOLLOWED BY MCI INLINE DIAGNOSTICS BUFFER * PSEUDO FET. * * NBT HEADER * * THE FORMAT OF THE NBT HEADER IS DESCRIBED BELOW - * *TBL 6/BID,18/BWD,6/NAE,6/NFE,23/0,1/C * * WHERE - * * BID = NAM BUFFER ID, * BWD = BLOCK SIZE IN CENTRAL MEMORY WORD, * NAE = NUMBER OF ACTIVE ENTRIES, * NFE = NUMBER OF FREE ENTRIES, * C = INITIALIZATION COMPLETED FLAG. * * INBOUND FETS. * * THE INBOUND FETS ARE USED BY THE DRIVER TO TRANSFER * NON-PRU DATA AND ALL CONTROL INFORMATION TO NAM FOR A * GIVEN FRONT END. THE INBOUND FETS DESCRIBE NORMAL * CIRCULAR BUFFERS AND ARE USED ALTERNATELY. THE FORMAT * OF THE INBOUND FETS ARE DESCRIBED BELOW - * *TBL 1/IU,1/0,1/SAM,1/BA,1/CB,1/BR,6/CH,3/EQ,9/EST, *TBL, 18/TA,18/FIRST *TBL, 42/0, 18/IN *TBL, 9/REGW,3/0,12/ET,4/IND,8/HN,6/DOR, 18/OUT *TBL, 6/KBI,18/PBP,18/PFP, 18/LIMIT *TBL, 3/0,1/BA,1/CB,1/BR,10/0,8/TN,18/TA, 18/FIRST *TBL, 42/0 18/IN *TBL, 12/RJCNT,6/0,12/CSIZE,12/COFF, 18/OUT *TBL, 24/RTIME,3/0,6/CII,3/DRL,3/NRL,3/HRL,18/LIMIT * * WHERE - * * IU = ENTRY IN USE FLAG, * SAM = SYSTEM AUTOSTART MODULE FLAG, * BA = BUFFER AVAILABLE FLAG, * CB = CURRENT BUFFER FLAG, * BR = REQUEST BUFFER RELEASE FLAG, * CH = FRONT END CHANNEL NUMBER, * EQ = FRONT END EQUIPMENT NUMBER, * EST = FRONT END EQUIPMENT STATUS TABLE ORDINAL, * IND = NETWORK BUFFER TABLE INDEX * HN = HOST NODE ID, * DOR = DRIVER ORDINAL, * FIRST = FET FIRST DATA POINTER, * IN = FET IN DATA POINTER, * REGW = NO OF (PRU) LLCBS LEFT TO BE CLEANED UP * ET = EQUIPMENT MNEUMONIC * TA = THRESHOLD ADDR FOR ALLOCATING NEXT BUFFER * OUT = FET OUT DATA POINTER, * KBI = K-DIPLAY BUFFER INDEX * PBP = PRU CONNECTION RING BACKWARD POINTER, * PFP = PRU CONNECTION RING FORWARD POINTER, * RTIME = TIMEOUT FOR NO PIP REJECTS OF IVT DATA * CSIZE = SIZE OF INBOUND BUFFER TO ALLOCATE * COFF = OFFSET FOR ADJUSTING THRESHOLD ADDRESS * RJCNT = CURRENT CNT OF NO OF PIP IVT REJECTS * TN = TERMINAL NODE FOR CDCNET FRONT END * CII = CURRENT INPUT FET INDEX, * DRL = DESTINATION HOST REGULATION LEVEL, * NRL = FRONT END REGULATION LEVEL, * HRL = HOST REGULATION LEVEL. * * OUTBOUND PSEUDO FETS. * * IMMEDIATELY FOLLOWING THE INBOUND FETS ARE THREE * OUTBOUND PSEUDO FETS ASSOCIATED WITH THE FRONT END. * EACH OUTBOUND PSEUDO FET CORRESPONDS TO AN OUTPUT * PRIORITY LEVEL. THE FIRST OUTBOUND PSEUDO FET IS THE * HIGHEST PRIORITY LEVEL AND THE THIRD OUTBOUND PSEUDO * FET IS THE LOWEST PRIORITY LEVEL. THE OUTBOUND PSEUDO * FETS ARE USED BY NAM FOR NON-PRU DATA AND CONTROL * TRANSFERS TO THE ASSOCIATED FRONT END. * * EACH OUTBOUND PSEUDO FET IS USED TO DESCRIBE AN OUTPUT * MESSAGE LIST AS OPPOSED TO THE NORMAL CIRCULAR BUFFER. * WHEN THE FIRST OUTBOUND MESSAGE IS QUEUED, THE IN * POINTER IS SET TO THE ADDRESS OF THE MESSAGE HEADER * WORD. AS SUBSEQUENT MESSAGES ARE QUEUED THE IN POINTER * IS UPDATED TO THE ADDRESS OF THE LAST MESSAGE IN THE * QUEUE AND EACH MESSAGE IN QUEUE IS LINKED TO THE * PREVIOUS MESSAGE THROUGH THE LINK ADDRESS FIELD OF THE * PREVIOUS MESSAGE HEADER WORD. THE INITIAL MESSAGE IS * REMOVED FROM THE QUEUE LOCATED BY THE FIRST POINTER IN * THE PSEUDO FET. AFTER THE OUTBOUND MESSAGE IS * PROCESSED, THE OUT POINTER OF THE PSEUDO FET IS UPDATED * TO THE ADDRESS OF THE MESSAGE HEADER WORD FOR THE * MESSAGE JUST PROCESSED. SUSEQUENT OUTBOUND MESSAGES * ARE DEQUEUED FROM THE LINK ADDRESS FIELD OF THE MESSAGE * HEADER WORD LOCATED BY THE OUT POINTER IN THE PSEUDO * FET. WHEN THE OUT AND IN POINTERS ARE EQUAL IN THE * PSEUDO FET THE OUTBOUND QUEUE HAS BEEN EXHAUSTED. * * THE FORMAT OF THE OUTBOUND PSEUDO FET IS * DESCRIBED BELOW - * *TBL 18/NMQ, 18/FIRST *TBL, 36/LIC,6/0,18/IN *TBL, 42/0, 18/OUT *TBL, 24/IWC,36/ICC *TBL, 18/NMQ, 18/FIRST *TBL, 36/LPC,6/0,18/IN *TBL, 42/0, 18/OUT *TBL, 24/PWC,36/PCC *TBL, 18/NMQ, 18/FIRST *TBL, 42/0, 18/IN *TBL, 42/0, 18/OUT *TBL, 1/NAC,1/NIN,1/NMM,1/NBL,1/NOF,1/NLL,1/NDN,5/0, *TBL, 12/IRJN,12/PRJN,24/0 * * WHERE - * * NMQ = NUMBER OF MESSAGES IN QUEUE, * FIRST = FET FIRST DATA POINTER, * LIC = LAST IVT CHARACTER COUNT, * IN = FET IN DATA POINTER, * OUT = FET OUT DATA POINTER, * IWC = IVT TOTAL WORDS TRANSFERRED, * ICC = IVT TOTAL CHARACTERS TRANSFERRED, * LPC = LAST PRU CHARACTER COUNT, * PWC = PRU TOTAL WORDS TRANSFERRED, * PCC = PRU TOTAL CHARACTERS TRASNFERRED, * NAC = FRONT END ACTIVE FLAG, * NIN = FRONT END INITIALIZATION FLAG, * NMM = FRONT END MAINTENANCE MODE FLAG, * NBL = FRONT END BOOTSTRAP LOADED FLAG, * NOF = FRONT END OFF FLAG, * NLL = WAIT REGULATION LEVEL ZERO RESPONSE FLAG, * NDN = FRONT END DOWN FLAG, * PRU = TOTAL PRU COUNT TRANSFERRED, * IRJN = FRONT END REJECT COUNT FOR IVT BLOCKS, * MCI INLINE DIAGNOSTIC BUFFER PSEUDO FET. * * THE LAST PSEUDO FET WHICH MAKES UP THE NETWORK BUFFER * TABLE ENTRY IS USED FOR MANAGING THE MCI INLINE * DIAGNOSTIC BUFFER. INITIALLY THERE WILL BE NO BUFFER * ALLOCATED. WHEN PIP DETECTS THAT THE MDI HAS AN INLINE * DIAGNOSTIC MESSAGE TO SEND TO THE HOST, IT WILL REQUEST * NIP TO ALLOCATE A BUFFER BY SETTING THE REQUEST BUFFER * FLAG. NIP WILL THEN ALLOCATE A BUFFER, SET UP THE * FIRST AND LIMIT POINTERS, AND SET THE ACTIVE BUFFER * FLAG. A BUFFER IS THEN AVAILABLE FOR PIP TO USE. * WHEN PIP DETECTS THAT NO INLINE DIAGNOSTIC TRAFFIC IS * OCCURING ANYMORE, IT WILL SET THE RELEASE BUFFER FLAG * IN THE PSEUDO FET TO INFORM NIP TO RELEASE THE BUFFER. * NIP WILL THEN RELEASE THE BUFFER AND ZERO OUT THE * PSEUDO FET. * * THE FORMAT OF THE MCI INLINE DIAGNOSTICS BUFFER PSEUDO * FET IS DESCRIBED BELOW - * *TBL 1/AC,41/0, 18/FIRST *TBL, 1/RQ,1/RL,1/GB,2/0,1/EP,6/0,24/ITIM,12/SZWD,12/SZBY *TBL, 60/0, *TBL, 12/0,12/IRJP,12/PRJP,6/0, 18/LIMIT * * WHERE - * * AC = INLINE DIAGNOSTIC BUFFER ACTIVE FLAG * FIRST = FIRST WORD ADDRESS OF DIAGNOSTICS BUFFER * RQ = INLINE DIAGNOSTIC BUFFER REQUESTED FLAG * RL = RELEASE INLINE DIAGNOSTIC BUFFER FLAG * GB = GETING NLINE DIAGNOSTIC DATA FLAG * EP = ECHO PENDING OF DIAGNOSTICS DATA FLAG * ITIM = TIME OF LAST INLINE DIAGNOSTIC TRANSFER * SZWD = SIZE OF INLINE DIAGNOSTIC DATA IN CM WRDS * SZBY = SIZE OF INLINE DIAGNOSTIC DATA IN PP WRDS * PRJN = FRONT END REJECT COUNT FOR PRU BLOCKS, * IRJP = PIP REJECT COUNT FOR IVT BLOCKS, * PRJP = PIP REJECT COUNT FOR PRU BLOCKS, * LIMIT = LWA+1 OF DIAGNOSTICS BUFFER ** LOC 0 W.NBT BSS 1 NAM HEADER WORD C.BID EQU C.BID BLOCK ID BYTE (BITS 11-6) S.BID EQU S.BID BLOCK ID POSITION C.BWD EQU C.BWD BLOCK SIZE IN CENTRAL WORDS (BITS 5-0+11-0) C.NBTEC EQU 2 ENTRY COUNTS BYTE (BITS 11-6, 5-0) S.NBTAE EQU 6 ACTIVE ENTRY COUNT POSITION L.NBTFE EQU 77B FREE ENTRY COUNT LENGTH C.NBTDC EQU 4 DRIVER INITIALIZATION COMPLETED FLAG BYTE LOC 0 W.NBTFP BSS 1 NETWORK BUFFER TABLE FIRST INBOUND FET C.NBTBS EQU 0 BUFFER STATUS BYTE S.NBTIU EQU 11 ENTRY IN USE FLAG (1 = YES) S.NBTSN EQU 10 SIMULATED NPU FLAG (1 = YES) S.NBTSAM EQU 9 SYSTEM AUTOSTART MODULE FLAG (1 = YES) S.NBTBA EQU 8 BUFFER AVAILABLE FLAG (1 = YES) S.NBTCB EQU 7 CURRENT BUFFER FLAG (1 = YES) S.NBTRB EQU 6 REQUEST BUFFER RELEASE FLAG (1 = YES) S.NBTBS EQU 6 BUFFER STATUS POSITION B.NBTBA EQU 1S2 BUFFER AVAILABLE FLAG (RELATIVE S.NBTBS) B.NBTCB EQU 1S1 CURRENT BUFFER FLAG (RELATIVE S,NBTBS) B.NBTRB EQU 1S0 REQUEST RELEASE FLAG (RELATIVE S.NBTBS) L.NBTCH EQU 77B FRONT END CHANNEL LENGTH C.NBTNA EQU 1 FRONT END EQUIPMENT BYTE S.NBTEQ EQU 9 FRONT END EQUIPMENT NUMBER POSITION L.NBTEQ EQU 7S9 FRONT END EQUIPMENT NUMBER MASK L.NBTEST EQU 777B FRONT END EQUIPMENT TABLE ORDINAL LENGTH C.NBTFP EQU 3 - 4 FET FIRST DATA POINTER (BITS 5-0+11-0) W.NBTIP BSS 1 NETWORK BUFFER TABLE IN POINTER WORD C.NBTIP EQU 3 - 4 FET IN DATA POINTER (BITS 5-0+11-0) W.NBTOP BSS 1 NETWORK BUFFER TABLE OUT POINTER WORD C.NBTID EQU 2 NOST NODE AND NETWORK BUFFER INDEX BYTE S.NBTID EQU 8 HOST NODE NUMBER LENGTH L.NBTHN EQU 377B HOST NODE MASK C.NBTOP EQU 3 - 4 FET OUT DATA POINTER (BITS 5-0+11-0) W.NBTLP BSS 1 NETWORK BUFFER TABLE LIMIT POINTER WORD C.NBTPB EQU 0 - 1 PRU RING BACKWARD POINTER (BITS 5-0+11-0) C.NBTPF EQU 2 - 3 PRU RING FORWARD POINTER (BITS 11-0+11-6) C.NBTLP EQU 3 - 4 FET LIMIT DATA POINTER (BITS 5-0+11-0) L.FET BSS 0 LENGTH OF FET ENTRY BSS 1 ALTERNATE NETWORK BUFFER TABLE INBOUND FET C.NBTBS EQU C.NBTBS BUFFER STATUS BYTE S.NBTBA EQU S.NBTBA BUFFER AVAILABLE FLAG (1 = YES) S.NBTCB EQU S.NBTCB CURRENT BUFFER FLAG (1 = YES) S.NBTRB EQU S.NBTRB REQUEST BUFFER RELEASE FLAG (1 = YES) S.NBTBS EQU S.NBTBS BUFFER STATUS POSITION B.NBTBA EQU B.NBTBA BUFFER AVAILABLE FLAG (RELATIVE S.NBTBS) B.NBTCB EQU B.NBTCB CURRENT BUFFER FLAG (RELATIVE S.NBTBS) B.NBTRB EQU B.NBTRB REQUEST RELEASE FLAG (RELATIVE S.NBTBS) C.NBTTN EQU 1 CDCNET FRONT END TERMINAL NODE BYTE S.NBTTN EQU 0 POSITION OF TERMINAL NODE IN BYTE L.NBTTN EQU 377B TERMINAL NODE MASK C.NBTFP EQU C.NBTFP FET FIRST DATA POINTER (BITS 5-0+11-0) BSS 1 ALTERNATE NETWORK BUFFER TABLE IN POINTER C.NBTIP EQU C.NBTIP FET IN DATA POINTER (BITS 5-0+11-0) BSS 1 ALTERNATE NETWORK BUFFER TABLE OUT POINTER C.NBTOP EQU C.NBTOP FET OUT DATA POINTER (BITS 5-0+11-0) BSS 1 ALTERNATE NETWORK BUFFER LIMIT POINTER C.NBTLP EQU C.NBTLP FET LIMIT DATA POINTER (BITS 5-0+11-0) W.NBTOF BSS 1 NETWORK BUFFER TABLE FIRST OUTBOUND FET C.NBTFP EQU C.NBTFP FET FIRST DATA POINTER (BITS 5-0+11-0) BSS 1 NETWORK BUFFER TABLE OUTBOUND IN POINTER C.NBTIP EQU C.NBTIP FET IN DATA POINTER (BITS 5-0+11-0) BSS 1 NETWORK BUFFER TABLE OUTBOUND OUT POINTER C.NBTOP EQU C.NBTOP FET OUT DATA POINTER (BITS 5-0+11-0) W.NBTIS BSS 1 NETWORK BUFFER TABLE IVT STATISTICS WORD C.NBTMC EQU 0 - 1 IVT MESSAGE COUNT (BITS 11-0+11-0) C.NBTCC EQU 2 - 4 IVT CHARACTER COUNT (BITS 11-0+11-0+11-0) BSS 1 NETWORK BUFFER TABLE SECOND OUTBOUND FET C.NBTFP EQU C.NBTFP FET FIRST DATA POINTER (BITS 5-0+11-0) BSS 1 NETWORK BUFFER TABLE OUTBOUND IN POINTER C.NBTIP EQU C.NBTIP FET IN DATA POINTER (BITS 5-0+11-0) BSS 1 NETWORK BUFFER TABLE OUTBOUND OUT POINTER C.NBTOP EQU C.NBTOP FET OUT DATA POINTER (BITS 5-0+11-0) W.NBTPS BSS 1 NETWORK BUFFER TABLE PRU STATISTICS WORD C.NBTMC EQU C.NBTMC PRU MESSAGE COUNT (BITS 11-0+11-0) C.NBTCC EQU C.NBTCC PRU CHARACTER COUNT (BITS 11-0+11-0+11-0) BSS 1 NETWORK BUFFER TABLE THIRD OUTBOUND FET C.NBTFP EQU C.NBTFP FET FIRST DATA POINTER (BITS 5-0+11-0) BSS 1 NETWORK BUFFER TABLE OUTBOUND IN POINTER C.NBTIP EQU C.NBTIP FET IN DATA POINTER (BITS 5-0+11-0) BSS 1 NETWORK NBUFFER TABLE OUTBOUND OUT POINTER C.NBTOP EQU C.NBTOP FET OUT DATA POINTER (BITS 5-0+11-0) W.NBTNS BSS 1 NETWORK BUFFER TABLE FRONT END STATUS C.NBTNS EQU 0 FRONT END STATUS BYTE S.NBTNA EQU 11 FRONT END ACTIVE (1 = YES) S.NBTIF EQU 10 FRONT END INITIALIZATION PENDING (1 = YES) S.NBTMF EQU 9 FRONT END MAINTENANCE (1 = YES) S.NBTBF EQU 8 FRONT END BOOTSTRAP LOADED (1 = YES) S.NBTOF EQU 7 FRONT END OFF (1 = YES) S.NBTLF EQU 6 WAIT REGULATION ZERO RESPONSE (1 = YES) S.NBTDF EQU 5 FRONT END DOWN (1 = YES) B.NBTNA EQU 1S11 FRONT END ACTIVE FLAG B.NBTIF EQU 1S10 FRONT END INITIALIZATION PENDING FLAG B.NBTMF EQU 1S9 FRONT END MAINTENANCE FLAG B.NBTBF EQU 1S8 FRONT END BOOTSTRAP LOADED FLAG B.NBTOF EQU 1S7 FRONT END OFF FLAG B.NBTLF EQU 1S6 WAIT REGULATION ZERO RESPONSE FLAG B.NBTDF EQU 1S5 FRONT END DOWN FLAG C.NBTIRJ EQU 1 IVT REJECT COUNT (NPU REJECT) C.NBTPRJ EQU 2 PRU REJECT COUNT (NPU REJECT) W.NBTIF BSS 1 INLINE DIAG BUFFER FIRST POINTER WORD C.NBTIA EQU 0 INLINE DIAG BUFFER ACTIVE FLAG BYTE S.NBTIA EQU 11 INLINE DIAG BUFFER ACTIVE FLAG POSITION B.NBTIA EQU 4000B INLINE DIAG BUFFER ACTIVE FLAG C.NBTFP EQU 3 - 4 FET FIRST DATA POINTER (BITS 5-0+11-0) W.NBTILE BSS 1 INLINE DIAG BUFFER MESSAGE LENGTH WORD C.NBTIC EQU 0 INLINE DIAG STATUS BYTE S.NBTIRF EQU 11 INLINE DIAG BUFFER REQUEST FLAG S.NBTIWF EQU 10 INLINE DIAG BUFFER RELEASE WAIT FLAG S.NBTIGF EQU 9 INLINE DIAG GET BLOCK FLAG S.NBTIPF EQU 6 INLINE DIAG ECHO PENDING FLAG B.NBTIRF EQU 4000B INLINE DIAG BUFFER REQUEST FLAG B.NBTIWF EQU 2000B INLINE DIAG BUFFER RELEASE WAIT FLAG B.NBTIGF EQU 1000B INLINE DIAG GET BLOCK FLAG B.NBTIPF EQU 100B INLINE DIAG ECHO PENDING FLAG C.NBTIT EQU 1 - 2 INLINE DIAG TIMER BYTES C.NBTILC EQU 3 BYTE TO HOLD INLINE DIAG MSG SIZE IN CM WDS C.NBTILP EQU 4 BYTE TO HOLD INLINE DIAG MSG SIZE IN PP WDS W.NBTIO BSS 1 FET OUT POINTER WORD (NOT USED) W.NBTIL BSS 1 INLINE DIAG BUFFER LIMIT POINTER WORD C.NBTCV EQU 0 CHANNEL PROTOCOL VERSION NEGOTIATED C.NBTLP EQU 3 - 4 FET LIMIT DATA POINTER (BITS 5-0+11-0) L.NBTE BSS 0 DEFINE LENGTH OF NETWORK BUFFER TABLE ENTRY DIT SPACE 2,50 ** PIP INTERFACE TABLE. * * THE PIP INTERFACE TABLE IS USED TO INTERFACE NAM AND * THE DRIVER. THE TABLE CONTAINS CONTROL FLAGS USED BY * NAM TO REQUEST DRIVER ACTION, A DRIVER DUMP INTERFACE * MECHANISM AND POINTERS TO EACH NETWORK BUFFER TABLE * ASSOCIATED WITH A FRONT END TO BE DRIVER BY THIS * DRIVER. THE FORMAT OF THE PIP INTERFACE TABLE IS * DESCRIBED BELOW - * *TBL 36/0,1/NAC,5/0,18/DDA *TBL, 36/XXX,1/PAC,23/XXX *TBL, 1/IU,29/0,6/DOR,12/DEC,10/0,1/C,1/IA *TBL, 1/HN,1/DF,1/HD,1/DD,1/IR,1/SE,1/AI,1/IH,1/EH,3/0, *TBL, 12/NPC,6/0,6/NBI,6/0,18,NBT *TBL, 1/HN,5/0,18/NDA, 6/0,6/NBI,6/0,18/NBT *TBL, 1/HN,29/0, 6/0,6/NBI,6/0,18/NBT *TBL, 1/HN,29/0, 6/0,6/NBI,6/0,18/NBT *TBL, 12/MB1,24/FP1,24/LP1 *TBL, 12/NP1,12/AP1,12/NO1,12/WO1,12/ITC *TBL, 12/MB2,24/FP2,24/LP2 *TBL, 12/NP2,12/AP2,12/NO2,12/WO2,12/PTC *TBL, 12/MB3,24/FP3,24/LP3 *TBL, 12/NP3,12/AP3,12/NO3,12/WO3,12/DCC * * WHERE - * * NAC = NIP ACTIVITY REQUEST FLAG, * PAC = PRU ACTIVITY REQUEST FLAG, * DDA = DRIVER DUMP AREA ADDRESS, * IU = ENTRY IN USE FLAG, * DOR = DRIVER ORDINAL, * DEF = DRIVER ERROR FLAG, * C = DRIVER COMPLETED (TERMINATED), * IA = DRIVER ACKNOWLEDGES INTERLOCK REQUEST, * HN = DRIVER HALT NPU REQUESTED, * DF = DRIVER DROP REQUESTED, * HD = DRIVER HANG REUQUESTED, * DD = DRIVER DUMP REQUESTED, * IR = DRIVER INTERLOCK REQUESTED, * SE = DRIVER SCAN EST REQUESTED, * AI = DRIVER ABORT INTERLOCK REQUESTED, * IH = DRIVER HALT NPU AT INITIALIZE REQUESTED, * EH = DRIVER HALT FRONT END AT ERROR REQUESTED, * NPC = NUMBER OF PRU CONNECTIONS, * NBI = NETWORK BUFFER TABLE INDEX, * NBT = NETWORK BUFFER TABLE ADDRESS, * NDA = NAM ASSIGNED DRIVER DUMP ADDRESS, * MB1 = MINIMUM ONE PRU BUFFER COUNT, * FP1 = ADDRESS OF FIRST ONE PRU BUFFER, * LP1 = ADDRESS OF LAST ONE PRU BUFFER, * NP1 = NUMBER OF ONE PRU BUFFERS, * AP1 = ADDITIONAL ONE PRU BUFFERS REQUIRED, * NO1 = CYCLES WITH NO OVERRUN ONE PRU BUFFERS, * WO1 = CYCLES WITH OVERRUN ONE PRU BUFFERS, * ITC = IVT TRANSACTION COUNT, * MB2 = MINIMUM TWO PRU BUFFER COUNT, * FP2 = ADDRESS OF FIRST TWO PRU BUFFER, * LP2 = ADDRESS OF LAST TWO PRU BUFFER, * NP2 = NUMBER OF TWO PRU BUFFERS, * AP2 = ADDITIONAL TWO PRU BUFFERS REQUIRED, * NO2 = CYCLES WITH NO OVERRUN TWO PRU BUFFERS, * WO2 = CYCLES WITH OVERRUN TWO PRU BUFFERS, * PTC = PRU TRANSACTION COUNT, * MB3 = MINIMUM THREE PRU BUFFER COUNT, * FP3 = ADDRESS OF FIRST THREE PRU BUFFER, * LP3 = ADDRESS OF LAST THREE PRU BUFFER COUNT, * NP3 = NUMBER OF THREE PRU BUFFERS, * AP3 = ADDITIONAL THREE PRU BUFFERS REQUIRED, * NO3 = CYCLES WITH NO OVERRUN THREE PRU BUFFERS, * WO3 = CYCLES WITH OVERRUN THREE PRU BUFFERS, ** DCC = DRIVER CYCLE COUNT. LOC 0 BSS 1 NAM HEADER WORD C.DPT EQU 3 - 4 DRIVER DUMP AREA ADDRESS (INTERFACE TO NIP) C.DITNAC EQU 3 REQUEST NIP ACTIVITY FLAG BYTE B.DITNAC EQU 1S11 REQUEST NIP ACTIVITY FLAG BSS 1 REQUEST PRU ACTIVITY FLAG WORD C.DITPAC EQU C.DITNAC REQUEST PRU ACTIVITY FLAG BYTE B.DITPAC EQU B.DITNAC REQUEST PRU ACTIVITY FLAG LOC 0 BSS 1 PIP INTERFACE TABLE ENTRY C.DITIU EQU 0 ENTRY IN USE FLAG BYTE S.DITIU EQU 11 ENTRY IN USE FLAG POSITION (1 = YES) S.DITDU EQU 10 DUMP AREA SET UP FLAG POSITION (1=YES) B.DITIU EQU 1S11 ENTRY IN USE FLAG B.DITDU EQU 1S10 DUMP AREA SET UP FLAG C.DITDDA EQU 0 - 1 DRIVER DUMP AREA ADDRESS (BITS 5-0+11-0) C.DITDOR EQU 2 DRIVER ORDINAL BYTE (BITS 5-0) C.DITDEC EQU 3 DRIVER ERROR CODE BYTE C.DITDF EQU 4 DRIVER FLAG BYTE B.DITDC EQU 1S1 DRIVER COMPLETED FLAG B.DITIA EQU 1S0 DRIVER ACKNOWLEDGES NAM INTERLOCK FLAG W.DITNTP BSS 1 FIRST NETWORK BUFFER TABLE POINTER WORD C.DITAR EQU 0 APPLICATION (NAM) REQUEST BYTE S.DITHN EQU 11 DRIVER HALT NPU REQUESTED (1 = YES) S.DITDF EQU 10 DRIVER DROP REQUESTED (1 = YES) S.DITDH EQU 9 DRIVER HANG REQUESTED (1 = YES) S.DITDD EQU 8 DRIVER DUMP REQUESTED (1 = YES) S.DITDR EQU 7 DRIVER INTERLOCK REQUESTED (1 = YES) S.DITSE EQU 6 DRIVER SCAN EST REQUESTED (1 = YES) S.DITAI EQU 5 DRIVER ABORT INTERLOCK REQUEST (1 = YES) S.DITIH EQU 4 DRIVER HALT NPU AT INITIALIZATION (1 = YES) S.DITEH EQU 3 DRIVER HALT NPU AT ERROR (1 = YES) B.DITHN EQU 1S11 DRIVER HALT NPU FLAG B.DITDF EQU 1S10 DRIVER DROP FLAG B.DITDH EQU 1S9 DRIVER HANG FLAG B.DITDD EQU 1S8 DRIVER DUMP FLAG B.DITIR EQU 1S7 DRIVER INTERLOCK REQUEST FLAG B.DITSE EQU 1S6 DRIVER SCAN EST REQUEST FLAG B.DITAI EQU 1S5 DRIVER ABORT INTERLOCK REQUEST FLAG B.DITIH EQU 1S4 DRIVER HALT NPU AT INITIALIZATION FLAG B.DITEH EQU 1S3 DRIVER HALT NPU AT ERROR FLAG C.DITPC EQU 1 PRU CONNECTION COUNT BYTE C.DITNBI EQU 2 NETWORK BUFFER TABLE INDEX C.DITNBT EQU 3 - 4 BUFFER TABLE ADDRESS (BITS 5-0+11-0) BSS 1 SECOND NETWORK BUFFER TABLE POINTER WORD C.DITNDA EQU 0 - 1 DRIVER DUMP ADDRESS C.DITNBI EQU C.DITNBI NETWORK BUFFER TABLE INDEX C.DITNBT EQU C.DITNBT BUFFER TABLE ADDRESS (BITS 5-0+11-0) BSS 1 THIRD NETWORK BUFFER TABLE POINTER WORD C.DITNBI EQU C.DITNBI NETWORK BUFFER TABLE INDEX C.DITNBT EQU C.DITNBT BUFFER TABLE ADDRESD (BITS5-0+11-0) BSS 1 FOURTH NETWORK BUFFER TABLE POINTER WORD C.DITNBI EQU C.DITNBI NETWORK BUFFER TABLE INDEX C.DITNBT EQU C.DITNBT BUFFER TABLE ADDRESS (BITS 5-0+11-0) W.DITDPA BSS 2*3 AREA TO WRITE DRIVER LIMBO BUFFER POINTERS AND PERFORMANCE DATA L.DITE BSS 0 LENGTH OF DRIVER INTERFACE TABLE ENTRY CET SPACE 2,44 ** COUPLER EQUIPMENT TABLE. * * THE COUPLER EQUIPMENT TABLE IS USED BY NAM TO MAINTAIN * INFORMATION CONCERNING THE FRONT END EQUIPMENTS * AVAILABLE TO THE NETWORK. THE DRIVER IS PERIODICALLY * ASKED TO SCAN THE SYSTEM EQUIPMENT STATUS TABLE IN * ORDER TO UPDATE THE NAM COUPLER EQUIPMENT TABLE. THE * FORMAT OF THE COUPLER EQUIPMENT TABLE IS DESCRIBED * BELOW - * *TBL 6/BID,18/BWD,6/NON,6/NOF,24/0 *TBL, 57/0,1/DBZ,1/TCF,1/C *TBL, 1/ION,2/0,9/EST,6/CH,2/0,4/DOR,3/EQ,1/0,8/HN, *TBL, 1/OFF,11/ET,1/0,8/TN,1/0,1/SAM,1/ECF *TBL, . . *TBL, . . *TBL, 1/ION,2/0,9/EST,6/CH,2/0,4/DOR,3/EQ,1/0,8/HN, *TBL, 1/OFF,11/ET,1/0,8/TN,1/0,1/SAM,1/ECF * * WHERE - * * BID = NAM BUFFER ID, * BWD = BLOCK SIZE IN CENTRAL WORDS, * NON = NUMBER OF ON ENTRIES, * NOF = NUMBER OF OFF ENTIES, * DBZ = DRIVER SCANNING EST FLAG, * TCF = TABLE CHANGED FLAG, * C = DRIVER COMPLETED SCAN FLAG, * ION = EQUIPMENT INITIALLY ON FLAG, * EST = EQUIPEMENT STATUS TABLE ORDINAL, * CH = FRONT END CHANNEL NUMBER, * DOR = DRIVER ORDINAL, * EQ = FRONT END EQUIPMENT NUMBER * HN = HOST NODE NUMBER, * OFF = FRONT END OFF FLAG, * ET = EQUIPMENT TYPE BYTE, * TN = CDCNET FRONT END TERMINAL NODE NUMBER * SAM = NPU SYSTEM AUTOSTART MODULE FLAG, ** ECF = ENTRY CHANGED FLAG. LOC 0 BSS 1 NAM HEADER WORD C.BID EQU C.BID BLOCK ID BYTE (BITS 11-6) S.BID EQU S.BID BLOCK ID POSITION C.BWD EQU C.BWD BLOCK SIZE IN CENTRAL WORDS (BITS 5-0+11-0) C.CETEC EQU 2 ENTRY COUNTS BYTE (11-6, 5-0) S.CETON EQU 6 ON ENTRY COUNT POSITION L.CETOF EQU 77B OFF ENTRY COUNT LENGTH W.CETHW BSS 1 COUPLER EQUIPMENT TABLE HEADER WORD C.CETCB EQU 4 CONTROL BYTE S.CETDB EQU 2 DRIVER SCANNING EST POSITION (1 = YES) S.CETTC EQU 1 TABLE CHANGED POSITION (1 = YES) S.CETDC EQU 0 DRIVER COMPLETED POSITION (1 = YES) B.CETDB EQU 1S2 DRIVER SCANNING EST FLAG B.CETTC EQU 1S1 TABLE CHANGED FLAG B.CETDC EQU 1S0 DRIVER COMPLETED FLAG W.CETE BSS 1 COUPLER EQUIPMENT TABLE ENTRY C.CETEST EQU 0 EQUIPMENT STATUS TABLE BYTE S.CETIO EQU 11 ENTRY INITALLY ON FLAG POSITION (1 = YES) L.CETEST EQU 777B LENGTH OF EQUIPMENT STATUS TABLE ORDINAL C.CETCH EQU 1 FRONT END CHANNEL NUMBER (BITS 11-7) BYTE S.CETCH EQU 6 POSITION OF CHANNEL NUMBER IN BYTE L.CETCH EQU 7700B CHANNEL NUMBER MASK C.CETDOR EQU 1 DRIVER ORDINAL BYTE S.CETDOR EQU 0 POSITION OF DRIVER ORDINAL IN BYTE L.CETDOR EQU 17B DRIVER ORDINAL MASK C.CETEN EQU 2 EQUIPMENT NUMBER BYTE S.CETEN EQU 9 POSITION OF EQUIPMENT NUMBER IN BYTE L.CETEN EQU 7000B EQUIPMENT NUMBER MASK C.CETHN EQU 2 HOST NODE BYTE S.CETHN EQU 0 POSITION OF HOST NODE NUMBER IN BYTE L.CETHN EQU 377B HOST NODE NUMBER LENGTH C.CETET EQU 3 EQUIPMENT TYPE BYTE S.CETOF EQU 11 EQUIPMENT OFF POSITION (1 = YES) L.CETET EQU 3777B EQUIPMENT TYPE LENGTH C.CETTN EQU 4 CDCNET FRONT END TERMINAL NODE NUMBER BYTE S.CETTN EQU 3 POSITION OF TERMINAL NODE NUMBER IN BYTE L.CETTN EQU 3770B TERMINAL NODE NUMBER MASK S.CETSAM EQU 1 SYSTEM AUTOSTART MODULE POSITION (1 = YES) S.CETEC EQU 0 ENTRY CHANGED POSITION (1 = YES) B.CETEC EQU 1S0 ENTRY CHANGED FLAG TNT SPACE 2,26 ** TERMINAL NODE TABLE. * * NAM CONTAINS A TERMINAL NODE TABLE WHICH CONSISTS OF AN * ENTRY FOR ALL TERMINAL NODES BEING PROCESSED. THE * TERMINAL NODE TABLE IS USED TO LOCATE THE LOGICAL LINK * CONTROL BLOCKS ASSOCIATED WITH THE TERMINAL NODE. THE * FORMAT OF THE TERMINAL NODE TABLE IS DESCRIBED BELOW - * *TBL 6/BID,18/BWD,36/0 *TBL, 8/TND,16/0,12/NLL,6/0,18/LAD * * WHERE - * * BID = NAM BUFFER ID, * BWD * BLOCK SIZE IN CENTRAL MEMORY WORDS, * TND = TERMINAL NODE, * NLL = NUMBER OF ASSOCIATED LOGICAL LINKS, ** LAD = ADDRESS FIRST LOGICAL LINK CONTROL BLOCK. LOC 0 BSS 1 NAM HEADER WORD C.BID EQU C.BID BLOCK ID BYTE (BITS 11-6) S.BID EQU S.BID BLOCK ID POSITION C.BWD EQU C.BWD BLOCK SIZE IN CENTRAL WORDS (BITS 5-0+11-0) W.TNTE BSS 1 TERMINAL NODE TABLE ENTRY C.TN EQU 0 TERMINAL NODE (BITS 11-4) S.TN EQU 4 TERMINAL NODE POSITION C.NLL EQU 2 NUMBER OF LOGICAL LINKS (BITS 11-0) C.LLA EQU 3 - 4 LOGICAL LINK TABLE ADDRESS (BITS 5-0+11-0) LLCB SPACE 2,48 ** LOGICAL LINK CONTROL BLOCK. * * THE LOGICAL LINK CONTROL BLOCK CONTAINS THE INFORMATION * THAT DESCRIBES A LOGICAL LINK. THE LOGICAL LINK * CONTROL BLOCK CONSISTS OF CONTROL INFORMATION AND * SIXTEEN POINTERS TO THE NETWORK CONNECTION TABLE FOR * THAT SET OF CONNECTIONS. THE FORMAT OF THE LOGICAL * LINK CONTROL BLOCK IS DESCRIBED BELOW - * *TBL 6/BID,18/BWD,18/BLP,18/FLP *TBL, 8/HND,8/TND,5/NTI,1/CS,1/NS,1/HH,12/NPC,3/HRL,3/NRL, *TBL, 18/NC *TBL, 8/CI,10/0,6/KDI,18/CMC,18/NCT *TBL, 8/CI,16/0, 18/LMC,18/NCT *TBL, . . *TBL, . . *TBL, 8/CI,34/0, 18/NCT *TBL, 60/CRT * * WHERE - * * BID = NAM BUFFER ID, * BWD = BLOCK SIZE IN CENTRAL MEMORY WORDS, * BLP = BACKWARD LINK POINTER, * FLP = FORWARD LINK POINTER, * HND = HOST NODE, * TND = TERMINAL NODE, * NTI = NETWORK BLOCK TABLE INDEX, * CS = COMMUNICATIONS SUPERVISOR FLAG, * NS = NETWORK SUPERVISOR FLAG, * HH = HOST TO HOST LOGICAL LINK FLAG, * NPC = NUMBER OF PRU CONNECTIONS, * HRL = HOST REGULATION LEVEL, * NRL = FRONT END REGULATION LEVEL, * NC = NUMBER OF CONNECTIONS * CI = CONNECTION INDEX, * KDI = K-DISPLAY INDEX, * CMC = CURRENT MESSAGE COUNT, * NCT = NETWORK CONNECTION TABLE ADDRESS, * LMC = LAST MESSAGE COUNT, ** CRT = TABLE CREATION TIME. LOC 0 BSS 1 NAM HEADER WORD C.BID EQU C.BID BUFFER ID BYTE (BITS 11-6) S.BID EQU S.BID BUFFER ID POSITION C.BWD EQU C.BWD BLOCK SIZE IN CENTRAL WORDS (BITS 5-0+11-0) C.LLFP EQU C.LLA FORWARD POINTER (BITS 5-0+11-0) W.LLCB2 BSS 1 SECOND LOGICAL LINK HEADER WORD C.LLNA EQU 0 - 1 NETWORK ADDRESS (BITS 11-4, 3-0+11-7) S.LHN EQU 4 HOST NODE POSITION S.LTN EQU 8 TERMINAL NODE POSITION W.LLCBE BSS 1 LOGICAL LINK CONTROL BLOCK ENTRY C.LCI EQU 0 CONNECTION INDEX (BITS 11-5) S.LCI EQU 4 CONNECTION INDEX POSITION C.LNCT EQU 3 - 4 CONNECTION TABLE ADDRESS (BITS 5-0+11-0) NCNT SPACE 2,42 ** NETWORK CONNECTION TABLE. * * THE NETWORK CONNECTION TABLE CONTAINS THE INFORMATION * THAT IDENTIFIES A LOGICAL CONNECTION THAT EXISTS * BETWEEN NAM AND THE NPU. CONNECTION TABLES AND ENTRIES * ARE ALLOCATED BY NAM AS REQUIRED. IVT CONNECTION TABLE * ENTRIES ARE ACCESSED BY THE DRIVER BUT MAINTAINED BY * NAM. PRU CONNECTION TABLE ENTRIES ARE INITIALIZED BY * NAM AND MAINTAINED BY THE DRIVER. THE NETWORK * CONNECTION TABLE CONTAINS ENTRIES FOR A GROUP OF * SIXTEEN CONNECTIONS AND IS INDEXED BY THE HIGH-ORDER * OF THE CONNECTION NUMBER. THE FORMAT OF THE NETWORK * CONNECTION TABLE AND A PRU CONNECTION TABLE ENTRY * IS DESCRIBED BELOW - * *TBL 6/BID,18/BWD,8/HND,8/TND,8/0,4/NCN,8/CI *TBL, 6/PPS,6/PCS,12/ISS,3/NIB,3/OIB,3/NOB,3/OOB, *TBL, 3/BHS,3/0,18/PCB * * WHERE - * * BID = NAM BUFFER ID, * BWD = BLOCK SIZE IN CENTRAL MEMORY WORDS, * HND = HOST NODE, * TND = TERMINAL NODE, * NCN = NUMBER OF ACTIVE CONNECTIONS, * PPS = PREVIOUS STREAM STATE (PRU), * PCS = CURRENT STREAM STATE (PRU), * ISS = IVT STREAM STATES (NAM), * NIB = BSN OF NEXT INPUT BLOCK (PRU), * OIB = OUTSTANDING BACK COUNT FOR INPUT (PRU), * NOB = BSN OF NEXT OUTPUT BLOCK (PRU), * OOB = OUTSTANDING BACK COUNT FOR OUTPUT (PRU), * BHS = BLOCK HANDLER STATE, ** PCB = PRU CONNECTION BLOCK ADDRESS (PRU). LOC 0 BSS 1 NAM HEADER WORD C.BID EQU C.BID BLOCK ID BYTE (BITS 11-6) S.BID EQU S.BID BLOCK ID POSITION C.BWD EQU C.BWD BLOCK SIZE IN CENTRAL WORDS (BITS 5-0+11-0) C.NAD EQU 2 - 3 NETWORK ADDRESS (BITS 11-5, 4-0+11-8) S.LHN EQU 4 HOST NODE POSITION S.LTN EQU 8 TERMINAL NODE POSITION C.NCI EQU 4 CONNECTION INDEX (BITS 7-0) L.NCI EQU 0#FF CONNECTION INDEX LENGTH W.NCNTE BSS 1 NETWORK CONNECTION TABLE ENTRY C.PSS EQU 0 PRU STREAM STATES C.PBB EQU 2 BSN AND BACK COUNTS S.IBN EQU 9 INPUT BLOCK SERIAL NUMBER POSITION L.IBN EQU 7 INPUT BLOCK SERIAL NUMBER LENGTH I.IBN EQU 1S9 INPUT BLOCK SERIAL NUMBER INCREMENT S.IBC EQU 6 INPUT OUTSTANDING BACK COUNT POSITION L.IBC EQU 7 INPUT OUTSTANDING BACK COUNT LENGTH I.IBC EQU 1S6 INPUT OUTSTANDING BACK COUNT INCREMENT S.OBN EQU 3 OUTPUT BLOCK SERIAL NUMBER POSITION L.OBN EQU 7 OUTPUT BLOCK SERIAL NUMBER LENGTH M.OBN EQU 7S3 OUTPUT BLOCK SERIAL NUMBER MASK I.OBN EQU 1S3 OUTPUT BLOCK SERIAL NUMBER INCREMENT S.OBC EQU 0 OUTPUT OUTSTANDING BACK COUNT POSITION L.OBC EQU 7 OUTPUT OUTSTANDING BACK COUNT LENGTH I.OBC EQU 1 OUTPUT OUTSTANDING BACK COUNT INCREMENT C.PBH EQU 3 BLOCK HANDLER STATE S.PBH EQU 9 BLOCK HANDLER STATE POSITION L.PBH EQU 3 BLOCK HANDLER STATE LENGTH 0 = SERVICE CHANNEL 1 = IVT CONNECTION 2 = PRU INPUT CONNECTION 3 = PRU OUTPUT CONNECTION C.PCB EQU 3 - 4 CONNECTION BLOCK ADDRESS (BITS 5-0+11-0) PCB SPACE 2,50 ** PRU CONNECTION BLOCK. * * THE PRU CONNECTION BLOCK IDENTIFIES A LOGICAL * CONNECTION THAT EXISTS BETWEEN NAM AND THE NPU FOR A * PRU STREAM. PRU CONNECTION BLOCKS ARE ALLOCATED BY * NAM AS REQUIRED. THE PRU CONNECTION BLOCKS ARE * INITIALIZED BY NAM AND ARE MAINTAINED BY BOTH NAM AND * THE DRIVER. WORDS IN THE PRU CONNECTION BLOCK THAT * MAY BE WRITTEN BY BOTH THE DRIVER AND NAM ARE PROTECTED * BY THE PROTOCOL THAT ESTABLISHES WHEN WHICH CAN WRITE * THE WORD. THE FORMAT OF THE PRU CONNECTION BLOCK IS * DESCRIBED BELOW - * *TBL 6/BID,18/BWD,3/NBL,3/PRI,1/0,1/HR,1/NR,1/AA,2/NBS, *TBL, 3/DT,4/TC,8/PW,8/0 *TBL, 8/TN,8/HN,8/CN,18/BLP, 18/FLP *TBL, 1/WLC,1/DDO,1/INA,8/0.1/XFR,8/CWS,14/KVL,2/XDD.6/0 *TBL, 18/QP1 *TBL, 1/WLC,1/0,4/NBI,18/ACB,18/QP2 *TBL, 1/WLC, 41/0,18/QP3 *TBL, 6/CST,6/BST,6/LCS,6/LBS,6/LCT,6/LBT,6/0,18/NCT *TBL, 42/TNM,10/0,8/RC *TBL, 42/LFN,6/0,12/FNT *TBL, 12/FNT,24/NPR,6/WLP,6/CMD,6/0,1/FNL,1/EOL,1/LOC,3/FM *TBL, 6/SSI,6/SSE,1/EIR,5/0,18/CDB,6/0,18/LDB *TBL, 30/CPR,6/0,24/ACT(L7P) *TBL, 12/MEC,24/PCN,24/PPR *TBL, 12/OCM,24/LAC,24/CPP *TBL, 12/FTO,6/BBC,6/BNC,12/L7T,24/L7N *TBL, 6/IN,6/OUT,6/WO,6/WO,6/WO,6/WO,6/WO,6/WO,6/WO,6/WO *TBL, 12/OSC,12/QBC,36/0 * * WHERE - * * BID = NAM BUFFER ID, * BWD = BLOCK SIZE IN CENTEAL WORDS, * NBL = NETWORK BLOCK LIMIT, * PRI = PRIORITY, * HR = HOST REGULATION FLAG, * NR = NPU REGULATION FLAG, * AA = APPLICATION TO APPLICATION FLAG, * NBS = BLOCK SIZE FOR DATA TRANSFERS IN PRUS, * DT = DEVICE TYPE, * TC = TERMINAL CLASS, * PW = TERMINAL DEVICE PAGE WIDTH, * HN = HOST NODE NUMBER, * TN = TERMINAL NODE NUMBER, * CN = CONNECTION NUMBER, * BLP = PREVIOUS PRU CONNECTION BLOCK ADDRESS, * FLP = NEXT PRU CONNECTION BLOCK ADRESS, * WLC = WORKLIST PROCESSED FLAG, * DDO = DOWNLINE DATA NOT ALLOWED FLAG, * INA = INACTIVE FLAG, * XFR = FILE TRANSFER FLAG, * CWS = CHECKMARK WINDOW SIZE, * KVL = INITIAL CHACKMARK VALUE, * XDD = DATA DECLARATION, * QP1 = PRIORITY ONE WORKLIST QUEUE POINTER, * NBI = NETWORK BUFFER TABLE INDEX, * ACB = APPLICATION CONNECTION BLOCK ADDRESS, * QP2 = PRIORITY TWO WORKLIST QUEUE POINTER, * QP3 = PRIORITY THREE WORKLIST QUEUE POINTER, * CST = CONNECTION STATE, * BST = BLOCK STATE, * LCS = LAST CONNECTION STATE, * LBS = LAST BLOCK STATE, * LCT = LAST COONNECTION STATE TRIGGER, * LBT = LAST BLOCK STATE TRIGGER, * NCT = NETWORK CONNECTION TABLE ADDRESS, * TMN = TERMINAL NAME, * RC = BREAK CONNECTION REASON CODE, * LFN = LOGICAL FILE NAME, * FNT = FILE NAME TABLE ORDINAL OF FILE. * * THE FORMAT OF THE DRIVER PORTION OF THE PRU CONNECTION * BLOCK IS DESCCRIBED BELOW - * * WHERE - * * FNT = FILE NAME TABLE ORDINAL OF ACTIVE FILE, * NPR = NEXT PRU POSITION OF ACTIVE FILE, * WLP = WORKLIST POINTER ORDINAL, * CMD = COMMAND ORDINAL, * FNL = FORCE NEW LINE, * EOL = LAST OUTPUT WAS END OF LINE, * LOC = LAST OUTPUT CHARACTER ZERO , * FM = FILE MODE, * SSI = INTERNALLY STOPPED REASON CODE, * SSE = EXTERNALLY STOPPED REASON CODE, * EIR = END OF INFORMATION RECEIVED FLAG, * CDB = CURRENT DATA BUFFER ADDRESS, * LDB = LAST DATA BUFFER ADDRESS, * CPR = CURRENT PRU POSITION OF ACTIVE FILE, * ACT = ACCOUNTING DATA, * L7P = FILE TRANSFER COMMAND PARAMETER, * MEC = MASS STORAGE ERROR CODE, * PCN = PENDING CHECKMARK NUMBER, * PPR = CORRESPONDING PRU POSITION, * OCM = OUTSTANDING CHECKMARK COUNT, * LAC = LAST ACKNOWLEDGED CHECKMARK, * CPP = CORRESPONDING PRU POSITION, * FTO = PRU ON MODE, * BBC = BLOCKS BETWEEN CHECKMARKS, * BNC = BLOCKS UNTIL NEXT CHECKMARK, * L7T = LEVEL SEVEN TIMER, * L7N = LEVEL SEVEN BLOCK NUMBER, * IN = WORKLIST QUEUE IN POINTER, * OUT = WORKLIST QUEUE OUT POINTER, * WO = QUEUED WORKLIST COMMAND ORDINAL, * OSC = OUTSTANDING SPACES COUNT (PRU DEVICE). * QBC = QUEUED BUFFER COUNT. LOC 0 BSS 1 NAM HEADER WORD C.BID EQU C.BID BLOCK ID BYTE (BITS 11-6) S.BID EQU S.BID BLOCK ID POSITION C.BWD EQU C.BWD BLOCK SIZE IN CENTRAL WORDS (BITS 5-0+11-0) C.PCBSP EQU 2 STREAM PARAMETER BYTE S.PCBNBL EQU 9 NETWORK BLOCK LIMIT POSITION S.PCBPR EQU 6 PRIORITY LEVEL POSITION L.PCBPR EQU 7 PRIORITY LEVEL LENGTH S.PCBHR EQU 4 HOST REGULATION FLAG POSITION S.PCBNR EQU 3 NPU REGULATION FLAG POSITION S.PCBAA EQU 2 APPLICATION TO APPLICATION FLAG POSITION M.PCBAA EQU 1S2 APPLICATION TO APPLICATION FLAG MASK S.PCBNBS EQU 0 PRU BLOCK SIZE POSITION L.PCBNBS EQU 3 PRU BLOCK SIZE LENGTH C.PCBDT EQU 3 DEVICE TYPE BYTE S.PCBDT EQU 9 DEVICE TYPE POSITION W.PCBLP BSS 1 PRU CONNECTION BLOCK LINK POINTER WORD C.PCBNA EQU 0 - 1 NETWORK ADDRESS FIELD BYTES S.PCBTN EQU 4 TERMINAL NODE NUMBER POSITION S.PCBHN EQU 8 HOST NODE NUMBER POSITIOM S.PCBCN EQU 0 CONNECTION NUMBER POSITION C.PCBFL EQU 3 - 4 NEXT PRU CONNECTION BLOCK (BITS 5-0+11-0) W.PCBIWP BSS 1 IMMEDIATE WORKLIST POINTER WORD C.PCBWLC EQU 0 WORKLIST COMPLETED BYTE S.PCBWLC EQU 11 WORKLIST COMPLETED FLAG POSITION (1 = YES) B.PCBWLC EQU 1S11 WORKLIST COMPLETED FLAG C.PCBFTP EQU 1 - 2 FILE TRANSFER PARAMETERSS S.PCBCWS EQU 4 CHECKMARK WINDOW SIZE (BITS 11-4) S.PCBKVL EQU 2 INITIAL CHECKMARK VALUE (BITS 3-0+11-2) L.PCBXDD EQU 3 DATA DECLARACTION FIELD SIZE 0 = UNDEFINED (CONTROL WORD NOS TO NOS) 1 = UNDEFINED DATA IN UNDEFINED FORMAT (BINARY) 2 = UNDEFINED DATA IN DEFINED FORMAT (BINARY) C.PCBWLP EQU 3 - 4 WORKLIST POINTER (BITS 5-0+11-0) W.PCBHWP BSS 1 HIGH PRIORITY WORKLIST POINTER WORD C.PCBWLC EQU C.PCBWLC WORKLIST COMPLETED BYTE S.PCBWLC EQU S.PCBWLC WORKLIST COMPLETED FLAG POSITION (1 = YES) B.OCBWLC EQU B.PCBWLC WORKLIST COMPLETED FLAG C.PCBWLP EQU C.PCBWLP WORKLIST POINTER (BITS 5-0+11-0) W.PCBLWP BSS 1 LOW PRIORITY WORKLIST POINTER WORD C.PCBWLC EQU C.PCBWLC WORKLIST COMPLETED FLAG BYTE S.PCBWLC EQU S.PCBWLC WORKLIST COMPLETED FLAG POSITION (1 = YES) B.PCBWLC EQU B.PCBWLC WORKLIST COMPLETED FLAG C.PCBWLP EQU C.PCBWLP WORKLIST POINTER (BITS 5-0+11-0) W.PCBNST BSS 1 NAM STATE WORD W.PCBTNM BSS 1 NAM TERMINAL NAME WORD W.PCBNFN BSS 1 NAM FILE NAME WORD W.PCBPS1 BSS 1 PRU STREAM PARAMETER WORD ONE C.PCBFNT EQU 0 FILE NAME TABLE ORDINAL C.PCBNPR EQU 1 - 2 CURRENT PRU POSITION C.PCBWP EQU 3 WORKLIST PARAMETERS (6/POINTER, 6/COMMAND) C.PCBFP EQU 4 PRU FILE PARAMETER BYTE S.PCBFNL EQU 5 FORCE NEW LINE FLAG POSITION B.PCBFNL EQU 1S5 FORCE NEW LINE FLAG S.PCBEOL EQU 4 LAST OPERATION FLAG POSITION B.PCBEOL EQU 1S4 LAST OPERATION END OF LINE FLAG S.PCBLOC EQU 3 LAST OUTPUT CHARACTER ZERO FLAG POSITION B.PCBLOC EQU 1S3 LAST OUTPUT CHARATER ZERO FLAG S.PCBFM EQU 0 FILE MODE POSITION L.PCBFM EQU 7 FILE MODE LENGTH W.PCBPS2 BSS 1 PRU STREAM PARAMETER WORD TWO C.PCBSS EQU 0 STREAM STOPPED REASON CODES (6/INT, 6/EXT) C.PCBTRC EQU C.PCBSS TERMINATE PRU REASON CODE (6/0, 6/RC) C.PCBCDB EQU 1 - 2 CURRENT BUFFER ADDRESS (BITS 5-0+11-0) S.PCBEIR EQU S.EIR END OF INFORMATION RECEIVED POSITION B.PCBEIR EQU B.EIR END OF INFORMATION RECEIVED FLAG C.PCBLDB EQU 3 - 4 LAST BUFFER ADDRESS (BITS 5-0+11-0) W.PCBPS3 BSS 1 PRU STREAM PARAMETER WORD THREE C.PCBCRI EQU 0 - 2 CURRENT RANDOM INDEX C.PCBACT EQU 3 - 4 ACCOUNTING INFORMATION C.PCBL7P EQU C.PCBACT FILE TRANSFER COMMAND PARAMETER W.PCBPS4 BSS 1 PRU STRAM PARAMETER WORD FOUR C.PCBMEC EQU 0 MASS STORAGE ERROR CODE C.PCBPCN EQU 1 - 2 PENDING CHECKMARK NUMBER C.PCBPPR EQU 3 - 4 CORRESPONDING PRU POSITION W.PCBPS5 BSS 1 PRU STREAM PARAMETER WORD FIVE C.PCBOCM EQU 0 OUTSTANDING CHECKMARK COUNT C.PCBLAC EQU 1 - 2 LAST ACKNOWLEDGED CHECKMARK C.PCBCPP EQU 3 - 4 CORRESPONDING PRU POSITION W.PCBPS6 BSS 1 PRU STREAM PARAMETER WORD SIX C.PCBFTS EQU 0 FILE TRANSFER STATUS B.PCBFTF EQU 1S2 FILE TRANSFER PRU MODE OFF (1 = YES) B.PCBBRR EQU 1S1 BREAK RECEIVED (1 = YES) B.PCBFTO EQU 1S0 PRU MODE ON (1 = YES) C.PCBCMC EQU 1 CHECKMARK CONTROL (6/INTERVAL, 6/CURRENT) C.PCBL7T EQU 2 LEVEL SEVEN TIMER C.PCBL7N EQU 3 - 4 NEXT EXPECTED LEVEL SEVEN BLOCK NUMBER W.PCBWLQ BSS 1 WORKLIST QUEUE WORD C.QIO EQU C.QIO QUEUE IN-OUT POINTER (6/IN, 6/OUT) C.QUE EQU C.QUE WORKLIST QUEUE W.PCBPS8 BSS 1 PRU STREAM PARAMETER WORD 8 C.PCBOSC EQU 0 OUTSTANDING SPACES COUNT C.PCBQBC EQU 1 NO. OF BUFFERS QUEUED TO THIS PCNB (INPUT) L.PCB BSS 0 DEFINE LENGTH OF PRU CONNECTION BLOCK DRVDMP SPACE 2,24 ** DRIVER DUMP AREA. * * THE FOLLOWING IS THE FORMAT OF THE DRIVER DUMP AREA * WHICH IS ALLOCATED BY A DRIVER WHICH DETECTS AN * ERROR AND ALL DRIVERS ARE REQUESTED TO DUMP PPU * MEMORY INTO THE ASSIGNED AREA. * *TBL 6/BID,18/BWD,12/0,12/0,9/0,3/DOR *TBL, 12/PPM,12/PPM,12/PPM,12/PPM,12/PPM * * WHERE - * * BID = NAM BUFFER ID, * BWD = BLOCK SIZE IN CENTRAL WORDS, * DOR = DRIVER ORDINAL, ** PPM = PPU MEMORY BYTES. LOC 3 W.PPD BSS 1 PPU DUMP HEADER WORD C.DDO EQU 4 DRIVER ORDINAL BLOCKHDR SPACE 2,24 ** BLOCK HEADER. * * EACH MESSAGE THAT IS QUEUED THROUGH A FET STRUCTURE IS * PRECEDED BY A BLOCK HEADER. THE FORMAT OF THE BLOCK * HEADER IS AS FOLLOWS - * *TBL 6/BID,18/BWD,18/BLK,18/QLK * * WHERE - * * BID = BUFFER ID, * BWD = BLOCK SIZE IN CENTRAL MEMORY WORDS, * BLK = ADDRESS OF LAST MESSAGE IN QUEUE * FOR OUTBOUND MESSAGES ONLY, * QLK = ADDRESS OF NEXT MESSAGE IN QUEUE ** FOR OUTBOUND MESSAGES ONLY. LOC 0 BSS 1 BLOCK HEADER C.BID EQU C.BID BLOCK ID BYTE (BITS 11-6) S.BID EQU S.BID BLOCK ID POSITION C.BWD EQU C.BWD BLOCK SIZE IN CENTRAL WORDS (BITS 5-0+11-0) C.QLK EQU 3 - 4 QUEUED BLOCK ADDRESS (BITS 5-0+11-0) L.BH BSS 0 DEFINE LENGTH OF BLOCK HEADER BUFTYPE SPACE 2,6 **** NAM BUFFER TYPES. Q.TNTID EQU 10B TERMINAL NODE TABLE ID Q.PCBID EQU 14B PRU CONTROL BLOCK TABLE ID Q.DITID EQU 15B DRIVER INTERFACE TABLE ID Q.NBTID EQU 17B NETWORK BUFFER TABLE ID Q.FPBID EQU 21B FREE PRU BUFFER ID Q.IBID EQU 46B INBOUND BUFFER ID Q.OBID EQU 47B OUTBOUND BUFFER ID Q.DOAID EQU 52B DRIVER OVERLAY AREA ID Q.CETID EQU 53B COUPLER EQUIPEMENT TABLE ID Q.WLID EQU 55B WORKLIST BUFFER ID Q.DMPID EQU 60B DUMP PPU BUFFER ID Q.PRUID EQU 62B PRU BUFFER ID Q.PONID EQU 65B PRU/ON BUFFER ID Q.LCNID EQU 66B LIMBO PRU CONNECTION BUFFER ID Q.UOCID EQU 67B PRU BUFFER USED-ON-CHAIN ID **** NETHDR SPACE 2,28 ** NETWORK HEADER. * * EACH MESSAGE THAT IS QUEUED THROUGH A FET STRUCTURE * HAS A NETWORK HEADER FOLLOWING THE BLOCK HEADER. THE * FORMAT OF THE NETWORK HEADER IS AS FOLLOWS - * *TBL 8/DN,8/SN,8/CN,1/PRI,3/BSN,4/BT,8/DBC,4/ACT,4/BBT, *TBL, 12/MCC * * WHERE - * * DN = DESTINATION NODE, * SN = SOURCE NODE, * CN = CONNECTION NUBER, * PRI = PRIORITY FLAG, * BSN = BLOCK SERIAL NUMBER, * BT = BLOCK TYPE, * DBC = DATA BLOCK CLARIFIER, * ACT = APPLICATION CHARACTER TYPE, * BBT = BAD BLOCK TYPE, ** MCC = LENGTH OF MESSAGE IN CHARACTERS. W.NNH BSS 1 NAM NETWORK HEADER C.BT EQU 2 BLOCK TYPE (BITS 7-4) C.DBC EQU 2 - 3 DATA BLOCK CLARIFIER (BITS 3-0+11-8) C.CBT EQU 3 CHARACTER TYPE AND BAD BLOCK TYPE S.ACT EQU 4 CHARACTER TYPE POSITION L.ACT EQU 17B CHARACTER TYPE LENGTH S.BBT EQU 0 BAD BLOCK TYPE POSITION L.BBT EQU 17B BAD BLOCK TYPE LENGTH C.MCC EQU 4 MESSAGE LENGTH IN CHARACTERS L.NH EQU *-W.NNH DEFINE LENGTH OF NAM NETWORK HEADER BUFSIZE SPACE 2,6 ** NAM BUFFER SIZE DEFINITIONS. .1 SET 256-/BLOCK/L.BH+7 .1 SET .1*2/15 L.SIB EQU .1+L.BH+L.NH DEFINE BUFFER SIZE FOR SMALL IVT MSGS .1 SET 2047-/BLOCK/L.BH+7 .1 SET .1*2/15 L.LIB EQU .1+L.BH+L.NH DEFINE BUFFER SIZE FOR LARGE IVT MSGS WORKLIST SPACE 2,36 ** WORKLIST ENTRY. * * WORKLIST ENTRIES ARE QUEUED TO A PCB BY NAM TO ALLOW * HIGH LEVEL CONTROL OF PRU STREAMS. THE DRIVER * GENERATES WORKLIST ENTRIES WHEN THE STATUS OF A PRU * STREAM CHANGES AND THE APPLICATION MUST BE INFORMED * OF THE CHANGE. THE DRIVER WILL ALSO GENERATE WORKLIST * ENTRIES TO REPORT NON-FATAL ERROR CONDITIONS. DRIVER * GENERATED WORKLIST ENTRIES ARE PLACED INTO THE INBOUND * BUFFER FOR THE ASSOCIATED FRONT END. THE NAM PORTION * OF THE WORKLIST ENTRY IS DESCRIBED BELOW - * *TBL 6/BID,18/BWD,18/0, 18/QLK *TBL, 8/DN,8/SN,8/CN,8/EC,8/RC,8/OP,12/0 * * WHERE - * * BID = BLOCK ID, * BWD = BLOCK SIZE IN CENTRAL MEMORY WORDS, * QLK = ADDRESS OF NEXT WORKLIST ENTRY IN QUEUE, * DN = DESTINATION NODE, * SN = SOURCE NODE, * CN = CONNECTION NUMBER, * EC = ERROR CODE, * RC = REASON CODE, ** OP = REQUEST CODE. LOC 0 BSS 1 WORKLIST HEADER C.BID EQU C.BID BLOCK ID BYTE (BITS 11-6) S.BID EQU S.BID BLOCK ID POSITION C.BWD EQU C.BWD BLOCK SIZE IN CENTRAL WORDS (BITS 5-0+11-0) W.WLH BSS 1 WORKLIST HEADER WHCM BSS 0 DEFINE CENTRAL LENGTH OF WORKLIST HEADER WLREQ SPACE 2,6 **** WORKLIST REQUEST CODES. PDWL EQU 1 PROCESS DRIVER WORKLIST ENTRY RCWL EQU 2 RELEASE COMPLETED WORKLIST ENTRY PTWL EQU 3 PRU CONNECTION TERMINATED WORKLIST ENTRY ELWL EQU 4 ERROR LOGICAL WORKLIST ENTRY DFWL EQU 5 DAYFILE WORKLIST ENTRY BPWL EQU 6 BLOCK PROTOCOL ERROR WORKLIST PAWL EQU 10B PROCESS APPLICATION WORKLIST ENTRY TPWL EQU 11B TERMINATE PRU CONNECTION WORKLIST ENTRY REASON SPACE 2,6 * REASON CODES FOR DAYFILE WORKLIST ENTRY. DFTX EQU 0 DAYFILE DISPAY CODED TEXT IN WORKLIST DFBPE EQU 1 DAYFILE BLOCK PROTOCOL ERROR WORKLIST DFME EQU 2 DAYFILE MDI DETAIL STATUS DFNCV EQU 3 DAYFILE NONSUPPORTED CH PROTOCOL MSG DFRDM EQU 4 DAYFILE BAD DOWNLINE MSG **** WLRESP SPACE 2,6 **** WORKLIST ERROR REASON CODES. WLLE EQU 13 ILLOGICAL WORKLIST REQUEST WLFE EQU 14 WORKLIST FORMAT ERROR **** WORKHEAD SPACE 2,24 ** WORKLIST HEADER. * * EACH WORKLIST ENTRY HAS A WORKLIST HEADER FOLLOWING THE * BLOCK HEADER. THE FORMAT OF THE WORKLIST HEADER IS AS * FOLLOWS - * *TBL 8/HN,8/TN,8/CN,8/EC,8/RC,8/OC,12/0 * * WHERE - * * HN = HOST NODE, * TN = TERMINAL NODE, * CN = CONNECTION NUMBER, * EC = ERROR CODE, * RC = REASON CODE, ** OC = REQUEST CODE. LOC 0 WHN BSS 1 HOST NODE WTN BSS 1 TERMINAL NODE WCN BSS 1 CONNECTION NUMBER WEC BSS 1 ERROR CODE WRC BSS 1 REASON CODE WOC BSS 1 REQUEST CODE L.WH BSS 0 DEFINE LENGTH OF WORKLIST HEADER WL(1) SPACE 2,14 **** DATA BLOCK DISCARDED WORKLIST ENTRY. * * THE DATA BLOCK DISCARDED WORKLIST ENTRY IS USED BY THE * DRIVER WHEN A BAD DATA BLOCK IS DETECTED. THE DATA * BLOCK IS DISCARDED AND THE WORKLIST ENTRY IS * TRANSFERRED TO THE INBOUND BUFFER WITH UP TO THE FIRST ** TEN CENTRAL MEMORY WORDS OF THE DISCARDED MESSAGE. LOC 0 DEC BSS 1 DRIVER ERROR CODE DSS BSS 1 DRIVER STREAM STATES BSS 3 FILL L.WH(1) BSS 0 DEFINE LENGTH OF WORKLIST HEADER LOC 0 BSS 10*5 UP TO FIRST TEN WORDS OF DISCARDED MESSAGE **** L.WL(1) BSS 0 DEFINE LENGTH OF MESSAGE DISCARDED WORKLIST WL(2) SPACE 2,14 **** ERROR LOGICAL WORKLIST ENTRY. * * THE ERROR LOGICAL WORKLIST ENTRY IS USED BY THE DRIVER * WHEN A ILLOGICAL WORKLIST IS DETECTED. THE WORKLIST IS * DISCARDED AND THE ERROR LOGICAL WORKLIST ENTRY IS * TRANSFERRED TO THE INBOUND BUFFER WITH UP TO THE FIRST ** TEN CENTRAL MEMORY WORDS OF THE WORKLIST IN ERROR. LOC 0 DEC BSS 1 DRIVER ERROR CODE DSS BSS 1 DRIVER STREAM STATES DAO BSS 1 DRIVER ACTION ORDINAL BSS 2 FILL L.WH(2) BSS 0 DEFINE LENGTH OF WORKLIST HEADER LOC 0 BSS 10*5 UP TO FIRST TEN WORDS OF DISCARDED WORKLIST **** L.WL(2) BSS 0 DEFINE LENGTH OF ERROR LOGICAL WORKLIST WL(3) SPACE 2,16 **** BLOCK PROTOCOL ERROR WORKLIST ENTRY. * * THE BLOCK PROTOCOL ERROR WORKLIST ENTRY IS USED BY THE * DRIVER WHEN A BLOCK PROTOCOL ERROR IS DETECTED. THE * FRONT END IS DECLARED INOPERATIVE AND THE BLOCK * PROTOCOL ERROR WORKLIST IS TRANSFERRED TO THE INBOUND * BUFFER. NOT ALL FIELDS IN THE WORKLIST WILL APPLY TO ** ALL BLOCK PROTOCOL ERROR CONDITIONS. LOC 0 BSS 1 UNUSED DSS BSS 2 DRIVER STREAM STATES DAC BSS 1 DRIVER ACTION ORDINAL DBS BSS 1 DRIVER BLOCK HANDLER STATE DOV BSS 1 DRIVER OVERLAY ORDINAL OF LOADED OVERLAY DCC BSS 1 DRIVER CHARACTER COUNT OF LAST INPUT DLI BSS 1 DRIVER LAST INPUT CHARACTER DET BSS 1 DRIVER END OF TRANSFER FLAG DIC BSS 2 DRIVER LAST INPUT CALL ADDRESS DER BSS 1 DRIVER ERROR CODE DHN BSS 1 HOST NODE NUMBER DTN BSS 1 TERMINAL NODE NUMBER DAD BSS 1 DRIVER ACTION DIRECTORY OFFSET DRT BSS 2 DRIVER RESPONSE TABLE ENTRY DCO BSS 1 DRIVER COMMAND ORDINAL/INPUT ORDER CODE DBA BSS 2 BLOCK SERIAL NUMBERS AND BACK COUNTS DBT BSS 1 MESSAGE BLOCK TYPE DNS BSS 1 DRIVER NEXT STREAM STATE DPR BSS 1 PRU BUFFER SIZE DRE BSS 1 DRIVER REQUEST END OF OUTPUT FLAG DOW BSS 2 NPU ORDER WORD DCP BSS 2 DRIVER OUTPUT/INPUT PROCESSOR DCN BSS 1 CONNECTION NUMBER DIB BSS 30 DRIVER INPUT BUFFER **** L.WL(3) BSS 0 LENGTH OF BLOCK PROTOCOL ERROR WORKLIST WL(4) SPACE 2,12 **** DAYFILE TEXT WORKLIST ENTRY. * * THE DAYFILE TEXT WORKLIST ENTRY IS USED BY THE DRIVER * TO PASS THE TEXT OF A DAYFILE MESSAGE TO NAM WHICH WILL ** BE ISSUED TO THE DAYFILE. LOC 0 DFT BSS 80 DAYFILE TEXT **** L.WL(4) BSS 0 LENGTH OF DAYFILE TEXT WORKLIST WL(5) SPACE 2,12 **** MDI ERROR STATUS WORKLIST ENTRY. * * THE MDI ERROR STATUS WORKLIST ENTRY IS USED BY THE * DRIVER TO PASS THE MAINFRAME INTERFACE DETAIL STATUS ** TO NAM WHEN A MDI ERROR IS DETECTED. LOC 0 MDIDS BSS /MSTATUS/L.DSP MDI DETAILED STATUS DSSS BSS 1 DRIVER STREAM STATES DSAO BSS 1 DRIVER ACTION ORDINAL DSBS BSS 1 DRIVER BLOCK HANDLER STATE DSCC BSS 1 DRIVER CHAR COUNT OF LAST INPUT DSGS BSS 1 MDI GENERAL STATUS DSIC BSS 1 DRIVER LAST INPUT CALL ADDRESS DSHN BSS 1 HOST NODE NUMBER DSTN BSS 1 TERMINAL NODE NUMBER DSAD BSS 1 DRIVER ACTION DIRECTORY OFFSET DSRT BSS 1 DRIVER RESPONSE TABLE ENTRY DSCO BSS 1 DRIVER COMMAND ORDINAL/INPUT ORDER CODE DSSB BSS 1 BLOCK SERIAL NUMBERS AND BACK COUNTS DSBT BSS 1 MESSAGE BLOCK TYPE DSNS BSS 1 DRIVER NEXT STREAM STATE DSPR BSS 1 PRU BUFFER SIZE DSCP BSS 1 DRIVER OUTPUT/INPUT PROCESSOR DSCN BSS 1 CONNECTION NUMBER **** L.WL(5) BSS 0 LENGTH OF MDI ERROR STATUS WORKLIST WL(6) SPACE 2,12 **** MDI CHANNEL PROTOCOL MISMATCH WORKLIST ENTRY * * THE MDI CHANNEL PROTOCOL MISMATCH WORKLIST ENTRY IS * USED BY THE DRIVER WHEN IT FIRST ATTEMPTS TO * COMMUNICATE WITH THE CDCNET FRONT END AND FIND THAT * THERE IS NO COMMON CHANNEL PROTOCOL VERSION THAT BOTH * PIP AND THE CDCNET FRONT END CAN USE TO COMMUNICATE * WITH EACH OTHER. ** LOC 0 MINPV BSS 1 MINIMUM CH PROTOCOL VERS SUPPORTED BY PIP MAXPV BSS 1 MAXIMUM CH PROTOCOL VERS SUPPORTED BY PIP MDIPV BSS 1 IF MAX MDI CH PROTOCOL VERSION IS LESS THAN PIP MINIMUM CH PROTOCOL VERSION, THEN THIS IS THE MAX MDI CH PROTOCOL VERSION. OTHERWISE, IT IS THE CH PROTOCOL VERSION PIP SENT FOLLOWING SET PROTOCOL VERSION TRANSPARENT FUNCTION. MDICV BSS 1 MDI CH PROTOCOL VERSION READ IN DETAILED STATUS AFTER SET PROTOCOL VERSION FUNCTION WAS ISSUED. BSS 1 FILL **** L.WL(6) BSS 0 LENGTH OF CH PROTOCOL VERS MISMATCH WORKLST SMHDR SPACE 2,12 **** PRU APPLICATION SUPERVISORY MESSAGE HEADER. * * THE PRU APPLICATION SUPERVISORY MESSAGE HEADER IS THE * FIRST TEXT WORD IN THE WORKLIST FOR A PRU SUPERVISORY ** MESSAGE. LOC 0 PFC BSS 1 PRIMARY FUNCTION CODE (8-BITS) SFC BSS 1 SECONDARY FUNCTION CODE (8-BITS) RC BSS 1 RESPONSE CODE (8-BITS) L.SMEB BSS 0 DEFINE LENGTH OF EIGHT BIT FIELDS .1 SET L.SMEB+2 .1 SET .1/3*2 LOC .1 ACN BSS 1 APPLICATION CONNECTION NUMBER CPRU BSS 2 CURRENT PRU POSITION LOC CPRU ACNT BSS 2 ACCOUNTING DATA LOC CPRU+1 IMSEC BSS 1 INPUT MASS STORAGE ERROR CODE LOC CPRU+1 OEOJ BSS 1 DIRECT OUTPUT END OF JOB REQUEST FLAG **** L.SMHDR BSS 0 DEFINE LENGTH OF SERVICE MESSAGE HEADER B.NR EQU /BLOCK/B.NR NORMAL WORKLIST RESPONSE BIT REASON SPACE 2,6 **** DEVICE STOPPED REASON CODE DEFINITIONS. RCBI EQU 1 BATCH INTERRUPT RCCS EQU 2 CARD SLIPPED RCPM EQU 2 PM MESSAGE RCEI EQU 3 END OF INPUT STREAM RCFL EQU 3 FILE LIMIT EXCEEDED RCNR EQU 4 DEVICE NOT READY RCMS EQU 5 MASS STORAGE ERROR RCNV EQU 6 NO VFU FILE **** SMFPAR SPACE 2,10 **** PRU APPLICATION SUPERVISORY MESSAGE FILE PARAMETER. * * THE PRU APPLICATION SUPERVISORY MESSAGE FILE PARAMETER * FOLLOWS THE PRU APPLICATION SUPERVISORY MESSAGE HEADER ** FOR FILE COMMANDS. FNAME BSS 4 FILE NAME FNT BSS 1 FILE NAME TABLE ORDINAL **** L.SMFP BSS 0 DEFINE LENGTH OF FILE PARAMETER MESSAGE SMNPAR SPACE 2,14 **** PRU APPLICATION SUPERVISORY MESSAGE WITH FN/FV. * * THE PRU APPLICATION SUPERVISORY MESSAGE WITH FN/FV * PARAMETERS FOR THE FRONT END FOLLOWS THE PRU * APPLICATION SUPERVISORY MESSAGE HEADER FOR FRONT END ** PARAMETER CHANGE COMMANDS. LOC L.SMHDR FN BSS 1 FIELD NAME (8-BITS) FV BSS 1 FIELD VALUE (8-BITS) **** BSFT EQU 81 FILE MODE FIELD NAME VALUE SMRJV SPACE 2,10 **** PRU APPLICATION SUPERVISORY MESSAGE FOR JOB VALIDATION. * * THE PRU APPLICATION SUPERVISORY MESSAGE FOR JOB * VALIDATION FOLLOWS THE PRU APPLICATION SUPERVISORY ** MESSAGE HEADER AND IS USED TO REQUEST JOB VALIDATION. L.SMRJV EQU L.SMHDR+90*2/2 MAXIMUM LENGTH OF JOB VALIDATION REQUEST **** SMDO SPACE 2,10 **** PRU APPLICATION SUPERVISORY MESSAGE FOR DIRECT OUTPUT. * * THE PRU APPLICATION SUPERVISORY MESSAGE FOR DIRECT * OUTPUT FOLLOWS THE PRU APPLICATION SUPERVISORY MESSAGE ** HEADER AND IS USED TO REQUEST DIRECT OUTPUT. L.SMDO EQU L.SMHDR+192 DEFINE LENGTH OF DIRECT OUTPUT REQUEST **** SMSS SPACE 2,12 **** PRU APPLICATION SUPERVISORY MESSAGE FOR STREAM STOPPED. * * THE PRU APPLICATION SUPERVISORY MESSAGE FOR STREAM * STOPPED MAY HAVE ADDITIONAL INFORMATION FOLLOWING ** THE PRU APPLICATION SUPERVISORY MESSAGE HEADER. LOC L.SMHDR PMCC BSS 1 PM MESSAGE TEXT CHARACTER COUNT BSS 3 FILL OMSEC BSS 1 OUTPUT MASS STORAGE ERROR CODE PMTEXT BSS 80 PM TEXT (8-BITS) **** L.SMSS BSS 0 DEFINE LENGTH OF STREAM STOPPED SMWLC SPACE 2,12 **** WORKLIST COMPLETED SERVICE MESSAGE HEADER. * * THE WORKLIST COMPLETED SERVICE MESSAGE HEADER * IDENTIFIES THE WORKLIST FOR WHICH PROCESSING ** HAS BEEN COMPLETED. LOC 0 WLP BSS 1 WORKLIST PRIORITY **** L.WLC BSS 0 DEFINE LENGTH OF WORKLIST COMPLETED FTSM SPACE 2,12 **** APPLICATION TO APPLICATION FILE TRANSFER. * * THE DRIVER SUPPORTS APPLICATION TO APPLICATION FILE * TRANSFERS IN PRU MODE. THE FOLLOWING SUPERVISORY * MESSAGES ARE USED BETWEEN THE DRIVER AND THE HOST * APPLICATION TO CONTROL THE FILE TRANSFER. THESE **** SUPERVISORY MESSAGES USE THE NORMAL WORKLIST HEADERS. FTSIF SPACE 2,12 **** START INBOUND FILE SUPERVISORY MESSAGE. * * THE START INBOUND FILE SUPERVISORY MESSAGE IS USED BY * THE HOST APPLICATION TO INITIATE RECEPTION OF A FILE ** TRANSFER IN PRU MODE. LOC L.SMHDR FNAME BSS 4 FILE NAME FNT BSS 1 FILE NAME TABLE ORDINAL **** L.FTSIF BSS 0 DEFINE LENGTH OF START INBOUND FILE FTSOF SPACE 2,12 **** START OUTBOUND FILE SUPERVISORY MESSAGE. * * THE START OUTBOUND FILE SUPERVISORY MESSAGE IS USED BY * THE HOST APPLICATION TO INITIATE TRANSMISSION OF A ** FILE IN PRU MODE. LOC L.SMHDR FNAME BSS 4 FILE NAME FNT BSS 1 FILE NAME TABLE ORDINAL **** L.FTSOF BSS 0 DEFINE LENGTH OF START OUTBOUND FILE FTEIF SPACE 2,12 **** END INBOUND FILE SUPERVISORY MESSAGE. * * THE END INBOUND FILE SUPERVISORY MESSAGE IS USED BY * THE DRIVER TO INFORM THE HOST APPLICATION OF THE ** COMPLETION OF AN INBOUND FILE TRANSFER IN PRU MODE. LOC L.SMHDR FNAME BSS 4 FILE NAME FNT BSS 1 FILE NAME TABLE ORDINAL **** L.FTEF BSS 0 DEFINE LENGTH OF END INBOUND FILE FTEOF SPACE 2,12 **** END OUTBOUND FILE SUPERVISORY MESSAGE. * * THE END OUTBOUND FILE SUPERVISORY MESSAGE IS USED BY * THE DRIVER TO INFORM THE HOST APPLICATION OF THE ** COMPLETION OF AN OUTBOUND FILE TRANSFER IN PRU MODE. LOC L.SMHDR FNAME BSS 4 FILE NAME FNT BSS 1 FILE NAME TABLE ORDINAL **** L.FTEF BSS 0 DEFINE LENGTH OF END OUTBOUND FILE LEVEL7 TITLE A-A FILE TRANSFER PROTOCOL DEFINITIONS. LEVEL7 SPACE 2,18 **** APPLICATION TO APPLICATION FILE TRANSFER. * * THE DRIVER SUPPORTS APPLICATION TO APPLICATION FILE * TRANSFERS IN PRU MODE. THE FOLLOWING LEVEL SEVEN * PROTOCOL ELEMENTS ARE EITHER USED OR PROCESSED BY * THE DRIVER IN THE DATA TRANSFER PHASE OF THE FILE * TRANSFER. ANY OTHER LEVEL SEVEN PROTOCOL ELEMENTS * RECEIVED WHILE IN DATA TRANSFER PHASE WILL BE PASSED * TO THE APPLICATION FOR PROCESSING AND DO NOT DIRECTLY * AFFECT THE FILE TRANSFER. ALL LEVEL SEVEN PROTOCOL * ELEMENTS ARE IS *ASCII* CHARACTER FORMAT INCLUDING **** NUMERIC FIELDS. L7SR SPACE 2,16 **** APPLICATION TO APPLICATION START OF DATA REPLY. * * THE APPLICATION TO APPLICATION START OF DATA REPLY IS * SENT BT THE DRIVER IN RESPONSE TO AN INPUT FILE * TRANSFER START WORKLIST RECEIVED FROM THE HOST * APPLICATION AND INDICATES THAT THE DRIVER IS READY TO ** RECEIVE PRU DATA FROM THE REMOTE APPLICATION. LOC 0 L7CN BSS 2 COMMAND NUMBER (37 IN *ASCII*) L7PC BSS 2 PARAMETER COUNT (1 IN *ASCII*) L7AN BSS 2 ATTRIBUTE NUMBER (23 IN *ASCII*) L7AQ BSS 1 ATTRIBUTE QUALIFIER (S IN *ASCII*) L7AL BSS 3 ATTRIBUTE LENGTH (4 IN *ASCII*) L7CM BSS 4 INITIAL CHECKMARK NUMBER **** L.L7SR BSS 0 DEFINE LENGTH OF START DATA REPLY L7ES SPACE 2,18 **** APPLICATION TO APPLICATION END OF DATA. * * THE APPLICATION TO APPLICATION END OF DATA IS RECEIVED * BY THE DRIVER FROM THE REMOTE APPLICATION AND SIGNIFIES * THE END OF THE DATA TRANSFER PHASE. THE ATTRIBUTE * THAT ACCOMPANIES THE END OF DATA ELEMENT SPECIFIES THE * STATUS OF THE FILE TRANSFER. THE DRIVER WILL TRANSFER * AN APPLICATION TO APPLICATION SUPERVISORY MESSAGE TO * THE HOST APPLICATION WITH THE TEXT OF THE END OF DATA ** ELEMENT INCLUDED. LOC 0 L7CN BSS 2 COMMAND NUMBER (32 IN *ASCII*) L7PC BSS 2 PARAMETER COUNT (1 IN *ASCII*) L7AN BSS 2 ATTRIBUTE NUMBER (23 IN *ASCII*) L7AQ BSS 1 ATTRIBUTE QUALIFIER (S IN *ASCII*) L7AL BSS 3 ATTRIBUTE LENGTH (4 IN *ASCII*) L7EC BSS 4 ERROR CODE **** L.L7ES BSS 0 DEFINE LENGTH OF END DATA L7RR SPACE 2,16 **** APPLICATION TO APPLICATION REQUEST RESTART. * * THE APPLICATION TO APPLICATION REQUEST RESTART IS * RECEIVED BY THE DRIVER FROM THE REMOTE APPLICATION * WHEN THE REMOTE APPLICATION WANTS TO REQUEST THE * RESTART OF A FILE TRANSFER. THE DRIVER WILL TRANSFER * AN APPLICATION TO APPLICATION SUPERVISORY MESSAGE TO * THE HOST APPLICATION WITH THE TEXT OF THE REQUEST ** RESTART ELEMENT INCLUDED. LOC 0 L7CN BSS 2 COMMAND NUMBER (33 IN *ASCII*) L7PC BSS 2 PARAMETER COUNT (1 IN *ASCII*) L7AN BSS 2 ATTRIBUTE NUMBER (23 IN *ASCII*) L7AQ BSS 1 ATTRIBUTE QUALIFIER (S IN *ASCII*) L7AL BSS 3 ATTRIBUTE LENGTH (4 IN *ASCII*) L7EC BSS 4 ERROR CODE **** L.L7RR BSS 0 DEFINE LENGTH OF REQUEST RESTART L7QR SPACE 2,16 **** APPLICATION TO APPLICATION QUIT. * * THE APPLICATION TO APPLICATION QUIT IS RECEIVED BY THE * DRIVER FROM A REMOTE APPLICATION WHEN THE REMOTE * APPLICATION WANTS TO QUIT A FILE TRANSFER. THE DRIVER * WILL TRANSFER AN APPLICATION TO APPLICATION SUPERVISORY * MESSAGE TO THE HOST APPLICATION WITH THE TEXT OF THE ** QUIT ELEMENT INCLUDED. LOC 0 L7CN BSS 2 COMMAND NUMBER (35 IN *ASCII*) L7PC BSS 2 PARAMETER COUNT (1 IN *ASCII*) L7AN BSS 2 ATTRIBUTE NUMBER (23 IN *ASCII*) L7AQ BSS 1 ATTRIBUTE QUALIFIER (S IN *ASCII*) L7AL BSS 3 ATTRIBUTE LENGTH (4 IN *ASCII*) L7EC BSS 4 ERROR CODE **** L.L7QR BSS 0 DEFINE LENGTH OF QUIT L7MS SPACE 2,12 **** APPLICATION TO APPLICATION CHECKMARK. * * THE APPLICATION TO APPLICATION CHECKMARK IS SENT BY * THE DRIVER SENDING A FILE TO A REMOTE APPLICATION AND ** SIGNIFIES A RESTARTABLE POINT IN THE FILE TRANSFER. LOC 0 L7CN BSS 2 COMMAND NUMBER (31 IN *ASCII*) L7PC BSS 2 PARAMETER COUNT (1 IN *ASCII*) L7AN BSS 2 ATTRIBUTE NUMBER (23 IN *ASCII*) L7AQ BSS 1 ATTRIBUTE QUALIFIER (S IN *ASCII*) L7AL BSS 3 ATTRIBUTE LENGTH (4 IN *ASCII*) L7CM BSS 4 CHECKMARK NUMBER **** L.L7MS BSS 0 DEFINE LENGTH OF CHECKMARK L7MR SPACE 2,14 **** APPLICATION TO APPLICATION CHECKMARK REPLY. * * THE APPLICATION TO APPLICATION CHECKMARK REPLY IS SENT * BY THE DRIVER RECEIVING A CHECKMARK FROM A REMOTE * APPLICATION AFTER ALL THE DATA PRECEDING THE CHECKMARK ** HAS BEEN SUCCESSFULLY WRITTEN TO MASS STORAGE. LOC 0 L7CN BSS 2 COMMAND NUMBER (34 IN *ASCII*) L7PC BSS 2 PARAMETER COUNT (1 IN *ASCII*) L7AN BSS 2 ATTRIBUTE NUMBER (23 IN *ASCII*) L7AQ BSS 1 ATTRIBUTE QUALIFIER (S IN *ASCII*) L7AL BSS 3 ATTRIBUTE LENGTH (4 IN *ASCII*) L7CM BSS 4 CHECKMARK NUMBER **** L.L7MR BSS 0 DEFINE LENGTH OF CHECKMARK REPLY FTES SPACE 2,14 **** END OF STREAM SUPERVISORY MESSAGE. * * THE END OF STREAM SUPERVISORY MESSAGE IS USED BY THE * DRIVER TO INFORM THE HOST APPLICATION THAT THE END * OF DATA WITH NO ERROR LEVEL SEVEN PROTOCOL ELEMENT ** WAS RECEIVED FROM THE REMOTE APPLICATION. LOC CPRU .2 SET * ESTEXT BSS L.L7ES LEVEL SEVEN PROTOCOL TEXT (8-BIT) **** .1 SET *-.2 .1 SET 2*.1+5 .1 SET .1/6 L.FTES EQU .1+.2 DEFINE LENGTH OF END OF STREAM FTER SPACE 2,12 **** ERROR SUPERVISORY MESSAGE. * * THE ERROR SUPERVISORY MESSAGE IS USED BY THE DRIVER ** TO INFORM THE HOST APPLICATION OF AN ERROR CONDITION. LOC L.SMHDR FNAME BSS 4 FILE NAME FNT BSS 1 FILE NAME TABLE ORDINAL CKMS BSS 3 LAST ACKNOWLEDGED CHECKMARK CKPRU BSS 2 PRU POSITION OF LAST ACKNOWLEDGED CHECKMARK L.FTIE BSS 0 DEFINE LENGTH OF INTERNAL ERROR .2 SET * ERTEXT BSS L.L7RR LEVEL SEVEN PROTOCOL TEXT (8-BIT) **** .1 SET *-.2 .1 SET 2*.1+5 .1 SET .1/6 L.FTER EQU .1+.2 DEFINE LENGTH OF LEVEL SEVEN ERROR REASON SPACE 2,6 **** FILE TRANSFER STOPPED REASON CODE DEFINITIONS. FTRCNO EQU 0 NO ERROR FTRCNE EQU 1 BLOCK SEQUENCE ERROR FTRCPE EQU 2 LEVEL SEVEN PROTOCOL ERROR FTRCBK EQU 3 TRANSMISSION LEVEL RESET FTRCRE EQU 4 RECEIVER ERROR FTRCSE EQU 5 SENDER ERROR FTRCRS EQU 6 RESTART REQUESTED FTRCME EQU 7 MASS STORAGE ERROR FTRCDE EQU 8 DATA STRUCTURE ERROR FTRCTO EQU 9 TRANSFER TIMED OUT FTRCHE EQU 10 LEVEL SEVEN HEADER FORMAT ERROR FTRCQM EQU 11 Q-MESSAGE FORMAT ERROR FTRCCE EQU 12 CHECKMARK OR CHECKMARK REPLY NUMBER ERROR **** LEVEL7DH SPACE 2,14 **** APPLICATION TO APPLICATION DATA HEADER. * * THE DRIVER SUPPORTS APPLICATION TO APPLICATION FILE * TRANSFERS IN PRU MODE. THE FOLLOWING LEVEL SEVEN * DATA HEADER DEFINITIONS APPLY TO ALL DATA BLOCK * EXCHANGED WHILE IN DATA TRANSFER PHASE AND ARE EITHER * PROCESSED OR GENERATED BY THE DRIVER. LOC 0 L7DBC BSS 1 LEVEL SEVEN DATA BLOCK CLARIFIER L7BL BSS 2 BLOCK LENTH IN OCTETS L7BN BSS 2 BLOCK NUMBER L7UB BSS 1 UNUSED BIT COUNT IN LAST OCTET (0 OR 4) **** L.L7DH BSS 0 DEFINE LENGTH OF LEVEL SEVEN DATA HEADER QUAL CLENGTH TITLE IVT COMMAND LENGTH DEFINITIONS. QUAL NAM CLENGTH SPACE 2,6 * DEFINE IVT COMMAND LENGTHS. LEN LDRQ LOAD NPU REQUEST COMMAND LEN RGCP COUPLER REGULATION CHANGE COMMAND LEN RGST COUPLER REGULATION REQUEST COMMAND LEN EQTO EQUIPMENT TURNED OFF COMMAND LEN RMDI REQUEST MDI INITIALIZATION LEN BSTO BOOTSTRAP LOAD TIMEOUT COMMAND LEN CEER CE ERROR MESSAGE COMMAND LEN HFE HALT FRONT END COMMAND RLENGTH SPACE 2,6 * DEFINE IVT COMMAND RESPONSE LENGTHS. LEN OV(1)R OVERLAY LOAD COMMAND RESPONSE LEN OV(2)R OVERLAY START COMMAND RESPONSE LEN OVERER OVERLAY COMMAND ERROR RESPONSE WLLENGTH SPACE 2,6 * DEFINE WORKLIST LENGTHS. LENWL WL(1) BAD MESSAGE DISCARDED WORKLIST LENWL WH(1) BAD MESSAGE DISCARDED WORKLIST HEADER LENWL WL(2) ERROR LOGICAL WORKLIST LENWL WH(2) ERROR LOGICAL WORKLIST HEADER LENWL WL(3) BLOCK PROTOCOL ERROR WORKLIST LENWL WL(5) MDI DETAIL ERROR STATUS WORKLIST LENWL WL(6) MDI CH PROTOCOL VERSION MISMATCH WORKLIST LENWL WLC WORKLIST COMPLETED WORKLIST LENWL SMHDR APPLICATION SERVICE MESSAGE WORKLIST HEADER LENWL SMRJV REQUEST JOB VALIDATION WORKLIST LENWL SMFP FILE PARAMETER WORKLIST WLENGTH SPACE 2,6 * DEFINE FILE TRANSFER WORKLIST LENGTHS. LENWL FTEF END OF FILE WORKLIST LENWL FTES END OF STREAM WORKLIST LENWL FTIE INTERNAL ERROR WORKLIST LENWL FTER LEVEL SEVEN ERROR WORKLIST SITE TITLE VARIABLE ASSIGNMENTS. QUAL SITE SPACE 2,12 ** SITE DEFINED DRIVER ASSEMBLY VARIABLES. * * THE FOLLOWING AREA IS RESERVED TO ALLOW A SITE TO * REDEFINE ASSEMBLY VARIABLES USED BY THE DRIVER. * IF A SITE WANTS TO REDEFINE A DRIVER VARIABLE THAT * VARIABLE SHOULD BE DEFINED BY USING THE *EQU* PSEUDO ** OPERATION IN THE AREA BELOW. DEFAULT SPACE 2,6 * DEFAULT DRIVER ASSEMBLY VARIABLES. MAXFE CEQU 4 MAXIMUM NUMBER OF FRONT ENDS FOR DRIVER MAXDRV CEQU 4 MAXIMUM NUMBER OF DRIVERS IN SYSTEM MAXEQP CEQU 16D MAXIMUM NO OF FRONT ENDS TO SERVICE NCWO CEQU 4 OVERRUN CYCLES BEFORE BUFFER REQUEST NCNO CEQU 700 NO OVERRUN CYCLES BEFORE BUFFER RETURN NBBC CEQU 20 NUMBER DATA BLOCKS BETWEEN CHECKMARKS .DEBUG CEQU 1 DRIVER DEBUG OPTION (1 = ON) .PERF CEQU 1 DRIVER PERFORMANCE DATA OPTION (1 = ON) .PBSTAT CEQU 1 PRU BUFFER STATISTICS (1 = ON) *IF,-DEF,MSS .MSS EQU 0 TURN MSS OFF (0=OFF) *ENDIF *IF,DEF,MSS FOR CDC INTERNAL USE ONLY .MSS EQU 1 TURN MSS ON (1=ON) *ENDIF FOR CDC INTERNAL USE ONLY TIMERS SPACE 2,6 * DEFAULT TIMERS. Q.INDEAD CEQU 5 INITIAL NPU DEAD TIMER (SECONDS) Q.MALIVE CEQU 5 MDI KEEP ALIVE TIMEOUT VALUE (SECONDS) Q.NDEAD CEQU 20 NPU DEAD TIMER (SECONDS) Q.BSDEAD CEQU 30 BOOTSTRAP LOAD DEAD TIMER (SECONDS) Q.NINIT CEQU 30 NPU INITIALIZATION REQUEST DELAY (SECONDS) Q.NCLEAR CEQU 30 DELAY BETWEEN CLEAR FUNCTIONS (SECONDS) Q.NOWT CEQU 500 NPU ORDER WORD DEAD TIMER (MS) Q.MCIDLY CEQU 500 MCI FUNCTION DELAY TIMER (MS) Q.MCINIT CEQU 50 INITIAL MCI FUNCTION DELAY TIMER (MS) Q.NPBOT CEQU 10 NO PRU BUFFER OVERRUN TIMEOUT INTERVAL Q.IDT CEQU 2 MAXIMUM IVT DATA CYCLE TIMER (SECONDS) Q.L7TO CEQU 10*60 LEVEL SEVEN TIMER (SECONDS) Q.BPET CEQU 8 MDI BLOCK PROTOCOL ERROR TIMER (SECONDS) Q.CHPRT CEQU 30 DELAY CHANNEL PROTOCOL CHECKS (SECONDS) Q.WCHPRT CEQU 300 DELAY CHANNEL PROTOCOL CHECKS AFTER DETECTING INCORRECT PROTOCOL (SECONDS) Q.NOAC CEQU 2 OUTPUT DELAY AFTER ACCEPT (MS) Q.NORJ CEQU 100 OUTPUT DELAY AFTER REJECT (MS) Q.ILECHO CEQU 1000 INLINE DIAGNOSTICS ECHO TIMEOUT (MS) Q.ILNOAC CEQU 10*60 INLINE DIAG NO ACTIVITY TIMEOUT (SECONDS) NPU SPACE 2,6 * NPU DELAY COUNTS. FNCDLY CEQU 63 DELAY FOR FUNCTION ACCEPT CHDLY CEQU 600 CHANNEL DELAY FOR OPERATION COMPLETE NPUDLY CEQU 60 DELAY BETWEEN CLEAR AND START FOR NPU MDI SPACE 2,6 * MDI RETRY COUNTS. MSTRY CEQU 3 TIMES TO TRY INTERFACE RESET FUNCTION MAXILK CEQU 120D NUMBER OF SECONDS TO WAIT FOR INITMDI JOB TO CLEAR INTERLOCK BIT. IF INTERLOCK IS STILL SET AFTER THIS TIME INTERVAL, PIP WILL REQUEST THE EQUIPMENT, CLEAR THE INTERLOCK BIT, AND THEN START OVER AGAIN TRYING TO TALK TO THE MDI. MAXMER CEQU 8 MAXIMUM CONSECUTIVE MDI ERRORS ALLOWED MAXBPE CEQU 8 MAXIMUM CONSEC MDI BLOCK PROTOCOL ERRORS MDIDLY CEQU 4000 MDI INPUT/OUTPUT DELAY (CYCLES) VALUE SPACE 2,6 * VALUE ASSIGNMENTS. NHO EQU 1S5 CHANNEL NO-HANG BIT L.ACTORD EQU 77B ACTION ORDINAL SIZE L.ACTOR EQU L.ACTORD ACTION ORDINAL SIZE USED BY MACROS S.CTLCD EQU 6 CONTROL CODE POSITION LOWOPL EQU 2 NORMAL (LOW) PRIORITY LEVEL MAXOPL EQU 3 MAXIMUM OUTPUT PRIORITY LEVEL L.DBCM EQU 64 LENGTH OF DRIVER BUFFER IN CENTRAL WORDS HFPFC EQU 0#1E HALT FRONT END PRIMARY FUNCTION CODE HFSFC EQU 0#14 HALT FRONT END SECONDARY FUNCTION CODE PACER EQU 0#30 PACER CHANNEL PROTOCOL RANGE (20-3F) DCSAVE EQU 7700B DIRECT CELL SAVE AREA .1 SET 4096+4+5 L.DMPPK EQU .1/5 LENGTH OF PPU DUMP PACKET .1 SET /NAM/W.PPD .1 SET .1+MAXDRV*L.DMPPK+77B DMPFL EQU .1/100B ADDITIONAL FIELD LENGTH FOR DRIVER DUMP CHARDEF SPACE 2,6 * CHARACTER VALUE ASSIGNMENTS. .EOL EQU 0#1F IVT END OF LINE OUTPUT CHARACTER .BLANK EQU 0#20 ASCII BLANK .COLON EQU 0#3A ASCII COLON .Y EQU 0#59 ASCII Y CIOCODES SPACE 2,6 * CIO REQUEST CODES. .CIORD EQU 010B READ REQUEST .CIORCW EQU 200B READ CONTROL WORD .CIOWT EQU 014B WRITE REQUEST .CIOWER EQU 024B WRITE EOR REQUEST .CIOWEF EQU 034B WRITE EOF REQUEST .CIOWCW EQU 204B WRITE CONTROL WORD SYSOVL SPACE 2,6 * SYSTEM OVERLAYS CALLED BY DRIVER. OV.1DL EQU 3R1DL PPU OVERLAY LOADER OV.1RP EQU 3R1RP PPU RESIDENT LOADER OV.CIO EQU 3RCIO MASS STORAGE INPUT/OUTPUT DROVL SPACE 2,6 * INITIALIZATION OVERLAYS CALLED BY DRIVER. OV.2IN EQU 3R2IN INITIALIZATION OVERLAY OV.3IN EQU 3R3IN PRESET MAIN DRIVER DROVL SPACE 2,6 * FIRST LEVEL OVERLAYS CALLED BY DRIVER. OV.1IL EQU 3R1IL NPU INPUT/OUTPUT SUPPORT ROUTINES OV.1IP EQU 3R1IP MDI INPUT/OUTPUT SUPPORT ROUTINES DROVL SPACE 2,6 * TRANSIENT OVERLAYS CALLED BY DRIVER. OV.3IL EQU 3R3IL DRIVER SUPPORT ROUTINES OV.2IQ EQU 3R2IQ FE STATE/COMMAND PROCESSORS OV.3IQ EQU 3R3IQ COMMAND/SUPPORT PROCESSORS OV.4IQ EQU 3R4IQ COMMAND/WORKLIST PROCESSORS OV.5IQ EQU 3R5IQ IVT OUTPUT COMMAND PROCESSORS OV.2IP EQU 3R2IP COMMAND/WORKLIST PROCESSORS OV.3IP EQU 3R3IP DRIVER SUPPORT ROUTINES OV.4IP EQU 3R4IP DRIVER SUPPORT ROUTINES OV.2IM EQU 3R2IM DRIVER SUPPORT ROUTINES OV.3IM EQU 3R3IM DRIVER SUPPORT ROUTINES OV.4IM EQU 3R4IM DRIVER SUPPORT ROUTINES OV.2IO EQU 3R2IO A-A SUPPORT PROCESSORS OV.3IO EQU 3R3IO DRIVER SUPPORT ROUTINES OV.4IO EQU 3R4IO DRIVER SUPPORT ROUTINES OV.5IO EQU 3R5IO DRIVER SUPPORT ROUTINES OV.1IE EQU 3R1IE TERMINATION ROUTINES OV.2IE EQU 3R2IE ERROR PROCESSORS OV.3IE EQU 3R3IE ERROR PROCESSORS OV.4IE EQU 3R4IE INLINE DIAGNOSTICS PROCESSING ROUTINES OV.2PE EQU 3R2PE PROCESS MDI ERROR STATUS DROVL SPACE 2,6 * DRIVER OVERLAYS ACCESSED BY DRIVER. OV.0IP EQU 3R0IP DRIVER CONTROL TABLES (CM RESIDENT) DIRECT TITLE DIRECT CELL ASSIGNMENTS. DIRECT SPACE 2,6 * DIRECT CELL ASSIGNMENTS. T0 EQU T0 TEMPORARY STORAGE T1 EQU T1 TEMPORARY STORAGE T2 EQU T2 TEMPORARY STORAGE T3 EQU T3 TEMPORARY STORAGE T4 EQU T4 TEMPORARY STORAGE T5 EQU T5 TEMPORARY STORAGE T6 EQU T6 TEMPORARY STORAGE T7 EQU T7 TEMPORARY STORAGE T10 EQU 10B TEMPORARY STORAGE T11 EQU 11B TEMPORARY STORAGE T12 EQU 12B TEMPORARY STORAGE T13 EQU 13B TEMPORARY STORAGE T14 EQU 14B TEMPORARY STORAGE T15 EQU 15B TEMPORARY STORAGE T16 EQU 16B TEMPORARY STORAGE T17 EQU 17B TEMPORARY STORAGE FEI EQU 20B FRONT END TABLE INDEX BHS EQU 21B BLOCK HANDLER OR NPU STATE STS EQU 22B STREAM STATES (6/OLD, 6/CURRENT) NSS EQU 23B NEXT STREAM STATE ADO EQU 24B ACTION DIRECTORY TABLE OFFSET RTE EQU 25B DRIVER RESPONSE TABLE ENTRY CTL EQU 26B DRIVER CONTROL PARAMETER TAR EQU 27B DRIVER CONTROL TABLE ARGUMENT CWC EQU 27B STORAGE FOR CENTRAL WORD COUNT PRU EQU 30B PRU SIZE ORDINAL (0 TO MAXPRU-1) BTI EQU 31B PRU BUFFER TABLE INDEX EOT EQU 32B END OF TRANSFER FLAG (0 = NOT EOT) REOT EQU 33B REQUEST END OF TRANSFER FLAG (0 = NOT EOT) L7IC EQU 33B LEVEL SEVEN INPUT OCTET COUNT NCC EQU 34B NPU MESSAGE CHARACTER COUNTER OW EQU 35B NPU ORDER WORD IMAGE IOC EQU 36B NPU INPUT ORDER CODE ORDINAL CO EQU 36B COMMAND ORDINAL OPL EQU 37B FET OUTPUT PRIORITY LEVEL FBA EQU 40B FIRST WORD ADDRESS OF ACTIVE BUFFER .USED SET 41B CBA EQU 42B CURRENT WORD ADDRESS IN ACTIVE BUFFER .USED SET 43B LBA EQU 44B LAST WORD ADDRESS OF ACTIVE BUFFER .USED SET 45B L7PR EQU 44B A-A LEVEL SEVEN PARAMETER .USED SET 45B OCB EQU 46B OUTPUT MESSAGE CHARACTERS PER DRIVER BUFFER ICP EQU 47B INPUT CHARACTER PROCESSOR ADDRESS OCP EQU 47B OUTPUT CHARACTER PROCESSOR ADDRESS BT EQU 50B BLOCK TYPE BSBC EQU 51B BLOCK SERIAL NUMBER AND BACK COUNTS CN EQU 52B CONNECTION NUMBER TN EQU 53B TERMINAL NODE NBL EQU 54B NETWORK BLOCK LIMIT RA EQU RA CONTROL POINT REFERENCE ADDRESS FL EQU FL CONTROL POINT FIELD LENGTH FTO EQU 57B CURRENT OUTBOUND FET OFFSET PCB EQU 60B PRU CONNECTION BLOCK ADDRESS .USED SET 61B NMA EQU 60B NPU MEMORY ADDRESS FOR NPU LOAD .USED SET 61B WLP EQU 62B WORKLIST POINTER WORD ORDINAL WLO EQU 63B WORKLIST TABLE ORDINAL AAC EQU 67B A-A CONNECTION FLAG (NON-ZERO = YES) 7/0,1/A-A,2/0,2/DATA DECLARACTION DIT EQU 64B PIP INTERFACE TABLE ADDRESS .USED SET 65B PWO EQU 66B PIP INTERFACE TABLE POINTER WORD OFFSET ON EQU ON CONSTANT OF ONE CP EQU CP CONTROL POINT AREA ADDRESS IA EQU IA PPU INPUT REGISTER ADDRESS OA EQU OA PPU OUTPUT REGISTER ADDRESS MA EQU MA PPU MESSAGE BUFFER ADDRESS INIT SPACE 2,8 * INITIALIZATION DIRECT CELL ASSIGNMENTS. QUAL INIT PAD EQU 20B PARAMETER AREA ADDRESS .USED SET 21B IPA EQU 22B INITIALIZATION PROCESSOR ADDRESS DRW EQU 23B DRIVER RESPONSE WORD IMAGE .USED SET 24B .USED SET 25B .USED SET 26B .USED SET 27B ZR EQU 30B ZERO WORD .USED SET 31B .USED SET 32B .USED SET 33B .USED SET 34B OTI EQU 35B OVERLAY NAME TABLE INDEX LIR EQU 36B LOADER PPU INPUT REGISTER ADDRESS IR EQU IR PPU INPUT REGISTER IMAGE QUAL NPUTABLE TITLE LOW CORE RESIDENT CONTROL TABLES. USE LAST B.LCM BSS 0 DEFINE MOVE TO LOW CORE BEGINNING ADDRESS LOC EFTN FETABLE SPACE 2,12 ** FRONT END TABLES. * * THE FRONT END TABLES CONTAIN PARAMETERS USED BY THE * DRIVER IN SERVICING EACH FRONT END THAT IS ASSIGNED * TO THE DRIVER. THERE IS A TABLE FOR EACH FRONT END ** AND THE INDEX FOR THE TABLE IS *FEI*. FETABLE BSS 0 FRONT END TABLE ENTRY LOC 0 FES BSSZ 1 FRONT END STATE CAD BSSZ 1 COUPLER ADDRESS (3/EQUIP,9/0) CHN BSSZ 1 CHANNEL NUMBER (1/HALT,5/0,6/CH) FTY BSSZ 1 FRONT END TYPE (0 = NPU, 1 = MDI, 2 = UNAVAILABLE MDI) S.REG EQU 3 REGULATION LEVEL FIELD POSITION (MDI) L.REG EQU 3S3 CURRENT REGULATION LEVEL MASK (MDI) MGS BSS 0 MDI GENERAL STATUS CSR BSSZ 1 COUPLER STATUS REGISTER BPE BSS 0 CONSECUTIVE BLOCK PROTOCOL ERR COUNT (MDI) NSW BSSZ 1 NPU STATUS WORD DEC BSSZ 1 DRIVER ERROR CODE S.SERR EQU 11 MDI SOFT ERROR FLAG POSITION B.SERR EQU 1S11 MDI SOFT ERROR FLAG PEC BSSZ 1 PREVIOUS DRIVER ERROR CODE ECT BSS 0 CONSECUTIVE ERROR COUNT (MDI) ABC BSSZ 1 ACCUMULATED BATCH COUNT FOR LOAD (NPU) DTM BSSZ 1 NPU DEADMAN TIMER / MDI KEEP ALIVE TIMER OTM BSSZ 1 OUTPUT RESUME TIMER HND BSSZ 1 HOST NODE ID IBS BSSZ 1 INBOUND BUFFER SPACE (0 = REQUEST PENDING) IMC BSSZ 1 IVT MESSAGE COUNT ICC BSSZ 2 IVT MESSAGE CHARACTER COUNT PMC BSSZ 1 PRU MESSAGE COUNT PCC BSSZ 2 PRU MESSAGE CHARACTER COUNT NBT BSSZ 2 NETWORK BUFFER TABLE ADDRESS AIF BSSZ 1 ACTIVE INBOUND FET OFFSET CHVER BSSZ 1 CHANNEL PROTOCOL VERSION TO BE USED FOR INTERFACING WITH THE CDCNET FRONT END CURRENTLY BEING PROCESSED. FOLLOWING BYTE IS USED FOR TIME DELAYS ETM BSS 0 MDI READ ERROR RETRY START TIME CTM BSSZ 1 CHANNEL PROTOCOL VERSION CHECK TIMER L.FETBL BSS 0 LENGTH OF FRONT END TABLE ENTRY .1 SET MAXFE-1 .1 SET .1*L.FETBL BSSZ .1 ALLOCATE REMAINING FRONT END TABLES .LAST SET * LOC FETABLE+.LAST LIMBO SPACE 2,30 ** DRIVER PRU LIMBO BUFFER TABLES. * * THE DRIVER PRU LIMBO BUFFER TABLES ARE USED BY THE * DRIVER TO MAINTAIN POOLS OF PRU BUFFERS WHICH ARE USED * FOR PRU STREAM PROCESSING. THE DRIVER OBTAINS PRU * LIMBO BUFFERS FROM THE SYSTEM POOL AS REQUIRED AND * RETURNS EXECESSIVE PRU LIMBO BUFFERS BACK TO THE SYSTEM * POOL. THE DRIVER ANTICIPATES ITS BUFFER REQUIREMENTS * BASE ON THE CURRENT LOAD AND IF THERE ARE NOT ENOUGH * SYSTEM PRU BUFFERS AVAILABLE THE DRIVER WILL REQUEST * ADDITIONAL PRU BUFFERS FROM NAM. THE DRIVER WRITES THE * PRU LIMBO BUFFER TABLES TO THE DRIVER INTERFACE TABLE * ON A DRIVER INTERLOCK REQUEST FROM NAM. THIS PROVIDES * NAM AN OPPORTUNITY TO RELOCATE THE BUFFERS IN THE * DRIVER LIMBO POOL OR TO RELEASE EXCESSIVE PRU BUFFERS * IN THE SYSTEM POOL. AT THE COMPLETION OF THE DRIVER * INTERLOCK REQUEST THE DRIVER WILL REFRESH THE PRU * LIMBO BUFFER TABLE FROM THE DRIVER INTERFACE TABLE. * * INTERNALLY THE DRIVER ALLOCATES PRU BUFFERS AS NEEDED * FROM THE START OF THE LIMBO BUFFER CHAIN AND RETURNS * PRU BUFFERS TO THE END OF THE LIMBO BUFFER CHAIN. * THERE IS A PRU LIMBO BUFFER TABLE FOR EACH PRU BUFFER ** SIZE IN THE SYSTEM. LIMBOP1 BSS 0 LIMBO BUFFER TABLE FOR ONE PRU BLOCKS LOC 0 MFB BSS 1 MIN/MAX COUNTS OF BUFFERS TO BE ASSIGNED (6/MINIMUM COUNT,6/MAXIMUM COUNT) NCA BSS 1 COUNT OF BUFFERS CURRENTLY ASSIGNED BY NIP NPC BSS 1 NUMBER OF PRU CONNECTIONS FPB BSS 2 ADDRESS OF FIRST BUFFER ON THE CHAIN NFB EQU 15 COUNT OF BUFFERS ON THE CHAIN THAT ARE FREE NRA EQU 16 COUNT OF BUFFERS REQUESTGED BY PIP RPB EQU 18 ADDRESS OF BUFFER RELEASED BY PIP NSA EQU 30 COUNT OF BUFFERS ASSIGNMENT LAST RECOGNIZED NBOT EQU 31 NO BUFFER OVERRUN TIMER AFB EQU 32 ACCUMULATED BUFFER REQUIREMENT COUNT INB EQU 33 NUMBER OF BUFFERS ASSIGNED INBOUND .1 SET *+4 .1 SET .1/5 BSS .1*5-* FILL .LAST SET * LOC LIMBOP1+.LAST LIMBOP2 BSS 0 LIMBO BUFFER TABLE FOR TWO PRU BLOCKS LOC 0 MFB BSS 1 MIN/MAX COUNTS OF BUFFERS TO BE ASSIGNED (6/MINIMUM COUNT,6/MAXIMUM COUNT) NCA BSS 1 COUNT OF BUFFERS CURRENTLY ASSIGNED BY NIP NPC BSS 1 NUMBER OF PRU CONNECTIONS FPB BSS 2 ADDRESS OF FIRST BUFFER ON THE CHAIN NFB EQU 15 COUNT OF BUFFERS ON THE CHAIN THAT ARE FREE NRA EQU 16 COUNT OF BUFFERS REQUESTGED BY PIP RPB EQU 18 ADDRESS OF BUFFER RELEASED BY PIP NSA EQU 30 COUNT OF BUFFERS ASSIGNMENT LAST RECOGNIZED NBOT EQU 31 NO BUFFER OVERRUN TIMER AFB EQU 32 ACCUMULATED BUFFER REQUIREMENT COUNT INB EQU 33 NUMBER OF BUFFERS ASSIGNED INBOUND .1 SET *+4 .1 SET .1/5 BSS .1*5-* FILL .LAST SET * LOC LIMBOP2+.LAST LIMBOP3 BSS 0 LIMBO BUFFER TABLE FOR THREE PRU BLOCKS LOC 0 MFB BSS 1 MIN/MAX COUNTS OF BUFFERS TO BE ASSIGNED (6/MINIMUM COUNT,6/MAXIMUM COUNT) NCA BSS 1 COUNT OF BUFFERS CURRENTLY ASSIGNED BY NIP NPC BSS 1 NUMBER OF PRU CONNECTIONS FPB BSS 2 ADDRESS OF FIRST BUFFER ON THE CHAIN NFB EQU 15 COUNT OF BUFFERS ON THE CHAIN THAT ARE FREE NRA EQU 16 COUNT OF BUFFERS REQUESTGED BY PIP RPB EQU 18 ADDRESS OF BUFFER RELEASED BY PIP NSA EQU 30 COUNT OF BUFFERS ASSIGNMENT LAST RECOGNIZED NBOT EQU 31 NO BUFFER OVERRUN TIMER AFB EQU 32 ACCUMULATED BUFFER REQUIREMENT COUNT INB EQU 33 NUMBER OF BUFFERS ASSIGNED INBOUND .1 SET *+4 .1 SET .1/5 BSS .1*5-* FILL .LAST SET * LOC LIMBOP3+.LAST .1 SET *-LIMBOP1+4 L.FRNIP EQU .1/5 CENTRAL WORDS FOR NIP WORDS L.FRPIP EQU L.FRNIP CENTRAL WORDS FOR PIP WORDS (SAME COUNT) BSSZ L.FRPIP*5 PP WORDS FOR PIP WORDS (NFB-NBOT-(PERF)) L.FREE EQU L.FRNIP+L.FRPIP PRU FREE BUFFER TABLE SIZE (CM WORDS) .PERF IFEQ .PERF,1 PERFTBL SPACE 2,6 * DRIVER PERFORMANCE DATA STORAGE. IVTTRAN EQU LIMBOP1+NRA+1 IVT TRANSACTIONS THIS DRIVER CYCLE PRUTRAN EQU LIMBOP2+NRA+1 PRU TRANSACTIONS THIS DRIVER CYCLE DRCYCLE EQU LIMBOP3+NRA+1 DRIVER CYCLE COUNTER .PERF ENDIF ERRNZ *-LIMBOP1-NSA LIMBOP1 EXTENSION BSSZ 4 NSA, NBOT, AFB AND INB FOR LIMBOP1 DROR CON -0 DRIVER ORDINAL ERRNZ *-LIMBOP2-NSA LIMBOP2 EXTENSION BSSZ 4 NSA, NBOT, AFB AND INB FOR LIMBOP2 CHAN CON -0 ACTIVE FRONT END CHANNEL NUMBER ERRNZ *-LIMBOP3-NSA LIMBOP3 EXTENSION BSSZ 4 NSA, NBOT, AFB AND INB FOR LIMBOP2 CCIO SPACE 2,6 * CIO CALL IMAGE CCIO VFD 18/OV.CIO VFD 6/** CONTROL POINT NUMBER VFD 18/0 VFD 18/** FET ADDRESS BAT SPACE 2,10 ** BUFFER TABLE ADDRESS TABLE. * * THE BUFFER TABLE ADDRESS TABLE CONTAINS AN ENTRY FOR * EACH PRU BUFFER SIZE. THE CONTENTS OF EACH ENTRY IS * THE ADDRESS OF THE BUFFER TABLE FOR THAT PRU BUFFER ** SIZE. THE BUFFER ADDRESS TABLE IS INDEXED BY *PRU*. BAT BSS 0 BUFFER TABLE ADDRESS TABLE LOC 0 PRU1 CON LIMBOP1 ADDRESS BUFFER TABLE FOR ONE PRU BLOCKS PRU2 CON LIMBOP2 ADDRESS BUFFER TABLE FOR TWO PRU BLOCKS PRU3 CON LIMBOP3 ADDRESS BUFFER TABLE FOR THREE PRU BLOCKS MAXPRU BSS 0 MAXIMUM LEGAL PRU BLOCK SIZE .LAST SET * LOC BAT+.LAST LASTFET TITLE DRIVER RESIDENT STORAGE AREA IN LOW CORE. STORAGE SPACE 2,6 * DRIVER RESIDENT STORAGE AREA. OVL CON -0 CURRENT TRANSIENT RESIDENT OVERLAY ORDINAL ERRCODE CON 0 DRIVER ERROR CODE ACTFES CON 0 ACTIVE FRONT END COUNT OLDMGS BSS 1 OLD MCI GENERAL STATUS REGISTER VALUE CPCB BSS 2 CURRENT PCB ADDRESS LPCB BSSZ 2 LAST PCB ADDRESS FCT BSS 0 FRONT END CHANNEL TABLE DUP MAXFE,1 CON 0 6/COUNT, 6/CHANNEL ACI BSSZ 1 ACTIVE CONNECTION TABLE IDENTIFICATION (4/LINK OFFSET,8/TERMINAL NODE) ACT BSSZ 2 CURRENTLY ACTIVE CONNECTION TABLE ADDRESS IDT BSSZ 1 IVT DATA CYCLE TIMER .BUF EQU * LOC *O BUFF BSS 0 LOC .BUF NAM SPACE 2,6 * NAM BUFFER AREAS. NBH BSS /NAM/L.BH*5 NAM BLOCK HEADER BUFFER NNH BSS /NAM/L.NH*5 NAM NETWORK HEADER BUFERR BLOCK SPACE 2,6 * FRONT END BLOCK PROTOCOL BUFFER AREAS. BHB BSS /BLOCK/L.BH FRONT END BLOCK HEADER BUFFER AREA DHB BSS /BLOCK/L.DH FRONT END DATA BLOCK HEADER BUFFER NCH BSS /BLOCK/L.CH FRONT END COMMAND HEADER BUFFER .LAST SET * WORKLIST SPACE 2,12 * WORKLIST BUFFER AREAS. ORG BHB WHB BSS /NAM/L.WH WORKLIST HEADER BUFFER .LAST MAX .LAST,* ORG .LAST DRVBUF SPACE 2,6 * DRIVER BUFFER AREAS. DRBUF BSS L.DBCM*5 DRIVER BUFFER AREA E.DRBUF EQU *-1 DEFINE END OF DRIVER BUFFER ORG DRBUF .1 SET /BLOCK/MAXCMD BSS .1 UNPACKED IVT COMMAND TEXT BUFFER .1 SET E.DRBUF-* .1 SET .1/5 .1 SET .1/2 .1 SET .1*2 PCBUFI BSS .1*5 PACKED IVT INBOUND COMMAND TEXT BUFFER PCBICM EQU .1 INBOUND COMMAND TEXT BUFFER WORD LENGTH .1 SET .1/2 .1 SET .1*15 PCBICH EQU .1 INBOUND COMMAND TEXT CHARACTER LENGTH .1 SET /BLOCK/MAXCMD+2 .1 SET .1/3 ORG DRBUF+.1 .1 SET E.DRBUF-* PCBUFO BSS .1 PACKED IVT OUTBOUND COMMAND TEXT BUFFER PCBOCM EQU .1/5 OUTBOUND COMMAND TEXT BUFFER WORD LENGTH WLBUF EQU PCBUFI WORKLIST BUFFER WLBCM EQU PCBICM WORKLIST BUFFER WORDLENGTH E.LCA SET *+1 DEFINE END OF LOW-CORE AREA ORG BUFF E.LCM BSS 0 DEFINE MOVE TO LOW CORE ENDING ADDRESS DOA SET E.LCA BEGIN TITLE MAIN DRIVER INITIALIZATION. ORG PPFW QUAL INIT BEGIN SPACE 2,18 ** DRIVER ENTRY POINT BEGIN. * * DRIVER ENTRY POINT BEGIN TRANSFERS CONTROL TO THE * INITIALIZATION CONTROL PROCESSOR. WHEN CONTROL IS * RETURNED FROM THE INITIALIZATION CONTROL PROCESSOR * THE INITIALIZATION OVERLAY IS LOADED AND EXECUTED. * IF THE DRIVER FUNCTION REQUESTED DOES NOT REQUIRE * FRONT END SERVICING THE FUNCTION IS COMPLETELY * PROCESSED BY THE INITIALIZATION OVERLAY. IF CONTROL IS * RETURNED THE FUNCTION IS A REQUEST TO SERVICE FRONT * ENDS AND THE DRIVER CONTROL TABLES AND INITIALIZATION * CODE ARE COPIED TO LOW MEMORY AND THE MAIN DRIVER ** INITIALIZATION ROUTINE IS ENTERED. BEGIN BSS 0 DRIVER ENTRY RJM INIT EXIT TO INITIALIZATION CONTROL RJM EXR LOAD AND EXECUTE INITIALIZATION OVERLAY LDC B.LCM LOAD SOURCE DATA ADDRESS STD T1 STORE SOURCE DATA ADDRESS LDC EFTN LOAD DESTINATION ADDRESS STD T2 STORE DESTINATION ADDRESS BEGIN.1 LDI T1 LOAD SOURCE DATA BYTE STI T2 STORE INTO DESTINATION ADDRESS AOD T2 INCRMENT DESTINATION ADDRESS AOD T1 INCREMENT SOURCE DATA ADDRESS LMC E.LCM LESS ENDING SOURCE DATA ADDRESS NJN BEGIN.1 EXIT IF NOT END OF SOURCE DATA RJM PRS EXIT TO PRESET MAIN DRIVER MEMORY LDN ZERL LOAD ADDRESS OF ZERO WORD CRM NBH,ON ZERO NAM BLOCK HEADER AREA LJM DCR.1 EXIT TO INITIALIZE FRONT END TABLE OFFSET QUAL E.INT SET * DEFINE END OF INITIALIZATION CODE DOA MAX E.LCA,E.INT DEFINE MAIN DRIVER ORIGIN ADDRESS OL.INIT BSS 5 INITIALIZATION OVERLAY LOAD ADDRESS OF.INIT BSS 0 INITIALIZATION OVERLAY FIRST WORD ADDRESS DCR TITLE MAIN DRIVER CONTROL ROUTINES. ORG DOA DCR SPACE 2,14 ** DRIVER CONTROL ROUTINE DCR. * * DRIVER CONTROL ROUTINE DCR CHECKS FOR ACTIVE FRONT * ENDS. IF THERE ARE NO ACTIVE FRONT ENDS, THE DRIVER * DROPS DUE TO INACTIVITY. * BEFOREHAND, THE FRONT END TABLE OFFSET IS INITIALIZED * FOR THE FIRST DRIVER FRONT END TABLE ENTRY AND THE * NETWORK BUFFER TABLE POINTER WORD FOR THE INTERFACE * TABLE IS INITIALIZED FOR THE FIRST NETWORK BUFFER ** TABLE POINTER. DCR LINK ENTRY LDM ACTFES LOAD ACTIVE FRONT END COUNT ZJN DROP EXIT TO DROP DRIVER DUE TO NO ACTIVITY DCR.1 LINK ENTRY DCR.2 SPACE 2,16 ** DRIVER CONTROL ROUTINE DCR.2. * * DRIVER CONTROL ROUTINE DCR.2 CHECKS FOR A KNOWN NETWORK * BUFFER TABLE ADDRESS BY EXAMINING THE ADDRESS IN THE * FRONT END TABLE. IF THE NETWORK BUFFER TABLE ADDRESS * IS KNOWN THE FRONT END HAS BEEN PROCESSED PREVIOUSLY * AND CONTROL IS TRANSFERRED DIRECTLY TO THE FRONT END * PROCESSING ROUTINE. OTHERWISE THE PROCESSOR TO CHECK * THE POINTER WORD IN THE INTERFACE TABLE FOR A NEW ** NETWORK BUFFER TABLE ADDRESS IS LOADED AND EXECUTED. DCR.2 LINK ENTRY LDM NBT,FEI LOAD HIGH-ORDER OF NETWORK BUFFER TABLE ADM NBT+1,FEI PLUS LOW-ORDER OF NETWORK BUFFER TABLE NJN PFE EXIT IF NETWORK BUFFER TABLE ADDRESS KNOWN LOPA 3IQ,INPT OVERLAY ORDINAL AND PROCESSOR ADDRESS DCR.3 LINK ENTRY STM DCR.4+1 STORE ADDRESS OF PROCESSOR SHN -12 POSITION OVERLAY ORDINAL RJM COL EXIT TO CHECK OVERLAY LOADED DCR.4 LINK ENTRY LJM ** EXIT TO OVERLAY PROCESSOR DROP SPACE 2,10 ** TERMINATION PROCESSOR DROP. * * TERMINATION PROCESSOR DROP LOADS THE TERMINATION ** OVERLAY AND ENTERS THE TERMINATION PROCESSOR. DROP LINK ENTRY LOPA 1IE,PEND OVERLAY ORDINAL AND PROCESSOR ADDRESS EXIT DCR.3 EXIT TO CHECK OVERLAY PROCESSOR LOADED PFE SPACE 2,16 ** DRIVER CONTROL PROCESSOR PFE. * * DRIVER CONTROL PROCESSOR PFE CALLS THE PROCESSOR TO * CHECK FOR NAM REQUESTS AND TO INITIALIZE THE IVT DATA * CYCLE TIMER. THE CHANNEL OF THE NEW FRONT END IS * CHECKED AGAINST THE CURRENTLY ACTIVE FRONT END CHANNEL. * IF THE CHANNELS ARE NOT THE SAME THE PROCESSOR IS * CALLED TO CHECK THAT THE CORRECT DEVICE DEPENDENT * OVERLAY IS LOADED AND TO INITIALIZE THE CHANNEL ** INSTRUCTIONS IN THE DEVICE DEPENDENT OVERLAY. PFE LINK ENTRY LOOR 3IQ LOAD OVERLAY ORDINAL OF SUBROUTINE RJM COL EXIT TO CHECK OVERLAY LOADED RJM IDDO EXIT TO INITIALIZE DEVICE DEPENDENT OVERLAY ** CHECK FOR APPLICATION REQUEST * * EXTRA CHECK FOR APPLICATION REQUEST IS DONE IF THE ** FIRST NBT ENTRY IS FREE. RETURN FROM CNIR IS TO DCR. PFE.0 LINK ENTRY IF FIRST NBT IS FREE LOOR 3IO LOAD OVERLAY ORDINAL OF SUBROUTINE RJM COL EXIT TO CHECK OVERLAY LOADED RJM CNIR EXIT TO CHECK FOR APPLICATION REQUEST PFE.1 SPACE 2,14 ** DRIVER CONTROL ROUTINE PFE.1. * * DRIVER CONTROL ROUTINE PFE.1 SCANS THE FRONT END * OUTPUT FETS FOR IVT OUTPUT. IF IVT OUTPUT IS AVAILABLE * THE COUPLER EXCHANGE HANDLER IS CALLED TO INITIATE THE * OUTPUT. IF THE FRONT END IS UNABLE TO ACCEPT THE * OUTPUT OR ALL FRONT END OUTPUT FETS HAVE BEEN ** PROCESSED, PRU PROCESSING IS INITIATED. PFE.1 LINK ENTRY LDM HND,FEI LOAD HOST NODE ID STD TN STORE TERMINAL NODE LDN 0 CONSTANT OF ZERO STD CN ZERO CONNECTION NUMBER STM OTM,FEI RESET OUTPUT DELAY TIMER STM ACI RESET ACTIVE TABLE IDENTIFICATION RJM RCT EXIT TO READ CONNECTION TABLE ENTRY LDN 0 CONSTANT OF ZERO RJM CEH NULL CALL TO COUPLER EXCHANGE HANDLER LDD BHS LOAD BLOCK HANDLER STATE SBN /TABLES/TEBS LESS FIRST TRANSITORY ERROR STATE MJN PFE.2 EXIT IF NOT TRANSITORY ERROR STATE EXIT NFE EXIT TO PROCESS NEXT FRONT END PFE.2 LINK ENTRY LOPA 2IM,PIOD OVERLAY ORDINAL AND PROCESSOR ADDRESS EXIT DCR.3 EXIT TO CHECK OVERLAY PROCESSOR LOADED PFE.3 LINK ENTRY RJM CEH EXIT TO TRANSFER IVT BLOCK TO FRONT END FEIO FEOA CHECK OUTPUT ALLOWED TO FRONT END ZJN PPRU.0 EXIT IF FRONT END CANNOT ACCEPT OUTPUT UJK PFE.2 EXIT TO CHECK OVERLAY PROCESSOR LOADED PFE.4 LINK ENTRY RJM RCT EXIT TO READ CONNECTION TABLE ENTRY PJN PFE.6 EXIT IF CONNECTION NUMBER ASSIGNED LDD CN LOAD CONNECTION NUMBER ZJN PFE.6 EXIT IF SERVICE CHANNEL PFE.5 EREXIT CNU EXIT TO ERROR - CONNECTION UNASSIGNED PFE.6 LDD STS LOAD STREAM STATE NJN PFE.5 EXIT IF NOT IVT STREAM LDD BT LOAD OUTBOUND BLOCK TYPE UJK PFE.3 EXIT TO TRANSFER IVT BLOCK TO FRONT END PPRU SPACE 2,12 ** DRIVER CONTROL ROUTINE PPRU. * * DRIVER CONTROL ROUTINE PPRU CHECKS FOR PRU STREAMS ON * THE CURRENT FRONT END. IF PRU STREAMS ARE PRESENT THE * ADDRESS OF THE PCB IS SAVED AND THE PRU STREAM STATE ** PROCESSING IS PERFORMED. PPRU.0 LDC /NAM/C.NBTIRJ+T10+/NAM/W.NBTNS*10000B STATUS = FRONT END REJECTED IVT BLOCK RJM UNSB EXIT TO INCREMENT FRONT END REJECT COUNT PPRU LINK ENTRY LDN /NAM/W.NBTLP DELTA FOR PCB POINTER WORD RJM GNBT EXIT TO GET PCB POINTER ABSOLUTE ADDRESS CRD T0 READ PCB POINTER WORD FROM BUFFER TABLE LDD T0+/NAM/C.NBTPB LOAD HIGH-ORDER OF LAST PCB ADDRESS LPN 37B EXTRACT ADDRESS BITS SHN 12 POSITION TO HIGH-ORDER ADD T0+/NAM/C.NBTPB+1 PLUS LOW-ORDER OF LAST PCB ADDRESS ZJN NFE EXIT IF NO PRU CONNECTIONSFOR FRONT END STM LPCB+1 STORE LOW-ORDER OF LAST PCB ADDRESS SHN -12 POSITION HIGH-ORDER OF ADDRESS STM LPCB STORE HIGH-ORDER OF LAST PCB ADDRESS LOPA 3IL,PPST OVERLAY ORDINAL AND PROCESSOR ADDRESS EXIT DCR.3 EXIT TO CHECK OVERLAY PROCESSOR LOADED NPRU SPACE 2,12 ** DRIVER CONTROL ROUTINE NPRU. * * DRIVER CONTROL ROUTINE NPRU IS THE RETURN POINT FROM * PRU STREAM STATE PROCESSING. IF THIS IS NOT THE LAST * PRU STREAM FOR THE CURRENT FRONT END STREAM STATE ** PROCESSING IS PERFORMED FOR THE NEXT PRU STREAM. NPRU LINK ENTRY LDM CPCB LOAD HIGH-ORDER OF CURRENT PCB ADDRESS LMM LPCB LESS HIGH-ORDER OF LAST PCB ADDRESS SHN 12 POSITION HIGH-ORDER OF RESULT ADM CPCB+1 PLUS LOW-ORDER OF CURRENT PCB ADDRESS LMM LPCB+1 LESS LOW-ORDER OF LAST PCB ADDRESS ZJN NFE EXIT IF ALL PRU STREAMS PROCESSED LOPA 3IL,PPST.7 OVERLAY ORDINAL AND PROCESSOR ADDRESS EXIT DCR.3 EXIT TO CHECK OVERLAY PORCESSOR LOADED NFE SPACE 2,14 ** DRIVER CONTROL ROUTINE NFE. * * DRIVER CONTROL ROUTINE NFE UPDATES THE STATISTICS FOR * THE CURRENT FRONT END AND SETS UP TO PROCESS THE NEXT * FRONT END. IF ALL FRONT ENDS HAVE BEEN PROCESSED THE * PRU BUFFER MANAGER IS ENTERED TO MAINTAIN THE DRIVER * LIMBO BUFFER POOL. OTHERWISE THE FRONT END TABLE IS * ADVANCED TO THE NEXT FRONT END AND PROCESSING CONTINUES ** WITH THAT FRONT END. NFE LINK ENTRY LOPA 4IM,PNST OVERLAY ORDINAL AND PROCESSOR ADDRESS EXIT DCR.3 EXIT TO CHECK OVERLAY PROCESSOR LOADED NFE.1 LINK ENTRY LDK L.FETBL LOAD LENGTH OF FRONT END TABLE ENTRY RAD FEI ADD TO FRONT END TABLE ADDRESS AOD PWO INCREMENT TABLE POINTER WORD OFFSET LMN MAXFE LESS ENDING VALUE ZJN NFE.2 EXIT IF LAST FRONT END TABLE PROCESSED EXIT DCR.2 EXIT TO CHECK FOR EXISTING FRONT END TABLE NFE.2 LOPA 4IM,PBM OVERLAY ORDINAL AND PROCESSOR ADDRESS EXIT DCR.3 EXIT TO CHECK OVERLAY PROCESSOR LOADED BIAS TITLE BLOCK HANDLER STATE PROCESSORS. QUAL STATES BIAS SPACE 2,34 ** BLOCK HANDLER STATE PROCESSOR BIAS. * * BLOCK HANDLER STATE PROCESSOR BIAS IS THE STATE * RESPONSIBLE FOR CO-ORDINATING OUTPUT WITH ACTIVE * IVT CONNECTIONS. THE BLOCK TYPE SPECIFIED IN THE * CALL, IF ANY, IS TRANSFERRED TO THE FRONT END IF * THE FRONT END WILL ACCEPT OUTPUT. * * ENTRY - * * (BT) = OUTPUT BLOCK TYPE, IF ANY, * (BHB+L.BH) = BLOCK PROTOCOL HEADER. * * CALLS - * * EOIA - EXECUTE OUTPUT INITIATOR RESPONSE ACTION, * EORA - EXECUTE OUTPUT BLOCK RESPONSE ACTION, * EBRA - EXECUTE BLOCK STATE RESPONSE ACTION. * * MACRO CALLS - * * FEIO - LOGICAL INPUT/OUTPUT INTERFACE. * * PROCESSOR CALLS - * * OUTPUT INITIATOR RESPONSE ACTION PROCESSOR, * OUTPUT BLOCK RESPONSE ACTION PROCESSOR, ** BLOCK HANDLER STATE RESPONSE ACTION PROCESSOR. BIAS STATE IVT ACTIVE BLOCK HANDLER STATE PROCESSOR RJM EOIA EXIT TO EXECUTE OUTPUT INITIATOR ACTION MJN BIAS.4 EXIT IF OUTPUT NOT REQUIRED BIAS.1 LINK ENTRY FEIO FERO REQUEST OUTPUT TO FRONT END NJN BIAS.3 EXIT IF OUTPUT ALLOWED LCN /NAM/C.NBTPRJ-/NAM/C.NBTIRJ OFFSET FOR IVT REJECT BIAS.1A LINK ENTRY ADC /NAM/C.NBTPRJ+T10+/NAM/W.NBTNS*10000B STATUS = FRONT END REJECTED PRU BLOCK RJM UNSB EXIT TO INCREMENT FRONT END REJECT COUNT BIAS.2 LINK ENTRY EXIT CEH.3 EXIT TO INPUT IF OUTPUT NOT POSSIBLE BIAS.3 LINK ENTRY EORA LDC /TABLES/OBR LOAD FWA OF OUTPUT BLOCK RESPONSE TABLE ADD BT PLUS BLOCK TYPE EXIT EIIA.1 EXIT TO GET RESPONSE TABLE ENTRY EXIT TO CEHX AFTER BLOCK RESPONSE ACTION BIAS.4 ADN 1 PLUS ONE ZJN BIAS.2 EXIT IF NO IVT COMMAND TO PROCESS BIAS.5 LINK ENTRY LDD T17 LOAD IVT COMMAND ORDINAL STD CO STORE COMMAND ORDINAL BIAS.6 LINK ENTRY RJM EBRA EXIT TO EXECUTE BLOCK RESPONSE ACTION EXIT CEHX RETURN VIA COUPLER EXCHANGE ROUTINE RETURN BPAS SPACE 2,36 ** BLOCK HANDLER STATE PROCESSOR BPAS. * * BLOCK HANDLER STATE PROCESSOR BPAS IS THE STATE * RESPONSIBLE FOR CO-ORDINATING OUTPUT WITH ACTIVE * PRU CONNECTIONS. THE BLOCK PROTOCOL HEADER IS FORMED * AND THE BLOCK TYPE SPECIFIED IN THE CALL, IF ANY, IS * TRANSFERRED TO THE FRONT END IF THE FRONT END WILL * ACCEPT OUTPUT. * * ENTRY - * * (BT) = OUTPUT BLOCK TYPE, IF ANY, * (FEI) = FRONT END TABLE ADDRESS, * (HND) = HOST NODE, * (TN) = TERMINAL NODE, * (CN) = CONNECTION NUMBER. * * CALLS - * * EOIA - EXECUTE OUTPUT INITIATOR RESPONSE ACTION, * EBRA - EXECUTE BLOCK STATE RESPONSE ACTION. * * MACRO CALLS - * * FEIO - LOGICAL INPUT/OUTPUT INTERFACE. * * PROCESSOR CALLS - * * OUTPUT INITIATOR RESPONSE ACTION PROCESSOR, ** OUTPUT BLOCK RESPONSE ACTION PROCESSOR. BPAS STATE PRU ACTIVE BLOCK HANDLER STATE PROCESSOR RJM EOIA EXIT TO EXECUTE OUTPUT INITIATOR ACTION MJN BIAS.2 EXIT IF OUTPUT NOT REQUIRED FEIO FERO REQUEST OUTPUT TO FRONT END ZJN BIAS.1A EXIT IF OUTPUT NOT ALLOWED LDM HND,FEI LOAD HOST NODE ID STM BHB+/BLOCK/SN STORE SOURCE NODE OF MESSAGE LDD TN LOAD TERMINAL NODE STM BHB+/BLOCK/DN STORE DESTINATION NODE OF MESSAGE LDD CN LOAD CONNECTION NUMBER STM BHB+/BLOCK/CN STORE CONNECTION NUMBER OF MESSAGE LDD BT LOAD OUTPUT BLOCK TYPE RAM BHB+/BLOCK/BNBT ADD TO BLOCK NUMBER OF MESSAGE EXIT BIAS.3 EXIT TO EXECUTE OUTPUT BLOCK RESPONSE SILL TITLE STREAM STATE PROCESSORS. SILL SPACE 2,12 ** STREAM STATE PROCESSOR SILL. * * STREAM STATE PROCESSOR SILL PROCESSES A STREAM STATE * THAT CANNOT BE LOGICALLY EXECUTED. IF THE STATE IS * ENTERED CONTROL IS TRANSFERRED TO THE DRIVER ERROR ** ROUTINE. SILL STATE ILLEGAL STREAM STATE EREXIT ISS EXIT TO ERROR - ILLEGAL STREAM STATE SCWL SPACE 2,26 ** STREAM STATE PROCESSOR SCWL. * * STREAM STATE PROCESSOR SCWL CHECKS FOR A WORKLIST ENTRY * TO PROCESS. IF A WORKLIST NEEDS TO BE PROCESSED THE * WORKLIST VALIDATION PROCESSOR OVERLAY IS LOADED AND THE * WORKLIST IS PROCESSED. * * CALLS - * * CIWL - CHECK FOR IMMEDIATE WORKLIST ENTRY, * CWLQ - CHECK FOR NORMAL WORKLIST ENTRY, * COL - CHECK OVERLAY LOADED, * EWLP - EXECUTE WORKLIST PROCESSOR, * ESRA - EXECUTE STREAM RESPONSE ACTION PROCESSOR. * * PROCESSOR CALLS - * * WORKLIST VALIDATION PROCESSOR, * WORKLIST PROCESSOR, ** STREAM STATE RESPONSE ACTION PROCESSOR. SCWL STATE CHECK FOR WORKLIST ENTRY TO PROCESS RJM CIWL EXIT TO CHECK FOR IMMEDIATE WORKLIST ENTRY SCWL.1 LINK ENTRY MJN SSNA EXIT IF LOGICAL LINK IN REGULATION NJN SCWL.2 EXIT IF WORKLIST TO PROCESS RJM CWLQ EXIT TO CHECK FOR NORMAL WORKLIST ENTRY ZJN SSNA EXIT IF NO WORKLIST TO PROCESS SCWL.2 LINK ENTRY STD FBA+1 STORE LOW-ORDER OF WORKLIST ADDRESS SHN -12 POSITION HIGH-ORDER OF ADDRESS STD FBA STORE HIGH-ORDER OF WORKLIST ADDRESS LOPA 4IQ,VWLE OVERLAY ORDINAL AND PROCESSOR ADDRESS EXIT DCR.3 EXIT TO CHECK OVERLAY PROCESSOR LOADED SCWL.3 LINK ENTRY RJM EWLP EXIT TO EXECUTE WORKLIST PROCESSOR SCWL.4 LINK ENTRY RJM ESRA EXIT TO EXECUTE STREAM RESPONSE ACTION SSNA SPACE 2,10 ** STREAM STATE PROCESSOR SSNA. * * STREAM STATE PROCESSOR SSNA PROCESSES A NO ACTION ** STATE BY TRANSFERRING TO PROCESS THE NEXT PRU STREAM. SSNA STATE NO ACTION REQUIRED EXIT NPRU EXIT TO PROCESS NEXT PRU STREAM SIWL SPACE 2,24 ** STREAM STATE PROCESSOR SIWL. * * STREAM STATE PROCESSOR SIWL CHECKS FOR AN IMMEDIATE * WORKLIST ENTRY TO PROCESS. IF AN IMMEDIATE WORKLIST * NEEDS TO BE PROCESSED THE WORKLIST VALIDATION PROCESSOR * OVERLAY IS LOADED AND THE WORKLIST IS PROCESSED. * * CALLS - * * CIWL - CHECK FOR IMMEDIATE WORKLIST ENTRY, * COL - CHECK OVERLAY LOADED, * EWLP - EXECUTE WORKLIST PROCESSOR, * ESRA - EXECUTE STREAM RESPONSE ACTION PROCESSOR. * * PROCESSOR CALLS - * * WORKLIST VALIDATION PROCESSOR, * WORKLIST ACTION PROCESSOR, ** STREAM STATE RESPONSE ACTION PROCESSOR. SIWL STATE CHECK FOR IMMEDIATE WORKLIST ENTRY RJM CIWL EXIT TO CHECK FOR IMMEDIATE WORKLIST ENTRY NJN SCWL.1 EXIT IF WORKLIST OR REGULATION EXIT NPRU EXIT TO PROCESS NEXT PRU STREAM SOPC SPACE 2,40 ** STREAM STATE PROCESSOR SOPC. * * STREAM STATE PROCESSOR SOPC PROCESSES A QUEUED PRU * COMMAND TO THE FRONT END. IF THERE IS AN IMMEDIATE * WORKLIST QUEUED FOR THE STREAM IT IS PROCESSED. IF * THERE IS SUFFICIENT INBOUND BUFFER SPACE FOR THE * WORKLIST COMPLETED WORKLIST THE NETWORK BLOCK LIMIT IS * CHECKED. IF THE NETWORK BLOCK LIMIT HAS NOT BEEN * REACHED THE WORKLIST PARAMETER WORD IS OBTAINED FROM * THE PCB, THE COMMAND AND WORKLIST POINTER WORD ORDINALS * ARE STORED, THE COMMAND ACTION PROCESSOR IS CALLED AND * THE PRU COMMAND IS TRANSFERRED TO THE FRONT END. * * ENTRY - * * (BSBC) = BLOCK SERIAL NUMBERS AND BACK COUNTS, * (NBL) = NETWORK BLOCK LIMIT FOR STREAM. * * EXIT - * * (CO) = NPU COMMAND ORDINAL, * (WLP) = WORKLIST POINTER WORD ORDINAL. * * CALLS - * * CIWL - CHECK FOR IMMEDIATE WORKLIST ENTRY, * CIBS - CHECK INBOUND BUFFER SPACE, * RPCB - READ WORD FROM PCB, * EOCP - EXECUTE PRU COMMAND PROCESSOR, * CEH - TRANSFER OUTPUT TO FRONT END. * * PROCESSOR CALLS - * ** PRU OUTPUT COMMAND PROCESSOR. SOPC STATE OUTPUT PRU STREAM COMMAND TO NPU RJM CIWL EXIT TO CHECK FOR IMMEDIATE WORKLIST ENTRY NJN SCWL.1 EXIT IF WORKLIST OR REGULATION LDN /NAM/WLCCM LENGTH OF WORKLIST COMPLETE WORKLIST RJM CIBS EXIT TO CHECK FOR INBOUND BUFFER SPACE PJN SOPC.1 EXIT IF SUFFICIENT INBOUND BUFFER SPACE EXIT NPRU EXIT TO PROCESS NEXT PRU STREAM SOPC.1 LDD BSBC LOAD BLOCK SERIAL NUMBERS AND BACK COUNTS LPN /NAM/L.OBC EXTRACT OUTSTANDING OUTPUT BACK COUNT LMD NBL LESS NETWORK BLOCK LIMIT ZJN SOPC.4 EXIT IF NETWORK BLOCK LIMIT REACHED LDN /NAM/W.PCBPS1 PRU STREAM PARAMETER ONE WORD ORDINAL RJM RPCB EXIT TO READ PRU PARAMETER WORD FROM PCB LDD T10+/NAM/C.PCBWP LOAD WORKLIST PARAMETER BYTE SHN 12 WORKLIST POINTER WORD ORDINAL TO LOW-ORDER STD WLP STORE WORKLIST POINTER WORD ORDINAL SHN -12 NPU COMMAND ORDINAL TO LOW-ORDER SOPC.2 LINK ENTRY STD CO STORE COMMAND ORDINAL EOCP LDN /ACTORD/CMDOUT OUTPUT COMMAND DIRECTORY TABLE ADDRESS STD ADO STORE ACTION DIRECTORY TABLE OFFSET LDC /TABLES/NPOR FWA OF OUTPUT COMMAND RESPONSE TABLE EXIT EICA.1 EXIT TO GET RESPONSE TABLE ADDRESS SOPC.3 LINK ENTRY RJM CEH EXIT TO TRANSFER OUTPUT TO FRONT END EXIT NPRU EXIT TO PROCESS NEXT PRU STREAM SOPC.4 EXIT SPIQ.6 EXIT TO CHECK FOR BACK OWED SIQP SPACE 2,40 ** STREAM STATE PROCESSOR SIQP. * * STREAM STATE PROCESSOR SIQP PROCESSES THE QUEUE FOR * PRU INPUT STREAMS. THE OLD STATE IS SET TO THE CURRENT * STATE. IF A WORKLIST COMMAND IS QUEUED ON THE PCB THE * WORKLIST COMMAND ORDINAL IS STORED AND THE WORKLIST * COMMAND IS PROCESSED. IF DATA IS QUEUED TO THE PCB THE * STREAM STATE RESPONSE ACTION IS EXECUTED TO PROCESS THE * QUEUED DATA. OTHERWISE A CHECK IS MADE FOR A WORKLIST * TO PROCESS. IF A WORKLIST NEEDS TO BE PROCESSED THE * WORKLIST VALIDATION PROCESSOR OVERLAY IS LOADED AND THE * WORKLIST IS PROCESSED. IF THERE ARE OUTSTANDING BACKS * ON THE STREAM AN ATTEMPT IS MADE TO TRANSFER A BACK TO * THE FRONT END. * * ENTRY - * * (BSBC) = BLOCK SERIAL NUMBERS AND BACK COUNTS, * (AAC) = APPLICATION TO APPLICATION FLAG. * * CALLS - * * SCSS - SET OLD STATE TO CURRENT STREAM STATE, * RPCB - READ WORD FROM PCB, * EWLP - EXECUTE WORKLIST PROCESSOR, * ESRA - EXECUTE STREAM RESPONSE ACTION PROCESSOR, * CIWL - CHECK FOR IMMEDIATE WORKLIST ENTRY, * CWLQ - CHECK FOR NORMAL WORKLIST ENTRY, * CEH - TRANSFER OUTPUT TO FRONT END, * CL7T - CHECK FOR LEVEL SEVEN TIMEOUT. * * PROCESSOR CALLS - * * WORKLIST ACTION PROCESSOR, ** STREAM STATE RESPONSE ACTION PROCESSOR. SIQP STATE PROCESS QUEUE FOR PRU INPUT STREAM RJM SCSS EXIT TO SET OLD STATE TO CURRENT STATE SPIQ SPACE 2,38 ** STREAM STATE PROCESSOR SPIQ. * * STREAM STATE PROCESSOR SPIQ PROCESSES THE QUEUE FOR * PRU INPUT STREAMS. IF A WORKLIST COMMAND IS QUEUED ON * THE PCB THE WORKLIST COMMAND ORDINAL IS STORED AND THE * WORKLIST COMMAND IS PROCESSED. IF DATA IS QUEUED TO * THE PCB THE STREAM STATE RESPONSE ACTION IS EXECUTED TO * PROCESS THE QUEUED DATA. OTHERWISE A CHECK IS MADE * FOR A WORKLIST TO PROCESS. IF A WORKLIST NEEDS TO BE * PROCESSED THE WORKLIST VALIDATION PROCESSOR OVERLAY IS * LOADED AND THE WORKLIST IS PROCESSED. IF THERE ARE * OUTSTANDING BACKS ON THE STREAM AN ATTEMPT IS MADE TO * TRANSFER A BACK TO THE FRONT END. * * ENTRY - * * (BSBC) = BLOCK SERIAL NUMBERS AND BACK COUNTS, * (AAC) = APPLICATION TO APPLICATION FLAG. * * CALLS - * * RPCB - READ WORD FROM PCB, * EWLP - EXECUTE WORKLIST PROCESSOR, * ESRA - EXECUTE STREAM RESPONSE ACTION PROCESSOR, * CIWL - CHECK IMMEDIATE WORKLIST ENTRY, * CWLQ - CHECK FOR NORMAL WORKLIST ENTRY, * CEH - TRANSFER OUTPUT TO FRONT END, * CL7T - CHECK FOR LEVEL SEVEN TIMEOUT. * * PROCESSOR CALLS - * * WORKLIST ACTION PROCESSOR, ** STREAM STATE RESPONSE ACTION PROCESSOR. SPIQ STATE PROCESS QUEUE FOR PRU INPUT STREAM LDN /NAM/W.PCBWLQ LOAD WORKLIST QUEUE POINTER WORD ORDINAL RJM RPCB EXIT TO READ WORKLIST QUEUE POINTER WORD ADN /NAM/W.PCBPS8-/NAM/W.PCBPS2 DELTA TO PARAMETER WORD 8 CRD T2 READ PARAMETER WORD EIGHT LDD T10+/NAM/C.QIO LOAD QUEUE IN/OUT POINTER BYTE ZJN SPIQ.3 EXIT IF WORKLIST COMMAND QUEUE EMPTY LPN 77B EXTRACT WORKLIST COMMAND QUEUE OUT POINTER SHN 18-1 DIVIDED BY TWO FOR BYTE DISPLACEMENT ADN T10+/NAM/C.QUE PLUS FWA OF WORKLIST COMMAND QUEUE STD T1 STORE WORKLIST COMMAND QUEUE BYTE ADDRESS MJN SPIQ.2 EXIT IF RIGHT POSITION OF BYTE LDI T1 LOAD WORKLIST COMMAND QUEUE BYTE SHN -6 POSITION WORKLIST COMMAND ORDINAL SPIQ.1 LINK ENTRY STD WLO STORE WORKLIST COMMAND ORDINAL EXIT SCWL.3 EXIT TO EXECUTE WORKLIST PROCESSOR SPIQ.2 LDI T1 LOAD WORKLIST COMMAND QUEUE BYTE LPN 77B EXTRACT WORKLIST COMMAND ORDINAL UJK SPIQ.1 EXIT TO STORE WORKLIST COMMAND ORDINAL SPIQ.3 LDD T2+/NAM/C.PCBQBC LOAD QUEUED BUFFER COUNT SBN 7 LESS MAXIMUM ALLOWED TO BE QUEUED PJN SPIQ.3A EXIT 7 OR MORE QUEUED - DONT ISSUE BACK LDD BSBC LOAD BLOCK SERIAL NUMBERS AND BACK FLAGS SHN -/NAM/S.IBC OUTSTANDING BACK COUNT TO LOW-ORDER LPN /NAM/L.IBC EXTRACT OUTSTANDING BACK COUNT NJN SPIQ.7 EXIT IF OUTSTANDING BACKS SPIQ.3A LDN /NAM/W.PCBPS2 PRU STREAM PARAMETER TWO WORD ORDINAL RJM RPCB EXIT TO READ PRU PARAMETER WORD FROM PCB LDD T10+/NAM/C.PCBCDB LOAD HIGH-ORDER OF BUFFER ADDRESS ADD T10+/NAM/C.PCBCDB+1 PLUS LOW-ORDER OF BUFFER ADDRESS ZJN SPIQ.4 EXIT IF NO DATA QUEUED TO PCB LDN /TABLES/.SQID STREAM ACTION ORDINAL FOR QUEUED DATA EXIT SCWL.4 EXIT TO EXECUTE STREAM RESPONSE ACTION SPIQ.4 RJM CIWL EXIT TO CHECK FOR IMMEDIATE WORKLIST ENTRY NJN SPIQ.5 EXIT IF WORKLIST OR REGULATION RJM CWLQ EXIT TO CHECK FOR NORMAL WORKLIST ENTRY ZJN SPIQ.6 EXIT IF NO WORKLIST TO PROCESS SPIQ.5 EXIT SCWL.1 EXIT TO PROCESS WORKLIST OR REGULATION SPIQ.6 LINK ENTRY LDD BSBC LOAD BLOCK SERIAL NUMBERS AND BACK FLAGS SHN -/NAM/S.IBC OUTSTANDING BACK COUNT TO LOW-ORDER LPN /NAM/L.IBC EXTRACT OUTSTANDING BACK COUNT ZJN SPIQ.8 EXIT IF NO OUTSTANDING BACKS SPIQ.7 LINK ENTRY LDN /BLOCK/L.BACK TEXT CHARACTER LENGTH OF BACK STM NNH+/NAM/C.MCC STORE OUTPUT TEXT CHARACTER LENGTH LDN /BLOCK/BACK LOAD BACK BLOCK TYPE EXIT SOPC.3 EXIT TO TRANSFER BACK TO FRONT END SPIQ.8 LINK ENTRY LDD AAC LOAD APPLICATION TO APPLICATION FLAG ZJN SPIQ.9 EXIT IF NOT APPLICATION TO APPLICATION LDN /NAM/W.PCBPS6 PRU STREAM PARAMETER SIX WORD ORDINAL RJM RPCB EXIT TO READ PRU PARAMETER WORD FROM PCB LDK RTCL LOAD ADDRESS OF SYSTEM REAL-TIME CLOCK CRD T1 READ SYSTEM REAL-TIME CLOCK LDD T1+1 LOAD SYSTEM SECOND TIME SBD T10+/NAM/C.PCBL7T LESS LEVEL SEVEN TIMEOUT VALUE SHN 5+1 POSITION HIGH-ORDER VALUE BIT TO SIGN MJN SPIQ.9 EXIT IF LEVEL SEVEN TIMER NOT EXPIRED EREXIT TO7 EXIT TO ERROR - LEVEL SEVEN TIMEOUT SPIQ.9 EXIT NPRU EXIT TO PROCESS NEXT PRU STREAM SPOQ SPACE 2,44 ** STREAM STATE PROCESSOR SPOQ. * * STREAM STATE PROCESSOR SPOQ PROCESSES THE QUEUE FOR * PRU OUTPUT STREAMS. THE OLD STATE IS SET TO THE * CURRENT STATE. IF AN APPLICATION WORKLIST IS AVAILABLE * IT IS PROCESSED. IF THERE ARE OUTSTANDING BACKS OWED * ON THE STREAM AN ATTEMPT IS MADE TO TRANSFER A BACK TO * A BACK TO THE FRONT END. IF THE CONNECTION IS AN * APPLICATION TO APPLICATION CONNECTION AND THE NETWORK * BLOCK LIMIT HAS NOT BEEN REACHED FOR THE STREAM A CHECK * IS MADE FOR A CHECKMARK REQUIRED. IF A CHECKMARK IS * REQUIRED AND THE LAST CHECKMARK HAS BEEN ACKNOWLEDGED * AN ATTEMPT IS MADE TO ISSUE THE CHECKMARK COMMAND TO * THE FRONT END. IF A CHECKMARK IS NOT REQUIRED A CHECK * IS MADE TO SEE IF THE CHECKMARK WINDOW SIZE HAS BEEN * REACHED. IF THE CHECKMARK WINDOW SIZE HAS BEEN REACHED * THE NEXT PRU STREWM IS PROCESSED. OTHERWISE THE STREAM * STATE RESPONSE ACTION FOR OUTPUT ALLOWED IS EXECUTED. * * ENTRY - * * (BSBC) = BLOCK SERIAL NUMBERS AND BACK COUNTS, * (NBL) = NETWORK BLOCK LIMIT FOR STREAM, * (AAC) = APPLICATION TO APPLICATION FLAG. * * CALLS - * * SCSS - SET OLD STATE TO CURRENT STREAM STATE, * CIWL - CHECK FOR IMMEDIATE WORKLIST ENTRY, * CWLQ - CHECK FOR NORMAL WORKLIST ENTRY, * CEH - TRANSFER OUTPUT TO FRONT END, * RPCB - READ WORD FROM PCB, * ESRA - EXECUTE STREAM RESPONSE ACTION PROCESSOR, * CL7T - CHECK LEVEL SEVEN TIMEOUT. * * PROCESSOR CALLS - * ** STREAM STATE RESPONSE ACTION PROCESSOR. SPOQ STATE PROCESS QUEUE FOR PRU OUTPUT STREAM RJM SCSS EXIT TO SET OLD STATE TO CURRENT STATE SPDQ SPACE 2,42 ** STREAM STATE PROCESSOR SPDQ. * * STREAM STATE PROCESSOR SPDQ PROCESSES THE QUEUE FOR * PRU OUTPUT STREAMS. IF AN APPLICATION WORKLIST IS * AVAILABLE IT IS PROCESSED. IF THERE ARE OUTSTANDING * BACKS OWED ON THE STREAM AN ATTEMPT IS MADE TO TRANSFER * A BACK TO THE FRONT END. IF THE CONNECTION IS AN * APPLICATION TO APPLICATION CONNECTION AND THE NETWORK * BLOCK LIMIT HAS NOT BEEN REACHED FOR THE STREAM A CHECK * IS MADE FOR A CHECKMARK REQUIRED. IF A CHECKMARK IS * REQUIRED AND THE LAST CHECKMARK HAS BEEN ACKNOWLEDGED * AN ATTEMPT IS MADE TO ISSUE THE CHECKMARK COMMAND TO * THE FRONT END. IF A CHECKMARK IS NOT REQUIRED A CHECK * IS MADE TO SEE IF THE CHECKMARK WINDOW SIZE HAS BEEN * REACHED. IF THE CHECKMARK WINDOW SIZE HAS BEEN REACHED * THE NEXT PRU STREAM IS PROCESSED. OTHERWISE THE STREAM * STATE RESPONSE ACTION FOR OUTPUT ALLOWED IS EXECUTED. * * ENTRY - * * (BSBC) = BLOCK SERIAL NUMBERS AND BACK COUNTS, * (NBL) = NETWORK BLOCK LIMIT FOR STREAM, * (AAC) = APPLICATION TO APPLICATION FLAG. * * CALLS - * * CIWL - CHECK FOR IMMEDIATE WORKLIST ENTRY, * CEH - TRANSFER OUTPUT TO FRONT END, * CWLQ - CHECK FOR NORMAL WORKLIST ENTRY, * RPCB - READ WORD FROM PCB, * ESRA - EXECUTE STREAM RESPONSE ACTION PROCESSOR, * CL7T - CHECK FOR LEVEL SEVEN TIMEOUT. * * PROCESSOR CALLS - * ** STREAM STATE RESPONSE ACTION PROCESSOR. SPDQ STATE PROCESS QUEUE FOR PRU OUTPUT STREAM LOPA 4IO,PPOS OVERLAY ORDINAL & PROCESSOR ADDRESS EXIT DCR.3 EXIT TO LOAD OVERLAY SRJV SPACE 2,20 ** STREAM STATE PROCESSOR SRJV. * * STREAM STATE PROCESSOR SRJV REQUESTS JOB VALIDATION * BY STORING THE WORKLIST COMMAND ORDINAL FOR REQUEST * JOB VALIDATION. * * CALLS - * * EWLP - EXECUTE WORKLIST PROCESSOR, * ESRA - EXECUTE STREAM RESPONSE ACTION PROCESSOR. * * PROCESSOR CALLS - * * WORKLIST ACTION PROCESSOR, ** STREAM STATE RESPONSE ACTION PROCESSOR. SRJV STATE REQUEST JOB VALIDATION LDN /TABLES/ISJV LOAD WORKLIST COMMAND ORDINAL EXIT SPIQ.1 EXIT TO STORE WORKLIST COMMAND ORDINAL SRSI SPACE 2,20 ** STREAM STATE PROCESSOR SRSI. * * STREAM STATE PROCESSOR SRSI REPORTS THE PRU INPUT * STREAM STOPPED INTERNALLY BY STORING THE WORKLIST * COMMAND ORDINAL FOR INPUT STREAM STOPPED INTERNALLY. * * CALLS - * * EWLP - EXECUTE WORKLIST PROCESSOR, * ESRA - EXECUTE STREAM RESPONSE ACTION PROCESSOR. * * PROCESSOR CALLS - * * WORKLIST ACTION PROCESSOR, ** STREAM STATE RESPONSE ACTION PROCESSOR. SRSI STATE REPORT INPUT STREAM STOPPED INTERNALLY LDN /TABLES/ISSI LOAD WORKLIST COMMAND ORDINAL EXIT SPIQ.1 EXIT TO STORE WORKLIST COMMAND ORDINAL SRSA SPACE 2,22 ** STREAM STATE PROCESSOR SRSA. * * STREAM STATE PROCESSOR SRSA REPORTS THE PRU OUTPUT * STREAM STOPPED BY THE APPLICATION BY STORING THE * WORKLIST COMMAND ORDINAL FOR OUTPUT STREAM STOPPED * BY THE APPLICATION. * * CALLS - * * EWLP - EXECUTE WORKLIST PROCESSOR, * ESRA - EXECUTE STREAM RESPONSE ACTION PROCESSOR. * * PROCESSOR CALLS - * * WORKLIST ACTION PROCESSOR, ** STREAM STATE RESPONSE ACTION PROCESSOR. SRSA STATE REPORT OUTPUT STREAM STOPPED BY APPLICATION LDN /TABLES/OSAS LOAD WORKLIST COMMAND ORDINAL EXIT SPIQ.1 EXIT TO STORE WORKLIST COMMAND ORDINAL SRSO SPACE 2,20 ** STREAM STATE PROCESSOR SRSO. * * STREAM STATE PROCESSOR SRSO REPORTS THE PRU OUTPUT * STREAM STOPPED INTERNALLY BY STORING THE WORKLIST * COMMAND ORDINAL FOR OUTPUT STREAM STOPPED INTERNALLY. * * CALLS - * * EWLP - EXECUTE WORKLIST PROCESSOR, * ESRA - EXECUTE STREAM RESPONSE ACTION PROCESSOR. * * PROCESSOR CALLS - * * WORKLIST ACTION PROCESSOR, ** STREAM STATE RESPONSE ACTION PROCESSOR. SRSO STATE REPORT OUTPUT STREAM STOPPED INTERNALLY LDN /TABLES/OSSI LOAD WORKLIST COMMAND ORDINAL EXIT SPIQ.1 EXIT TO STORE WORKLIST COMMAND ORDINAL SFIE SPACE 2,24 ** STREAM STATE PROCESSOR SFIE. * * STREAM STATE PROCESSOR SFIE REPORTS THE END OF THE * INBOUND FILE TRANSFER BY STORING THE STREAM STOPPED * REASON CODE IN THE PCB AND SETTING THE WORKLIST * ORDINAL TO TRANSFER THE END OF INBOUND FILE TRANSFER * SUPERVISORY MESSAGE TO THE HOST APPLICATION. * * CALLS - * * RSPB - READ AND STORE ADDRESS OF PCB WORD, * WCMW - WRITE WORD TO PCB, * EWLP - EXECUTE WORKLIST PROCESSOR, * ESRA - EXECUTE STREAM RESPONSE ACTION PROCESSOR. * * PROCESSOR CALLS - * * WORKLIST ACTION PROCESSOR, ** STREAM STATE RESPONSE ACTION PROCESSOR. SFIE STATE REPORT END OF INBOUND FILE TRANSFER LDN /TABLES/L7EI LOAD END OF INBOUND FILE WORKLIST ORDINAL SFIE.1 LINK ENTRY STD T7 STORE WORKLIST COMMAND ORDINAL LDN /NAM/FTRCNO LOAD STREAM STOPPED REASON CODE SFIE.2 LINK ENTRY STD T17 STORE STREAM STOPPED REASON CODE LDN /NAM/W.PCBPS2 PRU STREAM PARAMETER TWO WORD ORDINAL RJM RSPB EXIT TO READ PRU PARAMETER WORD FROM PCB LDD T10+/NAM/C.PCBSS LOAD STREAM STOPPED REASON CODES SCN 77B CLEAR OLD EXTERNALLY STOPPED REASON CODE ADD T17 PLUS NEW EXTERNALLY STOPPED REASON CODE STD T10+/NAM/C.PCBSS STORE STREAM STOPPED REASON CODES RJM WCMW EXIT TO WRITE PRU PARAMETER WORD TO PCB LDD T7 LOAD WORKLIST COMMAND ORDINAL EXIT SPIQ.1 EXIT TO STORE WORKLIST COMMAND ORDINAL SFOE SPACE 2,24 ** STREAM STATE PROCESSOR SFOE. * * STREAM STATE PROCESSOR SFOE REPORTS THE END OF THE * OUTBOUND FILE TRANSFER BY STORING THE STREAM STOPPED * REASON CODE IN THE PCB AND SETTING THE WORKLIST * ORDINAL TO TRANSFER THE END OF OUTBOUND FILE TRANSFER * SUPERVISORY MESSAGE TO THE HOST APPLICATION. * * CALLS - * * RSPB - READ AND STORE ADDRESS OF PCB WORD, * WCMW - WRITE WORD TO PCB, * EWLP - EXECUTE WORKLIST PROCESSOR, * ESRA - EXECUTE STREAM RESPONSE ACTION PROCESSOR. * * PROCESSOR CALLS - * * WORKLIST ACTION PROCESSOR, ** STREAM STATE RESPONSE ACTION PROCESSOR. SFOE STATE REPORT END OF OUTBOUND FILE TRANSFER LDN /TABLES/L7EO LOAD END OF OUTBOUND FILE WORKLIST ORDINAL EXIT SFIE.1 EXIT TO STORE WORKLIST COMMAND ORDINAL SFTE SPACE 2,24 ** STREAM STATE PROCESSOR SFTE. * * STREAM STATE PROCESSOR SFTE REPORTS A MASS STORAGE * ERROR ON A FILE TRANSFER BY STORING THE STREAM STOPPED * REASON CODE IN THE PCB AND SETTING THE WORKLIST * ORDINAL TO TRANSFER THE MASS STORAGE ERROR ON FILE * TRANSFER SUPERVISORY MESSAGE TO THE HOST APPLICATION. * * CALLS - * * RSPB - READ AND STORE ADDRESS OF PCB WORD, * WCMW - WRITE WORD TO PCB, * EWLP - EXECUTE WORKLIST PROCESSOR, * ESRA - EXECUTE STREAM RESPONSE ACTION PROCESSOR. * * PROCESSOR CALLS - * * WORKLIST ACTION PROCESSOR, ** STREAM STATE RESPONSE ACTION PROCESSOR. SFTE STATE REPORT MASS STORAGE ERROR ON FILE TRANSFER LDN /TABLES/L7ER LOAD MASS STORAGE ERROR WORKLIST ORDINAL STD T7 STORE WORKLIST COMMAND ORDINAL LDN /NAM/FTRCME LOAD STREAM STOPPED REASON CODE EXIT SFIE.2 EXIT TO STORE STREAM STOPPED REASON CODE SEL7 SPACE 2,22 ** STREAM STATE PROCESSOR SEL7. * * STREAM STATE PROCESSOR SEL7 REPORTS A LEVEL SEVEN ERROR * ON A FILE TRANSFER. THE WORKLIST COMMAND ORDINAL IS * STORED AND THE WORKLIST IS TRANSFERRED TO THE INBOUND * BUFFER. * * CALLS - * * EWLP - EXECUTE WORKLIST PROCESSOR, * ESRA - EXECUTE STREAM STATE RESPONSE ACTION PROCESSOR. * * PROCESSOR CALLS - * * WORKLIST ACTION PROCESSOR, ** STREAM STATE RESPONSE ACTION PROCESSOR. SEL7 STATE PROCESS LEVEL SEVEN ERROR LOPA 2IO,PEL7 OVERLAY ORDINAL AND PROCESSOR ADDRESS EXIT DCR.3 EXIT TO CHECK OVERLAY PROCESSOR LOADED SRNO SPACE 2,30 ** STREAM STATE PROCESSOR SRNO. * * STREAM STATE PROCESSOR SRNO REQUESTS THE NEXT OUTPUT * DATA BLOCK FOR A PRU STREAM. IF THE LIMBO BUFFER IS * ALREADY QUEUED TO THE PCB A CHECK IS MADE TO ASSURE * THAT THE OVERLAY PORCESSOR IS LOADED AND THE DRIVER * SUPPORT PROCESSOR TO CALL CIO IS EXECUTED. OTHERWISE * IF A LIMBO BUFFER IS AVAILABLE A CHECK IS MADE TO * ASSURE THAT THE OVERLAY PROCESSOR IS LOADED AND THE * DRIVER SUPPORT PROCESSOR TO REQUEST THE NEXT OUTPUT * DATA BLOCK IS EXECUTED. * * ERROR EXITS - * * EXIT TO *ERROR* IF PRU BUFFER SIZE ERROR IN PCB. * * CALLS - * * RPCB - READ WORD FROM PCB, * COL - CHECK OVERLAY LOADED. * * PROCESSOR CALLS - * * PSNO - SET FOR NEXT OUTPUT BLOCK PROCESSOR, ** PCIO - CIO SUPPORT PROCESSOR. SRNO STATE REQUEST NEXT OUTPUT DATA BLOCK LDN /NAM/W.PCBPS2 PRU STREAM PARAMETER TWO WORD ORDINAL RJM RPCB EXIT TO READ PRU PARAMETER WORD FROM PCB LDD T10+/NAM/C.PCBCDB LOAD HIGH-ORDER OF BUFFER ADDRESS ADD T10+/NAM/C.PCBCDB+1 PLUS LOW-ORDER OF BUFFER ADDRESS NJN SRMS EXIT IF LIMBO BUFFER ASSIGNED RJM RPCB EXIT TO READ PCB HEADER WORD LDD T10+/NAM/C.PCBSP LOAD STREAM PARAMETER BYTE LPN /NAM/L.PCBNBS EXTRACT PRU BUFFER SIZE SBN 1 LESS ONE FOR RELATIVE ZERO STD PRU STORE PRU BUFFER SIZE ORDINAL SBN MAXPRU LESS MAXIMUM BUFFER SIZE ORDINAL MJN SRNO.2 EXIT IF BUFFER SIZE VALID SRNO.1 LINK ENTRY EREXIT PBS EXIT TO ERROR - PCB PRU BUFFER SIZE ERROR SRNO.1A AOM AFB,BTI INCREMENT ADDITIONAL FREE BUFFER REQUIRED EXIT NPRU EXIT TO PROCESS NEXT PRU STREAM SRMS STATE REQUEST MASS ATORAGE OPERATION LOPA 4IM,PCIO OVERLAY ORDINAL AND PROCESSOR ADDRESS EXIT DCR.3 EXIT TO CHECK OVERLAY PROCESSOR LOADED SRNO.2 LDM BAT,PRU LOAD ADDRESS OF PRU BUFFER TABLE STD BTI STORE PRU BUFFER TABLE INDEX LDM NFB,BTI LOAD FREE BUFFER COUNT SBN 1 CHECK FOR ONE FREE BUFFER MJN SRNO.1A EXIT IF PRU BUFFER NOT AVAILABLE ADM MFB,BTI MIN/MAX BUFFER COUNTS LPN 77B EXTRACT MAXIMUM BUFFER COUNT TO BE ASSIGNED SBM NCA,BTI MINUS CURRENT BUFFER COUNT ADM INB,BTI PLUS INBOUND BUFFER ASSIGNMENT COUNT ZJN SRNO.1A EXIT IF LIMIT REACHED AND NO INBOUNDS AND ONLY ONE BUFFER REMAINING SRNO.3 LOPA 4IO,PSNO OVERLAY ORDINAL AND PROCESSOR ADDRESS EXIT DCR.3 EXIT TO CHECK OVERLAY PROCESSOR LOADED SPIN SPACE 2,20 ** STREAM STATE PROCESSOR SPIN. * * STREAM STATE PROCESSOR SPIN PROCESSES A STREAM THAT IS * BEING INITIALIZED AS A PRU STREAM BY LOADING THE PRU * STREAM STATE INITIALIZATION PROCESSOR AND EXECUTING THE * PRU STREAM STATE INITIALIZATION PROCESSOR. * * CALLS - * * COL - CHECK OVERLAY LOADED. * * PROCESSORS CALLS - * ** INSS - INITIALIZE PRU STREAM STATE. SPIN STATE INITIAL PRU STREAM STATE LOPA 2IM,INSS OVERLAY ORDINAL AND PROCESSOR ADDRESS EXIT DCR.3 EXIT TO CHECK OVERLAY PROCESSOR LOADED SRMS SPACE 2,20 ** STREAM STATE PROCESSOR SRMS. * * STREAM STATE PROCESSOR SRMS REQUESTS CIO TO PERFORM A * MASS STORAGE OPERATION ON THE STREAM. A CHECK IS MADE * TO ASSURE THAT THE OVERLAY PROCESSOR IS LOADED AND THE * DRIVER SUPPORT PROCESSOR TO CALL CIO IS EXECUTED. * * CALLS - * * COL - CHECK OVERLAY LOADED. * * PROCESSOR CALLS - * ** PCIO - CIO SUPPORT PROCESSOR. * THE CODE IS PLACED IN SRNO. SWMS SPACE 2,20 ** STREAM STATE PROCESSOR SWMS. * * STREAM STATE PROCESSOR SWMS WAITS FOR A MASS STORAGE * OPERATION TO COMPLETE. A CHECK IS MADE TO ASSURE THAT * THE OVERLAY PROCESSOR IS LOADED AND THE DRIVER SUPPORT * PROCESSOR TO CHECK THE MASS STORAGE OPERATION STATUS * IS EXECUTED. * * CALLS - * * COL - CHECK OVERLAY LOADED. * * PROCESSOR CALLS - * ** PCMS - CHECK MASS STORAGE COMPLETE PROCESSOR. SWMS STATE WAIT FOR MASS STORAGE COMPLETE LOPA 4IO,PCMS OVERLAY ORDINAL AND PROCESSOR ADDRESS EXIT DCR.3 EXIT TO CHECK OVERLAY PROCESSOR LOADED SWDO SPACE 2,20 ** STREAM STATE PROCESSOR SWDO. * * STREAM STATE PROCESSOR SWDO TRANSFERS A DIRECT OUTPUT * BLOCK TO THE FRONT END. A CHECK IS MADE TO ASSURE THAT * THE OVERLAY PROCESSOR IS LOADED AND THE DRIVER SUPPORT * PROCESSOR TO TRANSFER THE DIRECT OUTPUT BLOCK TO THE * FRONT END IS EXECUTED. * * CALLS - * * COL - CHECK OVERLAY LOADED. * * PROCESSOR CALLS - * ** PDOR - DIRECT OUTPUT REQUEST PROCESSOR. SWDO STATE TRANSFER DIRECT OUTPUT REQUEST TO FRONT END LOPA 5IO,PDOR OVERLAY ORDINAL AND PROCESSOR ADDRESS EXIT DCR.3 EXIT TO CHECK OVERLAY PROCESSOR LOADED SWDO.1 LINK ENTRY LOPA 3IM,PPOD.6 OVERLAY ORDINAL AND PROCESSOR ADDRESS EXIT DCR.3 EXIT TOP CHECK OVERLAYU PROCESSOR LOADED SWEJ SPACE 2,20 ** STREAM STATE PROCESSOR SWEJ. * * STREAM STATE PROCESSOR SWEJ TRANSFERS AN END OF JOB * DIRECT OUTPUT REQUEST TO THE FRONT END. A CHECK IS * MADE TO ASSURE THAT THE OVERLAY PROCESSOR IS LOADED AND * THE DRIVER SUPPORT PROCESSOR TO TRANSFER THE END OF JOB * DIRECT OUTPUT BLOCK TO THE FRONT END IS EXECUTED. * * CALLS - * * COL - CHECK OVERLAY LOADED. * * PROCESSOR CALLS - * ** PEOR - END OF JOB DIRECT OUTPUT REQUEST PROCESSOR. SWEJ STATE TRANSFER EOJ DIRECT OUTPUT TO FRONT END LOPA 5IO,PEOR OVERLAY ORDINAL AND PROCESSOR ADDRESS EXIT DCR.3 EXIT TO CHECK OVERLAY PROCESSOR LOADED STPO SPACE 2,20 ** STREAM STATE PROCESSOR STPO. * * STREAM STATE PROCESSOR STPO TRANSFERS A PRU OUTPUT * BLOCK TO THE FRONT END. A CHECK IS MADE TO ASSURE THAT * THE OVERLAY PROCESSOR IS LOADED AND THE DRIVER SUPPORT * PROCESSOR TO TRANSFER THE PRU OUTPUT BLOCK TO THE NPU * IS EXECUTED. * * CALLS - * * COL - CHECK OVERLAY LOADED. * * PROCESSOR CALLS - * ** PPOD - PRU OUTPUT PROCESSOR. STPO STATE TRANSFER PRU OUTPUT TO NPU LOPA 3IM,PPOD OVERLAY ORDINAL AND PROCESSOR ADDRESS EXIT DCR.3 EXIT TO CHECK OVERLAY PROCESSOR LOADED STSR SPACE 2,20 ** STREAM STATE PROCESSOR STSR. * * STREAM STATE PROCESSOR STSR TRANSFERS THE START OF * DATA REPLY TO THE REMOTE APPLICATION. A CHECK IS MADE * TO ASSURE THAT THE OVERLAY PROCESSOR IS LOADED AND THE * DRIVER SUPPORT PROCESSOR TO TRANSFER THE START OF DATA * REPLY IS EXECUTED. * * CALLS - * * COL - CHECK OVERLAY LOADED. * * PROCESSOR CALLS - * ** TSR - TRANSFER START OF DATA REPLY. STSR STATE TRANSFER START DATA REPLY TO REMOTE LOPA 4IO,TSR OVERLAY ORDINAL AND PROCESSOR ADDRESS EXIT DCR.3 EXIT TO CHECK OVERLAY LOADED STCR SPACE 2,18 ** STREAM STATE PROCESSOR STCR. * * STREAM STATE PROCESSOR STCR TRANSFERS A CHECKMARK * REPLY TO THE REMOTE APPLICATION. * * CALLS - * * COL - CHECK OVERLAY LOADED. * * PROCESSOR CALLS - * ** ICR - TRANSFER CHECKMARK REPLY. STCR STATE TRANSFER CHECKMARK REPLY TO REMOTE LOPA 4IO,ICR OVERLIAY ORDINAL AND PROCESSOR ADDRESS EXIT DCR.3 EXIT TO CHECK OVERLAY PROCESSOR LOADED SOIC SPACE 2,20 ** STREAM STATE PROCESSOR SOIC. * * STREAM STATE PROCESSOR SOIC PROCESSES A QUEUED PRU * INTERRUPT COMMAND TO THE FRONT END. A CHECK IS MADE TO * ASSURE THAT THE OVERLAY PROCESSOR IS LOADED AND THE * DRIVER SUPPORT PROCESSOR TO TRANSFER THE INTERRUPT * COMMAND IS EXECUTED. * * CALLS - * * COL - CHECK OVERLAY LOADED. * * PROCESSOR CALLS - * ** OIC - TRANSFER INTERRUPT COMMAND TO FRONT END. SOIC STATE TRANSFER INTERRUPT COMAND TO FRONT END LOPA 4IO,OIC OVERLAY ORDINAL AND PROCESSOR ADDRESS EXIT DCR.3 EXIT TO CHECK OVERLAY LOADED SWNA SPACE 2,20 ** STREAM STATE PROCESSOR SWNA. * * STREAM STATE PROCESSOR SWNA WAITS FOR NO OUTPUT * ACTIVITY ON A PRU STREAM. A CHECK IS MADE TO * ASSURE THAT THE OVERLAY PROCESSOR IS LOADED AND THE * DRIVER SUPPORT PROCESSOR TO WAIT FOR NO OUTPUT * ACTIVITY IS EXECUTED. * * CALLS - * * COL - CHECK OVERLAY LOADED. * * PROCESSOR CALLS - * ** WNA - WAIT NO OUTPUT ACTIVITY. SWNA STATE WAIT NO OUTPUT ACTIVITY LOPA 4IO,WNA OVERLAY ORDINAL AND PROCESSOR ADDRESS EXIT DCR.3 EXIT TO CHECK OVERLAY LOADED SWNO SPACE 2,20 ** STREAM STATE PROCESSOR SWNO. * * STREAM STATE PROCESSOR SWNO WAITS FOR NO OUTPUT * ACTIVITY ON A PRU STREAM. A CHECK IS MADE TO * ASSURE THAT THE OVERLAY PROCESSOR IS LOADED AND THE * DRIVER SUPPORT PROCESSOR TO WAIT FOR NO OUTPUT * ACTIVITY IS EXECUTED. * * CALLS - * * COL - CHECK OVERLAY LOADED. * * PROCESSOR CALLS - * ** WNO - WAIT NO OUTPUT ACTIVITY. SWNO STATE WAIT NO OUTPUT ACTIVITY LOPA 4IO,WNO OVERLAY ORDINAL AND PROCESSOR ADDRESS EXIT DCR.3 EXIT TO CHECK OVERLAY LOADED STPS SPACE 2,20 ** STREAM STATE PROCESSOR STPS. * * STREAM STATE PROCESSOR STPS PROCESSES A STREAM THAT IS * BEING TERMINATED AS A PRU STREAM. A CHECK IS MADE TO * ASSURE THAT THE OVERLAY PROCESSOR IS LOADED AND THE * DRIVER SUPPORT PROCESSOR TO TERMINATE A PRU STREAM IS * EXECUTED. * * CALLS - * * COL - CHECK OVERLAY LOADED. * * PROCESSOR CALLS - * ** TMSS - TERMINATE PRU STREAM PROCESSOR. STPS STATE TERMINATE PRU STREAM PROCESSING LOPA 4IO,TMSS OVERLAY ORDINAL AND PROCESSOR ADDRESS EXIT DCR.3 EXIT TO CHECK OVERLAY PROCESSOR LOADED IISI TITLE INPUT INITIATOR RESPONSE ACTION PROCESSORS. QUAL ACTIONS IISI SPACE 2,26 ** INPUT INITIATOR RESPONSE ACTION IISI. * * INPUT INITIATOR RESPONSE ACTION IISI ASSURES THAT THERE * IS SUFFICIENT SPACE IN THE INBOUND BUFFER TO ACCEPT A * SHORT IVT MESSAGE FROM THE FRONT END. IF THE BUFFER * SPACE IS AVAILABLE THE DRIVER BUFFER POINTERS ARE * INITIALIZED. * * EXIT - * * (A) = MINUS ONE IF NO BUFFER SPACE, * (FBA-FBA+1) = ADDRESS OF FET BUFFER, * (CBA-CBA+1) = FET BUFFER ADDRESS FOR TEXT, * (LBA-LBA+1) = ADDRESS OF END OF FET BUFFER, * (NBH+C.BID) = NAM BUFFER ID, * (NBH+C.BWD+1) = CURRENT MESSAGE WORD LENGTH. * * CALLS - * * CIBS - CHECK AVAILABLE INBOUND BUFFER SPACE, ** IIIP - INITIALIZE FOR IVT INPUT. IISI BSS 0 CHECK BUFFER SPACE FOR SHORT IVT MESSAGE LDN /NAM/L.SIB LOAD BUFFER LENGTH FOR SHORT IVT MESSAGE IISI.1 LINK ENTRY RJM CIBS EXIT TO CHECK INBOUND BUFFER SPACE PJN IISI.3 EXIT IF INBOUND BUFFER SPACE AVAILABLE LDN /NAM/C.NBTIRJ+T10 IVT REJECT COUNTER BYTE OFFSET IISI.2 LINK ENTRY ADC /NAM/W.NBTNS*10000B+40000B DELTA FOR PIP REJECT COUNTER WORD * 10000B RJM UNSB EXIT TO INCREMENT PIP REJECT COUNT LCN 1 SET A-REGISTER TO MINUS ONE EXIT EIIAX RETURN VIA INPUT INITIATOR ACTION RETURN IISI.3 LDN /NAM/Q.IBID LOAD NAM INBOUND BUFFER ID RJM IIIP EXIT TO INITIALIZE FOR IVT INPUT LDN /NAM/L.BH+/NAM/L.NH LOAD LENGTH OF NAM HEADER WORDS STM NBH+/NAM/C.BWD+1 INITIALIZE MESSAGE WORD LENGTH EXIT EIIAX RETURN VIA INPUT INITIATOR ACTION RETURN IILI SPACE 2,26 ** INPUT INITIATOR RESPONSE ACTION IILI. * * INPUT INITIATOR RESPONSE ACTION IILI ASSURES THAT THERE * IS SUFFICIENT SPACE IN THE INBOUND BUFFER TO ACCEPT A * LONG IVT MESSAGE FROM THE FRONT END. IF THE BUFFER * SPACE IS AVAILABLE THE DRIVER BUFFER POINTERS ARE * INITIALIZED. * * EXIT - * * (A) = MINUS ONE IF NO BUFFER SPACE, * (FBA-FBA+1) = ADDRESS OF FET BUFFER, * (CBA-CBA+1) = FET BUFFER ADDRESS FOR TEXT, * (LBA-LBA+1) = ADDRESS OF END OF FET BUFFER, * (NBH+C.BID) = NAM BUFFER ID, * (NBH+C.BWD+1) = CURRENT MESSAGE WORD LENGTH. * * CALLS - * * CIBS - CHECK AVAILABLE INBOUND BUFFER SPACE, ** IIIP - INITIALIZE FOR IVT INPUT. IILI BSS 0 CHECK BUFFER SPACE FOR LONG IVT MESSAGE LDC /NAM/L.LIB LOAD BUFFER LENGTH FOR LONG IVT MESSAGE EXIT IISI.1 EXIT TO CHECK SPACE AVAILABLE IIPI SPACE 2,20 ** INPUT INITIATOR RESPONSE ACTION IIPI. * * INPUT INITIATOR RESPONSE ACTION IIPI ASSURES THAT THERE * IS A PRU LIMBO BUFFER OF THE CORRECT SIZE TO ACCEPT THE * PRU MESSAGE FROM THE FRONT END. * * ENTRY - * * (PRU) = PRU BUFFER SIZE ORDINAL. * * EXIT - * * (A) = NEGATIVE IF PRU BUFFER NOT AVAILABLE, * (BTI) = PRU BUFFER TABLE INDEX, ** (ALB) = INCREMENTED IF ADDITIONAL BUFFER REQUIRED. IIPI BSS 0 CHECK FOR AVAILABLE PRU BUFFER LDM BAT,PRU LOAD ADDRESS OF PRU BUFFER TABLE STD BTI STORE PRU BUFFER TABLE INDEX LDM NFB,BTI LOAD FREE BUFFER COUNT ZJN IIPI.1 EXIT IF NONE AVAILABLE SBN 1 CHECK GREATER THAN 1 AVAILABLE IIPI.0 NJN IISI EXIT GREATER THAN 1 AVAILABLE LDM MFB,BTI LOAD MIN/MAX BUFFER COUNTS LPN 77B EXTRACT MAXIMUM COUNT SBM INB,BTI LESS CURRENT INPUT ASSIGNMENT SBN 1 LESS THIS POSSIBLE ASSIGNMENT NJN IIPI.0 EXIT IF WILL NOT CAUSE ALL ASSIGNED TO I/P IIPI.1 AOM AFB,BTI INCREMENT ADDITIONAL FREE BUFFER REQUIRED LDN /NAM/C.NBTPRJ+T10 PRU REJECT COUNTER BYTE OFFSET EXIT IISI.2 EXIT TO SET A-REGISTER TO MINUS ONE OIIL TITLE OUTPUT INITIATOR RESPONSE ACTION PROCESSORS. TYPEACT MICRO 1,,*OUTINT* DEFINE ACTION TYPE OIIL SPACE 2,10 ** OUTPUT INITIATOR RESPONSE ACTION OIIL. * * OUTPUT INITIATOR RESPONSE ACTION OIIL PROCESSES * AN ILLEGAL OUTPUT INITIATOR RESPONSE ACTION BY ** TRANSFERRING CONTROL TO THE DRIVER ERROR ROUTINE. OIIL ACTION ILLEGAL OUTPUT INITIATOR RESPONSE EREXIT OIA EXIT TO ERROR - ILLEGAL OUTPUT INIT ACTION OINO SPACE 2,14 ** OUTPUT INITIATOR RESPONSE ACTION OINO. * * OUTPUT INITIATOR RESPONSE ACTION OINO PROCESSES A NO * OUTPUT REQUIRED ACTION RESPONSE BY RETURNING A NEGATIVE * VALUE TO THE OUTPUT INITIATOR ACTION EXECUTIVE. * * EXIT - * ** (A) = NEGATIVE. OINO ACTION NO OUTPUT OUTPUT INITIATOR RESPONSE LCN 1 SET A-REGISTER NEGATIVE EXIT EOIAX RETURN VIA OUTPUT INITIATOR ACTION RETURN OIOD TITLE IVT OUTPUT INITIATOR RESPONSE ACTION PROCESSORS. OIOD SPACE 2,32 ** IVT OUTPUT INITIATOR RESPONSE ACTION OIOD. * * IVT OUTPUT INITIATOR RESPONSE ACTION OIOD PROCESSES AN * IVT DATA OUTPUT TO THE FRONT END. THE IVT TEXT * PARAMETERS ARE VALIDATED AND THE LENGTH OF THE OUTPUT * BLOCK IS CALCULATED. * * ENTRY - * * (OPL) = OUTPUT PRIORITY LEVEL FOR STREAM, * (NNH-NNH+L.NH) = NAM NETWORK HEADER. * * EXIT - * * (OW) = NPU ORDER WORD IMAGE. * * ERROR EXITS - * * EXIT TO *ERROR* IF IVT OUTPUT PARAMETER ERROR. * * CALLS - * * EOVP - EXECUTE OUTPUT VALIDATION PROCESSOR. * * PROCESSOR CALLS - * ** OUTPUT VALIDATION PROCESSOR. OIOD ACTION SET TO TRANSFER IVT OUTPUT TO FRONT END LDN /BLOCK/L.DH LOAD LENGTH OF DATA HEADER RAM NNH+/NAM/C.MCC ADD HEADER LENGTH TO CHARACTER COUNT OIOT SPACE 2,32 ** IVT OUTPUT INITIATOR RESPONSE ACTION OIOT. * * IVT OUTPUT INITIATOR RESPONSE ACTION OIOT PROCESSES AN * IVT TEXT OUTPUT TO THE FRONT END. THE IVT TEXT * PARAMETERS ARE VALIDATED AND THE LENGTH OF THE OUTPUT * BLOCK IS CALCULATED. * * ENTRY - * * (OPL) = OUTPUT PRIORITY LEVEL FOR STREAM, * (NNH-NNH+L.NH) = NAM NETWORK HEADER. * * EXIT - * * (OW) = NPU ORDER WORD IMAGE. * * ERROR EXITS - * * EXIT TO *ERROR* IF IVT OUTPUT PARAMETER ERROR. * * CALLS - * * EOVP - EXECUTE OUTPUT VALIDATION PROCESSOR. * * PROCESSOR CALLS - * ** OUTPUT VALIDATION PROCESSOR. OIOT ACTION SET TO TRANSFER IVT TEXT TO FRONT END LDM NNH+/NAM/C.CBT LOAD APPLICATION CHARACTER TYPE BYTE SHN -/NAM/S.ACT APPLICATION CHARACTER TYPE TO LOW-ORDER LPN /NAM/L.ACT EXTRACT APPLICATION CHARACTER TYPE RJM EOVP EXIT TO EXECUTE OUTPUT VALIDATION PROCESSOR NJN OIOT.2 EXIT IF VALID OUTPUT REQUEST OIOT.1 LINK ENTRY EREXIT ILO EXIT TO ERROR - ILLEGAL OUTPUT BLOCK OIOT.2 LINK ENTRY LDM NNH+/NAM/C.MCC LOAD MESSAGE TEXT CHARACTER LENGTH ADN /BLOCK/L.BH PLUS NPU BLOCK HEADER CHARACTER LENGTH ADN 16-1 ROUND UP FOR MODULUS SIXTEEN SHN -4 CHARACTER LENGTH MODULUS SIXTEEN STD OW STORE LENGTH IN NPU ORDER WORD FORMAT LDD OPL LOAD OUTPUT PRIORITY LEVEL SHN /NORDER/S.NPUOL PRIORITY TO ORDER WORD FORMAT RAD OW ADD TO OUTPUT BLOCK LENGTH EXIT EOIAX RETURN VIA OUTPUT INITIATOR ACTION RETURN OIOH SPACE 2,24 ** IVT OUTPUT INITIATOR RESPONSE ACTION OIOH. * * IVT OUTPUT INITIATOR RESPONSE ACTION OIOH PROCESSES AN * OUTPUT TO THE FRONT END THAT CONSISTS OF THE BLOCK * PROTOCOL HEADER ONLY. THE MESSAGE LENGTH IS VALIDATED * AND THE LENGTH OF THE OUTPUT BLOCK IS CALCULATED. * * ENTRY - * * (OPL) = OUTPUT PRIORITY LEVEL FOR STREAM, * (NNH-NNH+L.NH) = NAM NETWORK HEADER. * * EXIT - * * (OW) = NPU ORDER WORD IMAGE. * * ERROR EXITS - * ** EXIT TO *ERROR* IF IVT OUTPUT PARAMETER ERROR. OIOH ACTION SET TO TRANSFER BLOCK PROTOCOL HEADER LDM NNH+/NAM/C.MCC LOAD MESSAGE TEXT CHARACTER LENGTH ZJN OIOT.2 EXIT IF CORRECT MESSAGE LENGTH EXIT OIOT.1 EXIT TO ERROR - ILLEGAL OUTPUT BLOCK OIOC SPACE 2,36 ** IVT OUTPUT INITIATOR RESPONSE ACTION OIOC. * * IVT OUTPUT INITIATOR RESPONSE ACTION OIOC PROCESSES AN * IVT COMMAND OUTPUT TO THE FRONT END. IF THE COMMAND IS * NOT ADDRESSED TO A FRONT END ON THE SERVICE CHANNEL THE * IVT TEXT PARAMETERS ARE VALIDATED AND THE LENGTH OF THE * OUTPUT BLOCK IS CALCULATED. * * ENTRY - * * (CN) = CONNECTION NUMBER OF COMMAND, * (TN) = TERMINAL NODE OF COMMAND, * (FEI) = FRONT END TABLE ADDRESS, * (HND) = HOST NODE ID, * (NBH-NBH+L.BH) = NAM BLOCK HEADER, * (OPL) = OUTPUT PRIORITY LEVEL FOR STREAM, * (NNH-NNH+L.NH) = NAM NETWORK HEADER. * * EXIT - * * (OW) = NPU ORDER WORD IMAGE. * * CALLS - * * EOVP - EXECUTE OUTPUT VALIDATION PROCESSOR, * COL - CHECK OVERLAY LOADED. * * PRCESSOR CALLS - * ** OUTPUT VALIDATION PROCESSOR. OIOC ACTION CHECK FOR COMMAND PROCESSED BY DRIVER LDD CN LOAD CONNECTION NUMBER OF OUTBOUND COMMAND NJN OIOT EXIT IF COMMAND NOT ON SERVICE CHANNEL LDD TN LOAD TERMINAL NODE OF OUTBOUND COMMAND LMM HND,FEI LESS NODE ID OF FRONT END NJN OIOT EXIT IF COMMAND NOT ADDRESSED TO FRONT END LOPA 2IQ,PDCM OVERLAY ORDINAL AND PROCESSOR ADDRESS EXIT DCR.3 EXIT TO CHECK OVERLAY PROCESSOR LOADED OIOF TITLE PRU OUTPUT INITIATOR RESPONSE ACTION PROCESSORS. OIOF SPACE 2,34 ** PRU OUTPUT INITIATOR RESPONSE ACTION OIOF. * * PRU OUTPUT INITIATOR RESPONSE ACTION OIOF PROCESSES AN * OUTPUT TO THE FRONT END THAT REQUIRES FLOW CONTROL. A * CHECK IS MADE TO ASSURE THAT THE NETWORK BLOCK LIMIT IS * NOT EXCEEDED FOR THE STREAM. THE BLOCK SERIAL NUMBER * FOR THE TRANSFER IS OBTAINED AND THE BLOCK SERIAL * NUMBER IS UPDATED FOR THE NEXT TRANSFER. THE * OUTSTANDING OUTPUT BACK COUNT IS INCREMENTED TO REFLECT * THE CURRENT TRANSFER TO THE FRONT END. * * ENTRY - * * (BSBN) = BLOCK SERIAL NUMBERS AND BACK COUNTS, * (NBL) = NETWORK BLOCK LIMT FOR STREAM, * (BHB+BNBT) = OUTPUT PRIORITY FOR STREAM, * (OPL) = OUTPUT PRIORITY LEVEL FOR STREAM, * (NNH+C.MCC) = OUTPUT MESSAGE CHARACTER COUNT. * * EXIT - * * (OW) = NPU ORDER WORD IMAGE, * (BSBN) = UPDATED FOR CURRENT TRANSFER, * (BHB+BNBT) = OUTPUT PRIORITY AND BLOCK NUMBER. * * ERROR EXITS - * ** EXIT TO *ERROR* IF FLOW CONTROL LOGIC ERROR. OIOF ACTION CHECK OUTPUT FLOW CONTROL LOPA 2IQ,PIOF OVERLAY ORDINAL AND PROCESSOR ADDRESS EXIT DCR.3 EXIT TO CHECK OVERLAY PROCESSOR LOADED OIOF.2 LINK ENTRY EREXIT DFC EXIT TO ERROR - DRIVER FLOW CONTROL ERROR OIOB SPACE 2,30 ** PRU OUTPUT INITIATOR RESPONSE ACTION OIOB. * * PRU OUTPUT INITIATOR RESPONSE ACTION OIOB PROCESSES THE * TRANSFER OF A BACK TO THE FRONT END. A CHECK IS MADE * TO ASSURE THAT A BACK IS OUTSTANDING ON THE STREAM. * THE BLOCK SERIAL NUMBER FOR THE BACK IS CALCULATED AND * THE OUTSTANDING INPUT BACK COUNT IS DECREMENTED. * * ENTRY - * * (BSBN) = BLOCK SERIAL NUMBERS AND BACK COUNTS, * (BHB+BNBT) = OUTPUT PRIORITY FOR STREAM, * (OPL) = OUTPUT PRIORITY LEVEL FOR STREAM, * (NNH+C.MCC) = OUTPUT MESSAGE CHARACTER COUNT. * * EXIT - * * (OW) = NPU ORDER WORD IMAGE, * (BSBN) = UPDATED FOR CURRENT TRANSFER, * (BHB+BNBT) = OUTPUT PRIORITY AND BLOCK NUMBER. * * ERROR EXITS - * ** EXIT TO *ERROR* IF NO OUTSTANDING BACKS ON STREAM. OIOB ACTION CHECK OUTSTANDING BACK LDD BSBC LOAD BLOCK SERIAL NUMBERS AND BACK COUNTS SHN -/NAM/S.IBC POSITION OUTSTANDING INPUT BACK COUNT LPN /NAM/L.IBC EXTRACT OUTSTANDING INPUT BACK COUNT ZJN OIOF.2 EXIT IF NO OUTSTANDING BACKS ON STREAM STD T0 STORE OUTSTANDING INPUT BACK COUNT LDD BSBC LOAD BLOCK SERIAL NUMBERS AND BACK COUNTS SHN -/NAM/S.IBN INPUT BLOCK SERIAL NUMBER TO LOW-ORDER SBD T0 LESS OUTSTANDING INPUT BLOCK COUNT LPN /NAM/L.IBN EXTRACT BLOCK SERIAL NUMBER FOR BACK NJN OIOB.1 EXIT IF NO COUNTER WRAP AROUND LDN 8-1 FORCE BLOCK SERIAL NUMBER TO MAXIMUM VALUE OIOB.1 SHN /BLOCK/S.BSN POSITION BLOCK NUMBER TO NPU FORMAT RAM BHB+/BLOCK/BNBT ADD TO BLOCK PRIORITY FOR STREAM LDC 777777B-/NAM/I.IBC VALUE TO DECREMENT INPUT BACK COUNT RAD BSBC DECREMENT OUTSTANDING INPUT BACK COUNT OIIC SPACE 2,18 ** PRU OUTPUT INITIATOR RESPONSE ACTION OIIC. * * PRU OUTPUT INITIATOR RESPONSE ACTION OIIC PROCESSES * THE TRANSFER OF AN INTERRUPT COMMAND TO THE FRONT END. * * ENTRY - * * (OPL) = OUTPUT PRIORITY LEVEL FOR STREAM, * (NNH+C.MCC) = OUTPUT MESSAGE CHARACTER COUNT. * * EXIT - * ** (OW) = NPU ORDER WORD IMAGE. OIIC ACTION SET TO TRANSFER INTERRUPT COMMAND OIRS SPACE 2,18 ** PRU OUTPUT INITIATOR RESPONSE ACTION OIRS. * * PRU OUTPUT INITIATOR RESPONSE ACTION OIRS * PROCESSES THE TRANSFER OF A RESET TO THE FRONT END. * * ENTRY - * * (OPL) = OUTPUT PRIORITY LEVEL FOR STREAM, * (NNH+C.MCC) = OUTPUT MESSAGE CHARACTER COUNT. * * EXIT - * ** (OW) = NPU ORDER WORD IMAGE. OIRS ACTION SET TO TRANSFER RESET TO FRONT END EXIT OIOT.2 EXIT TO CALCULATE OUTPUT ORDER WORD VPEB TITLE IVT OUTPUT VALIDATION ACTION PROCESSORS. QUAL VPEB SPACE 2,16 ** IVT OUTPUT VALIDATION ACTION PROCESSOR VPEB. * * IVT OUTPUT VALIDATION ACTION PROCESSOR VPEB SETS THE * OUTPUT PARAMETERS FOR AN IVT OUTPUT OF PACKED EIGHT * BIT DATA. * * EXIT - * * (OCB) = OUTPUT CHARACTERS PER DRIVER BUFFER, ** (OCP) = ADDRESS OF OUTPUT CHARACTER PROCESSOR. VPEB BSS 0 VALIDATE EIGHT BIT PACKED OUTPUT REQUEST LDC L.DBCM*15/2 LOAD CHARACTERS PER DRIVER BUFFER STD OCB STORE CHARACTERS PER DRIVER BUFFER LDC FEOP LOAD ADDRESS OF OUTPUT CHARACTER PROCESSOR VPEB.1 LINK ENTRY STD OCP STORE ADDRESS OF OUTPUT CHARACTER PROCESSOR EXIT EOVPX RETURN VIA VALIDATION PROCESSOR RETURN VUEB SPACE 2,16 ** IVT OUTPUT VALIDATION PROCESSOR VUEB. * * IVT OUTPUT VALIDATION ACTION PROCESSOR VUEB SETS THE * OUTPUT PARAMETERS FOR AN IVT OUTPUT OF UNPACKED EIGHT * BIT DATA. * * EXIT - * * (OCB) = OUTPUT CHARACTERS PER DRIVER BUFFER, ** (OCP) = ADDRESS OF OUTPUT CHARACTER PROCESSOR. VUEB BSS 0 VALIDATE EIGHT BIT UNPACKED OUTPUT REQUEST LDC L.DBCM*5 LOAD CHARACTERS PER DRIVER BUFFER STD OCB STORE CHARACTERS PER DRIVER BUFFER LDC TTBF LOAD ADDRESS OF OUTPUT CHARACTER PROCESSOR EXIT VPEB.1 EXIT TO STORE CHARACTER PROCESSOR ADDRESS VDSB SPACE 2,16 ** IVT OUTPUT VALIDATION PROCESSOR VDSB. * * IVT OUTPUT VALIDATION ACTION PROCESSOR VDSB SETS THE * OUTPUT PARAMETERS FOR AN IVT OUTPUT OF DISPLAY CODE * DATA. * * EXIT - * * (OCB) = OUTPUT CHARACTERS PER DRIVER BUFFER, ** (OCP) = ADDRESS OF OUTPUT CHARACTER PROCESSOR. VDSB BSS 0 VALIDATE DISPLAY CODE OUTPUT REQUEST LDC L.DBCM*10 LOAD CHARACTERS PER DRIVER BUFFER STD OCB STORE CHARACTERS PER DRIVER BUFFER LDC TDCI LOAD ADDRESS OF OUTPUT CHARACTER PROCESSOR EXIT VPEB.1 EXIT TO STORE CHARACTER PROCESSOR ADDRESS TCRN TITLE COMMAND ACTION RETURN POINTS. QUAL ACTIONS TCRN SPACE 2,16 ** COMMAND ACTION RETURN POINT TCRN. * * COMMAND ACTION RETURN POINT TCRN PROCESSES A * COMMAND ACTION PROCESSOR RETURN THAT REQUIRES A COMMAND * RESPONSE TO BE TRANSFERRED TO THE INBOUND BUFFER. * * CALLS - * * COL - CHECK OVERLAY LOADED, ** TCR - TRANSFER COMMAND RESPONSE. * CODE IS PLACED IN EBRA TO SAVE SPACE AND TIME. IBIL TITLE INPUT BLOCK RESPONSE ACTION PROCESSORS. TYPEACT MICRO 1,,*BLKIN* DEFINE ACTION TYPE IBIL SPACE 2,10 ** INPUT BLOCK RESPONSE ACTION IBIL. * * INPUT BLOCK RESPONSE ACTION IBIL PROCESSES AN ILLEGAL * INPUT BLOCK RESPONSE ACTION BY TRANSFERRING CONTROL ** TO THE DRIVER ERROR PROCESSOR. IBIL ACTION ILLEGAL INPUT BLOCK RESPONSE EREXIT IBI EXIT TO ERROR - INPUT BLOCK RESPONSE ERROR IBPB SPACE 2,24 ** INPUT BLOCK RESPONSE ACTION IBPB. * * INPUT BLOCK RESPONSE ACTION IBPB PROCESSES THE RECEIPT * OF A BREAK ON A PRU CONNECTION. IF THE BREAK IS OF * THE CORRECT FORMAT AN ERROR EXIT IS TAKEN TO TRANSFER * CONTROL TO THE LEVEL SEVEN ERROR ROUTINE. * * ENTRY - * * (EOT) = END OF TRANSFER FLAG. * * ERROR EXITS - * * EXIT TO *ERROR* IF BREAK FORMAT ERROR, * EXIT TO *ERROR* FOR LEVEL SEVEN ERROR CONTROL. * * MACRO CALLS - * ** CLIO - CALL LOGICAL INPUT/OUTPUT INTERFACE. IBPB ACTION PROCESS BREAK ON PRU CONNECTION LDD EOT LOAD END OF TRANSFER FLAG NJN IBIL EXIT IF END OF TRANSFER RECEIVED EREXIT TBR EXIT TO ERROR - BREAK RECEIVED PRU STREAM IBIB SPACE 2,36 ** INPUT BLOCK RESPONSE ACTION IBIB. * * INPUT BLOCK RESPONSE ACTION IBIB PROCESSES RECEPTION * OF A BACK FROM THE FRONT END. A CHECK IS MADE TO * ASSURE THAT A BACK IS OUTSTANDING ON THE STREAM. THE * BLOCK SERIAL NUMBER RECEIVED FROM THE FRONT END IS * CHECKED AGAINST THE EXPECTED BLOCK SERIAL NUMBER AND * THE OUTSTANDING OUTPUT BACK COUNT IS DECREMENTED. * * ENTRY - * * (BSBN) = BLOCK SERIAL NUMBERS AND BACK COUNTS, * (BHB+BNBT) = BLOCK SERIAL NUMBER FROM FRONT END, * * EXIT - * * (BSBC) = UPDATED FOR CURRENT TRANSFER. * * ERROR EXITS - * * EXIT TO *ERROR* IF FLOW CONTROL LOGIC ERROR, * EXIT TO *ERROR* IF BLOCK NUMBER SEQUENCE ERROR. * * CALLS - * * EBRA - EXECUTE BLOCK RESPONSE ACTION. * * PROCESSOR CALLS - * ** BLOCK HANDLER STATE ACTION RESPONSE PROCESSOR. IBIB ACTION CHECK OUTSTANDING BACK AND BLOCK NUMBER LDD BSBC LOAD BLOCK SERIAL NUMBERS AND BACK COUNTS LPN /NAM/L.OBC EXTRACT OUTSTANDING OUTPUT BACK COUNT NJN IBIB.2 EXIT IF OUTSTANDING BACK ON STREAM IBIB.1 LINK ENTRY EREXIT NFC EXIT TO ERROR - FLOW CONTROL ERROR IBIB.2 STD T0 STORE OUTSTANDING OUTPUT BACK COUNT LDD BSBC LOAD BLOCK SERIAL NUMBERS AND BACK COUNTS SHN -/NAM/S.OBN OUTPUT BLOCK SERIAL NUMBER TO LOW-ORDER LPN /NAM/L.OBN EXTRACT OUTPUT BLOCK SERIAL NUMBER SBD T0 LESS OUTSTANDING OUTPUT BACK COUNT NJN IBIB.3 EXIT IF NO COUNTER WRAP AROUND LDN 8-1 FORCE BLOCK SERIAL NUMBER TO MAXIMUM VALUE IBIB.3 SHN /BLOCK/S.BSN POSITION BLOCK NUMBER TO NPU FORMAT LMM BHB+/BLOCK/BNBT LESS BLOCK SERIAL NUMBER FORM NPU LPC /BLOCK/M.BSN EXTRACT BLOCK SERIAL NUMBER DIFFERENCE ZJN IBIB.5 EXIT IF BLOCK SERIAL NUMBERS MATCH IBIB.4 LINK ENTRY EREXIT NSE EXIT TO ERROR - BLOCK SEQUENCE ERROR IBIB.5 SOD BSBC DECREMENT OUTSTANDING BACK COUNT UJN IBIF.0 EXIT TO UPDATE L7 TIMER IF A-A CONNECTION IBIF SPACE 2,44 ** INPUT BLOCK RESPONSE ACTION IBIF. * * INPUT BLOCK RESPONSE ACTION IBIF PROCESSES AN INPUT * FROM THE FRONT END THAT REQUIRES FLOW CONTROL. A CHECK * IS MADE TO ASSURE THAT THE MAXIMUM UPLINE BLOCK LIMIT * IS NOT EXCEEDED FOR THE STREAM. THE BLOCK SERIAL * NUMBER OF THE INPUT IS CHECKED AGAINST THE EXPECTED * BLOCK SERIAL NUMBER. THE BLOCK SERIAL NUMBER IS * UPDATED FOR THE NEXT TRANSFER AND THE INPUT BACK COUNT * INCREMENTED TO REFLECT THE CURRENT TRANSFER FROM THE * FRONT END. IF THE CONNECTION IS AN APPLICATION TO * APPLICATION CONNECTION THE LEVEL SEVEN TIMER IS RESET. * * ENTRY - * * (BSBC) = BLOCK SERIAL NUMBERS AND BACK COUNTS, * (BHB+BNBT) = BLOCK SERIAL NUMBER FROM FRONT END, * (AAC) = APPLICATION TO APPLICATION FLAG. * * EXIT - * * (BSBC) = UPDATED FOR CURRENT TRANSFER, * (W.PCBPS6+C.PCBL7T) = RESET. * * ERROR EXITS - * * EXIT TO *ERROR* IF FLOW CONTROL LOGIC ERROR, * EXIT TO *ERROR* IF BLOCK NUMBER SEQUENCE ERROR. * * CALLS - * * RSPB - READ AND STORE ADDRESS OF PCB WORD, * WCMW - WRITE WORD TO PCB, * EBRA - EXECUTE BLOCK RESPONSE ACTION. * * PROCESSOR CALLS - * ** BLOCK HANDLER STATE ACTION RESPONSE PROCESSOR. IBIF ACTION CHECK FLOW CONTROL AND INCREMENT COUNTERS LDD BSBC LOAD BLOCK SERIAL NUMBERS AND BACK COUNTS SHN -/NAM/S.IBN+/BLOCK/S.BSN INPUT BLOCK SERIAL NUMBER POSITIONED TO NPU FORMAT LMM BHB+/BLOCK/BNBT LESS BLOCK SERIAL NUMBER FROM NPU LPC /BLOCK/M.BSN EXTRACT BLOCK SERIAL NUMBER DIFFERENCE NJN IBFF.1 EXIT IF BLOCK SERIAL NUMBERS DIFFER LDD BSBC LOAD BLOCK SERIAL NUMBERS AND BACK COUNTS SHN -/NAM/S.IBC OUTSTANDING INPUT BACK COUNT TO LOW-ORDER LPN /NAM/L.IBC EXTRACT OUTSTANDING INPUT BACK COUNT SBN 7 LESS MAXIMUM UPLINE BLOCK LIMIT ZJN IBFF.2 EXIT IF UPLINE BLOCK LIMIT EXCEEDED LDC /NAM/I.IBN&/NAM/I.IBC INCREMENTS FOR NUMBER AND COUNT RAD BSBC INCREMENT BLOCK NUMBER AND BACK COUNT SHN -12 POSITION POSSIBLE CARRY TO LOW-ORDER SHN /NAM/S.IBN POSSIBLE CARRY TO INPUT BLOCK NUMBER RAD BSBC ADD POSSIBLE CARRY TO INPUT BLOCK NUMBER IBIF.0 LINK ENTRY LDD AAC LOAD APPLICATION TO APPLICATION FLAG ZJN IBNA EXIT IF NOT APPLICATION TO APPLICATION LDN /NAM/W.PCBPS6 PRU STREAM PARAMETER SIX WORD ORDINAL RJM RSPB EXIT TO READ PRU PARAMETER WORD FROM PCB LDK RTCL LOAD ADDRESS OF SYSTEM REAL-TIME CLOCK CRD T1 READ SYSTEM REAL-TIME CLOCK LDD T1+1 LOAD SYSTEM SECOND TIME ADK Q.L7TO PLUS LEVEL SEVEN TIMEOUT QUANTUM STD T10+/NAM/C.PCBL7T STORE LEVEL SEVEN TIMER RJM WCMW EXIT TO WRITE PRU PARAMETER WORD TO PCB IBNA SPACE 2,18 ** INPUT BLOCK RESPONSE ACTION IBNA. * * INPUT BLOCK RESPONSE ACTION IBNA PROCESSES A NO ACTION * INPUT BLOCK RESPONSE BY CALLING THE BLOCK HANDLER STATE * ACTION RESPONSE PROCESSOR. * * CALLS - * * EBRA - EXECUTE BLOCK RESPONSE ACTION. * * PROCESSOR CALLS - * ** BLOCK HANDLER STATE ACTION RESPONSE PROCESSOR. IBNA ACTION NO ACTION INPUT BLOCK RESPONSE ACTION QUAL STATES EXIT BIAS.6 EXIT TO EXECUTE BLOCK RESPONSE ACTION QUAL ACTIONS IBFF SPACE 2,26 ** INPUT BLOCK RESPONSE ACTION IBFF. * * INPUT BLOCK RESPONSE ACTION IBFF PROCESSES AN INPUT OF * A BLOCK BLOCK TO A PRU CONNECTION. IF THE BLOCK IS * RECEIVED AFTER FT/OFF IS SENT TO THE FRONT END FOR END * OF FILE TRANSFER, NO ACTION IS TAKEN. OTHERWISE, BLOCK * PROTOCOL ERROR EXIT IS MADE. * * ERROR EXITS - * * EXIT TO *ERROR* IF BLOCK PROTOCOL ERROR. * * CALLS - * * RPCB - READ PCB WORD, * EBRA - EXECUTE BLOCK RESPONSE ACTION. * * PROCESSOR CALLS - * ** BLOCK HANDLER STATE ACTION RESPONSE PROCESSOR. IBFF.1 LINK ENTRY FOR BLOCK SEQUENCE ERROR LDN /ERROR/NSE-/ERROR/NFC DELTA FOR ERROR CODE IBFF.2 LINK ENTRY FOR FLOW CONTROL ERROR ADN /ERROR/NFC-100B SET UP ERROR CODE UJN IBFF.3 EXIT TO CHECK FILE TRANSFER MODE IBFF ACTION LDN /ERROR/IBI-100B SET UP INPUT BLOCK RESPONSE ERROR IBFF.3 STD T17 STORE ERROR CODE LDN /NAM/W.PCBPS6 PRU STREAM PARAMETER SIX WORD ORDINAL RJM RPCB EXIT TO READ PRU PARAMETER WORD FROM PCB LDD T10+/NAM/C.PCBFTS LOAD FILE TRANSFER STATUS BYTE LPN /NAM/B.PCBFTF EXTRACT FILE TRANSFER OFF FLAG NJN IBNA EXIT IF FILE TRANSFER IS OFF LDD T17 LOAD ERROR CODE EXIT ERROR EXIT TO ERROR OBIL TITLE OUTPUT BLOCK RESPONSE ACTION PROCESSORS. OBIL SPACE 2,10 ** OUTPUT BLOCK RESPONSE ACTION OBIL. * * OUTPUT BLOCK RESPONSE ACTION OBIL PROCESSES AN ILLEGAL * OUTPUT BLOCK RESPONSE ACTION BY TRANSFERRING CONTROL TO ** THE DRIVER ERROR ROUTINE. OBIL BSS 0 ILLEGAL OUTPUT BLOCK RESPONSE ACTION EREXIT OBI EXIT TO ERROR - OUTPUT BLOCK RESPONSE ERROR OBTH SPACE 2,30 ** OUTPUT BLOCK RESPONSE ACTION OBTH. * * OUTPUT BLOCK RESPONSE ACTION OBTH PROCESSES AN OUTPUT * MESSAGE TO THE FRONT END. IF THE OUTPUT MESSAGE * CONSISTS OF THE BLOCK PROTOCOL HEADER ONLY THE REQUEST * FOR END OF TRANSFER IS SET. THE BLOCK PROTOCOL HEADER * IS TRANSFERRED TO THE FRONT END. * * ENTRY - * * (NNH+C.MCC) = MESSAGE TEXT CHARACTER COUNT, * (BHB-BHB+L.BH) = BLOCK PROTOCOL HEADER. * * CALLS - * * EBRA - EXECUTE BLOCK RESPONSE ACTION. * * MACRO CALLS - * * FEIO - LOGICAL INPUT/OUTPUT INTERFACE. * * PROCESSOR CALLS - * ** BLOCK HANDLER STATE ACTION RESPONSE PROCESSOR. OBTH BSS 0 TRANSFER BLOCK PROTOCOL HEADER LDM NNH+/NAM/C.MCC LOAD MESSAGE TEXT CHARACTER COUNT NJN OBTH.2 EXIT IF MESSAGE TEXT LDN 1 CONSTANT OF ONE OBTH.1 STD REOT STORE END OF TRANSFER REQUEST FLAG FEIO FEOH OUTPUT BLOCK PROTOCOL HEADER TO FRONT END QUAL STATES EXIT BIAS.6 EXIT TO EXECUTE BLOCK RESPONSE ACTION QUAL ACTIONS OBTH.2 LDN 0 CONSTANT OF ZERO UJK OBTH.1 EXIT TO RESET END OF TRANSFER REQUEST BRIL TITLE BLOCK HANDLER STATE RESPONSE ACTION PROCESSORS. TYPEACT MICRO 1,,*BLOCK* DEFINE ACTION TYPE BRIL SPACE 2,10 ** BLOCK HANDLER STATE RESPONSE ACTION BRIL. * * BLOCK HANDLER STATE RESPONSE ACTION BRIL PROCESSES AN * ILLEGAL BLOCK HANDLER STATE RESPONSE ACTION BY ** TRANSFERRING CONTROL TO THE DRIVER ERROR ROUTINE. BRIL ACTION ILLEGAL BLOCK HANDLER STATE RESPONSE ACTION EREXIT IBR EXIT TO ERROR - ILLEGAL BLOCK RESPONSE BRLE SPACE 2,10 ** BLOCK HANDLER STATE RESPONSE ACTION BRLE. * * BLOCK HANDLER STATE RESPONSE ACTION BRLE PROCESSES AN * ILLOGICAL BLOCK HANDLER STATE RESPONSE ACTION BY ** TRANSFERRING CONTROL TO THE DRIVER ERROR ROUTINE. BRLE ACTION ILLOGICAL BLOCK HANDLER STATE RESPONSE EREXIT BRE EXIT TO ERROR - ILLOGICAL BLOCK RESPONSE BRAE SPACE 2,12 ** BLOCK HANDLER STATE RESPONSE ACTION BRAE. * * BLOCK HANDLER STATE RESPONSE ACTION BRAE PROCESSES AN * ILLOGICAL BLOCK HANDLER STATE RESPONSE ACTION FROM AN * APPLICATION BY TRANSFERRING TO THE DRIVER ERROR ** ROUTINE. BRAE ACTION ILLEGAL APPLICATION BLOCK STATE RESPONSE EREXIT IAR EXIT TO ERROR - ILLEGAL APPLICATION REQUEST BRPT SPACE 2,22 ** BLOCK HANDLER STATE RESPONS ACTION BRPT. * * BLOCK HANDLER STATE RESPONSE ACTION BRPT ALLOWS A * COMMAND ADDRESSED TO A FRONT END THAT IS NOT PROCESSED * BY THE DRIVER TO BE PASSED THROUGH TO THE FRONT END. * * CALLS - * * GTE - GET DRIVER CONTROL TABLE ENTRY, * RCO - REQUEST COUPLER OUTPUT, * EORA - EXECUTE OUTPUT RESPONSE ACTION, * EBRA - EXECUTE BLOCK STATE RESPONSE ACTION. * * PROCESSOR CALLS - * * OUTPUT BLOCK RESPONSE ACTION PROCESSOR, ** BLOCK HANDLER STATE RESPONSE ACTION PROCESSOR. BRPT ACTION ALLOW COMMAND PASS THROUGH LDC /TABLES/IOIT+/BLOCK/CMD COMMAND RESPONSE TABLE ENTRY RJM GTE EXIT TO GET RESPONSE TABLE ENTRY SHN -S.CTLCD POSITION CONTROL CODE TO LOW-ORDER STD CTL STORE CONTROL CODE FROM TABLE ENTRY UJK /STATES/BIAS.1 EXIT TO REQUEST COUPLER OUTPUT BRDI SPACE 2,36 ** BLOCK HANDLER STATE RESPONSE ACTION BRDI. * * BLOCK HANDLER STATE RESPONSE ACTION BRDI PROCESSES THE * RECEIPT OF A DATA MESSAGE ON AN IVT STREAM FROM THE * FRONT END. THE DATA HEADER MESSAGE IS ACCEPTED AND * PACKED WITH THE BLOCK PROTOCOL HEADER TO FORM THE NAM * NETWORK HEADER. THE STREAM STATE RESPONSE ACTION FOR * THE INPUT IS EXECUTED AND THE IVT STATISTICS ARE * UPDATED IN THE FRONT END TABLE. * * ENTRY - * * (BHB-BHB+L.BH) = BLOCK PROTOCOL HEADER, * (FEI) = FRONT END TABLE ADDRESS. * * EXIT - * * (DHB-DHB+L.DH) = DATA HEADER FROM FRONT END, * (NNH-NNH+L.NH) = NAM NETWORK HEADER, * (IMC) = UPDATED FOR CURRENT MESSAGE, * (ICC-ICC+1) = UPDATED FOR CURRENT MESSAGE. * * CALLS - * * IDH - INPUT DATA HEADER FROM NPU, * PKD - PACK DATA TEXT, * ESRA - EXECUTE STREAM STATE RESPONSE ACTION. * * PROCESSOR CALLS - * ** STREAM STATE RESPONSE ACTION PROCESSOR. BRDI ACTION INPUT DATA HEADER FOR IVT DATA RJM IDH EXIT TO INPUT DATA HEADER FROM NPU ZJN BRDI.2 EXIT IF DATA HEADER FORMAT CORRECT BRDI.1 LINK ENTRY EREXIT DHE EXIT TO ERROR - DATA HEADER FORMAT ERROR BRDI.2 LINK ENTRY LDC NNH LOAD ADDRESS OF NAM NETWORK HEADER STD T2 STORE DESTINATION DATA ADDRESS ADN BHB-NNH DELTA FOR BLOCK PROTOCOL HEADER BUFFER STD T1 STORE SOURCE DATA ADDRESS LDN /BLOCK/L.BH+/BLOCK/L.DH LENGTH OF BLOCK AND DATA HEADER RJM PKD EXIT TO PACK INTO NAM NETWORK HEADER LDN 0 CONSTANT OF ZERO STM NNH+/NAM/C.MCC INITIALIZE MESSAGE TEXT CHARACTER COUNT LDM DHB+/BLOCK/DBC LOAD DATA BLOCK CLARIFIER SHN -/BLOCK/S.PRU POSITION PRU FLAG TO LOW-ORDER ZJN BRDI.3 EXIT IF NOT PRU FORMAT LDN /TABLES/.SRII-/TABLES/.SRID DELTA FOR INVALID INPUT BRDI.3 LINK ENTRY ADN /TABLES/.SRID DELTA FOR INPUT DATA ACTION ORDINAL BRDI.4 LINK ENTRY RJM ESRA EXIT TO EXECUTE STREAM RESPONSE ACTION BRDI.5 LINK ENTRY LDD NCC LOAD NPU MESSAGE CHARACTER COUNT ZJN BRNA EXIT IF NO MESSAGE TRANSFERRED LDD STS LOAD STREAM STATES ZJN BRDI.6 EXIT IF NOT PRU STREAM LDN PMC-IMC DELTA FOR PRU STREAM STATISTICS BRDI.6 ADD FEI PLUS FRONT END TABLE ADDRESS STD T1 STORE FRONT END TABLE OFFSET FOR STATISTICS AOM IMC,T1 INCREMENT MESSAGE COUNT LDD NCC LOAD MESSAGE CHARACTER COUNT RAM ICC+1,T1 ADD TO LOW-ORDER OF CHARACTER COUNT SHN -12 POSITION CARRY RAM ICC,T1 ADD TO HIGH-ORDER OF CHARACTER COUNT BRNA SPACE 2,10 ** BLOCK HANDLER STATE RESPONSE ACTION BRNA. * * BLOCK HANDLER STATE RESPONSE ACTION BRNA PROCESSES A * NO ACTION BLOCK RESPONSE BY RETURNING BY WAY OF THE ** BLOCK HANDLER STATE RESPONSE ACTION EXECUTIVE. BRNA ACTION NO ACTION BLOCK HANDLER STATE RESPONSE EXIT EBRAX RETURN VIA BLOCK STATE ACTION RETURN BRBO SPACE 2,18 ** BLOCK HANDLER STATE RESPONSE ACTION BRBO. * * BLOCK HANDLER STATE RESPONSE ACTION BRBO * BYPASSES THE CURRENT IVT OUTPUT MESSAGE. * * ENTRY - * * (FBA-FBA+1) = ADDRESS OF HEADER WORD * FOR CURRENT IVT MESSAGE. * * CALLS - * ** UFOP - UPDATE FET OUT DATA POINTER. BRBO ACTION BYPASS OUTPUT BLOCK HANDLER RESPONSE RJM UFOP EXIT TO UPDATE FET OUT DATA POINTER EXIT EBRAX RETURN VIA BLOCK STATE ACTION RETURN BRIH SPACE 2,28 ** BLOCK HANDLER STATE RESPONSE ACTION BRIH. * * BLOCK HANDER STATE RESPONSE ACTION BRIH PROCESSES THE * RECEIPT OF A DATA MESSAGE ON A PRU STREAM FROM THE * FRONT END. THE DATA MESSAGE HEADER IS ACCEPTED, THE * STREAM STATE RESPONSE ACTION FOR THE INPUT IS EXECUTED * AND THE PRU STATISTICS ARE UPDATED IN THE FRONT END * TABLE. * * EXIT - * * (DHB-DHB+L.DH) = DATA HEADER FROM FRONT END, * (PMC) = UPDATED FOR CURRENT MESSAGE, * (PCC-PCC+1) = UPDATED FOR CURRENT MESSAGE. * * CALLS - * * IDH - INPUT DATA HEADER FROM NPU. * ESRA - EXECUTE STREAM STATE RESPONSE ACTION. * * PROCESSOR CALLS - * ** STREAM STATE RESPONSE ACTION PROCESSOR. BRIH ACTION INPUT DATA HEADER FOR PRU STREAMS RJM IDH EXIT TO INPUT DATA HEADER FROM NPU ZJN BRDI.3 EXIT IF DATA HEADER FORMAT CORRECT EXIT BRDI.1 EXIT TO ERROR - DATA HEADER FORMAT ERROR BRBK SPACE 2,16 ** BLOCK HANDLER STATE RESPONSE ACTION BRBK. * * BLOCK HANDLER STATE RESPONSE ACTION BRBK PROCESSES THE * RECEIPT OF A BACK ON AN IVT STREAM FROM THE NPU. * A CM WORD IS PLACED IN PIP INBOUND BUFFER AND THE * POINTER IS INCREMENTED TO INCLUDE THE WORD. * THE PROCESSING CONTINUES ON THE NEXT PROCESSOR BRNI. * * CALLS - * ** WDIB - WRITE DATA TO THE INBOUND BUFFER. BRBK ACTION GENERATE EXTRA WORD FOR AN IVT BACK LDN 1 LOAD EXTRA CM WORD COUNT STD T7 STORE AS DATA LENGTH WORD COUNT RAM NBH+/NAM/C.BWD+1 ADD TO MESSAGE WORD COUNT LDN ZERL LOAD ADDRESS OF ZERO WORD CRD T10 GENERATE A CENTRAL WORD OF ZEROES LDN T10 LOAD ADDRESS OF ZERO WORD RJM WDIB EXIT TO WRITE ZERO WORD TO INBOUND BUFFER BRNI SPACE 2,32 ** BLOCK HANDLER STATE RESPONSE ACTION BRNI. * * BLOCK HANDLER STATE RESPONSE ACTION BRNI PROCESSES THE * RECEIPT OF A MESSAGE ON AN IVT STREAM FROM THE FRONT * END THAT CONSISTS OF THE BLOCK PROTOCOL HEADER ONLY. * A CHECK IS MADE TO ASSURE THAT THE END OF TRANSFER HAS * BEEN RECEIVED, THE STREAM STATE RESPONSE ACTION FOR A * NULL TEXT INPUT IS EXECUTED AND THE IVT STATISTICS ARE * UPDATED IN THE FRONT END TABLE. * * ENTRY - * * (EOT) = END OF TRANSFER RECEIVED FLAG, * (BHB-BHB+L.BH) = BLOCK PROTOCOL HEADER. * * EXIT - * * (IMC) = UPDATED FOR CURRENT MESSAGE, * (ICC-ICC+1) = UPDATED FOR CURRENT MESSAGE. * * CALLS - * * ESRA - EXECUTE STREAM STATE RESPONSE ACTION. * * PROCESSOR CALLS - * ** STREAM STATE RESPONSE ACTION PROCESSOR. BRNI ACTION VALIDATE NULL IVT TEXT INPUT FROM FRONT END LDD EOT LOAD END OF TRANSFER FLAG NJN BRNI.2 EXIT IF END OF TRANSFER RECEIVED BRNI.1 LINK ENTRY EREXIT MFE EXIT TO ERROR - MESSAGE FORMAT ERROR BRNI.2 LINK ENTRY LDN 0 CONSTANT OF ZERO STM DHB+/BLOCK/DBC ZERO DATA BLOCK CLARIFIER EXIT BRDI.2 EXIT TO FORM NAM NETWORK HEADER BRND SPACE 2,32 ** BLOCK HANDLER STATE RESPONSE ACTION BRND. * * BLOCK HANDLER STATE RESPONSE ACTION BRND PROCESSES THE * RECEIPT OF A MESSAGE ON AN IVT STREAM FROM A FRONT END * THAT DOES NOT CONTAIN A DATA HEADER. A CHECK IS MADE * TO ASSURE THAT THE END OF TRANSFER HAS NOT BEEN * RECEIVED, THE STREAM STATE RESPONSE ACTION FOR THE * INPUT IS EXECUTED AND THE IVT STATISTICS ARE UPDATED * IN THE FRONT END TABLE. * * ENTRY - * * (EOT) = END OF TRANSFER RECEIVED FLAG, * (BHB-BHB+L.BH) = BLOCK PROTOCOL HEADER. * * EXIT - * * (IMC) = UPDATED FOR CURRENT MESSAGE, * (ICC-ICC+1) = UPDATED FOR CURRENT MESSAGE. * * CALLS - * * ESRA - EXECUTE STREAM STATE RESPONSE ACTION. * * PROCESSOR CALLS - * ** STREAM STATE RESPONSE ACTION PROCESSOR. BRND ACTION ACCEPT NON-DATA IVT TEXT FROM FRONT END LDD EOT LOAD END OF TRANSFER FLAG NJN BRNI.1 EXIT IF END OF TRANSFER RECEIVED EXIT BRNI.2 EXIT TO ZERO DATA BLOCK CLARIFIER BRIB SPACE 2,34 ** BLOCK HANDLER STATE RESPONSE ACTION BRIB. * * BLOCK HANDLER STATE RESPONSE ACTION BRIB PROCESSES THE * RECEIPT OF A BACK ON A PRU STREAM FROM THE FRONT END. * A CHECK IS MADE TO ASSURE THAT THE END OF TRANSFER HAS * BEEN RECEIVED, THE STREAM STATE RESPONSE ACTION FOR THE * BACK IS EXECUTED AND THE PRU STATISTICS ARE UPDATED IN * THE FRONT END TABLE. * * ENTRY - * * (EOT) = END OF TRANSFER RECEIVED FLAG. * * EXIT - * * (PMC) = UPDATED FOR CURRENT MESSAGE, * (PCC-PCC+1) = UPDATED FOR CURRENT MESSAGE. * * ERROR EXITS - * * EXIT TO *ERROR* IF BACK FORMAT ERROR. * * CALLS - * * ESRA - EXECUTE STREAM STATE RESPONSE ACTION. * * PROCESSOR CALLS - * ** STREAM STATE RESPONSE ACTION PROCESSOR. BRIB ACTION VALIDATE BACK FOR PRU STREAMS LDD EOT LOAD END OF TRANSFER RECEIVED FLAG NJN BRIB.1 EXIT IF END OF TRANSFER RECEIVED EREXIT BFE EXIT TO ERROR ROUTINE - BACK FORMAT ERROR BRIB.1 LDN /TABLES/.SRIB LOAD BACK RECEIVED ACTION ORDINAL EXIT BRDI.4 EXIT TO EXECUTE STREAM RESPONSE ACTION BROR SPACE 2,26 ** BLOCK HANDLER STATE RESPONSE ACTION BROR. * * BLOCK HANDLER STATE RESPONSE ACTION BROR PROCESSES THE * TRANSFER OF A RESET ON A PRU STREAM TO THE FRONT END. * THE STREAM STATE RESPONSE ACTION FOR RESET ISSUED IS * EXECUTED AND THE PRU STATISTICS ARE UPDATED IN THE * FRONT END TABLE. * * EXIT - * * (PMC) = UPDATED FOR CURRENT MESSAGE, * (PCC-PCC+1) = UPDATED FOR CURRENT MESSAGE. * * CALLS - * * ESRA - EXECUTE STREAM STATE RESPONSE ACTION. * * PROCESSOR CALLS - * ** STREAM STATE RESPONSE ACTION PROCESSOR. BROR ACTION TRANSFER RESET FOR PRU STREAMS LDN /TABLES/.SRSI LOAD RESET ISSUED ACTION ORDINAL EXIT BRDI.4 EXIT TO EXECUTE STREAM RESPONSE ACTION BRIR SPACE 2,36 ** BLOCK HANDLER STATE RESPONSE ACTION BRIR. * * BLOCK HANDLER STATE RESPONSE ACTION BRIR PROCESSES THE * RECEIPT OF AN INTERRUPT COMMAND RESPONSE ON A PRU * STREAM. A CHECK IS MADE TO ASSURE THAT THE END OF * TRANSFER HAS BEEN RECEIVED, THE STREAM STATE RESPONSE * ACTION FOR THE INTERRUPT COMMAND RESPONSE IS EXECUTED * AND THE PRU STATISTICS ARE UPDATED. * * ENTRY - * * (EOT) = END OF TRANSFER FLAG. * * EXIT - * * (PMC) = UPDATED FOR CURRENT MESSAGE, * (PCC-PCC+1) = UPDATED FOR CURRENT MESSAGE. * * ERROR EXITS - * * EXIT TO *ERROR* IF ICMD RESPONSE FORMAT ERROR. * * CALLS - * * ESRA - EXECUTE STREAM STATE RESPONSE ACTION. * * PROCESSOR CALLS - * ** STREAM STATE RESPONSE ACTION PROCESSOR. BRIR ACTION VALIDATE ICMD RESPONSE FOR PRU STREAMS LDD EOT LOAD END OF TRANSFER RECEIVED FLAG NJN BRIR.1 EXIT IF END OF TRANSFER RECEIVED EREXIT ICE EXIT TO ERROR - ICMD RESPONSE FORMAT ERROR BRIR.1 LDN /TABLES/.SICR LOAD ICMD RESPONSE ACTION ORDINAL EXIT BRDI.4 EXIT TO EXECUTE STREAM RESPONSE ACTION BRIC SPACE 2,42 ** BLOCK HANDLER STATE RESPONSE ACTION BRIC. * * BLOCK HANDLER STATE RESPONSE ACTION BRIC PROCESSES THE * RECEIPT OF A COMMAND ON A PRU STREAM FROM THE FRONT * END. THE PRIMARY AND SECONDARY FUNCTION CODES ARE * ACCEPTED AND VALIDATED, THE INPUT COMMAND RESPONSE * ACTION FOR THE COMMAND IS EXECUTED, THE STREAM STATE * RESPONSE ACTION FOR THE COMMAND IS EXECUTED AND THE * PRU STATISTICS ARE UPDATED IN THE FRONT END TABLE. * * ENTRY - * * (EOT) = END OF TRANSFER RECEIVED FLAG. * * EXIT - * * (NCH-NCH+L.CH) = COMMAND HEADER FROM FRONT END, * (CO) = INPUT COMMAND ORDINAL, * (PMC) = UPDATED FOR CURRENT MESSAGE, * (PCC-PCC+1) = UPDATED FOR CURRENT MESSAGE. * * ERROR EXITS - * * EXIT TO *ERROR* IF COMMAND FORMAT ERROR. * * CALLS - * * ASUD - ACCEPT AND STORE UNPACKED DATA, * TLU - TABLE LOOKUP, * EICA - EXECUTE INPUT COMMAND RESPONSE ACTION, * ESRA - EXECUTE STREAM STATE RESPONSE ACTION. * * PROCESSOR CALLS - * * INPUT COMMAND RESPONSE ACTION PROCESSOR, ** STREAM STATE RESPONSE ACTION PROCESSOR. BRIC ACTION INPUT COMMAND HEADER FOR PRU STREAMS LDD EOT LOAD END OF TRANSFER RECEIVED FLAG ZJN BRIC.2 EXIT IF END OF TRANSFER NOT RECEIVED BRIC.1 LINK ENTRY EREXIT ICM EXIT TO ERROR - ILLEGAL COMMAND FORMAT BRIC.2 LDC NCH ADDRESS OF BUFFER FOR NPU COMMAND HEADER STD T1 STORE STARTING BUFFER ADDRESS ADN /BLOCK/L.CH-1 PLUS LENGTH OF COMMAND HEADER RJM ASUD EXIT TO ACCEPT AND STORE UNPACKED DATA LDD T3 LOAD INPUT CHARACTER COUNT LMN /BLOCK/L.CH LESS EXPECTED INPUT LENGTH NJN BRIC.1 EXIT IF INCORRECT INPUT LENGTH LDM NCH+/BLOCK/SFC SECONDARY FUNCTION CODE FROM FRONT END SCN 17B CLEAR SECONDARY FUNCTION CODE NJN BRIC.1 EXIT IF SECONDARY FUNCTION CODE RANGE ERROR LDM NCH+/BLOCK/PFC LOAD PRIMARY CODE FROM FRONT END SHN 4 POSITION TO TABLE FORMAT ADM NCH+/BLOCK/SFC PLUS SECONDARY CODE FROM FRONT END STD TAR STORE TABLE ARGUMENT LDC /TABLES/NPIC LOAD ADDRESS OF PRU INPUT COMMAND TABLE RJM TLU EXIT TO FIND PRU COMMAND TABLE ENTRY PJN BRIC.4 EXIT IF PRU COMMAND TO PROCESS LDC /TABLES/NPIB LOAD ADDRESS OF PRU COMMAND BYPASS TABLE RJM TLU EXIT TO FIND COMMAND BYPASS TABLE ENTRY MJN BRIC.3 EXIT IF UNKNOWN PRU COMMAND LDD EOT LOAD END OF TRANSFER FLAG ZJN BRIC.3 EXIT IF END OF TRANSFER NOT RECEIVED EXIT BRDI.5 EXIT TO UPDATE FRONT END STATISTICS BRIC.3 UJK BRIC.1 EXIT TO PROCESS UNKNOWN PRU COMMAND BRIC.4 STD CO STORE PRU COMMAND ORDINAL QUAL EICA LDN /ACTORD/CMDIN INPUT COMMAND DIRECTORY TABLE OFFSET STD ADO STORE ACTION DIRECTORY TABLE OFFSET LDC /TABLES/NPIR FWA OF INPUT COMMAND RESPONSE TABLE EICA.1 LINK ENTRY ADD CO PLUS COMMAND ORDINAL EICA.2 LINK ENTRY RJM GTE EXIT TO GET COMMAND RESPONSE TABLE ENTRY STD RTE STORE COMMAND RESONSE TABLE ENTRY SHN -S.CTLCD POSITION OVERLAY ORDINAL TO LOW-ORDER ZJN EICA.3 EXIT IF COMMAND PROCESSOR NOT IN OVERLAY RJM COL EXIT TO CHECK FOR OVERLAY LOADED EICA.3 EXIT ERA EXIT TO EXECUTE RESPONSE ACTION EXIT TO BRDI.4 TO EXECUTE STREAM RESPONSE QUAL ACTIONS BROH SPACE 2,34 ** BLOCK HANDLER STATE RESPONSE ACTION BROH. * * BLOCK HANDLER STATE RESPONSE ACTION BROH PROCESSES THE * TRANSFER OF A DATA MESSAGE TO THE FRONT END. THE DATA * MESSAGE HEADER IS TRANSFERRED, THE STREAM STATE * RESPONSE ACTION FOR THE OUTPUT IS EXECUTED AND THE * APPROPRIATE STATISTICS ARE UPDATED IN THE FRONT END * TABLE. * * ENTRY - * * (DHB-DHB+L.DH) = DATA HEADER FOR FRONT END. * * EXIT - * * (IMC) = UPDATED FOR IVT STREAMS, * (ICC-ICC+1) = UPDATED FOR IVT STREAMS, * (PMC) = UPDATED FOR PRU STREAMS, * (PCC-PCC+1) = UPDATED FOR PRU STREAMS. * * CALLS - * * TDH - TRANSFER DATA HEADER TO FRONT END, * ESRA - EXECUTE STREAM STATE RESPONSE ACTION. * * PROCESSOR CALLS - * ** STREAM STATE RESPONSE ACTION PROCESSOR. BROH ACTION TRANSFER DATA HEADER TO FRONT END SOM NNH+/NAM/C.MCC REDUCE CHARACTER COUNT FOR DBC NJN BROH.1 EXIT IF DATA TEXT AOD REOT SET END OF TRANSFER REQUEST FLAG BROH.1 RJM TDH EXIT TO OUTPUT DATA HEADER TO FRONT END BROT SPACE 2,26 ** BLOCK HANDLER STATE RESPONSE ACTION BROT. * * BLOCK HANDLER STATE RESPONSE ACTION BROT PROCESSES THE * TRANSFER OF AN IVT TEXT MESSAGE TO THE FRONT END. THE * STREAM STATE RESPONSE ACTION FOR THE OUTPUT IS EXECUTED * AND THE IVT STATISTICS ARE UPDATED IN THE FRONT END * TABLE. * * EXIT - * * (IMC) = UPDATED FOR CURRENT MESSAGE, * (ICC-ICC+1) = UPDATED FOR CURRENT MESSAGE. * * CALLS - * * ESRA - EXECUTE STREAM RESPONSE ACTION. * * PROCESSOR CALLS - * ** STREAM STATE RESPONSE ACTION PROCESSOR. BROT ACTION TRANSFER IVT TEXT TO FRONT END LDN /TABLES/.SROD LOAD OUTPUT DATA RESPONSE ACTION ORDINAL EXIT BRDI.4 EXIT TO EXECUTE STREAM RESPONSE ACTION BRCO SPACE 2,24 ** BLOCK HANDLER STATE RESPONSE ACTION BRCO. * * BLOCK HANDLER STATE RESPONSE ACTION BRCO PROCESSES AN * IVT OUTPUT COMMAND ADDRESSED TO A FRONT END WHICH IS * PROCESSED BY THE DRIVER. THE OUTPUT COMMAND NORMAL * RESPONSE ACTION IS EXECUTED FOR THE COMMAND. * * ENTRY - * * (CO) = OUTPUT COMMAND ORDINAL. * * CALLS - * * EOCI - EXECUTE OVT OUTPUT COMMAND PROCESSOR. * * PROCESSOR CALLS - * ** IVT OUTPUT COMMAND ACTION PROCESSOR. BRCO ACTION PROCESS IVT OUTPUT COMMAND EOCI LDN /ACTORD/CMDOUT OUTPUT COMMAND DIRECTORY TABLE ADDRESS STD ADO STORE ACTION DIRECTORY TABLE OFFSET LDC /TABLES/NIOR FWA OF OUTPUT COMMAND RESPONSE TABLE EXIT EICA.1 EXIT TO GET RESPONSE TABLE ADDRESS RETURN VIA BLOCK STATE ACTION RETURN BRCE SPACE 2,24 ** BLOCK HANDLER STATE RESPONSE ACTION BRCE. * * BLOCK HANDLER STATE RESPONSE ACTION BRCE PROCESSES AN * IVT OUTPUT COMMAND ADDRESSED TO A FRONT END WHICH IS * IN ERROR. THE OUTPUT COMMAND ERROR RESPONSE ACTION * IS EXECUTED FOR THE COMMAND. * * ENTRY - * * (CO) = OUTPUT COMMAND ORDINAL. * * CALLS - * * EOCE - EXECUTE IVT OUTPUT COMMAND ERROR PROCESSOR. * * PROCESSOR CALLS - * ** IVT OUTPUT COMMAND ERROR PROCESSOR. BRCE ACTION PROCESS IVT OUTPUT COMMAND IN ERROR EOCE LDN /ACTORD/CMDOUT OUTPUT COMMAND DIRECTORY TABLE ADDRESS STD ADO STORE ACTION DIRECTORY TABLE OFFSET LDC /TABLES/NIOE FWA OF OUTPTU COMMAND ERROR RESPONSE TABLE EXIT EICA.1 EXIT TO GET RESPONSE TABLE ADDRESS RETURN VIA BLOCK STATE ACTION RETURN BRTC SPACE 2,26 ** BLOCK HANDLER STATE RESPONSE ACTION BRTC. * * BLOCK HANDLER STATE RESPONSE ACTION BRTC PROCESSES A * PRU OUTPUT COMMAND. THE COMMAND HEADER AND THE COMMAND * TEXT IS TRANSFERRED TO THE FRONT END. * * ENTRY - * * (NCH-NCH+L.CH) = NPU COMMAND HEADER, * (DRBUF-DRBUF+L.CT) = UNPACKED COMMAND TEXT, * (NNH+C.MCC) = COMMAND TEXT CHARACTER COUNT. * * CALLS - * * TTBF - TRANSFER TWELVE BIT FORMATTED DATA, * ESRA - EXECUTE STREAM STATE RESPONSE ACTION. * * PROCESSOR CALLS - * ** STREAM STATE RESPONSE ACTION PROCESSOR. BRTC ACTION TRANSFER PRU STREAM COMMAND TO FRONT END LDN /TABLES/.SNCI LOAD NPU COMMAND ISSUED ACTION ORDINAL BRTC.1 LINK ENTRY STD T7 STORE STREAM STATE RESPONSE ACTION ORDINAL AOD REOT SET REQUEST END OF TRANSFER LDC NCH LOAD ADDRESS OF COMMAND HEADER BUFFER STD T1 STORE STARTING BUFFER ADDRESS LDM NNH+/NAM/C.MCC LOAD COMMAND TEXT CHARACTER COUNT STD T2 STORE OUTPUT CHARACTER COUNT RJM TTBF EXIT TO TRANSFER TWELVE BIT FORMATTED DATA LDD T7 LOAD STREAM STATE RESPONSE ACTION ORDINAL EXIT BRDI.4 EXIT TO EXECUTE STREAM RESPONSE ACTION BRPE SPACE 2,20 ** BLOCK HANDLER STATE RESPONSE ACTION BRPE. * * BLOCK HANDLER STATE RESPONSE ACTION BRPE PROCESSES A * BLOCK PROTOCOL ERROR ON AN ACTIVE STREAM. THE STREAM * STATE RESPONSE ACTION FOR BLOCK PROTOCOL ERROR IS * EXECUTED FOR THAT STREAM. * * CALLS - * * ESRA - EXECUTE STREAM STATE RESPONSE ACTION. * * PROCESSOR CALLS - * ** STREAM STATE RESPONSE ACTION PROCESSOR. BRPE ACTION PROCESS BLOCK PROTOCOL ERROR LDN /TABLES/.SBPE LOAD PROTOCOL ERROR ACTION ORDINAL EXIT BRDI.4 EXIT TO EXECUTE STREAM RESPONSE ACTION BRTI SPACE 2,24 ** BLOCK HANDLER STATE RESPONSE ACTION BRTI. * * BLOCK HANDLER STATE RESPONSE ACTION BRTI PROCESSES A * PRU OUTPUT INTERRUPT COMMAND. THE INTERRUPT COMMAND * REASON CODE IS TRANSFERRED TO THE FRONT END. * * ENTRY - * * (NCH) = INTERRUPT COMMAND REASON CODE, * (NNH+C.MCC) = COMMAND TEXT CHARACTER COUNT. * * CALLS - * * TTBF - TRANSFER TWELVE BIT FORMATTED DATA, * ESRA - EXECUTE STREAM STATE RESPONSE ACTION. * * PROCESSOR CALLS - * ** STREAM STATE RESPONSE ACTION PROCESSOR. BRTI ACTION TRANSFER ICMD TO FRONT END FOR PRU STREAMS LDN /TABLES/.SICI LOAD INTERRUPT COMMAND ISSUED ORDINAL EXIT BRTC.1 EXIT TO STORE RESPONSE ACTION ORDINAL BRIQ SPACE 2,26 ** BLOCK HANDLER STATE RESPONSE ACTION BRIQ. * * BLOCK HANDLER STATE RESPONSE ACTION BRIQ INPUTS THE * Q-MESSAGE HEADER FOR PRU STREAMS. IF THE END OF * TRANSFER IS NOT SET THE OVERLAY SUPPORT PROCESSOR IS * CALLED TO INPUT AND PROCESS THE ACTUAL Q-MESSAGE * HEADER. * * ERROR EXITS - * * EXIT TO *ERROR* IF Q-MESSAGE FORMAT ERROR. * * CALLS - * * IDH - INPUT DATA HEADER FROM FRONT END, * COL - CHECK OVERLAY LOADED. * * PROCESSOR CALLS - * ** IPQM - INPUT AND PROCESS Q-MESSAGE HEADER. BRIQ ACTION INPUT Q-MESSAGE HEADER FOR PRU STREAMS RJM IDH EXIT TO INPUT DATA HEADER FROM FRONT END NJN BRIQ.1 EXIT IF DATA HEADER FORMAT HEADER LDD EOT LOAD END OF TRANSFER FLAG ZJN BRIQ.2 EXIT IF END OF TRANSFER NOT RECEIVED BRIQ.1 LINK ENTRY EREXIT QME EXIT TO ERROR - Q-MESSAGE FORMAT ERROR BRIQ.2 LOPA 2IO,IPQM OVERLAY ORDINAL AND PROCESSOR ADDRESS EXIT DCR.3 EXIT TO CHECK OVERLAY PROCESSOR LOADED BROQ SPACE 2,26 ** BLOCK HANDLER STATE RESPONSE ACTION BROQ. * * BLOCK HANDLER STATE RESPONSE ACTION BROQ PROCESSES A * LEVEL SEVEN Q-MESSAGE OUTPUT FOR PRU STREAMS. THE * Q-MESSAGE TEXT IS TRANSFERRED TO THE FRONT END. * * ENTRY - * * (DRBUF-DRBUF+L.CT) = PACKED Q-MESSAGE TEXT, * (NNH+C.MCC) = Q-MESSAGE TEXT CHARACTER COUNT. * * CALLS - * * TDH - TRANSFER DATA HEADER TO FRONT END, * TTBF - TRANSFER TWELVE BIT FORMATTED DATA, * ESRA - EXECUTE STREAM STATE RESPONSE ACTION. * * PROCESSOR CALLS - * ** STREAM STATE RESPONSE ACTION PROCESSOR. BROQ ACTION TRANSFER PRU Q-MESSAGE TEXT TO FRONT END LDN 0 CONSTANT OF ZERO STM DHB+/BLOCK/DBC STORE DATA BLOCK CLARIFIER RJM TDH EXIT TO TRANSFER DATA HEADER TO FRONT END AOD REOT SET REQUEST END OF TRANSFER LDC DRBUF LOAD ADDRESS OF Q-MESSAGE TEXT STD T1 STORE STARTING BUFFER ADDRESS LDM NNH+/NAM/C.MCC LOAD Q-MESSAGE TEXT CHARACTER COUNT STD T2 STORE OUTPUT TEXT CHARACTER COUNT RJM TTBF EXIT TO TRANSFER TWELVE BIT FORMATTED DATA LDN /TABLES/.S7CI LOAD LEVEL SEVEN COMMAND ISSUED ORDINAL EXIT BRDI.4 EXIT TO EXECUTE STREAM RESPONSE ACTION SRIL TITLE STREAM STATE RESPONSE ACTION PROCESSORS. TYPEACT MICRO 1,,*STREAM* DEFINE ACTION TYPE SRIL SPACE 2,12 ** STREAM STATE RESPONSE ACTION SRIL. * * STREAM STATE RESPONSE ACTION SRIL PROCESSES AN ILLEGAL * STREAM STATE RESPONSE ACTION BY TRANSFERRING CONTROL ** TO THE DRIVER ERROR ROUTINE. SRIL ACTION ILLEGAL STREAM STATE RESPONSE ACTION EREXIT ISR EXIT TO ERROR - ILLEGAL STREAM RESPONSE SRLE SPACE 2,12 ** STREAM STATE RESPONSE ACTION SRLE. * * STREAM STATE RESPONSE ACTION SRLE PROCESSES AN * ILLOGICAL STREAM STATE RESPONSE ACTION BY TRANSFERRING ** CONTROL TO THE DRIVER ERROR ROUTINE. SRLE ACTION ILLOGICAL STREAM STATE RESPONSE ACTION EREXIT SRE EXIT TO ERROR - ILLOGICAL STREAM RESPONSE SRAE SPACE 2,10 ** STREAM STATE RESPONSE ACTION SRAE. * * STREAM STATE RESPONSE ACTION SRAE PROCESSES AN * ILLOGICAL PRU APPLICATION STREAM STATE RESPONSE ACTION * BY TRANSFERRING CONTROL TO THE DRIVER ERROR ROUTINE. SRAE ACTION PRU APPLICATION ERROR RESPONSE ACTION EREXIT SAE EXIT TO ERROR - PRU APPLICATION ERROR S7IL SPACE 2,10 ** STREAM STATE RESPONSE ACTION S7IL. * * STREAM STATE RESPONSE ACTION S7IL PROCESSES AN A-A * LEVEL SEVEN PROTOCOL ERROR BY TRANSFERRING CONTROL ** TO THE DRIVER ERROR ROUTINE. S7IL ACTION A-A LEVEL SEVEN PROTOCOL ERROR EREXIT L7E EXIT TO ERROR - LEVEL SEVEN PROTOCOL ERROR SRIT SPACE 2,36 ** STREAM STATE RESPONSE ACTION SRIT. * * STREAM STATE RESPONSE ACTION SRIT ACCEPTS IVT TEXT FROM * THE FRONT END. THE IVT TEXT IS ACCEPTED FROM THE FRONT * END AND STORED IN THE DRIVER BUFFER IN PACKED FORMAT. * WHEN THE DRIVER BUFFER IS FILLED THE IVT TEXT IS * WRITTEN TO THE INBOUND BUFFER AND THE PROCESS IS * REPEATED UNTIL THE COMPLETE MESSAGE HAS BEEN RECEIVED. * AT THE COMPLETION OF THE INPUT THE NAM BLOCK HEADER AND * NETWORK HEADER ARE WRITTEN TO THE INBOUND BUFFER AND * THE FET IN DATA POINTER IS UPDATED. * * ENTRY - * * (EOT) = END OF TRANSFER RECEIVED FLAG, * (FBA-FBA+1) = ADDRESS OF FET BUFFER, * (CBA-CBA+1) = FET BUFFER ADDRESS FOR TEXT, * (LBA-LBA+1) = ADDRESS OF END OF FET BUFFER, * (NBH-NBH+L.BH) = NAM BLOCK HEADER, * (NNH-NNH+L.NH) = NAM NETWORK HEADER. * * ERROR EXITS - * * EXIT TO *ERROR* IF MESSAGE EXCEEDS FET BUFFER. * * CALLS - * * ASED - ACCEPT AND STORE PACKED DATA, * WDIB - WRITE INPUT DATA TO INBOUND BUFFER, ** UFIP - UPDATE FET IN POINTER. SRIT ACTION ACCEPT IVT TEXT FROM FRONT END LDD EOT LOAD END OF TRANSFER FLAG ZJN SRIT.1 EXIT IF END OF TRANSFER NOT RECEIVED UJN SRUI EXIT TO UPDATE DATA IN POINTER SRIT.1 LOPA 2IM,PRIT OVERLAY ORDINAL AND PROCESSOR ADDRESS EXIT DCR.3 EXIT TO CHECK OVERLAY IS LOADED SRUI SPACE 2,24 ** STREAM STATE RESPONSE ACTION SRUI. * * STREAM STATE RESPONSE ACTION SRUI WRITES THE NAM BLOCK * HEADER AND NETWORK HEADER TO THE INBOUND FET BUFFER * AND UPDATES THE DATA IN POINTER IN THE FRONT END INPUT * FET FOR THE IVT INPUT MESSAGE THAT HAS BEEN RECEIVED. * * ENTRY - * * (FBA-FBA+1) = ADDRESS OF FET BUFFER, * (CBA-CBA+1) = FET BUFFER ADDRESS FOR TEXT, * (NBH-NBH+L.BH) = NAM BLOCK HEADER, * (NNH-NNH+L.NH) = NAM NETWORK HEADER. * * CALLS - * * WNHB - WRITE NAM HEADER TO INBOUND BUFFER, ** UFIP - UPDATE FET IN DATA POINTER. SRUI ACTION WRITE NAM HEADER AND UPDATE IN DATA POINTER RJM WNHB EXIT TO WRITE NAM HEADER TO BUFFER RJM UFIP EXIT TO UPDATE FET IN DATA POINTER SRNA SPACE 2,10 ** STREAM STATE RESPONSE ACTION SRNA. * * STREAM STATE RESPONSE ACTION SRNA PROCESSES A NO ACTION * STREAM RESPONSE BY RETURNING BY WAY OF THE STREAM STATE ** RESPONSE ACTION EXECUTIVE. SRNA ACTION NO ACTION STREAM STATE RESPONSE EXIT ESRAX RETURN VIA STREAM STATE ACTION RETURN SRII SPACE 2,28 ** STREAM STATE RESPONSE ACTION SRII. * * STREAM STATE RESPONSE ACTION SRII PROCESSES AN ILLEGAL * INPUT ON AN IVT STREAM. THE INPUT TEXT IS BYPASSED * FROM THE FRONT END, THE ORIGINAL BLOCK TYPE IS SET TO * ZERO, THE BLOCK TYPE IS STORED IN THE BAD BLOCK TYPE * FIELD, THE MESSAGE CHARACTER COUNT IS STORED AND THE * NAM NETWORK HEADER IS TRANSFERRED TO THE INBOUND * BUFFER. * * ENTRY - * * (EOT) = END OF TRANSFER FLAG, * (NNH-NNH+L.NH) = NAM NETWORK HEADER. * * CALLS - * * WNHB - WRITE NAM HEADER TO INBOUND BUFFER, * UFIP - UPDATE FET IN DATA POINTER. * * MACRO CALLS - * ** CLIO - CALL LOGICAL INPUT/OUTPUT INTERFACE. SRII ACTION PROCESS INVALID IVT INPUT LOPA 4IM,PIII OVERLAY ORDINAL AND PROCESSOR ADDRESS EXIT DCR.3 EXIT TO CHECK OVERLAY PROCESSOR LOADED SRIP SPACE 2,18 ** STREAM STATE RESPONSE ACTION SRIP. * * STREAM STATE RESPONSE ACTION SRIP ACCEPTS PRU INPUT * FROM THE FRONT END. THE OVERLAY SUPPORT PROCESSOR * IS CALLED TO PERFORM THE INPUT. * * CALLS - * * COL - CHECK OVERLAY LOADED. * * PROCESSOR CALLS - * ** IPD - INPUT PRU DATA PROCESSOR. SRIP ACTION ACCEPT PRU INPUT FROM FRONT END LOPA 4IP,IPD OVERLAY ORDINAL AND PROCESSOR ADDRESS EXIT DCR.3 EXIT TO CHECK OVERLAY PROCESSOR LOADED SRQW SPACE 2,18 ** STREAM STATE RESPONSE ACTION SRQW. * * STREAM STATE RESPONSE ACTION SRQW QUEUES THE WORKLIST * COMMAND TO THE PRU INPUT STREAM. THE OVERLAY SUPPORT * PROCESSOR IS CALLED TO QUEUE THE WORKLIST COMMAND. * * CALLS - * * COL - CHECK OVERLAY LOADED. * * PROCESSOR CALLS - * ** QIWL - QUEUE INBOUND WORKLIST PROCESSOR. SRQW ACTION QUEUE WORKLIST COMMAND TO PRU INPUT STREAM LOPA 2IP,QIWL OVERLAY ORDINAL AND PROCESSOR ADDRESS EXIT DCR.3 EXIT TO CHECK OVERLAY PROCESSOR LOADED SRPO SPACE 2,20 ** STREAM STATE RESPONSE ACTION SRPO. * * STREAM STATE RESPONSE ACTION SRPO TRANSFERS PRU OUTPUT * TO THE FRONT END AND RELEASES THE ACTIVE PRU BUFFER TO * THE DRIVER LIMBO BUFFER CHAIN. THE OVERLAY SUPPORT * PROCESSOR IS CALLED TO RETURN THE ACTIVE PRU BUFFER. * * CALLS - * * POC - PRU OUTPUT CONTROL, * COL - CHECK OVERLAY LOADED. * * PROCESSOR CALLS - * ** RPLB - RETURN PRU BUFFER PROCESSOR. SRPO ACTION TRANSFER PRU OUTPUT TO FRONT END LOOR 3IM LOAD OVERLAY ORDINAL OF SUBROUTINE RJM COL EXIT TO CHECK OVERLAY LOADED RJM POC EXIT TO PRU OUTPUT CONTROL SRRB SPACE 2,20 ** STREAM STATE RESPONSE ACTION SRRB. * * STREAM STATE RESPONSE ACTION SRRB RETURNS THE ACTIVE * PRU BUFFER TO THE DRIVER LIMBO BUFFER CHAIN. THE * OVERLAY SUPPORT PROCESSOR IS CALLED TO RETURN THE * ACTIVE PRU BUFFER. * * CALLS - * * COL - CHECK OVERLAY LOADED. * * PROCESSOR CALLS - * ** RPLB - RETURN PRU BUFFER PROCESSOR. SRRB ACTION RETURN PRU BUFFER TO LIMBO CHAIN LOPA 3IP,RPLB OVERLAY ORDINAL AND PROCESSOR ADDRESS EXIT DCR.3 EXIT TO CHECK OVERLAY PROCESSOR LOADED SPMS SPACE 2,18 ** STREAM STATE RESPONSE ACTION SPMS. * * STREAM STATE RESPONSE ACTION SPMS PROCESSES A LEVEL * SEVEN CHECKMARK ISSUED. THE OVERLAY SUPPORT PROCESSOR * IS CALLED TO PROCESS THE CHECKMARK ISSUED. * * CALLS - * * COL - CHECK OVERLAY LOADED. * * PROCESSOR CALLS - * ** PMS - PROCESS LEVEL SEVEN CHECKMARK ISSUED. SPMS ACTION PROCESS LEVEL SEVEN CHECKMARK ISSUED LOPA 3IL,PMS OVERLAY ORDINAL AND PROCESSOR ADDRESS EXIT DCR.3 EXIT TO CHECK OVERLAY PROCESSOR LOADED SPMR SPACE 2,18 ** STREAM STATE RESPONSE ACTION SPMR. * * STREAM STATE RESPONSE ACTION SPMR PROCESSES A LEVEL * SEVEN CHECKMARK REPLY ISSUED. THE OVERLAY SUPPORT * PROCESSOR IS CALLED TO PROCESS CHECKMARK REPLY ISSUED. * * CALLS - * * COL - CHECK OVERLAY LOADED. * * PROCESSOR CALLS - * ** PMR - PROCESS CHECKMARK REPLY ISSUED. SPMR ACTION PROCESS LEVEL SEVEN CHECKMARK REPLY ISSUED LOPA 3IL,PMR OVERLAY ORDINAL AND PROCESSOR ADDRESS EXIT DCR.3 EXIT TO CHECK OVERLAY PROCESSOR LOADED SRBR SPACE 2,18 ** STREAM STATE RESPONSE ACTION SRBR. * * STREAM STATE RESPONSE ACTION SRBR RESETS THE * BREAK RECEIVED FLAG IN THE PRU CONTROL BLOCK. * * CALLS - * * COL - CHECK OVERLAY LOADED. * * PROCESSOR CALLS - * ** RBR - RESET BREAK RECEIVED. SRBR ACTION RESET BREAK RECEIVED FLAG LOPA 3IL,RBR OVERLAY ORDINAL AND PROCESSOR ADDRESS EXIT DCR.3 EXIT TO CHECK OVERLAY PROCESSOR LOADED SRAQ SPACE 2,16 ** STREAM STATE RESPONSE ACTION SRAQ. * * STREAM STATE RESPONSE ACTION SRAQ ADVANCES THE * WORKLIST COMMAND QUEUE AND TRANSFERS THE WORKLIST * TO THE INBOUND BUFFER. * * CALLS - * * AWQ - ADVANCE WORKLIST QUEUE, ** TWL - TRANSFER WORKLIST TO INBOUND BUFFER. SRAQ ACTION ADVANCE WORKLIST COMMAND QUEUE RJM AWQ EXIT TO ADVANCE WORKLIST QUEUE SRTW SPACE 2,14 ** STREAM STATE RESPONSE ACTION SRTW. * * STREAM STATE RESPONSE ACTION SRTW TRANSFERS * THE WORKLIST TO THE INBOUND BUFFER. * * CALLS - * ** TWL - TRANSFER WORKLIST TO INBOUND BUFFER. SRTW ACTION TRANSFER WORKLIST TO INBOUND BUFFER RJM TWL EXIT TO TRANSFER WORKLIST TO INBOUND BUFFER EXIT ESRAX RETURN VIA STREAM STATE ACTION RETURN SRQA SPACE 2,14 ** STREAM STATE RESPONSE ACTION SRQA. * * STREAM STATE RESPONSE ACTION SRQA ADVANCES THE * WORKLIST COMMAND QUEUE. * * CALLS - * ** AWQ - ADVANCE WORKLIST QUEUE. SRQA ACTION ADVANCE WORKLIST COMMAND QUEUE RJM AWQ EXIT TO ADVANCE WORKLIST QUEUE EXIT ESRAX RETURN VIA STREAM STATE ACTION RETURN SROA SPACE 2,20 ** STREAM STATE RESPONSE ACTION SROA. * * STREAM STATE RESPONSE ACTION SROA GENERATES THE DIRECT * OUTPUT ACKNOWLEDGMENT WORKLIST AND TRANSFERS THE * WORKLIST TO THE INBOUND BUFFER. * * CALLS - * * EWLP - EXECUTE WORKLIST PROCESSOR, * TWL - TRANSFER WORKLIST TO INBOUNF BUFFER. * * PROCESSOR CALLS - * ** WORKLIST ACTION PROCESSOR. SROA ACTION DIRECT OUTPUT ACKNOWLEDGMENT LDN /TABLES/OSDA OUTPUT ACKNOWLEDGMENT WORKLIST ORDINAL STD WLO STORE WORKLIST ORDINAL RJM EWLP EXIT TO EXECUTE WORKLIST PROCESSOR EXIT SRTW EXIT TO TRANSFER WORKLIST TO INBOUND BUFFER SRSO SPACE 2,16 ** STREAM STATE RESPONSE ACTION SRSO. * * STREAM STATE RESPONSE ACTION SRSO SETS THE OLD STATE * TO THE CURRENT STATE AND TRANSFERS THE WORKLIST TO THE * INBOUND BUFFER. * * CALLS - * * SCSS - SET OLD STATE TO CURRENT STREAM STATE, ** TWL - TRANSFER WORKLIST TO INBOUND BUFFER. SRSO ACTION SET OLD STATE TO CURRENT STREAM STATE RJM SCSS EXIT TO SET OLD STATE TO CURRENT STATE EXIT SRTW EXIT TO TRANSFER WORKLIST TO BUFFER SROT SPACE 2,22 ** STREAM STATE RESPONSE ACTION SROT. * * STREAM STATE RESPONSE ACTION SROT TRANSFERS IVT TEXT * TO THE FRONT END. AT THE COMPLETION OF THE TRANSFER * THE FET OUT DATA POINTER IS UPDATED. * * ENTRY - * * (NNH-NNH+L.NH) = NAM NETWORK HEADER, * (NBH-NBH+L.BH) = NAM BLOCK HEADER. * * CALLS - * * COL - CHECK OVERLAY LOADED, * TOT - TRANSFER OUTPUT TEXT TO FRONT END, ** UFOP - UPDATE FET OUT DATA POINTER. SROT ACTION TRANSFER IVT TEXT TO NPU LDM NNH+/NAM/C.MCC LOAD MESSAGE TEXT CHARACTER COUNT ZJN SRUO EXIT IF NO MESSAGE TEXT LOOR 2IM OVERLAY ORDINAL OF OUTPUT TEXT SUBROUTINE RJM COL EXIT TO CHECK OVERLAY LOADED RJM TOT EXIT TO TRANSFER OUTPUT TEXT TO NPU SRUO SPACE 2,20 ** STREAM STATE RESPONSE ACTION SRUO. * * STREAM STATE RESPONSE ACTION SRUO UPDATES THE DATA OUT * POINTER IN A FRONT END OUTPUT PSEUDO FET FOR THE IVT * OUTPUT MESSAGE THAT HAS BEEN PROCESSED. * * ENTRY - * * (FBA-FBA+1) = ADDRESS OF HEADER WORD * FOR CURRENT IVT MESSAGE. * * CALLS - * ** UFOP - UPDATE FET OUT DATA POINTER. SRUO ACTION UPDATE FET OUT DATA POINTER RJM UFOP EXIT TO UPDATE FET OUT DATA POINTER SRUO.1 LINK ENTRY EXIT ESRAX RETURN VIA STREAM STATE ACTION RETURN SRBI SPACE 2,18 ** STREAM STATE RESPONSE ACTION SRBI. * * STREAM STATE RESPONSE ACTION SRBI BYPASSES THE * CURRENT INPUT MESSAGE FROM THE FRONT END. * * ENTRY - * * (EOT) = END OF TRANSFER FLAG. * * MACRO CALLS - * ** CLIO - CALL LOGICAL INPUT/OUTPUT INTERFACE. SRBI ACTION BYPASS FRONT END INPUT MESSAGE SRBI.1 LDD EOT LOAD END OF TRANSFER FLAG NJN SRUO.1 EXIT IF END OF TRANSFER RECEIVED CLIO FEIC ACCEPT NEXT DATA CHARACTER FROM FRONT END UJK SRBI.1 EXIT TO CHECK FOR END OF TRANSFER SROS SPACE 2,18 ** STREAM STATE RESPONSE ACTION SROS. * * STREAM STATE RESPONSE ACTION SROS RETURNS TO THE OLD * STREAM STATE, SETS THE WORKLIST COMPLETED STATUS IN * THE WORKLIST POINTER WORD OF THE PCB AND TRANSFERS THE * WORKLIST COMPLETED RESPONSE TO THE INBOUND BUFFER. * * CALLS - * * RPSS - RETURN TO OLD STREAM STATE, ** SWLC - SET WORKLIST COMPLETED. SROS ACTION RETURN OLD STATE AND WORKLIST COMPLETED RJM RPSS EXIT TO RETURN TO OLD STREAM STATE SRWC SPACE 2,16 ** STREAM STATE RESPONSE ACTION SRWC. * * STREAM STATE RESPONSE ACTION SRWC SETS THE WORKLIST * COMPLETED STATUS IN THE WORKLIST POINTER WORD OF THE * PCB AND TRANSFERS THE WORKLIST COMPLETED RESPONSE TO * THE INBOUND BUFFER. * * CALLS - * ** SWLC - SET WORKLIST COMPLETED. SRWC ACTION SET WORKLIST COMPLETED RJM SWLC EXIT TO SET WORKLIST COMPLETED EXIT ESRAX RETURN VIA STREAM STATE ACTION RETURN SRDO SPACE 2,16 ** STREAM STATE RESPONSE ACTION SRDO. * * STREAM STATE RESPONSE ACTION SRDO TRANSFERS THE DIRECT * OUTPUT TO THE FRONT END AND TRANSFERS THE WORKLIST * COMPLETED RESPONSE TO THE INBOUND BUFFER. * * CALLS - * * COL - CHECK OVERLAY LOADED, * POC - PRU OUTPUT CONTROL, ** SWLC - SET WORKLIST COMPLETED. SRDO ACTION TRANSFER DIRECT OUTPUT TO FRONT END LOOR 3IM LOAD OVERLAY ORDINAL OF SUBROUTINE RJM COL EXIT TO CHECK OVERLAY LOADED RJM POC EXIT TO PRU OUTPUT CONTROL EXIT SRWC EXIT TO SET WORKLIST COMPLETED SRSB SPACE 2,16 ** STREAM STATE RESPONSE ACTION SRSB. * * STREAM STATE RESPONSE ACTION SRSB SETS THE OLD STREAM * STATE TO BYPASS AND TRANSFERS THE WORKLIST COMPLETED * RESPONSE TO THE INBOUND BUFFER. * * CALLS - * * SRSS - SET OLD STREAM STATE, ** SWLC - SET WORKLIST COMPLETED. SRSB ACTION SET OLD STREAM STATE TO BYPASS LDN /TABLES/STS16 STREAM STATE FOR BYPASS RJM SRSS EXIT TO SET OLD STREAM STATE EXIT SRWC EXIT TO SET WORKLIST COMPLETED SRFO SPACE 2,16 ** STREAM STATE RESPONSE ACTION SRFO. * * STREAM STATE RESPONSE ACTION SRFO SETS THE PRU MODE * ON FLAG IN THE PCB AND TRANSFERS THE WORKLIST * COMPLETED RESPONSE TO THE INBOUND BUFFER. * * CALLS - * * UPRM - UPDATE PRU MODE, ** SWLC - SET WORKLIST COMPLETED. SRFO ACTION SET PRU MODE ON FLAG LDN /NAM/B.PCBFTO LOAD PRU ON STATUS RJM UPRM EXIT TO EXIT TO SET PRU MODE ON FLAG EXIT SRWC EXIT TO SET WORKLIST COMPLETED SROF SPACE 2,14 ** STREAM STATE RESPONSE ACTION SROF. * * STREAM STATE RESPONSE ACTION SROF RESETS THE * PRU MODE ON FLAG IN THE PRU CONTROL BLOCK. * * CALLS - * ** UPRM - UPDATE PRU MODE. SROF ACTION RESET PRU MODE ON FLAG LDN 0 CONSTANT OF ZERO RJM UPRM EXIT TO RESET PRU MODE ON FLAG EXIT ESRAX RETURN VIA STREAM STATE ACTION RETURN SRRS SPACE 2,14 ** STREAM STATE RESPONSE ACTION SRRS. * * STREAM STATE RESPONSE ACTION SRRS * RETURNS TO THE OLD STREAM STATE. * * CALLS - * * RPSS - RETURN TO OLD STREAM STATE. SRRS ACTION RETURN TO OLD STREAM STATE RJM RPSS EXIT TO RETURN TO OLD STATE EXIT ESRAX RETURN VIA STREAM STATE ACTION RETURN SRWE SPACE 2,14 ** STREAM STATE RESPONSE ACTION SRWE. * * STREAM STATE RESPONSE ACTION SRWE SETS THE * OLD STREAM STATE TO WAIT FOR EOI DELIVERED. * * CALLS - * ** SRSS - SET OLD STREAM STATE. SRWE ACTION SET OLD STREAM STATE TO WAIT EOI DELIVERED LDN /TABLES/STS34 STREAM STATE FOR WAIT EOI DELIVERED RJM SRSS EXIT TO SET OLD STREAM STATE EXIT ESRAX RETURN VIA STREAM STATE ACTION RETURN CEH TITLE COUPLER EXCHANGE HANDLER. QUAL CEH SPACE 2,48 ** SUBROUTINE CEH. * * SUBROUTINE CEH HANDLES EXCHANGES BETWEEN THE DRIVER * AND THE FRONT END. IF THE OUTPUT DELAY TIMER IS * NOT IN EFFECT OR HAS EXPIRED, THE BLOCK HANDLER STATE * PROCESSOR IS CALLED TO HANDLE AN OUTPUT SEQUENCE. * IF THE OUTPUT DELAY TIMER HAS NOT EXPIRED, AN ATTEMPT * IS MADE TO ACCEPT INPUT FROM THE FRONT END. IF AN * INPUT MESSAGE IS AVAILABLE AND CAN BE ACCEPTED, THE * BLOCK HEADER IS READ AND THE APPROPRIATE RESPONSE * ACTIONS ARE CALLED TO PROCESS THE INPUT. * * **NOTE** - EXIT FROM SUBROUTINE CEH IS MADE * EXPLICITLY BY THE STATE PROCESSORS * HANDLING OUTPUT SEQUENCES TO THE * FRONT END. * * ENTRY - * * (A) = OUTPUT BLOCK TYPE, * (BHS) = BLOCK HANDLER STATE. * * CALLS - * * COL - CHECK OVERLAY LOADED, * GTE - GET DRIVER CONTROL TABLE ENTRY, * EIIA - EXECUTE INPUT INITIATOR RESPONSE ACTION, * EIRA - EXECUTE INPUT BLOCK RESPONSE ACTION. * * MACRO CALLS - * * FEIO - LOGICAL INPUT/OUTPUT INTERFACE. * * PROCESSOR CALLS - * * BLOCK HANDLER STATE PROCESSOR, * INPUT INITIATOR RESPONSE ACTION PROCESSOR, * INPUT BLOCK RESPONSE ACTION PROCESSOR. * * USES - * * T0-T0+4 = SYSTEM REAL-TIME CLOCK, ** T1 = BLOCK HANDLER STATE PROCESSOR ADDRESS. CEH SUBR ENTRY/EXIT STD BT STORE BLOCK TYPE OF OUTPUT REQUESTED LDK RTCL LOAD ADDRESS OF SYSTEM REAL-TIME CLOCK CRD T0 READ SYSTEM REAL-TIME CLOCK LDM OTM,FEI LOAD OUTPUT DELAY TIMER FOR FRONT END ZJN CEH.1 EXIT IF OUTPUT DELAY NOT IN EFFECT SBD T0+4 LESS SYSTEM MILLISECOND TIMER SHN 5+1 POSITION HIGH-ORDER VALUE BIT TO SIGN PJN CEH.3 EXIT IF OUTPUT DELAY NOT EXPIRED CEH.1 LDD BHS LOAD BLOCK HANDLER STATE SBN /TABLES/BHS4 LESS VALUE FOR FIRST NPU STATE MJN CEH.2 EXIT IF NOT NPU STATE LOOR 2IQ OVERLAY ORDINAL OF NPU STATE PROCESSORS RJM COL EXIT TO CHECK IF OVERLAY LOADED CEH.2 LDD BHS LOAD BLOCK HANDLER STATE ADC /TABLES/BHSTATES PLUS FWA OF BLOCK HANDLER STATE TABLE RJM GTE EXIT TO GET BLOCK HANDLER STATE TABLE ENTRY STD T1 STORE ADDRESS OF STATE PROCESSOR LJM 0,T1 EXIT TO BLOCK HANDLER STATE PROCESSOR CEH.3 LINK ENTRY FEIO FEIA CHECK FOR INPUT AVAILABLE FROM FRONT END MJN CEHX EXIT IF INPUT NOT AVAILABLE LDN 0 CONSTANT OF ZERO STD STS RESET STREAM STATES STM OTM,FEI RESET OUTPUT DELAY TIMER EIIA LDD IOC LOAD INPUT ORDER CODE ORDINAL ADC /TABLES/IIT PLUS FWA OF INPUT INITIATOR TABLE EIIA.1 LINK ENTRY RJM GTE EXIT TO GET DRIVER TABLE ENTRY EIIA.2 LINK ENTRY STM EIIA.3+1 STORE ACTION PROCESSOR ADDRESS EIIA.3 LJM ** EXIT TO EXECUTE ACTION PROCESSOR EIIAX MJN CEH.5 EXIT IF INPUT NOT POSSIBLE FEIO FEIH INPUT BLOCK PROTOCOL HEADER FROM FRONT END EIRA LDN /ACTORD/BLKIN INPUT BLOCK DIRECTORY TABLE OFFSET STD ADO STORE ACTION DIRECTORY TABLE OFFSET LDD STS LOAD PRU STREAM STATES ZJN EIRA.1 EXIT IF NOT PRU STREAM LDN /TABLES/PIBR-/TABLES/IIBR DELTA FOR PRU BLOCK TABLE EIRA.1 ADC /TABLES/IIBR PLUS FWA OF IVT BLOCK INPUT TABLE UJN EOIA.2 EXIT TO GET RESPONSE TABLE ENTRY EXIT TO CEHX AFTER ACTION CEH.5 LINK ENTRY FEIO FENI SET NOT READY FOR INPUT TO FRONT END UJK CEHX RETURN EIIA TITLE MAIN DRIVER CONTROL PROCESSORS. EIIA SPACE 2,26 ** SUBROUTINE EIIA. * * SUBROUTINE EIIA EXECUTES AN INPUT INITIATOR ACTION. * THE INPUT INITIATOR CONTROL TABLE ENTRY IS OBTAINED * AND THE INPUT INITIATOR ACTION IS EXECUTED. * * ENTRY - * * (IOC) = INPUT ORDER CODE ORDINAL FROM FRONT END. * * CALLS - * * GTE - GET DRIVER CONTROL TABLE ENTRY. * * PROCESSOR CALLS - * * INPUT INITIATOR ACTION PROCESSOR. * * USES - * ** T1 = ACTION PROCESSOR ADDRESS. * CODE IS PLACED INLINE IN CEH TO SAVE SPACE AND TIME. EOIA SPACE 2,36 ** SUBROUTINE EOIA. * * SUBROUTINE EOIA EXECUTES AN OUTPUT INITIATOR ACTION. * THE OUTPUT INITIATOR CONTROL TABLE ENTRY IS OBTAINED, * THE CONTROL CODE SAVED AND THE OUTPUT INITIATOR ACTION * IS EXECUTED. * * ENTRY - * * (STS) = PRU STREAM STATES, * (BT) = OUTPUT BLOCK TYPE. * * EXIT - * * (CTL) = OUTPUT INITIATOR RESPONSE CONTROL CODE, * (RTE) = OUTPUT INITIATOR RESPONSE TABLE ENTRY. * * CALLS - * * GTE - GET DRIVER CONTROL TABLE ENTRY. * * PROCESSOR CALLS - * * OUTPUT INITIATOR ACTION PROCESSOR. * * USES - * ** T1 = ACTION PROCESSOR ADDRESS. EOIA SUBR ENTRY/EXIT LDN /ACTORD/OUTINT OUTPUT INITIATOR DIRECTORY TABLE OFFSET STD ADO STORE ACTION DIRECTORY TABLE OFFSET LDD STS LOAD PRU STREAM STATES ZJN EOIA.1 EXIT IF NOT PRU STREAM LDN /TABLES/POIT-/TABLES/IOIT DELTA FOR PRU INITIATOR TABLE EOIA.1 ADC /TABLES/IOIT PLUS FWA OF IVT OUTPUT INITIATOR TABLE EOIA.2 LINK ENTRY ADD BT PLUS BLOCK TYPE EOIA.3 LINK ENTRY RJM GTE EXIT TO GET RESPONSE TABLE ENTRY STD RTE STORE RESPONSE TABLE ENTRY SHN -S.CTLCD POSITION CONTROL CODE TO LOW-ORDER STD CTL STORE CONTROL CODE FROM TABLE ENTRY ERA SPACE 2,28 ** ROUTINE ERA. * * ROUTINE ERA EXECUTES A DRIVER RESPONSE ACTION. THE * ACTION ORDINAL IS OBTAINED FROM THE RESPONSE TABLE * ENTRY. THE ACTION ADDRESS IS OBTAINED FROM THE ACTION * DIRECTORY TABLE AND THE ACTION IS EXECUTED. * * ENTRY - * * (RTE) = RESPONSE TABLE ENTRY, * (ADO) = ACTION DIRECTORY TABLE OFFSET. * * CALLS - * * GTE - GET DRIVER TABLE ENTRY. * * PROCESSOR CALLS - * * RESPONSE ACTION PROCESSOR. * * USES - * ** T1 = ACTION PROCESSOR ADDRESS. ERA LINK ENTRY LDD RTE LOAD RESPONSE TABLE ENTRY LPN L.ACTORD EXTRACT ACTION ORDINAL ADD ADO PLUS ACTION DIRECTORY TABLE OFFSET EXIT EIIA.1 EXIT TO GET DRIVER CONTROL TABLE ENTRY EOVP SPACE 2,34 ** SUBROUTINE EOVP. * * SUBROUTINE EOVP EXECUTES AN OUTPUT VALIDATION ACTION * PROCESSOR. THE OUTPUT VALIDATION CONTROL TABLE ENTRY * IS OBTAINED AND THE OUTPUT VALIDATION ACTION PROCESSOR * IS EXECUTED. * * ENTRY - * * (A) = APPLICATION CHARACTER TYPE. * * EXIT - * * (A) = ZERO IF INVALID OUTPUT PARAMETER, * (OCB) = OUTPUT CHARACTERS PER DRIVER BUFFER, * (OCP) = OUTPUT CHARACTER PROCESSOR ADDRESS. * * CALLS - * * GTE - GET DRIVER CONTROL TABLE ENTRY. * * PROCESSOR CALLS - * * OUTPUT VALIDATION ACTION PROCESSOR. * * USES - * ** T1 = ACTION PROCESSOR ADDRESS. EOVP SUBR ENTRY/EXIT ADC /TABLES/VMP PLUS FWA OF VALIDATION PROCESSOR TABLE RJM GTE EXIT TO GET DRIVER CONTROL TABLE ENTRY ZJN EOVPX RETURN IF INVALID TABLE ENTRY EXIT EIIA.2 EXIT TO STORE PROCESSOR ADDRESS EIRA SPACE 2,34 ** SUBROUTINE EIRA. * * SUBROUTINE EIRA EXECUTES AN INPUT BLOCK RESPONSE * ACTION. THE INPUT BLOCK RESPONSE CONTROL TABLE * ENTRY IS OBTAINED, THE CONTROL CODE SAVED AND THE * INPUT BLOCK RESPONSE ACTION IS EXECUTED. * * ENTRY - * * (STS) = PRU STREAM STATES, * (BT) = INPUT BLOCK TYPE. * * EXIT - * * (CTL) = INPUT BLOCK RESPONSE CONTROL CODE, * (RTE) = INPUT BLOCK RESPONSE CONTROL TABLE ENTRY. * * CALLS - * * GTE - GET DRIVER CONTROL TABLE ENTRY. * * PROCESSOR CALLS - * * INPUT BLOCK RESPONSE ACTION PROCESSOR. * * USES - * ** T1 = ACTION PROCESSOR ADDRESS. * CODE IS PLACED INLINE IN CEH TO SAVE SPACE AND TIME. EORA SPACE 2,28 ** SUBROUTINE EORA. * * SUBROUTINE EORA EXECUTES AN OUTPUT BLOCK RESPONSE * ACTION. THE OUTPUT BLOCK RESPONSE CONTROL TABLE * ENTRY IS OBTAINED AND THE OUTPUT BLOCK RESPONSE ACTION * IS EXECUTED. * * ENTRY - * * (BT) = OUTPUT BLOCK TYPE. * * CALLS - * * GTE - GET DRIVER CONTROL TABLE ENTRY. * * PROCESSOR CALLS - * * OUTPUT BLOCK RESPONSE ACTION PROCESSOR. * * USES - * ** T1 = ACTION PROCESSOR ADDRESS. * CODE IS PLACED INLINE IN BIAS TO SAVE SPACE AND TIME. EBRA SPACE 2,36 ** SUBROUTINE EBRA. * * SUBROUTINE EBRA EXECUTES A BLOCK HANDLER STATE RESPONSE * ACTION. THE BLOCK HANDLER STATE RESPONSE TABLE ENTRY * IS OBTAINED, THE BLOCK HANDLER STATE IS SET TO THE * VALUE OF THE TABLE CONTROL PARAMETER, THE ACTION IS * EXECUTED AND THE CONNECTION TABLE IS REWRITTEN. * * ENTRY - * * (CTL) = BLOCK HANDLER STATE * RESPONSE ACTION ORDINAL. * * EXIT - * * (BHS) = NEW BLOCK HANDLER STATE, * (RTE) = BLOCK HANDLER STATE RESPONSE TABLE ENTRY. * * CALLS - * * GTE - GET DRIVER CONTROL TABLE ENTRY, * WCT - WRITE CONNECTION TABLE ENTRY. * * PROCESSOR CALLS - * * BLOCK HANDLER STATE RESPONSE ACTION PROCESSOR. * * USES - * ** T1 = ACTION PROCESSOR ADDRESS. TCRN LINK ENTRY LOOR 3IL LOAD ORVERLAY ORDINAL OF SUBROUTINE RJM COL EXIT TO CHECK OVERLAY LOADED RJM TCR EXIT TO TRANSFER COMMAND RESPONSE EBRAX LINK RETURN POINT RJM WCT EXIT TO WRITE CONNECTION TABLE ENTRY EBRA SUBR NOX ENTRY/EXIT LDN /ACTORD/BLOCK BLOCK HANDLER DIRECTORY TABLE OFFSET STD ADO STORE ACTION DIRECTORY TABLE OFFSET LDC /TABLES/BHSRP LOAD ADDRESS OF RESPONSE TABLE POINTERS ADD BHS PLUS BLOCK HANDLER STATE RJM GTE EXIT TO GET TABLE POINTER ENTRY ADD CTL PLUS STATE RESPONSE ACTION ORDINAL RJM GTE EXIT TO GET RESPONSE TABLE ENTRY STD RTE STORE RESPONSE TABLE ENTRY SHN -S.CTLCD POSITION CONTROL CODE TO LOW-ORDER STD BHS STORE NEXT BLOCK HANDLER STATE EXIT ERA EXIT TO EXECUTE RESPONSE ACTION ESRA SPACE 2,38 ** SUBROUTINE ESRA. * * SUBROUTINE ESRA EXECUTES A STREAM STATE RESPONSE * ACTION. THE STREAM STATE RESPONSE TABLE ENTRY IS * OBTAINED, THE STREAM STATE IS SET TO THE VALUE OF * THE TABLE CONTROL PARAMETER, THE ACTION IS EXECUTED * AND THE CONNECTION TABLE IS REWRITTEN. * * ENTRY - * * (A) = STREAM STATE RESPONSE ACTION ORDINAL, * (STS) = STREAM STATES. * * EXIT - * * (STS) = NEW STREAM STATE, * (RTE) = STREAM STATE RESPONSE TABLE ENTRY. * * CALLS - * * GTE - GET DRIVER CONTROL TABLE ENTRY, * WCT - WRITE CONNECTION TABLE ENTRY. * * PROCESSOR CALLS - * * STREAM STATE RESPONSE ACTION PROCESSOR. * * USES - * * CTL = STREAM STATE RESPONSE ACTION ORDINAL, * NSS = NEXT STREAM STATE, ** T1 = ACTION PROCESSOR ADDRESS. ESRAX LINK RETURN POINT LDD STS LOAD STREAM STATES SCN 77B CLEAR CURRENT STREAM STATE LMD NSS SET NEXT STREAM STATE STD STS STORE STREAM STATES RJM WCT EXIT TO WRITE CONNECTION TABLE ENTRY ESRA SUBR NOX ENTRY/EXIT STD CTL STORE STREAM STATE RESPONSE ACTION ORDINAL LDC /ACTORD/STREAM STREAM ACTION DIRECTORY TABLE OFFSET STD ADO STORE ACTION DIRECTORY TABLE OFFSET LDD STS LOAD STREAM STATES LPN 77B EXTRACT CURRENT STREAM STATE ADC /TABLES/SSRP PLUS ADDRESS OF RESPONSE TABLE POINTERS RJM GTE EXIT TO GET TABLE POINTER ENTRY ADC /TABLES/STSRT*2 PLUS OFFSET FOR RESPONSE TABLE POINTER SHN 17 DIVIDE BY TWO STD T10 STORE RESPONSE TABLE POINTER SHN -17 ENTRY SIZE FLAG (0=3-BIT, 1=6-BIT) ZJN ESRA.1 EXIT IF 3-BIT ENTRY LDN 70B SETUP HIGHER 3-BIT MASK ESRA.1 ADC 1207B LPN INSTRUCTION WITH LOWER 3-BIT MASK STM ESRA.4 STORE MASK INSTRUCTION LPN 70B CHECK FOR 3-BIT MASK ZJN ESRA.2 EXIT IF 3-BIT MASK LDD CTL TABLE OFFSET DOUBLED IF 6-BIT ENTRY ADN 1 PLUS ONE ESRA.2 ADD CTL TBLE OFFSET IF 3-BIT ENTRY SHN 16 OFFSET DIVIDED BY 4 STD T11 BYTE OFFSET - 4 ENTRIES / BYTE SHN -16 REMAINDER OF DIVISION BY 4 STD T12 STORE REMAINDER SHN 2 REMAINDER OF DIVISION BY 4 TIMES 4 SBD T12 REMAINDER * 3 ADC 1011B SHIFT INSTRUCTION WITH ADDITINAL 9 BITS STM ESRA.3 STORE SHIFT INSTRUCTION LDD T10 RESPONSE TABLE ADDRESS ADD T11 PLUS BYTE OFFSET RJM GTE EXIT TO GET ACTION ENTRY INDEX ESRA.3 SHN ** SHIFT 9, 12, 15 OR 18 ESRA.4 LPN ** MASK 7 OR 77B STD T11 STORE ACTION ENTRY INDEX LDD T10 RESPONSE TABLE ADDRESS SBD T11 MINUS ACTION ENTRY INDEX SBN 1 ADJUSTMENT TO DELTA RJM GTE EXIT TO GET ACTION ENTRY STD RTE STORE RESPONSE TABLE ENTRY SHN -S.CTLCD POSITION CONTROL CODE TO LOW-ORDER STD NSS STORE NEXT STREAM STATE EXIT ERA EXIT TO EXECUTE RESPONSE ACTION EICA SPACE 2,36 ** SUBROUTINE EICA. * * SUBROUTINE EICA EXECUTES AN INPUT COMMAND RESPONSE * ACTION. THE INPUT COMMAND RESPONSE TABLE ENTRY IS * OBTAINED AND THE CONTROL PARAMETER IS CHECKED. IF * THE CONTROL PARAMETER IS NON-ZERO IT IDENTIFIES THE * OVERLAY THAT CONTAINS THE INPUT COMMAND PROCESSOR. * IF THE INPUT COMMAND PROCESSOR IS OVERLAY RESIDENT * A CHECK IS MADE TO ASSURE THAT THE OVERLAY IS LOADED. * * ENTRY - * * (CO) = INPUT COMMAND ORDINAL. * * EXIT - * * (RTE) = INPUT COMMAND RESPONSE TABLE ENTRY. * * CALLS - * * GTE - GET DRIVER CONTROL TABLE ENTRY, * COL - CHECK OVERLAY LOADED. * * PROCESSOR CALLS - * * INPUT COMMAND RESPONSE ACTION PROCESSOR. * * USES - * ** T1 = ACTION PROCESSOR ADDRESS. * CODE IS PLACED INLINE IN BRIC TO SAVE SPACE AND TIME. EWLP SPACE 2,32 ** SUBROUTINE EWLP. * * SUBROUTINE EWLP EXECUTES A WORKLIST COMMAND PROCESSOR. * THE WORKLIST COMMAND PROCESSOR TABLE ENTRY IS OBTAINED * AND THE CONTROL PARAMETER IS CHECKED. IF THE CONTROL * PARAMETER IS NON-ZERO IT IDENTIFIES THE OVERLAY THAT * CONTAINS THE WORKLIST COMMAND PROCESSOR. IF THE * WORKLIST COMMAND PROCESSOR IS OVERLAY RESIDENT A CHECK * IS MADE TO ASSURE THAT THE OVERLAY IS LOADED. * * ENTRY - * * (WLO) = WORKLIST COMMAND ORDINAL. * * EXIT - * * (RTE) = WORKLIST COMMAND PROCESSOR TABLE ENTRY. * * CALLS - * * GTE - GET DRIVER CONTROL TABLE ENTRY, * COL - CHECK OVERLAY LOADED. * * PROCESSOR CALLS - * ** WORKLIST COMMAND ACTION PROCESSOR. EWLP SUBR ENTRY/EXIT LDC /ACTORD/WORK WORKLIST COMMAND DIRECTORY OFFSET STD ADO STORE ACTION DIRECTORY TABLE OFFSET LDC /TABLES/AWLPT FWA OF WORKLIST COMMAND PROCESSOR TABLE ADD WLO PLUS WORKLIST ORDINAL EXIT EICA.2 EXIT TO GET RESPONSE TABLE ENTRY EOCI SPACE 2,36 ** SUBROUTINE EOCI. * * SUBROUTINE EOCI EXECUTES AN IVT OUTPUT COMMAND NORMAL * RESPONSE ACTION. THE OUTPUT COMMAND RESPONSE TABLE * ENTRY IS OBTAINED AND THE CONTROL PARAMETER IS CHECKED. * IF THE CONTROL PARAMETER IS NON-ZERO IT IDENTIFIES THE * OVERLAY THAT CONTAINS THE OUTPUT COMMAND PROCESSOR. * IF THE OUTPUT COMMAND PROCESSOR IS OVERLAY RESIDENT * A CHECK IS MADE TO ASSURE THAT THE OVERLAY IS LOADED. * * ENTRY - * * (CO) = OUTPUT COMMAND ORDINAL. * * EXIT - * * (RTE) = OUTPUT COMMAND RESPONSE TABLE ENTRY. * * CALLS - * * GTE - GET DRIVER CONTROL TABLE ENTRY, * COL - CHECK OVERLAY LOADED. * * PROCESSOR CALLS - * * IVT COMMAND RESPONSE ACTION PROCESSOR. * * USES - * * T0-T0+1 = RESPONSE TABLE ADDRESS, ** T1 = ACTION PROCESSOR ADDRESS. * CODE IS PLACED INLINE IN BRCO TO SAVE SPACE AND TIME. EOCE SPACE 2,36 ** SUBROUTINE EOCE. * * SUBROUTINE EOCE EXECUTES AN IVT OUTPUT COMMAND ERROR * RESPONSE ACTION. THE OUTPUT COMMAND RESPONSE TABLE * ENTRY IS OBTAINED AND THE CONTROL PARAMETER IS CHECKED. * IF THE CONTROL PARAMETER IS NON-ZERO IT IDENTIFIES THE * OVERLAY THAT CONTAINS THE OUTPUT COMMAND PROCESSOR. * IF THE OUTPUT COMMAND PROCESSOR IS OVERLAY RESIDENT * A CHECK IS MADE TO ASSURE THAT THE OVERLAY IS LOADED. * * ENTRY - * * (CO) = OUTPUT COMMAND ORDINAL. * * EXIT - * * (RTE) = OUTPUT COMMAND RESPONSE TABLE ENTRY. * * CALLS - * * GTE - GET DRIVER CONTROL TABLE ENTRY, * COL - CHECK OVERLAY LOADED. * * PROCESSOR CALLS - * * IVT COMMAND ERROR RESPONSE ACTION PROCESSOR. * * USES - * * T0-T0+1 = RESPONSE TABLE ADDRESS, ** T1 = ACTION PROCESSOR ADDRESS. * CODE IS PLACED INLINE IN BRCE TO SAVE SPACE AND TIME. EOCP SPACE 2,36 ** SUBROUTINE EOCP. * * SUBROUTINE EOCP EXECUTES A PRU OUTPUT COMMAND RESPONSE * ACTION. THE OUTPUT COMMAND RESPONSE TABLE ENTRY IS * OBTAINED AND THE CONTROL PARAMETER IS CHECKED. IF * THE CONTROL PARAMETER IS NON-ZERO IT IDENTIFIES THE * OVERLAY THAT CONTAINS THE OUTPUT COMMAND PROCESSOR. * IF THE OUTPUT COMMAND PROCESSOR IS OVERLAY RESIDENT * A CHECK IS MADE TO ASSURE THAT THE OVERLAY IS LOADED. * * ENTRY - * * (CO) = OUTPUT COMMAND ORDINAL. * * EXIT - * * (RTE) = OUTPUT COMMAND RESPONSE TABLE ENTRY. * * CALLS - * * GTE - GET DRIVER CONTROL TABLE ENTRY, * COL - CHECK OVERLAY LOADED. * * PROCESSOR CALLS - * * PRU OUTPUT COMMAND RESPONSE ACTION PROCESSOR. * * USES - * * T0-T0+1 = RESPONSE TABLE ADDRESS, ** T1 = ACTION PROCESSOR ADDRESS. * CODE IS PLACED INLINE IN SOPC TO SAVE SPACE AND TIME. ROPW TITLE DRIVER CONTROL TABLE MANAGEMENT SUBROUTINES. GOCA SPACE 2,30 ** SUBROUTINE GOCA. * * SUBROUTINE GOCA GETS THE ABSOLUTE CENTRAL ADDRESS OF * THE SPECIFIED OVERLAY. THE OVERLAY POINTER WORD IS * READ BY ADDING THE FIRST WORD ADDRESS OF THE OVERLAY * POINTER AREA TO THE GIVEN POINTER WORD DISPLACEMENT. * CHECKS ARE MADE ON THE FORMAT OF THE POINTER WORD, * AND, IF CORRECT, THE ABSOLUTE ADDRESS OF THE OVERLAY * IS FORMED. * * ENTRY - * * (A) = OVERLAY POINTER WORD DISPLACEMENT. * * EXIT - * * (A) = OVERLAY ABSOLUTE CENTRAL ADDRESS, OR * 0 IF POINTER WORD FORMAT ERROR. * * (T10-T10+4) = OVERLAY POINTER WORD. * * CALLS - * ** TFL - FORM ABSOLUTE CENTRAL ADDRESS. GOCA SUBR ENTRY/EXIT ACMA W.OVLP PLUS BASE ADDRESS OF OVERLAY POINTER AREA RJM TFL EXIT TO FORM ABSOLUTE CENTRAL ADDRESS CRD T10 READ OVERLAY POINTER WORD LDD T10+/NAM/C.DOAOL LOAD OVERLAY LENGTH IN CENTRAL WORDS ZJN GOCAX EXIT IF OVERLAY TABLE ERROR LDD T10+/NAM/C.DOAOA LOAD HIGH-ORDER OF OVERLAY ADDRESS SHN 12 POSITION TO HIGH-ORDER ADD T10+/NAM/C.DOAOA+1 PLUS LOW-ORDER OF OVERLAY ADDRESS ZJN GOCAX EXIT IF OVERLAY ADDRESS NOT KNOWN ADD T10+/NAM/C.DOAOL PLUS OVERLAY LENGTH IN CENTRAL WORDS RJM TFL EXIT TO FORM ABSOLUTE CENTRAL ADDRESS SBD T10+/NAM/C.DOAOL LESS OVERLAY LENGTH IN CENTRAL WORDS UJK GOCAX RETURN COL SPACE 2,36 ** SUBROUTINE COL. * * SUBROUTINE COL CHECKS THE OVERLAY LOADED IN THE DRIVER * TRANSIENT OVERLAY AREA. IF THE OVERLAY REQUESTED IS * NOT LOADED IT WILL BE LOADED IN THE OVERLAY AREA. * * ENTRY - * * (A) = ORDINAL OF REQUESTED OVERLAY, * (OVL) = ORDINAL OF CURRENTLY LOADED OVERLAY. * * EXIT - * * (OVL) = LOADED OVERLAY ORDINAL. * * ERROR EXITS - * * EXIT TO *ERROR* IF INVALID OVERLAY ADDRESS, * EXIT TO *ERROR* IF OVERLAY FORMAT ERROR. * * FATAL ERRORS - * * IF AN OVERLAY ERROR OCCURS ON A REQUEST FOR THE * ERROR PROCESSING OVERLAY OR THE TERMINATION * OVERLAY THE DRIVER PPU HANGS SINCE NO FURTHER * PROCESSING IS POSSIBLE. * * CALLS - * ** GOCA - GET OVERLAY ABSOLUTE CENTRAL ADDRESS. COL SUBR ENTRY/EXIT SBM OVL LESS CURRENTLY RESIDENT OVERLAY ORDINAL ZJN COLX RETURN IF OVERLAY ALREADY LOADED RAM OVL STORE OVERLAY RESIDENT ORDINAL RJM GOCA EXIT TO GET OVERLAY ABSOLUTE ADDRESS NJN COL.4 EXIT IF OVERLAY ADDRESS KNOWN COL.1 LDM OVL LOAD REQUESTED OVERLAY ORDINAL SBN #1IE LESS TERMINATION OVERLAY ORDINAL PJN COL.3 EXIT IF TERMINATION OR ERROR OVERLAY COL.2 LINK ENTRY EREXIT OFE EXIT TO ERROR ROUTINE - OVERLAY ERROR COL.3 LDK MXFM LOAD HANG PPU MONITOR FUNCTION RJM MTR EXIT TO HANG PPU UJK COL.3 EXIT TO ISSUE HANG PPU MONITOR FUNCTION COL.4 BSS 0 CRM OL.TRANS,T10+/NAM/C.DOAOL READ OVERLAY .DEBUG IFEQ .DEBUG,1 LDD T10+/NAM/C.DOAPN LOAD FIRST CHARACTERS OF OVERLAY NAME LMM OL.TRANS LESS NAME OF OVERLAY LOADED NJN COL.1 EXIT IF OVERLAY NAME ERROR LDD T10+/NAM/C.DOAPN+1 LOAD LAST CHARACTER OF OVERLAY NAME LMM OL.TRANS+1 LESS NAME OF OVERLAY LOADED NJN COL.1 EXIT IF OVERLAY NAME ERROR .DEBUG ENDIF UJK COLX RETURN SCSS SPACE 2,18 ** SUBROUTINE SCSS. * * SUBROUTINE SCSS SETS THE OLD STREAM * STATE TO THE CURRENT STREAM STATE. * * ENTRY - * * (STS) = STREAM STATES. * * EXIT - * ** (STS) = OLD STATE SET TO CURRENT STREAM STATE. SCSS SUBR ENTRY/EXIT LDD STS LOAD STREAM STATES LPN 77B EXTRACT CURRENT STREAM STATE STD STS STORE CURRENT STREAM STATE SHN 6 POSITION CURRENT STATE TO OLD STATE RAD STS SET OLD STATE TO CURRENT STREAM STATE UJK SCSSX RETURN SRSS SPACE 2,18 ** SUBROUTINE SRSS. * * SUBROUTINE SRSS SETS THE OLD STREAM * STATE TO THE SPECIFIED STREAM STATE. * * ENTRY - * * (A) = OLD STREAM STATE, * (STS) = STREAM STATES. * * EXIT - * ** (STS) = OLD STATE SET TO SPECIFIED STREAM STATE. SRSS SUBR ENTRY/EXIT SHN 6 POSITION STATE TO OLD STATE STD T0 STORE OLD STREAM STATE LDD STS LOAD STREAM STATES LPN 77B EXTRACT CURRENT STREAM STATE ADD T0 PLUS OLD STREAM STATE STD STS STORE STREAM STATES UJK SRSSX RETURN RPSS SPACE 2,18 ** SUBROUTINE RPSS. * * SUBROUTINE RPSS SETS THE NEXT STREAM * STATE TO THE OLD STREAM STATE. * * ENTRY - * * (STS) = STREAM STATES. * * EXIT - * ** (NSS) = OLD STREAM STATE. RPSS SUBR ENTRY/EXIT LDD STS LOAD STREAM STATES SHN -6 POSITION OLD STATE TO CURRENT STATE STD NSS SET NEXT STREAM STATE TO OLD STREAM STATE UJK RPSSX RETURN TFL TITLE CENTRAL MEMORY TABLE SUPPORT SUBROUTINES. TFL SPACE 2,30 ** SUBROUTINE TFL. * * SUBROUTINE TFL TESTS THE RELATIVE ADDRESS CALLING * VALUE AGAINST THE FIELD LENGTH OF THE CONTROL POINT. * IF THE CALLING ADDRESS IS IN RANGE, THE REFERENCE * ADDRESS IS ADDED TO FORM THE ABSOLUTE ADDRESS. * * ENTRY - * * (A) = RELATIVE ADDRESS, * (FL) = FIELD LENGTH OF CONTROL POINT, * (RA) = REFERENCE ADDRESS OF CONTROL POINT. * * EXIT - * * (A) = ABSOLUTE ADDRESS IF IN RANGE. * * ERROR EXITS - * * EXIT TO *ERROR* IF CALLING VALUE OUT OF RANGE. * * USES - * * T0-T0+4 = CONTROL POINT STATUS WORD, ** T5-T5+1 = CALLING VALUE. TFL SUBR ENTRY/EXIT MJN TFL.3 EXIT IF CALLING VALUE TOO LARGE TFL.1 SHN 18-6 CALLING VALUE DIVIDED BY 100B SBD FL LESS FIELD LENGTH DIVIDED BY 100B SHN 18-18+6 POSITION BORROW INDICATOR TO SIGN PJN TFL.2 EXIT IF CALLING VALUE OUT OF RANGE SHN 18-6 REPOSITION TO RESULT DIVIDED BY 100B ADD FL ADD BACK FIELD LENGTH DIVIDED BY 100B ADD RA PLUS REFERENCE ADDRESS DIVIDED BY 100B SHN 18-18+6 MULTIPLY BY 100B UJK TFLX RETURN TFL.2 SHN 18-6 REPOSITION TO RESULT DIVIDED BY 100B ADD FL ADD BACK FIELD LENGTH DIVIDED BY 100B SHN 18-18+6 MULTIPLY BY 100B STD T5+1 STORE LOW-ORDER OF CALLING VALUE SHN -12 POSITION HIGH-ORDER OF CALLING VALUE STD T5 STORE HIGH-ORDER OF CALLING VALUE LDD CP LOAD CONTROL POINT AREA ADDRESS ADN FLSW DELTA FOR CONTROL POINT FIELD LENGTH WORD CRD T0 READ CONTROL POINT FIELD LENGTH WORD LDD T0+4 LOAD CONTROL POINT FIELD LENGTH LMD FL LESS PREVIOUS FIELD LENGTH VALUE ZJN TFL.3 EXIT IF NO CHANGE IN FIELD LENGTH LDD T0+4 LOAD NEW FIELD LENGTH VALUE STD FL STORE NEW FIELD LENGTH VALUE LDD T5 LOAD HIGH-ORDER OF CALLING VALUE SHN 12 POSITION TO HIGH-ORDER ADD T5+1 PLUS LOW-ORDER OF CALLING VALUE UJK TFL.1 EXIT TO TEST CALLING VALUE AGAIN TFL.3 EREXIT AOR EXIT TO ERROR - ADDRESS OUT OF RANGE TLU SPACE 2,32 ** SUBROUTINE TLU. * * SUBROUTINE TLU PERFORMS A TABLE LOOKUP ON THE CALLING * ARGUMENT AGAINST THE CONTROL TABLE SPECIFIED BY THE * CALLING ROUTINE. END OF TABLE IS DEFINED TO BE A ZERO * ENTRY IN THE CONTROL TABLE. * * ENTRY - * * (A) = ADDRESS OF CONTROL TABLE, * (TAR) = TABLE ARGUMENT. * * EXIT - * * (A) = TABLE ORDINAL IF MATCH * OR NEGATIVE IF NO MATCH. * * CALLS - * * GTE - GET DRIVER CONTROL TABLE ENTRY. * * USES - * * T16-T16+1 = ADDRESS OF CONTROL TABLE, * T15 = TABLE ORDINAL, ** T7 = CONTROL TABLE ENTRY BYTE DISPLACEMENT. TLU SUBR ENTRY/EXIT STD T16+1 STORE LOW-ORDER OF CONTROL TABLE ADDRESS SHN -12 POSITION HIGH-ORDER OF ADDRESS STD T16 STORE HIGH-ORDER OF CONTROL TABLE ADDRESS LDN 0 CONSTANT OF ZERO STD T15 INITIALZE TABLE ORDINAL TLU.1 LDD T16 LOAD HIGH-ORDER OF CONTROL TABLE ADDRESS SHN 12 POSITION TO HIGH-ORDER ADD T16+1 PLUS LOW-ORDER OF CONTROL TABLE ADDRESS RJM GTE EXIT TO GET NEXT CONTROL TABLE ENTRY TLU.2 ZJN TLU.4 EXIT IF END OF CONTROL TABLE LMD TAR LESS CALLING ARGUMENT ZJN TLU.3 EXIT IF CALLING ARGUMENT FOUND AOD T15 INCREMENT TABLE ORDINAL AOD T16+1 INCREMENT LOW-ORDER OF CONTROL TABLE ADDRESS SHN -12 POSITION POSSIBLE CARRY RAD T16 ADD TO HIGH-ORDER OF CONTROL TABLE ADDRESS LDD T16+1 LOAD LOW-ORDER OF CONTROL TABLE ADDRESS LPN 3 EXTRACT BYTE DISPLACEMENT ZJN TLU.1 EXIT IF ENTRY IN NEXT CONTROL TABLE WORD STD T7 STORE ADDRESS OF NEXT TABLE ENTRY LDI T7 LOAD NEXT TABLE ENTRY UJK TLU.2 EXIT TO CHECK FOR END OF CONTROL TABLE TLU.3 LDD T15 LOAD CONTROL TABLE ORDINAL UJK TLUX RETURN WITH CONTROL TABLE ORDINAL OF MATCH TLU.4 LCN 1 SET A-REGISTER NEGATIVE UJK TLUX RETURN - NO MATCH FOUND GTE SPACE 2,28 ** SUBROUTINE GTE. * * SUBROUTINE GTE GETS THE DRIVER CONTROL TABLE ENTRY * FROM THE DRIVER CONTROL TABLE STORED IN CENTRAL MEMORY. * * ENTRY - * * (A) = CONTROL TABLE ENTRY DISPLACEMENT. * * EXIT - * * (A) = CONTROL TABLE ENTRY VALUE, * (T0-T0+4) = CONTROL TABLE WORD IMAGE. * * CALLS - * * TFL - FORM ABSOLUTE CENTRAL ADDRESS. * * USES - * * T7 = CONTROL TABLE ENTRY DISPLACEMENT, * T0-T0+4 = DRIVER CONTROL TABLE WORD, ** T7 = CONTROL TABLE ENTRY BYTE DISPLACEMENT. GTE SUBR ENTRY/EXIT STD T7 STORE CONTROL TABLE ENTRY DISPLACEMENT SHN -2 DIVIDED BY FOUR FOR WORD DISPLACEMENT ACMA W.CTLT PLUS FWA OF DRIVER CONTROL TABLES RJM TFL EXIT TO FORM ABSOLUTE CENTRAL ADDRESS CRD T0 READ DRIVER CONTROL TABLE WORD LDD T7 LOAD CONTROL TABLE ENTRY DISPLACEMENT LPN 3 EXTRACT CONTROL TABLE BYTE DISPLACEMENT STD T7 STORE CONTROL TABLE BYTE DISPLACEMENT LDI T7 LOAD DRIVER CONTROL TABLE ENTRY UJK GTEX RETURN WCT SPACE 2,42 ** SUBROUTINE WCT. * * SUBROUTINE WCT STORES DRIVER PARAMETERS INTO THE * CONNECTION TABLE ENTRY AND WRITES THE CONNECTION * TABLE ENTRY INTO CENTRAL MEMORY FOR PRU STREAMS. * FOR IVT MESSAGES ADDRESSED TO THE SERVICE CHANNEL * THE FRONT END STATE IS SET TO THE CURRENT BLOCK * HANDLER STATE. * * ENTRY - * * (STS) = STREAM STATES, * (CN) = CONNECTION NUMBER OF ACTIVE STREAM, * (FEI) = FRONT END TABLE ADDRESS, * (BHS) = CURRENT BLOCK HANDLER STATE, * (TN) = TERMINAL NODE OF CURRENT STREAM, * (ACI) = ACTIVE CONNECTION TABLE IDENTIFIER, * (ACT) = ACTIVE CONNECTION TABLE ADDRESS, * (BSBN) = BSN AND BACK COUNTS. * * EXIT - * * (FES) = UPDATED IF FRONT END STATE CHANGE. * * ERROR EXITS - * * EXIT TO *ERROR* IF NO ACTIVE CONNECTION TABLE. * * CALLS - * * TFL - FORM ABSOLUTE CENTRAL ADDRESS. * * USES - * T6 = CONNECTION TABLE OFFSET, * T10-T10+4 = CONNECTION TABLE ENTRY, ** T6-T6+1 = CONNECTION TABLE ENTRY ADDRESS. WCT SUBR ENTRY/EXIT LDD STS LOAD STREAM STATES NJN WCT.3 EXIT IF PRU STREAM WCT.1 LDD BHS LOAD CURRENT BLOCK HANDLER STATE ZJN WCT.2 EXIT IF FRONT END OPERATIONAL SBN /TABLES/BHS4 LESS VALUE FOR FIRST FRONT END STATE MJN WCTX RETURN IF NOT FRONT END STATE WCT.2 LDD BHS LOAD CURRENT BLOCK HANDLER STATE STI FEI STORE NEXT FRONT END STATE UJK WCTX RETURN WCT.3 LDD CN LOAD CONNECTION NUMBER OF CURRENT STREAM LPN 0#F EXTRACT CONNECTION TABLE OFFSET STD T6 STORE CONNECTION TABLE OFFSET LMD CN REDUCE TO LOGICAL LINK POINTER DISPLACEMENT SHN 8-4 POSITION POINTER WORD DISPLACEMENT LMD TN PLUS TERMINAL NODE OF CURRENT STREAM LMM ACI LESS ACTIVE CONNECTION TABLE IDENTIFIER ZJN WCT.5 EXIT IF NO CONNECTION TABLE SWITCH WCT.4 LINK ENTRY EREXIT NCT EXIT TO ERROR - NO ACTIVE CONNECTION TABLE WCT.5 LDM ACT LOAD HIGH-ORDER OF ACTIVE CONNECTION TABLE SHN 12 POSITION TO HIGH-ORDER ADM ACT+1 PLUS LOW-ORDER OF ACTIVE CONNECTION TABLE ZJN WCT.4 EXIT IF NO ACTIVE CONNECTION TABLE ADN /NAM/W.NCNTE DELTA FOR FIRST CONNECTION TABLE ENTRY ADD T6 PLUS CONNECTION TABLE OFFSET RJM TFL EXIT TO FORM ABSOLUTE CENTRAL ADDRESS CRD T10 READ CONNECTION TABLE ENTRY STD T6+1 STORE LOW-ORDER OF CENTRAL ADDRESS SHN -12 POSITION HIGH-ORDER OF ADDRESS STD T6 STORE HIGH-ORDER OF CENTRAL ADDRESS LDD STS LOAD PRU STREAM STATES STD T10+/NAM/C.PSS STORE INTO CONNECTION TABLE ENTRY LDD BSBC LOAD BSN AND BACK COUNTS STD T10+/NAM/C.PBB STORE INTO CONNECTION TABLE ENTRY LDD T6 LOAD HIGH-ORDER OF CONNECTION TABLE ADDRESS SHN 12 POSITION TO HIGH-ORDER ADD T6+1 PLUS LOW-ORDER OF CONNECTION TABLE ADDRESS CWD T10 REWRITE CONNECTION TABLE ENTRY UJK WCT.1 EXIT TO UPDATE FRONT END STATE IF CHANGED RCT SPACE 2,50 ** SUBROUTINE RCT. * * SUBROUTINE RCT READS THE CONNECTION TABLE ENTRY FOR * THE CURRENT STREAM FROM CENTRAL MEMORY AND STORES THE * DRIVER PARAMETERS INTO PPU MEMORY. FOR MESSAGES * ADDRESSED TO THE DRIVER OR FOR UNASSIGNED CONNECTIONS * A ZERO CONNECTION TABLE ENTRY IS USED. IF THE CURRENT * STREAM CAUSES A CONNECTION TABLE SWITCH THE OVERLAY * WITH THE CONNECTION TABLE SWITCH PROCESSOR IS LOADED * AND EXECUTED. * * **NOTE** - OVERLAY PROCESSORS MUST NOT CALL *RCT* * UNLESS THEY CAN GUARANTEE THAT A * CONNECTION TABLE SWITCH WILL NOT OCCUR. * * ENTRY - * * (TN) = TERMINAL NODE OF CURRENT STREAM, * (FEI) = FRONT END TABLE ADDRESS, * (HND) = HOST NODE ID OF FRONT END, * (FES) = FRONT END STATE, * (CN) = CONNECTION NUMBER OF CURRENT STREAM, * (ACI) = ACTIVE CONNECTION TABLE IDENTIFIER, * (ACT) = ACTIVE CONNECTION TABLE ADDRESS. * * EXIT - * * (A) = NEGATIVE IF CONNECTION NOT ASSIGNED, * (STS) = STREAM STATES, * (BSBC) = BSN AND BACK COUNTS, * (BHS) = BLOCK HANDLER STATE, * (PCB) = PCB ADDRESS, * (NBL) = NETWORK BLOCK LIMIT, * (AAC) = NON-ZERO IF APPLICATION TO APPLICATION. * * ERROR EXITS - * * EXIT TO *ERROR* IF NO ACTIVE CONNECTION TABLE. * * CALLS - * * TFL - FORM ABSOLUTE CENTRAL ADDRESS, * COL - CHECK OVERLAY LOADED, * CTS - PROCESS CONNECTION TABLE SWITCH. * * USES - * * T0-T0+4 = CONNECTION TABLE ENTRY, * T7 = CONNECTION TABLE OFFSET, ** T0-T0+4 = NETWORK BLOCK LIMIT WORD FROM PCB. RCT SUBR ENTRY/EXIT LDD TN LOAD TERMINAL NODE OF CURRENT STREAM ZJN RCT.1 EXIT IF TERMINAL NODE IS ZERO LMM HND,FEI LESS HOST NODE ID OF FRONT END NJN RCT.6 EXIT IF MESSAGE NOT ADDRESSED TO DRIVER RCT.1 LDN ZERL LOAD ADDRESS OF ZERO WORD RCT.2 CRD T0 READ CONNECTION TABLE ENTRY LDD T0+/NAM/C.PSS LOAD STREAM STATES FROM TABLE ENTRY STD STS STORE DRIVER STREAM STATES LDD T0+/NAM/C.PBB LOAD BSN AND BACK COUNTS FROM TABLE ENTRY STD BSBC STORE DRIVER BSN AND BACK COUNTS LDI FEI LOAD FRONT END STATE NJN RCT.3 EXIT IF FRONT END NOT OPERATIONAL LDD T0+/NAM/C.PBH LOAD BLOCK HANDLER STATE FROM TABLE ENTRY SHN -/NAM/S.PBH POSITION BLOCK HANDLER STATE TO LOW-ORDER RCT.3 STD BHS STORE DRIVER BLOCK HANDLER STATE LDD T0+/NAM/C.PCB LOAD HIGH-ORDER PCB ADDRESS FROM TABLE LPN 37B EXTRACT ADDRESS BITS STD PCB STORE HIGH-ORDER OF DRIVER PCB ADDRESS SHN 12 POSITION TO HIGH-ORDER ADD T0+/NAM/C.PCB+1 PLUS LOW-ORDER PCB ADDRESS FROM TABLE STD PCB+1 STORE LOW-ORDER PCB ADDRESS NJN RCT.8 EXIT IF PRU CONTROL BLOCK ASSIGNED LDD CN LOAD CONNECTION NUM,BER OF CURRENT STREAM ZJN RCT.5 EXIT IF SERVICE CHANNEL LDI FEI LOAD FRONT END STATE NJN RCT.4 EXIT IF FRONT END NOT OPERATIONAL LDN /TABLES/BHS1 LOAD IVT BLOCK HANDLER STATE STD BHS SET BLOCK HANDLER STATE TO IVT RCT.4 LCN 1 SET A-REGISTER NEGATIVE RCT.5 UJK RCTX RETURN RCT.6 LDD CN LOAD CONNECTION NUMBER OF CURRENT STREAM LPN 0#F EXTRACT CONNECTION TABLE OFFSET STD T7 STORE CONNECTION TABLE OFFSET LMD CN REDUCE TO LOGICAL LINK POINTER DISPLACEMENT SHN 8-4 POSITION POINTER WORD DISPLACEMENT LMD TN PLUS TERMINAL NODE OF CURRENT STREAM LMM ACI LESS ACTIVE CONNECTION TABLE IDENTIFICATION ZJN RCT.7 EXIT IF NO CONNECTION TABLE SWITCH LJM RCT.11 EXIT TO PROCESS CONNECTION TABLE SWITCH RCT.7 LDM ACT LOAD HIGH-ORDER OF CONNECTION TABLE ADDRESS SHN 12 POSITION TO HIGH-ORDER ADM ACT+1 PLUS LOW-ORDER OF CONNECTION TABLE ADDRESS NJN RCT.10 EXIT IF ACTIVE CONNECTION TABLE EXIT WCT.4 EXIT TO ERROR - NO ACTIVE CONNECTION TABLE RCT.8 ADN /NAM/W.PCBIWP DELTA FOR FILE TRANSFER PARAMETER WORD RJM TFL EXIT TO FORM ABSOLUTE CENTRAL ADDRESS CRD T5 READ APPLICATION OARAMETER WORD SBN /NAM/W.PCBIWP DELTA FOR PCB HEADER WORD CRD T0 READ NETWORK BLOCK LIMIT WORD FROM PCB LDD T0+/NAM/C.PCBSP LOAD STREAM PARAMETER BYTE SHN -/NAM/S.PCBNBL NETWORK BLOCK LIMIT TO LOW-ORDER STD NBL STORE DRIVER NETWORK BLOCK LIMIT LDD T0+/NAM/C.PCBSP LOAD STREAM PARAMETER BYTE LPN /NAM/M.PCBAA EXTRACT APPLICATION TO APPLICATION FLAG STD AAC STORE APPLICATION TO APPLICATION FLAG ZJN RCT.9 EXIT IF NOT APPLICATION TO APPLICATION LDD T5+/NAM/C.PCBFTP+1 LOW-ORDER FILE TRANSFER PARAMETERS LPN /NAM/L.PCBXDD EXTRACT APPLICATION DATA DECLARATION RAD AAC ADD TO APPLICATION TO APPLICATION FLAG RCT.9 UJK RCTX RETURN RCT.10 LINK ENTRY ADN /NAM/W.NCNTE DELTA FOR FIRST CONNECTION TABLE ENTRY ADD T7 PLUS CONNECTION TABLE OFFSET RJM TFL EXIT TO FORM ABSOLUTE CENTRAL ADDRESS UJK RCT.2 EXIT TO READ CONNECTION TABLE ENTRY RCT.11 LOOR 3IL LOAD OVERLAY ORDINAL OF SUBROUTINE RJM COL EXIT TO CHECK OVERLAY LOADED LCMA W.TNTP LOAD TERMINAL NODE TABLE POINTER ADDRESS RJM CTS EXIT TO PROCESS CONNECTION TABLE SWITCH NJN RCT.10 EXIT IF CONNECTION NUMBER ASSIGNED UJK RCT.1 EXIT TO SET FOR NO CONNECTION TABLE ENTRY RPCB SPACE 2,22 ** SUBROUTINE RPCB. * * SUBROUTINE RPCB READS THE SPECIFIED WORD FROM THE PCB. * * ENTRY - * * (A) = PCB WORD DISPLACEMENT, * (PCB-PCB+1) = PCB ADDRESS. * * EXIT - * * (A) = ABSOLUTE PCB WORD ADDRESS, * (T10-T10+4) = PCB WORD. * * CALLS - * ** TFL - FORM ABSOLUTE CENTRAL ADDRESS. RPCB SUBR ENTRY/EXIT ADD PCB+1 PLUS LOW-ORDER OF PCB ADDRESS SHN 6 POSITION TO HIGH-ORDER ADD PCB PLUS HIGH-ORDER OF PCB ADDRESS SHN 12 POSITION TO HIGH-ORDER RJM TFL EXIT TO FORM ABSOLUTE CENTRAL ADDRESS CRD T10 READ PCB WORD UJK RPCBX RETURN RSPB SPACE 2,24 ** SUBROUTINE RSPB. * * SUBROUTINE RSPB READS THE SPECIFIED WORD FROM THE * PCB AND STORES THE ABSOLUTE ADDRESS OF THE PCB WORD. * * ENTRY - * * (A) = PCB WORD DISPLACEMENT. * * EXIT - * * (A) = ADDRESS OF PCB WORD, * (T10-T10+4) = PCB WORD, * (T15-T15+1) = ADDRESS OF PCB WORD. * * CALLS - * ** RPCB - READ WORD FROM PCB. RSPB SUBR ENTRY/EXIT RJM RPCB EXIT TO READ WORD FROM PCB STD T15+1 STORE LOW-ORDER OF PCB WORD ADDRESS SHN -12 POSITION HIGH-ORDER OF ADDRESS STD T15 STORE HIGH-ORDER OF PCB WORD ADDRESS SHN 12 POSITION TO HIGH-ORDER ADD T15+1 PLUS LOW-ORDER OF PCB WORD ADDRESS UJK RSPBX RETURN WCMW SPACE 2,18 ** SUBROUTINE WCMW. * * SUBROUTINE WCMW REWRITES THE SPECIFIED * CENTRAL MEMORY WORD. * * ENTRY - * * (T15-T15+1) = ABSOLUTE ADDRESS OF CM WORD, * (T10-T10+4) = CM WORD. * * EXIT - * ** (A) = ABSOLUTE CM WORD ADDRESS. WCMW SUBR ENTRY/EXIT LDD T15 LOAD HIGH-ORDER OF CM WORD ADDRESS SHN 12 POSITION TO HIGH-ORDER ADD T15+1 PLUS LOW-ORDER OF CM WORD ADDRESS CWD T10 REWRITE CM WORD UJK WCMWX RETURN CIWL SPACE 2,20 ** SUBROUTINE CIWL. * * SUBROUTINE CIWL CHECKS FOR AN IMMEDIATE WORKLIST ENTRY. * * EXIT - * * (A) = ADDRESS OF WORKLIST IF AVAILABLE OR * NEGATIVE IF FRONT END IN REGULATION, * (WLP) = PCB WORKLIST POINTER WORD DISPLACEMENT. * * CALLS - * * RWLP - READ WORKLIST QUEUE POINTER WORD, ** RPCB - READ WORD FROM PCB. CIWL SUBR ENTRY/EXIT LDN /NAM/W.PCBIWP DELTA FOR IMMEDIATE WORKLIST POINTER WORD STD WLP STORE WORKLIST POINTER WORD DISPLACEMENT RJM RWLP EXIT TO READ WORKLIST QUEUE POINTER WORD NJN CIWLX RETURN IF WORKLIST AVAILABLE RJM RPCB EXIT TO READ PCB HEADER WORD LDD T10+/NAM/C.PCBSP LOAD STREAM PARAMETER BYTE SHN 17-/NAM/S.PCBNR POSITION REGULATION FLAG TO SIGN MJN CIWLX RETURN IF FRONT END IN REGULATION LDN 0 CONSTANT OF ZERO UJK CIWLX RETURN CWLQ SPACE 2,18 ** SUBROUTINE CWLQ. * * SUBROUTINE CWLQ CHECKS FOR EITHER A HIGH PRIORITY * OR LOW PRIORITY WORKLIST ENTRY FOR PROCESSING. * * EXIT - * * (A) = ADDRESS OF WORKLIST IF AVAILABLE, * (WLP) = PCB WORKLIST POINTER WORD DISPLACEMENT. * * CALLS - * ** RWLP - READ WORKLIST QUEUE POINTER WORD. CWLQ SUBR ENTRY/EXIT LDN /NAM/W.PCBHWP DELTA FOR HIGH PRIORITY WORKLIST POINTER STD WLP INITIALIZE WORKLIST POINTER DISPLACEMENT CWLQ.1 RJM RWLP EXIT TO READ WORKLIST QUEUE POINTER WORD NJN CWLQX RETURN IF WORKLIST TO PROCESS CWLQ.2 LDD WLP LOAD WORKLIST POINTER DISPLACEMENT LMN /NAM/W.PCBLWP LESS ENDING VALUE ZJN CWLQX RETURN IF NO WORKLIST TO PROCESS AOD WLP INCREMENT WORKLIST POINTER DISPLACEMENT UJK CWLQ.1 EXIT TO CHECK NEXT WORKLIST POINTER WORD RWLP SPACE 2,22 ** SUBROUTINE RWLP. * * SUBROUTINE RWLP READS A WORKLIST * QUEUE POINTER WORD FROM THE PCB. * * ENTRY - * * (A) = WORKLIST QUEUE POINTER WORD OFFSET. * * EXIT - * * (A) = WORKLIST ADDRESS IF AVAILABLE, * (T10-T10+4) = WORKLIST QUEUE POINTER WORD. * * CALLS - * ** RPCB - READ WORD FROM PCB. RWLP SUBR ENTRY/EXIT RJM RPCB EXIT TO READ WORKLIST POINTER WORD FROM PCB LDD T10+/NAM/C.PCBWLC LOAD WORKLIST COMPLETED BYTE SHN 17-/NAM/S.PCBWLC WORKLIST COMPLETED FLAG TO SIGN MJN RWLP.1 EXIT IF WORKLIST COMPLETED LDD T10+/NAM/C.PCBWLP LOAD HIGH-ORDER OF WORKLIST POINTER SHN 12 POSITION TO HIGH-ORDER ADD T10+/NAM/C.PCBWLP+1 PLUS LOW-ORDER OF WORKLIST POINTER UJK RWLPX RETURN RWLP.1 LDN 0 CONSTANT OF ZERO UJK RWLPX RETURN UNSB SPACE 2,24 ** SUBROUTINE UNSB. * * SUBROUTINE UNSB UPDATES THE FRONT END STATUS BYTE IN * THE NETWORK BUFFER TABLE ASSIGNED TO THE FRONT END. * THIS SUBROUTINE IS ALSO USED TO INCREMENT PIP/NPU(MDI) * REJECT COUNTS IN THE STATUS WORD AND INLINE DIAGNOSTICS * LIMIT POINTER WORD. * * ENTRY - * * IF UPPER 6-BIT FIELD IS ZERO, * (A) = FRONT END STATUS. * * IF UPPER 6-BIT FIELD IS NOT ZERO, IT IS THE WORD * OFFSET (W.NBTNS OR W.NBTIL) AND LOWER 12-BIT FIELD * IS BYTE ADDRESS (10B - 14B) TO BE INCREMENTED BY 1. * * CALLS - * * GNBT - GET NETWORK BUFFER TABLE ADDRESS, * TFL - FORM ABSOLUTE CENTRAL ADDRESS. * * USES - * * T7 = FRONT END STATUS, * T17 = CM WORD OFFSET OF REJECT COUNTER, * T10-T10+4 = FRONT END STATUS WORD, ** T15-T15+1 = FRONT END STATUS WORD ADDRESS. UNSB SUBR ENTRY/EXIT STD T7 STORE FRONT END STATUS SHN -12 POSITION HIGH-ORDER 6 BITS STD T17 STORE BYTE ADDRESS IF NON-ZERO ZJN UNSB.0 EXIT TO UPDATE FRONT END STATUS BYTE SBN /NAM/W.NBTNS MINUS DELTA FOR FRONT END STATUS WORD UNSB.0 ADN /NAM/W.NBTNS PLUS DELATA FOR FRONT END STATUS WORD RJM GNBT EXIT TO GET NBT WORD ABSOLUTE ADDRESS CRD T10 READ STATUS WORD FROM NETWORK BUFFER TABLE STD T15+1 STORE LOW-ORDER OF STATUS WORD ADDRESS SHN -12 POSITION HIGH-ORDER OF ADDRESS STD T15 STORE HIGH-ORDER OF STATUS WORD ADDRESS LDD T17 LOAD CM WORD OFFSET FOR COUNTERS NJN UNSB.2 EXIT TO INCREMENT COUNTER IF NON-ZERO LDD T7 LOAD FRONT END STATUS STD T10+/NAM/C.NBTNS STORE FRONT END STATUS BYTE UNSB.1 LDD T15 LOAD HIGH-ORDER OF STATUS WORD ADDRESS SHN 12 POSITION TO HIGH-ORDER ADD T15+1 PLUS LOW-ORDER OF STATUS WORD ADDRESS CWD T10 REWRITE STATUS WORD TO NETWORK BUFFER TABLE UJK UNSBX RETURN UNSB.2 AOI T7 INCREMENT COUNTER UJN UNSB.1 EXIT TO REWRITE STATUS WORD UPRM SPACE 2,22 ** SUBROUTINE UPRM. * * SUBROUTINE UPRM UPDATES THE PRU MODE IN THE PCB. * * ENTRY - * * (A) = NEW PRU MODE. * * CALLS - * * RSPB - READ AND STORE ADDRESS OF PCB WORD, * WCMW - WRITE WORD TO PCB. * * USES - * ** T17 = NEW PRU MODE. UPRM SUBR ENTRY/EXIT STD T17 STORE NEW PRU MODE LDN /NAM/W.PCBPS6 PRU STREAM PARAMETER SIX WORD ORDINAL RJM RSPB EXIT TO READ PRU PARAMETER WORD FROM PCB LDD T10+/NAM/C.PCBFTS LOAD FILE TRANSFER STATUS BYTE SCN /NAM/B.PCBFTO CLEAR PRU ON STATUS ADD T17 PLUS NEW PRU MODE STD T10+/NAM/C.PCBFTS STORE NEW PRU MODE RJM WCMW EXIT TO WRITE PRU PARAMETER WORD TO PCB UJK UPRMX RETURN AWQ SPACE 2,14 ** SUBROUTINE AWQ. * * SUBROUTINE AWQ ADVANCES THE WORKLIST COMMAND QUEUE. * * CALLS - * * RSPB -READ AND STORE ADDRESS OF PCB WORD, ** WCMW - WRITE WORD TO PCB. AWQ SUBR ENTRY/EXIT LDN /NAM/W.PCBWLQ LOAD WORKLIST QUEUE POINTER WORD ORDINAL RJM RSPB EXIT TO READ WORKLIST POINTER WORD FROM PCB AOD T10+/NAM/C.QIO INCREMENT WORKLIST QUEUE OUT POINTER LPN 77B EXTRACT QUEUE OUT POINTER SHN 6 POSITION TO QUEUE IN POINTER LMD T10+/NAM/C.QIO LESS QUEUE IN POINTER SCN 77B CLEAR EXTRANEOUS BITS NJN AWQ.1 EXIT IF OUT UNEQUAL TO IN STD T10+/NAM/C.QIO RESET QUEUE IN/OUT POINTER AWQ.1 RJM WCMW EXIT TO WRITE WORKLIST POINTER WORD TO PCB UJK AWQX RETURN IIIP TITLE IVT BUFFER MANAGEMENT SUBROUTINES. IIIP SPACE 2,36 ** SUBROUTINE IIIP. * * SUBROUTINE IIIP INITIALIZES FOR IVT INPUT. THE FIRST * BUFFER ADDRESS IS SET TO THE VALUE OF THE IN DATA * POINTER IN THE INBOUND FET. THE CURRENT DATA ADDRESS * IS SET TO THE FIRST BUFFER ADDRESS PLUS THE LENGTH * OF THE NAM HEADER WORDS. THE LAST BUFFER ADDRESS IS * SET TO THE VALUE OF THE LIMIT POINTER IN THE INBOUND * FET. THE INBOUND BUFFER ID IS STORED IN THE NAM BUFFER * ID BYTE OF THE NAM BLOCK HEADER WORD IMAGE. * * ENTRY - * * (A) = NAM INBOUND BUFFER ID. * * EXIT - * * (FBA-FBA+1) = FIRST BUFFER ADDRESS, * (CBA-CBA+1) = FIRST DATA TEXT BUFFER ADDRESS, * (LBA-LBA+1) = LAST BUFFER ADDRESS. * (NBH+C.BID) = NAM INBOUND BUFFER ID. * * CALLS - * * GIFA - GET INBOUND FET ADDRESS, * TFL - FORM ABSOLUTE CENTRAL ADDRESS. * * USES - * * T0-T0+4 = LIMIT POINTER WORD FROM FET, ** T5-T5+4 = IN DATA POINTER WORD FROM FET. IIIP SUBR ENTRY/EXIT SHN /NAM/S.BID POSITION NAM INBOUND BUFFER ID STM NBH+/NAM/C.BID STORE NAM BUFFER ID LDN /NAM/W.NBTLP DELTA FOR FET LIMIT POINTER WORD RJM GIFA EXIT TO GET LIMIT POINTER ABSOLUTE ADDRESS CRD T0 READ LIMIT POINTER WORD FROM FET SBN /NAM/W.NBTLP-/NAM/W.NBTIP DELTA FOR FET IN POINTER WORD CRD T5 READ IN POINTER WORD FROM FET LDD T5+/NAM/C.NBTIP LOAD HIGH-ORDER OF IN POINTER FROM FET STD FBA STORE HIGH-ORDER OF FIRST BUFFER ADDRESS SHN 12 POSITION TO HIGH-ORDER ADD T5+/NAM/C.NBTIP+1 PLUS LOW-ORDER OF IN POINTER FROM FET STD FBA+1 STORE LOW-ORDER OF FIRST BUFFER ADDRESS ADN /NAM/L.BH+/NAM/L.NH PLUS LENGTH OF NAM HEADER WORDS STD CBA+1 STORE LOW-ORDER OF CURRENT BUFFER ADDRESS SHN -12 POSITION HIGH-ORDER OF ADDRESS STD CBA STORE HIGH-ORDER OF CURRENT BUFFER ADDRESS LDD T0+/NAM/C.NBTLP LOAD HIGH-ORDER LIMIT POINTER FROM FET LPN 37B EXTRACT ADDRESS BITS STD LBA STORE HIGH-ORDER OF LAST BUFFER ADDRESS LDD T0+/NAM/C.NBTLP+1 LOAD LOW-ORDER LIMIT POINTER FROM FET STD LBA+1 STORE LOW-ORDER OF LAST BUFFER ADDRESS UJK IIIPX RETURN WNHB SPACE 2,28 ** SUBROUTINE WNHB. * * SUBROUTINE WNHB WRITES THE NAM HEADER WORD AND NETWORK * HEADER WORD TO THE INBOUND BUFFER FOR THE CURRENT * INBOUND MESSAGE. THE NEXT AVAILABLE INBOUND BUFFER * WORD IS INITIALIZED WITH THE NAM INBOUND BUFFER ID. * * ENTRY - * * (FBA-FBA+1) = ADDRESS OF FET BUFFER, * (NBH-NBH+L.BH) = NAM BLOCK HEADER, * (NNH-NNH+L.NH) = NAM NETWORK HEADER, * (CBA-CBA+1) = NEXT AVAILABLE BUFFER ADDRESS. * * CALLS - * * TFL - FORM ABSOLUTE CENTRAL ADDRESS. * * USES - * * (T7) = CENTRAL WORD COUNT, ** (T10-T10+4) = NEXT AVAILABLE BUFFER HEADER. WNHB SUBR ENTRY/EXIT LDN /NAM/L.BH+/NAM/L.NH LOAD LENGTH OF NAM HEADER WORDS STD T7 STORE CENTRAL WORD COUNT LDD FBA LOAD HIGH-ORDER OF FET BUFFER ADDRESS SHN 12 POSITION TO HIGH-ORDER ADD FBA+1 PLUS LOW-ORDER OF FET BUFFER ADDRESS ADD T7 PLUS CENTRAL WORD COUNT RJM TFL EXIT TO FORM ABSOLUTE CENTRAL ADDRESS SBD T7 LESS CENTRAL WORD COUNT CWM NBH,T7 WRITE OUT NAM BLOCK AND NETWORK HEADER LDN ZERL LOAD ADDRESS OF ZERO WORD CRD T10 GENERATE A CENTRAL WORD OF ZEROES LDN /NAM/Q.IBID LOAD NAM INBOUND BUFFER ID SHN /NAM/S.BID POSITION NAM INBOUND BUFFER ID STD T10+/NAM/C.BID STORE NAM BUFFER ID LDD CBA LOAD HIGH-ORDER OF NEXT BUFFER ADDRESS SHN 12 POSITION TO HIGH-ORDER ADD CBA+1 PLUS LOW-ORDER OF NEXT BUFFER ADDRESS RJM TFL EXIT TO FORM ABSOLUTE CENTRAL ADDRESS CWD T10 WRITE OUT NEXT BUFFER HEADER WORD UJK WNHBX RETURN UFOP SPACE 2,26 ** SUBROUTINE UFOP. * * SUBROUTINE UFOP UPDATES THE DATA OUT POINTER IN A FRONT * END OUTPUT PSEUDO FET FOR THE IVT OUTPUT MESSAGE THAT * HAS BEEN PROCESSED. * * ENTRY - * * (FBA-FBA+1) = ADDRESS OF HEADER WORD * FOR CURRENT IVT MESSAGE. * * CALLS - * * GCTA - GET CURRENT FRONT END FET ADDRESS, * TFL - FORM ABSOLUTE CENTRAL ADDRESS. * * USES - * * T0-T0+4 = FET DATA OUT POINTER WORD, ** T5-T5+1 = ADDRESS OF FET OUT DATA POINTER WORD. UFOP SUBR ENTRY/EXIT LDN /NAM/W.NBTOP DELTA FOR FET OUT POINTER WORD RJM GCTA EXIT TO GET CURRENT FET OUT POINTER ADDRESS CRD T0 READ DATA OUT POINTER WORD FROM FET STD T5+1 STORE LOW-ORDER OF POINTER WORD ADDRESS SHN -12 POSITION HIGH-ORDER OF ADDRESS STD T5 STORE HIGH-ORDER OF POINTER WORD ADDRESS LDD FBA LOAD HIGH-ORDER OF CURRENT BUFFER ADDRESS STD T0+/NAM/C.NBTOP STORE HIGH-ORDER OF FET OUT POINTER LDD FBA+1 LOAD LOW-ORDER OF CURRENT BUFFER ADDRESS STD T0+/NAM/C.NBTOP+1 STORE LOW-ORDER OF FET OUT POINTER LDD T5 LOAD HIGH-ORDER OF POINTER WORD ADDRESS SHN 12 POSITION TO HIGH-ORDER ADD T5+1 PLUS LOW-ORDER OF POINTER WORD ADDRESS CWD T0 REWRITE DATA OUT POINTER TO FET UJK UFOPX RETURN GNBT SPACE 2,24 ** SUBROUTINE GNBT. * * SUBROUTINE GNBT RETURNS THE ABSOLUTE ADDRESS OF THE * NETWORK BUFFER TABLE ASSIGNED TO THE FRONT END THAT * IS BEING PROCESSED. * * ENTRY - * * (A) = DELTA FOR NBT WORD TO BE ACCESSED, * (FEI) = FRONT END TABLE ADDRESS, * (NBT-NBT+1) = ADDRESS OF NETWORK BUFFER TABLE. * * EXIT - * * (A) = ABSOLUTE ADDRESS OF THE SPECIFIED NBT WORD. * * ERROR EXITS - * ** EXIT TO *ERROR* IF NO NETWORK BUFFER TABLE. GNBT SUBR ENTRY/EXIT STD T6 SAVE DELTA FOR FET WORD LDM NBT,FEI LOAD HIGH-ORDER OF NETWORK BUFFER TABLE SHN 12 POSITION TO HIGH-ORDER ADM NBT+1,FEI PLUS LOW-ORDER OF NETWORK BUFFER TABLE NJN GNBT.1 EXIT IF NETWORK BUFFER TABLE KNOWN EREXIT UBT EXIT TO ERROR - NO NETWORK BUFFER TABLE GNBT.1 ADD T6 PLUS DELTA FOR FET WORD RJM TFL EXIT TO FORM ABSOLUTE CENTRAL ADDRESS UJN GNBTX GIFA SPACE 2,24 ** SUBROUTINE GIFA. * * SUBROUTINE GIFA RETURNS THE ABSOLUTE ADDRESS OF THE * CURRENT INBOUND FILE ENVIRONMENT TABLE ASSIGNED TO * THE FRONT END THAT IS BEING PROCESSED BY THE DRIVER. * * ENTRY - * * (A) = DELTA IN A 4-WORD FET * (FEI) = FRONT END TABLE ADDRESS, * (AIF) = ACTIVE INBOUND FET OFFSET. * * EXIT - * * (A) = RELATIVE ADDRESS OF INBOUND FET. * * CALLS - * ** GNBT - GET NETWORK BUFFER TABLE ADDRESS. GIFA SUBR ENTRY/EXIT ADM AIF,FEI PLUS ACTIVE INBOUND FET OFFSET RJM GNBT EXIT TO GET NBT WORD ABSOLUTE ADDRESS UJK GIFAX RETURN UFIP SPACE 2,40 ** SUBROUTINE UFIP. * * SUBROUTINE UFIP UPDATES THE DATA IN POINTER IN A * INPUT FET FOR THE IVT INPUT MESSAGE THAT HAS BEEN * PROCESSED. IF THERE IS NOT SUFFICIENT INBOUND BUFFER * SPACE REMAINING TO ACCEPT A SMALL IVT INPUT MESSAGE, * THE CURRENT INBOUND BUFFER IS RELEASED. * * ENTRY - * * (FEI) = FRONT END TABLE ADDRESS, * (CBA-CBA+1) = ADDRESS OF NEXT DATA * WORD IN INPUT BUFFER. * * EXIT - * * (IBS) = UPDATED TO INBOUND BUFFER SPACE. * * ERROR EXITS - * * EXIT TO *ERROR* IF BUFFER SPACE REQUEST PENDING. * * CALLS - * * GIFA - GET INBOUND FET ADDRESS, * TFL - FORM ABSOLUTE CENTRAL ADDRESS, * GIBS - GET AVAILABLE IN BOUND BUFFER SPACE, * RIBF - RELEASE CURRENT INBOUND BUFFER. * * USES - * * T0-T0+4 = FET DATA IN POINTER WORD, ** T5-T5+1 = ADDRESS OF FET DATA IN POINTER WORD. UFIP.0 RJM RNAC EXIT TO REQUEST NIP ACTIVITY UFIP SUBR ENTRY/EXIT LDN /NAM/W.NBTIP DELTA FOR IN POINTER WORD FROM FET RJM GIFA EXIT TO GET IN POINTER ABSOLUTE ADDRESS CRD T0 READ DATA IN POINTER WORD FROM FET STD T5+1 STORE LOW-ORDER OF POINTER WORD ADDRESS SHN -12 POSITION HIGH-ORDER OF ADDRESS STD T5 STORE HIGH-ORDER OF POINTER WORD ADDRESS LDD CBA LOAD HIGH-ORDER OF NEXT BUFFER ADDRESS STD T0+/NAM/C.NBTIP STORE HIGH-ORDER FET IN DATA POINTER LDD CBA+1 LOAD LOW-ORDER OF NEXT BUFFER ADDRESS STD T0+/NAM/C.NBTIP+1 STORE LOW-ORDER FET IN DATA POINTER LDD T5 LOAD HIGH-ORDER OF POINTER WORD ADDRESS SHN 12 POSITION TO HIGH-ORDER ADD T5+1 PLUS LOW-ORDER OF POINTER WORD ADDRESS CWD T0 REWRITE DATA IN POINTER TO FET RJM GIBS EXIT TO GET AVAILABLE INBOUND BUFFER SPACE MJN UFIP.2 EXIT IF BUFFER SPACE REQUEST PENDING SBN /NAM/L.SIB+1 LESS BUFFER LENGTH FOR SMALL IVT MESSAGE PJN UFIP.0 EXIT IF BUFFER SPACE AVAILABLE FOR MESSAGE RJM RIBF EXIT TO RELEASE CURRENT INBOUND BUFFER UFIP.1 UJK UFIPX RETURN UFIP.2 EREXIT FIE EXIT TO ERROR - BUFFER SPACE REQUEST ACTIVE GCTA SPACE 2,26 ** SUBROUTINE GCTA. * * SUBROUTINE GCTA RETURNS THE ABSOLUTE ADDRESS OF THE * CURRENT OUTBOUND FILE ENVIRONMENT TABLE ASSIGNED TO * THE FRONT END THAT IS BEING PROCESSED BY THE DRIVER. * * ENTRY - * * (A) = DELTA FOR POINTER WORD IN AN FET, * (FEI) = FRONT END TABLE ADDRESS, * (NBT-NBT+1) = ADDRESS OF NETWORK BUFFER TABLE, * (FTO) = CURRENT OUTBOUND FET OFFSET. * * EXIT - * * (A) = RELATIVE ADDRESS OF CURRENT FET. * * CALLS - * ** GNBT - GET NETWORK BUFFER TABLE ADDRESS. GCTA SUBR ENTRY/EXIT ADD FTO PLUS CURRENT OUTBOUND FET OFFSET RJM GNBT EXIT TO GET NBT WORD ABSOLUTE ADDRESS UJK GCTAX RETURN RNAC SPACE 2,12 ** SUBROUTINE RNAC. * * SUBROUTINE RNAC SETS NIP ACTIVITY REQUEST FLAG IN PIT * HEADER WORD THAT IS MONITORED BY NIP FOR AN IMMEDIATE * RESPONSE. * * CALLS - * ** TFL - FORM ABSOLUTE CENTRAL ADDRESS. RNAC SUBR ENTRY/EXIT LCMA W.PITP LOAD PIP INTERFACE TABLE HEADER WORD ADDR RJM TFL EXIT TO GET ABSOLUTE CENTRAL ADDRESS CRD T10 READ PIP INTERFACE TABLE HEADER WORD STD T15+1 LOW-ORDER ABSOLUTE PIT HEADER ADDRESS SHN -12 POSITION HIGH-ORDER STD T15 HIGH-ORDER ABSOLUTE PIT HEADER ADDRESS LDC /NAM/B.DITNAC LOAD NIP REQUEST FLAG STD T10+/NAM/C.DITNAC STORE BYTE FOR NIP REQUEST FLAG RJM WCMW REWRITE PIT HEADER WORD UJK RNACX RETURN CIBS SPACE 2,36 ** SUBROUTINE CIBS. * * SUBROUTINE CIBS CHECKS FOR THE AVAILABILITY OF THE * INBOUND BUFFER SPACE SPECIFIED IN THE CALL. IF * THE INBOUND BUFFER SPACE IS NOT AVAILABLE THE CURRENT * INBOUND BUFFER IS RELEASED. * * ENTRY - * * (A) = REQUIRED INBOUND BUFFER SPACE, * (FEI) = FRONT END TABLE ADDRESS, * (IBS) = INBOUND BUFFER SPACE AVAILABLE. * * EXIT - * * (A) = NEGATIVE IF NO BUFFER SPACE. * * CALLS - * * GIBS - GET AVAILABLE INBOUND BUFFER SPACE, * RIBF - RELEASE CURRENT INBOUND BUFFER. * * USES - * ** T17 = REQUIRED INBOUND BUFFER SPACE. CIBS SUBR ENTRY/EXIT STD T17 STORE REQUIRED INBOUND BUFFER SPACE LDM IBS,FEI LOAD AVAILABLE INBOUND BUFFER SPACE NJN CIBS.1 EXIT IF BUFFER SPACE REQUEST NOT PENDING RJM GIBS EXIT TO GET AVAILABLE INBOUND BUFFER SPACE MJN CIBSX RETURN IF BUFFER REQUEST STILL PENDING CIBS.1 SBD T17 LESS REQUIRED INBOUND BUFFER SPACE PJN CIBSX RETURN IF INBOUND BUFFER SPACE AVAILABLE RJM RIBF EXIT TO RELEASE CURRENT INBOUND BUFFER MJN CIBSX RETURN IF NEXT BUFFER NOT AVAILABLE SBD T17 LESS REQUIRED INBOUND BUFFER SPACE PJN CIBSX RETURN IF INBOUND BUFFER SPACE AVAILABLE EREXIT BTS EXIT TO ERROR - INBOUND BUFFER TOO SMALL GIBS SPACE 2,38 ** SUBROUTINE GIBS. * * SUBROUTINE GIBS DETERMINES THE AVAILABLE INBOUND BUFFER * SPACE OF THE CURRENT INBOUND FILE ENVIRONMENT TABLE. * IF THE INBOUND FET IS AVAILABLE ITS STATUS IS SET TO * CURRENT. THE SPACE AVAILABLE IN THE INBOUND BUFFER * DESCRIBED BY THE FET IS THEN CALCULATED. * * ENTRY - * * (FEI) = FRONT END TABLE ADDRESS. * * EXIT - * * (A) = AVAILABLE INBOUND BUFFER SPACE OR * NEGATIVE IF INBOUND BUFFER NOT AVAILABLE, * (IBS) = UPDATED TO AVAILABLE INBOUND BUFFER SPACE. * (T5-T5+4) = FIRST POINTER WORD FROM FET. * * ERROR EXITS - * * EXIT TO *ERROR* IF FET POINTER ERROR. * * CALLS - * * GIFA - GET INBOUND FET ADDRESS, * TFL - FORM ABSOLUTE CENTRAL ADDRESS. * * USES - * * T0-T0+4 = LIMIT POINTER WORD FROM FET, * T5-T5+4 = FIRST POINTER WORD FROM FET, * T12-T12+4 = IN POINTER WORD FROM FET, ** CBA-CBA+1 = ADDRESS OF FIRST POINTER WORD. GIBS SUBR ENTRY/EXIT LDN /NAM/W.NBTLP DELTA FOR LIMIT POINTER WORD FROM FET RJM GIFA EXIT TO GET LIMIT POINTER ABSOLUTE ADDRESS SBN /NAM/W.NBTLP DELTA FOR FIRST POINTER WORD CRD T5 READ FIRST POINTER WORD FROM FET ADN /NAM/W.NBTIP DELTA FOR IN POINTER WORD CRD T12 READ IN POINTER WORD FROM FET ADN /NAM/W.NBTLP-/NAM/W.NBTIP DELTA FOR LIMIT POINTER CRD T0 READ LIMIT POINTER WORD FROM FET SBN /NAM/W.NBTLP DELTA FOR FIRST POINTER WORD STD CBA+1 STORE LOW-ORDER FIRST POINTER WORD ADDRESS SHN -12 POSITION HIGH-ORDER OF ADDRESS STD CBA STORE HIGH-ORDER FIRST POINTER WORD ADDRESS LDD T5+/NAM/C.NBTBS LOAD BUFFER STATUS BYTE SHN 17-/NAM/S.NBTCB POSITION CURRENT BUFFER FLAG TO SIGN MJN GIBS.3 EXIT IF CURRENT BUFFER SHN 18-17+/NAM/S.NBTCB+17-/NAM/S.NBTBA AVAILABLE TO SIGN MJN GIBS.2 EXIT IF BUFFER AVAILABLE LDN 0 CONSTANT OF ZERO STM IBS,FEI SET NO INBOUND BUFFER SPACE AVAILABLE LCN 1 SET A-REGISTER NEGATIVE GIBS.1 UJK GIBSX RETURN GIBS.2 SHN 18-17+/NAM/S.NBTBA-/NAM/S.NBTBS STATUS TO LOW-ORDER SCN /NAM/B.NBTBA CLEAR BUFFER AVAILABLE STATUS ADN /NAM/B.NBTCB ADD CURRENT BUFFER STATUS SHN /NAM/S.NBTBS REPOSITION BUFFER STATUS STD T5+/NAM/C.NBTBS STORE BUFFER STATUS BYTE LDD CBA LOAD HIGH-ORDER FIRST POINTER WORD ADDRESS SHN 12 POSITION TO HIGH-ORDER ADD CBA+1 PLUS LOW-ORDER FIRST POINTER WORD ADDRESS CWD T5 REWRITE FIRST POINTER WORD TO FET GIBS.3 LDD T0+/NAM/C.NBTLP LOAD HIGH-ORDER OF LIMIT POINTER LPN 37B EXTRACT ADDRESS BITS SBD T12+/NAM/C.NBTIP LESS HIGH-ORDER OF IN POINTER SHN 12 POSITION TO HIGH-ORDER ADD T0+/NAM/C.NBTLP+1 PLUS LOW-ORDER OF LIMIT POINTER SBD T12+/NAM/C.NBTIP+1 LESS LOW-ORDER OF IN POINTER SBN 1 LESS ONE MJN GIBS.4 EXIT IF FET POINTER ERROR STM IBS,FEI STORE INBOUND BUFFER SPACE AVAILABLE UJK GIBS.1 RETURN GIBS.4 LINK ENTRY EREXIT NBT EXIT TO ERROR - NETWORK BUFFER TABLE ERROR RIBF SPACE 2,32 ** SUBROUTINE RIBF. * * SUBROUTINE RIBF RELEASES THE CURRENT INBOUND BUFFER * AND CHECKS FOR AN ALTERNATE INBOUND BUFFER. * * ENTRY - * * (AIF) = ACTIVE INBOUND BUFFER OFFSET, * (FEI) = FRONT END TABLE ADDRESS. * * EXIT - * * (A) = AVAILABLE INBOUND BUFFER SPACE OR * NEGATIVE IF ALTERNATE BUFFER NOT AVAILABLE, * (AIF) = UPDATED TO ALTERNATE INBOUND BUFFER. * * CALLS - * * GIFA - GET INBOUND FET ADDRESS, * TFL - FORM ABSOLUTE CENTRAL ADDRESS, * GIBS - GET NEW INBOUND BUFFER SPACE. * * USES - * * T0-T0+4 = BUFFER STATUS WORD FROM INBOUND FET, ** T5-T5+1 = BUFFER STATUS WORD ADDRESS. RIBF SUBR ENTRY/EXIT LDN /NAM/W.NBTFP DELTA FOR FIRST POINTER WORD FROM FET RJM GIFA EXIT TO GET FIRST POINTER ABSOLUTE ADDRESS CRD T0 READ FIRST POINTER WORD FROM FET STD T5+1 STORE LOW-ORDER FIRST POINTER WORD ADDRESS SHN -12 POSITION HIGH-ORDER OF ADDRESS STD T5 STORE HIGH-ORDER FIRST POINTER WORD ADDRESS LDD T0+/NAM/C.NBTBS LOAD BUFFER STATUS BYTE SHN 18-/NAM/S.NBTBS POSITION BUFFER STATUS TO LOW-ORDER SCN /NAM/B.NBTCB CLEAR CURRENT BUFFER FLAG ADN /NAM/B.NBTRB SET REQUEST BUFFER RELEASE FLAG SHN /NAM/S.NBTBS REPOSITION BUFFER STATUS STD T0+/NAM/C.NBTBS STORE BUFFER STATUS BYTE LDD T5 LOAD HIGH-ORDER FIRST POINTER WORD ADDRESS SHN 12 POSITION TO HIGH-ORDER ADD T5+1 PLUS LOW-ORDER FIRST POINTER WORD ADDRESS CWD T0 REWRITE FIRST POINTER WORD TO FET LDM AIF,FEI LOAD ACTIVE INBOUND FET OFFSET ZJN RIBF.2 EXIT IF PRIMARY INBOUND FET ACTIVE LCN /NAM/L.FET VALUE TO RESET INBOUND FET OFFSET RIBF.1 RAM AIF,FEI UPDATE INBOUND FET OFFSET RJM RNAC EXIT TO REQUEST NIP ACTIVITY RJM GIBS EXIT TO GET INBOUND BUFFER SPACE UJK RIBFX RETURN RIBF.2 LDN /NAM/L.FET LOAD LENGTH OF FET UJK RIBF.1 EXIT TO UPDATE INBOUND FET OFFSET TWL SPACE 2,26 ** SUBROUTINE TWL. * * SUBROUTINE TWL TRANSFERS A WORKLIST ENTRY TO THE * INBOUND BUFFER. THE WORKLIST TEXT IS WRITTEN TO THE * INBOUND BUFFER, THE NAM HEADER IS PACKED, THE NAM * HEADER IS WRITTEN TO THE INBOUND BUFFER AND THE INBOUND * FET IN DATA POINTER IS UPDATED. * * ENTRY - * * (NBH-NBH+L.BH) = WORKLIST WORD LENGTH, * (WHB-WHB+L.WH) = WORKLIST HEADER, * (DRBUF-DRBUF+L.WL) = WORKLIST TEXT. * * CALLS - * * IIIP - INITIALIZE FOR IVT INPUT, * WDIB - WRITE DATA TO INBOUND BUFFER, * WNHB - WRITE NAM HEADER TO INBOUND BUFFER, ** UFIP - UPDATE FET IN DATA POINTER. TWL SUBR ENTRY/EXIT LDN /NAM/Q.WLID LOAD NAM INBOUND BUFFER ID RJM IIIP EXIT TO INITIALIZE FOR IVT INPUT LDM NBH+/NAM/C.BWD+1 LOAD WORKLIST WORD LENGTH SBN /NAM/L.BH+/NAM/L.NH LESS LENGTH OF NAM HEADER WORDS ZJN TWL.1 EXIT IF NO WORKLIST TEXT STD T7 STORE CENTRAL WORD COUNT LDC DRBUF LOAD ADDRESS OF DRIVER BUFFER RJM WDIB EXIT TO WRITE WORKLIST TO INBOUND BUFFER TWL.1 LDC NNH LOAD ADDRESS OF NAM NETWORK HEADER STD T2 STORE DESTINATION DATA ADDRESS ADN WHB-NNH DELTA FOR WORKLIST HEADER BUFFER STD T1 STORE SOURCE DATA ADDRESS LDN /NAM/L.WH LENGTH OF WORKLIST HEADER RJM PKD EXIT TO PACK INTO NAM HEADER LDN 0 CONSTANT OF ZERO STM NNH+/NAM/C.MCC ZERO MESSAGE CHARACTER COUNT RJM WNHB EXIT TO WRITE NAM HEADER TO INBOUND BUFFER RJM UFIP EXIT TO UPDATE FET IN DATA POINTER UJK TWLX RETURN IWL SPACE 2,30 ** SUBROUTINE IWL. * * SUBROUTINE IWL INITIALIZES AN UPBOUND WORKLIST ENTRY. * THE REQUEST, REASON, ERROR CODES PLUS THE HOST NODE AND * TERMINAL NODE ARE STORED IN THE WORKLIST HEADER BUFFER. * * ENTRY - * * (A) = WORKLIST REQUEST AND REASON CODES, * (ERRCODE) = ERROR CODE, IF ANY, * (CN) = CONNECTION NUMBER, * (TN) = TERMINAL NODE, * (FEI) = FRONT END TABLE ADDRESS, * (HND) = HOST NODE ID. * * EXIT - * * (WHB+WOC) = REQUEST CODE, * (WHB+WRC) = REASON CODE, * (WHB+WEC) = ERROR CODE, * (WHB+WCN) = CONNECTION NUMBER, * (WHB+WTN) = TERMINAL NODE, ** (WHB+WHN) = HOST NODE. IWL SUBR ENTRY/EXIT STM WHB+/NAM/WOC STORE WORKLIST REQUEST CODE SHN -12 POSITION WORKLIST REASON CODE STM WHB+/NAM/WRC STORE WORKLIST REASON CODE LDM ERRCODE LOAD ERROR CODE STM WHB+/NAM/WEC STORE WORKLIST ERROR CODE LDD CN LOAD CONNECTION NUMBER STM WHB+/NAM/WCN STORE CONNECTION NUMBER LDD TN LOAD TERMINAL NODE STM WHB+/NAM/WTN STORE WORKLIST TERMINAL NODE LDM HND,FEI LOAD HOST NODE STM WHB+/NAM/WHN STORE WORKLIST HOST NODE UJK IWLX RETURN SWLC SPACE 2,22 ** SUBROUTINE SWLC. * * SUBROUTINE SWLC PROCESSES A COMPLETED WORKLIST ENTRY. * THE WORKLIST COMPLETED FLAG IS SET IN THE WORKLIST * POINTER WORD OF THE PCB AND THE WORKLIST COMPLETED * WORKLIST IS TRANSFERRED TO THE INBOUND BUFFER. * * ENTRY - * * (WLP) = WORKLIST POINTER WORD ORDINAL. * * CALLS - * * IWL - INITIALIZE UPBOUND WORKLIST ENTRY, * RSPB - READ AND STORE ADDRESS OF PCB WORD, * WCMW - WRITE WORD TO PCB, ** TWL - TRANSFER WORKLIST ENTRY TO INBOUND BUFFER. SWLC SUBR ENTRY/EXIT LDN /NAM/RCWL LOAD RELEASE COMPLETED WORKLIST REQUEST RJM IWL EXIT TO INITIALIZE UPBOUND WORKLIST LDD WLP LOAD WORKLIST POINTER WORD ORDINAL RJM RSPB EXIT TO READ WORKLIST POINTER WORD FROM PCB LDC /NAM/B.PCBWLC LOAD WORKLIST COMPLETED FLAG RAD T10+/NAM/C.PCBWLC SET WORKLIST COMPLETED RJM WCMW EXIT TO WRITE WORKLIST POINTER WORD TO PCB LDN ZERL LOAD ADDRESS OF ZERO WORD CRM DRBUF,ON ZERO WORKLIST PRIORITY WORD IMAGE LDD WLP LOAD WORKLIST POINTER WORD ORDINAL SBN /NAM/W.PCBIWP LESS FIRST WORKLIST POINTER WORD ORDINAL STM DRBUF+/NAM/WLP STORE COMPLETED WORKLIST PRIORITY LDN /NAM/WLCCM LOAD LENGTH OF WORKLIST COMPLETED WORKLIST STM NBH+/NAM/C.BWD+1 STORE UPBOUND WORKLIST LENGTH RJM TWL EXIT TO TRANSFER WORKLIST TO INBOUND BUFFER UJK SWLCX RETURN WDIB TITLE COMMON BUFFER MANAGEMENT SUBROUTINES. WDIB SPACE 2,30 ** SUBROUTINE WDIB. * * SUBROUTINE WDIB WRITES INPUT * DATA TO THE INBOUND BUFFER. * * ENTRY - * * (A) = DRIVER BUFFER ADDRESS, * (T7) = DATA WORD COUNT, * (CBA-CBA+1) = CURRENT BUFFER ADDRESS, * (LBA-LBA+1) = LAST BUFFER ADDRESS. * * EXIT - * * (CBA-CBA+1) = UPDATED FOR CURRENT TRANSFER. * * ERROR EXITS - * * EXIT TO *ERROR* IF FET FORMAT ERROR, * EXIT TO *ERROR* IF MESSAGE EXCEEDS CENTRAL BUFFER. * * CALLS - * ** TFL - FORM ABSOLUTE CENTRAL ADDRESS. WDIB SUBR ENTRY/EXIT STM WDIB.CW+1 STORE DRIVER BUFFER ADDRESS LDD LBA LOAD HIGH-ORDER OF END OF CENTRAL BUFFER SBD CBA LESS HIGH-ORDER OF CURRENT CENTRAL BUFFER SHN 12 POSITION TO HIGH-ORDER ADD LBA+1 PLUS LOW-ORDER OF END OF CENTRAL BUFFER SBD CBA+1 LESS LOW-ORDER OF CURRENT CENTRAL BUFFER SBN 1 LESS ONE PJN WDIB.1 EXIT IF LIMIT GREATER THAN IN POINTER EXIT GIBS.4 EXIT TO ERROR - FET POINTER ERROR WDIB.1 SBD T7 LESS CENTRAL WORD COUNT PJN WDIB.2 EXIT IF SPACE AVAILABLE IN CENTRAL BUFFER EREXIT IMS EXIT TO ERROR - INPUT MESSAGE SIZE ERROR WDIB.2 LDD CBA LOAD HIGH-ORDER OF CURRENT CENTRAL ADDRESS SHN 12 POSITION TO HIGH-ORDER ADD CBA+1 PLUS LOW-ORDER OF CURRENT CENTRAL ADDRESS ADD T7 PLUS CENTRAL WORD COUNT RJM TFL EXIT TO FORM ABSOLUTE CENTRAL ADDRESS SBD T7 LESS CENTRAL WORD COUNT WDIB.CW CWM **,T7 WRITE INPUT TEXT TO CENTRAL BUFFER LDD T7 LOAD CENTRAL WORD COUNT RAD CBA+1 ADD TO LOW-ORDER CURRENT CENTRAL ADDRESS SHN -12 POSITION CARRY RAD CBA ADD TO HIGH-ORDER CURRENT CENTRAL ADDRESS UJK WDIBX RETURN PKD TITLE MISCELLANEOUS SUBROUTINES. PKD SPACE 2,22 ** SUBROUTINE PKD. * * SUBROUTINE PKD PACKS A SOURCE CHARACTER STRING OF * SINGLE EIGHT BIT CHARACTERS INTO A CONSECUTIVE STRING * OF EIGHT BIT CHARACTERS. THE SUBROUTINE ITERATES ON * THREE SOURCE CHARACTERS. * * ENTRY - * * (A) = SOURCE DATA CHARACTER COUNT, * (T1) = SOURCE DATA ADDRESS, * (T2) = DESTINATION DATA ADDRESS. * * USES - * ** T0 = SOURCE DATA CHARACTER COUNT. PKD SUBR ENTRY/EXIT STD T0 STORE SOURCE DATA CHARACTER COUNT PKD.1 LDI T1 LOAD NEXT SOURCE CHARACTER SHN 4 POSITION NEXT DATA CHARACTER STI T2 STORE NEXT DATA CHARACTER SOD T0 DECREMENT SOURCE DATA CHARACTER COUNT ZJN PKDX RETURN IF END OF SOURCE DATA AOD T1 INCREMENT SOURCE DATA ADDRESS LDI T1 LOAD NEXT SOURCE CHARACTER SHN -4 POSITION HIGH-ORDER OF NEXT DATA CHARACTER RAI T2 ADD TO PREVIOUS DATA CHARACTER AOD T2 INCREMENT DESTINATION DATA ADDRESS LDI T1 LOAD NEXT SOURCE CHARACTER SHN 8 POSITION LOW-ORDER OF NEXT DATA CHARACTER STI T2 STORE LOW-ORDER OF DATA CHARACTER SOD T0 DECREMENT SOURCE DATA CHARACTER COUNT ZJN PKDX RETURN IF END OF SOURCE DATA AOD T1 INCREMENT SOURCE DATA ADDRESS LDI T1 LOAD NEXT SOURCE CHARACTER RAI T2 ADD TO LOW-ORDER OF PREVIOUS DATA CHARACTER SOD T0 DECREMENT SOURCE DATA CHARACTER COUNT ZJN PKDX RETURN IF END OF SOURCE DATA AOD T1 INCREMENT SOURCE DATA ADDRESS AOD T2 INCREMENT DESTINATION DATA ADDRESS UJK PKD.1 EXIT TO PROCESS NEXT SOURCE CHARACTER PAUSE TITLE OPERATING SYSTEM SUPPORT SUBROUTINES. PAUSE SPACE 2,36 ** SUBROUTINE PAUSE. * * SUBROUTINE PAUSE CHECKS FOR A CONTROL POINT ERROR. IF * THE CONTROL POINT ERROR IS SET THE ERROR EXIT IS TAKEN. * OTHERWISE A MONITOR FUNCTION OF ZERO IS ISSUED, SO THAT * PPR SUBROUTINE FTN WILL CHECK WHETHER STORAGE MOVE IS * REQUESTED FOR THIS CONTROL POINT. IF STORAGE MOVE IS * REQUESTED, FTN WILL PAUSE TO ALLOW THE MOVE TO COMPLETE. * * ENTRY - * * (CP) = CONTROL POINT AREA ADDRESS. * * EXIT - * * (RA) = UPDATED IF STORAGE MOVE DONE, * (FL) = UPDATED IF STORAGE MOVE DONE. * * ERROR EXITS - * * EXIT TO *ERROR* IF CONTROL POINT ERROR FLAG SET. * * CALLS - * * MTR - ISSUE MONITOR FUNCTION. * * USES - * * T0-T0+4 = CONTROL POINT STATUS WORD, ** T0-T0+4 = STORAGE MOVE REQUEST WORD. PAUSE SUBR ENTRY/EXIT LDD CP LOAD CONTROL POINT AREA ADDRESS ADN STSW DELTA FOR CONTROL POINT STATUS WORD CRD T0 READ CONTROL POINT STATUS WORD LDD T0+1 LOAD CONTROL POINT ERROR FLAG ZJN PAUSE.1 EXIT IF NO CONTROL POINT ERROR EREXIT CPE EXIT TO ERROR - CONTROL POINT ERROR PAUSE.1 LDN PRLM*0 PAUSE FOR STORAGE MOVE (IF NECESSARY) RJM MTR EXIT TO ISSUE MONITOR FUNCTION UJK PAUSEX RETURN MTR SPACE 2,32 ** SUBROUTINE MTR. * * SUBROUTINE MTR INTERFACES WITH THE PPU RESIDENT * ROUTINE TO ISSUE A MONITOR FUNCTION TO THE OPERATING * SYSTEM. THE TIME TO COMPLETE THE SYSTEM REQUEST IS * ADDED TO ALL FRONT END DEAD TIMERS. * * ENTRY - * * (A) = MONITOR FUNCTION, * (T11-T11+3) = MONITOR FUNCTION PARAMETERS. * * EXIT - * * (T10-T10+4) = PPU OUTPUT REGISTER, * (DTM) = INCREASED BY FUNCTION TIME. * * CALLS - * * FTN - ISSUE MONITOR FUNCTION. * * USES - * * T0-T0+4 = SYSTEM REAL-TIME CLOCK, * T5 = SYSTEM SECONDS, ** T4 = FRONT END TABLE ADDRESS. MTR SUBR ENTRY/EXIT STD T10 STORE MONITOR FUNCTION CODE LDK RTCL LOAD ADDRESS OF SYSTEM REAL-TIME CLOCK CRD T0 READ SYSTEM REAL-TIME CLOCK LDD T0+1 LOAD SYSTEM SECOND TIME STD T5 STORE SYSTEM SECOND TIME LDD T10 LOAD MONITOR FUNCTION CODE RJM FTN EXIT TO ISSUE MONITOR FUNCTION LDK RTCL LOAD ADDRESS OF SYSTEM REAL-TIME CLOCK CRD T0 READ SYSTEM REAL-TIME CLOCK LDD T0+1 LOAD CURRENT SYSTEM SECOND TIME SBD T5 LESS STARTING SYSTEM SECOND TIME PJN MTR.1 EXIT IF NO BORROW ADC 1S12 ADD BORROW MTR.1 ZJN MTR.3 EXIT IF NO SECOND DIFFERENCE STD T5 STORE ELAPSED FUNCTION TIME LDK L.FETBL*MAXFE-L.FETBL LOAD ENDING TABLE ADDRESS VALUE STD T4 INITIALIZE FRONT END TABLE ADDRESS MTR.2 LDD T5 LOAD FUNCTION ELAPSED TIME RAM FETABLE+DTM,T4 ADD TO FRONT END DEAD TIMER LCN L.FETBL LOAD LENGTH OF FRONT END TABLE RAD T4 DECREMENT FRONT END TABLE ADDRESS PJN MTR.2 EXIT IF NOT LAST FRONT END TABLE ENTRY MTR.3 UJK MTRX RETURN ERROR TITLE TERMINATION PROCESSORS. ERROR SPACE 2,20 ** TERMINATION PROCESSOR ERROR. * * TERMINATION PROCESSOR ERROR PROCESSES AN ERROR * CONDITION BY STORING THE ERROR CODE, SAVING THE * CONTENTS OF ALL DIRECT CELLS AND LOADS THE ERROR * PROCESSING OVERLAY AND ENTERS THE ERROR PROCESSOR. * * ENTRY - * * (A) = ERROR CODE LESS 100B. * * CALLS - * * GTE - GET DRIVER CONTROL TABLE ENTRY, ** COL - CHECK OVERLAY LOADED. ERROR LINK ENTRY ADC 100B ADD BIAS TO ERROR CODE STM ERRCODE STORE ERROR CODE LDN ON-1 LOAD ADDRESS OF LAST DIRECT CELL TO SAVE STD ON INITIALIZE ADDRESS OF NEXT DIRECT CELL ERROR.1 LDI ON LOAD CONTENTS OF NEXT DIRECT CELL STM DCSAVE,ON STORE CONTENTS OF NEXT DIRECT CELL SOD ON DECREMENT ADDRESS OF NEXT DIRECT CELL PJN ERROR.1 EXIT IF NOT ALL DIRECT CELLS STORED LDN 1 CONSTANT OF ONE STD ON RESTORE CONSTANT DIRECT MEMORY CELL FOR ONE LDN 0 CONSTANT OF ZERO STD T1 INITIALIZE TRACE INDEX ERROR.4 LDM TRACE,T1 LOAD NEXT TRACE TABLE ENTRY ZJN ERROR.5 EXIT IF END OF TRACE TABLE STD T2 STORE ADDRESS OF TRACE CELL LDI T2 LOAD CONTENTS OF TRACE CELL STM DCSAVE+70B,T1 STORE CONTENTS OF TRACE CELL AOD T1 INCREMENT TRACE INDEX UJK ERROR.4 EXIT TO CHECK FOR END OF TRACE TABLE ERROR.5 LDC /ACTORD/ERROR ERROR ACTION DIRECTORY TABLE OFFSET STD ADO STORE ACTION DIRECTORY TABLE OFFSET LDC /TABLES/ERRTABLE LOAD ADDRESS OF ERROR CONTROL TABLE ADM ERRCODE PLUS ERROR CODE EXIT EICA.2 EXIT TO GET RESPONSE TABLE ENTRY TRACE SPACE 2,12 ** ERROR TRACE TABLE. * * THE ERROR TRACE TABLE CONTAINS AN ENTRY FOR EACH MEMORY * CELL TO BE SAVED DURING ERROR PROCESSING. THE CONTENTS * OF EACH ENTRY IS THE ADDRESS OF THE MEMORY CELL TO BE ** SAVED. TRACE BSS 0 ERROR TRACE TABLE LOC 0 CON OVL CURRENTLY LOADED OVERLAY ORDINAL CON TFL LAST CALL TO TFL CON DCR.4+1 LAST PROCESSOR CALLED CON EIIA.3+1 LAST ACTION PROCESSOR CALLED CON 0 TERMINATE TRACE TABLE .LAST SET * LOC *O ERRNG 10000B-DCSAVE-70B-.LAST TEST FOR TRACE TABLE OVERFLOW IDH TITLE FRONT END INPUT/OUTPUT DATA MANAGEMENT SUBROUTINES. IDH SPACE 2,24 ** SUBROUTINE IDH. * * SUBROUTINE IDH INPUTS AND VALIDATES * THE DATA HEADER FROM THE FRONT END. * * ENTRY - * * (EOT) = END OF TRANSFER RECEIVED FLAG. * * EXIT - * * (A) = NON-ZERO IF HEADER FORMAT ERROR, * (DHB-DHB+L.DH) = DATA HEADER FROM FRONT END. * * CALLS - * ** ASUD - ACCEPT AND STORE UNPACKED DATA. IDH SUBR ENTRY/EXIT LDD EOT LOAD END OF TRANSFER RECEIVED FLAG NJN IDHX RETURN IF END OF TRANSFER RECEIVED LDC DHB LOAD ADDRESS OF DATA HEADER BUFFER STD T1 STORE STARTING INPUT ADDRESS ADN /BLOCK/L.DH-1 PLUS LENGTH OF DATA HEADER RJM ASUD EXIT TO ACCEPT AND STORE UNPACKED DATA LDD T3 LOAD INPUT CHARACTER COUNT LMN /BLOCK/L.DH LESS EXPECTED INPUT LENGTH UJK IDHX RETURN TDH SPACE 2,26 ** SUBROUTINE TDH. * * SUBROUTINE TDH TRANSFERS THE DATA HEADER TO THE FRONT * END. IF THE TRANSFER TO THE FRONT END IS LONGER THAN * THE DATA HEADER THE FRONT END CHANNEL IS LEFT ACTIVE * AND READY TO CONTINUE THE TRANSFER. * * ENTRY - * * (DBH-DHB+L.DH) = DATA HEADER FOR FRONT END, * (REOT) = END OF TRANSFER REQUEST FLAG. * * EXIT - * * (NCC) = UPDATED TO CURRENT MESSAGE CHARACTER COUNT, * (EOT) = NON-ZERO IF END OF TRANSFER. * * CALLS - * ** TTBF - TRANSFER TWELVE BIT FORMATTED DATA. TDH SUBR ENTRY/EXIT LDC DHB LOAD ADDRESS OF DATA HEADER BUFFER STD T1 STORE STARTING BUFFER ADDRESS LDN /BLOCK/L.DH LOAD LENGTH OF DATA HEADER STD T2 STORE OUTPUT CHARACTER COUNT RJM TTBF EXIT TO TRTANSFER TWELVE BIT FORMATTED DATA UJK TDHX RETURN ASUD SPACE 2,32 ** SUBROUTINE ASUD. * * SUBROUTINE ASUD INPUTS DATA FROM THE FRONT END AND * STORES THE INPUT DATA IN UNPACKED FORMAT INTO THE * SPECIFIED BUFFER AREA. * * ENTRY - * * (A) = ENDING DATA BUFFER ADDRESS, * (T1) = STARTING DATA BUFFER ADDRESS, * (NCC) = CURRENT MESSAGE CHARACTER COUNT. * * EXIT - * * (A) = NON-ZERO IF END OF TRANSFER, * (T3) = UPDATED TO CURRENT CHARACTER COUNT, * (NCC) = UPDATED TO CURRENT MESSAGE CHARACTER COUNT, * (EOT) = NON-ZERO IF END OF TRANSFER. * * MACRO CALLS - * * CLIO - CALL LOGICAL INPUT/OUTPUT INTERFACE. * * USES - * ** T2 = ENDING DATA BUFFER ADDRESS. ASUD SUBR ENTRY/EXIT STD T2 STORE ENDING DATA BUFFER ADDRESS LDN 0 CONSTANT OF ZERO STD T3 INITIALIZE DATA CHARACTER COUNTER ASUD.1 CLIO FEIC INPUT NEXT DATA CHARACTER STI T1 STORE NEXT INPUT DATA CHARACTER LDD EOT LOAD END OF TRANSFER FLAG NJN ASUDX RETURN IF END OF TRANSFER LDD T1 LOAD CURRENT DATA BUFFER ADDRESS LMD T2 LESS ENDING DATA BUFFER ADDRESS ZJN ASUDX RETURN IF END OF DATA BUFFER AOD T1 INCREMENT CURRENT DATA BUFFER ADDRESS UJK ASUD.1 EXIT TO INPUT NEXT DATA CHARACTER TEBF TITLE OUTPUT CHARACTER PROCESSORS. TTBF SPACE 2,28 ** SUBROUTINE TTBF. * * SUBROUTINE TTBF TRANSFERS TWELVE * BIT FORMATTED DATA TO THE FRONT END. * * ENTRY - * * (T1) = SOURCE DATA STARTING ADDRESS, * (T2) = SOURCE DATA CHARACTER COUNT, * (NCC) = CURRENT MESSAGE CHARACTER COUNT, * (REOT) = REQUEST END OF TRANSFER FLAG (1 = EOT). * * EXIT - * * (NCC) = UPDATED TO CURRENT MESSAGE CHARACTER COUNT. * * MACRO CALLS - * * CLIO - CALL LOGICAL INPUT/OUTPUT INTERFACE. * * USES - * ** T3 = OUTPUT DATA CHARACTER. TTBF SUBR ENTRY/EXIT TTBF.1 LDI T1 LOAD NEXT OUTPUT DATA BYTE LPC 377B EXTRACT NEXT OUTPUT CHARACTER STD T3 STORE NEXT OUTPUT DATA CHARACTER SOD T2 DECREMENT OUTPUT DATA CHARACTER COUNT ZJN TTBF.2 EXIT IF ENDING OUTPUT DATA CHARACTER CLIO FEOC OUTPUT NEXT DATA CHARACTER AOD T1 INCREMENT SOURCE DATA ADDRESS UJK TTBF.1 EXIT TO PROCESS NEXT OUTPUT DATA BYTE TTBF.2 CLIO FEEC TRANSFER ENDING DATA CHARACTER UJK TTBFX RETURN OVERLAY SPACE 2,6 * FIRST LEVEL OVERLAY DEFINITIONS. OL.FLOV EQU *-5 FIRST LEVEL OVERLAY LOAD ADDRESS (NOT USED) OF.FLOV EQU * FIRST LEVEL OVERLAY FIRST WORD ADDRESS OVERLAY SPACE 2,6 * INITIALIZE OVERLAY PARAMETERS. .STOA SET 0 START OF TRANSIENT OVERLAY AREA L.COA SET 0 LENGTH OF CENTRAL OVERLAY AREA N.OPW SET 0 NUMBER OF OVERLAY POINTER WORDS O.OVL SET 1 INITIALIZE OVERLAY ORDINAL INIT TITLE INITIALIZATION CONTROL SUBROUTINE. ORG E.LCM QUAL INIT INIT SPACE 2,36 ** SUBROUTINE INIT. * * SUBROUTINE INIT VALIDATES THE DRIVER CALL. IF THE * CALL IS VALID THE ADDRESS OF THE INITIALIZATION * PROCESSOR IS SET AND THE OVERLAY NAME THAT CONTAINS * THE INITIALIZATION PROCESSOR IS RETURNED. * * ENTRY - * * (CP) = CONTROL POINT AREA ADDRESS, * (IR-IR+4) = PPU INPUT REGISTER IMAGE. * * EXIT - * * (A) = INITIALIZATION OVERLAY NAME, * (IPA) = INITIALIZATION PROCESSOR ADDRESS, * (PAD-PAD+1) = PARAMETER AREA ADDRESS. * * ERROR EXITS - * * EXIT TO *PPR* IF DRIVER CALL ERROR. * * CALLS - * * DFM - ISSUE DAYFILE MESSAGE, * FTN - ABORT COUNTROL POINT. * * USES - * * T1-T1+4 = SUBSYSTEM ID WORD FROM CONTROL POINT, ** T1 = INITIALIZATION PROCESSOR TABLE INDEX. INIT SUBR ENTRY/EXIT LDD CP LOAD CONTROL POINT AREA ADDRESS ADN JCIW DELTA FOR SUBSYSTEM IDENTIFICATION WORD CRD T1 READ SUBSYSTEM IDENTIFICATION WORD LDD T1+2 LOAD SUBSYSTEM IDENTIFICATION BYTE LMC /NOS/NMSI LESS SUBSYSTEM IDENTIFICATION OF NAM ZJN INIT.2 EXIT IF DRIVER CALLED BY NAM .MSS IFEQ .MSS,1 LDC MSS LOAD ADDRESS OF MSS INFORMATIVE MESSAGE RJM DFM EXIT TO ISSUE DAYFILE MESSAGE UJN INIT.2 BYPASS SUBSYSTEM IDENTIFICATION CHECK .MSS ENDIF LDC NNC LOAD ADDRESS OF NON-NAM CALL MESSAGE INIT.1 RJM DFM EXIT TO ISSUE DAYFILE MESSAGE LDN ABTM MONITOR FUNCTION TO ABORT CONTROL POINT RJM FTN EXIT TO ABORT CONTROL POINT LJM PPR RETURN TO PPU RESIDENT INIT.2 LDD IR+/NAM/C.DFC LOAD DRIVER FUNCTION CODE SBN MAXFC LESS MAXIMUM VALID FUNCTION CODE MJN INIT.3 EXIT IF FUNCTION CODE IN RANGE LDC IFC LOAD ADDRESS OF ILLEGAL FUNCTION MESSAGE UJK INIT.1 EXIT TO ISSUE DAYFILE MESSAGE INIT.3 LDD IR+/NAM/C.PAD LOAD HIGH-ORDER OF PARAMETER ADDRESS LPN 37B EXTRACT ADDRESS BITS STD PAD STORE HIGH-ORDER OF PARAMETER AREA ADDRESS SHN 12 POSITION TO HIGH-ORDER ADD IR+/NAM/C.PAD+1 PLUS LOW-ORDER OF PARAMETER ADDRESS STD PAD+1 STORE LOW-ORDER OF PARAMETER AREA ADDRESS NJN INIT.4 EXIT IF PARAMETER AREA SPECIFIED LDC NPA LOAD ADDRESS OF NO PARAMETER AREA MESSAGE UJK INIT.1 EXIT TO ISSUE DAYFILE MESSAGE INIT.4 LDD IR+/NAM/C.DFC LOAD DRIVER FUNCTION CODE SHN 1 DRIVER FUNCTION CODE TIMES TWO ADD IR+/NAM/C.DFC DRIVER FUNCTION CODE TIMES THREE STD T1 STORE INITIALIZATION PROCESSOR TABLE INDEX LDM IPT,T1 LOAD ADDRESS OF INITIALIZATION PROCESSOR STD IPA STORE ADDRESS OF INITIALIZATION PROCESSOR LDM IPT+1,T1 LOAD HIGH-ORDER OF OVERLAY NAME SHN 12 POSITION TO HIGH-ORDER ADM IPT+1+1,T1 PLUS LOW-ORDER OF OVERLAY NAME UJK INITX RETURN ERRMSG SPACE 2,6 * INITIALIZATION ERROR MESSAGES. NNC DATA L$PIP - INVALID REQUEST.$ DATA 0 IFC DATA L$PIP - UNDEFINED FUNCTION CODE.$ DATA 0 NPA DATA L$PIP - NO PARAMETER AREA SPECIFIED.$ DATA 0 .MSS IFEQ .MSS,1 MSS DATA L$PIP - MSS OPTION VOIDS SYSTEM SECURITY.$ DATA 0 .MSS ENDIF IPT SPACE 2,14 ** INITIALIZATION PROCESSOR TABLE. * * THE INITIALIZATION PROCESSOR TABLE CONTAINS AN ENTRY FOR * EACH POSSIBLE FUNCTION CODE USED IN A DRIVER CALL. THE * CONTENTS OF A TABLE ENTRY IS THE ADDRESS OF THE * INITIALIZATION PROCESSOR RESPONSIBLE FOR PROCESSING THE * CALL AND THE NAME OF THE OVERLAY THAT CONTAINS THE ** INITIALIZATION PROCESSOR. IPT BSS 0 INITIALIZATION PROCESSOR TABLE LOC 0 VFD 12/PRSM,6/0,18/OV.3IN PROCESS FRONT END .1 SET * DEFINE LENGTH OF ENTRY VFD 12/INFL,6/0,18/OV.2IN INITIALIZE NAM FIELD LENGTH VFD 12/SEST,6/0,18/OV.2IN SCAN EST FOR NEW EQUIPMENT MAXFC EQU */.1 DEFINE MAXIMUM VALID FUNCTION CODE LOC *O QUAL USE LAST OL.MINT BSS 5 LOAD ADDRESS FOR MAIN INITIALIZATION OF.MINT BSS 0 MAIN INITIALIZATION FIRST WORD ADDRESS .PIP EQU * DEFINE LAST WORD ADDRESS OF PIP ERRNG 7772B-* TEST FOR PPU MEMORY OVERFLOW USE * OVERLAY F=FLOV,T1=(NPU I/O SUPPORT),T2=(NPU INPUT/OUTPUT INTER ,FACE DIRECTORY) IOID SPACE 2,18 ** LOGICAL INPUT/OUTPUT INTERFACE DIRECTORY. + * THE FOLLOWING LOGICAL INPUT/OUTPUT INTERFACE DIRECTORY * CONTAINS AN ENTRY THAT IDENTIFIES THE EQUIPMENT TYPE * OF THE FRONT END BEING PROCESSED AND AN ENTRY FOR EACH * FUNCTIONAL INTERFACE POINT FOR THE DEVICE INPUT/OUTPUT * SUPPORT OVERLAY. THE CONTENTS OF A FUNCTIONAL * INTERFACE POINT ENTRY CONSISTS OF TWO TWO-WORD * INSTRUCTIONS: SUBROUTINE ENTRY/EXIT AND A LONG JUMP. * THE CALL TO A LISTED DEVICE FUNCTION WILL START WITH A * RETURN-JUMP TO THE FE-- NAME, THEN A LONG JUMP TO THE * PROCESSOR SPECIFIED IN THE ENTRY IS EXECUTED, AND * THE EXIT FROM THE PROCESSOR IS THROUGH FE--X IN THE * DIRECTORY TABLE ENTRY. * * SO, THE LISTED DEVICE FUNCTION MUST BE CALLED ONLY * BY THE GIVEN FE-- NAME, EXCEPT THE LAST NAME FEOC * THAT IS EQUATED TO THE ENTRY POINT /NPU/ OR /MDI/ ODC. * SUBROUTINE ODC IMMEDIATELY FOLLOWS THE DIRECTORY AND * IS A REAL SUBROUTINE. IT MAY BE CALLED AS FEOC, ** /NPU/ODC, OR /MDI/ODC. IOID BSS 0 LOGICAL INPUT/OUTPUT INTERFACE DIRECTORY FETP CON 0 FRONT END TYPE (0 = NPU) IODE FEIA,/NPU/CKIA CHECK INPUT AVAILABLE FROM FRONT END IODE FENI,/NPU/SNRI SET NOT READY FOR INPUT TO FRONT END IODE FEOA,/NPU/ROAS RETURN OUTPUT ALLOWED STATUS FRON F. END IODE FERG,/NPU/CNRL CHANGE FRONT END REGULATION LEVEL IODE FEIH,/NPU/IBH INPUT BLOCK PROTOCOL HEADER IODE FERO,/NPU/RCO REQUEST OUTPUT TO FRONT END FROM F. END IODE FEOH,/NPU/TBH OUTPUT BLOCK PROTOCOL HEADER TO F. END IODE FEHL,/NPU/HNPU HALT FRONT END IODE FEIC,/NPU/IDC INPUT NEXT DATA CHARACTER FROM FRONT END IODE FEEC,/NPU/TEDC OUTPUT LAST DATA CHARACTER TO FRONT END IODE FEIP,/NPU/ASED INPUT PACKED DATA IODE FEOP,/NPU/TEBF OUTPUT PACKED DATA FEOC EQU *+1 OUTPUT NEXT DATA CHARACTER TO FRONT END QUAL NPU CIT SPACE 2,6 * INITIALIZE CHANNEL INSTRUCTION TABLE. CIT RMT QUAL NPU NPUCIT BSS 0 NPU CHANNEL INSTRUCTION TABLE CIT RMT ODC SPACE 2,24 ** SUBROUTINE ODC. (EQUATED TO LOGICAL I/O FEOC.) * * SUBROUTINE ODC OUTPUTS A CHARACTER TO THE NPU COUPLER * AND VERIFIES THE CORRECT OPERATION OF THE NPU CHANNEL. * * ENTRY - * * (T3) = OUTPUT DATA CHARACTER, * (NCC) = CURRENT MESSAGE CHARACTER COUNT. * * EXIT - * * (A) = OUTPUT DATA CHARACTER, * (NCC) = UPDATED TO CURRENT MESSAGE CHARACTER COUNT. * * ERROR EXITS - * ** EXIT TO *ERROR* IF CHANNEL GOES INACTIVE. ODC SUBR ENTRY/EXIT AOD NCC INCREMENT MESSAGE CHARACTER COUNTER IJM. DCN.1 EXIT TO ERROR ROUTINE IF CHANNEL INACTIVE EJM. ODC.2 EXIT IF CHANNEL EMPTY LDK CHDLY LOAD CHANNEL DELAY COUNTER ODC.1 EJM. ODC.2 EXIT IF CHANNEL EMPTY SBN 1 DECREMENT CHANNEL DELAY COUNTER NJN ODC.1 EXIT IF CHANNEL DELAY NOT EXPIRED EXIT OWN.2 EXIT TO ERROR - CHANNEL HUNG FULL ODC.2 LDD T3 LOAD OUTPUT DATA CHARACTER OAN. OUTPUT DATA CHARACTER UJK ODCX RETURN IBH TITLE NPU INPUT/OUTPUT DATA MANAGEMENT SUBROUTINES. IBH SPACE 2,42 ** SUBROUTINE IBH. (ENTRY POINT IS LOGICAL I/O FEIH.) * * SUBROUTINE IBH INPUTS AND VALIDATES THE BLOCK HEADER * FROM THE NPU. IF THE TRANSFER FROM THE NPU IS LONGER * THAN THE BLOCK HEADER, THE CHANNEL IS LEFT ACTIVE * AND READY TO CONTINUE THE TRANSFER FROM THE NPU. * * ENTRY - * * (FEI) = FRONT END TABLE ADDRESS, * (HND) = HOST NODE ID. * * EXIT - * * (NCC) = CURRENT CHARACTER COUNT OF MESSAGE, * (BHB+L.BH) = BLOCK HEADER OF MESSAGE FROM NPU, * (EOT) = NON-ZERO IF END OF TRANSFER, * (TN) = TERMINAL NODE OF MESSAGE, * (CN) = CONNECTION NUMBER OF MESSAGE, * (BT) = BLOCK TYPE OF MESSAGE. * * ERROR EXITS - * * EXIT TO *ERROR* UNASSIGNED CONNECTION ON PRU INPUT, * EXIT TO *ERROR* IF BLOCK HEADER FORMAT ERROR. * * CALLS - * * FNC - FUNCTION NPU COUPLER, * ACN - ACTIVATE NPU CHANNEL, * ASUD - ACCEPT AND STORE UNPACKED DATA FROM NPU, * RCT - READ CONNECTION TABLE ENTRY. * * USES - * ** T1 = INPUT BUFFER ADDRESS. IBH LINK ENTRY LDN 0 CONSTANT OF ZERO STD NCC INITIALIZE NPU MESSAGE CHARACTER COUNT LDN /FUNCTION/ID LOAD FUNCTION TO INPUT DATA RJM FNC EXIT TO FUNCTION TO INPUT DATA RJM ACN EXIT TO ACTIVATE NPU CHANNEL LDC BHB LOAD ADDRESS OF BLOCK HEADER BUFFER STD T1 STORE STARTING INPUT BUFFER ADDRESS ADN /BLOCK/L.BH-1 PLUS LENGTH OF BLOCK HEADER RJM ASUD EXIT TO ACCEPT AND STORE UNPACKED DATA LDD T3 LOAD INPUT CHARACTER COUNT LMN /BLOCK/L.BH LESS LENGTH OF BLOCK HEADER NJN IBH.2 EXIT IF BLOCK HEADER LENGTH ERROR LDM BHB+/BLOCK/SN LOAD SOURCE NODE FROM MESSAGE STD TN STORE TERMINAL NODE LDM BHB+/BLOCK/CN LOAD CONNECTION NUMBER FROM MESSAGE STD CN STORE CONNECTION NUMBER RJM RCT EXIT TO READ CONNECTION TABLE ENTRY PJN IBH.1 EXIT IF CONNECTION NUMBER ASSIGNED LDD IOC LOAD INPUT ORDER CODE ORDINAL SBN /NSTATUS/IAP-/NSTATUS/IAS LESS VALUE FOR PRU INPUT NJN IBH.1 EXIT IF NOT PRU INPUT LDD STS LOAD STREAM STATE NJN IBH.1 EXIT IF PRU STREAM EREXIT IUC EXIT TO ERROR - UNASSIGNED CONNECTION IBH.1 LDM BHB+/BLOCK/BNBT LOAD BLOCK TYPE FROM MESSAGE LPN /BLOCK/L.BT EXTRACT BLOCK TYPE STD BT STORE BLOCK TYPE SBN /BLOCK/MAXBT LESS MAXIMUM VALID BLOCK TYPE MJN IBH.3 EXIT IF VALID BLOCK TYPE IBH.2 EREXIT BHE EXIT TO ERROR - BLOCK HEADER FORMAT ERROR IBH.3 LDD STS LOAD PRU STREAM STATES NJN IBH.5 EXIT IF PRU STREAM IBH.4 UJK FEIHX RETURN IBH.5 LDM BHB+/BLOCK/DN LOAD DESTINATION NODE FROM MESSAGE LMM HND,FEI LESS HOST NODE FOR THIS NPU ZJN IBH.4 EXIT IF CORRECT HOST NODE UJK IBH.2 EXIT TO ERROR - BLOCK HEADER FORMAT ERROR TBH SPACE 2,28 ** SUBROUTINE TBH. (ENTRY POINT IS LOGICAL I/O FEOH.) * * SUBROUTINE TBH TRANSFERS THE NPU BLOCK HEADER TO THE * NPU. IF THE TRANSFER TO THE NPU IS LONGER THAN THE * NPU BLOCK HEADER THE NPU CHANNEL IS LEFT ACTIVE AND * READY TO CONTINUE THE TRANSFER. * * ENTRY - * * (BHB-BHB+LBH) = NPU BLOCK HEADER, * (REOT) = END OF TRANSFER REQUEST FLAG. * * EXIT - * * (NCC) = UPDATED TO CURRENT MESSAGE CHARACTER COUNT, * (EOT) = NON-ZERO IF END OF TRANSFER. * * CALLS - * * FNC - FUNCTION NPU COUPLER, * ACN - ACTIVATE NPU CHANNEL, ** TTBF - TRANSFER TWELVE BIT FORMATTED DATA TO NPU. TBH LINK ENTRY LDN 0 CONSTANT OF ZERO STD NCC INITIALIZE NPU MESSAGE CHARACTER COUNT LDN /FUNCTION/OD LOAD FUNCTION TO OUTPUT DATA RJM FNC EXIT TO FUNCTION TO OUTPUT DATA RJM ACN EXIT TO ACTIVATE NPU CHANNEL LDC BHB LOAD ADDRESS OF BLOCK HEADER BUFFER STD T1 STORE STARTING OUTPUT BUFFER ADDRESS LDN /BLOCK/L.BH LOAD LENGTH OF BLOCK HEADER STD T2 STORE OUTPUT CHARACTER COUNT RJM TTBF EXIT TO TRANSFER TWELVE BIT FORMATTED DATA UJK FEOHX RETURN FNC TITLE NPU COUPLER INPUT/OUTPUT SUBROUTINES. FNC SPACE 2,16 ** SUBROUTINE FNC. * * SUBROUTINE FNC FUNCTIONS THE NPU COUPLER. * * ENTRY - * * (A) = FUNCTION CODE, * (FEI) = FRONT END TABLE ADDRESS, * (CAD) = COUPLER EQUIPMENT NUMBER. * * ERROR EXITS - * * EXIT TO *ERROR* IF CHANNEL ACTIVE BEFORE FUNCTION, ** EXIT TO *ERROR* IF CHANNEL ACTIVE AFTER FUNCTION. FNC SUBR ENTRY/EXIT ADM CAD,FEI PLUS COUPLER EQUIPMENT NUMBER AJM. FNC.2 EXIT IF CHANNEL ACTIVE BEFORE FUNCTION FAN. FUNCTION NPU COUPLER LDK FNCDLY LOAD FUNCTION ACCEPT DELAY COUNTER FNC.1 IJM. FNCX RETURN IF CHANNEL GOES INACTIVE SBN 1 DECREMENT CHANNEL DELAY COUNTER NJN FNC.1 EXIT IF CHANNEL DELAY NOT EXPIRED EREXIT AAF EXIT TO ERROR - ACTIVE AFTER FUNCTION FNC.2 EREXIT ABF EXIT TO ERROR - ACTIVE BEFORE FUNCTION ACN SPACE 2,14 ** SUBROUTINE ACN. * * SUBROUTINE ACN ACTIVATES THE NPU CHANNEL. * * ERROR EXITS - * * EXIT TO *ERROR* IF CHANNEL ACTIVE BEFORE ACTIVATE, ** EXIT TO *ERROR* IF CHANNEL INACTIVE AFTER ACTIVATE. ACN SUBR ENTRY/EXIT AJM. ACN.1 EXIT IF CHANNEL ACTIVE ACN. ACTIVATE CHANNEL AJM. ACNX RETURN IF CHANNEL ACTIVE EREXIT IAA EXIT TO ERROR - INACTIVE AFTER ACTIVATE ACN.1 EREXIT ABA EXIT TO ERROR - ACTIVE BEFORE ACTIVATE DCN SPACE 2,14 ** SUBROUTINE DCN. * * SUBROUTINE DCN DISCONNECTS THE NPU CHANNEL. * * ERROR EXITS - * * EXIT TO *ERROR* IF CHANNEL ACTIVE AFTER DISCONNECT, ** EXIT TO *ERROR* IF CHANNEL INACTIVE. DCN SUBR ENTRY/EXIT IJM. DCN.1 EXIT IF CHANNEL WENT INACTIVE DCN. DISCONNECT NPU CHANNEL IJM. DCNX RETURN IF CHANNEL DISCONNECTED EREXIT AAD EXIT TO ERROR - ACTIVE AFTER DISCONNECT DCN.1 LINK ENTRY EREXIT IDO EXIT TO ERROR - INACTIVE ON OUTPUT OR READ OWN SPACE 2,22 ** SUBROUTINE OWN. * * SUBROUTINE OWN OUTPUTS A SINGLE WORD TO THE NPU. * * ENTRY - * * (A) = WORD TO OUTPUT TO NPU. * * ERROR EXITS - * * EXIT TO *ERROR* IF CHANNEL REMAINS FULL. * * CALLS - * * ACN - ACTIVATE NPU CHANNEL, ** DCN - DISCONNECT NPU CHANNEL. OWN SUBR ENTRY/EXIT RJM ACN EXIT TO ACTIVE NPU CHANNEL OAN. OUTPUT DATA WORD LDK CHDLY LOAD CHANNEL DELAY COUNTER OWN.1 EJM. OWN.3 EXIT IF CHANNEL EMPTY SBN 1 DECREMENT CHANNEL DELAY COUNTER NJN OWN.1 EXIT IF CHANNEL DELAY NOT EXPIRED OWN.2 LINK ENTRY EREXIT HFO EXIT TO ERROR ROUTINE - CHANNEL HUNG FULL OWN.3 RJM DCN EXIT TO DISCONNECT NPU CHANNEL UJK OWNX RETURN ICS SPACE 2,24 ** SUBROUTINE ICS. * * SUBROUTINE ICS INPUTS THE COUPLER * STATUS REGISTER FROM THE NPU. * * ENTRY - * * (FEI) = FRONT END TABLE ADDRESS. * * EXIT - * * (A) = CURRENT NPU COUPLER STATUS REGISTER, * (CSR) = CURRENT NPU COUPLER STATUS REGISTER. * * CALLS - * * FNC - FUNCTION NPU COUPLER, ** ACN - ACTIVATE NPU CHANNEL. ICS SUBR ENTRY/EXIT LDN /FUNCTION/ICS FUNCTION CODE TO INPUT COUPLER STATUS RJM FNC EXIT TO FUNCTION COULER FOR STATUS RJM ACN EXIT TO ACTIVATE NPU CHANNEL LDK CHDLY LOAD CHANNEL DELAY COUNTER ICS.1 FJM. ICS.2 EXIT IF CHANNEL WENT FULL SBN 1 DECREMENT CHANNEL DELAY COUNTER NJN ICS.1 EXIT IF CHANNEL DELAY NOT EXPIRED EXIT IDC.3A EXIT TO ERROR - HUNG EMPTY ON INPUT ICS.2 IAN. INPUT COUPLER STATUS REGISTER STM CSR,FEI STORE CURRENT COUPLER STATUS REGISTER DCN. DISCONNECT NPU CHANNEL UJK ICSX RETURN INS SPACE 2,22 ** SUBROUTINE INS. * * SUBROUTINE INS INPUTS THE NPU STATUS WORD FROM THE NPU. * * ENTRY - * * (NPU) = NPU TABLE OFFSET. * * EXIT - * * (A) = CURRENT NPU STATUS WORD, * (NSW) = CURRENT NPU STATUS WORD. * * CALLS - * * FNC - FUNCITON NPU COUPLER, ** ACN - ACTIVATE NPU CHANNEL. INS SUBR ENTRY/EXIT LDN /FUNCTION/ISW LOAD FUNCTION TO INPUT NPU STATUS WORD RJM FNC EXIT TO FUNCTION TO INPUT NPU STATUS WORD RJM ACN EXIT TO ACTIVATE NPU CHANNEL LDK CHDLY LOAD CHANNEL DELAY COUNTER INS.1 FJM. INS.2 EXIT IF CHANNEL WENT FULL SBN 1 DECREMENT CHANNEL DELAY COUNTER NJN INS.1 EXIT IF CHANNEL DELAY NOT EXPIRED EXIT IDC.3A EXIT TO ERROR - HUNG EMPTY ON INPUT INS.2 IAN. INPUT NPU STATUS WORD STM NSW,FEI STORE CURRENT NPU STATUS WORD DCN. DISCONNECT NPU CHANNEL UJK INSX RETURN CCSR SPACE 2,34 ** SUBROUTINE CCSR. * * SUBROUTINE CCSR CHECKS THE NPU COUPLER STATUS REGISTER. * IF THE NPU COUPLER STATUS REGISTER INDICATES THAT THE * NPU STATUS WORD HAS BEEN LOADED BY THE NPU, THE NPU * DEAD TIMER IS RESET. OTHERWISE THE NPU DEAD TIMER IS * CHECKED FOR A NPU TIMEOUT CONDITION. * * ENTRY - * * (FEI) = FRONT END TABLE ADDRESS, * (DTM) = FRONT END DEAD TIMER. * * EXIT - * * (A) = STATUS IF NPU STATUS WORD LOADED * OR NEGATIVE IF NOT LOADED, * (CSR) = CURRENT NPU COUPLER STATUS REGISTER, * (DTM) = RESET IF NPU STATUS WORD LOADED, * (T1-T1+4) = SYSTEM REAL-TIME CLOCK. * * ERROR EXITS - * * EXIT TO *ERROR* IF NPU DEAD TIMER EXPIRED. * * CALLS - * ** ICS - INPUT COUPLER STATUS REGISTER. CCSR SUBR ENTRY/EXIT LDK RTCL LOAD ADDRESS OF SYSTEM REAL-TIME CLOCK CRD T1 READ SYSTEM REAL-TIME CLOCK RJM ICS EXIT TO INPUT COUPLER STATUS REGISTER LPN /CSTATUS/NSL EXTRACT NPU STATUS WORD LOADED BIT ZJN CCSR.1 EXIT IF NPU STATUS WORD NOT LOADED LDD T1+1 LOAD SYSTEM SECOND TIME ADK Q.NDEAD PLUS FRONT END DEAD TIMER QUANTUM STM DTM,FEI RESET FRONT END DEAD TIMER LDM CSR,FEI LOAD CURRENT COUPLER STATUS REGISTER UJK CCSRX RETURN CCSR.1 LDD T1+1 LOAD SYTEM SECOND TIME SBM DTM,FEI LESS FRONT END DEAD TIMER VALUE SHN 5+1 POSITION HIGH-ORDER VALUE BIT TO SIGN MJN CCSRX RETURN IF FRONT END TIMER NOT EXPIRED EREXIT NTO EXIT TO ERROR ROUTINE - NPU TIME OUT INSW SPACE 2,30 ** SUBROUTINE INSW. * * SUBROUTINE INSW INPUTS THE NPU STATUS WORD FROM THE * NPU. IF THE NPU REPORTS INITIALIZATION REQUESTED OR * INITIALIZATION COMPLETED THE BLOCK HANDLER STATE * RESPONSE ACTION FOR THE NPU STATE CHANGE IS EXECUTED * AND CONTROL IS EXPLICITLY TRANSFERRED TO PROCESS THE * NEXT NPU. * * ENTRY - * * (NPU) = NPU TABLE OFFSET. * * NPU STATE CHANGE EXIT - * * EXIT TO *NFE* IF NPU STATE CHANGE. * * CALLS - * * INS - INPUT NPU STATUS WORD, * EBRA - EXECUTE BLOCK STATE RESPONSE ACTION. * * PROCESSOR CALLS - * ** BLOCK HANDLER STATE RESPONSE ACTION PROCESSOR. INSW SUBR ENTRY/EXIT RJM INS EXIT TO INPUT NPU STATUS WORD LMN /NSTATUS/NIR LESS VALUE FOR INITIALIZATION REQUEST ZJN INSW.2 EXIT IF NPU REQUESTING INITALIZATION LMN /NSTATUS/NIC&/NSTATUS/NIR INITIALIZATION COMPLETE VALUE ZJN INSW.1 EXIT IF NPU REPORTS INITIALIZATION COMPLETE LDM NSW,FEI LOAD CURRENT NPU STATUS WORD UJK INSWX RETURN INSW.1 LDN /TABLES/.NPIC-/TABLES/.NPRI INITIALIZATION COMPLETE INSW.2 ADN /TABLES/.NPRI DELTA FOR INITIALIZATION REQUEST STD CTL STORE BLOCK HANDLER STATE ACTION ORDINAL RJM EBRA EXIT TO EXECUTE BLOCK RESPONSE ACTION EXIT NFE EXIT TO PROCESS NEXT NPU WOW SPACE 2,34 ** SUBROUTINE WOW. * * SUBROUTINE WOW WRITES THE ORDER WORD TO THE NPU. A * CHECK IS MADE TO ASSURE THAT THE NPU HAS READ THE * PREVIOUS ORDER WORD BEFORE THE CURRENT ORDER WORD IS * WRITTEN. THE NPU ORDER WORD IS USED IN THE BLOCK * PROTOCOL TO REQUEST PERMISSION TO DO OUTPUT TO THE NPU * AND TO PROVIDE CONTROL INFORMATION TO THE NPU. * * ENTRY - * * (FEI) = FRONT END TABLE ADDRESS, * (OW) = NPU ORDER WORD IMAGE. * * ERROR EXITS - * * EXIT TO *ERROR* IF NPU ORDER WORD TIMER EXPIRES. * * CALLS - * * CCSR - CHECK NPU COUPLER STATUS REGISTER, * FNC - FUNCTION NPU COUPLER, * OWN - OUTPUT WORD TO NPU. * * USES - * * T0-T0+4 = SYSTEM REAL-TIME CLOCK, ** T7 = NPU ORDER WORD WAIT TIMER. WOW SUBR ENTRY/EXIT LDK RTCL LOAD ADDRESS OF SYSTEM REAL-TIME CLOCK CRD T0 READ SYSTEM REAL-TIME CLOCK LDD T0+4 LOAD SYSTEM MILLISECOND TIME ADK Q.NOWT PLUS NPU ORDER WORD TIMEOUT QUANTUM STD T7 STORE NPU ORDER WORD TIMEOUT VALUE WOW.1 RJM CCSR EXIT TO CHECK COUPLER STATUS REGISTER LDM CSR,FEI LOAD CURRENT COUPLER STATUS REGISTER SHN 17-/CSTATUS/S.OWL NPU ORDER WORD LOADED STATUS TO SIGN PJN WOW.2 EXIT IF PREVIOS NPU ORDER WORD NOT LOADED LDD T1+4 LOAD SYSTEM MILLISECOND TIME SBD T7 LESS NPU ORDER WORD TIMEOUT VALUE SHN 5+1 POSITION HIGH-ORDER VALUE BIT TO SIGN MJN WOW.1 EXIT IF TIMEOUT NOT EXPIRED EREXIT NOT EXIT TO ERROR - NPU ORDER WORD TIMEOUT WOW.2 LDN /FUNCTION/OOW FUNCTION TO OUTPUT NPU ORDER WORD RJM FNC EXIT TO FUNCTION TO OUTPUT NPU ORDER WORD LDD OW LOAD NPU ORDER WORD VALUE RJM OWN EXIT TO OUTPUT ORDER WORD TO NPU UJK WOWX RETURN RCO SPACE 2,36 ** SUBROUTINE RCO. (ENTRY POINT IS LOGICAL I/O FERO.) * * SUBROUTINE RCO REQUESTS TO OUTPUT TO THE NPU COUPLER * BY WRITING THE OUTPUT ORDER WORD. IF THE OUTPUT * REQUEST IS ACCEPTED BY THE NPU THE OUTPUT DELAY TIMER * IS SET FOR OUTPUT ACCEPTED. IT THE OUTPUT REQUEST IS * REJECTED BY THE NPU THE OUTPUT DELAY TIMER IS SET FOR * OUTPUT REJECTED. * * ENTRY - * * (FEI) = FRONT END TABLE ADDRESS. * * EXIT - * * (A) = NON-ZERO IF NPU READY FOR OUTPUT, * (DTM) = RESET, * (OTM) = SET TO APPROPRIATE OUTPUT DELAY TIME, * (T1-T1+4) = SYSTEM REAL-TIME CLOCK. * * CALLS - * * WOW - WRITE ORDER WORD TO NPU, * CCSR - CHECK COUPLER STATUS REGISTER, * INSW - INPUT NPU STATUS WORD. * * USES - * * T0-T0+4 = SYSTEM REAL-TIME CLOCK, * T7 = OUTPUT WAIT TIMER, ** T0 = RETURN INDICATOR. RCO LINK ENTRY RJM WOW EXIT TO WRITE ORDER WORD TO NPU LDK RTCL LOAD ADDRESS OF SYSTEM REAL-TIME CLOCK CRD T0 READ SYSTEM REAL-TIME CLOCK LDD T0+4 LOAD SYSTEM MILLISECOND TIME ADK Q.NOWT PLUS NPU OUTPUT WAIT DELAY STD T7 STORE OUTPUT WAIT TIMER RCO.1 RJM CCSR EXIT TO CHECK COUPLER STATUS REGISTER PJN RCO.5 EXIT IF NPU STATUS WORD LOADED RCO.2 LDD T1+4 LOAD SYSTEM MILLISECOND TIME SBD T7 LESS OUTPUT WAIT TIMER SHN 5+1 POSITION HIGH-ORDER VALUE BIT TO SIGN MJN RCO.1 EXIT IF DELAY NOT EXPIRED LDN /NSTATUS/NRO LOAD STATUS NOT READY FOR OUTPUT STM NSW,FEI STORE NPU STATUS WORD STD T0 STORE RETURN INDICATOR RCO.3 LDK Q.NORJ LOAD OUTPUT REJECTED TIME QUANTUM RCO.4 ADD T1+4 PLUS SYSTEM MILLISECOND TIME STM OTM,FEI STORE OUTPUT DELAY TIMER LDD T0 LOAD RETURN INDICATOR ZJN RCO.4B EXIT IF NPU READY FOR OUTPUT LDN 0 SET A-REGISTER ZERO RCO.4A UJK FEROX RETURN RCO.4B LDN 1 SET A-REGISTER NON-ZERO UJK RCO.4A RETURN RCO.5 RJM INSW EXIT TO INPUT NPU STATUS WORD LMN /NSTATUS/RO LESS VALUE FOR READY FOR OUTPUT STD T0 STORE RETURN INDICATOR NJN RCO.6 EXIT IF NOT READY FOR OUTPUT LDK Q.NOAC LOAD OUTPUT ACCEPTED TIME QUANTUM UJK RCO.4 EXIT TO SET OUTPUT DELAY TIMER RCO.6 LMN /NSTATUS/NRO&/NSTATUS/RO DELTA FOR NOT READY FOR OUTPUT ZJN RCO.3 EXIT IF NOT READY FOR OUTPUT UJK RCO.2 EXIT TO CHECK OUTPUT WAIT TIMER IDC SPACE 2,32 ** SUBROUTINE IDC. (ENTRY POINT IS LOGICAL I/O FEIC.) * * SUBROUTINE IDC INPUTS A CHARACTER FROM THE NPU COUPLER * AND VERIFIES THE CORRECT OPERATION OF THE NPU CHANNEL. * * ENTRY - * * (T3) = CURRENT CHARACTER COUNT, * (NCC) = CURRENT MESSAGE CHARACTER COUNT. * * EXIT - * * (A) = INPUT DATA CHARACTER, * (T0) = INPUT DATA CHARACTER, * (T3) = UPDATED TO CURRENT CHARACTER COUNT, * (NCC) = UPDATED TO CURRENT MESSAGE CHARACTER COUNT, * (EOT) = SET TO INDICATE END OF TRANSFER STATUS. * * ERROR EXITS - * * EXIT TO *ERROR* IF CHANNEL GOES INACTIVE, * EXIT TO *ERROR* IF CHANNEL STAYS EMPTY. * * USES - * ** T0 = INPUT DATA BYTE. IDC LINK ENTRY AJM. IDC.2 EXIT IF CHANNEL ACTIVE IDC.1 EREXIT IDI EXIT TO ERROR - INACTIVE DURING INPUT IDC.2 FJM. IDC.4 EXIT IF DATA ON CHANNEL LDK CHDLY LOAD CHANNEL DELAY COUNTER IDC.3 FJM. IDC.4 EXIT IF DATA ON CHANNEL SBN 1 DECREMENT CHANNEL DELAY COUNTER NJN IDC.3 EXIT IF CHANNEL DELAY NOT EXPIRED IDC.3A LINK ENTRY EREXIT HEI EXIT TO ERROR - HUNG EMPTY ON INPUT IDC.4 AOD T3 INCREMENT CHARACTER COUNTER AOD NCC INCREMENT MESSAGE CHARACTER COUNTER IAN. INPUT DATA BYTE STD T0 STORE INPUT DATA BYTE SHN -/BLOCK/S.EOT END OF TRANSFER FLAG TO LOW-ORDER STD EOT STORE END OF TRANSFER STATUS LDD T0 LOAD INPUT DATA BYTE LPC 0#FF EXTRACT INPUT DATA CHARACTER STD T0 STORE INPUT DATA CHARACTER UJK FEICX RETURN TEDC SPACE 2,28 ** SUBROUTINE TEDC. (ENTRY POINT IS LOGICAL I/O FEEC.) * * SUBROUTINE TEDC TRANSFERS THE LAST CHARACTER OF A * REQUESTED OUTPUT SEQUENCE TO THE NPU. IF END OF * TRANSFER IS REQUESTED IT IS SET ON THE LAST DATA * CHARACTER SENT TO THE NPU. * * ENTRY - * * (T3) = LAST OUTPUT DATA CHARACTER, * (NCC) = CURRENT MESSAGE CHARACTER COUNT, * (REOT) = REQUEST END OF TRANSFER FLAG (1 = EOT). * * EXIT - * * (NCC) = UPDATED TO CURRENT MESSAGE CHARACTER COUNT, * (EOT) = SET IF END OF TRANSFER REQUESTED. * * CALLS - * * ODC - OUTPUT DATA CHARACTER, ** WODE - WAIT CHANNEL EMPTY AND DISCONNECT. TEDC LINK ENTRY LDD REOT LOAD END OF TRANSFER REQUEST FLAG ZJN TEDC.1 EXIT IF END OF TRANSFER NOT REQUESTED LDC /BLOCK/B.EOT LOAD END OF TRANSFER BIT RAD T3 ADD TO OUTPUT DATA CHARACTER TEDC.1 RJM ODC EXIT TO OUTPUT DATA CHARACTER SHN -11 END OF TRANSFER FLAG TO LOW-ORDER ZJN TEDC.2 RETURN,IF NOT END OF TRANSFER STD EOT SET END OF TRANSFER FLAG RJM WODE EXIT TO WAIT CHANNEL EMPTY TEDC.2 UJK FEECX RETURN WODE SPACE 2,20 ** SUBROUTINE WODE. * * SUBROUTINE WODE WAITS FOR THE CHANNEL TO GO EMPTY * AND DISCONNECTS THE CHANNEL AFTER THE LAST DATA * CHARACTER OF A TRANSFER IS SENT TO THE CHANNEL. * * ERROR EXITS - * * EXIT TO *ERROR* IF CHANNEL REMAINS FULL. * * CALLS - * ** DCN - DISCONNECT NPU CHANNEL. WODE SUBR ENTRY/EXIT LDK CHDLY LOAD CHANNEL DELAY COUNTER WODE.1 EJM. WODE.2 EXIT IF CHANNEL EMPTY SBN 1 DECREMENT CHANNEL DELAY COUNTER NJN WODE.1 EXIT IF CHANNEL DELAY NOT EXPIRED EXIT OWN.2 EXIT TO ERROR ROUTINE - CHANNEL HUNG FULL WODE.2 RJM DCN EXIT TO DISCONNECT NPU CHANNEL UJK WODEX RETURN CKIA TITLE NPU INPUT/OUTPUT CONTROL SUBROUTINES. CKIA SPACE 2,24 ** SUBROUTINE CKIA. (ENTRY POINT IS LOGICAL I/O FEIA.) * * SUBROUTINE CKIA CHECKS FOR INPUT AVAILABLE FROM NPU. * * EXIT - * * (A) = POSITIVE IF INPUT AVAILABLE, * (IOC) = INPUT ORDER CODE IF INPUT AVAILABLE, * (PRU) = PRU BUFFER SIZE ORDINAL IF PRU INPUT. * * CALLS - * * CCSR - CHECK COUPLER STATUS REGISTER AVAILABLE, * INSW - INPUT NPU STATUS WORD. * * ERROR EXITS - * ** EXIT TO *ERROR* IF ILLEGAL PRU BUFFER SIZE. CKIA LINK ENTRY RJM CCSR EXIT TO CHECK COUPLER STATUS REGISTER MJN CKIA.X RETURN IF NPU STATUS WORD NOT LOADED RJM INSW EXIT TO INPUT NPU STATUS WORD LPN /NSTATUS/L.SC EXTRACT NPU STATUS CODE SBN /NSTATUS/BIC LESS BEGINNING INPUT AVAILABLE CODE MJN CKIA.X RETURN IF INPUT NOT AVAILABLE STD IOC STORE POSSIBLE INPUT ORDER CODE SBN /NSTATUS/EIC-/NSTATUS/BIC DELTA FOR ENDING INPUT CODE PJN CKIA.2 EXIT IF INPUT NOT AVAILABLE ADN /NSTATUS/EIC-/NSTATUS/IAP DELTA FOR PRU INPUT NJN CKIA.1 EXIT IF NOT PRU INPUT AVAILABLE LDM NSW,FEI LOAD NPU STATUS WORD SHN -/NSTATUS/S.NPRU POSITION PRU SIZE TO LOW-ORDER ZJN CKIA.3 EXIT IF INVALID PRU SIZE SPECIFIED SBN 1 LESS ONE FOR RELATIVE ZERO STD PRU STORE PRU BUFFER SIZE ORDINAL SBN MAXPRU LESS MAXIMUM PRU BUFFER SIZE ORDINAL PJN CKIA.3 EXIT IF INVALID PRU SIZE SPECIFIED CKIA.1 LDN 0 SET A-REGISTER POSITIVE CKIA.X UJK FEIAX RETURN CKIA.2 LCN 1 SET A-REGISTER NEGATIVE UJK CKIA.X RETURN CKIA.3 EREXIT IBS EXIT TO ERROR - ILLEGAL PRU BUFFER SIZE SNRI SPACE 2,12 ** SUBROUTINE SNRI. (ENTRY POINT IS LOGICAL I/O FENI.) * * SUBROUTINE SNRI SETS NOT READY FOR INPUT TO NPU. * * CALLS - * ** WOW - WRITE ORDER WORD TO NPU. SNRI LINK ENTRY LDC /NORDER/NRI*400B LOAD DRIVER NOT READY FOR INPUT CODE STD OW STORE NPU ORDER WORD VALUE RJM WOW EXIT TO WRITE ORDER WORD TO NPU UJK FENIX RETURN ROAS SPACE 2,18 ** SUBROUTINE ROAS. (ENTRY POINT IS LOGICAL I/O FEOA.) * * SUBROUTINE ROAS RETURNS AN INDICATION OF THE * ABILITY OF THE NPU TO RECEIVE OUTPUT DATA. * * ENTRY - * * (FEI) = FRONT END TABLE ADDRESS, * (NSW) = LAST NPU STATUS WORD VALUE. * * EXIT - * * (A) = NON-ZERO IF NPU CAN ACCEPT OUTPUT. ROAS LINK ENTRY LDM NSW,FEI LOAD LAST NPU STATUS WORD VALUE LMN /NSTATUS/NRO LESS VALUE FOR NOT READY FOR OUTPUT UJK FEOAX RETURN CNRL SPACE 2,16 ** SUBROUTINE CNRL. (ENTRY POINT IS LOGICAL I/O FERG.) * * SUBROUTINE CNRL CHANGES THE NPU REGULATION LEVEL. * * ENTRY - * * (OW) = NEW NPU REGULATION LEVEL. * * CALLS - * ** WOW - WRITE ORDER WORD TO NPU. CNRL LINK ENTRY LDC /NORDER/RGC*400B CODE TO CHANGE NPU REGULATION LEVEL RAD OW ADD TO NEW NPU REGULATION LEVEL RJM WOW EXIT TO WRITE ORDER WORD TO NPU UJK FERGX RETURN HNPU SPACE 2,28 ** SUBROUTINE HNPU. (ENTRY POINT IS LOGICAL I/O FEHL.) * * SUBROUTINE HNPU HALTS THE NPU AND ISSUES A WORKLIST * WITH DAYFILE TEXT TO INDICATE THAT THE DRIVER HALTED * THE NPU. * * ENTRY - * * BUFFER SPACE AVAILABLE FOR WORKLIST, * (FEI) = FRONT END TABLE ADDRESS, * (HND) = HOST NODE ID OF NPU. * * CALLS - * * FNC - FUNCTION NPU COUPLER, * IWL - INITIALIZE INBOUND WORKLIST, * TWL - TRANSFER INBOUND WORKLIST. * * USES - * * T1 = SOURCE DAYFILE TEXT ADDRESS, ** T2 = DESTINATION DAYFILE TEXT ADDRESS. HNPU LINK ENTRY LDC /FUNCTION/CLN LOAD FUNCTION TO CLEAR NPU RJM FNC EXIT TO FUNCTION TO CLEAR NPU LDM HND,FEI LOAD HOST NODE NUMBER SHN -6 EXTRACT HIGH-ORDER DIGIT ADC 2R 0 PLUS DISPLAY CODE ZERO STM NPHT+8 STORE INTO HALTED NPU DAYFILE TEXT LDM HND,FEI LOAD HOST NODE NUMBER LPN 77B EXTRACT MIDDLE AND LOW ORDER DIGITS STD T1 STORE MIDDLE AND LOW ORDER DIGITS SHN 3 POSITION MIDDLE-ORDER DIGIT OF NODE NUMBER LMD T1 PLUS LOW-ORDER DIGIT OF HOST NODE NUMBER LPC 707B EXTRACT HOST NODE NUMBER DIGITS ADC 2R00 PLUS DISPLAY CODED ZEROES STM NPHT+9 STORE INTO HALTED NPU DAYFILE TEXT LDC NPHT LOAD ADDRESS OF HALTED NPU DAYFILE TEXT STD T1 INITIALIZE SOURCE ADDRESS LDC DRBUF LOAD ADDRESS FOR DAYFILE TEXT STD T2 INITIALIZE DESTINATION ADDRESS HNPU.1 LDI T1 LOAD NEXT SOURCE BYTE STI T2 STORE INTO NEXT DESTINATION ADDRESS ZJN HNPU.2 EXIT IF END OF SOURCE DATA AOD T1 INCREMENT SOURCE ADDRESS AOD T2 INCREMENT DESTINATION ADDRESS UJK HNPU.1 EXIT TO MOVE NEXT SOURCE BYTE HNPU.2 LDN /NAM/DFTX*10000B&/NAM/DFWL REASON AND REQUEST CODES RJM IWL EXIT TO INITIALIZE UPBOUND WORKLIST LDN /NAM/L.BH+/NAM/L.NH+L.NPHT LENGTH OF HALTED WORKLIST STM NBH+/NAM/C.BWD+1 STORE UPBOUND WORKLIST WORD LENGTH RJM TWL EXIT TO TRANSFER WORKLIST TO INBOUND BUFFER UJK FEHLX ASED SPACE 2,36 ** SUBROUTINE ASED. (ENTRY POINT IS LOGICAL I/O FEIP.) * * SUBROUTINE ASED INPUTS DATA FROM THE NPU AND * STORES THE INPUT DATA IN PACKED FORMAT INTO THE * SPECIFIED BUFFER AREA. THE SUBROUTINE ITERATES ON * THREE INPUT DATA CHARACTERS. * * ENTRY - * * (A) = ENDING DATA BUFFER ADDRESS, * (T1) = STARTING DATA BUFFER ADDRESS, * (NCC) = CURRENT MESSAGE CHARACTER COUNT. * * EXIT - * * (A) = NON-ZERO IF END OF TRANSFER, * (T3) = UPDATED TO CURRENT CHARACTER COUNT, * (NCC) = UPDATED TO CURRENT MESSAGE CHARACTER COUNT, * (EOT) = NON-ZERO IF END OF TRANSFER. * * ERROR EXITS - * * EXIT TO *ERROR* IF ILLEGAL INPUT BUFFER SIZE. * * CALLS - * * FEIC - INPUT NEXT DATA CHARACTER. * * USES - * ** T2 = ENDING DATA BUFFER ADDRESS. ASED LINK ENTRY STD T2 STORE ENDING DATA BUFFER ADDRESS SBD T1 LESS STARTING DATA BUFFER ADDRESS LPN 1 EXTRACT ODD LENGTH BIT NJN ASED.1 EXIT IF NOT ODD BUFFER LENGTH LJM ASED.5 EXIT TO PROCESS ODD BUFFER LENGTH ASED.1 LDN 0 CONSTANT OF ZERO STD T3 INITIALIZE DATA CHARACTER COUNT ASED.2 RJM FEIC INPUT NEXT DATA CHARACTER SHN 4 POSITION NEXT INPUT DATA CHARACTER STI T1 STORE NEXT INPUT DATA CHARACTER LDD EOT LOAD END OF TRANSFER FLAG NJN ASED.3 RETURN IF END OF TRANSFER RJM FEIC INPUT NEXT DATA CHARACTER SHN -4 POSITION HIGH-ORDER OF DATA CHARACTER RAI T1 ADD TO PREVIOUS INPUT DATA CHARACTER AOD T1 INCREMENT CURRENT DATA BUFFER ADDRESS LDD T0 LOAD NEXT INPUT DATA CHARACTER SHN 8 POSITION LOW-ORDER OF DATA CHARACTE9 STI T1 STORE LOW-ORDER OF DATA CHARACTER LDD EOT LOAD END OF TRANSFER FLAG NJN ASED.3 RETURN IF END OF TRANSFER RJM FEIC INPUT NEXT DATA CHARACTER RAI T1 ADD TO PREVIOUS INPUT CHARACTER LDD EOT LOAD END OF TRANSFER FLAG NJN ASED.3 RETURN IF END OF TRANSFER LDD T1 LOAD CURRENT DATA BUFFER ADDRESS LMD T2 LESS ENDING DATA BUFFER ADDRESS NJN ASED.4 EXIT IF DATA BUFFER NOT EXHAUSTED ASED.3 UJK FEIPX RETURN ASED.4 AOD T1 INCREMENT CURRENT BUFFER ADDRESS UJK ASED.2 EXIT TO INPUT NEXT DATA CHARACTER ASED.5 EREXIT ISE EXIT TO ERROR - ILLEGAL BLOCK SIZE TEBF SPACE 2,30 ** SUBROUTINE TEBF. (ENTRY POINT IS LOGICAL I/O FEOP.) * * SUBROUTINE TEBF TRANSFERS EIGHT BIT FORMATTED DATA * TO THE FRONT END. THE SUBROUTINE ITERATES ON THREE * SOURCE DATA CHARACTERS. * * ENTRY - * * (T1) = SOURCE DATA STARTING ADDRESS, * (T2) = SOURCE DATA CHARACTER COUNT, * (NCC) = CURRENT MESSAGE CHARACTER COUNT, * (REOT) = REQUEST END OF TRANSFER FLAG (1 = EOT). * * EXIT - * * (NCC) = UPDATED TO CURRENT MESSAGE CHARACTER COUNT. * * CALLS - * * FEOC - OUTPUT NEXT DATA CHARACTER, * FEEC - OUTPUT ENDING DATA CHARACTER. * * USES - * ** T3 = OUTPUT DATA CHARACTER. TEBF LINK ENTRY TEBF.1 LDI T1 LOAD NEXT OUTPUT DATA BYTE SHN -4 POSITION NEXT OUTPUT DATA CHARACTER STD T3 STORE NEXT OUTPUT DATA CHARACTER SOD T2 DECREMENT OUTPUT DATA CHARACTER COUNT NJN TEBF.3 EXIT IF NOT ENDING OUTPUT DATA CHARACTER TEBF.2 RJM FEEC TRANSFER ENDING DATA CHARACTER UJK FEOPX RETURN TEBF.3 RJM FEOC OUTPUT NEXT DATA CHARACTER LDI T1 LOAD NEXT OUTPUT DATA BYTE LPN 0#F EXTRACT HIGH-ORDER OF NEXT DATA CHARACTER SHN 4 POSITION TO HIGH-ORDER STD T3 STORE HIGH-ORDER OF NEXT DATA CHARACTER AOD T1 INCREMENT SOURCE DATA ADDRESS LDI T1 LOAD NEXT OUTPUT DATA BYTE SHN -8 POSITION LOW-ORDER OF NEXT DATA CHARACTER RAD T3 ADD TO HIGH-ORDER OF NEXT DATA CHARACTER SOD T2 DECREMENT OUTPUT DATA CHARACTER COUNT ZJN TEBF.2 EXIT IF ENDING OUTPUT DATA CHARACTER RJM FEOC OUTPUT NEXT DATA CHARACTER LDI T1 LOAD NEXT OUTPUT DATA BYTE LPC 0#FF EXTRACT NEXT OUTPUT DATA CHARACTER STD T3 STORE NEXT OUTPUT DATA CHARACTER SOD T2 DECREMENT OUTPUT DATA CHARACTER COUNT ZJN TEBF.2 EXIT IF ENDING OUTPUT DATA CHARACTER RJM FEOC OUTPUT NEXT DATA CHARACTER AOD T1 INCREMENT SOURCE DATA ADDRESS UJK TEBF.1 EXIT TO PROCESS NEXT OUTPUT DATA BYTE DAYFILE SPACE 2,6 * DAYFILE MESSAGE TEXT. NPHT BSS 0 HALTED NPU DAYFILE TEXT LOC 0 DATA L$PIP - HALTED NPU XXX.$ DATA 0 .1 SET *+4 .1 SET .1/5 L.NPHT EQU .1 DEFINE CENTRAL LENGTH OF DAYFILE TEXT LOC *O BRIA TITLE BLOCK HANDLER STATE RESPONSE ACTION PROCESSORS (FOR NPU) QUAL ACTIONS TYPEACT MICRO 1,,*BLOCK* DEFINE ACTION TYPE BRIA SPACE 2,12 ** BLOCK HANDLER STATE RESPONSE ACTION BRIA. (FOR NPU) * * BLOCK HANDLER STATE RESPONSE ACTION BRIA * SENDS INITIALIZATION REQUEST ACKNOWLEDGEMENT * PP ORDER WORD AS THE RESPONSE TO INITIALIZATION ** REQUEST STATUS FROM NPU. BRIA ACTION SEND INITIALIZATION REQUEST ACKNOWLEDGEMENT LDC /NORDER/INA*400B INITIALIZATION ACKNOWLEDGEMENT VALUE STD OW STORE NPU ORDER WORD VALUE RJM /NPU/WOW EXIT TO WRITE ORDER WORD TO NPU EXIT EBRAX RETURN VIA BLOCK STATE ACTION RETURN QUAL .STOA SPACE 2,6 * TRANSIENT OVERLAY DEFINITIONS. .STOA MAX .STOA,* START OF TRANSIENT OVERLAY AREA L.NPHT SET /NPU/L.NPHT LENGTH OF NPU HALTED DAYFILE TEXT CIT SPACE 2,6 * TERMINATE NPU CHANNEL INSTRUCTION TABLE. CIT RMT QUAL CON 0 TERMINATE NPU CHANNEL INSTRUCTION TABLE CIT RMT ."O.N" EQU * OVERLAY F=FLOV,T1=(MDI I/O SUPPORT),T2=(MDI INPUT/OUTPUT INTER ,FACE DIRECTORY) IOID SPACE 2,18 ** LOGICAL INPUT/OUTPUT INTERFACE DIRECTORY. + * THE FOLLOWING LOGICAL INPUT/OUTPUT INTERFACE DIRECTORY * CONTAINS AN ENTRY THAT IDENTIFIES THE EQUIPMENT TYPE * OF THE FRONT END BEING PROCESSED AND AN ENTRY FOR EACH * FUNCTIONAL INTERFACE POINT FOR THE DEVICE INPUT/OUTPUT * SUPPORT OVERLAY. THE CONTENTS OF A FUNCTIONAL * INTERFACE POINT ENTRY CONSISTS OF TWO TWO-WORD * INSTRUCTIONS: SUBROUTINE ENTRY/EXIT AND A LONG JUMP. * THE CALL TO A LISTED DEVICE FUNCTION WILL START WITH A * RETURN-JUMP TO THE FE-- NAME, THEN A LONG JUMP TO THE * PROCESSOR SPECIFIED IN THE ENTRY IS EXECUTED, AND * THE EXIT FROM THE PROCESSOR IS THROUGH FE--X IN THE * DIRECTORY TABLE ENTRY. * * SO, THE LISTED DEVICE FUNCTION MUST BE CALLED ONLY * BY THE GIVEN FE-- NAME, EXCEPT THE LAST NAME FEOC * THAT IS EQUATED TO THE ENTRY POINT /NPU/ OR /MDI/ ODC. * SUBROUTINE ODC IMMEDIATELY FOLLOWS THE DIRECTORY AND * IS A REAL SUBROUTINE. IT MAY BE CALLED AS FEOC, ** /NPU/ODC, OR /MDI/ODC. IOID BSS 0 LOGICAL INPUT/OUTPUT INTERFACE DIRECTORY FETP CON 1 FRONT END TYPE (1 = MDI) IODE FEIA,/MDI/CKIA CHECK INPUT AVAILABLE FROM FRONT END FENI SUBR SET NOT READY FOR INPUT - NO ACTION LJM FENIX IODE FEOA,/MDI/ROAS RETURN OUTPUT ALLOWED STATUS OF F. END IODE FERG,/MDI/CNRL CHANGE FRONT END REGULATION LEVEL IODE FEIH,/MDI/IBH INPUT BLOCK PROTOCOL HEADER FROM F. END IODE FERO,/MDI/RCO REQUEST OUTPUT TO FRONT END IODE FEOH,/MDI/TBH OUTPUT BLOCK PROTOCOL HEADER TO F. END FEHL SUBR HALT FRONT END - NO ACTION LJM FEHLX IODE FEIC,/MDI/IDC INPUT NEXT DATA CHARACTER FROM FRONT END IODE FEEC,/MDI/TEDC OUTPUT LAST DATA CHARACTER TO FRONT END IODE FEIP,/MDI/ASED INPUT PACKED DATA IODE FEOP,/MDI/TEBF OUTPUT PACKED DATA FEOC EQU *+1 OUTPUT NEXT DATA CHARACTER TO FRONT END QUAL MDI CIT SPACE 2,6 * INITIALIZE CHANNEL INSTRUCTION TABLE. CIT RMT QUAL MDI MDICIT BSS 0 MDI CHANNEL INSTRUCTION TABLE CIT RMT LINK SPACE 2,6 * RESET LINKS. .ERROR SET 0 ODC SPACE 2,28 ** SUBROUTINE ODC. (EQUATED TO LOGICAL I/O FEOC.) * * SUBROUTINE ODC ACCEPTS THE NEXT OUTPUT CHARACTER FOR * THE MDI. THIS SUBROUTINE ITERATES ON THREE EIGHT BIT * OUTPUT CHARACTERS. * * ENTRY - * * (T3) = NEXT OUTPUT DATA CHARACTER, * (NCC) = CURRENT MESSAGE CHARACTER COUNT, * (CP) = CURRENT CHARACTER POSIITION, * (CB) = PARTIAL CHANNEL OUTPUT FRAME, IF ANY. * * EXIT - * * (A) = OUTPUT DATA CHARACTER, * (NCC) = UPDATED TO CURRENT MESSAGE CHARACTER COUNT, * (CP) = NEXT CHARACTER POSITION, * (CB) = PARTIAL CHANNEL OUTPUT FRAME, IF ANY. * * ERROR EXITS - * ** EXIT TO *ERROR* IF CHANNEL WENT INACTIVE. ODC SUBR ENTRY/EXIT AOD NCC INCREMENT MESSAGE CHARACTER COUNT LDM CP LOAD NEXT CHARACTER POSITION SBN 1 LESS VALUE FOR MIDDLE EIGHT BITS NJN ODC.4 EXIT IF NOT MIDDLE EIGHT BITS LDD T3 LOAD NEXT OUTPUT DATA CHARACTER SHN -4 POSITION LOW-ORDER OF OUTPUT FRAME ODC.1 LMM CB PLUS PREVIOUS OUTPUT CHARACTER RJM DCO EXIT TO OUTPUT CHANNEL FRAME LDD T3 LOAD OUTPUT DATA CHARACTER SHN 8 (EXTRACT LOWEST 4-BITS OF DATA.) POSITION HIGH-ORDER OF NEXT CHANNEL FRAME ODC.2 STM CB STORE HIGH-ORDER OF NEXT OUTPUT FRAME AOM CP INCREMENT CHARACTER POSITION LMN 3 LESS ENDING VALUE NJN ODC.3 EXIT IF NO CHARACTER POSITION OVERFLOW STM CP RESET CHARACTER POSITION ODC.3 LDD T3 LOAD OUTPUT DATA CHARACTER UJK ODCX RETURN ODC.4 MJN ODC.5 EXIT IF NOT LOWER EIGHT BITS LDD T3 LOAD NEXT OUTPUT CHARACTER UJK ODC.1 EXIT TO ADD LOW-ORDER OF PREVIOUS CHARACTER ODC.5 LDD T3 LOAD NEXT OUTPUT DATA CHARACTER SHN 4 POSITION TO HIGH-ORDER UJK ODC.2 EXIT TO STORE HIGH-ORDER NEXT OUTPUT FRAME ODC.6 EREXIT IDO EXIT TO ERROR - WENT INACTIVE DURING OUTPUT IBH TITLE MDI INPUT/OUTPUT DATA MANAGEMENT SUBROUTINES. IBH SPACE 2,44 ** SUBROUTINE IBH. (ENTRY POINT IS LOGICAL I/O FEIH.) * * SUBROUTINE IBH INPUTS AND VALIDATES THE BLOCK HEADER * FROM THE MDI. IF THE TRANSFER FROM THE MDI IS LONGER * THAN THE BLOCK HEADER, THE CHANNEL IS LEFT ACTIVE * AND READY TO CONTINUE THE TRANSFER FROM THE MDI. * * ENTRY - * * (FEI) = FRONT END TABLE ADDRESS, * (HND) = HOST NODE ID. * * EXIT - * * (NCC) = CURRENT CHARACTER COUNT OF MESSAGE, * (MC) = TOTAL MESSAGE LENGTH IN CHARACTERS, * (BHB+L.BH) = BLOCK HEADER OF MESSAGE FROM MDI, * (EOT) = NON-ZERO IF END OF TRANSFER, * (TN) = TERMINAL NODE OF MESSAGE, * (CN) = CONNECTION NUMBER OF MESSAGE, * (BT) = BLOCK TYPE OF MESSAGE. * * ERROR EXITS - * * EXIT TO *ERROR* IF MDI HEADER FORMAT ERROR, * EXIT TO *ERROR* UNASSIGNED CONNECTION ON PRU INPUT, * EXIT TO *ERROR* IF BLOCK HEADER FORMAT ERROR. * * CALLS - * * FNC - FUNCTION MDI, * ACN - ACTIVATE MDI CHANNEL, * ASUD - ACCEPT AND STORE UNPACKED DATA FROM MDI, * RCT - READ CONNECTION TABLE ENTRY. * * USES - * ** T1 = INPUT BUFFER ADDRESS. IBH LINK ENTRY LDN 0 CONSTANT OF ZERO STD NCC INITIALIZE MDI MESSAGE CHARACTER COUNT STM CP INITIALIZE CHANNEL FRAME CHARACTER POSITION STM IBH.01 SET VERSION ADJUSTMENT TO 0 LDC /FUNCTION/RDT LOAD FUNCTION TO INPUT DATA RJM FNC EXIT TO FUNCTION TO INPUT DATA RJM ACN EXIT TO ACTIVE MDI CHANNEL LDC BHB LOAD ADDRESS OF BUFFER FOR MDI HEADER STD T1 STORE STARTING INPUT BUFFER ADDRESS ADN /BLOCK/L.MDIHDR-1 PLUS LENGTH OF MDI HEADER STD T3 SAVE ENDING ADDRESS LDM CHVER,FEI LOAD CHANNEL PROTOCOL VERSION SBN 2 CHECK GREATER THAN OR EQUAL TO 2 PJN IBH.0 EXIT GE 2 - USE 2 BYTE PAD IN HEADER LCN 2 CONSTANT OF -2 RAD T3 REDUCE ADDRESS TO EXCLUDE PAD LDN 2 CONSTANT OF 2 STM IBH.01 SET INTO LENGTH ADJUSTMENT INSTRN. IBH.0 LDD T3 LOAD ENDING ADDRESS RJM ASUD EXIT TO ACCEPT AND STORE UNPACKED DATA LDD T3 LOAD INPUT CAHRACTER COUNT ADC 0 ADJUST LENGTH BASED ON VERSION IBH.01 EQU *-1 INSTRUCTION MODIFIED DEPENDING ON HDDR LGTH LMN /BLOCK/L.MDIHDR LESS EXPECTED INPUT LENGTH ZJN IBH.2 EXIT IF INPUT CORRECT LENGTH IBH.1 EREXIT MHE EXIT TO ERROR - MDI HEADER FORMAT ERROR IBH.2 LDD EOT LOAD END OF TRANSFER RECEIVED FLAG NJN IBH.1 EXIT IF END OF TRANSFER RECEIVED LDM BHB+/BLOCK/BLKLEN LOAD HIGH-ORDER OF BLOCK LENGTH SHN 8 POSITION TO HIGH-ORDER ADM BHB+/BLOCK/BLKLEN+1 PLUS LOW-ORDER OF BLOCK LENGTH ADK /BLOCK/BLKSTRT PLUS LENGTH NOT COUNTED STM MC STORE MESSAGE CHARACTER COUNT ADC -2048-/BLOCK/L.MDIHDR-1 LESS MAXIMUM SIZE ALLOWED +1 PJN IBH.1 EXIT IF BLOCK LENGTH EXCEEDS MAXIMUM LDC BHB LOAD ADDRESS OF BLOCK HEADER BUFFER STD T1 STORE STARTING INPUT BUFFER ADDRESS ADN /BLOCK/L.BH-1 PLUS LENGTH OF BLOCK HEADER RJM ASUD EXIT TO ACCEPT AND STORE UNPACKED DATA LDD T3 LOAD INPUT CHARACTER COUNT LMN /BLOCK/L.BH LESS LENGTH OF BLOCK HEADER NJN IBH.4 EXIT IF BLOCK HEADER LENGTH ERROR LDM BHB+/BLOCK/SN LOAD SOURCE NODE FROM MESSAGE STD TN STORE TERMINAL NODE LDM BHB+/BLOCK/CN LOAD CONNECTION NUMBER FROM MESSAGE STD CN STORE CONNECTION NUMBER RJM RCT EXIT TO READ CONNECTION TABLE ENTRY PJN IBH.3 EXIT IF CONNECTION NUMBER ASSIGNED LDD IOC LOAD INPUT ORDER CODE ORDINAL SBN /NSTATUS/IAP-/NSTATUS/IAS LESS VALUE FOR PRU INPUT NJN IBH.3 EXIT IF NOT PRU INPUT LDD STS LOAD STREAM STATE NJN IBH.3 EXIT IF PRU STREAM EREXIT IUC EXIT TO ERROR - UNASSIGNED CONNECTION IBH.3 LDM BHB+/BLOCK/BNBT LOAD BLOCK TYPE FROM MESSAGE LPN /BLOCK/L.BT EXTRACT BLOCK TYPE STD BT STORE BLOCK TYPE SBN /BLOCK/MAXBT LESS MAXIMUM VALID BLOCK TYPE MJN IBH.5 EXIT IF VALID BLOCK TYPE IBH.4 EREXIT BHE EXIT TO ERROR - BLOCK HEADER FORMAT ERROR IBH.5 LDD STS LOAD PRU STREAM STATES NJN IBH.7 EXIT IF PRU STREAM IBH.6 UJK FEIHX RETURN IBH.7 LDM BHB+/BLOCK/DN LOAD DESTINATION NODE FROM MESSAGE LMM HND,FEI LESS HOST NODE FOR THIS MDI ZJN IBH.6 EXIT IF CORRECT HOST NODE UJK IBH.4 EXIT TO ERROR - BLOCK HEADER FORMAT ERROR TBH SPACE 2,32 ** SUBROUTINE TBH. (ENTRY POINT IS LOGICAL I/O FEOH.) * * SUBROUTINE TBH TRANSFERS THE BLOCK PROTOCOL HEADER TO * THE MDI. IF THE TRANSFER TO THE MDI IS LONGER THAN THE * BLOCK PROTOCOL HEADER THE MDI CHANNEL IS LEFT ACTIVE * AND READY TO CONTINUE THE TRANSFER. * * ENTRY - * * (BHB-BHB+LBH) = BLOCK PROTOCOL HEADER, * (REOT) = END OF TRANSFER REQUEST FLAG. * * EXIT - * * (NCC) = UPDATED TO CURRENT MESSAGE CHARACTER COUNT, * (EOT) = NON-ZERO IF END OF TRANSFER. * * CALLS - * * FNC - FUNCTION MDI, * ACN - ACTIVATE MDI CHANNEL, * TTBF - TRANSFER TWELVE BIT FORMATTED DATA. * * USES - * ** T10 = REQUEST END OF TRANSFER FLAG. TBH LINK ENTRY LDD REOT LOAD REQUEST END OF TRANSFER FLAG STD T10 STORE REQUEST END OF TRANSFER FLAG LDN 0 CONSTANT OF ZERO STD REOT RESET REQUEST END OF TRANSFER FLAG STD NCC INITIALIZE MDI MESSAGE CHARACTER COUNT STM CP INITIALIZE MDI CHARACTER POSITION LDC /FUNCTION/WDT LOAD FUNCTION TO OUTPUT DATA RJM FNC EXIT TO FUNCTION TO OUTPUT DATA RJM ACN EXIT TO ACTIVATE MDI CHANNEL LDC MHB LOAD ADDRESS OF MDI HEADER BUFFER STD T1 STORE STARTING OUTPUT BUFFER ADDRESS LDN /BLOCK/L.MDIHDR LOAD LENGTH OF MDI HEADER STD T2 STORE OUTPUT CHARACTER COUNT LDM CHVER,FEI LOAD CHANNEL PROTOCOL VERSION SBN 2 CHECK GREATER THAN OR EQUAL TO 2 PJN TBH.1 EXIT GE 2 - USE 2 BYTE PAD IN HEADER LCN 2 CONSTANT OF -2 RAD T2 REDUCE LENGTH TO EXCLUDE PAD TBH.1 BSS 0 RJM TTBF EXIT TO TRANSFER TWELVE BIT FORMATTED DATA LDD T10 LOAD REQUEST END OF TRANSFER FLAG STD REOT RESTORE REQUEST END OF TRANSFER FLAG LDC BHB LOAD ADDRESS OF BLOCK HEADER BUFFER STD T1 STORE STARTING OUTPUT BUFFER ADDRESS LDN /BLOCK/L.BH LOAD LENGTH OF BLOCK HEADER STD T2 STORE OUTPUT CHARACTER COUNT RJM TTBF EXIT TO TRANSFER TWELVE BIT FORMATTED DATA UJK FEOHX RETURN FNC TITLE MDI INPUT/OUTPUT SUBROUTINES. FNC SPACE 2,28 ** SUBROUTINE FNC. * * SUBROUTINE FNC FUNCTIONS THE MDI. * * ENTRY - * * (A) = FUNCTION CODE, * (FEI) = FRONT END TABLE ADDRESS, * (CAD) = MDI EQUIPMENT NUMBER. * * EXIT - * * (FC) = FUNCTION CODE. * * ERROR EXITS - * * EXIT TO *ERROR* IF CHANNEL ACTIVE BEFORE FUNCTION, ** EXIT TO *ERROR* IF CHANNEL ACTIVE AFTER FUNCTION. FNC SUBR ENTRY/EXIT STM FC STORE FUNCTION CODE AJM. FNC.2 EXIT IF CHANNEL ACTIVE BEFORE FUNCTION ADM CAD,FEI PLUS EQUIPMENT NUMBER FAN. FUNCTION MDI LDN 0 SET INITIAL TRY IJM. FNCX RETURN IF CHANNEL INACTIVE RJM DLY EXIT TO DELAY AND RETRY EREXIT AAF EXIT TO ERROR - ACTIVE AFTER FUNCTION FNC.2 EREXIT ABF EXIT TO ERROR - ACTIVE BEFORE FUNCTION ACN SPACE 2,14 ** SUBROUTINE ACN. * * SUBROUTINE ACN ACTIVATES THE MDI CHANNEL. * * ERROR EXITS - * * EXIT TO *ERROR* IF CHANNEL ACTIVE BEFORE ACTIVATE, ** EXIT TO *ERROR* IF CHANNEL INACTIVE AFTER ACTIVATE. ACN SUBR ENTRY/EXIT AJM. ACN.1 EXIT IF CHANNEL ACTIVE ACN. ACTIVATE CHANNEL AJM. ACNX RETURN IF CHANNEL ACTIVE EREXIT IAA EXIT TO ERROR - INACTIVE AFTER ACTIVATE ACN.1 EREXIT ABA EXIT TO ERROR - ACTIVE BEFORE ACTIVATE GMS SPACE 2,42 ** SUBROUTINE GMS. * * SUBROUTINE GMS OBTAINS THE GENERAL STATUS FROM THE MDI. * * CALL FNC TO EXECUTE GET GENERAL STATUS FUNCTION. * ACTIVATE CHANNEL. * CALL FNC TO EXECUTE REQUEST GENERAL STATUS FUNCTION. * CHECK FOR DATA ON CHANNEL. * IF NO DATA AVAILABLE, * CALL DLY TO DELAY. DLY WILL JUMP BACK TO CHECK IF * DATA IS AVAILABLE. * IF ERROR EXIT IS TO BE TAKEN, * JUMP TO ERROR EXIT TO PROCESS ERROR CONDITION. * RETURN TO CALLER WITH A-REG SET TO -1. * INPUT GENERAL STATUS. * IF BUSY BIT SET IN GENERAL STATUS, * JUMP BACK TO CALL DLY AND THEN RETRY CHECK FOR * DATA AVAILABLE. * IF ERROR BIT SET IN GENERAL STATUS, * IF ERROR EXIT IS TO BE TAKEN, * IF MEMORY ERROR HAS OCCURRED, * JUMP TO ERROR EXIT TO PROCESS MCI MEMORY ERROR. * ELSE (SOME OTHER TYPE OF ERROR OCCURRED) * JUMP TO ERROR EXIT TO PROCESS ERROR BIT SET. * RETURN TO CALLER WITH A-REG SET TO 0. * IF OPERATIONAL STATE BIT IS SET IN GENERAL STATUS, * RETURN TO CALLER WITH A-REG SET TO 1. * IF MCI IN DIAGNOSTIC STATE, * JUMP TO ERROR EXIT TO PROCESS DIAGNOSTICS STATE * CONDITION. * IF MCI IN STARTING STATE, * IF NOT PREVIOUSLY IN STARTING STATE, * JUMP TO ERROR EXIT TO PROCESS MDI INOPERATIVE * CONDITION. * RETURN TO CALLER WITH A-REG SET TO 2. * JUMP TO ERROR EXIT TO PROCESS MDI INOPERATIVE * CONDITION. * * ENTRY - * * (A) = ERROR CONDITIONS UNDER WHICH GMS EXITS TO * ERROR PROCESSOR INSTEAD OF RETURNING TO * CALLER. * (FEI) = FRONT END TABLE ADDRESS. * * EXIT - * * (A) = ZERO IF MDI ERROR REPORTED OR * MINUS IF MDI STATUS NOT AVAILABLE, * 1 IF MDI IN OPERATIONAL STATE. * 2 IF MDI IN STARTING STATE. * (MGS) = GENERAL STATUS FROM MDI. * * ERROR EXITS - * * EXIT TO *ERROR* IF MDI INOPERATIVE, * EXIT TO *ERROR* IF UNABLE TO RESET INTERFACE, * EXIT TO *ERROR* IF MDI REQUESTING DIAGNOSTICS. * * CALLS - * * FNC - FUNCTION MDI. * * USES - * * T4 = ERROR CONDITIONS FOR GMS TO DO ERROR EXIT * T16 = RESET FUNCTION TRY COUNTER, ** T17 = STATUS WAIT DELAY COUNTER. GMS SUBR ENTRY/EXIT STD T4 ERROR CONDITIONS FOR JUMPING TO ERROR EXIT GMS.1 LDC /FUNCTION/RGS LOAD FUNCTION TO REQUEST GENERAL STATUS RJM FNC EXIT TO FUNCTION TO REQUEST GENERAL STATUS LDN 0 SET INITIAL TRY ACN. ACTIVATE CHANNEL FJM. GMS.2B EXIT IF DATA AVAILABLE GMS.2 RJM DLY EXIT TO DELAY AND RETRY DCN. DISCONNECT CHANNEL LDD T4 ERROR CONDITIONS FOR JUMPING TO ERROR EXIT SHN 17-/MDI/S.ABTNMS MOVE ERROR PROCESSING FLG TO SIGN POS PJN GMS.2A EXIT IF NOT JUMPING TO ERROR PROCESSOR EREXIT NMS EXIT TO ERROR - UNABLE TO READ GENERAL STAT GMS.2A BSS 0 LCN 1 SET A-REGISTER NEGATIVE UJK GMSX RETURN - UNABLE TO OBTAIN STATUS GMS.2B STD T17 STORE INITIAL TRY FLAG SETTING LDM MGS,FEI OLD MCI GENERAL STATUS REGISTER VALUE STM OLDMGS SAVE OLD MCI GENERAL STATUS REGISTER VALUE IAN. INPUT MDI GENERAL STATUS STM MGS,FEI STORE MDI GENERAL STATUS SHN 17-/MSTATUS/BSY POSITION BUSY STATUS TO SIGN PJN GMS.3 EXIT IF VALID MDI STATUS RECEIVED LDD T17 LOAD INITIAL TRY FLAG UJK GMS.2 EXIT TO RETRY GMS.3 DCN. DISCONNECT CHANNEL SHN 18-/MSTATUS/ERR+/MSTATUS/BSY ERROR STATUS TO SIGN PJN GMS.4 EXIT IF NO ERROR BEING REPORTED LDD T4 ERROR CONDITIONS FOR JUMPING TO ERROR EXIT SHN 17-/MDI/S.ABTMIO MOVE I/O ERROR FLAG TO SIGN POSITION PJN GMS.3A EXIT IF NOT JUMPING TO ERROR PROCESSOR EREXIT MIO EXIT TO ERROR - ERROR BIT SET AFTER I/O GMS.3A SHN /MDI/S.ABTMIO-/MDI/S.ABTMES MOVE ERR FLG TO SIGN POS PJN GMS.3B EXIT IF NOT JUMPING TO ERROR PROCESSOR EREXIT MES EXIT TO ERROR - ERROR BIT SET IN MDI GS GMS.3B BSS 0 LDN 0 CONSTANT OF ZERO UJK GMSX RETURN GMS.4 SHN /MSTATUS/ERR-/MSTATUS/OPR OPERATIONAL STATUS TO SIGN PJN GMS.5 RETURN IF OPERATIONAL STATUS NOT REPORTED LDN 1 SET A-REGISTER POSITIVE NON-ZERO UJK GMSX RETURN GMS.5 SHN /MSTATUS/OPR-/MSTATUS/MST-17 REPOSITION MDI STATE LMN /MSTATUS/DGN VALUE FOR DIAGNOSTIC STATES ZJN GMS.8 EXIT IF MDI IN DIAGNOSTIC STATE LMN /MSTATUS/DGN&/MSTATUS/STR CHK FOR STARTING STATE NJN GMS.5A EXIT IF NOT IN STARTING STATE LDM OLDMGS OLD MCI GENERAL STATUS REGISTER VALUE LPN /MSTATUS/M.MST EXTRACT STATE BITS SHN -/MSTATUS/MST RIGHT JUSTIFY STATE BITS LMN /MSTATUS/STR CHK FOR STARTING STATE VALUE NJN GMS.5A EXIT IF NOT PREVIOUSLY IN STARTING STATE LDN 2 A-REG VALUE IF IN STARTING STATE UJK GMSX RETURN GMS.5A EREXIT MIN EXIT TO ERROR - MDI INOPERATIVE GMS.8 EREXIT MRD EXIT TO ERROR - MDI REQUESTS DIAGNOSTICS IDC SPACE 2,38 ** SUBROUTINE IDC. (ENTRY POINT IS LOGICAL I/O FEIC.) * * SUBROUTINE IDC RETURNS THE NEXT INPUT CHARACTER FROM * THE MDI. THIS SUBROUTINE ITERATES ON THREE EIGHT BIT * INPUT CHARACTERS. * * ENTRY - * * (CP) = CURRENT CHARACTER POSITION, * (CB) = LAST TWELVE BIT INPUT BYTE, * (T3) = CURRENT CHARACTER COUNT, * (NCC) = CURRENT MESSAGE CHARACTER COUNT, * (MC) = MESSAGE CHARACTER LENGTH. * * EXIT - * * (A) = INPUT DATA CHARACTER, * (T0) = INPUT DATA CHARACTER, * (CP) = NEXT CHARACTER POSITION, * (CB) = LAST CHANNEL INPUT FRAME, * (T3) = UPDATED TO CURRENT CHARACTER COUNT, * (NCC) = UPDATED TO CURRENT MESSAGE CHARACTER COUNT, * (EOT) = SET TO INDICATE END OF TRANSFER STATUS. * * ERROR EXITS - * * EXIT TO *ERROR* IF CHANNEL GOES INACTIVE, * EXIT TO *ERROR* IF CHANNEL STAYS EMPTY. * * CALLS - * ** WEI - WAIT FOR END OF INPUT OPERATION. IDC LINK ENTRY LDM CP LOAD NEXT CHARACTER POSITION LMN 2 LESS VALUE FOR LOW-ORDER EIGHT BITS NJN IDC.4 EXIT IF NOT LOW-ORDER EIGHT BITS LDM CB LOAD LAST CHANNEL INPUT FRAME LPC 0#FF EXTRACT NEXT INPUT CHARACTER IDC.1 STD T0 STORE NEXT INPUT DATA CHARACTER LDN 0 CONSTANT OF ZERO STD EOT SET END OF TRANSFER STAUS OFF AOD T3 INCREMENT CHARACTER COUNTER AOD NCC INCREMENT MESSAGE CHARACTER COUNTER LMM MC LESS MESSAGE CHARACTER COUNT NJN IDC.2 EXIT IF NOT END OF MESSAGE LDN 1 CONSTANT OF ONE STD EOT SET END OF TRANSFER STATUS ON RJM WEI EXIT TO WAIT FOR END OF INPUT OPERATION IDC.2 AOM CP INCREMENT CHARACTER POSITION LMN 3 LESS ENDING VALUE NJN IDC.3 EXIT IF NO CHARACTER POSITION OVERFLOW STM CP RESET CHARACTER POSITION IDC.3 LDD T0 LOAD INPUT DATA CHARACTER UJK FEICX RETURN IDC.4 RJM DCI EXIT TO INPUT NEXT FRAME STD T0 STORE INPUT DATA BYTE LDM CP LOAD NEXT CHARACTER POSITION NJN IDC.10 EXIT IF NOT HIGH-ORDER EIGHT BITS LDD T0 LOAD INPUT DATA BYTE STM CB STORE LAST CHANNEL INPUT FRAME SHN -4 POSITION NEXT INPUT CHARACTER IDC.9 UJK IDC.1 EXIT TO STORE NEXT INPUT CHARACTER IDC.10 LDM CB LOAD LAST CHANNEL INPUT FRAME LPN 0#F EXTRACT HIGH-ORDER OF NEXT CHARACTER SHN 12 POSITION TO HIGH-ORDER LMD T0 PLUS INPUT DATA BYTE STM CB STORE LAST CHANNEL INPUT FRAME SHN -8 POSITION NEXT INPUT CHARACTER UJK IDC.9 EXIT TO STORE NEXT INPUT CHARACTER TEDC SPACE 2,42 ** SUBROUTINE TEDC. (ENTRY POINT IS LOGICAL I/O FEEC.) * * SUBROUTINE TEDC PROCESSES THE TRANSFER OF THE ENDING * DATA CHARACTER OF AN OUTPUT SEQUENCE TO THE MFI. IF * END OF TRANSFER IS REQUESTED THE TRAILER SEQUENCE IS * SENT TO THE MFI AND THE MFI GENERAL STATUS IS OBTAINED. * IF NO ERROR IS REPORTED BY THE MFI THE CONSECUTIVE * ERROR COUNT IS RESET AND THE OUTPUT SEQUENCE IS * COMPLETE. * * ENTRY - * * (T3) = LAST OUTPUT DATA CHARACTER, * (NCC) = CURRENT MESSAGE CHARACTER COUNT, * (REOT) = REQUEST END OF TRANSFER FLAG (1 = EOT), * (CP) = CURRENT CHARACTER POSITION, * (CB) = PARTIAL CHANNEL OUTPUT FRAME, IF ANY. * * EXIT - * * (NCC) = UPDATED TO CURRENT MESSAGE CHARACTER COUNT, * (ECT) = RESET IF END OF TRANSFER REQUESTED, * (EOT) = SET IF END OF TRANSFER REQUESTED. * * ERROR EXITS - * * EXIT TO *ERROR* IF CHANNEL HUNG FULL ON OUTPUT, * EXIT TO *ERROR* IF MFI REPORTS ERROR ON OUTPUT. * * CALLS - * * ODC - OUTPUT DATA CHARACTER TO MFI, * GMS - OBTAIN MFI GENERAL STATUS. * WEO - WAIT FOR END OF OUTPUT * * USES - * ** T1 = MESSAGE CHARACTER COUNT. TEDC LINK ENTRY RJM ODC EXIT TO OUTPUT LAST DATA CHARACTER LDD REOT LOAD REQUEST END OF TRANSFER NJN TEDC.0 EXIT IF END OF TRANSFER REQUESTED UJK FEECX RETURN IF END OF TRANSFER NOT REQUESTED TEDC.0 LDN 0 CONSTANT OF ZERO STD T3 STORE PAD CHARACTER LDD NCC LOAD MESSAGE CHARACTER COUNT STD T1 STORE MESSAGE CHARACTER COUNT TEDC.1 LDD NCC LOAD MESSAGE CHARACTER COUNT LPN 1 EXTRACT EVEN CHARATER FLAG NJN TEDC.2 EXIT IF NOT EVEN CHARACTER LDM CP LOAD CHARACTER POSITION LMN 1 LESS VALUE FOR TWO BYTES LEFT ZJN TEDC.3 EXIT IF TWO BYTES LEFT TEDC.2 RJM ODC EXIT TO OUTPUT PAD CHARACTER UJK TEDC.1 EXIT TO CHECK FOR TWO BYTES LEFT TEDC.3 LDD T1 LOAD MESSAGE CHARACTER COUNT SHN -8 POSITION HIGH-ORDER OF MESSAGE COUNT STD T3 STORE HIGH-ORDER OF MESSAGE COUNT RJM ODC EXIT TO OUTPUT HIGH-ORDER OF COUNT LDD T1 LOAD MESSAGE CHARACTER COUNT LPC 0#FF EXTRACT LOW-ORDER OF MESSAGE COUNT STD T3 STORE LOW-ORDER OF MESSAGE COUNT RJM ODC EXIT TO OUTPUT LOW-ORDER OF MESSAGE COUNT RJM WEO EXIT TO WAIT FOR END OF OUTPUT UJK FEECX RETURN WEI SPACE 2,26 ** SUBROUTINE WEI. * * SUBROUTINE WEI WAITS FOR THE END OF INPUT OPERATION * FROM THE MDI. IF THERE IS A RESIDUAL INPUT CHANNEL * FRAME IT IS ACCEPTED AND DISCARDED. THE CONSECUTIVE * MDI ERROR CONT IS RESET AT THE COMPLETION OF THE INPUT. * * EXIT - * * (ECT) = RESET. * * ERROR EXITS - * * EXIT TO *ERROR* IF CHANNEL STAYS EMPTY, * EXIT TO *ERROR* IF MDI REPORTS ERROR ON INPUT, * EXIT TO *ERROR* IF UNABLE TO OBTAIN MDI STATUS. * * CALLS - * ** GMS - OBTAIN MDI GENERAL STATUS. WEI SUBR ENTRY/EXIT LDK MDIDLY LOAD MDI DELAY COUNT WEI.1 FJM. WEI.3 EXIT IF DATA ON CHANNEL IJM. WEI.5 EXIT IF CHANNEL WENT INACTIVE SBN 1 DECREMENT CHANNEL DELAY COUNT NJN WEI.1 EXIT IF CHANNEL DELAY NOT EXPIRED WEI.2 EXIT DCI.3 EXIT TO ERROR - HUNG EMPTY DURING INPUT WEI.3 IAN. INPUT RESIDUAL CHANNEL FRAME LDK MDIDLY LOAD MDI DELAY COUNT WEI.4 IJM. WEI.5 EXIT IF CHANNEL WENT INACTIVE SBN 1 DECREMENT CHANNEL DELAY COUNT NJN WEI.4 EXIT IF CHANNEL DELAY NOT EXPIRED UJK WEI.2 EXIT TO ERROR - HUNG EMPTY DURING INPUT WEI.5 LDN B.ABTNMS+B.ABTMIO SET ERROR EXIT CONDITIONS FOR GMS RJM GMS EXIT TO OBTAIN MDI GENERAL STATUS LDN 0 CONSTANT OF ZERO STM ECT,FEI RESET CONSECUTIVE ERROR COUNT UJK WEIX RETURN CKIA TITLE MDI INPUT/OUPUT CONTROL SUBROUTINES. CKIA SPACE 2,24 ** SUBROUTINE CKIA. (ENTRY POINT IS LOGICAL I/O FEIA.) * * SUBROUTINE CKIA CHECKS FOR INPUT AVAILABLE FROM MDI. * IT ALSO CHECKS IF THE NORMAL OPERATION TRANSPARENT * FUNCTION NEEDS TO BE SENT TO THE MDI. IF SO, IT SENDS * IT. * * EXIT - * * (A) = POSITIVE IF INPUT AVAILABLE, * (IOC) = INPUT ORDER CODE IF INPUT AVAILABLE, * (PRU) = PRU BUFFER SIZE ORDINAL IF PRU INPUT. * * CALLS - * * GMS - OBTAIN MDI GENERAL STATUS. * * ERROR EXITS - * * EXIT TO *ERROR* IF UNABLE TO OBTAIN MDI STATUS, * EXIT TO *ERROR* IF MDI REPORTING ERROR, ** EXIT TO *ERROR* IF ILLEGAL PRU BUFFER SIZE. CKIA LINK ENTRY LDM CHVER,FEI MCI CHANNEL PROTOCOL VERSION NUMBER SBN /MSTATUS/VERSION4 LOWEST VERSION NUMBER THAT SUPPORTS NORMAL OPERATION TRANSPARENT FUNCTION MJN CKIA.1 IF NORMAL OPERATION FUNCTION NOT SUPPORTED LDK RTCL ADDRESS OF SYSTEM REAL-TIME CLOCK CRD T1 READ SYSTEM REAL-TIME CLOCK LDD T1+1 SYSTEM SECOND TIME SBM DTM,FEI FRONT END KEEP ALIVE TIMER VALUE SHN 5+1 POSITION HIGH-ORDER VALUE BIT TO SIGN MJN CKIA.1 EXIT IF TIMEOUT HAS NOT OCCURRED LDD T1+1 SYSTEM SECOND TIME ADK Q.MALIVE KEEP ALIVE TIMEOUT VALUE STM DTM,FEI RESET KEEP ALIVE TIMER LDN /FUNCTION/NOR NORMAL OPERATION TRANSPARENT FUNCTION RJM FNC EXIT TO ISSUE NORMAL OP TRANSPARENT FUNC CKIA.1 LDN B.ABTNMS+B.ABTMES ERROR EXIT CONDITIONS FOR PROC GMS RJM GMS EXIT TO OBTAIN MDI GENERAL STATUS LDM MGS,FEI MDI GENERAL STATUS SHN 17-/MSTATUS/DAV DATA AVAILABLE STATUS TO SIGN MJN CKIA.2 EXIT IF INPUT DATA AVAILABLE LCN 1 SET A-REGISTER NEGATIVE CKIA.X UJK FEIAX RETURN CKIA.2 SHN 18-17+/MSTATUS/DAV-/MSTATUS/MIA INPUT CODE TO LOW-ORDER LPN /MSTATUS/M.MIA/10B EXTRACT INPUT ORDER CODE STD IOC STORE INPUT ORDER CODE SCN 1 CLEAR IVT INPUT AVAILABLE CODES ZJN CKIA.X RETURN IF IVT INPUT AVAILABLE LDD IOC LOAD INPUT ORDER CODE SBN /MSTATUS/PI1 LESS VALUE FOR FIRST PRU BUFFER SIZE STD PRU STORE PRU BUFFER SIZE ORDINAL SBN MAXPRU LESS MAXIMIUM PRU BUFFER SIZE ORDINAL ZJN CKIA.4 EXIT IF INLINE DIAGNOSTICS DATA AVAILABLE MJN CKIA.3 EXIT IF PRU DATA AVAILABLE EREXIT IBS ILLEGAL PRU BUFFER SIZE SPECIFIED CKIA.3 BSS 0 PRU DATA AVAILABLE LDN /NSTATUS/IAP-/NSTATUS/IAS LOAD ORDER CODE FOR PRU AVAIL STD IOC STORE INPUT ORDER CODE UJK CKIA.X RETURN - PRU INPUT AVAILABLE CKIA.4 LOPA 4IE,ILDI ENTRY POINT FOR INLINE DIAG DATA PROCESSOR EXIT DCR.3 EXIT TO PROCESS THE ERROR ROAS SPACE 2,16 ** SUBROUTINE ROAS RETURNS AN INDICATION OF THE * ABILITY OF THE MDI TO RECEIVE OUTPUT DATA. * (ENTRY POINT IS LOGICAL I/O FEOA.) * * ENTRY * * (FEI) = FRONT END TABLE ADDRESS, * (MGS) = MDI GENERAL STATUS. * * EXIT - * * (A) = NON-ZERO IF MDI CAN ACCEPT OUTPUT. ROAS LINK ENTRY LDM MGS,FEI LOAD MDI GENERAL STATUS LPC /MSTATUS/SDTM ISOLATE PERMISSION FOR SEND DATA ROAS.1 UJK FEOAX RETURN RCO SPACE 2,10 ** SUBROUTINE RCO. (ENTRY POINT IS LOGICAL I/O FERO.) * * SUBROUTINE RCO CALLS FEOA TO DO THE FUNCTION ** ROAS DOES. RCO LINK ENTRY RJM FEOA EXIT TO DO WHAT ROAS DOES UJK FEROX RETURN CNRL SPACE 2,20 ** SUBROUTINE CNRL. (ENTRY POINT IS LOGICAL I/O FERG.) * * SUBROUTINE CNRL CHANGES THE MDI REGULATION LEVEL. * EITHER A START REGULATION, STOP REGULATION, NORMAL * FLOW CONTROL ON, OR NORMAL FLOW CONTROL OFF TRANSPARENT * FUNCTION WILL BE ISSUED. * * ENTRY - * * (A) = MCI TRANSPARENT FUNCTION TO ISSUE * * CALLS - * ** FNC - FUNCTION MDI. CNRL LINK ENTRY STM CNRL.1 CHANGE INSTRUCTION FOR FUNCTION TO ISSUE LDC 0 MCI TRANSPARENT FUNCTION TO ISSUE CNRL.1 EQU *-1 BYTE TO CONTAIN MCI TRANSPARENT FUNCTION RJM FNC EXIT TO FUNCTION TO CHANGE REGULATION LEVEL UJK FERGX RETURN ASED SPACE 2,36 ** SUBROUTINE ASED. (ENTRY POINT IS LOGICAL I/O FEIP.) * * SUBROUTINE ASED INPUTS DATA FROM THE MDI AND * STORES THE INPUT DATA IN PACKED FORMAT INTO THE * SPECIFIED BUFFER AREA. THE SUBROUTINE MAKES USE * OF THE FACT THAT DATA FROM THE MDI IS ALREADY PACKED, * IF THE INCOMING DATA IS FRAME-ALIGNED (CP=0). * OTHERWISE THE SUBROUTINE ITERATES ON THREE INPUT DATA * CHARACTERS (CP>0). * * ENTRY - * * (A) = ENDING DATA BUFFER ADDRESS, * (T1) = STARTING DATA BUFFER ADDRESS, * (NCC) = CURRENT MESSAGE CHARACTER COUNT. * (CP) = CURRENT CHARACTER POSITION IN FRAME-PAIR * * EXIT - * * (A) = NON-ZERO IF END OF TRANSFER, * (T3) = UPDATED TO CURRENT CHARACTER COUNT, * (NCC) = UPDATED TO CURRENT MESSAGE CHARACTER COUNT, * (EOT) = NON-ZERO IF END OF TRANSFER, * (CB) = CURRENT FRAME, * (CP) = CURRENT CHARACTER POSITION (UNALTERED). * * ERROR EXITS - * * EXIT TO *ERROR* IF ILLEGAL INPUT BUFFER SIZE. * * CALLS - * * FEIC - INPUT NEXT DATA CHARACTER. * * USES - * * T2 = ENDING DATA BUFFER ADDRESS. ** T4 = OCTETS REMAINING IN MESSAGE ASED LINK ENTRY STD T2 STORE ENDING DATA BUFFER ADDRESS SBD T1 LESS STARTING DATA BUFFER ADDRESS LPN 1 EXTRACT ODD LENGTH BIT NJN ASED.1 EXIT IF NOT ODD BUFFER LENGTH EREXIT ISE EXIT TO ERROR - ILLEGAL BLOCK SIZE ASED.1 LDN 0 CONSTANT OF ZERO STD T3 INITIALIZE DATA CHARACTER COUNT LDM CP LOAD CURRENT CHARACTER POSITION ZJN ASED.5 EXIT IF FRAME-ALIGNED * PROCESS NON-ALIGNED INPUT ASED.2 RJM FEIC INPUT NEXT DATA CHARACTER SHN 4 POSITION NEXT INPUT DATA CHARACTER STI T1 STORE NEXT INPUT DATA CHARACTER LDD EOT LOAD END OF TRANSFER FLAG NJN ASED.3 RETURN IF END OF TRANSFER RJM FEIC INPUT NEXT DATA CHARACTER SHN -4 POSITION HIGH-ORDER OF DATA CHARACTER RAI T1 ADD TO PREVIOUS INPUT DATA CHARACTER AOD T1 INCREMENT CURRENT DATA BUFFER ADDRESS LDD T0 LOAD NEXT INPUT DATA CHARACTER SHN 8 POSITION LOW-ORDER OF DATA CHARACTE9 STI T1 STORE LOW-ORDER OF DATA CHARACTER LDD EOT LOAD END OF TRANSFER FLAG NJN ASED.3 RETURN IF END OF TRANSFER RJM FEIC INPUT NEXT DATA CHARACTER RAI T1 ADD TO PREVIOUS INPUT CHARACTER LDD EOT LOAD END OF TRANSFER FLAG NJN ASED.3 RETURN IF END OF TRANSFER LDD T1 LOAD CURRENT DATA BUFFER ADDRESS LMD T2 LESS ENDING DATA BUFFER ADDRESS ZJN ASED.3 EXIT IF DATA BUFFER EXHAUSTED AOD T1 INCREMENT CURRENT BUFFER ADDRESS UJN ASED.2 EXIT TO INPUT NEXT DATA CHARACTER ASED.3 UJK FEIPX RETURN * FRAME-ALIGNED INPUT ASED.5 LDM MC LOAD MESSAGE CHARACTER COUNT SBD NCC LESS CHARACTER COUNT SO FAR SHN 1 *2 TO GET OCTETS STD T4 SAVE OCTETS REMAINING ASED.6 AJM. ASED.61 EXIT IF CHANNEL ACTIVE UJK DCI.0 EXIT TO ERROR - INACTIVE DURING INPUT ASED.61 LDK MDIDLY LOAD MDI DELAY COUNT ASED.62 FJM. ASED.64 EXIT IF DATA ON CHANNEL SBN 1 DECREMENT CHANNEL DELAY COUNT NJN ASED.62 EXIT IF CHANNEL DELAY NOT EXPIRED ASED.63 LINK ENTRY UJK DCI.3 EXIT TO ERROR - HUNG EMPTY DURING INPUT ASED.64 IAN. INPUT DATA FRAME STI T1 STORE INPUT DATA BYTE LDN 3 CONSTANT OF 3 (OCTETS PER FRAME) RAD T3 BUMP OCTETS COUNT SBD T4 LESS OCTETS REMAINING PJN ASED.7 EXIT IF END OF MESSAGE LDD T1 LOAD CURRENT BUFFER ADDRESS LMD T2 LESS ENDING BUFFER ADDRESS ZJN ASED.8 EXIT IF END OF BUFFER AOD T1 INCREMENT CURRENT BUFFER ADDRESS UJN ASED.6 EXIT TO GET NEXT FRAME ASED.7 LDD T4 LOAD OUTSTANDING OCTET COUNT STD T3 SET PROGRESSIVE COUNT LDN 1 CONSTANT OF 1 STD EOT SET END OF TRANSFER FLAG RJM WEI EXIT TO WAIT FOR END OF INPUT ASED.8 LDI T1 LOAD LAST FRAME INPUT STM CB STORE LAST FRAME INPUT LDD T3 LOAD OCTET COUNT SHN -1 DIVIDE BY 2 TO GET CHARACTERS STD T3 SET CHARACTER COUNT THIS BUFFER RAD NCC UPDATE CHAR COUNT THIS BUFFER LDD EOT LOAD END OF TRANSFER FLAG UJK ASED.3 RETURN DCI SPACE 2,32 ** SUBROUTINE DCI. * * SUBROUTINE DCI RETURNS THE NEXT FRAME FROM THE MDI * CHANNEL. NO UNPACKING IS PERFORMED. * * ENTRY - * * EXIT - * * (A) = INPUT FRAME FROM CHANNEL. * * ERROR EXITS - * * EXIT TO *ERROR* IF CHANNEL GOES INACTIVE. * EXIT TO *ERROR* IF CHANNEL STAYS EMPTY. * ** DCI SUBR ENTRY/EXIT AJM. DCI.1 EXIT IF CHANNEL ACTIVE DCI.0 LINK ENTRY EREXIT IDI EXIT TO ERROR - INACTIVE DURING INPUT DCI.1 LDK MDIDLY LOAD MDI DELAY COUNT DCI.2 FJM. DCI.4 EXIT IF DATA ON CHANNEL SBN 1 DECREMENT CHANNEL DELAY COUNT NJN DCI.2 EXIT IF CHANNEL DELAY NOT EXPIRED DCI.3 LINK ENTRY EREXIT HEI EXIT TO ERROR - HUNG EMPTY DURING INPUT DCI.4 IAN. INPUT DATA FRAME UJN DCIX RETURN TEBF SPACE 2,30 ** SUBROUTINE TEBF. (ENTRY POINT IS LOGICAL I/O FEOP.) * * SUBROUTINE TEBF TRANSFERS EIGHT BIT FORMATTED DATA * TO THE FRONT END. THE SUBROUTINE UTILISES THE FACT * THAT THE SOURCE DATA IS ALREADY PACKED, IF THE FIRST * OUTPUT CHARACTER IS FRAME ALIGNED (CP = 0). * OTHERWISE THE SUBROUTINE ITERATES ON THREE SOURCE * DATA CHARACTERS (SLIDING-WINDOW PROBLEM). * * ENTRY - * * (T1) = SOURCE DATA STARTING ADDRESS, * (T2) = SOURCE DATA CHARACTER COUNT, * (CP) = CURRENT CHARACTER POSITION (0-2), * (NCC) = CURRENT MESSAGE CHARACTER COUNT, * (REOT) = REQUEST END OF TRANSFER FLAG (1 = EOT). * * EXIT - * * (NCC) = UPDATED TO CURRENT MESSAGE CHARACTER COUNT. * * CALLS - * * FEOC - OUTPUT NEXT DATA CHARACTER, * FEEC - OUTPUT ENDING DATA CHARACTER, * DCO - OUTPUT NEXT FRAME. * * USES - * ** T3 = OUTPUT DATA CHARACTER. TEBF LINK ENTRY LDM CP LOAD CURRENT CHARACTER POSITION NJN TEBF.1 EXIT IF NOT FRAME-ALIGNED UJK TEBF.5 EXIT TO PROCESS FRAME-ALIGNED OUTPUT * NON-ALIGNED OUTPUT TEBF.1 LDI T1 LOAD NEXT OUTPUT DATA BYTE SHN -4 POSITION NEXT OUTPUT DATA CHARACTER STD T3 STORE NEXT OUTPUT DATA CHARACTER SOD T2 DECREMENT OUTPUT DATA CHARACTER COUNT NJN TEBF.3 EXIT IF NOT ENDING OUTPUT DATA CHARACTER TEBF.2 RJM FEEC TRANSFER ENDING DATA CHARACTER UJK FEOPX RETURN TEBF.3 RJM FEOC OUTPUT NEXT DATA CHARACTER LDI T1 LOAD NEXT OUTPUT DATA BYTE LPN 0#F EXTRACT HIGH-ORDER OF NEXT DATA CHARACTER SHN 4 POSITION TO HIGH-ORDER STD T3 STORE HIGH-ORDER OF NEXT DATA CHARACTER AOD T1 INCREMENT SOURCE DATA ADDRESS LDI T1 LOAD NEXT OUTPUT DATA BYTE SHN -8 POSITION LOW-ORDER OF NEXT DATA CHARACTER RAD T3 ADD TO HIGH-ORDER OF NEXT DATA CHARACTER SOD T2 DECREMENT OUTPUT DATA CHARACTER COUNT ZJN TEBF.2 EXIT IF ENDING OUTPUT DATA CHARACTER RJM FEOC OUTPUT NEXT DATA CHARACTER LDI T1 LOAD NEXT OUTPUT DATA BYTE LPC 0#FF EXTRACT NEXT OUTPUT DATA CHARACTER STD T3 STORE NEXT OUTPUT DATA CHARACTER SOD T2 DECREMENT OUTPUT DATA CHARACTER COUNT ZJN TEBF.2 EXIT IF ENDING OUTPUT DATA CHARACTER RJM FEOC OUTPUT NEXT DATA CHARACTER AOD T1 INCREMENT SOURCE DATA ADDRESS TEBF.4 UJK TEBF.1 EXIT TO PROCESS NEXT OUTPUT DATA BYTE * FRAME-ALIGNED OUTPUT TEBF.5 STD T3 INITIALIZE OUTPUT CHARACTER COUNTER TEBF.6 LDN 3 CONSTANT OF 3 (CHARACTERS PER FRAME) RAD T3 BUMP COUNT OF OUTPUT CHARACTERS SBD T2 LESS SOURCE CHARACTER COUNT MJN TEBF.7 EXIT IF NOT LAST PAIR OF FRAMES ADD REOT ADD REQ EOT FLAG TO DIFFERENCE ZJN TEBF.7 EXIT LAST FRAMES AND NOT EOT UJK TEBF.8 EXIT IF PARTIAL FRAME AND/OR EOT TEBF.7 LDI T1 LOAD FIRST FRAME OF NEXT PAIR RJM DCO EXIT TO OUTPUT ODD CHANNEL FRAME AOD T1 INCREMENT SOURCE DATA ADDRESS LDI T1 LOAD LAST FRAME OF NEXT PAIR RJM DCO EXIT TO OUTPUT EVEN CHANNEL FRAME AOD T1 INCREMENT SOURCE DATA ADDRESS UJK TEBF.6 EXIT TO PROCESS NEXT FRAME PAIR TEBF.8 LCN 3 CONSTANT OF -3 RAD T3 ADJUST CHAR COUNT BACK TO LAST FRAME RAD NCC UPDATE MESSAGE CHARACTER COUNT LDD T2 LOAD SOURCE DATA CHARACTER COUNT SBD T3 LESS ACTUAL CHARACTER COUNT STD T2 SET REMAINING CHARACTER COUNT ADD REOT ADD REQ EOT FLAG ZJN TEBF.9 EXIT EXACT FRAME-PAIR AND NO EOT UJK TEBF.4 EXIT IF TO OUTPUT LAST (PARTIAL?) FRAME TEBF.9 EXIT FEOPX RETURN DCO SPACE 2,32 ** SUBROUTINE DCO. * * SUBROUTINE DCO OUTPUTS THE NEXT CHANNEL FRAME TO * THE MDI. NO PACKING IS PERFORMED. * * ENTRY - * * (A) = CHANNEL FRAME TO OUTPUT * * EXIT - * * USES - * * (T0) = OUTPUT FRAME * * ERROR EXITS - * * EXIT TO *ERROR* IF CHANNEL GOES INACTIVE, * EXIT TO *ERROR* IF CHANNEL HANGS FULL. * ** DCO SUBR ENTRY/EXIT AJM. DCO.1 EXIT IF CHANNEL WENT ACTIVE DCO.01 LINK EREXIT IDO EXIT TO ERROR - WENT INACTIVE DURING OUTPUT DCO.1 STD T0 STORE FRAME TO BE OUTPUT LDK MDIDLY LOAD CHANNEL DELAY COUNT DCO.2 EJM. DCO.3 EXIT IF CHANNEL WENT EMPTY SBN 1 DECREMENT CHANNEL DELAY COUNTER NJN DCO.2 EXIT IF CHANNEL DELAY NOT EXPIRED EXIT WEO.2 EXIT TO ERROR - HUNG FULL ON OUTPUT DCO.3 LDD T0 LOAD OUTPUT FRAME OAN. OUTPUT NEXT CHANNEL FRAME UJN DCOX RETURN DLY SPACE 2,26 ** SUBROUTINE DLY. * * SUBROUTINE DLY SETS AND TESTS THE DELAY SETTING. * AT INTIAL ENTRY WITH A-REGISTER BEING ZERO, TIMEOUT * IS SET TO CURRENT TIME + Q.MCIDLY. * AT REENTRIES, IF THE DELAY TIMEOUT IS NOT REACHED, * CONTROL IS RETURNED TO THE RETURN ADDRESS - 4, * OTHERWISE, CONTROL IS RETURNED NORMALLY. * * ENTRY - * * (A) = 0 IF INITIAL ENTRY, * Q.MCIDLY = DELAY IN MILLI-SECONDS. * * EXIT - * * RETURN ADDRESS - 4 IF INITIAL ENTRY * OR NOT TIMEOUT, * NORMAL RETURN AT TIMEOUT. * * USES - * * T0 = CRM INSTRUCTION WORKING STORAGE, * T17 = STORAGE FOR CURRENT T0 SAVE, * CL = CLOCK WORD STORAGE, ** DT = TIMEOUT TIME. DLY SUBR ENTRY/EXIT ZJN DLY.2 EXIT IF INITIAL ENTRY RJM DLCL EXIT TO READ SYSTEM MILLISECOND TIME SBM DT LESS MCI FUNCTION TIMEOUT VALUE SHN 5+1 POSITION HIGH-ORDER VALUE BIT TO SIGN PJN DLYX RETURN IF TIMEOUT REACHED DLY.1 LDM DLY LOAD RETURN ADDRESS SBN 4 BACK UP RETURN ADDRESS BY 4 STM DLY REPLACE RETURN ADDRESS UJK DLYX RETURN DLY.2 RJM DLCL EXIT TO READ SYSTEM MILLISECOND TIME ADK Q.MCINIT PLUS INITIAL MCI FUNCTION DELAY QUANTUM STM DT STORE MCI FUNCTION TIMEOUT VALUE LDD BHS LOAD BLOCK HANDLER STATE SBN /TABLES/BHS4 LESS VALUE FOR FIRST NON-OPERATIONAL STATE PJN DLY.1 EXIT IF MCI NOT OPERATIONAL LDK Q.MCIDLY-Q.MCINIT LOAD TIMEOUT QUANTUM FOR OPERATIONAL RAM DT UPDATE MCI FUNCTION TIMEOUT VALUE UJK DLY.1 EXIT TO SET RETURN ADDRESS AND RETURN DLCL SUBR ENTRY/EXIT LDD T0 LOAD CURRENT T0 STD T17 SAVE CURRENT T0 CONTENT LDK RTCL LOAD ADDRESS OF SYSTEM REAL-TIME CLOCK CRM CL,ON READ SYSTEM REAL-TIME CLOCK LDD T17 LOAD SAVED T0 CONTENT STD T0 RESTORE T0 LDM CL+4 LOAD SYSTEM MILLISECOND TIME UJK DLCLX RETURN WEO SPACE 2,20 ** SUBROUTINE WEO * * SUBROUTINE WEO WAITS FOR THE CHANNEL TO GO EMPTY * AFTER OUTPUT HAS COMPLETED. THE CHANNEL IS THEN * DISCONNECTED. A CALL IS MADE TO ROUTINE GMS TO * CHECK FOR ERRORS. * * EXIT - * * (ECT) = RESET TO ZERO IF NO ERRORS * (EOT) = SET TO 1 IF NO ERRORS * * ERROR EXITS - * * EXIT TO *ERROR* IF CHANNEL HUNG FULL ON OUTPUT, * * CALLS - * * GMS - GET MDI GENERAL STATUS ** WEO SUBR ENTRY/EXIT LDK MDIDLY LOAD CHANNEL DELAY COUNT WEO.1 EJM. WEO.3 EXIT IF CHANNEL WENT EMPTY SBN 1 DECREMENT CHANNEL DELAY COUNT NJN WEO.1 EXIT IF CHANNEL DELAY NOT EXPIRED WEO.2 LINK ENTRY EREXIT HFO EXIT TO ERROR - HUNG FULL ON OUTPUT WEO.3 DCN. DISCONNECT CHANNEL WEO.4 LDN B.ABTNMS+B.ABTMIO SET ERROR EXIT CONDITIONS FOR GMS RJM GMS EXIT TO OBTAIN MDI GENERAL STATUS LDN 0 CONSTANT OF ZERO STM ECT,FEI RESET CONSECUTIVE ERROR COUNT LDN 1 CONSTANT OF ONE STD EOT SET END OF TRANSFER FLAG UJN WEOX RETURN FC TITLE DRIVER OVERLAY STORAGE AREA. FC SPACE 2,6 * DRIVER OVERLAY STORAGE AREA. FC CON -1 LAST MDI FUNCITON CODE CB CON -1 MDI CHANNEL FRAME CP CON -1 CURRENT CHARACTER POSITION (0 - 2) MC CON -1 MESSAGE CHARACTER COUNT CL BSS 5 MCI FUNCTION DELAY CLOCK STORAGE DT BSS 1 MCI FUNCTION DELAY TIMER MHB BSSZ /BLOCK/L.MDIHDR MDI HEADER BUFFER (SET TO ZEROES) QUAL .STOA SPACE 2,6 * TRANSIENT OVERLAY DEFINITIONS. .STOA MAX .STOA,* START OF TRANSIENT OVERLAY AREA CIT SPACE 2,6 * TERMINATE MDI CHANNEL INSTRUCTION TABLE. CIT RMT QUAL CON 0 TERMINATE MDI CHANNEL INSTRUCTION TABLE CIT RMT OL.TRANS SPACE 2,6 * TRANSIENT OVERLAY AREA DEFINITIONS. OL.TRANS EQU .STOA TRANSIENT OVERLAY LOAD ADDRESS OF.TRANS EQU .STOA+5 TRANSIENT OVERLAY FIRST WORD ADDRESS ."O.N" EQU * OVERLAY F=TRANS,T1=(SUPPORT/COMMAND PROCESSORS),T2=(CENTRAL ME ,MORY SUPPORT SUBROUTINES) CTS SPACE 2,48 ** SUBROUTINE CTS. * * SUBROUTINE CTS PROCESSES A CONNECTION TABLE SWITCH * FROM THE CURRENTLY ACTIVE CONNECTION TABLE TO A NEW * CONNECTION TABLE. THE LOGICAL LINK CONTROL BLOCKS ARE * SEARCHED TO FIND THE CORRECT LOGICAL LINK CONTROL * BLOCK. THE NETWORK CONNECTION TABLE ADDRESS IS * OBTAINED FROM THE CORRECT LOGICAL LINK CONTROL BLOCK * AND IS RETURNED. * * ENTRY - * * (A) = TERMINAL NODE TABLE ADDRESS, * (TN) = TERMINAL NODE OF CURRENT STREAM, * (CN) = CONNECTION NUMBER OF CURRENT STREAM. * * EXIT - * * (A) = CONNECTION TABLE ADDRESS OR ZERO IF NONE, * (ACI) = NEW ACTIVE CONNECTION TABLE IDENTIFICATION, * (ACT) = NEW CONNECTION TABLE ADDRESS. * * CALLS - * * TFL - FORM ABSOLUTE CENTRAL ADDRESS. * * USES - * * T10+T10+4 = TERMINAL NODE TABLE POINTER WORD, * T0-T0+4 = TERMINAL NODE TABLE HEADER, * T0-T0+4 = TERMINAL NODE TABLE ENTRY, * T15 = NUMBER OF LOGICAL LINK TABLES, * T5-T5+1 = ADDRESS OF LOGICAL LINK TABLE, * T10-T10+4 = NETWORK ADDRESS WORD FROM LOGICAL LINK, * T0-T0+4 = FORWARD LINK WORD FROM LOGICAL LINK, * T15 = LOGICAL LINK POINTER DISPLACEMENT, * T0-T0+4 = CONNECTION TABLE POINTER WORD. * * NOTE - * * CTS IS CALLED FROM RCT WITH OVERLAY LOADING. * AS RCT MAY BE CALLED FROM SOME OVERLAYS, CHECK IS ** MADE TO SEE IF THE CALLER IS INTACT. CTS SUBR ENTRY/EXIT RJM TFL EXIT TO FORM ABSOLUTE CENTRAL ADDRESS CRD T10 READ TERMINAL NODE TABLE POINTER WORD LDM RCT LOAD RETURN ADDRESS FROM RCT SBN 1 SUBTRACT ONE TO GET CALL TO RCT ADDRESS STD T1 SAVE CALL TO RCT ADDRESS LDC RCT LOAD RCT ADDRESS LMI T1 COMPARE IT WITH CALL TO RCT (ADDRESS) ZJN CTS.0 OK IF CALL TO RCT INTACT EREXIT OSV EXIT TO ERROR - CALL TO RCT OVERWRITTEN CTS.0 LDD T10+/NAM/C.DPT LOAD HIGH-ORDER TERMINAL TABLE ADDRESS SHN 12 POSITION TO HIGH-ORDER ADD T10+/NAM/C.DPT+1 PLUS LOW-ORDER TERMINAL TABLE ADDRESS RJM TFL EXIT TO FORM ABSOLUTE CENTRAL ADDRESS CRD T0 READ TERMINAL NODE TABLE HEADER WORD SOD T0+/NAM/C.BWD+1 TERMINAL NODE TABLE LENGTH LESS ONE SBD TN LESS TERMINAL NODE OF CURRENT STREAM PJN CTS.2 EXIT IF TERMINAL NODE IN RANGE LDN 0 CONSTANT OF ZERO CTS.1 UJK CTSX RETURN WITH NO CONNECTION TABLE ENTRY CTS.2 LDD T10+/NAM/C.DPT LOAD HIGH-ORDER TERMINAL TABLE ADDRESS SHN 12 POSITION TO HIGH-ORDER ADD T10+/NAM/C.DPT+1 PLUS LOW-ORDER TERMINAL TABLE ADDRESS ADD TN PLUS TERMINAL NODE OF CURRENT STREAM RJM TFL EXIT TO FORM ABSOLUTE CENTRAL ADDRESS CRD T0 READ TERMINAL NODE TABLE ENTRY LDD T0+/NAM/C.NLL LOAD NUMBER OF ASSOCIATED LOGICAL LINKS STD T15 STORE LOGICAL LINK CONTROL BLOCK COUNT CTS.3 ZJN CTS.1 EXIT IF ALL LOGICAL LINKS PROCESSED LDD T0+/NAM/C.LLA LOAD HIGH-ORDER OF NEXT LINK ADDRESS LPN 37B EXTRACT ADDRESS BITS STD T5 STORE HIGH-ORDER OF LOGICAL LINK ADDRESS SHN 12 POSITION TO HIGH-ORDER ADD T0+/NAM/C.LLA+1 PLUS LOW-ORDER OF NEXT LINK ADDRESS STD T5+1 STORE LOW-ORDER OF LOGICAL LINK ADDRESS ADN /NAM/W.LLCB2 DELTA FOR NETWORK ADDRESS WORD RJM TFL EXIT TO FORM ABSOLUTE CENTRAL ADDRESS CRD T10 READ NETWORK ADDRESS WORD FROM LINK TABLE SBN /NAM/W.LLCB2 DELTA FOR FORWARD LINK POINTER WORD CRD T0 READ FORWARD LINK POINTER WORD LDD T10+/NAM/C.LLNA LOAD HIGH-ORDER OF NETWORK ADDRESS SHN -/NAM/S.LHN POSITION HOST NODE TO LOW-ORDER LMM HND,FEI LESS HOST NODE OF FRONT END ZJN CTS.4 EXIT IF LOGICAL LINK CONTROL BLOCK MATCH SOD T15 DECREMENT LOGICAL LINK CONTROL BLOCK COUNT UJK CTS.3 EXIT TO CHECK FOR ADDITIONAL LOGICAL LINK CTS.4 LDD CN LOAD CONNECTION NUMBER OF CURRENT STREAM SHN -4 REDUCE TO LOGICAL LINK POINTER DISPLACEMENT STD T15 STORE LOGICAL LINK POINTER DISPLACEMENT SHN 8 POSITION POINTER WORD DISPLACEMENT LMD TN PLUS TERMINAL NODE OF CURRENT STREAM STM ACI STORE ACTIVE TABLE IDENTIFICATION LDD T5 LOAD HIGH-ORDER OF LOGICAL LINK ADDRESS SHN 12 POSITION TO HIGH-ORDER ADD T5+1 PLUS LOW-ORDER OF LOGICAL LINK ADDRESS ADN /NAM/W.LLCBE DELTA FOR FIRST LOGICAL LINK ENTRY ADD T15 PLUS LOGICAL LINK POINTER DISPLACEMENT RJM TFL EXIT TO FORM ABSOLUTE CENTRAL ADDRESS CRD T0 READ CONNECTION TABLE POINTER WORD LDD T0+/NAM/C.LNCT LOAD HIGH-ORDER OF TABLE ADDRESS LPN 37B EXTRACT ADDRESS BITS STM ACT STORE HIGH-ORDER OF ACTIVE CONNECTION TABLE SHN 12 POSITION TO HIGH-ORDER ADD T0+/NAM/C.LNCT+1 PLUS LOW-ORDER OF TABLE ADDRESS STM ACT+1 STORE LOW-ORDER OF ACTIVE CONNECTION TABLE NJN CTS.5 EXIT IF NETWORK CONNECTION TABLE STM ACI RESET ACTIVE TABLE IDENTIFICATION CTS.5 UJK CTSX RETURN TCR SPACE 2,36 ** SUBROUTINE TCR. * * SUBROUTINE TCR TRANSFERS A COMMAND RESPONSE TO THE * INBOUND BUFFER. THE RESPONSE TEXT IS PACKED AND * WRITTEN TO THE INBOUND BUFFER. THE NAM HEADER IS * PACKED, WRITTEN TO THE INBOUND BUFFER AND THE INBOUND * FET IN DATA POINTER IS UPDATED. * * ENTRY - * * (NNH-NNH+L.NH) = RESPONSE TEXT CHARACTER COUNT, * (NBH-NBH+L.BH) = RESPONSE WORD LENGTH, * (BHB-BHB+L.BH) = BLOCK HEADER FOR RESPONSE, * (NCH-NCH+L.CH) = RESPONSE COMMAND HEADER, * (DRBUF-DRBUF+L.CM) = UNPACKED RESPONSE TEXT. * * CALLS - * * IIIP - INITIALIZE FOR IVT INPUT, * PKD - PACK DATA TEXT, * WDIB - WRITE RESPONSE DATA TO INBOUND BUFFER, * WNHB - WRITE NAM HEADER TO INBOUND BUFFER, * UFIP - UPDATE FET IN DATA POINTER. * * USES - * * T17 = UNPACKED RESPONSE TEXT ADDRESS, * T16 = RESPONSE TEXT CHARACTER COUNT, * T15 = RESPONSE TEXT WORD COUNT, * T3 = SOURCE DATA CHARACTER COUNT, ** T7 = CENTRAL WORD COUNT. TCR SUBR ENTRY/EXIT LDN /NAM/Q.IBID LOAD NAM INBOUND BUFFER ID RJM IIIP EXIT TO INITIALIZE FOR IVT INPUT LDC NCH LOAD ADDRESS OF COMMAND HEADER BUFFER STD T17 INITIALIZE RESPONSE TEXT ADDRESS LDM NNH+/NAM/C.MCC LOAD RESPONSE TEXT CHARACTER COUNT STD T16 INITIALIZE RESPONSE TEXT CHARACTER COUNT LDM NBH+/NAM/C.BWD+1 LOAD RESPONSE MESSAGE WORD COUNT SBN /NAM/L.BH+/NAM/L.NH LESS LENGTH OF NAM HEADER WORDS STD T15 INITIALIZE RESPONSE TEXT WORD COUNT LDN PCBICM LOAD DRIVER INBOUND BUFFER LENGTH IN WORDS STD T7 STORE CENTRAL WORD COUNT TCR.1 LDD T15 LOAD RESIDUAL RESPONSE TEXT WORD COUNT SBN PCBICM LESS DRIVER INBOUND BUFFER LENGTH IN WORDS MJN TCR.3 EXIT IF NOT A PARTIAL TRANSFER STD T15 STORE RESIDUAL RESPONSE WORD COUNT ZJN TCR.4 EXIT IF EXACT RESPONSE FIT LDD T16 LOAD RESIDUAL RESPONSE CHARACTER COUNT ADC -PCBICH LESS CHARACTERS PER DRIVER INBOUND BUFFER STD T16 STORE RESIDUAL RESPONSE CHARACTER COUNT LDC PCBICH LOAD CHARACTERS PER DRIVER INBOUND BUFFER TCR.2 STD T3 STORE SOURCE DATA CHARACTER COUNT LDD T17 LOAD CURRENT RESPONSE TEXT ADDRESS STD T1 STORE SOURCE DATA ADDRESS LDC PCBUFI LOAD ADDRESS OF DRIVER INBOUND BUFFER STD T2 STORE DESTINATION DATA ADDRESS LDD T3 LOAD SOURCE DATA CHARACTER COUNT RJM PKD EXIT TO PACK RESPONSE TEXT LDC PCBUFI LOAD ADDRESS OF DRIVER BUFFER RJM WDIB EXIT TO WRITE RESPONSE TO INBOUND BUFFER LDD T15 LOAD RESIDUAL RESPONSE WORD COUNT ZJN TCR.5 EXIT IF COMPLETE RESPONSE TEXT TRANSFERRED LDC PCBICH LOAD CHARACTERS PER INBOUND DRIVER BUFFER RAD T17 INCREMENT RESPONSE TEXT ADDRESS UJK TCR.1 EXIT TO PROCESS NEXT PORTION OF RESPONSE TCR.3 LDD T15 LOAD RESIDUAL RESPONSE WORD COUNT STD T7 STORE CENTRAL WORD COUNT LDN 0 CONSTANT OF ZERO STD T15 ZERO RESIDUAL RESPONSE WORD COUNT TCR.4 LDD T16 LOAD RESIDUAL RESPONSE CHARACTER COUNT UJK TCR.2 EXIT TO PACK RESPONSE TEXT TCR.5 LDC NNH LOAD ADDRESS OF NAM NETWORK HEADER STD T2 STORE DESTINATION DATA ADDRESS ADN BHB-NNH DELTA FOR BLOCK HEADER BUFFER STD T1 STORE SOURCE DATA ADDRESS LDN /BLOCK/L.BH+/BLOCK/L.DH LENGTH OF BLOCK AND DATA HEADER RJM PKD EXIT TO PACK INTO NAM NETWORK HEADER RJM WNHB EXIT TO WRITE NAM HEADER TO INBOUND BUFFER RJM UFIP EXIT TO UPDATE FET IN DATA POINTER UJK TCRX RETURN PMS TITLE DRIVER SUPPORT PROCESSORS. PMS SPACE 2,22 ** DRIVER SUPPORT PROCESSOR PMS. * * DRIVER SUPPORT PROCESSOR PMS PROCESSES A LEVEL * SEVEN CHECKMARK ISSUED. THE OUTSTANDING CHECKMARK * COUNT IS INCREMENTED, THE PENDING CHECKMARK NUMBER * WITH THE ASSOCIATED PRU POSITION IS STORED IN THE PCB * AND THE COUNT OF BLOCKS BEFORE A CHECKMARK IS REQUIRED * IS RESET. * * ERROR EXITS - * * EXIT TO *ERROR* IF CHECKMARK LOGIC ERROR. * * CALLS - * * RSPB - READ AND STORE ADDRESS OF PCB WORD, ** WCMW - WRITE WORD TO PCB. PMS LINK PROCESS LEVEL SEVEN CHECKMARK ISSUED LDN /NAM/W.PCBPS5 PRU STREAM PARAMETER FIVE WORD ORDINAL RJM RSPB EXIT TO READ PRU PARAMETER WORD FROM PCB LDD T10+/NAM/C.PCBLAC HIGH-ORDER OF ACKNOWLEDGED CHECKMARK SHN 12 POSITION TO HIGH-ORDER ADD T10+/NAM/C.PCBLAC+1 LOW-ORDER OF ACKNOWLEDGED CHECKMARK ADN 1 PLUS ONE FOR NEXT CHECKMARK NUMBER STD L7PR+1 STORE LOW-ORDER PENDING CHECKMARK NUMBER SHN -12 POSITION HIGH-ORDER OF NUMBER STD L7PR STORE HIGH-ORDER PENDING CHECKMARK NUMBER AOD T10+/NAM/C.PCBOCM INCREMENT OUTSTANDING CHECKMARK COUNT LMN 1 LESS EXPECTED VALUE NJN PMS.3 EXIT TO PROCESS CHECKMARK LOGIC ERROR PMS.1 RJM WCMW EXIT TO WRITE PRU PARAMETER WORD TO PCB LDN /NAM/W.PCBPS4 PRU STREAM PARAMETER FOUR WORD ORDINAL RJM RSPB EXIT TO READ PRU PARAMETER WORD FROM PCB SBN /NAM/W.PCBPS4-/NAM/W.PCBPS1 DELTA FOR WORD ONE CRD T1 READ PRU PARAMETER WORD FROM PCB LDD L7PR LOAD HIGH-ORDER OF PENDING CHECKMARK NUMBER STD T10+/NAM/C.PCBPCN HIGH-ORDER PENDING CHECKMARK NUMBER LDD L7PR+1 LOAD LOW-ORDER OF PENDING CHECKMARK NUMBER STD T10+/NAM/C.PCBPCN+1 LOW-ORDER PENDING CHECKMARK NUMBER LDD T1+/NAM/C.PCBNPR HIGH-ORDER OF ASSOCIATED PRU POSITION STD T10+/NAM/C.PCBPPR HIGH-ORDER PENDING PRU POSITION LDD T1+/NAM/C.PCBNPR+1 LOW-ORDER OF ASSOCIATED PRU POSITION STD T10+/NAM/C.PCBPPR+1 LOW-ORDER PENDING PRU POSITION RJM WCMW EXIT TO WRITE PRU PARAMETER WORD TO PCB LDN /NAM/W.PCBPS6 PRU STREAM PARAMETER SIX WORD ORDINAL RJM RSPB EXIT TO READ PRU PARAMETER WORD FROM PCB LDD T10+/NAM/C.PCBCMC LOAD CHECKMARK CONTROL BYTE SHN -6 POSITION INTERVAL TO CURRENT RAD T10+/NAM/C.PCBCMC SET CURRENT TO INTERVAL PMS.2 LINK ENTRY RJM WCMW EXIT TO WRITE PRU PARAMETER WORD TO PCB EXIT ESRAX RETURN VIA STREAM STATE ACTION RETURN PMS.3 LINK ENTRY EREXIT CLE EXIT TO ERROR - CHECKMARK LOGIC ERROR PMR SPACE 2,20 ** DRIVER SUPPORT PROCESSOR PMR. * * DRIVER SUPPORT PROCESSOR PMR PROCESSES A LEVEL * SEVEN CHECKMARK REPLY ISSUED. THE OUTSTANDING * CHECKMARK COUNT IS DECREMENT AND THE LAST TRANSMITTED * CHECKMARK NUMBER IS INCREMENTED. * PRU POSITION STORED IN W.PCBPS4 WHEN CHECKMARK WAS * RECEIVED IS PLACED IN W.PCBPS5 AS THE PRU POSITION * CORRESPONDING TO THE ACKNOWLEDGED CHECKMARK. * * ERROR EXITS - * * EXIT TO *ERROR* IF CHECKMARK LOGIC ERROR. * * CALLS - * * RSPB - READ AND STORE ADDRESS OF PCB WORD, ** WCMW - WRITE WORD TO PCB. PMR LINK PROCESS LEVEL SEVEN CHECKMARK REPLY ISSUED LDN /NAM/W.PCBPS5 PRU STREAM PARAMETER FIVE WORD ORDINAL RJM RSPB EXIT TO READ PRU PARAMETER WORD FROM PCB SBN /NAM/W.PCBPS5-/NAM/W.PCBPS4 DELTA FOR WORD FOUR CRD T1 READ PRU PARAMETER WORD FROM PCB LDD T1+/NAM/C.PCBPPR LOAD HIGH-ORDER OF PRU POSITION STD T10+/NAM/C.PCBCPP HIGH-ORDER OF ACKNOWLEDGED POSITION LDD T1+/NAM/C.PCBPPR+1 LOAD LOW-ORDER OF PRU POSITION STD T10+/NAM/C.PCBCPP+1 LOW-ORDER OF ACKNOWLEDGED POSITION SOD T10+/NAM/C.PCBOCM DECREMENT OUTSTANDING CHECKMARK MJN PMS.3 EXIT IF COUNTER UNDERFLOW AOD T10+/NAM/C.PCBLAC+1 INCREMENT LOW-ORDER NEXT CHECKMARK SHN -12 POSITION POSSIBLE CARRY RAD T10+/NAM/C.PCBLAC ADD TO HIGH-ORDER NEXT CHECKMARK EXIT PMS.2 EXIT TO WRITE PRU PARAMETER WORD TO PCB RBR SPACE 2,14 ** DRIVER SUPPORT PROCESSOR RBR. * * DRIVER SUPPORT PROCESSOR RBR RESETS THE * BREAK RECEIVED FLAG IN THE PRU CONTROL BLOCK. * * CALLS - * * RSPB - READ AND STORE ADDRESS OF PCB WORD, ** WCMW - WRITE WORD TO PCB. RBR LINK RESET BREAK RECEIVED FLAG LDN /NAM/W.PCBPS6 PRU PARAMETER SIX WORD ORDINAL RJM RSPB EXIT TO READ PRU PARAMETER WORD FROM PCB LDD T10+/NAM/C.PCBFTS LOAD FILE TRANSFER STATUS BYTE SCN /NAM/B.PCBBRR RESET BREAK RECEIVED FLAG STD T10+/NAM/C.PCBFTS STORE FILE TRANSFER STATUS BYTE EXIT PMS.2 EXIT TO WRITE PRU PARAMETER WORD TO PCB PPST SPACE 2,42 ** DRIVER SUPPORT PROCESSOR PPST. * * DRIVER SUPPORT PROCESSOR PPST PROCESSES THE PCB RING * FOR PRU STREAMS. THE ADDRESS OF THE CURRENT PCB IS * STORED, THE NETWORK ADDRESS PARAMETERS FOR THE STREAM * ARE STORED, THE CONNECTION TABLE ENTRY IS READ AND THE * STREAM STATE FOR THE STREAM IS EXECUTED. * * ENTRY (PPST) - * * (T0-T0+4) = PCB POINTER WORD FROM BUFFER TABLE. * * ENTRY (PPST.7) - * * (CPCB-CPCB+1) = CURRENT PCB ADDRESS. * * ERROR EXITS - * * EXIT TO *ERROR* IF PCB RING ERROR, * EXIT TO *ERROR* IF PCB CONNECTION UNASSIGNED. * * CALLS - * * TFL - FORM ABSOLUTE CENTRAL ADDRESS, * RCT - READ CONNECTION TABLE ENTRY, * RPCB - READ WORD FROM PCB, * GTE - GET DRIVER CONTROL TABLE ENTRY, * PAUSE - PAUSE FOR STORAGE RELOCATION. * * PROCESSOR CALLS - * * STREAM STATE PROCESSOR. * * NOTE - * ** CTS, CALLED FROM RCT, MUST BE IN THE SAME OVERLAY. PPST LINK ENTRY LDD T0+/NAM/C.NBTPF+1 LOAD LOW-ORDER OF FIRST PCB ADDRESS SCN 77B CLEAR EXTRANEOUS BITS SHN 6 POSITION TO HIGH-ORDER ADD T0+/NAM/C.NBTPF PLUS HIGH-ORDER OF FIRST PCB ADDRESS SHN 6 POSITION FIRST PCB ADDRESS STD PCB+1 STORE LOW-ORDER OF FIRST PCB ADDRESS SHN -12 POSITION HIGH-ORDER OF ADDRESS STD PCB STORE HIGH-ORDER OF FIRST PCB ADDRESS LDN PCB LOAD ADDRESS OF FIRST PCB ADDRESS PPST.1 STD T7 STORE ADDRESS OF NEXT PCB ADDRESS LDI T7 LOAD HIGH-ORDER OF NEXT PCB ADDRESS LPN 37B EXTRACT ADDRESS BITS STM CPCB STORE HIGH-ORDER OF CURRENT PCB ADDRESS SHN 12 POSITION TO HIGH-ORDER ADM 1,T7 PLUS LOW-ORDER OF NEXT PCB ADDRESS STM CPCB+1 STORE LOW-ORDER OF CURRENT PCB ADDRESS NJN PPST.3 EXIT IF PCB ADDRESS PPST.2 EREXIT PCE EXIT OT ERROR - PCB CHAIN ERROR PPST.3 ADN /NAM/W.PCBLP DELTA FOR NETWORK ADDRESS WORD RJM TFL EXIT TO FORM ABSOLUTE CENTRAL ADDRESS CRD T0 READ NETWORK ADDRESS WORD FROM PCB SBN /NAM/W.PCBLP DELTA FOR TABLE HEADER WORD CRD T10 READ TABLE HEADER WORD LDD T10+/NAM/C.BID LOAD TABLE ID BYTE SHN -/NAM/S.BID POSITION BLOCK ID TO LOW-ORDER LMN /NAM/Q.PCBID LESS PRU CONTROL BLOCK ID ZJN PPST.4 EXIT IF PRU CONNECTION BLOCK ID LMN /NAM/Q.LCNID&/NAM/Q.PCBID CHECK IF LIMBO PRU CON ID NJN PPST.2 EXIT IF INVALID BLOCK ID EXIT NPRU EXIT TO PROCESS NEXT PCNB IN PRU CON RING PPST.4 LDD T0+/NAM/C.PCBNA LOAD HIGH-ORDER OF NETWORK ADDRESS SHN -/NAM/S.PCBTN POSITION TERMINAL MODE TO LOW-ORDER STD TN STORE TERMINAL NODE LDD T0+/NAM/C.PCBNA+1 LOAD LOW-ORDER OF NETWORK ADDRESS LPC 0#FF EXTRACT CONNECTION NUMBER STD CN STORE CONNECTION NUMBER RJM RCT EXIT TO READ CONNECTION TABLE ENTRY PJN PPST.5 EXIT IF CONNECTION NUMBER ASSIGNED EREXIT PCN EXIT TO ERROR - PCB CONNECTION UNASSIGNED PPST.5 LDN 0 CONSTANT OF ZERO RJM RPCB EXIT TO READ PCB HEADER WORD LDD T10+/NAM/C.PCBSP LOAD STREAM PARAMETER BYTE FROM PCB SHN -/NAM/S.PCBPR POSITION PRIORITY LEVEL TO LOW-ORDER LPN /NAM/L.PCBPR EXTRACT PCB PRIORITY LEVEL LMN 2 LESS VALUE FOR LOW PRIORITY PCB ZJN PPST.6 EXIT IF LOW PRIORITY PCB LDN 1 CONSTANT OF ONE PPST.6 SHN /BLOCK/S.PR POSITION PRIORITY FLAG STM BHB+/BLOCK/BNBT STORE OUTPUT PRIORITY FOR STREAM ZJN PPST.6F EXIT IF LOW PRIORITY CONNECTION LCN 1 VALUE TO ADJUST PRIORITY TO BE HIGH LEVEL PPST.6F ADN 3 LOW PRIORITY OUTPUT PRIORITY LEVEL STM OPL SET OUTPUT PRIORITY LEVEL LDM FTY,FEI FRONT END TYPE ZJN PPST.6M EXIT IF 2550 FRONT END LDM CHVER,FEI MCI CHANNEL PROTOCOL VERSION NUMBER SBN /MSTATUS/VERSION4 LOWEST VERSION NUMBER THAT SUPPORTS FLOW CONTROL BIT IN GENERAL STATUS REGISTER MJN PPST.6M IF FLOW CONTROL BIT DOES NOT EXIST IN GS LDM MGS,FEI GENERAL STATUS REGISTER LPK 7 EXTRACT BITS 0 TO 2 OF GENERAL STATUS SBN /MSTATUS/FON CHECK IF NORMAL FLOW CONTROL IS OFF NJN PPST.6M EXIT IF NORMAL FLOW CONTROL IS OFF LDD STS LOAD STREAM STATE LPN 77B EXTRACT CURRENT STREAM STATE SBK /TABLES/PROT PRU OUTPUT STREAM STATE MJN PPST.6M EXIT IF INPUT STREAM STATE EXIT NPRU EXIT TO CHECK NEXT ENTRY IN PCB RING PPST.6M LDD STS LOAD STREAM STATE LPN 77B EXTRACT CURRENT STREAM STATE ADC /TABLES/STSTATES PLUS FWA OF STREAM STATE TABLE RJM GTE EXIT TO GET DRIVER CONTROL TABLE ENTRY STM DCR.4+1 STORE ADDRESS OF STREAM STATE PROCESSOR EXIT DCR.4 EXIT TO EXECUTE STREAM STATE PROCESSOR PPST.7 LINK ENTRY RJM PAUSE EXIT TO PAUSE FOR STORAGE RELOCATION LDM CPCB LOAD HIGH-ORDER OF CURRENT PCB ADDRESS SHN 12 POSITION TO HIGH-ORDER ADM CPCB+1 PLUS LOW-ORDER OF CURRENT PCB ADDRESS ADN /NAM/W.PCBLP DELTA FOR PCB CHAIN LINK POINTER WORD RJM TFL EXIT TO FORM ABSOLUTE CENTRAL ADDRESS CRD T0 READ PCB CHAIN LINK WORD FORM PCB LDN T0+/NAM/C.PCBFL LOAD ADDRESS OF NEXT PCB ADDRESS UJK PPST.1 EXIT TO STORE NEXT PCB ADDRESS CONO TITLE IVT OUTPUT COMMAND PROCESSORS. QUAL ACTIONS TYPEACT MICRO 1,,*CMDOUT* DEFINE ACTION TYPE CONO SPACE 2,30 ** IVT COMMAND ACTION PROCESSOR CONO. * * IVT COMMAND ACTION PROCESSOR CONO TRANSFERS THE FRONT * END TURNED OFF COMMAND TO THE INBOUND BUFFER. IF THERE * IS SUFFICIENT INBOUND BUFFER SPACE FOR THE EST TURNED * OFF COMMAND A CHECK IS MADE FOR ACTIVE PRU STREAMS. IF * THERE ACTIVE PRU STREAMS THEY ARE PROCESSED. OTHERWISE * THE HOST REGULATION LEVEL IS SET TO ZERO, THE FRONT * END IS RETURNED TO THE SYSTEM AND THE FRONT END CHANNEL * TABLE IS CHECKED FOR OTHER FRONT ENDS ON THE SAME * CHANNEL. IF THERE ARE NO OTHER FRONT ENDS ON THE SAME * CHANNEL THE CHANNEL IS RELEASED TO THE SYSTEM. THE EST * TURNED OFF COMMAND IS TRANSFERRED TO THE INBOUND BUFFER. * * CALLS - * * CIBS - CHECK INBOUND BUFFER SPACE, * GNBT - GET NETWORK BUFFER TABLE ADDRESS, * TFL - FORM ABSOLUTE CENTRAL ADDRESS, * MTR - RETURN EQUIPMENT, * CRFC - CHECK TO RELEASE FRONT END CHANNEL, * UNSB - UPDATE FRONT END STATUS BYTE, * GTE - GET DRIVER CONTROL TABLE ENTRY, ** TCR - TRANSFER FRONT END TURNED OFF COMMAND. CONO ACTION TRANSFER FRONT END TURNED OFF COMMAND LDN /NAM/EQTOCM LENGTH OF FRONT END TURNED OFF COMMAND RJM CIBS EXIT TO CHECK FOR INBOUND BUFFER SPACE PJN CONO.2 EXIT IF SUFFICIENT INBOUND BUFFER SPACE CONO.1 EXIT PPRU EXIT TO PROCESS PRU STREAMS CONO.2 LDN /NAM/W.NBTLP DELTA FOR PCB POINTER WORD RJM GNBT EXIT TO GET PCB ADDRESS ABSOLUTE ADDRESS CRD T0 READ PCB POINTER WORD FROM BUFFER TABLE SBN /NAM/W.NBTLP DELTA FOR EST POINTER WORD CRD T10 READ EST POINTER WORD FROM BUFFER TABLE LDD T0+/NAM/C.NBTPB LOAD HIGH-ORDER OF LAST PCB ADDRESS LPN 37B EXTRACT ADDRESS BITS ADD T0+/NAM/C.NBTPB+1 PLUS LOW-ORDER OF LAST PCB ADDRESS NJN CONO.1 EXIT IF PRU STREAMS ACTIVE STD OW SET REGULATION LEVEL TO ZERO LDM FTY,FEI LOAD FRONT END TYPE LMN 2 LESS VALUE FOR INTERLOCKED MDI ZJN CONO.4 EXIT IF INTERLOCKED MDI CONO.3 LDD T10+/NAM/C.NBTNA LOAD FRONT END EQUIPMENT BYTE LPC /NAM/L.NBTEST EXTRACT EST ORDINAL OF FRONT END STD T10+1 STORE ORDINAL OF FRONT END FOR RELEASE LDN DEQM LOAD FUNCTION TO RELEASE EQUIPMENT RJM MTR EXIT TO RELEASE FRONT END RJM CRFC EXIT TO CHECK RELEASE OF CHANNEL CONO.4 LDC /NAM/B.NBTOF LOAD FRONT END OFF STATUS RJM UNSB EXIT TO UPDATE FRONT END STATUS BYTE LDN /NAM/EQTOCM LOAD FRONT END TURNED OFF WORD COUNT STM NBH+/NAM/C.BWD+1 STORE COMMAND WORD LENGTH LDN /NAM/EQTOC LOAD FRONT END TURNED OFF CHARACTER COUNT STM NNH+/NAM/C.MCC STORE MESSAGE TEXT CHARACTER COUNT LDM HND,FEI LOAD HOST NODE ID OF COUPLER STM BHB+/BLOCK/SN STORE SOURCE NODE STM BHB+/BLOCK/DN STORE DESTINATION NODE LDN 0 CONSTANT OF ZERO STM DHB+/BLOCK/DBC ZERO DATA BLOCK CLARIFIER STM BHB+/BLOCK/CN STORE CONNECTION NUMBER LDN /BLOCK/CMD LOAD COMMAND BLOCK TYPE STM BHB+/BLOCK/BNBT STORE BLOCK TYPE LDC /TABLES/NIOC LOAD ADDRESS OF COMMAND MESSAGE TABLE ADD CO PLUS COMMAND ORDINAL RJM GTE EXIT TO GET DRIVER CONTROL TABLE ENTRY STD T0 STORE DRIVER CONTROL TABLE ENTRY SHN -4 POSITION PRIMARY FUNCTION CODE STM NCH+/BLOCK/PFC STORE PRIMARY FUNCTION CODE LDD T0 LOAD DRIVER CONTROL TABLE ENTRY LPN 0#F EXTRACT SECONDARY FUNCTION CODE STM NCH+/BLOCK/SFC STORE SECONDARY FUNCTION CODE RJM TCR EXIT TO TRANSFER COMMAND RESPONSE LDN 0 CONSTANT OF ZERO STM NBT,FEI ZERO HIGH-ORDER OF BUFFER TABLE ADDRESS STM NBT+1,FEI ZERO LOW-ORDER OF BUFFER TABLE ADDRESS SOM ACTFES DECREMENT ACTIVE FRONT END COUNT EXIT NFE.1 EXIT TO PROCESS NEXT FRONT END COIM SPACE 2,30 ** IVT COMMAND ACTION PROCESSOR COIM. * * IVT COMMAND ACTION PROCESSOR COIM TRANSFERS THE REQUEST * MDI INITIALIZATION COMMAND TO THE INBOUND BUFFER. IF * THERE IS SUFFICIENT INBOUND BUFFER SPACE FOR THE * REQUEST MDI INITIALIZATION COMMAND THE EST INTERLOCKED * FLAG IS SET IN THE EQUIPMENT STATUS TABLE, THE MDI * EQUIPMENT IS RELEASED AND THE MDI CHANNEL IS RETURNED * TO THE SYSTEM. THE REQUEST MDI INITIALIZATION COMMAND * IS TRANSFERRED TO THE INBOUND BUFFER. * * ERROR EXITS - * * EXIT TO *ERROR* IF MULTIPLE EQUIPMENTS ON CHANNEL. * * CALLS - * * CIBS - CHECK INBOUND BUFFER SPACE, * GNBT - GET NETWORK BUFFER TABLE ADDRESS, * TFL - FORM ABSOLUTE CENTRAL ADDRESS, * MTR - INTERLOCK EST AND RELEASE EQUIPMENT, * CRFC - CHECK TO RELEASE FRONT END CHANNEL, * GTE - GET DRIVER CONTROL TABLE ENTRY, ** TCR - TRANSFER REQUEST MDI INITIALIZATION. COIM ACTION TRANSFER REQUEST MDI INITIALIZATION COMMAND LDN /NAM/RMDICM LENGTH REQUEST MDI INITIALIZATION COMMAND RJM CIBS EXIT TO CHECK FOR INBOUND BUFFER SPACE PJN COIM.1 EXIT IF SUFFICIENT INBOUND BUFFER SPACE EXIT PPRU EXIT TO PROCESS PRU STREAMS COIM.1 LDN /NAM/W.NBTFP DELTA FOR NBT HEADER WORD RJM GNBT EXIT TO GET NBT HEADER ABSOLUTE ADDRESS CRD T0 READ EST POINTER WORD FROM BUFFER TABLE LDD T0+/NAM/C.NBTNA LOAD FRONT END EQUIPMENT BYTE LPC /NAM/L.NBTEST EXTRACT EST ORDINAL OF FRONT END STD T10+1 STORE ORDINAL OF FRONT END FOR INTERLOCK STD T15 SAVE FRONT END EQUIPMENT ORDINAL LDN 4 LOAD SUBFUNCTION CODE TO CHANGE BYTE ZERO STD T10+2 STORE SUBFUNCTION CODE LDC 1S9 LOAD INTERLOCKED FLAG STD T10+4 STORE FLAG TO SET LMC 7777B FORM BYTE MASK STD T10+3 STORE MASK FOR EQUIPMENT STATUS TABLE BYTE LDN SEQM LOAD FUNCTION TO SET EQUIPMENT PARAMETERS RJM MTR EXIT TO SET INTERLOCKED FLAG FOR MDI LDD T15 LOAD FRONT END EQUIPMENT ORDINAL STD T10+1 STORE EST ORDINAL OF EQUIPMENT LDN DEQM LOAD FUNCTION TO RELEASE EQUIPMENT RJM MTR EXIT TO RELEASE EQUIPMENT RJM CRFC EXIT TO CHECK RELEASE OF CHANNEL ZJN COIM.2 EXIT IF CHANNEL RELEASED EREXIT CTE EXIT TO ERROR - CHANNEL TABLE ERROR COIM.2 LDK RTCL REAL TIME SYSTEM CLOCK CRD T0 READ SYSTEM TIME LDD T0+1 SYSTEM TIME IN SECONDS ADK MAXILK MAXIMUM NUMBER OF SECONDS TO WAIT STM ECT,FEI INITIALIZE TIMER FOR INTERLOCKED MDI LDN 2 TYPE FOR INTERLOCKED MDI STM FTY,FEI SET EQUIPMENT TYPE INTERLOCKED LDN /NAM/RMDICM LOAD REQUEST MDI INITIALIZATION WORD COUNT STM NBH+/NAM/C.BWD+1 STORE COMMAND WORD LENGTH LDN /NAM/RMDIC LOAD REQUEST INITIALIZATION CHARACTER COUNT STM NNH+/NAM/C.MCC STORE MESSAGE TEXT CHARACTER COUNT LDM HND,FEI LOAD HOST NODE ID OF COUPLER STM BHB+/BLOCK/SN STORE SOURCE NODE STM BHB+/BLOCK/DN STORE DESTINATION NODE LDN 0 CONSTANT OF ZERO STM DHB+/BLOCK/DBC ZERO DATA BLOCK CLARIFIER STM BHB+/BLOCK/CN STORE CONNECTION NUMBER LDN /BLOCK/CMD LOAD COMMAND BLOCK TYPE STM BHB+/BLOCK/BNBT STORE BLOCK TYPE LDC /TABLES/NIOC LOAD ADDRESS OF COMMAND MESSAGE TABLE ADD CO PLUS COMMAND ORDINAL RJM GTE EXIT TO GET DRIVER CONTROL TABLE ENTRY STD T0 STORE DRIVER CONTROL TABLE ENTRY SHN -4 POSITION PRIMARY FUNCTION CODE STM NCH+/BLOCK/PFC STORE PRIMARY FUNCTION CODE LDD T0 LOAD DRIVER CONTROL TABLE ENTRY LPN 0#F EXTRACT SECONDARY FUNCTION CODE STM NCH+/BLOCK/SFC STORE SECONDARY FUNCTION CODE EXIT TCRN EXIT TO TRANSFER REQUEST MDI INITIALIZATION CRFC TITLE COMMAND PROCESSOR SUPPORT SUBROUTINES. QUAL CRFC SPACE 2,28 ** SUBROUTINE CRFC. * * SUBROUTINE CRFC DECREMENTS THE ACTIVE FRONT END COUNT * IN THE FRONT END CHANNEL TABLE AND IF THE LAST FRONT * END IS BEING PROCESSED THE CHANNEL IS RETURNED TO THE * SYSTEM. * * ENTRY - * * (FEI) = FRONT END TABLE ADDRESS, * (CHN) = FRONT END CHANNEL NUMBER. * * EXIT - * * (A) = ZERO IF HANNEL RELEASED. * * ERROR EXITS - * * EXIT TO *ERROR* IF NO CHANNEL TABLE ENTRY. * * CALLS - * ** MTR - RELEASE FRONT END CHANNEL. CRFC SUBR ENTRY/EXIT LDM CHN,FEI LOAD FRONT END CHANNEL NUMBER LPN 77B EXTRACT FRONT END CHANNEL NUMBER STD T10+1 FRONT END CHANNEL FOR POSSIBLE RELEASE LDN 0 CONSTANT OF ZERO STD T10 INITIALIZE FRONT END CHANNEL TABLE INDEX CRFC.1 LDM FCT,T10 LOAD NEXT FRONT END CHANNEL TABLE ENTRY ZJN CRFC.1A EXIT IF TABLE ENTRY EMPTY LPN 77B EXTRACT FRONT END CHANNEL NUMBER LMD T10+1 LESS THIS FRONT END CHANNEL NUMBER ZJN CRFC.2 EXIT IF FRONT END CHANNEL TABLE MATCH CRFC.1A AOD T10 INCREMENT FRONT END TABLE INDEX LMN MAXFE LESS ENDING VALUE NJN CRFC.1 EXIT IF MORE TABLE ENTRIES EREXIT CTE EXIT TO ERROR - NO CHANNEL TABLE ENTRY CRFC.2 LDC -1S6 LOAD VALUE TO DECREMENT FRONT END COUNT RAM FCT,T10 DECREMENT ACTIVE FRONT END COUNT SCN 77B CLEAR CHANNEL NUMBER NJN CRFCX RETURN IF OTHER FRONT ENDS ON CHANNEL STM FCT,T10 RESET FRONT END CHANNEL TABLE ENTRY LDN DCHM LOAD FUNCTION TO RELEASE CHANNEL RJM MTR EXIT TO RELEASE FRONT END CHANNEL LDN 0 SET A-REGISTER TO ZERO UJK CRFCX RETURN ."O.N" EQU * OVERLAY F=TRANS,T1=(STATE/COMMAND PROCESSORS),T2=(BLOCK HANDLE ,R STATE PROCESSORS (FE)) QUAL STATES LINKS SPACE 2,6 * RESET LINKS. .NFE SET 0 BFIN SPACE 2,50 ** BLOCK HANDLER STATE PROCESSOR BFIN. * * BLOCK HANDLER STATE PROCESSOR BFIN PROCESSES AN * INOPERATIVE FRONT END. IF THE FRONT END IS A NPU A * CHECK IS MADE TO DETERMINE IF THE NPU HAS A SYSTEM * AUTOSTART MODULE. IF THE NPU DOES NOT HAVE A SYSTEM * AUTOSTART MODULE THE COMMAND ORDINAL IS SET TO REQUEST * THE LOAD OF THE LOCAL NPU BOOTSTRAP AND THE BLOCK * HANDLER STATE RESPONSE ACTION IS EXECUTED. THIS WILL * CAUSE THE LOAD REQUEST TO BE TRANSFERRED TO THE INBOUND * BUFFER. IF THE NPU DOES HAS A SYSTEM AUTOSTART * MODULE OR THE FRONT END IS A MDI, THE BLOCK * HANDLER STATE WILL WAIT FOR A CHANGE OF STATE FOR THE * FRONT END. A CHANGE OF STATE FOR THE NPU IS DEFINED * AS A REQUEST FOR INITIALIZATION OR INITIALIZATION * COMPLETED STATUS FROM THE NPU. THIS STATE CHANGE IS * DETECTED IN NPU STATUS PROCESSING. A CHANGE OF STATE * FOR THE MDI IS DEFINED AS A DETECTION OF A MDI IN * EITHER OPERATIONAL OR DIAGNOSTIC STATE. IF OUTPUT IS * REQUESTED THE STREAM STATE RESPONSE ACTION FOR FRONT * END INOPERATIVE IS EXECUTED. IF AN ACTION IS REQUESTED * THE BLOCK RESPONSE ACTION FOR THAT ACTION IS EXECUTED. * FOR THE NPU INPUT AVAILABLE IS CHECKED AND IF INPUT IS * AVAILABLE THE STATUS DRIVER NOT READY FOR INPUT IS * RETURNED TO THE NPU. * * ENTRY - * * (BT) = OUTPUT BLOCK TYPE, IF ANY, * (FEI) = FRONT END TABLE ADDRESS, * (FTY) = FRONT END TYPE. * * CALLS - * * GNBT - GET NETWORK BUFFER TABLE ADDRESS, * TFL - FORM ABSOLUTE CENTRAL ADDRESS, * EOIA - EXECUTE OUTPUT INITIATOR RESPONSE ACTION, * CKIA - CHECK INPUT AVAILABLE FROM NPU, * GMS - OBTAIN MDI GENERAL STATUS, * ESRA - EXECUTE STREAM RESPONSE ACTION, * EBRA - EXECUTE BLOCK STATE RESPONSE ACTION, * FNC - FUNCTION NPU COUPLER. * * PROCESSOR CALLS - * * OUTPUT INITIATOR RESPONSE ACTION PROCESSOR, * STREAM STATE RESPONSE ACTION PROCESSOR, ** BLOCK HANDLER STATE RESPONSE ACTION PROCESSOR. BFIN STATE PROCESS INOPERATIVE FRONT END LDM FTY,FEI LOAD FRONT END TYPE NJN BWFC EXIT IF FRONT END IS MDI RJM GNBT EXIT TO GET NBT HEADER ABSOLUTE ADDRESS CRD T0 READ NETWORK BUFFER TABLE HEADER WORD LDD T0+/NAM/C.NBTBS LOAD BUFFER STATUS BYTE SHN 17-/NAM/S.NBTSAM POSITION AUTOSTART MODULE FLAG TO SIGN MJN BWFC EXIT IF NPU HAS SAM MODULE LDN /TABLES/LBNP LOAD NPU BOOTSTRAP LOAD REQUEST ORDINAL BFIN.1 LINK ENTRY STD CO STORE COMMAND ORDINAL RJM EOIA EXIT TO EXECUTE OUTPUT INITIATOR ACTION PJN BWFC.1 EXIT IF OUTPUT REQUESTED ADN 1 PLUS ONE NJN BFIN.4 EXIT IF ACTION REQUESTED BFIN.2 LINK ENTRY LDN /TABLES/.PRCM LOAD PROCESS COMMAND ACTION ORDINAL BFIN.3 LINK ENTRY STD CTL STORE BLOCK HANDLER STATE ACTION ORDINAL EXIT BIAS.6 EXIT TO EXECUTE BLOCK RESPONSE ACTION BFIN.4 LINK ENTRY EXIT BIAS.5 EXIT TO STORE IVT COMMAND ORDINAL BWFC SPACE 2,40 ** BLOCK HANDLER STATE PROCESSOR BWFC. * * BLOCK HANDLER STATE PROCESSOR BWFC WAITS FOR A CHANGE * OF STATE FOR THE FRONT END. A CHANGE OF STATE FOR THE * NPU IS DEFINED AS A REQUEST FOR INITIALIZATION OR * INITIALIZATION COMPLETED STATUS FROM THE NPU. THIS * STATE CHANGE IS DETECTED IN NPU STATUS PROCESSING. A * CHANGE OF STATE FOR THE MDI IS DEFINED AS DETECTION OF * THE MDI IN EITHER OPERATIONAL OR STARTING STATE. * * IF OUTPUT IS REQUESTED THE STREAM STATE RESPONSE ACTION * FOR FRONT END INOPERATIVE IS EXECUTED. IF AN ACTION * IS REQUESTED THE BLOCK RESPONSE FOR THAT ACTION IS * EXECUTED. * * NPU * * INPUT AVAILABLE IS CHECKED AND IF INPUT IS AVAILABLE * THE STATUS DRIVER NOT READY FOR INPUT IS RETURNED TO * THE NPU. * * MDI * * OBTAIN DETAIL STATUS AND CHECK FOR PACER CHANNEL * PROTOCOL. IF PACER PROTOCOL, EXECUTE PACER EQUIPMENT * BLOCK RESPONSE ACTION. * * ENTRY - * * (BT) = OUTPUT BLOCK TYPE, IF ANY, * (FEI) = FRONT END TABLE ADDRESS, * (FTY) = FRONT END TYPE. * * CALLS - * * EOIA - EXECUTE OUTPUT INITIATOR ACTION, * CKIA - CHECK INPUT AVAILABLE FROM NPU, * GMS - OBTAIN MDI GENERAL STATUS, * FNC - FUNCTION CHANNEL, * ACN - ACTIVATE CHANNEL, * ASUD - ACCEPT UNPACKED INPUT DATA, * EBRA - EXECUTE BLOCK STATE RESPONSE ACTION, * ESRA - EXECUTE DTREAM STATE RESPONSE ACTION. * * PROCESSOR CALLS - * * OUTPUT INITIATOR RESPONSE ACTION, * BLOCK HANDLER STATE RESPONSE ACTION, ** STREAM STATE RESPONSE ACTION PROCESSOR. BWFC STATE WAIT FOR FRONT END STATE CHANGE RJM EOIA EXIT TO EXECUTE OUTPUT INITIATOR ACTION PJN BWFC.1 EXIT IF OUTPUT REQUESTED ADN 1 PLUS ONE NJN BFIN.4 EXIT IF ACTION REQUESTED LDM FTY,FEI LOAD FRONT END TYPE NJN BWFC.3 EXIT IF FRONT END IS MDI FEIO FEIA EXIT TO CHECK FOR NPU INPUT AVAILABLE MJN BWFC.2 EXIT IF NPU INPUT NOT AVAIABLE EXIT CEH.5 EXIT TO SET DRIVER NOT READY FOR INPUT BWFC.1 LINK ENTRY LDN /TABLES/.SFEI LOAD FRONT END INOPERATIVE ACTION ORDINAL RJM ESRA EXIT TO EXECUTE STREAM RESPONSE ACTION BWFC.2 EXIT CEHX RETURN VIA COUPLER EXCHANGE ROUTINE BWFC.3 LDN /MSTATUS/START VALUE OF MDI STARTING STATE STM MGS,FEI RESET SAVED MDI STATE TO STARTING STATE LDN 0 EXIT ERROR CONDITIONS FOR SUBROUTINE GMS RJM /MDI/GMS EXIT TO OBTAIN MDI GENERAL STATUS MJN BWFC.4 EXIT IF UNABLE TO OBTAIN MDI GENERAL STATUS NJN BWFC.5 EXIT IF MDI NOT REPORTING ERROR BWFC.4 EXIT NFE EXIT TO PROCESS NEXT FRONT END BWFC.5 RJM OMDS EXIT TO OBTAIN MDI DETAILED STATUS LDM DRBUF+/MSTATUS/VERNO CHANNEL PROTOCOL VERSION STM CHVER,FEI STORE MDI CHANNEL PROTOCOL VERSION SBK /MSTATUS/MINV LESS MINIMUM SUPPORTED BY PIP PJN BWFC.7 EXIT IF MDI GREATER THAN PIP MINIMUM BWFC.6 EREXIT NSS UNABLE TO SUPPORT MDI CHANNEL PROTOCOL BWFC.7 SBK /MSTATUS/MAXV-/MSTATUS/MINV LESS HIGHEST VERSION MJN BWFC.11 EXIT IF MDI LESS THAN PIP MAXIMUN LDM CHVER,FEI LOAD MDI CHANNEL PROTOCOL VERSION LPN PACER EXTRACT PACER PROTOCOL VERSIONS ZJN BWFC.10 EXIT IF NOT PACER PROTOCOL ACTIVE BWFC.8 LDN /NAM/W.NBTNS+4 OFFSET FOR CHANNEL PROTOCOL WORD RJM GNBT EXIT TO GET NETWORK BUFFER TABLE ADDRESS CRD T0 READ NETWORK BUFFER TABLE WORD STD T5+1 STORE LOW-ORDER OF BUFFER TABLE ADDRESS SHN -12 POSITION HIGH-ORDER OF ADDRESS STD T5 STORE HIGH-ORDER OF BUFFER TABLE ADDRESS LDM DRBUF+/MSTATUS/VERNO CHANNEL PROTOCOL VERSION STD T0+/NAM/C.NBTCV STORE CHANNEL PROTOCOL VERSION LDD T5 LOAD HIGH-ORDER OF BUFFER TABLE ADDRESS SHN 12 POSITION TO HIGH-ORDER ADD T5+1 PLUS LOW-ORDER OF BUFFER TABLE ADDRESS CWD T0 UPDATE NETWORK BUFFER TABLE WORD LDM CHVER,FEI LOAD MDI CHANNEL PROTOCOL VERSION LPN PACER EXTRACT PACER PROTOCOL VERSIONS ZJN BWFC.9 EXIT IF NOT PACER PROTOCOL LDN /TABLES/.MPAC-/TABLES/.MFOP DELTA FOR PACER PROTOCOL BWFC.9 ADN /TABLES/.MFOP LOAD MDI OPERATIONAL ACTION ORDINAL STD CTL STORE BLOCK HANDLER STATE ACTION ORDINAL EXIT BIAS.6 EXIT TO EXECUTE BLOCK RESPONSE ACTION BWFC.10 LDK /MSTATUS/MAXV LOAD MAXIMUM PROTOCOL SUPPORTED BY PIP STM CHVER,FEI SET CHANNEL PROTOCOL TO PIP MAXIMUM BWFC.11 LDM CHVER,FEI LOAD MDI CHANNEL PROTOCOL VERSION SBK /MSTATUS/VERSION4 LESS VERSION THAT SUPPORTS REQUEST PROTOCOL VERSION FUNCTION MJN BWFC.15 EXIT UNABLE TO REQUEST PROTOCOL VERSION LDM MGS,FEI LOAD MDI GENERAL STATUS SHN 17-/MSTATUS/OPR POSITION OPERATION BIT TO SIGN PJN BWFC.12 EXIT IF MDI OPERATIONAL LDK /FUNCTION/MCL MASTER CLEAR MDI FUNCTION CODE RJM /MDI/FNC EXIT TO MASTER CLEAR MDI EXIT PPRU EXIT TO PROCESS PRU STREAMS BWFC.12 LDK /FUNCTION/RPV REQUEST PROTOCOL VERSION FUCNTION CODE ADK /MSTATUS/MAXV PLUS MAXIMUM PROTOCOL SUPPORTED BY PIP RJM /MDI/FNC EXIT TO REQUEST CHANNEL PROTOCOL VERSION BWFC.13 RJM OMDS EXIT TO OBTAIN MDI DETAIL STATUS LDM DRBUF+/MSTATUS/VERNO MDI CHANNEL PROTOCOL VERSION LMM CHVER,FEI LESS REQUIRED CHANNEL PROTOCOL VERSION ZJN BWFC.14 EXIT IF CHANNEL PROTOCOL MATCH UJK BWFC.6 UNABLE TO SUPPORT CHANNEL PROTOCOL VERSION BWFC.14 UJK BWFC.8 EXIT TO STORE CHANNEL PROTOCOL INTO NBT BWFC.15 LDN /FUNCTION/SPV FUNCTION TO SET PROTOCOL VERSION RJM /MDI/FNC EXIT TO ISSUE SET PROTOCOL VERSION FUNCTION LDN /MDI/B.ABTNMS+/MDI/B.ABTMES SUBROUTINE GMS ERROR EXITS RJM /MDI/GMS GET GENERAL STATUS LDM MGS,FEI MDI GENERAL STATUS SHN 17-/MSTATUS/SDT PERMISSION TO SEND TO SIGN MJN BWFC.16 EXIT IF SEND DATA ALLOWED EXIT PPRU RETURN VIA COUPLER EXCHANGE HANDLER BWFC.16 LDC /FUNCTION/WDT FUNCTION TO OUTPUT DATA RJM /MDI/FNC EXIT TO ISSUE OUTPUT DATA FUNCTION RJM /MDI/ACN EXIT TO ACTIVATE CHANNEL LDN 0 CONSTANT ZERO STD REOT INITIALIZE REQUEST END OF TRANSFER FLAG STD NCC INITIALIZE MDI MESSAGE CHARACTER COUNT STM /MDI/CP INITIALIZE MDI CHARACTER POSITION LDK ZERL LOAD ADDRESS OF ZERO WORD CRM DRBUF+/MSTATUS/L.DS8,ON INITIALIZE DATA BUFFER LDM CHVER,FEI LOAD DESIRED CHANNEL PROTOCOL VERSION STM DRBUF+/MSTATUS/L.DS8+3 STORE DESIRED CHANNEL PROTOCOL LDC DRBUF+/MSTATUS/L.DS8 ADDRESS OF OUTPUT MESSAGE STD T1 SAVE STARTING ADDRESS OF TRANSFER LDN 6 LENGTH OF SET PROTOCOL VERSION MESSAGE STD T2 SAVE NO OF BYTE TO TRANSFER CLIO FEOP EXIT TO TRANSFER EIGHT BIT FORMATTED DATA RJM /MDI/WEO EXIT TO WAIT FOR END OF TRANSFER UJK BWFC.13 EXIT TO OBTAIN MDI DETAIL STATUS BNRI SPACE 2,32 ** BLOCK HANDLER STATE PROCESSOR BNRI. * * BLOCK HANDLER STATE PROCESSOR BNRI PROCESSES A NPU * THAT HAS REQUESTED INITIALIZATION. IF OUTPUT IS * REQUESTED THE STREAM STATE RESPONSE ACTION FOR NPU * INOPERATIVE IS EXECUTED. IF OUTPUT IS NOT REQUESTED * THE COMMAND ORDINAL IS SET TO REQUEST THE LOAD OF A * FRONT END NPU AND THE BLOCK HANDLER STATE RESPONSE * ACTION IS EXECUTED. THIS WILL CAUSE THE LOAD REQUEST * TO BE TRANSFERRED TO THE INBOUND BUFFER. * * ENTRY - * * (BT) = OUTPUT BLOCK TYPE, IF ANY. * * CALLS - * * EOIA - EXECUTE OUTPUT INITIATOR RESPONSE ACTION, * ESRA - EXECUTE STREAM STATE RESPONSE ACTION, * EBRA - EXECUTE BLOCK STATE RESPONSE ACTION. * * PROCESSOR CALLS - * * OUTPUT INITIATOR RESPONSE ACTION PROCESSOR, * STREAM STATE RESPONSE ACTION PROCESSOR, ** BLOCK HANDLER STATE RESPONSE ACTION PROCESSOR. BNRI STATE PROCESS NPU REQUEST FOR INITIALIZATION LDN /TABLES/LLNP LOAD NPU LOAD REQUEST COMMAND ORDINAL EXIT BFIN.1 EXIT TO STORE STORE COMMAND ORDINAL BNIC SPACE 2,34 ** BLOCK HANDLER STATE PROCESSOR BNIC. * * BLOCK HANDLER STATE PROCESSOR BNIC PROCESSES A NPU * THAT HAS REPORTED INITIALIZATION COMPLETED. IF OUTPUT * IS REQUESTED THE STREAM STATE RESPONSE ACTION FOR NPU * INOPERATIVE IS EXECUTED. IF OUTPUT IS NOT REQUESTED * THE COMMAND ORDINAL IS SET TO REQUEST THE REGULATION * LEVEL OF THE HOST AND THE BLOCK HANDLER STATE RESPONSE * ACTION IS EXECUTED. THIS WILL CAUSE THE REQUEST HOST * REGULATION LEVEL TO BE TRANSFERRED TO THE INBOUND * BUFFER AND THE HOST REGULATION LEVEL ZERO INDICATED * TO THE NPU. * * ENTRY - * * (BT) = OUTPUT BLOCK TYPE, IF ANY. * * CALLS - * * EOIA - EXECUTE OUTPUT INITIATOR RESPONSE ACTION, * ESRA - EXECUTE STREAM STATE RESPONSE ACTION, * EBRA - EXECUTE BLOCK STATE RESPONSE ACTION. * * PROCESSOR CALLS - * * OUTPUT INITIATOR RESPONSE ACTION PROCESSOR, * STREAM STATE RESPONSE ACTION PROCESSOR, ** BLOCK HANDLER STATE RESPONSE ACTION PROCESSOR. BNIC STATE PROCESS NPU INITIALIZATION COMPLETED LDN /TABLES/RQRL LOAD REQUEST HOST REGULATION LEVEL ORDINAL EXIT BFIN.1 EXIT TO STORE COMMAND ORDINAL BCEM SPACE 2,32 ** BLOCK HANDLER STATE PROCESSOR BCEM. * * BLOCK HANDLER STATE PROCESSOR BCEM PROCESSES AN ERROR * CONDITION DETECTED BY THE DRIVER. IF OUTPUT IS * REQUESTED THE STREAM STATE RESPONSE ACTION FOR NPU * INOPERATIVE IS EXECUTED. IF OUTPUT IS NOT REQUESTED * THE COMMAND ORDINAL IS SET TO CE ERROR MESSAGE AND THE * BLOCK HANDLER STATE RESPONSE ACTION IS EXECUTED. THIS * WILL CAUSE THE CE ERROR MESSAGE TO BE TRANSFERRED TO * THE INBOUND BUFFER. * * ENTRY - * * (BT) = OUTPUT BLOCK TYPE, IF ANY. * * CALLS - * * EOIA - EXECUTE OUTPUT INITIATOR RESPONSE ACTION, * ESRA - EXECUTE STREAM STATE RESPONSE ACTION, * EBRA - EXECUTE BLOCK STATE RESPONSE ACTION. * * PROCESSOR CALLS - * * OUTPUT INITIATOR RESPONSE ACTION PROCESSOR, * STREAM STATE RESPONSE ACTION PROCESSOR, ** BLOCK HANDLER STATE RESPONSE ACTION PROCESSOR. BCEM STATE PROCESS DRIVER DETECTED ERROR LDN /TABLES/CEER LOAD CE ERROR MESSAGE COMMAND ORDINAL EXIT BFIN.1 EXIT TO STORE COMMAND ORDINAL BSRZ SPACE 2,32 ** BLOCK HANDLER STATE PROCESSOR BSRZ. * * BLOCK HANDLER STATE PROCESSOR BSRZ PROCESSES A * TERMINATION OF TRAFFIC TO THE FRONT END. IF OUTPUT IS * REQUESTED THE STREAM STATE RESPONSE ACTION FOR FRONT * END INOPERATIVE IS EXECUTED. IF OUTPUT IS NOT * REQUESTED THE COMMAND ORDINAL IS SET TO REGULATION * LEVEL ZERO AND THE BLOCK HANDLER STATE RESPONSE ACTION * IS EXECUTED. THIS WILL CAUSE THE REGULATION LEVEL ZERO * COMMAND TO BE TRANSFERRED TO THE INBOUND BUFFER. * * ENTRY - * * (BT) = OUTPUT BLOCK TYPE, IF ANY. * * CALLS - * * EOIA - EXECUTE OUTPUT INITIATOR RESPONSE ACTION, * ESRA - EXECUTE STREAM STATE RESPONSE ACTION, * EBRA - EXECUTE BLOCK STATE RESPONSE ACTION. * * PROCESSOR CALLS - * * OUTPUT INITIATOR RESPONSE ACTION PROCESSOR, * STREAM STATE RESPONSE ACTION PROCESSOR, ** BLOCK HANDLER STATE RESPONSE ACTION PROCESSOR. BSRZ STATE PROCESS TERMINATION OF TRAFFIC TO FRONT END LDN /TABLES/STR0 REGULATION LEVEL ZERO COMMAND ORDINAL EXIT BFIN.1 EXIT TO STORE COMMAND ORDINAL BSFO SPACE 2,32 ** BLOCK HANDLER STATE PROCESSOR BSFO. * * BLOCK HANDLER STATE PROCESSOR BSFO PROCESSES A FRONT * END THAT HAS BEEN TURNED OFF. IF OUTPUT IS REQUESTED * THE STREAM STATE RESPONSE ACTION FOR FRONT END * INOPERATIVE IS EXECUTED. IF OUTPUT IS NOT REQUESTED * THE COMMAND ORDINAL IS SET TO FRONT END TURNED OFF AND * THE BLOCK HANDLER STATE RESPONSE ACTION IS EXECUTED. * THIS WILL CAUSE THE FRONT END TURNED OFF COMMAND TO BE * TRANSFERRED TO THE INBOUND BUFFER. * * ENTRY - * * (BT) = OUTPUT BLOCK TYPE, IF ANY. * * CALLS - * * EOIA - EXECUTE OUTPUT INITIATOR RESPONSE ACTION, * ESRA - EXECUTE STREAM STATE RESPONSE ACTION, * EBRA - EXECUTE BLOCK STATE RESPONSE ACTION. * * PROCESSOR CALLS - * * OUTPUT INITIATOR RESPONSE ACTION PROCESSOR, * STREAM STATE RESPONSE ACTION PROCESSOR, ** BLOCK HANDLER STATE RESPONSE ACTION PROCESSOR. BSFO STATE GENERATE FRONT END TURNED OFF COMMAND LDN /TABLES/FETO FRONT END TURNED OFF COMMAND ORDINAL EXIT BFIN.1 EXIT TO STORE COMMAND ORDINAL BRMI SPACE 2,32 ** BLOCK HANDLER STATE PROCESSOR BRMI. * * BLOCK HANDLER STATE PROCESSOR BRMI PROCESSES A MDI * THAT IS IN DIAGNOSTIC STATE. IF OUTPUT IS REQUESTED * THE STREAM STATE RESPONSE ACTION FOR FRONT END * INOPERATIVE IS EXECUTED. IF OUTPUT IS NOT REQUESTED * THE COMMAND ORDINAL IS SET TO REQUEST MDI * INITIALIZATION AND THE BLOCK HANDLER STATE RESPONSE * ACTION IS EXECUTED. THIS WILL CAUSE THE REQUEST MDI * INITIALIZATION COMMAND TO BE TRANSFERRED TO THE * INBOUND BUFFER. * * ENTRY - * * (BT) = OUTPUT BLOCK TYPE, IF ANY. * * CALLS - * * EOIA - EXECUTE OUTPUT INITIATOR RESPONSE ACTION, * ESRA - EXECUTE STREAM STATE RESPONSE ACTION, * EBRA - EXECUTE BLOCK STATE RESPONSE ACTION. * * PROCESSOR CALLS - * * OUTPUT INITIATOR RESPONSE ACTION PROCESSOR, * STREAM STATE RESPONSE ACTION PROCESSOR, ** BLOCK HANDLER STATE RESPONSE ACTION PROCESSOR. BRMI STATE GENERATE REQUEST MDI INITIALIZATION COMMAND LDN /TABLES/RIMD REQUEST MDI INITIALIZATION COMMAND ORDINAL EXIT BFIN.1 EXIT TO STORE COMMAND ORDINAL BLTO SPACE 2,32 ** BLOCK HANDLER STATE PROCESSOR BLTO. * * BLOCK HANDLER STATE PROCESSOR BLTO PROCESSES A NPU THAT * HAS BEEN TIMED OUT WHILE LOADING THE BOOTSTRAP LOAD * MODULE. IF OUTPUT IS REQUESTED THE STREAM STATE * RESPONSE ACTION FOR NPU INOPERATIVE IS EXECUTED. IF * OUTPUT IS NOT REQUESTED THE COMMAND ORDINAL IS SET TO * BOOTSTRAP LOAD TIMEOUT AND THE BLOCK HANDLER STATE * RESPONSE ACTION IS EXECUTED. THIS WILL CAUSE THE * BOOTSTRAP LOAD TIMEOUT COMMAND TO BE TRANSFERRED TO * THE INBOUND BUFFER. * * ENTRY - * * (BT) = OUTPUT BLOCK TYPE, IF ANY. * * CALLS - * * EOIA - EXECUTE OUTPUT INITIATOR RESPONSE ACTION, * ESRA - EXECUTE STREAM STATE RESPONSE ACTION, * EBRA - EXECUTE BLOCK STATE RESPONSE ACTION. * * PROCESSOR CALLS - * * OUTPUT INITIATOR RESPONSE ACTION PROCESSOR, * STREAM STATE RESPONSE ACTION PROCESSOR, ** BLOCK HANDLER STATE RESPONSE ACTION PROCESSOR. BLTO STATE GENERATE BOOTSTRAP LOAD TIMEOUT COMMAND LDN /TABLES/BLTO BOOTSTRAP LOAD TIMEOUT COMMAND ORDINAL EXIT BFIN.1 EXIT TO STORE COMMAND ORDINAL BNLD SPACE 2,28 ** BLOCK HANDLER STATE PROCESSOR BNLD. * * BLOCK HANDLER STATE PROCESSOR BNLD PROCESSES A NPU THAT * IS BEING LOADED. IF OUTPUT IS REQUESTED THE STREAM * STATE RESPONSE ACTION FOR NPU INOPERATIVE IS EXECUTED. * IF AN ACTION IS REQUESTED THE BLOCK HANDLER RESPONSE * FOR THE ACTION IS EXECUTED. IF NEITHER OUTPUT OR AN * ACTION IS REQUESTED INPUT AVAILABLE IS CHECKED. * * ENTRY - * * (BT) = OUTPUT BLOCK TYPE, IF ANY. * * CALLS - * * EOIA - EXECUTE OUTPUT INITIATOR RESPONSE ACTION, * ESRA - EXECUTE STREAM STATE RESPONSE ACTION, * EBRA - EXECUTE BLOCK STATE RESPONSE ACTION. * * PROCESSOR CALLS - * * OUTPUT INITIATOR RESPONSE ACTION PROCESSOR, * STREAM STATE RESPONSE ACTION PROCESSOR, ** BLOCK HANDLER STATE RESPONSE ACTION PROCESSOR. BNLD STATE PROCESS NPU LOAD RJM EOIA EXIT TO EXECUTE OUTPUT INITIATOR ACTION MJN BWLD.1 EXIT IF OUTPUT NOT REQUESTED EXIT BWFC.1 EXIT TO EXECUTE STREAM RESPONSE ACTION BWLD.1 ADN 1 PLUS ONE NJN BWLD.2 EXIT IF ACTION REQUESTED EXIT CEH.3 EXIT TO INPUT IF NO OUTPUT OR ACTION BWLD.2 EXIT BIAS.5 EXIT TO STORE IVT COMMAND ORDINAL BNLB SPACE 2,34 ** BLOCK HANDLER STATE PROCESSOR BNLB. * * BLOCK HANDLER STATE PROCESSOR BNLB PROCESSES A NPU THAT * IS BEING LOADED WITH THE BOOTSTRAP PROGRAM. IF OUTPUT * IS REQUESTED THE STREAM STATE RESPONSE ACTION FOR NPU * INOPERATIVE IS EXECUTED. IF AN ACTION IS REQUESTED * THE BOOTSTRAP LOAD TIMER IS RESET AND THE BLOCK HANDLER * RESPONSE FOR THE ACTION IS EXECUTED. IF NEITHER OUTPUT * OR AN ACTION IS REQUESTED THE BOOTSTRAP LOAD TIMER IS * CHECKED AND IF EXPIRED THE BOOTSTRAP LOAD IS ABORTED. * * ENTRY - * * (BT) = OUTPUT BLOCK TYPE, IF ANY, * (FEI) = FRONT END TABLE ADDRESS, * (DTM) = BOOTSTRAP LOAD DEAD TIMER. * * CALLS - * * EOIA - EXECUTE OUTPUT INITIATOR RESPONSE ACTION, * ESRA - EXECUTE STREAM STATE RESPONSE ACTION, * EBRA - EXECUTE BLOCK STATE RESPONSE ACTION. * * PROCESSOR CALLS - * * OUTPUT INITIATOR RESPONSE ACTION PROCESSOR, * STREAM STATE RESPONSE ACTION PROCESSOR, ** BLOCK HANDLER STATE RESPONSE ACTION PROCESSOR. BNLB STATE PROCESS NPU LOAD BOOTSTRAP RJM EOIA EXIT TO EXECUTE OUTPUT INITIATOR ACTION PJN BWRR.1 EXIT IF OUTPUT REQUESTED ADN 1 PLUS ONE STD T0 STORE ACTION REQUESTED INDICATOR LDK RTCL LOAD ADDRESS OF SYSTEM REAL-TIME CLOCK CRD T1 READ SYSTEM REAL-TIME CLOCK LDD T0 LOAD ACTION REQUESTED INDICATOR NJN BNLB.1 EXIT IF ACTION REQUESTED LDD T1+1 LOAD SYSTEM SECOND TIME SBM DTM,FEI LESS BOOTSTRAP LOAD DEAD TIMER VALUE SHN 5+1 POSITION HIGH-ORDER VALUE BIT TO SIGN MJN BNLB.2 EXIT IF LOAD DEAD TIMER NOT EXPIRED LDN /TABLES/.BLTO LOAD LOADER TIMEOUT ACTION ORDINAL EXIT BFIN.3 EXIT TO STORE BLOCK RESPONSE ACTION ORDINAL BNLB.1 LDD T1+1 LOAD SYSTEM SECOND TIME ADK Q.BSDEAD PLUS BOOTSTRAP LOAD TIMEOUT QUANTUM STM DTM,FEI SET NPU DEAD TIMER TO BOOTSTRAP LOAD TIMER EXIT BIAS.5 EXIT TO STORE IVT COMMAND ORDINAL BNLB.2 LINK ENTRY EXIT CEHX RETURN VIA COUPLER EXCHANGE ROUTINE RETURN BWRR SPACE 2,30 * BLOCK HANDLER STATE PROCESSOR BWRR. * * BLOCK HANDLER STATE PROCESSOR BWRR PROCESSES A FRONT * END WAITING FOR A REGULATION LEVEL ZERO RESPONSE. IF * OUTPUT IS REQUESTED THE STREAM STATE RESPONSE ACTION * FOR FRONT END INOPERATIVE IS EXECUTED. IF AN ACTION IS * REQUESTED THE BLOCK HANDLER RESPONSE FOR THE ACTION * IS EXECUTED. * * ENTRY - * * (BT) = OUTPUT BLOCK TYPE, IF ANY. * * CALLS - * * EOIA - EXECUTE OUTPUT INITIATOR RESPONSE ACTION, * ESRA - EXECUTE STREAM STATE RESPONSE ACTION, * EBRA - EXECUTE BLOCK STATE RESPONSE ACTION. * * PROCESSOR CALLS - * * OUTPUT INITIATOR RESPONSE ACTION PROCESSOR, * STREAM STATE RESPONSE ACTION PROCESSOR, ** BLOCK HANDLER STATE RESPONSE ACTION PROCESSOR. BWRR STATE PROCESS WAIT REGULATION LEVEL ZERO RESPONSE RJM EOIA EXIT TO EXECUTE OUTPUT INITIATOR ACTION MJN BWRR.2 EXIT IF OUTPUT NOT REQUESTED BWRR.1 LINK ENTRY EXIT BWFC.1 EXIT TO EXECUTE STREAM RESPONSE ACTION BWRR.2 ADN 1 PLUS ONE ZJN BNLB.2 EXIT IF ACTION NOT REQUESTED BWRR.3 LINK ENTRY EXIT BIAS.5 EXIT TO STORE IVT COMMAND ORDINAL BWIN SPACE 2,44 ** BLOCK HANDLER STATE PROCESSOR BWIM. * * BLOCK HANDLER STATE PROCESSOR BWIM WAITS FOR THE MDI * TO BECOME AVAILABLE. IF OUTPUT IS REQUESTED THE STREAM * STATE RESPONSE ACTION FOR FRONT END INOPERATIVE IS * EXECUTED. IF AN ACTION IS REQUESTED THE BLOCK RESPONSE * ACTION FOR THAT ACTION IS EXECUTED. IF A TIMER IS * ACTIVE A CHECK IS MADE TO SEE IF THE TIMER HAS EXPIRED. * OTHERWISE THE EST ENTRY FOR THE MDI IS CHECKED FOR * BEING INTERLOCKED. IF THE EST ENTRY IS NOT INTERLOCKED * THE EQUIPMENT AND ITS CHANNEL ARE REQUESTED FROM THE * SYSTEM AND THE BLOCK HANDLER STATE RESPONSE ACTION FOR * MDI AVAILABLE IS EXECUTED. * * ENTRY - * * (BT) = OUTPUT BLOCK TYPE, IF ANY, * (FEI) = FRONT END TABLE ADDRESS, * (CHN) = MDI CHANNEL NUMBER. * * ERROR EXITS - * * EXIT TO *ERROR* IF MULTIPLE EQUIPMENTS OF CHANNEL, * EXIT TO *ERROR* IF NO EMPTY CHANNEL TABLE ENTRY. * * CALLS - * * EOIA - EXECUTE OUTPUT INITIATOR RESPONSE ACTION, * ESRA - EXECUTE STREAM STATE RESPONSE ACTION, * EBRA - EXECUTE BLOCK STATE RESPONSE ACTION, * GNBT - GET NETWORK BUFFER TABLE ADDRESS, * TFL - FORM ABSOLUTE CENTRAL ADDRESS, * MTR - REQUEST EQUIPMENT AND CHANNEL. * * PROCESSOR CALLS - * * OUTPUT INITIATOR RESPONSE ACTION PROCESSOR, * STREAM STATE RESPONSE ACTION PROCESSOR, ** BLOCK HANDLER STATE RESPONSE ACTION PROCESSOR. BWIM STATE WAIT FOR INTERLOCKED MDI RJM EOIA EXIT TO EXECUTE OUTPUT INITIATOR ACTION PJN BWRR.1 EXIT IF OUTPUT REQUESTED ADN 1 PLUS ONE NJN BWRR.3 EXIT IF ACTION REQUESTED LDM CTM,FEI LOAD PROTOCOL VERSION CHECK TIMER ZJN BWIM.2 EXIT IF TIMER NOT ACTIVE LDK RTCL ADDRESS OF SYSTEM REAL TIME CLOCK CRD T0 READ SYSTEM REAL TIME CLOCK LDD T0+1 SYSTEM SECOND TIME SBM CTM,FEI LESS TIME FOR PROTOCOL VERSION CHECK SHN 5+1 POSITION CARRY BIT TO SIGN PJN BWIM.2 EXIT IF TIMER HAS EXPIRED BWIM.1 EXIT NFE EXIT TO PROCESS NEXT FRONT END BWIM.2 LDN /NAM/W.NBTFP DELTA FOR NBT HEADER WORD RJM GNBT EXIT TO GET NBT HEADER ABSOLUTE ADDRESS CRD T0 READ EQUIPMENT WORD FROM BUFFER TABLE LDD T0+/NAM/C.NBTNA LOAD FRONT END EQUIPMENT BYTE LPC /NAM/L.NBTEST EXTRACT EST ORDINAL OF FRONT END STD T10+1 STORE ORDINAL FOR POSSIBLE REQUEST STD T6 SAVE EST ORDINAL SFA EST,T10+1 GENERATE ADDRESS OF EST ENTRY ADK EQDE PLUS OFFSET FOR QUIPMEN DESCRIPTION WORD CRD T0 READ EQUIPMENT DESCRIPTION WORD LDD T0+0 LOAD EQUIPMENT INTERLOCK BYTE FROM EST SHN 17-9 POSITION EQUIPMENT INTERLOCK FLAG TO SIGN PJN BWIM.24 EXIT IF EQUIPMENT NOT INTERLOCKED LDK RTCL REAL TIME SYSTEM CLOCK CRD T0 READ SYSTEM TIME LDD T0+1 SYSTEM TIME IN SECONDS SBM ECT,FEI MAXIMUM NUMBER OF SECONDS TO WAIT SHN 5+1 POSITION HIGH-ORDER VALUE BIT TO SIGN MJN BWIM.1 EXIT IF TIMER NOT EXPIRED BWIM.24 LDN 0 CONSTANT OF ZERO STD T10+2 STORE NORMAL REQUEST SUBFUNCTION LDN REQM LOAD MONITOR FUNCTION TO REQUEST EQUIPMENT RJM MTR EXIT TO REQUEST EQUIPMENT FROM SYSTEM LDD T10+1 LOAD SYSTEM REPLY BYTE ZJN BWIM.5 EXIT IF EQUIPMENT NOT AVAILABLE STD T0 SET NO EMPTY CHANNEL TABLE ENTRY FOUND LDN MAXFE-1 LOAD FRONT END CHANNEL TABLE LENGTH STD T1 INITIALIZE FRONT END CHANNEL TABLE INDEX BWIM.3 LDM FCT,T1 LOAD NEXT FRONT END CHANNEL TABLE ENTRY ZJN BWIM.7 EXIT IF FRONT END CHANNEL TABLE ENTRY EMPTY SBM CHN,FEI LESS CHANNEL FOR THIS FRONT END LPN 77B EXTRACT CHANNEL BITS NJN BWIM.8 EXIT IF NO FRONT END CHANNEL TABLE MATCH BWIM.4 EREXIT CTE EXIT TO ERROR - CHANNEL TABLE ERROR BWIM.5 LDM CTM,FEI LOAD PROTOCOL VERSION CHECK TIMER VALUE ZJN BWIM.6 EXIT IF TIMER NOT ACTIVE LDK RTCL LOAD ADDRESS OF SYSTEM REAL TIME CLOCK CRD T0 READ SYSTEM REAL TIME CLOCK LDD T0+1 LOAD SYSTEM SECOND TIME ADK Q.CHPRT PLUS CHANNEL PROTOCOL CHECK INTERVAL STM CTM,FEI SET CHECK CHANNEL PROTOCOL TIME BWIM.6 EXIT NFE EXIT TO PROCESS NEXT FRONT END BWIM.7 STD T0 SET EMPTY CHANNEL TABLE ENTRY FOUND LDD T1 LOAD FRONT END CHANNEL TABLE INDEX STD T2 STORE INDEX OF EMPTY TABLE ENTRY BWIM.8 SOD T1 DECREMENT FRONT END CHANNEL TABLE INDEX PJN BWIM.3 EXIT IF MORE TABLE ENTRIES TO PROCESS LDD T0 LOAD EMPTY TABLE ENTRY FOUND INDICATOR NJN BWIM.4 EXIT IF NO EMPTY TABLE ENTRY FOUND LDM CHN,FEI LOAD FRONT END CHANNEL NUMBER STD T10+1 STORE CHANNEL FOR REQUEST FUNCTION ADC 1S6 PLUS COUNT FOR ONE ACTIVE EQUIPMENT STM FCT,T2 STORE FRONT END CHANNEL TABLE ENTRY LDN RCHM LOAD MONITOR FUNCTION TO REQUEST CHANNEL RJM MTR EXIT TO REQUEST FRONT END CHANNEL LDN 1 CONSTANT OF ONE STM FTY,FEI SET EQUIPMENT TYPE TO AVAILABLE MDI LDN 0 CONSTANT OF ZERO STM CTM,FEI RESET CHECK CHANNEL PROTOCOL TIME STM ECT,FEI REINITIALIZE COUNTER STD T10+4 SAVE NO FLAGS TO SET BYTE LDN 4 SUBFUNCTION CODE TO CHANGE BYTE 0 STD T10+2 SAVE SUBFUNCTION CODE FOR REQUEST LDC 7777B&1S9 MASK TO CLEAR INTERLOCK FLAG STD T10+3 SAVE MASK FOR EQUIPMENT STATUS TABLE BYTE LDD T6 SET EST ORDINAL STD T10+1 STORE ORDINGAL FOR REQUEST LDN SEQM MTR FUNCTION TO SET EQUIPMENT PARAMETERS RJM MTR EXIT TO RESET EQUIPMENT INTERLOCKED FLAG LDN /TABLES/.MDAV LOAD MDI AVAILABLE ACTION ORDINAL EXIT BFIN.3 EXIT TO STORE BLOCK RESPONSE ACTION ORDINAL BRFE SPACE 2,20 ** BLOCK HANDLER STATE PROCESSOR BRFE. * * BLOCK HANDLER STATE PROCESSOR BRFE RELEASES THE * MDI EQUIPMENT AND THE CHANNEL USED BY THE MDI. * * CALLS - * * GNBT - GET NETWORK BUFFER TABLE ADDRESS, * MTR - RELEASE EQUIPMENT AND CHANNEL. * * ERROR EXITS - * ** EXIT TO *ERROR* IF MULTIPLE EQUIPMENTS ON CHANNEL. BRFE STATE RELEASE MDI EQUIPMENT AND CHANNEL LDN /NAM/W.NBTFP DELTA FOR NBT HEADER WORD RJM GNBT EXIT TO GET NBT HEADER ABSOLUTE ADDRESS CRD T0 READ EST POINTER WORD FROM BUFFER TABLE LDD T0+/NAM/C.NBTNA LOAD FRONT END EQUIPMENT BYTE LPC /NAM/L.NBTEST EXTRACT EST ORDINAL OF FRONT END STD T10+1 STORE ORDINAL OF FRONT END LDN DEQM LOAD FUNCTION TO RELEASE EQUIPMENT RJM MTR EXIT TO RELEASE EQUIPMENT LDM CHN,FEI LOAD FRONT END CHANNEL NUMBER LPN 77B EXTRACT FRONT END CHANNEL NUMBER STD T10+1 FRONT END CHANNEL FOR POSSIBLE RELEASE LDN 0 CONSTANT OF ZERO STD T10 INITIALIZE FRONT END CHANNEL TABLE INDEX BRFE.1 LDM FCT,T10 LOAD NEXT FRONT END CHANNEL TABLE ENTRY ZJN BRFE.2 EXIT IF TABLE ENTRY EMPTY LPN 77B EXTRACT FRONT END CHANNEL NUMBER LMD T10+1 LESS THIS FRONT END CHANNEL NUMBER ZJN BRFE.4 EXIT IF FRONT END CHANNEL TABLE MATCH BRFE.2 AOD T10 INCREMENT FRONT END TABLE INDEX LMN MAXFE LESS ENDING VALUE NJN BRFE.1 EXIT IF MORE TABLE ENTRIES BRFE.3 EREXIT CTE EXIT TO ERROR - NO CHANNEL TABLE ENTRY BRFE.4 LDC -1S6 LOAD VALUE TO DECREMENT FRONT END COUNT RAM FCT,T10 DECREMENT ACTIVE FRONT END COUNT SCN 77B CLEAR CHANNEL NUMBER NJN BRFE.3 RETURN IF OTHER FRONT ENDS ON CHANNEL STM FCT,T10 RESET FRONT END CHANNEL TABLE ENTRY LDN DCHM LOAD FUNCTION TO RELEASE CHANNEL RJM MTR EXIT TO RELEASE MDI CHANNEL LDK RTCL LOAD ADDRESS OF SYSTEM REAL TIME CLOCK CRD T0 READ SYSTEM REAL TIME CLOCK LDD T0+1 LOAD SYSTEM SECOND TIME ADK Q.CHPRT PLUS CHANNEL PROTOCOL CHECK INTERVAL STM CTM,FEI SET CHECK CHANNEL PROTOCOL TIME LDN 2 TYPE FOR UNAVAILABLE MDI STM FTY,FEI SET EQUIPMENT TYPE TO UNAVAILABLE MDI LDN /TABLES/.MDRL LOAD MDI RELEASED ACTION ORDINAL EXIT BFIN.3 EXIT TO STORE BLOCK RESPONSE ACTION ORDINAL OMDS SPACE 2,24 ** SUBROUTINE OMDS. * * SUBROUTINE OMDS OBTAINS THE * DETAIL STATUS OF THE CURRENT MDI. * * EXIT - * * (DRBUF + L.DS8) = MDI DETAIL STATUS. * * CALLS - * * FNC - FUNCTION MDI, * ACN - ACTIVATE CHANNEL, * ASUD - ACCEPT UNPACKED DATA, ** GMS - OBTAIN MDI GENERAL STATUS. OMDS SUBR ENTRY/EXIT LDN /FUNCTION/RDS READ DETAILED STATUS FUNCTION CODE RJM /MDI/FNC EXIT TO ISSUE READ DETAILED STATUS FUNCTION RJM /MDI/ACN EXIT TO ACTIVATE CHANNEL LDN /MSTATUS/L.DS8 LENGTH OF DETAILED STATUS STM /MDI/MC MESSAGE CHARACTER COUNT LDN 0 CONSTANT ZERO STD NCC INITIALIZE INPUT CHARACTER COUNTER STM /MDI/CP RESET CURRENT CHARACTER POSITION LDC DRBUF FWA OF BUFFER TO HOLD DETAILED STATUS STD T1 SAVE FOR I/O TRANSFER ROUTINE ADN /MSTATUS/L.DS8-1 PLUS LENGTH OF BUF FOR DETAILED STATUS RJM ASUD EXIT TO INPUT DETAILED STATUS FROM MDI LDN /MDI/B.ABTNMS+/MDI/B.ABTMES SET ERROR EXIT CONDITIONS RJM /MDI/GMS EXIT TO GET GENERAL STATUS UJK OMDSX RETURN PDCM TITLE DRIVER SUPPORT PROCESSORS. PDCM SPACE 2,38 QUAL * RESET LINKS .ERROR SET 0 .EOIAX SET 0 ** DRIVER SUPPORT PROCESSOR PDCM. * * DRIVER SUPPORT PROCESSOR PDCM PROCESSES AN IVT COMMAND * ADDRESS TO A FRONT END ON THE SERVICE CHANNEL. * * ENTRY - * * (NBH-NBH+L.BH) = NAM BLOCK HEADER, * (NNH-NNH+L.NH) = NAM NETWORK HEADER, * (CBA-CBA+1) = CURRENT ABSOLUTE BUFFER ADDRESS, * (OPL) = OUTPUT PRIORITY LEVEL FOR STREAM. * * EXIT - * * (A) = MINUS TWO, * (PCBUF-PCBUF+L.CM) = PACKED COMMAND, * (CHB-CHB+L.CH) = COMMAND HEADER, * (DRBUF-DRBUF+L.CM) = UNPACKED COMMAND, * (T17) = COMMAND ORDINAL, * (CTL) = BLOCK HANDLER STATE * RESPONSE ACTION ORDINAL, * (OW) = NPU ORDER WORD IMAGE. * * ERROR EXITS - * * EXIT TO *ERROR* IF IVT OUTPUT PARAMETER ERROR, * EXIT TO *ERROR* IF IVT COMMAND FORMAT ERROR. * * CALLS - * * UPD - UNPACK DATA, * TLU = TABLE LOOKUP, ** GTE - GET TABLE ENTRY. PDCM LINK ENTRY LDM NNH+/NAM/C.CBT LOAD APPLICATION CHARACTER TYPE BYTE SHN -/NAM/S.ACT APPLICATION CHARACTER TYPE TO LOW-ORDER LPN /NAM/L.ACT EXTRACT APPLICATION CHARACTER TYPE LMN /TABLES/PEB LESS PACKED EIGHT BIT CHARACTER TYPE NJN PDCM.1 EXIT IF NOT PACKED EIGHT BIT CHARACTERS LDC L.DBCM*15/2 LOAD CHARACTERS PER DRIVER BUFFER STD OCB STORE CHARACTERS PER DRIVER BUFFER LDC FEOP LOAD ADDRESS OF OUTPUT CHARACTER PROCESSOR STD OCP STORE ADDRESS OF OUTPUT CHARACTER PROCESSOR LDM NBH+/NAM/C.BWD+1 LOAD COMMAND TEXT WORD LENGTH STD T17 STORE CENTRAL WORD COUNT SBN PCBOCM+1 LESS PACKED COMMAND BUFFER WORD LENGTH MJN PDCM.2 EXIT IF COMMAND TEXT LENGTH IN RANGE PDCM.1 EREXIT IOC EXIT TO ERROR - ILLEGAL OUTPUT COMMAND PDCM.2 LDD CBA LOAD HIGH-ORDER OF ABSOLUTE BUFFER ADDRESS SHN 12 POSITION TO HIGH-ORDER ADD CBA+1 PLUS LOW-ORDER OF ABSOLUTE BUFFER ADDRESS CRM PCBUFO,T17 READ PACKED COMMAND TEXT LDC PCBUFO LOAD ADDRESS OF PACKED COMMAND BUFFER STD T1 STORE SOURCE DATA ADDRESS LDC NCH LOAD ADDRESS OF COMMAND HEADER BUFFER STD T2 STORE DESTINATION DATA ADDRESS LDM NNH+/NAM/C.MCC LOAD COMMAND TEXT LENGTH IN CHARACTERS RJM /2IQ/UPD EXIT TO UNPACK COMMAND TEXT LDM NCH+/BLOCK/SFC LOAD SECONDARY FUNCTION CODE SCN 17B CLEAR LOW-ORDER BITS NJN PDCM.1 EXIT SECONDARY FUNCTION CODE OUT OF RANGE LDM NCH+/BLOCK/PFC LOAD PRIMARY FUNCTION CODE SHN 4 POSITION TO TABLE FORMAT ADM NCH+/BLOCK/SFC PLUS SECONDARY FUNCTION CODE STD TAR STORE TABLE ARGUMENT LDC /TABLES/NIOC LOAD ADDRESS OF OUTPUT COMMAND TABLE RJM TLU EXIT TO FIND OUTPUT COMMAND TABLE ENTRY MJN PDCM.6 EXIT IF COMMAND NOT IN TABLE STD T17 STORE COMMAND ORDINAL LMN /TABLES/OVER LESS VALUE FOR OVERLAY COMMAND NJN PDCM.3 EXIT IF NOT OVERLAY COMMAND LDM DRBUF+/BLOCK/FUNC LOAD OVERLAY FUNCTION CODE RAD T17 ADD TO COMMAND ORDINAL SBN /TABLES/OVMX LESS MAXIMUM VALID COMMAND ORDINAL PJN PDCM.6 EXIT IF OVERLAY FUNCTION CODE NOT IN TABLE PDCM.3 LDD T17 LOAD COMMAND ORDINAL LMN /TABLES/CGRL LESS VALUE FOR CHANGE REGULATION LEVEL ZJN PDCM.7 EXIT IF CHANGE REGULATION LEVEL PDCM.4 LDC /TABLES/NICR FWA OF IVT COMMAND RESPONSE TABLE ADD T17 PLUS IVT COMMAND ORDINAL RJM GTE EXIT TO GET RESPONSE TABLE ENTRY PDCM.5 STD CTL STORE BLOCK HANDLER STATE RESPONSE ACTION LDM NNH+/NAM/C.MCC LOAD MESSAGE TEXT CHARACTER COUNT ADN /BLOCK/L.BH PLUS NPU BLOCK HEADER CHARACTER LENGTH ADN 16-1 ROUND UP FOR MODULUS SIXTEEN SHN -4 CHARACTER LENGTH MODULUS SIXTEEN STD OW STORE LENGTH IN NPU ORDER WORD FORMAT LDD OPL LOAD OUTPUT PRIORITY LEVEL SHN /NORDER/S.NPUOL PRIORITY TO ORDER WORD FORMAT RAD OW ADD TO OUTPUT BLOCK LENGTH LCN 2 SET A-REGISTER TO MINUS TWO EXIT EOIAX RETURN VIA OUTPUT INITIATOR ACTION RETURN PDCM.6 LDN /TABLES/.CMPT LOAD ACTION TO ALLOW PASS THROUGH UJK PDCM.5 EXIT TO STORE BLOCK STATE RESPONSE ACTION PDCM.7 LDM DRBUF+/BLOCK/REGR LOAD REGULATION RESPONSE FLAG LPN 1 EXTRACT REGULATION RESPONSE FLAG RAD T17 ADD TO COMMAND ORDINAL UJK PDCM.4 EXIT TO GET RESPONSE TABLE ENTRY PIOF SPACE 2,34 ** DRIVER SUPPORT PROCESSOR PIOF. * * DRIVER SUPPORT PROCESSOR PIOF PROCESSES AN * OUTPUT TO THE FRONT END THAT REQUIRES FLOW CONTROL. A * CHECK IS MADE TO ASSURE THAT THE NETWORK BLOCK LIMIT IS * NOT EXCEEDED FOR THE STREAM. THE BLOCK SERIAL NUMBER * FOR THE TRANSFER IS OBTAINED AND THE BLOCK SERIAL * NUMBER IS UPDATED FOR THE NEXT TRANSFER. THE * OUTSTANDING OUTPUT BACK COUNT IS INCREMENTED TO REFLECT * THE CURRENT TRANSFER TO THE FRONT END. * * ENTRY - * * (BSBN) = BLOCK SERIAL NUMBERS AND BACK COUNTS, * (NBL) = NETWORK BLOCK LIMT FOR STREAM, * (BHB+BNBT) = OUTPUT PRIORITY FOR STREAM, * (OPL) = OUTPUT PRIORITY LEVEL FOR STREAM, * (NNH+C.MCC) = OUTPUT MESSAGE CHARACTER COUNT. * * EXIT - * * (OW) = NPU ORDER WORD IMAGE, * (BSBN) = UPDATED FOR CURRENT TRANSFER, * (BHB+BNBT) = OUTPUT PRIORITY AND BLOCK NUMBER. * * ERROR EXITS - * ** EXIT TO *ERROR* IF FLOW CONTROL LOGIC ERROR. PIOF LINK CHECK OUTPUT FLOW CONTROL LDD BSBC LOAD BLOCK SERIAL NUMBERS AND BACK COUNTS LPN /NAM/L.OBC EXTRACT OUTSTANDING OUTPUT BACK COUNT SBD NBL LESS NETWORK BLOCK LIMIT FOR STREAM MJN *+3 EXIT IF NETWORK BLOCK LIMIT NOT REACHED LJM /ACTIONS/OIOF.2 EXIT IF NETWORK BLOCK LIMIT EXCEEDED LDD BSBC LOAD BLOCK SERIAL NUMBERS AND BACK COUNTS LPN /NAM/M.OBN EXTRACT OUTPUT BLOCK SERIAL NUMBER STD T0 STORE OUTPUT BLOCK SERIAL NUMBER LMD BSBC RESET OUTPUT BLOCK SERIAL NUMBER STD BSBC STORE BLOCK SERIAL NUMBERS AND BACK COUNTS LDD T0 LOAD OUTPUT BLOCK SERIAL NUMBER SHN /BLOCK/S.BSN-/NAM/S.OBN POSITION TO NPU FORMAT RAM BHB+/BLOCK/BNBT ADD TO BLOCK PRIORITY FOR STREAM LDD T0 LOAD OUTPUT BLOCK SERIAL NUMBER ADN /NAM/I.OBN&/NAM/I.OBC INCREMENT NUMBER AND BACK COUNT LPN /NAM/M.OBN&/NAM/L.OBC EXTRACT NUMBER AND BACK INCREMENT RAD BSBC ADD TO BLOCK SERIAL NUMBERS AND BACK COUNTS LPN /NAM/M.OBN EXTRACT NEXT OUTPUT BLOCK SERIAL NUMBER NJN PIOF.1 EXIT IF NO COUNTER WRAP AROUND LDN /NAM/I.OBN LOAD INCREMENT FOR BLOCK SERIAL NUMBER RAD BSBC FORCE OUTPUT BLOCK NUMBER TO MINIMUM VALUE PIOF.1 LJM /ACTIONS/OIOT.2 EXIT TO CALCULATE OUTPUT ORDER WORD UPD SPACE 2,26 QUAL 2IQ ** SUBROUTINE UPD. * * SUBROUTINE UPD UNPACKS A SOURCE CHARACTER STRING OF * CONSECUTIVE EIGHT BIT CHARACTERS INTO A STRING OF * SINGLE EIGHT BIT CHARACTERS. THE SUBROUTINE ITERATES * ON THREE SOURCE CHARACTERS. * * ENTRY - * * (A) = SOURCE DATA CHARACTER COUNT, * (T1) = SOURCE DATA ADDRESS, * (T2) = DESTINATION DATA ADDRESS. * * USES - * ** T0 = SOURCE DATA CHARACTER COUNT. UPD SUBR ENTRY/EXIT STD T0 STORE SOURCE DATA CHARACTER COUNT UPD.1 LDI T1 LOAD NEXT SOURCE BYTE SHN -4 POSITION NEXT SOURCE CHARACTER STI T2 STORE NEXT DATA CHARACTER SOD T0 DECREMENT SOURCE DATA CHARACTER COUNT ZJN UPDX RETURN IF END OF SOURCE DATA AOD T2 INCREMENT DESTINATION DATA ADDRESS LDI T1 LOAD NEXT SOURCE BYTE LPN 0#F EXTRACT HIGH-ORDER OF NEXT DATA CHARACTER SHN 4 POSITION HIGH-ORDER OF NEXT DATA CHARACTER STI T2 STORE HIGH-ORDER OF NEXT DATA CHARACTER AOD T1 INCREMENT SOURCE DATA ADDRESS LDI T1 LOAD NEXT SOURCE BYTE SHN -8 POSITION LOW-ORDER OF NEXT DATA CHARACTER RAI T2 ADD TO HIGH-ORDER OF DATA CHARACTER SOD T0 DECREMENT SOURCE DATA CHARACTER COUNT ZJN UPDX RETURN IF END OF SOURCE DATA AOD T2 INCREMENT DESTINATION DATA ADDRESS LDI T1 LOAD NEXT SOURCE BYTE LPC 0#FF EXTRACT NEXT SOURCE CHARACTER STI T2 STORE NEXT DATA CHARACTER SOD T0 DECREMENT SOURCE DATA CHARACTER COUNT ZJN UPDX RETURN IF END OF SOURCE DATA AOD T1 INCREMENT SOURCE DATA ADDRESS AOD T2 INCREMENT DESTINATION DATA ADDRESS UJK UPD.1 EXIT TO PROCESS NEXT SOURCE BYTE QUAL ."O.N" EQU * OVERLAY F=TRANS,T1=(COMMAND/SUPPORT PROCESSORS),T2=(IVT OUTPUT , COMMAND PROCESSORS) QUAL ACTIONS TYPEACT MICRO 1,,*CMDOUT* DEFINE ACTION TYPE LINKS SPACE 2,6 * RESET LINKS. .TCRN SET 0 .EBRAX SET 0 .PPRU SET 0 .ERROR SET 0 COSN SPACE 2,28 ** IVT OUTPUT COMMAND ACTION PROCESSOR COSN. * * IVT OUTPUT COMMAND ACTION PROCESSOR COSN PROCESSES A * START NPU WITH NO RESPONSE COMMAND ADDRESSED TO A FRONT * END NPU. THE DATA POINTER IN THE OUTBOUND PSEUDO FET * IS UPDATED, THE NPU COUPLER IS CLEARED, THE NPU DEAD * TIMER IS RESET, THE NPU IS CLEARED AND THE NPU IS * STARTED. * * ENTRY - * * (FEI) = FRONT END TABLE ADDRESS. * * EXIT - * * (DTM) = RESET. * * CALLS - * * UFOP - UPDATE FET OUT DATA POINTER, * FNC - FUNCTION NPU COUPLER, ** CCSR - CHECK COUPLER STATUS REGISTER. COSN ACTION PROCESS START NPU COMMAND WITH NO RESPONSE RJM UFOP EXIT TO UPDATE FET OUT DATA POINTER LDC /FUNCTION/CLC LOAD FUNCTION TO CLEAR COUPLER RJM /NPU/FNC EXIT TO FUNCTION TO CLEAR NPU COUPLER LDK RTCL LOAD ADDRESS OF SYSTEM REAL-TIME CLOCK CRD T0 READ SYSTEM REAL-TIME CLOCK LDD T0+1 LOAD SYSTEM SECOND TIME ADK Q.NINIT PLUS NPU INITIALIZATION TIME QUANTUM STM DTM,FEI SET NPU DEAD TIMER RJM /NPU/CCSR EXIT TO CHECK COUPLER STATUS REGISTER LDC /FUNCTION/CLN LOAD FUNTION TO CLEAR NPU RJM /NPU/FNC EXIT TO FUNCTION TO CLEAR NPU LDK NPUDLY LOAD NPU DELAY COUNT SBN 1 DECREMENT NPU DELAY COUNT NJN *-1 LOOP IF DELAY COUNT NOT EXHAUSTED LDN /FUNCTION/SNP LOAD FUNCTION TO START NPU RJM /NPU/FNC EXIT TO FUNCTION TO START NPU EXIT EBRAX RETURN VIA OUTPUT COMMAND ACTION RETURN COLN SPACE 2,50 ** IVT OUTPUT COMMAND ACTION PROCESSOR COLN. * * IVT OUTPUT COMMAND ACTION PROCESSOR COLN PROCESSES A * LOAD NPU COMMAND ADDRESSED TO A FRONT END NPU. IF * THERE IS SUFFICIENT INBOUND BUFFER SPACE FOR THE LOAD * NPU COMMAND RESPONSE THE NPU LOAD IS PERFORMED. THE * NPU TEXT IS WRITTEN TO THE NPU MEMORY. THE DATA * POINTER IN THE OUTBOUND PSEUDO FET IS UPDATED AND THE * NPU MEMORY IS READ BACK AND COMPARED TO THE LOAD TEXT. * DETECTION OF A BAD COMPARE WILL CAUSE THE LOAD NPU * COMMAND ERROR RESPONSE TO BE TRANSFERRED TO THE INBOUND * BUFFER. IF THE COMPARE IS GOOD THE BATCH COUNT FIELD * OF THE LOAD COMMAND IS CHECKED. IF THE BATCH COUNT IS * NON-ZERO THE ACCOUMULATED COUNT OF LAD TRANSFERS IS * COMPARED TO THE BATCH COUNT PROVIVED IN THE COMMAND. * IF THEY ARE NOT EQUAL AN ERROR RESPONSE IS RETURNED. * OTHERWISE THE NPU LOAD COMMAND NORMAL RESPONSE IS * RETURNED AND THE ACCUMULATED BATCH COUNT IS SET TO * ZERO IN EITHER CASE. * * ENTRY - * * (FEI) = FRONT END TABLE ADDRESS, * (ABC) = ACCUMULATED BATCH COUNT, * (CHN) = NPU CHANNEL NUMBER, * (CAD) = NPU EQUIPMENT NUMBER, * (BHB-BHB+L.BH) = NPU BLOCK HEADER, * (DRBUF-DRBUF+L.OV(1)) = COMMAND TEXT. * * EXIT - * * (ABC) = INCREMENTED FOR CURRENT LOAD. * * CALLS - * * CIBS - CHECK INBOUND BUFFER SPACE, * SNMA - SET NPU MEMORY ADDRESS FROM COMMAND, * SNMR - SET NPU MEMORY REGISTERS, * FNC - FUNCTION NPU COUPLER, * ACN - ACTIVATE NPU CHANNEL, * TTBF - TRANSFER NPU LOAD TEXT, * DCN - DISCONNECT NPU CHANNEL, * CNMS - CHECK NPU MEMORY STATUS, * UFOP - UPDATE FET OUT DATA POINTER, ** IDC - INPUT NPU DATA CHARACTER. COLN ACTION PROCESS LOAD NPU COMMAND LDN /NAM/OV(1)RCM LOAD LENGTH OF LOAD COMMAND RESPONSE RJM CIBS EXIT TO CHECK FOR INBOUND BUFFER SPACE PJN COLN.1 EXIT IF SUFFICIENT INBOUND BUFFER SPACE EXIT PPRU EXIT TO PROCESS PRU STREAMS COLN.1 RJM SNMA EXIT TO SET NPU MEMORY ADDRESS FROM COMMAND RJM SNMR EXIT TO SET NPU MEMORY REGISTERS LDN /FUNCTION/OP LOAD FUNCTION TO OUTPUT PROGRAM TEXT RJM /NPU/FNC EXIT TO FUNCTION TO OUTPUT PROGRAM TEXT RJM /NPU/ACN EXIT TO ACTIVATE NPU CHANNEL LDN 0 CONSTANT OF ZERO STD REOT RESET REQUEST END OF TRANSFER LDC DRBUF+/BLOCK/NPUTEXTL LOAD ADDRESS OF NPU LOAD TEXT STD T1 STORE STARTING BUFFER ADDRESS LDM NNH+/NAM/C.MCC LOAD MESSAGE TEXT CHARACTER COUNT SBN /BLOCK/L.CH+/BLOCK/NPUTEXTL LESS LENGTH OF LOAD HEADER STD T2 STORE OUTPUT CHARACTER COUNT RJM TTBF EXIT TO TRANSFER NPU LOAD TEXT RJM /NPU/DCN EXIT TO DISCONNECT NPU CHANNEL RJM CNMS EXIT TO CHECK FOR NPU MEMORY ERROR RJM UFOP EXIT TO UPDATE FET OUT DATA POINTER LDC DRBUF+/BLOCK/NPUTEXTL LOAD ADDRESS OF NPU LOAD TEXT STD T17 STORE STARTING COMPARE ADDRESS ADM NNH+/NAM/C.MCC PLUS MESSAGE TEXT CHARACTER COUNT SBN 1+/BLOCK/L.CH+/BLOCK/NPUTEXTL LESS HEADER LENGTH STD T16 STORE ENDING COMPARE ADDRESS RJM SNMR EXIT TO SET NPU MEMORY REGISTERS LDN /FUNCTION/IP LOAD FUNCTION TO INPUT PROGRAM TEXT RJM /NPU/FNC EXIT TO FUNCTION TO INPUT PROGRAM TEXT RJM /NPU/ACN EXIT TO ACTIVATE NPU CHANNEL COLN.2 CLIO FEIC EXIT TO INPUT NPU TEXT CHARACTER LMI T17 LESS VALUE OF LOAD TEXT NJN COLN.5 EXIT IF TEXT COMPARE ERROR LDD T17 LOAD CURRENT COMPARE ADDRESS LMD T16 LESS ENDING COMPARE ADDRESS ZJN COLN.3 EXIT IF END OF COMPARE AOD T17 INCREMENT CURRENT COMPARE ADDRESS UJK COLN.2 EXIT TO INPUT NEXT BYTE FROM NPU COLN.3 RJM /NPU/DCN EXIT TO DISCONNECT NPU CHANNEL RJM CNMS EXIT TO CHECK FOR NPU MEMORY ERROR AOM ABC,FEI INCREMENT ACCUMULATED BATCH COUNT LDM DRBUF+/BLOCK/BC LOAD BATCH COUNT FROM COMMAND ZJN COLN.4 EXIT IF BATCH VERIFICATION NOT REQUESTED LJM COLN.8 EXIT TO CHECK ACCUMULATED BATCH COUNT COLN.4 EXIT EBRAX RETURN VIA OUTPUT COMMAND ACTION RETURN COLN.5 RJM /NPU/DCN EXIT TO DISCONNECT NPU CHANNEL LDN 1 CONSTANT OF ONE COLN.6 STM DRBUF+/BLOCK/ORC STORE RESPONSE CODE INTO RESPONSE LDC /BLOCK/B.ER LOAD ERROR RESPONSE BIT COLN.7 STD T0 STORE RESPONSE BIT LDN 0 CONSTANT OF ZERO STM ABC,FEI RESET ACCUMULATED BATCH COUNT LDN /NAM/OV(1)RCM LOAD RESPONSE MESSAGE WORD LENGTH STM NBH+/NAM/C.BWD+1 STORE RESPONSE WORD LENGTH LDN /NAM/OV(1)RC LOAD RESPONSE TEXT CHARACTER LENGTH STM NNH+/NAM/C.MCC STORE RESPONSE TEXT CHARACTER LENGTH LDD T0 LOAD RESPONSE BIT RAM NCH+/BLOCK/SFC ADD TO SECONDARY FUNCTION CODE LDM CHN,FEI LOAD NPU CHANNEL NUMBER LPN 77B EXTRACT NPU CHANNEL NUMBER STM DRBUF+/BLOCK/OP SET PORT TO NPU CHANNEL NUMBER LDM CAD,FEI LOAD NPU COUPLER ADDRESS SHN -9 POSITION EQUIPMENT TO LOW-ORDER STM DRBUF+/BLOCK/OSP SET SUB-PORT TO EQUIPMENT NUMBER LDM BHB+/BLOCK/SN LOAD SOURCE NODE OF COMMAND STM BHB+/BLOCK/DN STORE DESTINATION NODE FOR RESPONSE LDD TN LOAD DESTINATION NODE OF COMMAND STM BHB+/BLOCK/SN STORE SOURCE NODE FOR RESPONSE EXIT TCRN EXIT TO TRANSFER COMMAND RESPONSE COLN.8 SBM ABC,FEI LESS ACCUMULATED BATCH COUNT NJN COLN.9 EXIT IF BATCH COUNT MISMATCH STM DRBUF+/BLOCK/ORC STORE RESPONSE CODE INTO RESPONSE LDC /BLOCK/B.NR LOAD NORMAL RESPONSE BIT UJK COLN.7 EXIT TO STORE RESPONSE BIT COLN.9 LDM ABC,FEI LOAD ACCUMULATED BATCH COUNT STM DRBUF+/BLOCK/BC STORE BATCH COUNT INTO RESPONSE LDN 4 CONSTANT OF FOUR UJK COLN.6 EXIT TO STORE RESPONSE CODE SNMA TITLE COMMAND PROCESSOR SUPPORT SUBROUTINES. QUAL LINKS SPACE 2,6 * RESET LINKS. .ERROR SET 0 SNMA SPACE 2,18 ** SUBROUTINE SNMA. * * SUBROUTINE SNMA EXTRACTS THE BEGINNING NPU MEMORY * ADDRESS FROM A COMMAND AND STORES THE NPU ADDRESS. * * ENTRY - * * (BADR-BADR+2) = NPU MEMORY ADDRESS FROM COMMAND. * * EXIT - * * (NMA) = HIGH-ORDER OF NPU MEMORY ADDRESS (9-0), ** (NMA+1) = LOW-ORDER OF NPU MEMORY ADDRESS (7-0). SNMA SUBR ENTRY/EXIT LDM DRBUF+/BLOCK/BADR LOAD HIGH-ORDER OF NPU ADDRESS SHN 8 POSITION TO HIGH-ORDER ADM DRBUF+/BLOCK/BADR+1 PLUS MIDDLE OF NPU ADDRESS STD NMA STORE HIGH-ORDER OF NPU MEMORY ADDRESS LDM DRBUF+/BLOCK/BADR+2 LOAD LOW-ORDER OF NPU ADDRESS STD NMA+1 STORE LOW-ORDER OF NPU MEMORY ADDRESS UJK SNMAX RETURN SNMR SPACE 2,20 ** SUBROUTINE SNMR. * * SUBROUTINE SNMR SETS THE MEMORY * ADDRESS REGISTERS OF THE NPU. * * ENTRY - * * (NMA) = HIGH-ORDER OF NPU MEMORY ADDRESS, * (NMA+1) = LOW-ORDER OF NPU MEMORY ADDRESS. * * CALLS - * * FNC - FUNTION NPU COUPLER, ** OWN - OUTPUT WORD TO NPU. SNMR SUBR ENTRY/EXIT LDN /FUNCTION/OMA0 FUNCTION TO OUTPUT MEMORY ADDRESS ZERO RJM /NPU/FNC EXIT TO FUNCTION TO OUTPUT MEMORY ZERO LDD NMA LOAD HIGH-ORDER OF NPU MEMORY ADDRESS RJM /NPU/OWN EXIT TO OUTPUT MEMORY ADDRESS TO NPU LDN /FUNCTION/OMA1 FUNCTION TO OUTPUT MEMORY ADDRESS ONE RJM /NPU/FNC EXIT TO FUNCTION TO OUTPUT MEMORY ONE LDD NMA+1 LOAD LOW-ORDER OF NPU MEMORY ADDRESS RJM /NPU/OWN EXIT TO OUTPUT MEMORY ADDRESS TO NPU UJK SNMRX RETURN CWMS SPACE 2,28 ** SUBROUTINE CNMS. * * SUBROUTINE CNMS CHECKS FOR A MEMORY PROTECT FAULT IN * THE NPU COUPLER. THE NPU DEAD TIMER IS RESET, THE * COUPLER STATUS REGISTER IS READ AND THE NPU IS CLEARED. * IF A MEMORY PROTECT FAULT IS DETECTED THE COUPLER IS * CLEARED TO RESET THE FAULT AND AN ERROR EXIT IS TAKEN. * * ENTRY - * * (FEI) = FRONT END TABLE ADDRESS. * * EXIT - * * (DTM) = RESET. * * ERROR EXITS - * * EXIT TO *ERROR* IF MEMORY PROTECT FAULT. * * USES - * ** T1-T1+4 = SYSTEM REAL-TIME CLOCK. CNMS SUBR ENTRY/EXIT LDK RTCL LOAD ADDRESS OF SYSTEM REAL-TIME CLOCK CRD T1 READ SYSTEM REAL-TIME CLOCK LDD T1+1 LOAD SYSTEM SECOND TIME ADK Q.NDEAD PLUS NPU DEAD TIMER VALUE STM DTM,FEI RESET NPU DEAD TIMER RJM /NPU/CCSR EXIT TO INPUT COUPLER STATUS REGISTER LDC /FUNCTION/CLN LOAD FUNCTION TO CLEAR NPU RJM /NPU/FNC EXIT TO FUNCTION TO CLEAR NPU LDM CSR,FEI LOAD COUPLER STATUS REGISTER VALUE LPN /CSTATUS/MPF EXTRACT MEMORY PROTECT FAULT ZJN CNMSX RETURN IF NO MEMORY PROTECT FAULT LDC /FUNCTION/CLC LOAD FUNCTION TO CLEAR COUPLER RJM /NPU/FNC EXIT TO FUNCTION TO CLEAR COUPLER EREXIT NMP EXIT TO ERROR - NPU MEMORY PROTECT FAULT LINKS TITLE DRIVER SUPPORT PROCESSORS. LINKS SPACE 2,6 * RESET LINKS. .NFE.1 SET 0 .GIBS.4 SET 0 INPT SPACE 2,50 ** DRIVER SUPPORT PROCESSOR INPT. * * DRIVER SUPPORT PROCESSOR INPT CHECKS FOR A NEW FRONT * END TO BE PROCESSED BY CHECKING THE NEXT NETWORK BUFFER * TABLE POINTER WORD IN THE INTERFACE TABLE. IF THERE IS * A POINTER TO A NETWORK BUFFER TABLE THE FRONT END * PARAMETERS ARE EXTRACTED FROM THE NETWORK BUFFER TABLE * AND STORED INTO THE DRIVER FRONT END TABLE. IF THE * CHANNEL OF THE NEW FRONT END HAS NOT BEEN ASSIGNED TO * THE DRIVER THE CHANNEL IS REQUESTED FROM THE SYSTEM. * IF AN INITIAL HALT IS REQUESTED FOR THE FRONT END THE * FRONT END IS HALTED. * * ENTRY - * * (DIT-DIT+1) = INTERFACE TABLE ADDRESS, * (PW0) = BUFFER TABLE POINTER WORD OFFSET, * (FEI) = FRONT END TABLE ADDRESS, * (ACTFES) = ACTIVE FRONT END COUNT. * * EXIT - * * FRONT END TABLE INITIALIZED, * (ACTFES) = INCREMENTED IF FRONT END ON. * * ERROR EXITS - * * EXIT TO *ERROR* IF NETWORK BUFFER TABLE ERROR. * * CALLS - * * TFL - FORM ABSOLUTE CENTRAL ADDRESS, * GIBS - GET INBOUND BUFFER SPACE, * UNSB - UPDATE FRONT END STATUS BYTE, * MTR - REQUEST FRONT END CHANNEL NUMBER, * IDDO - INITIALIZE DEVICE DEPENDENT OVERLAY, * CCSR - CHECK NPU COUPLER STATUS REGISTER LOADED, * INS - INPUT NPU STATUS WORD. * * SYSTEM MACRO CALLS - * * SFA - CALCULATE ADDRESS OF MANAGED TABLE. * * MACRO CALLS - * ** FEIO - LOGICAL INPUT/OUTPUT INTERFACE. INPT LINK ENTRY LDD DIT LOAD HIGH-ORDER OF INTERFACE TABLE ADDRESS SHN 12 POSITION TO HIGH-ORDER ADD DIT+1 PLUS LOW-ORDER OF INTERFACE TABLE ADDRESS ADN /NAM/W.DITNTP PLUS OFFSET FOR FIRST POINTER WORD ADD PWO PLUS CURRENT POINTER WORD OFFSET RJM TFL EXIT TO FORM ABSOLUTE CENTRAL ADDRESS CRD T12 READ INTERFACE TABLE POINTER WORD LDD T12+/NAM/C.DITNBT LOAD HIGH-ORDER NETWORK BUFFER TABLE STM NBT,FEI STORE HIGH-ORDER OF NETWORK BUFFER TABLE SHN 12 POSITION TO HIGH-ORDER ADD T12+/NAM/C.DITNBT+1 PLUS LOW-ORDER NETWORK BUFFER TABLE ZJN INPT.2 EXIT IF NO NETWORK BUFFER TABLE ASSIGNED STM NBT+1,FEI STORE LOW-ORDER OF NETWORK BUFFER TABLE ADN /NAM/W.NBTNS DELTA FOR FRONT END STATUS WORD RJM TFL EXIT TO FORM ABSOLUTE CENTRAL ADDRESS CRD T0 READ STATUS WORD FROM NETWORK BUFFER LDD T0+/NAM/C.NBTNS LOAD FRONT END STATUS BYTE SHN 17-/NAM/S.NBTOF FRONT END OFF FLAG TO SIGN PJN INPT.3 EXIT IF FRONT END NOT OFF INPT.1 LDN 0 CONSTANT OF ZERO STM NBT,FEI ZERO HIGH-ORDER OF NETWORK BUFFER TABLE STM NBT+1,FEI ZERO LOW-ORDER OF NETWORK BUFFER TABLE INPT.2 EXIT NFE.1 EXIT TO PROCESS NEXT FRONT END INPT.3 LDN 0 CONSTANT OF ZERO STM AIF,FEI INITIALIZE ACTIVE INBOUND FET OFFSET RJM GIBS EXIT TO GET INBOUND BUFFER SPACE T5 - T5+4 = NETWORK BUFFER TABLE HEADER LDM IBS,FEI LOAD AVAILABLE INBOUND BUFFER SPACE SBN /NAM/L.BH+/NAM/L.WH+L.NPHT SUBTRACT HALTED WL LENGTH MJN INPT.1 EXIT IF INBAOUND BUFFER SPACE NOT AVAILABLE LDD T5+/NAM/C.NBTBS LOAD NETWORK BUFFER TABLE STATUS BYTE SHN 17-/NAM/S.NBTIU POSITION ENTRY IN USE FLAG TO SIGN MJN INPT.4 EXIT IF NETWORK BUFFER TABLE IN USE EXIT GIBS.4 EXIT TO ERROR - NETWORK BUFFER TABLE ERROR INPT.4 SHN 18-17+/NAM/S.NBTIU REPOSITION BUFFER STATUS BYTE LPN /NAM/L.NBTCH EXTRACT FRONT END CHANNEL NUMBER STM CHN,FEI STORE FRONT END CHANNEL NUMBER LDD T5+/NAM/C.NBTNA LOAD FRONT END EQUIPMENT BYTE LPC /NAM/L.NBTEQ EXTRACT FRONT END EQUIPMENT NUMBER STM CAD,FEI STORE FRONT END EQUIPMENT NUMBER LDD T5+/NAM/C.NBTNA LOAD FRONT END EQUIPMENT BYTE LPC /NAM/L.NBTEST EXTRACT EST ORDINAL OF FRONT END STD T10 STORE EST ORDINAL OF FRONT END SFA EST,T10 CALCULATE ADDRESS OF EST ENTRY ADK EQDE PLUS OFFSET FOR EQUIPMENT DESCRIPTION WORD CRD T0 READ EQUIPMENT DESCRIPTION WORD LDD T0+3 LOAD EQUIPMENT BYTE FROM EST LPC 3777B EXTRACT EQUIPMENT TYPE LMC 2RNP LESS VALUE FOR NPU ZJN INPT.5 EXIT IF EQUIPMENT IS NPU .MSS IFEQ .MSS,1 LMN 2RNP&2RNQ LESS DELTA FOR MSS EQUIPMENT TYPE ZJN INPT.5 EXIT IF MSS EQUIPMENT .MSS ENDIF LDN 0 CONSTANT OF ZERO STM BPE,FEI INITIALIZE CONSECUTIVE BLOCK PROTOCOL ERROR LDN 1 CONSTANT OF ONE INPT.5 STM FTY,FEI SET FRONT END TYPE LDN /NAM/W.NBTOP DELTA FOR OUT POINTER WORD FROM FET # RJM GIFA EXIT TO GET OUT POINTER ABSOLUTE ADDRESS CRD T12 READ OUT POINTER WORD LDD T12+/NAM/C.NBTID HOST NODE BYTE FROM NBT ENTRY LPC /NAM/L.NBTHN EXTRACT HOST NODE NUMBER STM HND,FEI SAVE HOST NODE NUMBER LDN /TABLES/BHS4 LOAD INITIAL FRONT END STATE STI FEI STORE FRONT END STATE STD BHS STORE BLOCK HANDLER STATE LDK RTCL LOAD ADDRESS OF SYSTEM REAL-TIME CLOCK CRD T0 READ SYSTEM REAL-TIME CLOCK LDD T0+1 LOAD SYSTEM SECOND TIME ADK Q.INDEAD PLUS INITIAL FRONT END DEAD TIMER VALUE STM DTM,FEI INITIALIZE FRONT END DEAD TIMER LDN 0 CONSTANT OF ZERO STD STS RESET STREAM ACTIVE STATES STM CTM,FEI RESET CHECK CHANNEL PROTOCOL VERSION TIME LDC /NAM/B.NBTNA&/NAM/B.NBTMF LOAD FRONT END STATUS BITS RJM UNSB EXIT TO UPDATE FRONT END STATUS BYTE AOM ACTFES INCREMENT ACTIVE FRONT END COUNT STD T0 SET NO EMPTY CHANNEL TABLE ENTRY FOUND LDN MAXFE-1 LOAD FRONT END CHANNEL TABLE LENGTH STD T17 INITIALIZE FRONT END CHANNEL TABLE INDEX INPT.6 LDM FCT,T17 LOAD NEXT FRONT END CHANNEL TABLE ENTRY ZJN INPT.8 EXIT IF FRONT END CHANNEL TABLE ENTRY EMPTY SBM CHN,FEI LESS CHANNEL FOR THIS FRONT END LPN 77B EXTRACT CHANNEL BITS ZJN INPT.11 EXIT IF CHANNEL ALREADY ASSIGNED INPT.7 SOD T17 DECREMENT FRONT END CHANNEL TABLE INDEX MJN INPT.9 EXIT IF ALL TABLE ENTRIES PROCESSED UJK INPT.6 EXIT TO PROCESS NEXT CHANNEL TABLE ENTRY INPT.8 STD T0 SET EMPTY CHANNEL TABLE ENTRY FOUND LDD T17 LOAD FRONT END CHANNEL TABLE INDEX STD T1 STORE INDEX OF EMPTY CHANNEL TABLE ENTRY UJK INPT.7 EXIT TO DECREMENT CHANNEL TABLE INDEX INPT.9 LDD T0 LOAD EMPTY TABLE ENTRY FOUND INDICATOR ZJN INPT.10 EXIT IF EMPTY CHANNEL TABLE FOUND EREXIT CTE EXIT TO ERROR - CHANNEL TABLE ERROR INPT.10 LDD T1 LOAD INDEX VALUE OF EMPTY TABLE ENTRY STD T17 STORE FRONT END CHANNEL TABLE INDEX VALUE LDM CHN,FEI LOAD FRONT END CHANNEL NUMBER STM FCT,T17 STORE CHANNEL INTO CHANNEL TABLE ENTRY STD T10+1 STORE CHANNEL NUMBER INTO REQUEST REGISTER LDN RCHM LOAD MONITOR FUNCTION TO REQUEST CHANNEL RJM MTR EXIT TO REQUEST FRONT END CHANNEL INPT.11 LDC 1S6 LOAD COUNT INCREMENT VALUE RAM FCT,T17 INCREMENT COUNT OF CHANNELS USED RJM IDDO EXIT TO INITIALIZE DEVICE DEPENDENT OVERLAY INPT.12 LDD DIT LOAD HIGH-ORDER OF INTERFACE TABLE ADDRESS SHN 12 POSITION TO HIGH-ORDER ADD DIT+1 PLUS LOW-ORDER OF INTERFACE TABLE ADDRESS ADN /NAM/W.DITNTP DELTA FOR NAM REQUEST WORD RJM TFL EXIT TO FORM ABSOLUTE CENTRAL ADDRESS CRD T0 READ NAM REQUEST WORD LDD T0+/NAM/C.DITAR LOAD NAM REQUEST BYTE SHN 17-/NAM/S.DITIH POSITION INITIAL HALT FLAG TO SIGN PJN INPT.13 EXIT IF INITIAL HALT NOT REQUESTED FEIO FEHL HALT FRONT END INPT.13 LDM FTY,FEI LOAD FRONT END TYPE NJN INPT.14 EXIT IF NOT NPU FRONT END RJM /NPU/CCSR EXIT TO CHECK COUPLER STATUS WORD LOADED MJN INPT.14 EXIT IF COUPLER STATUS WORD NOT LOADED RJM /NPU/INS BYPASS FIRST NPU STATUS WORD INPT.14 EXIT PFE.1 EXIT TO PROCESS FRONT END IDDO TITLE DRIVER SUPPORT PROCESSOR SUBROUTINES. IDDO SPACE 2,36 ** SUBROUTINE IDDO. * * SUBROUTINE IDDO INITIALIZES THE DEVICE DEPENDENT * OVERLAY. IF THE CURRENT DEVICE IS DIFFERENT FROM THE * DEVICE DEPENDENT OVERLAY THE CORRECT DEVICE DEPENDENT * OVERLAY IS LOADED. THE FRONT END CHANNEL NUMBER IS * ADDED TO ALL THE CHANNEL INSTRUCTIONS IN THE DEVICE * DEPENDENT OVERLAY. * * ENTRY - * * (FEI) = FRONT END TABLE ADDRESS, * (FTY) = FRONT END TYPE, * (CHN) = FRONT END CHANNEL NUMBER. * * EXIT - * * CURRENTLY ACTIVE FRONT END CHANNEL NUMBER UPDATED. * AT CHANGE OF CHANNELS * DEVICE DEPENDENT OVERLAY LOADED, * CHANNEL INSTRUCTIONS INITIALIZED. * * CALLS - * * LDDO - LOAD DEVICE DEPENDENT OVERLAY. * * USES - * * T1 = CHANNEL INSTRUCTION ADDRESS LIST, * T0 = FRONT END CHANNEL NUMBER, ** T2 = ADDRESS OF CHANNEL INSTRUCTION. IDDO SUBR ENTRY/EXIT LDM CHN,FEI LOAD NEW FRONT END CHANNEL NUMBER SBM CHAN LESS CURRENTLY ACTIVE CHANNEL NUMBER IDDO.X ZJN IDDOX EXIT IF NO CHANNEL CHANGE RAM CHAN STORE CURRENTLY ACTIVE CHANNEL NUMBER LDM FTY,FEI LOAD CURRENT FRONT END TYPE ZJN IDDO.0 EXIT IF NPU TYPE DEVICE LDN 1 LOAD DEVICE TYPE FOR MDI IDDO.0 BSS 0 LMM FETP LESS FRONT END TYPE OF DEVICE OVERLAY ZJN IDDO.2 EXIT IF NO DEVICE TYPE SWITCH LDM FTY,FEI LOAD FRONT END DEVICE TYPE ZJN IDDO.1 EXIT IF NPU TYPE DEVICE LDN #1IP-#1IL DELTA FOR MDI DEVICE OVERLAY IDDO.1 ADN #1IL PLUS NPU DEVICE OVERLAY ORDINAL RJM LDDO EXIT TO LOAD DEVICE DEPENDENT OVERLAY IDDO.2 LDM FTY,FEI LOAD CURRENT FRONT END DEVICE TYPE ZJN IDDO.3 EXIT IF NPU TYPE DEVICE LDK /MDI/MDICIT-/NPU/NPUCIT DELTA FOR MDI INSTUCTION TABLE IDDO.3 ADC /NPU/NPUCIT PLUS ADDRESS OF NPU INSTRUCTION TABLE STD T1 INITIALIZE CHANNEL INSTRUCTION LIST ADDRESS LDM CHAN LOAD FRONT END CHANNEL NUMBER STD T0 STORE FRONT END CHANNEL NUMBER IDDO.4 LDI T1 LOAD ADDRESS OF NEXT CHANNEL INSTRUCTION ZJN IDDO.X RETURN IF END OF CHANNEL INSTRUCTION LIST STD T2 STORE ADDRESS OF CHANNEL INSTRUCTION LDI T2 LOAD CHANNEL INSTRUCTION SCN 77B&NHO CLEAR PREVIOUS FRONT END CHANNEL NUMBER LMD T0 PLUS NEW FRONT END CHANNEL NUMBER STI T2 STORE UPDATED CHANNEL INSTRUCTION AOD T1 INCREMENT CHANNEL INSTRUCTION LIST ADDRESS UJK IDDO.4 EXIT TO CHECK FOR END OF INSTRUCTION LIST LDDO TITLE DRIVER CONTROL TABLE MANAGEMENT SUBROUTINES. LDDO SPACE 2,26 ** SUBROUTINE LDDO. * * SUBROUTINE LDDO LOADS THE DEVICE DEPENDENT OVERLAY * INTO THE FIRST LEVEL OVERLAY AREA OF THE DRIVER. * * ENTRY - * * (A) = OVERLAY ORDINAL, * (FEI) = FRONT END TABLE ADDRESS, * (FTY) = FRONT END TYPE. * * ERROR EXITS - * * EXIT TO *ERROR* IF INVALID OVERLAY ADDRESS, * EXIT TO *ERROR* IF OVERLAY FORMAT ERROR. * * CALLS - * ** GOCA - GET OVERLAY ABSOLUTE CENTRAL ADDRESS. LDDO SUBR ENTRY/EXIT RJM GOCA EXIT TO GET OVERLAY ABSOLUTE ADDRESS NJN LDDO.2 EXIT IF OVERLAY ADDRESS KNOWN LDDO.1 EXIT COL.2 EXIT TO ERROR - OVERLAY FORMAT ERROR LDDO.2 CRM OF.FLOV,T10+/NAM/C.DOAOL READ DEVICE DEPENDENT OVERLAY LDM FETP LOAD FRONT END TYPE OF OVERLAY NJN LDDO.3 EXIT IF MDI DEVICE OVERLAY LDM FTY,FEI LOAD FRONT END TYPE OF EQUIPMENT NJN LDDO.1 EXIT IF NOT NPU DEVICE UJK LDDOX RETURN LDDO.3 LDM FTY,FEI LOAD FRONT END TYPE OF EQUIPMENT ZJN LDDO.1 EXIT IF NOT MDI DEVICE UJK LDDOX RETURN NPUCIT TITLE CHANNEL INSTRUCTION INITIALIZATION ADDRESS LISTS. CHTABLE TITLE CHANNEL INSTRUCTION INITIALIZATION ADDRESS LIST. CHTABLE SPACE 2,12 ** CHANNEL INSTRUCTION ADDRESS LIST. * * THE CHANNEL INSTRUCTION ADDRESS LIST CONTAINS AN ENTRY * FOR EACH CHANNEL INSTRUCTION USED BY THE MAIN DRIVER. * THE CONTENTS OF EACH ENTRY IS THE ADDRESS OF THE ** CHANNEL INSTRUCTION. LIST D CIT HERE LIST * ."O.N" EQU * OVERLAY F=TRANS,T1=(COMMAND PROCESSORS),T2=(IVT COMMAND ERROR ,PROCESSORS) QUAL ACTIONS TYPEACT MICRO 1,,*CMDOUT* DEFINE ACTION TYPE LINKS SPACE 2,6 * RESET LINKS. .PPRU SET 0 .NPRU SET 0 .ERROR SET 0 .TCRN SET 0 COOE SPACE 2,30 ** IVT OUTPUT COMMAND ACTION PROCESSOR COOE. * * IVT OUTPUT COMMAND ACTION PROCESSOR COOE PROCESSES AN * OVERLAY COMMAND ADDRESSED TO A FRONT END NPU THAT IS * IN ERROR. IF THERE IS SUFFICIENT INBOUND BUFFER SPACE * FOR THE OVERLAY COMMAND ERROR RESPONSE THE DATA POINTER * IN THE OUTBOUND PSEUDO FET IS UPDATED AND THE OVERLAY * COMMAND ERROR RESPONSE IS GENERATED AND TRANSFERRED TO * THE INBOUND BUFFER. * * ENTRY - * * (FEI) = FRONT END TABLE ADDRESS, * (CHN) = NPU CHANNEL NUMBER, * (CAD) = NPU EQUIPMENT NUMBER, * (DRBUF-DRBUF+L.CM) = COMMAND TEXT, * (NCH-NCH+L.CH) = NPU COMMAND HEADER, * (BHB-BHB+L.BH) = NPU BLOCK HEADER. * * CALLS - * * CIBS - CHECK INBOUND BUFFER SPACE, * UFOP - UPDATE FET OUT DATA POINTER, ** TCR - TRANSFER OVERLAY COMMAND ERROR RESPONSE. COOE ACTION PROCESS OVERLAY COMMAND ERROR LDN /NAM/OVERERCM LENGTH OF OVERLAY COMMAND ERROR RESPONSE RJM CIBS EXIT TO CHECK FOR INBOUND BUFFER SPACE PJN COOE.1 EXIT IF INBOUND BUFFER SPACE AVAILABLE EXIT PPRU EXIT TO PROCESS PRU STREAMS COOE.1 RJM UFOP EXIT TO UPDATE FET OUT DATA POINTER LDN 1 CONSTANT OF ONE STM DRBUF+/BLOCK/ORC STORE ERROR RESPONSE CODE LDN /NAM/OVERERCM LOAD ERROR RESPONSE WORD LENGTH STM NBH+/NAM/C.BWD+1 STORE RESPONSE WORD LENGTH LDN /NAM/OVERERC LOAD ERROR RESPONSE TEXT CHARACTER COUNT STM NNH+/NAM/C.MCC STORE MESSAGE TEXT CHARACTER COUNT LDM CHN,FEI LOAD NPU CHANNEL NUMBER LPN 77B EXTRACT NPU CHANNEL NUMBER STM DRBUF+/BLOCK/OP SET PORT TO NPU CHANNEL NUMBER LDM CAD,FEI LOAD NPU COUPLER ADDRESS SHN -9 POSITION EQUIPMENT NUMBER TO LOW-ORDER STM DRBUF+/BLOCK/OSP SET SUB-PORT TO EQUIPMENT NUMBER LDC /BLOCK/B.NR LOAD NORMAL RESPONSE BIT RAM NCH+/BLOCK/SFC ADD TO SECONDARY FUNCTION CODE LDM BHB+/BLOCK/SN LOAD SOURCE NODE OF COMMAND STM BHB+/BLOCK/DN STORE DESTINATION NODE OF COMMAND LDD TN LOAD DESTINATION NODE OF COMMAND STM BHB+/BLOCK/SN STORE SOURCE NODE FOR RESPONSE EXIT TCRN EXIT TO TRANSFER COMMAND RESPONSE COPF TITLE PRU OUTPUT COMMAND PROCESSORS. COPF SPACE 2,12 ** PRU OUTPUT COMMAND ACTION PROCESSOR COPF. * * PRU OUTPUT COMMAND ACTION PROCESSOR COPF PROCESSES * THE PRU MODE OFF COMMAND TO THE FRONT END. PRU MODE * OFF FLAG IS PLACED IN PCB FILE STATUS BYTE AND THE ** PROCESSING ENTERS THE NEXT PROCESSOR COPC. COPF ACTION PROCESS TURN FILE TRANSFER MODE OFF LDN /NAM/W.PCBPS6 PRU STREAM PARAMETER SIX WORD ORDINAL RJM RSPB EXIT TO READ PRU PARAMETER WORD FROM PCB LDD T10+/NAM/C.PCBFTS LOAD FILE TRANSFER STATUS BYTE SCN /NAM/B.PCBFTF CLEAR FILE TRANSFER MODE FLAG ADN /NAM/B.PCBFTF SET FILE TRANSFER OFF STD T10+/NAM/C.PCBFTS STORE FILE TRANSFER STATUS BYTE RJM WCMW REWRITE PRU PARAMETER WORD TO PCB COPC SPACE 2,28 ** PRU OUTPUT COMMAND ACTION PROCESSOR COPC. * * PRU OUTPUT COMMAND ACTION PROCESSOR COPC PROCESSES A * PRU COMMAND TO THE NPU THAT CONSISTS OF THE PRIMARY AND * SECONDARY FUNCTION CODES ONLY. THE OUTPUT CHARACTER * COUNT IS STORED AND THE PRIMARY AND SECONDARY FUNCTION * CODES ARE OBTAINED AND STORED IN THE COMMAND HEADER. * * ENTRY - * * (CO) = PRU OUTPUT COMMAND ORDINAL. * * EXIT - * * (A) = COMMAND BLOCK TYPE, * (NNH+C.MCC) = OUTPUT MESSAGE CHARACTER COUNT, * (NCH-NCH+L.CH) = NPU COMMAND HEADER. * * CALLS - * ** GTE - GET DRIVER CONTROL TABLE ENTRY. COPC ACTION PROCESS NULL TEXT PRU OUTPUT COMMAND LDN 0 CONSTANT OF ZERO COPC.1 LINK ENTRY ADN /BLOCK/L.CH PLUS LENGTH OF COMMAND HEADER STM NNH+/NAM/C.MCC STORE OUTPUT CHARACTER COUNT LDD CO LOAD PRU OUTPUT COMMAND ORDINAL ADC /TABLES/NPOC PLUS FWA OF PRU OUTPUT COMMAND TABLE RJM GTE EXIT TO GET DRIVER CONTROL TABLE ENTRY STD RTE STORE PRU OUTPUT COMMAND TABLE ENTRY SHN -4 POSITION PRIMARY FUNCTION CODE STM NCH+/BLOCK/PFC STORE PRIMARY FUNCTION CODE LDD RTE LOAD PRU OUTPUT COMMAND TABLE ENTRY LPN 0#F EXTRACT SECONDARY FUNCTION CODE STM NCH+/BLOCK/SFC STORE SECONDARY FUNCTION CODE LDN /BLOCK/CMD LOAD COMMAND BLOCK TYPE QUAL STATES EXIT SOPC.3 EXIT TO TRANSFER OUTPUT TO FRONT END QUAL ACTIONS COSF SPACE 2,40 ** PRU OUTPUT COMMAND ACTION PROCESSOR COSF. * * PRU OUTPUT COMMAND ACTION PROCESSOR COSF PROCESSES THE * SET OUTPUT FILE CHARACTERISTICS COMMAND TO THE FRONT * END. THE COMMAND TEXT IS READ FROM THE WORKLIST AND * SCANNED FOR A FILE MODE FIELD NAME/FIELD VALUE PAIR. * IF A FILE MODE FIELD NAME IS FOUND THE FILE MODE IS * STORED IN THE PCB AND TRANSFORMED INTO THE CORRECT * VALUE FOR THE FRONT END. THE OUTPUT CHARACTER COUNT IS * STORED AND THE PRIMARY AND SECONDARY FUNCTION CODES ARE * OBTAINED AND STORED IN THE COMMAND HEADER. * * ENTRY - * * (CO) = PRU OUTPUT COMMAND ORDINAL. * * EXIT - * * (A) = COMMAND BLOCK TYPE, * (W.PSP1+C.OFP) = OUTPUT FILE MODE IF CHANGED, * (NNH+C.MCC) = OUTPUT MESSAGE CHARACTER COUNT, * (NCH-NCH+L.CH) = FRONT END COMMAND HEADER. * * ERROR EXITS - * * EXIT TO *ERROR* IF FIELD VALUE ERROR, * EXIT TO *ERROR* IF NO WORKLIST TERMINATOR. * * CALLS - * * GPCT - GET PRU COMMAND TEXT FROM WORKLIST, * RSPB - READ AND STORE ADDRESS OF PCB WORD, * WCMW - WRITE WORD TO PCB, ** GTE - GET DRIVER CONTROL TABLE ENTRY. COSF ACTION PROCESS SET PRU OUTPUT FILE COMMAND RJM GPCT EXIT TO GET WORKLIST COMMAND TEXT LDN 0 CONSTANT OF ZERO STD T7 INITIALIZE FN/FV SCAN INDEX COSF.1 LDM DRBUF,T7 LOAD NEXT FN VALUE ZJN COSF.5 EXIT IF END OF FN/FV PAIRS LMC /NAM/BSFT LESS VALUE FOR FILE MODE NJN COSF.4 EXIT IF NOT FILE MODE LDN /NAM/W.PCBPS1 PRU STREAM PARAMETER ONE WORD ORDINAL RJM RSPB EXIT TO READ PRU PARAMETER WORD FROM PCB LDM DRBUF+1,T7 LOAD FIELD VALUE FOR FILE MODE STD T1 STORE FILE MODE VALUE FROM APPLICATION SBN /TABLES/MAXOFM LESS MAXIMUM OUTPUT FILE MODE VALUE MJN COSF.3 EXIT IF FIELD VALUE IN RANGE COSF.2 EXIT SPWL.3 EXIT TO ERROR - WORKLIST FORMAT ERROR COSF.3 LDD T10+/NAM/C.PCBFP LOAD PRU FILE PARAMETER BYTE SCN /NAM/L.PCBFM CLEAR FILE MODE ADM DRBUF+1,T7 PLUS NEW OUTPUT FILE MODE STD T10+/NAM/C.PCBFP STORE PRU FILE PARAMETER BYTE RJM WCMW EXIT TO WRITE PRU PARAMETER WORD TO PCB LDM FEFM,T1 LOAD FILE MODE VALUE FOR FRONT END STM DRBUF+1,T7 STORE FRONT END FILE MODE VALUE COSF.4 LDN 2 CONSTANT OF TWO RAD T7 INCREMENT FN/FV SCAN INDEX SBD T17 LESS MAXIMUM WORKLIST CHARACTER COUNT PJN COSF.2 EXIT IF NO TERMINATING FN UJK COSF.1 EXIT TO CHECK NEXT FN COSF.5 LDN /NAM/W.PCBPS8 PRU STREAM PARAMETER WORD EIGHT RJM RSPB EXIT TO READ PRU PARAMETER WORD FROM PCNB LDN 0 CONSTANT OF ZERO STD T10+/NAM/C.PCBOSC RESET OUTSTANDING SPACES COUNT LDN /NAM/W.PCBPS8 PRU STREAM PARAMETER WORD EIGHT RJM WCMW EXIT TO REWRITE PCNB PARAM WORD EIGHT LDD T7 LOAD OUTPUT TEXT CHARACTER COUNT EXIT COPC.1 EXIT TO STORE OUTPUT CHARACTER COUNT FEFM SPACE 2,6 * FRONT END FILE MODE TRANSFORM TABLE. FEFM BSS 0 APPLICATION TO FRONT END FILE MODE TABLE CON /BLOCK/DISO26 DISPLAY CODE O26 CON /BLOCK/DISO29 DISPLAY CODE O29 CON /BLOCK/ASCII ASCII CON /BLOCK/TRANS TRANSPARENT SIX BIT CON /BLOCK/TRANS TRANSPARENT EIGHT BIT COPO SPACE 2,30 ** PRU OUTPUT COMMAND ACTION PROCESSOR COPO. * * PRU OUTPUT COMMNAD ACTION PROCESSOR COPO PROCESSES * THE PRU ON COMMAND TO THE FRONT END. THE PRU BUFFER * SIZE IS OBTAINED FROM THE PCB AND CONVERTED TO A * CHARACTER COUNT, THE OUTPUT TEXT CHARACTER COUNT IS * STORED AND THE PRIMARY AND SECONDARY FUNCTION CODES ARE * OBTAINED AND STORE IN THE COMMAND HEADER. * * ENTRY - * * (CO) = PRU OUTPUT COMMAND ORDINAL. * * EXIT - * * (A) = COMMAND BLOCK TYPE, * (NNH+C.MCC) = MESSAGE CHARACTER COUNT, * (NCH-NCH+L.CH) = FRONT END COMMAND HEADER, * (DRBUF-DRBUF+L.CT) = COMMAND TEXT. * * CALLS - * * RPCB - READ WORD FROM PCB, ** GTE - GET DRIVER CONTROL TABLE ENTRY. COPO ACTION PROCESS PRU ON COMMAND TO FRONT END LDN 0 CONSTANT OF ZERO RJM RPCB EXIT TO READ PCB HEADER WORD LDD T10+/NAM/C.PCBSP LOAD STREAM PARAMETER BYTE LPN /NAM/L.PCBNBS EXTRACT PRU BUFFER SIZE SHN 1 TIMES TWO STD T0 STORE PRU BUFFER SIZE TIMES TWO SHN 3-1 TIMES EIGHT ADD T0 TIMES TEN SHN 6 TIMES SIX HUNDRED AND FORTY STD T0 STORE LOW-ORDER OF CHARACTER COUNT SHN -8 POSITION HIGH-ORDER OF CHARACTER COUNT STM DRBUF+/BLOCK/BLKSZ HIGH-ORDER OF BLOCK SIZE LDD T0 LOAD LOW-ORDER OF CHARACTER COUNT LPC 0#FF EXTRACT LOW-ORDER OF CHARACTER COUNT STM DRBUF+/BLOCK/BLKSZ+1 LOW-ORDER OF BLOCK SIZE LDN /BLOCK/L.PRUON LENGTH OF PRU ON COMMAND TEXT EXIT COPC.1 EXIT TO STORE OUTPUT CHARACTER COUNT ACWL TITLE WORKLIST PROCESSORS. TYPEACT MICRO 1,,*WORK* DEFINE ACTION TYPE ACWL SPACE 2,32 ACWL SPACE 2,34 ** WORKLIST ACTION PROCESSOR ACWL. * * WORKLIST ACTION PROCESSOR ACWL PROCESSES AN APPLICATION * COMMAND WORKLIST. IF THERE IS SUFFICIENT INBOUND * BUFFER SPACE FOR THE WORKLIST COMPLETED WORKLIST THE * WORKLIST COMMAND CONTROL TABLE ENTRY IS OBTAINED AND * THE WORKLIST PARAMETERS ARE STORED IN THE PCB. THE * STREAM STATE RESPONSE ACTION ORDINAL FOR THE COMMAND * IS RETURNED. * * ENTRY - * * (WLO) = WORKLIST COMMAND ORDINAL, * (WLP) = WORKLIST POINTER WORD ORDINAL. * * EXIT - * * (A) = STREAM STATE RESPONSE ACTION ORDINAL, * (RTE) = WORKLIST COMMAND CONTROL TABLE ENTRY, * (CO) = FRONT END COMMAND ORDINAL. * * CALLS - * * CIBS - CHECK INBOUND BUFFER SPACE, * GTE - GET DRIVER CONTROL TABLE ENTRY, * RSPB - READ AND STORE ADDRESS OF PCB WORD, ** WCMW - WRITE WORD TO PCB. ACWL ACTION PROCESS APPLICATION WORKLIST COMMAND LDN /NAM/WLCCM LENGTH OF WORKLIST COMPLETED WORKLIST RJM CIBS EXIT TO CHECK FOR INBOUND BUFFER SPACE PJN ACWL.1 EXIT IF SUFFICIENT INBOUND BUFFER SPACE EXIT NPRU EXIT TO PROCESS NEXT PRU STREAM ACWL.1 LINK ENTRY LDD WLO LOAD WORKLIST COMMAND ORDINAL ADC /TABLES/AWLCTL FWA OF WORKLIST COMMAND CONTROL TABLE RJM GTE EXIT TO GET DRIVER CONTROL TABLE ENTRY STD RTE STORE DRIVER CONTROL TABLE ENTRY SHN -S.CTLCD FRONT END COMMAND ORDINAL TO LOW-ORDER STD CO STORE FRONT END COMMAND ORDINAL LDN /NAM/W.PCBPS1 PRU STREAM PARAMETER WORD ONE ORDINAL RJM RSPB EXIT TO READ PRU PARAMETER WORD FROM PCB ACWL.2 LINK ENTRY LDD WLP LOAD WORKLIST POINTER WORD ORDINAL SHN 6 POSITION WORKLIST POINTER WORD ORDINAL ADD CO PLUS NPU COMMAND ORDINAL STD T10+/NAM/C.PCBWP STORE WORKLIST PARAMETER BYTE RJM WCMW EXIT TO WRITE PRU PARAMETER WORD TO PCB LDD WLO LOAD WORKLIST COMMAND ORDINAL LMN /TABLES/SITR VALUE FOR START TRANSPARENT INPUT ZJN ACWL.3 EXIT IF START TRANSPARENT INPUT LMN /TABLES/SINT&/TABLES/SITR DELTA TO START NON-TRANS INPU ZJN ACWL.3 EXIT IF START NON-TRANSPARNET INPUT LMN /TABLES/SIFT&/TABLES/SINT DELTA TO START INBOUND TRFR NJN ACWL.4 EXIT IF NOT START INBOUND FILE TRANSFER ACWL.3 LDN /NAM/W.PCBPS8 PRU PARAMETER WORD EIGHT ORDINAL RJM RSPB EXIT TO READ PRU PARAMETER WORD LDN 0 CONSTANT OF ZERO STD T10+/NAM/C.PCBQBC RESET QUEUED BUFFER COUNT RJM WCMW EXIT TO REWRITE PRU PARAMETER WORD TO PCB ACWL.4 LDD RTE LOAD DRIVER CONTROL TABLE ENTRY LPN L.ACTORD EXTRACT STREAM STATE ACTION ORDINAL EXIT EWLPX RETURN VIA WORKLIST PROCESSOR ACTION RETURN DOWL SPACE 2,32 ** WORKLIST ACTION PROCESSOR DOWL. * * WORKLIST ACTION PROCESSOR DOWL PROCESSES AN APPLICATION * DIRECT OUTPUT WORKLIST. IF THE END OF JOB FLAG IS SET * THE WORKLIST COMMAND ORDINAL IS CHANGED TO END OF JOB * DIRECT OUTPUT REQUEST. THE WORKLIST COMMAND CONTROL * TABLE ENTRY IS OBTAINED AND THE WORKLIST PARAMETERS ARE * STORED IN THE PCB. THE STREAM STATE RESPONSE ACTION * ORDINAL FOR THE COMMAND IS RETURNED. * * ENTRY - * * (DRBUF-DRBUF+L.SMHDR) = SERVICE MESSAGE HEADER, * (WLO) = WORKLIST COMMAND ORDINAL, * (WLP) = WORKLIST POINTER ORDINAL. * * EXIT - * * (A) = STREAM STATE RESPONSE ACTION ORDINAL, * (RTE) = WORKLIST COMMAND CONTROL TABLE ENTRY, * (CO) = FRONT END COMMAND ORDINAL. * * CALLS - * * GTE - GET DRIVER CONTROL TABLE ENTRY, * RSPB - READ AND STORE ADDRESS OF PCB WORD, ** WCMW - WRITE WORD TO PCB. DOWL ACTION PROCESS DIRECT OUTPUT WORKLIST LDN /NAM/WLCCM LENGTH OF WORKLIST COMPLETED WORKLIST RJM CIBS EXIT TO CHECK FOR INBOUND BUFFER SPACE PJN DOWL.1 EXIT IF SUFFICIENT INBOUND BUFFER SPACE EXIT NPRU EXIT TO PROCESS NEXT PRU STREAM DOWL.1 LDM DRBUF+4 LOAD END OF JOB FLAG ZJN DOWL.2 EXIT IF NOT END OF JOB REQUEST LDN /TABLES/EORQ-/TABLES/DORQ DELTA FOR END OUTPUT REQUEST RAD WLO INCREMENT WORKLIST ORDINAL TO END REQUEST DOWL.2 EXIT ACWL.1 EXIT TO GET WORKLIST CONTROL TABLE ENTRY ARWL SPACE 2,38 ** WORKLIST ACTION PROCESSOR ARWL. * * WORKLIST ACTION PROCESSOR ARWL PROCESSES AN APPLICATION * RESTART OUTPUT WORKLIST. IF THERE IS SUFFICIENT * INBOUND BUFFER SPACE FOR THE WORKLIST COMPLETED * WORKLIST A CHECK IS MADE FOR A REQUEST FOR A NEW FILE * POSITION. IF A NEW FILE POSITION IS REQUESTED THE NEW * NEW FILE POSITION IS STORED IN THE PCB AND IF THE FILE * MODE IS NOT TRANSPARENT THE FORCE NEW LINE AND END OF * LINE FLAGS ARE SET IN THE PCB. THE WORKLIST COMMAND * CONTROL TABLE ENTRY IS OBTAINED AND THE WORKLIST * PARAMETERS ARE STORED IN THE PCB. THE STREAM STATE * RESPONSE ACTION ORDINAL FOR THE COMMAND IS RETURNED. * * ENTRY - * * (DRBUF-DRBUF+L.SMHDR) = SERVICE MESSAGE HEADER, * (WLO) = WORKLIST COMMAND ORDINAL, * (WLP) = WORKLIST POINTER ORDINAL. * * EXIT - * * (A) = STREAM STATE RESPONSE ACTION ORDINAL, * (RTE) = WORKLIST COMMAND CONTROL TABLE ENTRY, * (CO) = FRONT END COMMAND ORDINAL. * * CALLS - * * CIBS - CHECK INBOUND BUFFER SPACE, * GTE - GET DRIVER CONTROL TABLE ENTRY, * RSPB - READ AND STORE ADDRESS OF PCB WORD, ** WCMW - WRITE WORD TO PCB. ARWL ACTION PROCESS APPLICATION RESTART STREAM WORKLIST LDN /NAM/WLCCM LENGTH OF WORKLIST COMPLETED WORKLIST RJM CIBS EXIT TO CHECK FOR INBOUND BUFFER SPACE PJN ARWL.1 EXIT IF SUFFICIENT INBOUND BUFFER SPACE EXIT NPRU EXIT TO PROCESS NEXT PRU STREAM ARWL.1 LDM DRBUF+/NAM/CPRU LOAD HIGH-ORDER OF NEW PRU ORDINAL ADM DRBUF+/NAM/CPRU+1 PLUS LOW-ORDER OF NEW PRU ORDINAL NJN ARWL.2 EXIT IF NEW PRU ORDINAL EXIT ACWL.1 EXIT TO GET WORKLIST CONTROL TABLE ENTRY ARWL.2 LDD WLO LOAD WORKLIST COMMAND ORDINAL ADC /TABLES/AWLCTL FWA OF WORKLIST COMMAND CONTROL TABLE RJM GTE EXIT TO GET DRIVER CONTROL TABLE ENTRY STD RTE STORE DRIVER CONTROL TABLE ENTRY SHN -S.CTLCD FRONT END COMMAND ORDINAL TO LOW-ORDER STD CO STORE FRONT END COMMAND ORDINAL LDN /NAM/W.PCBPS1 PRU STREAM PARAMETER ONE WORD ORDINAL RJM RSPB EXIT TO READ PRU PARAMETER WORD FROM PCB LDD T10+/NAM/C.PCBFP LOAD PRU FILE PRAMETER BYTE LPN /NAM/L.PCBFM EXTRACT FILE MODE SBN /TABLES/ASC+1-/TABLES/PCT HIGHEST NON-TRANSPARENT VALUE PJN ARWL.3 EXIT IF TRANSPARENT MODE LDD T10+/NAM/C.PCBFP LOAD PRU FILE PARAMETER BYTE LPN /NAM/B.PCBEOL EXTRACT END OF LINE FLAG NJN ARWL.3 EXIT IF LAST OPERATION WAS END OF LINE LDD T10+/NAM/C.PCBFP LOAD PRU FILE PARAMETER BYTE SCN /NAM/B.PCBFNL&/NAM/B.PCBEOL&/NAM/B.PCBLOC CLEAR FLAGS ADN /NAM/B.PCBFNL&/NAM/B.PCBEOL SET FLAGS STD T10+/NAM/C.PCBFP STORE PRU FILE PARAMETER BYTE ARWL.3 LINK ENTRY LDD T10+/NAM/C.PCBFNT LOAD FNT ORDINAL FROM PCB ZJN ARWL.4 EXIT IF NO ACTIVE FILE LDD T15 LOAD HIGH-ORDER OF PRU PARAM WORD ONE ADDR SHN 12 POSITION TO HIGH-ORDER ADD T15+1 PLUS LOW-ORDER OF PRU PARAM WORD ONE ADDR ADN /NAM/W.PCBPS5-/NAM/W.PCBPS1 DELTA FOR WORD FIVE CRD T1 READ PRU STREAM PARAMETER WORD FIVE LDM DRBUF+/NAM/CPRU LOAD HIGH-ORDER OF NEW PRU ORDINAL STD T10+/NAM/C.PCBNPR STORE HIGH-ORDER CURRENT PRU ORDINAL STD T1+/NAM/C.PCBCPP STORE HIGH-ORDER OF PRU ORDINAL LDM DRBUF+/NAM/CPRU+1 LOAD LOW-ORDER OF NEW PRU ORDINAL STD T10+/NAM/C.PCBNPR+1 STORE LOW-ORDER CURRENT PRU ORDINAL STD T1+/NAM/C.PCBCPP+1 STORE LOW-ORDER OF PRU ORDINAL LDD T15 LOAD HIGH-ORDER OF PCB WORD ADDRESS SHN 12 POSITION TO HIGH-ORDER ADD T15+1 PLUS LOW-ORDER OF PCB WORD ADDRESS ADN /NAM/W.PCBPS5-/NAM/W.PCBPS1 DELTA FOR WORD FIVE CWD T1 REWRITE PRU STREAM PARAMETER WORD FIVE ARWL.4 EXIT ACWL.2 EXIT TO WRITE PRU PARAMETER WORD TO PCB SPWL SPACE 2,40 ** WORKLIST ACTION PROCESSOR SPWL. * * WORKLIST ACTION PROCESSOR SPWL PROCESSES AN APPLICATION * COMMAND WORKLIST TO START A PRU STREAM FILE. IF THERE * IS SUFFICIENT INBOUND BUFFER SPACE FOR THE WORKLIST * COMPLETED WORKLIST THE WORKLIST COMMAND CONTROL TABLE * ENTRY IS OBTAINED AND THE WORKLIST PARAMETERS PLUS THE * FNT ORDINAL ARE STORED IN THE PCB. THE STREAM STATE * RESPONSE ACTION ORDINAL FOR THE COMMAND IS RETURNED. * * ENTRY - * * (WLO) = WORKLIST COMMAND ORDINAL, * (WLP) = WORKLIST POINTER WORD ORDINAL, * (NBH-NBH+L.BH) = WORKLIST BLOCK HEADER, * (FBA-FBA+1) = WORKLIST ADDRESS. * * EXIT - * * (A) = STREAM STATE RESPONSE ACTION ORDINAL, * (RTE) = WORKLIST COMMAND CONTROL TABLE ENTRY, * (CO) = FRONT END COMMAND ORDINAL. * * ERROR EXITS - * * EXIT TO *ERROR* IF WORKLIST FORMAT ERROR. * * CALLS - * * CIBS - CHECK INBOUND BUFFER SPACE, * GTE - GET DRIVER CONTROL TABLE ENTRY, * RSPB - READ AND STORE ADDRESS OF PCB WORD, * TFL - FORM ABSOLUTE CENTRAL ADDRESS, ** WCMW - WRITE WORD TO PCB. SPWL ACTION PROCESS START PRU STREAM WORKLIST COMMAND LDN /NAM/WLCCM LENGTH OF WORKLIST COMPLETED WORKLIST RJM CIBS EXIT TO CHECK FOR INBOUND BUFFER SPACE PJN SPWL.1 EXIT IF SUFFICIENT INBOUND BUFFER SPACE EXIT NPRU EXIT TO PROCESS NEXT PRU STREAM SPWL.1 LDD WLO LOAD WORKLIST COMMAND ORDINAL ADC /TABLES/AWLCTL FWA OF WORKLIST COMMAND CONTROL TABLE RJM GTE EXIT TO GET DRIVER CONTROL TABLE ENTRY SPWL.2 LINK ENTRY STD RTE STORE DRIVER CONTROL TABLE ENTRY SHN -S.CTLCD FRONT END COMMAND ORDINAL TO LOW-ORDER STD CO STORE FRONT END COMMAND ORDINAL LDM NBH+/NAM/C.BWD+1 LOAD CENTRAL WORD LENGTH OF WORKLIST LMN /NAM/SMFPCM LESS LENGTH OF FILE PARAMETER WORKLIST ZJN SPWL.4 EXIT IF CORRECT WORKLIST LENGTH SPWL.3 LINK ENTRY EREXIT WLE EXIT TO ERROR - WORKLIST FORMAT ERROR SPWL.4 LDN /NAM/W.PCBPS1 PRU STREAM PARAMETER ONE WORD ORDINAL RJM RSPB EXIT TO READ PRU PARAMETER WORD FROM PCB LDD FBA LOAD HIGH-ORDER OF WORKLIST ADDRESS SHN 12 POSITION TO HIGH-ORDER ADD FBA+1 PLUS LOW-ORDER OF WORKLIST ADDRESS ADN /NAM/SMHDRCM PLUS LENGTH OF WORKLIST HEADER WORDS RJM TFL EXIT TO FORM ABSOLUTE CENTRAL ADDRESS CRD T0 READ WORKLIST FILE PARAMETER WORD LDD T0+/NAM/FNT-/NAM/L.SMHDR FNT ORDINAL FROM WORKLIST ZJN SPWL.3 EXIT IF NO FNT ORDINAL STD T10+/NAM/C.PCBFNT STORE FNT ORDINAL INTO PCB EXIT ARWL.3 EXIT TO STORE CURRENT PRU ORDINAL JVWL SPACE 2,40 ** WORKLIST ACTION PROCESSOR JVWL. * * WORKLIST ACTION PROCESSOR JVWL PROCESSES AN APPLICATION * WORKLIST REPORTING THE RESULT OF JOB VALIDATION FOR A * PRU INPUT STREAM. IF THERE IS SUFFICIENT INBOUND * BUFFER SPACE FOR THE WORKLIST COMPLETED WORKLIST THE * RESPONSE CODE FROM THE WORKLIST IS OBTAINED AND USED * TO GENERATE THE CORRECT CONTROL TABLE ENTRY AND THE * WORKLIST PARAMETERS PLUS THE FNT ADDRESS ARE STORED IN * THE PCB. THE STREAM STATE RESPONSE ACTION ORDINAL FOR * THE COMMAND IS RETURNED. * * ENTRY - * * (WLP) = WORKLIST POINTER ORDINAL, * (DRBUF-DRBUF+L.SMHDR) = SERVICE MESSAGE HEADER, * (NBH-NBH+L.BH) = WORKLIST BLOCK HEADER, * (FAB-FBA+1) = WORKLIST ADDRESS. * * EXIT - * * (A) = STREAM STATE RESPONSE ACTION ORDINAL, * (RTE) = GENERATED CONTROL TABLE ENTRY, * (CO) = FRONT END COMMAND ORDINAL. * * ERROR EXITS - * * EXIT TO *ERROR* IF WORKLIST FORMAT ERROR. * * CALLS - * * CIBS - CHECK INBOUND BUFFER SPACE, * RSPB - READ AND STORE ADDRESS OF PCB WORD, * TFL - FORM ABSOLUTE CENTRAL ADDRESS, ** WCMW - WRITE WORD TO PCB. JVWL ACTION PROCESS JOB VALIDATION WORKLIST RESPONSE LDN /NAM/WLCCM LENGTH OF WORKLIST COMPLETED WORKLIST RJM CIBS EXIT TO CHECK FOR INBOUND BUFFER SPACE PJN JVWL.1 EXIT IF SUFFICIENT INBOUND BUFFER SPACE EXIT NPRU EXIT TO PROCESS NEXT PRU STREAM JVWL.1 LDM DRBUF+1 LOAD RESPONSE CODE FROM WORKLIST LPN 0#F EXTRACT RESPONSE CODE FROM WORKLIST LMN 1 LESS VALUE FOR VALID JOB ZJN JVWL.2 EXIT IF VALID JOB LDN /TABLES/.SJBE-/TABLES/.SJBV DELTA FOR INVALID JOB JVWL.2 ADN /TABLES/.SJBV PLUS DELTA FOR VALID JOB ADC 77BS6 PLUS NULL COMMAND VALUE EXIT SPWL.2 EXIT TO STORE CONTROL TABLE ENTRY WLMS TITLE A-A LEVEL SEVEN WORKLIST ACTION PROCESSORS. WLMS SPACE 2,20 ** A-A WORKLIST ACTION PROCESSOR WLMS. * * A-A WORKLIST ACTION PROCESSOR WLMS PROCESSES THE * RECEIPT OF A CHECKMARK FROM A REMOTE APPLICATION. THE * LEVEL SEVEN COMMAND ORDINAL IS STORED IN THE PCB AND * THE STREAM STATE RESPONSE ACTION IS RETURNED. * CURRENT PRU POSITION IS STORED IN W.PCBPS4 AS THE PRU * POSITION CORRESPONDING TO THE CURRENT CHECKMARK. * * EXIT - * * (A) = STREAM STATE RESPONSE ACTION ORDINAL. * * CALLS - * * RSPB - READ AND STORE ADDRESS OF PCB WORD, ** WCMW - WRITE WORD TO PCB. WLMS ACTION RESPOND TO RECIEVED CHECKMARK LDN /NAM/W.PCBPS4 PRU STREAM PARAMETER FOUR WORD ORDINAL RJM RSPB EXIT TO READ PRU PARAMETER WORD FROM PCB SBN /NAM/W.PCBPS4-/NAM/W.PCBPS1 DELTA FOR WORD ONE CRD T1 READ PRU PARAMETER WORD FROM PCB LDN /TABLES/MRL7 LOAD CHECKMARK REPLY COMMAND ORDINAL STD CO STORE LEVEL SEVEN COMMAND ORDINAL STD T1+/NAM/C.PCBWP STORE WORKLIST PARAMETER BYTE LDD T1+/NAM/C.PCBNPR HIGH-ORDER OF CURRENT PRU POSITION STD T10+/NAM/C.PCBPPR HIGH-ORDER OF PENDING PRU POSITION LDD T1+/NAM/C.PCBNPR+1 LOW-ORDER OF CURRENT PRU POSITION STD T10+/NAM/C.PCBPPR+1 LOW-ORDER OF PENDING PRU POSITION RJM WCMW EXIT TO WRITE PRU PARAMETER WORD FOUR SBN /NAM/W.PCBPS4-/NAM/W.PCBPS1 DELTA FOR WORD ONE CWD T1 REWRITE PRU PARAMETER WORD ONE TO PCB LDN /TABLES/.S7MS LOAD STREAM STATE RESPONSE ACTION ORDINAL EXIT EWLPX RETURN VIA WORKLIST PROCESSOR ACTION RETURN VWLE TITLE DRIVER SUPPORT PROCESSORS. QUAL LINKS SPACE 2,6 * RESET LINKS. .ERROR SET /ACTIONS/.ERROR VWLE SPACE 2,48 ** DRIVER SUPPORT PROCESSOR VWLE. * * DRIVER SUPPORT PROCESSOR VWLE VALIDATES A PRU WORKLIST * ENTRY. THE NAM WORKLIST HEADER IS READ AND VALIDATED. * IF THE WORKLIST ENTRY IS A REQUEST TO TERMINATE A PRU * STREAM THE LENGTH OF THE WORKLIST IS VALIDATED AND THE * WORKLIST ORDINAL IS SET TO TERMINATE PRU STREAM. IF * THE WORKLIST IS AN APPLICATION SUPERVISORY MESSAGE THE * LENGTH OF THE WORKLIST IS VALIDATED AND THE SUPERVISORY * HEADER WORD IS READ. THE PRIMARY AND SECONDARY * FUNCTION CODES ARE VALIDATED AND THE WORKLIST ORDINAL * IS SET BASED ON THE PRIMARY AND SECONDARY FUNCTION * CODES FROM THE APPLICATION. * * ENTRY - * * (FBA-FBA+1) = ADDRESS OF WORKLIST ENTRY, * (FEI) = FRONT END TABLE ADDRESS, * (HND) = HOST NODE ID, * (TN) = TERMINAL NODE ID, * (CN) = CONNECTION NUMBER. * * EXIT - * * (WLO) = WORKLIST ORDINAL, * (NBH-NBH+L.BH) = NAM BLOCK HEADER, * (NNH-NNH+L.NH) = PACKED WORKLIST HEADER, * (WHB-WHB+L.WH) = UNPACKED WORKLIST HEADER, * (DRBUF-DRBUF+4) = SUPERVISORY HEADER WORD. * * ERROR EXITS - * * EXIT TO *ERROR* IF BAD WORKLIST ENTRY, * EXIT TO *ERROR* IF WORKLIST FORMAT ERROR. * * CALLS - * * TFL - FORM ABSOLUTE CENTRAL ADDRESS, * UPD - UNPACK DATA, * RSPB - READ AND STORE ADDRESS OF PCB WORD, * WCMW - WRITE WORD TO PCB, ** TLU - TABLE LOOKUP. VWLE LINK ENTRY LDN /NAM/L.BH+/NAM/L.NH LOAD LENGTH OF NAM HEADER WORDS STD T17 STORE CENTRAL WORD COUNT LDD FBA LOAD HIGH-ORDER OF WORKLIST ADDRESS SHN 12 POSITION TO HIGH-ORDER ADD FBA+1 PLUS LOW-ORDER OF WORKLIST ADDRESS ADD T17 PLUS CENTRAL WORD COUNT RJM TFL EXIT TO FORM ABSOLUTE CENTRAL ADDRESS SBD T17 LESS CENTRAL WORD COUNT CRM NBH,T17 READ NAM BLOCK HEADER AND WORKLIST HEADER LDM NBH+/NAM/C.BID LOAD BLOCK ID BYTE SHN -/NAM/S.BID POSITION BLOCK ID TO LOW-ORDER LMN /NAM/Q.WLID LESS WORKLIST BLOCK ID ZJN VWLE.2 EXIT IF CORRECT BLOCK ID VWLE.1 LINK ENTRY EREXIT BWL EXIT TO ERROR - BAD WORKLIST ENTRY VWLE.2 LDM NBH+/NAM/C.BWD LOAD HIGH-ORDER OF BLOCK SIZE IN WORDS LPN 77B EXTRACT HIGH-ORDER OF BLOCK SIZE NJN VWLE.1 EXIT IF BLOCK SIZE ERROR LDM NBH+/NAM/C.BWD+1 LOAD LOW-ORDER OF BLOCK SIZE IN WORDS SBN /NAM/L.BH+/NAM/L.NH LESS LENGTH OF NAM HEADERS STD T17 STORE WORKLIST TEXT WORD COUNT LDC NNH LOAD ADDRESS OF NAM NETWORK HEADER STD T1 STORE SOURCE BUFFER ADDRESS ADN WHB-NNH DELTA FOR WORKLIST BUFFER ADDRESS STD T2 STORE DESTINATION BUFFER ADDRESS LDN /NAM/L.WH LENGTH OF WORKLIST HEADER RJM /4IQ/UPD EXIT TO UNPACK WORKLIST HEADER LDM WHB+/NAM/WHN LOAD HOST NODE FROM WORKLIST LMM HND,FEI LESS HOST NODE ID NJN VWLE.3 EXIT IF HOST NODE ERROR LDM WHB+/NAM/WTN LOAD TERMINAL NODE FROM WORKLIST LMD TN LESS TERMINAL NODE ZJN VWLE.4 EXIT IF CORRECT TERMINAL NODE VWLE.3 UJK VWLE.1 EXIT TO ERROR - WORKLIST FORMAT ERROR VWLE.4 LDM WHB+/NAM/WCN LOAD CONNECTION NUMBER FROM WORKLIST LMD CN LESS CONNECTION NUMBER NJN VWLE.3 EXIT IF CONNECTION NUMBER ERROR LDM WHB+/NAM/WOC LOAD WORKLIST REQUEST CODE LMN /NAM/TPWL LESS VALUE FOR TERMINATE PRU STREAM REQUEST NJN VWLE.6 EXIT IF NOT TERMINATE PRU STREAM REQUEST LDD T17 LOAD WORKLIST TEXT WORD COUNT NJN VWLE.3 EXIT IF WORKLIST BLOCK SIZE ERROR LDN /NAM/W.PCBPS2 PRU STREAM PARAMETER TWO WORD ORDINAL RJM RSPB EXIT TO READ PRU PARAMETER WORD FROM PCB LDM WHB+/NAM/WRC LOAD TERMINATE PRU REASON CODE LPN 77B EXTRACT TERMINATE PRU REASON CODE STD T10+/NAM/C.PCBTRC STORE TERMINATE PRU REASON CODE RJM WCMW EXIT TO WRITE PRU PARAMETER WORD TO PCB LDN /TABLES/TPRU LOAD TERMINATE PRU WORKLIST ORDINAL VWLE.5 STD WLO STORE WORKLIST ORDINAL UJK /STATES/SCWL.3 EXIT TO PROCESS WORKLIST ENTRY VWLE.6 LDD T17 LOAD WORKLIST TEXT COUNT ZJN VWLE.7 EXIT IF WORKLIST BLOCK SIZE ERROR LDD FBA LOAD HIGH-ORDER OF WORKLIST BUFFER ADDRESS SHN 12 POSITION TO HIGH-ORDER ADD FBA+1 PLUS LOW-ORDER OF WORKLIST BUFFER ADDRESS ADN /NAM/L.BH+/NAM/L.NH PLUS LENGTH OF NAM HEADERS RJM TFL EXIT TO FORM ABSOLUTE CENTRAL ADDRESS CRM DRBUF,ON READ SUPERVISORY HEADER FROM WORKLIST LDM DRBUF LOAD APPLICATION PRIMARY FUNCTION CODE SCN /NAM/B.NR/0#10 CLEAR NORMAL RESPONSE BIT STD T0 STORE APPLICATION PRIMARY FUNCTION CODE LPN 0#F EXTRACT HIGH-ORDER SECONDARY FUNCTION CODE NJN VWLE.7 EXIT IF INVALID SECONDARY FUNCTION CODE LDM DRBUF+1 LOAD LOW-ORDER OF SECONDARY FUNCTION CODE SHN -8 POSITION TO LOW-ORDER ADD T0 PLUS PRIMARY FUNCTION CODE STD TAR STORE TABLE ARGUMENT LDC /TABLES/AWLCMD LOAD ADDRESS APPLICATION COMMAND TABLE RJM TLU EXIT TO FIND APPLICATION COMMAND ENTRY PJN VWLE.5 EXIT IF VALID APPLICATION COMMAND VWLE.7 UJK /ACTIONS/SPWL.3 EXIT TO ERROR - WORKLIST FORMAT ERROR GPCT TITLE COMMAND PROCESSOR SUBROUTINES. GPCT SPACE 2,36 ** SUBROUTINE GPCT. * * SUBROUTINE GPCT READS THE COMMAND TEXT FROM THE * SUPERVISORY WORKLIST AND UNPACKS THE TEXT. * * ENTRY - * * (WJP) = WORKLIST POINTER WORD. * * EXIT - * * (T17) = TEXT CHARACTER COUNT, * (FBA-FBA+1) = WORKLIST ADDRESS, * (WLBUF-WLBUF+L.WT) = PACKED WORKLIST TEXT, * (DRBUF-DRBUF+L.WT) = UNPACKED WORKLIST TEXT. * * ERROR EXITS - * * EXIT TO *ERROR* IF WORKLIST RELEASED, * EXIT TO *ERROR* IF WORKLIST LENGTH ERROR. * * CALLS - * * RPCB - READ WORD FROM PCB, * TFL - FORM ABSOLUTE CENTRAL ADDRESS, * UPD - UNPACK DATA. * * USES - * * T17 = CENTRAL WORD COUNT, ** T0 = WORKLIST TEXT LENGTH DIVIDED BY TWO. GPCT SUBR ENTRY/EXIT LDD WLP LOAD WORKLIST POINTER WORD ORDINAL RJM RPCB EXIT TO READ WORKLIST POINTER WORD FROM PCB LDN /NAM/L.BH+/NAM/L.NH LOAD LENGTH OF NAM HEADER WORS STD T17 STORE CENTRAL WORD COUNT LDD T10+/NAM/C.PCBWLP LOAD HIGH-ORDER OF WORKLIST ADDRESS STD FBA STORE HIGH-ORDER OF WORKLIST ADDRESS SHN 12 POSITION TO HIGH-ORDER ADD T10+/NAM/C.PCBWLP+1 PLUS LOW-ORDER OF WORKLIST ADDRESS NJN GPCT.1 EXIT IF WORKLIST PRESENT EXIT VWLE.1 EXIT TO ERROR - WORKLIST RELEASED GPCT.1 STD FBA+1 STORE LOW-ORDER OF WORKLIST ADDRESS ADD T17 PLUS CENTRAL WORD COUNT RJM TFL EXIT TO FORM ABSOLUTE CENTRAL ADDRESS SBD T17 LESS CENTRAL WORD COUNT CRM NBH,T17 READ NAM BLOCK HEADER AND WORKLIST HEADER LCN /NAM/SMHDRCM NEGATIVE OF SUPERVISORY HEADER LENGTH RAM NBH+/NAM/C.BWD+1 DECREMENT WORKLIST WORD COUNT NJN GPCT.3 EXIT IF WORKLIST TEXT GPCT.2 UJK /ACTIONS/SPWL.3 EXIT TO ERROR - WORKLIST LENGTH ERROR GPCT.3 SBN WLBCM+1 LESS MAXIMUM WORKLIST WORD LENGTH PJN GPCT.2 EXIT IF WORKLIST LENGTH EXCEEDS MAXIMUM LDM NBH+/NAM/C.BWD+1 LOAD WORKLIST TEXT WORD COUNT STD T17 STORE CENTRAL WORD COUNT LDD FBA LOAD HIGH-ORDER OF WORKLIST ADDRESS SHN 12 POSITION TO HIGH-ORDER ADD FBA+1 PLUS LOW-ORDER OF WORKLIST ADDRESS ADN /NAM/SMHDRCM DELTA TO BYPASS SUPERVISORY HEADER ADD T17 PLUS CENTRAL WORD COUNT RJM TFL EXIT TO FORM ABSOLUTE CENTRAL ADDRESS SBD T17 LESS CENTRAL WORD COUNT CRM WLBUF,T17 READ WORKLIST TEXT LDC WLBUF LOAD ADDRESS OF WORKLIST TEXT BUFFER STD T1 STORE SOURCE DATA ADDRESS LDC DRBUF LOAD ADDRESS OF DRIVER BUFFER STD T2 STORE DESTINATION DATA ADDRESS LDM NBH+/NAM/C.BWD+1 LOAD WORKLIST TEXT WORD COUNT ADN 1 ROUND UP SHN -1 DIVIDED BY TWO STD T0 STORE WORD LENGTH DIVIDED BY TWO SHN 4 ONE HALF WORD LENGTH TIMES SIXTEEN SBD T0 TIMES FIFTEEN FOR CHARACTER COUNT STD T17 STORE TEXT CHARACTER COUNT RJM /4IQ/UPD EXIT TO UNPACK WORKLIST HEADER UJK GPCTX RETURN UPD SPACE 2,26 QUAL 4IQ ** SUBROUTINE UPD. * * SUBROUTINE UPD UNPACKS A SOURCE CHARACTER STRING OF * CONSECUTIVE EIGHT BIT CHARACTERS INTO A STRING OF * SINGLE EIGHT BIT CHARACTERS. THE SUBROUTINE ITERATES * ON THREE SOURCE CHARACTERS. * * ENTRY - * * (A) = SOURCE DATA CHARACTER COUNT, * (T1) = SOURCE DATA ADDRESS, * (T2) = DESTINATION DATA ADDRESS. * * USES - * ** T0 = SOURCE DATA CHARACTER COUNT. UPD SUBR ENTRY/EXIT STD T0 STORE SOURCE DATA CHARACTER COUNT UPD.1 LDI T1 LOAD NEXT SOURCE BYTE SHN -4 POSITION NEXT SOURCE CHARACTER STI T2 STORE NEXT DATA CHARACTER SOD T0 DECREMENT SOURCE DATA CHARACTER COUNT ZJN UPDX RETURN IF END OF SOURCE DATA AOD T2 INCREMENT DESTINATION DATA ADDRESS LDI T1 LOAD NEXT SOURCE BYTE LPN 0#F EXTRACT HIGH-ORDER OF NEXT DATA CHARACTER SHN 4 POSITION HIGH-ORDER OF NEXT DATA CHARACTER STI T2 STORE HIGH-ORDER OF NEXT DATA CHARACTER AOD T1 INCREMENT SOURCE DATA ADDRESS LDI T1 LOAD NEXT SOURCE BYTE SHN -8 POSITION LOW-ORDER OF NEXT DATA CHARACTER RAI T2 ADD TO HIGH-ORDER OF DATA CHARACTER SOD T0 DECREMENT SOURCE DATA CHARACTER COUNT ZJN UPDX RETURN IF END OF SOURCE DATA AOD T2 INCREMENT DESTINATION DATA ADDRESS LDI T1 LOAD NEXT SOURCE BYTE LPC 0#FF EXTRACT NEXT SOURCE CHARACTER STI T2 STORE NEXT DATA CHARACTER SOD T0 DECREMENT SOURCE DATA CHARACTER COUNT ZJN UPDX RETURN IF END OF SOURCE DATA AOD T1 INCREMENT SOURCE DATA ADDRESS AOD T2 INCREMENT DESTINATION DATA ADDRESS UJK UPD.1 EXIT TO PROCESS NEXT SOURCE BYTE QUAL ."O.N" EQU * OVERLAY F=TRANS,T1=(COMMAND PROCESSORS),T2=(IVT OUTPUT COMMAND , PROCESSORS) QUAL ACTIONS TYPEACT MICRO 1,,*CMDOUT* DEFINE ACTION TYPE LINKS SPACE 2,6 * RESET LINKS. .PPRU SET 0 .EBRAX SET 0 .ERROR SET 0 .TCRN SET 0 COCE SPACE 2,32 ** IVT COMMAND ACTION PROCESSOR COCE. * * IVT COMMAND ACTION PROCESSOR COCE PROCESSES AN * UNSOLICITED CE ERROR MESSAGE WHEN THE DRIVER DETECTS AN * ERROR PROCESSING A FRONT END. IF THERE IS SUFFICIENT * INBOUND BUFFER SPACE FOR THE CE ERROR MESSAGE COMMAND * THE FRONT END STATUS IN THE INBOUND FET IS UPDATED AND * THE CE ERROR MESSAGE COMMAND IS GENERATED AND * TRANSFERRED TO THE INBOUND BUFFER. * * ENTRY - * * (FEI) = FRONT END TABLE ADDRESS, * (DEC) = DRIVER ERROR CODE, * (PEC) = PREVIOUS DRIVER ERROR CODE, * (CSR) = FRONT END STATUS REGISTER CONTENTS. * * EXIT - * * (PEC) = CURRENT DRIVER ERROR CODE. * * CALLS - * * CIBS - CHECK INBOUND BUFFER SPACE, * UNSB - UPDATE FRONT END STATUS BYTE, * SRV - STORE REGISTER VALUE, ** TCR - TRANSFER CE ERROR MESSAGE COMMAND. COCE ACTION PROCESS CE ERROR MESSAGE LDM DEC,FEI LOAD CURRENT DRIVER ERROR CODE LMM PEC,FEI LESS PREVIOUS DRIVER ERROR CODE NJN COCE.1 EXIT IF DIFFERENT ERROR CODE EXIT EBRAX RETURN VIA OUTPUT COMMAND ACTION RETURN COCE.1 LDN /NAM/CEERCM LENGTH OF CE ERROR MESSAGE COMMAND RJM CIBS EXIT TO CHECK FOR INBOUND BUFFER SPACE PJN COCE.2 EXIT IF INBOUND BUFFER SPACE AVAILABLE EXIT PPRU EXIT TO PROCESS PRU STREAMS COCE.2 LDM DEC,FEI LOAD CURRENT DRIVER ERROR CODE STM PEC,FEI STORE PREVIOUS DRIVER ERROR CODE LDC /NAM/B.NBTMF&/NAM/B.NBTNA LOAD NPU STATUS VALUE RJM UNSB EXIT TO UPDATE NPU STATUS BYTE LDC 0#FF LOAD ERROR CODE STM DRBUF+/BLOCK/CEERC STORE ERROR CODE LDM DEC,FEI LOAD DRIVER ERROR CODE LPC 3777B REMOVE MDI SOFT ERROR FLAG STM DRBUF+/BLOCK/CEDEC STORE DRIVER ERROR CODE LDC DRBUF+/BLOCK/CECSR LOAD ADDRESS FOR REGISTER CONTENTS STD T7 STORE ADDRESS FOR REGISTER CONTENTS LDM CSR,FEI LOAD LAST COUPLER STATUS REGISTER CONTENTS RJM SRV EXIT TO STORE REGISTER CONTENTS IN COMMAND LDM DEC,FEI LOAD DRIVER ERROR CODE SHN -S.SERR EXTRACT MDI SOFT ERROR FLAG SHN /BLOCK/S.CESOFT REPOSITION MDI SOFT ERROR FLAG FOR CMD RAM DRBUF+/BLOCK/CECSR PLACE MDI SOFT ERROR FLAG IN CMD LDN /NAM/CEERCM LOAD COMMAND WORD LENGTH STM NBH+/NAM/C.BWD+1 STORE COMMAND WORD LENGTH LDN /NAM/CEERC LOAD COMMAND TEXT CHARACTER COUNT COCE.3 LINK ENTRY STM NNH+/NAM/C.MCC STORE MESSAGE TEXT CHARACTER COUNT LDM HND,FEI LOAD HOST NODE ID OF COUPLER STM BHB+/BLOCK/SN STORE SOURCE NODE STM BHB+/BLOCK/DN STORE DESTINATION NODE LDN 0 CONSTANT OF ZERO STM DHB+/BLOCK/DBC ZERO DATA BLOCK CLARIFIER STM BHB+/BLOCK/CN STORE CONNECTION NUMBER LDN /BLOCK/CMD LOAD COMMAND BLOCK TYPE STM BHB+/BLOCK/BNBT STORE BLOCK TYPE LDC /TABLES/NIOC LOAD ADDRESS OF COMMAND MESSAGE TABLE ADD CO PLUS COMMAND ORDINAL RJM GTE EXIT TO GET DRIVER CONTROL TABLE ENTRY STD T0 STORE DRIVER CONTROL TABLE ENTRY SHN -4 POSITION PRIMARY FUNCTION CODE STM NCH+/BLOCK/PFC STORE PRIMARY FUNCTION CODE LDD T0 LOAD DRIVER CONTROL TABLE ENTRY LPN 0#F EXTRACT SECONDARY FUNCTION CODE STM NCH+/BLOCK/SFC STORE SECONDARY FUNCTION CODE EXIT TCRN EXIT TO TRANSFER COMMAND RESPONSE COLL SPACE 2,26 ** IVT COMMAND ACTION PROCESSOR COLL. * * IVT COMMAND ACTION PROCESSOR COLL GENERATES A LOAD * LOCAL NPU COMMAND. IF THERE IS SUFFICIENT INBOUND * BUFFER SPACE THE REQUEST FOR INITIALIZAITION IS * ACKNOWLEDGED TO THE NPU AND THE LOAD LOCAL NPU REQUEST * COMMAND IS GENERATED AND TRANSFERRED TO THE INBOUND * BUFFER. * * ENTRY - * * (FEI) = FRONT END TABLE ADDRESS, * (CHN) = NPU CHANNEL NUMBER, * (CAD) = NPU EQUIPMENT NUMBER. * * CALLS - * * CIBS - CHECK INBOUND BUFFER SPACE, * UNSB - UPDATE NPU STATUS BYTE, * WOW - WRITE ORDER WORD TO NPU, ** TCR - TRANSFER LOAD REQUEST COMMNAD. COLL ACTION GENERATE REQUEST TO LOAD LOCAL NPU LDN /NAM/LDRQCM LENGTH OF LOAD NPU REQUEST COMMAND RJM CIBS EXIT TO CHECK FOR INBOUND BUFFER SPACE PJN COLL.1 EXIT IF INBOUND BUFFER SPACE AVAILABLE EXIT PPRU EXIT TO PROCESS PRU STREAMS COLL.1 LDC /NAM/B.NBTNA/&/NAM/B.NBTMF&/NAM/B.NBTIF LOAD NPU STATUS RJM UNSB EXIT TO UPDATE NPU STATUS BYTE LDN 1 CONSTANT OF ONE COLL.2 LINK ENTRY STM DRBUF+/BLOCK/LTYP STORE LOAD TYPE OF REQUEST LDM CHN,FEI LOAD NPU CHANNEL NUMBER LPN 77B EXTRACT NPU CHANNEL NUMBER STM DRBUF+/BLOCK/LP SET PORT TO NPU CHANNEL NUMBER LDM CAD,FEI LOAD COUPLER ADDRESS SHN -9 POSITION EQUIPMENT NUMBER TO LOW-ORDER STM DRBUF+/BLOCK/LSP SET SUB-PORT TO EQUIPMENT NUMBER LDN /NAM/LDRQCM LOAD COMMAND WORD LENGTH STM NBH+/NAM/C.BWD+1 STORE COMMAND WORD LENGTH LDN /NAM/LDRQC LOAD COMMAND TEXT CHARACTER COUNT EXIT COCE.3 EXIT TO STORE COMMAND TEXT CHARACTER COUNT COLB SPACE 2,32 ** IVT COMMAND ACTION PROCESSOR COLB. * * IVT COMMAND ACTION PROCESSOR COLB GENERATES A LOAD NPU * BOOTSTRAP REQUEST COMMAND. IF THERE IS SUFFICIENT * INBOUND BUFFER SPACE THE NPU IS CLEARED, THE NPU DEAD * TIMER IS SET TO THE BOOTSTRAP LOAD VALUE, THE * ACCUMULATED BATCH COUNT IS RESET, THE LOAD NPU * BOOTSTRAP REQUEST COMMAND IS GENERATED AND TRANSFERRED * TO THE INBOUND BUFFER. * * ENTRY - * * (FEI) = FRONT END TABLE ADDRESS, * (CHN) = NPU CHANNEL NUMBER, * (CAD) = NPU EQUIPMENT NUMBER. * * EXIT - * * (DTM) = SET TO BOOTSTRAP LOAD TIMEOUT VALUE, * (ABC) = RESET. * * CALLS - * * CIBS - CHECK INBOUND BUFFER SPACE, * FNC - CLEAR NPU, * UNSB - UPDATE NPU STATUS BYTE, ** TCR - TRANSFER LOAD NPU BOOTSTRAP COMMAND. COLB ACTION GENERATE REQUEST TO LOAD NPU BOOTSTRAP LDN /NAM/LDRQCM LENGTH OF LOAD NPU REQUEST COMMAND RJM CIBS EXIT TO CHECK FOR INBOUND BUFFER SPACE MJN COR0.1 EXIT IF NOT SUFFICIENT INBOUND BUFFER SPACE LDC /FUNCTION/CLN LOAD FUNTION TO CLEAR NPU RJM /NPU/FNC EXIT TO CLEAR NPU LDK RTCL LOAD ADDRESS OF SYSTEM REAL-TIME CLOCK CRD T0 READ SYSTEM REAL-TIME CLOCK LDD T0+1 LOAD SYSTEM SECOND TIME ADK Q.BSDEAD PLUS BOOTSTRAP LOAD TIMEOUT QUANTUM STM DTM,FEI SET NPU DEAD TIMER TO BOOTSTRAP LOAD TIMER LDC /NAM/B.NBTMF&/NAM/B.NBTDF LOAD NPU STATUS BYTE VALUE RJM UNSB EXIT TO UPDATE NPU STATUS BYTE LDN 0 CONSTANT OF ZERO STM ABC,FEI RESET ACCUMULATED BATCH COUNT EXIT COLL.2 EXIT TO STORE LOAD TYPE COR0 SPACE 2,24 ** IVT COMMAND ACTION PROCESSOR COR0. * * IVT COMMAND ACTION PROCESSOR COR0 GENERATES A * REGULATION LEVEL ZERO COMMAND TO NAM TO INDICATE THAT * NO MORE TRAFFIC CAN BE DELIVERED THROUGH THE COUPLER. * IF THERE IS SUFFICIENT INBOUND BUFFER SPACE THE * REGULATION LEVEL ZERO COMMAND IS GENERATED AND * TRANSFERRED TO THE INBOUND BUFFER. * * ENTRY - * * (FEI) = FRONT END TABLE ADDRESS. * * CALLS - * * CIBS - CHECK INBOUND BUFFER SPACE, * UNSB - UPDATE NPU STATUS BYTE, ** TCR - TRANSFER REGULATION ZERO COMMAND. COR0 ACTION GENERATE REGULATION LEVEL ZERO COMMAND LDN /NAM/RGCPCM LENGTH OF REGULATION CHANGE COMMAND RJM CIBS EXIT TO CHECK FOR INBOUND BUFFER SPACE PJN COR0.2 EXIT IF INBOUND BUFFER SPACE AVAILABLE COR0.1 LINK ENTRY EXIT PPRU EXIT TO PROCESS PRU STREAMS COR0.2 LDC /NAM/B.NBTNA&/NAM/B.NBTMF&/NAM/B.NBTLF LOAD NPU STATUS RJM UNSB EXIT TO UPDATE NPU STATUS BYTE LDN 0 CONSTANT OF ZERO STM DRBUF+/BLOCK/REG SET REGULATION LEVEL TO ZERO STM DRBUF+/BLOCK/REGR RESET REPLY BYTE LDN /NAM/RGCPCM LOAD COMMAND WORD LENGTH STM NBH+/NAM/C.BWD+1 STORE COMMAND WORD LENGTH LDN /NAM/RGCPC LOAD COMMAND TEXT CHARACTER COUNT EXIT COCE.3 EXIT TO STORE COMMAND TEXT CHARACTER COUNT CORS SPACE 2,32 ** IVT COMMAND ACTION PROCESSOR CORS. * * IVT COMMAND ACTION PROCESSOR CORS SETS THE FRONT END * REGULATION LEVEL TO ZERO AND REQUESTS THE REGULATION * LEVEL OF THE HOST. IF THERE IS SUFFICIENT INBOUND * BUFFER SPACE FOR THE REQUEST REGULATION LEVEL COMMAND * THE FRONT END REGULATION LEVEL IS SET TO ZERO AND THE * COMMAND IS GENERATED AND TRANSFERRED TO THE INBOUND * BUFFER. * * ENTRY - * * (FEI) = FRONT END TABLE ADDRESS. * * CALLS - * * CIBS - CHECK INBOUND BUFFER SPACE, * UNSB - UPDATE NPU STATUS BYTE, * TCR - TRANSFER REGULATION LEVEL STATUS REQUEST. * * MACRO CALLS - * ** FEIO - LOGICAL INPUT/OUTPUT INTERFACE. CORS ACTION REQUEST HOST REGULATION LEVEL LDN /NAM/RGSTCM LENGTH OF REGULATION STATUS REQUEST RJM CIBS EXIT TO CHECK FOR INBOUND BUFFER SPACE MJN COR0.1 EXIT IF NOT SUFFICIENT INBOUND BUFFER SPACE LDM FTY,FEI LOAD FRONT END TYPE ZJN CORS.2 EXIT IF NPU FRONT END LDM CHVER,FEI MCI CHANNEL PROTOCOL VERSION NUMBER SBN /MSTATUS/VERSION4 LOWEST VERSION NUMBER THAT DOES NOT NEED START REGULATION FUNCTION PJN CORS.1 EXIT IF START REGULATION NOT NEEDED LDN /FUNCTION/SRR MCI START REGULATION FUNCTION CODE FEIO FERG CHANGE FRONT END REGULATION LEVEL CORS.1 LDM FTY,FEI LOAD FRONT END TYPE SCN L.REG CLEAR LAST REGULATION LEVEL STM FTY,FEI REPLACE FRONT END TYPE CORS.2 LDC /NAM/B.NBTNA LOAD NPU ACTIVE STATUS RJM UNSB EXIT TO UPDATE NPU STATUS BYTE LDN /NAM/RGSTCM LOAD REQUEST WORD LENGTH STM NBH+/NAM/C.BWD+1 STORE REQUEST WORD LENGTH LDN /NAM/RGSTC LOAD REQUEST TEXT CHARACTER COUNT EXIT COCE.3 EXIT TO STORE REQUEST TEXT CHARACTER COUNT COLT SPACE 2,16 ** IVT COMMAND ACTION PROCESSOR COLT. * * IVT COMMAND ACTION PROCESSOR COLT TRANSFERS THE * BOOTSTRAP LOAD TIMED OUT COMMAND TO THE INBOUND BUFFER * IF THERE IS SUFFICIENT INBOUND BUFFER SPACE. * * CALLS - * * CIBS - CHECK INBOUND BUFFER SPACE, * UNSB - UPDATE NPU STATUS BYTE, ** TCR - TRANSFER LOAD TIMED OUT COMMAND. COLT ACTION TRANSFER BOOTSTRAP LOAD TIMED OUT COMMAND LDN /NAM/BSTOCM LENGTH OF LOAD TIMED OUT COMMAND RJM CIBS EXIT TO CHECK FOR INBOUND BUFFER SPACE PJN COLT.2 EXIT IF INBOUND BUFFER SPACE AVAILABLE COLT.1 LINK ENTRY EXIT PPRU EXIT TO PROCESS PRU STREAMS COLT.2 LDC /NAM/B.NBTNA&/NAM/B.NBTMF LOAD NPU STATUS VALUE RJM UNSB EXIT TO UPDATE NPU STATUS BYTE LDN /NAM/BSTOCM LOAD LOADER TIMED OUT WORD LENGTH STM NBH+/NAM/C.BWD+1 STORE LOAD TIMED OUT WORD LENGTH LDN /NAM/BSTOC LOAD LOAD TIMED OUT CHARACTER COUNT EXIT COCE.3 EXIT TO STORE LOAD TIMED OUT CHARACTER COUN SRV TITLE COMMAND PROCESSOR SUPPORT SUBROUTINES. QUAL * RESET LINKS .ERROR SET 0 SRV SPACE 2,22 ** SUBROUTINE SRV. * * SUBROUTINE SRV STORES A TWELVE BIT REGISTER VALUE INTO * THE SPECIFIED LOCATIONS AS UNPACKED EIGHT BIT DATA. * * ENTRY - * * (A) = REGISTER VALUE, * (T7) = ADDRESS TO RECEIVE REGISTER VALUE. * * EXIT - * * (T7) = UPDATED TO NEXT ADDRESS. * * USES - * ** T0 = REGISTER VALUE. SRV SUBR ENTRY/EXIT STD T0 STORE REGISTER VALUE SHN -8 POSITION HIGH-ORDER OF REGISTER VALUE STI T7 STORE HIGH-ORDER OF REGISTER VALUE AOD T7 INCREMENT DESTINATION ADDRESS LDD T0 LOAD REGISTER VALUE LPC 0#FF EXTRACT LOW-ORDER OF REGISTER VALUE STI T7 STORE LOW-ORDER OF REGISTER VALUE AOD T7 INCREMENT DESTINATION ADDRESS UJK SRVX RETURN ."O.N" EQU * OVERLAY F=TRANS,T1=(COMMAND PROCESSORS),T2=(PRU INPUT COMMAND ,PROCESSORS) QUAL ACTIONS TYPEACT MICRO 1,,*CMDIN* DEFINE ACTION TYPE LINKS SPACE 2,6 * RESET LINKS. .ERROR SET 0 .EWLPX SET 0 .NPRU SET 0 CIBI SPACE 2,38 ** PRU INPUT COMMAND ACTION PROCESSOR CIBI. * * PRU INPUT COMMAND ACTION PROCESSOR CIBI PROCESSES A * STREAM STOPPED BY BATCH INTERRUPT COMMAND FROM THE * FRONT END. THE WORKLIST COMMAND CONTROL TABLE ENTRY IS * OBTAINED, THE WORKLIST COMMAND ORDINAL IS STORED, THE * SUPERVISORY HEADER WORD AND THE WORKLIST ARE * INITIALIZED AND THE STREAM STATE RESPONSE ACTION * ORDINAL IS RETURNED. * * ENTRY - * * (EOT) = END OF TRANSFER FLAG, * (CO) = COMMAND ORDINAL. * * EXIT - * * (A) = STREAM STATE ACTION ORDINAL, * (NBH-NBH+L.BH) = WORKLIST WORD LENGTH, * (DRBUF-DRBUF+L.WT) = WORKLIST TEXT, * (WLO) = WORKLIST COMMAND ORDINAL. * * ERROR EXITS - * * EXIT TO *ERROR* IF PRU COMMAND FORMAT ERROR. * * CALLS - * * RPCB - READ WORD FROM PCB, * RSPB - READ AND STORE ADDRESS OF PCB WORD, * WCMW - WRITE WORD TO PCB, * GTE - GET DRIVER CONTROL TABLE ENTRY, ** ISMH - INITIALIZE SERVICE MESSAGE HEADER. CIBI ACTION PROCESS STREAM STOPPED BATCH INTERRUPT LDN /NAM/RCBI LOAD BATCH INTERRUPT REASON CODE CIBI.1 LINK ENTRY STD T17 STORE STREAM STOPPED REASON CODE LDD EOT LOAD END OF TRANSFER FLAG NJN CIBI.3 EXIT IF END OF TRANSFER RECEIVED CIBI.2 LINK ENTRY EREXIT CFE EXIT TO ERROR - PRU COMMAND FORMAT ERROR CIBI.3 LDN 0 CONSTANT OF ZERO STM NBH+/NAM/C.BWD+1 INITIALIZE WORKLIST WORD LENGTH CIBI.4 LINK ENTRY STM DRBUF+/NAM/PFC RESET RESPONSE FLAG LDN /NAM/W.PCBPS1 PRU STREAM PARAMETER ONE WORD ORDINAL RJM RPCB EXIT TO READ PRU PARAMETER WORD FROM PCB LDD T10+/NAM/C.PCBNPR LOAD HIGH-ORDER CURRENT PRU POSITION STM DRBUF+/NAM/CPRU STORE HIGH-ORDER CURRENT PRU POSITION LDD T10+/NAM/C.PCBNPR+1 LOAD LOW-ORDER CURRENT PRU POSITION STM DRBUF+/NAM/CPRU+1 STORE LOW-ORDER CURRENT PRU POSITION LDD T17 LOAD STREAM STOPPED REASON CODE LMN /NAM/RCBI LESS VALUE FOR BATCH INTERRUPT ZJN CIBI.5 EXIT IF BATCH INTERRUPT LDN /NAM/W.PCBPS2 PRU STREAM PARAMETER TWO WORD ORDINAL RJM RSPB EXIT TO READ PRU PARAMETER WORD FROM PCB LDD T10+/NAM/C.PCBSS LOAD STREAM STOPPED REASON CODES SCN 77B CLEAR OLD EXTERNALLY STOPPED REASON CODE ADD T17 PLUS NEW EXTERNALLY STOPPED REASON CODE STD T10+/NAM/C.PCBSS STORE STREAM STOPPED REASON CODES RJM WCMW EXIT TO WRITE PRU PARAMETER WORD TO PCB CIBI.5 LINK ENTRY LDD CO LOAD COMMAND ORDINAL ADC /TABLES/DWLCTL FWA OF WORKLIST COMMAND CONTROL TABLE RJM GTE EXIT TO GET DRIVER CONTROL TABLE ENTRY STD RTE STORE DRIVER CONTROL TABLE ENTRY SHN -S.CTLCD POSITION WORKLIST ORDINAL TO LOW-ORDER STD WLO STORE WORKLIST COMMAND ORDINAL RJM ISMH EXIT TO INITIALIZE SERVICE MESSAGE HEADER LDD RTE LOAD DRIVER CONTROL TABLE ENTRY LPN L.ACTORD EXTRACT STREAM STATE ACTION ORDINAL EXIT BRDI.4 EXIT TO EXECUTE STREAM RESPONSE ACTION CICS SPACE 2,40 ** PRU INPUT COMMAND ACTION PROCESSOR CICS. * * PRU INPUT COMMAND ACTION PROCESSOR CICS PROCESSES A * STREAM STOPPED BY A SLIPPED CARD COMMAND FROM THE FRONT * END. THE STREAM STOPPED EXTERNALLY REASON CODE IS * STORED, THE WORKLIST COMMAND CONTROL TABLE ENTRY IS * OBTAINED, THE WORKLIST COMMAND ORDINAL IS STORED, THE * SUPERVISORY HEADER WORD AND THE WORKLIST ARE * INITIALIZED AND THE STREAM STATE RESPONSE ACTION * ORDINAL IS RETURNED. * * ENTRY - * * (EOT) = END OF TRANSFER FLAG, * (CO) = COMMAND ORDINAL. * * EXIT - * * (A) = STREAM STATE ACTION ORDINAL, * (NBH-NBH+L.BH) = WORKLIST WORD LENGTH, * (DRBUF-DRBUF+L.WT) = WORKLIST TEXT, * (WLO) = WORKLIST COMMAND ORDINAL. * * ERROR EXITS - * * EXIT TO *ERROR* IF PRU COMMAND FORMAT ERROR. * * CALLS - * * RPCB - READ WORD FROM PCB, * RSPB - READ AND STORE ADDRESS OF PCB WORD, * WCMW - WRITE WORD TO PCB, * GTE - GET DRIVER CONTROL TABLE ENTRY, ** ISMH - INITIALIZE SERVICE MESSAGE HEADER. CICS ACTION PROCESS STREAM STOPPED SLIPPED CARD LDN /NAM/RCCS LOAD CARD SLIPPED REASON CODE EXIT CIBI.1 EXIT TO STORE REASON CODE CIES SPACE 2,40 ** PRU INPUT COMMAND ACTION PROCESSOR CIES. * * PRU INPUT COMMAND ACTION PROCESSOR CIES PROCESSES A * STREAM STOPPED BY END OF STREAM COMMAND FROM THE FRONT * END. THE STREAM STOPPED EXTERNALLY REASON CODE IS * STORED, THE WORKLIST COMMAND CONTROL TABLE ENTRY IS * OBTAINED, THE WORKLIST COMMAND ORDINAL IS STORED, THE * SUPERVISORY HEADER WORD AND THE WORKLIST ARE * INITIALIZED AND THE STREAM STATE RESPONSE ACTION * ORDINAL IS RETURNED. * * ENTRY - * * (EOT) = END OF TRANSFER FLAG, * (CO) = COMMAND ORDINAL. * * EXIT - * * (A) = STREAM STATE ACTION ORDINAL, * (NBH-NBH+L.BH) = WORKLIST WORD LENGTH, * (DRBUF-DRBUF+L.WT) = WORKLIST TEXT, * (WLO) = WORKLIST COMMAND ORDINAL. * * ERROR EXITS - * * EXIT TO *ERROR* IF PRU COMMAND FORMAT ERROR. * * CALLS - * * RPCB - READ WORD FROM PCB, * RSPB - READ AND STORE ADDRESS OF PCB WORD, * WCMW - WRITE WORD TO PCB, * GTE - GET DRIVER CONTROL TABLE ENTRY, ** ISMH - INITIALIZE SERVICE MESSAGE HEADER. CIES ACTION PROCESS STREAM STOPPED END OF STREAM LDN /NAM/RCEI LOAD END OF INPUT STREAM REASON CODE EXIT CIBI.1 EXIT TO STORE REASON CODE CIFL SPACE 2,38 ** PRU INPUT COMMAND ACTION PROCESSOR CIFL. * * PRU INPUT COMMAND ACTION PROCESSOR CIFL PROCESSES A * STREAM STOPPED BY FILE LIMIT EXCEEDED COMMAND FROM THE * FRONT END. THE STREAM STOPPED EXTERNALLY REASON CODE * IS STORED, THE WORKLIST COMMAND CONTROL TABLE ENTRY IS * OBTAINED, THE WORKLIST COMMAND ORDINAL IS STORED, THE * SUPERVISORY HEADER WORD AND THE WORKLIST ARE * INITIALIZED AND THE STREAM STATE RESPONSE ACTION * ORDINAL IS RETURNED. * * ENTRY - * * (EOT) = END OF TRANSFER FLAG, * (CO) = COMMAND ORDINAL. * * EXIT - * * (A) = STREAM STATE ACTION ORDINAL, * (NBH-NBH+L.BH) = WORKLIST WORD LENGTH, * (DRBUF-DRBUF+L.WT) = WORKLIST TEXT, * (WLO) = WORKLIST COMMAND ORDINAL. * * ERROR EXITS - * * EXIT TO *ERROR* IF PRU COMMAND FORMAT ERROR. * * CALLS - * * RPCB - READ WORD FROM PCB, * RSPB - READ AND STORE ADDRESS OF CPB WORD, * WCMW - WRITE WORD TO PCB, * GTE - GET DRIVER CONTROL TABLE ENTRY, ** ISMH - INITIALIZE SERVICE MESSAGE HEADER. CIFL ACTION PROCESS STREAM STOPPED FILE LIMIT EXCEEDED LDN /NAM/RCFL LOAD FILE LIMIT EXCEEDED REASON CODE EXIT CIBI.1 EXIT TO STORE REASON CODE CINR SPACE 2,40 ** PRU INPUT COMMAND ACTION PROCESSOR CINR. * * PRU INPUT COMMAND ACTION PROCESSOR CINR PROCESSES A * STREAM STOPPED DEVICE NOT READY COMMAND FROM THE FRONT * END. THE STREAM STOPPED EXTERNALLY REASON CODE IS * STORED, THE WORKLIST COMMAND CONTROL TABLE ENTRY IS * OBTAINED, THE WORKLIST COMMAND ORDINAL IS STORED, THE * SUPERVISORY HEADER WORD AND THE WORKLIST ARE * INITIALIZED AND THE STREAM STATE RESPONSE ACTION * ORDINAL IS RETURNED. * * ENTRY - * * (EOT) = END OF TRANSFER FLAG, * (CO) = COMMAND ORDINAL. * * EXIT - * * (A) = STREAM STATE ACTION ORDINAL, * (NBH-NBH+L.BH) = WORKLIST WORD LENGTH, * (DRBUF-DRBUF+L.WT) = WORKLIST TEXT, * (WLO) = WORKLIST COMMAND ORDINAL. * * ERROR EXITS - * * EXIT TO *ERROR* IF PRU COMMAND FORMAT ERROR. * * CALLS - * * RPCB - READ WORD FROM PCB, * RSPB - READ AND STORE ADDRESS OF PCB WORD, * WCMW - WRITE WORD TO PCB, * GTE - GET DRIVER CONTROL TABLE ENTRY, ** ISMH - INITIALIZE SERVICE MESSAGE HEADER. CINR ACTION PROCESS STREAM STOPPED DEVICE NOT READY LDN /NAM/RCNR LOAD DEVICE NOT READY REASON CODE EXIT CIBI.1 EXIT TO STORE REASON CODE CINV SPACE 2,40 ** PRU INPUT COMMAND ACTION PROCESSOR CINV. * * PRU INPUT COMMAND ACTION PROCESSOR CINV PROCESSES A * STREAM STOPPED BY NO VFU FILE COMMAND FROM THE FRONT * END. THE STREAM STOPPED EXTERNALLY REASON CODE IS * STORED, THE WORKLIST COMMAND CONTROL TABLE ENTRY IS * OBTAINED, THE WORKLIST COMMAND ORDINAL IS STORED, THE * SUPERVISORY HEADER WORD AND THE WORKLIST ARE * INITIALIZED AND THE STREAM STATE RESPONSE ACTION * ORDINAL IS RETURNED. * * ENTRY - * * (EOT) = END OF TRANSFER FLAG, * (CO) = COMMAND ORDINAL. * * EXIT - * * (A) = STREAM STATE ACTION ORDINAL, * (NBH-NBH+L.BH) = WORKLIST WORD LENGTH, * (DRBUF-DRBUF+L.WT) = WORKLIST TEXT, * (WLO) = WORKLIST COMMAND ORDINAL. * * ERROR EXITS - * * EXIT TO *ERROR* IF PRU COMMAND FORMAT ERROR. * * CALLS - * * RPCB - READ WORD FROM PCB, * RSPB - READ AND STORE ADDRESS OF PCB WORD, * WCMW - WRITE WORD TO PCB, * GTE - GET DRIVER CONTROL TABLE ENTRY, ** ISMH - INITIALIZE SERVICE MESSAGE HEADER. CINV ACTION PROCESS STREAM STOPPED BY NO VFU FILE LDN /NAM/RCNV LOAD NO VFU FILE REASON CODE EXIT CIBI.1 EXIT TO STORE REASON CODE CIPM SPACE 2,42 ** PRU INPUT COMMAND ACTION PROCESSOR CIPM. * * PRU INPUT COMMAND ACTION PROCESSOR CIPM PROCESSES A * STREAM STOPPED BY PM MESSAGE COMMAND FROM THE FRONT * END. THE PM TEXT IS ACCEPTED AND STORED, THE PM TEXT * CHARACTER COUNT IS STORED, THE PM TEXT WORD LENGTH IS * CALCULATED AND STORED, THE STREAM STOPPED EXTERNALLY * REASON CODE IS STORED, THE WORKLIST COMMAND CONTROL * TABLE ENTRY IS OBTAINED, THE WORKLIST COMMAND ORDINAL * IS STORED, THE SUPERVISORY HEADER WORD AND THE WORKLIST * ARE INITIALIZED AND THE STREAM STATE RESPONSE ACTION * ORDINAL IS RETURNED. * * ENTRY - * * (EOT) = END OF TRANSFER FLAG, * (CO) = COMMAND ORDINAL. * * EXIT - * * (A) = STREAM STATE ACTION ORDINAL, * (NBH-NBH+L.BH) = WORKLIST WORD LENGTH, * (DRBUF-DRBUF+L.WT) = WORKLIST TEXT, * (WLO) = WORKLIST COMMAND ORDINAL. * * ERROR EXITS - * * EXIT TO *ERROR* IF PRU COMMAND FORMAT ERROR. * * CALLS - * * ASUD - ACCEPT AND STORE UNPACKED DATA, * RPCB - READ WORD FROM PCB, * RSPB - READ AND STORE ADDRESS OF PCB WORD, * WCMW - WRITE WORD TO PCB, * GTE - GET DRIVER CONTROL TABLE ENTRY, ** ISMH - INITIALIZE SERVICE MESSAGE HEADER. CIPM ACTION PROCESS STREAM STOPPED BY PM MESSAGE LDD EOT LOAD END OF TRANSFER FLAG ZJN CIPM.2 EXIT IF END OF TRANSFER NOT RECEIVED CIPM.1 EXIT CIBI.2 EXIT TO ERROR - PRU COMMAND FORMAT ERROR CIPM.2 LDC DRBUF+/NAM/PMTEXT LOAD ADDRESS OF DRIVER BUFFER STD T1 STORE STARTING INPUT BUFFER ADDRESS ADC /BLOCK/L.OSPM PLUS MAXIMUM LENGTH FOR PM TEXT RJM ASUD EXIT TO ACCEPT AND STORE UNPACKED DATA ZJN CIPM.1 EXIT IF END OF TRANSFER NOT RECEIVED LDN /NAM/PMTEXT/5-1 WORD LENGTH OF WORKLIST HEADER STD T7 INITIALIZE DATA WORD COUNT LDD T3 LOAD INPUT CHARACTER COUNT STM DRBUF+/NAM/PMCC STORE PM TEXT CHARACTER COUNT ADN 5-1 ROUND UP CIPM.3 SBN 5 LESS CHARACTERS PER CENTRAL WORD MJN CIPM.4 EXIT IF CHARACTER COUNT EXHAUSTED STD T3 STORE RESIDUAL CHARACTER COUNT AOD T7 INCREMENT DATA WORD COUNT LDD T3 LOAD RESIDUAL CHARACTER COUNT UJK CIPM.3 EXIT TO DECREMENT RESIDUAL CHARACTER COUNT CIPM.4 LDD T7 LOAD DATA WORD COUNT STM NBH+/NAM/C.BWD+1 STORE PM TEXT WORD COUNT LDN /NAM/RCPM LOAD PM TEXT REASON CODE STD T17 STORE STREAM STOPPED REASON CODE LDN 0 CONSTANT OF ZERO EXIT CIBI.4 EXIT TO RESET RESPONSE FLAG CIAE SPACE 2,44 ** PRU INPUT COMMAND ACTION PROCESSOR CIAE. * * PRU INPUT COMMAND ACTION PROCESSOR CIAE PROCESSES AN * ACCOUNTING COMMAND AT END OF INFORMATION FROM THE FRONT * END. THE ACCOUNTING DATA IS ACCEPTED AND STORED IN THE * PCB IF THERE IS NO DATA QUEUE OT THE LAST PRU BUFFER IF * THERE IS A DATA QUEUE. THE COMMAND ORDINAL IS * ADJUSTED FOR PRU OUTPUT STREAMS, THE WORKLIST COMMAND * CONTROL TABLE IS OBTAINED, THE WORKLIST COMMAND ORDINAL * IS STORED, THE SUPERVISORY HEADER WORD AND THE WORKLIST * ARE INITIALIZED AND THE STREAM STATE RESPONSE ACTION * ORDINAL IS RETURNED. * * ENTRY - * * (EOT) = END OF TRANSFER FLAG, * (BHS) = BLOCK HANDLER STATE, * (CO) = COMMAND ORDINAL. * * EXIT - * * (A) = STREAM STATE ACTION ORDINAL, * (NBH-NBH+L.BH) = WORKLIST WORD LENGTH, * (DRBUF-DRBUF+L.WT) = WORKLIST TEXT, * (WLO) = WORKLIST COMMAND ORDINAL. * * ERROR EXITS - * * EXIT TO *ERROR* IF PRU COMMAND FORMAT ERROR. * * CALLS - * * RPCB - READ WORD FROM PCB, * ASEB - ACCEPT AND STORE PACKED EIGHT BIT DATA, * WCMW - WRITE CENTRAL MEMORY WORD, * RFWL - TRANSFER FILE PARAMETERS TO RETURN WORKLIST, * GTE - GET DRIVER CONTROL TABLE ENTRY, ** ISMH - INITIALIZE SERVICE MESSAGE HEADER. CIAE ACTION PROCESS END OF INFORMATION COMMAND LDN 0 CONSTANT OF ZERO CIAE.1 LINK ENTRY STM DRBUF+/NAM/PFC STORE RESPONSE FLAG LDD EOT LOAD END OF TRANSFER FLAG ZJN CIAE.3 EXIT IF END OF TRANSFER NOT RECEIVED CIAE.2 EXIT CIBI.2 EXIT TO ERROR - PRU COMMAND FORMAT ERROR CIAE.3 LDN /NAM/W.PCBPS2 PRU STREAM PARAMETER TWO WORD ORDINAL RJM RPCB EXIT TO READ PRU PARAMETER WORD FROM PCB LDD T10+/NAM/C.PCBLDB LOAD HIGH-ORDER LAST BUFFER ADDRESS SHN 12 POSITION TO HIGH-ORDER ADD T10+/NAM/C.PCBLDB+1 PLUS LOW-ORDER LAST BUFFER ADDRESS NJN CIAE.5 EXIT IF DATA QUEUED TO PCB LDN /NAM/W.PCBPS3 PRU STREAM PARAMETER THREE WORD ORDINAL RJM RPCB EXIT TO READ PRU PARAMETER WORD FROM PCB CIAE.4 STD T6+1 STORE LOW-ORDER OF ACCOUNTING WORD ADDRESS SHN -12 POSITION HIGH-ORDER OF ADDRESS STD T6 STORE HIGH-ORDER OF ACCOUNTING WORD ADDRESS LDN T10+/NAM/C.PCBACT LOAD ADDRESS FOR ACCOUNTING DATA STD T1 STORE STARTING INPUT BUFFER ADDRESS ADN 1 PLUS LENGTH OF ACCOUNTING DATA CLIO FEIP EXIT TO ACCEPT AND STORE PACKED DATA ZJN CIAE.2 EXIT IF END OF TRANSFER NOT RECEIVED LDD T3 LOAD INPUT CHARACTER COUNT LMN /BLOCK/L.EOF LESS EXPECTED INPUT LENGTH ZJN CIAE.6 EXIT IF EXPECTED INPUT LENGTH UJK CIAE.2 EXIT TO ERROR - PRU COMMAND FORMAT ERROR CIAE.5 ADN W.ACT PLUS DELTA FOR ACCOUNTING WORD RJM TFL EXIT TO FORM ABSOLUTE CENTRAL ADDRESS CRD T10 READ ACCOUNTING WORD UJK CIAE.4 EXIT TO STORE ACCOUNTING WORD ADDRESS CIAE.6 LDD T6 LOAD HIGH-ORDER OF ACCOUNTING WORD ADDRESS SHN 12 POSITION TO HIGH-ORDER ADD T6+1 PLUS LOW-ORDER OF ACCOUNTING WORD ADDRESS CWD T10 REWRITE ACCOUNTING WORD LDD BHS LOAD BLOCK HANDLER STATE LMN /TABLES/BHS2 LESS VALUE FOR PRU INPUT STREAM ZJN CIAE.7 EXIT IF PRU INPUT STREAM LDN /TABLES/ADOT-/TABLES/ADIN DELTA FOR PRU OUTPUT STREAM RAD CO ADJUST COMMAND ORDINAL FOR OUTPUT STREAM LDD T10+/NAM/C.PCBACT LOAD HIGH-ORDER OF ACCOUNTING DATA STM DRBUF+/NAM/ACNT STORE HIGH-ORDER OF ACCOUNTING DATA LDD T10+/NAM/C.PCBACT+1 LOAD LOW-ORDER OF ACCOUNTING DATA STM DRBUF+/NAM/ACNT+1 STORE LOW-ORDER OF ACCOUNTING DATA RJM RFWL EXIT TRANSFER FILE PARAMETERS TO WORKLIST CIAE.7 LDN /NAM/SMFPT-/NAM/SMHDRT LENGTH OF FILE PARAMETER TEXT STM NBH+/NAM/C.BWD+1 STORE FILE PARAMETER TEXT WORD LENGTH LDN 0 CONSTANT OF ZERO STD T17 STORE REASON CODE EXIT CIBI.5 EXIT TO GET WORKLIST COMMAND CONTROL TABLE CIAT SPACE 2,44 ** PRU INPUT COMMAND ACTION PROCESSOR CIAT. * * PRU INPUT COMMAND ACTION PROCESSOR CIAT PROCESSES AN * ACCOUNTING COMMAND AT ABORT TERMINATION FROM THE FRONT * END. THE ACCOUNTING DATA IS ACCEPTED AND STORED IN THE * PCB IF THERE IS NO DATA QUEUE OR THE LAST PRU BUFFER * IF THERE IS A DATA QUEUE. THE COMMAND ORDINAL IS * ADJUSTED FOR PRU OUTPUT STREAMS, THE WORKLIST COMMAND * CONTROL TABLE IS OBTAINED, THE WORKLIST COMMAND ORDINAL * IS STORED, THE SUPERVISORY HEADER WORD AND THE WORKLIST * ARE INITIALIZED AND THE STREAM STATE RESPONSE ACTION * ORDINAL IS RETURNED. * * ENTRY - * * (EOT) = END OF TRANSFER FLAG, * (BHS) = BLOCK HANDLER STATE, * (CO) = COMMAND ORDINAL. * * EXIT - * * (A) = STREAM STATE ACTION ORDINAL, * (NBH-NBH+L.BH) = WORKLIST WORD LENGTH, * (DRBUF-DRBUF+L.WT) = WORKLIST TEXT, * (WLO) = WORKLIST COMMAND ORDINAL. * * ERROR EXITS - * * EXIT TO *ERROR* IF PRU COMMAND FORMAT ERROR. * * CALLS - * * RPCB - READ WORD FROM PCB, * RSPB - READ AND STORE ADDRESS OF PCB WORD, * ASEB - ACCEPT AND STORE PACKED EIGHT BIT DATA, * TFL - FORM ABSOLUTE CENTRAL ADDRESS * WCMW - WRITE WORD TO PCB, * GTE - GET DRIVER CONTROL TABLE ENTRY, ** ISMH - INITIALIZE SERVICE MESSAGE HEADER. CIAT ACTION PROCESS END OF ABORT COMMAND LDN /NAM/B.NR/0#10 LOAD NORMAL RESPONSE BIT EXIT CIAE.1 EXIT TO STORE RESPONSE BIT ERWL TITLE WORKLIST PROCESSORS. TYPEACT MICRO 1,,*WORK* DEFINE ACTION TYPE ERWL SPACE 2,10 ** WORKLIST ACTION PROCESSOR ERWL. * * WORKLIST ACTION PROCESSOR ERWL PROCESSES AN ILLOGICAL * WORKLIST ACTION BY TRANSFERRING CONTROL TO THE DRIVER ** ERROR ROUTINE. ERWL ACTION ILLOGICAL WORKLIST ACTION EREXIT DWE EXIT TO ERROR - ILLOGICAL WORKLIST ACTION ISWL SPACE 2,32 ** WORKLIST ACTION PROCESSOR ISWL. * * WORKLIST ACTION PROCESSOR ISWL PROCESSES AN INPUT * STREAM STOPPED EXTERNALLY. IF THERE IS SUFFICIENT * INBOUND BUFFER SPACE FOR THE INPUT STOPPED * WORKLIST THE STREAM STOPPED EXTERNALLY REASON CODE IS * OBTAINED AND STORED. THE WORKLIST HEADER WORD AND THE * WORKLIST ARE INITIALIZED AND THE STREAM STATE RESPONSE * ACTION ORDINAL IS RETURNED. * * ENTRY - * * (WLO) = WORKLIST ORDINAL. * * EXIT - * * (A) = STREAM STATE ACTION ORDINAL, * (NBH-NBH+L.BH) = WORKLIST WORD LENGTH, * (DRBUF-DRBUF+L.WT) = WORKLIST TEXT. * * CALLS - * * CIBS - CHECK INBOUND BUFFER SPACE, * RPCB - READ WORD FROM PCB, * GTE - GET DRIVER CONTROL TABLE ENTRY, ** ISMH - INITIALIZE SERVICE MESSAGE HEADER. ISWL ACTION GENERATE INPUT STOPPED EXTERNALLY WORKLIST LDN /NAM/SMHDRCM LENGTH OF INPUT STREAM STOPPED WORKLIST RJM CIBS EXIT TO CHECK FOR INBOUND BUFFER SPACE PJN ISWL.1 EXIT IF SUFFICIENT INBOUND BUFFER SPACE EXIT NPRU EXIT TO PROCESS NEXT PRU STREAM ISWL.1 LDN 0 CONSTANT OF ZERO STM NBH+/NAM/C.BWD+1 INITIALIZE TEXT WORD COUNT LDN /NAM/W.PCBPS2 PRU STREAM PARAMETER TWO WORD ORDINAL RJM RPCB EXIT TO READ PRU PARAMETER WORD FROM PCB LDD T10+/NAM/C.PCBSS LOAD STREAM STOPPED REASON CODES LPN 77B EXTRACT EXTERNALLY STOPPED REASON CODE ISWL.2 LINK ENTRY STD T17 STORE REASON CODE LDN 0 CONSTANT OF ZERO ISWL.3 LINK ENTRY STM DRBUF+/NAM/PFC STORE RESPONSE FLAG LDN 0 CONSTANT OF ZERO STM DRBUF+/NAM/CPRU ZERO HIGH-ORDER CURRENT PRU POSITION STM DRBUF+/NAM/CPRU+1 ZERO LOW-ORDER CURRENT PRU POSITION ISWL.4 LINK ENTRY RJM ISMH EXIT TO INITIALIZE SERVICE MESSAGE HEADER LDD WLO LOAD WORKLIST ORDINAL ADC /TABLES/DWLQRT FWA OF DRIVER WORKLIST RESPONSE TABLE RJM GTE EXIT TO GET STREAM STATE RESPONSE ACTION EXIT EWLPX RETURN VIA WORKLIST PROCESSOR ACTION RETURN IEWL SPACE 2,32 ** WORKLIST ACTION PROCESSOR IEWL. * * WORKLIST ACTION PROCESSOR IEWL PROCESSES AN INPUT * STREAM STOPPED INTERNALLY. IF THERE IS SUFFICIENT * INBOUND BUFFER SPACE FOR THE INPUT STREAM STOPPED * WORKLIST THE STREAM STOPPED INTERNALLY REASON CODE IS * OBTAINED AND STORED. IF A MASS STORAGE ERROR OCCURED * THE MASS STORAGE ERROR CODE IS OBTAINED AND STORED. * THE WORKLIST HEADER WORD AND THE WORKLIST ARE * INITIALIZED AND THE STREAM STATE RESPONSE ACTION IS * RETURNED. * * ENTRY - * * (WLO) = WORKLIST ORDINAL. * * EXIT - * * (A) = STREAM STATE ACTION ORDINAL, * (NBH-NBH+L.BH) = WORKLIST WORD LENGTH, * (DRBUF-DRBUF+L.WT) = WORKLIST TEXT. * * CALLS - * * CIBS - CHECK INBOUND BUFFER SPACE, * RPCB - READ WORD FROM PCB, * GTE - GET DRIVER CONTROL TABLE ENTRY, ** ISMH - INITIALIZE SERVICE MESSAGE HEADER. IEWL ACTION GENERATE INPUT STOPPED INTERNALLY WORKLIST LDN /NAM/SMHDRCM LENGTH OF STREAM STOPPED WORKLIST RJM CIBS EXIT TO CHECK INBOUND BUFFER SPACE PJN IEWL.1 EXIT IF SUFFICIENT INBOUND BUFFER SPACE EXIT NPRU EXIT TO PROCESS NEXT PRU STREAM IEWL.1 LDN 0 CONSTANT OF ZERO STM NBH+/NAM/C.BWD+1 INITIALIZE TEXT WORD LENGTH LDN /NAM/W.PCBPS2 PRU STREAM PARAMETER TWO WORD ORDINAL RJM RPCB EXIT TO READ PRU PARAMETER WORD FROM PCB LDD T10+/NAM/C.PCBSS LOAD STREAM STOPPED REASON CODES SHN -6 POSITION INTERNALLY STOPPED REASON CODE STD T17 STORE STREAM STOPPED REASON CODE LMN /NAM/RCMS LESS VALUE FOR MASS STORAGE ERROR NJN IEWL.2 EXIT IF NOT MASS STORAGE ERROR LDN /NAM/W.PCBPS4 PRU STREAM PARAMETER FOUR WORD ORDINAL RJM RPCB EXIT TO READ PRU PARAMETER WORD FROM PCB LDD T10+/NAM/C.PCBMEC LOAD MASS STORAGE ERROR CODE STM DRBUF+/NAM/IMSEC STORE MASS STORAGE ERROR CODE IEWL.2 LDD T17 LOAD STREAM STOPPED REASON CODE EXIT ISWL.2 EXIT TO STORE STREAM STOPPED REASON CODE BIWL SPACE 2,26 ** WORKLIST ACTION PROCESSOR BIWL. * * WORKLIST ACTION PROCESSOR BIWL PROCESSES AN INPUT * STREAM STOPPED BY BATCH INTERRUPT. IF THERE IS * SUFFICIENT INBOUND BUFFER SPACE FOR THE INPUT * STOPPED WORKLIST THE STREAM STOPPED REASON CODE IS * STORED. THE WORKLIST HEADER WORD AND THE WORKLIST * ARE INITIALIZED AND THE STREAM STATE RESPONSE ACTION * ORDINAL IS RETURNED. * * EXIT - * * (A) = STREAM STATE ACTION ORDINAL, * (NBH-NBH+L.BH) = WORKLIST WORD LENGTH, * (DRBUF-DRBUF+L.WT) = WORKLIST TEXT. * * CALLS - * * CIBS - CHECK INBOUND BUFFER SPACE, * GTE - GET DRIVER CONTROL TABLE ENTRY, ** ISMH - INITIALIZE SERVICE MESSAGE HEADER. BIWL ACTION GENERATE BATCH INTERRUPT WORKLIST LDN /NAM/SMHDRCM LENGTH OF BATCH INTERRUPT WORKLIST RJM CIBS EXIT TO CHECK FOR INBOUND BUFFER SPACE PJN BIWL.1 EXIT IF SUFFICIENT INBOUND BUFFER SPACE EXIT NPRU EXIT TO PROCESS NEXT PRU STREAM BIWL.1 LDN 0 CONSTANT OF ZERO STM NBH+/NAM/C.BWD+1 INITIALIZE TEXT WORD COUNT LDN /NAM/RCBI REASON CODE FOR BATCH INTERRUPT EXIT ISWL.2 EXIT TO STORE REASON CODE OAWL SPACE 2,24 ** WORKLIST ACTION PROCESSOR OAWL. * * WORKLIST ACTION PROCESSOR OAWL PROCESSES AN OUTPUT * ACKNOWLEDGMENT FOR A DIRECT OUTPUT. THE WORKLIST * HEADER WORD AND WORKLIST ARE INITIALIZED. * * ENTRY - * * (WLO) = WORKLIST ORCINAL. * * EXIT - * * (NBH-NBH+L.BH) = WORKLIST WORD LENGTH, * (DRBUF-DRBUF+L.WT) = WORKLIST TEXT. * * CALLS - * * ISMH - INITIALIZE SERVICE MESSAGE HEADER, ** GTE - GET DRIVER CONTROL TABLE ENTRY. OAWL ACTION DIRECT OUTPUT ACKNOWLEDGMENT WORKLIST LDN 0 CONSTANT OF ZERO STM NBH+/NAM/C.BWD+1 INITIALIZE TEXT WORD COUNT STD T17 STORE REASON CODE LDN /NAM/B.NR/0#10 LOAD NORMAL RESPONSE FLAG EXIT ISWL.3 EXIT TO STORE RESPONSE FLAG OSWL SPACE 2,32 ** WORKLIST ACTION PROCESSOR OSWL. * * WORKLIST ACTION PROCESSOR OSWL PROCESSES AN OUTPUT * STREAM STOPPED BY THE APPLICATION. IF THERE IS * SUFFICIENT INBOUND BUFFER SPACE FOR THE OUTPUT STREAM * STOPPED WORKLIST THE CURRENT FILE POSITION IS STORED * IN THE WORKLIST. THE WORKLIST HEADER WORD AND THE * WORKLIST ARE INITIALIZED AND THE STREAM STATE RESPONSE * ACTION IS RETURNED. * * ENTRY - * * (WLO) = WORKLIST ORDINAL. * * EXIT - * * (A) = STREAM STATE ACTION ORDINAL, * (NBH-NBH+L.BH) = WORKLIST WORD LENGTH, * (DRBUF-DRBUF+L.WT) = WORKLIST TEXT. * * CALLS - * * CIBS - CHECK INBOUND BUFFER SPACE, * RPCB - READ WORD FROM PCB, * ISMH - INITIALIZE SERVICE MESSAGE HEADER, ** GTE - GET DRIVER CONTROL TABLE ENTRY. OSWL ACTION GENERATE OUTPUT STOPPED RESPONSE WORKLIST LDN /NAM/SMHDRCM LENGTH OF STREAM STOPPED WORKLIST RJM CIBS EXIT TO CHECK INBOUND BUFFER SPACE PJN OSWL.1 EXIT IF SUFFICIENT BUFFER SPACE EXIT NPRU EXIT TO PROCESS NEXT PRU STREAM OSWL.1 LDN 0 CONSTANT OF ZERO STM NBH+/NAM/C.BWD+1 INITIALIZE TEXT WORD LENGTH STD T17 ZERO REASON CODE LDN /NAM/W.PCBPS1 PRU STREAM PARAMETER ONE WORD ORDINAL RJM RPCB EXIT TO READ PRU PARAMETER WORD FROM PCB LDN /NAM/B.NR/0#10 LOAD NORMAL RESPONSE BIT OSWL.2 LINK ENTRY STM DRBUF+/NAM/PFC STORE RESPONSE FLAG LDD T10+/NAM/C.PCBNPR LOAD HIGH-ORDER CURRENT PRU POSITION STM DRBUF+/NAM/CPRU STORE HIGH-ORDER CURRENT PRU POSITION LDD T10+/NAM/C.PCBNPR+1 LOAD LOW-ORDER CURRENT PRU POSITION STM DRBUF+/NAM/CPRU+1 STORE LOW-ORDER CURRENT PRU POSITION EXIT ISWL.4 EXIT TO INITIALIZE SERVICE MESSAGE HEADER OEWL SPACE 2,34 ** WORKLIST ACTION PROCESSOR OEWL. * * WORKLIST ACTION PROCESSOR OEWL PROCESSES AN OUTPUT * STREAM STOPPED INTERNALLY. IF THERE IS SUFFICIENT * INBOUND BUFFER SPACE FOR THE OUTPUT STREAM STOPPED * WORKLIST THE STREAM STOPPED INTERNALLY REASON CODE IS * OBTAINED AND STORED. IF A MASS STORAGE ERROR OCCURED * THE LENGTH OF THE WORKLIST IS INCREMENTED AND THE MASS * STORAGE ERROR CODE IS OBTAINED AND STORED. THE * CURRENT FILE POSITION IS STORED IN THE WORKLIST, THE * WORKLIST HEADER WORD AND THE WORKLIST ARE INITIALIZED * AND THE STREAM STATE RESPONSE ACTION IS RETURNED. * * ENTRY - * * (WLO) = WORKLIST ORDINAL. * * EXIT - * * (A) = STREAM STATE ACTION ORDINAL, * (NBH-NBH+L.BH) = WORKLIST WORD LENGTH, * (DRBUF-DRBUF+L.WT) = WORKLIST TEXT. * * CALLS - * * CIBS - CHECK INBOUND BUFFER SPACE, * RPCB - READ WORD FROM PCB, * ISMH - INITIALIZE SERVICE MESSAGE HEADER, ** GTE - GET DRIVER CONTROL TABLE ENTRY. OEWL ACTION GENERATE STREAM STOPPED INTERNALLY WORKLIST LDN /NAM/SMHDRCM+1 LENGTH OF STREAM STOPPED WORKLIST RJM CIBS EXIT TO CHECK INBOUND BUFFER SPACE PJN OEWL.1 EXIT IF SUFFICIENT BUFFER SPACE EXIT NPRU EXIT TO PROCESS NEXT PRU STREAM OEWL.1 LDN 0 CONSTANT OF ZERO STM NBH+/NAM/C.BWD+1 INITIALIZE TEXT WORD LENGTH LDN /NAM/W.PCBPS2 PRU STREAM PARAMETER TWO WORD ORDINAL RJM RPCB EXIT TO READ PRU PARAMETER WORD FROM PCB LDD T10+/NAM/C.PCBSS LOAD STREAM STOPPED REASON CODES SHN -6 POSITION INTERNALLY STOPPED REASON CODE STD T17 STORE STREAM STOPPED REASON CODE LDD T17 LOAD STREAM STOPPED REASON CODE LMN /NAM/RCMS LESS VALUE FOR MASS STORAGE ERROR NJN OEWL.2 EXIT IF NOT MASS STORAGE ERROR AOM NBH+/NAM/C.BWD+1 INCREMENT TEXT WORD COUNT LDN ZERL LOAD ADDRESS OF ZERO WORD CRM DRBUF+5,ON INITIALIZE MASS STORAGE ERROR CODE WORD LDN /NAM/W.PCBPS4 PRU STREAM PARAMETER FOUR WORD ORDINAL RJM RPCB EXIT TO READ PRU PARAMETER WORD FROM PCB LDD T10+/NAM/C.PCBMEC LOAD MASS STORAGE ERROR CODE STM DRBUF+/NAM/OMSEC STORE MASS STORAGE ERROR CODE OEWL.2 LDN /NAM/W.PCBPS1 PRU STREAM PARAMETER ONE WORD ORDINAL RJM RPCB EXIT TO READ PRU PARAMETER WORD FROM PCB LDN 0 CONSTANT OF ZERO EXIT OSWL.2 EXIT TO STORE RESPONSE FLAG EFWL SPACE 2,26 ** WORKLIST ACTION PROCESSOR EFWL. * * WORKLIST ACTION PROCESSOR EFWL PROCESSES AN END OF FILE * TRANSFER. IF THERE IS SUFFICIENT INBOUND BUFFER SPACE * FOR THE END OF FILE TRANSFER WORKLIST THE WORKLIST * HEADER WORD AND THE WORKLIST IS INITIALIZED AND THE * STREAM STATE RESPONSE ACTION IS RETURNED. * * EXIT - * * (A) = STREAM STATE ACTION ORDINAL, * (NBH-NBH+L.BH) = WORKLIST WORD LENGTH, * (DRBUF-DRBUF+L.WT) = WORKLIST TEXT. * * CALLS - * * CIBS - CHECK INBOUND BUFFER SPACE, * RPCB - READ WORD FROM PCB, * RFWL - TRANSFER FILE PARAMETERS TO RETURN WORKLIST, * GTE - GET DRIVER CONTROL TABLE ENTRY, ** ISMH - INITIALIZE SERVICE MES0AGE HEADER. EFWL ACTION PROCESS END OF FILE TRANSFER WORKLIST EJWL SPACE 2,30 ** WORKLIST ACTION PROCESSOR EJWL. * * WORKLIST ACTION PROCESSOR EJWL PROCESSES AN END OF JOB * ON A PRU INPUT STREAM. IF THERE IS SUFFICIENT INBOUND * BUFFER SPACE FOR THE END OF JOB WORKLIST THE WORKLIST * HEADER WORD AND THE WORKLIST ARE INITIALIZED. IF THE * STREAM STATE IS BYPASS THE WORKLIST ORDINAL IS MODIFIED * TO STREAM BYPASSED. THE STREAM STATE RESPONSE ACTION * ORDINAL IS RETURNED. * * ENTRY - * * (STS) = STREAM STATES, * (WLO) = WORKLIST ORDINAL. * * EXIT - * * (A) = STREAM STATE ACTION ORDINAL, * (NBH-NBH+L.BH) = WORKLIST WORD LENGTH, * (DRBUF-DRBUF+L.WT) = WORKLIST TEXT. * * CALLS - * * CIBS - CHECK INBOUND BUFFER SPACE, * RPCB - READ WORD FROM PCB, * RFWL - TRANSFER FILE PARAMETERS TO RETURN WORKLIST, * GTE - GET DRIVER CONTROL TABLE ENTRY, ** ISMH - INITIALIZE SERVICE MES0AGE HEADER. EJWL ACTION GENERATE END OF JOB WORKLIST LDN 0 CONSTANT OF ZERO EJWL.1 LINK ENTRY STM DRBUF+/NAM/PFC STORE RESPONSE FLAG LDN /NAM/SMFPCM LENGTH OF FILE PARAMETER WORKLIST RJM CIBS EXIT TO CHECK FOR INBOUND BUFFER SPACE PJN EJWL.2 EXIT IF SUFFICIENT INBOUND BUFFER SPACE EXIT NPRU EXIT TO PROCESS NEXT PRU STREAM EJWL.2 LDN /NAM/SMFPT-/NAM/SMHDRT LENGTH OF FILE PARAMETER TEXT STM NBH+/NAM/C.BWD+1 STORE FILE PARAMETER TEXT WORD LENGTH RJM RFWL EXIT TRANSFER FILE PARAMETERS TO WORKLIST LDN /NAM/W.PCBPS3 PRU STREAM PARAMETER THREE WORD ORDINAL RJM RPCB EXIT TO READ PRU PARAMETER WORD FROM PCB LDD T10+/NAM/C.PCBACT LOAD HIGH-ORDER OF ACCOUNTING DATA STM DRBUF+/NAM/ACNT STORE HIGH-ORDER OF ACCOUNTING DATA LDD T10+/NAM/C.PCBACT+1 LOAD LOW-ORDER OF ACCOUNTING DATA STM DRBUF+/NAM/ACNT+1 STORE LOW-ORDER OF ACCOUNTING DATA LDD STS LOAD STREAM STATES LPN 77B EXTRACT CURRENT STREAM STATE LMN /TABLES/STS16 LESS BYPASS STREAM STATE ZJN EJWL.4 EXIT IF BYPASS IN EFFECT EJWL.3 LDN 0 CONSTANT OF ZERO STD T17 RESET REASON CODE EXIT ISWL.4 EXIT TO INITIALIZE SERVICE MESSAGE HEADER EJWL.4 LDN /TABLES/ISEB-/TABLES/ISEJ DELTA FOR BYPASSED RAD WLO INCREMENT WORKLIST ORDINAL TO BYPASSED LDN /NAM/B.NR/0#10 LOAD NORMAL RESPONSE FLAG STM DRBUF+/NAM/PFC STORE RESPONSE FLAG UJK EJWL.3 EXIT TO STORE RESPONSE FLAG AJWL SPACE 2,36 ** WORKLIST ACTION PROCESSOR AJWL. * * WORKLIST ACTION PROCESSOR AJWL PROCESSES AN END OF * ABORT OF A PRU INPUT STREAM. IF THERE IS SUFFICIENT * INBOUND BUFFER SPACE FOR THE END OF ABORT WORKLIST THE * WORKLIST HEADER WORD AND THE WORKLIST ARE INITIALIZED * AND THE STREAM STATE RESPONSE ACTION ORDINAL IS * RETURNED. * * ENTRY - * * (WLO) = WORKLIST ORDINAL. * * EXIT - * (A) = STREAM STATE ACTION ORDINAL, * (NBH-NBH+L.BH) = WORKLIST WORD LENGTH, * (DRBUF-DRBUF+L.WT) = WORKLIST TEXT. * * ERROR EXITS - * * EXIT TO *ERROR* IF NO FNT ASSIGNED. * * CALLS - * * CIBS - CHECK INBOUND BUFFER SPACE, * RPCB - READ WORD FROM PCB, * TFL - FORM ABSOLUTE CENTRAL ADDRESS, * GTE - GET DRIVER CONTROL TABLE ENTRY, ** ISMH - INITIALIZE SERVICE MESSAGE HEADER. AJWL ACTION GENERATE END OF ABORT WORKLIST LDN /NAM/B.NR/0#10 LOAD NORMAL RESPONSE BIT EXIT EJWL.1 EXIT TO STORE NORMAL RESPONSE BIT FTRF SPACE 2,32 ** A-A WORKLIST ACTION PROCESSOR FTRF. * * A-A WORKLIST ACTION PROCESSOR FTRF PROCESSES AN END OF * INFORMATION ON AN A-A FILE TRANSFER. IF THERE IS * SUFFICIENT INBOUND BUFFER SPACE FOR THE END OF FILE * TRANSFER WORKLIST THE FILE PARAMETERS ARE TRANSFERRED * TO THE WORKLIST, THE WORKLIST HEADER WORD AND THE * WORKLIST ARE INITIALIZED STREAM STATE RESPONSE * ACTION ORDINAL IS RETURNED. * * ENTRY - * * (WLO) = WORKLIST ORDINAL. * * EXIT - * * (A) = STREAM STATE ACTION ORDINAL, * (NBH-NBH+L.BH) = WORKLIST WORD LENGTH, * (DRBUF-DRBUF+L.WT) = WORKLIST TEXT. * * CALLS - * * CIBS - CHECK INBOUND BUFFER SPACE, * RFWL - TRANSFER FILE PARAMETERS TO RETURN WORKLIST, * ISMH - INITIALIZE SERVICE MESSAGE HEADER, ** GTE - GET DRIVER CONTROL TABLE ENTRY. FTRF ACTION RETURN FILE TO APPLICATION LDN /NAM/FTEFCM LENGTH OF RETURN FILE WORKLIST RJM CIBS EXIT TO CHECK INBOUND BUFFER SPACE PJN FTRF.1 EXIT IF SUFFICIENT BUFFER SPACE EXIT NPRU EXIT TO PROCESS NEXT PRU STREAM FTRF.1 RJM RFWL EXIT TRANSFER FILE PARAMETERS TO WORKLIST LDN /NAM/SMFPT-/NAM/SMHDRT LENGTH OF FILE PARAMETER TEXT STM NBH+/NAM/C.BWD+1 STORE FILE PARAMETER TEXT WORD COUNT LDN 0 CONSTANT OF ZERO STM DRBUF+/NAM/PFC SET RESPONSE CODE EXIT ISWL.4 EXIT TO INITIALIZE SERVICE MESSAGE HEADER QIWL TITLE DRIVER SUPPORT PROCESSORS. QUAL QIWL SPACE 2,24 ** DRIVER SUPPORT PROCESSOR QIWL. * * DRIVER SUPPORT PROCESSOR QIWL QUEUES A WORKLIST ENTRY * FOR A PRU INPUT STREAM. IF A DATA QUEUE EXISTS THE * WORKLIST IS QUEUED TO THE LAST PRU BUFFER. IF NO * DATA QUEUE EXISTS THE WORKLIST IS QUEUED TO THE PCB. * * ENTRY - * * (WLO) = WORKLIST COMMAND ORDINAL. * * ERROR EXITS - * * EXIT TO *ERROR* IF DRIVER QUEUING ERROR. * * CALLS - * * RPCB - READ WORD FROM PCB, ** TFL - FORM ABSOLUTE CENTRAL ADDRESS. QIWL LINK ENTRY LDN /NAM/W.PCBPS2 PRU STREAM PARAMETER TWO WORD ORDINAL RJM RPCB EXIT TO READ PRU PARAMETER WORD FROM PCB LDD T10+/NAM/C.PCBLDB LOAD HIGH-ORDER LAST BUFFER ADDRESS SHN 12 POSITION TO HIGH-ORDER ADD T10+/NAM/C.PCBLDB+1 PLUS LOW-ORDER LAST BUFFER ADDRESS NJN QIWL.2 EXIT IF DATA QUEUED TO PCB LDN /NAM/W.PCBWLQ WORKLIST QUEUE WORD ORDINAL RJM RPCB EXIT TO READ WORKLIST QUEUE WORD FROM PCB QIWL.1 STD T15+1 STORE LOW-ORDER OF QUEUE WORD ADDRESS SHN -12 POSITION HIGH-ORDER OF ADDRESS STD T15 STORE HIGH-ORDER OF QUEUE WORD ADDRESS LDD T10+/NAM/C.QIO LOAD WORKLIST QUEUE IN POINTER SHN -6 WORKLIST QUEUE IN POINTER TO LOW-ORDER STD T1 STORE WORKLIST QUEUE IN POINTER LDC 1S6 INCREMENT FOR WORKLIST QUEUE IN POINTER RAD T10+/NAM/C.QIO INCREMENT WORKLIST QUEUE IN POINTER SHN -6 WORKLIST QUEUE IN POINTER TO LOW-ORDER SBN 7 LESS MAXIMUM VALUE MJN QIWL.3 EXIT IF IN POINTER IN RANGE EREXIT DQE EXIT TO ERROR - DRIVER QUEUING ERROR QIWL.2 ADN W.CLQ DELTA FOR QUEUE WORD FROM PRU BUFFER RJM TFL EXIT TO FORM ABSOLUTE CENTRAL ADDRESS CRD T10 READ QUEUE WORD FROM PRU BUFFER UJK QIWL.1 EXIT TO STORE QUEUE WORD ADDRESS QIWL.3 LDD T1 LOAD QUEUE IN POINTER SHN 18-1 DIVIDED BY TWO FOR BYTE DISPLACEMENT STD T2 STORE WORKLIST QUEUE IN BYTE DISPLACEMENT MJN QIWL.5 EXIT IF RIGHT POSITION IN BYTE LDD WLO LOAD WORKLIST COMMAND ORDINAL SHN 6 POSITION WORKLIST COMMAND ORDINAL QIWL.4 STM T10+/NAM/C.QUE,T2 STORE QUEUED WORKLIST COMMAND BYTE LDD T15 LOAD HIGH-ORDER OF QUEUE WORD ADDRESS SHN 12 POSITION TO HIGH-ORDER ADD T15+1 PLUS LOW-ORDER OF QUEUE WORD ADDRESS CWD T10 REWRITE QUEUE WORD EXIT ESRAX RETURN VIA STREAM STATE ACTION RETURN QIWL.5 LDM T10+/NAM/C.QUE,T2 LOAD QUEUED WORKLIST COMMAND BYTE ADD WLO PLUS WORKLIST COMMAND ORDINAL UJK QIWL.4 EXIT TO STORE WORKLIST COMMAND BYTE ISMH TITLE COMMAND/WORKLIST PROCESSOR SUBROUTINES. ISMH SPACE 2,34 ** SUBROUTINE ISMH. * * SUBROUTINE ISMH INITIALIZES THE SERVICE MESSAGE HEADER * OF THE WORKLIST BEING GENERATED. THE PRIMARY AND * SECONDARY FUNCTION CODES ARE OBTAINED AND STORED WITH * THE REASON CODE INTO THE SERVICE MESSAGE HEADER AND THE * WORKLIST IS INITIALIZED. * * ENTRY - * * (WLO) = WORKLIST COMMAND ORDINAL, * (DRBUF+PFC) = RESPONSE FLAG, * (T17) = REASON CODE, * (NBH+C.BWD+1) = WORKLIST TEXT WORD LENGTH. * * EXIT - * * (DRBUF-DRBUF+L.SMH) = SERVICE MESSAGE HEADER, * (NBH+C.BWD+1) = WORKLIST WORD LENGTH. * * CALLS - * * GTE - GET DRIVER CONTROL TABLE ENTRY, * IWL - INITIALIZE WORKLIST. * * USES - * ** T1 = WORKLIST COMMAND TABLE ENTRY. ISMH SUBR ENTRY/EXIT LDC /TABLES/AWLCMD FWA APPLICATION COMMAND TABLE ADD WLO PLUS WORKLIST ORDINAL RJM GTE EXIT TO GET WORKLIST COMMAND TABLE ENTRY STD T1 STORE WORKLIST COMMAND TABLE ENTRY SCN 0#F CLEAR SECONDARY FUNCTION CODE RAM DRBUF+/NAM/PFC ADD PRIMARY FUNCTION TO RESPONSE FLAG LDD T1 LOAD WORKLIST COMMAND TABLE ENTRY LPN 0#F EXTRACT LOW-ORDER SECONDARY FUNCTION CODE SHN 8 POSITION LOW-ORDER SECONDARY FUNCTION CODE ADD T17 PLUS REASON CODE STM DRBUF+/NAM/SFC SECONDARY FUNCTION CODE AND REASON CODE LDN 0 CONSTANT OF ZERO STM DRBUF+/NAM/ACN ZERO APPLICATION CONNECTION NUMBER LDN /NAM/SMHDRCM LENGTH OF SERVICE MESSAGE HEADER RAM NBH+/NAM/C.BWD+1 INCREMENT WORKLIST WORD LENGTH LDN /NAM/PDWL LOAD PROCESS DRIVER WORKLIST REQUEST RJM IWL EXIT TO INITIALIZE WORKLIST UJK ISMHX RETURN RFWL SPACE 2,28 ** SUBROUTINE RFWL. * * SUBROUTINE RFWL TRANSFERS THE FILE INFORMATION TO A * RETURN FILE WORKLIST IMAGE AND RESETS THE FILE NAME * TABLE ORDINAL PLUS SETS END OF LINE AS LAST OPERATION * IN THE PRU CONTROL BLOCK. * * ENTRY - * * (PCB-PCB+1) = PRU CONTROL BLOCK ADDRESS. * * EXIT - * * (W.PCBPS1+C.PCBFNT) = SET TO ZERO, * (W.PCBPS1+C.PCBFP) = LAST OPERATION END OF LINE, * (DRBUF+FNAME) = FILE PARAMETERS. * * CALLS - * * RSPB - READ AND STORE ADDRESS OF PCB WORD, * WCMW - WRITE WORD TO PCB, ** TFL - FORM ABSOLUTE CENTRAL ADDRESS. RFWL SUBR ENTRY/EXIT LDN /NAM/W.PCBPS1 PRU STREAM PARAMETER ONE WORD ORDINAL RJM RSPB EXIT TO READ PRU PARAMETER WORD FROM PCB LDN 0 CONSTANT OF ZERO STD T10+/NAM/C.PCBFNT ZERO FNT ORDINAL IN PCB STD T10+/NAM/C.PCBNPR ZERO HIGH-ORDER OF FILE POSITION STD T10+/NAM/C.PCBNPR+1 ZERO LOW-ORDER OF FILE POSITION LDN /NAM/B.PCBEOL LOAD END OF LINE AS LAST OPERATION FLAG STD T10+/NAM/C.PCBFP STORE PRU FILE PARAMETER BYTE RJM WCMW EXIT TO WRITE PRU PARAMETER WORD TO PCB LDD PCB LOAD HIGH-ORDER OF PCB ADDRESS SHN 12 POSITION TO HIGH-ORDER ADD PCB+1 PLUS LOW-ORDER OF PCB ADDRESS ADN /NAM/W.PCBNFN PLUS DELTA FOR NAM FILE PARAMETER WORD RJM TFL EXIT TO FORM ABSOLUTE CENTRAL ADDRESS CRM DRBUF+/NAM/FNAME,ON READ FILE NAME FROM NAM WORD UJK RFWLX RETURN ."O.N" EQU * OVERLAY F=TRANS,T1=(WORKLIST PROCESSORS),T2=(DRIVER WORKLIST P ,ROCCESORS) QUAL ACTIONS TYPEACT MICRO 1,,*WORK* DEFINE ACTION TYPE LINK SPACE 2,6 * RESET LINKS. .ERROR SET 0 .EWLPX SET 0 .NPRU SET 0 .EBRAX SET 0 RJVL SPACE 2,38 ** WORKLIST ACTION PROCESSOR RJVL. * * WORKLIST ACTION PROCESSOR RJVL PROCESSES A REQUEST FOR * JOB VALIDATION. IF THERE IS SUFFICIENT INBOUND * BUFFER SPACE FOR THE REQUEST JOB VALIDATION WORKLIST * THE JOB VALIDATION DATA IS TRANSFERRED FROM THE PRU * BUFFER TO THE WORKLIST BUFFER AND THE LENGTH OF THE * JOB VALIDATION TEXT IS CALCULATED. THE SUPERVISORY * HEADER WORD AND THE WORKLIST ARE INITIALIZED. THE * STREAM STATE RESPONSE ACTION ORDINAL FOR JOB VALIDATION * REQUESTED IS RETURNED. * * ENTRY - * * (WLO) = WORKLIST COMMAND ORDINAL. * * EXIT - * * (A) = STREAM STATE ACTION ORDINAL, * (NBH-NBH+L.BH) = WORKLIST WORD LENGTH, * (DRBUF-DRBUF+L.WT) = WORKLIST TEXT. * * ERROR EXITS - * * EXIT TO *ERROR* IF NO PRU INPUT BUFFER. * * CALLS - * * CIBS - CHECK INBOUND BUFFER SPACE, * RPCB - READ WORD FROM PCB, * TFL - FORM ABSOLUTE CENTRAL ADDRESS, * GTE - GET DRIVER CONTROL TABLE ENTRY, ** IWL - INITIALIZE WORKLIST. RJVL ACTION GENERATE JOB VERIFICATION REQUEST WORKLIST LDN /NAM/SMRJVCM LENGTH OF VERIFICATION REQUEST WORKLIST RJM CIBS EXIT TO CHECK FOR INBOUND BUFFER SPACE PJN RJVL.1 EXIT IF SUFFICIENT INBOUND BUFFER SPACE EXIT NPRU EXIT TO PROCESS NEXT PRU STREAM RJVL.1 LDN /NAM/W.PCBPS2 PRU STREAM PARAMETER TWO WORD ORDINAL RJM RPCB EXIT TO READ PRU PARAMETER WORD FROM PCB LDD T10+/NAM/C.PCBCDB LOAD HIGH-ORDER OF CURRENT BUFFER LPN 37B EXTRACT ADDRESS BITS SHN 12 POSITION TO HIGH-ORDER ADD T10+/NAM/C.PCBCDB+1 PLUS LOW-ORDER OF CURRENT BUFFER NJN RJVL.2 EXIT IF DATA BUFFER QUEUED EREXIT DQE EXIT TO ERROR - DRIVER QUEUING ERROR RJVL.2 ADN W.PROUT DELTA FOR OUT DATA POINTER WORD RJM TFL EXIT TO FORM ABSOLUTE CENTRAL ADDRESS CRD T0 READ OUT DATA POINTER WORD SBN W.PROUT-W.PRIN DELTA FOR IN DATA POINTER WORD CRD T5 READ IN DATA POINTER WORD LDD T5+C.PRUIP LOAD HIGH-ORDER OF IN DATA POINTER SBD T0+C.PRUOP LESS HIGH-ORDER OF OUT DATA POINTER SHN 12 POSITION TO HIGH-ORDER ADD T5+C.PRUIP+1 PLUS LOW-ORDER OF IN DATA POINTER SBD T0+C.PRUOP+1 LESS LOW-ORDER OF OUT DATA POINTER STD T17 STORE AVAILABLE TEXT LENGTH ZJN RJVL.7 EXIT IF NO TEXT AVAILABLE SBN 2*9+1 LESS MAXIMUM LENGTH OF JOB VALIDATION DATA MJN RJVL.3 EXIT IF AVAILABLE LESS THAN MAXIMUM LDN 2*9 LOAD MAXIMUM LENGTH OF JOB VALIDATION DATA STD T17 STORE AVAILABLE TEXT LENGTH RJVL.3 LDD T0+C.PRUOP LOAD HIGH-ORDER OF OUT DATA POINTER SHN 12 POSITION TO HIGH-ORDER ADD T0+C.PRUOP+1 PLUS LOW-ORDER OF OUT DATA POINTER ADD T17 PLUS AVAILABLE TEXT LENGTH RJM TFL EXIT TO FORM ABSOLUTE CENTRAL ADDRESS SBD T17 LESS AVAILABLE TEXT LENGTH CRM DRBUF+/NAM/L.SMHDR,T17 READ AVAILABLE TEXT RJVL.4 LDN 2 CONSTANT OF TWO STD T1 INITIALIZE TERMINATOR COUNT LDC DRBUF+/NAM/L.SMHDR+4 LOAD ADDRESS OF TERMINATOR BYTE STD T2 INITIALIZE TERMINATOR TEST ADDRESS LDN 1 CONSTANT OF ONE STM NBH+/NAM/C.BWD+1 INITIALIZE TEXT WORD LENGTH RJVL.5 LMD T17 LESS AVAILABLE TEXT LENGTH ZJN RJVL.9 EXIT IF END OF AVAILABLE TEXT LDI T2 LOAD NEXT POSSIBLE TERMINATOR BYTE ZJN RJVL.8 EXIT IF END OF TEXT IMAGE RJVL.6 LDN 5 CONSTANT OF FIVE RAD T2 INCREMENT TERMINATOR TEST ADDRESS AOM NBH+/NAM/C.BWD+1 INCREMENT TEXT WORD LENGTH UJK RJVL.5 EXIT TO CHECK FOR END OF TREXT RJVL.7 STM NBH+/NAM/C.BWD+1 ZERO TEXT WORD LENGTH UJN RJVL.9 EXIT TO ZERO REASON CODE RJVL.8 SOD T1 DECREMENT TERMINATOR COUNT NJN RJVL.6 EXIT IF NOT LAST TERMINATOR RJVL.9 STD T17 ZERO REASON CODE STM DRBUF+/NAM/PFC ZERO RESPONSE FLAG STM DRBUF+/NAM/CPRU ZERO HIGH-ORDER CURRENT PRU POSITION STM DRBUF+/NAM/CPRU+1 ZERO LOW-ORDER CURRENT PRU POSITION LDC /TABLES/AWLCMD FWA APPLICATION COMMAND TABLE ADD WLO PLUS WORKLIST ORDINAL RJM GTE EXIT TO GET WORKLIST COMMAND TABLE ENTRY STD T1 STORE WORKLIST COMMAND TABLE ENTRY SCN 0#F CLEAR SECONDARY FUNCTION CODE RAM DRBUF+/NAM/PFC ADD PRIMARY FUNCTION TO RESPONSE FLAG LDD T1 LOAD WORKLIST COMMAND TABLE ENTRY LPN 0#F EXTRACT LOW-ORDER SECONDARY FUNCTION CODE SHN 8 POSITION LOW-ORDER SECONDARY FUNCTION CODE ADD T17 PLUS REASON CODE STM DRBUF+/NAM/SFC SECONDARY FUNCTION CODE AND REASON CODE LDN 0 CONSTANT OF ZERO STM DRBUF+/NAM/ACN ZERO APPLICATION CONNECT NUMBER LDN /NAM/SMHDRCM LENGTH OF SERVICE MESSAGE HEADER RAM NBH+/NAM/C.BWD+1 INCREMENT WORKLIST WORD LENGTH LDN /NAM/PDWL LOAD PROCESS DRIVER WORKLIST REQUEST RJM IWL EXIT TO INITIALIZE WORKLIST LDD WLO LOAD WORKLIST ORDINAL ADC /TABLES/DWLQRT FWA OF DRIVER WORKLIST RESPONSE TABLE RJM GTE EXIT TO GET STREAM STATE RESPONSE ACTION EXIT EWLPX RETURN VIA WORKLIST PROCESSOR ACTION RETURN CODE TITLE IVT OUTPUT COMMAND PROCESSORS. TYPEACT MICRO 1,,*CMDOUT* DEFINE ACTION TYPE CODE SPACE 2,10 ** OUTPUT COMMAND ACTION PROCESSOR CODE. * * OUTPUT COMMAND ACTION PROCESSOR CODE PROCESSES AN * ILLOGICAL OUTPUT COMMAND ACTION BY TRANSFERRING ** CONTROL TO THE DRIVER ERROR ROUTINE. CODE ACTION ILLOGICAL OUTPUT COMMAND ACTION EREXIT ICA EXIT TO ERROR - ILLOGICAL COMMAND ACTION COCN SPACE 2,28 ** IVT COMMAND ACTION PROCESSOR COCN. * * IVT COMMAND ACTION PROCESSOR COCN PROCESSES A FRONT END * REGULATION CHANGE COMMAND. THE NEW REGULATION LEVEL * IS EXTRACTED FROM THE COMMAND AND TRANSFERRED TO THE * FRONT END AND THE DATA POINTER IN THE OUTBOUND PSEUDO * FET IS UPDATED. * * ENTRY - * * (DRBUF+DRBUF+L.RGCP) = COMMAND TEXT. * * ERROR EXITS - * * EXIT TO *ERROR* IF REGULATION LEVEL ZERO. * * CALLS - * * UFOP - UPDATE FET OUT DATA POINTER. * * MACRO CALLS - * ** FEIO - LOGICAL INPUT OUTPUT INTERFACE. COCN.0 EREXIT IOC EXIT TO ERROR - INVALID REGULATION LEVEL COCN ACTION PROCESS NPU REGULATION LEVEL CHANGE COMMAND LDM DRBUF+/BLOCK/REG LOAD NEW REGULATION LEVEL LPN 0#F EXTRACT BUFFER LEVEL AND FLAGS STD OW STORE NPU ORDER WORD LPN 3 EXTRACT BUFFER REGULATION LEVEL SHN S.REG POSITION NEW REGULATION LEVEL STD T15 SAVE NEW REGULATION LEVEL ZJN COCN.0 EXIT IF BUFFER REGULATION LEVEL ZERO LDM FTY,FEI FRONT END TYPE ZJN COCN.1 EXIT IF 2550 FRONT END LDM CHVER,FEI MCI CHANNEL PROTOCOL VERSION NUMBER SBN /MSTATUS/VERSION4 LOWEST VERSION NUMBER THAT DOES NOT NEED STOP REGULATION TRANSPARENT FUNCTION PJN COCN.2 EXIT IF STOP REGULATION FUNC NOT NEEDED LDM FTY,FEI FRONT END TYPE LPN L.REG EXTRACT CURRENT REGULATION LEVEL NJN COCN.2 EXIT IF NO NEED TO SEND STOP REGULATION LDN /FUNCTION/SPR MCI STOP REGULATION TRANSPARENT FUNCTION COCN.1 FEIO FERG ESTABLISH FRONT END REGULATION LEVEL COCN.2 LDM FTY,FEI CURRENT REGULATION LEVEL ZJN COCN.3 EXIT IF 2550 FRONT END SCN L.REG CLEAR CURRENT REGULATION LEVEL ADD T15 ADD NEW REGULATION LEVEL STM FTY,FEI SAVE NEW REGULATION LEVEL COCN.3 RJM UFOP EXIT TO UPDATE FET OUT DATA POINTER EXIT EBRAX RETURN VIA OUTPUT COMMAND ACTION RETURN RPLB TITLE DRIVER SUPPORT PROCESSORS. QUAL LINK SPACE 2,6 * RESET LINKS. .ERROR SET 0 .ESRAX SET 0 RPLB SPACE 2,30 ** DRIVER SUPPORT PROCESSOR RPLB. * * DRIVER SUPPORT PROCESSOR RPLB RETURNS THE ACTIVE PRU * BUFFER TO THE DRIVER LIMBO CHAIN. THE CURRENT BUFFER * IS SET TO THE NEXT BUFFER IN THE QUEUE. THE WORKLIST * COMMAND QUEUE, CURRENT FILE POSITION AND ACCOUNTING * INFORMATION ARE TRANSFERRED FROM THE PRU BUFFER TO THE * PCB AND THE PRU BUFFER IS RETURNED TO THE PROPER DRIVER * LIMBO BUFFER CHAIN. * * ERROR EXITS - * * EXIT TO *ERROR* IF DRIVER QUEUING ERROR, * EXIT TO *ERROR* IF PRU BUFFER SIZE ERROR. * * CALLS - * * RSPB - READ AND STORE ADDRESS OF PCB WORD, * TFL - FORM ABSOLUTE CENTRAL ADDRESS, * WCMW - WRITE WORD TO PCB, ** RLB - RETURN LIMBO BUFFER. RPLB LINK ENTRY LDN /NAM/W.PCBPS2 PRU STREAM PARAMETER TWO WORD ORDINAL RJM RSPB EXIT TO READ PRU PARAMETER WORD FROM PCB LDD T10+/NAM/C.PCBCDB LOAD HIGH-ORDER OF CURRENT BUFFER LPN 37B EXTRACT ADDRESS BITS STD FBA STORE HIGH-ORDER OF BUFFER ADDRESS SHN 12 POSITION TO HIGH-ORDER ADD T10+/NAM/C.PCBCDB+1 PLUS LOW-ORDER OF CURRENT BUFFER NJN RPLB.1 EXIT IF DATA BUFFER QUEUED RPLB.0 EREXIT DQE EXIT TO ERROR - DRIVER QUEUING ERROR RPLB.1 STD FBA+1 STORE LOW-ORDER OF BUFFER ADDRESS ADN W.FFP PLUS DELTA FOR FILE POSITION WORD RJM TFL EXIT TO FORM ABSOLUTE CENTRAL ADDRESS SBN W.FFP LESS DELTA FOR BUFFER HEADER WORD ADDRESS CRD T0 READ BUFFER HEADER WORD STD CBA+1 STORE LOW-ORDER ABSOLUTE ADDRESS OF BUFFER SHN -12 POISITION HIGH-ORDER OF ADDRESS STD CBA STORE HIGH-ORDER ABSOLUTE ADDRESS OF BUFFER LDD T0+C.BST LOAD BUFFER STATUS BYTE SHN -S.PBS POSITION BUFFER SIZE ORDINAL TO LOW-ORDER LPN 77B EXTRACT BUFFER SIZE ORDINAL STD PRU STORE BUFFER SIZE ORDINAL SBN MAXPRU LESS MAXIMUM PRU BUFFER SIZE MJN RPLB.2 EXIT IF BUFFER SIZE IN RANGE EREXIT BSE EXIT TO ERROR - BUFFER SIZE ERROR RPLB.2 LDD T0+C.DLK LOAD HIGH-ORDER OF NEXT BUFFER ADDRESS STD T10+/NAM/C.PCBCDB STORE HIGH-ORDER OF CURRENT BUFFER LPN 37B EXTRACT ADDRESS BITS SHN 12 POSITION TO HIGH-ORDER ADD T0+C.DLK+1 PLUS LOW-ORDER OF NEXT BUFFER ADDRESS STD T10+/NAM/C.PCBCDB+1 STORE LOW-ORDER OF CURRENT BUFFER NJN RPLB.3 EXIT IF NEXT BUFFER QUEUED STD T10+/NAM/C.PCBLDB ZERO HIGH-ORDER LAST BUFFER ADDRESS STD T10+/NAM/C.PCBLDB+1 ZERO LOW-ORDER LAST BUFFER ADDRESS RPLB.3 LDN 0 CONSTANT OF ZERO STD T0+C.DLK ZERO HIGH-ORDER OF BUFFER LINK ADDRESS STD T0+C.DLK+1 ZERO LOW-ORDER OF BUFFER LINK ADDRESS LDD CBA LOAD HIGH-ORDER ABSOLUTE ADDRESS OF BUFFER SHN 12 POSITION TO HIGH-ORDER ADD CBA+1 PLUS LOW-ORDER ABSOLUTE ADDRESS OF BUFFER CWD T0 REWRITE DRIVER BUFFER HEADER ADN W.CLQ PLUS DELTA FOR COMMAND QUEUE WORD CRD T0 READ COMMAND QUEUE WORD FROM BUFFER RJM WCMW EXIT TO WRITE PRU PARAMETER WORD TO PCB ADN /NAM/W.PCBWLQ-/NAM/W.PCBPS2 DELTA FOR WORKLIST QUEUE CWD T0 WRITE WORKLIST COMMAND QUEUE WORD TO PCB LDN /NAM/W.PCBPS1 PRU STREAM PARAMETER ONE WORD ORDINAL RJM RSPB EXIT TO READ PRU PARAMETER WORD FROM PCB LDN 0 CONSTANT OF ZERO STD T0+C.QIO ZERO COMMAND IN/OUT POINTER LDD CBA LOAD HIGH-ORDER ABSOLUTE ADDRESS OF BUFFER SHN 12 POSITION TO HIGH-ORDER ADD CBA+1 PLUS LOW-ORDER ABSOLUTE ADDRESS OF BUFFER ADN W.CLQ PLUS DELTA FOR COMMAND QUEUE WORD CWD T0 REWRITE COMMAND QUEUE TO BUFFER ADN W.FFP-W.CLQ PLUS DELTA FOR FILE POSITION WORD CRD T0 READ FILE POSITION WORD FROM BUFFER LDD T0+C.FFP LOAD HIGH-ORDER OF FILE POSITION LPN 77B EXTRACT HIGH-ORDER OF FILE POSITION SHN 12 POSITION TO HIGH-ORDER ADD T0+C.FFP+1 PLUS MIDDLE OF FILE POSITION SHN 18-6 POSITION HIGH-ORDER OF FILE POSITION STD T10+/NAM/C.PCBNPR STORE HIGH-ORDER OF FILE POSITION LMD T10+/NAM/C.PCBNPR RESET LOW-ORDER OF A-REGISTER ADD T0+C.FFP+2 PLUS LOW-ORDER OF FILE POSITION SHN -6 POSITION LOW-ORDER OF FILE POSITION STD T10+/NAM/C.PCBNPR+1 STORE LOW-ORDER OF FILE POSITION LDD CBA LOAD HIGH-ORDER ABSOLUTE ADDRESS OF BUFFER SHN 12 POSITION TO HIGH-ORDER ADD CBA+1 PLUS LOW-ORDER ABSOLUTE ADDRESS OF BUFFER ADN W.ACT PLUS DELTA FOR ACCOUNTING WORD ADDRESS CRD T0+C.FFP+3 READ ACCOUNTING WORD FROM BUFFER LDD T0+C.FFP+3+C.ACT LOAD HIGH-ORDER OF ACCOUNTING DATA STD T0+/NAM/C.PCBACT STORE HIGH-ORDER OF ACCOUNTING DATA LDD T0+C.FFP+3+C.ACT+1 LOAD LOW-ORDER OF ACCOUNTING DATA STD T0+/NAM/C.PCBACT+1 STORE LOW-ORDER OF ACCOUNTING DATA RJM WCMW EXIT TO WRITE PRU PARAMETER WORD TO PCB ADN /NAM/W.PCBPS3-/NAM/W.PCBPS1 DELTA FOR PARAMETER THREE CWD T0 WRITE STREAM PARAMETER WORD THREE TO PCB LDD CBA LOAD HIGH-ORDER ABSOLUTE ADDRESS OF BUFFER SHN 12 POSITION TO HIGH-ORDER ADD CBA+1 PLUS LOW-ORDER ABSOLUTE ADDRESS OF BUFFER ADN W.PRFRST DELTA FOR FIRST POINTER WORD CRD T0 READ FIRST POINTER WORD LDD T0+C.FPP LOAD FILE PROCESSING FLAG BYTE LPC 7777B&B.RP CLEAR RANDOM PROCESSING FLAG STD T0+C.FPP STORE FILE PROCESSING FLAG BYTE LDD CBA LOAD HIGH-ORDER ABSOLUTE ADDRESS OF BUFFER SHN 12 POSITION TO HIGH-ORDER ADD CBA+1 PLUS LOW-ORDER ABSOLUTE ADDRESS OF BUFFER ADN W.PRFRST DELTA FOR FIRST POINTER WORD CWD T0 REWRITE FIRST POINTER WORD SBN W.PRFRST DELTA BACK TO BUFFER FIRST WORD CRD T0 READ FIRST WORD OF BUFFER LDD T0+C.BST LOAD BUFFER STATUS BYTE SHN -S.BTP POSITION BUFFER TYPE LMN Q.INB LESS VALUE FOR INBOUND BUFFER NJN RPLB.4 EXIT NOT INBOUND BUFFER LDN /NAM/W.PCBPS8 PRU PARAMETER WORD EIGHT ORDINAL RJM RSPB EXIT TO READ PRU PARAMETER WORD SOD T10+/NAM/C.PCBQBC DECREMENT QUEUED BUFFER COUNT PJN *+3 EXIT IF COUNT VALID LJM RPLB.0 EXIT TO ERROR - DRIVER QUEUING ERROR RJM WCMW EXIT TO REWRITE PRU PARAMETER WORD TO PCB RPLB.4 BSS 0 RJM RLB EXIT TO RETURN LIMBO BUFFER TO DRIVER CHAIN EXIT ESRAX RETURN VIA STREAM STATE ACTION RETURN RLB TITLE DRIVER SUPPORT PROCESSOR SUBROUTINES. RLB SPACE 2,42 ** SUBROUTINE RLB. * * SUBROUTINE RLB RETURNS A BUFFER TO THE SPECIFIED * INTERNAL DRIVER LIMBO CHAIN. IF THE PRU BUFFER * STATISTICS OPTION IS SELECTED THE TOTAL TIME THAT * THE BUFFER WAS USED IS UPDATED ALONG WITH THE BUFFER * USE COUNTER. THE BUFFER STATUS AND BUFFER LINK OF * THE BUFFER BEING RETURNED ARE VALIDATED. THE COMMAND * QUEUE IS CHECKED FOR EMPTY BEFORE THE BUFFER IS * RETURNED. * * ENTRY - * * (PRU) = PRU SIZE ORDINAL OF BUFFER, * (DROR) = DRIVER ORDINAL, * (FBA-FBA+1) = ADDRESS OF BUFFER TO RETURN. * * ERROR EXITS - * * EXIT TO *ERROR* IF RETURNED BUFFER FORMAT ERROR, * EXIT TO *ERROR* IF PRU BUFFER SIZE ERROR. * * CALLS - * * TFL - FORM ABSOLUTE CENTRAL ADDRESS. * * USES - * * T7 = RETURNED BUFFER STATUS, * T10-T10+4 = TIME ASSIGNED WORD FROM BUFFER, * T0-T0+4 = SYSTEM REAL-TIME CLOCK, * T16-T16+1 = ELAPSED TIME OF LAST BUFFER USE, * T10-T10+4 = TOTAL TIME USED WORD FROM BUFFER, * T10-T10+4 = DRIVER HEADER WORD FROM BUFFER, * T0-T0+4 = COMMAND QUEUE WORD FROM BUFFER, * T0-T0+4 = LAST LIMBO BUFFER HEADER WORD, ** T5-T5+1 = ADDRESS OF LAST LIMBO BUFFER. RLB SUBR ENTRY/EXIT LDD PRU LOAD PRU BUFFER SIZE ORDINAL SHN S.PBS POSITION PARTIAL BUFFER STATUS LMM DROR ADD DRIVER ORDINAL TO BUFFER STATUS STD T7 STORE RETURNED BUFFER STATUS .PBSTAT IFEQ .PBSTAT,1 LDD FBA LOAD HIGH-ORDER OF BUFFER ADDRESS SHN 12 POSITION TO HIGH-ORDER ADD FBA+1 PLUS LOW-ORDER OF BUFFER ADDRESS ADN W.TML DELTA FOR TIME ASSIGNED WORD RJM TFL EXIT TO FORM ABSOLUTE CENTRAL ADDRESS CRD T10 READ TIME ASSIGNED WORD FROM BUFFER LDK RTCL LOAD ADDRESS OF SYSTEM REAL-TIME CLOCK CRD T0 READ SYSTEM REAL-TIME CLOCK LDD T0+2+2 LOAD LOW-ORDER OF CURRENT MILLISECONDS SBD T10+C.TM+2 LESS LOW-ORDER OF ASSIGNED MILLISECONDS STD T16+1 STORE LOW-ORDER OF MILLISECOND DIFFERENCE PJN *+5 EXIT IF NO BORROW ADC 1S12 ADD BORROW STD T16+1 STORE LOW-ORDER OF MILLISECOND DIFFERENCE SOD T0+2+1 SUBTRACT BORROW LDD T0+2+1 LOAD HIGH-ORDER OF CURRENT MILLISECONDS SBD T10+C.TM+1 LESS HIGH-ORDER OF ASSIGNED MILLISECONDS STD T16 STORE HIGH-ORDER OF MILLISECOND DIFFERENCE PJN *+4 EXIT IF NO BORROW ADC 1S12 ADD BORROW STD T16 STORE HIGH-ORDER OF MILLISECOND DIFERENCE LDD FBA LOAD HIGH-ORDER OF BUFFER ADDRESS SHN 12 POSITION TO HIGH-ORDER ADD FBA+1 PLUS LOW-ORDER OF BUFFER ADDRESS ADN W.TMU DELTA FOR TOTAL TIME USED WORD RJM TFL EXIT TO FORM ABSOLUTE CENTRAL ADDRESS CRD T10 READ TOTAL TIME USED FROM BUFFER LDD T16+1 LOAD LOW-ORDER OF MILLISECOND DIFFERENCE RAD T10+C.TM+2 ADD TO LOW-ORDER TOTAL MILLISECONDS USED SHN -12 POSITION POSSIBLE CARRY ADD T16 PLUS HIGH-ORDER OF MILLISECOND DIFFERENCE RAD T10+C.TM+1 ADD TO HIGH-ORDER TOTAL MILLISECONDS USED SHN -12 POSITION POSSIBLE CARRY RAD T10+C.TM ADD TO TOTAL MILLISECONDS USED AOD T10+C.BUC+1 INCREMENT BUFFER USE COUNT SHN -12 POSITION POSSIBLE CARRY RAD T10+C.BUC ADD TO BUFFER USE COUNT LDD FBA LOAD HIGH-ORDER OF BUFFER ADDRESS SHN 12 POSITION TO HIGH-ORDER ADD FBA+1 PLUS LOW-ORDER OF BUFFER ADDRESS ADN W.TMU DELTA FOR TOTAL TIME USED WORD RJM TFL EXIT TO FORM ABSOLUTE CENTRAL ADDRESS CWD T10 REWRITE TOTAL TIME USED WORD TO BUFFER .PBSTAT ENDIF LDD FBA LOAD HIGH-ORDER OF BUFFER ADDRESS SHN 12 POSITION TO HIGH-ORDER ADD FBA+1 PLUS LOW-ORDER OF BUFFER ADDRESS RJM TFL EXIT TO FORM ABSOLUTE CENTRAL ADDRESS CRD T10 READ DRIVER HEADER WORD FROM BUFFER SBN 1 MINUS DELTA FOR NAM HEADER WORD CRD T0 READ NAM HEADER WORD FROM BUFFER LDD T0+/NAM/C.BID LOAD NAM BUFFER BLOCK ID BYTE SHN -/NAM/S.BID BUFFER BLOCK ID TO LOW-ORDER LMN /NAM/Q.PRUID LESS PRU BUFFER ID STD T17 STORE NAM BLOCK ID FLAG LDD T10+C.BST LOAD BUFFER STATUS LMD T7 LESS RETURNED BUFFER STATUS VALUE LPC M.PBS+M.DOR EXTRACT BUFFER STATUS ZJN RLB.2 EXIT IF BUFFER BEING RETURNED FOR DRIVER RLB.1 EREXIT LBE EXIT TO ERROR ROUTINE - LIMBO BUFFER ERROR RLB.2 LDD T10+C.DLK LOAD HIGH-ORDER OF BUFFER LINK ADDRESS ADD T10+C.DLK+1 PLUS LOW-ORDER OF BUFFER LINK ADDRESS NJN RLB.1 EXIT IF RETURNED BUFFER HAS LINKED BUFFER LDD T10+C.BST LOAD BUFFER STATUS STD T7 SAVE TYPE CHECK INFORMATION LDD PRU LOAD PRU SIZE ORDINAL SHN S.PBS POSITION PARTIAL BUFFER STATUS STD T10+C.BST STORE LIMBO BUFFER VALUE INTO BUFFER STATUS LDD FBA LOAD HIGH-ORDER OF BUFFER ADDRESS SHN 12 POSITION TO HIGH-ORDER ADD FBA+1 PLUS LOW-ORDER OF BUFFER ADDRESS ADN W.CLQ DELTA FOR COMMAND LINK QUEUE FROM BUFFER RJM TFL EXIT TO FORM ABSOLUTE CENTRAL ADDRESS SBN W.CLQ DELTA FOR DRIVER HEADER WORD FROM BUFFER CWD T10 REWRITE DRIVER HEADER WORD TO BUFFER ADN W.CLQ DELTA FOR COMMAND LINK QUEUE FROM BUFFER CRD T0 READ QUEUED COMMAND WORD FROM BUFFER LDD T0+C.QIO LOAD QUEUED COMMAND IN/OUT BYTE ZJN RLB.3 EXIT IF COMMAND QUEUE EMPTY RLB.1X UJK RLB.1 EXIT TO ERROR ROUTINE - LIMBO BUFFER ERROR RLB.3 LDD PRU LOAD RETURNED PRU BUFFER SIZE ORDINAL SBN MAXPRU LESS MAXIMUM PRU BUFFER SIZE MJN RLB.4 EXIT IF BUFFER SIZE IN RANGE EREXIT BSE EXIT TO ERROR - BUFFER SIZE ERROR RLB.4 LDM BAT,PRU LOAD ADDRESS OF BUFFER TABLE INDEX STD BTI STORE BUFFER TABLE INDEX LDD T7 LOAD TYPE CHECK INFORMATION SHN -S.BTP POSITION BUFFER TYPE LMN Q.INB CHECK FOR INBOUND TYPE NJN RLB.4A EXIT IF NOT INBOUND BUFFER SOM INB,BTI DECREMENT INBOUND ASSIGNMENT COUNT RLB.4A LDD FBA HIGH-ORDER OF DRIVER BUFFER HEADER ADDRESS SHN 12 POSITION TO HIGH-ORDER ADD FBA+1 LOW-ORDER OF DRIVER BUFFER HEADER ADDRESS SBN 1 CONVERT ADDRESS TO NAM BLOCK HEADER ADDRESS STD FBA+1 LOW-ORDER OF NAM BLOCK HEADER ADDRESS SHN -12 POSITION HIGH-ORDER STD FBA HIGH-ORDER OF NAM BLOCK HEADER ADDRESS LDD T17 NAM BLOCK ID FLAG NJN RLB.5 EXIT IF USED-ON-CHAIN LDM FPB,BTI HIGH-ORDER OF FIRST BUFFER ADDRESS SHN 12 POSITION TO HIGH-ORDER ADM FPB+1,BTI LOW-ORDER OF FIRST BUFFER ADDRESS ZJN RLB.1X EXIT TO ERROR ROUTINE - LIMBO BUFFER ERROR RJM TFL EXIT TO FORM ABSOLUTE CENTRAL ADDRESS CRD T10 READ NAM HEADER OF FIRST BUFFER ON CHAIN STD T15+1 LOW-ORDER OF ABSOLUTE ADDRESS FIRST BUFFER SHN -12 POSITION HIGH-ORDER STD T15 HIGH-ORDER OF ABSOLUTE ADDRESS FIRST BUFFER LDD T10+/NAM/C.DPT HIGH-ORDER OF NEXT BUFFER ADDRESS LPN 37B EXTRACT ADDRESS STD LBA STORE HIGH-ORDER OF CHAINED BUFFER ADDRESS LDD T10+/NAM/C.DPT+1 LOW-ORDER OF NEXT BUFFER ADDRESS STD LBA+1 STORE LOW-ORDER OF CHAINED BUFFER ADDRESS LDD FBA HIGH-ORDER RELEASED BUFFER ADDRESS STD T10+/NAM/C.DPT BYTE FOR HIGH-ORDER CHAINED BUFF ADDRESS LDD FBA+1 LOW-ORDER RELEASED BUFFER ADDRESS STD T10+/NAM/C.DPT+1 LOW-ORDER CHAINED BUFFER ADDRESS RJM WCMW REWRITE FIRST BUFFER NAM BLOCK HEADER RLB.5 LDD FBA HIGH-ORDER OF RELEASED BUFFER ADDRESS SHN 12 POSITION TO HIGH-ORDER ADD FBA+1 LOW-ORDER OF RELEASED BUFFER ADDRESS RJM TFL EXIT TO FORM ABSOLUTE CENTRAL ADDRESS CRD T10 READ NAM BLOCK HEADER OF RELEASED BUFFER STD T15+1 LOW-ORDER OF ABSOLUTE ADDRESS RELEASED BUFF SHN -12 POSITION HIGH-ORDER STD T15 HIGH-ORDER OF ABSOLUTE ADDRESS RELEASED BUF LDD T17 NAM BLOCK ID FLAG NJN RLB.6 EXIT IF USED-ON-CHAIN LDD LBA HIGH-ORDER OF CHAINED BUFFER ADDRESS STD T10+/NAM/C.DPT HIGH-ORDER ADDRESS CHAINED FROM RELEASED LDD LBA+1 LOW-ORDER OF CHIANED BUFFER ADDRESS STD T10+/NAM/C.DPT+1 LOW-ORDER ADDR CHAINED FROM RELEASED RLB.6 LDN /NAM/Q.FPBID LOAD FREE PRU BLOCK ID SHN /NAM/S.BID POSITION PRU BLOCK ID STD T10+/NAM/C.BID REPLACE NAM BUFFER BLOCK ID BYTE RJM WCMW EXIT TO REWRITE RELEASED BUFFER NAM HEADER AOM NFB,BTI INCREMENT COUNT OF FREE BUFFERS UJK RLBX RETURN ."O.N" EQU * OVERLAY F=TRANS,T1=(SUPPORT PROCESSORS),T2=(DRIVER SUPPORT PRO ,CESSORS) LINKS SPACE 2,6 * RESET LINKS. .ERROR SET 0 .ESRAX SET 0 IPD SPACE 2,44 ** DRIVER SUPPORT PROCESSOR IPD. * * DRIVER SUPPORT PROCESSOR IPD INPUTS PRU DATA FROM THE * FRONT END. THE DATA BLOCK CLARIFIER IS VALIDATED AND * A DRIVER LIMBO BUFFER IS OBTAINED. THE INPUT DATA IS * ACCEPTED AND WRITTEN TO THE PRU BUFFER. THE CIO ORDER * REQUEST CODE IS STORED AND THE PRU BUFFER IS LINKED TO * THE PCB FOR THE STREAM. * FOR FILE TRANSFER, RANDOM FLAG IS STORED IN CIO FIRST * POINTER WORD. * * ENTRY - * * (DBH+DBC) = DATA BLOCK CLARIFIER, * (PRU) = PRU SIZE ORDINAL OF BUFFER, * (DROR) = DRIVER ORDINAL, * (BTI) = LIMBO BUFFER TABLE INDEX, * (PCB-PCB+1) = OWNING PCB ADDRESS, * (EOT) = END OF TRANSFER FLAG, * (AAC) = APPLICATION TO APPLICATION FLAG. * * EXIT - * * (W.PRFS+C.FSB) = LEVEL NUMBER AND CIO REQUEST CODE. * * ERROR EXITS - * * EXIT TO *ERROR* IF LIMBO BUFFER TABLE ERROR, * EXIT TO *ERROR* IF LIMBO BUFFER FORMAT ERROR, * EXIT TO *ERROR* IF PRU INPUT FORMAT ERROR. * * CALLS - * * TFL - FORM ABSOLUTE CENTRAL ADDRESS, * APDC - ACCEPT PRU DISPLAY CODE DATA, * APPD - ACCEPT PRU PACKED BINARY DATA, * ASUD - ACCEPT UNPACKED PRU EIGHT BIT DATA, * WDIB - WRITE DATA TO PRU INBOUND BUFFER, * WPCB - READ WORD FROM PCB, * RSPB - READ AND STORE ADDRESS OF PCB WORD, ** WCMW - WRITE WORD TO PCB. IPD LINK ENTRY LDD IOC LOAD INPUT ORDER CODE LMN /NSTATUS/IAP-/NSTATUS/IAS MINUS PRU INPUT ORDER CODE NJN IPD.1 EXIT IF INPUT ORDER CODE IS FOR IVT BLOCK LDM DHB+/BLOCK/DBC LOAD DATA BLOCK CLARIFIER SHN 17-/BLOCK/S.PRU POSITION PRU BLOCK FLAG TO SIGN MJN IPD.2 EXIT IF PRU BLOCK IPD.1 LINK ENTRY EREXIT PIE EXIT TO ERROR - PRU INPUT FORMAT ERROR IPD.2 BSS 0 GET A FREE BUFFER ADDRESS GFB RJM RFPB READ FIRST PRU BUFFER HEADER LDD T10+/NAM/C.BID LOAD BLOCK ID BYTE FROM FIRST BUFFER SHN -/NAM/S.BID POSITION BLOCK ID TO LOW-ORDER LMN /NAM/Q.FPBID LESS FREE PRU BUFFER ID STD T17 STORE AVAILABILITY OF THE FIRST BUFFER GFB.1 LDD T10+/NAM/C.DPT HIGH-ORDER OF NEXT BUFFER ADDRESS LPN 37B EXTRACT ADDRESS STD FBA STORE HIGH-ORDER OF NEXT BUFFER ADDRESS SHN 12 POSITION TO HIGH-ORDER ADD T10+/NAM/C.DPT+1 LOW-ORDER OF NEXT BUFFER ADDRESS STD FBA+1 STORE LOW-ORDRE OF NEXT BUFFER ADDRESS ZJN GFB.2 EXIT IF END OF BUFFER CHAIN RJM TFL EXIT TO FORM ABSOLUTE CENTRAL ADDRESS CRD T10 READ NAM BLOCK HEADER FROM NEXT BUFFER LDD T10+/NAM/C.BID LOAD BLOCK ID BYTE FROM NEXT BUFFER SHN -/NAM/S.BID POSITION BLOCK ID TO LOW-ORDER LMN /NAM/Q.FPBID LESS FREE PRU BUFFER ID NJN GFB.1 EXIT IF BUFFER NOT FREE UJN GFB.3 EXIT IF FREE BUFFER IS FOUND GFB.2 LDD T17 LOAD FIRST BUFFER AVAILABLITY NJN IPD.3 EXIT IF NO BUFFER AVAILABLE LDM FPB,BTI HIGH-ORDER OF FIRST BUFFER ADDRESS STD FBA STORE HIGH-ORDER OF FIRST BUFFER ADDRESS LDM FPB+1,BTI LOW-ORDER OF FIRST BUFFER ADDRESS STD FBA+1 STORE LOW-ORDER OF FIRST BUFFER ADDRESS GFB.3 AOD FBA+1 LOW-ORDER FOUND BUFFER DRIVER HEADER ADDR SHN -12 POSSIBLE OVERFLOW RAD FBA HIGH-ORDER FOUND BUFFER DRIVER HEADER ADDR SHN 12 POSITION TO HIGH-ORDER ADD FBA+1 PLUS LOW-ORDER BUFFER DRIVER HEADER ADDRESS RJM TFL EXIT TO FORM ABSOLUTE CENTRAL ADDRESS CRD T10 READ DRIVER HEADER WORD FROM BUFFER LDD PRU LOAD PRU SIZE ORDINAL SHN S.PBS POSITION PARTIAL BUFFER STATUS LMD T10+C.BST LESS LIMBO BUFFER STATUS VALUE ZJN IPD.4 EXIT IF LIMBO BUFFER ASSIGNED TO DRIVER IPD.3 LINK ENTRY EREXIT LBE EXIT TO ERROR ROUTINE - FREE BUFFER ERROR IPD.4 LDD FBA LOAD HIGH-ORDER OF BUFFER ADDRESS SHN 12 POSITION TO HIGH-ORDER ADD FBA+1 PLUS LOW-ORDER OF BUFFER ADDRESS ADN W.CLQ DELTA FOR COMMAND LINK QUEUE FROM BUFFER RJM TFL EXIT TO FORM ABSOLUTE CENTRAL ADDRESS CRD T0 READ QUEUED COMMAND WORD FROM BUFFER LDD T0+C.QIO LOAD QUEUED COMMAND IN/OUT BYTE NJN IPD.3 EXIT IF COMMAND QUEUE NOT EMPTY .PBSTAT IFEQ .PBSTAT,1 LDK RTCL LOAD ADDRESS OF SYSTEM REAL-TIME CLOCK CRD T10 READ SYSTEM REAL-TIME CLOCK LDD FBA LOAD HIGH-ORDER OF BUFFER ADDRESS SHN 12 POSITON TO HIGH-ORDER ADD FBA+1 PLUS LOW-ORDER OF BUFFER ADDRESS ADN W.TML DELTA FOR LAST TIME ASSIGNED WORD RJM TFL EXIT TO FORM ABSOLUTE CENTRAL ADDRESS CWD T10 REWRITE LAST TIME ASSIGNED WORD TO BUFFER .PBSTAT ENDIF LDD FBA LOAD HIGH-ORDER OF BUFFER ADDRESS SHN 12 POSITION TO HIGH-ORDER ADD FBA+1 PLUS LOW-ORDER OF BUFFER ADDRESS ADN W.PROUT PLUS DELTA FOR OUT POINTER WORD RJM TFL EXIT TO FORM ABSOLUTE CENTRAL ADDRESS CRD T0 READ OUT DATA POINTER WORD SBN W.PROUT-W.PRFRST DELTA FOR FIRST POINTER WORD CRD T10 READ FIRST POINTER WORD STD T5+1 STORE LOW-ORDER OF FIRST POINTER ADDRESS SHN -12 POSITION HIGH-ORDER OF ADDRESS STD T5 STORE HIGH-ORDER OF FIRST POINTER ADDRESS LDD T10+C.PRUFP LOAD HIGH-ORDER OF FIRST DATA POINTER LPN 77B EXTRACT HIGH-ORDER OF FIRST DATA POINTER STD T0+C.PRUOP STORE HIGH-ORDER OF OUT DATA POINTER LDD T10+C.PRUFP+1 LOAD LOW-ORDER OF FIRST DATA POINTER STD T0+C.PRUOP+1 STORE LOW-ORDER OF OUT DATA POINTER LDD T5 LOAD HIGH-ORDER OF FIRST POINTER ADDRESS SHN 12 POSITION TO HIGH-ORDER ADD T5+1 PLUS LOW-ORDER OF FIRST DATA POINTER ADN W.PROUT-W.PRFRST DELTA FOR OUT DATA POINTER WORD CWD T0 WRITE OUT DATA POINTER WORD SBN W.PROUT-W.PRIN DELTA FOR IN DATA POINTER WORD CWD T0 WRITE IN DATA POINTER WORD LDD FBA LOAD HIGH-ORDER OF BUFFER ADDRESS SHN 12 POSITION TO HIGH-ORDER ADD FBA+1 PLUS LOW-ORDER OF BUFFER ADDRESS ADN W.PRLM DELTA FOR LIMIT DATA POINTER WORD RJM TFL EXIT TO FORM ABSOLUTE CENTRAL ADDRESS CRD T0 READ LIMIT DATA POINTER WORD SBN W.PRLM-W.PRIN DELTA FOR IN DATA POINTER WORD CRD T5 READ IN DATA POINTER WORD LDD T5+C.PRUIP LOAD HIGH-ORDER OF IN DATA POINTER STD CBA STORE HIGH-ORDER OF CURRENT BUFFER ADDRESS LDD T5+C.PRUIP+1 LOAD LOW-ORDER OF IN DATA POINTER STD CBA+1 STORE LOW-ORDER OF CURRENT BUFFER ADDRESS LDD T0+C.PRULP LOAD HIGH-ORDER OF LIMIT DATA POINTER LPN 77B EXTRACT HIGH-ORDER OF LIMIT DATA POINTER STD LBA STORE HIGH-ORDER OF LAST BUFFER ADDRESS LDD T0+C.PRULP+1 LOAD LOW-ORDER OF LIMIT DATA POINTER STD LBA+1 STORE LOW-ORDER OF LAST BUFFER ADDRESS LDD AAC LOAD APPLICATION TO APPLICATION FLAG ZJN IPD.8A EXIT IF NOT APPLICATION TO APPLICATION IPD.6 LDD EOT LOAD END OF TRANSFER FLAG NJN IPD.7 EXIT IF END OF TRANSFER RECEIVED LDC DRBUF LOAD STARTING ADDRESS OF DRIVER BUFFER STD T1 STORE STARTING INPUT BUFFER ADDRESS ADN /NAM/L.L7DH-1 PLUS LENGTH OF LEVEL SEVEN DATA HEADER RJM ASUD EXIT TO ACCEPT LEVEL SEVEN DATA HEADER LDD T3 LOAD INPUT CHARACTER COUNT LMN /NAM/L.L7DH LESS EXPECTED INPUT LENGTH NJN IPD.7 EXIT IF INPUT LENGTH ERROR LDN /NAM/W.PCBPS6 PRU STREAM PARAMETER SIX WORD ORDINAL RJM RPCB EXIT TO READ PRU PARAMETER WORD FROM PCB LDM DRBUF+/NAM/L7BN LOAD HIGH-ORDER OF BLOCK NUMBER SHN 8 POSITION TO HIGH-ORDER ADM DRBUF+/NAM/L7BN+1 PLUS LOW-ORDER OF BLOCK NUMBER LMD T10+/NAM/C.PCBL7N+1 LESS LOW-ORDER OF EXPECTED NUMBER STD T0 STORE PARTIAL RESULT SHN -12 POSITION HIGH-ORDER OF BLOCK NUMBER LMD T10+/NAM/C.PCBL7N LESS HIGH-ORDER OF EXPECTED NUMBER ADD T0 PLUS PARTIAL RESULT ZJN IPD.8 EXIT IF EXPECTED BLOCK NUMBER IPD.7 EREXIT L7H EXIT TO ERROR - LEVEL SEVEN HEADER ERROR IPD.8A LDN 0 CONSTANT OF ZERO STD T15 RESET BIT COUNTER FOR OVERRUN BIT TEST LDM DHB+/BLOCK/DBC LOAD DATA BLOCK CLARIFIER SHN 17-/BLOCK/S.EBD POSITION EIGHT BIT DATA FLAG TO SIGN MJN IPD.8B EXIT IF EIGHT BIT DATA LDC APDC LOAD ADDRESS OF PRU DISPLAY CODE PROCESSOR UJN IPD.9 EXIT TO STORE ADDRESS OF INPUT PROCESSOR IPD.8B LDC ASUD LOAD ADDRESS OF EIGHT BIT DATA PROCESSOR UJN IPD.9 EXIT TO STORE ADDRESS OF INPUT PROCESSOR IPD.8 LDM DRBUF+/NAM/L7BL LOAD HIGH-ORDER OF BLOCK LENGTH SHN 8 POSITION TO HIGH-ORDER ADM DRBUF+/NAM/L7BL+1 PLUS LOW-ORDER OF BLOCK LENGTH STD L7IC STORE INPUT OCTET COUNT SHN -12 POSITION HIGH-ORDER OF OCTET COUNT NJN IPD.7 EXIT IF BLOCK LENGTH ERROR LDM DRBUF+/NAM/L7UB LOAD UNUSED BIT COUNT STD T15 STORE UNUSED BIT COUNT IN LAST BYTE LDC APPD LOAD ADDRESS OF INPUT CHARACTER PROCESSOR IPD.9 STD ICP STORE ADDRESS OF INPUT CHARACTER PROCESSOR LDD EOT LOAD END OF TRANSFER FLAG ZJN IPD.10 EXIT IF END OF TRANSFER NOT RECEIVED LJM IPD.21 EXIT TO CHECK FOR EOR OR EOI REQUEST IPD.10 LDC L.DBCM LOAD CENTRAL WORD LENGTH OF DRIVER BUFFER STD T7 STORE DATA WORD COUNT IPD.11 LDC DRBUF LOAD STARTING ADDRESS OF DRIVER BUFFER STD T1 STORE STARTING INPUT BUFFER ADDRESS LDC E.DRBUF LOAD ENDING ADDRESS OF DRIVER BUFFER RJM 0,ICP EXIT TO INPUT PRU DATA FROM NPU LDD T1 LOAD CURRENT INPUT BUFFER ADDRESS STD T16 STORE CURRENT INPUT BUFFER ADDRESS SBD T2 LESS ENDING INPUT BUFFER ADDRESS NJN IPD.13 EXIT IF NOT FULL BUFFER IPD.12 LDC DRBUF LOAD ADDRESS OF DRIVER BUFFER RJM WDIB EXIT TO WRITE DATA TO INBOUND BUFFER LDD EOT LOAD END OF TRANSFER FLAG ZJN IPD.11 EXIT TO ACCEPT NEXT INPUT BLOCK LJM IPD.21 EXIT IF END OF TRANSFER RECEIVED IPD.13 ADC L.DBCM*5 GET INPUT BYTE COUNT SHN 2 TIMES FOUR TO GET CONTROL TABLE CM WORD RJM GTE EXIT TO READ CONTROL TABLE WORD TO T0 - T4 LDD T0+/NAM/C.QUOT LOAD DIVISION BY FIVE INFORMATION SHN 18-/NAM/S.QUOT POSITION QUOTIENT (ROUNDED-UP) STD T7 STORE CM INPUT WORD COUNT SHN -18+/NAM/S.QUOT POSITION DEFICIT BYTE COUNT STD T6 STORE DEFICIT BYTE COUNT ZJN IPD.12 EXIT IF NOT PARTIAL WORD INPUT LDD ICP LOAD ADDRESS OF INPUT CHARACTER PROCESSOR LMC APDC LESS VALUE FOR PRU DISPLAY CODE PROCESSOR NJN IPD.14 EXIT IF NOT PRU DISPLAY CODE PROCESSOR LJM IPD.1 EXIT TO ERROR - PARTIAL CM WORD INPUT IPD.14 LDD T7 LOAD CM WORD COUNT LPN 1 DATA FOR EVEN CM WORD COUNT TEST SHN 3 POSITION DATA ADD T6 ADD DATA FOR DEFICIT BYTE COUNT OF FOUR SHN 3 POSITION DATA ADD T15 ADD DATA FOR UNUSED BIT COUNT OF FOUR LMN 44B TEST FOR EVEN CM WORD WITH 4 UNUSED BITS NJN IPD.14A EXIT IF NOT - FILL CM WORD WITH ZEROES SOD T7 IF YES - DECREMENT CM WORD COUNT IPD.14B UJK IPD.12 EXIT TO PROCESS DATA IPD.14A AOD T16 INCREMENT CURRENT DATA BUFFER ADDRESS LDN 0 CONSTANT OF ZERO STI T16 ZERO NEXT BYTE OF WORD SOD T6 DECREMENT DEFICIT BYTE COUNT NJN IPD.14A EXIT IF ZERO FILL NOT COMPLETED UJK IPD.14B EXIT IF ZERO FILL COMPLETED IPD.21 LDM DHB+/BLOCK/DBC LOAD DATA BLOCK CLARIFIER SHN -/BLOCK/S.EOR POSITION EOR AND EOI BITS TO LOW-ORDER LPN 3 EXTRACT EOR AND EOI BITS LMN 2 LESS VALUE FOR EOI RECEIVED NJN IPD.24 EXIT IF EOI NOT RECEIVED LDC B.EIR LOAD END OF INFORMATION RECEIVED FLAG UJN IPD.24A EXIT TO STORE END OF INFORMATION FLAG IPD.24 LDN 0 CONSTANT OF ZERO IPD.24A STD T17 STORE END OF INFORMATION FLAG LDD FBA LOAD HIGH-ORDER OF BUFFER ADDRESS SHN 12 POSITION TO HIGH-ORDER ADD FBA+1 PLUS LOW-ORDER OF BUFFER ADDRESS ADN W.PRIN DELTA FOR IN DATA POINTER WORD RJM TFL EXIT TO FORM ABSOLUTE CENTRAL ADDRESS CRD T5 READ IN DATA POINTER WORD SBN W.PRIN-W.PRFS DELTA FOR FILE STATUS WORD CRD T0 READ FILE STATUS WORD STD T12+1 STORE LOW-ORDER FILE STATUS WORD ADDRESS SHN -12 POSITION HIGH-ORDER OF ADDRESS STD T12 STORE HIGH-ORDER FILE STATUS WORD ADDRESS LDM DHB+/BLOCK/DBC LOAD DATA BLOCK CLARIFIER LPN /BLOCK/L.LVL EXTRACT LEVEL NUMBER SHN 14-12 POSITION LEVEL NUMBER TO FET FORMAT STD T0+C.FSB STORE LEVEL NUMBER IN FILE STATUS WORD LDD AAC LOAD APPLICATION TO APPLICATION FLAG ZJN IPD.25B EXIT IF NOT APPLICATION TO APPLICATION LPN /NAM/L.PCBXDD EXTRACT APPLICATION DATA DECLARATION ZJN IPD.26C EXIT IF CONTROL WORD FORMAT UJN IPD.26 EXIT IF NOT CONTROL WORD WRITE IPD.25B LDM DHB+/BLOCK/DBC LOAD DATA BLOCK CLARIFIER SHN -/BLOCK/S.EOI+3 POSITION THE BIT TO MAKE WRITER CODE LPN 1S3 EXTRACT EOI BIT AT BIT POSITION 3 NJN IPD.26B EXIT TO SET UP CIO WRITE ORDER REQUEST CODE IPD.26 LDM DHB+/BLOCK/DBC LOAD DATA BLOCK CLARIFIER SHN -/BLOCK/S.EOR+3 POSITION EOR BIT TO FET FORMAT LPN 3S3 EXTRACT EITHER EOF OR EOR BIT IPD.26B ADN .CIOWT PLUS CIO WRITE ORDER REQUEST CODE UJN IPD.27 EXIT TO STORE CIO WRITE ORDER CODE IPD.26C LDC .CIOWCW LOAD CIO WRITE ORDER CODE IPD.27 STD T0+C.FSB+1 STORE CIO WRITE ORDER REQUEST CODE LDD CBA LOAD HIGH-ORDER OF CURRENT BUFFER ADDRESS STD T5+C.PRUIP STORE HIGH-ORDER OF IN DATA POINTER LDD CBA+1 LOAD LOW-ORDER OF CURRENT BUFFER ADDRESS STD T5+C.PRUIP+1 STORE LOW-ORDER OF IN DATA POINTER LDD T12 LOAD HIGH-ORDER OF FILE STATUS WORD ADDRESS SHN 12 POSITION TO HIGH-ORDER ADD T12+1 PLUS LOW-ORDER OF FILE STATUS WORD ADDRESS CWD T0 REWRITE FILE STATUS WORD ADN W.PRIN-W.PRFS DELTA FOR IN DATA POINTER WORD CWD T5 REWRITE IN DATA POINTER WORD SBN W.PRIN-W.PRFRST DELTA FOR FIRST POINTER WORD CRD T0 READ FIRST POINTER WORD LDC B.RP LOAD RANDOM PROCESSING FLAG RAD T0+C.FPP STORE RANDOM PROCESSING FLAG LDD AAC APPLICATION TO APPLICATION CONNECTION FLAG ZJN IPD.27A EXIT IF REMOTE BATCH TERMINAL CONNECTION LDD T12 LOAD HIGH-ORDER OF FILE STATUS WORD ADDRESS SHN 12 POSITION TO HIGH-ORDER ADD T12+1 PLUS LOW-ORDER OF FILE STATUS WORD ADDRESS ADN W.PRFRST-W.PRFS DELTA FOR FIRST POINTER WORD CWD T0 REWRITE FIRST POINTER WORD * DELINK PRU BUFFER FROM LIMBO CHAIN AND CONNECT TO PCNB PRU * DATA CHAIN. IPD.27A BSS 0 DELINK THE ASSIGNED BUFFER DKB LDD FBA HIGH-ORDER OF BUFFER HEADER ADDRESS SHN 12 POSITION TO HIGH-ORDER ADD FBA+1 LOW-ORDER OF BUFFER HEADER ADDRESS SBN 1 DELTA FOR NAM BLOCK HEADER ADDRESS STD FBA+1 STORE LOW-ORDER OF NAM BLOCK HEADER ADDRESS SHN -12 POSITION HIGH-ORDER STD FBA STORE HIGH-ORDER OF NAM BLOCK HEADR ADDRESS RJM RFPB READ FIRST PRU BUFFER HEADER LDM FPB,BTI HIGH-ORDER OF FIRST BUFFER ADDRESS LMD FBA LESS HIGH-ORDER ASSIGNED BUF HEADER ADDRESS SHN 12 POSITION TO HIGH-ORDER ADM FPB+1,BTI LOW-ORDER OF FIRST BUFFER ADDRESS LMD FBA+1 LESS LOW-ORDER ASSIGNED BUF HEADER ADDRESS NJN DKB.1 EXIT IF ASSIGNED IS NOT THE FIRST BUFFER LDN /NAM/Q.UOCID BUFFER USED-ON-CHAIN ID SHN /NAM/S.BID POSITION BLOCK ID STD T10+/NAM/C.BID STORE BLOCK ID BYTE TO ASSIGNED BUFFER LJM DKB.4 EXIT TO REWRITE NAM BLOCK HEADER DKB.1 LDD T10+/NAM/C.DPT HIGH-ORDER CURRENT BUFFER ADDRESS LPN 37B EXTRACT HIGH-ORDER BUFFER ADDRESS SHN 12 POSITION TO HIGH-ORDER ADD T10+/NAM/C.DPT+1 LOW-ORDER CURRENT BUFFER ADDRESS NJN DKB.2 EXIT IF MORE BUFFERS ON THE CHAIN EXIT IPD.3 EXIT IF NO MORE BUFFER DKB.2 RJM TFL EXIT TO FORM ABSOLUTE CENTRAL ADDRESS CRD T0 READ NAM BLOCK HEADER FROM LINKED BUFFER STD T5+1 LOW-ORDER ABSOLUTE ADDRESS LINKED BUFFER SHN -12 POSITION HIGH-ORDER OF ADDRESS STD T5 HIGH-ORDER ABSOLUTE ADDRESS LINKED BUFFER LDD T10+/NAM/C.DPT HIGH-ORDER CURRENT BUFFER ADDRESS LPN 37B EXTRACT HIGH-ORDER BUFFER ADDRESS LMD FBA LESS HIGH-ORDER ASSIGNED BUFFER ADDRESS SHN 12 POISTION TO HIGH-ORDER ADD T10+/NAM/C.DPT+1 LOW-ORDER CURRENT BUFFER ADDRESS LMD FBA+1 LESS LOW-ORDER ASSIGNED BUFFER ADDRESS ZJN DKB.3 EXIT IF ASSIGNED BUFFER FOUND LDD T5 HIGH-ORDER ABSOLUTE ADDRESS LINKED BUFFER STD T15 STORE HIGH-ORDER ABSOLUTE ADDRESS CUR BUF SHN 12 POSITION TO HIGH-ORDER ADD T5+1 LOW-ORDER ABSOLUTE ADDRESS LINKED BUFFER STD T15+1 STORE LOW-ORDER ABSOLUTE ADDRESS CUR BUF CRD T10 READ NAM BLOCK HEADER CURRENT BUFFER UJK DKB.1 EXIT TO CONTINUE SEARCH FOR ASSIGNED BUFFER DKB.3 LDN /NAM/Q.PRUID PRU BLOCK ID SHN /NAM/S.BID POSITION BLOCK ID STD T0+/NAM/C.BID STORE BLOCK ID BYTE TO ASSIGNED BUFFER LDD T5 HIGH-ORDER ABSOLUTE ADDRESS ASSIGNED BUFFER SHN 12 POSITION TO HIGH-ORDER ADD T5+1 LOW-ORDER ABSOLUTE ADDRESS ASSIGNED BUFFER CWD T0 REWRITE ASSIGNED BUFFER BLOCK HEADER LDD T0+/NAM/C.DPT HIGH-ORDER ADDRESS LINKED FROM ASSIGNED LPN 37B EXTRACE HIGH-ORDER ADDRESS STD T10+/NAM/C.DPT HIGH-ORDER ADDRESS LINKED FROM ASSIGNED LDD T0+/NAM/C.DPT+1 LOW-ORDER ADDRESS LINKED FROM ASSIGNED STD T10+/NAM/C.DPT+1 LOW-ORDER ADDRESS LINKED FROM ASSIGNED DKB.4 RJM WCMW REWRITE NAM BLOCK HEADER AOD FBA+1 CONVERT LOW-ORDER NAM BLOCK HDR TO BUF HDR SHN -12 POSITION OVERFLOW TO HIGH-ORDER ADDRESS RAD FBA CONVERT HIGH-ORDER NAM BLOCK HDR TO BUF HDR SOM NFB,BTI DECREMENT FREE BUFFER COUNT PJN DKBX RETURN IF VALID FREE BUFFER COUNT EXIT IPD.3 EXIT IF FREE BUFFER COUNT INVALID DKBX AOM INB,BTI INCREMENT INBOUND ASSIGNMENT COUNT LDD FBA LOAD HIGH-ORDER OF PRU BUFFER ADDRESS SHN 12 POSITION TO HIGH-ORDER ADD FBA+1 PLUS LOW-ORDER OF PRU BUFFER ADDRESS RJM TFL EXIT TO FORM ABSOLUTE CENTRAL ADDRESS CRD T10 READ DRIVER HEADER WORD FROM PRU BUFFER LDN Q.INB LOAD INBOUND BUFFER ID SHN S.BTP-S.PBS POSITION BUFFER TYPE LMD PRU ADD PRU SIZE ORDINAL TO BUFFER TYPE SHN S.PBS POSITION PARTIAL BUFFER STATUS LMM DROR ADD DRIVER ORDINAL TO BUFFER STATUS STD T10+C.BST STORE BUFFER STATUS VALUE LDD PCB LOAD HIGH-ORDER OF PCNB ADDRESS STD T10+C.PCB STORE HIGH-ORDER OF PCNB ADDRESS LDD PCB+1 LOAD LOW-ORDER OF PCNB ADDRESS STD T10+C.PCB+1 STORE LOW-ORDER OF PCNB ADDRESS LDN 0 CONSTANT OF ZERO STD T10+C.DLK ZERO HIGH-ORDR OF BUFFER LINK ADDRESS STD T10+C.DLK+1 ZERO LOW-ORDER OF BUFFER LINK ADDRESS LDD FBA LOAD HIGH-ORDER OF BUFFER ADDRESS SHN 12 POSITION TO HIGH-ORDER ADD FBA+1 PLUS LOW-ORDER OF BUFFER ADDRESS RJM TFL EXIT TO FORM ABSOLUTE CENTRAL ADDRESS CWD T10 REWRITE DRIVER HEADER WORD FOR PRU BUFFER LDN /NAM/W.PCBPS2 PRU STREAM PARAMETER TWO WORD ORDINAL RJM RSPB EXIT TO READ PRU PARAMETER WORD FROM PCB LDD T10+/NAM/C.PCBCDB LOAD HIGH-ORDER OF CURRENT BUFFER ADD T10+/NAM/C.PCBCDB+1 PLUS LOW-ORDER OF CURRENT BUFFER ZJN *+3 EXIT IF NO DATA QUEUED LJM IPD.30 EXIT IF DATA QUEUED TO PCB LDD FBA LOAD HIGH-ORDER OF NEXT BUFFER ADDRESS ADD T17 PLUS END OF INFORMATION FLAG STD T10+/NAM/C.PCBCDB STORE HIGH-ORDER OF CURRENT BUFFER LDD FBA+1 LOAD LOW-ORDER OF NEXT BUFFER ADDRESS STD T10+/NAM/C.PCBCDB+1 STORE LOW-ORDER OF CURRENT BUFFER IPD.28 LDD FBA LOAD HIGH-ORDER OF NEXT BUFFER ADDRESS STD T10+/NAM/C.PCBLDB STORE HIGH-ORDER LAST BUFFER ADDRESS LDD FBA+1 LOAD LOW-ORDER OF NEXT BUFFER ADDRESS STD T10+/NAM/C.PCBLDB+1 STORE LOW-ORDER LAST BUFFER ADDRESS RJM WCMW EXIT TO WRITE PRU PARAMETER WORD TO PCB LDN /NAM/W.PCBPS8 PRU PARAMETER WORD EIGHT ORDINAL RJM RSPB EXIT TO READ PRU PARAMETER WORD AOD T10+/NAM/C.PCBQBC BUMP QUEUED BUFFER COUNT RJM WCMW EXIT TO REWRITE PRU PARAMETER WORD TO PCB LDD AAC LOAD APPLICATION TO APPLICATION FLAG ZJN IPD.29 EXIT IF NOT APPPLICATION TO APPLICATION LDN /NAM/W.PCBPS6 PRU STREAM PARAMETER SIX WORD ORDINAL RJM RSPB EXIT TO READ PRU PARAMETER WORD FROM PCB AOD T10+/NAM/C.PCBL7N+1 INCREMENT LOW-ORDER NEXT BLOCK SHN -12 POSITION POSSIBLE CARRY ADD T10+/NAM/C.PCBL7N PLUS HIGH-ORDER OF BLOCK NUMBER LPN 0#F EXTRACT HIGH-ORDER OF NEXT BLOCK NUMBER STD T10+/NAM/C.PCBL7N STORE HIGH-ORDER OF NEXT BLOCK NUMBER RJM WCMW EXIT TO WRITE PRU PARAMETER WORD TO PCB IPD.29 EXIT ESRAX RETURN VIA STREAM RESPONSE ACTION RETURN IPD.30 LDD T10+/NAM/C.PCBLDB LOAD HIGH-ORDER LAST BUFFER ADDRESS SHN 12 POSITION TO HIGH-ORDER ADD T10+/NAM/C.PCBLDB+1 PLUS LOW-ORDER LAST BUFFER ADDRESS RJM TFL EXIT TO FORM ABSOLUTE CENTRAL ADDRESS CRD T0 READ BUFFER LINK WORD STD T5+1 STORE LOW-ORDER OF LINK WORD ADDRESS SHN -12 POSITION HIGH-ORDER OF ADDRESS STD T5 STORE HIGH-ORDER OF LINK WORD ADDRESS LDD FBA LOAD HIGH-ORDER OF NEXT BUFFER ADDRESS ADD T17 PLUS END OF INFORMATION FLAG STD T0+C.DLK STORE HIGH-ORDER OF LINK ADDRESS LDD FBA+1 LOAD LOW-ORDER OF NEXT BUFFER ADDRESS STD T0+C.DLK+1 STORE LOW-ORDER OF LINK ADDRESS LDD T5 LOAD HIGH-ORDER OF LINK WORD ADDRESS SHN 12 POSITION TO HIGH-ORDER ADD T5+1 PLUS LOW-ORDER OF LINK WORD ADDRESS CWD T0 REWRITE BUFFER LINK WORD UJK IPD.28 EXIT TO STORE LAST BUFFER ADDRESS RFPB SPACE 2,16 ** SUBROUTINE RFPB * * SUBROUTINE RFPB LOCATES AND READS FIRST FREE BUFFER * NAM BLOCK HEADER AND SAVES ITS ADDRESS. * * EXIT - * * (T10-T14) = NAM BLOCK HEADER WORD CONTENTS. * (T15-T15+1) = FIRST BUFFER FIRST WORD ADDRESS. * * ERROR EXIT - * ** EXIT TO *ERROR* IF FREE BUFFER TABLE ERROR. RFPB SUBR ENTRY/EXIT LDM FPB,BTI HIGH-ORDER OF FIRST BUFFER ADDRESS SHN 12 POSITION TO HIGH-ORDER ADM FPB+1,BTI LOW-ORDER OF FIRST BUFFER ADDRESS NJN RFPB.1 EXIT IF FREE BUFFER EXISTS EXIT IPD.3 EXIT TO ERROR ROUTINE - FREE BUFFER ERROR RFPB.1 RJM TFL EXIT TO FORM ABSOLUTE CENTRAL ADDRESS CRD T10 READ NAM BLOCK HEADER FROM FIRST BUFFER STD T15+1 LOW-ORDER OF ABSOLUTE ADDRESS FIRST BUFFER SHN -12 POSITION HIGH-ORDER OF ADDRESS STD T15 HIGH-ORDER OF ABSOLUTE ADDRESS FIRST BUFFER UJK RFPBX RETURN APDC TITLE FRONT END INPUT/OUTPUT DATA MANAGEMENT SUBROUTINES. APDC SPACE 2,36 ** SUBROUTINE APDC. * * SUBROUTINE APDC INPUTS PRU DISPLAY CODE DATA FROM THE * FRONT END AND STORES THE INPUT DATA IN PACKED DISPLAY * CODE FORMAT INTO THE SPECIFIED BUFFER AREA. * * ENTRY - * * (A) = ENDING DATA BUFFER ADDRESS, * (T1) = STARTING DATA BUFFER ADDRESS, * (NCC) = CURRENT MESSAGE CHARACTER COUNT. * * EXIT - * * (A) = NON-ZERO IF END OF TRANSFER, * (T1) = ENDING INPUT DATA BUFFER ADDRESS, * (T3) = UPDATED TO CURRENT MESSAGE CHARACTER COUNT, * (NCC) = UPDATED TO CURRENT MESSAGE CHARACTER COUNT, * (EOT) = NON-ZERO IF END OF TRANSFER. * * ERROR EXITS - * * EXIT TO *ERROR* IF PRU INPUT FORMAT ERROR. * * MACRO CALLS - * * CLIO - CALL LOGICAL INPUT/OUTPUT INTERFACE. * * USES - * ** T2 = ENDING DATA BUFFER ADDRESS. APDC SUBR ENTRY/EXIT STD T2 STORE ENDING DATA ADDRESS LDN 0 CONSTANT OF ZERO STD T3 INITIALIZE DATA CHARACTER COUNT APDC.1 CLIO FEIC INPUT NEXT DATA CHARACTER SHN 6 POSITION DISPLAY CODE CHARACTER STI T1 STORE NEXT DISPLAY CODE CHARACTER SHN -6-6 CLEAR DISPLAY CODE CHARACTER ZJN APDC.3 EXIT IF INPUT WAS DISPLAY CODE CHARACTER APDC.2 EXIT IPD.1 EXIT TO ERROR - PRU INPUT FORMAT ERROR APDC.3 LDD EOT LOAD END OF TRANSFER FLAG NJN APDC.2 EXIT IF END OF TRANSFER RECEIVED CLIO FEIC INPUT NEXT DATA CHARACTER RAI T1 ADD TO LEFT DISPLAY CODE CHARACTER LDD T0 LOAD INPUT CHARACTER SCN 77B CLEAR DISPLAY CODE CHARACTER NJN APDC.2 EXIT IF INPUT NOT DISPLAY CODE CHARACTER LDD EOT LOAD END OF TRANSFER FLAG NJN APDCX RETURN IF END OF TRANSFER RECEIVED LDD T1 LOAD CURRENT DATA BUFFER ADDRESS LMD T2 LESS ENDING DATA BUFFER ADDRESS ZJN APDCX RETURN IF END OF DATA BUFFER AOD T1 INCREMENT CURRENT DATA BUFFER ADDRESS UJK APDC.1 EXIT TO INPUT NEXT DATA CHARACTER APPD SPACE 2,40 ** SUBROUTINE APPD. * * SUBROUTINE APPD INPUTS EIGHT BIT PRU DATA FROM THE * FRONT END AND STORES THE INPUT DATA IN PACKED BINARY * FORMAT INTO THE SPECIFIED BUFFER AREA. * * ENTRY - * * (A) = ENDING DATA BUFFER ADDRESS, * (T1) = STARTING DATA BUFFER ADDRESS, * (NCC) = CURRENT MESSAGE CHARACTER COUNT, * (L7IC) = REMAINING INPUT OCTET COUNT. * * EXIT - * * (A) = NON-ZERO IF END OF TRANSFER, * (T1) = ENDING INPUT DATA BUFFER ADDRESS, * (T3) = CURRENT CHARACTER COUNT, * (L7IC) = REMAINING INPUT OCTET COUNT, * (NCC) = CURRENT MESSAGE CHARACTER COUNT, * (EOT) = END OF TRANSFER FLAG. * * ERROR EXITS - * * EXIT TO *ERROR* IF ILLEGAL BUFFER SIZE, * EXIT TO *ERROR* IF LEVEL SEVEN DATA ERROR. * * MACRO CALLS - * * CLIO - CALL LOGICAL INPUT/OUTPUT INTERFACE. * * USES - * ** T2 = ENDING DATA BUFFER ADDRESS. APPD SUBR ENTRY/EXIT CLIO FEIP EXIT TO INPUT NEXT DATA CHARACTER UJN APPD.4 APPD.3 EREXIT L7D EXIT TO ERROR - LEVEL SEVEN DATA ERROR APPD.4 LDD L7IC LOAD LEVEL SEVEN INPUT OCTET COUNT SBD T3 LESS INPUT CHARACTER COUNT STD L7IC STORE REMAINING LEVEL SEVEN OCTET COUNT LDD EOT LOAD END OF TRANSFER FLAG ZJN APPDX EXIT IF END OF TRANSFER NOT RECEIVED LDD L7IC LOAD REMAINING LEVEL SEVEN OCTET COUNT NJN APPD.3 EXIT IF INPUT LENGTH ERROR LDN 1 SET A-REGISTER NON-ZERO APPD.5 UJK APPDX RETURN ."O.N" EQU * OVERLAY F=TRANS,T1=(SUPPORT PROCESSORS),T2=(DRIVER SUPPORT PRO ,CESSORS) LINKS SPACE 2,6 * RESET LINKS. .ERROR SET 0 .NPRU SET 0 .GIBS.1 SET 0 PIOD SPACE 2,30 ** DRIVER SUPPORT PROCESSOR PIOD. * * DRIVER SUPPORT PROCESSOR PIOD SETS THE FRONT END OUTPUT * FET TO THE HIGHEST PRIORITY AND CHECKS THE IVT OUTPUT * CYCLE TIMER. IF THE IVT OUTPUT CYCLE TIMER HAS NOT * EXPIRED THE OUTPUT BUFFER IS CHECKED FOR IVT MESSAGES. * IF AN OUTBOUND IVT MESSAGE IS FOUND THE NETWORK HEADER * IS READ AND VALIDATED, THE ADDRESS OF THE OUTPUT TEXT * IS INITIALIZED AND THE MAIN DRIVER IS CALLED TO PROCESS * THE MESSAGE. IF THERE IS NO MESSAGE IN THE CURRENT * OUTBOUND BUFFER THE BUFFER IS ADVANCED TO THE NEXT * LOWER PRIORITY BUFFER FOR THE FRONT END AND IT IS * CHECKED FOR OUTBOUND IVT MESSAGES. * * ERROR EXITS - * * EXIT TO *ERROR* IF OUTBOUND MESSAGE FORMAT ERROR. * * CALLS - * * PAUSE - PAUSE FOR STORAGE RELOCATION, * CIOA - CHECK IVT OUTPUT AVAILABLE, * TFL - GENERATE ABSOLUTE CENTRAL ADDRESS, ** UPD - UNPACK DATA. PIOD LINK ENTRY RJM PAUSE EXIT TO PAUSE FOR STORAGE RELOCATION LDN /NAM/W.NBTOF OFFSET FOR FIRST OUTBOUND FET STD FTO INITIALIZE NPU FET OFFSET LDN /NORDER/OL1 LOAD INITIAL OUTPUT PRIORITY LEVEL STD OPL INITIALIZE NPU OUTPUT PRIORITY LEVEL PIOD.1 LDK RTCL LOAD ADDRESS OF SYSTEM REAL-TIME CLOCK CRD T1 READ SYSTEM REAL-TIME CLOCK LDD T1+1 LOAD SYSTEM SECOND TIME SBM IDT LESS IVT DATA CYCLE TIMER SHN 5+1 POSITION HIGH-ORDER VALUE BIT TO SIGN MJN PIOD.2 EXIT IF IVT DATA CYCLE NOT EXPIRED EXIT PPRU EXIT TO PROCESS PRU STREAMS PIOD.2 LDN /NAM/L.BH+/NAM/L.NH LOAD LENGTH OF NAM HEADER WORDS STD T17 STORE CENTRAL WORD COUNT RJM CIOA EXIT TO CHECK FOR IVT OUTPUT AVAILABLE NJN PIOD.3 EXIT IF IVT OUTPUT AVAILABLE LJM PIOD.6 EXIT TO CHECK FOR LAST FRONT END FET PIOD.3 ADD T17 PLUS CENTRAL WORD COUNT RJM TFL EXIT TO FORM ABSOLUTE CENTRAL ADDRESS SBD T17 LESS CENTRAL WORD COUNT CRM NBH,T17 READ NAM BLOCK HEADER AND NETWORK HEADER LDM NBH+/NAM/C.BID LOAD BUFFER ID BYTE SHN -/NAM/S.BID BUFFER BLOCK ID TO LOW-ORDER LMN /NAM/Q.OBID LESS OUTBOUND BUFFER ID ZJN PIOD.3F EXIT IF OUTBOUND BUFFER ID LMN /NAM/Q.PONID&/NAM/Q.OBID CHECK IF PRU/ON BLOCK ID NJN PIOD.4 EXIT IF BAD BUFFER ID RJM UFOP EXIT TO UPDATE NBT FET OUT PTR EXIT PIOD EXIT TO PROCESS NEXT ENTRY IN OUTBOUND CHN PIOD.3F LDM NBH+/NAM/C.BWD LOAD HIGH-ORDER OF BLOCK SIZE IN WORDS LPN 77B EXTRACT HIGH-ORDER OF BLOCK SIZE ZJN PIOD.5 EXIT IF WORD COUNT IN RANGE PIOD.4 UJK /ACTIONS/OIOT.1 EXIT TO ERROR - ILLEGAL OUTPUT BLOCK PIOD.5 LDC /BLOCK/L.DATA LOAD MAXIMUM MESSAGE TEXT LENGTH SBM NNH+/NAM/C.MCC LESS MESSAGE TEXT LENGTH FROM NAM MJN PIOD.4 EXIT IF MESSAGE TEXT LENGTH OUT OF RANGE LCN /NAM/L.BH+/NAM/L.NH NEGATIVE LENGTH OF NAM HEADER WORDS RAM NBH+/NAM/C.BWD+1 DECREMENT BLOCK SIZE FOR TEXT LENGTH MJN PIOD.4 EXIT IF TEXT LENGTH OUT OF RANGE LDC NNH LOAD ADDRESS OF NAM NETWORK HEADER BUFFER STD T1 STORE SOURCE BUFFER ADDRESS ADN BHB-NNH DELTA FOR NPU BLOCK HEADER BUFFER STD T2 STORE DESTINATION BUFFER ADDRESS LDN /BLOCK/L.BH+/BLOCK/L.DH LENGTH OF BLOCK AND DATA HEADER RJM /2IM/UPD EXIT TO UNPACK NAM NETWORK HEADER LDM BHB+/BLOCK/DN LOAD DESTINATION NODE FROM NAM STD TN STORE TERMINAL NODE LDM BHB+/BLOCK/CN LOAD CONNECTION NUMBER FROM NAM STD CN STORE CONNECTION NUMBER LDM BHB+/BLOCK/BNBT LOAD BLOCK TYPE FROM NAM LPN /BLOCK/L.BT EXTRACT BLOCK TYPE ZJN PIOD.4 EXIT IF INVALID BLOCK TYPE STD BT STORE BLOCK TYPE SBN /BLOCK/MAXBT LESS MAXIMUM VALID BLOCK TYPE PJN PIOD.4 EXIT IF INVALID BLOCK TYPE LDD FBA LOAD HIGH-ORDER OF BUFFER ADDRESS SHN 12 POSITION TO HIGH-ORDER ADD FBA+1 PLUS LOW-ORDER OF BUFFER ADDRESS ADM NBH+/NAM/C.BWD+1 PLUS BLOCK SIZE IN WORDS RJM TFL EXIT TO FORM ABSOLUTE CENTRAL ADDRESS SBM NBH+/NAM/C.BWD+1 LESS BLOCK SIZE IN WORDS ADD T17 PLUS LENGTH OF NAM HEADER WORDS STD CBA+1 STORE LOW-ORDER OF ABSOLUTE BUFFER ADDRESS SHN -12 POSITION HIGH-ORDER OF ADDRESS STD CBA STORE HIGH-ORDER OF ABSOLUTE BUFFER ADDRESS EXIT PFE.4 EXIT TO READ CONNECTION TABLE ENTRY PIOD.6 LDD OPL LOAD CURRENT OUTPUT PRIORITY LEVEL SBN MAXOPL LESS MAXIMUM OUTPUT PRIORITY LEVEL ZJN PIOD.7 EXIT IF ALL PRIORITY LEVELS PROCESSED ADN MAXOPL-LOWOPL CHECK IF READY TO SEND LOW PRIORITY DATA MJN PIOD.6H EXIT IF NOT TIME TO SEND LOW PRIORITY DATA LDM FTY,FEI FRONT END TYPE ZJN PIOD.6H EXIT IF 2550 FRONT END LDM CHVER,FEI MCI CHANNEL PROTOCOL VERSION NUMBER SBN /MSTATUS/VERSION4 LOWEST VERSION NUMBER THAT SUPPORTS FLOW CONTROL BIT IN GENERAL STATUS REGISTER MJN PIOD.6H IF FLOW CONTROL BIT DOES NOT EXIST IN GS LDM MGS,FEI MDI GENERAL STATUS REGISTER LPK 7 EXTRACT BITS 0 TO 2 OF GENERAL STATUS SBN /MSTATUS/FON CHECK IF NORMAL FLOW CONTROL IS ON ZJN PIOD.7 EXIT IF NORMAL FLOW CONTROL IS ON PIOD.6H LDN /NAM/L.FET LENGTH OF FRONT END FET RAD FTO INCREMENT FRONT END FET OFFSET AOD OPL INCREMENT CURRENT OUTPUT PRIORITY LEVEL UJK PIOD.1 EXIT TO CHECK FOR IVT TIMER EXPIRED PIOD.7 EXIT PPRU EXIT TO PROCESS PRU STREAMS INSS SPACE 2,46 ** DRIVER SUPPORT PROCESSOR INSS. * * DRIVER SUPPORT PROCESSOR INSS INITIALIZES FOR A NEW PRU * STREAM. THE STREAM STATE IS SET TO EITHER PRU INPUT OR * PRU OUTPUT, THE CONNECTION TABLE IS WRITTEN, THE COUNT * OF PRU STREAMS IS INCREMENTED AND THE PRU LIMBO BUFFER * CHAINS ARE INITIALIZED IF THIS IS THE FIRST ACTIVE PRU * STREAM. THE FILE TRANSFER PARAMETERS ARE INTIALIZED * AND STORED IN THE PRU CONTROL BLOCK. * * ENTRY - * * (BHS) = BLOCK HANDLER STATE FOR STREAM, * (NPS) = NPU STATE, * (FEI) = FRONT END TABLE ADDRESS, * (AAC) = APPLICATION TO APPLICATION FLAG, * (PRUSTS) = COUNT OF ACTIVE PRU STREAMS, * (MLB) = MINIMUM PRU BUFFER COUNT. * * EXIT - * * (STS) = INITIAL PRU STREAM STATE, * (BSBC) = INITIAL BLOCK SERIAL NUMBERS, * (PRUSTS) = INCREMENTED, * (ALB) = INITIALIZED IF FIRST ACTIVE STREAM, * (CN0) = INITIALIZED IF FIRST ACTIVE STREAM, * (CWO) = INITIALIZED IF FIRST ACTIVE STREAM. * * ERROR EXITS - * * EXIT TO *ERROR* IF ILLEGAL BLOCK HANDLER STATE, * EXIT TO *ERROR* IF ILLEGAL PCB SIZE, * EXIT TO *ERROR* IF ILLEGAL PRU BUFFER SIZE. * * CALLS - * * CIWL - CHECK FOR IMMEDIATE WORKLIST ENTRY, * WCT - WRITE CONNECTION TABLE, * RPCB - READ WORD FROM PCB, * RSPB - READ AND STORE ADDRESS OF PCB WORD, ** WCMW - WRITE WORD TO PCB. INSS LINK ENTRY LDD BHS LOAD BLOCK HANDLER STATE LMN /TABLES/BHS2 LESS VALUE FOR PRU INPUT STREAM ZJN INSS.3 EXIT IF PRU INPUT STREAM LMN /TABLES/BHS3&/TABLES/BHS2 DELTA FOR PRU OUTPUT STREAM ZJN INSS.2 EXIT IF PRU OUTPUT STREAM LDI FEI LOAD FRONT END STATE NJN INSS.1 EXIT IF FRONT END INOPERATIVE EREXIT BHS EXIT TO ERROR - ILLEGAL BLOCK HANDLER STATE INSS.1 UJK /STATES/SIWL EXIT TO CHECK FOR IMMEDIATE WORKLIST ENTRY INSS.2 LDN /TABLES/PROT-/TABLES/PRIN DELTA FOR PRU OUTPUT STREAM INSS.3 ADN /TABLES/PRIN DELTA FOR INITIAL PRU INPUT STREAM STATE STD STS STORE INITIAL PRU STREAM STATE LDD AAC LOAD APPLICATION TO APPLICATION FLAG NJN INSS.4 EXIT IF APPLICATION CONNECTION LDC 1S9&1S3 LOAD INITIAL BLOCK SERIAL NUMBERS STD BSBC INITIALIZE BLOCK SERIAL NUMBER INSS.4 RJM WCT EXIT TO WRITE CONNECTION TABLE ENTRY LDN 0 CONSTANT OF ZERO RJM RPCB EXIT TO READ PCB HEADER WORD LDD T10+/NAM/C.BWD+1 LOAD PCB WORD LENGTH LMN /NAM/L.PCB LESS EXPECTED PCB WORD LENGTH NJN INSS.5 EXIT IF PCB LENGTH ERROR LDD T10+/NAM/C.PCBSP LOAD STREAM PARAMETER BYTE LPN /NAM/L.PCBNBS EXTRACT PRU BLOCK SIZE SBN MAXPRU+1 LESS MAXIMUM BUFFER SIZE MJN INSS.8 EXIT IF BUFFER SIZE VALID UJK /STATES/SRNO.1 EXIT TO ERROR - PCB BUFFER SIZE ERROR INSS.5 EREXIT PSE EXIT TO ERROR - PCB SIZE ERROR INSS.8 LDN /NAM/W.PCBPS6 PRU STREAM PARAMETER SIX WORD ORDINAL RJM RSPB EXIT TO READ PRU PARAMETER WORD FROM PCB SBN /NAM/W.PCBPS6-/NAM/W.PCBIWP DELTA FOR CHECKMARK WINDOW CRD T1 READ CHECKMARK WINDOW SIZE WORD ADN /NAM/W.PCBPS5-/NAM/W.PCBIWP CHECKMARK ACKNOWLEDGED CRM DRBUF,ON READ CHECKMARK ACKNOWLEDGED WORD LDD T1+/NAM/C.PCBFTP LOAD FILE TRANSFER PARAMETER BYTE SHN -/NAM/S.PCBCWS CHECKMARK WINDOW SIZE TO LOW-ORDER ZJN INSS.9 EXIT IF CHECKMARKS NOT REQUESTED LDN NBBC LOAD NUMBER OF BLOCKS BETWEEN CHECKMARKS SHN 6 POSITION TO INTERVAL ADN NBBC PLUS BLOCKS UNTIL CHECKMARK INSS.9 STD T10+/NAM/C.PCBCMC STORE CHECKMARK CONTROL BYTE LDD T1+/NAM/C.PCBFTP LOAD FILE TRANSFER PARAMETER BYTE LPN 0#F EXTRACT HIGH-ORDER OF FIRST CHECKMARK SHN 12 POSITION TO HIGH-ORDER ADD T1+/NAM/C.PCBFTP+1 PLUS LOW-ORDER OF FIRST CHECKMARK SHN -/NAM/S.PCBKVL POSITION FIRST CHECKMARK VALUE INSS.10 STM DRBUF+/NAM/C.PCBLAC+1 STORE LOW-ORDER LAST ACKNOWLEDGED SHN -12 POSITION HIGH-ORDER OF VALUE STM DRBUF+/NAM/C.PCBLAC STORE HIGH-ORDER LAST ACKNOWLEDGED LDN 0 CONSTANT OF ZERO STD T10+/NAM/C.PCBL7N HIGH-ORDER OF LEVEL 7 BLOCK NUMBER STD T10+/NAM/C.PCBL7N+1 LOW-ORDER OF LEVEL 7 BLOCK NUMBER LDK RTCL LOAD ADDRESS OF SYSTEM REAL-TIME CLOCK CRD T0 READ SYSTEM REAL-TIME CLOCK LDD T0+1 LOAD SYSTEM SECOND TIME ADK Q.L7TO PLUS LEVEL SEVEN TIMEOUT QUANTUM STD T10+/NAM/C.PCBL7T STORE LEVEL SEVEN TIMER RJM WCMW EXIT TO WRITE PRU PARAMETER WORD TO PCB SBN /NAM/W.PCBPS6-/NAM/W.PCBPS5 CHECKMARK ACKNOWLEDGED CWM DRBUF,ON WRITE CHECKMARK ACKNOWLEDGED WORD EXIT NPRU EXIT TO PROCESS NEXT PRU STREAM PRIT SPACE 2,30 ** DRIVER SUPPORT PROCESSOR PRIT. * * DRIVER SUPPORT PROCESSOR PRIT ACCEPTS IVT TEXT FROM * THE FRONT END. THE IVT TEXT IS ACCEPTED FROM THE FRONT * END AND STORED IN THE DRIVER BUFFER IN PACKED FORMAT. * WHEN THE DRIVER BUFFER IS FILLED THE IVT TEXT IS * WRITTEN TO THE INBOUND BUFFER AND THE PROCESS IS * REPEATED UNTIL THE COMPLETE MESSAGE HAS BEEN RECEIVED. * AT THE COMPLETION OF THE INPUT THE NAM BLOCK HEADER AND * NETWORK HEADER ARE WRITTEN TO THE INBOUND BUFFER AND * THE FET IN DATA POINTER IS UPDATED. * * ENTRY - * * (EOT) = END OF TRANSFER RECEIVED FLAG, * (FBA-FBA+1) = ADDRESS OF FET BUFFER, * (CBA-CBA+1) = FET BUFFER ADDRESS FOR TEXT, * (LBA-LBA+1) = ADDRESS OF END OF FET BUFFER, * (NBH-NBH+L.BH) = NAM BLOCK HEADER, * (NNH-NNH+L.NH) = NAM NETWORK HEADER. * * ERROR EXITS - * * EXIT TO *ERROR* IF MESSAGE EXCEEDS FET BUFFER. * * CALLS - * * ASED - ACCEPT AND STORE PACKED DATA, * WDIB - WRITE INPUT DATA TO INBOUND BUFFER, ** UFIP - UPDATE FET IN POINTER. PRIT LINK ENTRY LDC DRBUF LOAD STARTING ADDRESS OF DRIVER BUFFER PRIT.2 LINK ENTRY STD T1 STORE STARTING INPUT BUFFER ADDRESS LDC E.DRBUF LOAD ENDING ADDRESS OF DRIVER BUFFER CLIO FEIP EXIT TO ACCEPT AND STORE PACKED DATA LDD T3 LOAD CHARACTER COUNT OF INPUT RAM NNH+/NAM/C.MCC ADD TO MESSAGE TEXT CHARACTER COUNT LDN 0 CONSTANT OF ZERO STD T7 INITIALIZE CENTRAL WORD COUNT LDD T3 LOAD CHARACTER COUNT OF INPUT ADN 8-1 ROUND UP FOR MODULUS 7 1/2 SHN 1 TIMES TWO PRIT.3 SBN 15 LESS COUNT OF CHARACTERS PER WORD TIMES TWO MJN PRIT.4 EXIT IF CHARACTER COUNT EXHAUSTED STD T3 STORE RESIDUAL CHARACTER COUNT AOD T7 INCREMENT CENTRAL MEMORY WORD COUNT LDD T3 LOAD RESIDUAL CHARACTER COUNT UJK PRIT.3 EXIT TO DECREMENT RESIDUAL CHARACTER COUNT PRIT.4 LDD T7 LOAD DATA LENGTH WORD COUNT RAM NBH+/NAM/C.BWD+1 ADD TO MESSAGE WORD COUNT LDC DRBUF LOAD ADDRESS OF DRIVER BUFFER RJM WDIB EXIT TO WRITE DATA TO INBOUND BUFFER LDD EOT LOAD END OF TRANSFER FLAG ZJN PRIT EXIT IF END OF TRANSFER NOT RECEIVED UJK /ACTIONS/SRUI EXIT TO UPDATE DATA IN POINTER CIOA TITLE IVT OUTPUT SUPPORT SUBROUTINES. CIOA SPACE 2,46 ** SUBROUTINE CIOA. * * SUBROUTINE CIOA CHECKS FOR THE AVAILABILITY OF IVT * OUTPUT DATA. IF THE OUT POINTER FROM THE OUTPUT * PSEUDO FET IS EQUAL TO ZERO THE FIRST POINTER FROM * THE PSEUDO FET IS USED. IF THE FIRST POINTER FROM * THE PSEUDO FET IS ALSO ZERO NO OUTPUT DATA IS * AVAILABLE. IF IN IS EQUAL TO OUT NO OUTPUT IS * AVAILABLE. IF IN IS NOT EQUAL TO OUT THE NEXT * OUTBOUND MESSAGE HAS BEEN LINKED TO THE BUFFER * HEADER WORD POINTED TO BY THE OUT POINTER IN THE * PSEUDO FET. * * ENTRY - * * (FEI) = FRONT END TABLE ADDRESS, * (FET-FET+1) = BASE ADDRESS FOR FET TABLES, * (FTO) = CURRENT FET OFFSET. * * EXIT - * * (A) = ZERO IF OUTPUT UNAVAILABLE OR * RELATIVE ADDRESS OF OUTPUT BUFFER, * (FBA-FBA+1) = RELATIVE ADDRESS OF OUTPUT BUFFER. * * ERROR EXITS - * * EXIT TO *ERROR* IF INVALID BUFFER LINK. * * CALLS - * * GCTA - GET RELATIVE ADDRESS OF CURRENT FET, * TFL - FORM ABSOLUTE CENTRAL ADDRESS. * * USES - * * T0-T0+4 = OUT POINTER WORD FROM FET, * T5-T5+4 = IN POINTER WORD FROM FET, * T12-T12+4 = FIRST POINTER WORD FROM FET, * T5 = ADDRESS OF DATA POINTER, ** T0-T0+4 = BUFFER LINK POINTER WORD. CIOA SUBR ENTRY/EXIT LDN /NAM/W.NBTOP DELTA FOR OUTPOINTER WORD FROM FET RJM GCTA EXIT TO GET CURRENT OUT POINTER ADDRESS CRD T0 READ OUT POINTER WORD FROM FET SBN /NAM/W.NBTOP-/NAM/W.NBTIP DELTA FOR IN POINTER WORD CRD T5 READ IN POINTER WORD FROM FET SBN /NAM/W.NBTIP-/NAM/W.NBTFP DELTA FOR FIRST POINTER WORD CRD T12 READ FIRST POINTER WORD FROM FET LDD T0+/NAM/C.NBTOP LOAD HIGH-ORDER OF OUT DATA POINTER ADD T0+/NAM/C.NBTOP+1 PLUS LOW-ORDER OF OUT DATA POINTER NJN CIOA.3 EXIT IF NOT NULL OUT POINTER LDN T12+/NAM/C.NBTFP LOAD ADDRESS OF FIRST DATA POINTER CIOA.1 STD T5 STORE ADDRESS OF DATA POINTER LDI T5 LOAD HIGH-ORDER OF DATA POINTER STD FBA STORE HIGH-ORDER OF FIRST BUFFER ADDRESS SHN 12 POSITION TO HIGH-ORDER ADM 1,T5 PLUS LOW-ORDER OF DATA POINTER STD FBA+1 STORE LOW-ORDER OF FIRST BUFFER ADDRESS CIOA.2 UJK CIOAX RETURN WITH DATA AVAILABLE INDICATOR CIOA.3 LDD T0+/NAM/C.NBTOP LOAD HIGH-ORDER OF OUT DATA POINTER SBD T5+/NAM/C.NBTIP LESS HIGH-ORDER OF IN DATA POINTER SHN 12 POSITION TO HIGH-ORDER ADD T0+/NAM/C.NBTOP+1 PLUS LOW-ORDER OF OUT DATA POINTER SBD T5+/NAM/C.NBTIP+1 LESS LOW-ORDER OF IN DATA POINTER ZJN CIOA.2 EXIT IF NO OUTPUT DATA AVAILABLE LDD T0+/NAM/C.NBTOP LOAD HIGH-ORDER OF OUT DATA POINTER SHN 12 POSITION TO HIGH-ORDER ADD T0+/NAM/C.NBTOP+1 PLUS LOW-ORDER OF OUT DATA POINTER RJM TFL EXIT TO FORM ABSOLUTE CENTRAL ADDRESS CRD T0 READ POINTER WORD TO NEXT OUTPUT BUFFER LDD T0+/NAM/C.QLK LOAD HIGH-ORDER OF LINKED BUFFER ADDRESS ADD T0+/NAM/C.QLK+1 PLUS LOW-ORDER OF LINKED BUFFER ADDRESS ZJN CIOA.4 EXIT IF NO LINKED BUFFER LDN T0+/NAM/C.QLK LOAD ADDRESS OF NEXT BUFFER POINTER UJK CIOA.1 EXIT TO STORE ADDRESS OF DATA POINTER CIOA.4 EREXIT BLE EXIT TO ERROR ROUTINE - BUFFER LINK ERROR TOT TITLE INPUT/OUTPUT DATA MANAGEMENT SUBROUTINES. TOT SPACE 2,34 ** SUBROUTINE TOT. * * SUBROUTINE TOT TRANSFERS OUTPUT TEXT TO THE FRONT * END. OUTPUT TEXT IS READ FROM THE CENTRAL BUFFER AND * THE OUTPUT CHARACTER PROCESSOR IS CALLED TO PROCESS * THE OUTPUT TEXT. * * ENTRY - * * (NNH+C.BWD+1) = MESSAGE TEXT WORD COUNT, * (NNH+C.MCC) = MESSAGE TEXT CHARACTER COUNT, * (CBA-CBA+1) = ABSOLUTE TEXT BUFFER ADDRESS, * (OCB) = OUTPUT CHARACTERS PER BUFFER, * (OCP) = CHARACTER PROCESSOR ADDRESS, * (REOT) = ZERO. * * PROCESSOR CALLS - * * OUTPUT CHARACTER PROCESSOR. * * USES - * * T10 = OUTPUT MESSAGE TEXT WORD COUNT, * T11 = OUTPUT MESSAGE TEXT CHARACTER COUNT, * T5 = END OF LINE FLAG, * T14 = RESIDUAL ZERO CHARACTER FLAG, * T1 = CENTRAL WORD COUNT, * T1 = LAST TEXT BYTE DISPLACEMENT, * T15 = LAST TEXT BYTE, * T2 = SOURCE DATA CHARACTER COUNT, ** T1 = SOURCE DATA BUFFER ADDRESS. TOT SUBR ENTRY/EXIT LDM NNH+/NAM/C.MCC LOAD MESSAGE TEXT CHARACTER COUNT STD T11 STORE MESSAGE TEXT CHARACTER COUNT LDN 1 CONSTANT OF ONE STD T5 INITIALIZE LAST OPERATION TO END OF LINE LDN 0 CONSTANT OF ZERO STD T14 INITIALIZE RESIDUAL ZERO CHARACTER FLAG LDM NBH+/NAM/C.BWD+1 LOAD MESSAGE TEXT WORD COUNT STD T10 STORE MESSAGE TEXT WORD COUNT TOT.1 ADC -L.DBCM LESS DRIVER BUFFER LENGTH IN WORDS PJN TOT.2 EXIT IF PARTIAL TRANSFER LJM TOT.8 EXIT TO STORE CENTRAL WORD COUNT TOT.2 STD T10 STORE RESIDUAL MESSAGE TEXT WORD COUNT ZJN TOT.3 EXIT IF EXACT MESSAGE FIT LDD T11 LOAD RESIDUAL MESSAGE TEXT CHARACTER COUNT SBD OCB LESS CHARACTERS PER DRIVER BUFFER STD T11 STORE RESIDUAL MESSAGE TEXT CHARACTER COUNT TOT.3 LDC L.DBCM LOAD DRIVER BUFFER LENGTH IN WORDS STD T1 STORE CENTRAL WORD COUNT TOT.4 LDD CBA LOAD HIGH-ORDER OF ABSOLUTE BUFFER ADDRESS SHN 12 POSITION TO HIGH-ORDER ADD CBA+1 PLUS LOW-ORDER OF ABSOLUTE BUFFER ADDRESS CRM DRBUF,T1 READ MESSAGE TEXT FROM CENTRAL BUFFER STD CBA+1 STORE LOW-ORDER OF ABSOLUTE BUFFER ADDRESS SHN -12 POSITION HIGH-ORDER OF ADDRESS STD CBA STORE HIGH-ORDER OF ABSOLUTE BUFFER ADDRESS LDD T1 LOAD CENTRAL WORD COUNT SHN 2 CENTRAL WORD COUNT TIMES FOUR RAD T1 CENTRAL WORD COUNT TIMES FIVE LDM DRBUF-1,T1 LOAD LAST MESSAGE TEXT BYTE STD T15 STORE LAST MESSAGE TEXT BYTE LDD T10 LOAD RESIDUAL MESSAGE TEXT WORD COUNT ZJN TOT.7 EXIT IF LAST PORTION OF TRANSFER LDD OCB LOAD CHARACTERS PER DRIVER BUFFER TOT.5 STD T2 STORE SOURCE DATA CHARACTER COUNT LDC DRBUF LOAD ADDRESS OF DRIVER BUFFER STD T1 STORE SOURCE DATA BUFFER ADDRESS RJM 0,OCP EXIT TO OUTPUT CHARACTER PROCESSOR LDD T10 LOAD RESIDUAL MESSAGE TEXT WORD COUNT NJN TOT.6 EXIT IF MORE DATA TO TRANSFER UJK TOTX RETURN TOT.6 UJK TOT.1 EXIT TO GET NEXT DATA TEXT TOT.7 AOD REOT SET END OF TRANSFER REQUESTED LDD T11 LOAD RESIDUAL MESSAGE TEXT CHARACTER COUNT UJK TOT.5 EXIT TO STORE SOURCE DATA CHARACTER COUNT TOT.8 LDD T10 LOAD RESIDUAL MESSAGE TEXT WORD COUNT STD T1 STORE CENTRAL WORD COUNT LDN 0 CONSTANT OF ZERO STD T10 ZERO RESIDUAL MESSAGE TEXT WORD COUNT UJK TOT.4 EXIT TO READ TEXT FROM CENTRAL BUFFER TDCI TITLE IVT OUTPUT CHARACTER PROCESSORS. TDCI SPACE 2,42 ** SUBROUTINE TDCI. * * SUBROUTINE TDCI PROCESSES DISPLAY CODE DATA THAT IS * TO BE TRANSFERRED TO THE NPU. THE DISPLAY CODE SOURCE * DATA IS TRANSLATED INTO *ASCII* CODE AS REQUIRED FOR * THE IVT FORMAT. * * ENTRY - * * (T14) = RESIDUAL ZERO CHARACTER FLAG (0 = NO), * (T2) = SOURCE DATA CHARACTER COUNT, * (T1) = SOURCE DATA STARTING ADDRESS, * (REOT) = REQUEST END OF TRANSFER FLAG (1 = EOT), * (T15) = LAST TEXT BYTE, * (T5) = END OF LINE FLAG (0 = NOT END OF LINE). * * EXIT - * * (T14) = RESIDUAL ZERO CHARACTER FLAG (0 = NO), * (T5) = END OF LINE FLAG (0 = NOT END OF LINE). * * MACRO CALLS - * * CLIO - CALL LOGICAL INPUT/OUTPUT INTERFACE. * * * PROCESSOR CALLS - * * SPECIAL OUTPUT CHARACTER PROCESSOR. * * USES - * * T5 = LAST OPERATION FLAG (0 = NOT END OF LINE), * T4 = CENTRAL MEMORY WORD OFFSET, * T6 = DISPLAY CODE SOURCE CHARACTER, * T3 = OUTPUT DATA CHARACTER, * T6 = CHARACTER PROCESSOR TABLE ADDRESS, ** T6 = CHARACTER PROCESSOR ADDRESS. TDCI SUBR ENTRY/EXIT LDD T14 LOAD RESIDUAL ZERO CHARACTER FLAG ZJN TDCI.1 EXIT IF NO RESIDUAL ZERO CHARACTER AOD T2 INCREMENT SOURCE DATA CHARACTER COUNT SOD T1 DECREMENT SOURCE DATA STARTING ADDRESS LDN 0 CONSTANT OF ZERO STI T1 STORE RESIDUAL ZERO CHARACTER LDN 9 CONSTANT OF NINE TDCI.1 STD T4 INITIALIZE CENTRAL MEMORY WORD OFFSET LDD REOT LOAD REQUEST END OF TRANSFER FLAG NJN TDCI.6 EXIT IF END OF TRANSFER REQUESTED LDD T15 LOAD LAST TEXT BYTE ZJN TDCI.2 EXIT IF NOT RESIDUAL ZERO CHARACTER LPN 77B EXTRACT LAST TEXT CHARACTER NJN TDCI.6 EXIT IF NOT RESIDUAL ZERO CHARACTER SOD T2 DECREMENT SOURCE DATA CHARACTER COUNT TDCI.2 STD T14 SET RESIDUAL ZERO CHARACTER FLAG LDD T4 LOAD CENTRAL MEMORY WORD OFFSET TDCI.3 LPN 1 EXTRACT RIGHT CHARACTER FLAG NJN TDCI.7 EXIT IF RIGHT CHARACTER NEXT LDI T1 LOAD NEXT DISPLAY CODE SOURCE BYTE SHN -6 POSITION NEXT DISPLAY CODE SOURCE CHARACTER TDCI.4 STD T6 STORE NEXT DISPLAY CODE SOURCE CHARACTER LDM ASCII,T6 LOAD EQUIVALENT TRANSLATION TABLE BYTE STD T3 STORE TRANSLATION TABLE CONTROL BYTE SHN -8 POSITION PROCESSOR ORDINAL TO LOW-ORDER NJN TDCI.8 EXIT IF SPECIAL CHARACTER PROCESSOR STD T5 LAST OPERATION TO NOT END OF LINE TDCI.5 SOD T2 DECREMENT SOURCE DATA CHARACTER COUNT NJN TDCI.9 EXIT IF NOT END OF SOURCE DATA CLIO FEEC TRANSFER ENDING DATA CHARACTER UJK TDCIX RETURN TDCI.6 LDN 0 CONSTANT OF ZERO UJK TDCI.2 EXIT TO SET RESIDUAL ZERO CHARACTER FLAG TDCI.7 LDI T1 LOAD NEXT DISPLAY CODE SOURCE BYTE LPN 77B EXTRACT NEXT DISPLAY CODE SOURCE CHARACTER UJK TDCI.4 EXIT TO STORE DISPLAY CODE SOURCE CHARACTER TDCI.8 ADC SCP-1 PLUS ADDRESS OF CHARACTER PROCESSOR TABLE STD T6 STORE CHARACTER PROCESSOR TABLE ADDRESS LDI T6 LOAD ADDRESS OF CHARACTER PROCESSOR STD T6 STORE ADDRESS OF CHARACTER PROCESSOR RJM 0,T6 EXIT TO SPECIAL CHARACTER PROCESSOR UJK TDCI.5 EXIT TO OUTPUT NEXT CHARACTER TDCI.9 CLIO FEOC OUTPUT NEXT DATA CHARACTER LDD T4 LOAD CENTRAL MEMORY WORD OFFSET LPN 1 EXTRACT RIGHT CHARACTER FLAG NJN TDCI.12 EXIT IF RIGHT CHARACTER TDCI.10 AOD T4 INCREMENT CENTRAL MEMORY WORD OFFSET TDCI.11 UJK TDCI.3 EXIT TO PROCESS NEXT SOURCE CHARACTER TDCI.12 AOD T1 INCREMENT SOURCE DATA ADDRESS LDD T4 LOAD CENTRAL MEMORY WORD OFFSET LMN 9 LESS ENDING VALUE NJN TDCI.10 EXIT IF NOT END OF CENTRAL MEMORY WORD STD T4 RESET CENTRAL MEMORY WORD OFFSET UJK TDCI.11 EXIT TO PROCESS NEXT SOURCE CHARACTER CEOL TITLE SPECIAL CHARACTER PROCESSORS. CEOL SPACE 2,30 ** SPECIAL CHARACTER PROCESSOR CEOL. * * SPECIAL CHARACTER PROCESSOR CEOL CHECKS FOR THE END OF * THE CURRENT SOURCE LINE. IF THE LAST OPERATION ON THE * STREAM WAS END OF LINE AND FORMAT EFFECTORS ARE IN * EFFECT, END OF SOURCE LINE CHECKING IS NOT DONE. * * ENTRY - * * (T5) = LAST OPERATION FLAG (1 = EOL), * (DBH+DBC) = DATA BLOCK CLARIFIER, * (T3) = TRANLATION TABLE CONTROL BYTE, * (T1) = CURRENT SOURCE DATA ADDRESS, * (T4) = CURRENT CENTRAL MEMORY OFFSET. * * EXIT - * * (T3) = OUTPUT DATA CHARACTER, * (T5) = SET BASED UPON END OF LINE RESULT, * (T1) = UPDATED IF END OF LINE, * (T4) = UPDATED IF END OF LINE. * * CALLS - * ** CESL - CHECK FOR END OF SOURCE LINE. CEOL SUBR ENTRY/EXIT LDD T5 LOAD LAST OPERATION FLAG BYTE ZJN CEOL.3 EXIT IF LAST OPERATION NOT END OF LINE LDM DHB+/BLOCK/DBC LOAD DATA BLOCK CLARIFIER SHN 17-/BLOCK/S.FE POSITION FORMAT EFFECTOR FLAG TO SIGN MJN CEOL.3 EXIT IF FORMAT EFFECTOR NOT IN EFFECT CEOL.1 LDN 0 CONSTANT OF ZERO STD T5 SET LAST OPERATION NOT END OF LINE LDD T3 LOAD TRANSLATION TABLE CONTROL BYTE LPC 377B EXTRACT EQUIVALENT OUTPUT CHARACTER CEOL.2 STD T3 STORE OUTPUT DATA CHARACTER UJK CEOLX RETURN CEOL.3 RJM /2IM/CESL EXIT TO CHECK FOR END OF SOURCE LINE NJN CEOL.1 EXIT IF NOT END OF SOURCE LINE LDD T7 LOAD ADDRESS OF END OF SOURCE LINE STD T1 STORE CURRENT SOURCE DATA ADDRESS LDD T2 LOAD REMAINING CHARACTER COUNT SBD T0 LESS SCAN CHARACTER COUNT STD T2 STORE REMAINING CHARACTER COUNT LDN 9 LOAD END OF CENTRAL MEMORY WORD OFFSET STD T4 STORE CURRENT CENTRAL MEMORY WORD OFFSET LDN .EOL LOAD END OF LINE OUTPUT CHARACTER STD T5 SET END OF LINE AS LAST OPERATION UJK CEOL.2 EXIT TO STORE OUTPUT DATA CHARACTER UPD SPACE 2,26 QUAL 2IM ** SUBROUTINE UPD. * * SUBROUTINE UPD UNPACKS A SOURCE CHARACTER STRING OF * CONSECUTIVE EIGHT BIT CHARACTERS INTO A STRING OF * SINGLE EIGHT BIT CHARACTERS. THE SUBROUTINE ITERATES * ON THREE SOURCE CHARACTERS. * * ENTRY - * * (A) = SOURCE DATA CHARACTER COUNT, * (T1) = SOURCE DATA ADDRESS, * (T2) = DESTINATION DATA ADDRESS. * * USES - * ** T0 = SOURCE DATA CHARACTER COUNT. UPD SUBR ENTRY/EXIT STD T0 STORE SOURCE DATA CHARACTER COUNT UPD.1 LDI T1 LOAD NEXT SOURCE BYTE SHN -4 POSITION NEXT SOURCE CHARACTER STI T2 STORE NEXT DATA CHARACTER SOD T0 DECREMENT SOURCE DATA CHARACTER COUNT ZJN UPDX RETURN IF END OF SOURCE DATA AOD T2 INCREMENT DESTINATION DATA ADDRESS LDI T1 LOAD NEXT SOURCE BYTE LPN 0#F EXTRACT HIGH-ORDER OF NEXT DATA CHARACTER SHN 4 POSITION HIGH-ORDER OF NEXT DATA CHARACTER STI T2 STORE HIGH-ORDER OF NEXT DATA CHARACTER AOD T1 INCREMENT SOURCE DATA ADDRESS LDI T1 LOAD NEXT SOURCE BYTE SHN -8 POSITION LOW-ORDER OF NEXT DATA CHARACTER RAI T2 ADD TO HIGH-ORDER OF DATA CHARACTER SOD T0 DECREMENT SOURCE DATA CHARACTER COUNT ZJN UPDX RETURN IF END OF SOURCE DATA AOD T2 INCREMENT DESTINATION DATA ADDRESS LDI T1 LOAD NEXT SOURCE BYTE LPC 0#FF EXTRACT NEXT SOURCE CHARACTER STI T2 STORE NEXT DATA CHARACTER SOD T0 DECREMENT SOURCE DATA CHARACTER COUNT ZJN UPDX RETURN IF END OF SOURCE DATA AOD T1 INCREMENT SOURCE DATA ADDRESS AOD T2 INCREMENT DESTINATION DATA ADDRESS UJK UPD.1 EXIT TO PROCESS NEXT SOURCE BYTE QUAL CESL SPACE 2,32 QUAL 2IM ** SUBROUTINE CESL. * * SUBROUTINE CESL CHECKS FOR THE END OF THE SOURCE LINE. * END OF SOURCE LINE IS DEFINED AS FROM 12 TO 66 BITS OF * BINARY ZERO RIGHT JUSTIFIED ON A CENTRAL MEMORY WORD * BOUNDARY. THE TECHNIQUE USED IS TO SCAN FROM THE * CURRENT POSITION TO THE APPROPRIATE CENTRAL MEMORY * WORD BOUNDARY FOR A NON-ZERO SOURCE CHARACTER. END OF * SOURCE DATA IS DEFINED TO BE EQUIVALENT TO A CENTRAL * MEMORY WORD BOUNDARY. * * ENTRY - * * (T4) = CURRENT CENTRAL MEMORY WORD OFFSET, * (T1) = CURRENT SOURCE DATA ADDRESS, * (T2) = REMAINING SOURCE CHARACTER COUNT. * * EXIT - * * (A) = ZERO IF END OF SOURCE LINE, * (T0) = CHARACTER COUNT OF SCAN, * (T7) = ADDRESS OF END OF SOURCE LINE. * * USES - * ** T6 = SCAN ADDRESS. CESL SUBR ENTRY/EXIT LDD T4 LOAD CENTRAL MEMORY WORD OFFSET LPN 1 EXTRACT RIGHT CHARACTER FLAG ADD T1 PLUS CURRENT SOURCE DATA ADDRESS STD T6 STORE STARTING SCAN ADDRESS LDN 9 MAXIMUM CENTRAL MEMORY WORD OFFSET SBD T4 LESS CURRENT CENTRAL MEMORY WORD OFFSET NJN CESL.1 EXIT IF NOT CENTRAL MEMORY WORD BOUNDARY LDN 5S1 DISPLACEMENT FOR NEXT CENTRAL MEMORY WORD CESL.1 STD T0 STORE CHARACTER COUNT OF SCAN SHN -1 DIVIDED BY TWO FOR BYTE DISPLACEMENT STD T7 STORE BYTE COUNT FOR SCAN LDD T2 LOAD REMAINING SOURCE CHARACTER COUNT SHN -1 DIVIDED BY TWO FOR BYTE DISPLACEMENT SBD T7 LESS BYTE COUNT FOR SCAN PJN CESL.2 EXIT IF SUFFICIENT SOURCE DATA FOR SCAN LDD T2 LOAD REMAINING SOURCE CHARACTER COUNT SBN 1 LESS ONE STD T0 STORE CHARACTER COUNT OF SCAN SHN -1 DIVIDED BY TWO FOR BYTE DISPLACEMENT STD T7 STORE BYTE COUNT FOR SCAN CESL.2 LDD T1 LOAD CURRENT SOURCE DATA ADDRESS RAD T7 ADD TO BYTE COUNT FOR SCAN CESL.3 LDI T6 LOAD NEXT SOURCE DATA BYTE NJN CESLX RETURN IF SOURCE DATA NOT EQUAL TO ZERO LDD T6 LOAD CURRENT SCAN ADDRESS LMD T7 LESS ENDING SCAN ADDRESS ZJN CESLX RETURN IF END OF SCAN AOD T6 INCREMENT SCAN ADDRESS UJK CESL.3 EXIT TO TEST NEXT SOURCE DATA BYTE QUAL SCP TITLE DISPLAY CODE TO *ASCII* TRANSLATION TABLE, 64 CS. SCP SPACE 2,12 ** SPECIAL CHARACTER PROCESSOR TABLES. * * THE SPECIAL CHARACTER PROCESSOR TABLE CONTAINS AN * ENTRY FOR EACH SPECIAL CHARACTER PROCESSOR USED IN * THE TRANSLATION TABLE. THE CONTENTS OF AN ENTRY IS ** THE ADDRESS OF THE SPECIAL CHARACTER PROCESSOR. SCP BSS 0 SPECIAL CHARACTER PROCESSOR TABLE LOC 1 EOL CON CEOL END OF LINE (CHECK FOR END OF LINE) .LAST SET *-1 LOC SCP+.LAST ASCII SPACE 2,16 ** DISPLAY CODE TO *ASCII* TRANSLATION TABLE. * * THE DISPLAY CODE TO *ASCII* TRANSLATION TABLE IS USED * BY THE DRIVER TO CONVERT OUTBOUND DISPLAY CODE DATA TO * *ASCII* CODE REQUIRED FOR IVT FORMAT. THE TABLE IS ** INDEXED BY THE DISPLAY CODE CHARACTER VALUE. ASCII BSS 0 DISPLAY CODE TO *ASCII* CODE TABLE LOC 0 00 ASCII 3A,EOL CL COLON (POSSIBLE END OF LINE) 01 ASCII 41 A 02 ASCII 42 B 03 ASCII 43 C 04 ASCII 44 D 05 ASCII 45 E 06 ASCII 46 F 07 ASCII 47 G 10 ASCII 48 H 11 ASCII 49 I 12 ASCII 4A J 13 ASCII 4B K 14 ASCII 4C L 15 ASCII 4D M 16 ASCII 4E N 17 ASCII 4F O 20 ASCII 50 P 21 ASCII 51 Q 22 ASCII 52 R 23 ASCII 53 S 24 ASCII 54 T 25 ASCII 55 U 26 ASCII 56 V 27 ASCII 57 W 30 ASCII 58 X 31 ASCII 59 Y 32 ASCII 5A Z 33 ASCII 30 0 34 ASCII 31 1 35 ASCII 32 2 36 ASCII 33 3 37 ASCII 34 4 40 ASCII 35 5 41 ASCII 36 6 42 ASCII 37 7 43 ASCII 38 8 44 ASCII 39 9 45 ASCII 2B PL PLUS 46 ASCII 2D MI MINUS (HYPHEN) 47 ASCII 2A AS ASTERISK 50 ASCII 2F SL SLANT 51 ASCII 28 OP OPENING PARENTHESIS 52 ASCII 29 CP CLOSING PARENTHS 53 ASCII 24 DS DOLLAR SIGN 54 ASCII 3D EQ EQUALS 55 ASCII 20 SP SPACE 56 ASCII 2C CM COMMA (CEDILLA) 57 ASCII 2E PD PERIOD (DECIMAL POINT) 60 ASCII 23 NM NUMBER SIGN 61 ASCII 5B OB OPENING BRACKET 62 ASCII 5D CB CLOSING BRACKET 63 ASCII 25 PC PERCENT 64 ASCII 22 DQ DOUBLE QUOTE (DIARESIS) 65 ASCII 5F UL UNDERLINE 66 ASCII 21 EX EXCLAMATION POINT 67 ASCII 26 AM AMPERSAND 70 ASCII 27 AP APOSTROPHE 71 ASCII 3F QM QUESTION MARK 72 ASCII 3C LT LESS THAN 73 ASCII 3E GT GREATER THAN 74 ASCII 40 AT COMMERCIAL AT 75 ASCII 5C RVS REVERSE SLANT 76 ASCII 5E CF CIRCUMFLEX 77 ASCII 3B SC SEMICOLON .LAST SET * LOC ASCII+.LAST TTOA SPACE 2,6 * DEFINE REFERENCE TO TRANSLATION TABLE OVERLAY ADDRESS. TTOA EQU 5*O.OVL+3 OFFSET FOR OVERLAY ADDRESS ."O.N" EQU * OVERLAY F=TRANS,T1=(SUPPORT PROCESSORS),T2=(DRIVER SUPPORT PRO ,CESSORS) LINKS SPACE 2,6 * RESET LINKS. .ERROR SET 0 .EOVPX SET 0 PPOD SPACE 2,32 ** DRIVER SUPPORT PROCESSOR PPOD. * * DRIVER SUPPORT PROCESSOR PPOD PROCESSES PRU OUTPUT * DATA. THE OUTPUT PARAMETERS ARE INITIALIZED AND AN * ATTEMPT IS MADE TO TRANSFER THE OUTPUT BLOCK TO THE * NPU. * * ENTRY - * * (AAC) = APPLICATION TO APPLICATION FLAG. * * ERROR EXITS - * * EXIT TO *ERROR* IF DRIVER QUEUING ERROR, * EXIT TO *ERROR* IF FILE MODE ERROR. * * CALLS - * * RPCB -READ WORD FROM PCB, * TFL - FORM ABSOLUTE CENTRAL ADDRESS, * EOVP - EXECUTE OUTPUT VALIDATION PROCESSOR, * CEH - TRANSFER OUTPUT TO NPU. * * PROCESSOR CALLS - * ** OUTPUT VALIDATION PROCESSOR. PPOD LINK ENTRY LDD AAC LOAD APPLICATION TO APPLICATION FLAG NJN PPOD.2 EXIT IF APPLICATION TO APPLICATION LDC /BLOCK/B.PRU *PRU DATA FLAG* STM PPOD.5+1 PLUG IN VARIABLE FIELD OF ADC INSTRUCTION LDN /NAM/W.PCBPS1 PRU STREAM PARAMETER ONE WORD ORDINAL RJM RPCB EXIT TO READ PRU PARAMETER WORD FROM PCB LDD T10+/NAM/C.PCBFP LOAD PRU FILE PARAMETER BYTE LPN /NAM/L.PCBFM EXTRACT FILE MODE PPOD.1 STD T17 STORE FILE MODE LDN /NAM/W.PCBPS2 PRU STREAM PARAMETER TWO WORD ORDINAL RJM RPCB EXIT TO READ PRU PARAMETER WORD FROM PCB LDD T10+/NAM/C.PCBCDB LOAD HIGH-ORDER OF CURRENT BUFFER STD FBA STORE HIGH-ORDER OF BUFFER ADDRESS SHN 12 POSITION TO HIGH-ORDER ADD T10+/NAM/C.PCBCDB+1 PLUS LOW-ORDER OF CURRENT BUFFER STD FBA+1 STORE LOW-ORDER OF BUFFER ADDRESS NJN PPOD.3 EXIT IF DATA BUFFER QUEUED EREXIT DQE EXIT TO ERROR - DRIVER QUEUING ERROR PPOD.2 LDC /BLOCK/B.PRU+/BLOCK/B.EBD *PRU DATA AND 8-BIT XPARENT* STM PPOD.5+1 PLUG IN VARIABLE FIELD OF ADC INSTRUCTION LDN /TABLES/P8B-/TABLES/PCT PACKED EIGHT BIT DATA UJK PPOD.1 EXIT TO STORE FILE MODE PPOD.3 ADN W.PROUT DELTA FOR OUT DATA POINTER WORD RJM TFL EXIT TO FORM ABSOLUTE CENTRAL ADDRESS CRD T0 READ OUT DATA POINTER WORD SBN W.PROUT-W.PRIN DELTA FOR IN DATA POINTER WORD CRD T5 READ IN DATA POINTER WORD SBN W.PRIN-W.PRFS DELTA FOR FILE STATUS WORD CRD T12 READ FILE STATUS WORD LDD T5+C.PRUIP LOAD HIGH-ORDER OF IN DATA POINTER SBD T0+C.PRUOP LESS HIGH-ORDER OF OUT DATA POINTER SHN 12 POSITION TO HIGH-ORDER ADD T5+C.PRUIP+1 PLUS HIGH-ORDER OF IN DATA POINTER SBD T0+C.PRUOP+1 LESS HIGH-ORDER OF OUT DATA POINTER STM NBH+/NAM/C.BWD+1 STORE DATA LENGTH IN CENTRAL WORDS STD T7 STORE CENTRAL WORD COUNT LDD T12+C.FSB+1 LOAD LOW-ORDER OF FILE STATUS BYTE SHN -9 POSITION EOI FLAG TO LOW-ORDER NJN PPOD.7 EXIT IF EOI READ LDD T12+C.FSB+1 LOAD LOW-ORDER OF FILE STATUS LPN 20B EXTRACT END OF FILE/END OF RECORD STATUS ZJN PPOD.5 EXIT IF NOT END OF FILE OR RECORD LDD T12+C.FSB+1 LOAD LOW-ORDER OF FILE STATUS LPN 10B EXTRACT END OF FILE STATUS ZJN PPOD.8 EXIT IF NOT END OF FILE LDN 17B LOAD END OF FILE LEVEL NUMBER PPOD.4 ADN /BLOCK/B.EOR PLUS EOR FLAG PPOD.5 ADC /BLOCK/B.PRU PLUS PRU DATA BLOCK FLAG STM DHB+/BLOCK/DBC STORE DATA BLOCK CLARIFIER LDD T0+C.PRUOP LOAD HIGH-ORDER OF OUT DATA POINTER SHN 12 POSITION TO HIGH-ORDER ADD T0+C.PRUOP+1 PLUS LOW-ORDER OF OUT DATA POINTER ADD T7 PLUS CENTRAL WORD COUNT RJM TFL EXIT TO FORM ABSOLUTE CENTRAL ADDRESS SBD T7 LESS CENTRAL WORD COUNT STD CBA+1 STORE LOW-ORDER OF ABSOLUTE BUFFER ADDRESS SHN -12 POSITION HIGH-ORDER OF ADDRESSS STD CBA STORE HIGH-ORDER OF ABSOLUTE BUFFER ADDRESS PPOD.6 LINK ENTRY LDN /TABLES/PCT LOAD OFFSET FOR PRU OUTPUT TABLE ADD T17 PLUS FILE MODE RJM EOVP EXIT TO EXECUTE OUTPUT VALIDATION PROCESSOR ZJN PPOD.9 EXIT IF INVALID OUTPUT REQUEST LDN /BLOCK/MSG LOAD MESSAGE BLOCK TYPE UJK /STATES/SOPC.3 EXIT TO TRANSFER OUTPUT TO NPU PPOD.7 LDC /BLOCK/B.EOI LOAD END OF INFORMATION FLAG UJK PPOD.5 EXIT TO ADD PRU DATA BLOCK FLAG PPOD.8 LDD T12+C.FSB LOAD HIGH-ORDER OF FILE STATUS SHN -2 POSITION LEVEL NUMBER TO LOW-ORDER LPN 17B EXTRACT LEVEL NUMBER UJK PPOD.4 EXIT TO ADD EOR FLAG PPOD.9 EREXIT OME EXIT TO ERROR - OUTPUT MODE ERROR POC TITLE PRU OUTPUT CONTROL SUBROUTINE. POC SPACE 2,48 ** SUBROUTINE POC. * * SUBROUTINE POC CONTROLS THE TRANSFER OF PRU OUTPUT DATA * TO THE FRONT END. IF THE CONNECTION IS AN APPLICATION * TO APPLICATION CONNECTION THE LEVEL SEVEN DATA HEADER * IS TRANSFERRED TO THE FRONT END. THE FILE CONTROL * PARAMETERS ARE RETRIEVED FROM THE PCB AND STORED. THE * OUTPUT TEXT IS READ FROM THE CENTRAL BUFFERS AND THE * OUTPUT CHARACTER PROCESSOR IS CALLED TO PROCESS THE * OUTPUT TEXT. AT THE COMPLETION OF THE TRANSFER THE * FILE CONTROL PARAMETERS ARE RETURNED TO THE PCB. * * ENTRY - * * (AAC) = APPLICATION TO APPLICATION FLAG, * (NNH+C.BWD+1) = OUTPUT TEXT WORD COUNT, * (NNH+C.MCC) = OUTPUT TEXT CHARACTER COUNT, * (CBA-CBA+1) = ABSOLUTE TEXT BUFFER ADDRESS, * (OCB) = OUTPUT CHARACTERS PER BUFFER, * (OCP) = CHARACTER PROCESSOR ADDRESS, * (REOT) = ZERO. * * CALLS - * * RPCB - READ WORD FROM PCB, * TTBF - TRANSFER TWELVE BIT FORMATTED DATA, * RSPB - READ AND STORE ADDRESS OF CPB WORD, * WCMW - WRITE WORD TO PCB. * * PROCESSOR CALLS - * * OUTPUT CHARACTER PROCESSOR. * * USES - * * T17 = FILE CONTROL FLAGS, * T10 = OUTPUT MESSAGE TEXT WORD COUNT, * T11 = OUTPUT MESSAGE TEXT CHARACTER COUNT, * T1 = CENTRAL WORD COUNT, * T1 = LAST TEXT BYTE DISPLACEMENT, * T15 = LAST TEXT BYTE, * T2 = SOURCE DATA CHARACTER COUNT, ** T1 = SOURCE DATA BUFFER ADDRESS. POC SUBR ENTRY/EXIT LDD AAC LOAD APPLICATION TO APPLICATION FLAG ZJN POC.1 EXIT IF NOT APPLICATION TO APPLICATION LJM POC.15 EXIT TO TRANSFER LEVEL SEVEN HEADER TO NPU POC.1 LDM NNH+/NAM/C.MCC LOAD MESSAGE TEXT CHARACTER COUNT ZJN POCX RETURN IF NO MESSAGE TEXT POC.1A LDN /NAM/W.PCBPS1 PRU STREAM PARAMETER ONE WORD ORDINAL RJM RPCB EXIT TO READ PRU PARAMETER WORD FROM PCB ADN /NAM/W.PCBPS8-/NAM/W.PCBPS1 DELTA TO PARAM WORD 8 CRD T0 READ PARAM WORD EIGHT FROM PCNB LDD T0+/NAM/C.PCBOSC LOAD OUTSTANDING SPACES COUNT STM OSC STORE PREVIOUS O/S SPACES COUNT LDD T10+/NAM/C.PCBFP LOAD PRU FILE PARAMETER BYTE SHN 17-/NAM/S.PCBFNL POSITION FORCE NEW LINE FLAG TO SIGN PJN POC.2 EXIT IF NOT FORCE NEW LINE LDC 0#FF LOAD END OF LINE CHARACTER STD T10 STORE OUTPUT DATA CHARACTER LDN T10 LOAD ADDRESS OF OUTPUT CHARACTER STD T1 STORE STARTING BUFFER ADDRESS LDN 1 LOAD COUNT OF OUTPUT CHARACTERS STD T2 STORE OUTPUT TEXT CHARACTER COUNT RJM TTBF EXIT TO TRANSFER NEW LINE CHARACTER POC.2 LDD T10+/NAM/C.PCBFP LOAD PRU FILE PARAMETER BYTE LPN /NAM/B.PCBEOL&/NAM/B.PCBLOC EXTRACT FILE CONTROL FLAGS SHN 18-/NAM/S.PCBEOL END OF LINE FLAG TO LOW-ORDER STD T5 STORE LAST OPERATION FLAG SHN /NAM/S.PCBEOL-/NAM/S.PCBLOC-18 RESIDUAL ZERO FLAG STD T14 STORE RESIDUAL ZERO CHARACTER FLAG LDM NNH+/NAM/C.MCC LOAD MESSAGE TEXT CHARACTER COUNT STD T11 STORE MESSAGE TEXT CHARACTER COUNT LDM NBH+/NAM/C.BWD+1 LOAD MESSAGE TEXT WORD COUNT STD T10 STORE MESSAGE TEXT WORD COUNT POC.3 ADC -L.DBCM LESS DRIVER BUFFER LENGTH IN WORDS PJN POC.4 EXIT IF PARTIAL TRANSFER LJM POC.9 EXIT TO STORE CENTRAL WORD COUNT POC.4 STD T10 STORE RESIDUAL MESSAGE TEXT WORD COUNT ZJN POC.5 EXIT IF EXACT MESSAGE FIT LDD T11 LOAD RESIDUAL MESSAGE TEXT CHARACTER COUNT SBD OCB LESS CHARACTERS PER DRIVER BUFFER STD T11 STORE RESIDUAL MESSAGE TEXT CHARACTER COUNT POC.5 LDC L.DBCM LOAD DRIVER BUFFER LENGTH IN WORDS STD T1 STORE CENTRAL WORD COUNT POC.6 LDD CBA LOAD HIGH-ORDER OF ABSOLUTE BUFFER ADDRESS SHN 12 POSITION TO HIGH-ORDER ADD CBA+1 PLUS LOW-ORDER OF ABSOLUTE BUFFER ADDRESS CRM DRBUF,T1 READ MESSAGE TEXT FROM CENTRAL BUFFER STD CBA+1 STORE LOW-ORDER OF ABSOLUTE BUFFER ADDRESS SHN -12 POSITION HIGH-ORDER OF ADDRESS STD CBA STORE HIGH-ORDER OF ABSOLUTE BUFFER ADDRESS LDD T1 LOAD CENTRAL WORD COUNT SHN 2 CENTRAL WORD COUNT TIMES FOUR RAD T1 CENTRAL WORD COUNT TIMES FIVE LDM DRBUF-1,T1 LOAD LAST MESSAGE TEXT BYTE STD T15 STORE LAST MESSAGE TEXT BYTE LDD AAC LOAD APPLICATION TO APPLICATION FLAG ZJN POC.6A EXIT NOT A-A TRANSFER LDD T10 LOAD RESIDUAL MESSAGE TEXT WORD COUNT NJN POC.6A EXIT IF NOT LAST TRANSFER THIS BUFFER LDM UBC LOAD UNUSED BIT COUNT ZJN POC.6A EXIT NO UNUSED BITS LDM DHB+/BLOCK/DBC LOAD DATA BLOCK CLARIFIER LPC /BLOCK/B.EOI+/BLOCK/B.EOR EXTRACT EOR/EOI BITS ZJN POC.6A EXIT NOT EOR OR EOF BLOCK LDD T15 LOAD LAST MESSAGE TEXT BYTE SCN 17B CLEAR BOTTOM 4 BITS STM DRBUF-1,T1 STORE LAST BYTE BACK IN BUFFER POC.6A LDD T10 LOAD RESIDUAL MESSAGE TEXT WORD COUNT ZJN POC.8 EXIT IF LAST PORTION OF TRANSFER LDD OCB LOAD CHARACTERS PER DRIVER BUFFER POC.7 STD T2 STORE SOURCE DATA CHARACTER COUNT LDC DRBUF LOAD ADDRESS OF DRIVER BUFFER STD T1 STORE SOURCE DATA BUFFER ADDRESS RJM 0,OCP EXIT TO OUTPUT CHARACTER PROCESSOR LDD T10 LOAD RESIDUAL MESSAGE TEXT WORD COUNT ZJN POC.10 EXIT IF NO MORE DATA TO TRANSFER UJK POC.3 EXIT TO GET NEXT DATA TEXT POC.8 AOD REOT SET END OF TRANSFER REQUESTED LDD T11 LOAD RESIDUAL MESSAGE TEXT CHARACTER COUNT UJK POC.7 EXIT TO STORE SOURCE DATA CHARACTER COUNT POC.9 LDD T10 LOAD RESIDUAL MESSAGE TEXT WORD COUNT STD T1 STORE CENTRAL WORD COUNT LDN 0 CONSTANT OF ZERO STD T10 ZERO RESIDUAL MESSAGE TEXT WORD COUNT UJK POC.6 EXIT TO READ TEXT FROM CENTRAL BUFFER POC.10 LDD T14 LOAD RESIDUAL ZERO CHARACTER FLAG ZJN POC.11 EXIT IF NO RESIDUAL ZERO CHARACTER LDN /NAM/B.PCBLOC LOAD RESIDUAL ZERO CHARACTER FLAG POC.11 STD T17 STORE RESIDUAL ZERO CHARACTER FLAG LDD T5 LOAD LAST OPERATION FLAG ZJN POC.12 EXIT IF LAST OPERATION NOT END OF LINE LDN /NAM/B.PCBEOL LOAD END OF LINE FLAG RAD T17 ADD TO RESIDUAL ZERO CHARACTER FLAG POC.12 LDN /NAM/W.PCBPS1 PRU STREAM PARAMETER ONE WORD ORDINAL RJM RSPB EXIT TO READ PRU PARAMETER WORD FROM PCB ADN /NAM/W.PCBPS8-/NAM/W.PCBPS1 DELTA TO WORD EIGHT CRD T0 READ PARAMETER WORD EIGHT LDM OSC LOAD O/S SPACES COUNT STD T0+/NAM/C.PCBOSC STORE IN PARAMETER WORD LDD T10+/NAM/C.PCBFP LOAD PRU FILE PARAMETER BYTE SCN /NAM/B.PCBFNL&/NAM/B.PCBEOL&/NAM/B.PCBLOC CLEAR FLAGS ADD T17 PLUS CURRENT FILE CONTROL FLAGS STD T10+/NAM/C.PCBFP STORE PRU FILE PARAMETER BYTE RJM WCMW EXIT TO WRITE PRU PARAMETER WORD TO PCB ADN /NAM/W.PCBPS8-/NAM/W.PCBPS1 DELTA TO PARAM WORD EIGHT CWD T0 WRITE PARAMETER WORD EIGHT LDD AAC LOAD APPLICATION TO APPLICATION FLAG ZJN POC.14 EXIT IF NOT APPLICATION TO APPLICATION POC.12A LDN /NAM/W.PCBPS6 PRU STREAM PARAMETER SIX WORD ORDINAL RJM RSPB EXIT TO READ PRU PARAMETER WORD FROM PCB LDD T10+/NAM/C.PCBCMC LOAD CHECKMARK CONTROL BYTE ZJN POC.13 EXIT IF CHECKMARKING NOT REQUESTED SOD T10+/NAM/C.PCBCMC DECREMENT BLOCKS UNTIL CHECKMARK POC.13 AOD T10+/NAM/C.PCBL7N+1 INCREMENT LOW-ORDER OF BLOCK NUMBER SHN -12 POSITION POSSIBLE CARRY ADD T10+/NAM/C.PCBL7N PLUS HIGH-ORDER OF BLOCK NUMBER LPN 0#F EXTACT HIGH-ORDER OF BLOCK NUMBER STD T10+/NAM/C.PCBL7N STORE HIGH-ORDER OF BLOCK NUMBER RJM WCMW EXIT TO WRITE PRU PARAMETER WORD TO PCB POC.14 UJK POCX RETURN POC.15 LDN /NAM/W.PCBPS6 PRU STREAM PARAMETER SIX WORD ORDINAL RJM RPCB EXIT TO READ PRU PARAMETER WORD FROM PCB LDD T10+/NAM/C.PCBL7N LOAD HIGH-ORDER OF NEXT BLOCK NUMBER SHN 12 POSITION TO HIGH-ORDER ADD T10+/NAM/C.PCBL7N+1 PLUS LOW-ORDER OF NEXT BLOCK NUMBER SHN -8 POSITION HIGH-ORDER OF NEXT BLOCK NUMBER STM DRBUF+/NAM/L7BN STORE HIGH-ORDER OF NEXT BLOCK NUMBER LDD T10+/NAM/C.PCBL7N+1 LOAD LOW-ORDER OF NEXT BLOCK NUMBER LPC 0#FF EXTRACT LOW-ORDER OF NEXT BLOCK NUMBER STM DRBUF+/NAM/L7BN+1 STORE LOW-ORDER OF NEXT BLOCK NUMBER LDM DHB+/BLOCK/DBC LOAD NETWORK DATA BLOCK CLARIFIER STM DRBUF+/NAM/L7DBC STORE LEVEL SEVEN DATA BLOCK CLARIFIER LDM NBH+/NAM/C.BWD+1 LOAD OUTPUT TEXT WORD COUNT LPN 1 EXTRACT ODD WORD COUNT FLAG ZJN POC.16 EXIT IF EVEN WORD COUNT LDN 4 CONSTANT OF FOUR POC.16 STM DRBUF+/NAM/L7UB STORE UNUSED BIT COUNT STM UBC SET UNUSED BIT COUNT FOR LATER LCN /NAM/L.L7DH NEGATIVE OF LEVEL SEVEN DATA HEADER LENGTH RAM NNH+/NAM/C.MCC DECREMENT MESSAGE TEXT CHARACTER COUNT NJN POC.17 EXIT IF NOT NULL MESSAGE AOD REOT SET REQUEST END OF TRANSFER POC.17 LDM NNH+/NAM/C.MCC LOAD OUTPUT TEXT CHARACTER COUNT SHN -8 POSITION HIGH-ORDER OF TEXT COUNT STM DRBUF+/NAM/L7BL STORE HIGH-ORDER OF LEVEL SEVEN LENGTH LDM NNH+/NAM/C.MCC LOAD OUTPUT TEXT CHARACTER COUNT LPC 0#FF EXTRACT LOW-ORDER OF TEXT COUNT STM DRBUF+/NAM/L7BL+1 STORE LOW-ORDER OF LEVEL SEVEN LENGTH LDC DRBUF LOAD ADDRESS OF DRIVER BUFFER STD T1 STORE STARTING OUTPUT BUFFER ADDRESS LDN /NAM/L.L7DH LOAD LENGTH OF LEVEL SEVEN DATA HEADER STD T2 STORE OUTPUT CHARACTER COUNT RJM TTBF EXIT TO TRANSFER LEVEL SEVEN HEADER LDM NNH+/NAM/C.MCC LOAD MESSAGE TEXT CHARACTER COUNT ZJN POC.18 EXIT IF NO MESSAGE TEXT UJK POC.1A EXIT IF CHARACTER COUNT NON-ZERO POC.18 LJM POC.12A EXIT IF NO MESSAGE TEXT UBC BSS 1 UNUSED BIT COUNT IN LEVEL-7 HEADER ERRNZ L.DBCM-100B IF DRBUF LENGTH ALTERED, NEED TO ENSURE * LENGTH IS EVEN OR PUT PAD BYTE AT END FOR * CLEARED LEVEL-7 UNUSED BITS. VDSP TITLE PRU OUTPUT VALIDATION PROCESSORS. VDSP SPACE 2,20 ** PRU OUTPUT VALIDATION PROCESSOR VDSP. * * PRU OUTPUT VALIDATION ACTION PROCESSOR VDSP SETS THE * OUTPUT PARAMETERS FOR A PRU OUTPUT OF DISPLAY CODE * DATA. * * ENTRY - * * (NBH+C.BWD+1) = OUTPUT TEXT WORD LENGTH. * * EXIT - * * (OCP) = ADDRESS OUTPUT CHARACTER PROCESSOR, * (OCB) = OUTPUT CHARACTERS PER DRIVER BUFFER, ** (NNH+C.MCC) = OUTPUT TEXT CHARACTER LENGTH. VDSP BSS 0 VALIDATE DISPLAY CODE PRU OUTPUT LDC TDCP LOAD ADDRESS OF OUTPUT CHARACTER PROCESSOR VDSP.1 LINK ENTRY STD OCP STORE ADDRESS OF OUTPUT CHARACTER PROCESSOR LDC L.DBCM*10 LOAD CHARACTERS PER DRIVER BUFFER STD OCB STORE CHARACTERS PER DRIVER BUFFER LDM NBH+/NAM/C.BWD+1 LOAD OUTPUT TEXT WORD COUNT SHN 1 TIMES TWO STD T0 OUTPUT TEXT WORD COUNT TIMES TWO SHN 2 TIMES EIGHT ADD T0 TIMES TEN VDSP.2 LINK ENTRY ADN 1 PLUS ONE FOR DATA BLOCK CLARIFIER STM NNH+/NAM/C.MCC STORE OUTPUT TEXT CHARACTER COUNT EXIT EOVPX RETURN VIA VALIDATION PROCESSOR RETURN VSBP SPACE 2,20 ** PRU OUTPUT VALIDATION PROCESSOR VSBP. * * PRU OUTPUT VALIDATION ACTION PROCESSOR VSBP SETS THE * OUTPUT PARAMETERS FOR A PRU OUTPUT OF SIX BIT * TRANSPARENT DATA. * * ENTRY - * * (NBH+C.BWD+1) = OUTPUT TEXT WORD LENGTH. * * EXIT - * * (OCP) = ADDRESS OUTPUT CHARACTER PROCESSOR, * (OCB) = OUTPUT CHARACTERS PER DRIVER BUFFER, ** (NNH+C.MCC) = OUTPUT TEXT CHARACTER LENGTH. VSBP BSS 0 VALIDATE SIX BIT TRANSPARENT PRU OUTPUT LDC TSBP LOAD ADDRESS OF OUTPUT CHARACTER PROCESSOR EXIT VDSP.1 EXIT TO STORE CHARACTER PROCESSOR ADDRESS VASP SPACE 2,20 ** PRU OUTPUT VALIDATION PROCESSOR VASP. * * PRU OUTPUT VALIDATION ACTION PROCESSOR VASP SETS THE * OUTPUT PARAMETERS FOR A PRU OUTPUT OF ASCII DATA. * * ENTRY - * * (NBH+C.BWD+1) = OUTPUT TEXT WORD LENGTH. * * EXIT - * * (OCP) = ADDRESS OUTPUT CHARACTER PROCESSOR, * (OCB) = OUTPUT CHARACTERS PER DRIVER BUFFER, ** (NNH+C.MCC) = OUTPUT TEXT CHARACTER LENGTH. VASP BSS 0 VALIDATE ASCII PRU OUTPUT LDC TASP LOAD ADDRESS OF OUTPUT CHARACTER PROCESSOR VASP.1 LINK ENTRY STD OCP STORE ADDRESS OF OUTPUT CHARACTER PROCESSOR LDC L.DBCM*5 LOAD CHARACTERS PER DRIVER BUFFER STD OCB STORE CHARACTERS PER DRIVER BUFFER LDM NBH+/NAM/C.BWD+1 LOAD OUTPUT TEXT WORD COUNT SHN 2 TIMES FOUR ADM NBH+/NAM/C.BWD+1 TIMES FIVE EXIT VDSP.2 EXIT TO STORE OUTPUT TEXT CHARACTER COUNT VEBP SPACE 2,20 ** PRU OUTPUT VALIDATION PROCESSOR VEBP. * * PRU OUTPUT VALIDATION ACTION PROCESSOR VEBP SETS THE * OUTPUT PARAMETERS FOR A PRU OUTPUT OF EIGHT BIT * TRANSPARENT DATA. * * ENTRY - * * (NBH+C.BWD+1) = OUTPUT TEXT WORD LENGTH. * * EXIT - * * (OCP) = ADDRESS OUTPUT CHARACTER PROCESSOR, * (OCB) = OUTPUT CHARACTERS PER DRIVER BUFFER, ** (NNH+C.MCC) = OUTPUT TEXT CHARACTER LENGTH. VEBP BSS 0 VALIDATE EIGHT BIT TRANSPARENT PRU OUTPUT LDC TTBF LOAD ADDRESS OF OUTPUT CHARACTER PROCESSOR EXIT VASP.1 EXIT TO STORE CHARACTER PROCESSOR ADDRESS VPEP SPACE 2,18 ** PRU OUTPUT VALIDATION PROCESSOR VPEP. * * PRU OUTPUT VALIDATION PROCESSOR VPEP SETS THE OUTPUT * CHARACTER LENGTH FOR A PRU OUTPUT OF PACKED EIGHT BIT * BINARY DATA. * * ENTRY - * * (NBH+C.BWD+1) = OUTPUT TEXT WORD LENGTH. * * EXIT - * ** (NNH+C.MCC) = OUTPUT TEXT CHARACTER LENGTH. VPEP BSS 0 VALIDATE EIGHT BIT PACKED PRU OUTPUT LDC FEOP LOAD ADDRESS OF OUTPUT CHARACTER PROCESSOR STD OCP STORE ADDRESS OF OUTPUT CHARACTER PROCESSOR LDC L.DBCM/2*15 CHARACTERS PER DRIVER BUFFER STD OCB STORE CHARACTERS PER DRIVER BUFFER LDM NBH+/NAM/C.BWD+1 LOAD OUTPUT TEXT WORD COUNT STD T0 STORE OUTPUT TEXT WORD COUNT SHN 4 WORD COUNT TIMES SIXTEEN SBD T0 WORD COUNT TIMES FIFTEEN SHN -1 WORD COUNT TIMES FIFTEEN DIVIDED BY TWO STD T1 STORE CHARACTER COUNT FOR EVEN WORDS LDD T0 LOAD OUTPUT TEXT WORD COUNT LPN 1 EXTRACT ODD WORD COUNT FLAG ADD T1 PLUS CHARACTER COUNT FOR EVEN WORDS ADN /NAM/L.L7DH LENGTH OF LEVEL SEVEN DATA HEADER EXIT VDSP.2 EXIT TO STORE OUTPUT TEXT CHARACTER COUNT TDCP TITLE PRU OUTPUT CHARACTER PROCESSORS. TDCP SPACE 2,38 ** SUBROUTINE TDCP. * * SUBROUTINE TDCP PROCESSES DISPLAY CODE DATA THAT IS TO * BE TRANSFERRED TO THE FRONT END FOR A PRU STREAM. END * OF LINES ARE REMOVED AND REPLACED BY HEXIDECIMAL *FF*. * TRAILING BLANKS ARE ALSO REMOVED, IF THERE ARE LESS * THAN 256 OF THEM - THEY ARE NOT * TRANSMITTED TO THE FRONT END. * * ENTRY - * * (T14) = RESIDUAL ZERO CHARACTER FLAG (0 = NO), * (T2) = SOURCE DATA CHARACTER COUNT, * (T1) = SOURCE DATA STARTING ADDRESS, * (REOT) = REQUEST END OF TRANSFER FLAG (1 = EOT), * (T15) = LAST TEXT BYTE, * (OSC) = OUTSTANDING SPACES COUNT * (T5) = END OF LINE FLAG (0 = NOT END OF LINE). * * EXIT - * * (T14) = RESIDUAL ZERO CHARACTER FLAG (0 = NO), * (UBC) = NEW OUTSTANDING SPACES COUNT, * (T5) = END OF LINE FLAG (0 = NOT END OF LINE). * * CALLS - * * CESL - CHECK FOR END OF SOURCE LINE. * * MACRO CALLS - * * CLIO - CALL LOGICAL INPUT/OUTPUT INTERFACE. * * USES - * * T5 = LAST OPERATION FLAG (0 = NOT END OF LINE), * T4 = CENTRAL MEMORY OFFSET, * T3 = PREVIOUS CHARACTER PROCESSED, * T16 = END OF LINE FLAG FOR CURRENT CHARACTER, * T13 = CURRENT CHARACTER BEING PROCESSED. TDCP.0A LDN 0 ZERO VALUE FOR FLAG UJN TDCP.2 EXIT TO SET RESIDUAL ZERO CHARACTER FLAG TDCP SUBR ENTRY/EXIT LDM FTY,FEI LOAD FRONT-END TYPE ZJN TDCP.0 EXIT IF NPU LDC -100B+1R DISPLAY CODE SPACE MINUS 100B TDCP.0 ADC 100B (A) = 100B IF NPU, = SPACE IF MDI STM TDCP.5+1 SET CHARACTER TO LOOK FOR LDD T14 LOAD RESIDUAL ZERO CHARACTER FLAG ZJN TDCP.1 EXIT IF NO RESIDUAL ZERO CHARACTER AOD T2 INCREMENT SOURCE DATA CHARACTER COUNT SOD T1 DECREMENT SOURCE DATA STARTING ADDRESS LDN 0 CONSTANT OF ZERO STI T1 STORE RESIDUAL ZERO CHARACTER LDN 9 CONSTANT OF NINE TDCP.1 STD T4 INITIALIZE CENTRAL MEMORY WORD OFFSET LDD T15 LOAD LAST TEXT BYTE ZJN TDCP.2 EXIT IF NOT RESIDUAL ZERO CHARACTER LPN 77B EXTRACT LAST TEXT CHARACTER NJN TDCP.0A EXIT IF NOT RESIDUAL ZERO CHARACTER SOD T2 DECREMENT SOURCE DATA CHARACTER COUNT TDCP.2 STD T14 SET RESIDUAL ZERO CHARACTER FLAG LDC 100B LOAD PRESET VALUE STD T3 SET NO PREVIOUS CHARACTER PROCESSED LDD T4 LOAD CENTRAL MEMORY WORD OFFSET TDCP.3 LPN 1 GET RIGHT CHARACTER FLAG NJN TDCP.3A EXIT IF RIGHT CHARACTER NEXT LDI T1 LOAD NEXT DISPLAY CODE SOURCE BYTE SHN -6 POSITION NEXT DISPLAY CODE SOURCE CHARACTER UJN TDCP.4 EXIT TO STORE NEXT OUTPUT CHARACTER TDCP.3A LDI T1 NEXT DISPLAY CODE SOURCE BYTE LPN 77B EXTRACT NEXT DISPLAY CODE SOURCE CHARACTER TDCP.4 STD T13 STORE NEXT OUTPUT CHARACTER NJN TDCP.5 EXIT IF NOT ZERO DISPLAY CODE CHARACTER RJM /3IM/CESL EXIT TO TEST FOR END OF SOURCE NJN TDCP.8 EXIT IF NOT END OF SOURCE LDD T7 ADDRESS OF END OF SOURCE LINE STD T1 SET CURRENT SOURCE DATA ADDRESS LDD T2 REMAINING CHARACTER COUNT SBD T0 LESS SCAN CHARACTER COUNT STD T2 SET REMAINING CHARACTER COUNT LDN 9 HIGHEST BYTE OFFSET FOR CM WORD STD T4 SET CURRENT CENTRAL MEMORY WORD OFFSET LDC 0#FF END OF LINE CHARACTER STD T13 SET CURRENT CHARACTER LDN 1 NONZERO VALUE FOR FLAG STD T16 SET CURRENT CHARACTER CAUSES EOL FLAG LDD T5 PREVIOUS END OF LINE FLAG STM OSC SET NUMBER OF SPACES TO OUTPUT (0 OR 1) UJN TDCP.9 EXIT TO OUTPUT POSSIBLE PREVIOUS CHARACTER TDCP.5 LMC ** MODIFIED DEPENDING ON MDI/NPU * MDI - SEARCH FOR A SPACE (55B) * NPU - FORCE TEST TO ALWAYS FAIL (100B) NJN TDCP.8 EXIT IF NOT BLANK CHARACTER AOM OSC BUMP COUNT OF SPACES SHN -8D CHECK IF VALUE GREATER THAN 257 NJN TDCP.8 EXIT IF REACHED MAXIMUM NUMBER OF BLANKS TDCP.6 SOD T2 DECREMENT SOURCE DATA CHARACTER COUNT NJN TDCP.13 EXIT IF NOT END OF SOURCE CLIO FEEC EXIT TO OUTPUT ENDING DATA CHARACTER UJK TDCPX RETURN TDCP.8 LDN 0 CONSTANT OF ZERO STD T16 SET CURRENT CHARACTER NOT END OF LINE TDCP.9 LDD T3 LOAD POSSIBLE PREVIOUS CHARACTER LMC 100B TEST FOR PRESET ENTRY VALUE ZJN TDCP.10 EXIT IF NO PREVIOUS CHARACTER CLIO FEOC EXIT TO OUTPUT PREVIOUS CHARACTER TDCP.10 LDM OSC LOAD COUNT OF OUTSTANDING SPACES ZJN TDCP.12 EXIT NO SPACES TO OUTPUT TDCP.11 LDN 1R CONSTANT OF DISPLAY CODE BLANK STD T3 SET OUTPUT CHARACTER CLIO FEOC EXIT TO OUTPUT CHARACTER SOM OSC DECREMENT OUTSTANDING SPACES COUNT NJN TDCP.11 LOOP IF MORE SPACES TO OUTPUT TDCP.12 LDD T13 LOAD CURRENT CHARACTER STD T3 SET PREVIOUS CHARACTER LDD T16 LOAD CURRENT END OF LINE FLAG STD T5 SET PREVIOUS END OF LINE FLAG UJN TDCP.6 EXIT TO CHECK FOR END OF SOURCE TDCP.13 LDD T4 LOAD CENTRAL MEMORY WORD OFFSET LPN 1 EXTRACT RIGHT CHARACTER FLAG NJN TDCP.16 EXIT IF RIGHT CHARACTER TDCP.14 AOD T4 INCREMENT CENTRAL MEMORY WORD OFFSET TDCP.15 UJK TDCP.3 EXIT TO PROCESS NEXT SOURCE CHARACTER TDCP.16 AOD T1 INCREMENT SOURCE DATA ADDRESS LDD T4 LOAD CENTRAL MEMORY WORD OFFSET LMN 9 LESS ENDING VALUE NJN TDCP.14 EXIT IF NOT END OF CENTRAL MEMORY WORD STD T4 RESET CENTRAL MEMORY WORD OFFSET UJN TDCP.15 EXIT TO PROCESS NEXT SOURCE CHARACTER OSC BSS 1 COUNT OF OUTSTANDING SPACES TASC SPACE 2,28 ** SUBROUTINE TASC. * * SUBROUTINE TASC PROCESSES ASCII DATA THAT IS TO BE * TRANSFERRED TO THE FRONT END FOR A PRU STREAM. END OF * LINES ARE REMOVED AND REPLACED BY HEXIDECIMAL *FF*. * * ENTRY - * * (T1) = SOURCE DATA STARTING ADDRESS, * (T2) = SOURCE DATA CHARACTER COUNT, * (REOT) = REQUEST END OF TRANSFER FLAG (1 = EOT). * * MACRO CALLS - * * CLIO - CALL LOGICAL INPUT/OUTPUT INTERFACE. * * USES - * * T4 = CENTRAL MEMORY WORD OFFSET, * T3 = OUTPUT DATA CHARACTER, * T0 = SCAN BYTE COUNT, * T6 = SCAN ADDRESS, ** T7 = SCAN END ADDRESS. TASP SUBR ENTRY/EXIT LDN 0 CONSTANT OF ZERO TASP.1 STD T4 INITIALIZE CENTRAL MEMORY WORD OFFSET TASP.2 LDI T1 LOAD NEXT ASCII SOURCE BYTE ZJN TASP.5 EXIT IF POSSIBLE END OF LINE LPC 177B EXTRACT ASCII CHARACTER LESS PARITY TASP.3 STD T3 STORE NEXT OUTPUT CHARACTER SOD T2 DECREMENT SOURCE DATA CHARACTER COUNT NJN TASP.4 EXIT IF NOT END OF SOURCE DATA CLIO FEEC TRANSFER ENDING DATA CHARACTER UJK TASPX RETURN TASP.4 CLIO FEOC OUTPUT NEXT DATA CHARACTER AOD T1 INCREMENT SOURCE DATA ADDRESS AOD T4 INCREMENT CENTRAL MEMORY WORD OFFSET LMN 5 LESS ENDING VALUE NJN TASP.2 EXIT IF NOT END OF CENTRAL MEMORY WORD UJK TASP.1 EXIT TO RESET CENTRAL MEMORY WORD OFFSET TASP.5 LDN 4 CONSTANT OF FOUR SBD T4 LESS CENTRAL MEMORY WORD OFFSET STD T0 STORE BYTE COUNT FOR SCAN LDD T1 LOAD CURRENT SOURCE DATA ADDRESS STD T6 STORE CURRENT SCAN ADDRESS ADD T0 PLUS BYTE COUNT FOR SCAN STD T7 STORE ENDING SCAN ADDRESS TASP.6 LDD T6 LOAD CURRENT SCAN ADDRESS LMD T7 LESS ENDING SCAN ADDRESS NJN TASP.8 EXIT IF MORE SOURCE TO SCAN LDD T7 LOAD ENDING SCAN ADDRESS STD T1 STORE CURRENT SOURCE DATA ADDRESS LDD T2 LOAD REMAINING CHARACTER COUNT SBD T0 LESS SCAN CHARACTER COUNT STD T2 STORE REMAINING CHARACTER COUNT LDN 4 CONSTANT OF FOUR STD T4 STORE CURRENT CENTRAL MEMORY WORD OFFSET LDC 0#FF LOAD END OF LINE CHARACTER TASP.7 UJK TASP.3 EXIT TO STORE NEXT OUTPUT CHARACTER TASP.8 AOD T6 INCREMENT SCAN ADDRESS LDI T6 LOAD NEXT SCAN SOURCE BYTE NJN TASP.9 EXIT IF NOT BINARY ZERO FILL UJK TASP.6 EXIT TO CHECK FOR END OF SCAN TASP.9 LDN 0 LOAD ORIGINAL SOURCE BYTE UJK TASP.7 EXIT TO STORE NEXT OUTPUT CHARACTER TSBP SPACE 2,26 ** SUBROUTINE TSBP. * * SUBROUTINE TSBP PROCESSES SIX BIT TRANSPARENT DATA * THAT IS TO BE TRANSFERRED TO THE FRONT END FOR A * PRU STREAM. * * ENTRY - * * (T1) = SOURCE DATA STARTING ADDRESS, * (T2) = SOURCE DATA CHARACTER COUNT, * (REOT) = REQUEST END OF TRANSFER FLAG (1 = EOT). * * MACRO CALLS - * * CLIO - CALL LOGICAL INPUT/OUTPUT INTERFACE. * * USES - * * T4 = CENTRAL MEMORY WORD OFFSET, ** T3 = OUTPUT DATA CHARACTER. TSBP SUBR ENTRY/EXIT LDN 0 CONSTANT OF ZERO TSBP.1 STD T4 INITIALIZE CEN,RAL MEMORY WORD OFFSET TSBP.2 LDD T4 LOAD CENTRAL MEMORY WORD OFFSET LPN 1 EXTRACT RIGHT CHARACTER FLAG NJN TSBP.4 EXIT IF RIGHT CHARACTER NEXT LDI T1 LOAD NEXT SOURCE BYTE SHN -6 POSITION NEXT SOURCE CHARACTER TSBP.3 STD T3 STORE NEXT OUTPUT CHARACTER SOD T2 DECREMENT SOURCE DATA CHARACTER COUNT NJN TSBP.5 EXIT IF NOT END OF SOURCE DATA CLIO FEEC TRANSFER ENDING DATA CHARACTER UJK TSBPX RETURN TSBP.4 LDI T1 LOAD NEXT SOURCE BYTE LPN 77B EXT9ACT NEXT SOURCE CHARACTER UJK TSBP.3 EXIT TO STORE NEXT OUTPUT CHARACTE9 TSBP.5 CLIO FEOC OUTPUT NEXT DATA CHARACTER LDD T4 LOAD CENTRAL MEMORY WORD OFFSET LPN 1 EXTRACT RIGHT CHARACTER FLAG NJN TSBP.7 EXIT IF RIGHT CHARACTER TSBP.6 AOD T4 INCREMENT CENTRAL MEMORY WORD OFFSET UJK TSBP.2 EXIT TO PROCESS NEXT SOURCE CHARACTER TSBP.7 AOD T1 INCREMENT SOURCE DATA ADDRESS LDD T4 LOAD CENTRAL MEMORY WORD OFFSET LMN 9 LESS ENDING VALUE NJN TSBP.6 EXIT IF NOT END OF CENTRAL MEMORY WORD UJK TSBP.1 EXIT TO RESET CENTRAL MEMORY WORD OFFSET CESL SPACE 2,32 QUAL 3IM ** SUBROUTINE CESL. * * SUBROUTINE CESL CHECKS FOR THE END OF THE SOURCE LINE. * END OF SOURCE LINE IS DEFINED AS FROM 12 TO 66 BITS OF * BINARY ZERO RIGHT JUSTIFIED ON A CENTRAL MEMORY WORD * BOUNDARY. THE TECHNIQUE USED IS TO SCAN FROM THE * CURRENT POSITION TO THE APPROPRIATE CENTRAL MEMORY * WORD BOUNDARY FOR A NON-ZERO SOURCE CHARACTER. END OF * SOURCE DATA IS DEFINED TO BE EQUIVALENT TO A CENTRAL * MEMORY WORD BOUNDARY. * * ENTRY - * * (T4) = CURRENT CENTRAL MEMORY WORD OFFSET, * (T1) = CURRENT SOURCE DATA ADDRESS, * (T2) = REMAINING SOURCE CHARACTER COUNT. * * EXIT - * * (A) = ZERO IF END OF SOURCE LINE, * (T0) = CHARACTER COUNT OF SCAN, * (T7) = ADDRESS OF END OF SOURCE LINE. * * USES - * ** T6 = SCAN ADDRESS. CESL SUBR ENTRY/EXIT LDD T4 LOAD CENTRAL MEMORY WORD OFFSET LPN 1 EXTRACT RIGHT CHARACTER FLAG ADD T1 PLUS CURRENT SOURCE DATA ADDRESS STD T6 STORE STARTING SCAN ADDRESS LDN 9 MAXIMUM CENTRAL MEMORY WORD OFFSET SBD T4 LESS CURRENT CENTRAL MEMORY WORD OFFSET NJN CESL.1 EXIT IF NOT CENTRAL MEMORY WORD BOUNDARY LDN 5S1 DISPLACEMENT FOR NEXT CENTRAL MEMORY WORD CESL.1 STD T0 STORE CHARACTER COUNT OF SCAN SHN -1 DIVIDED BY TWO FOR BYTE DISPLACEMENT STD T7 STORE BYTE COUNT FOR SCAN LDD T2 LOAD REMAINING SOURCE CHARACTER COUNT SHN -1 DIVIDED BY TWO FOR BYTE DISPLACEMENT SBD T7 LESS BYTE COUNT FOR SCAN PJN CESL.2 EXIT IF SUFFICIENT SOURCE DATA FOR SCAN LDD T2 LOAD REMAINING SOURCE CHARACTER COUNT SBN 1 LESS ONE STD T0 STORE CHARACTER COUNT OF SCAN SHN -1 DIVIDED BY TWO FOR BYTE DISPLACEMENT STD T7 STORE BYTE COUNT FOR SCAN CESL.2 LDD T1 LOAD CURRENT SOURCE DATA ADDRESS RAD T7 ADD TO BYTE COUNT FOR SCAN CESL.3 LDI T6 LOAD NEXT SOURCE DATA BYTE NJN CESLX RETURN IF SOURCE DATA NOT EQUAL TO ZERO LDD T6 LOAD CURRENT SCAN ADDRESS LMD T7 LESS ENDING SCAN ADDRESS ZJN CESLX RETURN IF END OF SCAN AOD T6 INCREMENT SCAN ADDRESS UJK CESL.3 EXIT TO TEST NEXT SOURCE DATA BYTE QUAL ."O.N" EQU * OVERLAY F=TRANS,T1=(SUPPORT PROCESSORS),T2=(DRIVER SUPPORT PRO ,CESSORS) LINK SPACE 2,6 * RESET LINKS. .EOIAX SET 0 .ERROR SET 0 .NFE.1 SET 0 .NPRU SET 0 .DCR.3 SET 0 PNST SPACE 2,26 ** DRIVER SUPPORT PROCESSOR PNST. * * DRIVER SUPPORT PROCESSOR PNST UPDATES THE FRONT END * STATISTICS FOR BOTH IVT AND PRU TRAFFIC IN THE NETWORK * BUFFER TABLE AT THE COMPLETION OF AN NPU SERVICE CYCLE. * IF THE PERFORMANCE ASSEMBLY OPTION IS SELECTED THE IVT * AND PRU TRANSACTION COUNTS ARE UPDATED. * * ENTRY - * * (FEI) = FRONT END TABLE ADDRESS, * (IMC) = IVT MESSAGE COUNT, * (ICC-ICC+1) = IVT MESSAGE CHARACTER COUNT, * (PMC) = PRU MESSAGE COUNT, * (PCC-PCC+1) = PRU MESSAGE CHARACTER COUNT. * * CALLS - * * UFES - UPDATE FRONT END STATISTICS, ** PAUSE - PAUSE FOR STORAGE RELOCATION. PNST LINK ENTRY .PERF IFEQ .PERF,1 LDM IMC,FEI LOAD IVT MESSAGE COUNT RAM IVTTRAN ADD TO IVT TRANSACTION COUNT .PERF ENDIF LDN /NAM/W.NBTIS DISPLACEMENT FOR IVT STATISTICS WORD STD T17 STORE IVT STATISTICS WORD DISPLACEMENT LDN IMC DISPLACEMENT FOR IVT STATISTICS TABLE RJM UFES EXIT TO UPDATE FRONT END STATISTICS .PERF IFEQ .PERF,1 LDM PMC,FEI LOAD PRU MESSAGE COUNT RAM PRUTRAN ADD TO PRU TRANSACTION COUNT .PERF ENDIF LDN /NAM/W.NBTPS DISPLACEMENT FOR PRU STATISTICS WORD STD T17 STORE PRU STATISTICS WORD DISPLACEMENT LDN PMC DISPLACEMENT FOR PRU STATISTICS TABLE RJM UFES EXIT TO UPDATE FRONT END STATISTICS RJM PAUSE EXIT TO PAUSE FOR STORAGE RELOCATION LDN /NAM/W.NBTILE DELTA FOR INLINE DIAG STATUS WORD RJM GNBT EXIT TO GET NETWORK BUFFER TABLE ADDRESS CRD T0 READ INLINE DIAG STATUS WORD LDD T0+/NAM/C.NBTIC LOAD INLINE DIAG STATUS INFORMATION SHN 17-/NAM/S.NBTIRF CHECK FOR INLINE DIAG BUFFER REQUESTED PJN PNST.1 EXIT IF NO INLINE DIAGNOSTICS ACTIVITY LOPA 4IE,ILDO LOAD ENTRY POINT FOR INLINE DIAG PROCESSOR EXIT DCR.3 EXIT TO PROCESS THE INLINE DIAG ACTIVITY PNST.1 EXIT NFE.1 EXIT TO PROCESS NEXT FRONT END INSS SPACE 2,42 PBM SPACE 2,22 ** DRIVER SUPPORT PROCESSOR PBM. * * DRIVER SUPPORT PROCESSOR PBM MAINTAINS THE DRIVER FREE * BUFFER POOLS. IF ADDITIONAL FREE BUFFERS ARE REQUIRED * AN ATTEMPT IS MADE TO OBTAIN THE FREE BUFFERS FROM NAM. * ONCE IN /NAM/Q.NPBOT SECONDS WHILE NO BUFFERS ARE * REQUESTED FROM NAM, THE DRIVER WILL RETURN A FREE * BUFFER TO NAM. IF THE PERFORMANCE DATA OPTION IS * SELECTED, THE DRIVER WILL WRITE THE CURRENT PERFORMANCE ** DATA TO THE DRIVER INTERFACE TABLE. PBM LINK NETRY LDN L.FRNIP COUNT OF NIP WORDS IN FREE BUFFER TABLE STD T7 STORE WORD COUNT RJM GFTA EXIT TO GET FREE BUFFER TABLE ADDRESS CRM LIMBOP1,T7 READ NIP WORDS OF FREE BUFFER INFORMATION LDC LIMBOP3 ADDRESS FOR THREE PRU FREE BUFFER TABLE STD BTI INITIALIZE FREE BUFFER TABLE INDEX LDN PRU3 PRU SIZE ORDINAL FOR THREE PRU BUFFERS STD PRU INITIALIZE PRU SIZE ORDINAL LDN 0 CONSTANT OF ZERO STD PWO CLEAR PRU BUFFER REQUESTED FLAG PBM.1 LDM NCA,BTI LOAD ASSIGNED BUFFER COUNT NJN PBM.3 EXIT IF BUFFERS ASSINGED LDM NRA,BTI LOAD REQUESTED BUFFER COUNT NJN PBM.2 EXIT IF BUFFER REQUEST OUTSTANDING LJM PBM.11 EXIT TO MAKE BUFFER REQUEST IF NECESSARY PBM.2 LDN 0 CONSTANT OF ZERO STM AFB,BTI RESET REQUIRED ADDITIONAL BUFFER COUNT LCN LIMBOP3-LIMBOP2 LENGTH OF FREE BUFFER TABLE INCREMENT RAD BTI DECREMENT FREE BUFFER TABLE INDEX SOD PRU DECREMENT PRU SIZE ORDINAL PJN PBM.1 EXIT TO PROCESS NEXT FREE BUFFER TABLE LJM PBM.18 EXIT TO CONTINUE PBM.3 LDM NSA,BTI NUMBER OF LAST ASSIGNMENT COUNT NJN PBM.5 EXIT IF NOT INITIAL ASSIGNMENT LDD BTI LOAD FREE BUFFER TABLE ADDRESS ADN NFB OFFSET FOR START OF PIP WORD STM PBM.4+1 STORE PPU ADDRESS FOR READING PIP WORD RJM GFTA EXIT TO GET FREE BUFFER TABLE ADDRESS ADN L.FRNIP PLUS OFFSET FOR PIP WORD ADD PRU PLUS DELTA FOR PRU TYPE PBM.4 CRM **,ON READ PIP WORD FOR THIS PRU SIZE LDM NRA,BTI LOAD REQUESTED BUFFER COUNT ZJN PBM.2 EXIT IF BUFFER RELEASE REQUEST OUTSTINDING PBM.5 LDM NCA,BTI LOAD ASSIGND BUFFER COUNT SBM NSA,BTI MINUS SAVED LAST ASSIGNMENT COUNT MJN PBM.6 EXIT IF ASSIGNMENT DECREASED RAM NFB,BTI UPDATE FREE BUFFER COUNT IF COUNT INCREASED PBM.6 LDM NCA,BTI LOAD COUNT OF ASSINGED BUFFERS STM NSA,BTI UPDATE SAVED ASSIGNED BUFFER COUNT SBM NRA,BTI MINUS REQUESTED BUFFER COUNT ZJN PBM.6A EXIT IF LAST REQUEST SATISFIED LJM PBM.2 EXIT IF REQUEST OUTSTANDING PBM.6A LDM FPB,BTI HIGH-ORDER OF FIRST FREE BUFFER ADDRESS SHN 12 POSITION TO HIGH-ORDER ADM FPB+1,BTI LOW-ORDER OF FIRST FREE BUFFER ADDRESS NJN PBM.7 EXIT IF CHAIN OF BUFFERS EXISTS PBM.6B EREXIT LBE EXIT TO ERROR ROUTINE - FREE BUFFER ERROR PBM.7 RJM TFL EXIT TO FORM ABSOLUTE CENTRAL ADDRESS CRD T10 READ FIRST BUFFER HEADER WORD STD T15+1 LOW-ORDER OF ABSOLUTE ADDRESS FIRST BUFFER SHN -12 POSITION HIGH-ORDER STD T15 HIGH-ORDER OF ABSOLUTE ADDRESS FIRST BUFFER PBM.8 LDD T10+/NAM/C.DPT HIGH-ORDER OF CHAINED BUFFER ADDRESS LPN 37B EXTRACT ADDRESS SHN 12 POSITION TO HIGH-ORDER ADD T10+/NAM/C.DPT+1 LOW-ORDER OF CHAINED BUFFER ADDRESS NJN PBM.9 EXIT IF MORE BUFFERS LJM PBM.11 EXIT IF END OF CHAIN PBM.9 RJM TFL EXIT TO FORM ASBOLUTE CENTRAL ADDRESS CRD T10 READ CHAINED BUFFER HEADER WORD STD T5+1 LOW-ORDER OF ABSOLUTE ADDRESS CHAINED BUFFR SHN -12 POSITION HIGH-ORDER STD T5 HIGH-ORDER OF ABSOLUTE ADDRESS CHAINED BUFF LDD T10+/NAM/C.BID LOAD BLOCK ID BYTE FROM CHAINED BUFFER SHN -/NAM/S.BID POSITION BLOCK ID TO LOW-ORDER LMN /NAM/Q.FPBID LESS FREE PRU BUFFER ID NJN PBM.10 EXIT IF USED-ON-CHAIN LDD T5 HIGH-ORDER CHAINED BUFFER ADDRESS STD T15 STORE AS HIGH-ORDER CURRENT BUFFER ADDRESS LDD T5+1 LOW-ORDER CHAINED BUFFER ADDRESS STD T15+1 STORE AS LOW-ORDER CURRENT BUFFER ADDRESS UJK PBM.8 EXIT FOR NEXT CHAINED BUFFER PBM.10 LDN /NAM/Q.PRUID PRU BUFFER BLOCK ID SHN /NAM/S.BID POSITION BLOCK ID STD T10+/NAM/C.BID STORE BLOCK ID BYTE TO DELINK THE BUFFER LDD T5 LOW-ORDER ABSOLUTE ADDRESS CHAINED BUFFER SHN 12 POSITION TO HIGH-ORDER ADD T5+1 HIGH-ORDER ABSOLUTE ADDRESS CHAINED BUFFER CWD T10 REWRITE NAM BLOCK HEADER WORD LDD T15 HIGH-ORDER ABSOLUTE CURRENT BUFFER ADDRESS SHN 12 POSITION TO HIGH-ORDER ADD T15+1 LOW-ORDER ABSOLUTE CURRENT BUFFER ADDRESS CRD T0 READ CURRENT BUFFER HEADER WORD LDD T10+/NAM/C.DPT HIGH-ORDER CHAINED FROM DELINKED BUFFER LPN 37B EXTRACT ADDRESS STD T0+/NAM/C.DPT REPLACE HIGH-ORDER CHIANED BUFFER ADDRESS LDD T10+/NAM/C.DPT+1 LOW-ORDER CHAINED FROM DELINKED BUFFER STD T0+/NAM/C.DPT+1 REPLACE LOW-ORDER CHAINED BUFFER ADDR LDD T15 HIGH-ORDER ABSOLUTE CURRENT BUFFER ADDRESS SHN 12 POSITION TO HIGH-ORDER ADD T15+1 LOW-ORDER ABSOLUTE CURRENT BUFFER ADDRESS CWD T0 REWRITE CURRENT BUFFER HEADER WORD UJK PBM.8 EXIT TO PROCESS CHAINED BUFFER PBM.11 LDM AFB,BTI LOAD COUNT OF ADDITIONAL BUFFERS REQUIRED SBM NFB,BTI MINUS COUNT OF EXISTING FREE BUFFERS ZJN PBM.14 EXIT IF NO REQUEST NO RELEASE MJN PBM.16 EXIT TO RELEASE BUFFER STD T15 STORE NUMBER OF BUFFERS REQUIRED LDM MFB,BTI LOAD MIN/MAX BUFFER COUNTS LPN 77B EXTRACT MAXIMUM BUFFER COUNT SBM NCA,BTI MINUS NUMBER OF ASSIGNED BUFFERS ZJN PBM.14 EXIT IF MAXIMUM REACHED SBD T15 MINUS REQUIRED BUFFER COUNT PJN PBM.13 EXIT IF REQUIRED COUNT IS ACCEPTABLE RAD T15 ADJUST THE COUNT TO BE REQUESTED FROM NAM PBM.13 LDD T15 LOAD NUMBER OF ADDITIONAL BUFFERS RAM NRA,BTI UPDATE REQUESTED NUMBER OF BUFFERS STD PWO SET PRU BUFFER REQUESTED FLAG PBM.14 LDK RTCL ADDRESS OF SYSTEM REAL-TIME CLOCK CRD T0 READ SYSTEM REAL-TIME CLOCK LDD T0+1 READ-TIME SECONDS TIME ADK Q.NPBOT PLUS NO BUFFER OVERRUN TIMEOUT INTERVAL STM NBOT,BTI INITIALIZE NO BUFFER OVERRUN TIME PBM.15 UJK PBM.2 EXIT TO PROCESS NEXT PRU SIZE PBM.16 LDK RTCL ADDRESS OF SYSTEM REAL-TIME CLOCK CRD T0 READ SYSTEM REAL-TIME CLOCK LDD T0+1 READ-TIME SECONDS TIME SBM NBOT,BTI MINUS NO BUFFER OVERRUN TIME SHN 5+1 POSITION HIGH ORDER VALUE TO SIGN MJN PBM.15 EXIT TO PROCESS NEXT PRU SIZE LDM NPC,BTI LOAD NUMBER OF PRU CONNECTIONS NJN PBM.16A EXIT IF PRU CONNECTIONS ACTIVE LDM NFB,BTI LOAD CURRENT FREE BUFFER COUNT SBM NRA,BTI MINUS CURRENT TOTAL BUFFER COUNT ZJN PBM.17 EXIT IF NO PRU BUFFERS ACTIVE PBM.16A LDM MFB,BTI LOAD MIN/MAX BUFFER COUNTS SHN -6 EXTRACT MINIMUM BUFFER COUNT SBM NFB,BTI MINUS CURRENT FREE BUFFER COUNT PJN PBM.14 EXIT IF NO BUFFER TO RELEASE PBM.17 BSS 0 RELEASE A FREE BUFFER REB LDM FPB,BTI HIGH-ORDER OF FIRST FREE BUFFER ADDRESS SHN 12 POSITION TO HIGH-ORDER ADM FPB+1,BTI LOW-ORDER OF FIRST FREE BUFFER ADDRESS NJN REB.1 EXIT IF BUFFERS EXIST LJM PBM.6B EXIT TO ERROR ROUTINE - FREE BUFFER ERROR REB.1 RJM TFL EXIT TO FORM ABSOLUTE CENTRAL ADDRESS CRD T10 READ NAM BLOCK HEADER FROM FIRST BUFFER STD T15+1 LOW-ORDER OF ABSOLUTE ADDRESS FIRST BUFFER SHN -12 POSITION HIGH-ORDER OF ADDRESS STD T15 HIGH-ORDER OF ABSOLUTE ADDRESS FIRST BUFFER LDD T10+/NAM/C.DPT HIGH-ORDER OF SECOND FREE BUFFER ADDRESS LPN 37B EXTRACT ADDRESS STD FBA STORE HIGH-ORDER OF SECOND FREE BUF ADDRESS SHN 12 POSITION TO HIGH-ORDER ADD T10+/NAM/C.DPT+1 LOW-ORDER OF SECOND FREE BUF ADDRESS STD FBA+1 STORE LOW-ORDER OF SECOND FREE BUF ADDRESS NJN REB.3 EXIT IF SECOND BUFFER EXISTS LDD T10+/NAM/C.BID LOAD NAM BLOCK ID BYTE SHN -/NAM/S.BID POSITION BLOCK ID TO LOW-ORDER LMN /NAM/Q.FPBID LESS FREE PRU BUFFER ID ZJN REB.2 EXIT IF FIRST BUFFER IS FREE LJM REBX EXIT IF NO FREE BUFFER REB.2 LDN /NAM/Q.PRUID LOAD PRU BLOCK ID SHN /NAM/S.BID POSITION BLOCK ID STD T10+/NAM/C.BID STORE NAM BLOCK ID BYTE LDM FPB,BTI LOAD HIGH-ORDER FIRST BUFFER ADDRESS STD FBA STORE HIGH-ORDER RELEASED BUFFER ADDRESS LDM FPB+1,BTI LOAD LOW-ORDER FIRST BUFFER ADDRESS STD FBA+1 STORE LOW-ORDER RELEASED BUFFER ADDRESS LDN 0 CONSTANT OF ZERO STM NSA,BTI RESET NCA COUNT UJN REB.4 EXIT TO RELEASE BUFFER REB.3 RJM TFL EXIT TO FORM ABSOLUTE CENTRAL ADDRESS CRD T0 READ NAM BLOCK HEADER FROM SECOND BUFFER STD T5+1 LOW-ORDER OF ABSOLUTE ADDRESS SECOND BUFFER SHN -12 POSITION HIGH-ORDER OF ADDRESS STD T5 HIGH-ORDER OF ABSOLUTE ADDRESS SECOND BUFFR LDD T0+/NAM/C.DPT HIGH-ORDER OF SECOND BUFFER LINK POINTER LPN 37B EXTRACT HIGH-ORDER STD T10+/NAM/C.DPT REPLACE HIGH-ORDER OF FIRST BUF LINK PTR LDD T0+/NAM/C.DPT+1 LOW-ORDER OF SECOND FREE BUF LINK PTR STD T10+/NAM/C.DPT+1 REPLACE HIGH-ORDER OF FIRST LINK PTR LDN 0 CONSTANT OF ZERO STD T0+/NAM/C.DPT CLEAR HIGH-ORDER CHAINED BUFFER ADDRESS STD T0+/NAM/C.DPT+1 CLEAR LOW-ORDER CHAINED BUFFER ADDRESS LDN /NAM/Q.PRUID PRU BLOCK ID SHN /NAM/S.BID POSITION BLOCK ID STD T0+/NAM/C.BID STORE PRU BLOCK ID LDD T5 HIGH-ORDER ABSOLUTE ADDRESS DELINKED BUFFER SHN 12 POSITION TO HIGH-ORDER ADD T5+1 LOW-ORDER ABSOLUTE ADDRESS DELINKED BUFFER CWD T0 REWRITE BLOCK HEADER OF DELINKED BUFFER REB.4 RJM WCMW REWRITE NAM BLOCK HEADER FIRST PRU BUFFER LDD FBA HIGH-ORDER DELINKED BUFFER ADDRESS STM RPB,BTI STORE HIGH-ORDER DELINKED BUFFER ADDRESS LDD FBA+1 LOW-ORDER DELINKED BUFFER ADDRESS STM RPB+1,BTI STORE LOW-ORDER DELINKED BUFFER ADDRESS SOM NFB,BTI DECREMENT FREE BUFFER COUNT SOM NRA,BTI DECREMENT ASSIGNED BUFFER COUNT REBX UJK PBM.14 EXIT TO RESET NO BUFFER OVERRUN TIME PBM.18 BSS 0 CONTINUE .PERF IFEQ .PERF,1 AOM DRCYCLE INCREMENT DRIVER CYCLE COUNT .PERF ENDIF LDN L.FRPIP COUNT OF PIP WORDS IN FREE BUFFER TABLE STD T7 STORE CENTRAL TABLE LENGTH RJM GFTA EXIT TO GET FREE BUFFER TABLE ADDRESS ADN L.FRNIP PLUS OFFSET FOR PIP WORDS CWM LIMBOP1+NFB,T7 WRITE PIP WORDS TO FREE BUFFER TABLE LDD PWO LOAD PRU BUFFER REQUESTED FLAG ZJN PBM.18A EXIT IF NO BUFFER REQUESTED RJM RNAC EXIT TO REQUEST NIP ACTIVITY ADN 1 INCREMENT CM ADDRESS FOR PRU ACTIVITY FLAG CWD T10 WRITE REQUEST PRU ACTIVITY FLAG WORD PBM.18A LDC FETABLE LOAD ADDRESS OF FRONT END TABLE STD FEI INITIALIZE FRONT END TABLE ADDRESS LDN 0 CONSTANT OF ZERO STD PWO INITIALIZE TABLE POINTER WORD OFFSET LDM NBT,FEI LOAD HIGH-ORDER OF NETWORK BUFFER TABLE ADM NBT+1,FEI PLUS LOW-ORDER OF NETWORK BUFFER TABLE NJN PBM.19 EXIT IF FIRST NBT IS ACTIVE LJM PFE.0 EXIT TO CHECK FOR APPLICATION REQUEST PBM.19 LJM PFE EXIT TO PROCESS THE FIRST NBT PCIO SPACE 2,32 ** DRIVER SUPPORT PROCESSOR PCIO. * * DRIVER SUPPORT PROCESSOR PCIO REQUESTS CIO TO PERFORM * A MASS STORAGE OPERATION ON A STREAM. THE FILE * PARAMETERS ARE OBTAINED AND STORED IN THE FET IMAGE OF * THE PRU BUFFER AND CIO IS CALLED. * CURRENT PRU POSITION IS TAKEN FROM W.PCBPS1 OF PCB AND * SET UP AS CIO FILE POSITION WORD WITH RANDOM REWRITE * FLAG SET. * * ERROR EXITS - * * EXIT TO *ERROR* IF DRIVER QUEUING ERROR, * EXIT TO *ERROR* IF NO FNT ASSIGNED. * * CALLS - * * RPCB - READ WORD FROM PCB, * TFL - FORM ABSOLUTE CENTRAL ADDRESS, * MTR - REQUEST PPU JOB, * ESRA - EXECUTE STREAM RESPONSE ACTION PROCESSOR. * * SYSTEM MACRO CALLS - * * NFA - CALCULATE NEGATIVE FIELD LENGTH ADDRESS. * * PROCESSOR CALLS - * ** STREAM STATE RESPONSE ACTION PROCESSOR. * USAGE OF T0 - T17 DEPENDS ON THE FOLLOWING SETTINGS. ERRNZ /NAM/C.PCBCDB-1 ERRNZ /NAM/C.PCBNPR-1 ERRNZ C.RRQ-3 PCIO LINK ENTRY RJM PAUSE EXIT TO PAUSE FOR STORAGE RELOCATION LDN /NAM/W.PCBPS2 PRU STREAM PARAMETER TWO WORD ORDINAL RJM RPCB EXIT TO READ PRU PARAMETER WORD FROM PCB SBN /NAM/W.PCBPS2-/NAM/W.PCBPS1 DELTA FOR PARAMETER ONE CRD T13 READ PRU PARAMETER WORD ONE FROM PCB CURRENT PRU POSITION IN T13+/NAM/C.PCBNPR IS IN T11+C.RRQ LDD T10+/NAM/C.PCBCDB LOAD HIGH-ORDER OF CURRENT BUFFER LPN 37B EXTRACT ADDRESS BITS SHN 12 POSITION TO HIGH-ORDER ADD T10+/NAM/C.PCBCDB+1 PLUS LOW-ORDER OF CURRENT BUFFER NJN PCIO.1 EXIT IF DATA BUFFER QUEUED TO PCB EREXIT DQE EXIT TO ERROR - DRIVER QUEUING ERROR PCIO.1 ADN W.PRFS PLUS DELTA FOR FILE STATUS WORD STM CCIO+3+1 STORE LOW-ORDER OF FET HEADER ADDRESS SHN -12 POSITION HIGH-ORDER OF ADDRESS STM CCIO+3 STORE HIGH-ORDER OF FET HEADER ADDRESS LDD T13+/NAM/C.PCBFNT LOAD FNT ORDINAL NJN PCIO.2 EXIT IF FNT ASSIGNED EREXIT FTR EXIT TO ERROR - NO FNT ASSIGNED PCIO.2 STD T17 STORE FNT ORDINAL LDN 0 LOAD CONSTANT OF ZERO STD T11 CLEAR UPPER OF RANDOM INDEX FIELD STD T11+1 CLEAR MIDDLE OF RANDOM INDEX FIELD LDN B.RWR LOAD RANDOM REWRITE REQUEST FLAG STD T11+C.RWR STORE RANDOM REWRITE REQUEST FLAG LDM CCIO+3 LOAD HIGH-ORDER OF FET HEADER ADDRESS SHN 12 POSITION TO HIGH-ORDER ADM CCIO+3+1 PLUS LOW-ORDER OF FET HEADER ADDRESS ADN W.FFP-W.PRFS PLUS DELTA FOR FILE POSITION WORD RJM TFL EXIT TO FORM ABSOLUTE CENTRAL ADDRESS CWD T11 WRITE FET FILE POSITION WORD SBN W.FFP-W.PRLM MINUS DELTA FOR LIMIT POINTER WORD CRD T5 READ FET LIMIT POINTER WORD SBN W.PRLM-W.PRFS LESS DELTA FOR FILE STATUS WORD CRD T0 READ FILE STATUS WORD STD CBA+1 STORE LOW-ORDER FILES STATUS WORD ADDRESS SHN -12 POSITION HIGH-ORDER OF ADDRESS STD CBA STORE HIGH-ORDER FILE STATUS WORD ADDRESS NFA T17,R CALCULATE ADDRESS OF FNT ENTRY CRD T12 READ FILE NAME TABLE HEADER WORD LDD T17 LOAD FNT ORDINAL STD T5+C.FNT STORE FNT ORDINAL LDD T0+3 LOAD LAST BYTE OF FILE NAME LPN 77B CLEAR EXTRANEOUS BITS STD T0+3 STORE LAST BYTE OF FILE NAME LDN T0+3 LOAD ADDRESS OF LAST BYTE OF FILE NAME STD T17 INITIALIZE FILE NAME ADDRESS LDM T12,T17 LOAD LAST CHARACTER OF FILE NAME SCN 77B CLEAR EXTRANEOUS BITS RAI T17 STORE LAST CHARACTER OF FILE NAME PCIO.3 SOD T17 DECREMENT FILE NAME ADDRESS MJN PCIO.4 EXIT IF END OF FILE NAME LDM T12,T17 LOAD NEXT BYTE OF FILE NAME STI T17 STORE NEXT BYTE OF FILE NAME UJK PCIO.3 EXIT TO DECREMENT FILE NAME ADDRESS PCIO.4 LDD CBA LOAD HIGH-ORDER FILE STATUS WORD ADDRESS SHN 12 POSITION TO HIGH-ORDER ADD CBA+1 PLUS LOW-ORDER FILE STATUS WORD ADDRESS CWD T0 REWRITE FILE STATUS WORD ADN W.PRLM-W.PRFS PLUS DELTA FOR LIMIT POINTER WORD CWD T5 REWRITE LIMIT POINTER WORD LDN ZERL LOAD ADDRESS OF ZERO WORD CRD T10 ZERO OUT PPU CALL PARAMETER AREA LDD MA LOAD ADDRESS OF PPU MESSAGE BUFFER CWM CCIO,ON WRITE OUT CIO CALL IMAGE CWD T10 WRITE OUT CIO CALL PARAMETER AREA LDK RPPM LOAD MONITOR FUNCTION TO REQUEST PPU RJM MTR EXIT TO REQUEST CIO LDD T10+1 LOAD REPLY BYTE ZJN PCIO.5 EXIT IF PPU NOT AVAILABLE LDN /TABLES/.SMSR STREAM ACTION ORDINAL FOR RMS REQUESTED UJK /STATES/SCWL.4 EXIT TO EXECUTE STREAM RESPONSE ACTION PCIO.5 EXIT NPRU EXIT TO PROCESS NEXT PRU STREAM PIII SPACE 2,28 ** DRIVER SUPPORT PROCESSOR PIII. * * DRIVER SUPPORT PROCESSOR PIII PROCESSES AN ILLEGAL * INPUT ON AN IVT STREAM. THE INPUT TEXT IS BYPASSED * FROM THE FRONT END, THE ORIGINAL BLOCK TYPE IS SET TO * ZERO, THE BLOCK TYPE IS STORED IN THE BAD BLOCK TYPE * FIELD, THE MESSAGE CHARACTER COUNT IS STORED AND THE * NAM NETWORK HEADER IS TRANSFERRED TO THE INBOUND * BUFFER. * * ENTRY - * * (EOT) = END OF TRANSFER FLAG, * (NNH-NNH+L.NH) = NAM NETWORK HEADER. * * CALLS - * * WNHB - WRITE NAM HEADER TO INBOUND BUFFER, * UFIP - UPDATE FET IN DATA POINTER. * * MACRO CALLS - * ** CLIO - CALL LOGICAL INPUT/OUTPUT INTERFACE. PIII LINK ENTRY PIII.1 LDD EOT LOAD END OF TRANSFER FLAG NJN PIII.2 EXIT IF END OF TRANSFER RECEIVED CLIO FEIC ACCEPT NEXT DATA CHARACTER FROM FRONT END UJK PIII.1 EXIT TO CHECK FOR END OF TRANSFER PIII.2 LDM NNH+/NAM/C.BT LOAD ORIGINAL BLOCK TYPE BYTE LPC 0#FS4 EXTRACT ORIGINAL BLOCK TYPE STD T0 STORE ORIGINAL BLOCK TYPE LMM NNH+/NAM/C.BT RESET ORIGINAL BLOCK TYPE STM NNH+/NAM/C.BT STORE ZERO BLOCK TYPE VALUE LDD T0 LOAD ORIGINAL BLOCK TYPE SHN -4 POSITION ORIGINAL BLOCK TYPE TO LOW-ORDER RAM NNH+/NAM/C.CBT STORE BAD BLOCK TYPE LDD NCC LOAD INPUT MESSAGE CHARACTER COUNT STM NNH+/NAM/C.MCC STORE INPUT MESSAGE CHARACTER COUNT LJM /ACTIONS/SRUI EXIT TO TRANSFER NAM HEADER TO BUFFER UFES TITLE DRIVER SUPPORT PROCESSOR SUBROUTINES. UFES SPACE 2,30 ** SUBROUTINE UFES. * * SUBROUTINE UFES UPDATES THE SPECIFIED FRONT END * STATISTICS WORD IN THE NETWORK BUFFER TABLE. * * ENTRY - * * (A) = DRIVER STATISTICS TABLE DISPLACEMENT, * (FEI) = FRONT END TABLE ADDRESS, * (T17) = FRONT END STATISTICS WORD DISPLACEMENT. * * EXIT - * * DRIVER STATISTICS TABLE RESET. * * CALLS - * * GNBT - GET NETWORK BUFFER TABLE ADDRESS, * TFL - FORM ABSOLUTE CENTRAL ADDRESS. * * USES - * * T16 = DRIVER STATISTICS TABLE ADDRESS, * T0-T0+4 = FRONT END STATISTICS WORD, ** T5-T5+1 = FRONT END STATISTICS WORD ADDRESS. UFES SUBR ENTRY/EXIT ADD FEI PLUS FRONT END TABLE ADDRESS STD T16 STORE DRIVER STATISTICS TABLE ADDRESS LDD T17 DELTA FOR FRONT END STATISTICS WORD RJM GNBT EXIT TO GET STATISTICS WORD ABSOLUTE ADDR CRD T0 READ FRONT END STATISTICS WORD STD T5+1 STORE LOW-ORDER OF STATISTICS WORD ADDRESS SHN -12 POSITION HIGH-ORDER OF ADDRESS STD T5 STORE HIGH-ORDER OF STATISTICS WORD ADDRESS LDI T16 LOAD MESSAGE COUNT RAD T0+/NAM/C.NBTMC+1 ADD TO LOW-ORDER OF MESSAGE COUNT SHN -12 POSITION CARRY RAD T0+/NAM/C.NBTMC ADD TO HIGH-ORDER OF MESSAGE COUNT LDN 0 CONSTANT OF ZERO STI T16 RESET MESSAGE COUNT LDN ICC+1-IMC DELTA FOR LOW-ORDER OF CHARACTER COUNT RAD T16 INCREMENT DRIVER STATISTICS TABLE ADDRESS LDI T16 LOAD LOW-ORDER OF CHARACTER COUNT RAD T0+/NAM/C.NBTCC+2 ADD TO LOW-ORDER OF CHARACTER COUNT SHN -12 POSITION CARRY ADM -1,T16 PLUS HIGH-ORDER OF CHARACTER COUNT RAD T0+/NAM/C.NBTCC+1 ADD TO MIDDLE OF CHARACTER COUNT SHN -12 POSITION CARRY RAD T0+/NAM/C.NBTCC ADD TO HIGH-ORDER OF CHARACTER COUNT LDN 0 CONSTANT OF ZERO STI T16 RESET LOW-ORDER OF CHARACTER COUNT STM -1,T16 RESET HIGH-ORDER OF CHARACTER COUNT LDD T5 LOAD HIGH-ORDER OF STATISTICS WORD ADDRESS SHN 12 POSITION TO HIGH-ORDER ADD T5+1 PLUS LOW-ORDER OF STATISTICS WORD ADDRESS CWD T0 REWRITE FRONT END STATISTICS WORD UJK UFESX RETURN GFTA SPACE 2,16 ** SUBROUTINE GFTA * * SUBROUTINE GFTA GETS ABSOLUTE CENTRAL WORD ADDRESS OF * PRU FREE BUFFER TABLE IN DIT. * * EXIT - * ** (A) = ABSOLUTE CENTRAL ADDRESS OF FREE BUFFER TABLE GFTA SUBR ENTRY/EXIT LDD DIT LOAD HIGH-ORDER OF INTERFACE TABLE ADDRESS SHN 12 POSITION TO HIGH-ORDER ADD DIT+1 PLUS LOW-ORDER OF INTERFACE TABLE ADDRESS ADN /NAM/L.DITE DELTA FOR LIMIT OF FREE BUFF AREA RJM TFL EXIT TO FORM ABSOLUTE CENTRAL ADDRESS SBN L.FREE SET ADDRESS TO START OF FREE BUFF AREA UJK GFTAX RETURN ."O.N" EQU * OVERLAY F=TRANS,T1=(A-A PROCESSORS),T2=(A-A LEVEL SEVEN COMMAN ,D PROCESSORS) QUAL ACTIONS LINKS SPACE 2,6 * RESET LINKS. .ERROR SET 0 .EWLPX SET 0 .SOPC.3 SET 0 .NPRU SET 0 IPQM SPACE 2,32 ** DRIVER SUPPORT PROCESSOR IPQM. * * DRIVER SUPPORT PROCESSOR IPQM INPUTS THE COMMAND NUMBER * FROM A Q-MESSAGE INPUT. IF THE COMMAND NUMBER IS NOT * A LEVEL SEVEN ELEMENT FOR THE DRIVER AN ERROR EXIT IS * TAKEN. IF THE COMMAND NUMBER IS PROCESSED BY THE * DRIVER THE LEVEL SEVEN COMMAND ACTION PROCESSOR IS * CALLED TO PROCESS THE COMMAND. * * ERROR EXITS - * * EXIT TO *ERROR* IF UNKNOWN LREVEL SEVEN COMMAND. * * CALLS - * * ASED - ACCEPT AND STORE PACKED EIGHT BIT DATA, * ESRA - EXECUTE STREAM STATE RESPONSE ACTION, * UPD - UNPACK EIGHT BIT DATA, * CAFN - CONVERT ASCII FIELD TO NUMERIC, * TLU - TABLE LOOKUP, * GTE - GET DRIVER CONTROL TABLE ENTRY. * * PROCESSOR CALLS - * * STREAM STATE RESPONSE ACTION PROCESSOR, ** LEVEL SEVEN COMMAND ACTION PROCESSOR. IPQM LINK ENTRY LDC DRBUF LOAD ADDRESS OF DRIVER BUFFER STD T1 STORE STARTING BUFFER ADDRESS ADN 2-1 LENGTH OF COMMAND NUMBER PLUS ONE CHARACTER CLIO FEIP EXIT TO INPUT COMMAND NUMBER FROM FE LDD T3 LOAD INPUT CHARACTER COUNT RAM NNH+/NAM/C.MCC ADD TO MESSAGE TEXT CHARACTER COUNT LDD T3 LOAD INPUT CHARACTER COUNT SBN 2 LESS LENGTH OF COMMAND NUMBER PJN IPQM.2 EXIT IF POSSIBLE COMMAND NUMBER IPQM.1 UJK /ACTIONS/BRIQ.1 EXIT TO ERROR - UNKNOWN Q-MESSAGE IPQM.2 LDC DRBUF LOAD ADDRESS OF COMMAND NUMBER STD T1 STORE SOURCE DATA ADDRESS LDN T10 LOAD ADDRESS FOR UNPACKED DATA STD T2 STORE ADDRESS OF DESTINATION DATA LDN 2 LOAD LENGTH OF COMMAND NUMBER RJM /2IO/UPD EXIT TO UNPACK COMMAND NUMBER LDN T10 LOAD ADDRESS OF ASCII COMMAND NUMBER STD T1 STORE ADDRESS OF ASCII COMMAND NUMBER LDN 2 LOAD ASCII CHARACTER COUNT RJM CAFN EXIT TO CONVERT COMMAND NUMBER TO NUMERIC STD TAR STORE TABLE ARGUMENT LDN /TABLES/L7CNIN DELTA FOR LEVEL SEVEN COMMAND TABLE STD CO INITIALIZE COMMAND ORDINAL FOR LEVEL SEVEN OFFSET ADC /TABLES/NPIC PLUS ADDRESS OF INBOUND COMMAND TABLE RJM TLU EXIT TO SEARCH COMMAND TABLE FOR COMMAND MJN IPQM.1 EXIT IF COMMAND NOT IN COMMAND TABLE RAD CO STORE LEVEL SEVEN COMMAND ORDINAL ADC /TABLES/NPIR PLUS COMMAND ACTION TABLE ADDRESS EXIT EIIA.1 EXIT TO GET DRIVER CONTROL TABLE ENTRY ESCP TITLE A-A INBOUND COMMAND ACTION PROCESSORS. ESCP SPACE 2,42 ** A-A INBOUND COMMAND ACTION PROCESSOR ESCP. * * A-A INBOUND COMMAND ACTION PROCESSOR ESCP PROCESSES A * END OF STREAM COMMAND FROM THE REMOTE APPLICATION. * THE COMMAND IS ACCEPTED AND VALIDATED. THE COMMAND * PARAMETER AND THE STREAM STOPPED REASON CODE ARE STORED * IN THE PCB. THE WORKLIST COMMAND CONTROL TABLE ENTRY * IS OBTAINED, THE WORKLIST COMMAND ORDINAL IS STORED, * THE SUPERVISORY HEADER WORD AND THE WORKLIST ARE * INITIALIZED AND THE STREAM STATE RESPONSE ACTION IS * EXECUTED. * * ENTRY - * * (EOT) = END OF TRANSFER FLAG, * (CO) = COMMAND ORDINAL. * * EXIT - * * (NBH-NBH+L.BH) = WORKLIST WORD LENGTH, * (DRBUF-DRBUF+L.WT) = WORKLIST TEXT, * (WLO) = WORKLIST COMMAND ORDINAL. * * CALLS - * * IVCF - INPUT AND VALIDATE COMMAND FORMAT, * GACS - GENERATE ASCII COMMAND STRING, * RSPB - READ AND STORE ADDRESS OF PCB WORD, * WCMW - WRITE WORD TO PCB, * GTE - GET DRIVER CONTROL TABLE ENTRY, * L7WL - INITIALIZE LEVEL SEVEN SERVICE MESSAGE, * ESRA - EXECUTE STREAM STATE RESPONSE ACTION. * * PROCESSOR CALLS - * ** STREAM STATE RESPONSE ACTION PROCESSOR. ESCP LINK RECEIVE AND PROCESS LEVEL SEVEN ES COMMAND RJM IVCF EXIT TO INPUT AND VERIFY COMMAND FORMAT NJN ESCP.1 EXIT IF ERROR BEING REPORTED STD T17 STORE FILE TRANSFER STOPPED REASON CODE LDN /NAM/FTESCM LOAD WORKLIST LENGTH IN CENTRAL WORDS STM NBH+/NAM/C.BWD+1 STORE WORKLIST WORD LENGTH LDC DRBUF+/NAM/ESTEXT LOAD ADDRESS FOR LEVEL SEVEN TEXT UJN ESCP.3 EXIT TO GENERATE LEVEL SEVEN COMMAND TEXT ESCP.1 AOD CO INCREMENT COMMAND ORDINAL FOR ERROR CASE LDN /NAM/FTRCSE LOAD SENDER ERROR REASON CODE ESCP.2 LINK ENTRY STD T17 STORE FILE TRANSFER STOPPED REASON CODE LDN /NAM/FTERCM LOAD WORKLIST LENGTH IN CENTRAL WORDS STM NBH+/NAM/C.BWD+1 STORE WORKLIST WORD LENGTH LDC DRBUF+/NAM/ERTEXT LOAD ADDRESS FOR LEVEL SEVEN TEXT ESCP.3 RJM GACS EXIT TO GENERATE ASCII COMMAND STRING LDN /NAM/W.PCBPS3 PRU STREAM PARAMETER THREE WORD ORDINAL RJM RSPB EXIT TO READ PRU PARAMETER WORD FROM PCB LDD L7PR LOAD HIGH-ORDER OF COMMAND PARAMETER STD T10+/NAM/C.PCBL7P STORE HIGH-ORDER COMMAND PARAMETER LDD L7PR+1 LOAD LOW-ORDER OF COMMAND PARAMETER STD T10+/NAM/C.PCBL7P+1 STORE LOW-ORDER COMMAND PARAMETER RJM WCMW EXIT TO WRITE PRU PARAMETER WORD TO PCB LDN /NAM/W.PCBPS2 PRU STREAM PARAMETER TWO WORD ORDINAL RJM RSPB EXIT TO READ PRU PARAMETER WORD FROM PCB LDD T10+/NAM/C.PCBSS LOAD STREAM STOPPED REASON CODES SCN 77B CLEAR OLD EXTERNALLY STOPPED REASON CODE ADD T17 PLUS NEW EXTERNALLY STOPPED REASON CODE STD T10+/NAM/C.PCBSS STORE STREAM STOPPED REASON CODES RJM WCMW EXIT TO WRITE PRU PARAMETER WORD TO PCB LDD CO LOAD COMMAND ORDINAL ADC /TABLES/DWLCTL FWA OF WORKLIST COMMAND CONTROL TABLE RJM GTE EXIT TO GET DRIVER CONTROL TABLE ENTRY STD RTE STORE DRIVER CONTROL TABLE ENTRY SHN -S.CTLCD POSITION WORKLIST ORDINAL TO LOW-ORDER STD WLO STORE WORKLIST COMMAND ORDINAL RJM L7WL EXIT TO INITIALIZE LEVEL SEVEN WORKLIST ESCP.4 LINK ENTRY LDD RTE LOAD DRIVER CONTROL TABLE ENTRY LPN L.ACTORD EXTRACT STREAM STATE ACTION ORDINAL EXIT BRDI.4 EXIT TO EXECUTE STREAM RESPONSE ACTION RRCP SPACE 2,42 ** A-A INBOUND COMMAND ACTION PROCESSOR RRCP. * * A-A INBOUND COMMAND ACTION PROCESSOR RRCP PROCESSES A * REQUEST RESTART COMMAND FROM THE REMOTE APPLICATION. * THE COMMAND IS ACCEPTED AND VALIDATED. THE COMMAND * PARAMETER AND THE STREAM STOPPED REASON CODE ARE STORED * IN THE PCB. THE WORKLIST COMMAND CONTROL TABLE ENTRY * IS OBTAINED, THE WORKLIST COMMAND ORDINAL IS STORED, * THE SUPERVISORY HEADER WORD AND THE WORKLIST ARE * INITIALIZED AND THE STREAM STATE RESPONSE ACTION IS * EXECUTED. * * ENTRY - * * (EOT) = END OF TRANSFER FLAG, * (CO) = COMMAND ORDINAL. * * EXIT - * * (NBH-NBH+L.BH) = WORKLIST WORD LENGTH, * (DRBUF-DRBUF+L.WT) = WORKLIST TEXT, * (WLO) = WORKLIST COMMAND ORDINAL. * * CALLS - * * IVCF - INPUT AND VALIDATE COMMAND FORMAT, * GACS - GENERATE ASCII COMMAND STRING, * RSPB - READ AND STORE ADDRESS OF PCB WORD, * WCMW - WRITE WORD TO PCB, * GTE - GET DRIVER CONTROL TABLE ENTRY, * L7WL - INITIALIZE LEVEL SEVEN SERVICE MESSAGE, * ESRA - EXECUTE STREAM STATE RESPONSE ACTION. * * PROCESSOR CALLS - * ** STREAM STATE RESPONSE ACTION PROCESSOR. RRCP LINK RECEIVE AND PROCESS LEVEL SEVEN RR COMMAND RJM IVCF EXIT TO INPUT AND VERIFY COMMAND FORMAT LDN /NAM/W.PCBPS5 PRU STREAM PARAMETER FIVE WORD ORDINAL RJM RSPB EXIT TO READ PRU PARAMETER WORD FROM PCB LDD T10+/NAM/C.PCBLAC HIGH-ORDER OF ACKNOWLEDGED CHECKMARK LMD L7PR LESS HIGH-ORDER OF RECEIVED CHECKMARK SHN 12 POSITION TO HIGH-ORDER LMD T10+/NAM/C.PCBLAC+1 LOW-ORDER OF ACKNOWLEDGED CHECKMARK LMD L7PR+1 LESS LOW-ORDER OF RECEIVED CHECKMARK ZJN RRCP.1 EXIT IF RECEIVED IS EXPECTED EXIT MSCP.2 EXIT TO ERROR - CHECKMARK NUMBER ERROR RRCP.1 STD T10+/NAM/C.PCBOCM RESET OUTSTANDING CHECKMARK RJM WCMW EXIT TO WRITE PRU PARAMETER WORD TO PCB LDN /NAM/FTRCRS LOAD RESTART REQUESTED REASON CODE EXIT ESCP.2 EXIT TO STORE TRANSFER STOPPED REASON CODE QRCP SPACE 2,42 ** A-A INBOUND COMMAND ACTION PROCESSOR QRCP. * * A-A INBOUND COMMAND ACTION PROCESSOR QRCP PROCESSES A * QUIT REQUEST COMMAND FROM THE REMOTE APPLICATION. * THE COMMAND IS ACCEPTED AND VALIDATED. THE COMMAND * PARAMETER AND THE STREAM STOPPED REASON CODE ARE STORED * IN THE PCB. THE WORKLIST COMMAND CONTROL TABLE ENTRY * IS OBTAINED, THE WORKLIST COMMAND ORDINAL IS STORED, * THE SUPERVISORY HEADER WORD AND THE WORKLIST ARE * INITIALIZED AND THE STREAM STATE RESPONSE ACTION IS * EXECUTED. * * ENTRY - * * (EOT) = END OF TRANSFER FLAG, * (CO) = COMMAND ORDINAL. * * EXIT - * * (NBH-NBH+L.BH) = WORKLIST WORD LENGTH, * (DRBUF-DRBUF+L.WT) = WORKLIST TEXT, * (WLO) = WORKLIST COMMAND ORDINAL. * * CALLS - * * IVCF - INPUT AND VALIDATE COMMAND FORMAT, * GACS - GENERATE ASCII COMMAND STRING, * RSPB - READ AND STORE ADDRESS OF PCB WORD, * WCMW - WRITE WORD TO PCB, * GTE - GET DRIVER CONTROL TABLE ENTRY, * L7WL - INITIALIZE LEVEL SEVEN SERVICE MESSAGE, * ESRA - EXECUTE STREAM STATE RESPONSE ACTION. * * PROCESSOR CALLS - * ** STREAM STATE RESPONSE ACTION PROCESSOR. QRCP LINK RECEIVE AND PROCESS LEVEL SEVEN QR COMMAND RJM IVCF EXIT TO INPUT AND VERIFY COMMAND FORMAT LDN /NAM/FTRCRE LOAD QUIT REQUESTED REASON CODE EXIT ESCP.2 EXIT TO STORE TRANSFER STOPPED REASON CODE MSCP SPACE 2,40 ** A-A INBOUND COMMAND ACTION PROCESSOR MSCP. * * A-A INBOUND COMMAND ACTION PROCESSOR MSCP PROCESSES A * CHECKMARK COMMAND FROM THE REMOTE APPLICATION. THE * COMMAND IS ACCEPTED AND VALIDATED. IF THE CHECKMARK * NUMBER RECEIVED IN THE COMMAND IS THE EXPECTED * CHECKMARK NUMBER THE OUTSTANDING CHECKMARK COUNT IS * INCREMENTED, THE WORKLIST COMMAND ORDINAL IS STOREED * AND THE STREAM STATE RESPONSE ACTION IS EXECUTED. * * ENTRY - * * (EOT) = END OF TRANSFER FLAG, * (CO) = COMMAND ORDINAL. * * EXIT - * * (WLO) = WORKLIST COMMAND ORDINAL. * * ERROR EXITS - * * EXIT TO *ERROR* IF CHECKMARK NUMBER ERROR. * * CALLS - * * IVCF - INPUT AND VALIDATE COMMAND FORMAT, * RSPB - READ AND STORE ADDRESS OF PCB WORD, * WCMW - WRITE WORD TO PCB, * GTE - GET DRIVER CONTROL TABLE ENTRY, * ESRA - EXECUTE STREAM STATE RESPONSE ACTION. * * PROCESSOR CALLS - * ** STREAM STATE RESPONSE ACTION PROCESSOR. MSCP LINK RECEIVE AND PROCESS LEVEL SEVEN MS COMMAND RJM IVCF EXIT TO INPUT AND VERIFY COMMAND FORMAT LDN /NAM/W.PCBPS5 PRU STREAM PARAMETER FIVE WORD ORDINAL RJM RSPB EXIT TO READ PRU PARAMETER WORD FROM PCB LDD T10+/NAM/C.PCBLAC HIGH-ORDER OF ACKNOWLEDGED CHECKMARK SBD L7PR LESS HIGH-ORDER OF RECEIVED CHECKMARK SHN 12 POSITION TO HIGH-ORDER ADD T10+/NAM/C.PCBLAC+1 LOW-ORDER OF ACKNOWLEDGED CHECKMARK ADD T10+/NAM/C.PCBOCM PLUS OUTSTANDING CHECKMARK COUNT ADN 1 PLUS ONE SBD L7PR+1 LESS LOW-ORDER OF RECEIVED CHECKMARK NJN MSCP.2 EXIT IF CHECKMARK NUMBER ERROR AOD T10+/NAM/C.PCBOCM INCREMENT OUTSTANDING CHECKMARK COUNT MSCP.1 LINK ENTRY RJM WCMW EXIT TO WRITE PRU PARAMETER WORD TO PCB LDD CO LOAD COMMAND ORDINAL ADC /TABLES/DWLCTL FWA OF WORKLIST COMMAND CONTROL TABLE RJM GTE EXIT TO GET DRIVER CONTROL TABLE ENTRY STD RTE STORE DRIVER CONTROL TABLE ENTRY SHN -S.CTLCD POSITION WORKLIST ORDINAL TO LOW-ORDER STD WLO STORE WORKLIST COMMAND ORDINAL EXIT ESCP.4 EXIT TO EXTRACT STREAM STATE ACTION ORDINAL MSCP.2 LINK ENTRY EREXIT CNE EXIT TO ERROR - CHECKMARK NUMBER ERROR MRCP SPACE 2,42 ** A-A INBOUND COMMAND ACTION PROCESSOR MRCP. * * A-A INBOUND COMMAND ACTION PROCESSOR MRCP PROCESSES A * CHECKMARK REPLY COMMAND FROM THE REMOTE APPLICATION. * THE COMMAND IS ACCEPTED AND VALIDATED. IF THE * CHECKMARK NUMBER RECEIVED IN THE COMMAND IS THE * EXPECTED CHECKMARK NUMBER THE OUTSTANDING CHECKMARK * COUNT IS DECREMENTED, THE LAST ACKNOWLEDGED CHECKMARK * NUMBER AND ASSOCIATED PRU POSITION IS UPDATED, THE * WORKLIST COMMAND ORDINAL IS STORED AND THE STREAM * STATE RESPONSE ACTION IS EXECUTED. * * ENTRY - * * (EOT) = END OF TRANSFER FLAG, * (CO) = COMMAND ORDINAL. * * EXIT - * * (WLO) = WORKLIST COMMAND ORDINAL. * * ERROR EXITS - * * EXIT TO *ERROR* IF CHECKMARK NUMBER ERROR. * * CALLS - * * IVCF - INPUT AND VALIDATE COMMAND FORMAT, * RSPB - READ AND STORE ADDRESS OF PCB WORD, * WCMW - WRITE WORD TO PCB, * GTE - GET DRIVER CONTROL TABLE ENTRY, * ESRA - EXECUTE STREAM STATE RESPONSE ACTION. * * PROCESSOR CALLS - * ** STREAM STATE RESPONSE ACTION PROCESSOR. MRCP LINK RECEIVE AND PROCESS LEVEL SEVEN MR COMMAND RJM IVCF EXIT TO INPUT AND VERIFY COMMAND FORMAT LDN /NAM/W.PCBPS5 PRU STREAM PARAMETER FIVE WORD ORDINAL RJM RSPB EXIT TO READ PRU PARAMETER WORD FROM PCB SBN /NAM/W.PCBPS5-/NAM/W.PCBPS4 DELTA FOR WORD FOUR CRD T1 READ PRU PARAMETER WORD FROM PCB LDD T1+/NAM/C.PCBPCN HIGH-ORDER OF PENDING CHECKMARK LMD L7PR LESS HIGH-ORDER OF RECEIVED REPLY SHN 12 POSITION TO HIGH-ORDER LMD T1+/NAM/C.PCBPCN+1 LOW-ORDER OF PENDING CHECKMARK LMD L7PR+1 LESS LOW-ORDER OF RECEIVED REPLY NJN MSCP.2 EXIT IF REPLY DIFFERS FROM EXPECTED SOD T10+/NAM/C.PCBOCM DECREMENT OUTSTANDING CHECKMARK NJN MSCP.2 EXIT IF NOT SINGLE CHECKMARK OUTSTANDING LDD T1+/NAM/C.PCBPCN LOAD HIGH-ORDER OF CHECKMARK NUMBER STD T10+/NAM/C.PCBLAC HIGH-ORDER OF ACKNOWLEDGED CHECKMARK LDD T1+/NAM/C.PCBPCN+1 LOAD LOW-ORDER OF CHECKMARK NUMBER STD T10+/NAM/C.PCBLAC+1 LOW-ORDER OF ACKNOWLEDGED CHECKMARK LDD T1+/NAM/C.PCBPPR LOAD HIGH-ORDER OF PRU POSITION STD T10+/NAM/C.PCBCPP HIGH-ORDER OF ACKNOWLEDGED POSITION LDD T1+/NAM/C.PCBPPR+1 LOAD LOW-ORDER OF PRU POSITION STD T10+/NAM/C.PCBCPP+1 LOW-ORDER OF ACKNOWLEDGED POSITION EXIT MSCP.1 EXIT TO WRITE PRU PARAMETER WORD TO PCB WLES TITLE A-A LEVEL SEVEN WORKLIST ACTION PROCESSORS. TYPEACT MICRO 1,,*WORK* DEFINE ACTION TYPE WLES SPACE 2,34 ** A-A WORKLIST ACTION PROCESSOR WLES. * * A-A WORKLIST ACTION PROCESSOR WLES PROCESSES AN END OF * STREAM NORMAL. IF THERE ARE OUTSTANDING BACKS ON THE * STREAM THEY ARE ISSUED. IF THERE IS SUFFICIENT * INBOUND BUFFER SPACE FOR THE END OF STREAM NORMAL * WORKLIST THE WORKLIST IS BUILT AND THE STREAM STATE * RESPONSE ACTION IS RETURNED. * * ENTRY - * * (BSBC) = BLOCK SERIAL NUMBERS AND BACK FLAGS, * (WLO) = WORKLIST ORDINAL. * * EXIT - * * (A) = STREAM STATE ACTION ORDINAL, * (NBH-NBH+L.BH) = WORKLIST WORD LENGTH, * (DRBUF-DRBUF+L.WT) = WORKLIST TEXT. * * CALLS - * * CIBS - CHECK INBOUND BUFFER SPACE, * RPCB - READ WORD FROM PCB, * GTE - GET DRIVER CONTROL TABLE ENTRY, * CNFA - CONVERT NUMERIC FIELD TO ASCII, * GACS - GENERATE ASCII COMMAND STRING, * L7WL - INITIALIZE LEVEL SEVEN WORKLIST, ** PKD - PACK LEVEL SEVEN COMMAND TEXT. WLES ACTION GENERATE END OF STREAM LEVEL SEVEN WORKLIST LDD BSBC LOAD BLOCK SERIAL NUMBERS AND BACK FLAGS SHN -/NAM/S.IBC OUTSTANDING BACK COUNT TO LOW-ORDER LPN /NAM/L.IBC EXTRACT OUTSTANDING BACK COUNT ZJN WLES.1 EXIT IF NO OUTSTANDING BACKS UJK /STATES/SPIQ.7 EXIT TO ISSUE BACK TO NPU WLES.1 LDN /NAM/FTESCM LENGTH OF END OF STREAM WORKLIST RJM CIBS EXIT TO CHECK FOR INBOUND BUFFER SPACE PJN WLES.2 EXIT IF SUFFICIENT INBOUND BUFFER SPACE EXIT NPRU EXIT TO PROCESS NEXT PRU STREAM WLES.2 LDN /NAM/FTESCM LOAD WORKLIST LENGTH IN CENTRAL WORDS WLES.3 LINK ENTRY STM NBH+/NAM/C.BWD+1 STORE WORKLIST WORD LENGTH LDN /NAM/W.PCBPS3 PRU STREAM PARAMETER THREE WORD ORDINAL RJM RPCB EXIT TO READ PRU PARAMETER WORD FROM PCB SBN /NAM/W.PCBPS3-/NAM/W.PCBPS2 DELTA FOR WORD TWO CRD T1 READ PRU PARAMETER WORD FROM PCB LDD T1+/NAM/C.PCBSS LOAD TRANSFER STOPPED REASON CODES LPN 77B EXTRACT EXTERNALLY STOPPED REASON CODE STD T17 STORE TRANSFER STOPPED REASON CODE ADC /TABLES/L7RCCO ADDRESS OF REASON CODE TO COMMAND TABLE RJM GTE EXIT TO GET DRIVER CONTROL TABLE ENTRY STD CO STORE INBOUND COMMAND ORDINAL NJN WLES.4 EXIT IF INBOUND COMMAND LJM WLES.8 EXIT TO DECREMENT WORKLIST LENGTH WLES.4 LDD T10+/NAM/C.PCBL7P LOAD HIGH-ORDER OF C0MMAND PARAMETER SHN 12 POSITION TO HIGH-ORDER ADD T10+/NAM/C.PCBL7P+1 PLUS LOW-ORDER OF COMMAND PARAMETER RJM CNFA EXIT TO CONVERT TO ASCII CHARACTER STRING LDD T17 LOAD TRANSFER STOPPED REASON CODE ZJN WLES.5 EXIT IF NO ERROR BEING REPORTED LDN /NAM/ERTEXT-/NAM/ESTEXT DELTA FOR ERROR TEXT ADDRESS WLES.5 ADC DRBUF+/NAM/ESTEXT ADDRESS FOR LEVEL SEVEN COMMAND TEXT RJM GACS EXIT TO GENERATE ASCII COMMAND STRING WLES.6 RJM L7WL EXIT TO INITIALIZE LEVEL SEVEN WORKLIST LDD T17 LOAD TRANSFER STOPPED REASON CODE ZJN WLES.7 EXIT IF NO ERROR BEING REPORTED LDN /NAM/ERTEXT-/NAM/ESTEXT DELTA FOR ERROR TEXT ADDRESS WLES.7 ADC DRBUF+/NAM/ESTEXT ADDRESS OF LEVEL SEVEN COMMAND TEXT STD T2 STORE PACKED DATA DESTINATION ADDRESS STD T1 STORE PACKED DATA SOURCE ADDRESS LDN /NAM/L.L7ES LOAD LENGTH OF COMMAND STRING RJM PKD EXIT TO PACK COMMAND TEXT STRING LDD WLO LOAD WORKLIST ORDINAL ADC /TABLES/DWLQRT FWA OF DRIVER WORKLIST RESPONSE TABLE RJM GTE EXIT TO GET STREAM STATE RESPONSE ACTION EXIT EWLPX RETURN VIA WORKLIST PROCESSOR ACTION RETURN WLES.8 LCN /NAM/FTERCM-/NAM/FTIECM DELTA FOR INTERNAL ERROR RAM NBH+/NAM/C.BWD+1 DECREMENT WORKLIST WORD LENGTH UJK WLES.6 EXIT TO INITIALIZE LEVEL SEVEN WORKLIST WLER SPACE 2,32 ** A-A WORKLIST ACTION PROCESSOR WLER. * * A-A WORKLIST ACTION PROCESSOR WLER PROCESSES AN ERROR * CONDITION REPORTED ON AN A-A CONNECTION. IF THERE IS * SUFFICIENT INBOUND BUFFER SPACE FOR THE ERROR WORKLIST * THE WORKLIST IS BUILT AND THE STREAM STATE RESPONSE * ACTION IS RETURNED. * * ENTRY - * * (WLO) = WORKLIST ORDINAL. * * EXIT - * * (A) = STREAM STATE ACTION ORDINAL, * (NBH-NBH+L.BH) = WORKLIST WORD LENGTH, * (DRBUF-DRBUF+L.WT) = WORKLIST TEXT. * * CALLS - * * CIBS - CHECK INBOUND BUFFER SPACE, * RPCB - READ WORD FROM PCB, * CNFA - CONVERT NUMERIC FIELD TO ASCII, * GTE - GET DRIVER CONTROL TABLE ENTRY, * GACS - GENERATE ASCII COMMAND STRING, * L7WL - INITIALIZE LEVEL SEVEN WORKLIST, ** PKD - PACK LEVEL SEVEN COMMAND TEXT. WLER ACTION GENERATE ERROR LEVEL SEVEN WORKLIST LDN /NAM/FTERCM LENGTH OF ERROR WORKLIST RJM CIBS EXIT TO CHECK FOR INBOUND BUFFER SPACE PJN WLER.1 EXIT IF SUFFICIENT INBOUND BUFFER SPACE EXIT NPRU EXIT TO PROCESS NEXT PRU STREAM WLER.1 LDN /NAM/FTERCM LENGTH OF ERROR WORKLIST EXIT WLES.3 EXIT TO STORE WORKLIST WORD LENGTH MSCG TITLE A-A OUTBOUND COMMAND ACTION PROCESSORS. TYPEACT MICRO 1,,*CMDOUT* DEFINE ACTION TYPE MSCG SPACE 2,28 ** A-A OUTBOUND COMMAND ACTION PROCESSOR MSCG. * * A-A OUTBOUND COMMAND ACTION PROCESSOR MSCG GENERATES * A CHECKMARK. THE LAST TRANSMITTED CHECKMARK IS * OBTAINED FROM THE PCB AND INCREMENTED BY ONE, THE * COMMAND TEXT IS GENERATED AND STORED IN THE DRIVER * BUFFER AREA AND THE OUTPUT BLOCK TYPE IS RETURNED. * * ENTRY - * * (CO) = LEVEL SEVEN COMMAND ORDINAL. * * EXIT - * * (A) = OUTPUT BLOCK TYPE, * (NNH+C.MCC) = OUTPUT MESSAGE CHARACTER COUNT, * (DRBUF-DRBUF+L.CT) = LEVEL SEVEN COMMAND TEXT. * * CALLS - * * RPCB - READ WORD FROM PCB, * CNFA - CONVERT NUMERIC FIELD TO ASCII, ** GACS - GENERATE ASCII COMMAND STRING. MSCG ACTION GENERATE LEVEL SEVEN CHECKMARK MRCG SPACE 2,28 ** A-A OUTBOUND COMMAND ACTION PROCESSOR MRCG. * * A-A OUTBOUND COMMAND ACTION PROCESSOR MRCG GENERATES * A CHECKMARK REPLY. THE LAST ACKNOWLEDGED CHECKMARK * IS OBTAINED FROM THE PCB AND INCREMENTED BY ONE, THE * COMMAND TEXT IS GENERATED AND STORED IN THE DRIVER * BUFFER AREA AND THE OUTPUT BLOCK TYPE IS RETURNED. * * ENTRY - * * (CO) = LEVEL SEVEN COMMAND ORDINAL. * * EXIT - * * (A) = OUTPUT BLOCK TYPE, * (NNH+C.MCC) = OUTPUT MESSAGE CHARACTER COUNT, * (DRBUF-DRBUF+L.CT) = LEVEL SEVEN COMMAND TEXT. * * CALLS - * * RPCB - READ WORD FROM PCB, * CNFA - CONVERT NUMERIC FIELD TO ASCII, ** GACS - GENERATE ASCII COMMAND STRING. MRCG ACTION GENERATE CHECKMARK REPLY LDN 1 CONSTANT OF ONE MRCG.1 LINK ENTRY STD T17 STORE CHECKMARK NUMBER INCREMENT LDN /NAM/L.L7MR TEXT CHARACTER LENGTH OF MESSAGE STM NNH+/NAM/C.MCC STORE OUTPUT TEXT CHARACTER COUNT LDN /NAM/W.PCBPS5 PRU STREAM PARAMETER FIVE WORD ORDINAL RJM RPCB EXIT TO READ PRU PARAMETER WORD FROM PCB LDD T10+/NAM/C.PCBLAC HIGH-ORDER OF ACKNOWLEDGED CHECKMARK SHN 12 POSITION TO HIGH-ORDER ADD T10+/NAM/C.PCBLAC+1 LOW-ORDER OF ACKNOWLEDGED CHECKMARK ADD T17 PLUS CHECKMARK NUMBER INCREMENT RJM CNFA EXIT TO CONVERT TO ASCII CHARACTER STRING LDC DRBUF+/NAM/L7CN ADDRESS FOR LEVEL SEVEN COMMAND TEXT RJM GACS EXIT TO GENERATE ASCII COMMAND STRING LDN /BLOCK/QMSG LOAD Q-MESSAGE BLOCK TYPE QUAL STATES EXIT SOPC.3 EXIT TO TRANSFER OUTPUT TO FRONT END QUAL ACTIONS SRCG SPACE 2,28 ** A-A OUTBOUND COMMAND ACTION PROCESSOR SRCG. * * A-A OUTBOUND COMMAND ACTION PROCESSOR SRCG GENERATES * THE START OF DATA REPLY. THE INITIAL CHECKMARK IS * OBTAINED FROM THE PCB, THE COMMAND TEXT IS GENERATED * AND STORED IN THE DRIVER BUFFER AREA AND THE OUTPUT * BLOCK TYPE IS RETURNED. * * ENTRY - * * (CO) = LEVEL SEVEN COMMAND ORDINAL. * * EXIT - * * (A) = OUTPUT BLOCK TYPE, * (NNH+C.MCC) = OUTPUT MESSAGE CHARACTER COUNT, * (DRBUF-DRBUF+L.CT) = LEVEL SEVEN COMMAND TEXT. * * CALLS - * * RPCB - READ WORD FROM PCB, * CNFA - CONVERT NUMERIC FIELD TO ASCII, ** GACS - GENERATE ASCII COMMAND STRING. SRCG ACTION GENERATE START OF DATA REPLY LDN 0 CONSTANT OF ZERO EXIT MRCG.1 EXIT TO STORE CHECKMARK INCREMENT IVCF TITLE A-A SUPPORT SUBROUTINES. QUAL PEL7 SPACE 2,20 ** DRIVER SUPPORT PROCESSOR PEL7. * * DRIVER SUPPORT PROCESSOR PEL7 REPORTS A LEVEL-7 ERROR * ON A FILE TRANSFER. FIRSTLY THE PRU BUFFER IS CHECKED * TO SEE IF THERE IS ANY MASS STORAGE I-O TO COMPLETE. * IF NOT, THE WORKLIST IS TRANSFERRED TO THE INBOUND * BUFFER. * * CALLS - * * EWLP - EXECUTE WORKLIST PROCESSOR * ESRA - EXECUTE STREAM STATE RESPONSE ACTION PROCESS * RPCB - READ WORD FROM PCB * ** PEL7 LINK ENTRY RJM PAUSE EXIT TO PAUSE FOR STORAGE RELOCATION LDN /NAM/W.PCBPS2 PRU STREAM PARAM 2 WORD ORDINAL RJM RPCB EXIT TO READ PCB WORD LDD T10+/NAM/C.PCBCDB HIGH ORDER OF CURRENT DATA BLOCK LPN 37B EXTRACT ADDRESS BITS SHN 12D POSITION TO HIGH ORDER ADD T10+/NAM/C.PCBCDB+1 ADD LOW ORDER OF CURRENT BLOCK ZJN PEL7.1 EXIT NO DATA BUFFER LDN /NAM/W.PCBPS1 PRU STREAM PARAM 1 WORD ORDINAL RJM RPCB EXIT TO READ PCB WORD LDD T10+/NAM/C.PCBFNT LOAD FNT ORDINAL ZJN PEL7.1 EXIT NO FNT ASSIGNED STD T17 STORE FNT ORDINAL NFA T17,R CALCULATE ADDRESS OF FNT ENTRY ADN FSTL DELTA TO BUSY STATUS WORD CRD T10 READ STATUS WORD LDD T10+4 LOAD STATUS BYTE LPN 1 EXTRACT COMPLETE BIT NJN PEL7.1 EXIT COMPLETE BIT SET UJK NPRU EXIT TO PROCESS NEXT PRU STREAM PEL7.1 LDN /TABLES/L7ER LOAD LEVEL SEVEN ERROR WORKLIST ORDINAL UJK /STATES/SPIQ.1 EXIT TO STORE WORKLIST COMMAND ORDINAL IVCF SPACE 2,32 ** SUBROUTINE IVCF. * * SUBROUTINE ICVF INPUTS AND VERIFIES THE LEVEL * SEVEN APPLICATION TO APPLICATION COMMAND FORMAT. * * EXIT - * * (A) = NUMERIC EQUIVALENT OF PARAMETER, * (T10-T10+4) = COMMAND *ASCII* PARAMETER STRING, * (L7PR-L7PR+1) = NUMERIC EQUIVALENT OF PARAMETER. * * ERROR EXITS - * * EXIT TO *ERROR* IF Q-MESSAGE FORMAT ERROR. * * CALLS - * * ASUD - ACCEPT AND STORE UNPACKED DATA, * CAFN - CONVERT ASCII FIELD TO NUMERIC. * * MACRO CALLS - * * CLIO - CALL LOGICAL INPUT/OUTPUT INTERFACE. * * USES - * ** T10 = CHARACTER COUNT. IVCF SUBR ENTRY/EXIT LDN 0 CONSTANT OF ZERO STD T10 INITIALIZE CHARACTER COUNT LDM DRBUF+1 LOAD FIRST CHARACTER OF COMMAND TEXT LPC 0#FF EXTRACT FIRST CHARACTER OF COMMAND TEXT IVCF.1 LMM L7CSF,T10 LESS EXPECTED CHARACTER NJN IVCF.2 EXIT IF CHARATCER DOES NOT MATCH AOD T10 INCREMENT CHARACTER COUNT LDM L7CSF,T10 LOAD NEXT COMPARE VALUE ZJN IVCF.3 EXIT IF END OF COMPARE LDD EOT LOAD END OF TRANSFER FLAG NJN IVCF.2 EXIT IF END OF TRANSFER RECEIVED CLIO FEIC ACCEPT NEXT DATA CHARACTER FROM FRONT END UJK IVCF.1 EXIT TO COMPARE NEXT INPUT CHARACTER IVCF.2 UJK /ACTIONS/BRIQ.1 EXIT TO ERROR - Q-MESSAGE FORMAT ERROR IVCF.3 LDN T10 LOAD ADDRESS FOR NUMERIC FIELD STD T1 STORE STARTING BUFFER ADDRESS ADN 4-1 PLUS LENGTH OF NUMERIC FIELD RJM ASUD EXIT TO INPUT NUMERIC FIELD FROM NPU ZJN IVCF.2 EXIT IF END OF TRANSFER NOT RECEIVED LDD T3 LOAD INPUT CHARACTER COUNT LMN 4 LESS LENGTH OF NUMERIC FIELD NJN IVCF.2 EXIT IF NUMERIC FIELD LENGTH ERROR LDN T10 LOAD ADDRESS OF NUMERIC FIELD STD T1 STORE ADDRESS OF ASCII NUMERIC FIELD LDN 4 CONSTANT OF FOUR RJM CAFN EXIT TO CONVERT FROM ASCII TO NUMERIC STD L7PR+1 STORE LOW-ORDER OF NUMERIC VALUE SHN -12 POSITION HIGH-ORDER OF NUMERIC FIELD STD L7PR STORE HIGH-ORDER OF NUMERIC FIELD SHN 12 POSITION TO HIGH-ORDER ADD L7PR+1 PLUS LOW-ORDER OF NUMERIC VALUE UJK IVCFX RETURN L7CSF SPACE 2,8 * LEVEL SEVEN COMMAND STRUCTURE FORMAT. L7CSF BSS 0 LEVEL SEVEN CONSTANT COMMAND STRUCTURE ASCII 30 *0* ASCII 31 *1* ASCII 32 *2* ASCII 33 *3* ASCII 53 *S* ASCII 30 *0* ASCII 30 *0* ASCII 34 *4* CON 0 TERMINATE CONSTANT COMMAND STRUCTURE GACS SPACE 2,28 ** SUBROUTINE GACS. * * SUBROUTINE GACS GENERATES AN *ASCII* CHARACTER STRING * OF THE LEVEL SEVEN COMMAND TEXT WITH THE VALUE OF THE * LEVEL SEVEN PARAMETER. * * ENTRY - * (A) = DESTINATION ADDRESS FOR COMMAND TEXT, * (CO) = COMMAND ORDINAL, * (T10-T10+3) = PARAMETER VALUE IN ASCII. * * CALLS - * * GTE - GET DRIVER CONTROL TABLE ENTRY, * CNFA - CONVERT NUMERIC FIELD TO ASCII. * * USES - * * T14 = DESTINATION ADDRESS, * T15 = PARAMETER DESTINATION ADDRESS, * T16 = CHARACTER COUNT, * T15 = SOURCE DATA ADDRESS, ** T0 = SOURCE DATA BYTE. GACS SUBR ENTRY/EXIT STD T14 STORE DESTINATION ADDRESS FOR ASCII STRING LDD CO LOAD LEVEL SEVEN COMMAND ORDINAL ADC /TABLES/NPIC PLUS ADDRESS DRIVER COMMAND TABLE RJM GTE EXIT TO GET DRIVER CONTROL TABLE ENTRY STD RTE STORE COMMAND NUMBER LDD T14 LOAD DESTINATION ADDRESS FOR ASCII STRING ADN /NAM/L7EC PLUS OFFSET FOR PARAMETER STD T15 STORE DESTINATION ADDRESS FOR PARAMETER LDN 0 CONSTANT OF ZERO STD T16 INITIALIZE CHARACTER COUNT GACS.1 LDM T10,T16 LOAD NEXT ASCII CHARACTER OF PARAMETER STI T15 STORE NEXT ASCII CHARACTER OF PARAMETER AOD T15 INCREMENT DESTINATION ADDRESS FOR PARAMETER AOD T16 INCREMENT CHARACTER COUNT LMN 4 LESS LENGTH OF PARAMETER NJN GACS.1 EXIT IF MORE PARAMETER CHARACTERS LDD RTE LOAD COMMAND NUMBER RJM CNFA EXIT TO CONVERT COMMAND NUMBER TO ASCII LDD T10+2 LOAD HIGH-ORDER OF COMMAND NUMBER IN ASCII STI T14 STORE INTO COMMAND STRING AOD T14 INCREMENT ASCII STRING DESTINATION ADDRESS LDD T10+3 LOAD LOW-ORDER OF COMMAND NUMBER IN ASCII STI T14 STORE INTO COMMAND STRING AOD T14 INCREMENT ASCII STRING DESTINATION ADDRESS LDC L7CSF LOAD ADDRESS OF CONSTANT COMMAND STRING STD T15 STORE SOURCE ADDRESS FOR ASCII STRING GACS.2 LDI T15 LOAD NEXT SOURCE STRING BYTE NJN GACS.3 EXIT IF NOT END OF SOURCE STRING DATA UJK GACSX RETURN GACS.3 STI T14 STORE ASCII CHARACTER INTO COMMAND STRING AOD T14 INCREMENT ASCII STRING DESTINATION ADDRESS AOD T15 INCREMENT ASCII STRING SOURCE ADDRESS UJK GACS.2 EXIT TO INCREMENT CHARACTER COUNT L7WL SPACE 2,34 ** SUBROUTINE L7WL. * * SUBROUTINE L7WL OBTAINS THE VALUES REQUIRED FOR A * LEVEL SEVEN WORKLIST AND STORES THEM INTO THE * WORKLIST IMAGE. * * ENTRY - * * (T17) = FILE TRANSFER STOPPED REASON CODE, * (PCB-PCB+1) = ADDRESS OF PCB, * (WLO) = WORKLIST COMMAND ORDINAL. * * EXIT - * * (DRBUF+FNAME) = FILE NAME, * (DRBUF+FNT) = FNT ORDINAL, * (DRBUF+CKMS) = LAST ACKNOWLEDGED CHECKMARK, * (DRBUF+CLPRU) = CORRESPONDING PRU POSITION, * (DRBUF-DRBUF+L.SMH) = SERVICE MESSAGE HEADER. * * CALLS - * * TFL - FORM ABSOLUTE CENTRAL ADDRESS, * GTE - GET DRIVER CONTROL TABLE ENTRY, * IWL - INITIALIZE WORKLIST. * * USES - * ** T1 = WORKLIST COMMAND TABLE ENTRY. L7WL SUBR ENTRY/EXIT LDD T17 LOAD FILE TRANSFER STOPPED REASON CODE ZJN L7WL.1 EXIT IF NO ERROR CONDITION BEING REPORTED LDD PCB LOAD HIGH-ORDER OF PCB ADDRESS SHN 12 POSITION TO HIGH-ORDER ADD PCB+1 PLUS LOW-ORDER OF PCB ADDRESS ADN /NAM/W.PCBPS5 PRU STREAM PARAMETER FIVE WORD ORDINAL RJM TFL EXIT TO FORM ABSOLUTE CENTRAL ADDRESS CRM DRBUF+/NAM/CKMS,ON READ CHECKMARK NUMBER AND POSITION SBN /NAM/W.PCBPS5+1-/NAM/W.PCBNFN DELTA FOR FILE NAME WORD CRM DRBUF+/NAM/FNAME,ON READ FILE NAME AND ORDINAL L7WL.1 LDC /TABLES/AWLCMD ADDRESS OF APPLICATION COMMAND TABLE ADD WLO PLUS WORKLIST ORDINAL RJM GTE EXIT TO GET WORKLIST COMMAND TABLE ENTRY STD T1 STORE WORKLIST COMMAND TABLE ENTRY SCN 0#F CLEAR SECONDARY FUNCTION CODE STM DRBUF+/NAM/PFC STORE PRIMARY FUNCTION CODE LDD T1 LOAD WORKLIST COMMAND TABLE ENTRY LPN 0#F EXTRACT LOW-ORDER SECONDARY FUNCTION CODE SHN 8 POSITION LOW-ORDER SECONDARY FUNCTION CODE ADD T17 PLUS FILE TRANSFER STOPPED REASON CODE STM DRBUF+/NAM/SFC SEONDARY FUNCTION CODE AND REASON CODE LDN 0 CONSTANT OF ZERO STM DRBUF+/NAM/ACN ZERO APPLICATION CONNECTION NUMBER LDN /NAM/PDWL LOAD PROCESS DRIVER WORKLIST REQUEST RJM IWL EXIT TO INITIALIZE WORKLIST UJK L7WLX RETURN CNFA SPACE 2,24 ** SUBROUTINE CNFA. * * SUBROUTINE CNFA CONVERTS A NUMERIC FIELD TO THE * EQUIVALENT *ASCII* CHARACTER REPRESENTATION OF THE * VALUE. THE MAXIMUM CALLING VALUE IS LIMITED TO * FOUR DECIMAL DIGITS. * * ENTRY - * * (A) = NUMERIC VALUE. * * EXIT - * * (T10-T10+3) = *ASCII* CHARACTER EQUIVALENT. * * USES - * * T0-T0+1 = NUMERIC VALUE, ** T2 = INDEX. CNFA SUBR ENTRY/EXIT STD T0+1 STORE LOW-ORDER OF NUMERIC VALUE SHN -12 POSITION HIGH-ORDER OF VALUE STD T0 STORE HIGH-ORDER OF NUMERIC VALUE LDN 0 CONSTANT OF ZERO STD T2 INITIALIZE INDEX CNFA.1 LDN 0#30 CONSTANT OF ASCII ZERO CHARACTER STM T10,T2 INITIALIZE RESULT DIGIT CNFA.2 LDD T0 LOAD HIGH-ORDER OF VALUE SHN 12 POSITION TO HIGH-ORDER ADD T0+1 PLUS LOW-ORDER OF VALUE SBM DDT,T2 LESS VALUE OF DECIMAL DIGIT MJN CNFA.3 EXIT IF DECIMAL DIGIT VALUE GREATER STD T0+1 STORE LOW-ORDER OF NUMERIC VALUE SHN -12 POSITION HIGH-ORDER OF VALUE STD T0 STORE HIGH-ORDER OF NUMERIC VALUE AOM T10,T2 INCREMENT ASCII RESULT DIGIT UJK CNFA.2 EXIT TO DECREMENT NUMERIC VALUE CNFA.3 AOD T2 INCREMENT INDEX LMN 3+1 LESS ENDING VALUE NJN CNFA.1 EXIT IF CONVERSION NOT COMPLETE UJK CNFAX RETURN DDT SPACE 2,6 * DECIMAL DIGIT VALUE TABLE. DDT BSS 0 DECIMAL DIGIT VALUE TABLE CON 1000 THOUSANDS CON 100 HUNDREDS CON 10 TENS CON 1 UNITS CAFN SPACE 2,28 ** SUBROUTINE CAFN. * * SUBROUTINE CAFN CONVERTS AN *ASCII* CHARACTER STRING * REPRESENTING A NUMERIC VALUE INTO ITS EQUIVALENT * NUMERIC VALUE. THE MAXIMUM CALLING VALUE IS LIMITED TO * FOUR DECIMAL DIGITS REPRESENTED AS *ASCII* CHARACTERS. * * ENTRY - * * (A) = NUMBER OF *ASCII* CHARACTERS, * (T1) = ADDRESS OF *ASCII* CHARACTER STRING. * * EXIT - * * (A) = EQUIVALENT NUMERIC VALUE. * * USES - * * T0 = NUMBER OF DIGITS, * T2 = INDEX, * T0 = DIGIT VALUE, ** T3-T3+1 = NUMERIC VALUE. CAFN SUBR ENTRY/EXIT STD T0 STORE NUMBER OF DIGITS LDN 4 LOAD MAXIMUM NUMBER OF DIGITS SBD T0 LESS NUMBER OF CALLING DIGITS STD T2 INITIALIZE INDEX LDN 0 CONSTANT OF ZERO STD T3 INITIALIZE HIGH-ORDER OF RESULT STD T3+1 INITIALIZE LOW-ORDER OF RESULT CAFN.1 LDI T1 LOAD NEXT SOURCE ASCII DIGIT SBN 0#30 LESS ASCII ZERO CHARACTER STD T0 STORE NUMERIC DIGIT VALUE CAFN.2 ZJN CAFN.3 EXIT IF NUMERIC DIGIT EXHAUSTED LDM DDT,T2 LOAD NUMERIC DIGIT VALUE RAD T3+1 ADD TO LOW-ORDER OF RESULT SHN -12 POSITION POSSIBLE CARRY RAD T3 ADD TO HIGH-ORDER OF RESULT SOD T0 DECREMENT NUMERIC DIGIT UJK CAFN.2 EXIT TO TEST DIGIT EXHAUSTED CAFN.3 AOD T1 INCREMENT SOURCE DATA ADDRESS AOD T2 INCREMENT INDEX LMN 3+1 LESS ENDING VALUE NJN CAFN.1 EXIT IF CONVERSION NOT COMPLETE LDD T3 LOAD HIGH-ORDER OF RESULT SHN 12 POSITION TO HIGH-ORDER ADD T3+1 PLUS LOW-ORDER OF RESULT UJK CAFNX RETURN UPD SPACE 2,26 QUAL 2IO ** SUBROUTINE UPD. * * SUBROUTINE UPD UNPACKS A SOURCE CHARACTER STRING OF * CONSECUTIVE EIGHT BIT CHARACTERS INTO A STRING OF * SINGLE EIGHT BIT CHARACTERS. THE SUBROUTINE ITERATES * ON THREE SOURCE CHARACTERS. * * ENTRY - * * (A) = SOURCE DATA CHARACTER COUNT, * (T1) = SOURCE DATA ADDRESS, * (T2) = DESTINATION DATA ADDRESS. * * USES - * ** T0 = SOURCE DATA CHARACTER COUNT. UPD SUBR ENTRY/EXIT STD T0 STORE SOURCE DATA CHARACTER COUNT UPD.1 LDI T1 LOAD NEXT SOURCE BYTE SHN -4 POSITION NEXT SOURCE CHARACTER STI T2 STORE NEXT DATA CHARACTER SOD T0 DECREMENT SOURCE DATA CHARACTER COUNT ZJN UPDX RETURN IF END OF SOURCE DATA AOD T2 INCREMENT DESTINATION DATA ADDRESS LDI T1 LOAD NEXT SOURCE BYTE LPN 0#F EXTRACT HIGH-ORDER OF NEXT DATA CHARACTER SHN 4 POSITION HIGH-ORDER OF NEXT DATA CHARACTER STI T2 STORE HIGH-ORDER OF NEXT DATA CHARACTER AOD T1 INCREMENT SOURCE DATA ADDRESS LDI T1 LOAD NEXT SOURCE BYTE SHN -8 POSITION LOW-ORDER OF NEXT DATA CHARACTER RAI T2 ADD TO HIGH-ORDER OF DATA CHARACTER SOD T0 DECREMENT SOURCE DATA CHARACTER COUNT ZJN UPDX RETURN IF END OF SOURCE DATA AOD T2 INCREMENT DESTINATION DATA ADDRESS LDI T1 LOAD NEXT SOURCE BYTE LPC 0#FF EXTRACT NEXT SOURCE CHARACTER STI T2 STORE NEXT DATA CHARACTER SOD T0 DECREMENT SOURCE DATA CHARACTER COUNT ZJN UPDX RETURN IF END OF SOURCE DATA AOD T1 INCREMENT SOURCE DATA ADDRESS AOD T2 INCREMENT DESTINATION DATA ADDRESS UJK UPD.1 EXIT TO PROCESS NEXT SOURCE BYTE QUAL ."O.N" EQU * OVERLAY F=TRANS,T1=(SUPPORT PROCESSORS),T2=(NAM INTERFACE SUB ,ROUTINES) LINKS SPACE 2,6 * RESET LINKS. .ERROR SET 0 .DROP SET 0 .GIBS.4 SET 0 CNIR SPACE 2,50 ** SUBROUTINE CNIR. * * SUBROUTINE CNIR CHECKS FOR AND PROCESSES REQUESTS FROM * NAM. IF NAM IS REQUESTING THE DRIVER INTERLOCK THE * DRIVER WILL WRITE THE PRU LIMBO BUFFER TABLES TO THE * DRIVER INTERFACE TABLE, ACKNOWLEDGE THE INTERLOCK AND * WAIT FOR NAM TO RELEASE OR ABORT THE INTERLOCK REQUEST. * WHEN NAM RELEASES THE INTERLOCK THE DRIVER READS BACK * THE PRU LIMBO BUFFER TABLES. THIS ALLOWS NAM TO MOVE * PRU LIMBO BUFFERS WITHOUT INTERFERENCE FROM THE DRIVER. * IF NAM REQUESTS TO HALT THE FRONT END THE DRIVER WILL * HALT THE FRONT END AND ISSUE A WORKLIST WITH DAYFILE * TEXT THAT IT WAS HALTED. IF NAM IS REQUESTING A DRIVER * DUMP AN ERROR EXIT IS TAKEN TO DUMP THE DRIVER. IF NAM * IS REQUESTING THE DRIVER TO DROP THE DRIVER ENTERS THE * TERMINATION SEQUENCE. IF NAM IS REQUESTING THE DRIVER * TO SCAN THE EQUIPMENT STATUS TABLE THE DRIVER WILL SCAN * THE EQUIPMENT STATUS TABLE AND UPDATE THE COUPLER * EQUIPMENT TABLE FOR ANY NEWLY TURNED ON EQUIPMENTS. * THE DRIVER WILL CHECK THE EQUIPMENT STATUS TABLE ENTRY * FOR THE CURRENT NPU AND IF IT HAS BEEN TURNED OFF THE * BLOCK HANDLER STATE RESPONSE ACTION FOR EQUIPMENT * TURNED OFF WILL BE EXECUTED. * * ENTRY - * * (FEI) = FRONT END TABLE ADDRESS, * (CHN) = NPU HALTED FLAG, * (HND) = HOST NODE NUMBER, * (NBT-NBT+1) = NETWORK BUFFER TABLE ADDRESS. * * EXIT - * * (ACI) = RESET IF INTERLOCK REQUESTED, * (CHN) = NPU HALTED FLAG UPDATED, * (IDT) = IVT DATA CYCLE TIMER. * * ERROR EXITS - * * EXIT TO *ERROR* FOR DRIVER DUMP REQUESTED, * EXIT TO *ERROR* IF COUPLER TABLE FORMAT ERROR, * EXIT TO *ERROR* IF NETWORK BUFFER TABLE *ERROR*. * * CALLS - * * GNIW - GET APPLICATION REQUEST WORD, * GLTA - GET LIMBO TABLE AREA ADDFRESS, * WDRW - WRITE DRIVER REPLY WORD, * PAUSE - PAUSE FOR STORAGE RELOACTION, * CIBS - CHECK FOR INBOUND BUFFER SPACE, * TFL - FORM ABSOLUTE CENTRAL ADDRESS, * RCT - READ CONNECTION TABLE ENTRY, * EBRA - EXECUTE BLOCK STATE RESPONSE ACTION. * * PROCESSOR CALLS - * * BLOCK HANDLER STATE RESPONSE ACTION PROCESSOR. * * SYSTEM MACRO CALLS - * * SFA - CALCULATE ADDRESS OF MANAGED TABLE. * * MACRO CALLS - * * FEIO - LOGICAL INPUT/OUTPUT INTERFACE. * * USES - * * T17 = APPLICATION REQUEST BYTE, * T7 = CENTRAL LENGTH OF LIMBO BUFFER TABLES, * T16 = HALT FRONT END REQUEST FLAG, * T1 = SOURCE DATA ADDRESS, * T2 = DESTINATION DATA ADDRESS, * T0-T0+4 = EST POINTER WORD, * T16 = ENDING ORDINAL OF EST, * T0-T0+4 = NAM POINTER AREA POINTER, * T0-T0+4 = COUPLER EQUIPMENT TABLE POINTER, * CBA-CBA+1 = ADDRESS OF TABLE CONTROL WORD, * T10-T10+4 = COUPLER TABLE CONTROL WORD, * T0-T0+4 = COUPLER TABLE HEADER WORD, * T17 = COUPLER TABLE BLOCK SIZE, * T6 = COUPLER TABLE ENTRY COUNT, * T7 = COUPLER TABLE ENTRY OFFSET, * T0-T0+4 = EST ENTRY FOR EQUIPMENT, * T5 = DRIVER ORDINAL, ** T10-T10+4 = EQUIPMENT WORD FROM NETWORK BUFFER. CNIR SUBR ENTRY/EXIT RJM GNIW EXIT TO GET APPLICATION REQUEST WORD LDD T0+/NAM/C.DITAR LOAD APPLICATION REQUEST BYTE STD T17 STORE APPLICATION REQUEST BYTE SHN 17-/NAM/S.DITDR POSITION INTERLOCK REQUESTED TO SIGN MJN CNIR.1A EXIT IF INTERLOCK REQUESTED LJM CNIR.3 EXIT IF INTERLOCKK NOT REQUESTED CNIR.1A LDN L.FRPIP LOAD CENTRAL LENGTH OF PIP WORD BLOCK STD T7 STORE CENTRAL TABLE LENGTH RJM GLTA EXIT TO GET ADDRESS OF LIMBO TABLE AREA ADN L.FRNIP PLUS OFFSET TO START OF PIP WORD BLOCK CWM LIMBOP1+NFB,T7 WRITE PIP WORD BLOCK LDN /NAM/B.DITIA LOAD INTERLOCK ACKNOWLEDGED FLAG STD T10+/NAM/C.DITDF STORE DRIVER FLAG BYTE RJM WCMW EXIT TO WRITE DRIVER REPLY WORD LDN 0 CONSTANT OF ZERO STM ACI RESET ACTIVE CONNECTION TABLE IDENTIFIER CNIR.1 RJM PAUSE EXIT TO PAUSE FOR STORAGE RELOCATION RJM GNIW EXIT TO GET APPLICATION REQUEST WORD LDD T10+/NAM/C.DITDF LOAD DRIVER REPLY BYTE ZJN CNIR.2 EXIT IF DRIVER REPLY RESET LDD T0+/NAM/C.DITAR LOAD APPLICATION REQUEST BYTE SHN 17-/NAM/S.DITAI POSITION ABORT INTERLOCK FLAG TO SIGN PJN CNIR.1 EXIT IF NOT ABORT INTERLOCK REQUEST LDN 0 CONSTANT OF ZERO STD T10+/NAM/C.DITDF RESET DRIVER FLAG BYTE RJM WCMW EXIT TO WRITE DRIVER REPLY WORD CNIR.2 LDN L.FREE LOAD CENTRAL LENGTH OF FREE BUFFER TABLE STD T7 STORE CENTRAL TABLE LENGTH RJM GLTA EXIT TO GET ADDRESS FOR FREE BUFFER TABLE CRM LIMBOP1,T7 READ FREE BUFFER TABLE FROM INTERFACE TABLE LDC LIMBOP3 ADDRESS OF THREE PRU FREE BUFFER TABLE STD BTI INITIALIZE FREE BUFFER TABLE INDEX LDN PRU3 PRU SIZE ORDINAL FOR THREE PRU BUFFERS STD PRU INITIALIZE PRU SIZE ORDINAL CNIR.2A LDM NRA,BTI LOAD REQUESTED BUFFER COUNT ZJN CNIR.2C EXIT IF NO BUFFER REQUESTED LDM NCA,BTI LOAD CURRENT BUFFER COUNT ASSIGNED BY NIP SBM NSA,BTI MINUS LAST BUFFER COUNT KNOWN TO PIP MJN CNIR.2B EXIT IF COUNT NOT INCREASED RAM NFB,BTI INCREMENT FREE BUFFER COUNT CNIR.2B LDM NCA,BTI LOAD CURRENT BUFFER COUNT ASSIGNED BY NIP STM NSA,BTI UPDATE BUFFER COUNT KNOWN TO PIP CNIR.2C LCN LIMBOP3-LIMBOP2 LENGTH OF FREE BUFFER TABLE ENTRY RAD BTI DECREMENT FREE BUFFER TABLE INDEX SOD PRU DECREMENT PRU SIZE ORDINAL PJN CNIR.2A EXIT TO PROCESS FREE BUFFER TYPE CNIR.3 LDM NBT,FEI LOAD HIGH-ORDER OF NETWORK BUFFER ADDRESS ADM NBT+1,FEI PLUS LOW-ORDER OF NETWORK BUFFER ADDRESS NJN CNIR.3A EXIT IF NBT ACTIVE RJM PAUSE EXIT TO PAUSE FOR STORAGE RELOCATION LJM DCR EXIT TO CHECK FOR ACTIVE FRONT ENDS CNIR.3A LDD T17 LOAD APPLICATION REQUEST BYTE LPC /NAM/B.DITHN EXTRACT HALT FRONT END REQUEST FLAG STD T16 STORE HALT FRONT END REQUEST FLAG ZJN CNIR.5 EXIT IF HALT FRONT END NOT REQUESTED LDM CHN,FEI LOAD FRONT END HALTED FLAG SCN 77B CLEAR FRONT END CHANNEL NUMBER NJN CNIR.5 EXIT IF FRONT END ALREADY HALTED LDN /NAM/L.BH+/NAM/L.WH+L.NPHT LENGTH OF HALTED WORKLIST RJM CIBS EXIT TO CHECK FOR INBOUND BUFFER SPACE PJN CNIR.4 EXIT IF INBOUND BUFFER SPACE AVAILABLE LJM CNIR.25 EXIT TO SET IVT DATA CYCLE TIMER CNIR.4 FEIO FEHL HALT FRONT END CNIR.5 LDM CHN,FEI LOAD FRONT END HALTED FLAG LPN 77B CLEAR OLD FRONT END HALTED FLAG ADD T16 PLUS NEW FRONT END HALTED FLAG STM CHN,FEI STORE FRONT END HALTED FLAG LDD T17 LOAD APPLICATION REQUEST BYTE LPC /NAM/B.DITDF&/NAM/B.DITDH&/NAM/B.DITDD EXTRACT REQUEST ZJN CNIR.7 EXIT IF NO DROP REQUEST SHN 17-/NAM/S.DITDD POSITION DRIVER DUMP REQUEST TO SIGN PJN CNIR.6 EXIT IF NOT DRIVER DUMP REQUEST EREXIT DDR EXIT TO ERROR - DRIVER DUMP REQUESTED CNIR.6 EXIT DROP EXIT TO TERMINATE DRIVER CNIR.7 LDN ESTP LOAD ADDRESS OF EST POINTER WORD CRD T0 READ EST POINTER WORD LDD T0+2 LOAD ENDING EST ORDINAL STD T16 STORE ENDING ORDINAL OF EST LDD T17 LOAD APPLICATION REQUEST BYTE SHN 17-/NAM/S.DITSE POSITION SCAN EST REQUEST TO SIGN MJN CNIR.8 EXIT IF REQUEST TO SCAN EST LJM CNIR.21 EXIT TO CHECK EST TURNED OFF CNIR.8 LDN /NAM/W.NPTA LOAD ADDRESS OF NAM POINTER AREA POINTER RJM TFL EXIT TO FORM ABSOLUTE CENTRAL ADDRESS CRD T0 READ NAM POINTER AREA POINTER WORD LDD T0+/NAM/C.DPT LOAD HIGH-ORDER OF POINTER AREA ADDRESS SHN 12 POSITION TO HIGH-ORDER ADD T0+/NAM/C.DPT+1 PLUS LOW-ORDER OF POINTER AREA ADDRESS ADN /NAM/W.CETP DELTA FOR COUPLER EQUIPMENT TABLE POINTER RJM TFL EXIT TO FORM ABSOLUTE CENTRAL ADDRESS CRD T0 READ COUPLER EQUIPMENT TABLE POINTER WORD LDD T0+/NAM/C.DPT LOAD HIGH-ORDER OF COUPLER TABLE ADDRESS SHN 12 POSITION TO HIGH-ORDER ADD T0+/NAM/C.DPT+1 PLUS LOW-ORDER OF COUPLER TABLE ADDRESS ZJN CNIR.9 EXIT IF NO COUPLER TABLE ADDRESS ADN /NAM/W.CETHW DELTA FOR COUPLER TABLE CONTROL WORD STD CBA+1 STORE LOW-ORDER OF TABLE CONTROL ADDRESS SHN -12 POSITION HIGH-ORDER OF ADDRESS STD CBA STORE HIGH-ORDER OF TABLE CONTROL ADDRESS SHN 12 POSITION TO HIGH-ORDER ADD CBA+1 PLUS LOW-ORDER OF TABLE CONTROL ADDRESS RJM TFL EXIT TO FROM ABSOLUTE CENTRAL ADDRESS CRD T10 READ COUPLER TABLE CONTROL WORD SBN /NAM/W.CETHW DELTA FOR COUPLER TABLE HEADER WORD CRD T0 READ COUPLER TABLE HEADER WORD LDD T0+/NAM/C.BID LOAD COUPLER TABLE BLOCK ID BYTE SHN -/NAM/S.BID POSITION BLOCK ID TO LOW-ORDER LMN /NAM/Q.CETID LESS COUPLER TABLE BLOCK ID ZJN CNIR.10 EXIT IF VALID BLOCK ID CNIR.9 EREXIT CET EXIT TO ERROR - COUPLER TABLE FORMAT ERROR CNIR.10 LDD T0+/NAM/C.BWD LOAD HIGH-ORDER OF TABLE BLOCK SIZE LPN 77B EXTRACT HIGH-ORDER OF BLOCK SIZE NJN CNIR.9 EXIT IF TABLE BLOCK SIZE RANGE ERROR LDD T0+/NAM/C.BWD+1 LOAD LOW-ORDER OF TABLE BLOCK SIZE SBN /NAM/W.CETHW DELTA FOR COUPLER TABLE CONTROL WORD STD T17 STORE TABLE BLOCK SIZE SBN /NAM/W.CETE+1-/NAM/W.CETHW LESS MINIMUM TABLE SIZE MJN CNIR.9 EXIT IF TABLE BLOCK SIZE RANGE ERROR LDD T17 LOAD TABLE BLOCK SIZE ADC -L.DBCM-1 LESS MAXIMUM TABLE BLOCK SIZE PJN CNIR.9 EXIT IF TABLE BLOCK SIZE RANGE ERROR LDD T10+/NAM/C.CETCB LOAD COUPLER TABLE CONTROL BYTE LPN /NAM/B.CETDB&/NAM/B.CETDC EXTRACT TABLE BUSY FLAGS ZJN CNIR.11 EXIT IF TABLE NOT BUSY LJM CNIR.21 EXIT TO CHECK EST TURNED OFF CNIR.11 LDN /NAM/B.CETDB LOAD DRIVER SCANNING FLAG STD T10+/NAM/C.CETCB STORE COUPLER TABLE CONTROL BYTE LDD CBA LOAD HIGH-ORDER OF TABLE CONTROL ADDRESS SHN 12 POSITION TO HIGH-ORDER ADD CBA+1 PLUS LOW-ORDER OF TABLE CONTROL ADDRESS ADD T17 PLUS COUPLER TABLE BLOCK SIZE RJM TFL EXIT TO FORM ABSOLUTE CENTRAL ADDRESS SBD T17 LESS COUPLER TABLE BLOCK SIZE CWD T10 REWRITE COUPLER TABLE CONTROL WORD CRM DRBUF,T17 READ COUPLER EQUIPMENT TABLE LDD T17 LOAD COUPLER EQUIPMENT TABLE BLOCK SIZE SBN /NAM/W.CETE-/NAM/W.CETHW DELTA FOR TABLE CONTROL WORD STD T6 STORE COUPLER EQUIPMENT TABLE ENTRY COUNT LDN 5*/NAM/W.CETE-5*/NAM/W.CETHW OFFSET FOR FIRST ENTRY STD T7 INITIALIZE TABLE ENTRY OFFSET CNIR.12 LDM DRBUF+/NAM/C.CETET,T7 LOAD EQUIPMENT BYTE FROM TABLE SHN 17-/NAM/S.CETOF POSITION EQUIPMENT OFF FLAG TO SIGN PJN CNIR.14 EXIT IF EQUIPMENT ON IN COUPLER TABLE LDM DRBUF+/NAM/C.CETEST,T7 EST ORDINAL FROM COUPLER TABLE LPC /NAM/L.CETEST EXTRACT EST ORDINAL STD T5 SAVE EST ORDINAL HERE TEMPORARILY STM CNIR.17A+1 CHANGE INSTRUCTION TO LDC EST ORDINAL SBD T16 LESS ENDING ORDINAL OF EST MJN CNIR.13 EXIT IF EST ORDINAL IN RANGE UJK CNIR.9 EXIT TO ERROR - COUPLER TABLE FORMAT ERROR CNIR.13 SFA EST,T5 GET ADDRESS OF EST ENTRY ADK EQDE PLUS OFFSET FOR EQUIPMENT DESCRIPTION WORD CRD T0 READ EQUIPMENT DESCRIPTION WORD ADK EQAE SECOND WORD OF EST ENTRY CRD T10 READ SECOND WORD OF EST ENTRY LDD T0 EQUIPMENT STATUS BYTE LPN 3 EXTRACT EQUIPMENT STATUS SBN 2 SUBTRACT STATUS VALUE FOR EQUIPMENT OFF ZJN CNIR.14 EXIT IF EQUIPMENT TURNED OFF LDD T10+2 BYTE CONTAINING DRIVER ORDINAL SHN -9 POSITION DRIVER ORDINAL TO LOW-ORDER NJN CNIR.15 EXIT IF DRIVER ORDINAL SPECIFIED CNIR.14 LJM CNIR.19 EXIT TO CHECK ALL TABLES PROCESSED CNIR.15 STD T5 STORE DRIVER ORDINAL SBN MAXDRV+1 LESS MAXIMUM VALUE FOR DRIVER ORDINAL PJN CNIR.14 EXIT IF NOT VALID DRIVER ORDINAL LDD T0+3 LOAD EQUIPMENT TYPE FROM EST LMC 2RND LESS VALUE FOR MDI ZJN CNIR.16 EXIT IF EQUIPMENT IS MDI LMN 2RND&2RNP LESS DELTA FOR NPU ZJN CNIR.16 EXIT IF EQUIPMENT IS NPU .MSS IFEQ .MSS,1 LMN 2RNP&2RNQ LESS DELTA FOR MSS EQUIPMENT TYPE ZJN CNIR.16 EXIT IF MSS EQUIPMENT .MSS ENDIF UJK CNIR.14 EXIT TO CHECK ALL TABLES PROCESSED CNIR.16 LDD T5 LOAD DRIVER ORDINAL STM DRBUF+/NAM/C.CETDOR,T7 STORE DRIVER ORD IN CET ENTRY LDD T0+1 BYTE CONTAINING CHANNEL NO FROM EST ENTRY LPK 37B EXTRACT CHANNEL NUMBER SHN /NAM/S.CETCH POSITION CHANNEL NO TO CET ENTRY POSITION RAM DRBUF+/NAM/C.CETCH,T7 STORE CHANNEL NO IN CET ENTRY LDD T0+4 BYTE CONTAINING HOST NODE NO FROM EST ENTRY LPC /NAM/L.CETHN EXTRACT HOST NODE NUMBER STM DRBUF+/NAM/C.CETHN,T7 STORE HOST NODE NO IN CET ENTRY LDD T0+4 LOAD EQUIPMENT NUMBER FROM EST LPC 7000B EXTRACT EQUIPMENT NUMBER RAM DRBUF+/NAM/C.CETEN,T7 ADD TO DRIVER ORDINAL LDD T0+3 LOAD EQUIPMENT TYPE FROM EST LMC 2RND LESS VALUE FOR MDI EQUIPMENT ZJN CNIR.17 EXIT IF MDI EQUIPMENT LDD T0+0 LOAD EQUIPMENT FLAGS FROM EST SHN -9 SYSTEM AUTO-START MODULE FLAG TO LOW-ORDER LPN 1 EXTRACT SYSTEM AUTO-START MODULE FLAG SHN /NAM/S.CETSAM POSITION TO COUPLER TABLE FORMAT STM DRBUF+/NAM/C.CETTN,T7 STORE SAM FLAG IN CET ENTRY UJN CNIR.17H EXIT TO SKIP STORING TN IN CET ENTRY CNIR.17 LDD T10+2 BYTE CONTAINING CDCNET TERMINAL NODE NO LPC 377B EXTRACT TERMINAL NODE NUMBER SHN /NAM/S.CETTN POSITION TERMINAL NODE TO CET ENTRY POS STM DRBUF+/NAM/C.CETTN,T7 STORE TERMINAL NODE IN CET ENTRY CNIR.17H LDD T0+3 EQUIPMENT TYPE FROM EST ADC 4000B PLUS EQUIPMENT OFF FLAG STM DRBUF+/NAM/C.CETET,T7 STORE EQUIPMENT TYPE LDN 0 CONSTANT OF ZERO STD T10+2 STORE NORMAL REQUEST SUBFUNCTION STD T10+3 ZERO EJT ORDINAL FIELD LDM DRBUF+/NAM/C.CETEST,T7 EST ORDINAL FROM CET ENTRY LPC /NAM/L.CETEST EXTRACT EST ORDINAL STD T10+1 SAVE FOR REQM MTR FUNCTION LDN REQM LOAD MONITOR FUNCTION TO REQUEST EQUIPMENT RJM MTR EXIT TO REQUEST EQUIPMENT FROM SYSTEM LDD T10+1 LOAD SYSTEM REPLY BYTE NJN CNIR.17A EXIT IF EQUIPMENT ASSIGNED LJM CNIR.19 EXIT TO CHECK NEXT EQUIPMENT ENTRY * * CHECK IF NEWLY TURNED ON EST ENTRY HAS SAME CHANNEL * AND EQUIPMENT NUMBER AS ALREADY ACTIVE FRONT END * CNIR.17A LDC 0 EST ORD OF CURRENT ENTRY (INSTR CHANGED) STD T10+1 SAVE EST ORDINAL FOR MONITOR FUNCTION SFA EST,T10+1 CALCULATE ADDRESS OF EST ENTRY ADK EQDE PLUS OFFSET FOR EQUIPMENT DESCRIPTION WORD CRD T0 READ EQUIPMENT DESCRIPTOR WORD LDD T0+1 BYTE CONTAINING CHANNEL NUMBER LPK 37B EXTRACT CHANNEL NUMBER STD T0+1 CLEAR OTHER BITS IN CHANNEL NUMBER BYTE LDN 0 INITIALIZE CET TABLE ENTRY OFFSET STD T3 INITIALIZE CET TABLE ENTRY OFFSET LDD T17 SIZE OF CET TABLE IN CM WORDS SBN /NAM/W.CETE-/NAM/W.CETHW DELTA FOR TABLE CONTROL WORD STD T2 NO OF ENTRIES IN CET TABLE CNIR.17C LDN 5 SIZE OF CET ENTRY IN PP WORDS RAD T3 OFFSET FOR NEXT CET ENTRY IN TABLE SBD T7 OFFSET OF CURRENT ENTRY FOUND ON IN EST ZJN CNIR.17F EXIT IF COMPARING TO ITSELF LDM DRBUF+/NAM/C.CETET,T3 BYTE CONTAINING ON/OFF FLAG SHN 17-/NAM/S.CETOF POSITION EQUIPMENT OFF FLAG TO SIGN PJN CNIR.17D EXIT IF THIS CET ENTRY IS ON LDM DRBUF+/NAM/C.CETTN,T3 BYTE CONTAINING ENTRY CHANGED FLG LPN /NAM/B.CETEC ENTRY CHANGED BIT ZJN CNIR.17F EXIT IF ENTRY HAS NOT BEEN PROCESSED CNIR.17D LDM DRBUF+/NAM/C.CETCH,T3 BYTE CONTAINING CHANNEL NO SHN -/NAM/S.CETCH RIGHT JUSTIFY CHANNEL NO FIELD SBD T0+1 CHANNEL NO OF NEWLY TURNED ON EST ENTRY NJN CNIR.17F EXIT IF CHANNEL NUMBERS DO NOT MATCH LDM DRBUF+/NAM/C.CETDOR,T3 BYTE CONTAINING DRIVER ORDINAL LMM DRBUF+/NAM/C.CETDOR,T7 BYTE ORDINAL OF NEW ON ENTRY LPN 17B EXTRACT DRIVER ORDINAL FIELD NJN CNIR.17L EXIT IF DIFFERENT DRIVER FOR SAME CH NO LDM DRBUF+/NAM/C.CETEN,T3 BYTE CONTAINING EQUIPMENT NO LMD T0+4 EQUIPMENT NO OF NEWLY TURNED ON EST ENTRY SHN -9D EXTRACT ONLY EQUIPMENT NUMBER FIELD IN BYTE ZJN CNIR.17O EXIT IF EQUIPMENT NUMBER MATCH CNIR.17F SOD T2 DECREMENT REMAINING NO OF ENTRIES TO CHECK NJN CNIR.17C EXIT IF NOT ALL CET ENTRIES CHECKED LJM CNIR.17U EXIT TO COMPLETE PROCESSING NEW ENTRY CNIR.17L LDN MSGCH-MSGDUP FLAG TO INDICATE DUPLICATE ENTRY DAY MSG CNIR.17O STD T3 SAVE DAYFILE MESSAGE FLAG LDD T10+1 EST ORDINAL OF BAD EST ENTRY SHN -6 RIGHT JUSTIFY MOST SIGNIFICANT DIGIT ADC 5533B CONSTANT FOR CONVERTING TO DISPLAY CODE STM MSGDUP+EST0,T3 SAVE PART OF EST ORDINAL IN DAYFILE MSG LDD T10+1 EST ORDINAL OF BAD EST ENTRY LPN 70B MIDDLE DIGIT OF EST ORDINAL SHN 3 POSITION OF DISPLAY CODE CHARACTER STD T2 SAVE MIDDLE DIGIT OF EST ORDINAL LDD T10+1 EST ORDINAL OF BAD EST ENTRY LPN 7 LEAST SIGNIFICANT DIGIT OF EST ORDINAL ADD T2 ADD MIDDLE DIGIT OF EST ORDINAL ADC 3333B CONSTANT FOR CONVERTING TO DISPLAY CODE STM MSGDUP+EST1,T3 SAVE REST OF EST ORDINAL IN DAYFILE MSG LDC MSGDUP ADDRESS OF FIRST DAYFILE MSG ADD T3 OFFSET FOR SECOND DAYFILE MSG IF NEEDED STM CNIR.17T CHANGE INSTRUCTION TO CWM ADDR OF DAY MSG LDN /NOS/OFES SUBFUNCTION CODE TO TURN OFF EQUIPMENT STD T10+2 INITIALIZE SUBFUNCTION BYTE OF SEQM FUNC LDN SEQM FUNCTION TO SET EQUIPMENT PARAMETERS RJM MTR EXIT TO TURN EST ENTRY OFF LDN DEQM RELEASE EST ENTRY RJM MTR EXIT TO RELEASE EST ENTRY LDN LDAYMSGW SIZE OF DAYFILE MESSAGE IN CM WORDS STD T3 SAVE FOR WRITING DAY MSG TO PP MSG BUFFER LDN 0 MESSAGE CONTROL = ZERO STD T12 SAVE FOR DFMM MONITOR REQUEST LDD MA ADDRESS OF PP MESSAGE BUFFER CWM *,T3 WRITE DAY MSG TO PP MESSGE BUFFER CNIR.17T EQU *-1 PP WORD TO CONTAIN ADDR OF MSG IN PP MEM LDN LDAYMSG LENGTH OF DAYFILE MESSAGE STD T11 SAVE FOR DFMM MONITOR REQUEST LDN DFMM MONITOR FUNCTION CODE TO ISSUE DAY MSG RJM MTR EXIT TO ISSUE DAYFILE MESSAGE UJN CNIR.19 EXIT TO CHECK IF ENTIRE TABLE PROCESSED CNIR.17U LDM DRBUF+/NAM/C.CETET,T7 EQUIPMENT TYPE BYTE FROM EST LPC 3777B EXTRACT EQUIPMENT TYPE BITS LMC 2RND LESS VALUE FOR MDI EQUIPMENT NJN CNIR.18 EXIT IF NOT MDI EQUIPMENT LDN 4 LOAD SUBFUNCTION CODE TO CHANGE BYTE ZERO STD T10+2 STORE SUBFUNCTION CODE LDC 7777B&1S9 LOAD MASK TO CLEAR INTERLOCKED FLAG STD T10+3 STORE MASK FOR EQUIPMENT STATUS TABLE BYTE LDN 0 CONSTANT OF ZERO STD T10+4 STORE NO FLAGS TO SET LDN SEQM LOAD FUNCTION TO SET EUIPMENT PARAMETERS RJM MTR EXIT TO RESET EQUIPMENT INTERLOCKED FLAG CNIR.18 LDN /NAM/B.CETEC LOAD ENTRY CHANGED FLAG RAM DRBUF+/NAM/C.CETTN,T7 SET ENTRY CHANGED FLAG LDN /NAM/B.CETTC LOAD TABLE CHANGED FLAG STM DRBUF+/NAM/C.CETCB SET TABLE CHANGED IN CONTROL BYTE CNIR.19 SOD T6 DECREMENT COUPLER TABLE ENTRY COUNT ZJN CNIR.20 EXIT IF ALL ENTRIES PROCESSED LDN 5 CONSTANT OF FIVE RAD T7 INCREMENT TABLE ENTRY OFFSET UJK CNIR.12 EXIT TO CHECK NEXT COUPLER TABLE ENTRY CNIR.20 LDM DRBUF+/NAM/C.CETCB LOAD COUPLER TABLE CONTROL BYTE SCN /NAM/B.CETDB CLEAR DRIVER SCANNING FLAG ADN /NAM/B.CETDC PLUS DRIVER COMPLETED FLAG STM DRBUF+/NAM/C.CETCB STORE COUPLER TABLE CONTROL BYTE LDD CBA LOAD HIGH-ORDER OF TABLE CONTROL ADDRESS SHN 12 POSITION TO HIGH-ORDER ADD CBA+1 PLUS LOW-ORDER OF TABLE CONTROL ADDRESS ADD T17 PLUS COUPLER TABLE BLOCK SIZE RJM TFL EXIT TO FROM ABSOLUTE CENTRAL ADDRESS SBD T17 LESS COUPLER TABLE BLOCK SIZE CWM DRBUF,T17 REWRITE COUPLER EQUIPMENT TABLE CNIR.21 LDM NBT,FEI LOAD HIGH-ORDER OF NETWORK BUFFER ADDRESS SHN 12 POSITION TO HIGH-ORDER ADM NBT+1,FEI PLUS LOW-ORDER OF NETWORK BUFFER ADDRESS RJM TFL EXIT TO FORM ABSOLUTE CENTRAL ADDRESS CRD T10 READ EQUIPMENT WORD FROM NETWORK BUFFER LDD T10+/NAM/C.NBTNA LOAD EQUIPMENT BYTE LPC /NAM/L.NBTEST EXTRACT EST ORDINAL STD T15 STORE EST ORDINAL OF EQUIPMENT SBD T16 LESS ENDING ORDINAL OF EST MJN CNIR.23 EXIT IF EST ADDRESS IN RANGE CNIR.22 EXIT GIBS.4 EXIT TO ERROR - NETWORK BUFFER TABLE ERROR CNIR.23 SFA EST,T15 CALCULATE ADDRESS OF EST ENTRY ADK EQDE PLUS OFFSET FOR EQUIPMENT DESCRIPTION WORD CRD T0 READ EQUIPMENT DESCRIPTION WORD LDD T0+3 LOAD EQUIPMENT BYTE FROM EST LPC 3777B EXTRACT EQUIPMENT TYPE LMC 2RND LESS VALUE FOR MDI ZJN CNIR.24 EXIT IF EQUIPMENT IS MDI LMN 2RND&2RNP LESS DELTA FOR NPU ZJN CNIR.24 EXIT IF NPU EQUIPMENT .MSS IFEQ .MSS,1 LMN 2RNP&2RNQ LESS DELTA FOR MSS EQUIPMENT TYPE ZJN CNIR.24 EXIT IF MSS EQUIPMENT .MSS ENDIF UJK CNIR.22 EXIT TO ERROR - UNKNOWN EQUIPMENT CNIR.24 LDD T0 EQUIPMENT STATUS BYTE LPN 3 EXTRACT EQUIPMENT STATUS SBN 2 SUBTRACT STATUS VALUE FOR EQUIPMENT OFF NJN CNIR.25 EXIT IF EQUIPMENT TURNED ON LDM HND,FEI LOAD HOST NODE OF FRONT END STD TN SET TERMINAL NODE TO HOST NODE LDN 0 CONSTANT OF ZERO STD CN SET CONNECTION NUMBER TO SERVICE CHANNEL RJM RCT EXIT TO READ CONNECTION TABLE ENTRY LDN /TABLES/.ESTO LOAD BLOCK RESPONSE ACTION ORDINAL STD CTL STORE BLOCK RESPONSE ACTION ORDINAL RJM EBRA EXIT TO EXECUTE BLOCK RESPONSE ACTION CNIR.25 LDK RTCL LOAD ADDRESS OF SYSTEM REAL-TIME CLOCK CRD T1 READ SYSTEM REAL-TIME CLOCK LDD T1+1 LOAD SYSTEM SECOND TIMER ADK Q.IDT PLUS IVT DATA CYCLE TIME QUANTUM STM IDT STORE IVT DATA CYCLE TIMER UJK CNIRX RETURN MSGDUP DATA L$PIP - EST XXX CH/EQ NO. ALREADY IN USE. $ DATA 0 ZERO BYTE TERMINATOR FOR DAYFILE MESSAGE EST0 EQU 5 POSITION OF FIRST EST DIGIT IN DAYFILE MSG EST1 EQU 6 POSITION OF 2ND EST DIGIT IN DAYFILE MSG MSGCH DATA L$PIP - EST XXX CH. IN USE BY ANOTHER PIP.$ DATA 0 ZERO BYTE TERMINATOR FOR DAYFILE MESSAGE LDAYMSG EQU *-MSGCH LENGTH OF DAYFILE MESSAGE. BOTH MESSAGES MUST BE THE SAME LENGTH. .LDAYMS EQU LDAYMSG+4 LENGTH FOR CONVERTING TO NO OF WORDS LDAYMSGW EQU .LDAYMS/5 LENGTH OF DAYFILE MSG IN CM WORDS GNIW SPACE 2,24 ** SUBROUTINE GNIW. * * SUBROUTINE GNIW RETURNS THE APPLICATION REQUEST WORD, * THE DRIVER ACKNOWLEDGE WORD AND THE ADDRESS OF THE * DRIVER ACKNOWLEDGE WORD. * * ENTRY - * * (DIT-DIT+1) = ADDRESS OF DRIVER INTERFACE TABLE. * * EXIT - * * (T0-T0+4) = APPLICATION REQUEST WORD, * (T10-T10+4) = DRIVER ACKNOWLEDGE WORD, * (T15-T15+1) = DRIVER ACKNOWLEDGE WORD ADDRESS. * * CALLS - * ** TFL - FORM ABSOLUTE CENTRAL ADDRESS. GNIW SUBR ENTRY/EXIT LDD DIT LOAD HIGH-ORDER OF INTERFACE TABLE ADDRESS SHN 12 POSITION TO HIGH-ORDER ADD DIT+1 PLUS LOW-ORDR OF INTERFACE TABLE ADDRESS ADN /NAM/W.DITNTP DELTA FOR APPLICATION REQUEST WORD RJM TFL EXIT TO FORM ABSOLUTE CENTRAL ADDRESS CRD T0 READ APPLICATION REQUEST WORD SBN /NAM/W.DITNTP DELTA FOR DRIVER ACKNOWLEDGE WORD CRD T10 READ DRIVER ACKNOWLEDGE WORD STD T15+1 STORE LOW-ORDER OF ADDRESS SHN -12 POSITION HIGH-ORDER OF ADDRESS STD T15 STORE HIGH-ORDER OF ADDRESS UJK GNIWX RETURN GLTA SPACE 2,22 ** SUBROUTINE GLTA. * * SUBROUTINE GLTA RETURNS THE ABSOLUTE ADDRESS OF THE PRU * LIMBO BUFFER TABLE AREA IN THE DRIVER INTERFACE TABLE. * * ENTRY - * * (DIT-DIT+1) = DRIVER INTERFACE TABLE ADDRESS, * (T7) = CENTRAL LENGTH OF LIMBO BUFFER TABLE. * * EXIT - * * (A) = ADDRESS OF LIMBO BUFFER TABLE AREA. * * CALLS - * ** TFL - FORM ABSOLUTE CENTRAL ADDRESS. GLTA SUBR ENTRY/EXIT LDD DIT LOAD HIGH-ORDER OF INTERFACE TABLE ADDRESS SHN 12 POSITION TO HIGH-ORDER ADD DIT+1 PLUS LOW-ORDER OF INTERFACE TABLE ADDRESS ADN /NAM/L.DITE DELTA FOR LIMIT OF FREE BUFF AREA RJM TFL EXIT TO FORM ABSOLUTE CENTRAL ADDRESS SBN L.FREE SET ADDRESS TO START OF FREE BUFF AREA UJK GLTAX RETURN ."O.N" EQU * OVERLAY F=TRANS,T1=(SUPPORT PROCESSORS),T2=(DRIVER SUPPORT PRO ,CESSORS) LINKS SPACE 2,6 * RESET LINKS. .ERROR SET 0 .NPRU SET 0 PSNO SPACE 2,38 ** DRIVER SUPPORT PROCESSOR PSNO. * * DRIVER SUPPORT PROCESSOR PSNO INITIALIZES FOR THE NEXT * PRU OUTPUT DATA BLOCK. A DRIVER LIMBO BUFFER IS * OBTAINED, RANDOM FLAG IS STORED IN FIRST POINTER WORD, * THE CIO ORDER REQUEST CODE IS STORED AND THE PRU BUFFER * IS LINKED TO THE PCB. * * ENTRY - * * (PRU) = PRU SIZE ORDINAL OF BUFFER, * (DROR) = DRIVER ORDINAL, * (BTI) = BUFFER TABLE INDEX, * (PCB-PCB+1) = OWNING PCB ADDRESS. * * EXIT - * * (W.PRFS+C.FSB) = CIO REQUEST CODE, * (W.PRFRST+C.FPP) = RANDOM FLAG SET, * (W.FFP+C.FFP) = CURRENT FILE POSITION. * * ERROR EXITS - * * EXIT TO *ERROR* IF LIMBO BUFFER TABLE ERROR, * EXIT TO *ERROR* IF LIMBO BUFFER FORMAT ERROR, * EXIT TO *ERROR* IF DRIVER QUEUING ERROR. * * CALLS - * * RPCB - READ WORD FROM PCB, * TFL - FORM ABSOLUTE CENTRAL ADDRESS, * RSPB - READ AND STORE ADDRESS OF PCB WORD, ** WCMW - WRITE WORD TO PCB. PSNO LINK ENTRY LDN Q.OTB LOAD OUTBOUND BUFFER ID SHN S.BTP-S.PBS POSITION BUFFER TYPE LMD PRU ADD PRU SIZE ORDINAL TO BUFFER TYPE SHN S.PBS POSITION PARTIAL BUFFER STATUS LMM DROR ADD DRIVER ORDINAL TO BUFFER STATUS STD T7 STORE REQUESTED BUFFER STATUS VALUE RJM GFO EXIT TO GET A FREE BUFFER ADDRESS RJM TFL EXIT TO FORM ABSOLUTE CENTRAL ADDRESS CRD T10 READ DRIVER HEADER WORD FROM BUFFER LDD PRU LOAD PRU SIZE ORDINAL SHN S.PBS POSITION PARTIAL BUFFER STATUS LMD T10+C.BST LESS LIMBO BUFFER STATUS VALUE ZJN PSNO.2 EXIT IF LIMBO BUFFER ASSIGNED TO DRIVER PSNO.1 EREXIT LBE EXIT TO ERROR ROUTINE - LIMBO BUFFER ERROR PSNO.2 LDD T7 LOAD REQUESTED BUFFER STATUS VALUE STD T10+C.BST STORE BUFFER STATUS VALUE LDD PCB LOAD HIGH-ORDER OF PCB ADDRESS STD T10+C.PCB STORE HIGH-ORDER OF PCB ADDRESS LDD PCB+1 LOAD LOW-ORDER OF PCB ADDRESS STD T10+C.PCB+1 STORE LOW-ORDER OF PCB ADDRESS LDN 0 CONSTANT OF ZERO STD T10+C.DLK ZERO HIGH-ORDER OF BUFFER LINK ADDRESS STD T10+C.DLK+1 ZERO LOW-ORDER OF BUFFER LINK ADDRESS LDD FBA LOAD HIGH-ORDER OF BUFFER ADDRESS SHN 12 POSITION TO HIGH-ORDER ADD FBA+1 PLUS LOW-ORDER OF BUFFER ADDRESS ADN W.CLQ DELTA FOR COMMAND LINK QUEUE FROM BUFFER RJM TFL EXIT TO FORM ABSOLUTE CENTRAL ADDRESS SBN W.CLQ DELTA FOR DRIVER HEADER WORD FROM BUFFER CWD T10 REWRITE DRIVER HEADER WORD TO BUFFER ADN W.CLQ DELTA FOR COMMAND LINK QUEUE FROM BUFFER CRD T0 READ QUEUED COMMAND WORD FROM BUFFER LDD T0+C.QIO LOAD QUEUED COMMAND IN/OUT BYTE ZJN PSNO.3 EXIT IF COMMAND QUEUE EMPTY UJK PSNO.1 EXIT TO ERROR ROUTINE - LIMBO BUFFER ERROR PSNO.3 BSS 0 CONTINUE .PBSTAT IFEQ .PBSTAT,1 LDK RTCL LOAD ADDRESS OF SYSTEM REAL-TIME CLOCK CRD T10 READ SYSTEM REAL-TIME CLOCK LDD FBA LOAD HIGH-ORDER OF BUFFER ADDRESS SHN 12 POSITON TO HIGH-ORDER ADD FBA+1 PLUS LOW-ORDER OF BUFFER ADDRESS ADN W.TML DELTA FOR LAST TIME ASSIGNED WORD RJM TFL EXIT TO FORM ABSOLUTE CENTRAL ADDRESS CWD T10 REWRITE LAST TIME ASSIGNED WORD TO BUFFER .PBSTAT ENDIF LDD FBA LOAD HIGH-ORDER OF BUFFER ADDRESS SHN 12 POSITION TO HIGH-ORDER ADD FBA+1 PLUS LOW-ORDER OF BUFFER ADDRESS ADN W.PROUT PLUS DELTA FOR OUT POINTER WORD RJM TFL EXIT TO FORM ABSOLUTE CENTRAL ADDRESS CRD T0 READ OUT DATA POINTER WORD SBN W.PROUT-W.PRFRST DELTA FOR FIRST POINTER WORD CRD T10 READ FIRST POINTER WORD STD T5+1 STORE LOW-ORDER OF FIRST POINTER ADDRESS SHN -12 POSITION HIGH-ORDER OF ADDRESS STD T5 STORE HIGH-ORDER OF FIRST POINTER ADDRESS LDD T10+C.PRUFP LOAD HIGH-ORDER OF FIRST DATA POINTER LPN 77B EXTRACT HIGH-ORDER OF FIRST DATA POINTER STD T0+C.PRUOP STORE HIGH-ORDER OF OUT DATA POINTER LDD T10+C.PRUFP+1 LOAD LOW-ORDER OF FIRST DATA POINTER STD T0+C.PRUOP+1 STORE LOW-ORDER OF OUT DATA POINTER LDD T5 LOAD HIGH-ORDER OF FIRST POINTER ADDRESS SHN 12 POSITION TO HIGH-ORDER ADD T5+1 PLUS LOW-ORDER OF FIRST DATA POINTER ADN W.PROUT-W.PRFRST DELTA FOR OUT DATA POINTER WORD CWD T0 WRITE OUT DATA POINTER WORD SBN W.PROUT-W.PRIN DELTA FOR IN DATA POINTER WORD CWD T0 WRITE IN DATA POINTER WORD LDD FBA LOAD HIGH-ORDER OF BUFFER ADDRESS SHN 12 POSITION TO HIGH-ORDER ADD FBA+1 PLUS LOW-ORDER OF BUFFER ADDRESS ADN W.PRFRST DELTA FOR FIRST POINTER WORD RJM TFL EXIT TO FORM ABSOLUTE CENTRAL ADDRESS CRD T0 READ FIRST POINTER WORD SBN W.PRFRST-W.PRFS DELTA FOR FILE STATUS WORD CRD T5 READ FILE STATUS WORD STD CBA+1 STORE LOW-ORDER ABSOLUTE BUFFER ADDRESS SHN -12 POSITION HIGH-ORDER OF ADDRESS STD CBA STORE HIGH-ORDER OF ABSOLUTE BUFFER ADDRESS LDC B.RP LOAD RANDOM PROCESSING FLAG RAD T0+C.FPP STORE RANDOM PROCESSING FLAG LDD AAC LOAD APPLICATION TO APPLICATION FLAG ZJN PSNO.4 EXIT IF NOT APPLICATION TO APPLICATION LPN /NAM/L.PCBXDD EXTRACT APPLICATION DATA DECLARATION ZJN PSNO.7 EXIT IF CONTROL WORD FORMAT PSNO.4 LDN .CIORD LOAD CIO READ REQUEST CODE PSNO.5 STD T5+C.FSB+1 STORE CIO READ REQUEST CODE LDN 0 CONSTANT OF ZERO STD T5+C.FSB CLEAR REST OF STATUS INFORMATION LDD CBA LOAD HIGH-ORDER OF ABSOLUTE BUFFER ADDRESS SHN 12 POSITION TO HIGH-ORDER ADD CBA+1 PLUS LOW-ORDER OF ABSOLUTE BUFFER ADDRESS CWD T5 REWRITE FILE STAUS WORD ADN W.PRFRST-W.PRFS DELTA FOR FIRST POINTER WORD CWD T0 REWRITE FIRST POINTER WORD LDN /NAM/W.PCBPS2 PRU STREAM PARAMETER TWO WORD ORDINAL RJM RSPB EXIT TO READ PRU PARAMETER WORD FROM PCB LDD T10+/NAM/C.PCBCDB LOAD HIGH-ORDER OF CURRENT BUFFER ADD T10+/NAM/C.PCBCDB+1 PLUS LOW-ORDER OF CURRENT BUFFER ZJN PSNO.6 EXIT IF NO BUFFER QUEUED TO PCB EREXIT DQE EXIT TO ERROR - DRIVER QUEUING ERROR PSNO.6 LDD FBA LOAD HIGH-ORDER OF NEXT BUFFER ADDRESS STD T10+/NAM/C.PCBCDB STORE HIGH-ORDER OF CURRENT BUFFER STD T10+/NAM/C.PCBLDB STORE HIGH-ORDER LAST BUFFER ADDRESS LDD FBA+1 LOAD LOW-ORDER OF NEXT BUFFER ADDRESS STD T10+/NAM/C.PCBCDB+1 STORE LOW-ORDER OF CURRENT BUFFER STD T10+/NAM/C.PCBLDB+1 STORE LOW-ORDER LAST BUFFER ADDRESS RJM WCMW EXIT TO WRITE PRU PARAMETER WORD TO PCB UJK /STATES/SRMS EXIT TO REQUEST MASS STORAGE PSNO.7 LDC .CIORCW LOAD CIO READ REQUEST CODE UJK PSNO.5 EXIT TO STORE CIO READ REQUEST CODE PCMS SPACE 2,26 ** DRIVER SUPPORT PROCESSOR PCMS. * * DRIVER SUPPORT PROCESSOR PCMS WAITS FOR A MASS STORAGE * OPERATION TO COMPLETE. IF AN ERROR OCCURES THE ERROR * CODE IS TRANSFERRED TO THE PCB. * * ERROR EXITS - * * EXIT TO *ERROR* IF DRIVER QUEUING ERROR. * * CALLS - * * RPCB - READ WORD FROM PCB, * TFL - FORM ABSOLUTE CENTRAL ADDRESS, * RSPB - READ AND STORE ADDRESS OF PCB WORD, * WCMW - WRITE WORD TO PCB, * ESRA - EXECUTE STREAM RESPONSE ACTION PROCESSOR. * * PROCESSOR CALLS - * ** STREAM STATE RESPONSE ACTION PROCESSOR. PCMS LINK ENTRY LDN /NAM/W.PCBPS2 PRU STREAM PARAMETER TWO WORD ORDINAL RJM RPCB EXIT TO READ PRU PARAMETER WORD FROM PCB LDD T10+/NAM/C.PCBCDB LOAD HIGH-ORDER OF CURRENT BUFFER SHN -S.EIR POSITION EOI RECEIVED TO LOW-ORDER STD T17 STORE EOI RECEIVED FLAG LDD T10+/NAM/C.PCBCDB LOAD HIGH-ORDER OF CURRENT BUFFER LPN 37B EXTRACT ADDRESS BITS SHN 12 POSITION TO HIGH-ORDER ADD T10+/NAM/C.PCBCDB+1 PLUS LOW-ORDER OF CURRENT BUFFER NJN PCMS.2 EXIT IF DATA BUFFER QUEUED EREXIT DQE EXIT TO ERROR - DRIVER QUEUING ERROR PCMS.1 LDD BSBC LOAD BLOCK SERIAL NUMBERS AND BACK FLAGS SHN -/NAM/S.IBC OUTSTANDING BACK COUNT TO LOW-ORDER LPN /NAM/L.IBC EXTRACT OUTSTANDING BACK COUNT ZJN PCMS.1A EXIT IF NO OUTSTANDING BACKS UJK /STATES/SPIQ.7 EXIT TO ISSUE BACK TO FE PCMS.1A EXIT NPRU EXIT TO PROCESS NEXT PRU STREAM PCMS.2 ADN W.FFP DELTA FOR DETAIL ERROR STATUS WORD RJM TFL EXIT TO FORM ABSOLUTE CENTRAL ADDRESS CRD T0 READ DETAIL ERROR STATUS WORD SBN W.FFP-W.PRFS DELTA FOR FILE STATUS WORD CRD T5 READ FILE STATUS WORD LDD T5+C.FSB+1 LOAD LOW-ORDER OF FILE STATUS LPN 1 EXTRACT COMPLETED BIT ZJN PCMS.1 EXIT IF OPERATION NOT COMPLETED LDD T5+C.FSB+1 LOAD LOW-ORDER OF FILE STATUS SHN -9-1 POSITION ERROR STATUS TO LOW-ORDER NJN PCMS.6 EXIT IF ERROR STATUS RETURNED LDD T5+C.FSB+1 LOAD LOW-ORDER OF FILE STATUS SHN -8-1 POSITION EOI READ FLAG TO LOW-ORDER NJN PCMS.5 EXIT IF EOI READ LDD T17 LOAD EOI RECEIVED FLAG NJN PCMS.5 EXIT IF EOI RECEIVED PCMS.3 LDN /TABLES/.SMSC ACTION ORDINAL FOR MASS STORAGE COMPLETE PCMS.4 UJK /STATES/SCWL.4 EXIT TO EXECUTE STREAM RESPONSE ACTION PCMS.5 LDD AAC LOAD APPLICATION TO APPLICATION FLAG NJN PCMS.7 EXIT IF APPLICATION CONNECTION LDN /TABLES/.SMSE ACTION ORDINAL FOR MASS STORAGE EOI UJK PCMS.4 EXIT TO EXECUTE STREAM RESPONSE ACTION PCMS.6 LDD T0+C.DEC LOAD DETAIL ERROR CODE LPC 0#FF EXTRACT MASS STORAGE ERROR CODE STD T17 STORE MASS STORAGE ERROR CODE LDN /NAM/W.PCBPS4 PRU STREAM PARAMETER FOUR WORD ORDINAL RJM RSPB EXIT TO READ PRU PARAMETER WORD FROM PCB LDD T17 LOAD MASS STORAGE ERROR CODE STD T10+/NAM/C.PCBMEC STORE MASS STORAGE ERROR CODE RJM WCMW EXIT TO WRITE PRU PARAMETER WORD TO PCB LDD AAC LOAD APPLICATION TO APPLICATION FLAG NJN PCMS.8 EXIT IF APPLICATION CONNECTION LDN /TABLES/.SMER ACTION ORDINAL FOR MASS STORAGE ERROR UJK PCMS.4 EXIT TO EXECUTE STREAM RESPONSE ACTION PCMS.7 LDN /TABLES/.SFTE ACTION ORDINAL FOR END OF FILE TRANSFER UJK PCMS.4 EXIT TO EXECUTE STREAM RESPONSE ACTION PCMS.8 LDN /TABLES/.SFTR ACTION ORDINAL FOR FILE TRANSFER ERROR UJK PCMS.4 EXIT TO EXECUTE STREAM RESPONSE ACTION TMSS SPACE 2,34 ** DRIVER SUPPORT PROCESSOR TMSS. * * DRIVER SUPPORT PROCESSOR TMSS PROCESSES THE TERMINATION * OF A PRU STREAM. IF DATA IS QUEUED TO THE PCB THE * STREAM STATE RESPONSE ACTION FOR QUEUED DATA IS * EXECUTED. IF THE STREAM HAS ISSUED A PRU ON COMMAND * TO THE NPU A PRU OFF COMMAND IS ISSUED TO THE NPU. IF * A BREAK HAS BEEN RECEIVED A RESET IS SENT TO THE NPU. * THE INBOUND BUFFER IS CHECKED FOR SPACE FOR THE PRU * STREAM TERMINATED WORKLIST. IF THE BUFFER SPACE IS * AVAILABLE THE WORKLIST IS INITIALIZED, THE COUNT OF PRU * STREAMS IS DECREMENTED AND THE STREAM STATE RESPONSE * ACTION FOR PRU STREAM TERMINATED IS EXECUTED. * * EXIT - * * (PRUSTS) = DECREMENTED. * * CALLS - * * RPCB - READ WORD FROM PCB, * ESRA - EXECUTE STREAM RESPONSE ACTION PROCESSOR, * CIBS - CHECK INBOUND BUFFER SPACE, * IWL - INITIALIZE WORKLIST. * * PROCESSOR CALLS - * ** STREAM STATE RESPONSE ACTION PROCESSOR. TMSS LINK ENTRY LDN /NAM/W.PCBPS2 PRU STREAM PARAMETER TWO WORD ORDINAL RJM RPCB EXIT TO READ PRU PARAMETER WORD FROM PCB LDD T10+/NAM/C.PCBCDB LOAD HIGH-ORDER OF CURRENT BUFFER ADD T10+/NAM/C.PCBCDB+1 PLUS LOW-ORDER OF CURRENT BUFFER ZJN TMSS.2 EXIT IF NO DATA QUEUED TO PCB LDN /TABLES/.SQID STREAM ACTION ORDINAL FOR QUEUED DATA TMSS.1 UJK /STATES/SCWL.4 EXIT TO EXECUTE STREAM RESPONSE ACTION TMSS.2 LDI FEI LOAD FRONT END STATE NJN TMSS.4 EXIT IF FRONT END NOT OPERATIONAL LDN /NAM/W.PCBPS6 PRU STREAM PARAMETER SIX WORD ORDINAL RJM RPCB EXIT TO READ PRU PARAMETER WORD FROM PCB LDD T10+/NAM/C.PCBFTS LOAD FILE TRANSFER STATUS BYTE LPN /NAM/B.PCBBRR EXTRACT BREAK RECEIVED FLAG ZJN TMSS.3 EXIT IF NOT BREAK RECEIVED LDD BSBC LOAD BLOCK SERIAL NUMBERS AND BACK COUNTS SCN /NAM/M.OBN&/NAM/L.OBC RESET OUTPUT SERIAL & BACK COUNT ADN /NAM/I.OBN SET OUTPUT SERIAL NUMBER TO ONE STD BSBC STORE BLOCK SERIAL NUMBERS AND BACK COUNTS LDN /BLOCK/L.RST TEXT CHARACTER LENGTH OF RESET STM NNH+/NAM/C.MCC STORE OUTPUT TEXT CHARACTER LENGTH LDN /BLOCK/RST LOAD RESET BLOCK TYPE UJK /STATES/SOPC.3 EXIT TO ISSUE RESET TO NPU TMSS.3 LDD T10+/NAM/C.PCBFTS LOAD FILE TRANSFER STATUS BYTE LPN /NAM/B.PCBFTO EXTRACT PRU MODE ZJN TMSS.4 EXIT IF PRU MODE NOT ON LDD BSBC LOAD BLOCK SERIAL NUMBERS AND BACK COUNTS LPN /NAM/L.OBC EXTRACT OUTSTANDING OUTPUT BACK COUNT LMD NBL LESS NETWORK BLOCK LIMIT ZJN TMSS.5 EXIT IF NETWORK BLOCK LIMIT REACHED LDN /TABLES/FTOF LOAD COMMAND ORDINAL TO TURN PRU MODE OFF UJK /STATES/SOPC.2 EXIT TO STORE COMMAND ORDINAL TMSS.4 LDN /NAM/WHCM LENGTH OF PRU STREAM TERMINATED WORKLIST RJM CIBS EXIT TO CHECK INBOUND BUFFER SPACE PJN TMSS.6 EXIT IF SUFFICIENT INBOUND BUFFER SPACE TMSS.5 EXIT NPRU EXIT TO PROCESS NEXT PRU STREAM TMSS.6 LDN /NAM/WHCM LENGTH OF PRU TERMINATED WORKLIST STM NBH+/NAM/C.BWD+1 STORE WORKLIST WORD LENGTH LDN /NAM/W.PCBPS2 PRU STREAM PARAMETER TWO WORD ORDINAL RJM RPCB EXIT TO READ PRU PARAMETER WORD FROM PCB LDD T10+/NAM/C.PCBTRC LOAD TERMINATE PRU REASON CODE SHN 12 POSITION TO HIGH-ORDER ADN /NAM/PTWL PLUS PRU STREAM TERMINATED WORKLIST REQUEST RJM IWL EXIT TO INITIALIZE WORKLIST LDN /TABLES/.SPST STREAM ACTION ORDINAL FOR PRU TERMINATED UJK TMSS.1 EXIT TO EXECUTE STREAM RESPONSE ACTION TSR SPACE 2,34 ** DRIVER SUPPORT PROCESSOR TSR. * * DRIVER SUPPORT PROCESSOR TSR TRANSFERS THE START OF * DATA REPLY TO THE REMOTE APPLICATION. IF THERE IS * AN IMMEDIATED WORKLIST QUEUED FOR THE STREAM IT IS * PROCESSED. IF THE NETWORK BLOCK LIMIT HAS NOT BEEN * REACHED THE LEVEL SEVEN COMMAND ORDINAL IS STORED, THE * COMMAND ACTION PROCESSOR IS CALLED AND THE LEVEL SEVEN * COMMAND IS TRANSFERRED TO THE REMOTE APPLICATION. * * ENTRY - * * (BSBC) = BLOCK SERIAL NUMBERS AND BACK COUNTS, * (NBL) = NETWORK BLOCK LIMIT FOR STREAM. * * EXIT - * * (CO) = LEVEL SEVEN COMMAND ORDINAL. * * CALLS - * * CIWL - CHECK FOR IMMEDIATE WORKLIST ENTRY, * EOCP - EXECUTE LEVEL SEVEN COMMAND PROCESSOR, * CEH - TRANSFER OUTPUT TO NPU. * * PROCESSOR CALLS - * ** LEVEL SEVEN OUTPUT COMMAND PROCESSOR. TSR LINK TRANSFER START DATA REPLY TO REMOTE LDN /TABLES/SRL7 LOAD START DATA REPLY COMMAND ORDINAL TSR.1 LINK ENTRY STD T17 STORE LEVEL SEVEN COMMAND ORDINAL RJM CIWL EXIT TO CHECK FOR IMMEDIATE WORKLIST ENTRY ZJN TSR.2 EXIT IF NO WORKLIST OR REGULATION UJK /STATES/SCWL.1 EXIT TO PROCESS WORKLIST OR REGULATION TSR.2 LDD BSBC LOAD BLOCK SERIAL NUMBERS AND BACK COUNTS LPN /NAM/L.OBC EXTRACT OUTSTANDING OUTPUT BACK COUNT LMD NBL LESS NETWORK BLOCK LIMIT ZJN TSR.3 EXIT IF NETWORK BLOCK LIMIT REACHED LDD T17 LOAD LEVEL SEVEN COMMAND ORDINAL UJK /STATES/SOPC.2 EXIT STORE LEVEL SEVEN COMMAND ORDINAL TSR.3 UJK /STATES/SPIQ.6 EXIT TO CHECK FOR BACK OWED ICR SPACE 2,34 ** DRIVER SUPPORT PROCESSOR ICR. * * DRIVER SUPPORT PROCESSOR ICR TRANSFERS THE CHECKMARK * REPLY TO THE REMOTE APPLICATION. IF THERE IS AN * IMMEDIATED WORKLIST QUEUED FOR THE STREAM IT IS * PROCESSED. IF THE NETWORK BLOCK LIMIT HAS NOT BEEN * REACHED THE LEVEL SEVEN COMMAND ORDINAL IS STORED, THE * COMMAND ACTION PROCESSOR IS CALLED AND THE LEVEL SEVEN * COMMAND IS TRANSFERRED TO THE REMOTE APPLICATION. * * ENTRY - * * (BSBC) = BLOCK SERIAL NUMBERS AND BACK COUNTS, * (NBL) = NETWORK BLOCK LIMIT FOR STREAM. * * EXIT - * * (CO) = LEVEL SEVEN COMMAND ORDINAL. * * CALLS - * * CIWL - CHECK FOR IMMEDIATE WORKLIST ENTRY, * EOCP - EXECUTE LEVEL SEVEN COMMAND PROCESSOR, * CEH - TRANSFER OUTPUT TO NPU. * * PROCESSOR CALLS - * ** LEVEL SEVEN OUTPUT COMMAND PROCESSOR. ICR LINK TRANSFER CHECKMARK REPLY TO REMOTE LDN /TABLES/MRL7 LOAD CHECKMARK REPLY COMMAND ORDINAL EXIT TSR.1 EXIT TO STORE LEVEL SEVEN COMMAND ORDINAL OIC SPACE 2,28 ** DRIVER SUPPORT PROCESSOR OIC. * * DRIVER SUPPORT PROCESSOR OIC PROCESSES A QUEUED PRU * INTERRUPT COMMAND TO THE NPU. IF THERE IS A IMMEDIATE * WORKLIST COMMAND QUEUED FOR THE STREAM IT IS PROCESSED. * IF THERE IS SUFFICIENT INBOUND BUFFER SPACE FOR THE * WORKLIS, COMPLETED WORKLIST THE WORKLIST PARAMETER WORD * IS OBTAINED FROM THE PCB, THE INTERRUPT COMMAND CONTROL * CODE AND WORKLIST POINTER WORD ORDINAL ARE STORED AND * THE PRU INTERRUPT COMMAND IS TRANSFERRED TO THE NPU. * * EXIT - * * (NCH) = INTERRUPT COMMAND CONTROL CODE, * (WLP) = WORKLIST POINTER WORD ORDINAL. * * CALLS - * * CIWL - CHECK FOR IMMEDIATE WORKLIST ENTRY, * CIBS - CHECK INBOUND BUFFER SPACE, * RPCB - READ WORD FROM PCB, * GTE - GET DRIVER CONTROL TABLE ENTRY, ** CEH - TRANSFER OUTPUT TO NPU. OIC LINK OUTPUT PRU STREAM INTERRUPT COMMAND TO NPU RJM CIWL EXIT TO CHECK FOR IMMEDIATE WORKLIST ENTRY ZJN OIC.1 EXIT IF NO WORKLIST OR REGULATION UJK /STATES/SCWL.1 EXIT TO RPOCESS WORKLIST OR REGULATION OIC.1 LDN /NAM/WLCCM LENGTH OF WORKLIST COMPLETE WORKLIST RJM CIBS EXIT TO CHECK FOR INBOUND BUFFER SPACE PJN OIC.2 EXIT IF SUFFICIENT INBOUND BUFFER SPACE EXIT NPRU EXIT TO PROCESS NEXT PRU STREAM OIC.2 LDN /NAM/W.PCBPS1 PRU STREAM PARAMETER ONE WORD ORDINAL RJM RPCB EXIT TO READ PRU PARAMETER WORD FROM PCB LDD T10+/NAM/C.PCBWP LOAD WORKLIST PARAMETER BYTE LPN 77B EXTRACT INTERRUPT COMMAND CONTROL CODE ADC /TABLES/NPOC PLUS FWA OF OUTPUT COMMAND MESSAGE TABLE RJM GTE EXIT TO GET DRIVER CONTROL TABLE ENTRY STM NCH STORE INTERRUPT COMMAND CONTROL CODE LDD T10+/NAM/C.PCBWP LOAD WORKLIST PARAMETER BYTE SHN -6 POSITION WORKLIST PARAMETER WORD ORDINAL STD WLP STORE WORKLIST POINTER WORD ORDINAL LDN /BLOCK/L.ICMD LENGTH OF INTERRUPT COMMAND TEXT STM NNH+/NAM/C.MCC STORE OUTPUT TEXT CHARACTER LENGTH LDN /BLOCK/ICMD LOAD INTERRUPT COMMAND BLOCK TYPE UJK /STATES/SOPC.3 EXIT TO ISSUE INTERRUPT COMMAND TO NPU WNA SPACE 2,36 ** DRIVER SUPPORT PROCESSOR WNA. * * DRIVER SUPPORT PROCESSOR WNA WAITS FOR NO OUTPUT * ACTIVITY ON THE PRU STREAM. THE OLD STATE IS SET TO * THE CURRENT STATE. THE IMMEDIATE AND HIGH PRIORITY * WORKLIST QUEUES ARE CHECKED FOR WORKLISTS TO PROCESS. * IF THERE ARE NO OUTSTANDING OUTPUT BACKS AND THE STREAM * IS AN APPLICATION TO APPLICATION STREAM A CHECK IS * MADE FOR OUTSTANDING CHECKMARK REPLYS. IF THERE ARE NO * OUTSTANDING CHECKMARK REPLYS THE STREAM STATE RESPONSE * ACTION FOR NO OUTPUT ACTIVITY IS EXECUTED. OTHERWISE * IF THERE ARE OUTSTANDING BACKS OWED ON THE STREAM AN * ATTEMPT IS MADE TO TRANSFER A BACK TO THE NPU. * * ENTRY - * * (BSBC) = BLOCK SERIAL NUMBERS AND BACK COUNTS, * (AAC) = APPLICATION TO APPLICATION FLAG. * * CALLS - * * SCSS - SET OLD STATE TO CURRENT STREAM STATE, * CIHQ - CHECK IMMEDIATE AND HIGH PRIORITY QUEUE, * RPCB - READ WORD FROM PCB, * CL7T - CHECK FOR LEVEL SEVEN TIMEOUT, * ESRA - EXECUTE STREAM RESPONSE ACTION PROCESSOR, * CEH - TRANSFER OUTPUT TO NPU. * * PROCESSOR CALLS - * ** STREAM STATE RESPONSE ACTION PROCESSOR. WNA LINK WAIT FOR NO OUTPUT ACTIVITY RJM SCSS EXIT TO SET OLD STATE TO CURRENT STATE WNO SPACE 2,36 ** DRIVER SUPPORT PROCESSOR WNO. * * DRIVER SUPPORT PROCESSOR WNO WAITS FOR NO OUTPUT * ACTIVITY ON THE PRU STREAM. THE IMMEDIATE AND HIGH * PRIORITY WORKLIST QUEUES ARE CHECKED FOR WORKLISTS TO * PROCESS. IF THERE ARE NO OUTSTANDING OUTPUT BACKS * AND THE STREAM IS AN APPLICATION TO APPLICATION STREAM * A CHECK IS MADE FOR OUTSTANDING CHECKMARK REPLYS. IF * THERE ARE NO OUTSTANDING CHECKMARK REPLYS THE STREAM * STATE RESPONSE ACTION FOR NO OUTPUT ACTIVITY IS * EXECUTED. OTHERWISE IF THERE ARE OUTSTANDING BACKS * OWED ON THE STREAM AN ATTEMPT IS MADE TO TRANSFER A * BACK TO THE NPU. * * ENTRY - * * (BSBN) = BLOCK SERIAL NUMBERS AND BACK COUNTS, * (AAC) = APPLICATION TO APPLICATION FLAG. * * CALLS - * * RPCB - READ WORD FROM PCB, * CL7T - CHECK FOR LEVEL SEVEN TIMEOUT, * ESRA - EXECUTE STREAM RESPONSE ACTION PROCESSOR, * CEH - TRANSFER OUTPUT TO NPU. * * PROCESSOR CALLS - * ** STREAM STATE RESPONSE ACTION PROCESSOR. WNO LINK WAIT NO OUTPUT ACTIVITY RJM CIWL EXIT TO CHECK IMMEDIATE WORKLIST QUEUE NJN WNO.0H RETURN IF WORKLIST OR REGULATION LDN /NAM/W.PCBHWP DELTA FOR HIGH-PRIORITY WORKLIST POINTER STD WLP STORE WORKLIST POINTER WORD DISPLACEMENT RJM RWLP EXIT TO READ WORKLIST QUEUE POINTER WORD ZJN WNO.1 EXIT IF NO WORKLIST OR NOT REGULATION WNO.0H UJK /STATES/SCWL.1 EXIT TO PROCESS WORKLIST OR REGULATION WNO.1 LDD BSBC LOAD BLOCK SERIAL NUMBERS AND BACK FLAGS LPC /NAM/L.IBC*/NAM/I.IBC+/NAM/L.OBC*/NAM/I.OBC BACK COUNTS NJN WNO.3 EXIT IF OUTSTANDING BACKS LDD AAC LOAD APPLICATION TO APPLICATION FLAG ZJN WNO.2 EXIT IF NOT APPLICATION TO APPLICATION LDN /NAM/W.PCBPS5 PRU STREAM PARAMETER FIVE WORD ORDINAL RJM RPCB EXIT TO READ PRU PARAMETER WORD FROM PCB LDD T10+/NAM/C.PCBOCM LOAD OUTSTANDING CHECKMARK COUNT NJN WNO.3 EXIT IF OUTSTANDING CHECKMARKS WNO.2 LDN /TABLES/.SNOA ACTION ORDINAL FOR NO OUTPUT ACTIVITY UJK /STATES/SCWL.4 EXIT TO EXECUTE STREAM RESPONSE ACTION WNO.3 UJK /STATES/SPIQ.6 EXIT TO CHECK FOR BACK OWED PPOS SPACE 2,20 ** DRIVER SUPPORT PROCESSOR PPOS. * * DRIVER SUPPORT PROCESSOR PPOS PROCESSES THE QUEUE FOR * PRU OUTPUT STREAMS. IF AN APPLICATION WORKLIST IS * AVAILABLE IT IS PROCESSED. IF THERE ARE OUTSTANDING * BACKS OWED ON THE STREAM AN ATTEMPT IS MADE TO TRANSFER * A BACK TO THE FRONT END. IF THE CONNECTION IS AN * APPLICATION TO APPLICATION CONNECTION AND THE NETWORK * BLOCK LIMIT HAS NOT BEEN REACHED FOR THE STREAM A CHECK * IS MADE FOR A CHECKMARK REQUIRED. IF A CHECKMARK IS * REQUIRED AND THE LAST CHECKMARK HAS BEEN ACKNOWLEDGED * AN ATTEMPT IS MADE TO ISSUE THE CHECKMARK COMMAND TO * THE FRONT END. IF A CHECKMARK IS NOT REQUIRED A CHECK * IS MADE TO SEE IF THE CHECKMARK WINDOW SIZE HAS BEEN * REACHED. IF THE CHECKMARK WINDOW SIZE HAS BEEN REACHED * THE NEXT PRU STREAM IS PROCESSED. OTHERWISE THE STREAM * STATE RESPONSE ACTION FOR OUTPUT ALLOWED IS EXECUTED. * * ENTRY - * * (BSBC) = BLOCK SERIAL NUMBERS AND BACK COUNTS, * (NBL) = NETWORK BLOCK LIMIT FOR STREAM, * (AAC) = APPLICATION TO APPLICATION FLAG. * * CALLS - * * CIWL - CHECK FOR IMMEDIATE WORKLIST ENTRY, * CEH - TRANSFER OUTPUT TO FRONT END, * CWLQ - CHECK FOR NORMAL WORKLIST ENTRY, * RPCB - READ WORD FROM PCB, * ESRA - EXECUTE STREAM RESPONSE ACTION PROCESSOR, * CL7T - CHECK FOR LEVEL SEVEN TIMEOUT. * * PROCESSOR CALLS - * ** STREAM STATE RESPONSE ACTION PROCESSOR. PPOS LINK ENTRY RJM CIWL EXIT TO CHECK FOR IMMEDIATE WORKLIST ENTRY ZJN PPOS.2 EXIT IF NO WORKLIST OR NOT REGULATION PPOS.1 LJM /STATES/SCWL.1 EXIT TO PROCESS WORKLIST OR REGULATION PPOS.2 LDD BSBC LOAD BLOCK SERIAL NUMBERS AND BACK FLAGS SHN -/NAM/S.IBC OUTSTANDING INPUT BACK COUNT TO LOW-ORDER LPN /NAM/L.IBC EXTRACT OUTSTANDING INPUT BACK COUNT ZJN PPOS.3 EXIT IF NO OUTSTANDING BACKS OWED LJM /STATES/SPIQ.7 EXIT TO ISSUE BACK TO FRONT END PPOS.3 RJM CWLQ EXIT TO CHECK FOR NORMAL WORKLIST ENTRY NJN PPOS.1 EXIT IF WORKLIST TO PROCESS LDD BSBC LOAD BLOCK SERIAL NUMBERS AND BACK FLAGS LPN /NAM/L.OBC EXTRACT OUTSTANDING OUTPUT BACK COUNT SBD NBL LESS NETWORK BLOCK LIMIT FOR STREAM PJN PPOS.6 EXIT IF NETWORK BLOCK LIMIT REACHED LDD AAC LOAD APPLICATION TO APPLICATION FLAG ZJN PPOS.5 EXIT IF NOT APPLICATION TO APPLICATION LDN /NAM/W.PCBPS6 PRU STREAM PARAMETER SIX WORD ORDINAL RJM RPCB EXIT TO READ PRU PARAMETER WORD FROM PCB SBN /NAM/W.PCBPS6-/NAM/W.PCBPS5 DELTA FOR WORD FIVE CRD T0 READ PRU PARAMETER WORD FROM PCB SBN /NAM/W.PCBPS5-/NAM/W.PCBIWP DELTA FOR WINDOW SIZE CRD T0+/NAM/C.PCBOCM+1 READ WINDOW SIZE WORD FROM PCB LDD T10+/NAM/C.PCBCMC LOAD CHECKMARK CONTROL BYTE ZJN PPOS.5 EXIT IF NO CHECKMARKING LPN 77B EXTRACT BLOCKS UNTIL CHECKMARK REQUIRED NJN PPOS.4 EXIT IF CHECKMARK NOT REQUIRED LDD T0+/NAM/C.PCBOCM LOAD OUTSTANDING CHECKMARK COUNT NJN PPOS.6 EXIT IF LAST CHECKMARK NOT ACKNOWLEDGED LDN /TABLES/MSL7 LOAD CHECKMARK COMMAND ORDINAL LJM /STATES/SOPC.2 EXIT TO STORE LEVEL SEVEN COMMAND ORDINAL PPOS.4 LDD T0+/NAM/C.PCBOCM+1+/NAM/C.PCBFTP LOAD PARAMETER BYTE SHN -/NAM/S.PCBCWS CHECKMARK WINDOW SIZE TO LOW-ORDER LMD T0+/NAM/C.PCBOCM LESS OUTSTANDING CHECKMARK COUNT ZJN PPOS.6 EXIT IF CHECKMARK WINDOW REACHED PPOS.5 LDN /TABLES/.SOPA STREAM ACTION ORDINAL FOR OUTPUT ALLOWED LJM /STATES/SCWL.4 EXIT TO EXECUTE STREAM RESPONSE ACTION PPOS.6 LJM /STATES/SPIQ.8 EXIT TO CHECK FOR LEVEL SEVEN TIMEOUT GFO SPACE 2,20 ** SUBROUTINE GFO * * SUBROUTINE GFO SEARCHES FOR A FREE PRU BUFFER OF THE * SPECIFIED TYPE AND DELINKS IT FROM THE FREE BUFFER * CHAIN. THE ID CODE OF THE DELINKED BUFFER IS CHANGED * AND ITS ADDRESS IS RETURNED. * * ENTRY - * * (BTI) = BUFFER TABLE INDEX. * * EXIT - * * (A) = DRIVER HEADER ADDRESS OF THE BUFFER, * (FBA-FBA+1) = DRIVER HEADER ADDRESS OF THE BUFFER. * * ERROR EXIT - * ** EXIT TO *ERROR* IF FREE BUFFER TABLE ERROR. GFO SUBR ENTRY/EXIT LDM FPB,BTI HIGH-ORDER OF FIRST BUFFER ADDRESS SHN 12 POSITION TO HIGH-ORDER ADM FPB+1,BTI LOW-ORDER OF FIRST BUFFER ADDRESS NJN GFO.1 EXIT IF FREE BUFFER EXISTS LJM GFO.4 EXIT IF NO BUFFER GFO.1 RJM TFL EXIT TO FORM ABSOLUTE CENTRAL ADDRESS CRD T10 READ NAM BLOCK HEADER FROM FIRST BUFFER STD T15+1 LOW-ORDER OF ABSOLUTE ADDRESS FIRST BUFFER SHN -12 POSITION HIGH-ORDER OF ADDRESS STD T15 HIGH-ORDER OF ABSOLUTE ADDRESS FIRST BUFFER LDD T10+/NAM/C.BID LOAD BLOCK ID BYTE FROM FIRST BUFFER SHN -/NAM/S.BID POSITION BLOCK ID TO LOW-ORDER LMN /NAM/Q.FPBID LESS FREE PRU BUFFER ID STD T17 STORE AVAILABILITY OF THE FIRST BUFFER GFO.2 LDD T10+/NAM/C.DPT HIGH-ORDER OF NEXT BUFFER ADDRESS LPN 37B EXTRACT ADDRESS STD FBA STORE HIGH-ORDER OF NEXT BUFFER ADDRESS SHN 12 POSITION TO HIGH-ORDER ADD T10+/NAM/C.DPT+1 LOW-ORDER OF NEXT BUFFER ADDRESS STD FBA+1 STORE LOW-ORDRE OF NEXT BUFFER ADDRESS ZJN GFO.3 EXIT IF END OF BUFFER CHAIN RJM TFL EXIT TO FORM ABSOLUTE CENTRAL ADDRESS CRD T0 READ NAM BLOCK HEADER FROM NEXT BUFFER STD T5+1 LOW-ORDER ABSOLUTE ADDRESS NEXT BUFFER SHN -12 POSITION HIGH-ORDER STD T5 HIGH-ORDER ABSOLUTE ADDRESS NEXT BUFFER LDD T0+/NAM/C.BID LOAD BLOCK ID BYTE FROM NEXT BUFFER SHN -/NAM/S.BID POSITION BLOCK ID TO LOW-ORDER LMN /NAM/Q.FPBID LESS FREE PRU BUFFER ID ZJN GFO.5 EXIT IF BUFFER IS FREE LDD T5 HIGH-ORDER ABSOLUTE ADDRESS LINKED BUFFER STD T15 STORE HIGH-ORDER ABSOLUTE ADDRESS CUR BUF SHN 12 POSITION TO HIGH-ORDER ADD T5+1 LOW-ORDER ABSOLUTE ADDRESS LINKDED BUFFER STD T15+1 STORE LOW-ORDER ABSOLUTE ADDRESS CUR BUFF CRD T10 READ NAM BLOCK HEADER CURRENT BUFFER UJK GFO.2 EXIT TO SEARCH FOR FREE BUFFER GFO.3 LDD T17 LOAD FIRST BUFFER AVAILABLITY NJN GFO.4 EXIT IF NO BUFFER AVAILABLE LDM FPB,BTI HIGH-ORDER OF FIRST BUFFER ADDRESS STD FBA STORE HIGH-ORDER OF FIRST BUFFER ADDRESS SHN 12 POSITION TO HIGH-ORDER ADM FPB+1,BTI LOW-ORDER OF FIRST BUFFER ADDRESS STD FBA+1 STORE LOW-ORDER OF FIRST BUFFER ADDRESS RJM TFL EXIT TO FORM ABSOLUTE CENTRAL ADDRESS CRD T10 READ NAM BLOCK HEADER FROM FIRST BUFFER STD T15+1 LOW-ORDER OF ABSOLUTE ADDRESS FIRST BUFFER SHN -12 POSITION HIGH-ORDER OF ADDRESS STD T15 HIGH-ORDER OF ABSOLUTE ADDRESS FIRST BUFFER LDN /NAM/Q.UOCID BUFFER USED-ON-CHAIN ID SHN /NAM/S.BID POSITION BLOCK ID STD T10+/NAM/C.BID STORE BLOCK ID BYTE TO ASSIGNED BUFFER UJN GFO.6 EXIT GFO.4 EREXIT LBE EXIT TO ERROR ROUTINE - FREE BUFFER ERROR GFO.5 LDN /NAM/Q.PRUID LOAD PRU BLOCK ID SHN /NAM/S.BID POSITION BLOCK ID STD /NAM/C.BID STORE PRU BLOCK ID BYTE LDD T5 HIGH-ORDER ABSOLUTE ADDRESS DELINKED BUFFER SHN 12 POSITION TO HIGH-ORDER ADD T5+1 LOW-ORDER ABSOLUTE ADDRESS DELINKED BUFFER CWD T0 REWRITE NAM BLOCK HEADER DELINKED BUFFER LDD T0+/NAM/C.DPT HIGH-ORDER ADDRESS LINKED FROM FOUND LPN 37B EXTRACT HIGH-ORDER ADDRESS STD T10+/NAM/C.DPT HIGH-ORDER ADDRESS LINKED FROM FOUND LDD T0+/NAM/C.DPT+1 LOW-ORDER ADDRESS LINKED FROM FOUND STD T10+/NAM/C.DPT+1 LOW-ORDER ADDRESS LINKED FROM FOUND GFO.6 RJM WCMW REWRITE NAM BLOCK HEADER SOM NFB,BTI DECREMENT FREE BUFFER COUNT MJN GFO.4 EXIT IF FREE BUFFER COUNT INVALID AOD FBA+1 LOW-ORDER FOUND BUFFER DRIVER HEADER ADDR SHN -12 POSSIBLE OVERFLOW RAD FBA HIGH-ORDER FOUND BUFFER DRIVER HEADER ADDR SHN 12 POSITION TO HIGH-ORDER ADD FBA+1 PLUS LOW-ORDER BUFFER DRIVER HEADER ADDRESS UJK GFOX RETURN ."O.N" EQU * OVERLAY F=TRANS,T1=(SUPPORT PROCESSORS),T2=(DIRECT OUTPUT SUPP ,ORT PROCESSORS) LINKS SPACE 2,6 * RESET LINKS. .ERROR SET 0 PEOR TITLE DRIVER SUPPORT PROCESSORS. PEOR SPACE 2,36 ** DRIVER SUPPORT PROCESSOR PEOR. * * DRIVER SUPPORT PROCESSOR PEOR PROCESSES AN END OF JOB * DIRECT OUTPUT REQUEST. IF THE NETWORK BLOCK LIMIT HAS * NOT BEEN REACHED FOR THE STREAM AND THERE IS SUFFICIENT * INBOUND BUFFER SPACE FOR THE WORKLIST COMPLETE RESPONSE * THE DIRECT OUTPUT WORKLIST IS OBTAINED. THE OUTPUT * PARAMETERS ARE INITIALIZED AND AN ATTEMPT IS MADE TO * TRANSFER THE OUTPUT BLOCK TO THE FRONT END. * * ENTRY - * * (BSBC) = BLOCK SERIAL NUMBERS AND BACK COUNTS, * (NBL) = NETWORK BLOCK LIMIT FOR STREAM. * * ERROR EXITS - * * EXIT TO *ERROR* IF DRIVER QUEUING ERROR, * EXIT TO *ERROR* IF FILE MODE ERROR. * * CALLS - * * CIBS - CHECK INBOUND BUFFER SPACE, * RPCB - READ WORD FROM PCB, * TFL - FORM ABSOLUTE CENTRAL ADDRESS, * EOVP - EXECUTE OUTPUT VALIDATION PROCESSOR, * CEH - TRANSFER OUTPUT TO FRONT END. * * PROCESSOR CALLS - * ** OUTPUT VALIDATION PROCESSOR. PEOR LINK ENTRY LDC /BLOCK/B.EOI&/BLOCK/B.EOR LOAD END OF JOB FLAGS UJN PDOR.1 EXIT TO INITIALIZE DATA BLOCK CLARIFIER PDOR SPACE 2,36 ** DRIVER SUPPORT PROCESSOR PDOR. * * DRIVER SUPPORT PROCESSOR PDOR PROCESSES A DIRECT OUTPUT * REQUEST. IF THE NETWORK BLOCK LIMIT HAS NOT BEEN * REACHED FOR THE STREAM AND THERE IS SUFFICIENT INBOUND * BUFFER SPACE FOR THE WORKLIST COMPLETE RESPONSE THE * DIRECT OUTPUT WORKLIST IS OBTAINED. THE OUTPUT * PARAMETERS ARE INITIALIZED AND AN ATTEMPT IS MADE TO * TRANSFER THE OUTPUT BLOCK TO THE FRONT END. * * ENTRY - * * (BSBC) = BLOCK SERIAL NUMBERS AND BACK COUNTS, * (NBL) = NETWORK BLOCK LIMIT FOR STREAM. * * ERROR EXITS - * * EXIT TO *ERROR* IF DRIVER QUEUING ERROR, * EXIT TO *ERROR* IF FILE MODE ERROR. * * CALLS - * * CIBS - CHECK INBOUND BUFFER SPACE, * RPCB - READ WORD FROM PCB, * TFL - FORM ABSOLUTE CENTRAL ADDRESS, * EOVP - EXECUTE OUTPUT VALIDATION PROCESSOR, * CEH - TRANSFER OUTPUT TO FRONT END. * * PROCESSOR CALLS - * ** OUTPUT VALIDATION PROCESSOR. PDOR LINK ENTRY LDN 0 CONSTANT OF ZERO PDOR.1 LINK ENTRY ADC /BLOCK/B.PRU PLUS PRU DATA BLOCK FLAG STM DHB+/BLOCK/DBC INITIALIZE DATA BLOCK CLARIFIER LDD BSBC LOAD BLOCK SERIAL NUMBERS AND BACK COUNTS LPN /NAM/L.OBC EXTRACT OUTSTANDING OUTPUT BACK COUNT LMD NBL LESS NETWORK BLOCK LIMIT FOR STREAM NJN PDOR.3 EXIT IF NETWORK BLOCK LIMIT NOT REACHED PDOR.2 UJK /STATES/SIWL EXIT TO CHECK FOR IMMEDIATE WORKLIST PDOR.3 LDN /NAM/WLCCM LENGTH OF WORKLIST COMPLETE WORKLIST RJM CIBS EXIT TO CHECK FOR INBOUND BUFFER SPACE MJN PDOR.2 EXIT IF INSUFFICIENT INBOUND BUFFER SPACE LDN /NAM/W.PCBPS1 PRU STREAM PARAMETER ONE WORD ORDINAL RJM RPCB EXIT TO READ PRU PARAMETER WORD FROM PCB LDD T10+/NAM/C.PCBFP LOAD PRU FILE PARAMETER BYTE LPN /NAM/L.PCBFM EXTRACT FILE MODE STD T17 STORE FILE MODE LDD T10+/NAM/C.PCBWP LOAD WORKLIST PARAMETER BYTE SHN -6 POSITION POINTER WORD ORDINAL TO LOW-ORDER STD WLP STORE WORKLIST POINTER WORD ORDINAL RJM RPCB EXIT TO READ WORKLIST POINTER WORD FROM PCB LDN /NAM/L.BH+/NAM/L.NH LOAD LENGTH OF NAM HEADER WORDS STD T7 STORE CENTRAL WORD COUNT LDD T10+/NAM/C.PCBWLP LOAD HIGH-ORDER OF WORKLIST POINTER STD FBA STORE HIGH-ORDER OF WORKLIST ADDRESS SHN 12 POSITION TO HIGH-ORDER ADD T10+/NAM/C.PCBWLP+1 PLUS LOW-ORDER OF WORKLIST POINTER STD FBA+1 STORE LOW-ORDER OF WORKLIST ADDRESS NJN PDOR.4 EXIT IF WORKLIST QUEUED EREXIT DQE EXIT TO ERROR - DRIVER QUEUING ERROR PDOR.4 ADD T7 PLUS CENTRAL WORD COUNT RJM TFL EXIT TO FORM ABSOLUTE CENTRAL ADDRESS SBD T7 LESS CENTRAL WORD COUNT CRM NBH,T7 READ NAM BLOCK HEADER AND WORKLIST HEADER LCN /NAM/SMHDRCM NEGATIVE OF SERVICE MESSAGE HEADER LENGTH RAM NBH+/NAM/C.BWD+1 DECREMENT BLOCK SIZE TO DATA LENGTH STD T7 STORE CENTRAL WORD COUNT LDD FBA LOAD HIGH-ORDER OF WORKLIST ADDRESS SHN 12 POSITION TO HIGH-ORDER ADD FBA+1 PLUS LOW-ORDER OF SERVICE MESSAGE HEADER ADN /NAM/SMHDRCM PLUS LENGTH OF SERVICE MESSAGE HEADER ADD T7 PLUS CENTRAL WORD COUNT RJM TFL EXIT TO FORM ABSOLUTE CENTRAL ADDRESS SBD T7 LESS CENTRAL WORD COUNT STD CBA+1 STORE LOW-ORDER OF ABSOLUTE BUFFER ADDRESS SHN -12 POSITION HIGH-ORDER OF ADDRESS STD CBA STORE HIGH-ORDER OF ABSOLUTE BUFFER ADDRESS UJK /STATES/SWDO.1 EXIT TO EXECUTE OUTPUT VALIDATION ."O.N" EQU * ."O.N" EQU * OVERLAY F=TRANS,T1=(TERMINATION),T2=(DRIVER TERMINATION PROCES ,SORS) LINKS SPACE 2,6 * RESET LINKS. .ERROR SET 0 PEND SPACE 2,30 ** DRIVER TERMINATION ROUTINE PEND. * * DRIVER TERMINATION ROUTINE PEND PROCESSES DRIVER * TERMINATIONS. IF THE TERMINATION IS DUE TO AN ERROR * A DAYFILE MESSAGE IS ISSUED TO INDICATE THE ERROR. * OTHERWISE THE DRIVER COMPLETED FLAG IS SET IN THE * DRIVER INTERFACE TABLE AND THE PRU LIMBO BUFFERS ARE * RETURNED TO THE SYSTEM EMPTY CHAIN. ALL DRIVER * EQUIPMENTS AND CHANNELS ARE RETURNED AND THE PPU * RESIDENT IS RELOADED. IF THE TERMINATION IS NOT DUE * TO INACTIVITY OR AN ERROR THE DRIVER TERMINATED MESSAGE * IS ISSUED TO THE SYSTEM DAYFILE. * * CALLS - * * HNPE - HALT ACTIVE NPUS IF OPTION SELECTED, * REQ - RELEASE DRIVER EQUIPMENT, * RDCH - RELEASE DRIVER CHANNELS, * RPB - RETURN DRIVER PRU LIMBO BUFFERS, * SDC - SET DRIVER COMPLETED, * RLR - RELOAD PPU RESIDENT, * DFM - ISSUE DAYFILE MESSAGE, * HNMS - ISSUE NPU HALTED MESSAGES, ** FTN - ISSUE MONITOR FUNCTION. PEND LINK ENTRY LDM ERRCODE LOAD ERROR CODE STD CTL STORE DRIVER ERROR CODE ZJN PEND.1A EXIT IF NO DRIVER ERROR RJM HNPE EXIT TO HALT ANY ACTIVE NPUS LDD CTL LOAD ERROR CODE LMN /ERROR/CPE LESS CONTROL POINT ERROR VALUE ZJN PEND.1 EXIT IF CONTROL POINT ERROR LDD CTL LOAD ERROR CODE SHN -6 POSITION HIGH-ORDER DIGIT OF ERROR CODE RAM ERRMSG+6 ADD DIGIT TO ERROR MESSAGE LDD CTL LOAD ERROR CODE LPN 70B EXTRACT MIDDLE DIGIT OF ERROR CODE SHN 3 POSITION MIDDLE DIGIT OF ERROR CODE RAM ERRMSG+7 ADD DIGIT TO ERROR MESSAGE LDD CTL LOAD ERROR CODE LPN 7 EXTRACT LOW-ORDER DIGIT RAM ERRMSG+7 ADD DIGIT TO ERROR MESSAGE LDM DROR LOAD DRIVER ORDINAL RAM ERRMSG+1 ADD DRIVER ORDINAL TO ERROR MESSAGE UJN PEND.2 EXIT TO STORE DRIVER ORDINAL PEND.1A LDD DIT HIGH ORDER PART OF PIT ENTRY ADDRESS SHN 12D SHIFT TO HIGH ORDER POSITION ADD DIT+1 LOW ORDER PART OF PIT ENTRY ADDRESS ADN /NAM/W.DITNTP OFFSET FOR WD CONTAINING DROP FLAG RJM TFL EXIT TO GET ABSOLUTE ADDRESS CRD T0 READ INTO PP WORD CONTAINING DROP FLAG LDD T0+/NAM/C.DITAR BYTE CONTAINING DROP FLAG SHN 17D-/NAM/S.DITDF SHIFT DROP FLAG TO SIGN POSITION MJN PEND.1 EXIT IF PIP DROP FLAG SET RJM RALL EXIT TO RELEASE PRU BUFFERS PEND.1 LDM ACTFES LOAD ACTIVE FRONT END COUNT STD TAR STORE DRIVER ACTIVITY ZJN PEND.3 EXIT IF DRIVER DROP BECAUSE OF INACTIVITY PEND.2 LDM DROR LOAD DRIVER ORDINAL RAM TERMSG+1 ADD DRIVER ORDINAL TO TERMINATED MESSAGE RJM REQ EXIT TO RELEASE DRIVER EQUIPMENTS PEND.3 RJM RDCH EXIT TO RELEASE DRIVER CHANNELS LDD CTL LOAD ERROR CODE NJN PEND.4 EXIT IF DRIVER ERROR RJM SDC EXIT TO SET DRIVER COMPLETED PEND.4 RJM RLR EXIT TO RELOAD PPU RESIDENT LDD CTL LOAD ERROR CODE ZJN PEND.5 EXIT IF NO DRIVER ERROR RJM HNMS EXIT TO ISSUE NPUS HALTED MESSAGES LDD CTL LOAD ERROR CODE LMN /ERROR/CPE LESS CONTROL POINT ERROR VALUE ZJN PEND.6 EXIT IF CONTROL POINT ERROR LDC ERRMSG LOAD ADDRESS OF ERROR MESSAGE RJM DFM EXIT TO ISSUE DAYFILE MESSAGE UJN PEND.6 EXIT TO ISSUE TERMINATED MESSAGE PEND.5 LDD TAR LOAD DRIVER ACTIVITY ZJN PEND.7 EXIT IF DRIVER DROP BECAUSE OF INACTIVITY PEND.6 LDC TERMSG LOAD ADDRESS OF TERMINATED MESSAGE RJM DFM EXIT TO ISSUE DAYFILE MESSAGE LDD CTL LOAD ERROR CODE ZJN PEND.7 EXIT IF NO DRIVER ERROR LMN /ERROR/CPE LESS CONTROL POINT ERROR VALUE ZJN PEND.7 EXIT IF CONTROL POINT ERROR LCN DPPM-ABTM DELTA FOR MONITOR FUNCTION TO ABORT PEND.7 ADN DPPM DELTA FOR MONITOR FUNCTION TO DROP PPU RJM FTN EXIT TO DROP PPU LJM PPR RETURN TO PPU RESIDENT MSG SPACE 2,6 * DAYFILE MESSAGES. HNMSG DATA L$PIP - HALTED NPU XXX.$ DATA 0 ERRMSG DATA L$PIP0 - ERROR 000.$ DATA 0 TERMSG DATA L$PIP0 TERMINATED.$ DATA 0 REQ TITLE TERMINATION SUPPORT SUBROUTINES. REQ SPACE 2,26 ** SUBROUTINE REQ. * * SUBROUTINE REQ RELEASES ANY * EQUIPMENTS REQUESTED BY THE DRIVER. * * CALLS - * * MTR - RELEASE EQUIPMENT. * * SYSTEM MACRO CALLS - * * SFA - CALCULATE MANAGED TABLE ADDRESS. * * USES - * * T0-T0+4 = EST POINTER WORD, * T15 = CURRENT EST ENTRY ORDINAL, * T16 = ENDING EST ORDINAL, * T0-T0+4 = EST EQUIPMENT DESCRIPTION WORD, * T10-T10+4 = EST EQUIPMENT ASSIGNMENT WORD, ** T0-T0+4 = EXECUTING JOB TABLE WORD. REQ SUBR ENTRY/EXIT LDN ESTP LOAD ADDRESS OF EST POINTER WORD CRD T0 READ EST POINTER WORD LDN NOPE LOAD NUMBER OF PSEUDO EST ENTRIES STD T15 INITIALIZE CURRENT EST ENTRY ORDINAL LDD T0+2 LOAD ENDING EST ORDINAL STD T16 STORE ENDING EST ORDINAL REQ.1 SFA EST,T15 CALCULATE ADDRESS OF NEXT EST ENTRY ADK EQDE PLUS OFFSET FOR EQUIPMENT DESCRIPTION WORD CRD T0 READ NEXT EQUIPMENT DESCRIPTION WORD ADK EQAE-EQDE DELTA FOR EQUIPMENT ASSIGNMENT WORD CRD T10 READ NEXT EQUIPMENT ASSIGNMENT WORD LDD T0+3 LOAD EQUIPMENT TYPE BYTE LMC 2RND LESS EQUIPMENT TYPE FOR MDI ZJN REQ.3 EXIT IF EQUIPMENT IS MDI LMN 2RND&2RNP LESS DELTA FOR NPU ZJN REQ.3 EXIT IF EQUIPMENT IS NPU .MSS IFEQ .MSS,1 LMN 2RNP&2RNQ LESS DELTA FOR EQUIPMENT TYPE FOR TEST NPU ZJN REQ.3 EXIT IF EQUIPMENT IS TEST NPU .MSS ENDIF REQ.2 AOD T15 INCREMENT CURRENT EST ORDINAL LMD T16 LESS ENDING EST ORDINAL NJN REQ.1 EXIT IF NOT END OF EST UJK REQX RETURN REQ.3 LDD T0+2 LOAD DRIVER ORDINAL BYTE SHN -9 POSITION DRIVER ORDINAL TO LOW-ORDER LPN 7 EXTRACT DRIVER ORDINAL LMM DROR LESS THIS DRIVER ORDINAL NJN REQ.2 EXIT IF EQUIPMENT NOT FOR THIS DRIVER LDD CP LOAD CONTROL AREA ADDRESS ADN TFSW DELTA FOR EXECUTING JOB TABLE WORD CRD T0 READ EXECUTING JOB TABLE WORD LDD T0+0 LOAD EXECUTING JOB TABLE ORDINAL LMD T10+4 LESS JOB TABLE ORDINAL OF EQUIPMENT NJN REQ.2 EXIT IF EQUIPMENT NOT ASSIGNED LDD T15 LOAD EST ORDINAL OF EQUIPMENT STD T10+1 STORE EST ORDINAL OF EQUIPMENT LDN DEQM MONITOR FUNCTION TO RELEASE EQUIPMENT RJM MTR EXIT TO RELEASE EQUIPMENT UJK REQ.2 EXIT TO CHECK NEXT EST ENTRY RDCH SPACE 2,22 ** SUBROUTINE RDCH. * * SUBROUTINE RDCH RELEASES ANY * CHANNELS REQUESTED BY THE DRIVER. * * ENTRY - * * (FCT-FCT+MAXFE) = FRONT END CHANNEL TABLE. * * CALLS - * * MTR - RELEASE CHANNEL. * * USES - * ** T17 = FRONT END CHANNEL TABLE INDEX. RDCH SUBR ENTRY/EXIT LDN 0 CONSTANT OF ZERO STD T17 INITIALIZE FRONT END CHANNEL TABLE INDEX RDCH.1 LDM FCT,T17 LOAD NEXT FRONT END CHANNEL TABLE ENTRY ZJN RDCH.2 EXIT IF TABLE ENTRY EMPTY LPN 77B EXTRACT FRONT END CHANNEL NUMBER STD T10+1 STORE FRONT END CHANNEL LDN DCHM MONITOR FUNCTION TO RELEASE CHANNEL RJM MTR EXIT TO RELEASE FRONT END CHANNEL LDN 0 CONSTANT OF ZERO STM FCT,T17 RESET FRONT END CHANNEL TABLE ENTRY RDCH.2 AOD T17 INCREMENT FRONT END CHANNEL TABLE INDEX LMN MAXFE LESS ENDING VALUE NJN RDCH.1 EXIT IF MORE TABLE ENTRIES UJK RDCHX RETURN SDC SPACE 2,22 ** SUBROUTINE SDC. * * SUBROUTINE SDC SETS THE DRIVER COMPLETED * FLAG IN THE DRIVER INTERFACE TABLE. * * ENTRY - * * (DIT-DIT+1) = ADDRESS OF DRIVER INTERFACE TABLE. * * CALLS - * * TFL - FORM ABSOLUTE CENTRAL ADDRESS. * * USES - * * T10-T10+4 = DRIVER COMPLETED WORD, ** T15-T15+1 = ADDRESS OF DRIVER COMPLETED WORD. SDC SUBR ENTRY/EXIT LDD DIT LOAD HIGH-ORDER OF INTERFACE TABLE ADDRESS SHN 12 POSITION TO HIGH-ORDER ADD DIT+1 PLUW LOW-ORDER OF INTERFACE TABLE ADDRESS RJM TFL EXIT TO FROM ABSOLUTE CENTRAL ADDRESS CRD T10 READ DRIVER COMPLETED WORD FROM TABLE STD T15+1 STORE LOW-ORDER OF DRIVER WORD ADDRESS SHN -12 POSITION HIGH-ORDER OF ADDRESS STD T15 STORE HIGH-ORDER OF DRIVER WORD ADDRESS LDN /NAM/B.DITDC LOAD DRIVER COMPLETED FLAG RAD T10+/NAM/C.DITDF STORE DRIVER FLAG BYTE LDD T15 LOAD HIGH-ORDER OF DRIVER WORD ADDRESS SHN 12 POSITION TO HIGH-ORDER ADD T15+1 PLUS LOW-ORDER OF DRIVER WORD ADDRESS CWD T10 REWRITE DRIVER COMPLETED WORD TO TABLE UJK SDCX RETURN PFSR SPACE 2,28 ** SUBROUTINE PFSR. * * SUBROUTINE PFSR ISSUES A MONITOR FUNCTION OF ZERO, SO THAT * PPR SUBROUTINE FTN WILL CHECK WHETHER STORAGE MOVE IS * REQUESTED FOR THIS CONTROL POINT. IF STORAGE MOVE IS * REQUESTED, FTN WILL PAUSE TO ALLOW THE MOVE TO COMPLETE. * * ENTRY - * * (CP) = CONTROL POINT AREA ADDRESS. * * EXIT - * * (RA) = UPDATED IF STORAGE MOVE DONE, * (FL) = UPDATED IF STORAGE MOVE DONE. * * CALLS - * * MTR - ISSUE MONITOR FUNCTION. * * USES - * ** T0-T0+4 = STORAGE MOVE REQUEST WORD. PFSR SUBR ENTRY/EXIT LDN PRLM*0 PAUSE FOR STORAGE MOVE (IF NECESSARY) RJM MTR EXIT TO ISSUE MONITOR FUNCTION UJK PFSRX RETURN RALL SPACE 2,16 ** SUBROUTINE RALL * * SUBROUTINE RALL RETURNS ALL FREE BUFFERS IN THE DRIVER * CHAIN BY CLEARING PIP WORDS OF PRU BUFFER TABLE. * * CALLS - * * TFL - FORM ABSOLUTE CENTRAL ADDRESS, * PAUSE - PAUSE FOR STORAGE RELOCATION. * * USES - * * T1 = PIP WORD OFFSET, * T10 - T10+4 = PIP WORD IMAGE, ** T15 - T15+1 = PIP WORD BLOCK ADDRESS. RALL SUBR ENTRY/EXIT RALL.1 LDN L.FRNIP COUNT OF NIP WORDS IN FREE BUFFER TABLE STD T7 STORE WORD COUNT LDD DIT LOAD HIGH-ORDER OF INTERFACE TABLE ADDRESS SHN 12 POSITION TO HIGH-ORDER ADD DIT+1 PLUS LOW-ORDER OF INTERFACE TABLE ADDRESS ADN /NAM/L.DITE DELTA FOR LIMIT OF FREE BUFF AREA RJM TFL EXIT TO FORM ABSOLUTE CENTRAL ADDRESS SBN L.FREE SET ADDRESS TO START OF FREE BUFFER AREA CRM LIMBOP1,T7 READ NIP WORDS OF FREE BUFFER INFORMATION STD T15+1 LOW-ORDER ABSOLUTE PIP WORD BLOCK ADDRESS SHN -12 POSITION HIGH-ORDER ADDRESS STD T15 HIGH-ORDER ABSOLUTE PIP WORD BLOCK ADDRESS LDC LIMBOP3 ADDRESS FOR THREE PRU FREE BUFFER TABLE STD BTI INITIALIZE FREE BUFFER TABLE INDEX LDN PRU3 PRU SIZE ORDINAL FOR THREE PRU BUFFERS STD PRU INITIALIZE PRU SIZE ORDINAL RALL.2 LDM NCA,BTI LOAD ASSIGNED BUFFER COUNT SBM NRA,BTI MINUS REQUESTED BUFFER COUNT ZJN RALL.3 EXIT IF NO REQUEST OUTSTANDING RJM PAUSE EXIT TO PAUSE FOR STORAGE RELOCATION UJN RALL.1 EXIT TO RESTART RALL.3 LCN LIMBOP3-LIMBOP2 LENGTH OF FREE BUFFER TABLE INCREMENT RAD BTI DECREMENT FREE BUFFER TABLE INDEX SOD PRU DECREMENT PRU SIZE ORDINAL PJN RALL.2 EXIT TO PROCESS NEXT FREE BUFFER TABLE LDN ZERL LOAD ADDRESS OF ZERO WORD CRD T10 ZERO PIP WORD LDN 0 CONSTANT OF ZERO STD T1 PIP WORD OFFSET RALL.4 LMN L.FRPIP LESS PIP WORD COUNT NJN RALL.5 EXIT IF MORE PIP WORD UJK RALLX RETURN IF END OF PIP WORD BLOCK RALL.5 LDD T15 HIGH-ORDER ABSOLUTE PIP WORD BLOCK ADDRESS SHN 12 POSITION TO HIGH-ORDER ADD T15+1 LOW-ORDER ABSOLUTE PIP WORD BLOCK ADDRESS ADD T1 PLUS PIP WORD OFFSET CWD T10 REWRITE PIP WORD AOD T1 INCREMENT PIP WORD OFFSET UJK RALL.4 EXIT TO CHECK END OF PIP WORD BLOCK RLR SPACE 2,28 ** SUBROUTINE RLR. * * SUBROUTINE RLR LOADS THE PPU RESIDENT BY CALLING THE * PPU RESIDENT LOADER AND ACCEPTING THE RESIDENT TEXT * THROUGH THE PPU MESSAGE BUFFER. * * (CP) = CONTROL POINT ADDRESS, * (IA) = PPU INPUT REGISTER ADDRESS, * (MA) = PPU MESSAGE BUFFER ADDRESS. * * CALLS - * * MTR - REQUEST MONITOR FUNCTION. * PFSR - CHECK FOR STORAGE MOVE REQUEST * * USES - * * ZR-ZR+4 = CENTRAL WORD OF ZERO, * T7 = ADDRESS OF LOADER PPU INPUT REGISTER, * T0-T0+4 = STORAGE MOVE REQUEST WORD, * T10-T10+4 = LOADER PPU INPUT REGISTER, * T10-T10+4 = THIS PPU OUTPUT REGISTER, ** T1 = CENTRAL WORD COUNT. RLR SUBR ENTRY/EXIT LDD CP LOAD CONTROL POINT AREA ADDRESS SHN -7 POSITION TO FORM CONTROL PONT NUMBER RAM CPRL+1 ADD TO PPU RESIDENT LOADER CALL LDD IA LOAD ADDRESS OF THIS PPU INPUT REGISTER STM CPRL+4 STORE INTO PPU RESIDENT LOAD CALL LDD MA LOAD ADDRESS OF THIS PPU MESSAGE BUFFER CWM CPRL,ON WRITE OUT PPU RESIDENT LOADER CALL IMAGE LDN ZERL LOAD ADDRESS OF ZERO WORD CRD /INIT/ZR GENERATE A CENTRAL WORD OF ZEROES RLR.1 RJM PFSR EXIT TO CHECK FOR STORAGE MOVE REQUEST LDN 1 SET PRIORITY AND NO DROP OPTION STD T10+1 SET NO DROP OPTION LDK RPPM LOAD MONITOR FUNCTION TO REQUEST PPU RJM MTR EXIT TO REQUEST PPU RESIDENT LOADER PPU LDD T10+1 LOAD REPLY BYTE ZJN RLR.1 EXIT IF PPU NOT AVAILABLE STD T7 STORE ADDRESS OF LOADER PPU INPUT REGISTER RLR.2 RJM PFSR EXIT TO CHECK FOR STORAGE MOVE REQUEST LDN 77B LOAD DELAY COUNT SBN 1 DECREMENT DELAY COUNT NJN *-1 LOOP IF DELAY NOT EXPIRED LDD T7 LOAD ADDRESS OF LOADER PPU INPUT REGISTER CRD T10 READ LOADER PPU INPUT REGISTER LDD T10+1 LOAD CONTROL POINT BYTE FROM LOADER LMM CPRL+1 LESS VALUE FOR LOADER PPU NJN RLR.1 EXIT IF LOADER TIMED OUT LDD T10+2 LOAD LOADER STATUS BYTE LMC 7777B LESS READY VALUE NJN RLR.2 EXIT IF LOADER NOT READY STD T10+2 SET REPLY TO READY STATUS LDD OA LOAD ADDRESS OF THIS PPU OUTPUT REGISTER CWD /INIT/ZR SET READY FOR DATA LDD T7 LOAD ADDRESS OF LOADER PPU INPUT REGISTER CWD T10 REWRITE LOADER PPU INPUT REGISTER RLR.4 LDN 77B LOAD DELAY COUNT SBN 1 DECREMENT DELAY COUNT NJN *-1 LOOP IF DELAY COUNT NOT EXPIRED LDD OA LOAD ADDRESS OF THIS PPU OUTPUT REGISTER CRD T10 READ THIS PPU OUTPUT REGISTER LDD T10+4 LOAD WORD COUNT BYTE ZJN RLR.4 EXIT IF LOADER NOT READY LPN 77B EXTRACT WORD COUNT NJN RLR.5 EXIT IF NOT END OF LOAD STM MSD RESET MASS STORAGE DRIVER IDENTIFIER UJK RLRX RETURN RLR.5 STD T1 STORE WORD COUNT LDD MA LOAD ADDRESS OF THIS PPU MESSAGE BUFFER RLR.LDA CRM 100B,T1 READ RESIDENT TEXT LDN 5*6 LENGTH OF RESIDENT TEXT IN PPU BYTES RAM RLR.LDA+1 INCREMENT LOAD ADDRESS LDD OA LOAD ADDRESS OF THIS PPU OUTPUT REGISTER CWD /INIT/ZR SET DATA ACCEPTED UJK RLR.4 EXIT TO WAIT FOR DATA READY CPRL SPACE 2,6 * PPU RESIDENT LOADER CALL IMAGE. CPRL VFD 18/OV.1RP VFD 6/** CONTROL POINT NUMBER VFD 24/0 VFD 12/** THIS PPU INPUT REGISTER ADDRESS HNPE SPACE 2,26 ** SUBROUTINE HNPE. * * SUBROUTINE HNPE HALTS ALL ACTIVE NPUS IF THE HALT NPU * ON ERROR FLAG IS SET IN THE DRIVER INTERFACE TABLE. * * EXIT - * * (HNTHL) = NODES OF HALTED NPUS. * * CALLS - * * TFL - FORM ABSOLUTE CENTRAL ADDRESS. * * USES - * * T0-T0+4 = APPLICATION REQUEST WORD, * T16 = FRONT END TABLE OFFSET, * T17 = HALTED NODE TABLE INDEX, * T1 = CHANNEL INSTRUCTION LIST ADDRESS, * T0 = NPU CHANNEL NUMBER, ** T2 = ADDRESS OF CHANNEL INSTRUCTION. HNPE SUBR ENTRY/EXIT LDD DIT LOAD HIGH-ORDER OF INTERFACE TABLE ADDRESS SHN 12 POSITION TO HIGH-ORDER ADD DIT+1 PLUS LOW-ORDER OF INTERFACE TABLE ADDRESS ADN /NAM/W.DITNTP DELTA FOR APPLICATION REQUEST WORD RJM TFL EXIT TO FORM ABSOLUTE CENTRAL ADDRESS CRD T0 READ APPLICATION REQUEST WORD LDD T0+/NAM/C.DITAR LOAD APPLICATION REQUEST BYTE SHN 17-/NAM/S.DITEH POSITION HALT ON ERROR FLAG TO SIGN PJN HNPEX RETURN IF HALT ON ERROR NOT REQUESTED LDK L.FETBL*MAXFE-L.FETBL LOAD ENDING OFFSET VALUE STD T16 INITIALIZE FRONT END TABLE OFFSET LDN 0 CONSTANT OF ZERO STD T17 INITIALIZE HALTED NODE TABLE INDEX HNPE.1 LDM FETABLE+NBT,T16 LOAD HIGH-ORDER OF TABLE ADDRESS ADM FETABLE+NBT+1,T16 PLUS LOW-ORDER OF TABLE ADDRESS NJN HNPE.3 EXIT IF ACTIVE EQUIPMENT HNPE.2 LCN L.FETBL LOAD LENGTH OF FRONT END TABLE RAD T16 DECREMENT FRONT END TABLE OFFSET PJN HNPE.1 EXIT IF MORE TABLES TO PROCESS UJK HNPEX RETURN HNPE.3 LDM FETABLE+FTY,T16 LOAD FRONT END EQUIPMENT TYPE NJN HNPE.2 EXIT IF NOT NPU LDC TCTABLE LOAD ADDRESS OF CHANNEL INSTRUCTION TABLE STD T1 INITIALIZE CHANNEL INSTRUCTION LIST ADDRESS LDM FETABLE+CHN,T16 LOAD NPU CHANNEL NUMBER LPN 77B EXTRACT NPU CHANNEL NUMBER STD T0 STORE NPU CHANNEL NUMBER HNPE.4 LDI T1 LOAD ADDRESS OF NEXT CHANNEL INSTRUCTION ZJN HNPE.5 EXIT IF END OF CHANNEL INSTRUCTION LIST STD T2 STORE ADDRESS OF CHANNEL INSTRUCTION LDI T2 LOAD CHANNEL INSTRUCTION SCN 77B&NHO CLEAR PREVIOUS NPU CHANNEL NUMBER LMD T0 PLUS NEW NPU CHANNEL NUMBER STI T2 STORE UPDATE CHANNEL INSTRUCTION AOD T1 INCREMENT CHANNEL INSTRUCTION LIST ADDRESS UJK HNPE.4 EXIT TO CHECK FOR END OF INSTRUCTION LIST HNPE.5 LDC /FUNCTION/CLN LOAD FUNCTION TO MASTER CLEAR NPU ADM FETABLE+CAD,T16 PLUS COUPLER EQUIPMENT NUMBER AJM. HNPE.7 EXIT IF CHANNEL ACTIVE FAN. FUNCTION TO MASTER CLEAR NPU COUPLER LDK FNCDLY LOAD FUNCTION ACCEPT DELAY COUNT HNPE.6 IJM. HNPE.8 EXIT IF CHANNEL WENT INACTIVE SBN 1 DECREMENT CHANNEL DELAY COUNT NJN HNPE.6 EXIT IF CHANNEL DELAY NOT EXPIRED HNPE.7 DCN. DISCONNECT NPU CHANNEL HNPE.8 LDM FETABLE+HND,T16 LOAD NPU HOST NODE NUMBER STM HNTHL,T17 STORE HOST NODE NUMBER OF HALTED NPU AOD T17 INCREMENT HALTED NODE TABLE INDEX UJK HNPE.2 EXIT TO CHECK FOR MORE NPUS TCTABLE SPACE 2,14 ** TERMINATION CHANNEL INSTRUCTION ADDRESS LIST. * * THE TERMINATION CHANNEL INSTRUCTION ADDRESS LIST * CONTAINS AN ENTRY FOR EACH CHANNEL INSTRUCTION USED * BY THE TERMINATION OVERLAY. THE CONTENTS OF EACH ENTRY ** IS THE ADDRESS OF THE CHANNEL INSTRUCTION. LIST D TCTABLE BSS 0 CHANNEL INSTRUCTION ADDRESS LIST CIT HERE CON 0 LIST * HNMS SPACE 2,22 ** SUBROUTINE HNMS. * * SUBROUTINE HNMS ISSUES A NPU HALTED MESSAGE FOR * EACH NPU HALTED DURING TERMINATION PROCESSING. * * ENTRY - * * (HNTHL) = NODES OF HALTED NPUS. * * CALLS - * * DFM - ISSUE DAYFILE MESSAGE. * * USES - * * T1 = TEMPORARY ** T17 = HALTED NODE TABLE INDEX. HNMS SUBR ENTRY/EXIT LDN 0 CONSTANT OF ZERO STD T17 INITIALIZE NPU HALTED NODE TABLE HNMS.1 LDM HNTHL,T17 LOAD NEXT NPU HALTED NODE TABLE ENTRY ZJN HNMSX RETURN IF END OF TABLE SHN -6 EXTRACT HIGH-ORDER DIGIT ADC 2R 0 PLUS DISPLAY CODE ZERO STM HNMSG+8 STORE INTO HALTED NPU DAYFILE TEXT LDM HNTHL,T17 LOAD HOST NODE NUMBER LPN 77B EXTRACT MIDDLE AND LOW ORDER DIGITS STD T1 STORE MIDDLE AND LOW ORDER DIGITS SHN 3 POSITION MIDDLE-ORDER DIGIT OF NODE NUMBER LMD T1 PLUS LOW-ORDER DIGIT OF HOST NODE NUMBER LPC 707B EXTRACT HOST NODE NUMBER DIGITS ADC 2R00 PLUS DISPLAY CODED ZEROES STM HNMSG+9 STORE INTO NPU HALTED MESSAGE LDC HNMSG LOAD ADDRESS OF NPU HALTED MESSAGE RJM DFM EXIT TO ISSUE DAYFILE MESSAGE AOD T17 INCREMENT NPU HALTED NODE TABLE INDEX UJK HNMS.1 EXIT TO CHECK FOR END OF TABLE HNTHL SPACE 2,6 * NPU HALTED NODE TABLE. HNTHL BSSZ MAXFE+1 ."O.N" EQU * IFGT ."O.N",DCSAVE,1 ERR CAN NOT SAVE DIRECT CELLS. OVERLAY F=TRANS,T1=(ERROR PROCESSORS),T2=(DRIVER ERROR PROCESS ,ORS) QUAL ACTIONS TYPEACT MICRO 1,,*ERROR* DEFINE ACTION TYPE LINKS SPACE 2,6 * RESET LINKS. .ERROR SET 0 .NFE SET 0 .NPRU SET 0 PNCE SPACE 2,26 PFCE SPACE 2,36 ** ERROR PROCESSOR PFCE. * * ERROR PROCESSOR PFCE PROCESSES A FRONT END CHANNEL * ERROR. IF THE FRONT END IS A MDI A CHECK IS MADE FOR * AN ERROR ON READ DATA. IF THE ERROR OCCURRED ON READ * DATA THE READ DATA ERROR FUNCTION IS ISSUED TO THE MDI. * IF THE ERROR OCCURRED ON WRITE DATA THE GENERAL STATUS * IS OBTAINED FROM THE MDI AND IF THE MDI DOES NOT REPORT * AN ERROR THE MDI IS DECLARED INOPERATIVE. THE BLOCK * HANDLER STATE RESPONSE ACTION FOR CHANNEL ERROR IS * EXECUTED AND THE NEXT FRONT END IS PROCESSED. * * ENTRY - * * (FEI) = FRONT END TABLE ADDRESS, * (FTY) = FRONT END TYPE, * (STS) = STREAM STATES, * (ERRCODE) = ERROR CODE. * * EXIT - * * (DEC) = ERROR CODE, * (ERRCODE) = RESET. * * CALLS - * * CMRE - CHECK FOR MDI READ ERROR, * PSTC - PRESET FRONT END CHANNEL INSTRUCTIONS, * GMS - OBTAIN MDI GENERAL STATUS, * FMDI - FUNCTION MDI, * RCT - RESET CONNECTION TABLE VALUES, ** EBRA - EXECUTE BLOCK STATE RESPONSE ACTION. PFCE ACTION PROCESS FRONT END CHANNEL ERROR LDM FTY,FEI LOAD FRONT END TYPE ZJN PFCE.3 EXIT IF NOT MDI FRONT END RJM PSTC EXIT TO PRESET CHANNEL INSTRUCTIONS IJM. PFCE.1 EXIT IF FRONT END CHANNEL INACTIVE DCN. DISCONNECT FRONT END CHANNEL PFCE.1 RJM CMRE EXIT TO CHECK FOR MDI READ ERROR SBN 1 CHECK FOR CHANNEL ACCRSS TYPE ERROR ZJN PFCE.2 EXIT IF CHANNEL ACCESS TYPE ERROR LDM /MDI/FC LOAD LAST MDI FUNCTION CODE LMC /FUNCTION/WDT LESS VALUE FOR WRITE DATA NJN PFCE.2 EXIT IF NOT WRITING DATA TO MDI RJM /MDI/GMS EXIT TO OBTAIN MDI GENERAL STATUS NJN PFCE.7 EXIT IF MDI NOT REPORTING ERROR PFCE.2 LDC B.SERR FLAG MDI SOFT ERROR RAM ERRCODE PLACE MDI SOFT ERROR FLAG LDN /TABLES/.MFCE-/TABLES/.NPCE DELTA FOR MDI CHANNEL ERROR PFCE.3 ADN /TABLES/.NPCE PLUS NPU CHANNEL ERROR RESPONSE ORDINAL PFCE.4 LINK ENTRY STD CTL STORE BLOCK HANDLER STATE ACTION ORDINAL LDM ERRCODE LOAD ERROR CODE STM DEC,FEI STORE DRIVER ERROR CODE LDN 0 CONSTANT OF ZERO STM ERRCODE RESET ERROR CODE LDD STS LOAD STREAM STATES ZJN PFCE.5 EXIT IF NOT PRU STREAM RJM RCT EXIT TO RESTORE CONNECTION TABLE VALUES PFCE.5 LINK ENTRY RJM PSTC EXIT TO PRESET CHANNEL INSTRUCTIONS IJM. PFCE.6 EXIT IF FRONT END CHANNEL INACTIVE DCN. DISCONNECT FRONT END CHANNEL PFCE.6 RJM EBRA EXIT TO EXECUTE BLOCK RESPONSE ACTION EXIT NFE EXIT TO PROCESS NEXT FRONT END PFCE.7 MJN PNMS EXIT IF MDI STATUS NOT AVAILABLE LDN /FUNCTION/RDI LOAD FUNCTION TO REQUEST DIAGNOSTICS RJM FMDI EXIT TO ISSUE FUNCTION TO MDI PMDI ACTION PROCESS INOPERATIVE MDI LDN /TABLES/.MDIO DELTA FOR MDI INOPERATIVE UJN PFCE.4 EXIT IF MDI NOT REPORTING ERROR PNMS SPACE 2,28 ** ERROR PROCESSOR PNMS. * * ERROR PROCESSOR PNMS PROCESSES A NO MDI STATUS * CONDITION. THE MASTER CLEAR FUNCTION IS ISSUED AND THE * BLOCK HANDLER STATE RESPONSE ACTION FOR NO MDI STATUS * IS EXECUTED AND THE NEXT FRONT END IS PROCESSED. * * ENTRY - * * (ERRCODE) = ERROR CODE, * (FEI) = FRONT END TABLE ADDRESS. * * EXIT - * * (DEC) = ERROR CODE, * (ERRCODE) = RESET. * * CALLS - * * FMDI - SUNCTION MDI, * PSTC - PRESET FRONT END CHANNEL INSTRUCTIONS, * RCT - RESET CONNECTION TABLE VALUES, ** EBRA - EXECUTE BLOCK STATE RESPONSE ACTION. PNMS ACTION PROCESS NO MDI STATUS AVAILABLE LDC /FUNCTION/MCL LOAD FUNCTION TO MASTER CLEAR MDI RJM FMDI EXIT TO ISSUE FUNCTION TO MDI LDN /TABLES/.MFNS LOAD NO MDI STATUS RESPONSE ORDINAL EXIT PFCE.4 EXIT TO STORE BLOCK HANDLER ACTION ORDINAL PMDI SPACE 2,26 ** ERROR PROCESSOR PMDI. * * ERROR PROCESSOR PMDI PROCESSES AN INOPERATIVE MDI. THE * BLOCK HANDLER STATE RESPONSE ACTION FOR MDI INOPERATIVE * IS EXECUTED AND THE NEXT FRONT END IS PROCESSED. * * ENTRY - * * (ERRCODE) = ERROR CODE, * (STS) = STREAM STATES. * * EXIT - * * (DEC) = DRIVER ERROR CODE, * (ERRCODE) = RESET. * * CALLS - * * PSTC - PRESET FRONT END CHANNEL INSTRUCTIONS, * RCT - RESET CONNECTION TABLE VALUES, ** EBRA - EXECUTE BLOCK STATE RESPONSE ACTION. * ENTRY POINT FOR PMDI IS IN ERROR PROCESSOR PFCE. PNTO SPACE 2,26 ** ERROR PROCESSOR PNTO. * * ERROR PROCESSOR PNTO PROCESSES A NPU TIMEOUT. THE * BLOCK HANDLER STATE RESPONSE ACTION FOR NPU TIMEOUT * IS EXECUTED AND THE NEXT FRONT END IS PROCESSED. * * ENTRY - * * (ERRCODE) = ERROR CODE, * (FEI) = FRONT END TABLE ADDRESS. * * EXIT - * * (DEC) = ERROR CODE, * (ERRCODE) = RESET. * * CALLS - * * PSTC - PRESET FRONT END CHANNEL INSTRUCTIONS, * RCT - RESET CONNECTION TABLE VALUES, ** EBRA - EXECUTE BLOCK STATE RESPONSE ACTION. PNTO ACTION PROCESS NPU TIMEOUT LDN /TABLES/.NPTO LOAD NPU TIMEOUT RESPONSE ORDINAL EXIT PFCE.4 EXIT TO STORE BLOCK HANDLER ACTION ORDINAL PURI SPACE 2,28 ** ERROR PROCESSOR PURI. * * ERROR PROCESSOR PURI PROCESSES AN UNABLE TO RESET * MDI INTERFACE CONDITION. THE BLOCK HANDLER STATE * RESPONSE ACTION FOR UNABLE TO RESET INTERFACE IS * EXECUTED AND THE NEXT FRONT END IS PROCESSED. * * ENTRY - * * (ERRCODE) = ERROR CODE, * (FEI) = FRONT END TABLE ADDRESS. * * EXIT - * * (DEC) = ERROR CODE, * (ERRCODE) = RESET. * * CALLS - * * PSTC - PRESET FRONT END CHANNEL INSTRUCTIONS, * RCT - RESET CONNECTION TABLE VALUES, ** EBRA - EXECUTE BLOCK STATE RESPONSE ACTION. PURI ACTION PROCESS UNABLE TO RESET MDI INTERFACE LDN /TABLES/.MFUR LOAD UNABLE TO RESET RESPONSE ORDINAL EXIT PFCE.4 EXIT TO STORE BLOCK HANDLER ACTION ORDINAL PMRD SPACE 2,28 ** ERROR PROCESSOR PMRD. * * ERROR PROCESSOR PMRD PROCESSES A MDI REQUESTING * DIAGNOSTICS CONDITION. THE BLOCK HANDLER STATE * RESPONSE ACTION FOR MDI REQUESTING DIAGNOSTICS IS * EXECUTED AND THE NEXT FRONT END IS PROCESSED. * * ENTRY - * * (ERRCODE) = ERROR CODE, * (FEI) = FRONT END TABLE ADDRESS. * * EXIT - * * (DEC) = ERROR CODE, * (ERRCODE) = RESET. * * CALLS - * * PSTC - PRESET FRONT END CHANNEL INSTRUCTIONS, * RCT - RESET CONNECTION TABLE VALUES, ** EBRA - EXECUTE BLOCK STATE RESPONSE ACTION. PMRD ACTION PROCESS MDI REQUESTING DIAGNOSTICS LDN /TABLES/.MDRD LOAD DIAGNOSTIC REQUEST RESPONSE ORDINAL EXIT PFCE.4 EXIT TO STORE BLOCK HANDLER ACTION ORDINAL BRPS SPACE 2,34 ** ERROR PROCESSOR BRPS. * * ERROR PROCESSOR BRPS PROCESSES A BREAK RECEIVED ON A * PRU STREAM. IF THE STREAM IS NOT AN APPLICATION TO * APPLICATION STREAM THE BLOCK PROTOCOL ERROR PROCESSOR * IS EXECUTED. OTHERWISE ANY INPUT IN PROGRESS IS * BYPASSED, THE STREAM STOPPED BY TRANSMISSION LEVEL * RESET CODE IS STORED IN THE PCB, BREAK RECEIVED FLAG * IS SET IN THE PCB AND THE STREAM STATE RESPONSE ACTION * FOR LEVEL SEVEN ERROR CONDITION IS EXECUTED. * * ENTRY - * * (AAC) = APPLICATION TO APPLICATION FLAG, * (EOT) = END OF TRANSFER FLAG. * * EXIT - * * (ERRCODE) = RESET. * * CALLS - * * RSPB - READ AND STORE ADDRESS OF PCB WORD, * WCMW - WRITE WORD TO PCB, * ESRA - EXECUTE STREAM STATE RESPONSE ACTION. * * MACRO CALLS - * ** CLIO - CALL LOGICAL INPUT/OUTPUT INTERFACE. BRPS ACTION PROCESS BREAK RECEIVED ON PRU STREAM LDD AAC LOAD APPLICATION TO APPLICATION FLAG NJN BRPS.1 EXIT IF APPLICATION TO APPLICATION EXIT PBPE EXIT TO PROCESS BLOCK PROTOCOL ERROR BRPS.1 LDN /NAM/W.PCBPS6 PRU STREAM PARAMETER SIX WORD ORDINAL RJM RSPB EXIT TO READ PRU PARAMETER WORD FROM PCB LDD T10+/NAM/C.PCBFTS LOAD FILE TRANSFER STATUS BYTE SCN /NAM/B.PCBBRR CLEAR BREAK RECEIVED FLAG LMN /NAM/B.PCBBRR SET BREAK RECEIVED FLAG STD T10+/NAM/C.PCBFTS STORE FILE TRANSFER STATUS BYTE RJM WCMW EXIT TO WRITE PRU PARAMETER WORD TO PCB LDD BSBC LOAD BLOCK SERIAL NUMBERS AND BACK COUNTS SCN /NAM/M.OBN&/NAM/L.OBC RESET OUTPUT SERIAL & BACK COUNT ADN /NAM/I.OBN SET SERIAL NUMBER TO ONE STD BSBC STORE BLOCK SERIAL NUMBERS AND BACK COUNTS LDN /NAM/FTRCBK LOAD TRANSMISSION LEVEL RESET REASON CODE BRPS.2 LINK ENTRY STD T7 STORE STREAM STOPPED REASON CODE BRPS.3 LDD EOT LOAD END OF TRANSFER FLAG NJN BRPS.4 EXIT IF END OF TRANSFER RECEIVED CLIO FEIC ACCEPT NEXT DATA CHARACTER FROM FRONT END UJK BRPS.3 EXIT TO CHECK FOR END OF TRANSFER BRPS.4 LDN /NAM/W.PCBPS2 PRU STREAM PARAMETER TWO WORD ORDINAL RJM RSPB EXIT TO READ PRU PARAMETER WORD FROM PCB LDD T10+/NAM/C.PCBSS LOAD STREAM STOPPED REASON CODES SCN 77B CLEAR OLD EXTERNALLY STOPPED REASON CODE ADD T7 PLUS NEW EXTERNALLY STOPPED REASON CODE STD T10+/NAM/C.PCBSS STORE STREAM STOPPED REASON CODES RJM WCMW EXIT TO WRITE PRU PARAMETER WORD TO PCB LDN 0 CONSTANT OF ZERO STM ERRCODE RESET ERROR CODE LDN /TABLES/.SL7E LEVEL SEVEN ERROR RESPONSE ORDINAL RJM ESRA EXIT TO EXECUTE STREAM RESPONSE ACTION EXIT NFE EXIT TO PROCESS NEXT FRONT END PEL7 SPACE 2,32 ** ERROR PROCESSOR PEL7. * * ERROR PROCESSOR PEL7 PROCESSES A LEVEL SEVEN PROTOCOL * ERROR ON A FILE TRANSFER. ANY INPUT IN PROGRESS IS * BYPASSED, THE STREAM STROPPED BY LEVEL SEVEN PROTOCOL * ERROR CODE IS STORED IN THE PCB AND THE STREAM STATE * RESPONSE ACTION FOR LEVEL SEVEN ERROR CONDITION IS * EXECUTED. * * ENTRY - * * (EOT) = END OF TRANSFER FLAG. * * EXIT - * * (ERRCODE) = RESET. * * CALLS - * * RSPB - READ AND STORE ADDRESS OF PCB WORD, * WCMW - WRITE WORD TO PCB, * ESRA - EXECUTE STREAM STATE RESPONSE ACTION. * * MACRO CALLS - * ** CLIO - CALL LOGICAL INPUT/OUTPUT INTERFACE. PEL7 ACTION PROCESS LEVEL SEVEN PROTOCOL ERROR LDN /NAM/FTRCPE LOAD LEVEL SEVEN PROTOCOL ERROR REASON CODE EXIT BRPS.2 EXIT TO STORE STREAM STOPPED REASON CODE DEL7 SPACE 2,32 ** ERROR PROCESSOR DEL7. * * ERROR PROCESSOR DEL7 PROCESSES A LEVEL SEVEN DATA * ERROR ON A FILE TRANSFER. ANY INPUT IN PROGRESS IS * BYPASSED, THE STREAM STROPPED BY LEVEL SEVEN DATA * ERROR CODE IS STORED IN THE PCB AND THE STREAM STATE * RESPONSE ACTION FOR LEVEL SEVEN ERROR CONDITION IS * EXECUTED. * * ENTRY - * * (EOT) = END OF TRANSFER FLAG. * * EXIT - * * (ERRCODE) = RESET. * * CALLS - * * RSPB - READ AND STORE ADDRESS OF PCB WORD, * WCMW - WRITE WORD TO PCB, * ESRA - EXECUTE STREAM STATE RESPONSE ACTION. * * MACRO CALLS - * ** CLIO - CALL LOGICAL INPUT/OUTPUT INTERFACE. DEL7 ACTION PROCESS LEVEL SEVEN DATA ERROR LDN /NAM/FTRCDE LOAD LEVEL SEVEN DATA ERROR REASON CODE EXIT BRPS.2 EXIT TO STORE STREAM STOPPED REASON CODE HEL7 SPACE 2,32 ** ERROR PROCESSOR HEL7. * * ERROR PROCESSOR HEL7 PROCESSES A LEVEL SEVEN HEADER * ERROR ON A FILE TRANSFER. ANY INPUT IN PROGRESS IS * BYPASSED, THE STREAM STROPPED BY LEVEL SEVEN HEADER * ERROR CODE IS STORED IN THE PCB AND THE STREAM STATE * RESPONSE ACTION FOR LEVEL SEVEN ERROR CONDITION IS * EXECUTED. * * ENTRY - * * (EOT) = END OF TRANSFER FLAG. * * EXIT - * * (ERRCODE) = RESET. * * CALLS - * * RSPB - READ AND STORE ADDRESS OF PCB WORD, * WCMW - WRITE WORD TO PCB, * ESRA - EXECUTE STREAM STATE RESPONSE ACTION. * * MACRO CALLS - * ** CLIO - CALL LOGICAL INPUT/OUTPUT INTERFACE. HEL7 ACTION PROCESS LEVEL SEVEN HEADER ERROR LDN /NAM/FTRCHE LOAD LEVEL SEVEN HEADER ERROR REASON CODE EXIT BRPS.2 EXIT TO STORE STREAM STOPPED REASON CODE QMER SPACE 2,32 ** ERROR PROCESSOR QMER. * * ERROR PROCESSOR QMER PROCESSES A Q-MESSAGE FORMAT * ERROR ON A FILE TRANSFER. ANY INPUT IN PROGRESS IS * BYPASSED, THE STREAM STROPPED BY Q-MESSAGE FORMAT * ERROR CODE IS STORED IN THE PCB AND THE STREAM STATE * RESPONSE ACTION FOR LEVEL SEVEN ERROR CONDITION IS * EXECUTED. * * ENTRY - * * (EOT) = END OF TRANSFER FLAG. * * EXIT - * * (ERRCODE) = RESET. * * CALLS - * * RSPB - READ AND STORE ADDRESS OF PCB WORD, * WCMW - WRITE WORD TO PCB, * ESRA - EXECUTE STREAM STATE RESPONSE ACTION. * * MACRO CALLS - * ** CLIO - CALL LOGICAL INPUT/OUTPUT INTERFACE. QMER ACTION PROCESS Q-MESSAGE FORMAT ERROR LDN /NAM/FTRCQM LOAD Q-MESSAGE FORMAT ERROR REASON CODE EXIT BRPS.2 EXIT TO STORE STREAM STOPPED REASON CODE CMER SPACE 2,32 ** ERROR PROCESSOR CMER. * * ERROR PROCESSOR CMER PROCESSES A CHECKMARKING LOGIC * ERROR ON A FILE TRANSFER. ANY INPUT IN PROGRESS IS * BYPASSED, THE STREAM STROPPED BY CHECKMARKING LOGIC * ERROR CODE IS STORED IN THE PCB AND THE STREAM STATE * RESPONSE ACTION FOR LEVEL SEVEN ERROR CONDITION IS * EXECUTED. * * ENTRY - * * (EOT) = END OF TRANSFER FLAG. * * EXIT - * * (ERRCODE) = RESET. * * CALLS - * * RSPB - READ AND STORE ADDRESS OF PCB WORD, * WCMW - WRITE WORD TO PCB, * ESRA - EXECUTE STREAM STATE RESPONSE ACTION. * * MACRO CALLS - * ** CLIO - CALL LOGICAL INPUT/OUTPUT INTERFACE. CMER ACTION PROCESS CHECKMARKING LOGIC ERROR LDN /NAM/FTRCCE LOAD CHECKMARKING LOGIC ERROR REASON CODE EXIT BRPS.2 EXIT TO STORE STREAM STOPPED REASON CODE TOL7 SPACE 2,32 ** ERROR PROCESSOR TOL7. * * ERROR PROCESSOR TOL7 PROCESSES A LEVEL SEVEN TIMEOUT * CONDITION ON A FILE TRANSFER. ANY INPUT IN PROGRESS IS * BYPASSED, THE STREAM STROPPED BY LEVEL SEVEN TIMEOUT * CONDTIION CODE IS STORED IN THE PCB AND THE STREAM STATE * RESPONSE ACTION FOR LEVEL SEVEN ERROR CONDITION IS * EXECUTED. * * ENTRY - * * (EOT) = END OF TRANSFER FLAG. * * EXIT - * * (ERRCODE) = RESET. * * CALLS - * * RSPB - READ AND STORE ADDRESS OF PCB WORD, * WCMW - WRITE WORD TO PCB, * ESRA - EXECUTE STREAM STATE RESPONSE ACTION. * * MACRO CALLS - * ** CLIO - CALL LOGICAL INPUT/OUTPUT INTERFACE. TOL7 ACTION PROCESS LEVEL SEVEN TIMEOUT ERROR LDN /NAM/FTRCTO LOAD LEVEL SEVEN TIMEOUT ERROR REASON CODE EXIT BRPS.2 EXIT TO STORE STREAM STOPPED REASON CODE PBPE SPACE 2,50 ** ERROR PROCESSOR PBPE. * * ERROR PROCESSOR PBPE PROCESSES A BLOCK PROTOCOL ERROR * FROM THE FRONT END. IF THE FRONT END CHANNEL IS ACTIVE * IT IS DISCONNECTED. VARIOUS DRIVER VALUES ARE * TRANSFERRED TO THE BLOCK PROTOCOL ERROR WORKLIST AND * THE BLOCK PROTOCOL ERROR WORKLIST IS TRANSFERRED TO THE * INBOUND BUFFER. IF THE FRONT END IS A MDI THE READ * ERROR FUNCTION IS ISSUED TO THE MDI. IF THE HALT * FRONT END ON ERROR FLAG IS SET IN THE DRIVER INTERFACE * TABLE THE HALT FRONT END COMMAND WITH THE DUMP OPTION * SELECTED IS SENT TO THE FRONT END NODE THAT CAUSED THE * BLOCK PROTOCOL ERROR. THE BLOCK HANDLER RESPONSE * ACTION FOR BLOCK PROTOCOL ERROR IS EXECUTED AND THE NEXT * FRONT END IS PROCESSED. * * ENTRY - * * (ERRCODE) = ERROR CODE, * (FEI) = FRONT END TABLE ADDRESS, * (FTY) = FRONT END TYPE, * (DIT-DIT+1) = ADDRESS OF DRIVER INTERFACE TABLE. * * EXIT - * * (DEC) = DRIVER ERROR CODE, * (ERRCODE) = RESET. * * ERROR EXITS - * * EXIT TO *ERROR* IF UNABLE TO ISSUE HALT COMMAND. * * CALLS - * * PSTC - PRESET FRONT END CHANNEL INSTURCTIONS, * CIBS - CHECK INBOUND BUFFER SPACE, * PAUSE - PASUE FOR STORAGE RELOCATION, * IWL - INITIALIZE WORKLIST, * TWL - TRANSFER WORKLIST TO INBOUND BUFFER, * CMRE - CHECK FOR MDI READ ERROR, * TTBF - TRANSFER TWELVE BIT FORMATTED DATA, * TFL - FORM ABSOLUTE CENTRAL ADDRESS, * EBRA - EXECUTE BLOCK STATE RESPONSE ACTION. * * MACRO CALLS - * * FEIO - LOGICAL INPUT/OUTPUT INTERFACE * * THE FORMAT OF THE WORKLIST ENTRY IS AS FOLLOWS: * * 5 4 3 2 1 * 987654321098765432109876543210987654321098765432109876543210 * ************************************************************* * * 55 * 16 *///////////////////////////////////* * ************************************************************* * * HN * TN * CN *ERRCODE* RC *REQ COD*///////////* * ************************************************************* * *///////////* STS * CTL * BHS * * ************************************************************* * * OVL * NCC * LIC * EOT * *...* * ************************************************************* * * FEIC * ERRCODE * HN * TN * ADO * * ************************************************************* * * RTE * CO/IOC * BSBC * * ************************************************************* * * BT * NSS * PRU * REOT * OW * * ************************************************************* * *...........* OCP/ICP * CN * * * ************************************************* * * * * * * FIRST 30 BYTES OF DATA IN BHB * * * * * * * * ************************************************************* * * * THE CONTENTS OF THE NPI/PP SUPERVISORY MESSAGE IS BASICALLY * THE SAME AS THE ABOVE WORKLIST ENTRY AND IS AS FOLLOWS: * * 5 4 3 2 1 * 987654321098765432109876543210987654321098765432109876543210 * ************************************************************* * * 1E(16)* 14(16)* 59(16)* STS * CTL * BHS *OVL* * ************************************************************* * *...* NCC * LIC * EOT * FEIC *ERRCODE* HN * * ************************************************************* * * TN * ADO * RTE *CO/IOC * BSBC * BT* * ************************************************************* * *...* NSS * PRU * REOT * OW * OCP/ICP * * ************************************************************* * * CN *///////////////////////////////////////////////////* * ************************************************************* * * WHERE HN = HOST NODE NUMBER * TN = TERMINAL NODE NUMBER * CN = NETWORK CONNECTION NUMBER * ERRCODE = DRIVER ERROR CODE * RC = WORKLIST REASON CODE * REQ COD = WORKLIST REQUEST CODE * STS = STREAM STATES * CTL = ACTION ORDINAL * BHS = BLOCK HANDLER STATE * OVL = OVERLAY ORDINAL * NCC = CURRENT MESSAGE CHARACTER COUNT * LIC = LAST INPUT CHARACTER * EOT = END OF TRANSFER FLAG * FEIC = ADDRESS OF INPUT CHARACTER PROCESSOR * ADO = ACTION DIRECTORY ORDINAL * RTE = RESPONSE TABLE ENTRY * CO/IOC = COMMAND ORDINAL * BSBC = BSN AND BACK COUNTS * BT = NETWORK BLOCK TYPE * NSS = NEXT STREAM STATE * PRU = PRU BUFFER SIZE * REOT = REQUEST END OF TRANSFER FLAG * OW = NPU ORDER WORD * OCP/ICP = OUTPUT/INPUT CHARACTER PROCESSOR * ** PBPE ACTION PROCESS BLOCK PROTOCOL ERROR LDM ERRCODE LOAD ERROR CODE STM DRBUF+/NAM/DIB+30 SAVE ERROR CODE TEMPORARILY LDN 0 CONSTANT OF ZERO STM ERRCODE RESET ERROR CODE RJM PSTC EXIT TO PRESET CHANNEL INSTRUCTIONS IJM. PBPE.1 EXIT IF FRONT END CHANNEL NOT ACTIVE DCN. DISCONNECT FRONT END CHANNEL PBPE.1 LDM FTY,FEI LOAD FRONT END TYPE ZJN PBPE.1C EXIT IF NPU LDK RTCL LOAD ADDRESS OF SYSTEM REAL-TIME CLOCK CRD T0 READ SYSTEM REAL-TIME CLOCK LDM BPE,FEI READ BLOCK PROTOCOL ERROR RETRY COUNTER ZJN PBPE.1A EXIT IF FIRST READ ERROR LDD T0+1 LOAD SYSTEM SECOND CLOCK SBM ETM,FEI LESS ERROR PROCESSING START TIME LPC 7777B MAKE POSITIVE 12-BIT COUNTER SBN Q.BPET LESS ERROR RETRY TIME LIMIT MJN PBPE.1B EXIT IF TIME LIMIT NOT REACHED LDN 0 CONSTANT OF ZERO STM BPE,FEI RESET ERROR RETRY COUNTER PBPE.1A LDD T0+1 LOAD SYSTEM SECOND TIME STM ETM,FEI STORE ERROR PROCESSING START TIME PBPE.1B AOM BPE,FEI CONSECUTIVE BLOCK PROTOCOL ERROR COUNT SBN MAXBPE LESS MAXIMUM CONSEC. BLOCK PROTOCOL ERROR PJN PBPE.1D EXIT IF ERROR LIMIT REACHED RJM CMRE EXIT TO CHECK FOR MDI READ ERROR NJN PBPE.1C EXIT IF READ ERROR NOT REPORTED BY MDI EREXIT MIO EXIT TO ERROR - ERROR REPORTED ON INPUT PBPE.1C PJN PBPE.1E EXIT IF LAST FUNCTION IS NOT READ EXIT NFE EXIT IF READ ERROR FUNCTION IS ISSUED PBPE.1D LDN 0 CONSTANT OF ZERO STM BPE,FEI RESET BLOCK PROTOCOL ERROR COUNTER PBPE.1E LDN /NAM/WL(3)CM LENGTH OF BLOCK PROTOCOL ERROR WORKLIST RJM CIBS EXIT TO CHECK FOR INBOUND BUFFER SPACE PJN PBPE.2 EXIT IF SUFFICIENT INBOUND BUFFER SPACE LJM PBPE.4 ABANDON ERROR MESSAGE IF NO SPACE PBPE.2 LDN 30 LOAD COUNT OF WORDS TO MOVE STD T0 INITIALIZE MOVE WORD COUNT LDC BHB+29 LOAD LAST ADDRESS OF DATA TO MOVE STD T1 INITIALIZE SOURCE DATA ADDRESS LDC DRBUF+/NAM/DIB+29 LOAD LAST ADDRESS OF DESTINATION AREA STD T2 INITIALIZE DESTINATION ADDRESS PBPE.3 LDI T1 LOAD NEXT SOURCE WORD STI T2 STORE NEXT DESTINATION WORD SOD T1 DECREMENT SOURCE DATA ADDRESS SOD T2 DECREMENT DESTINATION DATA ADDRESS SOD T0 DECREMENT MOVE WORD COUNT NJN PBPE.3 EXIT IF MORE DATA TO MOVE LDD CN CONNECTION NUMBER STM DRBUF+/NAM/DCN SAVE FOR WORKLIST AND NPI/PP SUP MSG LDD STS LOAD STREAM STATES STM DRBUF+/NAM/DSS+1 SAVE FOR WORKLIST AND/OR SUP MSG SHN -8 RIGHT JUSTIFY UPPER 4 BITS OF STREAM STATES STM DRBUF+/NAM/DSS SAVE UPPER 4 BITS FOR NPI/PP SUP MSG LDD CTL LOAD ACTION ORDINAL STM DRBUF+/NAM/DAC SAVE FOR WORKLST AND NPI/PP SUP MSG LDD BHS LOAD BLOCK HANDLER STATE STM DRBUF+/NAM/DBS STORE DRIVER BLOCK HANDLER STATE LDM DCSAVE+70B LOAD LOADED OVERLAY ORDINAL STM DRBUF+/NAM/DOV STORE LOADED OVERLAY ORDINAL LDD NCC LOAD CURRENT MESSAGE CHARACTER COUNT STM DRBUF+/NAM/DCC STORE DRIVER CHARACTER COUNT LDM DCSAVE+T0 LOAD LAST INPUT CHARACTER STM DRBUF+/NAM/DLI STORE DRIVER LAST INPUT CHARACTER LDD EOT LOAD END OF TRANSFER FLAG STM DRBUF+/NAM/DET STORE DRIVER END OF TRANSFER FLAG LDM FEIC LOAD RETURN ADDRESS OF INPUT CHAR PROC STM DRBUF+/NAM/DIC+1 SAVE FOR WORKLIST AND/OR SUP MSG SHN -8 UPPER 4 BITS OF LAST DRIVER INPUT CALL ADDR STM DRBUF+/NAM/DIC SAVE UPPER 4 BITS FOR NPI/PP SUP MSG LDM HND,FEI HOST NODE NUMBER STM DRBUF+/NAM/DHN SAVE FOR WORKLIST AND/OR SUP MSG LDD TN TERMINAL NODE NUMBER STM DRBUF+/NAM/DTN SAVE FOR WORKLIST AND/OR SUP MSG LDD ADO DRIVER ACTION DIRECTORY ORDINAL STM DRBUF+/NAM/DAD SAVE FOR WORKLIST AND/OR SUP MSG LDD RTE DRIVER RESPONSE TABLE ENTRY STM DRBUF+/NAM/DRT+1 SAVE FOR WORKLIST AND/OR SUP MSG SHN -8 UPPER 4 BITS OF DRIVER RESPONSE TABLE ENTRY STM DRBUF+/NAM/DRT SAVE UPPER 4 BITS FOR NPI/PP SUP MSG LDD CO COMMAND ORDINAL OR INPUT ORDER CODE STM DRBUF+/NAM/DCO SAVE FOR WORKLIST AND/OR SUP MSG LDD BSBC BLOCK SERIAL NUMBERS AND BACK COUNTS STM DRBUF+/NAM/DBA+1 SAVE FOR WORKLIST AND/OR SUP MSG SHN -8 UPPER 4 BITS OF BSNS AND BACK COUNTS STM DRBUF+/NAM/DBA SAVE UPPER 4 BITS FOR NPI/PP SUP MSG LDD BT BLOCK TYPE STM DRBUF+/NAM/DBT SAVE FOR WORKLIST AND/OR SUP MSG LDD NSS DRIVER NEXT STREAM STATE STM DRBUF+/NAM/DNS SAVE FOR WORKLIST AND/OR SUP MSG LDD PRU CURRENT PRU BUFFER SIZE IN USE STM DRBUF+/NAM/DPR SAVE FOR WORKLIST AND/OR SUP MSG LDD OW NPU OUTPUT ORDER WORD STM DRBUF+/NAM/DOW+1 SAVE FOR WORKLIST AND/OR SUP MSG SHN -8 UPPER 4 BITS OF NPU ORDER WORD STM DRBUF+/NAM/DOW SAVE UPPER 4 BITS FOR NPI/PP SUP MSG LDD OCP DRIVER OUTPUT/INPUT PROCESSOR STM DRBUF+/NAM/DCP+1 SAVE FOR WORKLIST AND/OR SUP MSG SHN -8 UPPER 4 BITS OF DRIVER I/O PROCESSOR STM DRBUF+/NAM/DCP SAVE UPPER 4 BITS FOR NPI/PP SUP MSG LDD REOT DRIVER REQUEST END OF TRANSFER FLAG STM DRBUF+/NAM/DRE SAVE FOR WORKLIST AND/OR SUP MSG LDM DRBUF+/NAM/DIB+30 LOAD SAVED ERROR CODE STM DRBUF+/NAM/DER SAVE FOR WORKLIST AND/OR SUP MSG STM ERRCODE RESTORE ERROR CODE WORD FOR PRU WORKLIST LMC /ERROR/IUC LESS VALUE FOR INPUT ON UNASSIGNED CN ZJN PBPE.3A EXIT IF INPUT ON UNASSIGNED CONNECTION LDD TN LOAD TERMINAL NODE ZJN PBPE.3A ISSUE DAYFILE WLE FOR INVALID TERMINAL NODE LDD STS LOAD STREAM STATE ZJN PBPE.3A EXIT IF NOT IN PRU STREAM STATE LDN /NAM/BPWL LOAD BLOCK PROTOCOL WORKLIST REQUEST CODE UJN PBPE.3B EXIT TO INITIALIZE UPBOUND WORKLIST PBPE.3A LDC /NAM/DFBPE*10000B&/NAM/DFWL REASON AND REQUEST CODE PBPE.3B RJM IWL EXIT TO INITIALIZE UPBOUND WORKLIST LDN 0 STM ERRCODE INITIALIZE ERROR CODE WORD AGAIN LDN /NAM/WL(3)CM LENGTH OF BLOCK PROTOCOL ERROR WORKLIST STM NBH+/NAM/C.BWD+1 STORE UPBOUND WORKLIST LENGTH RJM TWL EXIT TO TRANSFER WORKLIST TO INBOUND BUFFER PBPE.4 LDD DIT LOAD HIGH-ORDER OF INTERFACE TABLE ADDRESS SHN 12 POSITION TO HIGH-ORDER ADD DIT+1 PLUS LOW-ORDER OF INTERFACE TABLE ADDRESS ADN /NAM/W.DITNTP DELTA FOR APPLICATION REQUEST WORD RJM TFL EXIT TO FORM ABSOLUTE CENTRAL ADDRESS CRD T0 READ APPLICATION REQUEST WORD LDD T0+/NAM/C.DITAR LOAD APPLICATION REQUEST BYTE SHN 17-/NAM/S.DITEH POSITION HALT ON ERROR FLAG TO SIGN MJN PBPE.6 EXIT IF HALT FRONT END ON ERROR SELECTED PBPE.5 LDN /TABLES/.BPCE BLOCK PROTOCOL ERROR RESPONSE ORDINAL STD CTL STORE BLOCK HANDLER STATE ACTION ORDINAL EXIT PFCE.5 EXIT TO PRESET CHANNEL INSTRUCTIONS PBPE.6 LDM BHB+/BLOCK/SN LOAD SOURCE NODE OF LAST TRANSACTION STM BHB+/BLOCK/DN STORE DESTINATION NODE FOR HALT COMMAND LDM HND,FEI LOAD HOST NODE NUMBER STM BHB+/BLOCK/SN STORE SOURCE NODE OF HALT COMMAND LDN 0 CONSTANT OF ZERO STM BHB+/BLOCK/CN STORE CONNECTION NUMBER OF HALT COMMAND LDN /BLOCK/CMD LOAD COMMAND BLOCK TYPE VALUE STM BHB+/BLOCK/BNBT STORE BLOCK TYPE OF HALT COMMAND LDK HFPFC LOAD HALT FRONT END PRIMARY FUNCTION CODE STM NCH+/BLOCK/PFC STORE COMMAND PRIMARY FUNCTION CODE LDK HFSFC LOAD HALT FRONT END SECONDARY FUNCTION CODE STM NCH+/BLOCK/SFC STORE COMMAND SECONDARY FUNCTION CODE LDC .Y LOAD ASCII CHARACTER Y STM DRBUF+/BLOCK/DDP SELECT DUMP IN HALT FRONT END CMD LDN /BLOCK/L.BH+/NAM/HFEC+16-1 LENGTH OF COMMAND SHN -3 POSITION TO ORDER WORD FORMAT STD OW STORE OUTPUT BLOCK LENGTH LDN /NORDER/OL1 LOAD OUTPUT PRIORITY LEVEL SHN /NORDER/S.NPUOL PRIORITY TO ORDER WORD FORMAT RAD OW ADD TO OUTPUT BLOCK LENGTH LDK RTCL LOAD ADDRESS OF SYSTEM REAL-TIME CLOCK CRD T0 READ SYSTEM REAL-TIME CLOCK LDD T0+4 LOAD SYSTEM MILLISECOND TIME ADK Q.NOWT PLUS OUTPUT WAIT DELAY STD T15 STORE OUTPUT WAIT TIMER PBPE.7 RJM PAUSE EXIT TO PAUSE FOR STORAGE RELOCATION FEIO FERO REQUEST OUTPUT TO FRONT END NJN PBPE.8 EXIT IF OUTPUT REQUEST ACCEPTED LDK RTCL LOAD ADDRESS OF SYSTEM READ-TIME CLOCK CRD T1 READ SYSTEM REAL-TIME CLOCK LDD T1+4 LOAD SYSTEM MILLISECOND TIME SBD T15 LESS OUTPUT WAIT TIMER SHN 5+1 POSITION HIGH-ORDER VALUE BIT TO SIGN MJN PBPE.7 EXIT IF TIMER NOT EXPIRED UJN PBPE.9 EXIT TO HALT FRONT END PBPE.8 LDN 0 INITIALIZE REQUEST END OF TRANSFER FLAG STD REOT SET NO END OF TRANSFER FEIO FEOH OUTPUT BLOCK PROTOCOL HEADER TO FRONT END LDC NCH LOAD ADDRESS OF COMMAND HEADER STD T1 STORE STARTING DATA ADDRESS LDN /NAM/HFEC LOAD COMMAND TEXT CHARACTER COUNT STD T2 STORE DATA CHARACTER COUNT AOD REOT SET REQUEST END OF TRANSFER REQUESTED RJM TTBF EXIT TO TRANSFER HALT COMMAND TO FRONT END PBPE.8A BSS 0 UJK PBPE.5 EXIT TO LOAD ERROR RESPONSE CODE PBPE.9 LDN /NAM/L.BH+/NAM/L.WH+L.NPHT LENGTH OF HALTED WORKLIST RJM CIBS EXIT TO CHECK FOR INBOUND BUFFER SPACE PJN PBPE.10 EXIT IF INBOUND BUFFER SPACE AVAILABLE UJN PBPE.8A ABANDON ERROR MESSAGE IF NO SPACE PBPE.10 FEIO FEHL HALT FRONT END UJN PBPE.8A EXIT TO LOAD ERROR RESPONSE CODE PSTC TITLE ERROR PROCESSING SUPPORT SUBROUTINES. PSTC SPACE 2,24 ** SUBROUTINE PSTC. * * SUBROUTINE PSTC ADDS THE FRONT END CHANNEL TO THE * CHANNEL INSTRUCTIONS LOCATED BY A CHANNEL CHANNEL * INSTRUCTION LIST. * * ENTRY - * * (CHAN) = FRONT END CHANNEL NUMBER. * * EXIT - * * CHANNEL INSTRUCTIONS INITIALIZED. * * USES - * * T1 = CHANNEL INSTRUCTION LIST ADDRESS, * T0 = FRONT END CHANNEL, ** T2 = ADDRESS OF CHANNEL INSTRUCTION. PSTC SUBR ENTRY/EXIT LDC ECTABLE LOAD ADDRESS OF CHANNEL INITIALIZATION LIST STD T1 INITIALIZE CHANNEL INSTRUCTION LIST ADDRESS LDM CHAN LOAD FRONT END CHANNEL NUMBER STD T0 STORE FRONT END CHANNEL NUMBER PSTC.1 LDI T1 LOAD ADDRESS OF NEXT CHANNEL INSTRUCTION ZJN PSTCX RETURN IF END OF CHANNEL INSTRUCTION LIST STD T2 STORE ADDRESS OF CHANNEL INSTRUCTION LDI T2 LOAD CHANNEL INSTRUCTION SCN 77B&NHO CLEAR PREVIOUS FRONT END CHANNEL NUMBER LMD T0 PLUS NEW FRONT END CHANNEL NUMBER STI T2 STORE UPDATED CHANNEL INSTRUCTION AOD T1 INCREMENT CHANNEL INSTRUCTION LIST ADDRESS UJK PSTC.1 EXIT TO CHECK FOR END OF INSTRUCTION LIST CMRE SPACE 2,32 ** SUBROUTINE CMRE. * * SUBROUTINE CMRE EXITS TO THE ERROR ROUTINE IF THE * CONSECUTIVE ERROR COUNT FOR THE MDI HAS REACHED THE * DEFINED MAXIMUM. OTHERWISE THE LAST MDI FUNCTION IS * CHECKED FOR A READ DATA FUNCTION. IF THE LAST FUNCTION * IS A READ DATA AND THE MDI DID NOT DETECT AN ERROR, * THE READ ERROR FUNCTION IS ISSUED TO THE MDI TO REPORT * THAT THE READ DATA WAS NOT SUCCESSFUL. * * ENTRY - * * (FEI) = FRONT END TABLE ADDRESS, * (ECT) = CONSECUTIVE MDI ERROR COUNT, * (FC) = LAST MDI FUNCTION CODE. * * EXIT - * * (A) = NEGATIVE - READ ERROR FUNCTION IS ISSUED, * = 0 - READ ERROR REPORTED BY MDI, * = 1 - CHANNEL ACCESS TYPE ERROR, * = OTHER - LAST FUNCTION CODE IS NOT READ. * (ECT) = UPDATED FOR CURRENT ERROR. * * ERROR EXITS - * * EXIT TO *ERROR* IF ERROR COUNT EXCEEDED, * EXIT TO *ERROR* IF UNABLE TO ISSUE READ ERROR. * * CALLS - * * GMS - OBTAIN MDI GENERAL STATUS, ** FMDI - FUNCTION MDI. CMRE.0 LCN 0 NEGATIVE RETURN CMRE SUBR ENTRY/EXIT AOM ECT,FEI INCREMENT CONSECUTIVE ERROR COUNT SBN MAXMER LESS MAXIMUM CONSECUTIVE ERRORS ALLOWED MJN CMRE.2 EXIT IF ERROR COUNT NOT EXCEEDED CMRE.1 EREXIT MIN EXIT TO ERROR - MDI INOPERATIVE CMRE.2 LDM ERRCODE LOAD ERROR CODE SBN /ERROR/AAD+1 CHECK FOR CHANNEL ACCESS TYPE ERROR PJN CMRE.2A EXIT IF NOT CHANNEL ACCESS TYPE ERROR LDN 1 CONSTANT OF ONE UJN CMREX RETURN WITH ONE CMRE.2A LDM /MDI/FC LOAD LAST MDI FUNCTION LMC /FUNCTION/RDT LESS VALUE FOR READ DATA NJN CMREX RETURN IF NOT ACCEPTING INPUT DATA RJM /MDI/GMS EXIT TO OBTAIN MDI GENERAL STATUS ZJN CMREX RETURN IF MDI REPORTING ERROR PJN CMRE.3 EXIT IF MDI DID NOT DETECT ERROR EXIT PNMS EXIT IF MDI STATUS NOT AVAILABLE CMRE.3 LDN /FUNCTION/RER LOAD READ ERROR FUNCTION RJM FMDI EXIT TO ISSUE READ ERROR TO MDI NJN CMRE.0 NEGATIVE RETURN IF FUNCTION ISSUED UJK CMRE.1 EXIT TO ERROR - MDI INOPERATIVE FMDI SPACE 2,26 ** SUBROUTINE FMDI. * * SUBROUTINE FMDI FUNCTIONS THE MDI. * * ENTRY - * * (A) = FUNCTION CODE, * (FEI) = FRONT END TABLE ADDRESS, * (CAD) = MDI EQUIPMENT NUMBER. * * EXIT - * * (A) = NON-ZERO IF FUNCTION COMPLETED. * * CALLS - * * PSTC - PRESET FRONT END CHANNEL INSTRUCTIONS. * * USES - * * T7 = FUNCTION ATTEMPT COUNTER, ** T3 = FUNCTION CODE. FMDI SUBR ENTRY/EXIT STD T3 STORE FUNCTION CODE LDK MSTRY LOAD FUNCTION ATTEMPT COUNT STD T7 INITIALIZE FUNCTION ATTEMPT COUNTER RJM PSTC EXIT TO PRESET CHANNEL INSTRUCTIONS FMDI.0 IJM. FMDI.1 EXIT IF FRONT END CHANNEL NOT ACTIVE DCN. DISCONNECT FRONT END CHANNEL FMDI.1 LDD T3 LOAD FUNCITON CODE ADM CAD,FEI PLUS EQUIPMENT NUMBER FAN. FUNCTION FRONT END LDK MDIDLY LOAD MDI DELAY COUNT FMDI.2 SBN 1 DECREMENT DELAY COUNT ZJN FMDI.3 EXIT IF DELAY EXPIRED IJM. FMDIX RETURN IF CHANNEL WENT INACTIVE UJK FMDI.2 EXIT TO CHECK DELAY EXPIRED FMDI.3 SOD T7 DECREMENT FUNCTION ATTEMPT COUNTER NJN FMDI.0 EXIT IF RETRY COUNTER NOT EXCEEDED UJK FMDIX RETURN ZERO - FUNCTION NOT COMPLETED ECTABLE TITLE CHANNEL INSTRUCTION INITIALIZATION ADDRESS LIST. ECTABLE SPACE 2,14 ** ERROR TERMINATION CHANNEL INSTRUCTION ADDRESS LIST. * * THE ERROR TERMINATION CHANNEL INSTRUCTION ADDRESS LIST * CONTAINS AN ENTRY FOR EACH CHANNEL INSTRUCTION USED * BY THE TERMINATION OVERLAY. THE CONTENTS OF EACH ENTRY ** IS THE ADDRESS OF THE CHANNEL INSTRUCTION. LIST D ECTABLE BSS 0 CHANNEL INSTRUCTION ADDRESS LIST CIT HERE CON 0 TERMINATE ADDRESS LIST LIST * QUAL ."O.N" EQU * IFGT ."O.N",DCSAVE,1 ERR CAN NOT SAVE DIRECT CELLS. OVERLAY F=TRANS,T1=(ERROR PROCESSORS),T2=(DRIVER ERROR PROCESS ,ORS) QUAL ACTIONS TYPEACT MICRO 1,,*ERROR* DEFINE ACTION TYPE LINKS SPACE 2,6 * RESET LINKS. .DROP SET 0 .NFE SET 0 .PFE EQU 0 .NPRU SET 0 PFDE SPACE 2,14 ** ERROR PROCESSOR PFDE. * * ERROR PROCESSOR PFDE PROCESSES A FATAL DRIVER ERROR. * PPU MEMORY IS COPIED INTO NAM FIELD LENGTH AND THE * DRIVER IS TERMINATED. * * CALLS - * ** DPP - DUMP PPU MEMORY. PFDE ACTION PROCESS FATAL DRIVER ERROR RJM DPP EXIT TO DUMP PPU TO NAM FIELD LENGTH EXIT DROP EXIT TO TERMINATE DRIVER DBOB SPACE 2,34 ** ERROR PROCESSOR DBOB. * * ERROR PROCESSOR DBOB PROCESSES A BAD OUTBOUND BLOCK. * IF THERE IS SUFFICIENT INBOUND BUFFER SPACE FOR THE * OUTBOUND BLOCK DISCARDED WORKLIST THE DATA POINTER IN * THE OUTBOUND PSEUDO FET IS UPDATED, THE REQUEST AND * REASON CODES ARE STORED, UP TO THE FIRST TEN WORDS OF * THE OUTBOUND MESSAGE ARE READ AND THE WORKLIST ENTRY * IS TRANSFERRED TO THE INBOUND BUFFER. * * ENTRY - * * (NBH-NBH+L.BH) = OUTBOUND MESSAGE WORD LENGTH, * (BHB-BHB+L.BH) = OUTBOUND MESSAGE HEADER, * (FBA-FBA+1) = OUTBOUND BUFFER ADDRESS, * (ERRCODE) = ERROR CODE, * (STS) = DRIVER STREAM STATES. * * EXIT - * * (ERRCODE) = RESET. * * CALLS - * * CIBS - CHECK INBOUND BUFFER SPACE, * UFOP - UPDATE FET OUT DATA POINTER, * IWL - INITIALIZE UPBOUND WORKLIST, * TFL - FORM ABSOLUTE CENTRAL ADDRESS, ** TWL - TRANSFER WORKLIST ENTRY TO INBOUND BUFFER. DBOB ACTION PROCESS BAD OUTPUT BLOCK LDM NBH+/NAM/C.BWD+1 LOAD OUTBOUND MESSAGE LENGTH ADN /NAM/L.BH+/NAM/L.NH PLUS LENGTH OF HEADER WORDS STD CWC STORE WORKLIST TEXT LENGTH SBN /NAM/WL(1)T LESS LENGTH OF WORKLIST TEXT MJN DBOB.1 EXIT IF MESSAGE LESS THAN WORKLIST LENGTH LDN /NAM/WL(1)T LOAD LENGTH OF WORKLIST TEXT STD CWC STORE WORKLIST TEXT LENGTH DBOB.1 LDD CWC LOAD WORKLIST TEXT LENGTH ADN /NAM/L.BH+/NAM/L.NH PLUS LENGTH OF HEADER WORDS ADN /NAM/WH(1)T PLUS LENGTH OF WORKLIST HEADER RJM CIBS EXIT TO CHECK FOR INBOUND BUFFER SPACE PJN DBOB.2 EXIT IF SUFFICIENT INBOUND BUFFER SPACE EXIT NFE EXIT TO PROCESS NEXT FRONT END DBOB.2 RJM UFOP EXIT TO UPDATE FET OUT DATA POINTER LDM BHB+/BLOCK/DN LOAD OUTBOUND MESSAGE DESTINATION CODE STD TN STORE TERMINAL NODE LDC /NAM/DFRDM*10000B&/NAM/DFWL REASON AND REQUEST CODE RJM IWL EXIT TO INITIALIZE UPBOUND WORKLIST LDD FBA LOAD HIGH-ORDER OF OUTBOUND BUFFER ADDRESS SHN 12 POSITION TO HIGH-ORDER ADD FBA+1 PLUS LOW-ORDER OF OUTBOUND BUFFER ADDRESS ADD CWC PLUS WORKLIST TEXT LENGTH RJM TFL EXIT TO FORM ABSOLUTE CENTRAL ADDRESS SBD CWC LESS WORKLIST TEXT LENGTH CRM DRBUF+/NAM/L.WH(1),CWC READ OUTBOUND MESSAGE TEXT LDN /NAM/L.BH+/NAM/L.NH LOAD LENGTH OF HEADER WORDS ADN /NAM/WH(1)T PLUS LENGTH OF WORKLIST HEADER ADD CWC PLUS WORKLIST TEXT LENGTH STM NBH+/NAM/C.BWD+1 STORE UPBOUND WORKLIST LENGTH LDN ZERL LOAD ADDRESS OF ZERO WORD CRM DRBUF,ON ZERO WORKLIST HEADER LDM ERRCODE LOAD ERROR CODE STM DRBUF+/NAM/DEC STORE DRIVER ERROR CODE LDD STS LOAD STREAM STATES STM DRBUF+/NAM/DSS STORE DRIVER STREAM STATES RJM TWL EXIT TO TRANSFER WORKLIST TO INBOUND BUFFER LDN 0 CONSTANT OF ZERO STM ERRCODE RESET ERROR CODE EXIT PFE.2 EXIT TO PROCESS NEXT OUTBOUND MESSAGE PWLE SPACE 2,36 ** ERROR PROCESSOR PWLE. * * ERROR PROCESSOR PWLE PROCESSES A BAD WORKLIST ENTRY. * IF THERE IS SUFFICIENT INBOUND BUFFER SPACE FOR THE * ERROR LOGICAL AND WORKLIST COMPLETED WORKLIST ENTRIES * THE OUTBOUND WORKLIST ENTRY IS TRANSFERRED TO THE ERROR * LOGICAL WORKLIST ENTRY AND THE ERROR LOGICAL WORKLIST * ENTRY IS TRANSFERRED TO THE INBOUND BUFFER. THE * WORKLIST COMPLETED WORKLIST IS TRANSFERRED TO THE * INBOUND BUFFER. * * ENTRY - * * (NBH-NBH+L.BH) = OUTBOUND WORKLIST BLOCK HEADER, * (FBA-FBA+1) = OUTBOUND WORKLIST ADDRESS, * (WLP) = WORKLIST POINTER WORD ORDINAL, * (ERRCODE) = ERROR CODE, * (STS) = DRIVER STREAM STATES, * (CTL) = DRIVER ACTION ORDINAL. * * EXIT - * * (ERRCODE) = RESET. * * CALLS - * * CIBS - CHECK INBOUND BUFFER SPACE, * IWL - INITIALIZE UPBOUND WORKLIST, * TFL - FORM ABSOLUTE CENTRAL ADDRESS, * TWL - TRANSFER WORKLIST ENTRY TO INBOUND BUFFER, ** SWLC - SEND WORKLIST COMPLETED RESPONSE. PWLE ACTION PROCESS WORKLIST ERROR LDM NBH+/NAM/C.BWD+1 LOAD OUTBOUND WORKLIST LENGTH STD CWC STORE WORKLIST TEXT LENGTH SBN /NAM/WL(2)T LESS LENGTH OF WORKLIST TEXT MJN PWLE.1 EXIT IF LESS THAN MAXIMUM TEXT LENGTH LDN /NAM/WL(2)T LOAD LENGTH OF WORKLIST TEXT STD CWC STORE WORKLIST TEXT LENGTH PWLE.1 LDD CWC LOAD WORKLIST TEXT LENGTH ADN /NAM/L.BH+/NAM/L.NH PLUS LENGTH OF HEADER WORDS ADN /NAM/WH(2)T PLUS LENGTH OF WORKLIST HEADER ADN /NAM/WLCCM PLUS LENGTH OF WORKLIST COMPLETED WORKLIST ADN /NAM/L.SIB+1 PLUS BUFFER LENGTH FOR SMALL IVT MESSAGE RJM CIBS EXIT TO CHECK FOR INBOUND BUFFER SPACE PJN PWLE.2 EXIT IF SUFFICIENT INBOUND BUFFER SPACE EXIT NFE EXIT TO PROCESS NEXT FRONT END PWLE.2 LDM ERRCODE LOAD ERROR CODE ADC -/ERROR/SAE LESS FIRST APPLICATION ERROR CODE ADN /NAM/WLLE PLUS FIRST NAM ERROR CODE SHN 12 POSITION REASON CODE ADN /NAM/ELWL PLUS ERROR LOGICAL REQUEST CODE RJM IWL EXIT TO INITIALIZE UPBOUND WORKLIST LDD FBA LOAD HIGH-ORDER OF WORKLIST ADDRESS SHN 12 POSITION TO HIGH-ORDER ADD FBA+1 PLUS LOW-ORDER OF WORKLIST ADDRESS ADD CWC PLUS WORKLIST TEXT LENGTH RJM TFL EXIT TO FORM ABSOLUTE CENTRAL ADDRESS SBD CWC LESS WORKLIST TEXT LENGTH CRM DRBUF+/NAM/L.WH(2),CWC READ OUTBOUND WORKLIST ENTRY LDN ZERL LOAD ADDRESS OF ZERO WORD CRM DRBUF,ON ZERO WORKLIST HEADER LDM ERRCODE LOAD ERROR CODE STM DRBUF+/NAM/DEC STORE DRIVER ERROR CODE LDD STS LOAD STREAM STATES STM DRBUF+/NAM/DSS STORE DRIVER STREAM STATES LDD CTL LOAD ACTION ORDINAL STM DRBUF+/NAM/DAO STORE DRIVER ACTION ORDINAL LDN /NAM/L.BH+/NAM/L.NH LOAD LENGTH OF NAM HEADER WORDS ADN /NAM/WH(2)T PLUS LENGTH OF WORKLIST HEADER ADD CWC PLUS WORKLIST TEXT LENGTH STM NBH+/NAM/C.BWD+1 STORE UPBOUND WORKLIST LENGTH RJM TWL EXIT TO TRANSFER WORKLIST TO INBOUND BUFFER RJM SWLC EXIT TO SEND WORKLIST COMPLETED RESPONSE LDN 0 CONSTANT OF ZERO STM ERRCODE RESET ERROR CODE EXIT NPRU EXIT TO PROCESS NEXT PRU STREAM DPP TITLE ERROR PROCESSING SUPPORT SUBROUTINES. QUAL DPP SPACE 2,30 ** SUBROUTINE DPP. * * SUBROUTINE DPP DUMPS PPU MEMORY TO NAM FIELD LENGTH. * IF THIS DRIVER IS INITIATING THE DUMP THE CPU IS * DROPPED, ADDITIONAL STORAGE IS REQUESTED AND PPU * MEMORY IS COPIED INTO THE FIELD LENGTH. IF ANOTHER * DRIVER IS REQUESTING THE DUMP ONLY PPU MEMORY IS * COPIED TO THE DUMP AREA FOR THIS DRIVER. * * CALLS - * * GDRW - GET DRIVER INTERFACE TABLE HEADER ADDRESS, * MTR - ISSUE MONITOR FUNCTION, * TFL - FORM ABSOLUTE CENTRAL ADDRESS * * USES - * * FBA, +1 = DUMP AREA ADDRESS * T0-T0+4 = STORAGE MOVE REQUEST WORD, * T0-T0+4 = DRIVER DUMP REQUEST WORD, * T6-T6+1 = ADDRESS OF DRIVER DUMP REQUEST WORD, * T0-T0+4 = CONTROL POINT STATUS WORD, * T7 = DRIVER ORDINAL, ** T7 = CENTRAL MEMORY WORD COUNT. DPP SUBR ENTRY/EXIT DPP.1 RJM GDRW EXIT TO GET DRIVER INTERFACE TABLE HDR ADDR ADN 2+MAXDRV*/NAM/L.DITE LENGTH OF DRIVER INTERFACE TABLE RJM TFL EXIT TO FORM ABSOLUTE CENTRAL ADDRESS SBN MAXDRV*/NAM/L.DITE DELTA FIRST WORD OF FIRST DIT ENTRY STD T15+1 STORE LOW-ORDER FIRST WORD FIRST DIT ENTRY SHN -12 POSITION HIGH-ORDER ADDRESS STD T15 STORE HIGH-ORDER FIRST WORD FIRST DIT ENTRY LDD DIT LOAD HIGH-ORDER OF INTERFACE TABLE ADDRESS SHN 12 POSITION TO HIGH-ORDER ADD DIT+1 PLUS LOW-ORDER OF INTERFACE TABLE ADDRESS RJM TFL EXIT TO FORM ABSOLUTE CENTRAL ADDRESS CRD T10 READ DIT FIRST WORD STD T5+1 STORE LOW-ORDER ABSOLUTE DIT ADDRESS SHN -12 POSITION HIGH-ORDER ADDRESS STD T5 STORE HIGH-ORDER ABSOLUTE DIT ADDRESS LDC /NAM/B.DITIU+/NAM/B.DITDU SET DUMP AREA SETUP STD T10+/NAM/C.DITIU PLACE DUMP AREA SETUP FLAG LDD T5 HIGH-ORDER ABSOLUTE DIT FIRST WORD ADDRESS SHN 12 POSITION HIGH-ORDER ADD T5+1 LOW-ORDER ABSOLUTE DIT FIRST WORD ADDRESS CWD T10 REWRITE DIT FIRST WORD LDN MAXDRV LOAD NAXIMUM DIT ENTRY COUNT STD T7 STORE MAXIMUM DIT ENTRY COUNT LDN 0 CONSTANT OF ZERO STD T17 SET INITIAL OFFSET FOR FIRST DIT ENTRY DPP.1B LDD T15 HIGH-ORDER ABSOLUTE FIRST DIT FIRST WORD SHN 12 POSITION TO HIGH-ORDER ADD T15+1 LOW-ORDER ABSOLUTE FIRST DIT FIRST WORD ADD T17 PLUS OFFSET FOR NEXT DIT ENTRY CRD T0 READ DIT FIRST WORD LDD T0+/NAM/C.DITDOR LOAD DRIVER ORDINAL LMM DROR MINUS CURRENT DRIVER ORDINAL ZJN DPP.1C EXIT IF SAME LDD T0+/NAM/C.DITIU LOAD DIT DUMP SETUP FLAG WORD SHN 17-/NAM/S.DITDU POSITION DUMP REQUEST FLAG MJN DPP.1D EXIT IF DUMP REQUESTED DPP.1C SOD T7 DECREMENT DRIVER INDEX FOR NEXT DIT ENTRY ZJN DPP.3 EXIT IF ALL DIT ENTRIES CHECKED LDN /NAM/L.DITE LENGTH OF DIT ENTRY RAD T17 INCREMENT INDEX FOR NEXT DIT ENTRY UJK DPP.1B EXIT TO CHECK NEXT DIT ENTRY DPP.1D LDC /NAM/B.DITIU SET DIT USE FLAG ONLY STD T10+/NAM/C.DITIU PLACE DIT USE FLAG LDD T5 HIGH-ORDER ABSOLUTE DIT ENTRY ADDRESS SHN 12 POSITION TO HIGH-ORDER ADD T5+1 LOW-ORDER ABSOLUTE DIT ENTRY ADDRESS CWD T10 REWRITE DIT FIRST WORD LDD T0+/NAM/C.DITDDA HIGH-ORDER DUMP AREA ADDRESS LPN 37B EXTRACT HIGH-ORDER ADDRESS STD FBA STORE HIGH-ORDER DUMP AREA ADDRESS SHN 12 POSITION TO HIGH-ORDER ADD T0+/NAM/C.DITDDA+1 LOW-ORDER DUMP AREA ADDRESS STD FBA+1 STORE LOW-ORDER DUMP AREA ADDRSS ZJN DPP.1E EXIT IF NO DUMP AREA SETUP LJM DPP.7 EXIT IF DUMP AREA AVAILABLE DPP.1E LDN PRLM*0 PAUSE FOR STORAGE MOVE (IF NECESSARY) RJM MTR EXIT TO PAUSE FOR STORAGE RELOCATION DPP.2 UJK DPP.1 EXIT FOR RE-CHECK DPP.3 LDN DCPM LOAD MONITOR FUNCTION TO DROP CPU RJM MTR EXIT TO DROP CPU LDD FL LOAD CONTROL POINT FIELD LENGTH SHN 6 TIMES 100B STD FBA+1 STORE LOW-ORDER DUMP AREA ADDRESS SHN -12 POSITION HIGH-ORDER OF ADDRESS STD FBA STORE HIGH-ORDER DUMP AREA ADDRESS DPP.4 LDD FL LOAD CONTROL POINT FIELD LENGTH ADN DMPFL PLUS FIELD LENGTH FOR DUMP STD T10+1 STORE REQUIRED FIELD LENGTH LDN 0 CONSTANT OF ZERO STD T10+2 SET MEMORY REQUEST TO CENTRAL MEMORY LDN RSTM MONITOR FUNCTION TO REQUEST STORAGE RJM MTR EXIT TO REQUEST STORAGE LDD T10+1 LOAD REPLY BYTE ZJN DPP.5 EXIT IF STORAGE ASSIGNED LDC 1000 LOAD DELAY COUNT SBN 1 DECREMENT DELAY COUNT NJN *-1 LOOP IF DELAY NOT EXPIRED LDD CP LOAD CONTROL POINT AREA ADDRESS ADN STSW DELTA FOR CONTROL POINT STATUS WORD CRD T0 READ CONTROL POINT STATUS WORD LDD T0+1 LOAD CONTROL POINT ERROR FLAG SBN SPET LESS VALUE OF FIRST SPECIAL ERROR FLAG MJN DPP.4 EXIT IF NOT SPECIAL ERROR FLAG LDD DIT LOAD HIGH-ORDER OF INTERFACE TABLE ADDRESS SHN 12 POSITION TO HIGH-ORDER ADD DIT+1 PLUS LOW-ORDER OF INTERFACE TABLE ADDRESS RJM TFL EXIT TO FORM ABSOLUTE CENTRAL ADDRESS CRD T10 READ DIT FIRST WORD STD T5+1 STORE LOW-ORDER ABSOLUTE DIT ADDRESS SHN -12 POSITION HIGH-ORDER ADDRESS STD T5 STORE HIGH-ORDER ABSOLUTE DIT ADDRESS LDC /NAM/B.DITIU SET DIT USE FLAG ONLY STD T10+/NAM/C.DITDDA AND RESET DUMP AREA ADDRESS LDD T5 HIGH-ORDER ABSOLUTE DIT ENTRY ADDRESS SHN 12 POSITION TO HIGH-ORDER ADD T5+1 LOW-ORDER ABSOLUTE DIT ENTRY ADDRESS CWD T10 REWRITE DIT FIRST WORD UJK DPPX RETURN - UNABLE TO DUMP DRIVER DPP.5 LDD DIT LOAD HIGH-ORDER OF INTERFACE TABLE ADDRESS SHN 12 POSITION TO HIGH-ORDER ADD DIT+1 PLUS LOW-ORDER OF INTERFACE TABLE ADDRESS RJM TFL EXIT TO FORM ABSOLUTE CENTRAL ADDRESS CRD T0 READ DIT FIRST WORD STD T6+1 STORE LOW-ORDER OF DIT FIRST WORD ADDRESS SHN -12 POSITION HIGH-ORDER OF ADDRESS STD T6 STORE HIGH-ORDER OF DIT FIRST WORD ADDRESS LDD FBA LOAD HIGH-ORDER OF DUMP AREA ADDRESS RAD T0+/NAM/C.DITDDA STORE HIGH-ORDER DUMP AREA ADDRESS LDD FBA+1 LOAD LOW-ORDER OF DUMP AREA ADDRESS STD T0+/NAM/C.DITDDA+1 STORE LOW-ORDER DUMP AREA ADDRESS LDD T6 LOAD HIGH-ORDER OF DIT FIRST WORD ADDRESS SHN 12 POSITION HIGH-ORDER ADD T6+1 PLUS LOW-ORDER OF DIT FIRST WORD ADDRESS CWD T0 REWRITE DIT FIRST WORD LDN MAXDRV LOAD MAXIMUM DRIVER COUNT STD T15 STORE MAXIMUM DRIVER COUNT LDN ZERL LOAD ADDRESS OF ZERO WORD CRD T10 GENERATE CENTRAL WORD OF ZERO LDD FBA LOAD HIGH-ORDER OF DUMP AREA ADDRESS SHN 12 POSITION TO HIGH-ORDER ADD FBA+1 PLUS LOW-ORDER OF DUMP AREA ADDRESS ADN /NAM/W.PPD DELTA FOR PPU DUMP HEADER WORD STD T16+1 STORE LOW-ORDER OF DUMP HEADER ADDRESS SHN -12 POSITION HIGH-ORDER OF ADDRESS STD T16 STORE HIGH-ORDER OF DUMP HEADER ADDRESS DPP.6 SHN 12 POSITION TO HIGH-ORDER ADD T16+1 PLUS LOW-ORDER OF DUMP HEADER ADDRESS RJM TFL EXIT TO FORM ABSOLUTE CENTRAL ADDRESS CWD T10 ZERO DUMP HEADER WORD SOD T15 DECREMENT DRIVER COUNT ZJN DPP.7 EXIT IF ALL DUMP HEADER WORDS PROCESSED LDC L.DMPPK LOAD LENGTH OF DRIVER DUMP PACKET RAD T16+1 ADD TO LOW-ORDER OF DUMP HEADER ADDRESS SHN -12 POSITION CARRY RAD T16 ADD TO HIGH-ORDER OF DUMP HEADER ADDRESS UJK DPP.6 EXIT TO ZERO NEXT DUMP HEADER WORD * PIPS WRITE DUMP AREA ADDRESS IN DIT HEADER * WORD FOR INTERFACE TO NIP. * THIS IS DONE BY ALL PIPS AS THIS WORD MAY * BE OVERWRITTEN BY ANY PIP ANY TIME. DPP.7 LDM DROR LOAD DRIVER ORDINAL STM DMPHDR+/NAM/C.DDO STORE DRIVER ORDINAL INTO DUMP HEADER STD T7 STORE MULTIPLER RJM GDRW EXIT TO GET DRIVER DUMP REQUEST WORD RJM TFL EXIT TO FORM ABSOLUTE CENTRAL ADDRESS CRD T0 READ DRIVER DUMP REQUEST WORD STD T15+1 LOW-ORDER ABSOLUTE DIT HEADER WORD ADDRESS SHN -12 POSITION HIGH-ORDER STD T15 HIGH-ORDER ABSOLUTE DIT HEADER WORD ADDRESS LDD FBA HIGH-ORDER OF DUMP AREA ADDRESS STD T0+/NAM/C.DPT STORE HIGH-ORDER OF DUMP AREA ADDRESS LDD FBA+1 LOW-ORDER OF DUMP AREA ADDRESS STD T0+/NAM/C.DPT+1 STORE LOW-ORDER OF DUMP AREA ADDRESS LDD T15 HIGH-ORDER ABSOLUTE DIT HEADER WORD ADDRESS SHN 12 POSITION TO HIGH-ORDER ADD T15+1 LOW-ORDER ABSOLUTE DIT HEADER WORD ADDRESS CWD T0 REWRITE DIT HEADER WITH DUMP AREA ADDRESS DPP.8 SOD T7 DECREMENT MULTIPLIER ZJN DPP.9 EXIT IF MULTIPLY COMPLETE LDC L.DMPPK LOAD LENGTH OF DRIVER DUMP PACKET RAD FBA+1 ADD TO LOW-ORDER DUMP AREA ADDRESS SHN -12 POSITION CARRY RAD FBA ADD TO HIGH-ORDER DUMP AREA ADDRESS UJK DPP.8 EXIT TO DECREMENT MULTIPLIER DPP.9 LDC L.DMPPK-1 LOAD LENGTH OF PPU TEXT FOR DUMP STD T7 STORE CENTRAL WORD COUNT LDD FBA LOAD HIGH-ORDER OF DUMP AREA ADDRES SHN 12 POSITION TO HIGH-ORDER ADD FBA+1 PLUS LOW-ORDER OF DUMP AREA ADDRESS ADN /NAM/W.PPD DELTA FOR PPU DUMP HEADER WORD ADC L.DMPPK PLUS LENGTH OF DUMP PACK RJM TFL EXIT TO FORM ABSOLUTE CENTRAL ADDRESS ADC -L.DMPPK LESS LENGTH OF DUMP PACKET CWM DMPHDR,ON WRITE OUT DUMP PACKET HEADER CWM 0,T7 WRITE OUT PPU TEXT UJK DPPX RETURN DMPHDR SPACE 2,6 * PPU DUMP HEADER. DMPHDR VFD 6//NAM/Q.DMPID BUFFER ID VFD 18/L.DMPPK BUFFER LENGTH VFD 24/0 VFD 12/** DRIVER ORDINAL GDRW SPACE 2,22 ** SUBROUTINE GDRW. * * SUBROUTINE GDRW RETURNS THE ADDRESS * OF THE DRIVER INTERFACE TABLE HEADER WORD. * * EXIT - * * (A) = ADDRESS OF DRIVER INTERFACE TABLE HEADER. * * CALLS - * * TFL - FORM ABSOLUTE CENTRAL ADDRESS. * * USES - * ** T0-T0+4 = POINTER WORDS. GDRW SUBR ENTRY/EXIT LDN /NAM/W.DITP LOAD ADDRESS OF DRIVER INTERFACE TABLE PTR RJM TFL EXIT TO FORM ABSOLUTE CENTRAL ADDRESS CRD T0 READ DRIVER INTERFACE TABLE POINTER WORD LDD T0+/NAM/C.DPT LOAD HIGH-ORDER OF TABLE ADDRESS SHN 12 POSITION TO HIGH-ORDER ADD T0+/NAM/C.DPT+1 PLUS LOW-ORDER OF TABLE ADDRESS UJK GDRWX RETURN ."O.N" EQU * IFGT ."O.N",DCSAVE,1 ERR CAN NOT SAVE DIRECT CELLS. OVERLAY F=TRANS,T1=(DIAGNOSTICS),T2=(MCI INLINE DIAGNOSTICS PR ,OCESSOR) ILCK TITLE MCI INLINE DIAGNOSTICS PROCESSORS ILCK SPACE 2,20 ** SUBROUTINE ILCK. * * SUBROUTINE ILCK CHECKS FOR SUCCESSFUL COMPLETION OF * I/O OPERATION BY CHECKING THE MDI GENERAL STATUS. * * * NORMAL EXIT - * * (ECT) = REINITIALIZED TO ZERO * * ERROR EXITS - * * ERROR BIT SET IN MDI GENERAL STATUS * UNABLE TO OBTAIN MDI GENERAL STATUS * * CALLS - * ** /MDI/GMS - OBTAIN MDI GENERAL STATUS. ILCK SUBR ENTRY/EXIT LDN /MDI/B.ABTNMS+/MDI/B.ABTMIO SET ERROR EXIT CONDITIONS RJM /MDI/GMS EXIT TO OBTAIN MDI GENERAL STATUS LDN 0 CONSTANT OF ZERO STM ECT,FEI RESET CONSECUTIVE ERROR COUNT UJN ILCKX RETURN * RESET LINKS .DCR.3 SET 0 .ERROR SET 0 .NFE SET 0 TYPEACT MICRO 1,,*ERROR* DEFINE ACTION TYPE ILDI TITLE MCI INLINE DIAGNOSTICS PROCESSORS ILDI SPACE 2,26 ** ERROR PROCESSOR ILDI. * * ERROR PROCESSOR ILDI PROCESSES MDI GENERAL STATUS WITH * INPUT AVAILABLE CODE GREATER THAN NORMAL PRU DATA. * IF THE CODE IS FOR DIAGNOSTICS MESSAGE, A CHECK FOR * DIAGNOSTICS BUFFER IS MADE. IF IT IS NOT EXISTING, * REQUEST FLAG IS PLACED IN DIAGNOSTICS IN-POINTER WORD. * IF IT IS EXISTING, DIAGNOSTICS MESSAGE IS READ FROM MDI * AND IS ECHOED BACK. * * ENTRY - * * (IOC) = INPUT AVAILABLE CODE FROM MDI GS * * EXIT - * * * CEHX - DIAGNOSTIC BUFFER HAS NO BEEN ASSIGNED OR * IS BEING RELEASED * * (A) = MINUS ZERO * * NFE - INLINE DIAGNOSTICS MESSAGE HAS BEEN READ * AND ECHOED BACK * * CALLS - * * ILDS - READ DIAGNOSTICS STATUS INFORMATION * ILEC - ECHO DIAGNOSTICS MESSAGE * ILIN - INPUT DIAGNOSTICS MESSAGE * ILST - INITIALIZE CHANNEL INSTRUCTIONS * RNAC - REQUEST NIP ACTIVITY * WCMW - WRITE CENTRAL WORD * * USES - * * (T0 - T4) = DIAGNOSTICS FIRST POINTER WORD * (T1 - T5) = RTIME FROM LOW CORE OF CENTRAL MEM * (T10 - T14) = DIAGNOSTICS STATUS/LENGTH WORD ** ILDI LINK PROCESS POSIBLE INLINE DIAGNOSTICS DATA * CHECK FOR EXISTENCE OF INLINE DIAGNOSTIC BUFFER ILDI.1 STM ERRCODE CLEAR ERROR CODE RJM ILST EXIT TO INITIALIZE CHANNEL INSTURCTIONS RJM ILDS EXIT TO READ INLINE DIAGNOSTICS STATUS INFO LDD T0+/NAM/C.NBTIA INLINE DIAG BUFFER ACTIVE FLAG SHN 17-/NAM/S.NBTIA POSITION INLINE DIAG BUFFER ACTIVE FLG MJN ILDI.3 EXIT IF BUFFER ACTIVE LDD T10+/NAM/C.NBTIC INLINE DIAG BUFFER STATUS BYTE LPC /NAM/B.NBTIRF+/NAM/B.NBTIWF BUF REQUESTED OR REL PEND NJN ILDI.2 EXIT IF BUFFER IS REQUESTED OR RELEASE PEND * SET REQUEST BUFFER FLAG AND TIMER LDC /NAM/B.NBTIRF SET INLINE DIAG BUFFER REQUEST FLAG STD T10+/NAM/C.NBTIC PLACE INLINE DIAG STATUS BYTE LDK RTCL LOAD ADDRESS OF SYSTEM REAL-TIME CLOCK CRD T1 READ SYSTEM REAL-TIME CLOCK LDD T1+3 LOAD MIDDLE-ORDER OF SYSTEM MILLISEC CLOCK STD T10+/NAM/C.NBTIT SET HIGH-ORDER OF INLINE DIAG TIMER LDD T1+4 LOAD LOW-ORDER OF SYSTEM MILLISEC CLOCK STD T10+/NAM/C.NBTIT+1 SET LOW-ORDER OF INLINE DIAG TIMER RJM WCMW WRITE INLINE DIAG BUFFER REQUEST FLAG WORD RJM RNAC EXIT TO REQUEST NIP ACTIVITY ILDI.2 LCN 0 LOAD NO INPUT RETURN CODE FROM CEH EXIT CEHX RETURN VIA COUPLER EXCHANGE ROUTINE RETURN ILDI.3 LDD T10+/NAM/C.NBTIC LOAD INLINE DIAG BUFFER STATUS BYTE SHN 17-/NAM/S.NBTIWF POSITION BUFFER RELEASE WAIT FLAG MJN ILDI.2 EXIT IF WAIT PENDING SHN /NAM/S.NBTIGF-/NAM/S.NBTIPF POSITION ECHO PEND FLAG MJN ILDI.5 EXIT IF ECHO IS PENDING * READ IN INLINE DIAGNOSTIC MESSAGE AND ECHO BACK ILDI.4 RJM ILIN EXIT TO INPUT INLINE DIAG BLOCK ILDI.5 RJM ILEC EXIT TO ECHO INLINE DIAG BLOCK EXIT NFE EXIT TO PROCESS NEXT FRONT END ILDO SPACE 2,18 ** PROCESSOR ILDO. * * PROCESSOR ILDO CHECKS FOR INACTIVE DIAGNOSTIC BUFFER, * TIMEOUT ON DIAGNOSTIC BUFFER REQUEST, AND RESTART ECHO * PROCESSING THAT WAS INTERRUPTED DUE TO CHANNEL ERROR. * * ENTRY - * * (FTY) = FRONT END TYPE * * EXIT - * * NFE.1 - EXIT TO PROCESS NEXT FRONT END * * ERROR EXIT - * * FRONT END TYPE IS NPU * CALLS - * * ILEC - ECHO DIAGNOSTICS MESSAGE * ILST - INITIALIZE CHANNEL INSTRUCTIONS * ILDS - GET DIAGNOSTICS STATUS INFORMATION * /MDI/FNC - SEND TRANSPARENT FUNCTION TO MDI * WCMW - WRITE CENTRAL WORD * * USES - * * (T0 - T4) = DIAGNOSTICS FIRST POINTER WORD * (T1 - T5) = RTIME FROM LOW CORE OF CENTRAL MEM * (T10 - T14) = DIAGNOSTICS STATUS/LENGTH WORD ** ILDO.1 EREXIT ILE EXIT TO ERROR - INLINE DIAG HANDLING ERROR ILDO LINK ENTRY * CHECK FRONT END TYPE LDM FTY,FEI LOAD FRONT END TYPE SCN L.REG CLEAR REGULATION LEVEL SBN 1 MINUS CODE FOR MDI MJN ILDO.1 EXIT IF FRONT END IS NPU NJN ILDO.2 EXIT IF INTERLOCKED MDI * CHECK STATE OF DIAGNOSTIC BUFFER RJM ILST EXIT TO INITIALIZE CHANNEL INSTURCTIONS RJM ILDS EXIT TO GET INLINE DIAG STATUS INFORMATION LDD T10+/NAM/C.NBTIC INLINE DIAGNOSTIC STATUS BYTE SHN 17-/NAM/S.NBTIPF CHECK FOR ECHO PENDING PJN ILDO.3 EXIT IF ECHO NOT PENDING * ECHO INLINE DIAGNOSTIC MESSAGE IN BUFFER RJM ILEC EXIT TO ECHO INLINE DIAG MSG ILDO.2 EXIT NFE.1 EXIT TO PROCESS NEXT FRONT END * CHECK FOR INACTIVITY TIMEOUT OR TIMEOUT WAITING FOR * DIAGNOSTIC BUFFER TO BE ALLOCATED ILDO.3 LDK RTCL LOAD ADDRESS OF SYSTEM REAL-TIME CLOCK CRD T1 READ SYSTEM REAL-TIME CLOCK LDD T10+/NAM/C.NBTIT LOAD LAST ACTIVITY CLOCK READING ADC Q.ILNOAC/4 PLUS NO ACTIVITY TIME OUT SETTING LPC 7777B TRUNCATE TO 12 BITS SBD T1+3 MINUS CURRENT 4-SECOND CLOCK READING SHN 5+1 POSITION HIGH-ORDER VALUE BIT TO SIGN PJN ILDO.2 EXIT IF NOT YET TIME OUT LDD T0+/NAM/C.NBTIA LOAD BUFFER ACTIVITY FLAG BYTE SHN 17-/NAM/S.NBTIA CHECK FOR BUFFER ACTIVITY MJN ILDO.4 EXIT IF BUFFER ASSIGNED LDN /FUNCTION/ILRE INLINE DIAGNOSTICS READ ERROR RJM /MDI/FNC EXIT TO ISSUE FUNCTION TO MDI ILDO.4 LDC /NAM/B.NBTIWF LOAD BUFFER RELEASE WAIT FLAG STD T10+/NAM/C.NBTIC STORE INLINE DIAG STATUS BYTE RJM WCMW REWRITE INLINE DIAG STATUS WORD UJN ILDO.2 EXIT TO PROCESS NEXT FRONT END ILDS TITLE MCI INLINE DIAGNOSTICS SUPPORT ROUTINES QUAL ILDS SPACE 2,16 ** SUBROUTINE ILDS. * * SUBROUTINE ILDS READS DIAGNOSTICS FIRST POINTER WORD * AND STATUS/LENGTH WORD. * * EXIT - * * (T0 - T4) = DIAGNOSTICS FIRST POINTER WORD * (T10 - T14) = DIAGNOSTICS IN POINTER WORD * (T15 - T16) = IN POINTER WORD ABSOLUTE ADDRESS * * CALLS - * * GNBT - GET NETWORD BUFFER TABLE ADDRESS ** ILDS SUBR ENTRY/EXIT LDN /NAM/W.NBTIL DELTA FOR INLINE DIAG LIMIT POINTER WORD RJM GNBT EXIT TO GET NETWORK BUFFER TABLE ADDRESS SBN /NAM/W.NBTIL-/NAM/W.NBTIF FIRST PTR WORD ABSOLUTE ADDR CRD T0 READ INLINE DIAG FIRST POINTER WORD ADN /NAM/W.NBTILE-/NAM/W.NBTIF IN PTR WORD ABSOLUTE ADDRESS CRD T10 READ INLINE DIAG IN POINTER WORD STD T15+1 STORE LOW-ORDER OF IN POINTER WORD ADDRESS SHN -12 POSITION HIGH-ORDER OF ADDRESS STD T15 STORE HIGH-ORDER OF IN POINTER WORD ADDRESS UJN ILDSX RETURN ILEC SPACE 2,32 ** SUBROUTINE ILEC. * * SUBROUTINE ILEC ECHOES BACK AN INLINE DIAGNOSTICS * MESSAGE. THE CHECK IS MADE TO DETERMINE IF THE * DIAGNOSTIC MESSAGE SHOULD BE DICARDED. IF NOT, A * CHECK IS MADE TO SEE IF THE MDI IS READY TO RECEIVE * DATA. IF READY, A CHECK IS MADE TO SEE IF THE MDI * WANTS THE OUTPUT IN BLOCK MODE OR SINGLE CHANNEL * FRAME. IF SINGLE CHANNEL FRAME MODE, A DELAY * BETWEEN CHANNEL FRAMES MAY HAVE BEEN SPECIFIED. * THE DIAGNOSTIC MESSAGE IS SENT BACK TO THE MDI. * AFTER THE MESSAGE IS SENT, A CHECK IS MADE FOR * ERRORS. IF NO ERRORS, THE DIAGNOSTIC BUFFER * STATUS IS REINITIALIZED. * * EXIT - * * (STS) = STREAM STATE RESET TO ZERO * * ERROR EXIT - * * UNABLE TO GET MDI GENERAL STATUS * ERROR BIT SET IN MDI GENERAL STATUS * CHANNEL HUNG FULL AFTER OUTPUT * * * CALLS - * * ILCK - CHECK MDI STATUS AFTER I/O COMPLETED * ILDS - READ DIAGNOSTICS STATUS INFORMATION * ILMD - GET TEST FLAGS FROM DIAGNOSTIC MSG * ILPB - OUTPUT ONE DATA BLOCK * ILPF - OUTPUT ONE DATA FRAME * /MDI/ACN - ACTIVATE MDI CHANNEL * /MDI/FNC - ISSUE FUNCTION CODE TO MDI * /MDI/GMS - OBTAIN MDI GENERAL STATUS * TFL - FORM ABSOLUTE CENTRAL ADDRESS * WCMW - WRITE CENTRAL WORD * * USES - * * (CBA, CBA+1) = DIAGNOSTICS BUFFER ADDRESS * (CWC) = MESSAGE CM WORD COUNT * (FBA) = DIAGNOSTICS TEST FLAGS * (FBA+1) = MESSAGE FRAME COUNT * (LBA, LBA+1) = ECHO TIMEOUT TIMER * (T0 - T4) = DIAGNOSTICS FIRST POINTER OWRD * (T1 - T5) = RTIME WORD FROM LOW CORE CENTRAL MEM * (T10 - T14) = DIAGNOSTICS IN POINTER WORD ** ILDELAY EQU 50 DELAY LOOP COUNT ILEC SUBR ENTRY/EXIT RJM ILDS EXIT TO READ INLINE DIAG STATUS INFORMATION LDD T10+/NAM/C.NBTIT LOAD HIGH-ORDER OF TIMER STD LBA STORE HIGH-ORDER OF TIMER LDD T10+/NAM/C.NBTIT+1 LOAD LOW-ORDER OF TIMER STD LBA+1 STORE LOW-ORDER OF TIMER LDN 0 CONSTANT OF ZERO STD STS RESET STREAM STATES LDD T10+/NAM/C.NBTILC SIZE OF INLINE DIAG MSG IN CM WORDS STD CWC SAVE SIZE OF INLINE DIAG MSG IN CM WORDS LDD T10+/NAM/C.NBTILP SIZE OF INLINE DIAG MSG IN PP WORDS STD FBA+1 SAVE SIZE OF INLINE DIAG MSG IN CH FRAMES LDD T0+/NAM/C.NBTFP LOAD HIGH-ORDER OF FIRST POINTER STD CBA STORE HIGH-ORDER FIRST BUFFER ADDR LDD T0+/NAM/C.NBTFP+1 LOW ORDER BITS OF FIRST POINTER STD CBA+1 STORE LOW-ORDER FIRST BUFFER ADDR RJM ILMD EXIT TO GET TEST FLAGS SHN 17-/BLOCK/S.ILFDC POSITION DISCARD FLG PJN ILEC.2 EXIT IF NOT TO DISCARD MESSAGE LJM ILEC.18 EXIT WITHOUT ECHOING MESSAGE ILEC.2 LDN /MDI/B.ABTNMS+/MDI/B.ABTMES SET ERROR EXIT CONDITIONS RJM /MDI/GMS GET MDI GENERAL STATUS LDM MGS,FEI LOAD MDI GENERAL STATUS SHN 17-/MSTATUS/SDT POSITION SEND DATA STATUS TO SIGN MJN ILEC.7 EXIT IF OUTPUT ALLOWED * CHECK FOR TIMEOUT WAITING FOR SEND DATA BIT TO BE SET * IN MDI GENERAL STATUS LDK RTCL LOAD ADDRESS OF SYSTEM REAL-TIME CLOCK CRD T1 READ SYSTEM REAL-TIME CLOCK LDD LBA HIGH-ORDER OF ECHO TIMEOUT SBD T1+3 MIDDLE-ORDER OF CURRENT MILLISEC CLOCK SHN 5+1 POSITION HIGH-ORDER VALUE BIT TO SIGN MJN ILEC.6 EXIT IF ECHO TIMEOUT NJN ILEC.2 EXIT IF ECHO NOT TIMEOUT LDD LBA+1 LOW-ORDER OF ECHO TIMEOUT SBD T1+4 LOW-ORDER OF CURRENT MILLISEC CLOCK SHN 5+1 POSITION HIGH-ORDER VALUE BIT TO SIGN PJN ILEC.2 EXIT IF NO ECHO TIMEOUT YET * ISSUE ECHO TIMEOUT TRANSPARENT FUNCTION ILEC.6 LINK LDN /FUNCTION/ILET LOAD ECHO TIMEOUT FUNCTION CODE RJM /MDI/FNC EXIT TO ISSUE FUNCTION TO MDI LJM ILEC.18 EXIT TO REINITIALIZE STATUS BYTE * ECHO INLINE DIAGNOSTIC MESSAGE ILEC.7 LDN 1 CONSTANT OF ONE STD T3 SET DELAY LOOP COUNT TO NO DELAY LDD CBA STORE LOW-ORDER FIRST BUFFER ADDR SHN 12 POSITION HIGH-ORDER OF ADDRESS ADD CBA+1 STORE HIGH-ORDER FIRST BUFFER ADDR RJM TFL GET ABSOLUTE ADDRESS STD CBA+1 STORE LOW-ORDER ABSOLUTE FIRST BUFFER ADDR SHN -12 POSITION HIGH-ORDER OF ADDRESS STD CBA STORE HIGH-ORDER ABSOLUE FIRST BUFFER ADDR LDD FBA DIAGNOSTICS TEST FLAGS SHN 17-/BLOCK/S.ILFDB POSITION DELAY MODE PJN ILEC.8 EXIT IF NO DELAY LDK ILDELAY LOAD DELAY LOOP COUNT STD T3 STORE DELAY LOOP COUNT ILEC.8 LDC /FUNCTION/WDT LOAD FUNCTION TO OUTPUT DATA RJM /MDI/FNC EXIT TO FUNCTION TO OUTPUT DATA RJM /MDI/ACN EXIT TO ACTIVATE MDI CHANNEL ILEC.9 LDD FBA+1 NO OF CHANNEL FRAMES TO OUTPUT ADC -L.DBCM*5 NO OF CHANNEL FRAMES IN FULL BUFFER MJN ILEC.10 EXIT IF LESS THAN FULL DRIVER BUFFER LEFT STD FBA+1 UPDATE NO OF CHANNEL FRAMES LEFT TO OUTPUT LDC -L.DBCM NO OF CM WORDS IN FULL BUFFER RAD CWC NO OF CM WORDS LEFT TO READ FROM CM LDC L.DBCM*5 NUMBER OF FRAMES IN DRIVER BUFFER STD T2 STORE FRAME COUNT FOR OUTPUT LDC L.DBCM LOAD DRIVER BUFFER LENGTH IN WORDS UJN ILEC.11 EXIT TO READ TEXT FROM CENTRAL BUFFER ILEC.10 LDD FBA+1 NO OF CHANNEL FRAMES TO OUTPUT THIS TIME STD T2 NO OF CHANNEL FRAMES TO OUTPUT LDN 0 NO OF FRAMES LEFT TO OUTPUT AFTER THIS ONE STD FBA+1 NO OF CHANNEL FRAMES LEFT TO OUTPUT LDD CWC LOAD RESIDUAL DATA WORD COUNT ILEC.11 STD T1 STORE CENTRAL WORD COUNT LDD CBA LOAD HIGH-ORDER OF ABSOLUTE BUFFER ADDRESS SHN 12 POSITION TO HIGH-ORDER ADD CBA+1 PLUS LOW-ORDER OF ABSOLUTE BUFFER ADDRESS CRM DRBUF,T1 READ DATA FROM CENTRAL BUFFER STD CBA+1 STORE LOW-ORDER OF ABSOLUTE BUFFER ADDRESS SHN -12 POSITION HIGH-ORDER OF ADDRESS STD CBA STORE HIGH-ORDER OF ABSOLUTE BUFFER ADDRESS LDC DRBUF LOAD ADDRESS OF DRIVER BUFFER STD T1 STORE SOURCE DATA BUFFER ADDRESS LDD FBA LOAD DIAGNOSTICS TEST FLAGS SHN 17-/BLOCK/S.ILFBB BLOCK MODE BACK FLAG PJN ILEC.12 EXIT IF SINGLE CHANNEL FRAME WRITE MODE * WRITE INLINE DIAG MSG ONE BLOCK AT A TIME RJM ILPB EXIT TO ECHO IN BLOCK MODE OUTPUT UJN ILEC.14 EXIT TO CHECK FOR END OF MESSAGE * WRITE INLINE DIAG MSG ONE CHANNEL FRAME AT A TIME ILEC.12 LDI T1 LAOD NEXT OUTPUT DATA FRAME RJM /MDI/DCO OUTPUT DATA FRAME LDD T3 LOAD DELAY LOOP COUNT ILEC.13 SBN 1 DECREMENT DELAY COUNT NJN ILEC.13 EXIT IF DELAY NOT EXPIRED AOD T1 INCREMENT SOURCE DATA ADDRESS SOD T2 DECREMENT OUTPUT DATA FRAME COUNT NJN ILEC.12 EXIT TO PROCESS NEXT OUTPUT FRAME ILEC.14 LDD FBA+1 NO OF CHANNEL FRAMES LEFT TO OUTPUT ZJN ILEC.15 EXIT IF END OF TRANSFER LJM ILEC.9 EXIT TO PROCESS MORE OUTPUT ILEC.15 LDK MDIDLY CHANNEL DELAY COUNT ILEC.16 EJM. ILEC.17 EXIT IF CHANNEL WENT EMPTY SBN 1 DECREMENT CHANNEL DELAY COUNT NJN ILEC.16 EXIT IF CHANNEL DELAY NOT EXPIRED EREXIT HFO EXIT TO ERROR - HUNG FULL ON OUTPUT ILEC.17 DCN. DISCONNECT CHANNEL RJM ILCK EXIT TO CHECK MDI GENERAL STATUS * REINITIALIZE STATUS BYTE IN NBT PSUEDO FET ILEC.18 RJM ILDS EXIT TO READ INLINE DIAG STATUS INFORMATION LDC /NAM/B.NBTIRF INITIALIZE INLINE DIAG STATUS STD T10+/NAM/C.NBTIC UPDATE INLINE DIAG STATUS RJM WCMW REWRITE INLINE DIAG STATUS WORD UJK ILECX RETURN ILGB SPACE 2,20 ** SUBROUTINE ILGB * * SUBROUTINE ILGB GETS A BLOCK FROM MCI. * * ENTRY - * * (NCC) = NUMBER OF CHANNEL FRAMES TO READ * (T1) = STARTING PP BUFFER ADDRESS * (T2) = LIMIT OF PP BUFFER. * * EXIT - * * (NCC) = NO OF CHANNEL FRAMES LEFT TO READ * (T1) = NEXT PP BUFFER ADDRESS * (T2) = NUMBER OF BYTES READ * * * ERROR EXIT - * * CORRECT NUMBER OF CHANNEL FRAMES IS NOT INPUTED * CHANNEL GOES INACTIVE DURING INPUT * * ** ILGB SUBR ENTRY/EXIT LDD T1 FWA OF PP BUFFER TO WRITE INPUT DATA TO STM ILGB.7 UPDATE ADDRESS IN IAM INSTRUCTION LDK MDIDLY LOAD MDI DELAY COUNT ILGB.1 FJM. ILGB.4 EXIT IF DATA ON CHANNEL AJM. ILGB.2 EXIT IF CHANNEL STILL ACTIVE EREXIT IDI EXIT TO ERROR - CH INACTIVE DURING INPUT ILGB.2 SBN 1 DECREMENT CHANNEL DELAY COUNT NJN ILGB.1 EXIT IF CHANNEL DELAY NOT EXPIRED ILGB.3 EREXIT HEI EXIT TO ERROR - HUNG EMPTY ON INPUT ILGB.4 LDD T2 LOAD LIMIT OF BUFFER SBD T1 MINUS START OF BUFFER SBD NCC MINUS NUMBER OF CHANNEL FRAMES TO INPUT PJN ILGB.5 EXIT IF BUFFER LARGER THAN NO OF FRAMES ADD NCC RESTORE TO NUMBER OF WORDS IN BUFFER UJN ILGB.6 EXIT TO INPUT CHANNEL FRAMES ILGB.5 LDD NCC NO OF CHANNEL FRAMES TO INPUT ILGB.6 STD T2 STORE NUMBER OF BYTES TO READ IAM. DRBUF INPUT A BLOCK FROM MCI TO PP BUFFER ILGB.7 EQU *-1 WORD CONTAINING FWA TO INPUT DATA TO NJN ILGB.3 EXIT IF BUFFER FILLED LDD T2 LOAD NUMBER OF BYTES READ RAD T1 UPDATE NEXT PP BUFFER ADDRESS LDD NCC NO OF CHANNEL FRAMES TO INPUT SBD T2 NO OF CHANNEL FRAMES READ STD NCC NO OF CHANNEL FRAMES LEFT TO READ UJK ILGBX RETURN ILGF SPACE 2,20 ILGH SPACE 2,20 ** SUBROUTINE ILGH * * SUBROUTINE ILGH GETS MDI HEADER FROM MCI. * * EXIT - * * (MFC) = LENGTH OF INLINE DIAGNOSTICS MSG * (NCC) = NO OF CHANNEL FRAMES TO READ * (T1) = ADDR OF NEXT AVAIL LOC IN PIP BUF * * ERROR EXITS - * * LENGTH IN MDI HEADER IS TOO LARGE * * USES - * * (T2) = COUNTER FOR NO OF CHANNEL FRAMES * (T3) = COUNTER FOR NO OF 8 BIT BYTES * * CALLS - * * ILGF - GET ONE MCI CHANNEL FRAME ** ILGH SUBR ENTRY/EXIT LDK DRBUF FWA OF PIP BUFFER STD T1 STORE FWA OF PIP BUFFER LDK /BLOCK/L.ILHDR NO OF CHANNEL FRAMES IN DIAG MSG HDR STD T2 NO OF CHANNEL FRAMES TO READ IN * INPUT MDI INLINE DIAGNOSTICS HEADER ILGH.1 RJM /MDI/DCI EXIT TO INPUT NEXT FRAME STI T1 STORE CHANNEL FRAME AOD T1 INCRE BUF PTR TO NEXT FREE PP WORD SOD T2 DECREMENT NO OF CHANNEL FRAMES READ NJN ILGH.1 EXIT IF MDI HEADER NOT COMPLETELY READ LDN 0 INITIAL VALUE FOR CHANNEL FRAME COUNTER STD NCC CHANNEL FRAME COUNTER LDM DRBUF+/BLOCK/L.ILLEN+1 LOW ORDER BITS OF BLOCK LENGTH LPK /BLOCK/M.ILLENL EXTRACT LOW ORDER BITS OF BLOCK LENGTH SHN 6+/BLOCK/N.ILLENL SHIFT BITS TO LOW ORDER POSITION STD T3 SAVE LOW ORDER BITS OF BLOCK LENGTH LDM DRBUF+/BLOCK/L.ILLEN HIGH ORDER BITS OF BLOCK LENGTH LPK /BLOCK/M.ILLENU MASK OUT HIGH ORDER BITS OF BLK LENGTH SHN /BLOCK/N.ILLENL SHIFT BITS TO CORRECT POSITIONS RAD T3 COMPLETE BLOCK LENGTH IN 8 BIT BYTES ADC -2043D-1 MAXIMUM NO OF BYTES ALLOWED IN MESSAGE MJN ILGH.2 EXIT IF SIZE IS NOT TOO LARGE EREXIT MHE EXIT TO ERROR - MDI HEADER FORMAT ERROR * NO OF CHANNEL FRAMES LEFT TO READ IS COMPUTED BY * SUBTRACTING THE NUMBER OF BYTES ALREADY READ FROM * THE LENGTH, MULTIPLYING THAT RESULT TIMES TWO, ADDING * ONE TO THAT RESULT AND THEN FINALLY DIVIDING BY THREE. ILGH.2 LDD T3 NO OF BYTES FROM LENGTH FIELD IN HEADER SBN /BLOCK/L.ILHDR8 NO OF BYTES ALREADY READ IN PJN ILGH.3 EXIT IF LENGTH FIELD AT LEAST MINIMUM VALUE EREXIT MHE EXIT TO ERROR - MDI HEADER FORMAT ERROR ILGH.3 SHN 1 TIMES 2 FOR CONVERSION TO CHANNEL FRAMES ADN 1 CORRECTION FOR MIDDLE OF CHANNEL FRAME BYTE STD T3 NUMBER TO DIVIDE BY THREE ILGH.4 LDD T3 NUMBER TO DIVIDE BY THREE SBN 3 SUBTRACT BY 3 TO DIVIDE STD T3 NUMBER LEFT TO SUBTRACT 3 FROM MJN ILGH.5 EXIT IF NO MORE CHANNEL FRAMES AOD NCC INCREMENT NO OF CHANNEL FRAMES UJN ILGH.4 EXIT TO CONTINUE COUNTING ILGH.5 LDD NCC NO OF CHANNEL FRAMES LEFT TO READ ADK /BLOCK/L.ILHDR LENGTH OF MDI INLINE DIAG HEADER WORD STM MFC LENGTH OF INLINE DIAGNOSTIC MESSAGE LJM ILGHX RETURN ILIN SPACE 2,26 ** SUBROUTINE ILIN. * * SUBROUTINE ILIN GETS INLINE DIAGNOSTICS MESSAGE AND * STORES IT IN DIAGNOSTICS BUFFER. * * ENTRY - * * (T0 - T4) = DIAGNOSTIC FET FIRST POINTER WD * (T10 - T14) = DIAGNOSTIC FET STATUS/LENGTH WD * (T15 - T16) = ADDR OF DIAG FET STATUS/LENGTH WD * * EXIT - * * (MFC) = LENGTH OF DIAGNOSTIC MSG * (STS) = STREAM STATE RESET TO ZERO * * ERROR EXIT - * * CHANNEL HUNG FULL AFTER INPUT * * CALLS - * * GTE - GET CONTROL TABLE WORD * ILCK - CHECK FOR ERRORS AFTER I/O COMPLETED * ILDS - READ DIAGNOSTICS STATUS INFORMATION * ILGB - GET ONE BLOCK OF DATA FROM MDI * ILGF - GET ONE MCI CHANNEL FRAME * ILGH - READ MDI HEADER * ILMD - GET MDI TEST FLAGS * /MDI/ACN - ACTIVATE MDI CHANNEL * /MDI/FNC - FUNCTION TO INPUT DATA * WCMW - WRITE CENTRAL WORD * WDIB - WRITE DATA TO A CENTRAL BUFFER * * USES - * * (CBA, CBA+1) = CURRENT BUFFER ADDRESS, * (FBA) = DIAGNOSTICS TEST FLAGS, * (LBA, LBA+1) = LIMIT BUFFER ADDRESS, * (NCC) = NUMBER OF CHANNEL FRAMES TO READ * (T7) = CM INPUT WORD COUNT, ** ILIN SUBR ENTRY/EXIT LDD T10+/NAM/C.NBTIC LOAD INLINE DIAG BUFFER STATUS BYTE ADC /NAM/B.NBTIGF ADD FLAG FOR GET DATA STD T10+/NAM/C.NBTIC STORE INLINE DIAG BUFFER STATUS BYTE RJM WCMW REWRITE INLINE DIAG BUFFER STATUS LDD T0+/NAM/C.NBTFP LOAD HIGH-ORDER OF FIRST POINTER STD CBA STORE HIGH-ORDER OF CURRENT BUFFER ADDRESS LDD T0+/NAM/C.NBTFP+1 LOAD LOW-ORDER OF FIRST POINTER STD CBA+1 STORE LOW-ORDER OF CURRENT BUFFER ADDRESS LDD T15 HIGH-ORDER IN POINTER WORD ABSOLUTE ADDRESS SHN 12 POSITION TO HIGH ORDER ADD T15+1 LOW-ORDER IN POINTER WORD ABSOLUTE ADDRESS ADN /NAM/W.NBTIL-/NAM/W.NBTILE DELTA FOR FET LIMIT POINTER CRD T0 READ INLINE DIAG BUFFER LIMIT POINTER WORD LDD T0+/NAM/C.NBTLP HIGH-ORDER BITS OF LIMIT POINTER STD LBA STORE HIGH-ORDER OF LAST BUFFER ADDRESS LDD T0+/NAM/C.NBTLP+1 LOAD LOW-ORDER OF LIMIT POINTER STD LBA+1 STORE LOW-ORDER OF LAST BUFFER ADDRESS RJM ILMD GET TEST FLAGS LDN 0 CONSTANT OF ZERO STD STS RESET STREAM STATES LDC /FUNCTION/RDT LOAD FUNCTION TO INPUT DATA RJM /MDI/FNC EXIT TO FUNCTION TO INPUT DATA RJM /MDI/ACN EXIT TO ACTIVATE MDI CHANNEL RJM ILGH EXIT TO READ MDI HEADER UJN ILIN.2 * READ IN 1 BUFFER OR LESS OF INLINE DIAG MSG ILIN.1 LDC DRBUF STARTING ADDRESS OF DRIVER BUFFER STD T1 STORE STARTING ADDRESS OF DRIVER BUFFER ILIN.2 LDD NCC NO OF CHANNEL FRAMES LEFT TO READ ZJN ILIN.3 EXIT IF END OF INPUT DATA LDC E.DRBUF+1 LOAD LIMITING ADDRESS OF DRIVER BUFFER STD T2 STORE LIMIT OF DRIVER INPUT BUFFER LDD FBA LOAD TEST FLAG SETTING SHN 17-/BLOCK/S.ILFBR POSITION READ MODE PJN ILIN.4 EXIT IF NOT BLOCK MODE READ RJM ILGB EXIT TO READ IN BLOCK MODE LDD NCC NO OF CHANNEL FRAMES LEFT TO READ NJN ILIN.5 EXIT IF MORE CHANNEL FRAMES TO READ ILIN.3 LDD T1 LOAD CURRENT BUFFER ADDRESS ADC -DRBUF MINUS FIRST BUFFER ADDRESS SHN 2 TIMES FOUR TO GET CONTROL TABLE CM WORD RJM GTE EXIT TO READ CONTROL TABLE WORD TO T0 - T4 LDD T0+/NAM/C.QUOT LOAD DIVISION BY FIVE INFORMATION SHN 18-/NAM/S.QUOT POSITION QUOTIENT (ROUNDED-UP) STD T7 STORE CM INPUT WORD COUNT UJN ILIN.6 EXIT TO WRITE BUFFER * READ INLINE DIAG MSG ONE CHANNEL FRAME AT A TIME ILIN.4 RJM /MDI/DCI EXIT TO GET AN MCI CHANNEL FRAME STI T1 STORE A CHANNEL FRAME IN DRIVER BUFFER AOD T1 INCREMENT CURRENT BUFFER ADDRESS SOD NCC DECREMENT CNT OF NO OF FRAMES LEFT TO READ ZJN ILIN.3 EXIT IF END OF INPUT DATA LDD T1 NEXT PP WORD TO WRITE DATA TO LMD T2 LESS ENDING DATA BUFFER ADDRESS NJN ILIN.4 EXIT IF DATA BUFFER NOT EXHAUSTED ILIN.5 LDC L.DBCM LOAD CENTRAL WORD LENGTH OF DRIVER BUFFER STD T7 STORE DATA WORD COUNT * WRITE INLINE DIAG MSG TO CENTRAL MEMORY ILIN.6 LDC DRBUF LOAD ADDRESS OF DRIVER BUFFER RJM WDIB EXIT TO WRITE DATA TO INBOUND BUFFER LDD NCC NO OF CHANNEL FRAMES LEFT TO READ ZJN ILIN.7 EXIT IF END OF INPUT DATA UJK ILIN.1 EXIT TO ACCEPT NEXT INPUT BLOCK * COMPLETED WRITING INLINE DIAG MSG TO CENTRAL MEMORY ILIN.7 EJM. ILIN.8 EXIT IF CHANNEL NOW EMPTY EREXIT HFI EXIT TO ERROR - CH HUNG FULL AFTER INPUT * UPDATE STATUS BYTE AND SIZE FIELDS IN NBT PSEUDO FET ILIN.8 RJM ILCK EXIT TO CHECK IF READ COMPLETED OKAY RJM ILDS EXIT TO READ INLINE DIAG STATUS INFORMATION LDD T10+/NAM/C.NBTIC LOAD INLINE DIAG STATUS BYTE LMC -/NAM/B.NBTIGF CLEAR GET DATA IN PROGRESS STATUS ADC /NAM/B.NBTIPF SET ECHO PENDING STATUS STD T10+/NAM/C.NBTIC STORE INLINE DIAG STATUS BYTE LDD CBA HIGH ORDER BITS OF LWA+1 OF DIAG MSG SBD T0+/NAM/C.NBTFP HIGH ORDER BITS OF FWA OF DIAG MSG ADD CBA+1 LOW ORDER BITS OF LWA+1 OF DIAG MSG SBD T0+/NAM/C.NBTFP+1 LOW ORDER BITS OF FWA OF DIAG MSG STD T10+/NAM/C.NBTILC STORE SIZE OF DIAG MSG (IN CM WORDS) LDM MFC SIZE OF INLINE DIAG MSG IN PP WORDS STD T10+/NAM/C.NBTILP STORE SIZE OF DIAG MSG (IN PP WORDS) LDK RTCL LOAD ADDRESS SYSTEM REAL-TIME CLOCK CRD T0 READ SYSTEM REAL-TIME CLOCK LDD T0+4 LOAD MILLISECOND TIME ADK Q.ILECHO PLUS INLINE DIAG ECHO TIMEOUT QUANTUM STD T10+/NAM/C.NBTIT+1 STORE LOW-ORDER OF ECHO TIMEOUT TIME SHN -12 POSITION OVERFLOW ADD T0+3 LOAD NEXT HIGHER BYTE OF MILLISECOND CLOCK STD T10+/NAM/C.NBTIT STORE HIGH-ORDER OF ECHO TIMEOUT TIME RJM WCMW REWRITE INLINE DIAG STATUS INFORMATION UJK ILINX RETURN ILMD SPACE 2,16 ** SUBROUTINE ILMD. * * SUBROUTINE ILMD READS INLINE DIAGNOSTICS TEST FLAGS * FROM CM BUFFER AND SAVES THE SETTINGS FOR INPUT/OUTPUT * DIAGNOSTICS MESSAGE. * * ENTRY - * * (CBA - CBA+1) = BUFFER FIRST WORD ADDRESS. * * EXIT - * * (A) = SETTINGS OF TEST FLAGS. * (FBA) = SETTINGS OF TEST FLAGS. * * USES - * * (T0 - T4) = CM WORD CONTAINING TEST FLAGS * * CALLS - * * TFL - FORM ABSOLUTE CENTRAL ADDRESS. ** ILMD SUBR ENTRY/EXIT LDD CBA LOAD HIGH-ORDER OF FIRST BUFFER ADDRESS SHN 12 POSITION TO HIGH-ORDER ADD CBA+1 PLUS LOW-ORDER OF FIRST BUFFER ADDRESS ADN /BLOCK/L.ILFLAG DELTA FOR CM WORD FOR TEST FLAGS RJM TFL EXIT TO FORM ABSOLUTE CENTRAL ADDRESS CRD T0 READ CENTRAL WORD LDD T0+/BLOCK/L.ILFLG-/BLOCK/L.ILFLAG*5+1 TEST FLAGS STD FBA STORE TEST FLAGS UJK ILMDX RETURN ILPB SPACE 2,20 ** SUBROUTINE ILPB. * * SUBROUTINE ILPB OUTPUTS A BLOCK TO MCI IN BLOCK MODE * OUTPUT (OAM). * * ENTRY - * * (T2) = NUMBER OF PP WORDS TO OUTPUT * * ERROR EXITS - * * CHANNEL HUNG FULL ON OUTPUT * CHANNEL WENT INACTIVE ** ILPB SUBR ENTRY/EXIT AJM. ILPB.2 EXIT IF CHANNEL STILL ACTIVE ILPB.1 EREXIT IDO EXIT TO ERROR- CHANNEL WENT INACTIVE ILPB.2 LDK MDIDLY LOAD CHANNEL DELAY COUNT ILPB.3 EJM. ILPB.4 EXIT IF CHANNEL WENT EMPTY SBN 1 DECREMENT CHANNEL DELAY COUNT NJN ILPB.3 EXIT IF CHANNEL DELAY NOT EXPIRED EREXIT HFO EXIT TO ERROR - HUNG FULL ON OUTPUT ILPB.4 LDD T2 LOAD NUMBER OF BYTES TO OUTPUT OAM. DRBUF SEND A BLOCK TO MCI NJN ILPB.1 EXIT TO ERROR - CHANNEL WENT INACTIVE UJN ILPBX RETURN ILST SPACE 2,22 ** SUBROUTINE ILST * * SUBROUTINE ILST ADDS THE FRONT END CHANNEL TO THE * CHANNEL INSTRUCTIONS LOCATED BY A CHANNEL INSTURCTION * LIST. * * ENTRY - * * (CHAN) = FRONT END CHANNEL NUMBER. * * EXIT - * * CHANNEL INSTRUCTIONS INITIALIZED. * * USES - * * T1 = CHANNEL INSTRUCTION LIST ADDRESS, * T0 = FRONT END CHANNEL, * T2 = ADDRESS OF CHANNEL INSTRUCTION. ** ILST SUBR ENTRY/EXIT LDC ILTABLE LOAD ADDRESS OF CHANNEL INITIALIZATION LIST STD T1 INITIALIZE CHANNEL INSTRUCTION LIST ADDRESS LDM CHAN LOAD FRONT END CHANNEL NUMBER STD T0 STORE FRONT END CHANNEL NUMBER ILST.1 LDI T1 LOAD ADDRESS OF NEXT CHANNEL INSTRUCTION ZJN ILSTX RETURN IF END OF CHANNLE INSTRUCTION LIST STD T2 STORE ADDRESS OF CHANNEL INSTURCTION LDI T2 LOAD CHANNEL INSTRUCTION SCN 77B&NHO CLEAR PREVIOUS FRONT END CHANNEL NUMBER LMD T0 PLUS NEW FRONT END CHANNEL NUMBER STI T2 STORE UPDATED CHANNEL INSTRUCTION AOD T1 INCREMENT CHANNLE INSTRUCTION LIST ADDRESS UJK ILST.1 EXIT TO CHECK FOR END OF INSTRUCTION LIST ILTABLE SPACE 2,8 ** INLINE DIAGNOSTICS CHANNEL INSTRUCTION ADDRESS LIST. * * THE INLINE DIAGNOSTICS CHANNEL INSTURCTION ADDRESS LIST * CONTAINS AN ENTRY FOR EACH CHANNEL INSTRUCTION USED * BY THE DIAGNOSTICS OVERLAY. THE CONTENTS OF EACH ENTRY ** IS THE ADDRESS OF THE CHANNEL INSTRUCTION. LIST D ILTABLE BSS 0 CHANNEL INSTRUCTION ADDRESS LIST CIT HERE CON 0 TERMINATE ADDRESS LIST LIST * MFC BSS 1 NO OF BYTES IN INLINE DIAGNOSTICS MSG ."O.N" EQU * OVERLAY F=TRANS,T1=(ERROR STATUS),T2=(MCI ERROR STATUS PROCESS ,OR) QUAL ACTIONS TYPEACT MICRO 1,,*ERROR* DEFINE ACTION TYPE * RESET LINKS .NFE SET 0 PMER TITLE MCI ERROR STATUS PROCESOR PMER SPACE 2,20 ** ERROR PROCESSOR PMER. * * ERROR PROCESSOR PMER PROCESSES A MDI * ERROR STATUS REPORTED BY THE FRONT END. * * ENTRY - * * (ERRCODE) = ERROR CODE, * (FEI) = FRONT END TABLE ADDRESS. * * EXIT - * * (DEC) = DRIVER ERROR CODE, * (ERRCODE) = RESET. * * CALLS - * ** GDS - GET AND DISPLAY DETAIL MDI STATUS. PMER ACTION PROCESS MDI ERROR REPORTED RJM GDS EXIT TO GET AND DISPLAY DETAIL STATUS LDM ERRCODE LOAD ERROR CODE STM DEC,FEI STORE DRIVER ERROR CODE LDN 0 CONSTANT OF ZERO STM ERRCODE RESET ERROR CODE EXIT NFE EXIT TO PROCESS NEXT FRONT END PNSS SPACE 2,20 ** ERROR PROCESOR PNSS * * ERROR PROCESSOR PNSS PROCESSES THE ERROR CONDITION * IN WHICH PIP CANNOT COMMUNICATE WITH THE MDI BECAUSE * THE TWO PROGRAMS CANNOT FIND A COMMON CHANNEL PROTOCOL * VERSION THAT IS SUPPORTED BY BOTH. A ERROR WORKLIST * IS SENT TO NIP AND THE NEXT FRONT END IS PROCESSED. * THE MCI CHANNEL VERSION TIMER IS SET. * * ENTRY - * * (ERRCODE) = ERROR CODE. * (FEI) = FRONT END TABLE ADDRESS. * (CHVER) = IF MAX MDI CHANNEL PROTOCOL VERSION WAS * LESS THAN PIP MINIMUM, THEN THIS IS THE * MAX MDI CHANNEL PROTOCOL VERSION. * OTHERWISE, IT IS THE CH PROTOCOL * VERSION THAT PIP SENT WITH THE SET * PROTOCOL VERSION FUNCTION. * * EXIT - * * (DEC) = ERROR CODE. * (ERRCODE) = RESET TO ZERO. * * USES - * * CBA = LWA OF WORKLIST IN CM BUFFER * DRBUF = BUFFER TO CONTAIN WORKLIST * FBA = FWA OF WORKLIST IN CM BUFFER * LBA = LIMIT ADDR OF UPLINE BUFFER * T0-T4 = UPLINE BUFFER FET LIMIT WORD * = REAL TIME CLOCK FROM LOW CORE * T1 = ADDR OF DRIVER BUFFER TO CONTAIN WRKLST * T6 = INDEX FOR FET WORD IN NBT ENTRY * T7 = NO OF WORDS TO WRITE TO CM * T10-T14 = PIT ENTRY HEADER WORD * T15-T16 = PIT ENTRY ADDRESS * WHB = WORKLIST HEADER BUFFER * ** PNSS ACTION PROCESS NONSUPPORTED MDI CH PROTOCOL * MOVE DAYFILE ALERT MESSAGE TO DRIVER BUFFER LDC DRBUF ADDR OF DRIVER BUFFER TO RECEIVE DAY MSG STD T1 * GENERATE DAYFILE MESSAGE WORKLIST FOR NIP LDC /NAM/DFNCV*10000B&/NAM/DFWL REASON AND REQUEST CODE RJM IWL EXIT TO INITIALIZE UPBOUND WORKLIST LDM DRBUF+/MSTATUS/VERNO CDCNET CHANNEL PROTOCOL VERSION STM DRBUF+/NAM/MDICV SAVE FOR CH PROTOCOL MISMATCH WRKLST LDN /MSTATUS/MINV MIN CHANNEL PROTOCOL VERS SUPPORTED BY PP STM DRBUF+/NAM/MINPV SAVE FOR CH PROTOCOL MISMATCH WORKLST LDN /MSTATUS/MAXV MAX CHANNEL PROTOCOL VERS SUPPORTED BY PP STM DRBUF+/NAM/MAXPV SAVE FOR CH PROTOCOL MISMATCH WORKLST LDM CHVER,FEI MAX CHANNEL PROTOCOL VERS SUPPORTED BY MDI STM DRBUF+/NAM/MDIPV SAVE FOR CH PROTOCOL MISMATCH WORKLST LDN /NAM/WL(6)CM LENGTH OF ALERT DAYFILE MSG WORKLIST STM NBH+/NAM/C.BWD+1 STORE UPBOUND WORKLIST LENGTH IN HEADER RJM TWL EXIT TO TRANSFER WORKLIST TO INBOUND BUFFER LDM ERRCODE ERROR CODE STM DEC,FEI SAVE DRIVER ERROR CODE LDN 0 CONSTANT ZERO STM ERRCODE INITIALIZE ERROR CODE LDK RTCL ADDRESS OF SYSTEM REAL TIME CLOCK CRD T0 READ SYSTEM REAL TIME CLOCK LDD T0+1 SYSTEM SECOND TIME ADK Q.WCHPRT DELAY QUANTUM FOR WRONG CHANNEL PROTOCOL STM CTM,FEI SET CHANNEL PROTOCOL CHECK DELAY TIME LDN /TABLES/.MCPM CHANNEL PROTOCOL MISMATCH ORDINAL STD CTL STORE BLOCK HANDLER STATE RESPONSE ACTION RJM EBRA EXIT TO EXECUTE BLOCK RESPONSE ACTION EXIT NFE EXIT TO PROCESS NEXT FRONT END GDS SPACE 2,26 ** SUBROUTINE GDS. * * SUBROUTINE GDS OBTAINS THE DETAIL STATUS FROM * THE MDI, STORES IT INTO THE MDI DETAIL STATUS WORKLIST * AND TRANSFERS THE WORKLIST TO THE INBOUND BUFFER. * * ERROR EXITS - * * EXIT TO *ERROR* IF DETAIL STATUS LENGTH ERROR. * * CALLS - * * PESC - PRESET FRONT END CHANNEL INSTRUCTIONS, * CIBS - CHECK INBOUND BUFFER SPACE, * PAUSE - PAUSE FOR STORAGE RELOCATION, * FNC - FUNCTION MDI, * ACN - ACTIVE MDI CHANNEL, * FEIP - INPUT PACKED DATA * IWL - INITIALIZE WORKLIST, * TWL - TRANSFER WORKLIST TO INBOUND BUFFER. * * THE FORMAT OF THE WORKLIST ENTRY IS AS FOLLOWS: * * 5 4 3 2 1 * 987654321098765432109876543210987654321098765432109876543210 * ************************************************************* * * 55 * 11 *///////////////////////////////////* * ************************************************************* * * HN * TN * CN * 25 * 2 * 5 *///////////* * ************************************************************* * * CV * SN * SV * SID * * ************************************************************* * *...................* LIO * LTF * LPF * PLPF * * ************************************************************* * *.......* SGS * SR1 * SR3 * SSF *///* * ************************************************************* * *///////////////////////////////////* STS * CTL * * ************************************************************* * * BHS * NCC * MGS * FEIC * HN * * ************************************************************* * * TN * ADO * RTE * CO/IOC * BSBC * * ************************************************************* * * BT * NSS * PRU * OCP/ICP * CN * * ************************************************************* * * WHERE HN = HOST NODE NUMBER * TN = TERMINAL NODE NUMBER * CN = NETWORK CONNECTION NUMBER * CV = MCI CHANNEL PROTOCOL VERSION * SN = SLOT NUMBER * SV = MCI SYSTEM VERSION * SID = MDI/MTI SYSTEM ID * LI = LAST I/O FUNCTION * LTF = LAST TRANSPARENT FUNCTION * PLPF = PREVIOUS TO LAST TRANSPARENT FUNCTION * SGS = SUMMARY FLAGS PLUS MCI GENERAL STATUS * SR1 = ICB STATUS REGISTER 1 * SR3 = ICB STATUS REGISTER 3 * SSF = SOFTWARE STATUS FIELD * STS = STREAM STATES * CTL = ACTION ORDINAL * BHS = BLOCK HANDLER STATE * NCC = CURRENT MESSAGE CHARACTER COUNT * MGS = MDI GENERAL STATUS * FEIC = ADDRESS OF INPUT CHARACTER PROCESSOR * ADO = ACTION DIRECTORY ORDINAL * RTE = RESPONSE TABLE ENTRY * CO/IOC = COMMAND ORDINAL * BSBC = BSN AND BACK COUNTS * BT = NETWORK BLOCK TYPE * NSS = NEXT STREAM STATE * PRU = PRU BUFFER SIZE * REOT = REQUEST END OF TRANSFER FLAG * OW = NPU ORDER WORD * OCP/ICP = OUTPUT/INPUT CHARACTER PROCESSOR * ** GDS SUBR ENTRY/EXIT RJM PESC EXIT TO PRESET CHANNEL INSTRUCTIONS IJM. GDS.1 EXIT FRONT END CHANNEL NOT ACTIVE DCN. DISCONNECT FRONT END CHANNEL GDS.1 LDN /NAM/WL(5)CM LENGTH OF MDI DETAIL STATUS WORKLIST RJM CIBS EXIT TO CHECK FOR INBOUND BUFFER SPACE PJN GDS.2 EXIT IF SUFFICIENT INBOUND BUFFER SPACE UJK GDSX ABANDON DETAIL STATUS DISPLAY GDS.2 LDN /FUNCTION/RDS LOAD FUNCTION TO REQUEST DETAIL STATUS RJM /MDI/FNC EXIT TO FUNCTION TO REQUEST DETAIL STATUS RJM /MDI/ACN EXIT TO ACTIVATE CHANNEL LDN /MSTATUS/L.DS8 LOAD LENGTH OF DETAIL STATUS STM /MDI/MC STORE MESSAGE CHARACTER COUNT LDN 0 CONSTANT OF ZERO STD NCC INITIALIZE MDI MESSAGE CHARACTER COUNT STM /MDI/CP RESET CURRENT CHARACTER POSITION LDC DRBUF LOAD ADDRESS OF DRIVER BUFFER STD T1 STORE STARTING INPUT BUFFER ADDRESS ADN /MSTATUS/L.DSP-1 PLUS LENGTH OF BUFF. FOR DETAIL STATUS CLIO FEIP EXIT TO INPUT & STORE PACKED DATA LDD T3 LOAD INPUT CHARACTER COUNT LMN /MSTATUS/L.DS8 LESS LENGTH OF DETAIL STATUS ZJN GDS.3 EXIT IF DETAIL STATUS LENGTH CORRECT LDD EOT LOAD END OF TRANSFER FLAG NJN GDS.3 EXIT IF END OF TRANSFER RECEIVED UJK /MDI/WEI.5 EXIT TO ERROR - UNABLE TO OBTAIN MDI STATUS GDS.3 LDD STS STREAM STATES STM DRBUF+/NAM/DSSS SAVE FOR DETAILED STATUS WORKLIST LDD CTL ACTION ORDINAL STM DRBUF+/NAM/DSAO SAVE FOR DETAILED STATUS WORKLIST LDD BHS BLOCK HANDLER STATE STM DRBUF+/NAM/DSBS SAVE FOR DETAILED STATUS WORKLIST LDD NCC CURRENT MESSAGE CHARACTER COUNT STM DRBUF+/NAM/DSCC SAVE FOR DETAILED STATUS WORKLIST LDM MGS,FEI MDI GENERAL STATUS STM DRBUF+/NAM/DSGS SAVE FOR DETAILED STATUS WORKLIST LDM FEIC RETURN ADDRESS OF INPUT CHAR PROC STM DRBUF+/NAM/DSIC SAVE FOR DETAILED STATUS WORKLIST LDM HND,FEI HOST NODE NUMBER STM DRBUF+/NAM/DSHN SAVE FOR WORKLIST AND/OR SUP MSG LDD TN TERMINAL NODE NUMBER STM DRBUF+/NAM/DSTN SAVE FOR WORKLIST AND/OR SUP MSG LDD ADO DRIVER ACTION DIRECTORY ORDINAL STM DRBUF+/NAM/DSAD SAVE FOR WORKLIST AND/OR SUP MSG LDD RTE DRIVER RESPONSE TABLE ENTRY STM DRBUF+/NAM/DSRT SAVE FOR WORKLIST AND/OR SUP MSG LDD CO COMMAND ORDINAL OR INPUT ORDER CODE STM DRBUF+/NAM/DSCO SAVE FOR WORKLIST AND/OR SUP MSG LDD BSBC BLOCK SERIAL NUMBERS AND BACK COUNTS STM DRBUF+/NAM/DSSB SAVE FOR WORKLIST AND/OR SUP MSG LDD BT BLOCK TYPE STM DRBUF+/NAM/DSBT SAVE FOR WORKLIST AND/OR SUP MSG LDD NSS DRIVER NEXT STREAM STATE STM DRBUF+/NAM/DSNS SAVE FOR WORKLIST AND/OR SUP MSG LDD PRU CURRENT PRU BUFFER SIZE IN USE STM DRBUF+/NAM/DSPR SAVE FOR WORKLIST AND/OR SUP MSG LDD OCP DRIVER OUTPUT/INPUT PROCESSOR STM DRBUF+/NAM/DSCP SAVE FOR WORKLIST AND/OR SUP MSG LDD CN CONNECTION NUMBER STM DRBUF+/NAM/DSCN SAVE FOR WORKLIST AND/OR SUP MSG LDC /NAM/DFME*10000B&/NAM/DFWL REASON AND REQUEST CODES RJM IWL EXIT TO INITIALIZE UPBOUND WORKLIST LDN /NAM/WL(5)CM LENGTH OF MDI DETAIL STATUS WORKLIST STM NBH+/NAM/C.BWD+1 STORE UPBOUND WORKLIST LENGTH RJM TWL EXIT TRANSFER WORKLIST TO INBOUND BUFFFER UJK GDSX RETURN PESC TITLE ERROR STATUS PROCESSING SUPPORT SUBROUTINES. PESC SPACE 2,24 ** SUBROUTINE PESC. * * SUBROUTINE PESC ADDS THE FRONT END CHANNEL TO THE * CHANNEL INSTRUCTIONS LOCATED BY A CHANNEL CHANNEL * INSTRUCTION LIST. * * ENTRY - * * (CHAN) = FRONT END CHANNEL NUMBER. * * EXIT - * * CHANNEL INSTRUCTIONS INITIALIZED. * * USES - * * T1 = CHANNEL INSTRUCTION LIST ADDRESS, * T0 = FRONT END CHANNEL, ** T2 = ADDRESS OF CHANNEL INSTRUCTION. PESC SUBR ENTRY/EXIT LDC ESTABLE LOAD ADDRESS OF CHANNEL INITIALIZATION LIST STD T1 INITIALIZE CHANNEL INSTRUCTION LIST ADDRESS LDM CHAN LOAD FRONT END CHANNEL NUMBER STD T0 STORE FRONT END CHANNEL NUMBER PESC.1 LDI T1 LOAD ADDRESS OF NEXT CHANNEL INSTRUCTION ZJN PESCX RETURN IF END OF CHANNEL INSTRUCTION LIST STD T2 STORE ADDRESS OF CHANNEL INSTRUCTION LDI T2 LOAD CHANNEL INSTRUCTION SCN 77B&NHO CLEAR PREVIOUS FRONT END CHANNEL NUMBER LMD T0 PLUS NEW FRONT END CHANNEL NUMBER STI T2 STORE UPDATED CHANNEL INSTRUCTION AOD T1 INCREMENT CHANNEL INSTRUCTION LIST ADDRESS UJK PESC.1 EXIT TO CHECK FOR END OF INSTRUCTION LIST LIST D ESTABLE BSS 0 CHANNEL INSTRUCTION ADDRESS LIST CIT HERE CON 0 TERMINATE ADDRESS LIST LIST * QUAL OF.TBL SPACE 2,6 * TABLE OVERLAY DEFINITIONS OF.TBL EQU 0 TABLE OVERLAY ACCESS ADDRESS OL.TBL EQU 0 TABLE OVERLAY LOAD ADDRESS ."O.N" EQU * IFGT ."O.N",DCSAVE,1 ERR CAN NOT SAVE DIRECT CELLS. OVERLAY F=TBL,T1=(CONTROL TABLES),T2=(CENTRAL MEMORY RESIDENT ,CONTROL TABLES) QUAL TABLES ACTLIST BSS 0 ACTION DIRECTORY TABLE LIST D QUAL ACTORD OUTINT BSS 0 OUTPUT INITIATOR RESPONSE ACTION DIRECTORY LOC 0 OUTINT HERE .LAST SET * LOC OUTINT+.LAST BLKIN BSS 0 BLOCK INPUT RESPONSE ACTION DIRECTORY LOC 0 BLKIN HERE .LAST SET * LOC BLKIN+.LAST BLOCK BSS 0 BLOCK HANDLER RESPONSE ACTION DIRECTORY LOC 0 BLOCK HERE .LAST SET * LOC BLOCK+.LAST CMDIN BSS 0 INPUT COMMAND RESPONSE ACTION DIRECTORY LOC 0 CMDIN HERE .LAST SET * LOC CMDIN+.LAST CMDOUT BSS 0 OUTPUT COMMAND RESPONSE ACTION DIRECTORY LOC 0 CMDOUT HERE .LAST SET * LOC CMDOUT+.LAST STREAM BSS 0 STREAM RESPONSE ACTION DIRECTORY LOC 0 STREAM HERE .LAST SET * LOC STREAM+.LAST WORK BSS 0 WORKLIST RESPONSE ACTION DIRECTORY LOC 0 WORK HERE .LAST SET * LOC WORK+.LAST ERROR BSS 0 ERROR RESPONSE ACTION DIRECTORY LOC 0 ERROR HERE .LAST SET * LOC ERROR+.LAST LIST * QUAL * BHSTATES SPACE 2,10 **** BLOCK HANDLER STATE TABLES. * * THE BLOCK HANDLER STATE TABLE CONTAINS AN ENTRY FOR * EACH BLOCK HANDLER STATE. THE ENTRY IS THE ADDRESS ** OF THE BLOCK HANDLER STATE PROCESSOR. BHSTATES BSS 0 BLOCK HANDLER STATE TABLE LOC 0 BHS0 STATE. BIAS STATE 0 - SERVICE CHANNEL BHS1 STATE. BIAS STATE 1 - IVT STREAM BHS2 STATE. BPAS STATE 2 - PRU INPUT STREAM BHS3 STATE. BPAS STATE 3 - PRU OUTPUT STREAM NPUS BSS 0 FRONT END STATES BHS4 STATE. BWFC STATE 4 - INITIAL FRONT END STATE BHS5 STATE. BNRI STATE 5 - NPU INITIALIZATION REQUESTED BHS6 STATE. BNLD STATE 6 - LOAD NPU PROGRAM TEXT BHS7 STATE. BNIC STATE 7 - FRONT END OPERATIONAL BHS8 STATE. BFIN STATE 8 - FRONT END INOPERATIVE BHS9 STATE. BNLB STATE 9 - LOAD NPU BOOSTRAP PROGRAM BHS10 STATE. BCEM STATE 10 - ISSUE CE ERROR MESSAGE BHS11 STATE. BSRZ STATE 11 - ISSUE REGULATION LEVEL ZERO BHS12 STATE. BWRR STATE 12 - WAIT REGULATION ZERO RESPONSE BHS13 STATE. BSRZ STATE 13 - ISSUE REGULATION LEVEL ZERO BHS14 STATE. BWRR STATE 14 - WAIT REGULATION ZERO RESPONSE BHS15 STATE. BSFO STATE 15 - ISSUE FRONT END TURNED OFF BHS16 STATE. BLTO STATE 16 - BOOTSTRAP LOAD TIMEOUT BHS17 STATE. BSRZ STATE 17 - ISSUE REGULATION LEVEL ZERO BHS18 STATE. BWRR STATE 18 - WAIT REGULATION ZERO RESPONSE BHS19 STATE. BSRZ STATE 19 - ISSUE REGULATION LEVEL ZERO BHS20 STATE. BWRR STATE 20 - WAIT REGULATION ZERO RESPONSE BHS21 STATE. BSRZ STATE 21 - ISSUE REGULATION LEVEL ZERO BHS22 STATE. BWRR STATE 22 - WAIT REGULATION ZERO RESPONSE BHS23 STATE. BRMI STATE 23 - REQUEST MDI INTIALIZATION BHS24 STATE. BWIM STATE 24 - CHECK MDI AVAILABLE BHS25 STATE. BRFE STATE 25 - RETURN MDI EQUIPMENT TEBS BSS 0 TRANSITORY FRONT END ERROR STATES BHS26 STATE. BCEM STATE 26 - ISSUE CE ERROR MESSAGE BHS27 STATE. BCEM STATE 27 - ISSUE CE ERROR MESSAGE .LAST SET * LOC BHSTATES+.LAST **** BHS0RT SPACE 2,12 **** BLOCK HANDLER STATE RESPONSE TABLES. * * THE BLOCK HANDLER STATE RESPONSE TABLES CONTAIN AN * ENTRY FOR EACH BLOCK HANDLER STATE RESPONSE ACTION. * THE CONTENTS OF THE ENTRY IS THE ACTION ORDINAL OF * THE ACTION THAT WILL BE EXECUTED FOR THE RESPONSE ** AND THE NEXT BLOCK HANDLER STATE FOR THE STREAM. BHS0RT BSS 0 STATE 0 - SERVICE CHANNEL .STATE SET BHS0 LOC 0 .IDAT RESP BRIL INPUT DATA - BLOCK PROTOCOL ERROR .IBCK RESP BRIL INPUT BACK - BLOCK PROTOCOL ERROR .ICMD RESP BRLE INPUT COMMAND - DRIVER ERROR .ITXT RESP BRND INPUT TEXT - CHECK FOR NO EOT .INTX RESP BRIL INPUT NULL TEXT - BLOCK PROTOCOL ERROR .IICM RESP BRIL INPUT ICMD - BLOCK PROTOCOL ERROR .IICR RESP BRIL INPUT ICMD RESPONSE - BLOCK PROTOCOL ERROR .IL7Q RESP BRLE INPUT Q-MESSAGE - DRIVER ERROR .ODAT RESP BRAE OUTPUT DATA - APPLICATION ERROR .OBCK RESP BRLE OUTPUT BACK - DRIVER ERROR .OCMD RESP BRLE OUTPUT COMMAND - DRIVER ERROR .OTXT RESP BROT OUTPUT TEXT - TRANSFER TEXT TO FRONT END .OICM RESP BRAE OUTPUT ICMD - APPLICATION ERROR .OICR RESP BRAE OUTPUT ICMD RESPONSE - APPLICATION ERROR .ORST RESP BRLE OUTPUT RESET - DRIVER ERROR .OL7Q RESP BRLE OUTPUT Q-MESSAGE - DRIVER ERROR .CMPT RESP BRPT PASS THROUGH COMMAND - TRANSFER COMMAND .LDNP RESP BRCE LOAD NPU - GENERATE ERROR RESPONSE .STNP RESP BRCE START NPU - GENERATE ERROR RESPONSE .CGRL RESP BRCO CHANGE REGULATION - PROCESS COMMAND .PRCM RESP BRLE PROCESS COMMAND - DRIVER ERROR .NPOP RESP BRLE NPU OPERATIONAL - DRIVER ERROR .NPRI RESP BRIA,BHS17 NPU INITIALIZATION REQUEST - ACKNOWLEDGE IT .NPIC RESP BRNA,BHS19 NPU INITIALIZED - CHANGE STATE .NPTO RESP BRNA,BHS11 NPU TIMEOUT - CHANGE STATE .BLTO RESP BRLE BOOTSTRAP LOAD TIMEOUT - DRIVER ERROR .MDRD RESP BRNA,BHS4 MDI IN DIAGNOSTIC STATE - CHANGE STATE .MDAV RESP BRLE MDI AVAILABLE - DRIVER ERROR .MFOP RESP BRLE MDI OPERATIONAL - DRIVER ERROR .MPAC RESP BRLE PACER EQUIPMENT - DRIVER ERROR .MCPM RESP BRLE MDI PROTOCOL MISMATCH - DRIVER ERROR .MDRL RESP BRLE MDI RELEASED - DRIVER ERROR .MFNS RESP BRNA,BHS10 NO MDI STATUS - CHANGE STATE .MFUR RESP BRNA,BHS10 UNABLE TO RESET INTERFACE - CHANGE STATE .MDIO RESP BRNA,BHS10 MDI INOPERATIVE - CHANGE STATE .NPCE RESP BRNA,BHS10 NPU CHANNEL ERROR - CHANGE STATE .MFCE RESP BRNA,BHS26 MDI CHANNEL ERROR - CHANGE STATE .BPCE RESP BRNA,BHS11 BLOCK PROTOCOL ERROR - CHANGE STATE .ESTO RESP BRNA,BHS13 EST TURNED OFF - CHANGE STATE .RGZR RESP BRAE LEVEL ZERO RESPONSE - APPLICATION ERROR .LAST SET * LOC BHS0RT+.LAST BHS1RT SPACE 2,10 BHS1RT BSS 0 STATE 1 - IVT STREAM .STATE SET BHS1 LOC 0 .IDAT RESP BRDI INPUT DATA - ACCEPT DATA HEADER FROM NPU .IBCK RESP BRBK INPUT BACK - GENERATE EXTRA CM WORD .ICMD RESP BRLE INPUT COMMAND - DRIVER ERROR .ITXT RESP BRND INPUT TEXT - CHECK FOR NO EOT .INTX RESP BRNI INPUT NULL TEXT - CHECK FOR EOT .IICM RESP BRND INPUT ICMD - CHECK FOR NO EOT .IICR RESP BRNI INPUT ICMD RESPONSE - CHECK FOR EOT .IL7Q RESP BRLE INPUT Q-MESSAGE - DRIVER ERROR .ODAT RESP BROH OUTPUT DATA - TRANSFER DATA HEADER TO NPU .OBCK RESP BRLE OUTPUT BACK - DRIVER ERROR .OCMD RESP BRLE OUTPUT COMMAND - DRIVER ERROR .OTXT RESP BROT OUTPUT TEXT - EXECUTE STREAM STATE .OICM RESP BROT OUTPUT ICMD - EXECUTE STREAM STATE .OICR RESP BROT OUTPUT ICMD RESPONSE - EXECUTE STREAM STATE .ORST RESP BRLE OUTPUT RESET - DRIVER ERROR .OL7Q RESP BRLE OUTPUT Q-MESSAGE - DRIVER ERROR .CMPT RESP BRLE PASS THROUGH COMMAND - DRIVER ERROR .LDNP RESP BRLE LOAD NPU - DRIVER ERROR .STNP RESP BRLE START NPU - DRIVER ERROR .CGRL RESP BRLE CHANGE REGULATION - DRIVER ERROR .PRCM RESP BRLE PROCESS COMMAND - DRIVER ERROR .NPOP RESP BRLE NPU OPERATIONAL - DRIVER ERROR .NPRI RESP BRIA,BHS17 NPU INITIALIZATION REQUEST - ACKNOWLEDGE IT .NPIC RESP BRNA,BHS19 NPU INITIALIZED - CHANGE STATE .NPTO RESP BRNA,BHS11 NPU TIMEOUT - CHANGE STATE .BLTO RESP BRLE BOOTSTRAP LOAD TIMEOUT - DRIVER ERROR .MDRD RESP BRNA,BHS21 MDI IN DIAGNOSTIC STATE - CHANGE STATE .MDAV RESP BRLE MDI AVAILABLE - DRIVER ERROR .MFOP RESP BRLE MDI OPERATIONAL - DRIVER ERROR .MPAC RESP BRLE PACER EQUIPMENT - DRIVER ERROR .MCPM RESP BRLE MDI PROTOCOL MISMATCH - DRIVER ERROR .MDRL RESP BRLE MDI RELEASED - DRIVER ERROR .MFNS RESP BRNA,BHS10 NO MDI STATUS - CHANGE STATE .MFUR RESP BRNA,BHS10 UNABLE TO RESET INTERFACE - CHANGE STATE .MDIO RESP BRNA,BHS10 MDI INOPERATIVE - CHANGE STATE .NPCE RESP BRNA,BHS10 NPU CHANNEL ERROR - CHANGE STATE .MFCE RESP BRNA,BHS26 MDI CHANNEL ERROR - CHANGE STATE .BPCE RESP BRPE BLOCK PROTOCOL ERROR - PROCESS ERROR .ESTO RESP BRNA,BHS13 EST TURNED OFF - CHANGE STATE .RGZR RESP BRAE LEVEL ZERO RESPONSE - APPLICATION ERROR .LAST SET * LOC BHS1RT+.LAST BHS2RT SPACE 2,10 BHS2RT BSS 0 STATE 2 - PRU INPUT STREAM .STATE SET BHS2 LOC 0 .IDAT RESP BRIH INPUT DATA - ACCEPT DATA HEADER FROM NPU .IBCK RESP BRIB INPUT BACK - CHECK EOT .ICMD RESP BRIC INPUT COMMAND - ACCEPT PFC AND SFC FROM NPU .ITXT RESP BRLE INPUT TEXT - DRIVER ERROR .INTX RESP BRLE INPUT NULL TEXT - DRIVER ERROR .IICM RESP BRIL INPUT ICMD - BLOCK PROTOCOL ERROR .IICR RESP BRIL INPUT ICMD RESPONSE - BLOCK PROTOCOL ERROR .IL7Q RESP BRIQ INPUT Q-MESSAGE - INPUT COMMAND NUMBER .ODAT RESP BRLE OUTPUT DATA - DRIVER ERROR .OBCK RESP BRNA OUTPUT BACK - NO ACTION .OCMD RESP BRTC OUTPUT COMMAND - TRANSFER COMMAND TEXT .OTXT RESP BRLE OUTPUT TEXT - DRIVER ERROR .OICM RESP BRLE OUTPUT ICMD - DRIVER ERROR .OICR RESP BRLE OUTPUT ICMD RESPONSE - DRIVER ERROR .ORST RESP BROR OUTPUT RESET - TRANSFER RESET .OL7Q RESP BROQ OUTPUT Q-MESSAGE - OUTPUT LEVEL 7 COMMAND .CMPT RESP BRLE PASS THROUGH COMMAND - DRIVER ERROR .LDNP RESP BRLE LOAD NPU - DRIVER ERROR .STNP RESP BRLE START NPU - DRIVER ERROR .CGRL RESP BRLE CHANGE REGULATION - DRIVER ERROR .PRCM RESP BRLE PROCESS COMMAND - DRIVER ERROR .NPOP RESP BRLE NPU OPERATIONAL - DRIVER ERROR .NPRI RESP BRIA,BHS17 NPU INITIALIZATION REQUEST - ACKNOWLEDGE IT .NPIC RESP BRNA,BHS19 NPU INITIALIZED - CHANGE STATE .NPTO RESP BRNA,BHS11 NPU TIMEOUT - CHANGE STATE .BLTO RESP BRLE BOOTSTRAP LOAD TIMEOUT - DRIVER ERROR .MDRD RESP BRNA,BHS21 MDI IN DIAGNOSTIC STATE - CHANGE STATE .MDAV RESP BRLE MDI AVAILABLE - DRIVER ERROR .MFOP RESP BRLE MDI OPERATIONAL - DRIVER ERROR .MPAC RESP BRLE PACER EQUIPMENT - DRIVER ERROR .MCPM RESP BRLE MDI PROTOCOL MISMATCH - DRIVER ERROR .MDRL RESP BRLE MDI RELEASED - DRIVER ERROR .MFNS RESP BRNA,BHS10 NO MDI STATUS - CHANGE STATE .MFUR RESP BRNA,BHS10 UNABLE TO RESET INTERFACE - CHANGE STATE .MDIO RESP BRNA,BHS10 MDI INOPERATIVE - CHANGE STATE .NPCE RESP BRNA,BHS10 NPU CHANNEL ERROR - CHANGE STATE .MFCE RESP BRNA,BHS26 MDI CHANNEL ERROR - CHANGE STATE .BPCE RESP BRPE BLOCK PROTOCOL ERROR - PROCESS ERROR .ESTO RESP BRNA,BHS13 EST TURNED OFF - CHANGE STATE .RGZR RESP BRAE LEVEL ZERO RESPONSE - APPLICATION ERROR .LAST SET * LOC BHS2RT+.LAST BHS3RT SPACE 2,10 BHS3RT BSS 0 STATE 3 - PRU OUTPUT STREAM .STATE SET BHS3 LOC 0 .IDAT RESP BRIL INPUT DATA - BLOCK PROTOCOL ERROR .IBCK RESP BRIB INPUT BACK - CHECK EOT .ICMD RESP BRIC INPUT COMMAND - ACCEPT PFC AND SFC FROM NPU .ITXT RESP BRLE INPUT TEXT - DRIVER ERROR .INTX RESP BRLE INPUT NULL TEXT - DRIVER ERROR .IICM RESP BRIL INPUT ICMD - BLOCK PROTOCOL ERROR .IICR RESP BRIR INPUT ICMD RESPONSE - CHECK EOT .IL7Q RESP BRIQ INPUT Q-MESSAGE - INPUT COMMAND NUMBER .ODAT RESP BROH OUTPUT DATA - TRANSFER DATA HEADER TO NPU .OBCK RESP BRNA OUTPUT BACK - NO ACTION .OCMD RESP BRTC OUTPUT COMMAND - TRANSFER COMMAND TEXT .OTXT RESP BRLE OUTPUT TEXT - DRIVER ERROR .OICM RESP BRTI OUTPUT ICMD - TRANSFER CONTROL CODE .OICR RESP BRLE OUTPUT ICMD RESPONSE - DRIVER ERROR .ORST RESP BROR OUTPUT RESET - TRANSFER RESET .OL7Q RESP BROQ OUTPUT Q-MESSAGE - OUTPUT LEVEL 7 COMMAND .CMPT RESP BRLE PASS THROUGH COMMAND - DRIVER ERROR .LDNP RESP BRLE LOAD NPU - DRIVER ERROR .STNP RESP BRLE START NPU - DRIVER ERROR .CGRL RESP BRLE CHANGE REGULATION - DRIVER ERROR .PRCM RESP BRLE PROCESS COMMAND - DRIVER ERROR .NPOP RESP BRLE NPU OPERATIONAL - DRIVER ERROR .NPRI RESP BRIA,BHS17 NPU INITIALIZATION REQUEST - ACKNOWLEDGE IT .NPIC RESP BRNA,BHS19 NPU INITIALIZED - CHANGE STATE .NPTO RESP BRNA,BHS11 NPU TIMEOUT - CHANGE STATE .BLTO RESP BRLE BOOTSTRAP LOAD TIMEOUT - DRIVER ERROR .MDRD RESP BRNA,BHS21 MDI IN DIAGNOSTIC STATE - CHANGE STATE .MDAV RESP BRLE MDI AVAILABLE - DRIVER ERROR .MFOP RESP BRLE MDI OPERATIONAL - DRIVER ERROR .MPAC RESP BRLE PACER EQUIPMENT - DRIVER ERROR .MCPM RESP BRLE MDI PROTOCOL MISMATCH - DRIVER ERROR .MDRL RESP BRLE MDI RELEASED - DRIVER ERROR .MFNS RESP BRNA,BHS10 NO MDI STATUS - CHANGE STATE .MFUR RESP BRNA,BHS10 UNABLE TO RESET INTERFACE - CHANGE STATE .MDIO RESP BRNA,BHS10 MDI INOPERATIVE - CHANGE STATE .NPCE RESP BRNA,BHS10 NPU CHANNEL ERROR - CHANGE STATE .MFCE RESP BRNA,BHS26 MDI CHANNEL ERROR - CHANGE STATE .BPCE RESP BRPE BLOCK PROTOCOL ERROR - PROCESS ERROR .ESTO RESP BRNA,BHS13 EST TURNED OFF - CHANGE STATE .RGZR RESP BRAE LEVEL ZERO RESPONSE - APPLICATION ERROR .LAST SET * LOC BHS3RT+.LAST BHS4RT SPACE 2,10 BHS4RT BSS 0 STATE 4 - INITIAL FRONT END STATE .STATE SET BHS4 LOC 0 .IDAT RESP BRLE INPUT DATA - DRIVER ERROR .IBCK RESP BRLE INPUT BACK - DRIVER ERROR .ICMD RESP BRLE INPUT COMMAND - DRIVER ERROR .ITXT RESP BRLE INPUT TEXT - DRIVER ERROR .INTX RESP BRLE INPUT NULL TEXT - DRIVER ERROR .IICM RESP BRLE INPUT ICMD - DRIVER ERROR .IICR RESP BRLE INPUT ICMD RESPONSE - DRIVER ERROR .IL7Q RESP BRLE INPUT Q-MESSAGE - DRIVER ERROR .ODAT RESP BRLE OUTPUT DATA - DRIVER ERROR .OBCK RESP BRLE OUTPUT BACK - DRIVER ERROR .OCMD RESP BRLE OUTPUT COMMAND - DRIVER ERROR .OTXT RESP BRLE OUTPUT TEXT - DRIVER ERROR .OICM RESP BRLE OUTPUT ICMD - DRIVER ERROR .OICR RESP BRLE OUTPUT ICMD RESPONSE - DRIVER ERROR .ORST RESP BRLE OUTPUT RESET - DRIVER ERROR .OL7Q RESP BRLE OUTPUT Q-MESSAGE - DRIVER ERROR .CMPT RESP BRBO PASS THROUGH COMMAND - BYPASS COMMAND .LDNP RESP BRCE LOAD NPU - GENERATE ERROR RESPONSE .STNP RESP BRCE START NPU - GENERATE ERROR RESPONSE .CGRL RESP BRBO CHANGE REGULATION - BYPASS COMMAND .PRCM RESP BRLE PROCESS COMMAND - DRIVER ERROR .NPOP RESP BRLE NPU OPERATIONAL - DRIVER ERROR .NPRI RESP BRIA,BHS5 NPU INITIALIZATION REQUEST - ACKNOWLEDGE IT .NPIC RESP BRNA,BHS7 NPU INITIALIZED - CHANGE STATE .NPTO RESP BRNA,BHS8 NPU TIMEOUT - CHANGE STATE .BLTO RESP BRLE BOOTSTRAP LOAD TIMEOUT - DRIVER ERROR .MDRD RESP BRNA,BHS23 MDI IN DIAGNOSTIC STATE - CHANGE STATE .MDAV RESP BRLE MDI AVAILABLE - DRIVER ERROR .MFOP RESP BRNA,BHS7 MDI OPERATIONAL - CHANGE STATE .MPAC RESP BRNA,BHS25 PACER EQUIPMENT - CHANGE STATE .MCPM RESP BRNA,BHS25 MDI PROTOCOL MISMATCH - CHANGE STATE .MDRL RESP BRLE MDI RELEASED - DRIVER ERROR .MFNS RESP BRNA,BHS27 NO MDI STATUS - CHANGE STATE .MFUR RESP BRNA,BHS27 UNABLE TO RESET INTERFACE - CHANGE STATE .MDIO RESP BRNA,BHS27 MDI INOPERATIVE - CHANGE STATE .NPCE RESP BRNA,BHS8 NPU CHANNEL ERROR - CHANGE STATE .MFCE RESP BRNA,BHS27 MDI CHANNEL ERROR - CHANGE STATE .BPCE RESP BRNA,BHS8 BLOCK PROTOCOL ERROR - CHANGE STATE .ESTO RESP BRNA,BHS15 EST TURNED OFF - CHANGE STATE .RGZR RESP BRAE LEVEL ZERO RESPONSE - APPLICATION ERROR .LAST SET * LOC BHS4RT+.LAST BHS5RT SPACE 2,10 BHS5RT BSS 0 STATE 5 - NPU INITIALIZATION REQUESTED .STATE SET BHS5 LOC 0 .IDAT RESP BRLE INPUT DATA - DRIVER ERROR .IBCK RESP BRLE INPUT BACK - DRIVER ERROR .ICMD RESP BRLE INPUT COMMAND - DRIVER ERROR .ITXT RESP BRLE INPUT TEXT - DRIVER ERROR .INTX RESP BRLE INPUT NULL TEXT - DRIVER ERROR .IICM RESP BRLE INPUT ICMD - DRIVER ERROR .IICR RESP BRLE INPUT ICMD RESPONSE - DRIVER ERROR .IL7Q RESP BRLE INPUT Q-MESSAGE - DRIVER ERROR .ODAT RESP BRLE OUTPUT DATA - DRIVER ERROR .OBCK RESP BRLE OUTPUT BACK - DRIVER ERROR .OCMD RESP BRLE OUTPUT COMMAND - DRIVER ERROR .OTXT RESP BRLE OUTPUT TEXT - DRIVER ERROR .OICM RESP BRLE OUTPUT ICMD - DRIVER ERROR .OICR RESP BRLE OUTPUT ICMD RESPONSE - DRIVER ERROR .ORST RESP BRLE OUTPUT RESET - DRIVER ERROR .OL7Q RESP BRLE OUTPUT Q-MESSAGE - DRIVER ERROR .CMPT RESP BRBO PASS THROUGH COMMAND - BYPASS COMMAND .LDNP RESP BRCE LOAD NPU - GENERATE ERROR RESPONSE .STNP RESP BRCE START NPU - GENERATE ERROR RESPONSE .CGRL RESP BRBO CHANGE REGULATION - BYPASS COMMAND .PRCM RESP BRCO,BHS6 PROCESS COMMAND - PROCESS COMMAND .NPOP RESP BRLE NPU OPERATIONAL - DRIVER ERROR .NPRI RESP BRIA NPU INITIALIZATION REQUEST - ACKNOWLEDGE IT .NPIC RESP BRIL NPU INITIALIZED - PROTOCOL ERROR .NPTO RESP BRNA,BHS8 NPU TIMEOUT - CHANGE STATE .BLTO RESP BRLE BOOTSTRAP LOAD TIMEOUT - DRIVER ERROR .MDRD RESP BRLE MDI IN DIAGNOSTIC STATE - DRIVER ERROR .MDAV RESP BRLE MDI AVAILABLE - DRIVER ERROR .MFOP RESP BRLE MDI OPERATIONAL - DRIVER ERROR .MPAC RESP BRLE PACER EQUIPMENT - DRIVER ERROR .MCPM RESP BRLE MDI PROTOCOL MISMATCH - DRIVER ERROR .MDRL RESP BRLE MDI RELEASED - DRIVER ERROR .MFNS RESP BRLE NO MDI STATUS - DRIVER ERROR .MFUR RESP BRLE UNABLE TO RESET INTERFACE - DRIVER ERROR .MDIO RESP BRLE MDI INOPERATIVE - DRIVER ERROR .NPCE RESP BRNA,BHS8 NPU CHANNEL ERROR - CHANGE STATE .MFCE RESP BRLE MDI CHANNEL ERROR - DRIVER ERROR .BPCE RESP BRNA,BHS8 BLOCK PROTOCOL ERROR - CHANGE STATE .ESTO RESP BRNA,BHS13 EST TURNED OFF - CHANGE STATE .RGZR RESP BRAE LEVEL ZERO RESPONSE - APPLICATION ERROR .LAST SET * LOC BHS5RT+.LAST BHS6RT SPACE 2,10 BHS6RT BSS 0 STATE 6 - LOAD NPU PROGRAM TEXT .STATE SET BHS6 LOC 0 .IDAT RESP BRIL INPUT DATA - BLOCK PROTOCOL ERROR .IBCK RESP BRLE INPUT BACK - DRIVER ERROR .ICMD RESP BRLE INPUT COMMAND - DRIVER ERROR .ITXT RESP BRND INPUT TEXT - CHECK FOR NO EOT .INTX RESP BRIL INPUT NULL TEXT - BLOCK PROTOCOL ERROR .IICM RESP BRIL INPUT ICMD - BLOCK PROTOCOL ERROR .IICR RESP BRIL INPUT ICMD RESPONSE - BLOCK PROTOCOL ERROR .IL7Q RESP BRLE INPUT Q-MESSAGE - DRIVER ERROR .ODAT RESP BRLE OUTPUT DATA - DRIVER ERROR .OBCK RESP BRLE OUTPUT BACK - DRIVER ERROR .OCMD RESP BRLE OUTPUT COMMAND - DRIVER ERROR .OTXT RESP BROT OUTPUT TEXT - TRANSFER TEXT TO FRONT END .OICM RESP BRLE OUTPUT ICMD - DRIVER ERROR .OICR RESP BRLE OUTPUT ICMD RESPONSE - DRIVER ERROR .ORST RESP BRLE OUTPUT RESET - DRIVER ERROR .OL7Q RESP BRLE OUTPUT Q-MESSAGE - DRIVER ERROR .CMPT RESP BRPT PASS THROUGH COMMAND - TRANSFER COMMAND .LDNP RESP BRPT LOAD NPU - PASS COMMAND THROUGH .STNP RESP BRPT START NPU - PASS COMMAND THROUGH .CGRL RESP BRBO CHANGE REGULATION - BYPASS COMMAND .PRCM RESP BRLE PROCESS COMMAND - DRIVER ERROR .NPOP RESP BRLE NPU OPERATIONAL - DRIVER ERROR .NPRI RESP BRIA,BHS5 NPU INITIALIZATION REQUEST - ACKNOWLEDGE IT .NPIC RESP BRNA,BHS7 NPU INITIALIZED - CHANGE STATE .NPTO RESP BRNA,BHS8 NPU TIMEOUT - CHANGE STATE .BLTO RESP BRLE BOOTSTRAP LOAD TIMEOUT - DRIVER ERROR .MDRD RESP BRLE MDI IN DIAGNOSTIC STATE - DRIVER ERROR .MDAV RESP BRLE MDI AVAILABLE - DRIVER ERROR .MFOP RESP BRLE MDI OPERATIONAL - DRIVER ERROR .MPAC RESP BRLE PACER EQUIPMENT - DRIVER ERROR .MCPM RESP BRLE MDI PROTOCOL MISMATCH - DRIVER ERROR .MDRL RESP BRLE MDI RELEASED - DRIVER ERROR .MFNS RESP BRLE NO MDI STATUS - DRIVER ERROR .MFUR RESP BRLE UNABLE TO RESET INTERFACE - DRIVER ERROR .MDIO RESP BRLE MDI INOPERATIVE - DRIVER ERROR .NPCE RESP BRNA,BHS8 NPU CHANNEL ERROR - CHANGE STATE .MFCE RESP BRLE MDI CHANNEL ERROR - DRIVER ERROR .BPCE RESP BRNA,BHS8 BLOCK PROTOCOL ERROR - CHANGE STATE .ESTO RESP BRNA,BHS13 EST TURNED OFF - CHANGE STATE .RGZR RESP BRAE LEVEL ZERO RESPONSE - APPLICATION ERROR .LAST SET * LOC BHS6RT+.LAST BHS7RT SPACE 2,10 BHS7RT BSS 0 STATE 7 - FRONT END OPERATIONAL .STATE SET BHS7 LOC 0 .IDAT RESP BRLE INPUT DATA - DRIVER ERROR .IBCK RESP BRLE INPUT BACK - DRIVER ERROR .ICMD RESP BRLE INPUT COMMAND - DRIVER ERROR .ITXT RESP BRLE INPUT TEXT - DRIVER ERROR .INTX RESP BRLE INPUT NULL TEXT - DRIVER ERROR .IICM RESP BRLE INPUT ICMD - DRIVER ERROR .IICR RESP BRLE INPUT ICMD RESPONSE - DRIVER ERROR .IL7Q RESP BRLE INPUT Q-MESSAGE - DRIVER ERROR .ODAT RESP BRLE OUTPUT DATA - DRIVER ERROR .OBCK RESP BRLE OUTPUT BACK - DRIVER ERROR .OCMD RESP BRLE OUTPUT COMMAND - DRIVER ERROR .OTXT RESP BRLE OUTPUT TEXT - DRIVER ERROR .OICM RESP BRLE OUTPUT ICMD - DRIVER ERROR .OICR RESP BRLE OUTPUT ICMD RESPONSE - DRIVER ERROR .ORST RESP BRLE OUTPUT RESET - DRIVER ERROR .OL7Q RESP BRLE OUTPUT Q-MESSAGE - DRIVER ERROR .CMPT RESP BRPT PASS THROUGH COMMAND - TRANSFER COMMAND .LDNP RESP BRCE LOAD NPU - GENERATE ERROR RESPONSE .STNP RESP BRCE START NPU - GENERATE ERROR RESPONSE .CGRL RESP BRBO CHANGE REGULATION - BYPASS COMMAND .PRCM RESP BRCO,BHS0 PROCESS COMMAND - PROCESS COMMAND .NPOP RESP BRLE NPU OPERATIONAL - DRIVER ERROR .NPRI RESP BRIL NPU INITIALIZATION REQUEST - PROTOCOL ERROR .NPIC RESP BRIL NPU INITIALIZED - PROTOCOL ERROR .NPTO RESP BRNA,BHS8 NPU TIMEOUT - CHANGE STATE .BLTO RESP BRLE BOOTSTRAP LOAD TIMEOUT - DRIVER ERROR .MDRD RESP BRLE MDI IN DIAGNOSTIC STATE - DRIVER ERROR .MDAV RESP BRLE MDI AVAILABLE - DRIVER ERROR .MFOP RESP BRLE MDI OPERATIONAL - DRIVER ERROR .MPAC RESP BRLE PACER EQUIPMENT - DRIVER ERROR .MCPM RESP BRLE MDI PROTOCOL MISMATCH - DRIVER ERROR .MDRL RESP BRLE MDI RELEASED - DRIVER ERROR .MFNS RESP BRLE NO MDI STATUS - DRIVER ERROR .MFUR RESP BRLE UNABLE TO RESET INTERFACE - DRIVER ERROR .MDIO RESP BRLE MDI INOPERATIVE - DRIVER ERROR .NPCE RESP BRNA,BHS8 NPU CHANNEL ERROR - CHANGE STATE .MFCE RESP BRNA,BHS8 MDI CHANNEL ERROR - CHANGE STATE .BPCE RESP BRNA,BHS8 BLOCK PROTOCOL ERROR - CHANGE STATE .ESTO RESP BRNA,BHS13 EST TURNED OFF - CHANGE STATE .RGZR RESP BRAE LEVEL ZERO RESPONSE - APPLICATION ERROR .LAST SET * LOC BHS7RT+.LAST BHS8RT SPACE 2,10 BHS8RT BSS 0 STATE 8 - FRONT END INOPERATIVE .STATE SET BHS8 LOC 0 .IDAT RESP BRLE INPUT DATA - DRIVER ERROR .IBCK RESP BRLE INPUT BACK - DRIVER ERROR .ICMD RESP BRLE INPUT COMMAND - DRIVER ERROR .ITXT RESP BRLE INPUT TEXT - DRIVER ERROR .INTX RESP BRLE INPUT NULL TEXT - DRIVER ERROR .IICM RESP BRLE INPUT ICMD - DRIVER ERROR .IICR RESP BRLE INPUT ICMD RESPONSE - DRIVER ERROR .IL7Q RESP BRLE INPUT Q-MESSAGE - DRIVER ERROR .ODAT RESP BRLE OUTPUT DATA - DRIVER ERROR .OBCK RESP BRLE OUTPUT BACK - DRIVER ERROR .OCMD RESP BRLE OUTPUT COMMAND - DRIVER ERROR .OTXT RESP BRBO OUTPUT TEXT - BYPASS OUTPUT .OICM RESP BRLE OUTPUT ICMD - DRIVER ERROR .OICR RESP BRLE OUTPUT ICMD RESPONSE - DRIVER ERROR .ORST RESP BRLE OUTPUT RESET - DRIVER ERROR .OL7Q RESP BRLE OUTPUT Q-MESSAGE - DRIVER ERROR .CMPT RESP BRBO PASS THROUGH COMMAND - BYPASS COMMAND .LDNP RESP BRCE LOAD NPU - GENERATE ERROR RESPONSE .STNP RESP BRCE START NPU - GENERATE ERROR RESPONSE .CGRL RESP BRBO CHANGE REGULATION - BYPASS COMMAND .PRCM RESP BRCO,BHS9 PROCESS COMMAND - PROCESS COMMAND .NPOP RESP BRLE NPU OPERATIONAL - DRIVER ERROR .NPRI RESP BRIA,BHS5 NPU INITIALIZATION REQUEST - ACKNOWLEDGE IT .NPIC RESP BRNA,BHS7 NPU INITIALIZED - CHANGE STATE .NPTO RESP BRNA NPU TIMEOUT - NO ACTION .BLTO RESP BRLE BOOTSTRAP LOAD TIMEOUT - DRIVER ERROR .MDRD RESP BRNA,BHS23 MDI IN DIAGNOSTIC STATE - CHANGE STATE .MDAV RESP BRLE MDI AVAILABLE - DRIVER ERROR .MFOP RESP BRNA,BHS4 MDI OPERATIONAL - CHANGE STATE .MPAC RESP BRNA,BHS4 PACER EQUIPMENT - CHANGE STATE .MCPM RESP BRNA,BHS4 MDI PROTOCOL MISMATCH - CHANGE STATE .MDRL RESP BRLE MDI RELEASED - DRIVER ERROR .MFNS RESP BRNA NO MDI STATUS - NO ACTION .MFUR RESP BRNA UNABLE TO RESET INTERFACE - NO ACTION .MDIO RESP BRNA MDI INOPERATIVE - NO ACTION .NPCE RESP BRNA NPU CHANNEL ERROR - NO ACTION .MFCE RESP BRNA MDI CHANNEL ERROR - NO ACTION .BPCE RESP BRNA BLOCK PROTOCOL ERROR - NO ACTION .ESTO RESP BRNA,BHS15 EST TURNED OFF - CHANGE STATE .RGZR RESP BRAE LEVEL ZERO RESPONSE - APPLICATION ERROR .LAST SET * LOC BHS8RT+.LAST BHS9RT SPACE 2,10 BHS9RT BSS 0 STATE 9 - LOAD NPU BOOTSTRAP PROGRAM .STATE SET BHS9 LOC 0 .IDAT RESP BRLE INPUT DATA - DRIVER ERROR .IBCK RESP BRLE INPUT BACK - DRIVER ERROR .ICMD RESP BRLE INPUT COMMAND - DRIVER ERROR .ITXT RESP BRLE INPUT TEXT - DRIVER ERROR .INTX RESP BRLE INPUT NULL TEXT - DRIVER ERROR .IICM RESP BRLE INPUT ICMD - DRIVER ERROR .IICR RESP BRLE INPUT ICMD RESPONSE - DRIVER ERROR .IL7Q RESP BRLE INPUT Q-MESSAGE - DRIVER ERROR .ODAT RESP BRLE OUTPUT DATA - DRIVER ERROR .OBCK RESP BRLE OUTPUT BACK - DRIVER ERROR .OCMD RESP BRLE OUTPUT COMMAND - DRIVER ERROR .OTXT RESP BRBO OUTPUT TEXT - BYPASS OUTPUT .OICM RESP BRLE OUTPUT ICMD - DRIVER ERROR .OICR RESP BRLE OUTPUT ICMD RESPONSE - DRIVER ERROR .ORST RESP BRLE OUTPUT RESET - DRIVER ERROR .OL7Q RESP BRLE OUTPUT Q-MESSAGE - DRIVER ERROR .CMPT RESP BRBO PASS THROUGH COMMAND - BYPASS COMMAND .LDNP RESP BRCO LOAD NPU - PROCESS COMMAND .STNP RESP BRCO,BHS4 START NPU - PROCESS COMMAND .CGRL RESP BRBO CHANGE REGULATION - BYPASS COMMAND .PRCM RESP BRLE PROCESS COMMAND - DRIVER ERROR .NPOP RESP BRLE NPU OPERATIONAL - DRIVER ERROR .NPRI RESP BRIL NPU INITIALIZATION REQUEST - PROTOCOL ERROR .NPIC RESP BRIL NPU INITIALIZED - PROTOCOL ERROR .NPTO RESP BRNA,BHS8 NPU TIMEOUT - CHANGE STATE .BLTO RESP BRNA,BHS16 BOOTSTRAP LOAD TIMEOUT - CHANGE STATE .MDRD RESP BRLE MDI IN DIAGNOSTIC STATE - DRIVER ERROR .MDAV RESP BRLE MDI AVAILABLE - DRIVER ERROR .MFOP RESP BRLE MDI OPERATIONAL - DRIVER ERROR .MPAC RESP BRLE PACER EQUIPMENT - DRIVER ERROR .MCPM RESP BRLE MDI PROTOCOL MISMATCH - DRIVER ERROR .MDRL RESP BRLE MDI RELEASED - DRIVER ERROR .MFNS RESP BRLE NO MDI STATUS - DRIVER ERROR .MFUR RESP BRLE UNABLE TO RESET INTERFACE - DRIVER ERROR .MDIO RESP BRLE MDI INOPERATIVE - DRIVER ERROR .NPCE RESP BRNA,BHS8 NPU CHANNEL ERROR - CHANGE STATE .MFCE RESP BRLE MDI CHANNEL ERROR - DRIVER ERROR .BPCE RESP BRNA,BHS8 BLOCK PROTOCOL ERROR - CHANGE STATE .ESTO RESP BRNA,BHS13 EST TURNED OFF - CHANGE STATE .RGZR RESP BRAE LEVEL ZERO RESPONSE - APPLICATION ERROR .LAST SET * LOC BHS9RT+.LAST BHS10RT SPACE 2,10 BHS10RT BSS 0 STATE 10 - ISSUE CE ERROR MESSAGE .STATE SET BHS10 LOC 0 .IDAT RESP BRLE INPUT DATA - DRIVER ERROR .IBCK RESP BRLE INPUT BACK - DRIVER ERROR .ICMD RESP BRLE INPUT COMMAND - DRIVER ERROR .ITXT RESP BRLE INPUT TEXT - DRIVER ERROR .INTX RESP BRLE INPUT NULL TEXT - DRIVER ERROR .IICM RESP BRLE INPUT ICMD - DRIVER ERROR .IICR RESP BRLE INPUT ICMD RESPONSE - DRIVER ERROR .IL7Q RESP BRLE INPUT Q-MESSAGE - DRIVER ERROR .ODAT RESP BRLE OUTPUT DATA - DRIVER ERROR .OBCK RESP BRLE OUTPUT BACK - DRIVER ERROR .OCMD RESP BRLE OUTPUT COMMAND - DRIVER ERROR .OTXT RESP BRLE OUTPUT TEXT - DRIVER ERROR .OICM RESP BRLE OUTPUT ICMD - DRIVER ERROR .OICR RESP BRLE OUTPUT ICMD RESPONSE - DRIVER ERROR .ORST RESP BRLE OUTPUT RESET - DRIVER ERROR .OL7Q RESP BRLE OUTPUT Q-MESSAGE - DRIVER ERROR .CMPT RESP BRBO PASS THROUGH COMMAND - BYPASS COMMAND .LDNP RESP BRCE LOAD NPU - GENERATE ERROR RESPONSE .STNP RESP BRCE START NPU - GENERATE ERROR RESPONSE .CGRL RESP BRBO CHANGE REGULATION - BYPASS COMMAND .PRCM RESP BRCO,BHS11 PROCESS COMMAND - PROCESS COMMAND .NPOP RESP BRLE NPU OPERATIONAL - DRIVER ERROR .NPRI RESP BRNA NPU INITIALIZATION REQUEST - NO ACTION .NPIC RESP BRNA NPU INITIALIZED - NO ACTION .NPTO RESP BRNA NPU TIMEOUT - NO ACTION .BLTO RESP BRLE BOOTSTRAP LOAD TIMEOUT - DRIVER ERROR .MDRD RESP BRLE MDI IN DIAGNOSTIC STATE - DRIVER ERROR .MDAV RESP BRLE MDI AVAILABLE - DRIVER ERROR .MFOP RESP BRLE MDI OPERATIONAL - DRIVER ERROR .MPAC RESP BRLE PACER EQUIPMENT - DRIVER ERROR .MCPM RESP BRLE MDI PROTOCOL MISMATCH - DRIVER ERROR .MDRL RESP BRLE MDI RELEASED - DRIVER ERROR .MFNS RESP BRLE NO MDI STATUS - DRIVER ERROR .MFUR RESP BRLE UNABLE TO RESET INTERFACE - DRIVER ERROR .MDIO RESP BRLE MDI INOPERATIVE - DRIVER ERROR .NPCE RESP BRNA NPU CHANNEL ERROR - NO ACTION .MFCE RESP BRLE MDI CHANNEL ERROR - DRIVER ERROR .BPCE RESP BRNA BLOCK PROTOCOL ERROR - NO ACTION .ESTO RESP BRNA EST TURNED OFF - NO ACTION .RGZR RESP BRAE LEVEL ZERO RESPONSE - APPLICATION ERROR .LAST SET * LOC BHS10RT+.LAST BHS11RT SPACE 2,10 BHS11RT BSS 0 STATE 11 - ISSUE REGULATION LEVEL ZERO .STATE SET BHS11 LOC 0 .IDAT RESP BRLE INPUT DATA - DRIVER ERROR .IBCK RESP BRLE INPUT BACK - DRIVER ERROR .ICMD RESP BRLE INPUT COMMAND - DRIVER ERROR .ITXT RESP BRLE INPUT TEXT - DRIVER ERROR .INTX RESP BRLE INPUT NULL TEXT - DRIVER ERROR .IICM RESP BRLE INPUT ICMD - DRIVER ERROR .IICR RESP BRLE INPUT ICMD RESPONSE - DRIVER ERROR .IL7Q RESP BRLE INPUT Q-MESSAGE - DRIVER ERROR .ODAT RESP BRLE OUTPUT DATA - DRIVER ERROR .OBCK RESP BRLE OUTPUT BACK - DRIVER ERROR .OCMD RESP BRLE OUTPUT COMMAND - DRIVER ERROR .OTXT RESP BRLE OUTPUT TEXT - DRIVER ERROR .OICM RESP BRLE OUTPUT ICMD - DRIVER ERROR .OICR RESP BRLE OUTPUT ICMD RESPONSE - DRIVER ERROR .ORST RESP BRLE OUTPUT RESET - DRIVER ERROR .OL7Q RESP BRLE OUTPUT Q-MESSAGE - DRIVER ERROR .CMPT RESP BRBO PASS THROUGH COMMAND - BYPASS COMMAND .LDNP RESP BRCE LOAD NPU - GENERATE ERROR RESPONSE .STNP RESP BRCE START NPU - GENERATE ERROR RESPONSE .CGRL RESP BRBO CHANGE REGULATION - BYPASS COMMAND .PRCM RESP BRCO,BHS12 PROCESS COMMAND - PROCESS COMMAND .NPOP RESP BRLE NPU OPERATIONAL - DRIVER ERROR .NPRI RESP BRNA NPU INITIALIZATION REQUEST - NO ACTION .NPIC RESP BRNA NPU INITIALIZED - NO ACTION .NPTO RESP BRNA NPU TIMEOUT - NO ACTION .BLTO RESP BRLE BOOTSTRAP LOAD TIMEOUT - DRIVER ERROR .MDRD RESP BRLE MDI IN DIAGNOSTIC STATE - DRIVER ERROR .MDAV RESP BRLE MDI AVAILABLE - DRIVER ERROR .MFOP RESP BRLE MDI OPERATIONAL - DRIVER ERROR .MPAC RESP BRLE PACER EQUIPMENT - DRIVER ERROR .MCPM RESP BRLE MDI PROTOCOL MISMATCH - DRIVER ERROR .MDRL RESP BRLE MDI RELEASED - DRIVER ERROR .MFNS RESP BRLE NO MDI STATUS - DRIVER ERROR .MFUR RESP BRLE UNABLE TO RESET INTERFACE - DRIVER ERROR .MDIO RESP BRLE MDI INOPERATIVE - DRIVER ERROR .NPCE RESP BRNA NPU CHANNEL ERROR - NO ACTION .MFCE RESP BRLE MDI CHANNEL ERROR - DRIVER ERROR .BPCE RESP BRNA BLOCK PROTOCOL ERROR - NO ACTION .ESTO RESP BRNA EST TURNED OFF - NO ACTION .RGZR RESP BRAE LEVEL ZERO RESPONSE - APPLICATION ERROR .LAST SET * LOC BHS11RT+.LAST BHS12RT SPACE 2,10 BHS12RT BSS 0 STATE 12 - WAIT REGULATION ZERO RESPONSE .STATE SET BHS12 LOC 0 .IDAT RESP BRLE INPUT DATA - DRIVER ERROR .IBCK RESP BRLE INPUT BACK - DRIVER ERROR .ICMD RESP BRLE INPUT COMMAND - DRIVER ERROR .ITXT RESP BRLE INPUT TEXT - DRIVER ERROR .INTX RESP BRLE INPUT NULL TEXT - DRIVER ERROR .IICM RESP BRLE INPUT ICMD - DRIVER ERROR .IICR RESP BRLE INPUT ICMD RESPONSE - DRIVER ERROR .IL7Q RESP BRLE INPUT Q-MESSAGE - DRIVER ERROR .ODAT RESP BRLE OUTPUT DATA - DRIVER ERROR .OBCK RESP BRLE OUTPUT BACK - DRIVER ERROR .OCMD RESP BRLE OUTPUT COMMAND - DRIVER ERROR .OTXT RESP BRLE OUTPUT TEXT - DRIVER ERROR .OICM RESP BRLE OUTPUT ICMD - DRIVER ERROR .OICR RESP BRLE OUTPUT ICMD RESPONSE - DRIVER ERROR .ORST RESP BRLE OUTPUT RESET - DRIVER ERROR .OL7Q RESP BRLE OUTPUT Q-MESSAGE - DRIVER ERROR .CMPT RESP BRBO PASS THROUGH COMMAND - BYPASS COMMAND .LDNP RESP BRCE LOAD NPU - GENERATE ERROR RESPONSE .STNP RESP BRCE START NPU - GENERATE ERROR RESPONSE .CGRL RESP BRBO CHANGE REGULATION - BYPASS COMMAND .PRCM RESP BRLE PROCESS COMMAND - DRIVER ERROR .NPOP RESP BRLE NPU OPERATIONAL - DRIVER ERROR .NPRI RESP BRNA NPU INITIALIZATION REQUEST - NO ACTION .NPIC RESP BRNA NPU INITIALIZED - NO ACTION .NPTO RESP BRNA NPU TIMEOUT - NO ACTION .BLTO RESP BRLE BOOTSTRAP LOAD TIMEOUT - DRIVER ERROR .MDRD RESP BRLE MDI IN DIAGNOSTIC STATE - DRIVER ERROR .MDAV RESP BRLE MDI AVAILABLE - DRIVER ERROR .MFOP RESP BRLE MDI OPERATIONAL - DRIVER ERROR .MPAC RESP BRLE PACER EQUIPMENT - DRIVER ERROR .MCPM RESP BRLE MDI PROTOCOL MISMATCH - DRIVER ERROR .MDRL RESP BRLE MDI RELEASED - DRIVER ERROR .MFNS RESP BRLE NO MDI STATUS - DRIVER ERROR .MFUR RESP BRLE UNABLE TO RESET INTERFACE - DRIVER ERROR .MDIO RESP BRLE MDI INOPERATIVE - DRIVER ERROR .NPCE RESP BRNA NPU CHANNEL ERROR - NO ACTION .MFCE RESP BRLE MDI CHANNEL ERROR - DRIVER ERROR .BPCE RESP BRNA BLOCK PROTOCOL ERROR - NO ACTION .ESTO RESP BRNA EST TURNED OFF - NO ACTION .RGZR RESP BRBO,BHS8 LEVEL ZERO RESPONSE - CHANGE STATE .LAST SET * LOC BHS12RT+.LAST BHS13RT SPACE 2,10 BHS13RT BSS 0 STATE 13 - ISSUE REGULATION LEVEL ZERO .STATE SET BHS13 LOC 0 .IDAT RESP BRLE INPUT DATA - DRIVER ERROR .IBCK RESP BRLE INPUT BACK - DRIVER ERROR .ICMD RESP BRLE INPUT COMMAND - DRIVER ERROR .ITXT RESP BRLE INPUT TEXT - DRIVER ERROR .INTX RESP BRLE INPUT NULL TEXT - DRIVER ERROR .IICM RESP BRLE INPUT ICMD - DRIVER ERROR .IICR RESP BRLE INPUT ICMD RESPONSE - DRIVER ERROR .IL7Q RESP BRLE INPUT Q-MESSAGE - DRIVER ERROR .ODAT RESP BRLE OUTPUT DATA - DRIVER ERROR .OBCK RESP BRLE OUTPUT BACK - DRIVER ERROR .OCMD RESP BRLE OUTPUT COMMAND - DRIVER ERROR .OTXT RESP BRLE OUTPUT TEXT - DRIVER ERROR .OICM RESP BRLE OUTPUT ICMD - DRIVER ERROR .OICR RESP BRLE OUTPUT ICMD RESPONSE - DRIVER ERROR .ORST RESP BRLE OUTPUT RESET - DRIVER ERROR .OL7Q RESP BRLE OUTPUT Q-MESSAGE - DRIVER ERROR .CMPT RESP BRBO PASS THROUGH COMMAND - BYPASS COMMAND .LDNP RESP BRCE LOAD NPU - GENERATE ERROR RESPONSE .STNP RESP BRCE START NPU - GENERATE ERROR RESPONSE .CGRL RESP BRBO CHANGE REGULATION - BYPASS COMMAND .PRCM RESP BRCO,BHS14 PROCESS COMMAND - PROCESS COMMAND .NPOP RESP BRLE NPU OPERATIONAL - DRIVER ERROR .NPRI RESP BRNA NPU INITIALIZATION REQUEST - NO ACTION .NPIC RESP BRNA NPU INITIALIZED - NO ACTION .NPTO RESP BRNA NPU TIMEOUT - NO ACTION .BLTO RESP BRLE BOOTSTRAP LOAD TIMEOUT - DRIVER ERROR .MDRD RESP BRLE MDI IN DIAGNOSTIC STATE - DRIVER ERROR .MDAV RESP BRLE MDI AVAILABLE - DRIVER ERROR .MFOP RESP BRLE MDI OPERATIONAL - DRIVER ERROR .MPAC RESP BRLE PACER EQUIPMENT - DRIVER ERROR .MCPM RESP BRLE MDI PROTOCOL MISMATCH - DRIVER ERROR .MDRL RESP BRLE MDI RELEASED - DRIVER ERROR .MFNS RESP BRLE NO MDI STATUS - DRIVER ERROR .MFUR RESP BRLE UNABLE TO RESET INTERFACE - DRIVER ERROR .MDIO RESP BRLE MDI INOPERATIVE - DRIVER ERROR .NPCE RESP BRNA NPU CHANNEL ERROR - NO ACTION .MFCE RESP BRLE MDI CHANNEL ERROR - DRIVER ERROR .BPCE RESP BRNA BLOCK PROTOCOL ERROR - NO ACTION .ESTO RESP BRNA EST TURNED OFF - NO ACTION .RGZR RESP BRAE LEVEL ZERO RESPONSE - APPLICATION ERROR .LAST SET * LOC BHS13RT+.LAST BHS14RT SPACE 2,10 BHS14RT BSS 0 STATE 14 - WAIT REGULATION ZERO RESPONSE .STATE SET BHS14 LOC 0 .IDAT RESP BRLE INPUT DATA - DRIVER ERROR .IBCK RESP BRLE INPUT BACK - DRIVER ERROR .ICMD RESP BRLE INPUT COMMAND - DRIVER ERROR .ITXT RESP BRLE INPUT TEXT - DRIVER ERROR .INTX RESP BRLE INPUT NULL TEXT - DRIVER ERROR .IICM RESP BRLE INPUT ICMD - DRIVER ERROR .IICR RESP BRLE INPUT ICMD RESPONSE - DRIVER ERROR .IL7Q RESP BRLE INPUT Q-MESSAGE - DRIVER ERROR .ODAT RESP BRLE OUTPUT DATA - DRIVER ERROR .OBCK RESP BRLE OUTPUT BACK - DRIVER ERROR .OCMD RESP BRLE OUTPUT COMMAND - DRIVER ERROR .OTXT RESP BRLE OUTPUT TEXT - DRIVER ERROR .OICM RESP BRLE OUTPUT ICMD - DRIVER ERROR .OICR RESP BRLE OUTPUT ICMD RESPONSE - DRIVER ERROR .ORST RESP BRLE OUTPUT RESET - DRIVER ERROR .OL7Q RESP BRLE OUTPUT Q-MESSAGE - DRIVER ERROR .CMPT RESP BRBO PASS THROUGH COMMAND - BYPASS COMMAND .LDNP RESP BRCE LOAD NPU - GENERATE ERROR RESPONSE .STNP RESP BRCE START NPU - GENERATE ERROR RESPONSE .CGRL RESP BRBO CHANGE REGULATION - BYPASS COMMAND .PRCM RESP BRLE PROCESS COMMAND - DRIVER ERROR .NPOP RESP BRLE NPU OPERATIONAL - DRIVER ERROR .NPRI RESP BRNA NPU INITIALIZATION REQUEST - NO ACTION .NPIC RESP BRNA NPU INITIALIZED - NO ACTION .NPTO RESP BRNA NPU TIMEOUT - NO ACTION .BLTO RESP BRLE BOOTSTRAP LOAD TIMEOUT - DRIVER ERROR .MDRD RESP BRLE MDI IN DIAGNOSTIC STATE - DRIVER ERROR .MDAV RESP BRLE MDI AVAILABLE - DRIVER ERROR .MFOP RESP BRLE MDI OPERATIONAL - DRIVER ERROR .MPAC RESP BRLE PACER EQUIPMENT - DRIVER ERROR .MCPM RESP BRLE MDI PROTOCOL MISMATCH - DRIVER ERROR .MDRL RESP BRLE MDI RELEASED - DRIVER ERROR .MFNS RESP BRLE NO MDI STATUS - DRIVER ERROR .MFUR RESP BRLE UNABLE TO RESET INTERFACE - DRIVER ERROR .MDIO RESP BRLE MDI INOPERATIVE - DRIVER ERROR .NPCE RESP BRNA NPU CHANNEL ERROR - NO ACTION .MFCE RESP BRLE MDI CHANNEL ERROR - DRIVER ERROR .BPCE RESP BRNA BLOCK PROTOCOL ERROR - NO ACTION .ESTO RESP BRNA EST TURNED OFF - NO ACTION .RGZR RESP BRBO,BHS15 LEVEL ZERO RESPONSE - CHANGE STATE .LAST SET * LOC BHS14RT+.LAST BHS15RT SPACE 2,10 BHS15RT BSS 0 STATE 15 - ISSUE FRONT END TURNED OFF .STATE SET BHS15 LOC 0 .IDAT RESP BRLE INPUT DATA - DRIVER ERROR .IBCK RESP BRLE INPUT BACK - DRIVER ERROR .ICMD RESP BRLE INPUT COMMAND - DRIVER ERROR .ITXT RESP BRLE INPUT TEXT - DRIVER ERROR .INTX RESP BRLE INPUT NULL TEXT - DRIVER ERROR .IICM RESP BRLE INPUT ICMD - DRIVER ERROR .IICR RESP BRLE INPUT ICMD RESPONSE - DRIVER ERROR .IL7Q RESP BRLE INPUT Q-MESSAGE - DRIVER ERROR .ODAT RESP BRLE OUTPUT DATA - DRIVER ERROR .OBCK RESP BRLE OUTPUT BACK - DRIVER ERROR .OCMD RESP BRLE OUTPUT COMMAND - DRIVER ERROR .OTXT RESP BRLE OUTPUT TEXT - DRIVER ERROR .OICM RESP BRLE OUTPUT ICMD - DRIVER ERROR .OICR RESP BRLE OUTPUT ICMD RESPONSE - DRIVER ERROR .ORST RESP BRLE OUTPUT RESET - DRIVER ERROR .OL7Q RESP BRLE OUTPUT Q-MESSAGE - DRIVER ERROR .CMPT RESP BRBO PASS THROUGH COMMAND - BYPASS COMMAND .LDNP RESP BRCE LOAD NPU - GENERATE ERROR RESPONSE .STNP RESP BRCE START NPU - GENERATE ERROR RESPONSE .CGRL RESP BRBO CHANGE REGULATION - BYPASS COMMAND .PRCM RESP BRCO PROCESS COMMAND - PROCESS COMMAND .NPOP RESP BRLE NPU OPERATIONAL - DRIVER ERROR .NPRI RESP BRNA NPU INITIALIZATION REQUEST - NO ACTION .NPIC RESP BRNA NPU INITIALIZED - NO ACTION .NPTO RESP BRNA NPU TIMEOUT - NO ACTION .BLTO RESP BRLE BOOTSTRAP LOAD TIMEOUT - DRIVER ERROR .MDRD RESP BRLE MDI IN DIAGNOSTIC STATE - DRIVER ERROR .MDAV RESP BRLE MDI AVAILABLE - DRIVER ERROR .MFOP RESP BRLE MDI OPERATIONAL - DRIVER ERROR .MPAC RESP BRLE PACER EQUIPMENT - DRIVER ERROR .MCPM RESP BRLE MDI PROTOCOL MISMATCH - DRIVER ERROR .MDRL RESP BRLE MDI RELEASED - DRIVER ERROR .MFNS RESP BRLE NO MDI STATUS - DRIVER ERROR .MFUR RESP BRLE UNABLE TO RESET INTERFACE - DRIVER ERROR .MDIO RESP BRLE MDI INOPERATIVE - DRIVER ERROR .NPCE RESP BRNA NPU CHANNEL ERROR - NO ACTION .MFCE RESP BRNA MDI CHANNEL ERROR - NO ACTION .BPCE RESP BRNA BLOCK PROTOCOL ERROR - NO ACTION .ESTO RESP BRNA EST TURNED OFF - NO ACTION .RGZR RESP BRAE LEVEL ZERO RESPONSE - APPLICATION ERROR .LAST SET * LOC BHS15RT+.LAST BHS16RT SPACE 2,10 BHS16RT BSS 0 STATE 16 - BOOTSTRAP LOAD TIMEOUT .STATE SET BHS16 LOC 0 .IDAT RESP BRLE INPUT DATA - DRIVER ERROR .IBCK RESP BRLE INPUT BACK - DRIVER ERROR .ICMD RESP BRLE INPUT COMMAND - DRIVER ERROR .ITXT RESP BRLE INPUT TEXT - DRIVER ERROR .INTX RESP BRLE INPUT NULL TEXT - DRIVER ERROR .IICM RESP BRLE INPUT ICMD - DRIVER ERROR .IICR RESP BRLE INPUT ICMD RESPONSE - DRIVER ERROR .IL7Q RESP BRLE INPUT Q-MESSAGE - DRIVER ERROR .ODAT RESP BRLE OUTPUT DATA - DRIVER ERROR .OBCK RESP BRLE OUTPUT BACK - DRIVER ERROR .OCMD RESP BRLE OUTPUT COMMAND - DRIVER ERROR .OTXT RESP BRLE OUTPUT TEXT - DRIVER ERROR .OICM RESP BRLE OUTPUT ICMD - DRIVER ERROR .OICR RESP BRLE OUTPUT ICMD RESPONSE - DRIVER ERROR .ORST RESP BRLE OUTPUT RESET - DRIVER ERROR .OL7Q RESP BRLE OUTPUT Q-MESSAGE - DRIVER ERROR .CMPT RESP BRBO PASS THROUGH COMMAND - BYPASS COMMAND .LDNP RESP BRCE LOAD NPU - GENERATE ERROR RESPONSE .STNP RESP BRCE START NPU - GENERATE ERROR RESPONSE .CGRL RESP BRBO CHANGE REGULATION - BYPASS COMMAND .PRCM RESP BRCO,BHS8 PROCESS COMMAND - PROCESS COMMAND .NPOP RESP BRLE NPU OPERATIONAL - DRIVER ERROR .NPRI RESP BRIL NPU INITIALIZATION REQUEST - PROTOCOL ERROR .NPIC RESP BRNA NPU INITIALIZED - NO ACTION .NPTO RESP BRNA NPU TIMEOUT - NO ACTION .BLTO RESP BRLE BOOTSTRAP LOAD TIMEOUT - DRIVER ERROR .MDRD RESP BRLE MDI IN DIAGNOSTIC STATE - DRIVER ERROR .MDAV RESP BRLE MDI AVAILABLE - DRIVER ERROR .MFOP RESP BRLE MDI OPERATIONAL - DRIVER ERROR .MPAC RESP BRLE PACER EQUIPMENT - DRIVER ERROR .MCPM RESP BRLE MDI PROTOCOL MISMATCH - DRIVER ERROR .MDRL RESP BRLE MDI RELEASED - DRIVER ERROR .MFNS RESP BRLE NO MDI STATUS - DRIVER ERROR .MFUR RESP BRLE UNABLE TO RESET INTERFACE - DRIVER ERROR .MDIO RESP BRLE MDI INOPERATIVE - DRIVER ERROR .NPCE RESP BRNA NPU CHANNEL ERROR - NO ACTION .MFCE RESP BRLE MDI CHANNEL ERROR - DRIVER ERROR .BPCE RESP BRNA BLOCK PROTOCOL ERROR - NO ACTION .ESTO RESP BRNA EST TURNED OFF - NO ACTION .RGZR RESP BRAE LEVEL ZERO RESPONSE - APPLICATION ERROR .LAST SET * LOC BHS16RT+.LAST BHS17RT SPACE 2,10 BHS17RT BSS 0 STATE 17 - ISSUE REGULATION LEVEL ZERO .STATE SET BHS17 LOC 0 .IDAT RESP BRLE INPUT DATA - DRIVER ERROR .IBCK RESP BRLE INPUT BACK - DRIVER ERROR .ICMD RESP BRLE INPUT COMMAND - DRIVER ERROR .ITXT RESP BRLE INPUT TEXT - DRIVER ERROR .INTX RESP BRLE INPUT NULL TEXT - DRIVER ERROR .IICM RESP BRLE INPUT ICMD - DRIVER ERROR .IICR RESP BRLE INPUT ICMD RESPONSE - DRIVER ERROR .IL7Q RESP BRLE INPUT Q-MESSAGE - DRIVER ERROR .ODAT RESP BRLE OUTPUT DATA - DRIVER ERROR .OBCK RESP BRLE OUTPUT BACK - DRIVER ERROR .OCMD RESP BRLE OUTPUT COMMAND - DRIVER ERROR .OTXT RESP BRLE OUTPUT TEXT - DRIVER ERROR .OICM RESP BRLE OUTPUT ICMD - DRIVER ERROR .OICR RESP BRLE OUTPUT ICMD RESPONSE - DRIVER ERROR .ORST RESP BRLE OUTPUT RESET - DRIVER ERROR .OL7Q RESP BRLE OUTPUT Q-MESSAGE - DRIVER ERROR .CMPT RESP BRBO PASS THROUGH COMMAND - BYPASS COMMAND .LDNP RESP BRCE LOAD NPU - GENERATE ERROR RESPONSE .STNP RESP BRCE START NPU - GENERATE ERROR RESPONSE .CGRL RESP BRBO CHANGE REGULATION - BYPASS COMMAND .PRCM RESP BRCO,BHS18 PROCESS COMMAND - PROCESS COMMAND .NPOP RESP BRLE NPU OPERATIONAL - DRIVER ERROR .NPRI RESP BRNA NPU INITIALIZATION REQUEST - NO ACTION .NPIC RESP BRNA NPU INITIALIZED - NO ACTION .NPTO RESP BRNA NPU TIMEOUT - NO ACTION .BLTO RESP BRLE BOOTSTRAP LOAD TIMEOUT - DRIVER ERROR .MDRD RESP BRLE MDI IN DIAGNOSTIC STATE - DRIVER ERROR .MDAV RESP BRLE MDI AVAILABLE - DRIVER ERROR .MFOP RESP BRLE MDI OPERATIONAL - DRIVER ERROR .MPAC RESP BRLE PACER EQUIPMENT - DRIVER ERROR .MCPM RESP BRLE MDI PROTOCOL MISMATCH - DRIVER ERROR .MDRL RESP BRLE MDI RELEASED - DRIVER ERROR .MFNS RESP BRLE NO MDI STATUS - DRIVER ERROR .MFUR RESP BRLE UNABLE TO RESET INTERFACE - DRIVER ERROR .MDIO RESP BRLE MDI INOPERATIVE - DRIVER ERROR .NPCE RESP BRNA NPU CHANNEL ERROR - NO ACTION .MFCE RESP BRLE MDI CHANNEL ERROR - DRIVER ERROR .BPCE RESP BRNA BLOCK PROTOCOL ERROR - NO ACTION .ESTO RESP BRNA EST TURNED OFF - NO ACTION .RGZR RESP BRAE LEVEL ZERO RESPONSE - APPLICATION ERROR .LAST SET * LOC BHS17RT+.LAST BHS18RT SPACE 2,10 BHS18RT BSS 0 STATE 18 - WAIT REGULATION ZERO RESPONSE .STATE SET BHS18 LOC 0 .IDAT RESP BRLE INPUT DATA - DRIVER ERROR .IBCK RESP BRLE INPUT BACK - DRIVER ERROR .ICMD RESP BRLE INPUT COMMAND - DRIVER ERROR .ITXT RESP BRLE INPUT TEXT - DRIVER ERROR .INTX RESP BRLE INPUT NULL TEXT - DRIVER ERROR .IICM RESP BRLE INPUT ICMD - DRIVER ERROR .IICR RESP BRLE INPUT ICMD RESPONSE - DRIVER ERROR .IL7Q RESP BRLE INPUT Q-MESSAGE - DRIVER ERROR .ODAT RESP BRLE OUTPUT DATA - DRIVER ERROR .OBCK RESP BRLE OUTPUT BACK - DRIVER ERROR .OCMD RESP BRLE OUTPUT COMMAND - DRIVER ERROR .OTXT RESP BRLE OUTPUT TEXT - DRIVER ERROR .OICM RESP BRLE OUTPUT ICMD - DRIVER ERROR .OICR RESP BRLE OUTPUT ICMD RESPONSE - DRIVER ERROR .ORST RESP BRLE OUTPUT RESET - DRIVER ERROR .OL7Q RESP BRLE OUTPUT Q-MESSAGE - DRIVER ERROR .CMPT RESP BRBO PASS THROUGH COMMAND - BYPASS COMMAND .LDNP RESP BRCE LOAD NPU - GENERATE ERROR RESPONSE .STNP RESP BRCE START NPU - GENERATE ERROR RESPONSE .CGRL RESP BRBO CHANGE REGULATION - BYPASS COMMAND .PRCM RESP BRLE PROCESS COMMAND - DRIVER ERROR .NPOP RESP BRLE NPU OPERATIONAL - DRIVER ERROR .NPRI RESP BRNA NPU INITIALIZATION REQUEST - NO ACTION .NPIC RESP BRNA NPU INITIALIZED - NO ACTION .NPTO RESP BRNA NPU TIMEOUT - NO ACTION .BLTO RESP BRLE BOOTSTRAP LOAD TIMEOUT - DRIVER ERROR .MDRD RESP BRLE MDI IN DIAGNOSTIC STATE - DRIVER ERROR .MDAV RESP BRLE MDI AVAILABLE - DRIVER ERROR .MFOP RESP BRLE MDI OPERATIONAL - DRIVER ERROR .MPAC RESP BRLE PACER EQUIPMENT - DRIVER ERROR .MCPM RESP BRLE MDI PROTOCOL MISMATCH - DRIVER ERROR .MDRL RESP BRLE MDI RELEASED - DRIVER ERROR .MFNS RESP BRLE NO MDI STATUS - DRIVER ERROR .MFUR RESP BRLE UNABLE TO RESET INTERFACE - DRIVER ERROR .MDIO RESP BRLE MDI INOPERATIVE - DRIVER ERROR .NPCE RESP BRNA NPU CHANNEL ERROR - NO ACTION .MFCE RESP BRLE MDI CHANNEL ERROR - DRIVER ERROR .BPCE RESP BRNA BLOCK PROTOCOL ERROR - NO ACTION .ESTO RESP BRNA EST TURNED OFF - NO ACTION .RGZR RESP BRBO,BHS5 LEVEL ZERO RESPONSE - CHANGE STATE .LAST SET * LOC BHS18RT+.LAST BHS19RT SPACE 2,10 BHS19RT BSS 0 STATE 19 - ISSUE REGULATION LEVEL ZERO .STATE SET BHS19 LOC 0 .IDAT RESP BRLE INPUT DATA - DRIVER ERROR .IBCK RESP BRLE INPUT BACK - DRIVER ERROR .ICMD RESP BRLE INPUT COMMAND - DRIVER ERROR .ITXT RESP BRLE INPUT TEXT - DRIVER ERROR .INTX RESP BRLE INPUT NULL TEXT - DRIVER ERROR .IICM RESP BRLE INPUT ICMD - DRIVER ERROR .IICR RESP BRLE INPUT ICMD RESPONSE - DRIVER ERROR .IL7Q RESP BRLE INPUT Q-MESSAGE - DRIVER ERROR .ODAT RESP BRLE OUTPUT DATA - DRIVER ERROR .OBCK RESP BRLE OUTPUT BACK - DRIVER ERROR .OCMD RESP BRLE OUTPUT COMMAND - DRIVER ERROR .OTXT RESP BRLE OUTPUT TEXT - DRIVER ERROR .OICM RESP BRLE OUTPUT ICMD - DRIVER ERROR .OICR RESP BRLE OUTPUT ICMD RESPONSE - DRIVER ERROR .ORST RESP BRLE OUTPUT RESET - DRIVER ERROR .OL7Q RESP BRLE OUTPUT Q-MESSAGE - DRIVER ERROR .CMPT RESP BRBO PASS THROUGH COMMAND - BYPASS COMMAND .LDNP RESP BRCE LOAD NPU - GENERATE ERROR RESPONSE .STNP RESP BRCE START NPU - GENERATE ERROR RESPONSE .CGRL RESP BRBO CHANGE REGULATION - BYPASS COMMAND .PRCM RESP BRCO,BHS20 PROCESS COMMAND - PROCESS COMMAND .NPOP RESP BRLE NPU OPERATIONAL - DRIVER ERROR .NPRI RESP BRNA NPU INITIALIZATION REQUEST - NO ACTION .NPIC RESP BRNA NPU INITIALIZED - NO ACTION .NPTO RESP BRNA NPU TIMEOUT - NO ACTION .BLTO RESP BRLE BOOTSTRAP LOAD TIMEOUT - DRIVER ERROR .MDRD RESP BRLE MDI IN DIAGNOSTIC STATE - DRIVER ERROR .MDAV RESP BRLE MDI AVAILABLE - DRIVER ERROR .MFOP RESP BRLE MDI OPERATIONAL - DRIVER ERROR .MPAC RESP BRLE PACER EQUIPMENT - DRIVER ERROR .MCPM RESP BRLE MDI PROTOCOL MISMATCH - DRIVER ERROR .MDRL RESP BRLE MDI RELEASED - DRIVER ERROR .MFNS RESP BRLE NO MDI STATUS - DRIVER ERROR .MFUR RESP BRLE UNABLE TO RESET INTERFACE - DRIVER ERROR .MDIO RESP BRLE MDI INOPERATIVE - DRIVER ERROR .NPCE RESP BRNA NPU CHANNEL ERROR - NO ACTION .MFCE RESP BRLE MDI CHANNEL ERROR - DRIVER ERROR .BPCE RESP BRNA BLOCK PROTOCOL ERROR - NO ACTION .ESTO RESP BRNA EST TURNED OFF - NO ACTION .RGZR RESP BRAE LEVEL ZERO RESPONSE - APPLICATION ERROR .LAST SET * LOC BHS19RT+.LAST BHS20RT SPACE 2,10 BHS20RT BSS 0 STATE 20 - WAIT REGULATION ZERO RESPONSE .STATE SET BHS20 LOC 0 .IDAT RESP BRLE INPUT DATA - DRIVER ERROR .IBCK RESP BRLE INPUT BACK - DRIVER ERROR .ICMD RESP BRLE INPUT COMMAND - DRIVER ERROR .ITXT RESP BRLE INPUT TEXT - DRIVER ERROR .INTX RESP BRLE INPUT NULL TEXT - DRIVER ERROR .IICM RESP BRLE INPUT ICMD - DRIVER ERROR .IICR RESP BRLE INPUT ICMD RESPONSE - DRIVER ERROR .IL7Q RESP BRLE INPUT Q-MESSAGE - DRIVER ERROR .ODAT RESP BRLE OUTPUT DATA - DRIVER ERROR .OBCK RESP BRLE OUTPUT BACK - DRIVER ERROR .OCMD RESP BRLE OUTPUT COMMAND - DRIVER ERROR .OTXT RESP BRLE OUTPUT TEXT - DRIVER ERROR .OICM RESP BRLE OUTPUT ICMD - DRIVER ERROR .OICR RESP BRLE OUTPUT ICMD RESPONSE - DRIVER ERROR .ORST RESP BRLE OUTPUT RESET - DRIVER ERROR .OL7Q RESP BRLE OUTPUT Q-MESSAGE - DRIVER ERROR .CMPT RESP BRBO PASS THROUGH COMMAND - BYPASS COMMAND .LDNP RESP BRCE LOAD NPU - GENERATE ERROR RESPONSE .STNP RESP BRCE START NPU - GENERATE ERROR RESPONSE .CGRL RESP BRBO CHANGE REGULATION - BYPASS COMMAND .PRCM RESP BRLE PROCESS COMMAND - DRIVER ERROR .NPOP RESP BRLE NPU OPERATIONAL - DRIVER ERROR .NPRI RESP BRNA NPU INITIALIZATION REQUEST - NO ACTION .NPIC RESP BRNA NPU INITIALIZED - NO ACTION .NPTO RESP BRNA NPU TIMEOUT - NO ACTION .BLTO RESP BRLE BOOTSTRAP LOAD TIMEOUT - DRIVER ERROR .MDRD RESP BRLE MDI IN DIAGNOSTIC STATE - DRIVER ERROR .MDAV RESP BRLE MDI AVAILABLE - DRIVER ERROR .MFOP RESP BRLE MDI OPERATIONAL - DRIVER ERROR .MPAC RESP BRLE PACER EQUIPMENT - DRIVER ERROR .MCPM RESP BRLE MDI PROTOCOL MISMATCH - DRIVER ERROR .MDRL RESP BRLE MDI RELEASED - DRIVER ERROR .MFNS RESP BRLE NO MDI STATUS - DRIVER ERROR .MFUR RESP BRLE UNABLE TO RESET INTERFACE - DRIVER ERROR .MDIO RESP BRLE MDI INOPERATIVE - DRIVER ERROR .NPCE RESP BRNA NPU CHANNEL ERROR - NO ACTION .MFCE RESP BRLE MDI CHANNEL ERROR - DRIVER ERROR .BPCE RESP BRNA BLOCK PROTOCOL ERROR - NO ACTION .ESTO RESP BRNA EST TURNED OFF - NO ACTION .RGZR RESP BRBO,BHS7 LEVEL ZERO RESPONSE - CHANGE STATE .LAST SET * LOC BHS20RT+.LAST BHS21RT SPACE 2,10 BHS21RT BSS 0 STATE 21 - ISSUE REGULATION LEVEL ZERO .STATE SET BHS21 LOC 0 .IDAT RESP BRLE INPUT DATA - DRIVER ERROR .IBCK RESP BRLE INPUT BACK - DRIVER ERROR .ICMD RESP BRLE INPUT COMMAND - DRIVER ERROR .ITXT RESP BRLE INPUT TEXT - DRIVER ERROR .INTX RESP BRLE INPUT NULL TEXT - DRIVER ERROR .IICM RESP BRLE INPUT ICMD - DRIVER ERROR .IICR RESP BRLE INPUT ICMD RESPONSE - DRIVER ERROR .IL7Q RESP BRLE INPUT Q-MESSAGE - DRIVER ERROR .ODAT RESP BRLE OUTPUT DATA - DRIVER ERROR .OBCK RESP BRLE OUTPUT BACK - DRIVER ERROR .OCMD RESP BRLE OUTPUT COMMAND - DRIVER ERROR .OTXT RESP BRLE OUTPUT TEXT - DRIVER ERROR .OICM RESP BRLE OUTPUT ICMD - DRIVER ERROR .OICR RESP BRLE OUTPUT ICMD RESPONSE - DRIVER ERROR .ORST RESP BRLE OUTPUT RESET - DRIVER ERROR .OL7Q RESP BRLE OUTPUT Q-MESSAGE - DRIVER ERROR .CMPT RESP BRBO PASS THROUGH COMMAND - BYPASS COMMAND .LDNP RESP BRCE LOAD NPU - GENERATE ERROR RESPONSE .STNP RESP BRCE START NPU - GENERATE ERROR RESPONSE .CGRL RESP BRBO CHANGE REGULATION - BYPASS COMMAND .PRCM RESP BRCO,BHS22 PROCESS COMMAND - PROCESS COMMAND .NPOP RESP BRLE NPU OPERATIONAL - DRIVER ERROR .NPRI RESP BRLE NPU INITIALIZATION REQUEST - DRIVER ERROR .NPIC RESP BRLE NPU INITIALIZED - DRIVER ERROR .NPTO RESP BRLE NPU TIMEOUT - DRIVER ERROR .BLTO RESP BRLE BOOTSTRAP LOAD TIMEOUT - DRIVER ERROR .MDRD RESP BRNA MDI IN DIAGNOSTIC STATE - NO ACTION .MDAV RESP BRLE MDI AVAILABLE - DRIVER ERROR .MFOP RESP BRLE MDI OPERATIONAL - DRIVER ERROR .MPAC RESP BRLE PACER EQUIPMENT - DRIVER ERROR .MCPM RESP BRLE MDI PROTOCOL MISMATCH - DRIVER ERROR .MDRL RESP BRLE MDI RELEASED - DRIVER ERROR .MFNS RESP BRNA NO MDI STATUS - NO ACTION .MFUR RESP BRNA UNABLE TO RESET INTERFACE - NO ACTION .MDIO RESP BRNA MDI INOPERATIVE - NO ACTION .NPCE RESP BRLE NPU CHANNEL ERROR - DRIVER ERROR .MFCE RESP BRNA MDI CHANNEL ERROR - NO ACTION .BPCE RESP BRNA BLOCK PROTOCOL ERROR - NO ACTION .ESTO RESP BRNA EST TURNED OFF - NO ACTION .RGZR RESP BRAE LEVEL ZERO RESPONSE - APPLICATION ERROR .LAST SET * LOC BHS21RT+.LAST BHS22RT SPACE 2,10 BHS22RT BSS 0 STATE 22 - WAIT REGULATION ZERO RESPONSE .STATE SET BHS22 LOC 0 .IDAT RESP BRLE INPUT DATA - DRIVER ERROR .IBCK RESP BRLE INPUT BACK - DRIVER ERROR .ICMD RESP BRLE INPUT COMMAND - DRIVER ERROR .ITXT RESP BRLE INPUT TEXT - DRIVER ERROR .INTX RESP BRLE INPUT NULL TEXT - DRIVER ERROR .IICM RESP BRLE INPUT ICMD - DRIVER ERROR .IICR RESP BRLE INPUT ICMD RESPONSE - DRIVER ERROR .IL7Q RESP BRLE INPUT Q-MESSAGE - DRIVER ERROR .ODAT RESP BRLE OUTPUT DATA - DRIVER ERROR .OBCK RESP BRLE OUTPUT BACK - DRIVER ERROR .OCMD RESP BRLE OUTPUT COMMAND - DRIVER ERROR .OTXT RESP BRLE OUTPUT TEXT - DRIVER ERROR .OICM RESP BRLE OUTPUT ICMD - DRIVER ERROR .OICR RESP BRLE OUTPUT ICMD RESPONSE - DRIVER ERROR .ORST RESP BRLE OUTPUT RESET - DRIVER ERROR .OL7Q RESP BRLE OUTPUT Q-MESSAGE - DRIVER ERROR .CMPT RESP BRBO PASS THROUGH COMMAND - BYPASS COMMAND .LDNP RESP BRCE LOAD NPU - GENERATE ERROR RESPONSE .STNP RESP BRCE START NPU - GENERATE ERROR RESPONSE .CGRL RESP BRBO CHANGE REGULATION - BYPASS COMMAND .PRCM RESP BRLE PROCESS COMMAND - DRIVER ERROR .NPOP RESP BRLE NPU OPERATIONAL - DRIVER ERROR .NPRI RESP BRLE NPU INITIALIZATION REQUEST - DRIVER ERROR .NPIC RESP BRLE NPU INITIALIZED - DRIVER ERROR .NPTO RESP BRLE NPU TIMEOUT - DRIVER ERROR .BLTO RESP BRLE BOOTSTRAP LOAD TIMEOUT - DRIVER ERROR .MDRD RESP BRNA MDI IN DIAGNOSTIC STATE - NO ACTION .MDAV RESP BRLE MDI AVAILABLE - DRIVER ERROR .MFOP RESP BRLE MDI OPERATIONAL - DRIVER ERROR .MPAC RESP BRLE PACER EQUIPMENT - DRIVER ERROR .MCPM RESP BRLE MDI PROTOCOL MISMATCH - DRIVER ERROR .MDRL RESP BRLE MDI RELEASED - DRIVER ERROR .MFNS RESP BRNA NO MDI STATUS - NO ACTION .MFUR RESP BRNA UNABLE TO RESET INTERFACE - NO ACTION .MDIO RESP BRNA MDI INOPERATIVE - NO ACTION .NPCE RESP BRLE NPU CHANNEL ERROR - DRIVER ERROR .MFCE RESP BRNA MDI CHANNEL ERROR - NO ACTION .BPCE RESP BRNA BLOCK PROTOCOL ERROR - NO ACTION .ESTO RESP BRNA EST TURNED OFF - NO ACTION .RGZR RESP BRBO,BHS23 LEVEL ZERO RESPONSE - CHANGE STATE .LAST SET * LOC BHS22RT+.LAST BHS23RT SPACE 2,10 BHS23RT BSS 0 STATE 23 - REQUEST MDI INITIALIZATION .STATE SET BHS23 LOC 0 .IDAT RESP BRLE INPUT DATA - DRIVER ERROR .IBCK RESP BRLE INPUT BACK - DRIVER ERROR .ICMD RESP BRLE INPUT COMMAND - DRIVER ERROR .ITXT RESP BRLE INPUT TEXT - DRIVER ERROR .INTX RESP BRLE INPUT NULL TEXT - DRIVER ERROR .IICM RESP BRLE INPUT ICMD - DRIVER ERROR .IICR RESP BRLE INPUT ICMD RESPONSE - DRIVER ERROR .IL7Q RESP BRLE INPUT Q-MESSAGE - DRIVER ERROR .ODAT RESP BRLE OUTPUT DATA - DRIVER ERROR .OBCK RESP BRLE OUTPUT BACK - DRIVER ERROR .OCMD RESP BRLE OUTPUT COMMAND - DRIVER ERROR .OTXT RESP BRLE OUTPUT TEXT - DRIVER ERROR .OICM RESP BRLE OUTPUT ICMD - DRIVER ERROR .OICR RESP BRLE OUTPUT ICMD RESPONSE - DRIVER ERROR .ORST RESP BRLE OUTPUT RESET - DRIVER ERROR .OL7Q RESP BRLE OUTPUT Q-MESSAGE - DRIVER ERROR .CMPT RESP BRBO PASS THROUGH COMMAND - BYPASS COMMAND .LDNP RESP BRCE LOAD NPU - GENERATE ERROR RESPONSE .STNP RESP BRCE START NPU - GENERATE ERROR RESPONSE .CGRL RESP BRBO CHANGE REGULATION - BYPASS COMMAND .PRCM RESP BRCO,BHS24 PROCESS COMMAND - PROCESS COMMAND .NPOP RESP BRLE NPU OPERATIONAL - DRIVER ERROR .NPRI RESP BRLE NPU INITIALIZATION REQUEST - DRIVER ERROR .NPIC RESP BRLE NPU INITIALIZED - DRIVER ERROR .NPTO RESP BRLE NPU TIMEOUT - DRIVER ERROR .BLTO RESP BRLE BOOTSTRAP LOAD TIMEOUT - DRIVER ERROR .MDRD RESP BRNA MDI IN DIAGNOSTIC STATE - NO ACTION .MDAV RESP BRLE MDI AVAILABLE - DRIVER ERROR .MFOP RESP BRLE MDI OPERATIONAL - DRIVER ERROR .MPAC RESP BRLE PACER EQUIPMENT - DRIVER ERROR .MCPM RESP BRLE MDI PROTOCOL MISMATCH - DRIVER ERROR .MDRL RESP BRLE MDI RELEASED - DRIVER ERROR .MFNS RESP BRNA NO MDI STATUS - NO ACTION .MFUR RESP BRNA UNABLE TO RESET INTERFACE - NO ACTION .MDIO RESP BRNA MDI INOPERATIVE - NO ACTION .NPCE RESP BRLE NPU CHANNEL ERROR - DRIVER ERROR .MFCE RESP BRNA MDI CHANNEL ERROR - NO ACTION .BPCE RESP BRNA BLOCK PROTOCOL ERROR - NO ACTION .ESTO RESP BRNA EST TURNED OFF - NO ACTION .RGZR RESP BRAE LEVEL ZERO RESPONSE - APPLICATION ERROR .LAST SET * LOC BHS23RT+.LAST BHS24RT SPACE 2,10 BHS24RT BSS 0 STATE 24 - CHECK MDI AVAILABLE .STATE SET BHS24 LOC 0 .IDAT RESP BRLE INPUT DATA - DRIVER ERROR .IBCK RESP BRLE INPUT BACK - DRIVER ERROR .ICMD RESP BRLE INPUT COMMAND - DRIVER ERROR .ITXT RESP BRLE INPUT TEXT - DRIVER ERROR .INTX RESP BRLE INPUT NULL TEXT - DRIVER ERROR .IICM RESP BRLE INPUT ICMD - DRIVER ERROR .IICR RESP BRLE INPUT ICMD RESPONSE - DRIVER ERROR .IL7Q RESP BRLE INPUT Q-MESSAGE - DRIVER ERROR .ODAT RESP BRLE OUTPUT DATA - DRIVER ERROR .OBCK RESP BRLE OUTPUT BACK - DRIVER ERROR .OCMD RESP BRLE OUTPUT COMMAND - DRIVER ERROR .OTXT RESP BRLE OUTPUT TEXT - DRIVER ERROR .OICM RESP BRLE OUTPUT ICMD - DRIVER ERROR .OICR RESP BRLE OUTPUT ICMD RESPONSE - DRIVER ERROR .ORST RESP BRLE OUTPUT RESET - DRIVER ERROR .OL7Q RESP BRLE OUTPUT Q-MESSAGE - DRIVER ERROR .CMPT RESP BRBO PASS THROUGH COMMAND - BYPASS COMMAND .LDNP RESP BRCE LOAD NPU - GENERATE ERROR RESPONSE .STNP RESP BRCE START NPU - GENERATE ERROR RESPONSE .CGRL RESP BRBO CHANGE REGULATION - BYPASS COMMAND .PRCM RESP BRLE PROCESS COMMAND - DRIVER ERROR .NPOP RESP BRLE NPU OPERATIONAL - DRIVER ERROR .NPRI RESP BRLE NPU INITIALIZATION REQUEST - DRIVER ERROR .NPIC RESP BRLE NPU INITIALIZED - DRIVER ERROR .NPTO RESP BRLE NPU TIMEOUT - DRIVER ERROR .BLTO RESP BRLE BOOTSTRAP LOAD TIMEOUT - DRIVER ERROR .MDRD RESP BRLE MDI IN DIAGNOSTIC STATE - DRIVER ERROR .MDAV RESP BRNA,BHS4 MDI AVAILABLE - CHANGE STATE .MFOP RESP BRLE MDI OPERATIONAL - DRIVER ERROR .MPAC RESP BRLE PACER EQUIPMENT - DRIVER ERROR .MCPM RESP BRLE MDI PROTOCOL MISMATCH - DRIVER ERROR .MDRL RESP BRLE MDI RELEASED - DRIVER ERROR .MFNS RESP BRLE NO MDI STATUS - DRIVER ERROR .MFUR RESP BRLE UNABLE TO RESET INTERFACE - DRIVER ERROR .MDIO RESP BRLE MDI INOPERATIVE - DRIVER ERROR .NPCE RESP BRLE NPU CHANNEL ERROR - DRIVER ERROR .MFCE RESP BRLE MDI CHANNEL ERROR - DRIVER ERROR .BPCE RESP BRLE BLOCK PROTOCOL ERROR - DRIVER ERROR .ESTO RESP BRNA,BHS13 EST TURNED OFF - CHANGE STATE .RGZR RESP BRAE LEVEL ZERO RESPONSE - APPLICATION ERROR .LAST SET * LOC BHS24RT+.LAST BHS25RT SPACE 2,10 BHS25RT BSS 0 STATE 25 - RELEASE MDI .STATE SET BHS25 LOC 0 .IDAT RESP BRLE INPUT DATA - DRIVER ERROR .IBCK RESP BRLE INPUT BACK - DRIVER ERROR .ICMD RESP BRLE INPUT COMMAND - DRIVER ERROR .ITXT RESP BRLE INPUT TEXT - DRIVER ERROR .INTX RESP BRLE INPUT NULL TEXT - DRIVER ERROR .IICM RESP BRLE INPUT ICMD - DRIVER ERROR .IICR RESP BRLE INPUT ICMD RESPONSE - DRIVER ERROR .IL7Q RESP BRLE INPUT Q-MESSAGE - DRIVER ERROR .ODAT RESP BRLE OUTPUT DATA - DRIVER ERROR .OBCK RESP BRLE OUTPUT BACK - DRIVER ERROR .OCMD RESP BRLE OUTPUT COMMAND - DRIVER ERROR .OTXT RESP BRLE OUTPUT TEXT - DRIVER ERROR .OICM RESP BRLE OUTPUT ICMD - DRIVER ERROR .OICR RESP BRLE OUTPUT ICMD RESPONSE - DRIVER ERROR .ORST RESP BRLE OUTPUT RESET - DRIVER ERROR .OL7Q RESP BRLE OUTPUT Q-MESSAGE - DRIVER ERROR .CMPT RESP BRBO PASS THROUGH COMMAND - BYPASS COMMAND .LDNP RESP BRCE LOAD NPU - GENERATE ERROR RESPONSE .STNP RESP BRCE START NPU - GENERATE ERROR RESPONSE .CGRL RESP BRBO CHANGE REGULATION - BYPASS COMMAND .PRCM RESP BRLE PROCESS COMMAND - DRIVER ERROR .NPOP RESP BRLE NPU OPERATIONAL - DRIVER ERROR .NPRI RESP BRLE NPU INITIALIZATION REQUEST - DRIVER ERROR .NPIC RESP BRLE NPU INITIALIZED - DRIVER ERROR .NPTO RESP BRLE NPU TIMEOUT - DRIVER ERROR .BLTO RESP BRLE BOOTSTRAP LOAD TIMEOUT - DRIVER ERROR .MDRD RESP BRNA MDI IN DIAGNOSTIC STATE - NO ACTION ERROR .MDAV RESP BRLE MDI AVAILABLE - DRIVER ERROR .MFOP RESP BRLE MDI OPERATIONAL - DRIVER ERROR .MPAC RESP BRLE PACER EQUIPMENT - DRIVER ERROR .MCPM RESP BRLE MDI PROTOCOL MISMATCH - DRIVER ERROR .MDRL RESP BRNA,BHS24 MDI RELEASED - CHANGE STATE .MFNS RESP BRNA NO MDI STATUS - NO ACTION .MFUR RESP BRNA UNABLE TO RESET INTERFACE - NO ACTION .MDIO RESP BRNA MDI INOPERATIVE - NO ACTION .NPCE RESP BRLE NPU CHANNEL ERROR - DRIVER ERROR .MFCE RESP BRNA MDI CHANNEL ERROR - NO ACTION .BPCE RESP BRNA BLOCK PROTOCOL ERROR - NO ACTION .ESTO RESP BRNA EST TURNED OFF - NO ACTION .RGZR RESP BRAE LEVEL ZERO RESPONSE - APPLICATION ERROR .LAST SET * LOC BHS25RT+.LAST BHS26RT SPACE 2,10 BHS26RT BSS 0 STATE 26 - ISSUE CE ERROR MESSAGE .STATE SET BHS26 LOC 0 .IDAT RESP BRLE INPUT DATA - DRIVER ERROR .IBCK RESP BRLE INPUT BACK - DRIVER ERROR .ICMD RESP BRLE INPUT COMMAND - DRIVER ERROR .ITXT RESP BRLE INPUT TEXT - DRIVER ERROR .INTX RESP BRLE INPUT NULL TEXT - DRIVER ERROR .IICM RESP BRLE INPUT ICMD - DRIVER ERROR .IICR RESP BRLE INPUT ICMD RESPONSE - DRIVER ERROR .IL7Q RESP BRLE INPUT Q-MESSAGE - DRIVER ERROR .ODAT RESP BRLE OUTPUT DATA - DRIVER ERROR .OBCK RESP BRLE OUTPUT BACK - DRIVER ERROR .OCMD RESP BRLE OUTPUT COMMAND - DRIVER ERROR .OTXT RESP BRLE OUTPUT TEXT - DRIVER ERROR .OICM RESP BRLE OUTPUT ICMD - DRIVER ERROR .OICR RESP BRLE OUTPUT ICMD RESPONSE - DRIVER ERROR .ORST RESP BRLE OUTPUT RESET - DRIVER ERROR .OL7Q RESP BRLE OUTPUT Q-MESSAGE - DRIVER ERROR .CMPT RESP BRBO PASS THROUGH COMMAND - BYPASS COMMAND .LDNP RESP BRCE LOAD NPU - GENERATE ERROR RESPONSE .STNP RESP BRCE START NPU - GENERATE ERROR RESPONSE .CGRL RESP BRBO CHANGE REGULATION - BYPASS COMMAND .PRCM RESP BRCO,BHS0 PROCESS COMMAND - PROCESS COMMAND .NPOP RESP BRLE NPU OPERATIONAL - DRIVER ERROR .NPRI RESP BRLE NPU INITIALIZATION REQUEST - DRIVER ERROR .NPIC RESP BRLE NPU INITIALIZED - DRIVER ERROR .NPTO RESP BRLE NPU TIMEOUT - DRIVER ERROR .BLTO RESP BRLE BOOTSTRAP LOAD TIMEOUT - DRIVER ERROR .MDRD RESP BRNA MDI IN DIAGNOSTIC STATE - NO ACTION ERROR .MDAV RESP BRLE MDI AVAILABLE - DRIVER ERROR .MFOP RESP BRLE MDI OPERATIONAL - DRIVER ERROR .MPAC RESP BRLE PACER EQUIPMENT - DRIVER ERROR .MCPM RESP BRLE MDI PROTOCOL MISMATCH - DRIVER ERROR .MDRL RESP BRLE MDI RELEASED - DRIVER ERROR .MFNS RESP BRNA NO MDI STATUS - NO ACTION .MFUR RESP BRNA UNABLE TO RESET INTERFACE - NO ACTION .MDIO RESP BRNA MDI INOPERATIVE - NO ACTION .NPCE RESP BRLE NPU CHANNEL ERROR - DRIVER ERROR .MFCE RESP BRNA MDI CHANNEL ERROR - NO ACTION .BPCE RESP BRNA BLOCK PROTOCOL ERROR - NO ACTION .ESTO RESP BRNA EST TURNED OFF - NO ACTION .RGZR RESP BRAE LEVEL ZERO RESPONSE - APPLICATION ERROR .LAST SET * LOC BHS26RT+.LAST BHS27RT SPACE 2,10 BHS27RT BSS 0 STATE 27 - ISSUE CE ERROR MESSAGE .STATE SET BHS27 LOC 0 .IDAT RESP BRLE INPUT DATA - DRIVER ERROR .IBCK RESP BRLE INPUT BACK - DRIVER ERROR .ICMD RESP BRLE INPUT COMMAND - DRIVER ERROR .ITXT RESP BRLE INPUT TEXT - DRIVER ERROR .INTX RESP BRLE INPUT NULL TEXT - DRIVER ERROR .IICM RESP BRLE INPUT ICMD - DRIVER ERROR .IICR RESP BRLE INPUT ICMD RESPONSE - DRIVER ERROR .IL7Q RESP BRLE INPUT Q-MESSAGE - DRIVER ERROR .ODAT RESP BRLE OUTPUT DATA - DRIVER ERROR .OBCK RESP BRLE OUTPUT BACK - DRIVER ERROR .OCMD RESP BRLE OUTPUT COMMAND - DRIVER ERROR .OTXT RESP BRLE OUTPUT TEXT - DRIVER ERROR .OICM RESP BRLE OUTPUT ICMD - DRIVER ERROR .OICR RESP BRLE OUTPUT ICMD RESPONSE - DRIVER ERROR .ORST RESP BRLE OUTPUT RESET - DRIVER ERROR .OL7Q RESP BRLE OUTPUT Q-MESSAGE - DRIVER ERROR .CMPT RESP BRBO PASS THROUGH COMMAND - BYPASS COMMAND .LDNP RESP BRCE LOAD NPU - GENERATE ERROR RESPONSE .STNP RESP BRCE START NPU - GENERATE ERROR RESPONSE .CGRL RESP BRBO CHANGE REGULATION - BYPASS COMMAND .PRCM RESP BRCO,BHS4 PROCESS COMMAND - PROCESS COMMAND .NPOP RESP BRLE NPU OPERATIONAL - DRIVER ERROR .NPRI RESP BRLE NPU INITIALIZATION REQUEST - DRIVER ERROR .NPIC RESP BRLE NPU INITIALIZED - DRIVER ERROR .NPTO RESP BRLE NPU TIMEOUT - DRIVER ERROR .BLTO RESP BRLE BOOTSTRAP LOAD TIMEOUT - DRIVER ERROR .MDRD RESP BRNA MDI IN DIAGNOSTIC STATE - NO ACTION .MDAV RESP BRLE MDI AVAILABLE - DRIVER ERROR .MFOP RESP BRLE MDI OPERATIONAL - DRIVER ERROR .MPAC RESP BRLE PACER EQUIPMENT - DRIVER ERROR .MCPM RESP BRLE MDI PROTOCOL MISMATCH - DRIVER ERROR .MDRL RESP BRLE MDI RELEASED - DRIVER ERROR .MFNS RESP BRNA NO MDI STATUS - NO ACTION .MFUR RESP BRNA UNABLE TO RESET INTERFACE - NO ACTION .MDIO RESP BRNA MDI INOPERATIVE - NO ACTION .NPCE RESP BRLE NPU CHANNEL ERROR - DRIVER ERROR .MFCE RESP BRNA MDI CHANNEL ERROR - NO ACTION .BPCE RESP BRNA BLOCK PROTOCOL ERROR - NO ACTION .ESTO RESP BRNA EST TURNED OFF - NO ACTION .RGZR RESP BRAE LEVEL ZERO RESPONSE - APPLICATION ERROR .LAST SET * LOC BHS27RT+.LAST **** STSTATES SPACE 2,10 **** STREAM STATE TABLES. * * THE STREAM STATE TABLE CONTAINS AN ENTRY FOR EACH * STREAM STATE. THE ENTRY IS THE ADDRESS OF THE STREAM ** STATE PROCESSOR. STSTATES BSS 0 STREAM STATE TABLE LOC 0 STS0 STATE. SILL STATE 0 - IVT CONNECTION STS1 STATE. SPIN STATE 1 - INITIAL PRU STREAM STATE PRIN BSS 0 INITIAL PRU INPUT STREAM STATE STS2 STATE. SIQP STATE 2 - PRU INPUT STREAM IDLE STS3 STATE. SOPC STATE 3 - ISSUE START PRU INPUT STREAM STS4 STATE. SIQP STATE 4 - WAIT JOB CARD RECORD STS5 STATE. SRJV STATE 5 - REQUEST JOB VALIDATION STS6 STATE. SCWL STATE 6 - WAIT JOB VALIDATION STS7 STATE. SRMS STATE 7 - REQUEST MASS STORAGE OUTPUT STS8 STATE. SWMS STATE 8 - WAIT MASS STORAGE COMPLETE STS9 STATE. SIQP STATE 9 - PRU INPUT ACTIVE STS10 STATE. SIQP STATE 10 - EOI WRITTEN TO MASS STORAGE STS11 STATE. SPIQ STATE 11 - STREAM STOPPED EXTERNALLY STS12 STATE. SOPC STATE 12 - ISSUE RESTART PRU INPUT STREAM STS13 STATE. SOPC STATE 13 - ISSUE ABORT PRU INPUT STREAM STS14 STATE. SIQP STATE 14 - WAIT INPUT STREAM ABORTED STS15 STATE. SRSI STATE 15 - REPORT INTERNAL STREAM STOPPED STS16 STATE. SIQP STATE 16 - WAIT END OF INFORMATION STS17 STATE. SOPC STATE 17 - ISSUE START PRU INPUT STREAM STS18 STATE. SOPC STATE 18 - ISSUE FILE TRANSFER ON STS19 STATE. STSR STATE 19 - TRANSFER START DATA REPLY STS20 STATE. SFIE STATE 20 - END OF INBOUND FILE TRANSFER STS21 STATE. SIQP STATE 21 - WAIT END OF STREAM STS22 STATE. STCR STATE 22 - TRANSFER CHECKMARK REPLY PROT BSS 0 INITIAL PRU OUTPUT STREAM STATE STS23 STATE. SPOQ STATE 23 - PRU OUTPUT STREAM IDLE STS24 STATE. SOPC STATE 24 - ISSUE COMMAND TO FRONT END STS25 STATE. SWNA STATE 25 - WAIT COMMAND ACKNOWLEDGMENT STS26 STATE. SWDO STATE 26 - ISSUE DIRECT OUTPUT TO FRONT END STS27 STATE. SPOQ STATE 27 - DIRECT OUTPUT ACTIVE STS28 STATE. SWNA STATE 28 - WAIT NO OUTPUT ACTIVITY STS29 STATE. SPOQ STATE 29 - PRU OUTPUT ACTIVE STS30 STATE. SRNO STATE 30 - REQUEST MASS STORAGE INPUT STS31 STATE. SWMS STATE 31 - WAIT MASS STORAGE COMPLETE STS32 STATE. STPO STATE 32 - ISSUE PRU OUTPUT TO FRONT END STS33 STATE. STPO STATE 33 - ISSUE LAST PRU OUTPUT TO FE STS34 STATE. SWNO STATE 34 - WAIT EOI DELIVERED STS35 STATE. SWEJ STATE 35 - ISSUE EOJ DIRECT OUTPUT TO FE STS36 STATE. SWNO STATE 36 - WAIT EOI DELIVERED STS37 STATE. SWMS STATE 37 - WAIT MASS STORAGE COMPLETE STS38 STATE. STPO STATE 38 - ISSUE PRU OUTPUT TO FRONT END STS39 STATE. SPDQ STATE 39 - STREAM STOPPED EXTERNALLY STS40 STATE. STPO STATE 40 - ISSUE LAST PRU OUTPUT TO FE STS41 STATE. SWNO STATE 41 - WAIT NO OUTPUT ACTIVITY STS42 STATE. SRSA STATE 42 - REPORT OUTPUT STREAM STOPPED STS43 STATE. SPDQ STATE 43 - STREAM STOPPED BY APPLICATION STS44 STATE. SRSO STATE 44 - REPORT INTERNAL STREAM STOPPED STS45 STATE. SPDQ STATE 45 - STREAM STOPPED INTERNALLY STS46 STATE. SRSO STATE 46 - REPORT INTERNAL STREAM STOPPED STS47 STATE. SOPC STATE 47 - ISSUE COMMAND TO FRONT END STS48 STATE. SOIC STATE 48 - ISSUE RESTART ICMD TO FRONT END STS49 STATE. SWNO STATE 49 - WAIT ICMD RESPONSE STS50 STATE. SOIC STATE 50 - ISSUE ABORT ICMD TO FRONT END STS51 STATE. SWNO STATE 51 - WAIT ICMD RESPONSE STS52 STATE. SPDQ STATE 52 - WAIT ABORT STREAM DELIMITER STS53 STATE. SOPC STATE 53 - ISSUE ABORT STREAM DELIMITER STS54 STATE. SWNO STATE 54 - WAIT OUTPUT STREAM ABORTED STS55 STATE. STPO STATE 55 - ISSUE LAST PRU OUTPUT TO FE STS56 STATE. SWNO STATE 56 - WAIT NO OUTPUT ACTIVITY STS57 STATE. SFOE STATE 57 - END OF OUTBOUND FILE TRANSFER STS58 STATE. SILL STATE 58 - NOT USED STS59 STATE. SEL7 STATE 59 - REPORT FILE TRANSFER ERROR STS60 STATE. SFTE STATE 60 - REPORT MASS STORAGE ERROR STS61 STATE. SIWL STATE 61 - CHECK IMMEDIATE WORKLIST QUEUE STS62 STATE. STPS STATE 62 - TERMINATE PRU STREAM STS63 STATE. SSNA STATE 63 - PRU STREAM TERMINATED .LAST SET * LOC STSTATES+.LAST **** STS0RT SPACE 2,12 STS0RT SPACE 2,12 *** STREAM STATE RESPONSE TABLES. * * THE STREAM STATE RESPONSE TABLES CONTAIN AN ENTRY FOR * EACH STREAM STATE RESPONSE ACTION. THE CONTENTS OF * THE ENTRY IS THE ACTION ORDINAL OF THE ACTION THAT * WILL BE EXECUTED FOR THE RESPONSE AND THE NEXT STREAM ** STATE FOR THE STREAM. STSRT BSS 0 STRAAM STATE RESPONSE TABLES LOC 0 .STATE SET STS0 RAIC 0 RESP SRNA 5 - NO ACTION RESP SRUO 4 - UPDATE FET OUT POINTER RESP SROT 3 - OUTPUT TEXT TO FRONT END RESP SRII 2 - BYPASS INPUT RESP SRIT 1 - INPUT TEXT FROM FRONT END RESP SRLE 0 - DRIVER ERROR STS0RT BSS 0 STATE 0 - IVT CONNECTION RAIX .SRID,01 SRIT INPUT DATA - INPUT TEXT FROM FRONT END RAIX .SRIB,00 SRLE INPUT BACK - DRIVER ERROR RAIX .SRII,02 SRII INVALID IVT INPUT - BYPASS INPUT RAIX .SROD,03 SROT OUTPUT DATA - OUTPUT TEXT TO FRONT END RAIX .SSJS,00 SRLE START PRU JOB STREAM - DRIVER ERROR RAIX .SSDS,00 SRLE START PRU DATA STREAM - DRIVER ERROR RAIX .SFTI,00 SRLE START INBOUND FILE TRANSFER - DRIVER ERROR RAIX .SFTO,00 SRLE START OUTBOUND FILE TRANSFER - DRIVER ERROR RAIX .SJBV,00 SRLE VALID JOB - DRIVER ERROR RAIX .SJBE,00 SRLE INVALID JOB - DRIVER ERROR RAIX .SSPS,00 SRLE STOP PRU STREAM - DRIVER ERROR RAIX .SRST,00 SRLE RESTART PRU STREAM - DRIVER ERROR RAIX .SBYP,00 SRLE BYPASS PRU STREAM - DRIVER ERROR RAIX .SABT,00 SRLE ABORT PRU STREAM - DRIVER ERROR RAIX .SASD,00 SRLE ABORT DATA DELIMITER - DRIVER ERROR RAIX .SROS,00 SRLE RESUME OUTPUT STREAM - DRIVER ERROR RAIX .SDOR,00 SRLE DIRECT OUTPUT REQUEST - DRIVER ERROR RAIX .SEOR,00 SRLE EOJ OUTPUT REQUEST - DRIVER ERROR RAIX .SSFC,00 SRLE SET FILE CHARACTERISTICS - DRIVER ERROR RAIX .SSDC,00 SRLE SET DEVICE CHARACTERISTICS - DRIVER ERROR RAIX .SCMQ,00 SRLE COMMAND QUEUED - DRIVER ERROR RAIX .SQID,00 SRLE QUEUED INPUT DATA - DRIVER ERROR RAIX .SOPA,00 SRLE OUTPUT ALLOWED - DRIVER ERROR RAIX .SNOA,00 SRLE NO OUTPUT ACTIVITY - DRIVER ERROR RAIX .SSTP,00 SRLE STREAM STOPPED - DRIVER ERROR RAIX .SSBI,00 SRLE BATCH INTERRUPT - DRIVER ERROR RAIX .SEOI,00 SRLE END OF INFORMATION - DRIVER ERROR RAIX .SEND,00 SRLE END OF STREAM - DRIVER ERROR RAIX .SSAB,00 SRLE STREAM ABORTED - DRIVER ERROR RAIX .SICR,00 SRLE ICMD RESPONSE - DRIVER ERROR RAIX .SICI,00 SRLE ICMD ISSUED - DRIVER ERROR RAIX .SNCI,00 SRLE FRONT END COMMAND ISSUED - DRIVER ERROR RAIX .SRSI,00 SRLE RESET ISSUED - DRIVER ERROR RAIX .SARQ,00 SRLE APPLICATION REQUESTED - DRIVER ERROR RAIX .SMSR,00 SRLE MASS STORAGE REQUESTED - DRIVER ERROR RAIX .SMSC,00 SRLE MASS STORAGE COMPLETED - DRIVER ERROR RAIX .SMSE,00 SRLE MASS STORAGE EOI - DRIVER ERROR RAIX .SMER,00 SRLE MASS STORAGE ERROR - DRIVER ERROR RAIX .SFTE,00 SRLE END OF FILE TRANSFER - DRIVER ERROR RAIX .SFTR,00 SRLE TRANSFER MASS STORAGE ERROR - DRIVER ERROR RAIX .S7MS,00 SRLE CHECKMARK - DRIVER ERROR RAIX .S7ES,00 SRLE END OF STREAM - DRIVER ERROR RAIX .S7RR,00 SRLE REQUEST RESTART - DRIVER ERROR RAIX .S7MR,00 SRLE CHECKMARK REPLY - DRIVER ERROR RAIX .S7QR,00 SRLE QUIT - DRIVER ERROR RAIX .S7CI,00 SRLE LEVEL SEVEN COMMAND ISSUED - DRIVER ERROR RAIX .STPS,00 SRLE TERMINATE PRU STREAM - DRIVER ERROR RAIX .SPST,00 SRLE PRU STREAM TERMINATED - DRIVER ERROR RAIX .SFEI,04 SRUO FRONT END INOPERATIVE - UPDATE FET OUT POINTER RAIX .SBPE,05 SRNA BLOCK PROTOCOL ERROR - NO ACTION RAIX .SL7E,00 SRLE LEVEL SEVEN ERROR - DRIVER ERROR RAIX .SDLE,00 SRLE DRIVER LOGIC ERROR - DRIVER ERROR STS1RT SPACE 2,10 .STATE SET STS1 RAIC 0 RESP SRNA,STS61 3 - CHANGE STATE RESP SRWC,STS62 2 - WORKLIST COMPLETED RESP SRIL 1 - BLOCK PROTOCOL ERROR RESP SRLE 0 - DRIVER ERROR STS1RT BSS 0 STATE 1 - INITIAL PRU STREAM STATE RAIX .SRID,01 SRIL INPUT DATA - BLOCK PROTOCOL ERROR RAIX .SRIB,01 SRIL INPUT BACK - BLOCK PROTOCOL ERROR RAIX .SRII,00 SRLE INVALID IVT INPUT - DRIVER ERROR RAIX .SROD,00 SRLE OUTPUT DATA - DRIVER ERROR RAIX .SSJS,00 SRLE START PRU JOB STREAM - DRIVER ERROR RAIX .SSDS,00 SRLE START PRU DATA STREAM - DRIVER ERROR RAIX .SFTI,00 SRLE START INBOUND FILE TRANSFER - DRIVER ERROR RAIX .SFTO,00 SRLE START OUTBOUND FILE TRANSFER - DRIVER ERROR RAIX .SJBV,00 SRLE VALID JOB - DRIVER ERROR RAIX .SJBE,00 SRLE INVALID JOB - DRIVER ERROR RAIX .SSPS,00 SRLE STOP PRU STREAM - DRIVER ERROR RAIX .SRST,00 SRLE RESTART PRU STREAM - DRIVER ERROR RAIX .SBYP,00 SRLE BYPASS PRU STREAM - DRIVER ERROR RAIX .SABT,00 SRLE ABORT PRU STREAM - DRIVER ERROR RAIX .SASD,00 SRLE ABORT DATA DELIMITER - DRIVER ERROR RAIX .SROS,00 SRLE RESUME OUTPUT STREAM - DRIVER ERROR RAIX .SDOR,00 SRLE DIRECT OUTPUT REQUEST - DRIVER ERROR RAIX .SEOR,00 SRLE EOJ OUTPUT REQUEST - DRIVER ERROR RAIX .SSFC,00 SRLE SET FILE CHARACTERISTICS - DRIVER ERROR RAIX .SSDC,00 SRLE SET DEVICE CHARACTERISTICS - DRIVER ERROR RAIX .SCMQ,01 SRIL COMMAND QUEUED - BLOCK PROTOCOL ERROR RAIX .SQID,00 SRLE QUEUED INPUT DATA - DRIVER ERROR RAIX .SOPA,00 SRLE OUTPUT ALLOWED - DRIVER ERROR RAIX .SNOA,00 SRLE NO OUTPUT ACTIVITY - DRIVER ERROR RAIX .SSTP,00 SRLE STREAM STOPPED - DRIVER ERROR RAIX .SSBI,00 SRLE BATCH INTERRUPT - DRIVER ERROR RAIX .SEOI,00 SRLE END OF INFORMATION - DRIVER ERROR RAIX .SEND,00 SRLE END OF STREAM - DRIVER ERROR RAIX .SSAB,00 SRLE STREAM ABORTED - DRIVER ERROR RAIX .SICR,01 SRIL ICMD RESPONSE - BLOCK PROTOCOL ERROR RAIX .SICI,00 SRLE ICMD ISSUED - DRIVER ERROR RAIX .SNCI,00 SRLE FRONT END COMMAND ISSUED - DRIVER ERROR RAIX .SRSI,00 SRLE RESET ISSUED - DRIVER ERROR RAIX .SARQ,00 SRLE APPLICATION REQUESTED - DRIVER ERROR RAIX .SMSR,00 SRLE MASS STORAGE REQUESTED - DRIVER ERROR RAIX .SMSC,00 SRLE MASS STORAGE COMPLETED - DRIVER ERROR RAIX .SMSE,00 SRLE MASS STORAGE EOI - DRIVER ERROR RAIX .SMER,00 SRLE MASS STORAGE ERROR - DRIVER ERROR RAIX .SFTE,00 SRLE END OF FILE TRANSFER - DRIVER ERROR RAIX .SFTR,00 SRLE TRANSFER MASS STORAGE ERROR - DRIVER ERROR RAIX .S7MS,00 SRLE CHECKMARK - DRIVER ERROR RAIX .S7ES,00 SRLE END OF STREAM - DRIVER ERROR RAIX .S7RR,00 SRLE REQUEST RESTART - DRIVER ERROR RAIX .S7MR,00 SRLE CHECKMARK REPLY - DRIVER ERROR RAIX .S7QR,00 SRLE QUIT - DRIVER ERROR RAIX .S7CI,00 SRLE LEVEL SEVEN COMMAND ISSUED - DRIVER ERROR RAIX .STPS,02 SRWC,STS62 TERMINATE PRU STREAM - WORKLIST COMPLETED RAIX .SPST,00 SRLE PRU STREAM TERMINATED - DRIVER ERROR RAIX .SFEI,03 SRNA,STS61 FRONT END INOPERATIVE - CHANGE STATE RAIX .SBPE,03 SRNA,STS61 BLOCK PROTOCOL ERROR - CHANGE STATE RAIX .SL7E,00 SRLE LEVEL SEVEN ERROR - DRIVER ERROR RAIX .SDLE,00 SRLE DRIVER LOGIC ERROR - DRIVER ERROR STS2RT SPACE 2,10 .STATE SET STS2 RAIC 1 RESP SRTW,STS61 14 - TRANSFER WORKLIST RESP SRNA,STS59 13 - CHANGE STATE RESP SRNA,STS61 12 - CHANGE STATE RESP SRWC,STS62 11 - WORKLIST COMPLETED RESP S7IL 10 - LEVEL SEVEN ERROR RESP SRAQ,STS11 9 - ADVANCE QUEUE RESP SRQW 8 - QUEUE WORKLIST COMMAND RESP SRWC 7 - SET WORKLIST COMPLETED RESP SRAE 6 - APPLICATION ERROR RESP SRNA,STS18 5 - CHANGE STATE RESP SRNA,STS17 4 - CHANGE STATE RESP SRNA,STS3 3 - CHANGE STATE RESP SRNA 2 - NO ACTION RESP SRIL 1 - BLOCK PROTOCOL ERROR RESP SRLE 0 - DRIVER ERROR STS2RT BSS 0 STATE 2 - PRU INPUT STREAM IDLE RAIX .SRID,01 SRIL INPUT DATA - BLOCK PROTOCOL ERROR RAIX .SRIB,02 SRNA INPUT BACK - NO ACTION RAIX .SRII,00 SRLE INVALID IVT INPUT - DRIVER ERROR RAIX .SROD,00 SRLE OUTPUT DATA - DRIVER ERROR RAIX .SSJS,03 SRNA,STS3 START PRU JOB STREAM - CHANGE STATE RAIX .SSDS,04 SRNA,STS17 START PRU DATA STREAM - CHANGE STATE RAIX .SFTI,05 SRNA,STS18 START INBOUND FILE TRANSFER - CHANGE STATE RAIX .SFTO,06 SRAE START OUTBOUND FILE - APPLICATION ERROR RAIX .SJBV,06 SRAE VALID JOB - APPLICATION ERROR RAIX .SJBE,06 SRAE INVALID JOB - APPLICATION ERROR RAIX .SSPS,06 SRAE STOP PRU STREAM - APPLICATION ERROR RAIX .SRST,07 SRWC RESTART PRU STREAM - WORKLIST COMPLETED RAIX .SBYP,07 SRWC BYPASS PRU STREAM - SET WORKLIST COMPLETED RAIX .SABT,07 SRWC ABORT PRU STREAM - SET WORKLIST COMPLETED RAIX .SASD,06 SRAE ABORT DATA DELIMITER - APPLICATION ERROR RAIX .SROS,06 SRAE RESUME OUTPUT STREAM - APPLICATION ERROR RAIX .SDOR,06 SRAE DIRECT OUTPUT REQUEST - APPLICATION ERROR RAIX .SEOR,06 SRAE EOJ OUTPUT REQUEST - APPLICATION ERROR RAIX .SSFC,06 SRAE SET FILE - APPLICATION ERROR RAIX .SSDC,06 SRAE SET DEVICE - APPLICATION ERROR RAIX .SCMQ,08 SRQW COMMAND QUEUED - QUEUE WORKLIST COMMAND RAIX .SQID,01 SRIL QUEUED INPUT DATA - BLOCK PROTOCOL ERROR RAIX .SOPA,00 SRLE OUTPUT ALLOWED - DRIVER ERROR RAIX .SNOA,00 SRLE NO OUTPUT ACTIVITY - DRIVER ERROR RAIX .SSTP,01 SRIL STREAM STOPPED - BLOCK PROTOCOL ERROR RAIX .SSBI,09 SRAQ,STS11 BATCH INTERRUPT - ADVANCE QUEUE RAIX .SEOI,01 SRIL END OF INFORMATION - BLOCK PROTOCOL ERROR RAIX .SEND,01 SRIL END OF STREAM - BLOCK PROTOCOL ERROR RAIX .SSAB,01 SRIL STREAM ABORTED - BLOCK PROTOCOL ERROR RAIX .SICR,01 SRIL ICMD RESPONSE - BLOCK PROTOCOL ERROR RAIX .SICI,00 SRLE ICMD ISSUED - DRIVER ERROR RAIX .SNCI,00 SRLE FRONT END COMMAND ISSUED - DRIVER ERROR RAIX .SRSI,00 SRLE RESET ISSUED - DRIVER ERROR RAIX .SARQ,14 SRTW,STS61 APPLICATION REQUESTED - TRANSFER WORKLIST RAIX .SMSR,00 SRLE MASS STORAGE REQUESTED - DRIVER ERROR RAIX .SMSC,00 SRLE MASS STORAGE COMPLETED - DRIVER ERROR RAIX .SMSE,00 SRLE MASS STORAGE EOI - DRIVER ERROR RAIX .SMER,00 SRLE MASS STORAGE ERROR - DRIVER ERROR RAIX .SFTE,00 SRLE END OF FILE TRANSFER - DRIVER ERROR RAIX .SFTR,00 SRLE TRANSFER MASS STORAGE ERROR - DRIVER ERROR RAIX .S7MS,10 S7IL CHECKMARK - LEVEL SEVEN ERROR RAIX .S7ES,10 S7IL END OF STREAM - LEVEL SEVEN ERROR RAIX .S7RR,10 S7IL REQUEST RESTART - LEVEL SEVEN ERROR RAIX .S7MR,10 S7IL CHECKMARK REPLY - LEVEL SEVEN ERROR RAIX .S7QR,10 S7IL QUIT - LEVEL SEVEN ERROR RAIX .S7CI,00 SRLE LEVEL SEVEN COMMAND ISSUED - DRIVER ERROR RAIX .STPS,11 SRWC,STS62 TERMINATE PRU STREAM - WORKLIST COMPLETED RAIX .SPST,00 SRLE PRU STREAM TERMINATED - DRIVER ERROR RAIX .SFEI,12 SRNA,STS61 FRONT END INOPERATIVE - CHANGE STATE RAIX .SBPE,12 SRNA,STS61 BLOCK PROTOCOL ERROR - CHANGE STATE RAIX .SL7E,13 SRNA,STS59 LEVEL SEVEN ERROR - CHANGE STATE RAIX .SDLE,00 SRLE DRIVER LOGIC ERROR - DRIVER ERROR STS3RT SPACE 2,10 .STATE SET STS3 RAIC 0 RESP SRNA,STS61 6 - CHANGE STATE RESP SRWC,STS62 5 - WORKLIST COMPLETED RESP SRWC,STS4 4 - WORKLIST COMPLETED RESP SRQW 3 - QUEUE WORKLIST COMMAND RESP SRNA 2 - NO ACTION RESP SRIL 1 - BLOCK PROTOCOL ERROR RESP SRLE 0 - DRIVER ERROR STS3RT BSS 0 STATE 3 - ISSUE START PRU INPUT STREAM RAIX .SRID,01 SRIL INPUT DATA - BLOCK PROTOCOL ERROR RAIX .SRIB,02 SRNA INPUT BACK - NO ACTION RAIX .SRII,00 SRLE INVALID IVT INPUT - DRIVER ERROR RAIX .SROD,00 SRLE OUTPUT DATA - DRIVER ERROR RAIX .SSJS,00 SRLE START PRU JOB STREAM - DRIVER ERROR RAIX .SSDS,00 SRLE START PRU DATA STREAM - DRIVER ERROR RAIX .SFTI,00 SRLE START INBOUND FILE TRANSFER - DRIVER ERROR RAIX .SFTO,00 SRLE START OUTBOUND FILE TRANSFER - DRIVER ERROR RAIX .SJBV,00 SRLE VALID JOB - DRIVER ERROR RAIX .SJBE,00 SRLE INVALID JOB - DRIVER ERROR RAIX .SSPS,00 SRLE STOP PRU STREAM - DRIVER ERROR RAIX .SRST,00 SRLE RESTART PRU STREAM - DRIVER ERROR RAIX .SBYP,00 SRLE BYPASS PRU STREAM - DRIVER ERROR RAIX .SABT,00 SRLE ABORT PRU STREAM - DRIVER ERROR RAIX .SASD,00 SRLE ABORT DATA DELIMITER - DRIVER ERROR RAIX .SROS,00 SRLE RESUME OUTPUT STREAM - DRIVER ERROR RAIX .SDOR,00 SRLE DIRECT OUTPUT REQUEST - DRIVER ERROR RAIX .SEOR,00 SRLE EOJ OUTPUT REQUEST - DRIVER ERROR RAIX .SSFC,00 SRLE SET FILE CHARACTERISTICS - DRIVER ERROR RAIX .SSDC,00 SRLE SET DEVICE CHARACTERISTICS - DRIVER ERROR RAIX .SCMQ,03 SRQW COMMAND QUEUED - QUEUE WORKLIST COMMAND RAIX .SQID,01 SRIL QUEUED INPUT DATA - BLOCK PROTOCOL ERROR RAIX .SOPA,00 SRLE OUTPUT ALLOWED - DRIVER ERROR RAIX .SNOA,00 SRLE NO OUTPUT ACTIVITY - DRIVER ERROR RAIX .SSTP,00 SRLE STREAM STOPPED - DRIVER ERROR RAIX .SSBI,00 SRLE BATCH INTERRUPT - DRIVER ERROR RAIX .SEOI,00 SRLE END OF INFORMATION - DRIVER ERROR RAIX .SEND,00 SRLE END OF STREAM - DRIVER ERROR RAIX .SSAB,00 SRLE STREAM ABORTED - DRIVER ERROR RAIX .SICR,01 SRIL ICMD RESPONSE - BLOCK PROTOCOL ERROR RAIX .SICI,00 SRLE ICMD ISSUED - DRIVER ERROR RAIX .SNCI,04 SRWC,STS4 FRONT END COMMAND ISSUED - SET WORKLIST COMPLETED RAIX .SRSI,00 SRLE RESET ISSUED - DRIVER ERROR RAIX .SARQ,00 SRLE APPLICATION REQUESTED - DRIVER ERROR RAIX .SMSR,00 SRLE MASS STORAGE REQUESTED - DRIVER ERROR RAIX .SMSC,00 SRLE MASS STORAGE COMPLETED - DRIVER ERROR RAIX .SMSE,00 SRLE MASS STORAGE EOI - DRIVER ERROR RAIX .SMER,00 SRLE MASS STORAGE ERROR - DRIVER ERROR RAIX .SFTE,00 SRLE END OF FILE TRANSFER - DRIVER ERROR RAIX .SFTR,00 SRLE TRANSFER MASS STORAGE ERROR - DRIVER ERROR RAIX .S7MS,00 SRLE CHECKMARK - DRIVER ERROR RAIX .S7ES,00 SRLE END OF STREAM - DRIVER ERROR RAIX .S7RR,00 SRLE REQUEST RESTART - DRIVER ERROR RAIX .S7MR,00 SRLE CHECKMARK REPLY - DRIVER ERROR RAIX .S7QR,00 SRLE QUIT - DRIVER ERROR RAIX .S7CI,00 SRLE LEVEL SEVEN COMMAND ISSUED - DRIVER ERROR RAIX .STPS,05 SRWC,STS62 TERMINATE PRU STREAM - WORKLIST COMPLETED RAIX .SPST,00 SRLE PRU STREAM TERMINATED - DRIVER ERROR RAIX .SFEI,06 SRNA,STS61 FRONT END INOPERATIVE - CHANGE STATE RAIX .SBPE,06 SRNA,STS61 BLOCK PROTOCOL ERROR - CHANGE STATE RAIX .SL7E,00 SRLE LEVEL SEVEN ERROR - DRIVER ERROR RAIX .SDLE,00 SRLE DRIVER LOGIC ERROR - DRIVER ERROR STS4RT SPACE 2,10 .STATE SET STS4 RAIC 1 RESP SRNA,STS61 13 - CHANGE STATE RESP SRWC,STS62 12 - WORKLIST COMPLETED RESP SRAQ,STS2 11 - ADVANCE QUEUE RESP SRIL 10 - BLOCK PROTOCOL ERROR RESP SRAQ,STS11 9 - ADVANCE QUEUE RESP SRNA,STS5 8 - CHANGE STATE RESP SRQW 7 - QUEUE WORKLIST COMMAND RESP SRNA,STS13 6 - CHANGE STATE RESP SRNA,STS16 5 - CHANGE STATE RESP SRWC 4 - WORKLIST COMPLETED RESP SRAE 3 - APPLICATION ERROR RESP SRNA 2 - NO ACTION RESP SRIP 1 - INPUT PRU DATA TO QUEUE RESP SRLE 0 - DRIVER ERROR STS4RT BSS 0 STATE 4 - WAIT JOB CARD RECORD RAIX .SRID,01 SRIP INPUT DATA - INPUT PRU DATA TO QUEUE RAIX .SRIB,02 SRNA INPUT BACK - NO ACTION RAIX .SRII,00 SRLE INVALID IVT INPUT - DRIVER ERROR RAIX .SROD,00 SRLE OUTPUT DATA - DRIVER ERROR RAIX .SSJS,03 SRAE START PRU JOB STREAM - APPLICATION ERROR RAIX .SSDS,03 SRAE START PRU DATA STREAM - APPKCATION ERROR RAIX .SFTI,03 SRAE START INBOUND FILE - APPLICATION ERROR RAIX .SFTO,03 SRAE START OUTBOUND FILE - APPLICATION ERROR RAIX .SJBV,03 SRAE VALID JOB - APPLICATION ERROR RAIX .SJBE,03 SRAE INVALID JOB - APPLICATION ERROR RAIX .SSPS,03 SRAE STOP PRU STREAM - APPLICATION ERROR RAIX .SRST,04 SRWC RESTART PRU STREAM - WORKLIST COMPLETED RAIX .SBYP,05 SRNA,STS16 BYPASS PRU STREAM - CHANGE STATE RAIX .SABT,06 SRNA,STS13 ABORT PRU STREAM - CHANGE STATE RAIX .SASD,03 SRAE ABORT DATA DELIMITER - APPLICATION ERROR RAIX .SROS,03 SRAE RESUME OUTPUT STREAM - APPLICATION ERROR RAIX .SDOR,03 SRAE DIRECT OUTPUT REQUEST - APPLICATION ERROR RAIX .SEOR,03 SRAE EOJ OUTPUT REQUEST - APPLICATION ERROR RAIX .SSFC,03 SRAE SET FILE - APPLICATION ERROR RAIX .SSDC,03 SRAE SET DEVICE - APPLICATION ERROR RAIX .SCMQ,07 SRQW COMMAND QUEUED - QUEUE WORKLIST COMMAND RAIX .SQID,08 SRNA,STS5 QUEUED INPUT DATA - CHANGE STATE RAIX .SOPA,00 SRLE OUTPUT ALLOWED - DRIVER ERROR RAIX .SNOA,00 SRLE NO OUTPUT ACTIVITY - DRIVER ERROR RAIX .SSTP,09 SRAQ,STS11 STREAM STOPPED - ADVANCE QUEUE RAIX .SSBI,09 SRAQ,STS11 BATCH INTERRUPT - ADVANCE QUEUE RAIX .SEOI,10 SRIL END OF INFORMATION - BLOCK PROTOCOL ERROR RAIX .SEND,11 SRAQ,STS2 END OF STREAM - ADVANCE QUEUE RAIX .SSAB,10 SRIL STREAM ABORTED - BLOCK PROTOCOL ERROR RAIX .SICR,10 SRIL ICMD RESPONSE - BLOCK PROTOCOL ERROR RAIX .SICI,00 SRLE ICMD ISSUED - DRIVER ERROR RAIX .SNCI,00 SRLE FRONT END COMMAND ISSUED - DRIVER ERROR RAIX .SRSI,00 SRLE RESET ISSUED - DRIVER ERROR RAIX .SARQ,00 SRLE APPLICATION REQUESTED - DRIVER ERROR RAIX .SMSR,00 SRLE MASS STORAGE REQUESTED - DRIVER ERROR RAIX .SMSC,00 SRLE MASS STORAGE COMPLETED - DRIVER ERROR RAIX .SMSE,00 SRLE MASS STORAGE EOI - DRIVER ERROR RAIX .SMER,00 SRLE MASS STORAGE ERROR - DRIVER ERROR RAIX .SFTE,00 SRLE END OF FILE TRANSFER - DRIVER ERROR RAIX .SFTR,00 SRLE TRANSFER MASS STORAGE ERROR - DRIVER ERROR RAIX .S7MS,10 SRIL CHECKMARK - BLOCK PROTOCOL ERROR RAIX .S7ES,10 SRIL END OF STREAM - BLOCK PROTOCOL ERROR RAIX .S7RR,10 SRIL REQUEST RESTART - BLOCK PROTOCOL ERROR RAIX .S7MR,10 SRIL CHECKMARK REPLY - BLOCK PROTOCOL ERROR RAIX .S7QR,10 SRIL QUIT - BLOCK PROTOCOL ERROR RAIX .S7CI,00 SRLE LEVEL SEVEN COMMAND ISSUED - DRIVER ERROR RAIX .STPS,12 SRWC,STS62 TERMINATE PRU STREAM - WORKLIST COMPLETED RAIX .SPST,00 SRLE PRU STREAM TERMINATED - DRIVER ERROR RAIX .SFEI,13 SRNA,STS61 FRONT END INOPERATIVE - CHANGE STATE RAIX .SBPE,13 SRNA,STS61 BLOCK PROTOCOL ERROR - CHANGE STATE RAIX .SL7E,00 SRLE LEVEL SEVEN ERROR - DRIVER ERROR RAIX .SDLE,00 SRLE DRIVER LOGIC ERROR - DRIVER ERROR STSR5T SPACE 2,10 .STATE SET STS5 RAIC 0 RESP SRNA,STS61 6 - CHANGE STATE RESP SRTW,STS6 5 - TRANSFER WORKLIST RESP SRIL 4 - BLOCK PROTOCOL ERROR RESP SRQW 3 - QUEUE WORKLIST COMMAND RESP SRNA 2 - NO ACTION RESP SRIP 1 - INPUT PRU DATA TO QUEUE RESP SRLE 0 - DRIVER ERROR STS5RT BSS 0 STATE 5 - REQUEST JOB VALIDATION RAIX .SRID,01 SRIP INPUT DATA - INPUT PRU DATA TO QUEUE RAIX .SRIB,02 SRNA INPUT BACK - NO ACTION RAIX .SRII,00 SRLE INVALID IVT INPUT - DRIVER ERROR RAIX .SROD,00 SRLE OUTPUT DATA - DRIVER ERROR RAIX .SSJS,00 SRLE START PRU JOB STREAM - DRIVER ERROR RAIX .SSDS,00 SRLE START PRU DATA STREAM - DRIVER ERROR RAIX .SFTI,00 SRLE START INBOUND FILE TRANSFER - DRIVER ERROR RAIX .SFTO,00 SRLE START OUTBOUND FILE TRANSFER - DRIVER ERROR RAIX .SJBV,00 SRLE VALID JOB - DRIVER ERROR RAIX .SJBE,00 SRLE INVALID JOB - DRIVER ERROR RAIX .SSPS,00 SRLE STOP PRU STREAM - DRIVER ERROR RAIX .SRST,00 SRLE RESTART PRU STREAM - DRIVER ERROR RAIX .SBYP,00 SRLE BYPASS PRU STREAM - DRIVER ERROR RAIX .SABT,00 SRLE ABORT PRU STREAM - DRIVER ERROR RAIX .SASD,00 SRLE ABORT DATA DELIMITER - DRIVER ERROR RAIX .SROS,00 SRLE RESUME OUTPUT STREAM - DRIVER ERROR RAIX .SDOR,00 SRLE DIRECT OUTPUT REQUEST - DRIVER ERROR RAIX .SEOR,00 SRLE EOJ OUTPUT REQUEST - DRIVER ERROR RAIX .SSFC,00 SRLE SET FILE CHARACTERISTICS - DRIVER ERROR RAIX .SSDC,00 SRLE SET DEVICE CHARACTERISTICS - DRIVER ERROR RAIX .SCMQ,03 SRQW COMMAND QUEUED - QUEUE WORKLIST COMMAND RAIX .SQID,00 SRLE QUEUED INPUT DATA - DRIVER ERROR RAIX .SOPA,00 SRLE OUTPUT ALLOWED - DRIVER ERROR RAIX .SNOA,00 SRLE NO OUTPUT ACTIVITY - DRIVER ERROR RAIX .SSTP,00 SRLE STREAM STOPPED - DRIVER ERROR RAIX .SSBI,00 SRLE BATCH INTERRUPT - DRIVER ERROR RAIX .SEOI,00 SRLE END OF INFORMATION - DRIVER ERROR RAIX .SEND,00 SRLE END OF STREAM - DRIVER ERROR RAIX .SSAB,00 SRLE STREAM ABORTED - DRIVER ERROR RAIX .SICR,04 SRIL ICMD RESPONSE - BLOCK PROTOCOL ERROR RAIX .SICI,00 SRLE ICMD ISSUED - DRIVER ERROR RAIX .SNCI,00 SRLE FRONT END COMMAND ISSUED - DRIVER ERROR RAIX .SRSI,00 SRLE RESET ISSUED - DRIVER ERROR RAIX .SARQ,05 SRTW,STS6 APPLICATION REQUESTED - TRANSFER WORKLIST RAIX .SMSR,00 SRLE MASS STORAGE REQUESTED - DRIVER ERROR RAIX .SMSC,00 SRLE MASS STORAGE COMPLETED - DRIVER ERROR RAIX .SMSE,00 SRLE MASS STORAGE EOI - DRIVER ERROR RAIX .SMER,00 SRLE MASS STORAGE ERROR - DRIVER ERROR RAIX .SFTE,00 SRLE END OF FILE TRANSFER - DRIVER ERROR RAIX .SFTR,00 SRLE TRANSFER MASS STORAGE ERROR - DRIVER ERROR RAIX .S7MS,00 SRLE CHECKMARK - DRIVER ERROR RAIX .S7ES,00 SRLE END OF STREAM - DRIVER ERROR RAIX .S7RR,00 SRLE REQUEST RESTART - DRIVER ERROR RAIX .S7MR,00 SRLE CHECKMARK REPLY - DRIVER ERROR RAIX .S7QR,00 SRLE QUIT - DRIVER ERROR RAIX .S7CI,00 SRLE LEVEL SEVEN COMMAND ISSUED - DRIVER ERROR RAIX .STPS,00 SRLE TERMINATE PRU STREAM - DRIVER ERROR RAIX .SPST,00 SRLE PRU STREAM TERMINATED - DRIVER ERROR RAIX .SFEI,06 SRNA,STS61 FRONT END INOPERATIVE - CHANGE STATE RAIX .SBPE,06 SRNA,STS61 BLOCK PROTOCOL ERROR - CHANGE STATE RAIX .SL7E,00 SRLE LEVEL SEVEN ERROR - DRIVER ERROR RAIX .SDLE,00 SRLE DRIVER LOGIC ERROR - DRIVER ERROR STS6RT SPACE 2,10 .STATE SET STS6 RAIC 1 RESP SRNA,STS61 12 - CHANGE STATE RESP SRWC,STS62 11 - WORKLIST COMPLETED RESP SRIL 10 - BLOCK PROTOCOL ERROR RESP SRQW 9 - QUEUE WORKLIST COMMAND RESP SRRB,STS13 8 - RETURN BUFFER RESP SRRB,STS16 7 - RETURN,BUFFER RESP SRWC 6 - SET WORKLIST COMPLETED RESP SRWC,STS16 5 - SET WORKLIST COMPLETED RESP SRWC,STS7 4 - SET WORKLIST COMPLETED RESP SRAE 3 - APPLICATION ERROR RESP SRNA 2 - NO ACTION RESP SRIP 1 - INPUT PRU DATA TO QUEUE RESP SRLE 0 - DRIVER ERROR STS6RT BSS 0 STATE 6 - WAIT JOB VALIDATION RAIX .SRID,01 SRIP INPUT DATA - INPUT PRU DATA TO QUEUE RAIX .SRIB,02 SRNA INPUT BACK - NO ACTION RAIX .SRII,00 SRLE INVALID IVT INPUT - DRIVER ERROR RAIX .SROD,00 SRLE OUTPUT DATA - DRIVER ERROR RAIX .SSJS,03 SRAE START PRU JOB STREAM - APPLICATION ERROR RAIX .SSDS,03 SRAE START PRU DATA STREAM - APPKCATION ERROR RAIX .SFTI,03 SRAE START INBOUND FILE - APPLICATION ERROR RAIX .SFTO,03 SRAE START OUTBOUND FILE - APPLICATION ERROR RAIX .SJBV,04 SRWC,STS7 VALID JOB - SET WORKLIST COMPLETED RAIX .SJBE,05 SRWC,STS16 INVALID JOB - SET WORKLIST COMPLETED RAIX .SSPS,03 SRAE STOP PRU STREAM - APPLICATION ERROR RAIX .SRST,06 SRWC RESTART PRU STREAM - WORKLIST COMPLETED RAIX .SBYP,07 SRRB,STS16 BYPASS PRU STREAM - RETURN BUFFER RAIX .SABT,08 SRRB,STS13 ABORT PRU STREAM - RETURN BUFFER RAIX .SASD,03 SRAE ABORT DATA DELIMITER - APPLICATION ERROR RAIX .SROS,03 SRAE RESUME OUTPUT STREAM - APPLICATION ERROR RAIX .SDOR,03 SRAE DIRECT OUTPUT REQUEST - APPLICATION ERROR RAIX .SEOR,03 SRAE EOJ OUTPUT REQUEST - APPLICATION ERROR RAIX .SSFC,03 SRAE SET FILE - APPLICATION ERROR RAIX .SSDC,03 SRAE SET DEVICE - APPLICATION ERROR RAIX .SCMQ,09 SRQW COMMAND QUEUED - QUEUE WORKLIST COMMAND RAIX .SQID,00 SRLE QUEUED INPUT DATA - DRIVER ERROR RAIX .SOPA,00 SRLE OUTPUT ALLOWED - DRIVER ERROR RAIX .SNOA,00 SRLE NO OUTPUT ACTIVITY - DRIVER ERROR RAIX .SSTP,00 SRLE STREAM STOPPED - DRIVER ERROR RAIX .SSBI,00 SRLE BATCH INTERRUPT - DRIVER ERROR RAIX .SEOI,00 SRLE END OF INFORMATION - DRIVER ERROR RAIX .SEND,00 SRLE END OF STREAM - DRIVER ERROR RAIX .SSAB,00 SRLE STREAM ABORTED - DRIVER ERROR RAIX .SICR,10 SRIL ICMD RESPONSE - BLOCK PROTOCOL ERROR RAIX .SICI,00 SRLE ICMD ISSUED - DRIVER ERROR RAIX .SNCI,00 SRLE FRONT END COMMAND ISSUED - DRIVER ERROR RAIX .SRSI,00 SRLE RESET ISSUED - DRIVER ERROR RAIX .SARQ,00 SRLE APPLICATION REQUESTED - DRIVER ERROR RAIX .SMSR,00 SRLE MASS STORAGE REQUESTED - DRIVER ERROR RAIX .SMSC,00 SRLE MASS STORAGE COMPLETED - DRIVER ERROR RAIX .SMSE,00 SRLE MASS STORAGE EOI - DRIVER ERROR RAIX .SMER,00 SRLE MASS STORAGE ERROR - DRIVER ERROR RAIX .SFTE,00 SRLE END OF FILE TRANSFER - DRIVER ERROR RAIX .SFTR,00 SRLE TRANSFER MASS STORAGE ERROR - DRIVER ERROR RAIX .S7MS,00 SRLE CHECKMARK - DRIVER ERROR RAIX .S7ES,00 SRLE END OF STREAM - DRIVER ERROR RAIX .S7RR,00 SRLE REQUEST RESTART - DRIVER ERROR RAIX .S7MR,00 SRLE CHECKMARK REPLY - DRIVER ERROR RAIX .S7QR,00 SRLE QUIT - DRIVER ERROR RAIX .S7CI,00 SRLE LEVEL SEVEN COMMAND ISSUED - DRIVER ERROR RAIX .STPS,11 SRWC,STS62 TERMINATE PRU STREAM - WORKLIST COMPLETED RAIX .SPST,00 SRLE PRU STREAM TERMINATED - DRIVER ERROR RAIX .SFEI,12 SRNA,STS61 FRONT END INOPERATIVE - CHANGE STATE RAIX .SBPE,12 SRNA,STS61 BLOCK PROTOCOL ERROR - CHANGE STATE RAIX .SL7E,00 SRLE LEVEL SEVEN ERROR - DRIVER ERROR RAIX .SDLE,00 SRLE DRIVER LOGIC ERROR - DRIVER ERROR STS7RT SPACE 2,10 .STATE SET STS7 RAIC 0 RESP SRNA,STS59 6 - CHANGE STATE RESP SRNA,STS8 5 - CHANGE STATE RESP SRIL 4 - BLOCK PROTOCOL ERROR RESP SRQW 3 - QUEUE WORKLIST COMMAND RESP SRNA 2 - NO ACTION RESP SRIP 1 - INPUT PRU DATA TO QUEUE RESP SRLE 0 - DRIVER ERROR STS7RT BSS 0 STATE 7 REQUEST MASS STORAGE OUTPUT RAIX .SRID,01 SRIP INPUT DATA - INPUT PRU DATA TO QUEUE RAIX .SRIB,02 SRNA INPUT BACK - NO ACTION RAIX .SRII,00 SRLE INVALID IVT INPUT - DRIVER ERROR RAIX .SROD,00 SRLE OUTPUT DATA - DRIVER ERROR RAIX .SSJS,00 SRLE START PRU JOB STREAM - DRIVER ERROR RAIX .SSDS,00 SRLE START PRU DATA STREAM - DRIVER ERROR RAIX .SFTI,00 SRLE START INBOUND FILE TRANSFER - DRIVER ERROR RAIX .SFTO,00 SRLE START OUTBOUND FILE TRANSFER - DRIVER ERROR RAIX .SJBV,00 SRLE VALID JOB - DRIVER ERROR RAIX .SJBE,00 SRLE INVALID JOB - DRIVER ERROR RAIX .SSPS,00 SRLE STOP PRU STREAM - DRIVER ERROR RAIX .SRST,00 SRLE RESTART PRU STREAM - DRIVER ERROR RAIX .SBYP,00 SRLE BYPASS PRU STREAM - DRIVER ERROR RAIX .SABT,00 SRLE ABORT PRU STREAM - DRIVER ERROR RAIX .SASD,00 SRLE ABORT DATA DELIMITER - DRIVER ERROR RAIX .SROS,00 SRLE RESUME OUTPUT STREAM - DRIVER ERROR RAIX .SDOR,00 SRLE DIRECT OUTPUT REQUEST - DRIVER ERROR RAIX .SEOR,00 SRLE EOJ OUTPUT REQUEST - DRIVER ERROR RAIX .SSFC,00 SRLE SET FILE CHARACTERISTICS - DRIVER ERROR RAIX .SSDC,00 SRLE SET DEVICE CHARACTERISTICS - DRIVER ERROR RAIX .SCMQ,03 SRQW COMMAND QUEUED - QUEUE WORKLIST COMMAND RAIX .SQID,00 SRLE QUEUED INPUT DATA - DRIVER ERROR RAIX .SOPA,00 SRLE OUTPUT ALLOWED - DRIVER ERROR RAIX .SNOA,00 SRLE NO OUTPUT ACTIVITY - DRIVER ERROR RAIX .SSTP,00 SRLE STREAM STOPPED - DRIVER ERROR RAIX .SSBI,00 SRLE BATCH INTERRUPT - DRIVER ERROR RAIX .SEOI,00 SRLE END OF INFORMATION - DRIVER ERROR RAIX .SEND,00 SRLE END OF STREAM - DRIVER ERROR RAIX .SSAB,00 SRLE STREAM ABORTED - DRIVER ERROR RAIX .SICR,04 SRIL ICMD RESPONSE - BLOCK PROTOCOL ERROR RAIX .SICI,00 SRLE ICMD ISSUED - DRIVER ERROR RAIX .SNCI,00 SRLE FRONT END COMMAND ISSUED - DRIVER ERROR RAIX .SRSI,00 SRLE RESET ISSUED - DRIVER ERROR RAIX .SARQ,00 SRLE APPLICATION REQUESTED - DRIVER ERROR RAIX .SMSR,05 SRNA,STS8 MASS STORAGE REQUESTED - CHANGE STATE RAIX .SMSC,00 SRLE MASS STORAGE COMPLETED - DRIVER ERROR RAIX .SMSE,00 SRLE MASS STORAGE EOI - DRIVER ERROR RAIX .SMER,00 SRLE MASS STORAGE ERROR - DRIVER ERROR RAIX .SFTE,00 SRLE END OF FILE TRANSFER - DRIVER ERROR RAIX .SFTR,00 SRLE TRANSFER MASS STORAGE ERROR - DRIVER ERROR RAIX .S7MS,00 SRLE CHECKMARK - DRIVER ERROR RAIX .S7ES,00 SRLE END OF STREAM - DRIVER ERROR RAIX .S7RR,00 SRLE REQUEST RESTART - DRIVER ERROR RAIX .S7MR,00 SRLE CHECKMARK REPLY - DRIVER ERROR RAIX .S7QR,00 SRLE QUIT - DRIVER ERROR RAIX .S7CI,00 SRLE LEVEL SEVEN COMMAND ISSUED - DRIVER ERROR RAIX .STPS,00 SRLE TERMINATE PRU STREAM - DRIVER ERROR RAIX .SPST,00 SRLE PRU STREAM TERMINATED - DRIVER ERROR RAIX .SFEI,02 SRNA FRONT END INOPERATIVE - NO ACTION RAIX .SBPE,02 SRNA BLOCK PROTOCOL ERROR - NO ACTION RAIX .SL7E,06 SRNA,STS59 LEVEL SEVEN ERROR - CHANGER STATE RAIX .SDLE,00 SRLE DRIVER LOGIC ERROR - DRIVER ERROR STS8RT SPACE 2,10 .STATE SET STS8 RAIC 1 RESP SRNA,STS59 10 - CHANGE STATE RESP SRRB,STS60 9 - RETURN BUFFER RESP SRRB,STS20 8 - RETURN BUFFER RESP SRRB,STS15 7 - RETURN BUFFER RESP SRRB,STS10 6 - RETURN BUFFER RESP SRRB,STS9 5 - RETURN BUFFER RESP SRIL 4 - BLOCK PROROCOL ERROR RESP SRQW 3 - QUEUE WORKLIST COMMAND RESP SRNA 2 - NO ACTION RESP SRIP 1 - INPUT DATA TO QUEUE RESP SRLE 0 - DRIVER ERROR STS8RT BSS 0 STATE 8 - WAIT MASS STORAGE COMPLETE RAIX .SRID,01 SRIP INPUT DATA - INPUT DATA TO QUEUE RAIX .SRIB,02 SRNA INPUT BACK - NO ACTION RAIX .SRII,00 SRLE INVALID IVT INPUT - DRIVER ERROR RAIX .SROD,00 SRLE OUTPUT DATA - DRIVER ERROR RAIX .SSJS,00 SRLE START PRU JOB STREAM - DRIVER ERROR RAIX .SSDS,00 SRLE START PRU DATA STREAM - DRIVER ERROR RAIX .SFTI,00 SRLE START INBOUND FILE TRANSFER - DRIVER ERROR RAIX .SFTO,00 SRLE START OUTBOUND FILE TRANSFER - DRIVER ERROR RAIX .SJBV,00 SRLE VALID JOB - DRIVER ERROR RAIX .SJBE,00 SRLE INVALID JOB - DRIVER ERROR RAIX .SSPS,00 SRLE STOP PRU STREAM - DRIVER ERROR RAIX .SRST,00 SRLE RESTART PRU STREAM - DRIVER ERROR RAIX .SBYP,00 SRLE BYPASS PRU STREAM - DRIVER ERROR RAIX .SABT,00 SRLE ABORT PRU STREAM - DRIVER ERROR RAIX .SASD,00 SRLE ABORT DATA DELIMITER - DRIVER ERROR RAIX .SROS,00 SRLE RESUME OUTPUT STREAM - DRIVER ERROR RAIX .SDOR,00 SRLE DIRECT OUTPUT REQUEST - DRIVER ERROR RAIX .SEOR,00 SRLE EOJ OUTPUT REQUEST - DRIVER ERROR RAIX .SSFC,00 SRLE SET FILE CHARACTERISTICS - DRIVER ERROR RAIX .SSDC,00 SRLE SET DEVICE CHARACTERISTICS - DRIVER ERROR RAIX .SCMQ,03 SRQW COMMAND QUEUED - QUEUE WORKLIST COMMAND RAIX .SQID,00 SRLE QUEUED INPUT DATA - DRIVER ERROR RAIX .SOPA,00 SRLE OUTPUT ALLOWED - DRIVER ERROR RAIX .SNOA,00 SRLE NO OUTPUT ACTIVITY - DRIVER ERROR RAIX .SSTP,00 SRLE STREAM STOPPED - DRIVER ERROR RAIX .SSBI,00 SRLE BATCH INTERRUPT - DRIVER ERROR RAIX .SEOI,00 SRLE END OF INFORMATION - DRIVER ERROR RAIX .SEND,00 SRLE END OF STREAM - DRIVER ERROR RAIX .SSAB,00 SRLE STREAM ABORTED - DRIVER ERROR RAIX .SICR,04 SRIL ICMD RESPONSE - BLOCK PROTOCOL ERROR RAIX .SICI,00 SRLE ICMD ISSUED - DRIVER ERROR RAIX .SNCI,00 SRLE FRONT END COMMAND ISSUED - DRIVER ERROR RAIX .SRSI,00 SRLE RESET ISSUED - DRIVER ERROR RAIX .SARQ,00 SRLE APPLICATION REQUESTED - DRIVER ERROR RAIX .SMSR,00 SRLE MASS STORAGE REQUESTED - DRIVER ERROR RAIX .SMSC,05 SRRB,STS9 MASS STORAGE COMPLETED - RETURN BUFFER RAIX .SMSE,06 SRRB,STS10 MASS STORAGE EOI - RETURN BUFFER RAIX .SMER,07 SRRB,STS15 MASS STORAGE ERROR - RETURN BUFFER RAIX .SFTE,08 SRRB,STS20 END OF FILE TRANSFER - RETURN BUFFER RAIX .SFTR,09 SRRB,STS60 TRANSFER MASS STORAGE ERROR - RETURN BUFFER RAIX .S7MS,00 SRLE CHECKMARK - DRIVER ERROR RAIX .S7ES,00 SRLE END OF STREAM - DRIVER ERROR RAIX .S7RR,00 SRLE REQUEST RESTART - DRIVER ERROR RAIX .S7MR,00 SRLE CHECKMARK REPLY - DRIVER ERROR RAIX .S7QR,00 SRLE QUIT - DRIVER ERROR RAIX .S7CI,00 SRLE LEVEL SEVEN COMMAND ISSUED - DRIVER ERROR RAIX .STPS,00 SRLE TERMINATE PRU STREAM - DRIVER ERROR RAIX .SPST,00 SRLE PRU STREAM TERMINATED - DRIVER ERROR RAIX .SFEI,02 SRNA FRONT END INOPERATIVE - NO ACTION RAIX .SBPE,02 SRNA BLOCK PROTOCOL ERROR - NO ACTION RAIX .SL7E,10 SRNA,STS59 LEVEL SEVEN ERROR - CHANGE STATE RAIX .SDLE,00 SRLE DRIVER LOGIC ERROR - DRIVER ERROR STS9RT SPACE 2,10 .STATE SET STS9 RAIC 1 RESP SRTW,STS61 16 - TRANSFER WORKLIST RESP SRNA,STS59 15 - CHANGE STATE RESP SRNA,STS61 14 - CHANGE STATE RESP SRWC,STS62 13 - WORKLIST COMPLETED RESP S7IL 12 - LEVEL SEVEN ERROR RESP SRQA,STS22 11 - ADVANCE QUEUE RESP SRIL 10 - BLOCK PROTOCOL ERROR RESP SRAQ,STS11 9 - ADVANCE QUEUE RESP SRNA,STS7 8 - CHANGE STATE RESP SRQW 7 - QUEUE WORKLIST COMMAND RESP SRNA,STS13 6 - CHANGE STATE RESP SRNA,STS16 5 - CHANGE STATE RESP SRWC 4 - WORKLIST COMPLETED RESP SRAE 3 - APPLICATION ERROR RESP SRNA 2 - NO ACTION RESP SRIP 1 - INPUT DATA TO QUEUE RESP SRLE 0 - DRIVER ERROR STS9RT BSS 0 STATE 9 - PRU INPUT ACTIVE RAIX .SRID,01 SRIP INPUT DATA - INPUT DATA TO QUEUE RAIX .SRIB,02 SRNA INPUT BACK - NO ACTION RAIX .SRII,00 SRLE INVALID IVT INPUT - DRIVER ERROR RAIX .SROD,00 SRLE OUTPUT DATA - DRIVER ERROR RAIX .SSJS,03 SRAE START PRU JOB STREAM - APPLICATION ERROR RAIX .SSDS,03 SRAE START PRU DATA STREAM - APPKCATION ERROR RAIX .SFTI,03 SRAE START INBOUND FILE - APPLICATION ERROR RAIX .SFTO,03 SRAE START OUTBOUND FILE - APPLICATION ERROR RAIX .SJBV,03 SRAE VALID JOB - APPLICATION ERROR RAIX .SJBE,03 SRAE INVALID JOB - APPLICATION ERROR RAIX .SSPS,03 SRAE STOP PRU STREAM - APPLICATION ERROR RAIX .SRST,04 SRWC RESTART PRU STREAM - WORKLIST COMPLETED RAIX .SBYP,05 SRNA,STS16 BYPASS PRU STREAM - CHANGE STATE RAIX .SABT,06 SRNA,STS13 ABORT PRU STREAM - CHANGE STATE RAIX .SASD,03 SRAE ABORT DATA DELIMITER - APPLICATION ERROR RAIX .SROS,03 SRAE RESUME OUTPUT STREAM - APPLICATION ERROR RAIX .SDOR,03 SRAE DIRECT OUTPUT REQUEST - APPLICATION ERROR RAIX .SEOR,03 SRAE EOJ OUTPUT REQUEST - APPLICATION ERROR RAIX .SSFC,03 SRAE SET FILE - APPLICATION ERROR RAIX .SSDC,03 SRAE SET DEVICE - APPLICATION ERROR RAIX .SCMQ,07 SRQW COMMAND QUEUED - QUEUE WORKLIST COMMAND RAIX .SQID,08 SRNA,STS7 QUEUED INPUT DATA - CHANGE STATE RAIX .SOPA,00 SRLE OUTPUT ALLOWED - DRIVER ERROR RAIX .SNOA,00 SRLE NO OUTPUT ACTIVITY - DRIVER ERROR RAIX .SSTP,09 SRAQ,STS11 STREAM STOPPED - ADVANCE QUEUE RAIX .SSBI,09 SRAQ,STS11 BATCH INTERRUPT - ADVANCE QUEUE RAIX .SEOI,10 SRIL END OF INFORMATION - BLOCK PROTOCOL ERROR RAIX .SEND,10 SRIL END OF STREAM - BLOCK PROTOCOL ERROR RAIX .SSAB,10 SRIL STREAM ABORTED - BLOCK PROTOCOL ERROR RAIX .SICR,10 SRIL ICMD RESPONSE - BLOCK PROTOCOL ERROR RAIX .SICI,00 SRLE ICMD ISSUED - DRIVER ERROR RAIX .SNCI,00 SRLE FRONT END COMMAND ISSUED - DRIVER ERROR RAIX .SRSI,00 SRLE RESET ISSUED - DRIVER ERROR RAIX .SARQ,16 SRTW,STS61 APPLICATION REQUESTED - TRANSFER WORKLIST RAIX .SMSR,00 SRLE MASS STORAGE REQUESTED - DRIVER ERROR RAIX .SMSC,00 SRLE MASS STORAGE COMPLETED - DRIVER ERROR RAIX .SMSE,00 SRLE MASS STORAGE EOI - DRIVER ERROR RAIX .SMER,00 SRLE MASS STORAGE ERROR - DRIVER ERROR RAIX .SFTE,00 SRLE END OF FILE TRANSFER - DRIVER ERROR RAIX .SFTR,00 SRLE TRANSFER MASS STORAGE ERROR - DRIVER ERROR RAIX .S7MS,11 SRQA,STS22 CHECKMARK - ADVANCE QUEUE RAIX .S7ES,12 S7IL END OF STREAM - LEVEL SEVEN ERROR RAIX .S7RR,12 S7IL REQUEST RESTART - LEVEL SEVEN ERROR RAIX .S7MR,12 S7IL CHECKMARK REPLY - LEVEL SEVEN ERROR RAIX .S7QR,12 S7IL QUIT - LEVEL SEVEN ERROR RAIX .S7CI,00 SRLE LEVEL SEVEN COMMAND ISSUED - DRIVER ERROR RAIX .STPS,13 SRWC,STS62 TERMINATE PRU STREAM - WORKLIST COMPLETED RAIX .SPST,00 SRLE PRU STREAM TERMINATED - DRIVER ERROR RAIX .SFEI,14 SRNA,STS61 FRONT END INOPERATIVE - CHANGE STATE RAIX .SBPE,14 SRNA,STS61 BLOCK PROTOCOL ERROR - CHANGE STATE RAIX .SL7E,15 SRNA,STS59 LEVEL SEVEN ERROR - CHANGE STATE RAIX .SDLE,00 SRLE DRIVER LOGIC ERROR - DRIVER ERROR STS10RT SPACE 2,10 .STATE SET STS10 RAIC 1 RESP SRNA,STS61 12 - CHANGE STATE RESP SRWC,STS62 11 - WORKLIST COMPLETED RESP SRIL 10 - BLOCK PROTOCOL ERROR RESP SRAQ,STS4 9 - ADVANCE QUEUE RESP SRAQ,STS11 8 - ADVANCE QUEUE RESP SRNA,STS7 7 - CHANGE STATE RESP SRQW 6 - QUEUE WORKLIST COMMAND RESP SRNA,STS13 5 - CHANGE STATE RESP SRWC 4 - WORKLIST COMPLETED RESP SRAE 3 - APPLICATION ERROR RESP SRNA 2 - NO ACTION RESP SRIP 1 - INPUT DATA TO QUEUE RESP SRLE 0 - DRIVER ERROR STS10RT BSS 0 STATE 10 - EOI WRITTEN TO MASS STORAGE RAIX .SRID,01 SRIP INPUT DATA - INPUT DATA TO QUEUE RAIX .SRIB,02 SRNA INPUT BACK - NO ACTION RAIX .SRII,00 SRLE INVALID IVT INPUT - DRIVER ERROR RAIX .SROD,00 SRLE OUTPUT DATA - DRIVER ERROR RAIX .SSJS,03 SRAE START PRU JOB STREAM - APPLICATION ERROR RAIX .SSDS,03 SRAE START PRU DATA STREAM - APPKCATION ERROR RAIX .SFTI,03 SRAE START INBOUND FILE - APPLICATION ERROR RAIX .SFTO,03 SRAE START OUTBOUND FILE - APPLICATION ERROR RAIX .SJBV,03 SRAE VALID JOB - APPLICATION ERROR RAIX .SJBE,03 SRAE INVALID JOB - APPLICATION ERROR RAIX .SSPS,03 SRAE STOP PRU STREAM - APPLICATION ERROR RAIX .SRST,04 SRWC RESTART PRU STREAM - WORKLIST COMPLETED RAIX .SBYP,04 SRWC BYPASS PRU STREAM - SET WORKLIST COMPLETED RAIX .SABT,05 SRNA,STS13 ABORT PRU STREAM - CHANGE STATE RAIX .SASD,03 SRAE ABORT DATA DELIMITER - APPLICATION ERROR RAIX .SROS,03 SRAE RESUME OUTPUT STREAM - APPLICATION ERROR RAIX .SDOR,03 SRAE DIRECT OUTPUT REQUEST - APPLICATION ERROR RAIX .SEOR,03 SRAE EOJ OUTPUT REQUEST - APPLICATION ERROR RAIX .SSFC,03 SRAE SET FILE - APPLICATION ERROR RAIX .SSDC,03 SRAE SET DEVICE - APPLICATION ERROR RAIX .SCMQ,06 SRQW COMMAND QUEUED - QUEUE WORKLIST COMMAND RAIX .SQID,07 SRNA,STS7 QUEUED INPUT DATA - CHANGE STATE RAIX .SOPA,00 SRLE OUTPUT ALLOWED - DRIVER ERROR RAIX .SNOA,00 SRLE NO OUTPUT ACTIVITY - DRIVER ERROR RAIX .SSTP,08 SRAQ,STS11 STREAM STOPPED - ADVANCE QUEUE RAIX .SSBI,08 SRAQ,STS11 BATCH INTERRUPT - ADVANCE QUEUE RAIX .SEOI,09 SRAQ,STS4 END OF INFORMATION - ADVANCE QUEUE RAIX .SEND,10 SRIL END OF STREAM - BLOCK PROTOCOL ERROR RAIX .SSAB,10 SRIL STREAM ABORTED - BLOCK PROTOCOL ERROR RAIX .SICR,10 SRIL ICMD RESPONSE - BLOCK PROTOCOL ERROR RAIX .SICI,00 SRLE ICMD ISSUED - DRIVER ERROR RAIX .SNCI,00 SRLE FRONT END COMMAND ISSUED - DRIVER ERROR RAIX .SRSI,00 SRLE RESET ISSUED - DRIVER ERROR RAIX .SARQ,00 SRLE APPLICATION REQUESTED - DRIVER ERROR RAIX .SMSR,00 SRLE MASS STORAGE REQUESTED - DRIVER ERROR RAIX .SMSC,00 SRLE MASS STORAGE COMPLETED - DRIVER ERROR RAIX .SMSE,00 SRLE MASS STORAGE EOI - DRIVER ERROR RAIX .SMER,00 SRLE MASS STORAGE ERROR - DRIVER ERROR RAIX .SFTE,00 SRLE END OF FILE TRANSFER - DRIVER ERROR RAIX .SFTR,00 SRLE TRANSFER MASS STORAGE ERROR - DRIVER ERROR RAIX .S7MS,10 SRIL CHECKMARK - BLOCK PROTOCOL ERROR RAIX .S7ES,10 SRIL END OF STREAM - BLOCK PROTOCOL ERROR RAIX .S7RR,10 SRIL REQUEST RESTART - BLOCK PROTOCOL ERROR RAIX .S7MR,10 SRIL CHECKMARK REPLY - BLOCK PROTOCOL ERROR RAIX .S7QR,10 SRIL QUIT - BLOCK PROTOCOL ERROR RAIX .S7CI,00 SRLE LEVEL SEVEN COMMAND ISSUED - DRIVER ERROR RAIX .STPS,11 SRWC,STS62 TERMINATE PRU STREAM - WORKLIST COMPLETED RAIX .SPST,00 SRLE PRU STREAM TERMINATED - DRIVER ERROR RAIX .SFEI,12 SRNA,STS61 FRONT END INOPERATIVE - CHANGE STATE RAIX .SBPE,12 SRNA,STS61 BLOCK PROTOCOL ERROR - CHANGE STATE RAIX .SL7E,00 SRLE LEVEL SEVEN ERROR - DRIVER ERROR RAIX .SDLE,00 SRLE DRIVER LOGIC ERROR - DRIVER ERROR STS11RT SPACE 2,10 .STATE SET STS11 RAIC 1 RESP SRNA,STS61 13 - CHANGE STATE RESP SRWC,STS62 12 - WORKLIST COMPLETED RESP SRIL 11 - BLOCK PROTOCOL ERROR RESP SRAQ 10 - ADVANCE QUEUE RESP SRQW 9 - QUEUE WORKLIST COMMAND RESP SRNA,STS13 8 - CHANGE STATE RESP SRSB 7 - SET OLD STREAM STATE RESP SRNA,STS12 6 - CHANGE STATE RESP SRAE 5 - APPLICATION ERROR RESP SRWC 4 - SET WORKLIST COMPLETED RESP SRRS,** 3 - RETURN TO OLD STATE RESP SRNA 2 - NO ACTION RESP SRIP 1 - INPUT DATA TO QUEUE RESP SRLE 0 - DRIVER ERROR STS11RT BSS 0 STATE 11 - STREAM STOPPED EXTERNALLY RAIX .SRID,01 SRIP INPUT DATA - INPUT DATA TO QUEUE RAIX .SRIB,02 SRNA INPUT BACK - NO ACTION RAIX .SRII,00 SRLE INVALID IVT INPUT - DRIVER ERROR RAIX .SROD,00 SRLE OUTPUT DATA - DRIVER ERROR RAIX .SSJS,03 SRRS,** START PRU JOB STREAM - RETURN TO OLD STATE RAIX .SSDS,03 SRRS,** START PRU DATA STREAM - RETURN TO OLD STATE RAIX .SFTI,00 SRLE START INBOUND FILE TRANSFER - DRIVER ERROR RAIX .SFTO,00 SRLE START OUTBOUND FILE TRANSFER - DRIVER ERROR RAIX .SJBV,04 SRWC VALID JOB - SET WORKLIST COMPLETED RAIX .SJBE,04 SRWC INVALID JOB - SET WORKLIST COMPLETED RAIX .SSPS,05 SRAE STOP PRU STREAM - APPLICATION ERROR RAIX .SRST,06 SRNA,STS12 RESTART PRU STREAM - CHANGE STATE RAIX .SBYP,07 SRSB BYPASS PRU STREAM - SET OLD STREAM STATE RAIX .SABT,08 SRNA,STS13 ABORT PRU STREAM - CHANGE STATE RAIX .SASD,05 SRAE ABORT DATA DELIMITER - APPLICATION ERROR RAIX .SROS,05 SRAE RESUME OUTPUT STREAM - APPLICATION ERROR RAIX .SDOR,05 SRAE DIRECT OUTPUT REQUEST - APPLICATION ERROR RAIX .SEOR,05 SRAE EOJ OUTPUT REQUEST - APPLICATION ERROR RAIX .SSFC,05 SRAE SET FILE - APPLICATION ERROR RAIX .SSDC,05 SRAE SET DEVICE - APPLICATION ERROR RAIX .SCMQ,09 SRQW COMMAND QUEUED - QUEUE WORKLIST COMMAND RAIX .SQID,03 SRRS,** QUEUED INPUT DATA - RETURN TO OLD STATE RAIX .SOPA,00 SRLE OUTPUT ALLOWED - DRIVER ERROR RAIX .SNOA,00 SRLE NO OUTPUT ACTIVITY - DRIVER ERROR RAIX .SSTP,10 SRAQ STREAM STOPPED - ADVANCE QUEUE RAIX .SSBI,10 SRAQ BATCH INTERRUPT - ADVANCE QUEUE RAIX .SEOI,03 SRRS,** END OF INFORMATION - RETURN TO OLD STATE RAIX .SEND,03 SRRS,** END OF STREAM - RETURN TO OLD STATE RAIX .SSAB,11 SRIL STREAM ABORTED - BLOCK PROTOCOL ERROR RAIX .SICR,11 SRIL ICMD RESPONSE - BLOCK PROTOCOL ERROR RAIX .SICI,00 SRLE ICMD ISSUED - DRIVER ERROR RAIX .SNCI,00 SRLE FRONT END COMMAND ISSUED - DRIVER ERROR RAIX .SRSI,00 SRLE RESET ISSUED - DRIVER ERROR RAIX .SARQ,00 SRLE APPLICATION REQUESTED - DRIVER ERROR RAIX .SMSR,00 SRLE MASS STORAGE REQUESTED - DRIVER ERROR RAIX .SMSC,00 SRLE MASS STORAGE COMPLETED - DRIVER ERROR RAIX .SMSE,00 SRLE MASS STORAGE EOI - DRIVER ERROR RAIX .SMER,00 SRLE MASS STORAGE ERROR - DRIVER ERROR RAIX .SFTE,00 SRLE END OF FILE TRANSFER - DRIVER ERROR RAIX .SFTR,00 SRLE TRANSFER MASS STORAGE ERROR - DRIVER ERROR RAIX .S7MS,11 SRIL CHECKMARK - BLOCK PROTOCOL ERROR RAIX .S7ES,11 SRIL END OF STREAM - BLOCK PROTOCOL ERROR RAIX .S7RR,11 SRIL REQUEST RESTART - BLOCK PROTOCOL ERROR RAIX .S7MR,11 SRIL CHECKMARK REPLY - BLOCK PROTOCOL ERROR RAIX .S7QR,11 SRIL QUIT - BLOCK PROTOCOL ERROR RAIX .S7CI,00 SRLE LEVEL SEVEN COMMAND ISSUED - DRIVER ERROR RAIX .STPS,12 SRWC,STS62 TERMINATE PRU STREAM - WORKLIST COMPLETED RAIX .SPST,00 SRLE PRU STREAM TERMINATED - DRIVER ERROR RAIX .SFEI,13 SRNA,STS61 FRONT END INOPERATIVE - CHANGE STATE RAIX .SBPE,13 SRNA,STS61 BLOCK PROTOCOL ERROR - CHANGE STATE RAIX .SL7E,00 SRLE LEVEL SEVEN ERROR - DRIVER ERROR RAIX .SDLE,00 SRLE DRIVER LOGIC ERROR - DRIVER ERROR STS12RT SPACE 2,10 .STATE SET STS12 RAIC 0 RESP SRNA,STS61 7 - CHANGE STATE RESP SRWC,STS62 6 - WORKLIST COMPLETED RESP SROS,** 5 - RETURN TO OLD STATE RESP SRIL 4 - BLOCK PROTOCOL ERROR RESP SRQW 3 - QUEUE WORKLIST COMMAND RESP SRNA 2 - NO ACTION RESP SRIP 1 - INPUT DATA TO QUEUE RESP SRLE 0 - DRIVER ERROR STS12RT BSS 0 STATE 12 - ISSUE RESTART PRU INPUT STREAM RAIX .SRID,01 SRIP INPUT DATA - INPUT DATA TO QUEUE RAIX .SRIB,02 SRNA INPUT BACK - NO ACTION RAIX .SRII,00 SRLE INVALID IVT INPUT - DRIVER ERROR RAIX .SROD,00 SRLE OUTPUT DATA - DRIVER ERROR RAIX .SSJS,00 SRLE START PRU JOB STREAM - DRIVER ERROR RAIX .SSDS,00 SRLE START PRU DATA STREAM - DRIVER ERROR RAIX .SFTI,00 SRLE START INBOUND FILE TRANSFER - DRIVER ERROR RAIX .SFTO,00 SRLE START OUTBOUND FILE TRANSFER - DRIVER ERROR RAIX .SJBV,00 SRLE VALID JOB - DRIVER ERROR RAIX .SJBE,00 SRLE INVALID JOB - DRIVER ERROR RAIX .SSPS,00 SRLE STOP PRU STREAM - DRIVER ERROR RAIX .SRST,00 SRLE RESTART PRU STREAM - DRIVER ERROR RAIX .SBYP,00 SRLE BYPASS PRU STREAM - DRIVER ERROR RAIX .SABT,00 SRLE ABORT PRU STREAM - DRIVER ERROR RAIX .SASD,00 SRLE ABORT DATA DELIMITER - DRIVER ERROR RAIX .SROS,00 SRLE RESUME OUTPUT STREAM - DRIVER ERROR RAIX .SDOR,00 SRLE DIRECT OUTPUT REQUEST - DRIVER ERROR RAIX .SEOR,00 SRLE EOJ OUTPUT REQUEST - DRIVER ERROR RAIX .SSFC,00 SRLE SET FILE CHARACTERISTICS - DRIVER ERROR RAIX .SSDC,00 SRLE SET DEVICE CHARACTERISTICS - DRIVER ERROR RAIX .SCMQ,03 SRQW COMMAND QUEUED - QUEUE WORKLIST COMMAND RAIX .SQID,00 SRLE QUEUED INPUT DATA - DRIVER ERROR RAIX .SOPA,00 SRLE OUTPUT ALLOWED - DRIVER ERROR RAIX .SNOA,00 SRLE NO OUTPUT ACTIVITY - DRIVER ERROR RAIX .SSTP,00 SRLE STREAM STOPPED - DRIVER ERROR RAIX .SSBI,00 SRLE BATCH INTERRUPT - DRIVER ERROR RAIX .SEOI,00 SRLE END OF INFORMATION - DRIVER ERROR RAIX .SEND,00 SRLE END OF STREAM - DRIVER ERROR RAIX .SSAB,00 SRLE STREAM ABORTED - DRIVER ERROR RAIX .SICR,04 SRIL ICMD RESPONSE - BLOCK PROTOCOL ERROR RAIX .SICI,00 SRLE ICMD ISSUED - DRIVER ERROR RAIX .SNCI,05 SROS,** FRONT END COMMAND ISSUED - RETURN TO OLD STATE RAIX .SRSI,00 SRLE RESET ISSUED - DRIVER ERROR RAIX .SARQ,00 SRLE APPLICATION REQUESTED - DRIVER ERROR RAIX .SMSR,00 SRLE MASS STORAGE REQUESTED - DRIVER ERROR RAIX .SMSC,00 SRLE MASS STORAGE COMPLETED - DRIVER ERROR RAIX .SMSE,00 SRLE MASS STORAGE EOI - DRIVER ERROR RAIX .SMER,00 SRLE MASS STORAGE ERROR - DRIVER ERROR RAIX .SFTE,00 SRLE END OF FILE TRANSFER - DRIVER ERROR RAIX .SFTR,00 SRLE TRANSFER MASS STORAGE ERROR - DRIVER ERROR RAIX .S7MS,00 SRLE CHECKMARK - DRIVER ERROR RAIX .S7ES,00 SRLE END OF STREAM - DRIVER ERROR RAIX .S7RR,00 SRLE REQUEST RESTART - DRIVER ERROR RAIX .S7MR,00 SRLE CHECKMARK REPLY - DRIVER ERROR RAIX .S7QR,00 SRLE QUIT - DRIVER ERROR RAIX .S7CI,00 SRLE LEVEL SEVEN COMMAND ISSUED - DRIVER ERROR RAIX .STPS,06 SRWC,STS62 TERMINATE PRU STREAM - WORKLIST COMPLETED RAIX .SPST,00 SRLE PRU STREAM TERMINATED - DRIVER ERROR RAIX .SFEI,07 SRNA,STS61 FRONT END INOPERATIVE - CHANGE STATE RAIX .SBPE,07 SRNA,STS61 BLOCK PROTOCOL ERROR - CHANGE STATE RAIX .SL7E,00 SRLE LEVEL SEVEN ERROR - DRIVER ERROR RAIX .SDLE,00 SRLE DRIVER LOGIC ERROR - DRIVER ERROR STS13RT SPACE 2,10 .STATE SET STS13 RAIC 0 RESP SRNA,STS61 7 - CHANGE STATE RESP SRWC,STS62 6 - WORKLIST COMPLETED RESP SRWC,STS14 5 - WORKLIST COMPLETED RESP SRIL 4 - BLOCK PROTOCOL ERROR RESP SRQW 3 - QUEUE WORKLIST COMMAND RESP SRNA 2 - NO ACTION RESP SRIP 1 - INPUT DATA TO QUEUE RESP SRLE 0 - DRIVER ERROR STS13RT BSS 0 STATE 13 - ISSUE ABORT PRU INPUT STREAM RAIX .SRID,01 SRIP INPUT DATA - INPUT DATA TO QUEUE RAIX .SRIB,02 SRNA INPUT BACK - NO ACTION RAIX .SRII,00 SRLE INVALID IVT INPUT - DRIVER ERROR RAIX .SROD,00 SRLE OUTPUT DATA - DRIVER ERROR RAIX .SSJS,00 SRLE START PRU JOB STREAM - DRIVER ERROR RAIX .SSDS,00 SRLE START PRU DATA STREAM - DRIVER ERROR RAIX .SFTI,00 SRLE START INBOUND FILE TRANSFER - DRIVER ERROR RAIX .SFTO,00 SRLE START OUTBOUND FILE TRANSFER - DRIVER ERROR RAIX .SJBV,00 SRLE VALID JOB - DRIVER ERROR RAIX .SJBE,00 SRLE INVALID JOB - DRIVER ERROR RAIX .SSPS,00 SRLE STOP PRU STREAM - DRIVER ERROR RAIX .SRST,00 SRLE RESTART PRU STREAM - DRIVER ERROR RAIX .SBYP,00 SRLE BYPASS PRU STREAM - DRIVER ERROR RAIX .SABT,00 SRLE ABORT PRU STREAM - DRIVER ERROR RAIX .SASD,00 SRLE ABORT DATA DELIMITER - DRIVER ERROR RAIX .SROS,00 SRLE RESUME OUTPUT STREAM - DRIVER ERROR RAIX .SDOR,00 SRLE DIRECT OUTPUT REQUEST - DRIVER ERROR RAIX .SEOR,00 SRLE EOJ OUTPUT REQUEST - DRIVER ERROR RAIX .SSFC,00 SRLE SET FILE CHARACTERISTICS - DRIVER ERROR RAIX .SSDC,00 SRLE SET DEVICE CHARACTERISTICS - DRIVER ERROR RAIX .SCMQ,03 SRQW COMMAND QUEUED - QUEUE WORKLIST COMMAND RAIX .SQID,00 SRLE QUEUED INPUT DATA - DRIVER ERROR RAIX .SOPA,00 SRLE OUTPUT ALLOWED - DRIVER ERROR RAIX .SNOA,00 SRLE NO OUTPUT ACTIVITY - DRIVER ERROR RAIX .SSTP,00 SRLE STREAM STOPPED - DRIVER ERROR RAIX .SSBI,00 SRLE BATCH INTERRUPT - DRIVER ERROR RAIX .SEOI,00 SRLE END OF INFORMATION - DRIVER ERROR RAIX .SEND,00 SRLE END OF STREAM - DRIVER ERROR RAIX .SSAB,00 SRLE STREAM ABORTED - DRIVER ERROR RAIX .SICR,04 SRIL ICMD RESPONSE - BLOCK PROTOCOL ERROR RAIX .SICI,00 SRLE ICMD ISSUED - DRIVER ERROR RAIX .SNCI,05 SRWC,STS14 FRONT END COMMAND ISSUED - SET WORKLIST COMPLETED RAIX .SRSI,00 SRLE RESET ISSUED - DRIVER ERROR RAIX .SARQ,00 SRLE APPLICATION REQUESTED - DRIVER ERROR RAIX .SMSR,00 SRLE MASS STORAGE REQUESTED - DRIVER ERROR RAIX .SMSC,00 SRLE MASS STORAGE COMPLETED - DRIVER ERROR RAIX .SMSE,00 SRLE MASS STORAGE EOI - DRIVER ERROR RAIX .SMER,00 SRLE MASS STORAGE ERROR - DRIVER ERROR RAIX .SFTE,00 SRLE END OF FILE TRANSFER - DRIVER ERROR RAIX .SFTR,00 SRLE TRANSFER MASS STORAGE ERROR - DRIVER ERROR RAIX .S7MS,00 SRLE CHECKMARK - DRIVER ERROR RAIX .S7ES,00 SRLE END OF STREAM - DRIVER ERROR RAIX .S7RR,00 SRLE REQUEST RESTART - DRIVER ERROR RAIX .S7MR,00 SRLE CHECKMARK REPLY - DRIVER ERROR RAIX .S7QR,00 SRLE QUIT - DRIVER ERROR RAIX .S7CI,00 SRLE LEVEL SEVEN COMMAND ISSUED - DRIVER ERROR RAIX .STPS,06 SRWC,STS62 TERMINATE PRU STREAM - WORKLIST COMPLETED RAIX .SPST,00 SRLE PRU STREAM TERMINATED - DRIVER ERROR RAIX .SFEI,07 SRNA,STS61 FRONT END INOPERATIVE - CHANGE STATE RAIX .SBPE,07 SRNA,STS61 BLOCK PROTOCOL ERROR - CHANGE STATE RAIX .SL7E,00 SRLE LEVEL SEVEN ERROR - DRIVER ERROR RAIX .SDLE,00 SRLE DRIVER LOGIC ERROR - DRIVER ERROR STS14RT SPACE 2,10 .STATE SET STS14 RAIC 1 RESP SRNA,STS61 11 - CHANGE STATE RESP SRWC,STS62 10 - WORKLIST COMPLETED RESP SRIL 9 - BLOCK PROTOCOL ERROR RESP SRAQ,STS2 8 - ADVANCE QUEUE RESP SRAQ 7 - ADVANCE QUEUE RESP SRRB 6 - RETURN BUFFER RESP SRQW 5 - QUEUE WORKLIST COMMAND RESP SRWC 4 - SET WORKLIST COMPLETED RESP SRAE 3 - APPLICATION ERROR RESP SRNA 2 - NO ACTION RESP SRBI 1 - BYPASS INPUT RESP SRLE 0 - DRIVER ERROR STS14RT BSS 0 STATE 14 - WAIT INPUT STREAM ABORTED RAIX .SRID,01 SRBI INPUT DATA - BYPASS INPUT RAIX .SRIB,02 SRNA INPUT BACK - NO ACTION RAIX .SRII,00 SRLE INVALID IVT INPUT - DRIVER ERROR RAIX .SROD,00 SRLE OUTPUT DATA - DRIVER ERROR RAIX .SSJS,03 SRAE START PRU JOB STREAM - APPLICATION ERROR RAIX .SSDS,03 SRAE START PRU DATA STREAM - APPKCATION ERROR RAIX .SFTI,03 SRAE START INBOUND FILE - APPLICATION ERROR RAIX .SFTO,03 SRAE START OUTBOUND FILE - APPLICATION ERROR RAIX .SJBV,04 SRWC VALID JOB - SET WORKLIST COMPLETED RAIX .SJBE,04 SRWC INVALID JOB - SET WORKLIST COMPLETED RAIX .SSPS,03 SRAE STOP PRU STREAM - APPLICATION ERROR RAIX .SRST,04 SRWC RESTART PRU STREAM - WORKLIST COMPLETED RAIX .SBYP,03 SRAE BYPASS PRU STREAM - APPLICATION ERROR RAIX .SABT,03 SRAE ABORT PRU STREAM - APPLICATION ERROR RAIX .SASD,03 SRAE ABORT DATA DELIMITER - APPLICATION ERROR RAIX .SROS,03 SRAE RESUME OUTPUT STREAM - APPLICATION ERROR RAIX .SDOR,03 SRAE DIRECT OUTPUT REQUEST - APPLICATION ERROR RAIX .SEOR,03 SRAE EOJ OUTPUT REQUEST - APPLICATION ERROR RAIX .SSFC,03 SRAE SET FILE - APPLICATION ERROR RAIX .SSDC,03 SRAE SET DEVICE - APPLICATION ERROR RAIX .SCMQ,05 SRQW COMMAND QUEUED - QUEUE WORKLIST COMMAND RAIX .SQID,06 SRRB QUEUED INPUT DATA - RETURN BUFFER RAIX .SOPA,00 SRLE OUTPUT ALLOWED - DRIVER ERROR RAIX .SNOA,00 SRLE NO OUTPUT ACTIVITY - DRIVER ERROR RAIX .SSTP,07 SRAQ STREAM STOPPED - ADVANCE QUEUE RAIX .SSBI,07 SRAQ BATCH INTERRUPT - ADVANCE QUEUE RAIX .SEOI,07 SRAQ END OF INFORMATION ADVANCE QUEUE RAIX .SEND,08 SRAQ,STS2 END OF STREAM - ADVANCE QUEUE RAIX .SSAB,08 SRAQ,STS2 STREAM ABORTED - ADVANCE QUEUE RAIX .SICR,09 SRIL ICMD RESPONSE - BLOCK PROTOCOL ERROR RAIX .SICI,00 SRLE ICMD ISSUED - DRIVER ERROR RAIX .SNCI,00 SRLE FRONT END COMMAND ISSUED - DRIVER ERROR RAIX .SRSI,00 SRLE RESET ISSUED - DRIVER ERROR RAIX .SARQ,00 SRLE APPLICATION REQUESTED - DRIVER ERROR RAIX .SMSR,00 SRLE MASS STORAGE REQUESTED - DRIVER ERROR RAIX .SMSC,00 SRLE MASS STORAGE COMPLETED - DRIVER ERROR RAIX .SMSE,00 SRLE MASS STORAGE EOI - DRIVER ERROR RAIX .SMER,00 SRLE MASS STORAGE ERROR - DRIVER ERROR RAIX .SFTE,00 SRLE END OF FILE TRANSFER - DRIVER ERROR RAIX .SFTR,00 SRLE TRANSFER MASS STORAGE ERROR - DRIVER ERROR RAIX .S7MS,09 SRIL CHECKMARK - BLOCK PROTOCOL ERROR RAIX .S7ES,09 SRIL END OF STREAM - BLOCK PROTOCOL ERROR RAIX .S7RR,09 SRIL REQUEST RESTART - BLOCK PROTOCOL ERROR RAIX .S7MR,09 SRIL CHECKMARK REPLY - BLOCK PROTOCOL ERROR RAIX .S7QR,09 SRIL QUIT - BLOCK PROTOCOL ERROR RAIX .S7CI,00 SRLE LEVEL SEVEN COMMAND ISSUED - DRIVER ERROR RAIX .STPS,10 SRWC,STS62 TERMINATE PRU STREAM - WORKLIST COMPLETED RAIX .SPST,00 SRLE PRU STREAM TERMINATED - DRIVER ERROR RAIX .SFEI,11 SRNA,STS61 FRONT END INOPERATIVE - CHANGE STATE RAIX .SBPE,11 SRNA,STS61 BLOCK PROTOCOL ERROR - CHANGE STATE RAIX .SL7E,00 SRLE LEVEL SEVEN ERROR - DRIVER ERROR RAIX .SDLE,00 SRLE DRIVER LOGIC ERROR - DRIVER ERROR STS15RT SPACE 2,10 .STATE SET STS15 RAIC 0 RESP SRNA,STS61 6 - CHANGE STATE RESP SRTW,STS16 5 - TRANSFER WORKLIST RESP SRIL 4 - BLOCK PROTOCOL ERROR RESP SRQW 3 - QUEUE WORKLIST COMMAND RESP SRNA 2 - NO ACTION RESP SRBI 1 - BYPASS INPUT RESP SRLE 0 - DRIVER ERROR STS15RT BSS 0 STATE 15 - REPORT INTERNAL STREAM STOPPED RAIX .SRID,01 SRBI INPUT DATA - BYPASS INPUT RAIX .SRIB,02 SRNA INPUT BACK - NO ACTION RAIX .SRII,00 SRLE INVALID IVT INPUT - DRIVER ERROR RAIX .SROD,00 SRLE OUTPUT DATA - DRIVER ERROR RAIX .SSJS,00 SRLE START PRU JOB STREAM - DRIVER ERROR RAIX .SSDS,00 SRLE START PRU DATA STREAM - DRIVER ERROR RAIX .SFTI,00 SRLE START INBOUND FILE TRANSFER - DRIVER ERROR RAIX .SFTO,00 SRLE START OUTBOUND FILE TRANSFER - DRIVER ERROR RAIX .SJBV,00 SRLE VALID JOB - DRIVER ERROR RAIX .SJBE,00 SRLE INVALID JOB - DRIVER ERROR RAIX .SSPS,00 SRLE STOP PRU STREAM - DRIVER ERROR RAIX .SRST,00 SRLE RESTART PRU STREAM - DRIVER ERROR RAIX .SBYP,00 SRLE BYPASS PRU STREAM - DRIVER ERROR RAIX .SABT,00 SRLE ABORT PRU STREAM - DRIVER ERROR RAIX .SASD,00 SRLE ABORT DATA DELIMITER - DRIVER ERROR RAIX .SROS,00 SRLE RESUME OUTPUT STREAM - DRIVER ERROR RAIX .SDOR,00 SRLE DIRECT OUTPUT REQUEST - DRIVER ERROR RAIX .SEOR,00 SRLE EOJ OUTPUT REQUEST - DRIVER ERROR RAIX .SSFC,00 SRLE SET FILE CHARACTERISTICS - DRIVER ERROR RAIX .SSDC,00 SRLE SET DEVICE CHARACTERISTICS - DRIVER ERROR RAIX .SCMQ,03 SRQW COMMAND QUEUED - QUEUE WORKLIST COMMAND RAIX .SQID,00 SRLE QUEUED INPUT DATA - DRIVER ERROR RAIX .SOPA,00 SRLE OUTPUT ALLOWED - DRIVER ERROR RAIX .SNOA,00 SRLE NO OUTPUT ACTIVITY - DRIVER ERROR RAIX .SSTP,00 SRLE STREAM STOPPED - DRIVER ERROR RAIX .SSBI,00 SRLE BATCH INTERRUPT - DRIVER ERROR RAIX .SEOI,00 SRLE END OF INFORMATION - DRIVER ERROR RAIX .SEND,00 SRLE END OF STREAM - DRIVER ERROR RAIX .SSAB,00 SRLE STREAM ABORTED - DRIVER ERROR RAIX .SICR,04 SRIL ICMD RESPONSE - BLOCK PROTOCOL ERROR RAIX .SICI,00 SRLE ICMD ISSUED - DRIVER ERROR RAIX .SNCI,00 SRLE FRONT END COMMAND ISSUED - DRIVER ERROR RAIX .SRSI,00 SRLE RESET ISSUED - DRIVER ERROR RAIX .SARQ,05 SRTW,STS16 APPLICATION REQUESTED - TRANSFER WORKLIST RAIX .SMSR,00 SRLE MASS STORAGE REQUESTED - DRIVER ERROR RAIX .SMSC,00 SRLE MASS STORAGE COMPLETED - DRIVER ERROR RAIX .SMSE,00 SRLE MASS STORAGE EOI - DRIVER ERROR RAIX .SMER,00 SRLE MASS STORAGE ERROR - DRIVER ERROR RAIX .SFTE,00 SRLE END OF FILE TRANSFER - DRIVER ERROR RAIX .SFTR,00 SRLE TRANSFER MASS STORAGE ERROR - DRIVER ERROR RAIX .S7MS,00 SRLE CHECKMARK - DRIVER ERROR RAIX .S7ES,00 SRLE END OF STREAM - DRIVER ERROR RAIX .S7RR,00 SRLE REQUEST RESTART - DRIVER ERROR RAIX .S7MR,00 SRLE CHECKMARK REPLY - DRIVER ERROR RAIX .S7QR,00 SRLE QUIT - DRIVER ERROR RAIX .S7CI,00 SRLE LEVEL SEVEN COMMAND ISSUED - DRIVER ERROR RAIX .STPS,00 SRLE TERMINATE PRU STREAM - DRIVER ERROR RAIX .SPST,00 SRLE PRU STREAM TERMINATED - DRIVER ERROR RAIX .SFEI,06 SRNA,STS61 FRONT END INOPERATIVE - CHANGE STATE RAIX .SBPE,06 SRNA,STS61 BLOCK PROTOCOL ERROR - CHANGE STATE RAIX .SL7E,00 SRLE LEVEL SEVEN ERROR - DRIVER ERROR RAIX .SDLE,00 SRLE DRIVER LOGIC ERROR - DRIVER ERROR STS16RT SPACE 2,10 .STATE SET STS16 RAIC 1 RESP SRNA,STS61 13 - CHANGE STATE RESP SRWC,STS62 12 - WORKLIST COMPLETED RESP SRIL 11 - BLOCK PROTOCOL ERROR RESP SRAQ,STS2 10 - ADVANCE QUEUE RESP SRAQ,STS4 9 - ADVANCE QUEUE RESP SRAQ,STS11 8 - ADVANCE QUEUE RESP SRRB 7 - RETURN BUFFER RESP SRQW 6 - QUEUE WORKLIST COMMAND RESP SRNA,STS13 5 - CHANGE STATE RESP SRWC 4 - SET WORKLIST COMPLETED RESP SRAE 3 - APPLICATION ERROR RESP SRNA 2 - NO ACTION RESP SRIP 1 - INPUT DATA TO QUEUE RESP SRLE 0 - DRIVER ERROR STS16RT BSS 0 STATE 16 - WAIT END OF INFORMATION RAIX .SRID,01 SRIP INPUT DATA - INPUT DATA TO QUEUE RAIX .SRIB,02 SRNA INPUT BACK - NO ACTION RAIX .SRII,00 SRLE INVALID IVT INPUT - DRIVER ERROR RAIX .SROD,00 SRLE OUTPUT DATA - DRIVER ERROR RAIX .SSJS,03 SRAE START PRU JOB STREAM - APPLICATION ERROR RAIX .SSDS,03 SRAE START PRU DATA STREAM - APPLICATION ERROR RAIX .SFTI,03 SRAE START INBOUND FILE - APPLICATION ERROR RAIX .SFTO,03 SRAE START OUTBOUND FILE - APPLICATION ERROR RAIX .SJBV,04 SRWC VALID JOB - SET WORKLIST COMPLETED RAIX .SJBE,04 SRWC INVALID JOB - SET WORKLIST COMPLETED RAIX .SSPS,03 SRAE STOP PRU STREAM - APPLICATION ERROR RAIX .SRST,04 SRWC RESTART PRU STREAM - WORKLIST COMPLETED RAIX .SBYP,04 SRWC BYPASS PRU STREAM - SET WORKLIST COMPLETED RAIX .SABT,05 SRNA,STS13 ABORT PRU STREAM - CHANGE STATE RAIX .SASD,03 SRAE ABORT DATA DELIMITER - APPLICATION ERROR RAIX .SROS,03 SRAE RESUME OUTPUT STREAM - APPLICATION ERROR RAIX .SDOR,03 SRAE DIRECT OUTPUT REQUEST - APPLICATION ERROR RAIX .SEOR,03 SRAE EOJ OUTPUT REQUEST - APPLICATION ERROR RAIX .SSFC,03 SRAE SET FILE - APPLICATION ERROR RAIX .SSDC,03 SRAE SET DEVICE - APPLICATION ERROR RAIX .SCMQ,06 SRQW COMMAND QUEUED - QUEUE WORKLIST COMMAND RAIX .SQID,07 SRRB QUEUED INPUT DATA - RETURN BUFFER RAIX .SOPA,00 SRLE OUTPUT ALLOWED - DRIVER ERROR RAIX .SNOA,00 SRLE NO OUTPUT ACTIVITY - DRIVER ERROR RAIX .SSTP,08 SRAQ,STS11 STREAM STOPPED - ADVANCE QUEUE RAIX .SSBI,08 SRAQ,STS11 BATCH INTERRUPT - ADVANCE QUEUE RAIX .SEOI,09 SRAQ,STS4 END OF INFORMATION ADVANCE QUEUE RAIX .SEND,10 SRAQ,STS2 END OF STREAM - ADVANCE QUEUE RAIX .SSAB,11 SRIL STREAM ABORTED - BLOCK PROTOCOL ERROR RAIX .SICR,11 SRIL ICMD RESPONSE - BLOCK PROTOCOL ERROR RAIX .SICI,00 SRLE ICMD ISSUED - DRIVER ERROR RAIX .SNCI,00 SRLE FRONT END COMMAND ISSUED - DRIVER ERROR RAIX .SRSI,00 SRLE RESET ISSUED - DRIVER ERROR RAIX .SARQ,00 SRLE APPLICATION REQUESTED - DRIVER ERROR RAIX .SMSR,00 SRLE MASS STORAGE REQUESTED - DRIVER ERROR RAIX .SMSC,00 SRLE MASS STORAGE COMPLETED - DRIVER ERROR RAIX .SMSE,00 SRLE MASS STORAGE EOI - DRIVER ERROR RAIX .SMER,00 SRLE MASS STORAGE ERROR - DRIVER ERROR RAIX .SFTE,00 SRLE END OF FILE TRANSFER - DRIVER ERROR RAIX .SFTR,00 SRLE TRANSFER MASS STORAGE ERROR - DRIVER ERROR RAIX .S7MS,11 SRIL CHECKMARK - BLOCK PROTOCOL ERROR RAIX .S7ES,11 SRIL END OF STREAM - BLOCK PROTOCOL ERROR RAIX .S7RR,11 SRIL REQUEST RESTART - BLOCK PROTOCOL ERROR RAIX .S7MR,11 SRIL CHECKMARK REPLY - BLOCK PROTOCOL ERROR RAIX .S7QR,11 SRIL QUIT - BLOCK PROTOCOL ERROR RAIX .S7CI,00 SRLE LEVEL SEVEN COMMAND ISSUED - DRIVER ERROR RAIX .STPS,12 SRWC,STS62 TERMINATE PRU STREAM - WORKLIST COMPLETED RAIX .SPST,00 SRLE PRU STREAM TERMINATED - DRIVER ERROR RAIX .SFEI,13 SRNA,STS61 FRONT END INOPERATIVE - CHANGE STATE RAIX .SBPE,13 SRNA,STS61 BLOCK PROTOCOL ERROR - CHANGE STATE RAIX .SL7E,00 SRLE LEVEL SEVEN ERROR - DRIVER ERROR RAIX .SDLE,00 SRLE DRIVER LOGIC ERROR - DRIVER ERROR STS17RT SPACE 2,10 .STATE SET STS17 RAIC 0 RESP SRNA,STS61 4 - CHANGE STATE RESP SRWC,STS62 3 - WORKLIST COMPLETED RESP SRWC,STS9 2 - WORKLIST COMPLETED RESP SRIL 1 - BLOCK PROTOCOL ERROR RESP SRLE 0 - DRIVER ERROR STS17RT BSS 0 STATE 17 - ISSUE START PRU INPUT STREAM RAIX .SRID,01 SRIL INPUT DATA - BLOCK PROTOCOL ERROR RAIX .SRIB,01 SRIL INPUT BACK - BLOCK PROTOCOL ERROR RAIX .SRII,00 SRLE INVALID IVT INPUT - DRIVER ERROR RAIX .SROD,00 SRLE OUTPUT DATA - DRIVER ERROR RAIX .SSJS,00 SRLE START PRU JOB STREAM - DRIVER ERROR RAIX .SSDS,00 SRLE START PRU DATA STREAM - DRIVER ERROR RAIX .SFTI,00 SRLE START INBOUND FILE TRANSFER - DRIVER ERROR RAIX .SFTO,00 SRLE START OUTBOUND FILE TRANSFER - DRIVER ERROR RAIX .SJBV,00 SRLE VALID JOB - DRIVER ERROR RAIX .SJBE,00 SRLE INVALID JOB - DRIVER ERROR RAIX .SSPS,00 SRLE STOP PRU STREAM - DRIVER ERROR RAIX .SRST,00 SRLE RESTART PRU STREAM - DRIVER ERROR RAIX .SBYP,00 SRLE BYPASS PRU STREAM - DRIVER ERROR RAIX .SABT,00 SRLE ABORT PRU STREAM - DRIVER ERROR RAIX .SASD,00 SRLE ABORT DATA DELIMITER - DRIVER ERROR RAIX .SROS,00 SRLE RESUME OUTPUT STREAM - DRIVER ERROR RAIX .SDOR,00 SRLE DIRECT OUTPUT REQUEST - DRIVER ERROR RAIX .SEOR,00 SRLE EOJ OUTPUT REQUEST - DRIVER ERROR RAIX .SSFC,00 SRLE SET FILE CHARACTERISTICS - DRIVER ERROR RAIX .SSDC,00 SRLE SET DEVICE CHARACTERISTICS - DRIVER ERROR RAIX .SCMQ,00 SRLE COMMAND QUEUED - DRIVER ERROR RAIX .SQID,00 SRLE QUEUED INPUT DATA - DRIVER ERROR RAIX .SOPA,00 SRLE OUTPUT ALLOWED - DRIVER ERROR RAIX .SNOA,00 SRLE NO OUTPUT ACTIVITY - DRIVER ERROR RAIX .SSTP,00 SRLE STREAM STOPPED - DRIVER ERROR RAIX .SSBI,00 SRLE BATCH INTERRUPT - DRIVER ERROR RAIX .SEOI,00 SRLE END OF INFORMATION - DRIVER ERROR RAIX .SEND,00 SRLE END OF STREAM - DRIVER ERROR RAIX .SSAB,00 SRLE STREAM ABORTED - DRIVER ERROR RAIX .SICR,01 SRIL ICMD RESPONSE - BLOCK PROTOCOL ERROR RAIX .SICI,00 SRLE ICMD ISSUED - DRIVER ERROR RAIX .SNCI,02 SRWC,STS9 FRONT END COMMAND ISSUED - SET WORKLIST COMPLETED RAIX .SRSI,00 SRLE RESET ISSUED - DRIVER ERROR RAIX .SARQ,00 SRLE APPLICATION REQUESTED - DRIVER ERROR RAIX .SMSR,00 SRLE MASS STORAGE REQUESTED - DRIVER ERROR RAIX .SMSC,00 SRLE MASS STORAGE COMPLETED - DRIVER ERROR RAIX .SMSE,00 SRLE MASS STORAGE EOI - DRIVER ERROR RAIX .SMER,00 SRLE MASS STORAGE ERROR - DRIVER ERROR RAIX .SFTE,00 SRLE END OF FILE TRANSFER - DRIVER ERROR RAIX .SFTR,00 SRLE TRANSFER MASS STORAGE ERROR - DRIVER ERROR RAIX .S7MS,00 SRLE CHECKMARK - DRIVER ERROR RAIX .S7ES,00 SRLE END OF STREAM - DRIVER ERROR RAIX .S7RR,00 SRLE REQUEST RESTART - DRIVER ERROR RAIX .S7MR,00 SRLE CHECKMARK REPLY - DRIVER ERROR RAIX .S7QR,00 SRLE QUIT - DRIVER ERROR RAIX .S7CI,00 SRLE LEVEL SEVEN COMMAND ISSUED - DRIVER ERROR RAIX .STPS,03 SRWC,STS62 TERMINATE PRU STREAM - WORKLIST COMPLETED RAIX .SPST,00 SRLE PRU STREAM TERMINATED - DRIVER ERROR RAIX .SFEI,04 SRNA,STS61 FRONT END INOPERATIVE - CHANGE STATE RAIX .SBPE,04 SRNA,STS61 BLOCK PROTOCOL ERROR - CHANGE STATE RAIX .SL7E,00 SRLE LEVEL SEVEN ERROR - DRIVER ERROR RAIX .SDLE,00 SRLE DRIVER LOGIC ERROR - DRIVER ERROR STS18RT SPACE 2,10 .STATE SET STS18 RAIC 0 RESP SRNA,STS59 5 - CHANGE STATE RESP SRNA,STS61 4 - CHANGE STATE RESP SRWC,STS62 3 - WORKLIST COMPLETED RESP SRFO,STS19 2 - SET PRU MODE ON RESP SRIL 1 - BLOCK PROTOCOL ERROR RESP SRLE 0 - DRIVER ERROR STS18RT BSS 0 STATE 18 - ISSUE FILE TRANSFER ON RAIX .SRID,01 SRIL INPUT DATA - BLOCK PROTOCOL ERROR RAIX .SRIB,01 SRIL INPUT BACK - BLOCK PROTOCOL ERROR RAIX .SRII,00 SRLE INVALID IVT INPUT - DRIVER ERROR RAIX .SROD,00 SRLE OUTPUT DATA - DRIVER ERROR RAIX .SSJS,00 SRLE START PRU JOB STREAM - DRIVER ERROR RAIX .SSDS,00 SRLE START PRU DATA STREAM - DRIVER ERROR RAIX .SFTI,00 SRLE START INBOUND FILE TRANSFER - DRIVER ERROR RAIX .SFTO,00 SRLE START OUTBOUND FILE TRANSFER - DRIVER ERROR RAIX .SJBV,00 SRLE VALID JOB - DRIVER ERROR RAIX .SJBE,00 SRLE INVALID JOB - DRIVER ERROR RAIX .SSPS,00 SRLE STOP PRU STREAM - DRIVER ERROR RAIX .SRST,00 SRLE RESTART PRU STREAM - DRIVER ERROR RAIX .SBYP,00 SRLE BYPASS PRU STREAM - DRIVER ERROR RAIX .SABT,00 SRLE ABORT PRU STREAM - DRIVER ERROR RAIX .SASD,00 SRLE ABORT DATA DELIMITER - DRIVER ERROR RAIX .SROS,00 SRLE RESUME OUTPUT STREAM - DRIVER ERROR RAIX .SDOR,00 SRLE DIRECT OUTPUT REQUEST - DRIVER ERROR RAIX .SEOR,00 SRLE EOJ OUTPUT REQUEST - DRIVER ERROR RAIX .SSFC,00 SRLE SET FILE CHARACTERISTICS - DRIVER ERROR RAIX .SSDC,00 SRLE SET DEVICE CHARACTERISTICS - DRIVER ERROR RAIX .SCMQ,00 SRLE COMMAND QUEUED - DRIVER ERROR RAIX .SQID,00 SRLE QUEUED INPUT DATA - DRIVER ERROR RAIX .SOPA,00 SRLE OUTPUT ALLOWED - DRIVER ERROR RAIX .SNOA,00 SRLE NO OUTPUT ACTIVITY - DRIVER ERROR RAIX .SSTP,00 SRLE STREAM STOPPED - DRIVER ERROR RAIX .SSBI,00 SRLE BATCH INTERRUPT - DRIVER ERROR RAIX .SEOI,00 SRLE END OF INFORMATION - DRIVER ERROR RAIX .SEND,00 SRLE END OF STREAM - DRIVER ERROR RAIX .SSAB,00 SRLE STREAM ABORTED - DRIVER ERROR RAIX .SICR,01 SRIL ICMD RESPONSE - DRIVER ERROR RAIX .SICI,00 SRLE ICMD ISSUED - DRIVER ERROR RAIX .SNCI,02 SRFO,STS19 FRONT END COMMAND ISSUED - SET PRU MODE ON RAIX .SRSI,00 SRLE RESET ISSUED - DRIVER ERROR RAIX .SARQ,00 SRLE APPLICATION REQUESTED - DRIVER ERROR RAIX .SMSR,00 SRLE MASS STORAGE REQUESTED - DRIVER ERROR RAIX .SMSC,00 SRLE MASS STORAGE COMPLETED - DRIVER ERROR RAIX .SMSE,00 SRLE MASS STORAGE EOI - DRIVER ERROR RAIX .SMER,00 SRLE MASS STORAGE ERROR - DRIVER ERROR RAIX .SFTE,00 SRLE END OF FILE TRANSFER - DRIVER ERROR RAIX .SFTR,00 SRLE TRANSFER MASS STORAGE ERROR - DRIVER ERROR RAIX .S7MS,00 SRLE CHECKMARK - DRIVER ERROR RAIX .S7ES,00 SRLE END OF STREAM - DRIVER ERROR RAIX .S7RR,00 SRLE REQUEST RESTART - DRIVER ERROR RAIX .S7MR,00 SRLE CHECKMARK REPLY - DRIVER ERROR RAIX .S7QR,00 SRLE QUIT - DRIVER ERROR RAIX .S7CI,00 SRLE LEVEL SEVEN COMMAND ISSUED - DRIVER ERROR RAIX .STPS,03 SRWC,STS62 TERMINATE PRU STREAM - WORKLIST COMPLETED RAIX .SPST,00 SRLE PRU STREAM TERMINATED - DRIVER ERROR RAIX .SFEI,04 SRNA,STS61 FRONT END INOPERATIVE - CHANGE STATE RAIX .SBPE,04 SRNA,STS61 BLOCK PROTOCOL ERROR - CHANGE STATE RAIX .SL7E,05 SRNA,STS59 LEVEL SEVEN ERROR - CHANGE STATE RAIX .SDLE,00 SRLE DRIVER LOGIC ERROR - DRIVER ERROR STS19RT SPACE 2,10 .STATE SET STS19 RAIC 0 RESP SRNA,STS59 6 - CHANGE STATE RESP SRNA,STS61 5 - CHANGE STATE RESP SRWC,STS62 4 - WORKLIST COMPLETED RESP SRNA,STS9 3 - CHANGE STATE RESP SRNA 2 - NO ACTION RESP SRIL 1 - BLOCK PROTOCOL ERROR RESP SRLE 0 - DRIVER ERROR STS19RT BSS 0 STATE 19 - TRANSFER START DATA REPLY RAIX .SRID,01 SRIL INPUT DATA - BLOCK PROTOCOL ERROR RAIX .SRIB,02 SRNA INPUT BACK - NO ACTION RAIX .SRII,00 SRLE INVALID IVT INPUT - DRIVER ERROR RAIX .SROD,00 SRLE OUTPUT DATA - DRIVER ERROR RAIX .SSJS,00 SRLE START PRU JOB STREAM - DRIVER ERROR RAIX .SSDS,00 SRLE START PRU DATA STREAM - DRIVER ERROR RAIX .SFTI,00 SRLE START INBOUND FILE TRANSFER - DRIVER ERROR RAIX .SFTO,00 SRLE START OUTBOUND FILE TRANSFER - DRIVER ERROR RAIX .SJBV,00 SRLE VALID JOB - DRIVER ERROR RAIX .SJBE,00 SRLE INVALID JOB - DRIVER ERROR RAIX .SSPS,00 SRLE STOP PRU STREAM - DRIVER ERROR RAIX .SRST,00 SRLE RESTART PRU STREAM - DRIVER ERROR RAIX .SBYP,00 SRLE BYPASS PRU STREAM - DRIVER ERROR RAIX .SABT,00 SRLE ABORT PRU STREAM - DRIVER ERROR RAIX .SASD,00 SRLE ABORT DATA DELIMITER - DRIVER ERROR RAIX .SROS,00 SRLE RESUME OUTPUT STREAM - DRIVER ERROR RAIX .SDOR,00 SRLE DIRECT OUTPUT REQUEST - DRIVER ERROR RAIX .SEOR,00 SRLE EOJ OUTPUT REQUEST - DRIVER ERROR RAIX .SSFC,00 SRLE SET FILE CHARACTERISTICS - DRIVER ERROR RAIX .SSDC,00 SRLE SET DEVICE CHARACTERISTICS - DRIVER ERROR RAIX .SCMQ,00 SRLE COMMAND QUEUED - DRIVER ERROR RAIX .SQID,00 SRLE QUEUED INPUT DATA - DRIVER ERROR RAIX .SOPA,00 SRLE OUTPUT ALLOWED - DRIVER ERROR RAIX .SNOA,00 SRLE NO OUTPUT ACTIVITY - DRIVER ERROR RAIX .SSTP,00 SRLE STREAM STOPPED - DRIVER ERROR RAIX .SSBI,00 SRLE BATCH INTERRUPT - DRIVER ERROR RAIX .SEOI,00 SRLE END OF INFORMATION - DRIVER ERROR RAIX .SEND,00 SRLE END OF STREAM - DRIVER ERROR RAIX .SSAB,00 SRLE STREAM ABORTED - DRIVER ERROR RAIX .SICR,01 SRIL ICMD RESPONSE - DRIVER ERROR RAIX .SICI,00 SRLE ICMD ISSUED - DRIVER ERROR RAIX .SNCI,00 SRLE FRONT END COMMAND ISSUED - DRIVER ERROR RAIX .SRSI,00 SRLE RESET ISSUED - DRIVER ERROR RAIX .SARQ,00 SRLE APPLICATION REQUESTED - DRIVER ERROR RAIX .SMSR,00 SRLE MASS STORAGE REQUESTED - DRIVER ERROR RAIX .SMSC,00 SRLE MASS STORAGE COMPLETED - DRIVER ERROR RAIX .SMSE,00 SRLE MASS STORAGE EOI - DRIVER ERROR RAIX .SMER,00 SRLE MASS STORAGE ERROR - DRIVER ERROR RAIX .SFTE,00 SRLE END OF FILE TRANSFER - DRIVER ERROR RAIX .SFTR,00 SRLE TRANSFER MASS STORAGE ERROR - DRIVER ERROR RAIX .S7MS,00 SRLE CHECKMARK - DRIVER ERROR RAIX .S7ES,00 SRLE END OF STREAM - DRIVER ERROR RAIX .S7RR,00 SRLE REQUEST RESTART - DRIVER ERROR RAIX .S7MR,00 SRLE CHECKMARK REPLY - DRIVER ERROR RAIX .S7QR,00 SRLE QUIT - DRIVER ERROR RAIX .S7CI,03 SRNA,STS9 LEVEL SEVEN COMMAND ISSUED - CHANGE STATE RAIX .STPS,04 SRWC,STS62 TERMINATE PRU STREAM - WORKLIST COMPLETED RAIX .SPST,00 SRLE PRU STREAM TERMINATED - DRIVER ERROR RAIX .SFEI,05 SRNA,STS61 FRONT END INOPERATIVE - CHANGE STATE RAIX .SBPE,05 SRNA,STS61 BLOCK PROTOCOL ERROR - CHANGE STATE RAIX .SL7E,06 SRNA,STS59 LEVEL SEVEN ERROR - CHANGE STATE RAIX .SDLE,00 SRLE DRIVER LOGIC ERROR - DRIVER ERROR STS20RT SPACE 2,10 .STATE SET STS20 RAIC 0 RESP SRNA,STS59 6 - CHANGE STATE RESP SRNA,STS61 5 - CHANGE STATE RESP SRTW,STS21 4 - TRANSFER WORKLIST RESP SRQW 3 - QUEUE WORKLIST COMMAND RESP SRNA 2 - NO ACTION RESP SRIL 1 - BLOCK PROTOCOL ERROR RESP SRLE 0 - DRIVER ERROR STS20RT BSS 0 STATE 20 - END OF INBOUND FILE TRANSFER RAIX .SRID,01 SRIL INPUT DATA - BLOCK PROTOCOL ERROR RAIX .SRIB,02 SRNA INPUT BACK - NO ACTION RAIX .SRII,00 SRLE INVALID IVT INPUT - DRIVER ERROR RAIX .SROD,00 SRLE OUTPUT DATA - DRIVER ERROR RAIX .SSJS,00 SRLE START PRU JOB STREAM - DRIVER ERROR RAIX .SSDS,00 SRLE START PRU DATA STREAM - DRIVER ERROR RAIX .SFTI,00 SRLE START INBOUND FILE TRANSFER - DRIVER ERROR RAIX .SFTO,00 SRLE START OUTBOUND FILE TRANSFER - DRIVER ERROR RAIX .SJBV,00 SRLE VALID JOB - DRIVER ERROR RAIX .SJBE,00 SRLE INVALID JOB - DRIVER ERROR RAIX .SSPS,00 SRLE STOP PRU STREAM - DRIVER ERROR RAIX .SRST,00 SRLE RESTART PRU STREAM - DRIVER ERROR RAIX .SBYP,00 SRLE BYPASS PRU STREAM - DRIVER ERROR RAIX .SABT,00 SRLE ABORT PRU STREAM - DRIVER ERROR RAIX .SASD,00 SRLE ABORT DATA DELIMITER - DRIVER ERROR RAIX .SROS,00 SRLE RESUME OUTPUT STREAM - DRIVER ERROR RAIX .SDOR,00 SRLE DIRECT OUTPUT REQUEST - DRIVER ERROR RAIX .SEOR,00 SRLE EOJ OUTPUT REQUEST - DRIVER ERROR RAIX .SSFC,00 SRLE SET FILE CHARACTERISTICS - DRIVER ERROR RAIX .SSDC,00 SRLE SET DEVICE CHARACTERISTICS - DRIVER ERROR RAIX .SCMQ,03 SRQW COMMAND QUEUED - QUEUE WORKLIST COMMAND RAIX .SQID,00 SRLE QUEUED INPUT DATA - DRIVER ERROR RAIX .SOPA,00 SRLE OUTPUT ALLOWED - DRIVER ERROR RAIX .SNOA,00 SRLE NO OUTPUT ACTIVITY - DRIVER ERROR RAIX .SSTP,00 SRLE STREAM STOPPED - DRIVER ERROR RAIX .SSBI,00 SRLE BATCH INTERRUPT - DRIVER ERROR RAIX .SEOI,00 SRLE END OF INFORMATION - DRIVER ERROR RAIX .SEND,00 SRLE END OF STREAM - DRIVER ERROR RAIX .SSAB,00 SRLE STREAM ABORTED - DRIVER ERROR RAIX .SICR,01 SRIL ICMD RESPONSE - BLOCK PROTOCOL ERROR RAIX .SICI,00 SRLE ICMD ISSUED - DRIVER ERROR RAIX .SNCI,00 SRLE FRONT END COMMAND ISSUED - DRIVER ERROR RAIX .SRSI,00 SRLE RESET ISSUED - DRIVER ERROR RAIX .SARQ,04 SRTW,STS21 APPLICATION REQUESTED - TRANSFER WORKLIST RAIX .SMSR,00 SRLE MASS STORAGE REQUESTED - DRIVER ERROR RAIX .SMSC,00 SRLE MASS STORAGE COMPLETED - DRIVER ERROR RAIX .SMSE,00 SRLE MASS STORAGE EOI - DRIVER ERROR RAIX .SMER,00 SRLE MASS STORAGE ERROR - DRIVER ERROR RAIX .SFTE,00 SRLE END OF FILE TRANSFER - DRIVER ERROR RAIX .SFTR,00 SRLE TRANSFER MASS STORAGE ERROR - DRIVER ERROR RAIX .S7MS,00 SRLE CHECKMARK - DRIVER ERROR RAIX .S7ES,00 SRLE END OF STREAM - DRIVER ERROR RAIX .S7RR,00 SRLE REQUEST RESTART - DRIVER ERROR RAIX .S7MR,00 SRLE CHECKMARK REPLY - DRIVER ERROR RAIX .S7QR,00 SRLE QUIT - DRIVER ERROR RAIX .S7CI,00 SRLE LEVEL SEVEN COMMAND ISSUED - DRIVER ERROR RAIX .STPS,00 SRLE TERMINATE PRU STREAM - DRIVER ERROR RAIX .SPST,00 SRLE PRU STREAM TERMINATED - DRIVER ERROR RAIX .SFEI,05 SRNA,STS61 FRONT END INOPERATIVE - CHANGE STATE RAIX .SBPE,05 SRNA,STS61 BLOCK PROTOCOL ERROR - CHANGE STATE RAIX .SL7E,06 SRNA,STS59 LEVEL SEVEN ERROR - CHANGE STATE RAIX .SDLE,00 SRLE DRIVER LOGIC ERROR - DRIVER ERROR STS21RT SPACE 2,10 .STATE SET STS21 RAIC 1 RESP SRNA,STS59 9 - CHANGE STATE RESP SRNA,STS61 8 - CHANGE STATE RESP SRWC,STS62 7 - WORKLIST COMPLETED RESP SRAQ,STS61 6 - ADVANCE QUEUE RESP S7IL 5 - LEVEL SEVEN ERROR RESP SRQW 4 - QUEUE WORKLIST COMMAND RESP SRAE 3 - APPLICATION ERROR RESP SRNA 2 - NO ACTION RESP SRIL 1 - BLOCK PROTOCOL ERROR RESP SRLE 0 - DRIVER ERROR STS21RT BSS 0 STATE 21 - WAIT FOR END OF STREAM RAIX .SRID,01 SRIL INPUT DATA - BLOCK PROTOCOL ERROR RAIX .SRIB,02 SRNA INPUT BACK - NO ACTION RAIX .SRII,00 SRLE INVALID IVT INPUT - DRIVER ERROR RAIX .SROD,00 SRLE OUTPUT DATA - DRIVER ERROR RAIX .SSJS,03 SRAE START PRU JOB STREAM - APPLICATION ERROR RAIX .SSDS,03 SRAE START PRU DATA STREAM - APPLICATION ERROR RAIX .SFTI,03 SRAE INBOUND FILE TRANSFER - APPLICATION ERROR RAIX .SFTO,03 SRAE OUTBOUND FILE TRANSFER - APPLICATION ERROR RAIX .SJBV,03 SRAE VALID JOB - APPLICATION ERROR RAIX .SJBE,03 SRAE INVALID JOB - APPLICATION ERROR RAIX .SSPS,03 SRAE STOP PRU STREAM - APPLICATION ERROR RAIX .SRST,03 SRAE RESTART PRU STREAM - APPLICATION ERROR RAIX .SBYP,03 SRAE BYPASS PRU STREAM - APPLICATION ERROR RAIX .SABT,03 SRAE ABORT PRU STREAM - APPLICATION ERROR RAIX .SASD,03 SRAE ABORT DATA DELIMITER - APPLICATION ERROR RAIX .SROS,03 SRAE RESUME OUTPUT STREAM - APPLICATION ERROR RAIX .SDOR,03 SRAE DIRECT OUTPUT REQUEST - APPLICATION ERROR RAIX .SEOR,03 SRAE EOJ OUTPUT REQUEST - APPLICATION ERROR RAIX .SSFC,03 SRAE SET FILE - APPLICATION ERROR RAIX .SSDC,03 SRAE SET DEVICE - APPLICATION ERROR RAIX .SCMQ,04 SRQW COMMAND QUEUED - QUEUE WORKLIST COMMAND RAIX .SQID,01 SRIL QUEUED INPUT DATA - BLOCK PROTOCOL ERROR RAIX .SOPA,00 SRLE OUTPUT ALLOWED - DRIVER ERROR RAIX .SNOA,00 SRLE NO OUTPUT ACTIVITY - DRIVER ERROR RAIX .SSTP,01 SRIL STREAM STOPPED - BLOCK PROTOCOL ERROR RAIX .SSBI,01 SRIL BATCH INTERRUPT - BLOCK PROTOCOL ERROR RAIX .SEOI,01 SRIL END OF INFORMATION - BLOCK PROTOCOL ERROR RAIX .SEND,01 SRIL END OF STREAM - BLOCK PROTOCOL ERROR RAIX .SSAB,01 SRIL STREAM ABORTED - BLOCK PROTOCOL ERROR RAIX .SICR,01 SRIL ICMD RESPONSE - BLOCK PROTOCOL ERROR RAIX .SICI,00 SRLE ICMD ISSUED - DRIVER ERROR RAIX .SNCI,00 SRLE FRONT END COMMAND ISSUED - DRIVER ERROR RAIX .SRSI,00 SRLE RESET ISSUED - DRIVER ERROR RAIX .SARQ,00 SRLE APPLICATION REQUESTED - DRIVER ERROR RAIX .SMSR,00 SRLE MASS STORAGE REQUESTED - DRIVER ERROR RAIX .SMSC,00 SRLE MASS STORAGE COMPLETED - DRIVER ERROR RAIX .SMSE,00 SRLE MASS STORAGE EOI - DRIVER ERROR RAIX .SMER,00 SRLE MASS STORAGE ERROR - DRIVER ERROR RAIX .SFTE,00 SRLE END OF FILE TRANSFER - DRIVER ERROR RAIX .SFTR,00 SRLE TRANSFER MASS STORAGE ERROR - DRIVER ERROR RAIX .S7MS,05 S7IL CHECKMARK - LEVEL SEVEN ERROR RAIX .S7ES,06 SRAQ,STS61 END OF STREAM - ADVANCE QUEUE RAIX .S7RR,05 S7IL REQUEST RESTART - LEVEL SEVEN ERROR RAIX .S7MR,05 S7IL CHECKMARK REPLY - LEVEL SEVEN ERROR RAIX .S7QR,05 S7IL QUIT - LEVEL SEVEN ERROR RAIX .S7CI,00 SRLE LEVEL SEVEN COMMAND ISSUED - DRIVER ERROR RAIX .STPS,07 SRWC,STS62 TERMINATE PRU STREAM - WORKLIST COMPLETED RAIX .SPST,00 SRLE PRU STREAM TERMINATED - DRIVER ERROR RAIX .SFEI,08 SRNA,STS61 FRONT END INOPERATIVE - CHANGE STATE RAIX .SBPE,08 SRNA,STS61 BLOCK PROTOCOL ERROR - CHANGE STATE RAIX .SL7E,09 SRNA,STS59 LEVEL SEVEN ERROR - CHANGE STATE RAIX .SDLE,00 SRLE DRIVER LOGIC ERROR - DRIVER ERROR STS22RT SPACE 2,10 .STATE SET STS22 RAIC 1 RESP SRNA,STS59 8 - CHANGE STATE RESP SRNA,STS61 7 - CHANGE STATE RESP SRWC,STS62 6 - WORKLIST COMPLTED RESP SPMR,STS9 5 - UPDATE CHECKMARK CONTROL RESP SRIL 4 - BLOCK PROTOCOL ERROR RESP SRQW 3 - QUEUE WORKLIST COMMAND RESP SRNA 2 - NO ACTION RESP SRIP 1 - INPUT DATA TO QUEUE RESP SRLE 0 - DRIVER ERROR STS22RT BSS 0 STATE 22 - TRANSFER CHECKMARK REPLY RAIX .SRID,01 SRIP INPUT DATA - INPUT DATA TO QUEUE RAIX .SRIB,02 SRNA INPUT BACK - NO ACTION RAIX .SRII,00 SRLE INVALID IVT INPUT - DRIVER ERROR RAIX .SROD,00 SRLE OUTPUT DATA - DRIVER ERROR RAIX .SSJS,00 SRLE START PRU JOB STREAM - DRIVER ERROR RAIX .SSDS,00 SRLE START PRU DATA STREAM - DRIVER ERROR RAIX .SFTI,00 SRLE START INBOUND FILE TRANSFER - DRIVER ERROR RAIX .SFTO,00 SRLE START OUTBOUND FILE TRANSFER - DRIVER ERROR RAIX .SJBV,00 SRLE VALID JOB - DRIVER ERROR RAIX .SJBE,00 SRLE INVALID JOB - DRIVER ERROR RAIX .SSPS,00 SRLE STOP PRU STREAM - DRIVER ERROR RAIX .SRST,00 SRLE RESTART PRU STREAM - DRIVER ERROR RAIX .SBYP,00 SRLE BYPASS PRU STREAM - DRIVER ERROR RAIX .SABT,00 SRLE ABORT PRU STREAM - DRIVER ERROR RAIX .SASD,00 SRLE ABORT DATA DELIMITER - DRIVER ERROR RAIX .SROS,00 SRLE RESUME OUTPUT STREAM - DRIVER ERROR RAIX .SDOR,00 SRLE DIRECT OUTPUT REQUEST - DRIVER ERROR RAIX .SEOR,00 SRLE EOJ OUTPUT REQUEST - DRIVER ERROR RAIX .SSFC,00 SRLE SET FILE CHARACTERISTICS - DRIVER ERROR RAIX .SSDC,00 SRLE SET DEVICE CHARACTERISTICS - DRIVER ERROR RAIX .SCMQ,03 SRQW COMMAND QUEUED - QUEUE WORKLIST COMMAND RAIX .SQID,00 SRLE QUEUED INPUT DATA - DRIVER ERROR RAIX .SOPA,00 SRLE OUTPUT ALLOWED - DRIVER ERROR RAIX .SNOA,00 SRLE NO OUTPUT ACTIVITY - DRIVER ERROR RAIX .SSTP,00 SRLE STREAM STOPPED - DRIVER ERROR RAIX .SSBI,00 SRLE BATCH INTERRUPT - DRIVER ERROR RAIX .SEOI,00 SRLE END OF INFORMATION - DRIVER ERROR RAIX .SEND,00 SRLE END OF STREAM - DRIVER ERROR RAIX .SSAB,00 SRLE STREAM ABORTED - DRIVER ERROR RAIX .SICR,04 SRIL ICMD RESPONSE - DRIVER ERROR RAIX .SICI,00 SRLE ICMD ISSUED - DRIVER ERROR RAIX .SNCI,00 SRLE FRONT END COMMAND ISSUED - DRIVER ERROR RAIX .SRSI,00 SRLE RESET ISSUED - DRIVER ERROR RAIX .SARQ,00 SRLE APPLICATION REQUESTED - DRIVER ERROR RAIX .SMSR,00 SRLE MASS STORAGE REQUESTED - DRIVER ERROR RAIX .SMSC,00 SRLE MASS STORAGE COMPLETED - DRIVER ERROR RAIX .SMSE,00 SRLE MASS STORAGE EOI - DRIVER ERROR RAIX .SMER,00 SRLE MASS STORAGE ERROR - DRIVER ERROR RAIX .SFTE,00 SRLE END OF FILE TRANSFER - DRIVER ERROR RAIX .SFTR,00 SRLE TRANSFER MASS STORAGE ERROR - DRIVER ERROR RAIX .S7MS,00 SRLE CHECKMARK - DRIVER ERROR RAIX .S7ES,00 SRLE END OF STREAM - DRIVER ERROR RAIX .S7RR,00 SRLE REQUEST RESTART - DRIVER ERROR RAIX .S7MR,00 SRLE CHECKMARK REPLY - DRIVER ERROR RAIX .S7QR,00 SRLE QUIT - DRIVER ERROR RAIX .S7CI,05 SPMR,STS9 LEVEL SEVEN - UPDATE CHECKMARK CONTROL RAIX .STPS,06 SRWC,STS62 TERMINATE PRU STREAM - WORKLIST COMPLETED RAIX .SPST,00 SRLE PRU STREAM TERMINATED - DRIVER ERROR RAIX .SFEI,07 SRNA,STS61 FRONT END INOPERATIVE - CHANGE STATE RAIX .SBPE,07 SRNA,STS61 BLOCK PROTOCOL ERROR - CHANGE STATE RAIX .SL7E,08 SRNA,STS59 LEVEL SEVEN ERROR - CHANGE STATE RAIX .SDLE,00 SRLE DRIVER LOGIC ERROR - DRIVER ERROR STS23RT SPACE 2,10 .STATE SET STS23 RAIC 1 RESP SRNA,STS59 14 - CHANGE STATE RESP SRNA,STS61 13 - CHANGE STATE RESP SRWC,STS62 12 - WORKLIST COMPLETED RESP S7IL 11 - LEVEL SEVEN ERROR RESP SRSO,STS39 10 - SET OLD STREAM STATE RESP SRNA 9 - NO ACTION RESP SRNA,STS24 8 - CHANGE STATE RESP SRNA,STS35 7 - CHANGE STATE RESP SRNA,STS26 6 - CHANGE STATE RESP SRNA,STS50 5 - CHANGE STATE RESP SRWC 4 - WORKLIST COMPLETED RESP SRWC,STS29 3 - WORKLIST COMPLETED RESP SRAE 2 - APPLICATION ERROR RESP SRIL 1 - BLOCK PROTOCOL ERROR RESP SRLE 0 - DRIVER ERROR STS23RT BSS 0 STATE 23 - PRU OUTPUT STREAM IDLE RAIX .SRID,01 SRIL INPUT DATA - BLOCK PROTOCOL ERROR RAIX .SRIB,01 SRIL INPUT BACK - BLOCK PROTOCOL ERROR RAIX .SRII,00 SRLE INVALID IVT INPUT - DRIVER ERROR RAIX .SROD,00 SRLE OUTPUT DATA - DRIVER ERROR RAIX .SSJS,02 SRAE START PRU JOB STREAM - APPLICATION ERROR RAIX .SSDS,03 SRWC,STS29 START PRU DATA STREAM - WORKLIST COMPLETED RAIX .SFTI,02 SRAE INBOUND FILE TRANSFER - APPLICATION ERROR RAIX .SFTO,03 SRWC,STS29 OUTBOUND FILE TRANSFER - WORKLIST COMPLETED RAIX .SJBV,02 SRAE VALID JOB - APPLICATION ERROR RAIX .SJBE,02 SRAE INVALID JOB - APPLICATION ERROR RAIX .SSPS,04 SRWC STOP PRU STREAM - WORKLIST COMPLETED RAIX .SRST,04 SRWC RESTART PRU STREAM - WORKLIST COMPLETED RAIX .SBYP,02 SRAE BYPASS PRU STREAM - APPLICATION ERROR RAIX .SABT,05 SRNA,STS50 ABORT PRU STREAM - CHANGE STATE RAIX .SASD,02 SRAE ABORT DATA DELIMITER - APPLICATION ERROR RAIX .SROS,02 SRAE RESUME OUTPUT STREAM - APPLICATION ERROR RAIX .SDOR,06 SRNA,STS26 DIRECT OUTPUT REQUEST - CHANGE STATE RAIX .SEOR,07 SRNA,STS35 EOJ OUTPUT REQUEST - CHANGE STATE RAIX .SSFC,08 SRNA,STS24 SET FILE CHARACTERISTICS - CHANGE STATE RAIX .SSDC,08 SRNA,STS24 SET DEVICE CHARACTERISTICS - CHANGE STATE RAIX .SCMQ,00 SRLE COMMAND QUEUED - DRIVER ERROR RAIX .SQID,00 SRLE QUEUED INPUT DATA - DRIVER ERROR RAIX .SOPA,09 SRNA OUTPUT ALLOWED - NO ACTION RAIX .SNOA,00 SRLE NO OUTPUT ACTIVITY - DRIVER ERROR RAIX .SSTP,10 SRSO,STS39 STREAM STOPPED - SET OLD STREAM STATE RAIX .SSBI,10 SRSO,STS39 BATCH INTERRUPT - SET OLD STREAM STATE RAIX .SEOI,01 SRIL END OF INFORMATION - BLOCK PROTOCOL ERROR RAIX .SEND,01 SRIL END OF STREAM - BLOCK PROTOCOL ERROR RAIX .SSAB,01 SRIL STREAM ABORTED - BLOCK PROTOCOL ERROR RAIX .SICR,01 SRIL ICMD RESPONSE - BLOCK PROTOCOL ERROR RAIX .SICI,00 SRLE ICMD ISSUED - DRIVER ERROR RAIX .SNCI,00 SRLE FRONT END COMMAND ISSUED - DRIVER ERROR RAIX .SRSI,00 SRLE RESET ISSUED - DRIVER ERROR RAIX .SARQ,00 SRLE APPLICATION REQUESTED - DRIVER ERROR RAIX .SMSR,00 SRLE MASS STORAGE REQUESTED - DRIVER ERROR RAIX .SMSC,00 SRLE MASS STORAGE COMPLETED - DRIVER ERROR RAIX .SMSE,00 SRLE MASS STORAGE EOI - DRIVER ERROR RAIX .SMER,00 SRLE MASS STORAGE ERROR - DRIVER ERROR RAIX .SFTE,00 SRLE END OF FILE TRANSFER - DRIVER ERROR RAIX .SFTR,00 SRLE TRANSFER MASS STORAGE ERROR - DRIVER ERROR RAIX .S7MS,11 S7IL CHECKMARK - LEVEL SEVEN ERROR RAIX .S7ES,11 S7IL END OF STREAM - LEVEL SEVEN ERROR RAIX .S7RR,11 S7IL REQUEST RESTART - LEVEL SEVEN ERROR RAIX .S7MR,11 S7IL CHECKMARK REPLY - LEVEL SEVEN ERROR RAIX .S7QR,11 S7IL QUIT - LEVEL SEVEN ERROR RAIX .S7CI,00 SRLE LEVEL SEVEN COMMAND ISSUED - DRIVER ERROR RAIX .STPS,12 SRWC,STS62 TERMINATE PRU STREAM - WORKLIST COMPLETED RAIX .SPST,00 SRLE PRU STREAM TERMINATED - DRIVER ERROR RAIX .SFEI,13 SRNA,STS61 FRONT END INOPERATIVE - CHANGE STATE RAIX .SBPE,13 SRNA,STS61 BLOCK PROTOCOL ERROR - CHANGE STATE RAIX .SL7E,14 SRNA,STS59 LEVEL SEVEN ERROR - CHANGE STATE RAIX .SDLE,00 SRLE DRIVER LOGIC ERROR - DRIVER ERROR STS24RT SPACE 2,10 .STATE SET STS24 RAIC 0 RESP SRNA,STS61 6 - CHANGE STATE RESP SRWC,STS62 5 - WORKLIST COMPLETED RESP S7IL 4 - LEVEL SEVEN ERROR RESP SRWC,STS25 3 - WORKLIST COMPLETED RESP SRTW,STS39 2 - TRANSFER WORKLIST RESP SRIL 1 - PROTOCOL ERROR RESP SRLE 0 - DRIVER ERROR STS24RT BSS 0 STATE 24 - ISSUE COMMAND TO FRONT END RAIX .SRID,01 SRIL INPUT DATA - BLOCK PROTOCOL ERROR RAIX .SRIB,01 SRIL INPUT BACK - BLOCK PROTOCOL ERROR RAIX .SRII,00 SRLE INVALID IVT INPUT - DRIVER ERROR RAIX .SROD,00 SRLE OUTPUT DATA - DRIVER ERROR RAIX .SSJS,00 SRLE START PRU JOB STREAM - DRIVER ERROR RAIX .SSDS,00 SRLE START PRU DATA STREAM - DRIVER ERROR RAIX .SFTI,00 SRLE START INBOUND FILE TRANSFER - DRIVER ERROR RAIX .SFTO,00 SRLE START OUTBOUND FILE TRANSFER - DRIVER ERROR RAIX .SJBV,00 SRLE VALID JOB - DRIVER ERROR RAIX .SJBE,00 SRLE INVALID JOB - DRIVER ERROR RAIX .SSPS,00 SRLE STOP PRU STREAM - DRIVER ERROR RAIX .SRST,00 SRLE RESTART PRU STREAM - DRIVER ERROR RAIX .SBYP,00 SRLE BYPASS PRU STREAM - DRIVER ERROR RAIX .SABT,00 SRLE ABORT PRU STREAM - DRIVER ERROR RAIX .SASD,00 SRLE ABORT DATA DELIMITER - DRIVER ERROR RAIX .SROS,00 SRLE RESUME OUTPUT STREAM - DRIVER ERROR RAIX .SDOR,00 SRLE DIRECT OUTPUT REQUEST - DRIVER ERROR RAIX .SEOR,00 SRLE EOJ OUTPUT REQUEST - DRIVER ERROR RAIX .SSFC,00 SRLE SET FILE CHARACTERISTICS - DRIVER ERROR RAIX .SSDC,00 SRLE SET DEVICE CHARACTERISTICS - DRIVER ERROR RAIX .SCMQ,00 SRLE COMMAND QUEUED - DRIVER ERROR RAIX .SQID,00 SRLE QUEUED INPUT DATA - DRIVER ERROR RAIX .SOPA,00 SRLE OUTPUT ALLOWED - DRIVER ERROR RAIX .SNOA,00 SRLE NO OUTPUT ACTIVITY - DRIVER ERROR RAIX .SSTP,02 SRTW,STS39 STREAM STOPPED - TRANSFER WORKLIST RAIX .SSBI,02 SRTW,STS39 BATCH INTERRUPT - TRANSFER WORKLIST RAIX .SEOI,01 SRIL END OF INFORMATION - BLOCK PROTOCOL ERROR RAIX .SEND,01 SRIL END OF STREAM - BLOCK PROTOCOL ERROR RAIX .SSAB,01 SRIL STREAM ABORTED BLOCK PROTOCOL ERROR RAIX .SICR,01 SRIL ICMD RESPONSE - BLOCK PROTOCOL ERROR RAIX .SICI,00 SRLE ICMD ISSUED - DRIVER ERROR RAIX .SNCI,03 SRWC,STS25 FRONT END COMMAND ISSUED - WORKLIST COMPLETED RAIX .SRSI,00 SRLE RESET ISSUED - DRIVER ERROR RAIX .SARQ,00 SRLE APPLICATION REQUESTED - DRIVER ERROR RAIX .SMSR,00 SRLE MASS STORAGE REQUESTED - DRIVER ERROR RAIX .SMSC,00 SRLE MASS STORAGE COMPLETED - DRIVER ERROR RAIX .SMSE,00 SRLE MASS STORAGE EOI - DRIVER ERROR RAIX .SMER,00 SRLE MASS STORAGE ERROR - DRIVER ERROR RAIX .SFTE,00 SRLE END OF FILE TRANSFER - DRIVER ERROR RAIX .SFTR,00 SRLE TRANSFER MASS STORAGE ERROR - DRIVER ERROR RAIX .S7MS,04 S7IL CHECKMARK - LEVEL SEVEN ERROR RAIX .S7ES,04 S7IL END OF STREAM - LEVEL SEVEN ERROR RAIX .S7RR,04 S7IL REQUEST RESTART - LEVEL SEVEN ERROR RAIX .S7MR,04 S7IL CHECKMARK REPLY - LEVEL SEVEN ERROR RAIX .S7QR,04 S7IL QUIT - LEVEL SEVEN ERROR RAIX .S7CI,00 SRLE LEVEL SEVEN COMMAND ISSUED - DRIVER ERROR RAIX .STPS,05 SRWC,STS62 TERMINATE PRU STREAM - WORKLIST COMPLETED RAIX .SPST,00 SRLE PRU STREAM TERMINATED - DRIVER ERROR RAIX .SFEI,06 SRNA,STS61 FRONT END INOPERATIVE - CHANGE STATE RAIX .SBPE,06 SRNA,STS61 BLOCK PROTOCOL ERROR - CHANGE STATE RAIX .SL7E,00 SRLE LEVEL SEVEN ERROR - DRIVER ERROR RAIX .SDLE,00 SRLE DRIVER LOGIC ERROR - DRIVER ERROR STS25RT SPACE 2,10 .STATE SET STS25 RAIC 1 RESP SRNA 10 - NO ACTION RESP SRNA,STS61 9 - CHANGE STATE RESP SRWC,STS62 8 - WORKLIST COMPLETED RESP S7IL 7 - LEVEL SEVEN ERROR RESP SRSO,STS39 6 - SET OLD STREAM STATE RESP SRNA,STS23 5 - CHANGE STATE RESP SRNA,STS50 4 - CHANGE STATE RESP SRAE 3 - APPLICATION ERROR RESP SRNA,STS23 2 - CHANGE STATE RESP SRIL 1 - PROTOCOL ERROR RESP SRLE 0 - DRIVER ERROR STS25RT BSS 0 STATE 25 - WAIT COMMAND ACKNOWLEDGMENT RAIX .SRID,01 SRIL INPUT DATA - BLOCK PROTOCOL ERROR RAIX .SRIB,02 SRNA,STS23 INPUT BACK - CHANGE STATE RAIX .SRII,00 SRLE INVALID IVT INPUT - DRIVER ERROR RAIX .SROD,00 SRLE OUTPUT DATA - DRIVER ERROR RAIX .SSJS,03 SRAE START PRU JOB STREAM - APPLICATION ERROR RAIX .SSDS,03 SRAE START PRU DATA STREAM - APPLICATION ERROR RAIX .SFTI,03 SRAE START INBOUND FILE - APPLICATION ERROR RAIX .SFTO,03 SRAE START OUTBOUND FILE - APPLICATION ERROR RAIX .SJBV,03 SRAE VALID JOB - APPLICATION ERROR RAIX .SJBE,03 SRAE INVALID JOB - APPLICATION ERROR RAIX .SSPS,03 SRAE STOP PRU STREAM - APPLICATION ERROR RAIX .SRST,10 SRNA RESTART PRU STREAM - NO ACTION RAIX .SBYP,03 SRAE BYPASS PRU STREAM - APPLICATION ERROR RAIX .SABT,04 SRNA,STS50 ABORT PRU STREAM - CHANGE STATE RAIX .SASD,03 SRAE ABORT DATA DELIMITER - APPLICATION ERROR RAIX .SROS,03 SRAE RESUME OUTPUT STREAM - APPLICATION ERROR RAIX .SDOR,03 SRAE DIRECT OUTPUT REQUEST - APPLICATION ERROR RAIX .SEOR,03 SRAE EOJ OUTPUT REQUEST - APPLICATION ERROR RAIX .SSFC,03 SRAE SET FILE - APPLICATION ERROR RAIX .SSDC,03 SRAE SET DEVICE - APPLICATION ERROR RAIX .SCMQ,00 SRLE COMMAND QUEUED - DRIVER ERROR RAIX .SQID,00 SRLE QUEUED INPUT DATA - DRIVER ERROR RAIX .SOPA,00 SRLE OUTPUT ALLOWED - DRIVER ERROR RAIX .SNOA,05 SRNA,STS23 NO OUTPUT ACTIVITY - CHANGE STATE RAIX .SSTP,06 SRSO,STS39 STREAM STOPPED - SET OLD STREAM STATE RAIX .SSBI,06 SRSO,STS39 BATCH INTERRUPT - SET OLD STREAM STATE RAIX .SEOI,01 SRIL END OF INFORMATION - BLOCK PROTOCOL ERROR RAIX .SEND,01 SRIL END OF STREAM - BLOCK PROTOCOL ERROR RAIX .SSAB,01 SRIL STREAM ABORTED - BLOCK PROTOCOL ERROR RAIX .SICR,01 SRIL ICMD RESPONSE - BLOCK PROTOCOL ERROR RAIX .SICI,00 SRLE ICMD ISSUED - DRIVER ERROR RAIX .SNCI,00 SRLE FRONT END COMMAND ISSUED - DRIVER ERROR RAIX .SRSI,00 SRLE RESET ISSUED - DRIVER ERROR RAIX .SARQ,00 SRLE APPLICATION REQUESTED - DRIVER ERROR RAIX .SMSR,00 SRLE MASS STORAGE REQUESTED - DRIVER ERROR RAIX .SMSC,00 SRLE MASS STORAGE COMPLETED - DRIVER ERROR RAIX .SMSE,00 SRLE MASS STORAGE EOI - DRIVER ERROR RAIX .SMER,00 SRLE MASS STORAGE ERROR - DRIVER ERROR RAIX .SFTE,00 SRLE END OF FILE TRANSFER - DRIVER ERROR RAIX .SFTR,00 SRLE TRANSFER MASS STORAGE ERROR - DRIVER ERROR RAIX .S7MS,07 S7IL CHECKMARK - LEVEL SEVEN ERROR RAIX .S7ES,07 S7IL END OF STREAM - LEVEL SEVEN ERROR RAIX .S7RR,07 S7IL REQUEST RESTART - LEVEL SEVEN ERROR RAIX .S7MR,07 S7IL CHECKMARK REPLY - LEVEL SEVEN ERROR RAIX .S7QR,07 S7IL QUIT - LEVEL SEVEN ERROR RAIX .S7CI,00 SRLE LEVEL SEVEN COMMAND ISSUED - DRIVER ERROR RAIX .STPS,08 SRWC,STS62 TERMINATE PRU STREAM - WORKLIST COMPLETED RAIX .SPST,00 SRLE PRU STREAM TERMINATED - DRIVER ERROR RAIX .SFEI,09 SRNA,STS61 FRONT END INOPERATIVE - CHANGE STATE RAIX .SBPE,09 SRNA,STS61 BLOCK PROTOCOL ERROR - CHANGE STATE RAIX .SL7E,00 SRLE LEVEL SEVEN ERROR - DRIVER ERROR RAIX .SDLE,00 SRLE DRIVER LOGIC ERROR - DRIVER ERROR STS26RT SPACE 2,10 .STATE SET STS26 RAIC 0 RESP SRNA,STS61 7 - CHANGE STATE RESP SRWC,STS62 6 - WORKLIST COMPLETED RESP S7IL 5 - LEVEL SEVEN ERROR RESP SRTW,STS39 4 - TRANSFER WORKLIST RESP SRDO,STS27 3 - TRASNFER DIRECT OUTPUT RESP SROA 2 - TRANSFER ACKNOWLEDGE WORKLIST RESP SRIL 1 - PROTOCOL ERROR RESP SRLE 0 - DRIVER ERROR STS26RT BSS 0 STATE 26 - ISSUE DIRECT OUTPUT TO FRONT END RAIX .SRID,01 SRIL INPUT DATA - BLOCK PROTOCOL ERROR RAIX .SRIB,02 SROA INPUT BACK - TRANSFER ACKNOWLEDGE WORKLIST RAIX .SRII,00 SRLE INVALID IVT INPUT - DRIVER ERROR RAIX .SROD,03 SRDO,STS27 OUTPUT DATA - TRANSFER DIRECT OUTPUT RAIX .SSJS,00 SRLE START PRU JOB STREAM - DRIVER ERROR RAIX .SSDS,00 SRLE START PRU DATA STREAM - DRIVER ERROR RAIX .SFTI,00 SRLE START INBOUND FILE TRANSFER - DRIVER ERROR RAIX .SFTO,00 SRLE START OUTBOUND FILE TRANSFER - DRIVER ERROR RAIX .SJBV,00 SRLE VALID JOB - DRIVER ERROR RAIX .SJBE,00 SRLE INVALID JOB - DRIVER ERROR RAIX .SSPS,00 SRLE STOP PRU STREAM - DRIVER ERROR RAIX .SRST,00 SRLE RESTART PRU STREAM - DRIVER ERROR RAIX .SBYP,00 SRLE BYPASS PRU STREAM - DRIVER ERROR RAIX .SABT,00 SRLE ABORT PRU STREAM - DRIVER ERROR RAIX .SASD,00 SRLE ABORT DATA DELIMITER - DRIVER ERROR RAIX .SROS,00 SRLE RESUME OUTPUT STREAM - DRIVER ERROR RAIX .SDOR,00 SRLE DIRECT OUTPUT REQUEST - DRIVER ERROR RAIX .SEOR,00 SRLE EOJ OUTPUT REQUEST - DRIVER ERROR RAIX .SSFC,00 SRLE SET FILE CHARACTERISTICS - DRIVER ERROR RAIX .SSDC,00 SRLE SET DEVICE CHARACTERISTICS - DRIVER ERROR RAIX .SCMQ,00 SRLE COMMAND QUEUED - DRIVER ERROR RAIX .SQID,00 SRLE QUEUED INPUT DATA - DRIVER ERROR RAIX .SOPA,00 SRLE OUTPUT ALLOWED - DRIVER ERROR RAIX .SNOA,00 SRLE NO OUTPUT ACTIVITY - DRIVER ERROR RAIX .SSTP,04 SRTW,STS39 STREAM STOPPED - TRANSFER WORKLIST RAIX .SSBI,04 SRTW,STS39 BATCH INTERRUPT - TRANSFER WORKLIST RAIX .SEOI,01 SRIL END OF INFORMATION - BLOCK PROTOCOL ERROR RAIX .SEND,01 SRIL END OF STREAM - BLOCK PROTOCOL ERROR RAIX .SSAB,01 SRIL STREAM ABORTED - BLOCK PROTOCOL ERROR RAIX .SICR,01 SRIL ICMD RESPONSE - BLOCK PROTOCOL ERROR RAIX .SICI,00 SRLE ICMD ISSUED - DRIVER ERROR RAIX .SNCI,00 SRLE FRONT END COMMAND ISSUED - DRIVER ERROR RAIX .SRSI,00 SRLE RESET ISSUED - DRIVER ERROR RAIX .SARQ,00 SRLE APPLICATION REQUESTED - DRIVER ERROR RAIX .SMSR,00 SRLE MASS STORAGE REQUESTED - DRIVER ERROR RAIX .SMSC,00 SRLE MASS STORAGE COMPLETED - DRIVER ERROR RAIX .SMSE,00 SRLE MASS STORAGE EOI - DRIVER ERROR RAIX .SMER,00 SRLE MASS STORAGE ERROR - DRIVER ERROR RAIX .SFTE,00 SRLE END OF FILE TRANSFER - DRIVER ERROR RAIX .SFTR,00 SRLE TRANSFER MASS STORAGE ERROR - DRIVER ERROR RAIX .S7MS,05 S7IL CHECKMARK - LEVEL SEVEN ERROR RAIX .S7ES,05 S7IL END OF STREAM - LEVEL SEVEN ERROR RAIX .S7RR,05 S7IL REQUEST RESTART - LEVEL SEVEN ERROR RAIX .S7MR,05 S7IL CHECKMARK REPLY - LEVEL SEVEN ERROR RAIX .S7QR,05 S7IL QUIT - LEVEL SEVEN ERROR RAIX .S7CI,00 SRLE LEVEL SEVEN COMMAND ISSUED - DRIVER ERROR RAIX .STPS,06 SRWC,STS62 TERMINATE PRU STREAM - WORKLIST COMPLETED RAIX .SPST,00 SRLE PRU STREAM TERMINATED - DRIVER ERROR RAIX .SFEI,07 SRNA,STS61 FRONT END INOPERATIVE - CHANGE STATE RAIX .SBPE,07 SRNA,STS61 BLOCK PROTOCOL ERROR - CHANGE STATE RAIX .SL7E,00 SRLE LEVEL SEVEN ERROR - DRIVER ERROR RAIX .SDLE,00 SRLE DRIVER LOGIC ERROR - DRIVER ERROR STS27RT SPACE 2,10 .STATE SET STS27 RAIC 1 RESP SRNA,STS61 11 - CHANGE STATE RESP SRWC,STS62 10 - WORKLIST COMPLETED RESP S7IL 9 - LEVEL SEVEN ERROR RESP SRSO,STS39 8 - SET OLD STREAM STATE RESP SRNA,STS26 7 - CHANGE STATE RESP SRNA,STS50 6 - CHANGE STATE RESP SRNA 5 - NO ACTION RESP SRNA,STS28 4 - CHANGE STATE RESP SRAE 3 - APPLICATION ERROR RESP SROA 2 - RANSFER ACKNOWLEDGE WORKLIST RESP SRIL 1 - PROTOCOL ERROR RESP SRLE 0 - DRIVER ERROR STS27RT BSS 0 STATE 27 - DIRECT OUTPUT ACTIVE RAIX .SRID,01 SRIL INPUT DATA - BLOCK PROTOCOL ERROR RAIX .SRIB,02 SROA INPUT BACK - TRANSFER ACKNOWLEDGE WORKLIST RAIX .SRII,00 SRLE INVALID IVT INPUT - DRIVER ERROR RAIX .SROD,00 SRLE OUTPUT DATA - DRIVER ERROR RAIX .SSJS,03 SRAE START PRU JOB STREAM - APPLICATION ERROR RAIX .SSDS,04 SRNA,STS28 START PRU DATA STREAM - CHANGE STATE RAIX .SFTI,03 SRAE START INBOUND FILE - APPLICATION ERROR RAIX .SFTO,03 SRAE START OUTBOUND FILE - APPLICATION ERROR RAIX .SJBV,03 SRAE VALID JOB - APPLICATION ERROR RAIX .SJBE,03 SRAE INVALID JOB - APPLICATION ERROR RAIX .SSPS,04 SRNA,STS28 STOP PRU STREAM - CHANGE STATE RAIX .SRST,05 SRNA RESTART PRU STREAM - NO ACTION RAIX .SBYP,03 SRAE BYPASS PRU STREAM - APPLICATION ERROR RAIX .SABT,06 SRNA,STS50 ABORT PRU STREAM - CHANGE STATE RAIX .SASD,03 SRAE ABORT DATA DELIMITER - APPLICATION ERROR RAIX .SROS,03 SRAE RESUME OUTPUT STREAM - APPLICATION ERROR RAIX .SDOR,07 SRNA,STS26 DIRECT OUTPUT REQUEST - CHANGE STATE RAIX .SEOR,03 SRAE EOJ OUTPUT REQUEST - APPLICATION ERROR RAIX .SSFC,04 SRNA,STS28 SET FILE CHARACTERISTICS - CHANGE STATE RAIX .SSDC,04 SRNA,STS28 SET DEVICE CHARACTERISTICS - CHANGE SATET RAIX .SCMQ,00 SRLE COMMAND QUEUED - DRIVER ERROR RAIX .SQID,00 SRLE QUEUED INPUT DATA - DRIVER ERROR RAIX .SOPA,05 SRNA OUTPUT ALLOWED - NO ACTION RAIX .SNOA,00 SRLE NO OUTPUT ACTIVITY - DRIVER ERROR RAIX .SSTP,08 SRSO,STS39 STREAM STOPPED - SET OLD STREAM STATE RAIX .SSBI,08 SRSO,STS39 BATCH INTERRUPT - SET OLD STREAM STATE RAIX .SEOI,01 SRIL END OF INFORMATION - BLOCK PROTOCOL ERROR RAIX .SEND,01 SRIL END OF STREAM - BLOCK PROTOCOL ERROR RAIX .SSAB,01 SRIL STREAM ABORTED - BLOCK PROTOCOL ERROR RAIX .SICR,01 SRIL ICMD RESPONSE - BLOCK PROTOCOL ERROR RAIX .SICI,00 SRLE ICMD ISSUED - DRIVER ERROR RAIX .SNCI,00 SRLE FRONT END COMMAND ISSUED - DRIVER ERROR RAIX .SRSI,00 SRLE RESET ISSUED - DRIVER ERROR RAIX .SARQ,00 SRLE APPLICATION REQUESTED - DRIVER ERROR RAIX .SMSR,00 SRLE MASS STORAGE REQUESTED - DRIVER ERROR RAIX .SMSC,00 SRLE MASS STORAGE COMPLETED - DRIVER ERROR RAIX .SMSE,00 SRLE MASS STORAGE EOI - DRIVER ERROR RAIX .SMER,00 SRLE MASS STORAGE ERROR - DRIVER ERROR RAIX .SFTE,00 SRLE END OF FILE TRANSFER - DRIVER ERROR RAIX .SFTR,00 SRLE TRANSFER MASS STORAGE ERROR - DRIVER ERROR RAIX .S7MS,09 S7IL CHECKMARK - LEVEL SEVEN ERROR RAIX .S7ES,09 S7IL END OF STREAM - LEVEL SEVEN ERROR RAIX .S7RR,09 S7IL REQUEST RESTART - LEVEL SEVEN ERROR RAIX .S7MR,09 S7IL CHECKMARK REPLY - LEVEL SEVEN ERROR RAIX .S7QR,09 S7IL QUIT - LEVEL SEVEN ERROR RAIX .S7CI,00 SRLE LEVEL SEVEN COMMAND ISSUED - DRIVER ERROR RAIX .STPS,10 SRWC,STS62 TERMINATE PRU STREAM - WORKLIST COMPLETED RAIX .SPST,00 SRLE PRU STREAM TERMINATED - DRIVER ERROR RAIX .SFEI,11 SRNA,STS61 FRONT END INOPERATIVE - CHANGE STATE RAIX .SBPE,11 SRNA,STS61 BLOCK PROTOCOL ERROR - CHANGE STATE RAIX .SL7E,00 SRLE LEVEL SEVEN ERROR - DRIVER ERROR RAIX .SDLE,00 SRLE DRIVER LOGIC ERROR - DRIVER ERROR STS28RT SPACE 2,10 .STATE SET STS28 RAIC 1 RESP SRNA,STS61 10 - CHANGE STATE RESP SRWC,STS62 9 - WORKLIST COMPLETED RESP S7IL 8 - LEVEL SEVEN ERROR RESP SRSO,STS39 7 - SET OLD STREAM STATE RESP SRNA,STS23 6 - CHANGE STATE RESP SRNA,STS50 5 - CHANGE STATE RESP SRWC 4 - WORKLIST COMPLETED RESP SRAE 3 - APPLICATION ERROR RESP SROA 2 - TRANSFER ACKNOWLEDGE WORKLIST RESP SRIL 1 - PROTOCOL ERROR RESP SRLE 0 - DRIVER ERROR STS28RT BSS 0 STATE 28 - WAIT NO OUTPUT ACTIVITY RAIX .SRID,01 SRIL INPUT DATA - BLOCK PROTOCOL ERROR RAIX .SRIB,02 SROA INPUT BACK - TRANSFER ACKNOWLEDGE WORKLIST RAIX .SRII,00 SRLE INVALID IVT INPUT - DRIVER ERROR RAIX .SROD,00 SRLE OUTPUT DATA - DRIVER ERROR RAIX .SSJS,03 SRAE START PRU JOB STREAM - APPLICATION ERROR RAIX .SSDS,03 SRAE START PRU DATA STREAM - APPLICATION ERROR RAIX .SFTI,03 SRAE START INBOUND FILE - APPLICATION ERROR RAIX .SFTO,03 SRAE START OUTBOUND FILE - APPLICATION ERROR RAIX .SJBV,03 SRAE VALID JOB - APPLICATION ERROR RAIX .SJBE,03 SRAE INVALID JOB - APPLICATION ERROR RAIX .SSPS,03 SRAE STOP PRU STREAM - APPLICATION ERROR RAIX .SRST,04 SRWC RESTART PRU STREAM - WORKLIST COMPLETED RAIX .SBYP,03 SRAE BYPASS PRU STREAM - APPLICATION ERROR RAIX .SABT,05 SRNA,STS50 ABORT PRU STREAM - CHANGE STATE RAIX .SASD,03 SRAE ABORT DATA DELIMITER - APPLICATION ERROR RAIX .SROS,03 SRAE RESUME OUTPUT STREAM - APPLICATION ERROR RAIX .SDOR,03 SRAE DIRECT OUTPUT REQUEST - APPLICATION ERROR RAIX .SEOR,03 SRAE EOJ OUTPUT REQUEST - APPLICATION ERROR RAIX .SSFC,03 SRAE SET FILE - APPLICATION ERROR RAIX .SSDC,03 SRAE SET DEVICE - APPLICATION ERROR RAIX .SCMQ,00 SRLE COMMAND QUEUED - DRIVER ERROR RAIX .SQID,00 SRLE QUEUED INPUT DATA - DRIVER ERROR RAIX .SOPA,00 SRLE OUTPUT ALLOWED - DRIVER ERROR RAIX .SNOA,06 SRNA,STS23 NO OUTPUT ACTIVITY - CHANGE STATE RAIX .SSTP,07 SRSO,STS39 STREAM STOPPED - SET OLD STREAM STATE RAIX .SSBI,07 SRSO,STS39 BATCH INTERRUPT - SET OLD STREAM STATE RAIX .SEOI,01 SRIL END OF INFORMATION - BLOCK PROTOCOL ERROR RAIX .SEND,01 SRIL END OF STREAM - BLOCK PROTOCOL ERROR RAIX .SSAB,01 SRIL STREAM ABORTED - BLOCK PROTOCOL ERROR RAIX .SICR,01 SRIL ICMD RESPONSE - BLOCK PROTOCOL ERROR RAIX .SICI,00 SRLE ICMD ISSUED - DRIVER ERROR RAIX .SNCI,00 SRLE FRONT END COMMAND ISSUED - DRIVER ERROR RAIX .SRSI,00 SRLE RESET ISSUED - DRIVER ERROR RAIX .SARQ,00 SRLE APPLICATION REQUESTED - DRIVER ERROR RAIX .SMSR,00 SRLE MASS STORAGE REQUESTED - DRIVER ERROR RAIX .SMSC,00 SRLE MASS STORAGE COMPLETED - DRIVER ERROR RAIX .SMSE,00 SRLE MASS STORAGE EOI - DRIVER ERROR RAIX .SMER,00 SRLE MASS STORAGE ERROR - DRIVER ERROR RAIX .SFTE,00 SRLE END OF FILE TRANSFER - DRIVER ERROR RAIX .SFTR,00 SRLE TRANSFER MASS STORAGE ERROR - DRIVER ERROR RAIX .S7MS,08 S7IL CHECKMARK - LEVEL SEVEN ERROR RAIX .S7ES,08 S7IL END OF STREAM - LEVEL SEVEN ERROR RAIX .S7RR,08 S7IL REQUEST RESTART - LEVEL SEVEN ERROR RAIX .S7MR,08 S7IL CHECKMARK REPLY - LEVEL SEVEN ERROR RAIX .S7QR,08 S7IL QUIT - LEVEL SEVEN ERROR RAIX .S7CI,00 SRLE LEVEL SEVEN COMMAND ISSUED - DRIVER ERROR RAIX .STPS,09 SRWC,STS62 TERMINATE PRU STREAM - WORKLIST COMPLETED RAIX .SPST,00 SRLE PRU STREAM TERMINATED - DRIVER ERROR RAIX .SFEI,10 SRNA,STS61 FRONT END INOPERATIVE - CHANGE STATE RAIX .SBPE,10 SRNA,STS61 BLOCK PROTOCOL ERROR - CHANGE STATE RAIX .SL7E,00 SRLE LEVEL SEVEN ERROR - DRIVER ERROR RAIX .SDLE,00 SRLE DRIVER LOGIC ERROR - DRIVER ERROR STS29RT SPACE 2,10 .STATE SET STS29 RAIC 1 RESP SRNA,STS59 15 - CHANGE STATE RESP SRNA,STS61 14 - CHANGE STATE RESP SRWC,STS62 13 - WORKLIST COMPLETED RESP SPMS 12 - UPDATE CHECKMARK CONTROL RESP SRTW,STS39 11 - TRANSFER WORKLIST RESP S7IL 10 - LEVEL SEVEN ERROR RESP SRSO,STS39 9 - SET OLD STREAM STATE RESP SRNA,STS30 8 - CHANGE STATE RESP SRNA,STS47 7 - CHANGE STATE RESP SRNA,STS50 6 - CHANGE STATE RESP SRWC 5 - WORKLIST COMPLETED RESP SRWC,STS41 4 - WORKLIST COMPLETED RESP SRAE 3 - APPLICATION ERROR RESP SRNA 2 - NO ACTION RESP SRIL 1 - PROTOCOL ERROR RESP SRLE 0 - DRIVER ERROR STS29RT BSS 0 STATE 29 - PRU OUTPUT ACTIVE RAIX .SRID,01 SRIL INPUT DATA - BLOCK PROTOCOL ERROR RAIX .SRIB,02 SRNA INPUT BACK - NO ACTION RAIX .SRII,00 SRLE INVALID IVT INPUT - DRIVER ERROR RAIX .SROD,00 SRLE OUTPUT DATA - DRIVER ERROR RAIX .SSJS,03 SRAE START PRU JOB STREAM - APPLICATION ERROR RAIX .SSDS,03 SRAE START PRU DATA STREAM - APPLICATION ERROR RAIX .SFTI,03 SRAE START INBOUND FILE - APPLICATION ERROR RAIX .SFTO,03 SRAE START OUTBOUND FILE - APPLICATION ERROR RAIX .SJBV,03 SRAE VALID JOB - APPLICATION ERROR RAIX .SJBE,03 SRAE INVALID JOB - APPLICATION ERROR RAIX .SSPS,04 SRWC,STS41 STOP PRU STREAM - WORKLIST COMPLETED RAIX .SRST,05 SRWC RESTART PRU STREAM - WORKLIST COMPLETED RAIX .SBYP,03 SRAE BYPASS PRU STREAM - APPLICATION ERROR RAIX .SABT,06 SRNA,STS50 ABORT PRU STREAM - CHANGE STATE RAIX .SASD,03 SRAE ABORT DATA DELIMITER - APPLICATION ERROR RAIX .SROS,03 SRAE RESUME OUTPUT STREAM - APPLICATION ERROR RAIX .SDOR,03 SRAE DIRECT OUTPUT REQUEST - APPLICATION ERROR RAIX .SEOR,03 SRAE EOJ OUTPUT REQUEST - APPLICATION ERROR RAIX .SSFC,07 SRNA,STS47 SET FILE CHARACTE9ISTICS - CHANGE STATE RAIX .SSDC,07 SRNA,STS47 SET DEVICE CHARACTERISTICS - CHANGE STATE RAIX .SCMQ,00 SRLE COMMAND QUEUED - DRIVER ERROR RAIX .SQID,00 SRLE QUEUED INPUT DATA - DRIVER ERROR RAIX .SOPA,08 SRNA,STS30 OUTPUT ALLOWED - CHANGE STATE RAIX .SNOA,00 SRLE NO OUTPUT ACTIVITY - DRIVER ERROR RAIX .SSTP,09 SRSO,STS39 STREAM STOPPED - SET OLD STREAM STATE RAIX .SSBI,09 SRSO,STS39 BATCH INTERRUPT - SET OLD STREAM STATE RAIX .SEOI,01 SRIL END OF INFORMATION - BLOCK PROTOCOL ERROR RAIX .SEND,01 SRIL END OF STREAM - BLOCK PROTOCOL ERROR RAIX .SSAB,01 SRIL STREAM ABORTED - BLOCK PROTOCOL ERROR RAIX .SICR,01 SRIL ICMD RESPONSE - BLOCK PROTOCOL ERROR RAIX .SICI,00 SRLE ICMD ISSUED - DRIVER ERROR RAIX .SNCI,00 SRLE FRONT END COMMAND ISSUED - DRIVER ERROR RAIX .SRSI,00 SRLE RESET ISSUED - DRIVER ERROR RAIX .SARQ,00 SRLE APPLICATION REQUESTED - DRIVER ERROR RAIX .SMSR,00 SRLE MASS STORAGE REQUESTED - DRIVER ERROR RAIX .SMSC,00 SRLE MASS STORAGE COMPLETED - DRIVER ERROR RAIX .SMSE,00 SRLE MASS STORAGE EOI - DRIVER ERROR RAIX .SMER,00 SRLE MASS STORAGE ERROR - DRIVER ERROR RAIX .SFTE,00 SRLE END OF FILE TRANSFER - DRIVER ERROR RAIX .SFTR,00 SRLE TRANSFER MASS STORAGE ERROR - DRIVER ERROR RAIX .S7MS,10 S7IL CHECKMARK - LEVEL SEVEN ERROR RAIX .S7ES,10 S7IL END OF STREAM - LEVEL SEVEN ERROR RAIX .S7RR,11 SRTW,STS39 REQUEST RESTART - TRANSFER WORKLIST RAIX .S7MR,02 SRNA CHECKMARK REPLY - NO ACTION RAIX .S7QR,10 S7IL QUIT - LEVEL SEVEN ERROR RAIX .S7CI,12 SPMS LEVEL SEVEN - UPDATE CHECKMARK CONTROL RAIX .STPS,13 SRWC,STS62 TERMINATE PRU STREAM - WORKLIST COMPLETED RAIX .SPST,00 SRLE PRU STREAM TERMINATED - DRIVER ERROR RAIX .SFEI,14 SRNA,STS61 FRONT END INOPERATIVE - CHANGE STATE RAIX .SBPE,14 SRNA,STS61 BLOCK PROTOCOL ERROR - CHANGE STATE RAIX .SL7E,15 SRNA,STS59 LEVEL SEVEN ERROR - CHANGE STATE RAIX .SDLE,00 SRLE DRIVER LOGIC ERROR - DRIVER ERROR STS30RT SPACE 2,10 .STATE SET STS30 RAIC 0 RESP SRNA,STS59 7 - CHANGE STATE RESP SRNA,STS61 6 - CHANGE STATE RESP S7IL 5 - LEVEL SEVEN ERROR RESP SRNA,STS31 4 - CHANGE STATE RESP SRTW,STS39 3 - TRANSFER WORKLIST RESP SRNA 2 - NO ACTION RESP SRIL 1 - PROTOCOL ERROR RESP SRLE 0 - DRIVER ERROR STS30RT BSS 0 STATE 30 - REQUEST MASS STORAGE INPUT RAIX .SRID,01 SRIL INPUT DATA - BLOCK PROTOCOL ERROR RAIX .SRIB,02 SRNA INPUT BACK - NO ACTION RAIX .SRII,00 SRLE INVALID IVT INPUT - DRIVER ERROR RAIX .SROD,00 SRLE OUTPUT DATA - DRIVER ERROR RAIX .SSJS,00 SRLE START PRU JOB STREAM - DRIVER ERROR RAIX .SSDS,00 SRLE START PRU DATA STREAM - DRIVER ERROR RAIX .SFTI,00 SRLE START INBOUND FILE TRANSFER - DRIVER ERROR RAIX .SFTO,00 SRLE START OUTBOUND FILE TRANSFER - DRIVER ERROR RAIX .SJBV,00 SRLE VALID JOB - DRIVER ERROR RAIX .SJBE,00 SRLE INVALID JOB - DRIVER ERROR RAIX .SSPS,00 SRLE STOP PRU STREAM - DRIVER ERROR RAIX .SRST,00 SRLE RESTART PRU STREAM - DRIVER ERROR RAIX .SBYP,00 SRLE BYPASS PRU STREAM - DRIVER ERROR RAIX .SABT,00 SRLE ABORT PRU STREAM - DRIVER ERROR RAIX .SASD,00 SRLE ABORT DATA DELIMITER - DRIVER ERROR RAIX .SROS,00 SRLE RESUME OUTPUT STREAM - DRIVER ERROR RAIX .SDOR,00 SRLE DIRECT OUTPUT REQUEST - DRIVER ERROR RAIX .SEOR,00 SRLE EOJ OUTPUT REQUEST - DRIVER ERROR RAIX .SSFC,00 SRLE SET FILE CHARACTERISTICS - DRIVER ERROR RAIX .SSDC,00 SRLE SET DEVICE CHARACTERISTICS - DRIVER ERROR RAIX .SCMQ,00 SRLE COMMAND QUEUED - DRIVER ERROR RAIX .SQID,00 SRLE QUEUED INPUT DATA - DRIVER ERROR RAIX .SOPA,00 SRLE OUTPUT ALLOWED - DRIVER ERROR RAIX .SNOA,00 SRLE NO OUTPUT ACTIVITY - DRIVER ERROR RAIX .SSTP,03 SRTW,STS39 STREAM STOPPED - TRANSFER WORKLIST RAIX .SSBI,03 SRTW,STS39 BATCH INTERRUPT - TRANSFER WORKLIST RAIX .SEOI,01 SRIL END OF INFORMATION - BLOCK PROTOCOL ERROR RAIX .SEND,01 SRIL END OF STREAM - BLOCK PROTOCOL ERROR RAIX .SSAB,01 SRIL STREAM ABORTED - BLOCK PROTOCOL ERROR RAIX .SICR,01 SRIL ICMD RESPONSE - BLOCK PROTOCOL ERROR RAIX .SICI,00 SRLE ICMD ISSUED - DRIVER ERROR RAIX .SNCI,00 SRLE FRONT END COMMAND ISSUED - DRIVER ERROR RAIX .SRSI,00 SRLE RESET ISSUED - DRIVER ERROR RAIX .SARQ,00 SRLE APPLICATION REQUESTED - DRIVER ERROR RAIX .SMSR,04 SRNA,STS31 MASS STORAGE REQUESTED - CHANGE STATE RAIX .SMSC,00 SRLE MASS STORAGE COMPLETED - DRIVER ERROR RAIX .SMSE,00 SRLE MASS STORAGE EOI - DRIVER ERROR RAIX .SMER,00 SRLE MASS STORAGE ERROR - DRIVER ERROR RAIX .SFTE,00 SRLE END OF FILE TRANSFER - DRIVER ERROR RAIX .SFTR,00 SRLE TRANSFER MASS STORAGE ERROR - DRIVER ERROR RAIX .S7MS,05 S7IL CHECKMARK - LEVEL SEVEN ERROR RAIX .S7ES,05 S7IL END OF STREAM - LEVEL SEVEN ERROR RAIX .S7RR,03 SRTW,STS39 REQUEST RESTART - TRANSFER WORKLIST RAIX .S7MR,02 SRNA CHECKMARK REPLY - NO ACTION RAIX .S7QR,05 S7IL QUIT - LEVEL SEVEN ERROR RAIX .S7CI,00 SRLE LEVEL SEVEN COMMAND ISSUED - DRIVER ERROR RAIX .STPS,00 SRLE TERMINATE PRU STREAM - DRIVER ERROR RAIX .SPST,00 SRLE PRU STREAM TERMINATED - DRIVER ERROR RAIX .SFEI,06 SRNA,STS61 FRONT END INOPERATIVE - CHANGE STATE RAIX .SBPE,06 SRNA,STS61 BLOCK PROTOCOL ERROR - CHANGE STATE RAIX .SL7E,07 SRNA,STS59 LEVEL SEVEN ERROR - CHANGE STATE RAIX .SDLE,00 SRLE DRIVER LOGIC ERROR - DRIVER ERROR STS31RT SPACE 2,10 .STATE SET STS31 RAIC 1 RESP SRNA,STS59 12 - CHANGE STATE RESP SRNA,STS61 11 - CHANGE STATE RESP SRTW,STS39 10 - TRANSFER WORKLIST RESP S7IL 9 - LEVEL SEVEN ERROR RESP SRRB,STS60 8 - RETURN BUFFER RESP SRNA,STS55 7 - CHANGE STATE RESP SRRB,STS44 6 - RETURN BUFFER RESP SRNA,STS33 5 - CHANGE STATE RESP SRNA,STS32 4 - CHANGE STATE RESP SRTW,STS37 3 - TRANSFER WORKLIST RESP SRNA 2 - NO ACTION RESP SRIL 1 - PROTOCOL ERROR RESP SRLE 0 - DRIVER ERROR STS31RT BSS 0 STATE 31 - WAIT MASS STORAGE COMPLETE RAIX .SRID,01 SRIL INPUT DATA - BLOCK PROTOCOL ERROR RAIX .SRIB,02 SRNA INPUT BACK - NO ACTION RAIX .SRII,00 SRLE INVALID IVT INPUT - DRIVER ERROR RAIX .SROD,00 SRLE OUTPUT DATA - DRIVER ERROR RAIX .SSJS,00 SRLE START PRU JOB STREAM - DRIVER ERROR RAIX .SSDS,00 SRLE START PRU DATA STREAM - DRIVER ERROR RAIX .SFTI,00 SRLE START INBOUND FILE TRANSFER - DRIVER ERROR RAIX .SFTO,00 SRLE START OUTBOUND FILE TRANSFER - DRIVER ERROR RAIX .SJBV,00 SRLE VALID JOB - DRIVER ERROR RAIX .SJBE,00 SRLE INVALID JOB - DRIVER ERROR RAIX .SSPS,00 SRLE STOP PRU STREAM - DRIVER ERROR RAIX .SRST,00 SRLE RESTART PRU STREAM - DRIVER ERROR RAIX .SBYP,00 SRLE BYPASS PRU STREAM - DRIVER ERROR RAIX .SABT,00 SRLE ABORT PRU STREAM - DRIVER ERROR RAIX .SASD,00 SRLE ABORT DATA DELIMITER - DRIVER ERROR RAIX .SROS,00 SRLE RESUME OUTPUT STREAM - DRIVER ERROR RAIX .SDOR,00 SRLE DIRECT OUTPUT REQUEST - DRIVER ERROR RAIX .SEOR,00 SRLE EOJ OUTPUT REQUEST - DRIVER ERROR RAIX .SSFC,00 SRLE SET FILE CHARACTERISTICS - DRIVER ERROR RAIX .SSDC,00 SRLE SET DEVICE CHARACTERISTICS - DRIVER ERROR RAIX .SCMQ,00 SRLE COMMAND QUEUED - DRIVER ERROR RAIX .SQID,00 SRLE QUEUED INPUT DATA - DRIVER ERROR RAIX .SOPA,00 SRLE OUTPUT ALLOWED - DRIVER ERROR RAIX .SNOA,00 SRLE NO OUTPUT ACTIVITY - DRIVER ERROR RAIX .SSTP,03 SRTW,STS37 STREAM STOPPED - TRANSFER WORKLIST RAIX .SSBI,03 SRTW,STS37 BATCH INTERRUPT - TRANSFER WORKLIST RAIX .SEOI,01 SRIL END OF INFORMATION - BLOCK PROTOCOL ERROR RAIX .SEND,01 SRIL END OF STREAM - BLOCK PROTOCOL ERROR RAIX .SSAB,01 SRIL STREAM ABORTED - BLOCK PROTOCOL ERROR RAIX .SICR,01 SRIL ICMD RESPONSE - BLOCK PROTOCOL ERROR RAIX .SICI,00 SRLE ICMD ISSUED - DRIVER ERROR RAIX .SNCI,00 SRLE FRONT END COMMAND ISSUED - DRIVER ERROR RAIX .SRSI,00 SRLE RESET ISSUED - DRIVER ERROR RAIX .SARQ,00 SRLE APPLICATION REQUESTED - DRIVER ERROR RAIX .SMSR,00 SRLE MASS STORAGE REQUESTED - DRIVER ERROR RAIX .SMSC,04 SRNA,STS32 MASS STORAGE COMPLETED - CHANGE STATE RAIX .SMSE,05 SRNA,STS33 MASS STORAGE EOI - CHANGE STATE RAIX .SMER,06 SRRB,STS44 MASS STORAGE ERROR - RETURN BUFFER RAIX .SFTE,07 SRNA,STS55 END OF FILE TRANSFER - CHANGE STATE RAIX .SFTR,08 SRRB,STS60 TRANSFER MASS STORAGE ERROR - RETURN BUFFER RAIX .S7MS,09 S7IL CHECKMARK - LEVEL SEVEN ERROR RAIX .S7ES,09 S7IL END OF STREAM - LEVEL SEVEN ERROR RAIX .S7RR,10 SRTW,STS39 REQUEST RESTART - TRANSFER WORKLIST RAIX .S7MR,02 SRNA CHECKMARK REPLY - NO ACTION RAIX .S7QR,09 S7IL QUIT - LEVEL SEVEN ERROR RAIX .S7CI,00 SRLE LEVEL SEVEN COMMAND ISSUED - DRIVER ERROR RAIX .STPS,00 SRLE TERMINATE PRU STREAM - DRIVER ERROR RAIX .SPST,00 SRLE PRU STREAM TERMINATED - DRIVER ERROR RAIX .SFEI,11 SRNA,STS61 FRONT END INOPERATIVE - CHANGE STATE RAIX .SBPE,11 SRNA,STS61 BLOCK PROTOCOL ERROR - CHANGE STATE RAIX .SL7E,12 SRNA,STS59 LEVEL SEVEN ERROR - CHANGE STATE RAIX .SDLE,00 SRLE DRIVER LOGIC ERROR - DRIVER ERROR STS32RT SPACE 2,10 .STATE SET STS32 RAIC 1 RESP SRNA,STS59 8 - CHANGE STATE RESP SRNA,STS61 7 - CHANGE STATE RESP SRTW,STS39 6 - TRANSFER WORKLIST RESP S7IL 5 - LEEL SEVEN ERROR RESP SRTW,STS38 4 - TRANSFER WORKLIST RESP SRPO,STS29 3 - TRANSFER PRU OUTPUT RESP SRNA 2 - NO ACTION RESP SRIL 1 - PROTOCOL ERROR RESP SRLE 0 - DRIVER ERROR STS32RT BSS 0 STATE 32 - ISSUE PRU OUTPUT TO FRONT END RAIX .SRID,01 SRIL INPUT DATA - BLOCK PROTOCOL ERROR RAIX .SRIB,02 SRNA INPUT BACK - NO ACTION RAIX .SRII,00 SRLE INVALID IVT INPUT - DRIVER ERROR RAIX .SROD,03 SRPO,STS29 OUTPUT DATA - TRANSFER PRU OUTPUT RAIX .SSJS,00 SRLE START PRU JOB STREAM - DRIVER ERROR RAIX .SSDS,00 SRLE START PRU DATA STREAM - DRIVER ERROR RAIX .SFTI,00 SRLE START INBOUND FILE TRANSFER - DRIVER ERROR RAIX .SFTO,00 SRLE START OUTBOUND FILE TRANSFER - DRIVER ERROR RAIX .SJBV,00 SRLE VALID JOB - DRIVER ERROR RAIX .SJBE,00 SRLE INVALID JOB - DRIVER ERROR RAIX .SSPS,00 SRLE STOP PRU STREAM - DRIVER ERROR RAIX .SRST,00 SRLE RESTART PRU STREAM - DRIVER ERROR RAIX .SBYP,00 SRLE BYPASS PRU STREAM - DRIVER ERROR RAIX .SABT,00 SRLE ABORT PRU STREAM - DRIVER ERROR RAIX .SASD,00 SRLE ABORT DATA DELIMITER - DRIVER ERROR RAIX .SROS,00 SRLE RESUME OUTPUT STREAM - DRIVER ERROR RAIX .SDOR,00 SRLE DIRECT OUTPUT REQUEST - DRIVER ERROR RAIX .SEOR,00 SRLE EOJ OUTPUT REQUEST - DRIVER ERROR RAIX .SSFC,00 SRLE SET FILE CHARACTERISTICS - DRIVER ERROR RAIX .SSDC,00 SRLE SET DEVICE CHARACTERISTICS - DRIVER ERROR RAIX .SCMQ,00 SRLE COMMAND QUEUED - DRIVER ERROR RAIX .SQID,00 SRLE QUEUED INPUT DATA - DRIVER ERROR RAIX .SOPA,00 SRLE OUTPUT ALLOWED - DRIVER ERROR RAIX .SNOA,00 SRLE NO OUTPUT ACTIVITY - DRIVER ERROR RAIX .SSTP,04 SRTW,STS38 STREAM STOPPED - TRANSFER WORKLIST RAIX .SSBI,04 SRTW,STS38 BATCH INTERRUPT - TRANSFER WORKLIST RAIX .SEOI,01 SRIL END OF INFORMATION - BLOCK PROTOCOL ERROR RAIX .SEND,01 SRIL END OF STREAM - BLOCK PROTOCOL ERROR RAIX .SSAB,01 SRIL STREAM ABORTED - BLOCK PROTOCOL ERROR RAIX .SICR,01 SRIL ICMD RESPONSE - BLOCK PROTOCOL ERROR RAIX .SICI,00 SRLE ICMD ISSUED - DRIVER ERROR RAIX .SNCI,00 SRLE FRONT END COMMAND ISSUED - DRIVER ERROR RAIX .SRSI,00 SRLE RESET ISSUED - DRIVER ERROR RAIX .SARQ,00 SRLE APPLICATION REQUESTED - DRIVER ERROR RAIX .SMSR,00 SRLE MASS STORAGE REQUESTED - DRIVER ERROR RAIX .SMSC,00 SRLE MASS STORAGE COMPLETED - DRIVER ERROR RAIX .SMSE,00 SRLE MASS STORAGE EOI - DRIVER ERROR RAIX .SMER,00 SRLE MASS STORAGE ERROR - DRIVER ERROR RAIX .SFTE,00 SRLE END OF FILE TRANSFER - DRIVER ERROR RAIX .SFTR,00 SRLE TRANSFER MASS STORAGE ERROR - DRIVER ERROR RAIX .S7MS,05 S7IL CHECKMARK - LEVEL SEVEN ERROR RAIX .S7ES,05 S7IL END OF STREAM - LEVEL SEVEN ERROR RAIX .S7RR,06 SRTW,STS39 REQUEST RESTART - TRANSFER WORKLIST RAIX .S7MR,02 SRNA CHECKMARK REPLY - NO ACTION RAIX .S7QR,05 S7IL QUIT - LEVEL SEVEN ERROR RAIX .S7CI,00 SRLE LEVEL SEVEN COMMAND ISSUED - DRIVER ERROR RAIX .STPS,00 SRLE TERMINATE PRU STREAM - DRIVER ERROR RAIX .SPST,00 SRLE PRU STREAM TERMINATED - DRIVER ERROR RAIX .SFEI,07 SRNA,STS61 FRONT END INOPERATIVE - CHANGE STATE RAIX .SBPE,07 SRNA,STS61 BLOCK PROTOCOL ERROR - CHANGE STATE RAIX .SL7E,08 SRNA,STS59 LEVEL SEVEN ERROR - CHANGE STATE RAIX .SDLE,00 SRLE DRIVER LOGIC ERROR - DRIVER ERROR STS33RT SPACE 2,10 .STATE SET STS33 RAIC 0 RESP SRNA,STS61 5 - CHANGE STATE RESP SRWE,STS38 4 - SET OLD STREAM STATE RESP SRPO,STS34 3 - TRANSFER PRU OUTPUT RESP SRNA 2 - NO ACTION RESP SRIL 1 - PROTOCOL ERROR RESP SRLE 0 - DRIVER ERROR STS33RT BSS 0 STATE 33 - ISSUE LAST PRU OUTPUT TO FE RAIX .SRID,01 SRIL INPUT DATA - BLOCK PROTOCOL ERROR RAIX .SRIB,02 SRNA INPUT BACK - NO ACTION RAIX .SRII,00 SRLE INVALID IVT INPUT - DRIVER ERROR RAIX .SROD,03 SRPO,STS34 OUTPUT DATA - TRANSFER PRU OUTPUT RAIX .SSJS,00 SRLE START PRU JOB STREAM - DRIVER ERROR RAIX .SSDS,00 SRLE START PRU DATA STREAM - DRIVER ERROR RAIX .SFTI,00 SRLE START INBOUND FILE TRANSFER - DRIVER ERROR RAIX .SFTO,00 SRLE START OUTBOUND FILE TRANSFER - DRIVER ERROR RAIX .SJBV,00 SRLE VALID JOB - DRIVER ERROR RAIX .SJBE,00 SRLE INVALID JOB - DRIVER ERROR RAIX .SSPS,00 SRLE STOP PRU STREAM - DRIVER ERROR RAIX .SRST,00 SRLE RESTART PRU STREAM - DRIVER ERROR RAIX .SBYP,00 SRLE BYPASS PRU STREAM - DRIVER ERROR RAIX .SABT,00 SRLE ABORT PRU STREAM - DRIVER ERROR RAIX .SASD,00 SRLE ABORT DATA DELIMITER - DRIVER ERROR RAIX .SROS,00 SRLE RESUME OUTPUT STREAM - DRIVER ERROR RAIX .SDOR,00 SRLE DIRECT OUTPUT REQUEST - DRIVER ERROR RAIX .SEOR,00 SRLE EOJ OUTPUT REQUEST - DRIVER ERROR RAIX .SSFC,00 SRLE SET FILE CHARACTERISTICS - DRIVER ERROR RAIX .SSDC,00 SRLE SET DEVICE CHARACTERISTICS - DRIVER ERROR RAIX .SCMQ,00 SRLE COMMAND QUEUED - DRIVER ERROR RAIX .SQID,00 SRLE QUEUED INPUT DATA - DRIVER ERROR RAIX .SOPA,00 SRLE OUTPUT ALLOWED - DRIVER ERROR RAIX .SNOA,00 SRLE NO OUTPUT ACTIVITY - DRIVER ERROR RAIX .SSTP,04 SRWE,STS38 STREAM STOPPED - SET OLD STREAM STATE RAIX .SSBI,04 SRWE,STS38 BATCH INTERRUPT - SET OLD STREAM STATE RAIX .SEOI,01 SRIL END OF INFORMATION - BLOCK PROTOCOL ERROR RAIX .SEND,01 SRIL END OF STREAM - BLOCK PROTOCOL ERROR RAIX .SSAB,01 SRIL STREAM ABORTED - BLOCK PROTOCOL ERROR RAIX .SICR,01 SRIL ICMD RESPONSE - BLOCK PROTOCOL ERROR RAIX .SICI,00 SRLE ICMD ISSUED - DRIVER ERROR RAIX .SNCI,00 SRLE FRONT END COMMAND ISSUED - DRIVER ERROR RAIX .SRSI,00 SRLE RESET ISSUED - DRIVER ERROR RAIX .SARQ,00 SRLE APPLICATION REQUESTED - DRIVER ERROR RAIX .SMSR,00 SRLE MASS STORAGE REQUESTED - DRIVER ERROR RAIX .SMSC,00 SRLE MASS STORAGE COMPLETED - DRIVER ERROR RAIX .SMSE,00 SRLE MASS STORAGE EOI - DRIVER ERROR RAIX .SMER,00 SRLE MASS STORAGE ERROR - DRIVER ERROR RAIX .SFTE,00 SRLE END OF FILE TRANSFER - DRIVER ERROR RAIX .SFTR,00 SRLE TRANSFER MASS STORAGE ERROR - DRIVER ERROR RAIX .S7MS,01 SRIL CHECKMARK - BLOCK PROTOCOL ERROR RAIX .S7ES,01 SRIL END OF STREAM - BLOCK PROTOCOL ERROR RAIX .S7RR,01 SRIL REQUEST RESTART - BLOCK PROTOCOL ERROR RAIX .S7MR,01 SRIL CHECKMARK REPLY - BLOCK PROTOCOL ERROR RAIX .S7QR,01 SRIL QUIT - BLOCK PROTOCOL ERROR RAIX .S7CI,00 SRLE LEVEL SEVEN COMMAND ISSUED - DRIVER ERROR RAIX .STPS,00 SRLE TERMINATE PRU STREAM - DRIVER ERROR RAIX .SPST,00 SRLE PRU STREAM TERMINATED - DRIVER ERROR RAIX .SFEI,05 SRNA,STS61 FRONT END INOPERATIVE - CHANGE STATE RAIX .SBPE,05 SRNA,STS61 BLOCK PROTOCOL ERROR - CHANGE STATE RAIX .SL7E,00 SRLE LEVEL SEVEN ERROR - DRIVER ERROR RAIX .SDLE,00 SRLE DRIVER LOGIC ERROR - DRIVER ERROR STS34RT SPACE 2,10 .STATE SET STS34 RAIC 1 RESP SRNA,STS61 8 - CHANGE STATE RESP SRWC,STS62 7 - WORKLIST COMPLETED RESP SRTW,STS23 6 - TRANSFER WORKLIST RESP SRSO,STS39 5 - SET OLD STREAM STATE RESP SRNA,STS50 4 - CHANGE STATE RESP SRAE 3 - APPLICATION ERROR RESP SRNA 2 - NO ACTION RESP SRIL 1 - PROTOCOL ERROR RESP SRLE 0 - DRIVER ERROR STS34RT BSS 0 STATE 34 - WAIT EOI DELIVERED RAIX .SRID,01 SRIL INPUT DATA - BLOCK PROTOCOL ERROR RAIX .SRIB,02 SRNA INPUT BACK - NO ACTION RAIX .SRII,00 SRLE INVALID IVT INPUT - DRIVER ERROR RAIX .SROD,00 SRLE OUTPUT DATA - DRIVER ERROR RAIX .SSJS,03 SRAE START PRU JOB STREAM - APPLICATION ERROR RAIX .SSDS,03 SRAE START PRU DATA STREAM - APPLICATION ERROR RAIX .SFTI,03 SRAE START INBOUND FILE - APPLICATION ERROR RAIX .SFTO,03 SRAE START OUTBOUND FILE - APPLICATION ERROR RAIX .SJBV,03 SRAE VALID JOB - APPLICATION ERROR RAIX .SJBE,03 SRAE INVALID JOB - APPLICATION ERROR RAIX .SSPS,03 SRAE STOP PRU STREAM - APPLICATION ERROR RAIX .SRST,02 SRNA RESTART PRU STREAM - NO ACTION RAIX .SBYP,03 SRAE BYPASS PRU STREAM - APPLICATION ERROR RAIX .SABT,04 SRNA,STS50 ABORT PRU STREAM - CHANGE STATE RAIX .SASD,03 SRAE ABORT DATA DELIMITER - APPLICATION ERROR RAIX .SROS,03 SRAE RESUME OUTPUT STREAM - APPLICATION ERROR RAIX .SDOR,03 SRAE DIRECT OUTPUT REQUEST - APPLICATION ERROR RAIX .SEOR,03 SRAE EOJ OUTPUT REQUEST - APPLICATION ERROR RAIX .SSFC,03 SRAE SET FILE - APPLICATION ERROR RAIX .SSDC,03 SRAE SET DEVICE - APPLICATION ERROR RAIX .SCMQ,00 SRLE COMMAND QUEUED - DRIVER ERROR RAIX .SQID,00 SRLE QUEUED INPUT DATA - DRIVER ERROR RAIX .SOPA,00 SRLE OUTPUT ALLOWED - DRIVER ERROR RAIX .SNOA,02 SRNA NO OUTPUT ACTIVITY - NO ACTION RAIX .SSTP,05 SRSO,STS39 STREAM STOPPED - SET OLD STREAM STATE RAIX .SSBI,05 SRSO,STS39 BATCH INTERRUPT - SET OLD STREAM STATE RAIX .SEOI,06 SRTW,STS23 END OF INFORMATION - TRANSFER WORKLIST RAIX .SEND,01 SRIL END OF STREAM - BLOCK PROTOCOL ERROR RAIX .SSAB,01 SRIL STREAM ABORTED - BLOCK PROTOCOL ERROR RAIX .SICR,01 SRIL ICMD RESPONSE - BLOCK PROTOCOL ERROR RAIX .SICI,00 SRLE ICMD ISSUED - DRIVER ERROR RAIX .SNCI,00 SRLE FRONT END COMMAND ISSUED - DRIVER ERROR RAIX .SRSI,00 SRLE RESET ISSUED - DRIVER ERROR RAIX .SARQ,00 SRLE APPLICATION REQUESTED - DRIVER ERROR RAIX .SMSR,00 SRLE MASS STORAGE REQUESTED - DRIVER ERROR RAIX .SMSC,00 SRLE MASS STORAGE COMPLETED - DRIVER ERROR RAIX .SMSE,00 SRLE MASS STORAGE EOI - DRIVER ERROR RAIX .SMER,00 SRLE MASS STORAGE ERROR - DRIVER ERROR RAIX .SFTE,00 SRLE END OF FILE TRANSFER - DRIVER ERROR RAIX .SFTR,00 SRLE TRANSFER MASS STORAGE ERROR - DRIVER ERROR RAIX .S7MS,01 SRIL CHECKMARK - BLOCK PROTOCOL ERROR RAIX .S7ES,01 SRIL END OF STREAM - BLOCK PROTOCOL ERROR RAIX .S7RR,01 SRIL REQUEST RESTART - BLOCK PROTOCOL ERROR RAIX .S7MR,01 SRIL CHECKMARK REPLY - BLOCK PROTOCOL ERROR RAIX .S7QR,01 SRIL QUIT - BLOCK PROTOCOL ERROR RAIX .S7CI,00 SRLE LEVEL SEVEN COMMAND ISSUED - DRIVER ERROR RAIX .STPS,07 SRWC,STS62 TERMINATE PRU STREAM - WORKLIST COMPLETED RAIX .SPST,00 SRLE PRU STREAM TERMINATED - DRIVER ERROR RAIX .SFEI,08 SRNA,STS61 FRONT END INOPERATIVE - CHANGE STATE RAIX .SBPE,08 SRNA,STS61 BLOCK PROTOCOL ERROR - CHANGE STATE RAIX .SL7E,00 SRLE LEVEL SEVEN ERROR - DRIVER ERROR RAIX .SDLE,00 SRLE DRIVER LOGIC ERROR - DRIVER ERROR STS35RT SPACE 2,10 .STATE SET STS35 RAIC 0 RESP SRNA,STS61 4 - CHANGE STATE RESP SRTW,STS39 3 - TRANSFER WORKLIST RESP SRDO,STS36 2 - TRANSFER DIRECT OUTPUT RESP SRIL 1 - PROTOCOL ERROR RESP SRLE 0 - DRIVER ERROR STS35RT BSS 0 STATE 35 - ISSUE EOJ DIRECT OUTPUT TO FE RAIX .SRID,01 SRIL INPUT DATA - BLOCK PROTOCOL ERROR RAIX .SRIB,01 SRIL INPUT BACK - BLOCK PROTOCOL ERROR RAIX .SRII,00 SRLE INVALID IVT INPUT - DRIVER ERROR RAIX .SROD,02 SRDO,STS36 OUTPUT DATA - TRANSFER DIRECT OUTPUT RAIX .SSJS,00 SRLE START PRU JOB STREAM - DRIVER ERROR RAIX .SSDS,00 SRLE START PRU DATA STREAM - DRIVER ERROR RAIX .SFTI,00 SRLE START INBOUND FILE TRANSFER - DRIVER ERROR RAIX .SFTO,00 SRLE START OUTBOUND FILE TRANSFER - DRIVER ERROR RAIX .SJBV,00 SRLE VALID JOB - DRIVER ERROR RAIX .SJBE,00 SRLE INVALID JOB - DRIVER ERROR RAIX .SSPS,00 SRLE STOP PRU STREAM - DRIVER ERROR RAIX .SRST,00 SRLE RESTART PRU STREAM - DRIVER ERROR RAIX .SBYP,00 SRLE BYPASS PRU STREAM - DRIVER ERROR RAIX .SABT,00 SRLE ABORT PRU STREAM - DRIVER ERROR RAIX .SASD,00 SRLE ABORT DATA DELIMITER - DRIVER ERROR RAIX .SROS,00 SRLE RESUME OUTPUT STREAM - DRIVER ERROR RAIX .SDOR,00 SRLE DIRECT OUTPUT REQUEST - DRIVER ERROR RAIX .SEOR,00 SRLE EOJ OUTPUT REQUEST - DRIVER ERROR RAIX .SSFC,00 SRLE SET FILE CHARACTERISTICS - DRIVER ERROR RAIX .SSDC,00 SRLE SET DEVICE CHARACTERISTICS - DRIVER ERROR RAIX .SCMQ,00 SRLE COMMAND QUEUED - DRIVER ERROR RAIX .SQID,00 SRLE QUEUED INPUT DATA - DRIVER ERROR RAIX .SOPA,00 SRLE OUTPUT ALLOWED - DRIVER ERROR RAIX .SNOA,00 SRLE NO OUTPUT ACTIVITY - DRIVER ERROR RAIX .SSTP,03 SRTW,STS39 STREAM STOPPED - TRANSFER WORKLIST RAIX .SSBI,03 SRTW,STS39 BATCH INTERRUPT - TRANSFER WORKLIST RAIX .SEOI,01 SRIL END OF INFORMATION - BLOCK PROTOCOL ERROR RAIX .SEND,01 SRIL END OF STREAM - BLOCK PROTOCOL ERROR RAIX .SSAB,01 SRIL STREAM ABORTED - BLOCK PROTOCOL ERROR RAIX .SICR,01 SRIL ICMD RESPONSE - BLOCK PROTOCOL ERROR RAIX .SICI,00 SRLE ICMD ISSUED - DRIVER ERROR RAIX .SNCI,00 SRLE FRONT END COMMAND ISSUED - DRIVER ERROR RAIX .SRSI,00 SRLE RESET ISSUED - DRIVER ERROR RAIX .SARQ,00 SRLE APPLICATION REQUESTED - DRIVER ERROR RAIX .SMSR,00 SRLE MASS STORAGE REQUESTED - DRIVER ERROR RAIX .SMSC,00 SRLE MASS STORAGE COMPLETED - DRIVER ERROR RAIX .SMSE,00 SRLE MASS STORAGE EOI - DRIVER ERROR RAIX .SMER,00 SRLE MASS STORAGE ERROR - DRIVER ERROR RAIX .SFTE,00 SRLE END OF FILE TRANSFER - DRIVER ERROR RAIX .SFTR,00 SRLE TRANSFER MASS STORAGE ERROR - DRIVER ERROR RAIX .S7MS,01 SRIL CHECKMARK - BLOCK PROTOCOL ERROR RAIX .S7ES,01 SRIL END OF STREAM - BLOCK PROTOCOL ERROR RAIX .S7RR,01 SRIL REQUEST RESTART - BLOCK PROTOCOL ERROR RAIX .S7MR,01 SRIL CHECKMARK REPLY - BLOCK PROTOCOL ERROR RAIX .S7QR,01 SRIL QUIT - BLOCK PROTOCOL ERROR RAIX .S7CI,00 SRLE LEVEL SEVEN COMMAND ISSUED - DRIVER ERROR RAIX .STPS,00 SRLE TERMINATE PRU STREAM - DRIVER ERROR RAIX .SPST,00 SRLE PRU STREAM TERMINATED - DRIVER ERROR RAIX .SFEI,04 SRNA,STS61 FRONT END INOPERATIVE - CHANGE STATE RAIX .SBPE,04 SRNA,STS61 BLOCK PROTOCOL ERROR - CHANGE STATE RAIX .SL7E,00 SRLE LEVEL SEVEN ERROR - DRIVER ERROR RAIX .SDLE,00 SRLE DRIVER LOGIC ERROR - DRIVER ERROR STS36RT SPACE 2,10 .STATE SET STS36 RAIC 1 RESP SRNA,STS61 8 - CHANGE STATE RESP SRWC,STS62 7 - WORKLIST COMPLETED RESP SRTW,STS23 6 - TRANSFER WORKLIST RESP SRSO,STS39 5 - SET OLD STREAM STATE RESP SRNA,STS50 4 - CHANGE STATE RESP SRAE 3 - APPLICATION ERROR RESP SRNA 2 - NO ACTION RESP SRIL 1 - PROTOCOL ERROR RESP SRLE 0 - DRIVER ERROR STS36RT BSS 0 STATE 36 - WAIT EOI DELIVERED RAIX .SRID,01 SRIL INPUT DATA - BLOCK PROTOCOL ERROR RAIX .SRIB,02 SRNA INPUT BACK - NO ACTION RAIX .SRII,00 SRLE INVALID IVT INPUT - DRIVER ERROR RAIX .SROD,00 SRLE OUTPUT DATA - DRIVER ERROR RAIX .SSJS,03 SRAE START PRU JOB STREAM - APPLICATION ERROR RAIX .SSDS,03 SRAE START PRU DATA STREAM - APPLICATION ERROR RAIX .SFTI,03 SRAE START INBOUND FILE - APPLICATION ERROR RAIX .SFTO,03 SRAE START OUTBOUND FILE - APPLICATION ERROR RAIX .SJBV,03 SRAE VALID JOB - APPLICATION ERROR RAIX .SJBE,03 SRAE INVALID JOB - APPLICATION ERROR RAIX .SSPS,03 SRAE STOP PRU STREAM - APPLICATION ERROR RAIX .SRST,03 SRAE RESTART PRU STREAM - APPLICATION ERROR RAIX .SBYP,03 SRAE BYPASS PRU STREAM - APPLICATION ERROR RAIX .SABT,04 SRNA,STS50 ABORT PRU STREAM - CHANGE STATE RAIX .SASD,03 SRAE ABORT DATA DELIMITER - APPLICATION ERROR RAIX .SROS,03 SRAE RESUME OUTPUT STREAM - APPLICATION ERROR RAIX .SDOR,03 SRAE DIRECT OUTPUT REQUEST - APPLICATION ERROR RAIX .SEOR,03 SRAE EOJ OUTPUT REQUEST - APPLICATION ERROR RAIX .SSFC,03 SRAE SET FILE - APPLICATION ERROR RAIX .SSDC,03 SRAE SET DEVICE - APPLICATION ERROR RAIX .SCMQ,00 SRLE COMMAND QUEUED - DRIVER ERROR RAIX .SQID,00 SRLE QUEUED INPUT DATA - DRIVER ERROR RAIX .SOPA,00 SRLE OUTPUT ALLOWED - DRIVER ERROR RAIX .SNOA,02 SRNA NO OUTPUT ACTIVITY - NO ACTION RAIX .SSTP,05 SRSO,STS39 STREAM STOPPED - SET OLD STREAM STATE RAIX .SSBI,05 SRSO,STS39 BATCH INTERRUPT - SET OLD STREAM STATE RAIX .SEOI,06 SRTW,STS23 END OF INFORMATION - TRANSFER WORKLIST RAIX .SEND,01 SRIL END OF STREAM - BLOCK PROTOCOL ERROR RAIX .SSAB,01 SRIL STREAM ABORTED - BLOCK PROTOCOL ERROR RAIX .SICR,01 SRIL ICMD RESPONSE - BLOCK PROTOCOL ERROR RAIX .SICI,00 SRLE ICMD ISSUED - DRIVER ERROR RAIX .SNCI,00 SRLE FRONT END COMMAND ISSUED - DRIVER ERROR RAIX .SRSI,00 SRLE RESET ISSUED - DRIVER ERROR RAIX .SARQ,00 SRLE APPLICATION REQUESTED - DRIVER ERROR RAIX .SMSR,00 SRLE MASS STORAGE REQUESTED - DRIVER ERROR RAIX .SMSC,00 SRLE MASS STORAGE COMPLETED - DRIVER ERROR RAIX .SMSE,00 SRLE MASS STORAGE EOI - DRIVER ERROR RAIX .SMER,00 SRLE MASS STORAGE ERROR - DRIVER ERROR RAIX .SFTE,00 SRLE END OF FILE TRANSFER - DRIVER ERROR RAIX .SFTR,00 SRLE TRANSFER MASS STORAGE ERROR - DRIVER ERROR RAIX .S7MS,01 SRIL CHECKMARK - BLOCK PROTOCOL ERROR RAIX .S7ES,01 SRIL END OF STREAM - BLOCK PROTOCOL ERROR RAIX .S7RR,01 SRIL REQUEST RESTART - BLOCK PROTOCOL ERROR RAIX .S7MR,01 SRIL CHECKMARK REPLY - BLOCK PROTOCOL ERROR RAIX .S7QR,01 SRIL QUIT - BLOCK PROTOCOL ERROR RAIX .S7CI,00 SRLE LEVEL SEVEN COMMAND ISSUED - DRIVER ERROR RAIX .STPS,07 SRWC,STS62 TERMINATE PRU STREAM - WORKLIST COMPLETED RAIX .SPST,00 SRLE PRU STREAM TERMINATED - DRIVER ERROR RAIX .SFEI,08 SRNA,STS61 FRONT END INOPERATIVE - CHANGE STATE RAIX .SBPE,08 SRNA,STS61 BLOCK PROTOCOL ERROR - CHANGE STATE RAIX .SL7E,00 SRLE LEVEL SEVEN ERROR - DRIVER ERROR RAIX .SDLE,00 SRLE DRIVER LOGIC ERROR - DRIVER ERROR STS37RT SPACE 2,10 .STATE SET STS37 RAIC 0 RESP SRNA,STS61 6 - CHANGE STATE RESP SRRB,STS46 5 - RETURN BUFFER RESP SRWE,STS38 4 - CHANGE STATE RESP SRNA,STS38 3 - CHANGE STATE RESP SRTW 2 - TRANSFER WORKLIST RESP SRIL 1 - PROTOCOL ERROR RESP SRLE 0 - DRIVER ERROR STS37RT BSS 0 STATE 37 - WAIT MASS STORAGE COMPLETE RAIX .SRID,01 SRIL INPUT DATA - BLOCK PROTOCOL ERROR RAIX .SRIB,01 SRIL INPUT BACK - BLOCK PROTOCOL ERROR RAIX .SRII,00 SRLE INVALID IVT INPUT - DRIVER ERROR RAIX .SROD,00 SRLE OUTPUT DATA - DRIVER ERROR RAIX .SSJS,00 SRLE START PRU JOB STREAM - DRIVER ERROR RAIX .SSDS,00 SRLE START PRU DATA STREAM - DRIVER ERROR RAIX .SFTI,00 SRLE START INBOUND FILE TRANSFER - DRIVER ERROR RAIX .SFTO,00 SRLE START OUTBOUND FILE TRANSFER - DRIVER ERROR RAIX .SJBV,00 SRLE VALID JOB - DRIVER ERROR RAIX .SJBE,00 SRLE INVALID JOB - DRIVER ERROR RAIX .SSPS,00 SRLE STOP PRU STREAM - DRIVER ERROR RAIX .SRST,00 SRLE RESTART PRU STREAM - DRIVER ERROR RAIX .SBYP,00 SRLE BYPASS PRU STREAM - DRIVER ERROR RAIX .SABT,00 SRLE ABORT PRU STREAM - DRIVER ERROR RAIX .SASD,00 SRLE ABORT DATA DELIMITER - DRIVER ERROR RAIX .SROS,00 SRLE RESUME OUTPUT STREAM - DRIVER ERROR RAIX .SDOR,00 SRLE DIRECT OUTPUT REQUEST - DRIVER ERROR RAIX .SEOR,00 SRLE EOJ OUTPUT REQUEST - DRIVER ERROR RAIX .SSFC,00 SRLE SET FILE CHARACTERISTICS - DRIVER ERROR RAIX .SSDC,00 SRLE SET DEVICE CHARACTERISTICS - DRIVER ERROR RAIX .SCMQ,00 SRLE COMMAND QUEUED - DRIVER ERROR RAIX .SQID,00 SRLE QUEUED INPUT DATA - DRIVER ERROR RAIX .SOPA,00 SRLE OUTPUT ALLOWED - DRIVER ERROR RAIX .SNOA,00 SRLE NO OUTPUT ACTIVITY - DRIVER ERROR RAIX .SSTP,02 SRTW STREAM STOPPED - TRANSFER WORKLIST RAIX .SSBI,02 SRTW BATCH INTERRUPT - TRANSFER WORKLIST RAIX .SEOI,01 SRIL END OF INFORMATION - BLOCK PROTOCOL ERROR RAIX .SEND,01 SRIL END OF STREAM - BLOCK PROTOCOL ERROR RAIX .SSAB,01 SRIL STREAM ABORTED - BLOCK PROTOCOL ERROR RAIX .SICR,01 SRIL ICMD RESPONSE - BLOCK PROTOCOL ERROR RAIX .SICI,00 SRLE ICMD ISSUED - DRIVER ERROR RAIX .SNCI,00 SRLE FRONT END COMMAND ISSUED - DRIVER ERROR RAIX .SRSI,00 SRLE RESET ISSUED - DRIVER ERROR RAIX .SARQ,00 SRLE APPLICATION REQUESTED - DRIVER ERROR RAIX .SMSR,00 SRLE MASS STORAGE REQUESTED - DRIVER ERROR RAIX .SMSC,03 SRNA,STS38 MASS STORAGE COMPLETED - CHANGE STATE RAIX .SMSE,04 SRWE,STS38 MASS STORAGE EOI - CHANGE STATE RAIX .SMER,05 SRRB,STS46 MASS STORAGE ERROR - RETURN BUFFER RAIX .SFTE,00 SRLE END OF FILE TRANSFER - DRIVER ERROR RAIX .SFTR,00 SRLE TRANSFER MASS STORAGE ERROR - DRIVER ERROR RAIX .S7MS,01 SRIL CHECKMARK - BLOCK PROTOCOL ERROR RAIX .S7ES,01 SRIL END OF STREAM - BLOCK PROTOCOL ERROR RAIX .S7RR,01 SRIL REQUEST RESTART - BLOCK PROTOCOL ERROR RAIX .S7MR,01 SRIL CHECKMARK REPLY - BLOCK PROTOCOL ERROR RAIX .S7QR,01 SRIL QUIT - BLOCK PROTOCOL ERROR RAIX .S7CI,00 SRLE LEVEL SEVEN COMMAND ISSUED - DRIVER ERROR RAIX .STPS,00 SRLE TERMINATE PRU STREAM - DRIVER ERROR RAIX .SPST,00 SRLE PRU STREAM TERMINATED - DRIVER ERROR RAIX .SFEI,06 SRNA,STS61 FRONT END INOPERATIVE - CHANGE STATE RAIX .SBPE,06 SRNA,STS61 BLOCK PROTOCOL ERROR - CHANGE STATE RAIX .SL7E,00 SRLE LEVEL SEVEN ERROR - DRIVER ERROR RAIX .SDLE,00 SRLE DRIVER LOGIC ERROR - DRIVER ERROR STS38RT SPACE 2,10 .STATE SET STS38 RAIC 0 RESP SRNA 5 - NO ACTION RESP SRNA,STS61 4 - CHANGE STATE RESP SRTW 3 - TRANSFER WORKLIST RESP SRPO,STS39 2 - TRANSFER PRU OUTPUT RESP SRIL 1 - PROTOCOL ERROR RESP SRLE 0 - DRIVER ERROR STS38RT BSS 0 STATE 38 - ISSUE PRU OUTPUT TO FRONT END RAIX .SRID,01 SRIL INPUT DATA - BLOCK PROTOCOL ERROR RAIX .SRIB,05 SRNA INPUT BACK - NO ACTION RAIX .SRII,00 SRLE INVALID IVT INPUT - DRIVER ERROR RAIX .SROD,02 SRPO,STS39 OUTPUT DATA - TRANSFER PRU OUTPUT RAIX .SSJS,00 SRLE START PRU JOB STREAM - DRIVER ERROR RAIX .SSDS,00 SRLE START PRU DATA STREAM - DRIVER ERROR RAIX .SFTI,00 SRLE START INBOUND FILE TRANSFER - DRIVER ERROR RAIX .SFTO,00 SRLE START OUTBOUND FILE TRANSFER - DRIVER ERROR RAIX .SJBV,00 SRLE VALID JOB - DRIVER ERROR RAIX .SJBE,00 SRLE INVALID JOB - DRIVER ERROR RAIX .SSPS,00 SRLE STOP PRU STREAM - DRIVER ERROR RAIX .SRST,00 SRLE RESTART PRU STREAM - DRIVER ERROR RAIX .SBYP,00 SRLE BYPASS PRU STREAM - DRIVER ERROR RAIX .SABT,00 SRLE ABORT PRU STREAM - DRIVER ERROR RAIX .SASD,00 SRLE ABORT DATA DELIMITER - DRIVER ERROR RAIX .SROS,00 SRLE RESUME OUTPUT STREAM - DRIVER ERROR RAIX .SDOR,00 SRLE DIRECT OUTPUT REQUEST - DRIVER ERROR RAIX .SEOR,00 SRLE EOJ OUTPUT REQUEST - DRIVER ERROR RAIX .SSFC,00 SRLE SET FILE CHARACTERISTICS - DRIVER ERROR RAIX .SSDC,00 SRLE SET DEVICE CHARACTERISTICS - DRIVER ERROR RAIX .SCMQ,00 SRLE COMMAND QUEUED - DRIVER ERROR RAIX .SQID,00 SRLE QUEUED INPUT DATA - DRIVER ERROR RAIX .SOPA,00 SRLE OUTPUT ALLOWED - DRIVER ERROR RAIX .SNOA,00 SRLE NO OUTPUT ACTIVITY - DRIVER ERROR RAIX .SSTP,01 SRIL STREAM STOPPED - BLOCK PROTOCOL ERROR RAIX .SSBI,03 SRTW BATCH INTERRUPT - TRANSFER WORKLIST RAIX .SEOI,01 SRIL END OF INFORMATION - BLOCK PROTOCOL ERROR RAIX .SEND,01 SRIL END OF STREAM - BLOCK PROTOCOL ERROR RAIX .SSAB,01 SRIL STREAM ABORTED - BLOCK PROTOCOL ERROR RAIX .SICR,01 SRIL ICMD RESPONSE - BLOCK PROTOCOL ERROR RAIX .SICI,00 SRLE ICMD ISSUED - DRIVER ERROR RAIX .SNCI,00 SRLE FRONT END COMMAND ISSUED - DRIVER ERROR RAIX .SRSI,00 SRLE RESET ISSUED - DRIVER ERROR RAIX .SARQ,00 SRLE APPLICATION REQUESTED - DRIVER ERROR RAIX .SMSR,00 SRLE MASS STORAGE REQUESTED - DRIVER ERROR RAIX .SMSC,00 SRLE MASS STORAGE COMPLETED - DRIVER ERROR RAIX .SMSE,00 SRLE MASS STORAGE EOI - DRIVER ERROR RAIX .SMER,00 SRLE MASS STORAGE ERROR - DRIVER ERROR RAIX .SFTE,00 SRLE END OF FILE TRANSFER - DRIVER ERROR RAIX .SFTR,00 SRLE TRANSFER MASS STORAGE ERROR - DRIVER ERROR RAIX .S7MS,01 SRIL CHECKMARK - BLOCK PROTOCOL ERROR RAIX .S7ES,01 SRIL END OF STREAM - BLOCK PROTOCOL ERROR RAIX .S7RR,01 SRIL REQUEST RESTART - BLOCK PROTOCOL ERROR RAIX .S7MR,01 SRIL CHECKMARK REPLY - BLOCK PROTOCOL ERROR RAIX .S7QR,01 SRIL QUIT - BLOCK PROTOCOL ERROR RAIX .S7CI,00 SRLE LEVEL SEVEN COMMAND ISSUED - DRIVER ERROR RAIX .STPS,00 SRLE TERMINATE PRU STREAM - DRIVER ERROR RAIX .SPST,00 SRLE PRU STREAM TERMINATED - DRIVER ERROR RAIX .SFEI,04 SRNA,STS61 FRONT END INOPERATIVE - CHANGE STATE RAIX .SBPE,04 SRNA,STS61 BLOCK PROTOCOL ERROR - CHANGE STATE RAIX .SL7E,00 SRLE LEVEL SEVEN ERROR - DRIVER ERROR RAIX .SDLE,00 SRLE DRIVER LOGIC ERROR - DRIVER ERROR STS39RT SPACE 2,10 .STATE SET STS39 RAIC 1 RESP SRNA,STS61 10 - CHANGE STATE RESP SRWC,STS62 9 - WORKLIST COMPLETED RESP SRTW,STS23 8 - TRANSFER WORKLIST RESP SRTW 7 - TRANSFER WORKLIST RESP SRNA,STS50 6 - CHANGE STATE RESP SRNA,STS48 5 - CHANGE STATE RESP SRWC 4 - WORKLIST COMPLETED RESP SRAE 3 - APPLICATION ERROR RESP SRNA 2 - NO ACTION RESP SRIL 1 - PROTOCOL ERROR RESP SRLE 0 - DRIVER ERROR STS39RT BSS 0 STATE 39 - STREAM STOPPED EXTERNALLY RAIX .SRID,01 SRIL INPUT DATA - BLOCK PROTOCOL ERROR RAIX .SRIB,02 SRNA INPUT BACK - NO ACTION RAIX .SRII,00 SRLE INVALID IVT INPUT - DRIVER ERROR RAIX .SROD,00 SRLE OUTPUT DATA - DRIVER ERROR RAIX .SSJS,03 SRAE START PRU JOB STREAM - APPLICATION ERROR RAIX .SSDS,02 SRNA START PRU DATA STREAM - NO ACTION RAIX .SFTI,03 SRAE START INBOUND FILE - APPLICATION ERROR RAIX .SFTO,03 SRAE START OUTBOUND FILE - APPLICATION ERROR RAIX .SJBV,03 SRAE VALID JOB - APPLICATION ERROR RAIX .SJBE,03 SRAE INVALID JOB - APPLICATION ERROR RAIX .SSPS,04 SRWC STOP PRU STREAM - WORKLIST COMPLETED RAIX .SRST,05 SRNA,STS48 RESTART PRU STREAM - CHANGE STATE RAIX .SBYP,03 SRAE BYPASS PRU STREAM - APPLICATION ERROR RAIX .SABT,06 SRNA,STS50 ABORT PRU STREAM - CHANGE STATE RAIX .SASD,03 SRAE ABORT DATA DELIMITER - APPLICATION ERROR RAIX .SROS,04 SRWC RESUME OUTPUT STREAM - WORKLIST COMPLETED RAIX .SDOR,02 SRNA DIRECT OUTPUT REQUEST - NO ACTION RAIX .SEOR,02 SRNA EOJ OUTPUT REQUEST - NO ACTION RAIX .SSFC,02 SRNA SET FILE CHARACTERISTICS - NO ACTION RAIX .SSDC,02 SRNA SET DEVICE CHARACTERISTICS - NO ACTION RAIX .SCMQ,00 SRLE COMMAND QUEUED - DRIVER ERROR RAIX .SQID,00 SRLE QUEUED INPUT DATA - DRIVER ERROR RAIX .SOPA,02 SRNA OUTPUT ALLOWED - NO ACTION RAIX .SNOA,00 SRLE NO OUTPUT ACTIVITY - DRIVER ERROR RAIX .SSTP,07 SRTW STREAM STOPPED - TRANSFER WORKLIST RAIX .SSBI,07 SRTW BATCH INTERRUPT - TRANSFER WORKLIST RAIX .SEOI,08 SRTW,STS23 END OF INFORMATION - TRANSFER WORKLIST RAIX .SEND,01 SRIL END OF STREAM - BLOCK PROTOCOL ERROR RAIX .SSAB,01 SRIL STREAM ABORTED - BLOCK PROTOCOL ERROR RAIX .SICR,01 SRIL ICMD RESPONSE - BLOCK PROTOCOL ERROR RAIX .SICI,00 SRLE ICMD ISSUED - DRIVER ERROR RAIX .SNCI,00 SRLE FRONT END COMMAND ISSUED - DRIVER ERROR RAIX .SRSI,00 SRLE RESET ISSUED - DRIVER ERROR RAIX .SARQ,00 SRLE APPLICATION REQUESTED - DRIVER ERROR RAIX .SMSR,00 SRLE MASS STORAGE REQUESTED - DRIVER ERROR RAIX .SMSC,00 SRLE MASS STORAGE COMPLETED - DRIVER ERROR RAIX .SMSE,00 SRLE MASS STORAGE EOI - DRIVER ERROR RAIX .SMER,00 SRLE MASS STORAGE ERROR - DRIVER ERROR RAIX .SFTE,00 SRLE END OF FILE TRANSFER - DRIVER ERROR RAIX .SFTR,00 SRLE TRANSFER MASS STORAGE ERROR - DRIVER ERROR RAIX .S7MS,01 SRIL CHECKMARK - BLOCK PROTOCOL ERROR RAIX .S7ES,01 SRIL END OF STREAM - BLOCK PROTOCOL ERROR RAIX .S7RR,01 SRIL REQUEST RESTART - BLOCK PROTOCOL ERROR RAIX .S7MR,01 SRIL CHECKMARK REPLY - BLOCK PROTOCOL ERROR RAIX .S7QR,01 SRIL QUIT - BLOCK PROTOCOL ERROR RAIX .S7CI,00 SRLE LEVEL SEVEN COMMAND ISSUED - DRIVER ERROR RAIX .STPS,09 SRWC,STS62 TERMINATE PRU STREAM - WORKLIST COMPLETED RAIX .SPST,00 SRLE PRU STREAM TERMINATED - DRIVER ERROR RAIX .SFEI,10 SRNA,STS61 MPU INOPERATIVE - CHANGE STATE RAIX .SBPE,10 SRNA,STS61 BLOCK PROTOCOL ERROR - CHANGE STATE RAIX .SL7E,00 SRLE LEVEL SEVEN ERROR - DRIVER ERROR RAIX .SDLE,00 SRLE DRIVER LOGIC ERROR - DRIVER ERROR STS40RT SPACE 2,10 .STATE SET STS40 RAIC 0 RESP SRNA,STS61 4 - CHANGE STATE RESP SRTW 3 - TRANSFER WORKLIST RESP SRPO,STS39 2 - TRANSFER PRU OUTPUT RESP SRIL 1 - PROTOCOL ERROR RESP SRLE 0 - DRIVER ERROR STS40RT BSS 0 STATE 40 - ISSUE LAST PRU OUTPUT TO FE RAIX .SRID,01 SRIL INPUT DATA - BLOCK PROTOCOL ERROR RAIX .SRIB,01 SRIL INPUT BACK - BLOCK PROTOCOL ERROR RAIX .SRII,00 SRLE INVALID IVT INPUT - DRIVER ERROR RAIX .SROD,02 SRPO,STS39 OUTPUT DATA - TRANSFER PRU OUTPUT RAIX .SSJS,00 SRLE START PRU JOB STREAM - DRIVER ERROR RAIX .SSDS,00 SRLE START PRU DATA STREAM - DRIVER ERROR RAIX .SFTI,00 SRLE START INBOUND FILE TRANSFER - DRIVER ERROR RAIX .SFTO,00 SRLE START OUTBOUND FILE TRANSFER - DRIVER ERROR RAIX .SJBV,00 SRLE VALID JOB - DRIVER ERROR RAIX .SJBE,00 SRLE INVALID JOB - DRIVER ERROR RAIX .SSPS,00 SRLE STOP PRU STREAM - DRIVER ERROR RAIX .SRST,00 SRLE RESTART PRU STREAM - DRIVER ERROR RAIX .SBYP,00 SRLE BYPASS PRU STREAM - DRIVER ERROR RAIX .SABT,00 SRLE ABORT PRU STREAM - DRIVER ERROR RAIX .SASD,00 SRLE ABORT DATA DELIMITER - DRIVER ERROR RAIX .SROS,00 SRLE RESUME OUTPUT STREAM - DRIVER ERROR RAIX .SDOR,00 SRLE DIRECT OUTPUT REQUEST - DRIVER ERROR RAIX .SEOR,00 SRLE EOJ OUTPUT REQUEST - DRIVER ERROR RAIX .SSFC,00 SRLE SET FILE CHARACTERISTICS - DRIVER ERROR RAIX .SSDC,00 SRLE SET DEVICE CHARACTERISTICS - DRIVER ERROR RAIX .SCMQ,00 SRLE COMMAND QUEUED - DRIVER ERROR RAIX .SQID,00 SRLE QUEUED INPUT DATA - DRIVER ERROR RAIX .SOPA,00 SRLE OUTPUT ALLOWED - DRIVER ERROR RAIX .SNOA,00 SRLE NO OUTPUT ACTIVITY - DRIVER ERROR RAIX .SSTP,03 SRTW STREAM STOPPED - TRANSFER WORKLIST RAIX .SSBI,03 SRTW BATCH INTERRUPT - TRANSFER WORKLIST RAIX .SEOI,01 SRIL END OF INFORMATION - BLOCK PROTOCOL ERROR RAIX .SEND,01 SRIL END OF STREAM - BLOCK PROTOCOL ERROR RAIX .SSAB,01 SRIL STREAM ABORTED - BLOCK PROTOCOL ERROR RAIX .SICR,01 SRIL ICMD RESPONSE - BLOCK PROTOCOL ERROR RAIX .SICI,00 SRLE ICMD ISSUED - DRIVER ERROR RAIX .SNCI,00 SRLE FRONT END COMMAND ISSUED - DRIVER ERROR RAIX .SRSI,00 SRLE RESET ISSUED - DRIVER ERROR RAIX .SARQ,00 SRLE APPLICATION REQUESTED - DRIVER ERROR RAIX .SMSR,00 SRLE MASS STORAGE REQUESTED - DRIVER ERROR RAIX .SMSC,00 SRLE MASS STORAGE COMPLETED - DRIVER ERROR RAIX .SMSE,00 SRLE MASS STORAGE EOI - DRIVER ERROR RAIX .SMER,00 SRLE MASS STORAGE ERROR - DRIVER ERROR RAIX .SFTE,00 SRLE END OF FILE TRANSFER - DRIVER ERROR RAIX .SFTR,00 SRLE TRANSFER MASS STORAGE ERROR - DRIVER ERROR RAIX .S7MS,01 SRIL CHECKMARK - BLOCK PROTOCOL ERROR RAIX .S7ES,01 SRIL END OF STREAM - BLOCK PROTOCOL ERROR RAIX .S7RR,01 SRIL REQUEST RESTART - BLOCK PROTOCOL ERROR RAIX .S7MR,01 SRIL CHECKMARK REPLY - BLOCK PROTOCOL ERROR RAIX .S7QR,01 SRIL QUIT - BLOCK PROTOCOL ERROR RAIX .S7CI,00 SRLE LEVEL SEVEN COMMAND ISSUED - DRIVER ERROR RAIX .STPS,00 SRLE TERMINATE PRU STREAM - DRIVER ERROR RAIX .SPST,00 SRLE PRU STREAM TERMINATED - DRIVER ERROR RAIX .SFEI,04 SRNA,STS61 FRONT END INOPERATIVE - CHANGE STATE RAIX .SBPE,04 SRNA,STS61 BLOCK PROTOCOL ERROR - CHANGE STATE RAIX .SL7E,00 SRLE LEVEL SEVEN ERROR - DRIVER ERROR RAIX .SDLE,00 SRLE DRIVER LOGIC ERROR - DRIVER ERROR STS41RT SPACE 2,10 .STATE SET STS41 RAIC 1 RESP SRNA,STS61 8 - CHANGE STATE RESP SRWC,STS62 7 - WORKLIST COMPLETED RESP SRTW,STS39 6 - TRANSFER WORKLIST RESP SRNA,STS42 5 - CHANGE STATE RESP SRNA,STS50 4 - CHANGE STATE RESP SRAE 3 - APPLICATION ERROR RESP SRNA 2 - NO ACTION RESP SRIL 1 - PROTOCOL ERROR RESP SRLE 0 - DRIVER ERROR STS41RT BSS 0 STATE 41 - WAIT NO OUTPUT ACTIVITY RAIX .SRID,01 SRIL INPUT DATA - BLOCK PROTOCOL ERROR RAIX .SRIB,02 SRNA INPUT BACK - NO ACTION RAIX .SRII,00 SRLE INVALID IVT INPUT - DRIVER ERROR RAIX .SROD,00 SRLE OUTPUT DATA - DRIVER ERROR RAIX .SSJS,03 SRAE START PRU JOB STREAM - APPLICATION ERROR RAIX .SSDS,03 SRAE START PRU DATA STREAM - APPLICATION ERROR RAIX .SFTI,03 SRAE START INBOUND FILE - APPLICATION ERROR RAIX .SFTO,03 SRAE START OUTBOUND FILE - APPLICATION ERROR RAIX .SJBV,03 SRAE VALID JOB - APPLICATION ERROR RAIX .SJBE,03 SRAE INVALID JOB - APPLICATION ERROR RAIX .SSPS,03 SRAE STOP PRU STREAM - APPLICATION ERROR RAIX .SRST,03 SRAE RESTART PRU STREAM - APPLICATION ERROR RAIX .SBYP,03 SRAE BYPASS PRU STREAM - APPLICATION ERROR RAIX .SABT,04 SRNA,STS50 ABORT PRU STREAM - CHANGE STATE RAIX .SASD,03 SRAE ABORT DATA DELIMITER - APPLICATION ERROR RAIX .SROS,03 SRAE RESUME OUTPUT STREAM - APPLICATION ERROR RAIX .SDOR,03 SRAE DIRECT OUTPUT REQUEST - APPLICATION ERROR RAIX .SEOR,03 SRAE EOJ OUTPUT REQUEST - APPLICATION ERROR RAIX .SSFC,03 SRAE SET FILE - APPLICATION ERROR RAIX .SSDC,03 SRAE SET DEVICE - APPLICATION ERROR RAIX .SCMQ,00 SRLE COMMAND QUEUED - DRIVER ERROR RAIX .SQID,00 SRLE QUEUED INPUT DATA - DRIVER ERROR RAIX .SOPA,00 SRLE OUTPUT ALLOWED - DRIVER ERROR RAIX .SNOA,05 SRNA,STS42 NO OUTPUT ACTIVITY - CHANGE STATE RAIX .SSTP,06 SRTW,STS39 STREAM STOPPED - TRANSFER WORKLIST RAIX .SSBI,06 SRTW,STS39 BATCH INTERRUPT - TRANSFER WORKLIST RAIX .SEOI,01 SRIL END OF INFORMATION - BLOCK PROTOCOL ERROR RAIX .SEND,01 SRIL END OF STREAM - BLOCK PROTOCOL ERROR RAIX .SSAB,01 SRIL STREAM ABORTED - BLOCK PROTOCOL ERROR RAIX .SICR,01 SRIL ICMD RESPONSE - BLOCK PROTOCOL ERROR RAIX .SICI,00 SRLE ICMD ISSUED - DRIVER ERROR RAIX .SNCI,00 SRLE FRONT END COMMAND ISSUED - DRIVER ERROR RAIX .SRSI,00 SRLE RESET ISSUED - DRIVER ERROR RAIX .SARQ,00 SRLE APPLICATION REQUESTED - DRIVER ERROR RAIX .SMSR,00 SRLE MASS STORAGE REQUESTED - DRIVER ERROR RAIX .SMSC,00 SRLE MASS STORAGE COMPLETED - DRIVER ERROR RAIX .SMSE,00 SRLE MASS STORAGE EOI - DRIVER ERROR RAIX .SMER,00 SRLE MASS STORAGE ERROR - DRIVER ERROR RAIX .SFTE,00 SRLE END OF FILE TRANSFER - DRIVER ERROR RAIX .SFTR,00 SRLE TRANSFER MASS STORAGE ERROR - DRIVER ERROR RAIX .S7MS,01 SRIL CHECKMARK - BLOCK PROTOCOL ERROR RAIX .S7ES,01 SRIL END OF STREAM - BLOCK PROTOCOL ERROR RAIX .S7RR,01 SRIL REQUEST RESTART - BLOCK PROTOCOL ERROR RAIX .S7MR,01 SRIL CHECKMARK REPLY - BLOCK PROTOCOL ERROR RAIX .S7QR,01 SRIL QUIT - BLOCK PROTOCOL ERROR RAIX .S7CI,00 SRLE LEVEL SEVEN COMMAND ISSUED - DRIVER ERROR RAIX .STPS,07 SRWC,STS62 TERMINATE PRU STREAM - WORKLIST COMPLETED RAIX .SPST,00 SRLE PRU STREAM TERMINATED - DRIVER ERROR RAIX .SFEI,08 SRNA,STS61 FRONT END INOPERATIVE - CHANGE STATE RAIX .SBPE,08 SRNA,STS61 BLOCK PROTOCOL ERROR - CHANGE STATE RAIX .SL7E,00 SRLE LEVEL SEVEN ERROR - DRIVER ERROR RAIX .SDLE,00 SRLE DRIVER LOGIC ERROR - DRIVER ERROR STS42RT SPACE 2,10 .STATE SET STS42 RAIC 0 RESP SRNA,STS61 4 - CHANGE STATE RESP SRTW,STS43 3 - TRANSFER WORKLIST RESP SRTW,STS39 2 - TRANSFER WORKLIST RESP SRIL 1 - PROTOCOL ERROR RESP SRLE 0 - DRIVER ERROR STS42RT BSS 0 STATE 42 - REPORT OUTPUT STREAM STOPPED RAIX .SRID,01 SRIL INPUT DATA - BLOCK PROTOCOL ERROR RAIX .SRIB,01 SRIL INPUT BACK - BLOCK PROTOCOL ERROR RAIX .SRII,00 SRLE INVALID IVT INPUT - DRIVER ERROR RAIX .SROD,00 SRLE OUTPUT DATA - DRIVER ERROR RAIX .SSJS,00 SRLE START PRU JOB STREAM - DRIVER ERROR RAIX .SSDS,00 SRLE START PRU DATA STREAM - DRIVER ERROR RAIX .SFTI,00 SRLE START INBOUND FILE TRANSFER - DRIVER ERROR RAIX .SFTO,00 SRLE START OUTBOUND FILE TRANSFER - DRIVER ERROR RAIX .SJBV,00 SRLE VALID JOB - DRIVER ERROR RAIX .SJBE,00 SRLE INVALID JOB - DRIVER ERROR RAIX .SSPS,00 SRLE STOP PRU STREAM - DRIVER ERROR RAIX .SRST,00 SRLE RESTART PRU STREAM - DRIVER ERROR RAIX .SBYP,00 SRLE BYPASS PRU STREAM - DRIVER ERROR RAIX .SABT,00 SRLE ABORT PRU STREAM - DRIVER ERROR RAIX .SASD,00 SRLE ABORT DATA DELIMITER - DRIVER ERROR RAIX .SROS,00 SRLE RESUME OUTPUT STREAM - DRIVER ERROR RAIX .SDOR,00 SRLE DIRECT OUTPUT REQUEST - DRIVER ERROR RAIX .SEOR,00 SRLE EOJ OUTPUT REQUEST - DRIVER ERROR RAIX .SSFC,00 SRLE SET FILE CHARACTERISTICS - DRIVER ERROR RAIX .SSDC,00 SRLE SET DEVICE CHARACTERISTICS - DRIVER ERROR RAIX .SCMQ,00 SRLE COMMAND QUEUED - DRIVER ERROR RAIX .SQID,00 SRLE QUEUED INPUT DATA - DRIVER ERROR RAIX .SOPA,00 SRLE OUTPUT ALLOWED - DRIVER ERROR RAIX .SNOA,00 SRLE NO OUTPUT ACTIVITY - DRIVER ERROR RAIX .SSTP,02 SRTW,STS39 STREAM STOPPED - TRANSFER WORKLIST RAIX .SSBI,02 SRTW,STS39 BATCH INTERRUPT - TRANSFER WORKLIST RAIX .SEOI,01 SRIL END OF INFORMATION - BLOCK PROTOCOL ERROR RAIX .SEND,01 SRIL END OF STREAM - BLOCK PROTOCOL ERROR RAIX .SSAB,01 SRIL STREAM ABORTED - BLOCK PROTOCOL ERROR RAIX .SICR,01 SRIL ICMD RESPONSE - BLOCK PROTOCOL ERROR RAIX .SICI,00 SRLE ICMD ISSUED - DRIVER ERROR RAIX .SNCI,00 SRLE FRONT END COMMAND ISSUED - DRIVER ERROR RAIX .SRSI,00 SRLE RESET ISSUED - DRIVER ERROR RAIX .SARQ,03 SRTW,STS43 APPLICATION REQUESTED - TRANSFER WORKLIST RAIX .SMSR,00 SRLE MASS STORAGE REQUESTED - DRIVER ERROR RAIX .SMSC,00 SRLE MASS STORAGE COMPLETED - DRIVER ERROR RAIX .SMSE,00 SRLE MASS STORAGE EOI - DRIVER ERROR RAIX .SMER,00 SRLE MASS STORAGE ERROR - DRIVER ERROR RAIX .SFTE,00 SRLE END OF FILE TRANSFER - DRIVER ERROR RAIX .SFTR,00 SRLE TRANSFER MASS STORAGE ERROR - DRIVER ERROR RAIX .S7MS,01 SRIL CHECKMARK - BLOCK PROTOCOL ERROR RAIX .S7ES,01 SRIL END OF STREAM - BLOCK PROTOCOL ERROR RAIX .S7RR,01 SRIL REQUEST RESTART - BLOCK PROTOCOL ERROR RAIX .S7MR,01 SRIL CHECKMARK REPLY - BLOCK PROTOCOL ERROR RAIX .S7QR,01 SRIL QUIT - BLOCK PROTOCOL ERROR RAIX .S7CI,00 SRLE LEVEL SEVEN COMMAND ISSUED - DRIVER ERROR RAIX .STPS,00 SRLE TERMINATE PRU STREAM - DRIVER ERROR RAIX .SPST,00 SRLE PRU STREAM TERMINATED - DRIVER ERROR RAIX .SFEI,04 SRNA,STS61 FRONT END INOPERATIVE - CHANGE STATE RAIX .SBPE,04 SRNA,STS61 BLOCK PROTOCOL ERROR - CHANGE STATE RAIX .SL7E,00 SRLE LEVEL SEVEN ERROR - DRIVER ERROR RAIX .SDLE,00 SRLE DRIVER LOGIC ERROR - DRIVER ERROR STS43RT SPACE 2,10 .STATE SET STS43 RAIC 1 RESP SRNA,STS61 8 - CHANGE STATE RESP SRWC,STS62 7 - WORKLIST COMPLETED RESP SRTW,STS39 6 - TRANSFER WORKLIST RESP SRNA 5 - NO ACTION RESP SROS,** 4 - RETURN TO OLD STATE RESP SRNA,STS50 3 - CHANGE STATE RESP SRAE 2 - APPLICATION ERROR RESP SRIL 1 - PROTOCOL ERROR RESP SRLE 0 - DRIVER ERROR STS43RT BSS 0 STATE 43 - STREAM STOPPED BY APPLICATION RAIX .SRID,01 SRIL INPUT DATA - BLOCK PROTOCOL ERROR RAIX .SRIB,01 SRIL INPUT BACK - BLOCK PROTOCOL ERROR RAIX .SRII,00 SRLE INVALID IVT INPUT - DRIVER ERROR RAIX .SROD,00 SRLE OUTPUT DATA - DRIVER ERROR RAIX .SSJS,02 SRAE START PRU JOB STREAM - APPLICATION ERROR RAIX .SSDS,02 SRAE START PRU DATA STREAM - APPLICATION ERROR RAIX .SFTI,02 SRAE START INBOUND FILE - APPLICATION ERROR RAIX .SFTO,02 SRAE START OUTBOUND FILE - APPLICATION ERROR RAIX .SJBV,02 SRAE VALID JOB - APPLICATION ERROR RAIX .SJBE,02 SRAE INVALID JOB - APPLICATION ERROR RAIX .SSPS,02 SRAE STOP PRU STREAM - APPLICATION ERROR RAIX .SRST,02 SRAE RESTART PRU STREAM - APPLICATION ERROR RAIX .SBYP,02 SRAE BYPASS PRU STREAM - APPLICATION ERROR RAIX .SABT,03 SRNA,STS50 ABORT PRU STREAM - CHANGE STATE RAIX .SASD,02 SRAE ABORT DATA DELIMITER - APPLICATION ERROR RAIX .SROS,04 SROS,** RESUME OUTPUT STREAM - RETURN TO OLD STATE RAIX .SDOR,02 SRAE DIRECT OUTPUT REQUEST - APPLICATION ERROR RAIX .SEOR,02 SRAE EOJ OUTPUT REQUEST - APPLICATION ERROR RAIX .SSFC,05 SRNA SET FILE CHARACTERISTICS - NO ACTION RAIX .SSDC,05 SRNA SET DEVICE CHARACTERISTICS - NO ACTION RAIX .SCMQ,00 SRLE COMMAND QUEUED - DRIVER ERROR RAIX .SQID,00 SRLE QUEUED INPUT DATA - DRIVER ERROR RAIX .SOPA,05 SRNA OUTPUT ALLOWED - NO ACTION RAIX .SNOA,00 SRLE NO OUTPUT ACTIVITY - DRIVER ERROR RAIX .SSTP,06 SRTW,STS39 STREAM STOPPED - TRANSFER WORKLIST RAIX .SSBI,06 SRTW,STS39 BATCH INTERRUPT - TRANSFER WORKLIST RAIX .SEOI,01 SRIL END OF INFORMATION - BLOCK PROTOCOL ERROR RAIX .SEND,01 SRIL END OF STREAM - BLOCK PROTOCOL ERROR RAIX .SSAB,01 SRIL STREAM ABORTED - BLOCK PROTOCOL ERROR RAIX .SICR,01 SRIL ICMD RESPONSE - BLOCK PROTOCOL ERROR RAIX .SICI,00 SRLE ICMD ISSUED - DRIVER ERROR RAIX .SNCI,00 SRLE FRONT END COMMAND ISSUED - DRIVER ERROR RAIX .SRSI,00 SRLE RESET ISSUED - DRIVER ERROR RAIX .SARQ,00 SRLE APPLICATION REQUESTED - DRIVER ERROR RAIX .SMSR,00 SRLE MASS STORAGE REQUESTED - DRIVER ERROR RAIX .SMSC,00 SRLE MASS STORAGE COMPLETED - DRIVER ERROR RAIX .SMSE,00 SRLE MASS STORAGE EOI - DRIVER ERROR RAIX .SMER,00 SRLE MASS STORAGE ERROR - DRIVER ERROR RAIX .SFTE,00 SRLE END OF FILE TRANSFER - DRIVER ERROR RAIX .SFTR,00 SRLE TRANSFER MASS STORAGE ERROR - DRIVER ERROR RAIX .S7MS,01 SRIL CHECKMARK - BLOCK PROTOCOL ERROR RAIX .S7ES,01 SRIL END OF STREAM - BLOCK PROTOCOL ERROR RAIX .S7RR,01 SRIL REQUEST RESTART - BLOCK PROTOCOL ERROR RAIX .S7MR,01 SRIL CHECKMARK REPLY - BLOCK PROTOCOL ERROR RAIX .S7QR,01 SRIL QUIT - BLOCK PROTOCOL ERROR RAIX .S7CI,00 SRLE LEVEL SEVEN COMMAND ISSUED - DRIVER ERROR RAIX .STPS,07 SRWC,STS62 TERMINATE PRU STREAM - WORKLIST COMPLETED RAIX .SPST,00 SRLE PRU STREAM TERMINATED - DRIVER ERROR RAIX .SFEI,08 SRNA,STS61 FRONT END INOPERATIVE - CHANGE STATE RAIX .SBPE,08 SRNA,STS61 BLOCK PROTOCOL ERROR - CHANGE STATE RAIX .SL7E,00 SRLE LEVEL SEVEN ERROR - DRIVER ERROR RAIX .SDLE,00 SRLE DRIVER LOGIC ERROR - DRIVER ERROR STS44RT SPACE 2,10 .STATE SET STS44 RAIC 0 RESP SRNA,STS61 5 - CHANGE STATE RESP SRTW,STS45 4 - TRANSFER WORKLIST RESP SRTW,STS46 3 - TRANSFER WORKLIST RESP SRNA 2 - NO ACTION RESP SRIL 1 - PROTOCOL ERROR RESP SRLE 0 - DRIVER ERROR STS44RT BSS 0 STATE 44 - REPORT INTERNAL STREAM STOPPED RAIX .SRID,01 SRIL INPUT DATA - BLOCK PROTOCOL ERROR RAIX .SRIB,02 SRNA INPUT BACK - NO ACTION RAIX .SRII,00 SRLE INVALID IVT INPUT - DRIVER ERROR RAIX .SROD,00 SRLE OUTPUT DATA - DRIVER ERROR RAIX .SSJS,00 SRLE START PRU JOB STREAM - DRIVER ERROR RAIX .SSDS,00 SRLE START PRU DATA STREAM - DRIVER ERROR RAIX .SFTI,00 SRLE START INBOUND FILE TRANSFER - DRIVER ERROR RAIX .SFTO,00 SRLE START OUTBOUND FILE TRANSFER - DRIVER ERROR RAIX .SJBV,00 SRLE VALID JOB - DRIVER ERROR RAIX .SJBE,00 SRLE INVALID JOB - DRIVER ERROR RAIX .SSPS,00 SRLE STOP PRU STREAM - DRIVER ERROR RAIX .SRST,00 SRLE RESTART PRU STREAM - DRIVER ERROR RAIX .SBYP,00 SRLE BYPASS PRU STREAM - DRIVER ERROR RAIX .SABT,00 SRLE ABORT PRU STREAM - DRIVER ERROR RAIX .SASD,00 SRLE ABORT DATA DELIMITER - DRIVER ERROR RAIX .SROS,00 SRLE RESUME OUTPUT STREAM - DRIVER ERROR RAIX .SDOR,00 SRLE DIRECT OUTPUT REQUEST - DRIVER ERROR RAIX .SEOR,00 SRLE EOJ OUTPUT REQUEST - DRIVER ERROR RAIX .SSFC,00 SRLE SET FILE CHARACTERISTICS - DRIVER ERROR RAIX .SSDC,00 SRLE SET DEVICE CHARACTERISTICS - DRIVER ERROR RAIX .SCMQ,00 SRLE COMMAND QUEUED - DRIVER ERROR RAIX .SQID,00 SRLE QUEUED INPUT DATA - DRIVER ERROR RAIX .SOPA,00 SRLE OUTPUT ALLOWED - DRIVER ERROR RAIX .SNOA,00 SRLE NO OUTPUT ACTIVITY - DRIVER ERROR RAIX .SSTP,03 SRTW,STS46 STREAM STOPPED - TRANSFER WORKLIST RAIX .SSBI,03 SRTW,STS46 BATCH INTERRUPT - TRANSFER WORKLIST RAIX .SEOI,01 SRIL END OF INFORMATION - BLOCK PROTOCOL ERROR RAIX .SEND,01 SRIL END OF STREAM - BLOCK PROTOCOL ERROR RAIX .SSAB,01 SRIL STREAM ABORTED - BLOCK PROTOCOL ERROR RAIX .SICR,01 SRIL ICMD RESPONSE - BLOCK PROTOCOL ERROR RAIX .SICI,00 SRLE ICMD ISSUED - DRIVER ERROR RAIX .SNCI,00 SRLE FRONT END COMMAND ISSUED - DRIVER ERROR RAIX .SRSI,00 SRLE RESET ISSUED - DRIVER ERROR RAIX .SARQ,04 SRTW,STS45 APPLICATION REQUESTED - TRANSFER WORKLIST RAIX .SMSR,00 SRLE MASS STORAGE REQUESTED - DRIVER ERROR RAIX .SMSC,00 SRLE MASS STORAGE COMPLETED - DRIVER ERROR RAIX .SMSE,00 SRLE MASS STORAGE EOI - DRIVER ERROR RAIX .SMER,00 SRLE MASS STORAGE ERROR - DRIVER ERROR RAIX .SFTE,00 SRLE END OF FILE TRANSFER - DRIVER ERROR RAIX .SFTR,00 SRLE TRANSFER MASS STORAGE ERROR - DRIVER ERROR RAIX .S7MS,01 SRIL CHECKMARK - BLOCK PROTOCOL ERROR RAIX .S7ES,01 SRIL END OF STREAM - BLOCK PROTOCOL ERROR RAIX .S7RR,01 SRIL REQUEST RESTART - BLOCK PROTOCOL ERROR RAIX .S7MR,01 SRIL CHECKMARK REPLY - BLOCK PROTOCOL ERROR RAIX .S7QR,01 SRIL QUIT - BLOCK PROTOCOL ERROR RAIX .S7CI,00 SRLE LEVEL SEVEN COMMAND ISSUED - DRIVER ERROR RAIX .STPS,00 SRLE TERMINATE PRU STREAM - DRIVER ERROR RAIX .SPST,00 SRLE PRU STREAM TERMINATED - DRIVER ERROR RAIX .SFEI,05 SRNA,STS61 FRONT END INOPERATIVE - CHANGE STATE RAIX .SBPE,05 SRNA,STS61 BLOCK PROTOCOL ERROR - CHANGE STATE RAIX .SL7E,00 SRLE LEVEL SEVEN ERROR - DRIVER ERROR RAIX .SDLE,00 SRLE DRIVER LOGIC ERROR - DRIVER ERROR STS45RT SPACE 2,10 .STATE SET STS45 RAIC 1 RESP SRNA,STS61 8 - CHANGE STATE RESP SRWC,STS62 7 - WORKLIST COMPLETED RESP SRTW,STS39 6 - TRANSFER WORKLIST RESP SRNA,STS50 5 - CHANGE STATE RESP SRWC 4 - WORKLIST COMPLETED RESP SRAE 3 - APPLICATION ERROR RESP SRNA 2 - NO ACTION RESP SRIL 1 - BLOCK PROTOCOL ERROR RESP SRLE 0 - DRIVER ERROR STS45RT BSS 0 STATE 45 - STREAM STOPPED INTERNALLY RAIX .SRID,01 SRIL INPUT DATA - BLOCK PROTOCOL ERROR RAIX .SRIB,02 SRNA INPUT BACK - NO ACTION RAIX .SRII,00 SRLE INVALID IVT INPUT - DRIVER ERROR RAIX .SROD,00 SRLE OUTPUT DATA - DRIVER ERROR RAIX .SSJS,03 SRAE START PRU JOB STREAM - APPLICATION ERROR RAIX .SSDS,03 SRAE START PRU DATA STREAM - APPLICATION ERROR RAIX .SFTI,03 SRAE START INBOUND FILE - APPLICATION ERROR RAIX .SFTO,03 SRAE START OUTBOUND FILE - APPLICATION ERROR RAIX .SJBV,03 SRAE VALID JOB - APPLICATION ERROR RAIX .SJBE,03 SRAE INVALID JOB - APPLICATION ERROR RAIX .SSPS,04 SRWC STOP PRU STREAM - WORKLIST COMPLETED RAIX .SRST,03 SRAE RESTART PRU STREAM - APPLICATION ERROR RAIX .SBYP,03 SRAE BYPASS PRU STREAM - APPLICATION ERROR RAIX .SABT,05 SRNA,STS50 ABORT PRU STREAM - CHANGE STATE RAIX .SASD,03 SRAE ABORT DATA DELIMITER - APPLICATION ERROR RAIX .SROS,03 SRAE RESUME OUTPUT STREAM - APPLICATION ERROR RAIX .SDOR,03 SRAE DIRECT OUTPUT REQUEST - APPLICATION ERROR RAIX .SEOR,03 SRAE EOJ OUTPUT REQUEST - APPLICATION ERROR RAIX .SSFC,02 SRNA SET FILE CHARACTERISTICS - NO ACTION RAIX .SSDC,02 SRNA SET DEVICE CHARACTERISTICS - NO ACTION RAIX .SCMQ,00 SRLE COMMAND QUEUED - DRIVER ERROR RAIX .SQID,00 SRLE QUEUED INPUT DATA - DRIVER ERROR RAIX .SOPA,02 SRNA OUTPUT ALLOWED - NO ACTION RAIX .SNOA,00 SRLE NO OUTPUT ACTIVITY - DRIVER ERROR RAIX .SSTP,06 SRTW,STS39 STREAM STOPPED - TRANSFER WORKLIST RAIX .SSBI,06 SRTW,STS39 BATCH INTERRUPT - TRANSFER WORKLIST RAIX .SEOI,01 SRIL END OF INFORMATION - BLOCK PROTOCOL ERROR RAIX .SEND,01 SRIL END OF STREAM - BLOCK PROTOCOL ERROR RAIX .SSAB,01 SRIL STREAM ABORTED - BLOCK PROTOCOL ERROR RAIX .SICR,01 SRIL ICMD RESPONSE - BLOCK PROTOCOL ERROR RAIX .SICI,00 SRLE ICMD ISSUED - DRIVER ERROR RAIX .SNCI,00 SRLE FRONT END COMMAND ISSUED - DRIVER ERROR RAIX .SRSI,00 SRLE RESET ISSUED - DRIVER ERROR RAIX .SARQ,00 SRLE APPLICATION REQUESTED - DRIVER ERROR RAIX .SMSR,00 SRLE MASS STORAGE REQUESTED - DRIVER ERROR RAIX .SMSC,00 SRLE MASS STORAGE COMPLETED - DRIVER ERROR RAIX .SMSE,00 SRLE MASS STORAGE EOI - DRIVER ERROR RAIX .SMER,00 SRLE MASS STORAGE ERROR - DRIVER ERROR RAIX .SFTE,00 SRLE END OF FILE TRANSFER - DRIVER ERROR RAIX .SFTR,00 SRLE TRANSFER MASS STORAGE ERROR - DRIVER ERROR RAIX .S7MS,01 SRIL CHECKMARK - BLOCK PROTOCOL ERROR RAIX .S7ES,01 SRIL END OF STREAM - BLOCK PROTOCOL ERROR RAIX .S7RR,01 SRIL REQUEST RESTART - BLOCK PROTOCOL ERROR RAIX .S7MR,01 SRIL CHECKMARK REPLY - BLOCK PROTOCOL ERROR RAIX .S7QR,01 SRIL QUIT - BLOCK PROTOCOL ERROR RAIX .S7CI,00 SRLE LEVEL SEVEN COMMAND ISSUED - DRIVER ERROR RAIX .STPS,07 SRWC,STS62 TERMINATE PRU STREAM - WORKLIST COMPLETED RAIX .SPST,00 SRLE PRU STREAM TERMINATED - DRIVER ERROR RAIX .SFEI,08 SRNA,STS61 FRONT END INOPERATIVE - CHANGE STATE RAIX .SBPE,08 SRNA,STS61 BLOCK PROTOCOL ERROR - CHANGE STATE RAIX .SL7E,00 SRLE LEVEL SEVEN ERROR - DRIVER ERROR RAIX .SDLE,00 SRLE DRIVER LOGIC ERROR - DRIVER ERROR STS46RT SPACE 2,10 .STATE SET STS46 RAIC 0 RESP SRNA,STS61 5 - CHANGE STATE RESP SRTW,STS39 4 - TRANSFER WORKLIST RESP SRTW 3 - TRANSFER WORKLIST RESP SRNA 2 - NO ACTION RESP SRIL 1 - PROTOCOL ERROR RESP SRLE 0 - DRIVER ERROR STS46RT BSS 0 STATE 46 - REPORT INTERNAL STREAM STOPPED RAIX .SRID,01 SRIL INPUT DATA - BLOCK PROTOCOL ERROR RAIX .SRIB,02 SRNA INPUT BACK - NO ACTION RAIX .SRII,00 SRLE INVALID IVT INPUT - DRIVER ERROR RAIX .SROD,00 SRLE OUTPUT DATA - DRIVER ERROR RAIX .SSJS,00 SRLE START PRU JOB STREAM - DRIVER ERROR RAIX .SSDS,00 SRLE START PRU DATA STREAM - DRIVER ERROR RAIX .SFTI,00 SRLE START INBOUND FILE TRANSFER - DRIVER ERROR RAIX .SFTO,00 SRLE START OUTBOUND FILE TRANSFER - DRIVER ERROR RAIX .SJBV,00 SRLE VALID JOB - DRIVER ERROR RAIX .SJBE,00 SRLE INVALID JOB - DRIVER ERROR RAIX .SSPS,00 SRLE STOP PRU STREAM - DRIVER ERROR RAIX .SRST,00 SRLE RESTART PRU STREAM - DRIVER ERROR RAIX .SBYP,00 SRLE BYPASS PRU STREAM - DRIVER ERROR RAIX .SABT,00 SRLE ABORT PRU STREAM - DRIVER ERROR RAIX .SASD,00 SRLE ABORT DATA DELIMITER - DRIVER ERROR RAIX .SROS,00 SRLE RESUME OUTPUT STREAM - DRIVER ERROR RAIX .SDOR,00 SRLE DIRECT OUTPUT REQUEST - DRIVER ERROR RAIX .SEOR,00 SRLE EOJ OUTPUT REQUEST - DRIVER ERROR RAIX .SSFC,00 SRLE SET FILE CHARACTERISTICS - DRIVER ERROR RAIX .SSDC,00 SRLE SET DEVICE CHARACTERISTICS - DRIVER ERROR RAIX .SCMQ,00 SRLE COMMAND QUEUED - DRIVER ERROR RAIX .SQID,00 SRLE QUEUED INPUT DATA - DRIVER ERROR RAIX .SOPA,00 SRLE OUTPUT ALLOWED - DRIVER ERROR RAIX .SNOA,00 SRLE NO OUTPUT ACTIVITY - DRIVER ERROR RAIX .SSTP,03 SRTW STREAM STOPPED - TRANSFER WORKLIST RAIX .SSBI,03 SRTW BATCH INTERRUPT - TRANSFER WORKLIST RAIX .SEOI,01 SRIL END OF INFORMATION - BLOCK PROTOCOL ERROR RAIX .SEND,01 SRIL END OF STREAM - BLOCK PROTOCOL ERROR RAIX .SSAB,01 SRIL STREAM ABORTED - BLOCK PROTOCOL ERROR RAIX .SICR,01 SRIL ICMD RESPONSE - BLOCK PROTOCOL ERROR RAIX .SICI,00 SRLE ICMD ISSUED - DRIVER ERROR RAIX .SNCI,00 SRLE FRONT END COMMAND ISSUED - DRIVER ERROR RAIX .SRSI,00 SRLE RESET ISSUED - DRIVER ERROR RAIX .SARQ,04 SRTW,STS39 APPLICATION REQUESTED - TRANSFER WORKLIST RAIX .SMSR,00 SRLE MASS STORAGE REQUESTED - DRIVER ERROR RAIX .SMSC,00 SRLE MASS STORAGE COMPLETED - DRIVER ERROR RAIX .SMSE,00 SRLE MASS STORAGE EOI - DRIVER ERROR RAIX .SMER,00 SRLE MASS STORAGE ERROR - DRIVER ERROR RAIX .SFTE,00 SRLE END OF FILE TRANSFER - DRIVER ERROR RAIX .SFTR,00 SRLE TRANSFER MASS STORAGE ERROR - DRIVER ERROR RAIX .S7MS,01 SRIL CHECKMARK - BLOCK PROTOCOL ERROR RAIX .S7ES,01 SRIL END OF STREAM - BLOCK PROTOCOL ERROR RAIX .S7RR,01 SRIL REQUEST RESTART - BLOCK PROTOCOL ERROR RAIX .S7MR,01 SRIL CHECKMARK REPLY - BLOCK PROTOCOL ERROR RAIX .S7QR,01 SRIL QUIT - BLOCK PROTOCOL ERROR RAIX .S7CI,00 SRLE LEVEL SEVEN COMMAND ISSUED - DRIVER ERROR RAIX .STPS,00 SRLE TERMINATE PRU STREAM - DRIVER ERROR RAIX .SPST,00 SRLE PRU STREAM TERMINATED - DRIVER ERROR RAIX .SFEI,05 SRNA,STS61 FRONT END INOPERATIVE - CHANGE STATE RAIX .SBPE,05 SRNA,STS61 BLOCK PROTOCOL ERROR - CHANGE STATE RAIX .SL7E,00 SRLE LEVEL SEVEN ERROR - DRIVER ERROR RAIX .SDLE,00 SRLE DRIVER LOGIC ERROR - DRIVER ERROR STS47RT SPACE 2,10 .STATE SET STS47 RAIC 0 RESP SRNA,STS61 6 - CHANGE STATE RESP SRWC,STS62 5 - WORKLIST COMPLETED RESP SROS,** 4 - RETURN TO OLD STATE RESP SRTW,STS39 3 - TRANSFER WORKLIST RESP SRNA 2 - NO ACTION RESP SRIL 1 - PROTOCOL ERROR RESP SRLE 0 - DRIVER ERROR STS47RT BSS 0 STATE 47 - ISSUE COMMAND TO FRONT END RAIX .SRID,01 SRIL INPUT DATA - BLOCK PROTOCOL ERROR RAIX .SRIB,02 SRNA INPUT BACK - NO ACTION RAIX .SRII,00 SRLE INVALID IVT INPUT - DRIVER ERROR RAIX .SROD,00 SRLE OUTPUT DATA - DRIVER ERROR RAIX .SSJS,00 SRLE START PRU JOB STREAM - DRIVER ERROR RAIX .SSDS,00 SRLE START PRU DATA STREAM - DRIVER ERROR RAIX .SFTI,00 SRLE START INBOUND FILE TRANSFER - DRIVER ERROR RAIX .SFTO,00 SRLE START OUTBOUND FILE TRANSFER - DRIVER ERROR RAIX .SJBV,00 SRLE VALID JOB - DRIVER ERROR RAIX .SJBE,00 SRLE INVALID JOB - DRIVER ERROR RAIX .SSPS,00 SRLE STOP PRU STREAM - DRIVER ERROR RAIX .SRST,00 SRLE RESTART PRU STREAM - DRIVER ERROR RAIX .SBYP,00 SRLE BYPASS PRU STREAM - DRIVER ERROR RAIX .SABT,00 SRLE ABORT PRU STREAM - DRIVER ERROR RAIX .SASD,00 SRLE ABORT DATA DELIMITER - DRIVER ERROR RAIX .SROS,00 SRLE RESUME OUTPUT STREAM - DRIVER ERROR RAIX .SDOR,00 SRLE DIRECT OUTPUT REQUEST - DRIVER ERROR RAIX .SEOR,00 SRLE EOJ OUTPUT REQUEST - DRIVER ERROR RAIX .SSFC,00 SRLE SET FILE CHARACTERISTICS - DRIVER ERROR RAIX .SSDC,00 SRLE SET DEVICE CHARACTERISTICS - DRIVER ERROR RAIX .SCMQ,00 SRLE COMMAND QUEUED - DRIVER ERROR RAIX .SQID,00 SRLE QUEUED INPUT DATA - DRIVER ERROR RAIX .SOPA,00 SRLE OUTPUT ALLOWED - DRIVER ERROR RAIX .SNOA,00 SRLE NO OUTPUT ACTIVITY - DRIVER ERROR RAIX .SSTP,03 SRTW,STS39 STREAM STOPPED - TRANSFER WORKLIST RAIX .SSBI,03 SRTW,STS39 BATCH INTERRUPT - TRANSFER WORKLIST RAIX .SEOI,01 SRIL END OF INFORMATION - BLOCK PROTOCOL ERROR RAIX .SEND,01 SRIL END OF STREAM - BLOCK PROTOCOL ERROR RAIX .SSAB,01 SRIL STREAM ABORTED - BLOCK PROTOCOL ERROR RAIX .SICR,01 SRIL ICMD RESPONSE - BLOCK PROTOCOL ERROR RAIX .SICI,00 SRLE ICMD ISSUED - DRIVER ERROR RAIX .SNCI,04 SROS,** FRONT END COMMAND ISSUED - RETURN TO OLD STATE RAIX .SRSI,00 SRLE RESET ISSUED - DRIVER ERROR RAIX .SARQ,00 SRLE APPLICATION REQUESTED - DRIVER ERROR RAIX .SMSR,00 SRLE MASS STORAGE REQUESTED - DRIVER ERROR RAIX .SMSC,00 SRLE MASS STORAGE COMPLETED - DRIVER ERROR RAIX .SMSE,00 SRLE MASS STORAGE EOI - DRIVER ERROR RAIX .SMER,00 SRLE MASS STORAGE ERROR - DRIVER ERROR RAIX .SFTE,00 SRLE END OF FILE TRANSFER - DRIVER ERROR RAIX .SFTR,00 SRLE TRANSFER MASS STORAGE ERROR - DRIVER ERROR RAIX .S7MS,01 SRIL CHECKMARK - BLOCK PROTOCOL ERROR RAIX .S7ES,01 SRIL END OF STREAM - BLOCK PROTOCOL ERROR RAIX .S7RR,01 SRIL REQUEST RESTART - BLOCK PROTOCOL ERROR RAIX .S7MR,01 SRIL CHECKMARK REPLY - BLOCK PROTOCOL ERROR RAIX .S7QR,01 SRIL QUIT - BLOCK PROTOCOL ERROR RAIX .S7CI,00 SRLE LEVEL SEVEN COMMAND ISSUED - DRIVER ERROR RAIX .STPS,05 SRWC,STS62 TERMINATE PRU STREAM - WORKLIST COMPLETED RAIX .SPST,00 SRLE PRU STREAM TERMINATED - DRIVER ERROR RAIX .SFEI,06 SRNA,STS61 FRONT END INOPERATIVE - CHANGE STATE RAIX .SBPE,06 SRNA,STS61 BLOCK PROTOCOL ERROR - CHANGE STATE RAIX .SL7E,00 SRLE LEVEL SEVEN ERROR - DRIVER ERROR RAIX .SDLE,00 SRLE DRIVER LOGIC ERROR - DRIVER ERROR STS48RT SPACE 2,10 .STATE SET STS48 RAIC 0 RESP SRNA,STS61 5 - CHANGE STATE RESP SRWC,STS62 4 - WORKLIST COMPLETED RESP SRWC,STS49 3 - SET WORKLIST COMPLETED RESP SRNA 2 - NO ACTION RESP SRIL 1 - PROTOCOL ERROR RESP SRLE 0 - DRIVER ERROR STS48RT BSS 0 STATE 48 - ISSUE RESTART ICMD TO FRONT END RAIX .SRID,01 SRIL INPUT DATA - BLOCK PROTOCOL ERROR RAIX .SRIB,01 SRIL INPUT BACK - BLOCK PROTOCOL ERROR RAIX .SRII,00 SRLE INVALID IVT INPUT - DRIVER ERROR RAIX .SROD,00 SRLE OUTPUT DATA - DRIVER ERROR RAIX .SSJS,00 SRLE START PRU JOB STREAM - DRIVER ERROR RAIX .SSDS,00 SRLE START PRU DATA STREAM - DRIVER ERROR RAIX .SFTI,00 SRLE START INBOUND FILE TRANSFER - DRIVER ERROR RAIX .SFTO,00 SRLE START OUTBOUND FILE TRANSFER - DRIVER ERROR RAIX .SJBV,00 SRLE VALID JOB - DRIVER ERROR RAIX .SJBE,00 SRLE INVALID JOB - DRIVER ERROR RAIX .SSPS,00 SRLE STOP PRU STREAM - DRIVER ERROR RAIX .SRST,00 SRLE RESTART PRU STREAM - DRIVER ERROR RAIX .SBYP,00 SRLE BYPASS PRU STREAM - DRIVER ERROR RAIX .SABT,00 SRLE ABORT PRU STREAM - DRIVER ERROR RAIX .SASD,00 SRLE ABORT DATA DELIMITER - DRIVER ERROR RAIX .SROS,00 SRLE RESUME OUTPUT STREAM - DRIVER ERROR RAIX .SDOR,00 SRLE DIRECT OUTPUT REQUEST - DRIVER ERROR RAIX .SEOR,00 SRLE EOJ OUTPUT REQUEST - DRIVER ERROR RAIX .SSFC,00 SRLE SET FILE CHARACTERISTICS - DRIVER ERROR RAIX .SSDC,00 SRLE SET DEVICE CHARACTERISTICS - DRIVER ERROR RAIX .SCMQ,00 SRLE COMMAND QUEUED - DRIVER ERROR RAIX .SQID,00 SRLE QUEUED INPUT DATA - DRIVER ERROR RAIX .SOPA,00 SRLE OUTPUT ALLOWED - DRIVER ERROR RAIX .SNOA,00 SRLE NO OUTPUT ACTIVITY - DRIVER ERROR RAIX .SSTP,01 SRIL STREAM STOPPED - BLOCK PROTOCOL ERROR RAIX .SSBI,02 SRNA BATCH INTERRUPT - NO ACTION RAIX .SEOI,01 SRIL END OF INFORMATION - BLOCK PROTOCOL ERROR RAIX .SEND,01 SRIL END OF STREAM - BLOCK PROTOCOL ERROR RAIX .SSAB,01 SRIL STREAM ABORTED - BLOCK PROTOCOL ERROR RAIX .SICR,01 SRIL ICMD RESPONSE - BLOCK PROTOCOL ERROR RAIX .SICI,03 SRWC,STS49 ICMD ISSUED - SET WORKLIST COMPLETED RAIX .SNCI,00 SRLE FRONT END COMMAND ISSUED - DRIVER ERROR RAIX .SRSI,00 SRLE RESET ISSUED - DRIVER ERROR RAIX .SARQ,00 SRLE APPLICATION REQUESTED - DRIVER ERROR RAIX .SMSR,00 SRLE MASS STORAGE REQUESTED - DRIVER ERROR RAIX .SMSC,00 SRLE MASS STORAGE COMPLETED - DRIVER ERROR RAIX .SMSE,00 SRLE MASS STORAGE EOI - DRIVER ERROR RAIX .SMER,00 SRLE MASS STORAGE ERROR - DRIVER ERROR RAIX .SFTE,00 SRLE END OF FILE TRANSFER - DRIVER ERROR RAIX .SFTR,00 SRLE TRANSFER MASS STORAGE ERROR - DRIVER ERROR RAIX .S7MS,01 SRIL CHECKMARK - BLOCK PROTOCOL ERROR RAIX .S7ES,01 SRIL END OF STREAM - BLOCK PROTOCOL ERROR RAIX .S7RR,01 SRIL REQUEST RESTART - BLOCK PROTOCOL ERROR RAIX .S7MR,01 SRIL CHECKMARK REPLY - BLOCK PROTOCOL ERROR RAIX .S7QR,01 SRIL QUIT - BLOCK PROTOCOL ERROR RAIX .S7CI,00 SRLE LEVEL SEVEN COMMAND ISSUED - DRIVER ERROR RAIX .STPS,04 SRWC,STS62 TERMINATE PRU STREAM - WORKLIST COMPLETED RAIX .SPST,00 SRLE PRU STREAM TERMINATED - DRIVER ERROR RAIX .SFEI,05 SRNA,STS61 FRONT END INOPERATIVE - CHANGE STATE RAIX .SBPE,05 SRNA,STS61 BLOCK PROTOCOL ERROR - CHANGE STATE RAIX .SL7E,00 SRLE LEVEL SEVEN ERROR - DRIVER ERROR RAIX .SDLE,00 SRLE DRIVER LOGIC ERROR - DRIVER ERROR STS49RT SPACE 2,10 .STATE SET STS49 RAIC 0 RESP SRNA,STS61 6 - CHANGE STATE RESP SRWC,STS62 5 - WORKLIST COMPLETED RESP SRRS,** 4 - RETURN TO OLD STATE RESP SRAE 3 - APPLICATION ERROR RESP SRNA 2 - NO ACTION RESP SRIL 1 - PROTOCOL ERROR RESP SRLE 0 - DRIVER ERROR STS49RT BSS 0 STATE 49 - WAIT ICMD RESPONSE RAIX .SRID,01 SRIL INPUT DATA - BLOCK PROTOCOL ERROR RAIX .SRIB,02 SRNA INPUT BACK - NO ACTION RAIX .SRII,00 SRLE INVALID IVT INPUT - DRIVER ERROR RAIX .SROD,00 SRLE OUTPUT DATA - DRIVER ERROR RAIX .SSJS,03 SRAE START PRU JOB STREAM - APPLICATION ERROR RAIX .SSDS,02 SRNA START PRU DATA STREAM - NO ACTION RAIX .SFTI,03 SRAE START INBOUND FILE - APPLICATION ERROR RAIX .SFTO,03 SRAE START OUTBOUND FILE - APPLICATION ERROR RAIX .SJBV,03 SRAE VALID JOB - APPLICATION ERROR RAIX .SJBE,03 SRAE INVALID JOB - APPLICATION ERROR RAIX .SSPS,03 SRAE STOP PRU STREAM - APPLICATION ERROR RAIX .SRST,03 SRAE RESTART PRU STREAM - APPLICATION ERROR RAIX .SBYP,03 SRAE BYPASS PRU STREAM - APPLICATION ERROR RAIX .SABT,02 SRNA ABORT PRU STREAM - NO ACTION RAIX .SASD,03 SRAE ABORT DATA DELIMITER - APPLICATION ERROR RAIX .SROS,03 SRAE RESUME OUTPUT STREAM - APPLICATION ERROR RAIX .SDOR,03 SRAE DIRECT OUTPUT REQUEST - APPLICATION ERROR RAIX .SEOR,03 SRAE EOJ OUTPUT REQUEST - APPLICATION ERROR RAIX .SSFC,03 SRAE SET FILE - APPLICATION ERROR RAIX .SSDC,03 SRAE SET DEVICE - APPLICATION ERROR RAIX .SCMQ,00 SRLE COMMAND QUEUED - DRIVER ERROR RAIX .SQID,00 SRLE QUEUED INPUT DATA - DRIVER ERROR RAIX .SOPA,00 SRLE OUTPUT ALLOWED - DRIVER ERROR RAIX .SNOA,02 SRNA NO OUTPUT ACTIVITY - NO ACTION RAIX .SSTP,01 SRIL STREAM STOPPED - BLOCK PROTOCOL ERROR RAIX .SSBI,02 SRNA BATCH INTERRUPT - NO ACTION RAIX .SEOI,01 SRIL END OF INFORMATION - BLOCK PROTOCOL ERROR RAIX .SEND,01 SRIL END OF STREAM - BLOCK PROTOCOL ERROR RAIX .SSAB,01 SRIL STREAM ABORTED - BLOCK PROTOCOL ERROR RAIX .SICR,04 SRRS,** ICMD RESPONSE - RETURN TO OLD STATE RAIX .SICI,00 SRLE ICMD ISSUED - DRIVER ERROR RAIX .SNCI,00 SRLE FRONT END COMMAND ISSUED - DRIVER ERROR RAIX .SRSI,00 SRLE RESET ISSUED - DRIVER ERROR RAIX .SARQ,00 SRLE APPLICATION REQUESTED - DRIVER ERROR RAIX .SMSR,00 SRLE MASS STORAGE REQUESTED - DRIVER ERROR RAIX .SMSC,00 SRLE MASS STORAGE COMPLETED - DRIVER ERROR RAIX .SMSE,00 SRLE MASS STORAGE EOI - DRIVER ERROR RAIX .SMER,00 SRLE MASS STORAGE ERROR - DRIVER ERROR RAIX .SFTE,00 SRLE END OF FILE TRANSFER - DRIVER ERROR RAIX .SFTR,00 SRLE TRANSFER MASS STORAGE ERROR - DRIVER ERROR RAIX .S7MS,01 SRIL CHECKMARK - BLOCK PROTOCOL ERROR RAIX .S7ES,01 SRIL END OF STREAM - BLOCK PROTOCOL ERROR RAIX .S7RR,01 SRIL REQUEST RESTART - BLOCK PROTOCOL ERROR RAIX .S7MR,01 SRIL CHECKMARK REPLY - BLOCK PROTOCOL ERROR RAIX .S7QR,01 SRIL QUIT - BLOCK PROTOCOL ERROR RAIX .S7CI,00 SRLE LEVEL SEVEN COMMAND ISSUED - DRIVER ERROR RAIX .STPS,05 SRWC,STS62 TERMINATE PRU STREAM - WORKLIST COMPLETED RAIX .SPST,00 SRLE PRU STREAM TERMINATED - DRIVER ERROR RAIX .SFEI,06 SRNA,STS61 FRONT END INOPERATIVE - CHANGE STATE RAIX .SBPE,06 SRNA,STS61 BLOCK PROTOCOL ERROR - CHANGE STATE RAIX .SL7E,00 SRLE LEVEL SEVEN ERROR - DRIVER ERROR RAIX .SDLE,00 SRLE DRIVER LOGIC ERROR - DRIVER ERROR STS50RT SPACE 2,10 .STATE SET STS50 RAIC 0 RESP SRNA,STS61 6 - CHANGE STATE RESP SRWC,STS62 5 - WORKLIST COMPLETED RESP SRWC,STS51 4 - WORKLIST COMPLETED RESP SRTW 3 - TRANSFER WORKLIST RESP SRNA 2 - NO ACTION RESP SRIL 1 - PROTOCOL ERROR RESP SRLE 0 - DRIVER ERROR STS50RT BSS 0 STATE 50 - ISSUE ABORT ICMD TO FRONT END RAIX .SRID,01 SRIL INPUT DATA - BLOCK PROTOCOL ERROR RAIX .SRIB,02 SRNA INPUT BACK - NO ACTION RAIX .SRII,00 SRLE INVALID IVT INPUT - DRIVER ERROR RAIX .SROD,00 SRLE OUTPUT DATA - DRIVER ERROR RAIX .SSJS,00 SRLE START PRU JOB STREAM - DRIVER ERROR RAIX .SSDS,00 SRLE START PRU DATA STREAM - DRIVER ERROR RAIX .SFTI,00 SRLE START INBOUND FILE TRANSFER - DRIVER ERROR RAIX .SFTO,00 SRLE START OUTBOUND FILE TRANSFER - DRIVER ERROR RAIX .SJBV,00 SRLE VALID JOB - DRIVER ERROR RAIX .SJBE,00 SRLE INVALID JOB - DRIVER ERROR RAIX .SSPS,00 SRLE STOP PRU STREAM - DRIVER ERROR RAIX .SRST,00 SRLE RESTART PRU STREAM - DRIVER ERROR RAIX .SBYP,00 SRLE BYPASS PRU STREAM - DRIVER ERROR RAIX .SABT,00 SRLE ABORT PRU STREAM - DRIVER ERROR RAIX .SASD,00 SRLE ABORT DATA DELIMITER - DRIVER ERROR RAIX .SROS,00 SRLE RESUME OUTPUT STREAM - DRIVER ERROR RAIX .SDOR,00 SRLE DIRECT OUTPUT REQUEST - DRIVER ERROR RAIX .SEOR,00 SRLE EOJ OUTPUT REQUEST - DRIVER ERROR RAIX .SSFC,00 SRLE SET FILE CHARACTERISTICS - DRIVER ERROR RAIX .SSDC,00 SRLE SET DEVICE CHARACTERISTICS - DRIVER ERROR RAIX .SCMQ,00 SRLE COMMAND QUEUED - DRIVER ERROR RAIX .SQID,00 SRLE QUEUED INPUT DATA - DRIVER ERROR RAIX .SOPA,00 SRLE OUTPUT ALLOWED - DRIVER ERROR RAIX .SNOA,00 SRLE NO OUTPUT ACTIVITY - DRIVER ERROR RAIX .SSTP,03 SRTW STREAM STOPPED - TRANSFER WORKLIST RAIX .SSBI,03 SRTW BATCH INTERRUPT - TRANSFER WORKLIST RAIX .SEOI,03 SRTW END OF INFORMATION - TRANSFER WORKLIST RAIX .SEND,01 SRIL END OF STREAM - BLOCK PROTOCOL ERROR RAIX .SSAB,01 SRIL STREAM ABORTED - BLOCK PROTOCOL ERROR RAIX .SICR,01 SRIL ICMD RESPONSE - BLOCK PROTOCOL ERROR RAIX .SICI,04 SRWC,STS51 ICMD ISSUED - SET WORKLIST COMPLETED RAIX .SNCI,00 SRLE FRONT END COMMAND ISSUED - DRIVER ERROR RAIX .SRSI,00 SRLE RESET ISSUED - DRIVER ERROR RAIX .SARQ,00 SRLE APPLICATION REQUESTED - DRIVER ERROR RAIX .SMSR,00 SRLE MASS STORAGE REQUESTED - DRIVER ERROR RAIX .SMSC,00 SRLE MASS STORAGE COMPLETED - DRIVER ERROR RAIX .SMSE,00 SRLE MASS STORAGE EOI - DRIVER ERROR RAIX .SMER,00 SRLE MASS STORAGE ERROR - DRIVER ERROR RAIX .SFTE,00 SRLE END OF FILE TRANSFER - DRIVER ERROR RAIX .SFTR,00 SRLE TRANSFER MASS STORAGE ERROR - DRIVER ERROR RAIX .S7MS,01 SRIL CHECKMARK - BLOCK PROTOCOL ERROR RAIX .S7ES,01 SRIL END OF STREAM - BLOCK PROTOCOL ERROR RAIX .S7RR,01 SRIL REQUEST RESTART - BLOCK PROTOCOL ERROR RAIX .S7MR,01 SRIL CHECKMARK REPLY - BLOCK PROTOCOL ERROR RAIX .S7QR,01 SRIL QUIT - BLOCK PROTOCOL ERROR RAIX .S7CI,00 SRLE LEVEL SEVEN COMMAND ISSUED - DRIVER ERROR RAIX .STPS,05 SRWC,STS62 TERMINATE PRU STREAM - WORKLIST COMPLETED RAIX .SPST,00 SRLE PRU STREAM TERMINATED - DRIVER ERROR RAIX .SFEI,06 SRNA,STS61 FRONT END INOPERATIVE - CHANGE STATE RAIX .SBPE,06 SRNA,STS61 BLOCK PROTOCOL ERROR - CHANGE STATE RAIX .SL7E,00 SRLE LEVEL SEVEN ERROR - DRIVER ERROR RAIX .SDLE,00 SRLE DRIVER LOGIC ERROR - DRIVER ERROR STS51RT SPACE 2,10 .STATE SET STS51 RAIC 1 RESP SRNA,STS61 8 - CHANGE STATE RESP SRWC,STS62 7 - WORKLIST COMPLETED RESP SRNA,STS52 6 - CHANGE STATE RESP SRTW 5 - TRANSFER WORKLIST RESP SRWC 4 - WORKLIST COMPLETED RESP SRAE 3 - APPLICATION ERROR RESP SRNA 2 - NO ACTION RESP SRIL 1 - PROTOCOL ERROR RESP SRLE 0 - DRIVER ERROR STS51RT BSS 0 STATE 51 - WAIT ICMD RESPONSE RAIX .SRID,01 SRIL INPUT DATA - BLOCK PROTOCOL ERROR RAIX .SRIB,02 SRNA INPUT BACK - NO ACTION RAIX .SRII,00 SRLE INVALID IVT INPUT - DRIVER ERROR RAIX .SROD,00 SRLE OUTPUT DATA - DRIVER ERROR RAIX .SSJS,03 SRAE START PRU JOB STREAM - APPLICATION ERROR RAIX .SSDS,04 SRWC START PRU DATA STREAM - WORKLIST COMPLETED RAIX .SFTI,03 SRAE START INBOUND FILE - APPLICATION ERROR RAIX .SFTO,03 SRAE START OUTBOUND FILE - APPLICATION ERROR RAIX .SJBV,03 SRAE VALID JOB - APPLICATION ERROR RAIX .SJBE,03 SRAE INVALID JOB - APPLICATION ERROR RAIX .SSPS,04 SRWC STOP PRU STREAM - WORKLIST COMPLETED RAIX .SRST,03 SRAE RESTART PRU STREAM - APPLICATION ERROR RAIX .SBYP,03 SRAE BYPASS PRU STREAM - APPLICATION ERROR RAIX .SABT,03 SRAE ABORT PRU STREAM - APPLICATION ERROR RAIX .SASD,03 SRAE ABORT DATA DELIMITER - APPLICATION ERROR RAIX .SROS,03 SRAE RESUME OUTPUT STREAM - APPLICATION ERROR RAIX .SDOR,04 SRWC DIRECT OUTPUT REQUEST - WORKLIST COMPLETED RAIX .SEOR,04 SRWC EOJ OUTPUT REQUEST - WORKLIST COMPLETED RAIX .SSFC,04 SRWC SET FILE - WORKLIST COMPLETED RAIX .SSDC,04 SRWC SET DEVICE - WORKLIST COMPLETED RAIX .SCMQ,00 SRLE COMMAND QUEUED - DRIVER ERROR RAIX .SQID,00 SRLE QUEUED INPUT DATA - DRIVER ERROR RAIX .SOPA,00 SRLE OUTPUT ALLOWED - DRIVER ERROR RAIX .SNOA,02 SRNA NO OUTPUT ACTIVITY - NO ACTION RAIX .SSTP,05 SRTW STREAM STOPPED - TRANSFER WORKLIST RAIX .SSBI,05 SRTW BATCH INTERRUPT - TRANSFER WORKLIST RAIX .SEOI,05 SRTW END OF INFORMATION - TRANSFER WORKLIST RAIX .SEND,01 SRIL END OF STREAM - BLOCK PROTOCOL ERROR RAIX .SSAB,01 SRIL STREAM ABORTED - BLOCK PROTOCOL ERROR RAIX .SICR,06 SRNA,STS52 ICMD RESPONSE - CHANGE STATE RAIX .SICI,00 SRLE ICMD ISSUED - DRIVER ERROR RAIX .SNCI,00 SRLE FRONT END COMMAND ISSUED - DRIVER ERROR RAIX .SRSI,00 SRLE RESET ISSUED - DRIVER ERROR RAIX .SARQ,00 SRLE APPLICATION REQUESTED - DRIVER ERROR RAIX .SMSR,00 SRLE MASS STORAGE REQUESTED - DRIVER ERROR RAIX .SMSC,00 SRLE MASS STORAGE COMPLETED - DRIVER ERROR RAIX .SMSE,00 SRLE MASS STORAGE EOI - DRIVER ERROR RAIX .SMER,00 SRLE MASS STORAGE ERROR - DRIVER ERROR RAIX .SFTE,00 SRLE END OF FILE TRANSFER - DRIVER ERROR RAIX .SFTR,00 SRLE TRANSFER MASS STORAGE ERROR - DRIVER ERROR RAIX .S7MS,01 SRIL CHECKMARK - BLOCK PROTOCOL ERROR RAIX .S7ES,01 SRIL END OF STREAM - BLOCK PROTOCOL ERROR RAIX .S7RR,01 SRIL REQUEST RESTART - BLOCK PROTOCOL ERROR RAIX .S7MR,01 SRIL CHECKMARK REPLY - BLOCK PROTOCOL ERROR RAIX .S7QR,01 SRIL QUIT - BLOCK PROTOCOL ERROR RAIX .S7CI,00 SRLE LEVEL SEVEN COMMAND ISSUED - DRIVER ERROR RAIX .STPS,07 SRWC,STS62 TERMINATE PRU STREAM - WORKLIST COMPLETED RAIX .SPST,00 SRLE PRU STREAM TERMINATED - DRIVER ERROR RAIX .SFEI,08 SRNA,STS61 FRONT END INOPERATIVE - CHANGE STATE RAIX .SBPE,08 SRNA,STS61 BLOCK PROTOCOL ERROR - CHANGE STATE RAIX .SL7E,00 SRLE LEVEL SEVEN ERROR - DRIVER ERROR RAIX .SDLE,00 SRLE DRIVER LOGIC ERROR - DRIVER ERROR STS52RT SPACE 2,10 .STATE SET STS52 RAIC 1 RESP SRNA,STS61 8 - CHANGE STATE RESP SRWC,STS62 7 - WORKLIST COMPLETED RESP SRTW 6 - TRANSFER WORKLIST RESP SRNA,STS53 5 - CHANGE STATE RESP SRWC 4 - WORKLIST COMPLETED RESP SRAE 3 - APPLICATION ERROR RESP SRNA 2 - NO ACTION RESP SRIL 1 - PROTOCOL ERROR RESP SRLE 0 - DRIVER ERROR STS52RT BSS 0 STATE 52 - WAIT ABORT STREAM DELIMITER RAIX .SRID,01 SRIL INPUT DATA - BLOCK PROTOCOL ERROR RAIX .SRIB,02 SRNA INPUT BACK - NO ACTION RAIX .SRII,00 SRLE INVALID IVT INPUT - DRIVER ERROR RAIX .SROD,00 SRLE OUTPUT DATA - DRIVER ERROR RAIX .SSJS,03 SRAE START PRU JOB STREAM - APPLICATION ERROR RAIX .SSDS,04 SRWC START PRU DATA STREAM - WORKLIST COMPLETED RAIX .SFTI,03 SRAE START INBOUND FILE - APPLICATION ERROR RAIX .SFTO,03 SRAE START OUTBOUND FILE - APPLICATION ERROR RAIX .SJBV,03 SRAE VALID JOB - APPLICATION ERROR RAIX .SJBE,03 SRAE INVALID JOB - APPLICATION ERROR RAIX .SSPS,04 SRWC STOP PRU STREAM - WORKLIST COMPLETED RAIX .SRST,03 SRAE RESTART PRU STREAM - APPLICATION ERROR RAIX .SBYP,03 SRAE BYPASS PRU STREAM - APPLICATION ERROR RAIX .SABT,03 SRAE ABORT PRU STREAM - APPLICATION ERROR RAIX .SASD,05 SRNA,STS53 ABORT DATA DELIMITER - CHANGE STATE RAIX .SROS,04 SRWC RESUME OUTPUT STREAM - WORKLIST COMPLETED RAIX .SDOR,04 SRWC DIRECT OUTPUT REQUEST - WORKLIST COMPLETED RAIX .SEOR,04 SRWC EOJ OUTPUT REQUEST - WORKLIST COMPLETED RAIX .SSFC,04 SRWC SET FILE ATTRIBUTES - WORKLIST COMPLETED RAIX .SSDC,04 SRWC SET DEVICE - WORKLIST COMPLETED RAIX .SCMQ,00 SRLE COMMAND QUEUED - DRIVER ERROR RAIX .SQID,00 SRLE QUEUED INPUT DATA - DRIVER ERROR RAIX .SOPA,02 SRNA OUTPUT ALLOWED - NO ACTION RAIX .SNOA,00 SRLE NO OUTPUT ACTIVITY - DRIVER ERROR RAIX .SSTP,06 SRTW STREAM STOPPED - TRANSFER WORKLIST RAIX .SSBI,06 SRTW BATCH INTERRUPT - TRANSFER WORKLIST RAIX .SEOI,06 SRTW END OF INFORMATION - TRANSFER WORKLIST RAIX .SEND,01 SRIL END OF STREAM - BLOCK PROTOCOL ERROR RAIX .SSAB,01 SRIL STREAM ABORTED - BLOCK PROTOCOL ERROR RAIX .SICR,01 SRIL ICMD RESPONSE - BLOCK PROTOCOL ERROR RAIX .SICI,00 SRLE ICMD ISSUED - DRIVER ERROR RAIX .SNCI,00 SRLE FRONT END COMMAND ISSUED - DRIVER ERROR RAIX .SRSI,00 SRLE RESET ISSUED - DRIVER ERROR RAIX .SARQ,00 SRLE APPLICATION REQUESTED - DRIVER ERROR RAIX .SMSR,00 SRLE MASS STORAGE REQUESTED - DRIVER ERROR RAIX .SMSC,00 SRLE MASS STORAGE COMPLETED - DRIVER ERROR RAIX .SMSE,00 SRLE MASS STORAGE EOI - DRIVER ERROR RAIX .SMER,00 SRLE MASS STORAGE ERROR - DRIVER ERROR RAIX .SFTE,00 SRLE END OF FILE TRANSFER - DRIVER ERROR RAIX .SFTR,00 SRLE TRANSFER MASS STORAGE ERROR - DRIVER ERROR RAIX .S7MS,01 SRIL CHECKMARK - BLOCK PROTOCOL ERROR RAIX .S7ES,01 SRIL END OF STREAM - BLOCK PROTOCOL ERROR RAIX .S7RR,01 SRIL REQUEST RESTART - BLOCK PROTOCOL ERROR RAIX .S7MR,01 SRIL CHECKMARK REPLY - BLOCK PROTOCOL ERROR RAIX .S7QR,01 SRIL QUIT - BLOCK PROTOCOL ERROR RAIX .S7CI,00 SRLE LEVEL SEVEN COMMAND ISSUED - DRIVER ERROR RAIX .STPS,07 SRWC,STS62 TERMINATE PRU STREAM - WORKLIST COMPLETED RAIX .SPST,00 SRLE PRU STREAM TERMINATED - DRIVER ERROR RAIX .SFEI,08 SRNA,STS61 FRONT END INOPERATIVE - CHANGE STATE RAIX .SBPE,08 SRNA,STS61 BLOCK PROTOCOL ERROR - CHANGE STATE RAIX .SL7E,00 SRLE LEVEL SEVEN ERROR - DRIVER ERROR RAIX .SDLE,00 SRLE DRIVER LOGIC ERROR - DRIVER ERROR STS53RT SPACE 2,10 .STATE SET STS53 RAIC 0 RESP SRNA,STS61 6 - CHANGE STATE RESP SRWC,STS62 5 - WORKLIST COMPLETED RESP SRWC,STS54 4 - WORKLSIT COMPLETED RESP SRTW 3 - TRANSFER WORKLIST RESP SRNA 2 - NO ACTION RESP SRIL 1 - PROTOCOL ERROR RESP SRLE 0 - DRIVER ERROR STS53RT BSS 0 STATE 53 - ISSUE ABORT STREAM DELIMITER RAIX .SRID,01 SRIL INPUT DATA - BLOCK PROTOCOL ERROR RAIX .SRIB,02 SRNA INPUT BACK - NO ACTION RAIX .SRII,00 SRLE INVALID IVT INPUT - DRIVER ERROR RAIX .SROD,00 SRLE OUTPUT DATA - DRIVER ERROR RAIX .SSJS,00 SRLE START PRU JOB STREAM - DRIVER ERROR RAIX .SSDS,00 SRLE START PRU DATA STREAM - DRIVER ERROR RAIX .SFTI,00 SRLE START INBOUND FILE TRANSFER - DRIVER ERROR RAIX .SFTO,00 SRLE START OUTBOUND FILE TRANSFER - DRIVER ERROR RAIX .SJBV,00 SRLE VALID JOB - DRIVER ERROR RAIX .SJBE,00 SRLE INVALID JOB - DRIVER ERROR RAIX .SSPS,00 SRLE STOP PRU STREAM - DRIVER ERROR RAIX .SRST,00 SRLE RESTART PRU STREAM - DRIVER ERROR RAIX .SBYP,00 SRLE BYPASS PRU STREAM - DRIVER ERROR RAIX .SABT,00 SRLE ABORT PRU STREAM - DRIVER ERROR RAIX .SASD,00 SRLE ABORT DATA DELIMITER - DRIVER ERROR RAIX .SROS,00 SRLE RESUME OUTPUT STREAM - DRIVER ERROR RAIX .SDOR,00 SRLE DIRECT OUTPUT REQUEST - DRIVER ERROR RAIX .SEOR,00 SRLE EOJ OUTPUT REQUEST - DRIVER ERROR RAIX .SSFC,00 SRLE SET FILE CHARACTERISTICS - DRIVER ERROR RAIX .SSDC,00 SRLE SET DEVICE CHARACTERISTICS - DRIVER ERROR RAIX .SCMQ,00 SRLE COMMAND QUEUED - DRIVER ERROR RAIX .SQID,00 SRLE QUEUED INPUT DATA - DRIVER ERROR RAIX .SOPA,00 SRLE OUTPUT ALLOWED - DRIVER ERROR RAIX .SNOA,02 SRNA NO OUTPUT ACTIVITY - NO ACTION RAIX .SSTP,03 SRTW STREAM STOPPED - TRANSFER WORKLIST RAIX .SSBI,03 SRTW BATCH INTERRUPT - TRANSFER WORKLIST RAIX .SEOI,03 SRTW END OF INFORMATION - TRANSFER WORKLIST RAIX .SEND,01 SRIL END OF STREAM - BLOCK PROTOCOL ERROR RAIX .SSAB,01 SRIL STREAM ABORTED - BLOCK PROTOCOL ERROR RAIX .SICR,01 SRIL ICMD RESPONSE - BLOCK PROTOCOL ERROR RAIX .SICI,00 SRLE ICMD ISSUED - DRIVER ERROR RAIX .SNCI,04 SRWC,STS54 FRONT END COMMAND ISSUED - WORKLIST COMPLETED RAIX .SRSI,00 SRLE RESET ISSUED - DRIVER ERROR RAIX .SARQ,00 SRLE APPLICATION REQUESTED - DRIVER ERROR RAIX .SMSR,00 SRLE MASS STORAGE REQUESTED - DRIVER ERROR RAIX .SMSC,00 SRLE MASS STORAGE COMPLETED - DRIVER ERROR RAIX .SMSE,00 SRLE MASS STORAGE EOI - DRIVER ERROR RAIX .SMER,00 SRLE MASS STORAGE ERROR - DRIVER ERROR RAIX .SFTE,00 SRLE END OF FILE TRANSFER - DRIVER ERROR RAIX .SFTR,00 SRLE TRANSFER MASS STORAGE ERROR - DRIVER ERROR RAIX .S7MS,01 SRIL CHECKMARK - BLOCK PROTOCOL ERROR RAIX .S7ES,01 SRIL END OF STREAM - BLOCK PROTOCOL ERROR RAIX .S7RR,01 SRIL REQUEST RESTART - BLOCK PROTOCOL ERROR RAIX .S7MR,01 SRIL CHECKMARK REPLY - BLOCK PROTOCOL ERROR RAIX .S7QR,01 SRIL QUIT - BLOCK PROTOCOL ERROR RAIX .S7CI,00 SRLE LEVEL SEVEN COMMAND ISSUED - DRIVER ERROR RAIX .STPS,05 SRWC,STS62 TERMINATE PRU STREAM - WORKLIST COMPLETED RAIX .SPST,00 SRLE PRU STREAM TERMINATED - DRIVER ERROR RAIX .SFEI,06 SRNA,STS61 FRONT END INOPERATIVE - CHANGE STATE RAIX .SBPE,06 SRNA,STS61 BLOCK PROTOCOL ERROR - CHANGE STATE RAIX .SL7E,00 SRLE LEVEL SEVEN ERROR - DRIVER ERROR RAIX .SDLE,00 SRLE DRIVER LOGIC ERROR - DRIVER ERROR STS54RT SPACE 2,10 .STATE SET STS54 RAIC 0 RESP SRNA,STS61 7 - CHANGE STATE RESP SRWC,STS62 6 - WORKLIST COMPLETED RESP SRTW,STS23 5 - TRANSFER WORKLIST RESP SRTW 4 - TRANSFER WORKLIST RESP SRAE 3 - APPLICATION ERROR RESP SRNA 2 - NO ACTION RESP SRIL 1 - PROTOCOL ERROR RESP SRLE 0 - DRIVER ERROR STS54RT BSS 0 STATE 54 - WAIT OUTPUT STREAM ABORTED RAIX .SRID,01 SRIL INPUT DATA - BLOCK PROTOCOL ERROR RAIX .SRIB,02 SRNA INPUT BACK - NO ACTION RAIX .SRII,00 SRLE INVALID IVT INPUT - DRIVER ERROR RAIX .SROD,00 SRLE OUTPUT DATA - DRIVER ERROR RAIX .SSJS,03 SRAE START PRU JOB STREAM - APPLICATION ERROR RAIX .SSDS,03 SRAE START PRU DATA STREAM - APPLICATION ERROR RAIX .SFTI,03 SRAE START INBOUND FILE - APPLICATION ERROR RAIX .SFTO,03 SRAE START OUTBOUND FILE - APPLICATION ERROR RAIX .SJBV,03 SRAE VALID JOB - APPLICATION ERROR RAIX .SJBE,03 SRAE INVALID JOB - APPLICATION ERROR RAIX .SSPS,03 SRAE STOP PRU STREAM - APPLICATION ERROR RAIX .SRST,03 SRAE RESTART PRU STREAM - APPLICATION ERROR RAIX .SBYP,03 SRAE BYPASS PRU STREAM - APPLICATION ERROR RAIX .SABT,03 SRAE ABORT PRU STREAM - APPLICATION ERROR RAIX .SASD,03 SRAE ABORT DATA DELIMITER - APPLICATION ERROR RAIX .SROS,03 SRAE RESUME OUTPUT STREAM - APPLICATION ERROR RAIX .SDOR,03 SRAE DIRECT OUTPUT REQUEST - APPLICATION ERROR RAIX .SEOR,03 SRAE EOJ OUTPUT REQUEST - APPLICATION ERROR RAIX .SSFC,03 SRAE SET FILE - APPLICATION ERROR RAIX .SSDC,03 SRAE SET DEVICE - APPLICATION ERROR RAIX .SCMQ,00 SRLE COMMAND QUEUED - DRIVER ERROR RAIX .SQID,00 SRLE QUEUED INPUT DATA - DRIVER ERROR RAIX .SOPA,00 SRLE OUTPUT ALLOWED - DRIVER ERROR RAIX .SNOA,02 SRNA NO OUTPUT ACTIVITY - NO ACTION RAIX .SSTP,04 SRTW STREAM STOPPED - TRANSFER WORKLIST RAIX .SSBI,04 SRTW BATCH INTERRUPT - TRANSFER WORKLIST RAIX .SEOI,04 SRTW END OF INFORMATION - TRANSFER WORKLIST RAIX .SEND,01 SRIL END OF STREAM - BLOCK PROTOCOL ERROR RAIX .SSAB,05 SRTW,STS23 STREAM ABORTED - TRANSFER WORKLIST RAIX .SICR,01 SRIL ICMD RESPONSE - BLOCK PROTOCOL ERROR RAIX .SICI,00 SRLE ICMD ISSUED - DRIVER ERROR RAIX .SNCI,00 SRLE FRONT END COMMAND ISSUED - DRIVER ERROR RAIX .SRSI,00 SRLE RESET ISSUED - DRIVER ERROR RAIX .SARQ,00 SRLE APPLICATION REQUESTED - DRIVER ERROR RAIX .SMSR,00 SRLE MASS STORAGE REQUESTED - DRIVER ERROR RAIX .SMSC,00 SRLE MASS STORAGE COMPLETED - DRIVER ERROR RAIX .SMSE,00 SRLE MASS STORAGE EOI - DRIVER ERROR RAIX .SMER,00 SRLE MASS STORAGE ERROR - DRIVER ERROR RAIX .SFTE,00 SRLE END OF FILE TRANSFER - DRIVER ERROR RAIX .SFTR,00 SRLE TRANSFER MASS STORAGE ERROR - DRIVER ERROR RAIX .S7MS,01 SRIL CHECKMARK - BLOCK PROTOCOL ERROR RAIX .S7ES,01 SRIL END OF STREAM - BLOCK PROTOCOL ERROR RAIX .S7RR,01 SRIL REQUEST RESTART - BLOCK PROTOCOL ERROR RAIX .S7MR,01 SRIL CHECKMARK REPLY - BLOCK PROTOCOL ERROR RAIX .S7QR,01 SRIL QUIT - BLOCK PROTOCOL ERROR RAIX .S7CI,00 SRLE LEVEL SEVEN COMMAND ISSUED - DRIVER ERROR RAIX .STPS,06 SRWC,STS62 TERMINATE PRU STREAM - WORKLIST COMPLETED RAIX .SPST,00 SRLE PRU STREAM TERMINATED - DRIVER ERROR RAIX .SFEI,07 SRNA,STS61 FRONT END INOPERATIVE - CHANGE STATE RAIX .SBPE,07 SRNA,STS61 BLOCK PROTOCOL ERROR - CHANGE STATE RAIX .SL7E,00 SRLE LEVEL SEVEN ERROR - DRIVER ERROR RAIX .SDLE,00 SRLE DRIVER LOGIC ERROR - DRIVER ERROR STS55RT SPACE 2,10 .STATE SET STS55 RAIC 0 RESP SRNA,STS59 6 - CHANGE STATE RESP SRNA,STS61 5 - CHANGE STATE RESP SRTW,STS39 4 - TRNASFER WORKLIST RESP S7IL 3 - LEVEL SEVEN ERROR RESP SRPO,STS56 2 - TRANSFER PRU OUTPUT RESP SRNA 1 - NO ACTION RESP SRLE 0 - DRIVER ERROR STS55RT BSS 0 STATE 55 - ISSUE LAST PRU OUTPUT TO FE RAIX .SRID,00 SRLE INPUT DATA - DRIVER ERROR RAIX .SRIB,01 SRNA INPUT BACK - NO ACTION RAIX .SRII,00 SRLE INVALID IVT INPUT - DRIVER ERROR RAIX .SROD,02 SRPO,STS56 OUTPUT DATA - TRANSFER PRU OUTPUT RAIX .SSJS,00 SRLE START PRU JOB STREAM - DRIVER ERROR RAIX .SSDS,00 SRLE START PRU DATA STREAM - DRIVER ERROR RAIX .SFTI,00 SRLE START INBOUND FILE TRANSFER - DRIVER ERROR RAIX .SFTO,00 SRLE START OUTBOUND FILE TRANSFER - DRIVER ERROR RAIX .SJBV,00 SRLE VALID JOB - DRIVER ERROR RAIX .SJBE,00 SRLE INVALID JOB - DRIVER ERROR RAIX .SSPS,00 SRLE STOP PRU STREAM - DRIVER ERROR RAIX .SRST,00 SRLE RESTART PRU STREAM - DRIVER ERROR RAIX .SBYP,00 SRLE BYPASS PRU STREAM - DRIVER ERROR RAIX .SABT,00 SRLE ABORT PRU STREAM - DRIVER ERROR RAIX .SASD,00 SRLE ABORT DATA DELIMITER - DRIVER ERROR RAIX .SROS,00 SRLE RESUME OUTPUT STREAM - DRIVER ERROR RAIX .SDOR,00 SRLE DIRECT OUTPUT REQUEST - DRIVER ERROR RAIX .SEOR,00 SRLE EOJ OUTPUT REQUEST - DRIVER ERROR RAIX .SSFC,00 SRLE SET FILE CHARACTERISTICS - DRIVER ERROR RAIX .SSDC,00 SRLE SET DEVICE CHARACTERISTICS - DRIVER ERROR RAIX .SCMQ,00 SRLE COMMAND QUEUED - DRIVER ERROR RAIX .SQID,00 SRLE QUEUED INPUT DATA - DRIVER ERROR RAIX .SOPA,00 SRLE OUTPUT ALLOWED - DRIVER ERROR RAIX .SNOA,00 SRLE NO OUTPUT ACTIVITY - DRIVER ERROR RAIX .SSTP,00 SRLE STREAM STOPPED - DRIVER ERROR RAIX .SSBI,00 SRLE BATCH INTERRUPT - DRIVER ERROR RAIX .SEOI,00 SRLE END OF INFORMATION - DRIVER ERROR RAIX .SEND,00 SRLE END OF STREAM - DRIVER ERROR RAIX .SSAB,00 SRLE STREAM ABORTED - DRIVER ERROR RAIX .SICR,00 SRLE ICMD RESPONSE - DRIVER ERROR RAIX .SICI,00 SRLE ICMD ISSUED - DRIVER ERROR RAIX .SNCI,00 SRLE FRONT END COMMAND ISSUED - DRIVER ERROR RAIX .SRSI,00 SRLE RESET ISSUED - DRIVER ERROR RAIX .SARQ,00 SRLE APPLICATION REQUESTED - DRIVER ERROR RAIX .SMSR,00 SRLE MASS STORAGE REQUESTED - DRIVER ERROR RAIX .SMSC,00 SRLE MASS STORAGE COMPLETED - DRIVER ERROR RAIX .SMSE,00 SRLE MASS STORAGE EOI - DRIVER ERROR RAIX .SMER,00 SRLE MASS STORAGE ERROR - DRIVER ERROR RAIX .SFTE,00 SRLE END OF FILE TRANSFER - DRIVER ERROR RAIX .SFTR,00 SRLE TRANSFER MASS STORAGE ERROR - DRIVER ERROR RAIX .S7MS,03 S7IL CHECKMARK - LEVEL SEVEN ERROR RAIX .S7ES,03 S7IL END OF STREAM - LEVEL SEVEN ERROR RAIX .S7RR,04 SRTW,STS39 REQUEST RESTART - TRANSFER WORKLIST RAIX .S7MR,01 SRNA CHECKMARK REPLY - NO ACTION RAIX .S7QR,03 S7IL QUIT - LEVEL SEVEN ERROR RAIX .S7CI,00 SRLE LEVEL SEVEN COMMAND ISSUED - DRIVER ERROR RAIX .STPS,00 SRLE TERMINATE PRU STREAM - DRIVER ERROR RAIX .SPST,00 SRLE PRU STREAM TERMINATED - DRIVER ERROR RAIX .SFEI,05 SRNA,STS61 FRONT END INOPERATIVE - CHANGE STATE RAIX .SBPE,05 SRNA,STS61 BLOCK PROTOCOL ERROR - CHANGE STATE RAIX .SL7E,06 SRNA,STS59 LEVEL SEVEN ERROR - CHANGE STATE RAIX .SDLE,00 SRLE DRIVER LOGIC ERROR - DRIVER ERROR STS56RT SPACE 2,10 .STATE SET STS56 RAIC 1 RESP SRNA,STS59 8 - CHANGE STATE RESP SRNA,STS61 7 - CHANGE STATE RESP SRWC,STS62 6 - WORKLIST COMPLETED RESP SRTW,STS39 5 - TRANSFER WORKLIST RESP S7IL 4 - LEVEL SEVEN ERROR RESP SRNA,STS57 3 - CHANGE STATE RESP SRAE 2 - APPLICATION ERROR RESP SRNA 1 - NO ACTION RESP SRLE 0 - DRIVER ERROR STS56RT BSS 0 STATE 56 - WAIT NO OUTPUT ACTIVEITY RAIX .SRID,00 SRLE INPUT DATA - DRIVER ERROR RAIX .SRIB,01 SRNA INPUT BACK - NO ACTION RAIX .SRII,00 SRLE INVALID IVT INPUT - DRIVER ERROR RAIX .SROD,00 SRLE OUTPUT DATA - DRIVER ERROR RAIX .SSJS,02 SRAE START PRU JOB STREAM - APPLICATION ERROR RAIX .SSDS,02 SRAE START PRU DATA STREAM - APPLICATION ERROR RAIX .SFTI,02 SRAE START INBOUND FILE - APPLICATION ERROR RAIX .SFTO,02 SRAE START OUTBOUND FILE - APPLICATION ERROR RAIX .SJBV,02 SRAE VALID JOB - APPLICATION ERROR RAIX .SJBE,02 SRAE INVALID JOB - APPLICATION ERROR RAIX .SSPS,02 SRAE STOP PRU STREAM - APPLICATION ERROR RAIX .SRST,02 SRAE RESTART PRU STREAM - APPLICATION ERROR RAIX .SBYP,02 SRAE BYPASS PRU STREAM - APPLICATION ERROR RAIX .SABT,02 SRAE ABORT PRU STREAM - APPLICATION ERROR RAIX .SASD,02 SRAE ABORT DATA DELIMITER - APPLICATION ERROR RAIX .SROS,02 SRAE RESUME OUTPUT STREAM - APPLICATION ERROR RAIX .SDOR,02 SRAE DIRECT OUTPUT REQUEST - APPLICATION ERROR RAIX .SEOR,02 SRAE EOJ OUTPUT REQUEST - APPLICATION ERROR RAIX .SSFC,02 SRAE SET FILE - APPLICATION ERROR RAIX .SSDC,02 SRAE SET DEVICE - APPLICATION ERROR RAIX .SCMQ,00 SRLE COMMAND QUEUED - DRIVER ERROR RAIX .SQID,00 SRLE QUEUED INPUT DATA - DRIVER ERROR RAIX .SOPA,00 SRLE OUTPUT ALLOWED - DRIVER ERROR RAIX .SNOA,03 SRNA,STS57 NO OUTPUT ACTIVITY - CHANGE STATE RAIX .SSTP,00 SRLE STREAM STOPPED - DRIVER ERROR RAIX .SSBI,00 SRLE BATCH INTERRUPT - DRIVER ERROR RAIX .SEOI,00 SRLE END OF INFORMATION - DRIVER ERROR RAIX .SEND,00 SRLE END OF STREAM - DRIVER ERROR RAIX .SSAB,00 SRLE STREAM ABORTED - DRIVER ERROR RAIX .SICR,00 SRLE ICMD RESPONSE - DRIVER ERROR RAIX .SICI,00 SRLE ICMD ISSUED - DRIVER ERROR RAIX .SNCI,00 SRLE FRONT END COMMAND ISSUED - DRIVER ERROR RAIX .SRSI,00 SRLE RESET ISSUED - DRIVER ERROR RAIX .SARQ,00 SRLE APPLICATION REQUESTED - DRIVER ERROR RAIX .SMSR,00 SRLE MASS STORAGE REQUESTED - DRIVER ERROR RAIX .SMSC,00 SRLE MASS STORAGE COMPLETED - DRIVER ERROR RAIX .SMSE,00 SRLE MASS STORAGE EOI - DRIVER ERROR RAIX .SMER,00 SRLE MASS STORAGE ERROR - DRIVER ERROR RAIX .SFTE,00 SRLE END OF FILE TRANSFER - DRIVER ERROR RAIX .SFTR,00 SRLE TRANSFER MASS STORAGE ERROR - DRIVER ERROR RAIX .S7MS,04 S7IL CHECKMARK - LEVEL SEVEL ERROR RAIX .S7ES,04 S7IL END OF STREAM - LEVEL SEVEL ERROR RAIX .S7RR,05 SRTW,STS39 REQUEST RESTART - TRANSFER WORKLIST RAIX .S7MR,01 SRNA CHECKMARK REPLY - NO ACTION RAIX .S7QR,04 S7IL QUIT - LEVEL SEVEL ERROR RAIX .S7CI,00 SRLE LEVEL SEVEN COMMAND ISSUED - DRIVER ERROR RAIX .STPS,06 SRWC,STS62 TERMINATE PRU STREAM - WORKLIST COMPLETED RAIX .SPST,00 SRLE PRU STREAM TERMINATED - DRIVER ERROR RAIX .SFEI,07 SRNA,STS61 FRONT END INOPERATIVE - CHANGE STATE RAIX .SBPE,07 SRNA,STS61 BLOCK PROTOCOL ERROR - CHANGE STATE RAIX .SL7E,08 SRNA,STS59 LEVEL SEVEN ERROR - CHANGE STATE RAIX .SDLE,00 SRLE DRIVER LOGIC ERROR - DRIVER ERROR STS57RT SPACE 2,10 .STATE SET STS57 RAIC 0 RESP SRNA,STS59 6 - CHANGE STATE RESP SRNA,STS61 5 - CHANGE STATE RESP SRNA 4 - NO ACTION RESP SRTW,STS39 3 - TRANSFER WORKLIST RESP S7IL 2 - LEVEL SEVEN ERROR RESP SRTW,STS61 1 - TRANSFER WORKLIST RESP SRLE 0 - DRIVER ERROR STS57RT BSS 0 STATE 57 - END OF OUTBOUND FILE TRANSFER RAIX .SRID,00 SRLE INPUT DATA - DRIVER ERROR RAIX .SRIB,00 SRLE INPUT BACK - DRIVER ERROR RAIX .SRII,00 SRLE INVALID IVT INPUT - DRIVER ERROR RAIX .SROD,00 SRLE OUTPUT DATA - DRIVER ERROR RAIX .SSJS,00 SRLE START PRU JOB STREAM - DRIVER ERROR RAIX .SSDS,00 SRLE START PRU DATA STREAM - DRIVER ERROR RAIX .SFTI,00 SRLE START INBOUND FILE TRANSFER - DRIVER ERROR RAIX .SFTO,00 SRLE START OUTBOUND FILE TRANSFER - DRIVER ERROR RAIX .SJBV,00 SRLE VALID JOB - DRIVER ERROR RAIX .SJBE,00 SRLE INVALID JOB - DRIVER ERROR RAIX .SSPS,00 SRLE STOP PRU STREAM - DRIVER ERROR RAIX .SRST,00 SRLE RESTART PRU STREAM - DRIVER ERROR RAIX .SBYP,00 SRLE BYPASS PRU STREAM - DRIVER ERROR RAIX .SABT,00 SRLE ABORT PRU STREAM - DRIVER ERROR RAIX .SASD,00 SRLE ABORT DATA DELIMITER - DRIVER ERROR RAIX .SROS,00 SRLE RESUME OUTPUT STREAM - DRIVER ERROR RAIX .SDOR,00 SRLE DIRECT OUTPUT REQUEST - DRIVER ERROR RAIX .SEOR,00 SRLE EOJ OUTPUT REQUEST - DRIVER ERROR RAIX .SSFC,00 SRLE SET FILE CHARACTERISTICS - DRIVER ERROR RAIX .SSDC,00 SRLE SET DEVICE CHARACTERISTICS - DRIVER ERROR RAIX .SCMQ,00 SRLE COMMAND QUEUED - DRIVER ERROR RAIX .SQID,00 SRLE QUEUED INPUT DATA - DRIVER ERROR RAIX .SOPA,00 SRLE OUTPUT ALLOWED - DRIVER ERROR RAIX .SNOA,00 SRLE NO OUTPUT ACTIVITY - DRIVER ERROR RAIX .SSTP,00 SRLE STREAM STOPPED - DRIVER ERROR RAIX .SSBI,00 SRLE BATCH INTERRUPT - DRIVER ERROR RAIX .SEOI,00 SRLE END OF INFORMATION - DRIVER ERROR RAIX .SEND,00 SRLE END OF STREAM - DRIVER ERROR RAIX .SSAB,00 SRLE STREAM ABORTED - DRIVER ERROR RAIX .SICR,00 SRLE ICMD RESPONSE - DRIVER ERROR RAIX .SICI,00 SRLE ICMD ISSUED - DRIVER ERROR RAIX .SNCI,00 SRLE FRONT END COMMAND ISSUED - DRIVER ERROR RAIX .SRSI,00 SRLE RESET ISSUED - DRIVER ERROR RAIX .SARQ,01 SRTW,STS61 APPLICATION REQUESTED - TRANSFER WORKLIST RAIX .SMSR,00 SRLE MASS STORAGE REQUESTED - DRIVER ERROR RAIX .SMSC,00 SRLE MASS STORAGE COMPLETED - DRIVER ERROR RAIX .SMSE,00 SRLE MASS STORAGE EOI - DRIVER ERROR RAIX .SMER,00 SRLE MASS STORAGE ERROR - DRIVER ERROR RAIX .SFTE,00 SRLE END OF FILE TRANSFER - DRIVER ERROR RAIX .SFTR,00 SRLE TRANSFER MASS STORAGE ERROR - DRIVER ERROR RAIX .S7MS,02 S7IL CHECKMARK - LEVEL SEVEN ERROR RAIX .S7ES,02 S7IL END OF STREAM - LEVEL SEVEN ERROR RAIX .S7RR,03 SRTW,STS39 REQUEST RESTART - TRANSFER WORKLIST RAIX .S7MR,04 SRNA CHECKMARK REPLY - NO ACTION RAIX .S7QR,02 S7IL QUIT - LEVEL SEVEN ERROR RAIX .S7CI,00 SRLE LEVEL SEVEN COMMAND ISSUED - DRIVER ERROR RAIX .STPS,00 SRLE TERMINATE PRU STREAM - DRIVER ERROR RAIX .SPST,00 SRLE PRU STREAM TERMINATED - DRIVER ERROR RAIX .SFEI,05 SRNA,STS61 FRONT END INOPERATIVE - CHANGE STATE RAIX .SBPE,05 SRNA,STS61 BLOCK PROTOCOL ERROR - CHANGE STATE RAIX .SL7E,06 SRNA,STS59 LEVEL SEVEN ERROR - CHANGE STATE RAIX .SDLE,00 SRLE DRIVER LOGIC ERROR - DRIVER ERROR STS58RT SPACE 2,10 .STATE SET STS58 RAIC 0 RESP SRLE 0 - DRIVER ERROR STS58RT BSS 0 UNUSED STREAM STATE RESPONSE TABLE RAIX .SRID,00 SRLE INPUT DATA - DRIVER ERROR RAIX .SRIB,00 SRLE INPUT BACK - DRIVER ERROR RAIX .SRII,00 SRLE INVALID IVT INPUT - DRIVER ERROR RAIX .SROD,00 SRLE OUTPUT DATA - DRIVER ERROR RAIX .SSJS,00 SRLE START PRU JOB STREAM - DRIVER ERROR RAIX .SSDS,00 SRLE START PRU DATA STREAM - DRIVER ERROR RAIX .SFTI,00 SRLE START INBOUND FILE TRANSFER - DRIVER ERROR RAIX .SFTO,00 SRLE START OUTBOUND FILE TRANSFER - DRIVER ERROR RAIX .SJBV,00 SRLE VALID JOB - DRIVER ERROR RAIX .SJBE,00 SRLE INVALID JOB - DRIVER ERROR RAIX .SSPS,00 SRLE STOP PRU STREAM - DRIVER ERROR RAIX .SRST,00 SRLE RESTART PRU STREAM - DRIVER ERROR RAIX .SBYP,00 SRLE BYPASS PRU STREAM - DRIVER ERROR RAIX .SABT,00 SRLE ABORT PRU STREAM - DRIVER ERROR RAIX .SASD,00 SRLE ABORT DATA DELIMITER - DRIVER ERROR RAIX .SROS,00 SRLE RESUME OUTPUT STREAM - DRIVER ERROR RAIX .SDOR,00 SRLE DIRECT OUTPUT REQUEST - DRIVER ERROR RAIX .SEOR,00 SRLE EOJ OUTPUT REQUEST - DRIVER ERROR RAIX .SSFC,00 SRLE SET FILE CHARACTERISTICS - DRIVER ERROR RAIX .SSDC,00 SRLE SET DEVICE CHARACTERISTICS - DRIVER ERROR RAIX .SCMQ,00 SRLE COMMAND QUEUED - DRIVER ERROR RAIX .SQID,00 SRLE QUEUED INPUT DATA - DRIVER ERROR RAIX .SOPA,00 SRLE OUTPUT ALLOWED - DRIVER ERROR RAIX .SNOA,00 SRLE NO OUTPUT ACTIVITY - DRIVER ERROR RAIX .SSTP,00 SRLE STREAM STOPPED - DRIVER ERROR RAIX .SSBI,00 SRLE BATCH INTERRUPT - DRIVER ERROR RAIX .SEOI,00 SRLE END OF INFORMATION - DRIVER ERROR RAIX .SEND,00 SRLE END OF STREAM - DRIVER ERROR RAIX .SSAB,00 SRLE STREAM ABORTED - DRIVER ERROR RAIX .SICR,00 SRIL ICMD RESPONSE - DRIVER ERROR RAIX .SICI,00 SRLE ICMD ISSUED - DRIVER ERROR RAIX .SNCI,00 SRLE FRONT END COMMAND ISSUED - DRIVER ERROR RAIX .SRSI,00 SRLE RESET ISSUED - DRIVER ERROR RAIX .SARQ,00 SRLE APPLICATION REQUESTED - DRIVER ERROR RAIX .SMSR,00 SRLE MASS STORAGE REQUESTED - DRIVER ERROR RAIX .SMSC,00 SRLE MASS STORAGE COMPLETED - DRIVER ERROR RAIX .SMSE,00 SRLE MASS STORAGE EOI - DRIVER ERROR RAIX .SMER,00 SRLE MASS STORAGE ERROR - DRIVER ERROR RAIX .SFTE,00 SRLE END OF FILE TRANSFER - DRIVER ERROR RAIX .SFTR,00 SRLE TRANSFER MASS STORAGE ERROR - DRIVER ERROR RAIX .S7MS,00 SRLE CHECKMARK - DRIVER ERROR RAIX .S7ES,00 SRLE END OF STREAM - DRIVER ERROR RAIX .S7RR,00 SRLE REQUEST RESTART - DRIVER ERROR RAIX .S7MR,00 SRLE CHECKMARK REPLY - DRIVER ERROR RAIX .S7QR,00 SRLE QUIT - DRIVER ERROR RAIX .S7CI,00 SRLE LEVEL SEVEN COMMAND ISSUED - DRIVER ERROR RAIX .STPS,00 SRLE TERMINATE PRU STREAM - DRIVER ERROR RAIX .SPST,00 SRLE PRU STREAM TERMINATED - DRIVER ERROR RAIX .SFEI,00 SRLE FRONT END INOPERATIVE - DRIVER ERROR RAIX .SBPE,00 SRLE BLOCK PROTOCOL ERROR - DRIVER ERROR RAIX .SL7E,00 SRLE LEVEL SEVEN ERROR - DRIVER ERROR RAIX .SDLE,00 SRLE DRIVER LOGIC ERROR - DRIVER ERROR STS59RT SPACE 2,10 .STATE SET STS59 RAIC 0 RESP SRNA,STS61 5 - CHANGE STATE RESP S7IL 4 - LEVEL SEVEN ERROR RESP SRTW,STS61 3 - TRANSFER WORKLIST RESP SRNA 2 - NO ACTION RESP SRBI 1 - BYPASS INPUT RESP SRLE 0 - DRIVER ERROR STS59RT BSS 0 STATE 59 - REPORT FILE TRANSFER ERROR RAIX .SRID,01 SRBI INPUT DATA - BYPASS INPUT RAIX .SRIB,02 SRNA INPUT BACK - NO ACTION RAIX .SRII,00 SRLE INVALID IVT INPUT - DRIVER ERROR RAIX .SROD,00 SRLE OUTPUT DATA - DRIVER ERROR RAIX .SSJS,00 SRLE START PRU JOB STREAM - DRIVER ERROR RAIX .SSDS,00 SRLE START PRU DATA STREAM - DRIVER ERROR RAIX .SFTI,00 SRLE START INBOUND FILE TRANSFER - DRIVER ERROR RAIX .SFTO,00 SRLE START OUTBOUND FILE TRANSFER - DRIVER ERROR RAIX .SJBV,00 SRLE VALID JOB - DRIVER ERROR RAIX .SJBE,00 SRLE INVALID JOB - DRIVER ERROR RAIX .SSPS,00 SRLE STOP PRU STREAM - DRIVER ERROR RAIX .SRST,00 SRLE RESTART PRU STREAM - DRIVER ERROR RAIX .SBYP,00 SRLE BYPASS PRU STREAM - DRIVER ERROR RAIX .SABT,00 SRLE ABORT PRU STREAM - DRIVER ERROR RAIX .SASD,00 SRLE ABORT DATA DELIMITER - DRIVER ERROR RAIX .SROS,00 SRLE RESUME OUTPUT STREAM - DRIVER ERROR RAIX .SDOR,00 SRLE DIRECT OUTPUT REQUEST - DRIVER ERROR RAIX .SEOR,00 SRLE EOJ OUTPUT REQUEST - DRIVER ERROR RAIX .SSFC,00 SRLE SET FILE CHARACTERISTICS - DRIVER ERROR RAIX .SSDC,00 SRLE SET DEVICE CHARACTERISTICS - DRIVER ERROR RAIX .SCMQ,02 SRNA COMMAND QUEUED - NO ACTION RAIX .SQID,00 SRLE QUEUED INPUT DATA - DRIVER ERROR RAIX .SOPA,00 SRLE OUTPUT ALLOWED - DRIVER ERROR RAIX .SNOA,00 SRLE NO OUTPUT ACTIVITY - DRIVER ERROR RAIX .SSTP,00 SRLE STREAM STOPPED - DRIVER ERROR RAIX .SSBI,00 SRLE BATCH INTERRUPT - DRIVER ERROR RAIX .SEOI,00 SRLE END OF INFORMATION - DRIVER ERROR RAIX .SEND,00 SRLE END OF STREAM - DRIVER ERROR RAIX .SSAB,00 SRLE STREAM ABORTED - DRIVER ERROR RAIX .SICR,00 SRLE ICMD RESPONSE - DRIVER ERROR RAIX .SICI,00 SRLE ICMD ISSUED - DRIVER ERROR RAIX .SNCI,00 SRLE FRONT END COMMAND ISSUED - DRIVER ERROR RAIX .SRSI,00 SRLE RESET ISSUED - DRIVER ERROR RAIX .SARQ,03 SRTW,STS61 APPLICATION REQUESTED - TRANSFER WORKLIST RAIX .SMSR,00 SRLE MASS STORAGE REQUESTED - DRIVER ERROR RAIX .SMSC,00 SRLE MASS STORAGE COMPLETED - DRIVER ERROR RAIX .SMSE,00 SRLE MASS STORAGE EOI - DRIVER ERROR RAIX .SMER,00 SRLE MASS STORAGE ERROR - DRIVER ERROR RAIX .SFTE,00 SRLE END OF FILE TRANSFER - DRIVER ERROR RAIX .SFTR,00 SRLE TRANSFER MASS STORAGE ERROR - DRIVER ERROR RAIX .S7MS,04 S7IL CHECKMARK - LEVEL SEVEN ERROR RAIX .S7ES,04 S7IL END OF STREAM - LEVEL SEVEN ERROR RAIX .S7RR,04 S7IL REQUEST RESTART - LEVEL SEVEN ERROR RAIX .S7MR,04 S7IL CHECKMARK REPLY - LEVEL SEVEN ERROR RAIX .S7QR,04 S7IL QUIT - LEVEL SEVEN ERROR RAIX .S7CI,00 SRLE LEVEL SEVEN COMMAND ISSUED - DRIVER ERROR RAIX .STPS,00 SRLE TERMINATE PRU STREAM - DRIVER ERROR RAIX .SPST,00 SRLE PRU STREAM TERMINATED - DRIVER ERROR RAIX .SFEI,05 SRNA,STS61 FRONT END INOPERATIVE - CHANGE STATE RAIX .SBPE,05 SRNA,STS61 BLOCK PROTOCOL ERROR - CHANGE STATE RAIX .SL7E,02 SRNA LEVEL SEVEN ERROR - NO ACTION RAIX .SDLE,00 SRLE DRIVER LOGIC ERROR - DRIVER ERROR STS60RT SPACE 2,10 .STATE SET STS60 RAIC 0 RESP SRNA,STS59 7 - CHANGE STATE RESP S7IL 6 - LEVEL SEVEN ERROR RESP SRTW,STS61 5 - TRANSFER WORKLIST RESP SRIL 4 - BLOCK PROTOCOL ERROR RESP SRQW 3 - QUEUE WORKLIST COMMAND RESP SRNA 2 - NO ACTION RESP SRBI 1 - BYPASS INPUT RESP SRLE 0 - DRIVER ERROR STS60RT BSS 0 STATE 60 - REPORT MASS STORAGE ERROR RAIX .SRID,01 SRBI INPUT DATA - BYPASS INPUT RAIX .SRIB,02 SRNA INPUT BACK - NO ACTION RAIX .SRII,00 SRLE INVALID IVT INPUT - DRIVER ERROR RAIX .SROD,00 SRLE OUTPUT DATA - DRIVER ERROR RAIX .SSJS,00 SRLE START PRU JOB STREAM - DRIVER ERROR RAIX .SSDS,00 SRLE START PRU DATA STREAM - DRIVER ERROR RAIX .SFTI,00 SRLE START INBOUND FILE TRANSFER - DRIVER ERROR RAIX .SFTO,00 SRLE START OUTBOUND FILE TRANSFER - DRIVER ERROR RAIX .SJBV,00 SRLE VALID JOB - DRIVER ERROR RAIX .SJBE,00 SRLE INVALID JOB - DRIVER ERROR RAIX .SSPS,00 SRLE STOP PRU STREAM - DRIVER ERROR RAIX .SRST,00 SRLE RESTART PRU STREAM - DRIVER ERROR RAIX .SBYP,00 SRLE BYPASS PRU STREAM - DRIVER ERROR RAIX .SABT,00 SRLE ABORT PRU STREAM - DRIVER ERROR RAIX .SASD,00 SRLE ABORT DATA DELIMITER - DRIVER ERROR RAIX .SROS,00 SRLE RESUME OUTPUT STREAM - DRIVER ERROR RAIX .SDOR,00 SRLE DIRECT OUTPUT REQUEST - DRIVER ERROR RAIX .SEOR,00 SRLE EOJ OUTPUT REQUEST - DRIVER ERROR RAIX .SSFC,00 SRLE SET FILE CHARACTERISTICS - DRIVER ERROR RAIX .SSDC,00 SRLE SET DEVICE CHARACTERISTICS - DRIVER ERROR RAIX .SCMQ,03 SRQW COMMAND QUEUED - QUEUE WORKLIST COMMAND RAIX .SQID,00 SRLE QUEUED INPUT DATA - DRIVER ERROR RAIX .SOPA,00 SRLE OUTPUT ALLOWED - DRIVER ERROR RAIX .SNOA,00 SRLE NO OUTPUT ACTIVITY - DRIVER ERROR RAIX .SSTP,00 SRLE STREAM STOPPED - DRIVER ERROR RAIX .SSBI,00 SRLE BATCH INTERRUPT - DRIVER ERROR RAIX .SEOI,00 SRLE END OF INFORMATION - DRIVER ERROR RAIX .SEND,00 SRLE END OF STREAM - DRIVER ERROR RAIX .SSAB,00 SRLE STREAM ABORTED - DRIVER ERROR RAIX .SICR,04 SRIL ICMD RESPONSE - BLOCK PROTOCOL ERROR RAIX .SICI,00 SRLE ICMD ISSUED - DRIVER ERROR RAIX .SNCI,00 SRLE FRONT END COMMAND ISSUED - DRIVER ERROR RAIX .SRSI,00 SRLE RESET ISSUED - DRIVER ERROR RAIX .SARQ,05 SRTW,STS61 APPLICATION REQUESTED - TRANSFER WORKLIST RAIX .SMSR,00 SRLE MASS STORAGE REQUESTED - DRIVER ERROR RAIX .SMSC,00 SRLE MASS STORAGE COMPLETED - DRIVER ERROR RAIX .SMSE,00 SRLE MASS STORAGE EOI - DRIVER ERROR RAIX .SMER,00 SRLE MASS STORAGE ERROR - DRIVER ERROR RAIX .SFTE,00 SRLE END OF FILE TRANSFER - DRIVER ERROR RAIX .SFTR,00 SRLE TRANSFER MASS STORAGE ERROR - DRIVER ERROR RAIX .S7MS,06 S7IL CHECKMARK - LEVEL SEVEN ERROR RAIX .S7ES,06 S7IL END OF STREAM - LEVEL SEVEN ERROR RAIX .S7RR,06 S7IL REQUEST RESTART - LEVEL SEVEN ERROR RAIX .S7MR,06 S7IL CHECKMARK REPLY - LEVEL SEVEN ERROR RAIX .S7QR,06 S7IL QUIT - LEVEL SEVEN ERROR RAIX .S7CI,00 SRLE LEVEL SEVEN COMMAND ISSUED - DRIVER ERROR RAIX .STPS,00 SRLE TERMINATE PRU STREAM - DRIVER ERROR RAIX .SPST,00 SRLE PRU STREAM TERMINATED - DRIVER ERROR RAIX .SFEI,02 SRNA FRONT END INOPERATIVE - NO ACTION RAIX .SBPE,02 SRNA BLOCK PROTOCOL ERROR - NO ACTION RAIX .SL7E,07 SRNA,STS59 LEVEL SEVEN ERROR - CHANGE STATE RAIX .SDLE,00 SRLE DRIVER LOGIC ERROR - DRIVER ERROR STS61RT SPACE 2,10 .STATE SET STS61 RAIC 0 RESP SRWC,STS62 6 - WORKLIST COMPLETED RESP SRTW,STS39 5 - TRANSFER WORKLIST RESP S7IL 4 - LEVEL SEVEN ERROR RESP SRIL 3 - PROTOCOL ERROR RESP SRNA 2 - NO ACTION RESP SRBI 1 - BYPASS INPUT RESP SRLE 0 - DRIVER ERROR STS61RT BSS 0 STATE 61 - CHECK IMMEDIATE WORKLIST QUEUE RAIX .SRID,01 SRBI INPUT DATA - BYPASS INPUT RAIX .SRIB,02 SRNA INPUT BACK - NO ACTION RAIX .SRII,00 SRLE INVALID IVT INPUT - DRIVER ERROR RAIX .SROD,00 SRLE OUTPUT DATA - DRIVER ERROR RAIX .SSJS,00 SRLE START PRU JOB STREAM - DRIVER ERROR RAIX .SSDS,00 SRLE START PRU DATA STREAM - DRIVER ERROR RAIX .SFTI,00 SRLE START INBOUND FILE TRANSFER - DRIVER ERROR RAIX .SFTO,00 SRLE START OUTBOUND FILE TRANSFER - DRIVER ERROR RAIX .SJBV,00 SRLE VALID JOB - DRIVER ERROR RAIX .SJBE,00 SRLE INVALID JOB - DRIVER ERROR RAIX .SSPS,00 SRLE STOP PRU STREAM - DRIVER ERROR RAIX .SRST,00 SRLE RESTART PRU STREAM - DRIVER ERROR RAIX .SBYP,00 SRLE BYPASS PRU STREAM - DRIVER ERROR RAIX .SABT,00 SRLE ABORT PRU STREAM - DRIVER ERROR RAIX .SASD,00 SRLE ABORT DATA DELIMITER - DRIVER ERROR RAIX .SROS,00 SRLE RESUME OUTPUT STREAM - DRIVER ERROR RAIX .SDOR,00 SRLE DIRECT OUTPUT REQUEST - DRIVER ERROR RAIX .SEOR,00 SRLE EOJ OUTPUT REQUEST - DRIVER ERROR RAIX .SSFC,00 SRLE SET FILE CHARACTERISTICS - DRIVER ERROR RAIX .SSDC,00 SRLE SET DEVICE CHARACTERISTICS - DRIVER ERROR RAIX .SCMQ,02 SRNA COMMAND QUEUED - NO ACTION RAIX .SQID,00 SRLE QUEUED INPUT DATA - DRIVER ERROR RAIX .SOPA,00 SRLE OUTPUT ALLOWED - DRIVER ERROR RAIX .SNOA,00 SRLE NO OUTPUT ACTIVITY - DRIVER ERROR RAIX .SSTP,00 SRLE STREAM STOPPED - DRIVER ERROR RAIX .SSBI,00 SRLE BATCH INTERRUPT - DRIVER ERROR RAIX .SEOI,00 SRLE END OF INFORMATION - DRIVER ERROR RAIX .SEND,00 SRLE END OF STREAM - DRIVER ERROR RAIX .SSAB,00 SRLE STREAM ABORTED - DRIVER ERROR RAIX .SICR,03 SRIL ICMD RESPONSE - BLOCK PROTOCOL ERROR RAIX .SICI,00 SRLE ICMD ISSUED - DRIVER ERROR RAIX .SNCI,00 SRLE FRONT END COMMAND ISSUED - DRIVER ERROR RAIX .SRSI,00 SRLE RESET ISSUED - DRIVER ERROR RAIX .SARQ,00 SRLE APPLICATION REQUESTED - DRIVER ERROR RAIX .SMSR,00 SRLE MASS STORAGE REQUESTED - DRIVER ERROR RAIX .SMSC,00 SRLE MASS STORAGE COMPLETED - DRIVER ERROR RAIX .SMSE,00 SRLE MASS STORAGE EOI - DRIVER ERROR RAIX .SMER,00 SRLE MASS STORAGE ERROR - DRIVER ERROR RAIX .SFTE,00 SRLE END OF FILE TRANSFER - DRIVER ERROR RAIX .SFTR,00 SRLE TRANSFER MASS STORAGE ERROR - DRIVER ERROR RAIX .S7MS,04 S7IL CHECKMARK - LEVEL SEVEN ERROR RAIX .S7ES,04 S7IL END OF STREAM - LEVEL SEVEN ERROR RAIX .S7RR,05 SRTW,STS39 REQUEST RESTART - TRANSFER WORKLIST RAIX .S7MR,02 SRNA CHECKMARK REPLY - NO ACTION RAIX .S7QR,04 S7IL QUIT - LEVEL SEVEN ERROR RAIX .S7CI,00 SRLE LEVEL SEVEN COMMAND ISSUED - DRIVER ERROR RAIX .STPS,06 SRWC,STS62 TERMINATE PRU STREAM - WORKLIST COMPLETED RAIX .SPST,00 SRLE PRU STREAM TERMINATED - DRIVER ERROR RAIX .SFEI,02 SRNA FRONT END INOPERATIVE - NO ACTION RAIX .SBPE,02 SRNA BLOCK PROTOCOL ERROR - NO ACTION RAIX .SL7E,02 SRNA LEVEL SEVEN ERROR - NO ACTION RAIX .SDLE,00 SRLE DRIVER LOGIC ERROR - DRIVER ERROR STS62RT SPACE 2,10 .STATE SET STS62 RAIC 0 RESP SRTW,STS63 7 - TRANSFER WORKLIST RESP S7IL 6 - LEVEL SEVEN ERROR RESP SRBR 5 - RESET BREAK RECEIVED RESP SROF 4 - RESET PRU MODE RESP SRRB 3 - RETURN BUFFER RESP SRNA 2 - NO ACTION RESP SRBI 1 - BYPASS INPUT RESP SRLE 0 - DRIVER ERROR STS62RT BSS 0 STATE 62 - TERMINATE PRU STREAM RAIX .SRID,01 SRBI INPUT DATA - BYPASS INPUT RAIX .SRIB,02 SRNA INPUT BACK - NO ACTION RAIX .SRII,00 SRLE INVALID IVT INPUT - DRIVER ERROR RAIX .SROD,00 SRLE OUTPUT DATA - DRIVER ERROR RAIX .SSJS,00 SRLE START PRU JOB STREAM - DRIVER ERROR RAIX .SSDS,00 SRLE START PRU DATA STREAM - DRIVER ERROR RAIX .SFTI,00 SRLE START INBOUND FILE TRANSFER - DRIVER ERROR RAIX .SFTO,00 SRLE START OUTBOUND FILE TRANSFER - DRIVER ERROR RAIX .SJBV,00 SRLE VALID JOB - DRIVER ERROR RAIX .SJBE,00 SRLE INVALID JOB - DRIVER ERROR RAIX .SSPS,00 SRLE STOP PRU STREAM - DRIVER ERROR RAIX .SRST,00 SRLE RESTART PRU STREAM - DRIVER ERROR RAIX .SBYP,00 SRLE BYPASS PRU STREAM - DRIVER ERROR RAIX .SABT,00 SRLE ABORT PRU STREAM - DRIVER ERROR RAIX .SASD,00 SRLE ABORT DATA DELIMITER - DRIVER ERROR RAIX .SROS,00 SRLE RESUME OUTPUT STREAM - DRIVER ERROR RAIX .SDOR,00 SRLE DIRECT OUTPUT REQUEST - DRIVER ERROR RAIX .SEOR,00 SRLE EOJ OUTPUT REQUEST - DRIVER ERROR RAIX .SSFC,00 SRLE SET FILE CHARACTERISTICS - DRIVER ERROR RAIX .SSDC,00 SRLE SET DEVICE CHARACTERISTICS - DRIVER ERROR RAIX .SCMQ,02 SRNA COMMAND QUEUED - NO ACTION RAIX .SQID,03 SRRB QUEUED INPUT DATA - RETURN BUFFER RAIX .SOPA,00 SRLE OUTPUT ALLOWED - DRIVER ERROR RAIX .SNOA,00 SRLE NO OUTPUT ACTIVITY - DRIVER ERROR RAIX .SSTP,02 SRNA STREAM STOPPED - NO ACTION RAIX .SSBI,02 SRNA BATCH INTERRUPT - NO ACTION RAIX .SEOI,02 SRNA END OF INFORMATION - NO ACTION RAIX .SEND,02 SRNA END OF STREAM - NO ACTION RAIX .SSAB,02 SRNA STREAM ABORTED - NO ACTION RAIX .SICR,02 SRNA ICMD RESPONSE - NO ACTION RAIX .SICI,00 SRLE ICMD ISSUED - DRIVER ERROR RAIX .SNCI,04 SROF FRONT END COMMAND ISSUED - RESET PRU MODE RAIX .SRSI,05 SRBR RESET ISSUED - RESET BREAK RECEIVED RAIX .SARQ,00 SRLE APPLICATION REQUESTED - DRIVER ERROR RAIX .SMSR,00 SRLE MASS STORAGE REQUESTED - DRIVER ERROR RAIX .SMSC,00 SRLE MASS STORAGE COMPLETED - DRIVER ERROR RAIX .SMSE,00 SRLE MASS STORAGE EOI - DRIVER ERROR RAIX .SMER,00 SRLE MASS STORAGE ERROR - DRIVER ERROR RAIX .SFTE,00 SRLE END OF FILE TRANSFER - DRIVER ERROR RAIX .SFTR,00 SRLE TRANSFER MASS STORAGE ERROR - DRIVER ERROR RAIX .S7MS,06 S7IL CHECKMARK - LEVEL SEVEN ERROR RAIX .S7ES,06 S7IL END OF STREAM - LEVEL SEVEN ERROR RAIX .S7RR,06 S7IL REQUEST RESTART - LEVEL SEVEN ERROR RAIX .S7MR,06 S7IL CHECKMARK REPLY - LEVEL SEVEN ERROR RAIX .S7QR,06 S7IL QUIT - LEVEL SEVEN ERROR RAIX .S7CI,00 SRLE LEVEL SEVEN COMMAND ISSUED - DRIVER ERROR RAIX .STPS,00 SRLE TERMINATE PRU STREAM - DRIVER ERROR RAIX .SPST,07 SRTW,STS63 PRU STREAM TERMINATED - TRANSFER WORKLIST RAIX .SFEI,02 SRNA FRONT END INOPERATIVE - NO ACTION RAIX .SBPE,02 SRNA BLOCK PROTOCOL ERROR - NO ACTION RAIX .SL7E,02 SRNA LEVEL SEVEN ERROR - NO ACTION RAIX .SDLE,00 SRLE DRIVER LOGIC ERROR - DRIVER ERROR STS63RT SPACE 2,10 .STATE SET STS63 RAIC 0 RESP S7IL 3 - LEVEL SEVEN ERROR RESP SRNA 2 - NO ACTION RESP SRBI 1 - BYPASS INPUT RESP SRLE 0 - DRIVER ERROR STS63RT BSS 0 STATE 63 - PRU STREAM TERMINATED RAIX .SRID,01 SRBI INPUT DATA - BYPASS INPUT RAIX .SRIB,02 SRNA INPUT BACK - NO ACTION RAIX .SRII,00 SRLE INVALID IVT INPUT - DRIVER ERROR RAIX .SROD,00 SRLE OUTPUT DATA - DRIVER ERROR RAIX .SSJS,00 SRLE START PRU JOB STREAM - DRIVER ERROR RAIX .SSDS,00 SRLE START PRU DATA STREAM - DRIVER ERROR RAIX .SFTI,00 SRLE START INBOUND FILE TRANSFER - DRIVER ERROR RAIX .SFTO,00 SRLE START OUTBOUND FILE TRANSFER - DRIVER ERROR RAIX .SJBV,00 SRLE VALID JOB - DRIVER ERROR RAIX .SJBE,00 SRLE INVALID JOB - DRIVER ERROR RAIX .SSPS,00 SRLE STOP PRU STREAM - DRIVER ERROR RAIX .SRST,00 SRLE RESTART PRU STREAM - DRIVER ERROR RAIX .SBYP,00 SRLE BYPASS PRU STREAM - DRIVER ERROR RAIX .SABT,00 SRLE ABORT PRU STREAM - DRIVER ERROR RAIX .SASD,00 SRLE ABORT DATA DELIMITER - DRIVER ERROR RAIX .SROS,00 SRLE RESUME OUTPUT STREAM - DRIVER ERROR RAIX .SDOR,00 SRLE DIRECT OUTPUT REQUEST - DRIVER ERROR RAIX .SEOR,00 SRLE EOJ OUTPUT REQUEST - DRIVER ERROR RAIX .SSFC,00 SRLE SET FILE CHARACTERISTICS - DRIVER ERROR RAIX .SSDC,00 SRLE SET DEVICE CHARACTERISTICS - DRIVER ERROR RAIX .SCMQ,02 SRNA COMMAND QUEUED - NO ACTION RAIX .SQID,00 SRLE QUEUED INPUT DATA - DRIVER ERROR RAIX .SOPA,00 SRLE OUTPUT ALLOWED - DRIVER ERROR RAIX .SNOA,00 SRLE NO OUTPUT ACTIVITY - DRIVER ERROR RAIX .SSTP,02 SRNA STREAM STOPPED - NO ACTION RAIX .SSBI,02 SRNA BATCH INTERRUPT - NO ACTION RAIX .SEOI,02 SRNA END OF INFORMATION - NO ACTION RAIX .SEND,02 SRNA END OF STREAM - NO ACTION RAIX .SSAB,02 SRNA STREAM ABORTED - NO ACTION RAIX .SICR,02 SRNA ICMD RESPONSE - NO ACTION RAIX .SICI,00 SRLE ICMD ISSUED - DRIVER ERROR RAIX .SNCI,00 SRLE FRONT END COMMAND ISSUED - DRIVER ERROR RAIX .SRSI,00 SRLE RESET ISSUED - DRIVER ERROR RAIX .SARQ,00 SRLE APPLICATION REQUESTED - DRIVER ERROR RAIX .SMSR,00 SRLE MASS STORAGE REQUESTED - DRIVER ERROR RAIX .SMSC,00 SRLE MASS STORAGE COMPLETED - DRIVER ERROR RAIX .SMSE,00 SRLE MASS STORAGE EOI - DRIVER ERROR RAIX .SMER,00 SRLE MASS STORAGE ERROR - DRIVER ERROR RAIX .SFTE,00 SRLE END OF FILE TRANSFER - DRIVER ERROR RAIX .SFTR,00 SRLE TRANSFER MASS STORAGE ERROR - DRIVER ERROR RAIX .S7MS,03 S7IL CHECKMARK - LEVEL SEVEN ERROR RAIX .S7ES,03 S7IL END OF STREAM - LEVEL SEVEN ERROR RAIX .S7RR,03 S7IL REQUEST RESTART - LEVEL SEVEN ERROR RAIX .S7MR,03 S7IL CHECKMARK REPLY - LEVEL SEVEN ERROR RAIX .S7QR,03 S7IL QUIT - LEVEL SEVEN ERROR RAIX .S7CI,00 SRLE LEVEL SEVEN COMMAND ISSUED - DRIVER ERROR RAIX .STPS,00 SRLE TERMINATE PRU STREAM - DRIVER ERROR RAIX .SPST,00 SRLE PRU STREAM TERMINATED - DRIVER ERROR RAIX .SFEI,02 SRNA FRONT END INOPERATIVE - NO ACTION RAIX .SBPE,02 SRNA BLOCK PROTOCOL ERROR - NO ACTION RAIX .SL7E,02 SRNA LEVEL SEVEN ERROR - NO ACTION RAIX .SDLE,00 SRLE DRIVER LOGIC ERROR - DRIVER ERROR .LAST SET * LOC STSRT+.LAST **** BHSRP SPACE 2,10 ** BLOCK HANDLER STATE RESPONSE TABLE POINTERS. * * THE BLOCK HANDLER STATE RESPONSE TABLE POINTERS CONTAIN * A POINTER TO THE RESPONSE TABLE FOR EACH BLOCK HANDLER ** STATE. BHSRP BSS 0 BLOCK HANDLER STATE RESPONSE TABLE POINTERS LOC 0 BHS0 CON BHS0RT STATE 0 - SERVICE CHANNEL BHS1 CON BHS1RT STATE 1 - IVT STREAM BHS2 CON BHS2RT STATE 2 - PRU INPUT STREAM BHS3 CON BHS3RT STATE 3 - PRU OUTPUT STREAM BHS4 CON BHS4RT STATE 4 - INITIAL FRONT END STATE BHS5 CON BHS5RT STATE 5 - NPU INITIALIZATION REQUESTED BHS6 CON BHS6RT STATE 6 - LOAD NPU PROGRAM TEXT BHS7 CON BHS7RT STATE 7 - FRONT END OPERATIONAL BHS8 CON BHS8RT STATE 8 - FRONT END INOPERATIVE BHS9 CON BHS9RT STATE 9 - LOAD NPU BOOTSTRAP PROGRAM BHS10 CON BHS10RT STATE 10 - ISSUE CE ERROR MESSAGE BHS11 CON BHS11RT STATE 11 - ISSUE REGULATION LEVEL ZERO BHS12 CON BHS12RT STATE 12 - WAIT REGULATION ZERO RESPONSE BHS13 CON BHS13RT STATE 13 - ISSUE REGULATION LEVEL ZERO BHS14 CON BHS14RT STATE 14 - WAIT REGULATION ZERO RESPONSE BHS15 CON BHS15RT STATE 15 - ISSUE FRONT END TURNED OFF BHS16 CON BHS16RT STATE 16 - BOOTSRAP LOAD TIMEOUT BHS17 CON BHS17RT STATE 17 - ISSUE REGULATION LEVEL ZERO BHS18 CON BHS18RT STATE 18 - WAIT REGULATION ZERO RESPONSE BHS19 CON BHS19RT STATE 19 - ISSUE REGULATION LEVEL ZERO BHS20 CON BHS20RT STATE 20 - WAIT REGULATION ZERO RESPONSE BHS21 CON BHS21RT STATE 21 - ISSUE REGULATION LEVEL ZERO BHS22 CON BHS22RT STATE 22 - WAIT REGULATION ZERO RESPONSE BHS23 CON BHS23RT STATE 23 - REQUEST MDI INITIALIZATION BHS24 CON BHS24RT STATE 24 - CHECK MDI AVAILABLE BHS25 CON BHS25RT STATE 25 - RETURN MDI EQUIPMENT BHS26 CON BHS26RT STATE 26 - ISSUE CE ERROR MESSAGE BHS27 CON BHS27RT STATE 27 - ISSUE CE ERROR MESSAGE .LAST SET * LOC BHSRP+.LAST SSRP SPACE 2,10 ** STREAM STATE RESPONSE TABLE POINTERS. * * THE STREAM STATE RESPONSE TABLE POINTERS CONTAIN A ** POINTER TO THE RESPONSE TABLE FOR EACH STREAM STATE. SSRP BSS 0 STREAM STATE RESPONSE TABLE POINTERS LOC 0 STS0 RAIL STATE 0 - IVT CONNECTION STS1 RAIL STATE 1 - INITIAL PRU STREAM STATE STS2 RAIL STATE 2 - PRU INPUT STREAM IDLE STS3 RAIL STATE 3 - ISSUE START PRU INPUT STREAM STS4 RAIL STATE 4 - WAIT JOB CARD RECORD STS5 RAIL STATE 5 - REQUEST JOB VALIDATION STS6 RAIL STATE 6 - WAIT JOB VALIDATION STS7 RAIL STATE 7 - REQUEST MASS STORAGE OUTPUT STS8 RAIL STATE 8 - WAIT MASS STORAGE COMPLETE STS9 RAIL STATE 9 - PRU INPUT ACTIVE STS10 RAIL STATE 10 - EOI WRITTEN TO MASS STORAGE STS11 RAIL STATE 11 - STREAM STOPPED EXTERNALLY STS12 RAIL STATE 12 - ISSUE RESTART PRU INPUT STREAM STS13 RAIL STATE 13 - ISSUE ABORT PRU INPUT STREAM STS14 RAIL STATE 14 - WAIT INPUT STREAM ABORTED STS15 RAIL STATE 15 - REPORT INTERNAL STREAM STOPPED STS16 RAIL STATE 16 - WAIT END OF INFORMATION STS17 RAIL STATE 17 - ISSUE START PRU INPUT STREAM STS18 RAIL STATE 18 - ISSUE FILE TRANSFER ON STS19 RAIL STATE 19 - TRANSFER START DATA REPLY STS20 RAIL STATE 20 - END OF INBOUND FILE TRANSFER STS21 RAIL STATE 21 - WAIT END OF STREAM STS22 RAIL STATE 22 - TRANSFER CHECKMARK REPLY STS23 RAIL STATE 23 - PRU OUTPUT STREAM IDLE STS24 RAIL STATE 24 - ISSUE COMMAND TO FRONT END STS25 RAIL STATE 25 - WAIT COMMAND ACKNOWLEDGMENT STS26 RAIL STATE 26 - ISSUE DIRECT OUTPUT TO FRONT END STS27 RAIL STATE 27 - DIRECT OUTPUT ACTIVE STS28 RAIL STATE 28 - WAIT NO OUTPUT ACTIVITY STS29 RAIL STATE 29 - PRU OUTPUT ACTIVE STS30 RAIL STATE 30 - REQUEST MASS STORAGE INPUT STS31 RAIL STATE 31 - WAIT MASS STORAGE COMPLETE STS32 RAIL STATE 32 - ISSUE PRU OUTPUT TO FRONT END STS33 RAIL STATE 33 - ISSUE LAST PRU OUTPUT TO FE STS34 RAIL STATE 34 - WAIT EOI DELIVERED STS35 RAIL STATE 35 - ISSUE EOJ DIRECT OUTPUT TO FE STS36 RAIL STATE 36 - WAIT EOI DELIVERED STS37 RAIL STATE 37 - WAIT MASS STORAGE COMPLETE STS38 RAIL STATE 38 - ISSUE PRU OUTPUT TO FRONT END STS39 RAIL STATE 39 - STREAM STOPPED EXTERNALLY STS40 RAIL STATE 40 - ISSUE LAST PRU OUTPUT TO FE STS41 RAIL STATE 41 - WAIT NO OUTPUT ACTIVITY STS42 RAIL STATE 42 - REPORT OUTPUT STREAM STOPPED STS43 RAIL STATE 43 - STREAM STOPPED BY APPLICATION STS44 RAIL STATE 44 - REPORT INTERNAL STREAM STOPPED STS45 RAIL STATE 45 - STREAM STOPPED INTERNALLY STS46 RAIL STATE 46 - REPORT INTERNAL STREAM STOPPED STS47 RAIL STATE 47 - ISSUE COMMAND TO FRONT END STS48 RAIL STATE 48 - ISSUE RESTART ICMD TO FRONT END STS49 RAIL STATE 49 - WAIT ICMD RESPONSE STS50 RAIL STATE 50 - ISSUE ABORT ICMD TO FRONT END STS51 RAIL STATE 51 - WAIT ICMD RESPONSE STS52 RAIL STATE 52 - WAIT ABORT STREAM DELIMITER STS53 RAIL STATE 53 - ISSUE ABORT STREAM DELIMITER STS54 RAIL STATE 54 - WAIT OUTPUT STREAM ABORTED STS55 RAIL STATE 55 - ISSUE LAST PRU OUTPUT TO FE STS56 RAIL STATE 56 - WAIT NO OUTPUT ACTIVITY STS57 RAIL STATE 57 - END OF OUTBOUND FILE TRANSFER STS58 RAIL STATE 58 - NOT USED STS59 RAIL STATE 59 - REPORT FILE TRANSFER ERROR STS60 RAIL STATE 60 - REPORT MASS STORAGE ERROR STS61 RAIL STATE 61 - CHECK IMMEDIATE WORKLIST QUEUE STS62 RAIL STATE 62 - TERMINATE PRU STREAM STS63 RAIL STATE 63 - PRU STREAM TERMINATED .LAST SET * LOC SSRP+.LAST IIT SPACE 2,12 ** INPUT INITIATOR RESPONSE TABLE. * * THE INPUT INITIATOR RESPONSE TABLE CONTAINS AN ENTRY * FOR EACH POSSIBLE INPUT ORDER CODE RECEIVED FROM THE * FRONT END. THE TABLE ENTRY CONTAINS THE ADDRESS OF THE ** INPUT INITIATOR ACTION FOR THAT TYPE OF INPUT. IIT BSS 0 INPUT INITIATOR RESPONSE ACTION TABLE QUAL NSTATUS LOC IAS BIC BSS 0 DEFINE BEGINNING INPUT ORDER CODE IAS CON /ACTIONS/IISI SMALL IVT INPUT AVAILABLE - CHECK SPACE IAL CON /ACTIONS/IILI LARGE IVT INPUT AVAILABLE - CHECK SPACE IAP CON /ACTIONS/IIPI PRU INPUT AVAILABLE - CHECK FOR BUFFER EIC BSS 0 DEFINE ENDING INPUT ORDER CODE QUAL * .LAST SET *-/NSTATUS/IAS LOC IIT+.LAST IOIT SPACE 2,14 ** IVT OUTPUT INITIATOR RESPONSE TABLE. * * THE IVT OUTPUT INITIATOR RESPONSE TABLE CONTAINS AN * ENTRY FOR EACH POSSIBLE OUTPUT BLOCK SENT TO THE FRONT * END. THE TABLE ENTRY CONTAINS THE ACTION ORDINAL OF * THE ACTION THAT WILL BE EXECUTED AND A CONTROL CODE. * THE CONTROL CODE SPECIFIES THE BLOCK HANDLER STATE ** ACTION THAT WILL BE EXECUTED FOR THE OUTPUT. IOIT BSS 0 IVT OUTPUT INITIATOR RESPONSE ACTION TABLE QUAL BLOCK .STATE SET 0 LOC 0 RESP OINO NULL CALL - SET NO OUTPUT REQUIRED BLK RESP OIOD,/TABLES/.ODAT BLOCK - VALIDATE TEXT LENGTH MSG RESP OIOD,/TABLES/.ODAT MESSAGE - VALIDATE TEXT LENGTH BACK RESP OIOH,/TABLES/.OTXT BACK - VALIDATE TEXT LENGTH CMD RESP OIOC,/TABLES/.OTXT COMMAND - CHECK DESTINATION NODE BRK RESP OIOT,/TABLES/.OTXT BREAK - VALIDATE TEXT LENGTH QBLK RESP OIOD,/TABLES/.ODAT Q-BLOCK - VALIDATE TEXT LENGTH QMSG RESP OIOD,/TABLES/.ODAT Q-MESSAGE - VALIDATE TEXT LENGTH RST RESP OIOH,/TABLES/.OTXT RESET - VALIDATE TEXT LENGTH INITR RESP OIOH,/TABLES/.OTXT INIT REQUEST - VALIDATE TEXT LENGTH INITN RESP OIOH,/TABLES/.OTXT INIT RESPONSE - VALIDATE TEXT LENGTH TERM RESP OIOH,/TABLES/.OTXT TERMINATE - VALIDATE TEXT LENGTH ICMD RESP OIOT,/TABLES/.OICM ICMD - VALIDATE TEXT LENGTH ICMDR RESP OIOH,/TABLES/.OICR ICMD RESPONSE - VALIDATE TEXT LENGTH QUAL * .LAST SET * LOC IOIT+.LAST POIT SPACE 2,14 ** PRU OUTPUT INITIATOR RESPONSE TABLE. * * THE PRU OUTPUT INITIATOR RESPONSE TABLE CONTAINS AN * ENTRY FOR EACH POSSIBLE OUTPUT BLOCK SENT TO THE FRONT * END. THE TABLE ENTRY CONTAINS THE ACTION ORDINAL OF * THE ACTION THAT WILL BE EXECUTED AND A CONTROL CODE. * THE CONTROL CODE SPECIFIES THE BLOCK HANDLER STATE ** ACTION THAT WILL BE EXECUTED FOR THE OUTPUT. POIT BSS 0 PRU OUTPUT INITIATOR RESPONSE ACTION TABLE QUAL BLOCK LOC 0 RESP OIIL NULL CALL - DRIVER ERROR BLK RESP OIIL BLOCK - DRIVER ERROR MSG RESP OIOF,/TABLES/.ODAT MESSAGE - CHECK FLOW CONTROL BACK RESP OIOB,/TABLES/.OBCK BACK - CALCULATE BLOCK SERIAL NUMBER CMD RESP OIOF,/TABLES/.OCMD COMMAND - CHECK FLOW CONTROL BRK RESP OIIL BREAK - DRIVER ERROR QBLK RESP OIIL Q-BLOCK - DRIVER ERROR QMSG RESP OIOF,/TABLES/.OL7Q Q-MESSAGE - CHECK FLOW CONTROL RST RESP OIRS,/TABLES/.ORST RESET - CALCULATE OUTPUT ORDER WORD INITR RESP OIIL INIT REQUEST - DRIVER ERROR INITN RESP OIIL INIT RESPONSE - DRIVER ERROR TERM RESP OIIL TERMINATE - DRIVER ERROR ICMD RESP OIIC,/TABLES/.OICM ICMD - CALCULATE OUTPUT ORDER WORD ICMDR RESP OIIL ICMD RESPONSE - DRIVER ERROR QUAL * .LAST SET * LOC POIT+.LAST VMP SPACE 2,14 ** OUTPUT VALIDATION ACTION PROCESSOR TABLE. * * THE OUTPUT VALIDATION ACTION PROCESSOR TABLE CONTAINS * AN ENTRY FOR EACH POSSIBLE APPLICATION CHARACTER TYPE. * THE TABLE ENTRY CONTAINS THE ADDRESS OF THE ACTION * PROCESSOR RESPONSIBLE FOR VALIDATING THE OUTPUT REQUEST * FOR THE APPLICATION CHARACTER TYPE. A TABLE ENTRY OF ** ZERO INDICATES AN INVALID APPLICATION CHARACTER TYPE. VMP BSS 0 IVT OUTPUT VALIDATION PROCESSOR TABLE LOC 0 CON 0 INVALID APPLICATION CHARACTER TYPE CON 0 INVALID APPLICATION CHARACTER TYPE PEB CON VPEB VALIDATE PACKED EIGHT BIT DATA UEB CON VUEB VALIDATE UNPACKED EIGHT BIT DATA DSB CON VDSB VALIDATE DISPLAY CODE DATA CON 0 INVALID APPLICATION CHARACTER TYPE CON 0 INVALID APPLICATION CHARACTER TYPE CON 0 INVALID APPLICATION CHARACTER TYPE CON 0 INVALID APPLICATION CHARACTER TYPE CON 0 INVALID APPLICATION CHARACTER TYPE CON 0 INVALID APPLICATION CHARACTER TYPE CON 0 INVALID APPLICATION CHARACTER TYPE CON 0 INVALID APPLICATION CHARACTER TYPE CON 0 INVALID APPLICATION CHARACTER TYPE CON 0 INVALID APPLICATION CHARACTER TYPE CON 0 INVALID APPLICATION CHARACTER TYPE PCT BSS 0 PRU OUTPUT VALIDATION PROCESSOR TABLE D26 CON VDSP VALIDATE DISPLAY CODE O26 D29 CON VDSP VALIDATE DISPLAY CODE O29 ASC CON VASP VALIDATE ASCII T6B CON VSBP VALIDATE TRANSPARENT SIX BIT T8B CON VEBP VALIDATE TRANSPARENT EIGHT BIT MAXOFM EQU *-PCT DEFINE MAXIMUM OUTPUT FILE MODE P8B CON VPEP VALIDATE PACKED EIGHT BIT .LAST SET * LOC VMP+.LAST IIBR SPACE 2,14 ** IVT INPUT BLOCK RESPONSE TABLE. * * THE IVT INPUT BLOCK RESPONSE TABLE CONTAINS AN ENTRY * FOR EACH POSSIBLE INPUT BLOCK RECEIVED FROM THE FRONT * END. THE TABLE ENTRY CONTAINS THE ACTION ORDINAL OF * THE ACTION THAT WILL BE EXECUTED AND A CONTROL CODE. * THE CONTROL CODE SPECIFIES THE BLOCK HANDLER STATE ** ACTION THAT WILL BE EXECUTED FOR THE INPUT. IIBR BSS 0 IVT INPUT BLOCK RESPONSE TABLE QUAL BLOCK .STATE SET 0 LOC 0 RESP IBIL UNDEFINED - BLOCK PROTOCOL ERROR BLK RESP IBNA,/TABLES/.IDAT BLOCK - NO ACTION MSG RESP IBNA,/TABLES/.IDAT MESSAGE - NO ACTION BACK RESP IBNA,/TABLES/.IBCK BACK - GENERATE EXTRA CM WORD CMD RESP IBNA,/TABLES/.ITXT COMMAND - NO ACTION BRK RESP IBNA,/TABLES/.ITXT BREAK - NO ACTION QBLK RESP IBNA,/TABLES/.IDAT Q-BLOCK - NO ACTION QMSG RESP IBNA,/TABLES/.IDAT Q-MESSAGE - NBO ACTION RST RESP IBNA,/TABLES/.INTX RESET - NO ACTION INITR RESP IBNA,/TABLES/.INTX INIT REQUEST - NO ACTION INITN RESP IBNA,/TABLES/.INTX INIT RESPONSE - NO ACTION TERM RESP IBNA,/TABLES/.INTX TERMINATE - NO ACTION ICMD RESP IBNA,/TABLES/.IICM ICMD - NO ACTION ICMDR RESP IBNA,/TABLES/.IICR ICMD RESPONSE - NO ACTION QUAL * .LAST SET * LOC IIBR+.LAST PIBR SPACE 2,14 ** PRU INPUT BLOCK RESPONSE TABLE. * * THE PRU INPUT BLOCK RESPONSE TABLE CONTAINS AN ENTRY * FOR EACH POSSIBLE INPUT BLOCK RECEIVED FROM THE FRONT * END. THE TABLE ENTRY CONTAINS THE ACTION ORDINAL OF * THE ACTION THAT WILL BE EXECUTED AND A CONTROL CODE. * THE CONTROL CODE SPECIFIES THE BLOCK HANDLER STATE ** ACTION THAT WILL BE EXECUTED FOR THE INPUT. PIBR BSS 0 PRU INPUT BLOCK RESPONSE TABLE QUAL BLOCK LOC 0 RESP IBIL UNDEFINED - BLOCK PROTOCOL ERROR BLK RESP IBFF,/TABLES/.IDAT BLOCK - CHECK FILE TRANSFER OFF MSG RESP IBIF,/TABLES/.IDAT MESSAGE - CHECK BLOCK SERIAL NUMBER BACK RESP IBIB,/TABLES/.IBCK BACK - CHECK BACK EXPECTED CMD RESP IBIF,/TABLES/.ICMD COMMAND - CHECK BLOCK SERIAL NUMBER BRK RESP IBPB BREAK - CHECK BREAK FORMAT QBLK RESP IBIL Q-BLOCK - BLOCK PROTOCOL ERROR QMSG RESP IBIF,/TABLES/.IL7Q Q-MESSAGE - CHECK BLOCK NUMBER RST RESP IBIL RESET - BLOCK PROTOCOL ERROR INITR RESP IBIL INIT REQUEST - BLOCK PROTOCOL ERROR INITN RESP IBIL INIT RESPONSE - BLOCK PROTOCOL ERROR TERM RESP IBIL TERMINATE - BLOCK PROTOCOL ERROR ICMD RESP IBIL ICMD - BLOCK PROTOCOL ERROR ICMDR RESP IBNA,/TABLES/.IICR ICMD RESPONSE - NO ACTION QUAL * .LAST SET * LOC PIBR+.LAST OBR SPACE 2,12 ** OUTPUT BLOCK RESPONSE TABLE. * * THE OUTPUT BLOCK RESPONSE TABLE CONTAINS AN ENTRY FOR * EACH POSSIBLE OUTPUT BLOCK SENT TO THE FRONT END. THE * TABLE ENTRY CONTAINS THE ADDRESS OF THE OUTPUT BLOCK ** RESPONSE ACTION FOR THAT TYPE OF OUTPUT. OBR BSS 0 OUTPUT BLOCK RESPONSE TABLE QUAL BLOCK LOC 0 CON /ACTIONS/OBIL UNDEFINED - DRIVER ERROR BLK CON /ACTIONS/OBTH BLOCK - TRANSFER BLOCK HEADER MSG CON /ACTIONS/OBTH MESSAGE - TRANSFER BLOCK HEADER BACK CON /ACTIONS/OBTH BACK - TRANSFER BLOCK HEADER CMD CON /ACTIONS/OBTH COMMAND - TRANSFER BLOCK HEADER BRK CON /ACTIONS/OBTH BREAK - TRANSFER BLOCK HEADER QBLK CON /ACTIONS/OBTH Q-BLOCK - TRANSFER BLOCK HEADER QMSG CON /ACTIONS/OBTH Q-MESSAGE - TRANSFER BLOCK HEADER RST CON /ACTIONS/OBTH RESET - TRANSFER BLOCK HEADER INITR CON /ACTIONS/OBTH INIT REQUEST - TRANSFER BLOCK HEADER INITN CON /ACTIONS/OBTH INIT RESPONSE - TRANSFER BLOCK HEADER TERM CON /ACTIONS/OBTH TERMINATE - TRANSFER BLOCK HEADER ICMD CON /ACTIONS/OBTH ICMD - TRANSFER BLOCK HEADER ICMDR CON /ACTIONS/OBTH ICMD RESPONSE - TRANSFER BLOCK HEADER QUAL * .LAST SET * LOC OBR+.LAST NICR SPACE 2,14 ** IVT OUTPUT COMMAND RESPONSE TABLE. * * THE IVT OUTPUT COMMAND RESPONSE TABLE CONTAINS AN ENTRY * FOR EACH COMMAND THAT CAN BE SENT TO A FRONT END ON * AN IVT STREAM THAT MUST BE PROCESSED BY THE DRIVER. * THE CONTENTS OF THE TABLE ENTRY IS THE BLOCK HANDLER * STATE RESPONSE ACTION THAT WILL BE EXECUTED FOR THE ** COMMAND. NICR BSS 0 IVT OUTPUT COMMAND RESPONSE TABLE LOC 0 CGRL CON .CGRL CHANGE FRONT END REGULATION LEVEL CON .RGZR ZERO REGULATION LEVEL RESPONSE OVER(0) CON .CMPT DUMP NPU - PASS COMMAND THROUGH OVER(1) CON .LDNP LOAD FRONT END NPU OVER(2) CON .CMPT PASS THROUGH OVERLAY COMMAND OVER(3) CON .CMPT PASS THROUGH OVERLAY COMMAND OVER(4) CON .STNP START FRONT END NPU OVMX BSS 0 DEFINE MAXIMUM OVERLAY COMMAND ORDINAL .LAST SET * LOC NICR+.LAST NIOR SPACE 2,16 ** IVT OUTPUT COMMAND PROCESSOR TABLE. * * THE IVT OUTPUT COMMAND PROCESSOR TABLE CONTAINS AN * ENTRY FOR EACH COMMAND THAT CAN BE SENT TO A FRONT END * ON AN IVT STREAM THAT MUST BE PROCESSED BY THE DRIVER. * THE TABLE ENTRY CONTAINS THE ACTION ORDINAL OF THE * ACTION THAT WILL BE EXECUTED AND A CONTROL CODE. IF * THE CONTROL CODE IS NOT ZERO IT SPECIFIES THE OVERLAY * ORDINAL OF THE OVERLAY THAT CONTAINS THE ACTION ** PROCESSOR FOR THE COMMAND. NIOR BSS 0 IVT OUTPUT COMMAND PROCESSOR TABLE LOC 0 CGRL CMDACT COCN,3IP CHANGE FRONT END REGULATION LEVEL CMDACT CODE,3IP ZERO REGULATION LEVEL RESPONSE OVER(0) CMDACT CODE,3IP DUMP NPU - NO DRIVER PROCESSING OVER(1) CMDACT COLN,3IQ LOAD FRONT END NPU (BOOTSTRAP) OVER(2) CMDACT CODE,3IP UNDEFINED OVERLAY COMMAND OVER(3) CMDACT CODE,3IP UNDEFINED OVERLAY COMMAND OVER(4) CMDACT COSN,3IQ START FRONT END NPU INTERNALLY GENERATED COMMANDS LLNP CMDACT COLL,5IQ GENERATE LOAD LOCAL NPU REQUEST LBNP CMDACT COLB,5IQ GENERATE LOAD LOCAL NPU BOOTSTRAP REQUEST RIMD CMDACT COIM,3IL GENERATE REQUEST MDI INITIALIZATION STR0 CMDACT COR0,5IQ GENERATE REGULATION LEVEL ZERO RQRL CMDACT CORS,5IQ REQUEST REGULATION LEVEL FROM NAM FETO CMDACT CONO,3IL GENERATE FRONT END TURNED OFF BLTO CMDACT COLT,5IQ BOOTSTRAP LOAD TIMEOUT - GENERATE COMMAND CEER CMDACT COCE,5IQ ERROR DETECTED - GENERATE CE ERROR MESSAGE .LAST SET * LOC NIOR+.LAST NIOE SPACE 2,16 ** IVT OUTPUT COMMAND ERROR PROCESSOR TABLE. * * THE IVT OUTPUT COMMAND ERROR PROCESSOR TABLE CONTAINS * AN ENTRY FOR EACH COMMAND THAT CAN BE SENT TO A FRONT * END ON AN IVT STREAM THAT MUST BE PROCESSED BY THE * DRIVER. THE TABLE ENTRY CONTAINS THE ACTION ORDINAL OF * THE ACTION THAT WILL BE EXECUTED AND A CONTROL CODE. * IF THE CONTROL CODE IS NOT ZERO IT SPECIFIES THE * OVERLAY ORDINAL OF THE OVERLAY THAT CONTAINS THE ACTION ** PROCESSOR FOR THE COMMAND. NIOE BSS 0 IVT OUTPUT COMMAND ERROR PROCESSOR TABLE LOC 0 CGRL CMDACT CODE,3IP CHANGE FRONT END REGULATION LEVEL CMDACT CODE,3IP ZERO REGULATION LEVEL RESPONSE OVER(0) CMDACT CODE,3IP DUMP NPU - NO DRIVER PROCESSING OVER(1) CMDACT COOE,4IQ LOAD FRONT END NPU (BOOTSTRAP) OVER(2) CMDACT COOE,4IQ UNDEFINED OVERLAY COMMAND OVER(3) CMDACT COOE,4IQ UNDEFINED OVERLAY COMMAND OVER(4) CMDACT COOE,4IQ START FRONT END NPU .LAST SET * LOC NIOE+.LAST NIOC SPACE 2,14 ** IVT OUTPUT COMMAND MESSAGE TABLE. * * THE IVT OUTPUT COMMAND MESSAGE TABLE CONTAINS AN ENTRY * FOR EACH COMMAND THAT CAN BE SENT TO A FRONT END ON * AN IVT STREAM THAT MUST BE PROCESSED BY THE DRIVER. * THE ENTRY IDENTIFIES THE PRIMARY AND SECONDARY FUNCTION * CODES OF THE COMMAND AND THE POSITION IN THE TABLE * LOCATES THE COMMAND PROCESSOR TABLE ENTRY RESPONSIBLE ** FOR PROCESSING THE COMMAND. NIOC BSS 0 IVT OUTPUT COMMAND MESSAGE TABLE LOC 0 CGRL OUTCMD 1,5 CHANGE FRONT END REGULATION LEVEL OUTCMD 1,5 ZERO REGULATION LEVEL RESPONSE OVER OUTCMD A,D OVERLAY REQUEST CON 0 TERMINATE IVT OUTPUT COMMAND MESSAGE TABLE BSSZ LLNP-* FILL INTERNALLY GENERATED COMMANDS LLNP OUTCMD A,A LOAD LOCAL NPU REQUEST LBNP OUTCMD A,A LOAD LOCAL NPU BOOTSTRAP REQUEST RIMD OUTCMD 6,0 REQUEST MDI INITIALIZATION STRO OUTCMD 1,5 REGULATION LEVEL ZERO RQRL OUTCMD 1,2 REQUEST REGULATION LEVEL FROM NAM FETO OUTCMD 8,0 FRONT END TURNED OFF BLTO OUTCMD 9,0 BOOTSTRAP LOAD TIMEOUT CEER OUTCMD 7,5 CE ERROR MESSAGE COMMAND .LAST SET * LOC NIOC+.LAST AWLCMD SPACE 2,14 ** PRU APPLICATION WORKLIST COMMAND MESSAGE TABLE. * * THE PRU APPLICATION WORKLIST COMMAND MESSAGE TABLE * CONTAINS AN ENTRY FOR EACH APPLICATION WORKLIST COMMAND * THAT CAN BE SENT TO THE DRIVER. THE TABLE ENTRY * IDENTIFIES THE PRIMARY AND SECONDARY FUNCTION CODES OF * THE COMMAND AND THE POSITION IN THE TABLE LOCATES THE * WORKLIST PROCESSOR TABLE ENTRY RESPONSIBLE FOR ** PROCESSING THE WORKLIST. AWLCMD BSS 0 APPLICATION WORKLIST COMMAND MESSAGE TABLE LOC 0 SITR INCMD F0,0 START TRANSPARENT INPUT SINT INCMD F0,5 START NON-TRANSPARENT INPUT RSIN INCMD F0,2 RESTART INPUT ABIN INCMD F0,3 ABORT INPUT JBVL INCMD F0,4 JOB VALIDATED BYIN INCMD F0,6 BYPASS INPUT STOT INCMD F1,6 START OUTPUT SPOT INCMD F1,5 STOP OUTPUT RSOT INCMD F1,2 RESTART OUTPUT ABOT INCMD F1,3 ABORT OUTPUT ASOM INCMD F1,8 ABORT OUTPUT DATA MARKER DORQ INCMD F1,1 DIRECT OUTPUT REQUEST EORQ INCMD F1,1 END OF JOB DIRECT OUTPUT REQUEST RSMO INCMD F1,4 RESUME OUTPUT SOFC INCMD F2,1 SET OUTPUT FILE CHARACTERISTICS SODC INCMD F2,2 SET OUTPUT DEVICE CHARACTERISTICS SIFT INCMD F4,5 START INBOUND FILE TRANSFER SOFT INCMD F5,5 START OUTBOUND FILE TRANSFER TPRU BSS 0 TERMINATE PRU STREAM CON 0 TERMINATE COMMAND TABLE DWLCMD SPACE 2,14 ** DRIVER PRU WORKLIST COMMAND MESSAGE TABLE. * * THE DRIVER PRU WORKLIST COMMAND MESSAGE TABLE CONTAINS * AN ENTRY FOR EACH DRIVER WORKLIST COMMAND THAT CAN BE * SENT TO A PRU APPLICATION. THE TABLE ENTRY IDENTIFIES * THE PRIMARY AND SECONDARY FUNCTION CODES OF THE COMMAND * AND THE POSITION IN THE TABLE LOCATES THE WORKLIST * PROCESSOR TABLE ENTRY RESPONSIBLE FOR PROCESSING THE ** WORKLIST. DWLCMD BSS 0 DRIVER PRU WORKLIST COMMAND MESSAGE TABLE ISIN OUTCMD F0,7 INPUT STREAM STOPPED BATCH INTERRUPT ISSE OUTCMD F0,7 INPUT STREAM STOPPED EXTERNALLY ISSI OUTCMD F0,7 INPUT STREAM STOPPED INTERNALLY ISSA OUTCMD F0,3 INPUT STREAM ABORTED ISEJ OUTCMD F0,1 INPUT STREAM END OF JOB ISJV OUTCMD F0,4 INPUT STREAM REQUEST JOB VERIFICATION ISEN OUTCMD F0,7 INPUT STREAM END OF STREAM ISEB OUTCMD F0,6 INPUT STREAM END OF BYPASS OSAS OUTCMD F1,5 OUTPUT STREAM STOPPED BY APPLICATION OSSI OUTCMD F1,7 OUTPUT STREAM STOPPED INTERNALLY OSSE OUTCMD F1,7 OUTPUT STREAM STOPPED EXTERNALLY OSSA OUTCMD F1,3 OUTPUT STREAM ABORTED OSEJ OUTCMD F1,0 OUTPUT STREAM END OF JOB OSDA OUTCMD F1,1 DIRECT OUTPUT ACKNOWLEDGMENT L7MS OUTCMD 0,0 LEVEL SEVEN CHECKMARK - NO WORKLIST L7ET OUTCMD F4,0 LEVEL SEVEN END OF TRANSFER L7ES OUTCMD F7,0 LEVEL SEVEN END OF STREAM L7ER OUTCMD F6,0 LEVEL SEVEN ERROR REPORTED L7MR OUTCMD 0,0 LEVEL SEVEN CHECKMARK REPLY - NO WORKLIST L7EI OUTCMD F4,6 LEVEL SEVEN END OF INBOUND FILE L7EO OUTCMD F5,6 LEVEL SEVEN END OF OUTBOUND FILE .LAST SET * LOC AWLCMD+.LAST AWLPT SPACE 2,16 ** PRU APPLICATION WORKLIST COMMAND PROCESSOR TABLE. * * THE PRU APPLICATION WORKLIST COMMAND PROCESSOR TABLE * CONTAINS AN ENTRY FOR EACH APPLICATION WORKLIST COMMAND * THAT CAN BE SENT TO THE DRIVER. THE TABLE ENTRY * CONTAINS THE ACTION ORDINAL OF THE ACTION THAT WILL BE * EXECUTED AND A CONTROL CODE. IF THE CONTROL CODE IS * NOT ZERO IT SPECIFIES THE OVERLAY ORDINAL OF THE * OVERLAY THAT CONTAINS THE ACTION PROCESSOR FOR THE ** WORKLIST. AWLPT BSS 0 APPLICATION WORKLIST PROCESSOR TABLE LOC 0 SITR CMDACT SPWL,4IQ START TRANSPARENT INPUT SINT CMDACT ACWL,4IQ START NON-TRANSPARENT INPUT RSIN CMDACT ACWL,4IQ RESTART INPUT ABIN CMDACT ACWL,4IQ ABORT INPUT JBVL CMDACT JVWL,4IQ JOB VALIDATED BYIN CMDACT ACWL,4IQ BYPASS INPUT STOT CMDACT SPWL,4IQ START OUTPUT SPOT CMDACT ACWL,4IQ STOP OUTPUT RSOT CMDACT ARWL,4IQ RESTART OUTPUT ABOT CMDACT ACWL,4IQ ABORT OUTPUT ASOM CMDACT ACWL,4IQ ABORT OUTPUT DATA MARKER DORQ CMDACT DOWL,4IQ DIRECT OUTPUT REQUEST EORQ CMDACT ERWL,2IP END OF JOB DIRECT OUTPUT REQUEST RSMO CMDACT ARWL,4IQ RESUME OUTPUT SOFC CMDACT ACWL,4IQ SET OUTPUT FILE CHARACTERISTICS SODC CMDACT ACWL,4IQ SET OUTPUT DEVICE CHARACTERISTICS SIFT CMDACT SPWL,4IQ START INBOUND FILE TRANSFER SOFT CMDACT SPWL,4IQ START OUTBOUND FILE TRANSFER TPRU CMDACT ACWL,4IQ TERMINATE PRU STREAM DWLPT SPACE 2,16 ** DRIVER PRU WORKLIST COMMAND PROCESSOR TABLE. * * THE DRIVER PRU WORKLIST COMMAND PROCESSOR TABLE * CONTAINS AN ENTRY FOR EACH DRIVER WORKLIST COMMAND * THAT CAN BE SENT TO A PRU APPLICATION. THE TABLE * ENTRY CONTAINS THE ACTION ORDINAL OF THE ACTION THAT * WILL BE EXECUTED AND A CONTROL CODE. IF THE CONTROL * CODE IS NOT ZERO IT SPECIFIES THE OVERLAY ORDINAL OF * THE OVERLAY THAT CONTAINS THE ACTION PROCESSOR FOR ** THE WORKLIST. DWLPT BSS 0 DRIVER WORKLIST PROCESSOR TABLE ISIN CMDACT BIWL,2IP INPUT STREAM STOPPED BATCH INTERRUPT ISSE CMDACT ISWL,2IP INPUT STREAM STOPPED EXTERNALLY ISSI CMDACT IEWL,2IP INPUT STREAM STOPPED INTERNALLY ISSA CMDACT AJWL,2IP INPUT STREAM ABORTED ISEJ CMDACT EJWL,2IP INPUT STREAM END OF JOB ISJV CMDACT RJVL,3IP INPUT STREAM REQUEST JOB VERIFICATION ISEN CMDACT ISWL,2IP INPUT STREAM END OF STREAM ISEB CMDACT ERWL,2IP INPUT STREAM END OF BYPASS OSAS CMDACT OSWL,2IP OUTPUT STREAM STOPPED BY APPLICATION OSSI CMDACT OEWL,2IP OUTPUT STREAM STOPPED INTERNALLY OSSE CMDACT ERWL,2IP OUTPUT STREAM STOPPED EXTERNALLY OSSA CMDACT ERWL,2IP OUTPUT STREAM ABORTED OSEJ CMDACT ERWL,2IP OUTPUT STREAM END OF JOB OSDA CMDACT OAWL,2IP DIRECT OUTPUT ACKNOWLEDGMENT L7MS CMDACT WLMS,4IQ LEVEL SEVEN CHECKMARK L7ET CMDACT FTRF,2IP LEVEL SEVEN END OF TRANSFER L7ES CMDACT WLES,2IO LEVEL SEVEN END OF STREAM L7ER CMDACT WLER,2IO LEVEL SEVEN ERROR REPORTED L7MR CMDACT ERWL,2IP LEVEL SEVEN CHECKMARK REPLY L7EI CMDACT EFWL,2IP LEVEL SEVEN END OF INBOUND FILE L7EO CMDACT EFWL,2IP LEVEL SEVEN END OF OUTBOUND FILE .LAST SET * LOC AWLPT+.LAST DWLCTL SPACE 2,14 ** DRIVER WORKLIST COMMAND CONTROL TABLE. * * THE DRIVER WORKLIST COMMAND CONTROL TABLE CONTAINS AN * ENTRY FOR EACH COMMAND THAT CAN BE RECEIVED FROM THE * FRONT END ON A PRU STREAM. THE TABLE ENTRY CONTAINS * THE APPLICATION SUPERVISORY MESSAGE COMMAND ORDINAL AND * THE STREAM STATE ACTION ORDINAL RESPONSIBLE FOR ** INITIATING THE APPLICATION SUPERVISORY MESSAGE. DWLCTL BSS 0 DRIVER WORKLIST COMMAND CONTROL TABLE LOC 0 ISBI CTL ISIN,.SCMQ INPUT STOPPED - BATCH INTERRUPT ISSC CTL ISSE,.SCMQ INPUT STOPPED - SLIPPED CARD ISES CTL ISEN,.SCMQ INPUT STOPPED - END OF STREAM ISDN CTL ISSE,.SCMQ INPUT STOPPED - DEVICE NOT READY OSBI CTL OSSE,.SSBI OUTPUT STOPPED - BATCH INTERRUPT OSPM CTL OSSE,.SSTP OUTPUT STOPPED - PM MESSAGE OSFL CTL OSSE,.SSTP OUTPUT STOPPED - FILE LIMIT EXCEEDED OSDN CTL OSSE,.SSTP OUTPUT STOPPED - DEVICE NOT READY OSNV CTL OSSE,.SSTP OUTPUT STOPPED - NO VFU FILE ADIN BSS 0 ACCOUNTING DATA FOR INPUT STREAMS ADEI CTL ISEJ,.SCMQ ACCOUNTING DATA - END OF INFORMATION ADTM CTL ISSA,.SCMQ ACCOUNTING DATA - TERMINATION ADOT BSS 0 ACCOUNTING DATA FOR OUTPUT STREAMS CTL OSEJ,.SEOI ACCOUNTING DATA - END OF INFORMATION CTL OSSA,.SSAB ACCOUNTING DATA - TERMINATION DWLL7C SPACE 2,14 ** DRIVER LEVEL SEVEN WORKLIST COMMAND CONTROL TABLE. * * THE DRIVER LEVEL SEVEN WORKLIST COMMAND CONTROL TABLE * CONTAINS AN ENTRY FOR EACH LEVEL SEVEN COMMAND THAT * IS RECEIVED BY THE DRIVER. THE TABLE ENTRY CONTAINS * THE APPLICATION SUPERVISORY MESSAGE COMMAND ORDINAL * AND THE STREAM STATE ACTION ORDINAL RESPONSIBLE FOR ** INITIATING THE APPLICATION SUPERVISORY MESSAGE. DWLL7C BSS 0 LEVEL SEVEN WORKLIST COMMAND CONTROL TABLE MSL7 CTL L7MS,.SCMQ CHECKMARK - MARK RESTARTABLE POSITION ESL7 CTL L7ES,.SCMQ STREAM STOPPED - SENDER REPORTING END CTL L7ER,.SCMQ STREAM STOPPED - SENDER REPORTING ERROR RRL7 CTL L7ER,.S7RR STREAM STOPPED - RECEIVER REQUESTS RESTART MRL7 CTL L7MR,.S7MR CHECKMARK REPLY - ACKNOWLEDGE CHECKMARK QRL7 CTL L7ER,.S7QR STREAM STOPPED - RECEIVER REPORTING ERROR .LAST SET * LOC DWLCTL+.LAST DWLQRT SPACE 2,16 ** DRIVER WORKLIST QUEUE RESPONSE TABLE. * * THE DRIVER WORKLIST QUEUE RESPONSE TABLE CONTAINS AN * ENTRY FOR EACH APPLICATION SUPERVISORY MESSAGE WORKLIST * THAT CAN BE QUEUED TO A PRU APPLICATION. THE CONTENTS * OF THE ENTRY IS THE STREAM STATE RESPONSE ACTION * ORDINAL OF THE RESPONSE ACTION THAT WILL COMPLETE THE ** WORKLIST PROCESSING. LOC *-DWLCMD DWLQRT BSS 0 DRIVER WORKLIST QUEUE RESPONSE TABLE LOC DWLCMD ISIN CON .SSBI INPUT STOPPED BATCH INTERRUPT ISSE CON .SSTP INPUT STREAM STOPPED EXTERNALLY ISSI CON .SSTP INPUT STREAM STOPPED INTERNALLY ISSA CON .SSAB INPUT STREAM ABORTED ISEJ CON .SEOI INPUT STREAM END OF JOB ISJV CON .SARQ INPUT STREAM REQUEST JOB VERIFICATION ISEN CON .SEND INPUT STREAM END OF STREAM ISEB CON .SEOI INPUT STREAM END OF BYPASS OSAS CON .SARQ OUTPUT STREAM STOPPED BY APPLICATION OSSI CON .SARQ OUTPUT STREAM STOPPED INTERNALLY OSSE CON .SDLE OUTPUT STREAM STOPPED EXTERNALLY - ILLEGAL OSSA CON .SDLE OUTPUT STREAM ABORTED - ILLEGAL OSEJ CON .SDLE OUTPUT STREAM ABORTED - ILLEGAL OSDA CON .SDLE DIRECT OUTPUT ACKNOWLEDGMENT - ILLEGAL L7MS CON .SDLE LEVEL SEVEN CHECKMARK - ILLEGAL L7ET CON .SARQ LEVEL SEVEN END OF TRANSFER L7ES CON .S7ES LEVEL SEVEN END OF STREAM L7ER CON .SARQ LEVEL SEVEN ERROR REPORTED L7MR CON .SDLE LEVEL SEVEN CHECKMARK REPLY - ILLEGAL L7EI CON .SARQ LEVEL SEVEN END OF INBOUND FILE L7EO CON .SARQ LEVEL SEVEN END OF OUTBOUND FILE .LAST SET * LOC DWLQRT+.LAST NPIC SPACE 2,14 ** PRU INBOUND COMMAND MESSAGE TABLE. * * THE PRU INBOUND COMMAND MESSAGE TABLE CONTAINS AN ENTRY * FOR EACH COMMAND THAT CAN BE RECEIVED FROM THE FRONT * END ON A PRU STREAM. THE ENTRY IDENTIFIES THE PRIMARY * AND SECONDARY FUNCTION CODES OF THE COMMAND AND THE * POSITION IN THE TABLE LOCATES THE COMMAND PROCESSOR ** TABLE ENTRY RESPONSIBLE FOR PROCESSING THE COMMAND. NPIC BSS 0 PRU INBOUND COMMAND MESSAGE TABLE LOC 0 ISBI INCMD C7,1 INPUT STOPPED - BATCH INTERRUPT ISSC INCMD C7,2 INPUT STOPPED - SLIPPED CARD ISES INCMD C7,3 INPUT STOPPED - END OF STREAM ISDN INCMD C7,4 INPUT STOPPED - DEVICE NOT READY OSBI INCMD C8,1 OUTPUT STOPPED - BATCH INTERRUPT OSPM INCMD C8,2 OUTPUT STOPPED - PM MESSAGE OSFL INCMD C8,3 OUTPUT STOPPED - FILE LIMIT EXCEEDED OSDN INCMD C8,4 OUTPUT STOPPED - DEVICE NOT READY OSNV INCMD C8,5 OUTPUT STOPPED - NO VFU FILE ADEI INCMD C9,1 ACCOUNTING DATA - END OF INFORMATION ADTM INCMD C9,2 ACCOUNTING DATA - TERMINATION CON 0 TERMINATE INBOUND COMMAND TABLE BSSZ DWLL7C-* FILL L7CNIN SPACE 2,14 ** LEVEL SEVEN COMMAND INBOUND TABLE. * * THE LEVEL SEVEN COMMAND INBOUND TABLE CONTAINS AN ENTRY * FOR EACH LEVEL SEVEN COMMAND RECEIVED BY THE DRIVER. * THE CONTENTS OF EACH ENTRY IS THE LEVEL SEVEN COMMAND * NUMBER AND THE POSITION IN THE TABLE LOCATES THE LEVEL * SEVEN COMMAND INBOUND ACTION TABLE ENTRY RESPONSIBLE ** FOR PROCESSING THE COMMAND. L7CNIN BSS 0 LEVEL SEVEN COMMAND INBOUND TABLE MSL7 CON 31 CHECKMARK ESL7 CON 32 END OF DATA (NORMAL) CON 32 END OF DATA (ERROR) RRL7 CON 33 REQUEST RESTART MRL7 CON 34 CHECKMARK REPLY QRL7 CON 35 QUIT SRL7 CON 37 START DATA REPLY - SENT ONLY CON 0 TERMINATE COMMAND NUMBER TABLE .LAST SET * LOC NPIC+.LAST NPIB SPACE 2,12 ** PRU INBOUND COMMAND BYPASS MESSAGE TABLE. * * THE PRU INBOUND COMMAND BYPASS MESSAGE TABLE CONTAINS * AN ENTRY FOR EACH COMMAND THAT IS TO BE BYPASSED ON * A PRU STREAM. THE ENTRIES IDENTIFIES THE PRIMARY AND ** SECONDARY FUNCTION CODES OF THE COMMAND. NPIB BSS 0 PRU INBOUND COMMAND MESSAGE BYPASS TABLE LOC 0 INCMD CC,0 TURN PRU MODE ON INCMD CC,1 TURN PRU MODE OFF CON 0 TERMINATE COMMAND BYPASS TABLE .LAST SET * LOC NPIB+.LAST NPIR SPACE 2,14 ** PRU INBOUND COMMAND RESPONSE TABLE. * * THE PRU INBOUND COMMAND RESPONSE TABLE CONTAINS AN * ENTRY FOR EACH COMMAND THAT CAN BE RECEIVED FROM THE * FRONT END ON A PRU STREAM. THE TABLE ENTRY CONTAINS * THE ACTION ORDINAL OF THE ACTION THAT WILL BE EXECUTED * AND A CONTROL CODE. IF THE CONTROL CODE IS NOT ZERO IT * SPECIFIES THE OVERLAY ORDINAL OF THE OVERLAY THAT ** CONTAINS THE ACTION PROCESSOR FOR THE COMMAND. NPIR BSS 0 PRU INPUT COMMAND RESPONSE TABLE LOC 0 ISBI CMDACT CIBI,2IP INPUT STOPPED - BATCH INTERRUPT ISSC CMDACT CICS,2IP INPUT STOPPED - SLIPPED CARD ISES CMDACT CIES,2IP INPUT STOPPED - END OF STREAM ISDN CMDACT CINR,2IP INPUT STOPPED - DEVICE NOT READY OSBI CMDACT CIBI,2IP OUTPUT STOPPED - BATCH INTERRUPT OSPM CMDACT CIPM,2IP OUTPUT STOPPED - PM MESSAGE OSFL CMDACT CIFL,2IP OUTPUT STOPPED - FILE LIMIT EXCEEDED OSDN CMDACT CINR,2IP OUTPUT STOPPED - DEVICE NOT READY OSNV CMDACT CINV,2IP OUTPUT STOPPED - NO VFU FILE ADEI CMDACT CIAE,2IP ACCOUNTING DATA - END OF INFORMATION ADTM CMDACT CIAT,2IP ACCOUNTING DATA - TERMINATION DUP DWLL7C-*,1 CMDACT CODE,3IP UNDEFINED - DRIVER ERROR L7CAIN SPACE 2,12 ** LEVEL SEVEN COMMAND INBOUND ACTION TABLE. * * THE LEVEL SEVEN COMMAND INBOUND ACTION TABLE CONTAINS * AN ENTRY FOR EACH LEVEL SEVEN COMMAND RECEIVED BY * THE DRIVER. THE CONTENTS OF EACH ENTRY IS THE ADDRESS * OF THE COMMAND ACTION PROCESSOR RESPONSIBLE FOR ** PROCESSING THE LEVEL SEVEN COMMAND. L7CAIN BSS 0 LEVEL SEVEN COMMAND INBOUND ACTION TABLE MSL7 CON /ACTIONS/MSCP CHECKMARK ESL7 CON /ACTIONS/ESCP END OF DATA (NORMAL) CON /ACTIONS/ESCP END OF DATA (ERROR) RRL7 CON /ACTIONS/RRCP REQUEST RESTART MRL7 CON /ACTIONS/MRCP CHECKMARK REPLY QRL7 CON /ACTIONS/QRCP QUIT SRL7 CON /ACTIONS/BRIQ.1 START DATA REPLY - ILLEGAL INBOUND .LAST SET * LOC NPIR+.LAST NPOC SPACE 2,14 ** PRU OUTPUT COMMAND MESSAGE TABLE. * * THE PRU OUTPUT COMMAND MESSAGE TABLE CONTAINS AN ENTRY * FOR EACH COMMAND THAT CAN BE SENT TO THE FRONT END ON A * PRU STREAM. THE ENTRY IDENTIFIES THE PRIMARY AND THE * SECONDARY FUNCTION CODES OF THE COMMAND AND THE * POSITION IN THE TABLE LOCATES THE COMMAND PROCESSOR ** TABLE ENTRY RESPONSIBLE FOR PROCESSING THE COMMAND. NPOC BSS 0 PRU OUTPUT COMMAND MESSAGE TABLE LOC 0 SBDC OUTCMD C2,0 SET BATCH DEVICE CHARACTERISTICS SBFC OUTCMD C3,0 SET BATCH FILE CHARACTERISTICS TOSM OUTCMD C4,0 TERMINATE OUTPUT STREAM MARKER ISNT OUTCMD C5,1 START NON-TRANSPARENT INPUT ISTR OUTCMD C5,2 START TRANSPARENT INPUT ISRS OUTCMD C5,3 RESUME INPUT ISAB OUTCMD C6,0 ABORT INPUT FTON OUTCMD CC,0 TURN PRU MODE ON FTOF OUTCMD CC,1 TURN PRU MODE OFF NPOIC SPACE 2,14 ** PRU OUTPUT INTERRUPT COMMAND MESSAGE TABLE. * * THE PRU OUTPUT INTERRUPT COMMAND MESSAGE TABLE CONTAINS * AN ENTRY FOR EACH INTERRUPT COMMAND THAT CAN BE SENT ON * A PRU STREAM. THE ENTRY IDENTIFIES THE PARAMETER VALUE * FOR THE INTERRUPT COMMAND AND THE POSITION IN THE TABLE * LOCATES THE INTERRUPT COMMAND PROCESSOR TABLE ENTRY ** RESPONSIBLE FOR PROCESSING THE INTERRUPT COMMAND. ICRO CON 0#1 RESTART OUTPUT STREAM ICAO CON 0#2 ABORT OUTPUT STREAM .LAST SET * LOC NPOC+.LAST NPOR SPACE 2,14 ** PRU OUTPUT COMMAND RESPONSE TABLE. * * THE PRU OUTPUT COMMAND RESPONSE TABLE CONTAINS AN ENTRY * FOR EACH COMMAND THAT CAN BE SENT TO THE FRONT END ON * A PRU STREAM. THE TABLE ENTRY CONTAINS THE ACTION * ORDINAL OF THE ACTION THAT WILL BE EXECUTED AND A * CONTROL CODE. IF THE CONTROL CODE IS NOT ZERO IT * SPECIFIES THE OVERLAY ORDINAL OF THE OVERLAY THAT ** CONTAINS THE ACTION PROCESSOR FOR THE COMMAND. NPOR BSS 0 PRU OUTPUT COMMAND RESPONSE TABLE LOC 0 SBDC CMDACT COSF,4IQ SET BATCH DEVICE CHARACTERISTICS SBFC CMDACT COSF,4IQ SET BATCH FILE CHARACTERISTICS TOSM CMDACT COPC,4IQ TERMINATE OUTPUT STREAM MARKER ISNT CMDACT COPC,4IQ START NON-TRANSPARENT INPUT ISTR CMDACT COPC,4IQ START TRANSPARENT INPUT ISRS CMDACT COPC,4IQ RESUME INPUT ISAB CMDACT COPC,4IQ ABORT INPUT FTON CMDACT COPO,4IQ TURN PRU MODE ON FTOF CMDACT COPF,4IQ TURN PRU MODE OFF DUP DWLL7C-*,1 CMDACT CODE,3IP UNDEFINED - DRIVER ERROR L7CAOT SPACE 2,14 ** LEVEL SEVEN COMMAND OUTBOUND ACTION TABLE. * * THE LEVEL SEVEN COMMAND OUTBOUND ACTION TABLE CONTAINS * AN ENTRY FOR EACH LEVEL SEVEN COMMAND TRANSFERRED BY * THE DRIVER. THE CONTENTS OF EACH ENTRY IS THE ACTION * ORDINAL OF THE ACTION THAT WILL BE EXECUTED AND A * CONTROL CODE. IF THE CONTROL CODE IS NOT ZERO IT * SPECIFIES THE OVERLAY ORDINAL OF THE OVERLAY THAT ** CONTAINS THE ACTION PROCESSOR FOR THE COMMAND. L7CAOT BSS 0 LEVEL SEVEN COMMAND OUTBOUND ACTION TABLE MSL7 CMDACT MSCG,2IO LEVEL SEVEN CHECKMARK - PROCESS ESL7 CMDACT CODE,3IP LEVEL SEVEN END OF STREAM - DRIVER ERROR CMDACT CODE,3IP LEVEN SEVEN ERROR - DRIVER ERROR RRL7 CMDACT CODE,3IP LEVEL SEVEN REQUEST RESTART - DRIVER ERROR MRL7 CMDACT MRCG,2IO LEVEL SEVEN CHECKMARK REPLY - PROCESS QRL7 CMDACT CODE,3IP LEVEL SEVEN QUIT - DRIVER ERROR SRL7 CMDACT SRCG,2IO LEVEL SEVEN START DATA REPLY - PROCESS .LAST SET * LOC NPOR+.LAST AWLCTL SPACE 2,14 ** PRU APPLICATION WORKLIST COMMAND CONTROL TABLE. * * THE PRU APPLICATION WORKLIST COMMAND CONTROL TABLE * CONTAINS AN ENTRY FOR EACH APPLICATION WORKLIST COMMAND * SENT TO THE DRIVER. THE TABLE ENTRY CONTAINS THE FRONT * END COMMAND ORDINAL, IF ANY, AND THE STREAM STATE * ACTION ORDINAL RESPONSIBLE FOR INITIATING THE WORKLIST ** COMMAND. AWLCTL BSS 0 APPLICATION WORKLIST COMMAND CONTROL TABLE LOC 0 SITR CTL ISTR,.SSDS START TRANSPARENT INPUT SINT CTL ISNT,.SSJS START NON-TRANSPARENT INPUT RSIN CTL ISRS,.SRST RESTART INPUT ABIN CTL ISAB,.SABT ABORT INPUT JBVL CTL 77B,** JOB VALIDATED BYIN CTL 77B,.SBYP BYPASS INPUT STOT CTL 77B,.SSDS START OUTPUT SPOT CTL 77B,.SSPS STOP OUTPUT RSOT CTL ICRO,.SRST RESTART OUTPUT ABOT CTL ICAO,.SABT ABORT OUTPUT ASOM CTL TOSM,.SASD ABORT OUTPUT DATA MARKER DORQ CTL 77B,.SDOR DIRECT OUTPUT REQUEST EORQ CTL 77B,.SEOR END OF JOB DIRECT OUTPUT REQUEST RSMO CTL 77B,.SROS RESUME OUTPUT SOFC CTL SBFC,.SSFC SET OUTPUT FILE CHARACTERISTICS SODC CTL SBDC,.SSDC SET OUTPUT DEVICE CHARACTERISTICS SIFT CTL FTON,.SFTI START INBOUND FILE TRANSFER SOFT CTL 77B,.SFTO START OUTBOUND FILE TRANSFER TPRU CTL 77B,.STPS TERMINATE PRU STREAM .LAST SET * LOC AWLCTL+.LAST L7RCCO SPACE 2,14 ** LEVEL SEVEN REASON CODE TO COMMAND ORDINAL TABLE. * * THE LEVEL SEVEN REASON CODE TO COMMAND ORDINAL TABLE * CONTAINS AN ENTRY FOR EACH TRANSFER STOPPED REASON * CODE. THE CONTENTS OF EACH ENTRY IS THE LEVEL SEVEN * COMMAND ORDINAL ASSOCIATED WITH THE REASON CODE. A * VALUE OF ZERO SIGNIFIES NO LEVEL SEVEN COMMAND ** ASSOCIATION. L7RCCO BSS 0 WORKLIST ORDINAL TO COMMAND ORDINAL TABLE QUAL NAM LOC 0 FTRCNO CON /TABLES/ESL7 NO ERROR FTRCNE CON 0 BLOCK SEQUENCE ERROR FTRCPE CON 0 LEVEL SEVEN PROTOCOL ERROR FTRCBK CON 0 TRANSMISSION LEVEL RESET FTRCRE CON /TABLES/QRL7 RECEIVER ERROR FTRCSE CON /TABLES/ESL7 SENDER ERROR FTRCRS CON /TABLES/RRL7 RESTART REQUESTED FTRCME CON 0 MASS STORAGE ERROR FTRCDE CON 0 DATA STRUCTURE ERROR FTRCTO CON 0 TRANSFER TIMED OUT FTRCHE CON 0 LEVEL SEVEN HEADER FORMAT ERROR FTRCQM CON 0 Q-MESSAGE FORMAT ERROR FTRCCE CON 0 CHECKMARK OR CHECKMARK REPLY NUMBER ERROR QUAL * .LAST SET * LOC L7RCCO+.LAST ERRTABLE SPACE 2,14 ** ERROR PROCESSOR TABLE. * * THE ERROR PROCESSOR TABLE CONTAINS AN ENTRY FOR EACH * POSSIBLE DRIVER ERROR CODE. THE CONTENTS OF EACH ENTRY * IS THE ACTION ORDINAL OF THE ACTION THAT WILL BE * EXECUTED AND A CONTROL CODE. IF THE CONTROL CODE IS * NOT ZERO IT SPECIFIES THE OVERLAY ORDINAL OF THE * OVERLAY THAT CONTAINS THE ACTION PROCESSOR FOR THE ** ERROR CONDITION. ERRTABLE BSS 0 ERROR PROCESSOR TABLE QUAL ERROR LOC 0 CHAN SPACE 2,6 ** CHANNEL ERROR PROCESSORS. ERRACT PFDE,3IE UNDEFINED ABF ERRACT PFCE,2IE CHANNEL ACTIVE BEFORE FUNCTION AAF ERRACT PFCE,2IE CHANNEL ACTIVE AFTER FUNCTION ABA ERRACT PFCE,2IE CHANNEL ACTIVE BEFORE ACTIVATE IAA ERRACT PFCE,2IE CHANNEL INACTIVE AFTER ACTIVATE AAD ERRACT PFCE,2IE CHANNEL ACTIVE AFTER DISCONNECT IDO ERRACT PFCE,2IE CHANNEL INACTIVE DURING OUTPUT HFO ERRACT PFCE,2IE CHANNEL HUNG FULL DURING OUTPUT IDI ERRACT PFCE,2IE CHANNEL INACTIVE DURING INPUT HEI ERRACT PFCE,2IE CHANNEL HUNG EMPTY DURING INPUT HFI ERRACT PFCE,2IE CHANNEL HUNG FULL AFTER INPUT ERRACT PFDE,3IE UNDEFINED ERRACT PFDE,3IE UNDEFINED ERRACT PFDE,3IE UNDEFINED NPU SPACE 2,6 ** NPU ERROR PROCESSORS. NOT ERRACT PNTO,2IE NPU ORDER WORD TIMEOUT NTO ERRACT PNTO,2IE NPU TIMEOUT NMP ERRACT PFCE,2IE NPU MEMORY PROTECT ERROR ERRACT PFDE,3IE UNDEFINED ERRACT PFDE,3IE UNDEFINED ERRACT PFDE,3IE UNDEFINED MDI SPACE 2,6 ** MDI ERROR PROCESSORS. NMS ERRACT PNMS,2IE UNABLE TO OBTAIN MDI STATUS MES ERRACT PMER,2PE MDI ERROR STATUS REPORTED MIN ERRACT PMDI,2IE MDI INOPERATIVE URM ERRACT PURI,2IE UNABLE TO RESET MDI INTERFACE MHE ERRACT PFCE,2IE MDI HEADER FORMAT ERROR MIO ERRACT PMER,2PE MDI ERROR REPORTED ON INPUT/OUTPUT DATA MRD ERRACT PMRD,2IE MDI REQUESTING DIAGNOSTICS NSS ERRACT PNSS,2PE MCI CHANNEL PROTOCOL VERSION NOT SUPPORTED ERRACT PFDE,3IE UNDEFINED ERRACT PFDE,3IE UNDEFINED NAM SPACE 2,6 ** NAM ERROR PROCESSORS. NBT ERRACT PFDE,3IE NETWORK BUFFER TABLE FORMAT ERROR OFE ERRACT PFDE,3IE DRIVER OVERLAY FORMAT ERROR AOR ERRACT PFDE,3IE ADDRESS OUT OF RANGE BLE ERRACT PFDE,3IE OUTPUT BUFFER LINK ERROR CNU ERRACT DBOB,3IE OUTPUT ON UNASSIGNED CONNECTION NUMBER CPE ERRACT PFDE,3IE CONTROL POINT ERROR PSE ERRACT PFDE,3IE PCB SIZE ERROR ILO ERRACT PFDE,3IE ILLEGAL OUTPUT BLOCK IAR ERRACT PFDE,3IE ILLEGAL APPLICATION REQUEST IOC ERRACT PFDE,3IE ILLEGAL OUTPUT COMMAND NTP ERRACT PFDE,3IE NO DRIVER TABLE POINTER DOE ERRACT PFDE,3IE DRIVER ORDINAL ERROR DDR ERRACT PFDE,3IE DRIVER DUMP REQUEST BHS ERRACT PFDE,3IE ILLEGAL BLOCK HANDLER STATE PBS ERRACT PFDE,3IE ILLEGAL PCB PRU BUFFER SIZE BWL ERRACT PFDE,3IE BAD WORKLIST FROM NAM PCE ERRACT PFDE,3IE PCB CHAIN ERROR PCN ERRACT PFDE,3IE PCB CONNECTION UNASSIGNED BTS ERRACT PFDE,3IE INBOUND BUFFER NOT LARGE ENOUGH CET ERRACT PFDE,3IE COUPLER EQUIPMENT TABLE FORMAT ERROR URB ERRACT PFDE,3IE UNABLE TO RETURN LIMBO BUFFERS ILE ERRACT PFDE,3IE INLINE DIAGNOSTICS HANDLING ERROR ERRACT PFDE,3IE UNDEFINED ERRACT PFDE,3IE UNDEFINED DRIVER SPACE 2,6 ** DRIVER ERROR PROCESSORS. UBT ERRACT PFDE,3IE UNKNOWN NETWORK BUFFER TABLE ADDRESS LBE ERRACT PFDE,3IE LIMBO BUFFER FORMAT ERROR BSE ERRACT PFDE,3IE ILLEGAL PRU BUFFER SIZE NCT ERRACT PFDE,3IE NO CONNECTION TABLE ADDRESS OIA ERRACT PFDE,3IE ILLEGAL OUTPUT INITIATOR RESPONSE ACTION DFC ERRACT PFDE,3IE DRIVER FLOW CONTROL LOGIC ERROR OBI ERRACT PFDE,3IE ILLEGAL OUTPUT BLOCK RESPONSE ACTION BRE ERRACT PFDE,3IE ILLOGICAL BLOCK HANDLER STATE RESPONSE SRE ERRACT PFDE,3IE ILLOGICAL STREAM STATE RESPONSE ACTION ISS ERRACT PFDE,3IE ILLEGAL STREAM STATE ENTERED ISE ERRACT PFDE,3IE ILLEGAL BUFFER SIZE FOR IVT INPUT FIE ERRACT PFDE,3IE INPUT ACCEPTED WHILE BUFFER SPACE REQUESTED ICA ERRACT PFDE,3IE ILLOGICAL COMMAND ACTION DQE ERRACT PFDE,3IE DRIVER QUEUING LOGIC ERROR DWE ERRACT PFDE,3IE ILLOGICAL WORKLIST ACTION FTR ERRACT PFDE,3IE NO FNT ADDRESS ON ACTIVE STREAM OME ERRACT PFDE,3IE PRU OUTPUT MODE ERROR CTE ERRACT PFDE,3IE FRONT END CHANNEL TABLE ERROR CLE ERRACT PFDE,3IE CHECKMARK LOGIC ERROR OSV ERRACT PFDE,3IE OVERLAY STRUCTURE VIOLATION ERRACT PFDE,3IE UNDEFINED ERRACT PFDE,3IE UNDEFINED ERRACT PFDE,3IE UNDEFINED ERRACT PFDE,3IE UNDEFINED ERRACT PFDE,3IE UNDEFINED ERRACT PFDE,3IE UNDEFINED BLOCK SPACE 2,6 ** BLOCK PROTOCOL ERROR PROCESSORS. IUC ERRACT PBPE,2IE INPUT ON UNASSIGNED CONNECTION NUMBER BHE ERRACT PBPE,2IE BLOCK PROTOCOL HEADER FORMAT ERROR DHE ERRACT PBPE,2IE DATA HEADER FORMAT ERROR ICM ERRACT PBPE,2IE FRONT END COMMAND FORMAT ERROR BFE ERRACT PBPE,2IE BACK FORMAT ERROR IBS ERRACT PBPE,2IE ILLEGAL PRU BUFFER SIZE SPECIFIED IBI ERRACT PBPE,2IE ILLEGAL INPUT BLOCK RESPONSE ACTION NFC ERRACT PBPE,2IE FRONT END FLOW CONTROL LOGIC ERROR NSE ERRACT PBPE,2IE FRONT END BLOCK NUMBER SEQUENCE ERROR IBR ERRACT PBPE,2IE ILLEGAL BLOCK HANDLER STATE RESPONSE ACTION ISR ERRACT PBPE,2IE ILLEGAL STREAM STATE RESPONSE ACTION IMS ERRACT PBPE,2IE INPUT MESSAGE EXCEEDS SPECIFIED SIZE MFE ERRACT PBPE,2IE INPUT MESSAGE FORMAT ERROR PIE ERRACT PBPE,2IE PRU INPUT MESSAGE FORMAT ERROR CFE ERRACT PBPE,2IE PRU COMMAND FORMAT ERROR ICE ERRACT PBPE,2IE PRU ICMD RESPONSE FORMAT ERROR ERRACT PFDE,3IE UNDEFINED ILH ERRACT PBPE,2IE INLINE DIAGNOSTICS TEST HEADER ERROR ERRACT PFDE,3IE UNDEFINED ERRACT PFDE,3IE UNDEFINED ERRACT PFDE,3IE UNDEFINED ERRACT PFDE,3IE UNDEFINED ERRACT PFDE,3IE UNDEFINED ERRACT PFDE,3IE UNDEFINED ERRACT PFDE,3IE UNDEFINED ERRACT PFDE,3IE UNDEFINED ERRACT PFDE,3IE UNDEFINED ERRACT PFDE,3IE UNDEFINED ERRACT PFDE,3IE UNDEFINED ERRACT PFDE,3IE UNDEFINED ERRACT PFDE,3IE UNDEFINED ERRACT PFDE,3IE UNDEFINED ERRACT PFDE,3IE UNDEFINED ERRACT PFDE,3IE UNDEFINED ERRACT PFDE,3IE UNDEFINED PRUAPP SPACE 2,6 ** PRU APPLICATIONS ERROR PROCESSORS. SAE ERRACT PWLE,3IE ILLEGAL PRU APPLICATION STREAM ACTION WLE ERRACT PWLE,3IE ILLEGAL PRU APPLICATION STREAM ACTION ERRACT PFDE,3IE UNDEFINED ERRACT PFDE,3IE UNDEFINED ERRACT PFDE,3IE UNDEFINED LEVEL7 SPACE 2,6 ** A-A LEVEL SEVEN ERROR PROCESSORS. L7E ERRACT PEL7,2IE A-A LEVEL SEVEN PROTOCOL ERROR L7H ERRACT HEL7,2IE A-A LEVEL SEVEN HEADER FORMAT ERROR L7D ERRACT DEL7,2IE A-A LEVEL SEVEN DATA FORMAT ERROR QME ERRACT QMER,2IE Q-MESSAGE FORMAT ERROR IN PRU MODE CNE ERRACT CMER,2IE CHECKMARK OR CHECKMARK REPLY NUMBER ERROR TBR ERRACT BRPS,2IE TRANSPORT LEVEL BREAK RECEIVED TO7 ERRACT TOL7,2IE LEVEL SEVEN TIMEOUT ERRACT PFDE,3IE UNDEFINED QUAL * .LAST SET * LOC ERRTABLE+.LAST QUAL .1 SET *+4 .1 SET .1/5*5 .1 SET .1+3 .0IP EQU .1/4 LENGTH OF TABLE OVERLAY IN CENTRAL WORDS L.COA SET L.COA+.0IP LENGTH OF CENTRAL OVERLAY AREA N.OPW SET N.OPW+1 NUMBER OF OVERLAY POINTER WORDS N.COV EQU N.OPW NUMBER OF CENTRAL MEMORY OVERLAYS L.0IP EQU .0IP DEFINE CENTRAL LENGTH OF 0IP TTL 2IN - "VERSION" DRIVER INITIALIZATION. 2IN TITLE OVERLAY INITIALIZATION CONTROL. IDENT 2IN,OF.INIT DRIVER INITIALIZATION ORG OF.INIT QUAL INIT COMMENT 2IN/PIP - "VERSION" DRIVER INITIALIZATION. COMMENT COPYRIGHT CONTROL DATA SYSTEMS INC. 1994. INT SPACE 2,14 ** ENTRY POINT INT. * * ENTRY POINT INT TRANSFERS CONTROL * TO THE INITIALIZATION PROCESSOR. * * ENTRY - * ** (IPA) = INITIALIZATION PROCESSOR ADDRESS. INT SUBR NOX ENTRY LJM 0,IPA EXIT TO INITIALIZATION PROCESSOR INFL TITLE INITIALIZATION RPROCESSORS. INFL SPACE 2,28 ** INITIALIZATION PROCESSOR INFL. * * INITIALIZATION PROCESSOR INFL INITIALIZES * TABLES IN THE FIELD LENGTH OF NAM. * * ENTRY - * * (PAD-PAD+1) = CALL PARAMETER ADDRESS. * * EXIT - * * TABLES IN NAM FIELD LENGTH INITIALIZED. * * CALLS - * * ARA - FORM ABSOLUTE CENTRAL ADDRESS, * INTA - INITIALIZE NAM TABLE AREA, * ICET - INITIALIZE COUPLER EQUIPMENT TABLE, * PSDO - PRESET DRIVER OVERLAY AREA, * INPW - INITIALIZE NAM POINTER WORD, * INTH - INITIALIZE NAM TABLE HEADER, * MDTT - MODIFY DRIVER TRANSLATION TABLE, ** FTN - PROCESS MONITOR FUNCTION. INFL LINK ENTRY LDN ZERL LOAD ADDRESS OF ZERO WORD CRD ZR GENERATE CENTRAL WORD OF ZEROES LDD PAD LOAD HIGH-ORDER OF PARAMETER AREA ADDRESS STD FBA STORE HIGH-ORDER OF CURRENT TABLE HEADER STD CBA STORE HIGH-ORDER OF NEXT AVAILABLE POSITION SHN 12 POSITION TO HIGH-ORDER ADD PAD+1 PLUS LOW-ORDER OF PARAMETER AREA ADDRESS STD FBA+1 STORE LOW-ORDER OF CURRENT TABLE HEADER STD CBA+1 STORE LOW-ORDER OF NEXT AVAILABLE POSITION RJM ARA EXIT TO FORM ABSOLUTE CENTRAL ADDRESS CRD T0 READ TABLE AREA HEADER WORD LDD T0+/NAM/C.BWD LOAD HIGH-ORDER OF TABLE AREA SIZE LPN 77B EXTRACT HIGH-ORDER OF TABLE AREA SIZE STD T0+/NAM/C.BWD STORE HIGH-ORDER OF TABLE AREA SIZE LDD FBA+1 LOAD LOW-ORDER OF CURRENT TABLE HEADER ADD T0+/NAM/C.BWD+1 PLUS LOW-ORDER OF TABLE AREA SIZE STD LBA+1 STORE LOW-ORDER OF LAST AVAILABLE POSITION SHN -12 POSITION POSSIBLE CARRY ADD FBA PLUS HIGH-ORDER OR CURRENT TABLE HEADER ADD T0+/NAM/C.BWD PLUS HIGH-ORDER OF TABLE AREA SIZE STD LBA STORE HIGH-ORDER OF LAST AVAILABLE POSITION RJM INTA EXIT TO INITIALIZE NAM TABLE AREA RJM ICET EXIT TO INITIALIZE COUPLER EQUIPMENT TABLE RJM PSDO EXIT TO PRESET DRIVER OVERLAY AREA LDN /NAM/W.ATP OFFSET FOR APPLICATION TABLE POINTER WORD RJM INPW EXIT TO INITIALIZE NAM POINTER WORD LDD LBA LOAD HIGH-ORDER OF LAST AVAILABLE POSITION SBD CBA LESS HIGH-ORDER OF NEXT AVAILABLE POSITION SHN 12 POSITION TO HIGH-ORDER ADD LBA+1 PLUS LOW-ORDER OF LAST AVAILABLE POSITION SBD CBA+1 LESS LOW-ORDER OF NEXT AVAILABLE POSITION STM UAHDR+/NAM/C.BWD+1 STORE UNUSED BLOCK LENGTH LDC UAHDR LOAD ADDRESS OF NAM TABLE HEADER STD T10 STORE ADDRESS OF NAM TABLE HEADER LDN /NAM/L.BH LOAD LENGTH OF NAM TABLE HEADER STD T11 STORE LENGTH OF NAM TABLE HEADER LDN 0 LOAD NAM TABLE ID RJM INTH EXIT TO INITIALIZE NAM TABLE HEADER LDN IPRL LOAD ADDRESS OF INSTALLATION PARAMETER WORD CRD T0 READ INSTALLATION PARAMETER WORD LDD T0+2 LOAD CHARACTER SET BYTE LPN 1 EXTRACT CHARACTER SET FLAG NJN INFL.1 EXIT IF TSBLE CHARACTER SET SELECTED LDN .BLANK LOAD NEW ASCII CHARACTER STD T15 STORE NEW ASCII CHARACTER LDN 00B LOAD TABLE OFFSET FOR NEW ASCII CHARACTER RJM MDTT EXIT TO MODIFY DRIVER TRANSLATION TABLE LDN .COLON LOAD NEW ASCII CHARACTER STD T15 STORE NEW ASCII CHARACTER LDN 63B LOAD TABLE OFFSET FOR NEW ASCII CHARACTER RJM MDTT EXIT TO MODIFY DRIVER TRANSLATION TABLE INFL.1 LDD PAD LOAD HIGH-ORDER OF PARAMETER ADDRESS SHN 12 POSITION TO HIGH-ORDER ADD PAD+1 PLUS LOW-ORDER OF PARAMETER ADDRESS RJM ARA EXIT TO FORM ABSOLUTE CENTRAL ADDRESS CRD T10 READ PARAMETER WORD STD T15+1 STORE LOW-ORDER OF CENTRAL ADDRESS SHN -12 POSITION HIGH-ORDER OF ADDRESS STD T15 STORE HIGH-ORDER OF CENTRAL ADDRESS LDN 1 CONSTANT OF ONE STD T10+/NAM/C.NBTDC STORE DRIVER COMPLETED FLAG LDD T15 LOAD HIGH-ORDER OF CENTRAL ADDRESS SHN 12 POSITION TO HIGH-ORDER ADD T15+1 PLUS LOW-ORDER OF CENTRAL ADDRESS CWD T10 WRITE OUT PARAMETER WORD INFL.2 LINK ENTRY LDN DPPM MONITOR FUNCTION TO DROP PPU INFL.3 LINK ENTRY RJM FTN EXIT TO ISSUE MONITOR FUNCTION EXIT PPR EXIT TO PPU RESIDENT UAHDR SPACE 2,6 * UNUSED AREA HEADER. UAHDR CON ** BLOCK ID CON ** BLOCK SIZE CON 0,0,0 SEST SPACE 2,32 ** INIIALIZATION PROCESSOR SEST. * * INITIALIZATION PROCESSOR SEST SCANS THE COUPLER * EQUIPMENT TABLE IN THE FIELD LENGTH OF NAM. FOR EACH * OFF EQUIPMENT THE SYSTEM EST IS CHECKED AND IF THE * SYSTEM EST ENTRY IS ON THE NAM TABLE IS UPDATED. * * ENTRY - * * (PAD-PAD+1) = COUPLER EQUIPMENT TABLE ADDRESS. * * EXIT - * * COUPLER EQUIPMENT TABLE UPDATED. * * ERROR EXITS - * * ISSUE MESSAGE AND ABORT IF COUPLER TABLE ERROR. * * CALLS - * * ARA - FORM ABSOLUTE CENTRAL ADDRESS, * FTN - PROCESS MONITOR FUNCTION. * * SYSTEM MACRO CALLS - * ** SFA - CALCULATE MANAGED TABLE ADDRESS. SEST LINK ENTRY LDD PAD LOAD HIGH-ORDER OF COUPLER TABLE ADDRESS SHN 12 POSITION TO HIGH-ORDER ADD PAD+1 PLUS LOW-ORDER OF COUPLER TABLE ADDRESS ADN /NAM/W.CETHW DELTA FOR COUPLER TABLE CONTROL WORD RJM ARA EXIT TO FORM ABSOLUTE CENTRAL ADDRESS CRD T10 READ COUPLER TABLE CONTROL WORD SBN /NAM/W.CETHW DELTA FOR COUPLER TABLE HEADER WORD CRD T0 READ COUPLER TABLE HEADER WORD LDD T10+/NAM/C.CETCB LOAD COUPLER TABLE CONTROL BYTE LPN /NAM/B.CETDB&/NAM/B.CETDC EXTRACT TABLE BUSY FLAGS NJN INFL.2 TERMINATE IF COUPLER TABLE BUSY LDD T0+/NAM/C.BID LOAD COUPLER TABLE BLOCK ID BYTE SHN -/NAM/S.BID POSITION BLOCK ID TO LOW-ORDER LMN /NAM/Q.CETID LESS COUPLER TABLE BLOCK ID NJN SEST.1 EXIT IF INVALID BLOCK ID LDD T0+/NAM/C.BWD LOAD HIGH-ORDER OF TABLE BLOCK SIZE LPN 77B EXTRACT HIGH-ORDER OF TABLE BLOCK SIZE NJN SEST.1 EXIT IF TABLE BLOCK SIZE RANGE ERROR LDD T0+/NAM/C.BWD+1 LOAD LOW-ORDER OF TABLE BLOCK SIZE SBN /NAM/W.CETE+1 LESS MINIMUM TABLE BLOCK SIZE PJN SEST.2 EXIT IF TABLE BLOCK SIZE IN RANGE SEST.1 LDC SEE LOAD ADDRESS OF EST SCAN ERROR MESSAGE EXIT ARA.4 EXIT TO ISSUE ERROR MESSAGE SEST.2 STD T17 INITIALIZE TABLE ORDINAL RAM SEST.9A CHANGE INSTRUCTION TO ADD NO OF CET ENTRIES LDN 0 CONSTANT OF ZERO STD T7 INITIALIZE TABLE CHANGED FLAG LDN /NAM/B.CETDB LOAD DRIVER SCANNING FLAG STD T10+/NAM/C.CETCB STORE COUPLER TABLE CONTROL BYTE LDD PAD LOAD HIGH-ORDER OF COUPLER TABLE ADDRESS SHN 12 POSITION TO HIGH-ORDER ADD PAD+1 PLUS LOW-ORDER OF COUPLER TABLE ADDRESS ADN /NAM/W.CETHW DELTA FOR COUPLER TABLE CONTROL WORD RJM ARA EXIT TO FORM ABSOLUTE CENTRAL ADDRESS CWD T10 REWRITE COUPLER TABLE CONTROL WORD LDN ESTP LOAD ADDRESS OF EST POINTER WORD CRD T0 READ EST POINTER WORD LDD T0+2 LOAD LOAD ENDING ORDINAL OF EST STD T16 STORE ENDING ORDINAL OF EST SEST.3 LDD PAD LOAD HIGH-ORDER OF COUPLER TABLE ADDRESS SHN 12 POSITION TO HIGH-ORDER ADD PAD+1 PLUS LOW-ORDER OF COUPLER TABLE ADDRESS ADN /NAM/W.CETE DELTA FOR FIRST COUPLER TABLE ENTRY ADD T17 PLUS TABLE ORDINAL RJM ARA EXIT TO FORM ABSOLUTE CENTRAL ADDRESS CRD T10 READ NEXT COUPLER TABLE ENTRY LDD T10+/NAM/C.CETET LOAD EQUIPMENT BYTE FROM COUPLER TABLE SHN 17-/NAM/S.CETOF POSITION EQUIPMENT OFF FLAG TO SIGN MJN SEST.5 EXIT IF COUPLER TABLE ENTRY OFF SEST.4 SOD T17 DECREMENT CURENT TABLE ORDINAL PJN SEST.3 EXIT IF MORE TABLE ENTRIES TO PROCESS LDD PAD LOAD HIGH-ORDER OF COUPLER TABLE ADDRESS SHN 12 POSITION TO HIGH-ORDER ADD PAD+1 PLUS LOW-ORDER OF COUPLER TABLE ADDRESS ADN /NAM/W.CETHW DELTA FOR COUPLER TABLE CONTROL WORD RJM ARA EXIT TO FORM ABSOLUTE CENTRAL ADDRESS CRD T10 READ COUPLER TABLE CONTROL WORD LDD T7 LOAD TABLE CHANGED FLAG ADN /NAM/B.CETDC PLUS DRIVER COMPLETED FLAG STD T10+/NAM/C.CETCB STORE COUPLER TABLE CONTROL BYTE LDD PAD LOAD HIGH-ORDER OF COUPLER TABLE ADDRESS SHN 12 POSITION TO HIGH-ORDER ADD PAD+1 PLUS LOW-ORDER OF COUPLER TABLE ADDRESS ADN /NAM/W.CETHW DELTA FOR COUPLER TABLE CONTROL WORD RJM ARA EXIT TO FORM ABSOLUTE CENTRAL ADDRESS CWD T10 REWRITE COUPLER TABLE CONTROL WORD EXIT INFL.2 EXIT TO TERMINATE PPU SEST.5 LDD T10+/NAM/C.CETEST LOAD EST ORDINAL FROM COUPLER TABLE LPC /NAM/L.CETEST EXTRACT EST ORDINAL STD T10+1 EST ORDINAL FOR POSSIBLE MONITOR FUNCTION STM SEST.9R+1 CHANGE INSTRUCTION TO LDC EST ORDINAL STM SEST.9U+1 CHANGE INSTRUCTION TO LDC EST ORDINAL SBD T16 LESS ENDING ORDINAL OF EST MJN SEST.6 EXIT IF EST ORDINAL IN RANGE UJK SEST.1 EXIT TO ISSUE EST SCAN ERROR MESSAGE SEST.6 LDN ESTE SIZE OF EST ENTRY STD T1 SAVE NO OF CM WORDS TO READ UP SFA EST,T10+1 GET EST ENTRY ADDRESS ADK EQDE PLUS OFFSET FOR EQUIPMENT DESCRIPTION WORD CRM MEST,T1 READ EST ENTRY LDM MEST EQUIPMENT STATUS BYTE LPN 3 EXTRACT EQUIPMENT STATUS SBN 2 SUBTRACT STATUS VALUE FOR EQUIPMENT OFF NJN SEST.8 EXIT IF EQUIPMENT TURNED ON SEST.7 UJK SEST.4 EXIT TO CHECK FOR END OF COUPLER TABLE SEST.8 LDM MEST+7 BYTE CONTAINING DRIVER ORDINAL SHN -9 POSITION DRIVER ORDINAL TO LOW-ORDER ZJN SEST.7 EXIT IF NO DRIVER ORDINAL SPECIFIED STD T15 STORE DRIVER ORDINAL SBN MAXDRV+1 LESS MAXIMUM VALUE FOR DRIVER ORDINAL PJN SEST.7 EXIT IF NOT VALID DRIVER ORDINAL LDM MEST+3 LOAD EQUIPMENT TYPE FROM EST LMC 2RND LESS VALUE FOR MDI ZJN SEST.9 EXIT IF EQUIPMENT IS MDI LMN 2RND&2RNP LESS DELTA FOR NPU ZJN SEST.9 EXIT IF EQUIPMENT IS NPU .MSS IFEQ .MSS,1 LMN 2RNP&2RNQ LESS DELTA FOR MSS EQUIPMENT TYPE ZJN SEST.9 EXIT IF MSS EQUIPMENT .MSS ENDIF UJK SEST.7 EXIT TO CHECK FOR END OF COUPLER TABLE SEST.9 LDN 0 CONSTANT OF ZERO STD T10+2 STORE NORMAL REQUEST SUBFUNCTION LDN REQM LOAD MONITOR FUNCTION TO REQUEST EQUIPMENT RJM FTN EXIT TO REQUEST EQUIPMENT FROM SYSTEM LDD T10+1 LOAD SYSTEM REPLY BYTE NJN SEST.9H EXIT IF EQUIPMENT AVAILABLE UJK SEST.4 EXIT TO CHECK FOR END OF COUPLER TABLE SEST.9H BSS 0 * * CHECK IF NEWLY TURNED ON EST ENTRY HAS SAME CHANNEL * AND EQUIPMENT NUMBER AS ANOTHER NEWLY TURNED ON ENTRY * SEST.9A LDN 0 NO OF CET ENTRIES (INSTRUCTION CHANGED) STD T3 INITIALIZE CET TABLE ENTRY OFFSET LDM MEST+1 BYTE CONTAINING CHANNEL NUMBER LPK 37B EXTRACT CHANNEL NUMBER STM MEST+1 CLEARED OTHER BITS IN CHANNEL NUMBER BYTE SEST.9C LDD PAD HIGH ORDER PART OF CET TABLE ADDRESS SHN 12D SHIFT TO HIGH ORDER PART OF A REGISTER ADD PAD+1 ADD LOW ORDER PART OF CET TABLE ADDRESS ADN /NAM/W.CETE DELTA FOR COUPLER TABLE CONTROL WORD ADD T3 DELTA FOR CURRENT CET ENTRY TO COMPARE RJM ARA EXIT TO FORM ABSOLUTE CENTRAL ADDRESS CRD T10 READ CURRENT CET ENTRY LDD T10+/NAM/C.CETET BYTE CONTAINING ON/OFF FLAG SHN 17-/NAM/S.CETOF POSITION EQUIPMENT OFF FLAG TO SIGN PJN SEST.9D EXIT IF THIS CET ENTRY IS ON LDD T10+/NAM/C.CETTN BYTE CONTAINING ENTRY CHANGED FLAG LPN /NAM/B.CETEC ENTRY CHANGED BIT ZJN SEST.9F EXIT IF ENTRY HAS NOT BEEN TURNED ON SEST.9D LDD T17 INDEX OF CURRENT ENTRY IN CET TABLE SBN T3 DELTA FOR CURRENT ENTRY BEING COMPARED ZJN SEST.9F EXIT IF ENTRY IS ONE JUST FOUND LDD T10+/NAM/C.CETCH BYTE CONTAINING CHANNEL NO SHN -/NAM/S.CETCH RIGHT JUSTIFY CHANNEL NO FIELD SBM MEST+1 CHANNEL NO OF NEWLY TURNED ON EST ENTRY NJN SEST.9F EXIT IF CHANNEL NUMBERS DO NOT MATCH LDD T10+/NAM/C.CETDOR BYTE CONTAINING DRIVER ORDINAL LPN 17B EXTRACT DRIVER ORDINAL FROM CET ENTRY SBD T15 DRIVER ORDINAL OF NEW ON ENTRY NJN SEST.9L EXIT IF DIFFERENT DRIVER FOR SAME CH NO LDD T10+/NAM/C.CETEN BYTE CONTAINING EQUIPMENT NO LMM MEST+4 EQUIPMENT NO OF NEWLY TURNED ON EST ENTRY LPC 7000B EXTRACT ONLY EQUIPMENT NUMBER FIELD IN BYTE ZJN SEST.9O EXIT IF EQUIPMENT NUMBER MATCH SEST.9F SOD T3 DECREMENT REMAINING NO OF ENTRIES TO CHECK PJN SEST.9G EXIT IF NOT ALL CET ENTRIES CHECKED LJM SEST.9U EXIT TO COMPLETE PROCESSING NEW ENTRY SEST.9G LJM SEST.9C EXIT TO CHECK NEXT CET ENTRY SEST.9I LDN 0 FLAG TO INDICATE DUPLICATE CHANNEL DAY MSG UJN SEST.9O EXIT TO SAVE DAYFILE MSG FLAG SEST.9L LDN SMSGCH-SMSGDUP FLAG TO INDICATE DUPLICATE ENTRY DAY MSG SEST.9O STD T3 SAVE DAYFILE MESSAGE FLAG SEST.9R LDC 0 EST ORD TO TURN OFF (INSTRUCTION CHANGED) STD T11 SAVE FOR SEQM MONITOR FUNCTION SHN -6 RIGHT JUSTIFY MOST SIGNIFICANT DIGIT LPN 7B EXTRACT MOST SIGNIFICANT DIGIT ADC 5533B CONSTANT FOR CONVERTING TO DISPLAY CODE STM SMSGDUP+EST0,T3 SAVE PART OF EST ORDINAL IN DAYFILE MSG LDD T11 EST ORDINAL OF BAD EST ENTRY LPN 70B MIDDLE DIGIT OF EST ORDINAL SHN 3 POSITION OF DISPLAY CODE CHARACTER STD T2 SAVE MIDDLE DIGIT OF EST ORDINAL LDD T11 EST ORDINAL OF BAD EST ENTRY LPN 7 EXTRACT RIGHTMOST DIGIT IN EST ORDINAL ADD T2 ADD MIDDLE DIGIT OF EST ORDINAL ADC 3333B CONSTANT FOR CONVERTING TO DISPLAY CODE STM SMSGDUP+EST1,T3 SAVE REST OF EST ORDINAL IN DAYFILE MSG LDN /NOS/OFES SUBFUNCTION CODE FOR SEQM FUNCTION STD T10+2 INITIALIZE SEBFUNCTION BYTE OF SEQM FUNCTION LDN SEQM FUNCTION TO SET EQUIPMENT PARAMETERS RJM FTN EXIT TO TURN EST ENTRY OFF LDN DEQM RELEASE EST ENTRY RJM FTN EXIT TO RELEASE EST ENTRY LDC SMSGDUP ADDRESS OF FIRST DAYFILE MSG ADD T3 OFFSET FOR SECOND DAYFILE MSG IF NEEDED RJM DFM EXIT TO ISSUE DAYFILE MESSAGE LJM SEST.4 EXIT TO RESTART EST SCAN FROM BEGINNING SEST.9U LDC 0 EST ORD TO CLEAR INTRLK (INSTR CHANGED) STD T10+1 SAVE FOR SEQM MONITOR FUNCTION LDM MEST+3 LOAD EQUIPMENT TYPE FROM EST LMC 2RND LESS VALUE FOR MDI EQUIPMENT NJN SEST.10 EXIT IF NOT MDI EQUIPMENT LDN 4 LOAD SUBFUNCTION CODE TO CHANGE BYTE ZERO STD T10+2 STORE SUBFUNCTION CODE LDC 7777B&1S9 LOAD MASK TO CLEAR INTERLOCKED FLAG STD T10+3 STORE MASK FOR EQUIPMENT STATUS TABLE BYTE LDN 0 CONSTANT OF ZERO STD T10+4 STORE NO FLAGS TO SET LDN SEQM LOAD FUNCTION TO SET EUIPMENT PARAMETERS RJM FTN EXIT TO RESET EQUIPMENT INTERLOCKED FLAG SEST.10 LDD PAD LOAD HIGH-ORDER OF COUPLER TABLE ADDRESS SHN 12 POSITION TO HIGH-ORDER ADD PAD+1 PLUS LOW-ORDER OF COUPLER TABLE ADDRESS ADN /NAM/W.CETE DELTA FOR FIRST COUPLER TABLE ENTRY ADD T17 PLUS TABLE ORDINAL RJM ARA EXIT TO FORM ABSOLUTE CENTRAL ADDRESS CRD T10 READ CURRENT COUPLER TABLE ENTRY LDD T15 LOAD DRIVER ORDINAL STD T10+/NAM/C.CETDOR STORE DRIVER ORD IN CET ENTRY LDM MEST+1 BYTE CONTAINING CHANNEL NO FROM EST ENTRY SHN /NAM/S.CETCH POSITION CHANNEL NO TO CET ENTRY POSITION RAD T10+/NAM/C.CETCH STORE CHANNEL NO IN CET ENTRY LDM MEST+4 BYTE CONTAINING HOST NODE NO FROM EST ENTRY LPC /NAM/L.CETHN EXTRACT HOST NODE NUMBER STD T10+/NAM/C.CETHN STORE HOST NODE NO IN CET ENTRY LDM MEST+4 LOAD EQUIPMENT NUMBER FROM EST LPC 7000B EXTRACT EQUIPMENT NUMBER RAD T10+/NAM/C.CETEN ADD TO DRIVER ORDINAL LDM MEST+3 LOAD EQUIPMENT TYPE FROM EST LMC 2RND LESS VALUE FOR MDI EQUIPMENT ZJN SEST.11 EXIT IF MDI EQUIPMENT LDM MEST+0 LOAD EQUIPMENT FLAGS FROM EST SHN -9 AUTO-START MODULE FLAG TO LOW-ORDER LPN 1 EXTRACT SYSTEM AUTO-START MODULE FLAG SHN /NAM/S.CETSAM POSITION TO COUPLER TABLE FORMAT STD T10+/NAM/C.CETTN STORE SAM FLAG IN CET ENTRY UJN SEST.12 EXIT TO CONTINUE UPDATING CET ENTRY SEST.11 LDM MEST+7 BYTE CONTAINING CDCNET TERMINAL NODE NO LPC 377B EXTRACT TERMINAL NODE NUMBER SHN /NAM/S.CETTN POSITION TERMINAL NODE TO CET ENTRY POS STD T10+/NAM/C.CETTN STORE TERMINAL NODE IN CET ENTRY SEST.12 LDM MEST+3 EQUIPMENT TYPE FROM EST ADC 4000B PLUS EQUIPMENT OFF FLAG STD T10+/NAM/C.CETET STORE EQUIPMENT TYPE LDN /NAM/B.CETEC LOAD ENTRY CHANGED FLAG RAD T10+/NAM/C.CETTN SET ENTRY CHANGED FLAG LDD PAD LOAD HIGH-ORDER OF COUPLER TABLE ADDRESS SHN 12 POSITION TO HIGH-ORDER ADD PAD+1 PLUS LOW-ORDER OF COUPLER TABLE ADDRESS ADN /NAM/W.CETE DELTA FOR FIRST COUPLER TABLE ENTRY ADD T17 PLUS TABLE ORDINAL RJM ARA EXIT TO FORM ABSOLUTE CENTRAL ADDRESS CWD T10 REWRITE COUPLER TABLE ENTRY LDN /NAM/B.CETTC LOAD TABLE CHANGED FLAG STD T7 STORE TABLE CHANGED FLAG UJK SEST.7 EXIT TO CHECK FOR END OF COUPLER TABLE SEST SPACE 2,6 * STORAGE AREA. MEST BSS ESTE*5 EST ENTRY SMSGDUP DATA L$PIP - EST XXX CH/EQ NUMBER ALREADY IN USE.$ DATA 0 ZERO BYTE TERMINATOR FOR DAYFILE MESSAGE SEST0 EQU 5 POSITION OF FIRST EST DIGIT IN DAYFILE MSG SEST1 EQU 6 POSITION OF 2ND EST DIGIT IN DAYFILE MSG SMSGCH DATA L$PIP - EST XXX CHANNEL IN USE BY ANOTHER PIP.$ DATA 0 ZERO BYTE TERMINATOR FOR DAYFILE MESSAGE ARA TITLE INITIALIZATION SUBROUTINES. ARA SPACE 2,30 ** SUBROUTINE ARA. * * SUBROUTINE ARA TESTS THE RELATIVE ADDRESS CALLING * VALUE AGAINST THE FIELD LENGTH OF THE CONTROL POINT. * IF THE CALLING ADDRESS IS IN RANGE, THE REFERENCE * ADDRESS IS ADDED TO FORM THE ABSOLUTE ADDRESS. * * ENTRY - * * (A) = RELATIVE ADDRESS, * (FL) = FIELD LENGTH OF CONTROL POINT, * (RA) = REFERENCE ADDRESS OF CONTROL POINT. * * EXIT - * * (A) = ABSOLUTE ADDRESS IF IN RANGE. * * ERROR EXITS - * * ISSUE MESSAGE AND ABORT IF ADDRESS OUT OF RANGE. * * USES - * * T0-T0+4 = CONTROL POINT STATUS WORD, ** T5-T5+1 = CALLING VALUE. ARA SUBR ENTRY/EXIT MJN ARA.3 EXIT IF CALLING VALUE TOO LARGE ARA.1 SHN 18-6 CALLING VALUE DIVIDED BY 100B SBD FL LESS FIELD LENGTH DIVIDED BY 100B SHN 18-18+6 POSITION BORROW INDICATOR TO SIGN PJN ARA.2 EXIT IF CALLING VALUE OUT OF RANGE SHN 18-6 REPOSITION TO RESULT DIVIDED BY 100B ADD FL ADD BACK FIELD LENGTH DIVIDED BY 100B ADD RA PLUS REFERENCE ADDRESS DIVIDED BY 100B SHN 18-18+6 MULTIPLY BY 100B UJK ARAX RETURN ARA.2 SHN 18-6 REPOSITION TO RESULT DIVIDED BY 100B ADD FL ADD BACK FIELD LENGTH DIVIDED BY 100B SHN 18-18+6 MULTIPLY BY 100B STD T5+1 STORE LOW-ORDER OF CALLING VALUE SHN -12 POSITION HIGH-ORDER OF CALLING VALUE STD T5 STORE HIGH-ORDER OF CALLING VALUE LDD CP LOAD CONTROL POINT AREA ADDRESS ADN FLSW DELTA FOR CONTROL POINT FIELD LENGTH WORD CRD T0 READ CONTROL POINT FIELD LENGTH WORD LDD T0+4 LOAD CONTROL POINT FIELD LENGTH LMD FL LESS PREVIOUS FIELD LENGTH VALUE ZJN ARA.3 EXIT IF NO CHANGE IN FIELD LENGTH LDD T0+4 LOAD NEW FIELD LENGTH VALUE STD FL STORE NEW FIELD LENGTH VALUE LDD T5 LOAD HIGH-ORDER OF CALLING VALUE SHN 12 POSITION TO HIGH-ORDER ADD T5+1 PLUS LOW-ORDER OF CALLING VALUE UJK ARA.1 EXIT TO TEST CALLING VALUE AGAIN ARA.3 LDC AOR LOAD ADDRESS OF ADDRESS ERROR MESSAGE ARA.4 LINK ENTRY RJM DFM EXIT TO ISSUE DAYFILE MESSAGE LDN ABTM MONITOR FUNCTION TO ABORT CONTROL POINT EXIT INFL.3 EXIT TO ABORT CONTROL POINT ERRORMSG SPACE 2,6 * ERROR MESSAGES. AOR DATA L$PIP - ADDRESS OUT OF RANGE.$ DATA 0 CPE DATA L$PIP - CONTROL POINT ERROR.$ DATA 0 SEE DATA L$PIP - ERROR IN EST SCAN.$ DATA 0 ESE DATA L$PIP - NO EQUIPMENT IN EST.$ DATA 0 BTS DATA L$PIP - NAM TABLE AREA TOO SMALL.$ DATA 0 PSR SPACE 2,34 ** SUBROUTINE PSR. * * SUBROUTINE PSR CHECKS FOR A CONTROL POINT ERROR. IF * THE CONTROL POINT ERROR IS SET AN ERROR MESSAGE IS * ISSUED AND THE DRIVER DROPS. OTHERWISE A MONITOR FUNCTION * OF ZERO IS ISSUED, SO THAT PPR SUBROUTINE FTN WILL CHECK * WHETHER STORAGE MOVE IS REQUESTED FOR THIS CONTROL POINT. * IF STORAGE MOVE IS REQUESTED, FTN WILL PAUSE TO ALLOW THE * MOVE TO COMPLETE. * * ENTRY - * * (CP) = CONTROL POINT ADDRESS. * * EXIT - * * (RA) = UPDATED IF STORAGE MOVE DONE, * (FL) = UPDATED IF STORAGE MOVE DONE. * * CALLS - * * DFM - ISSUE DAYFILE MESSAGE, * FTN - PROCESS MONITOR FUNCTION. * * USES - * * T0-T0+4 = CONTROL POINT STATUS WORD, ** T0-T0+4 = STORAGE MOVE REQUEST WORD. PSR SUBR ENTRY/EXIT LDD CP LOAD CONTROL POINT AREA ADDRESS ADN STSW DELTA FOR CONTROL POINT STATUS WORD CRD T0 READ CONTROL POINT STATUS WORD LDD T0+1 LOAD CONTROL POINT ERROR FLAG ZJN PSR.1 EXIT IF NO CONTROL POINT ERROR LDC CPE LOAD ADDRESS OF ERROR MESSAGE RJM DFM EXIT TO ISSUE DAYFILE MESSAGE LDN DPPM FUNCTION TO DROP PPU RJM FTN EXIT TO ISSUE MONITOR FUNCTION EXIT PPR RETURN TO PPU RESIDENT PSR.1 LDN PRLM*0 PAUSE FOR STORAGE MOVE (IF NECESSARY) RJM FTN EXIT TO ISSUE MONITOR FUNCTION UJK PSRX RETURN INTA SPACE 2,44 ** SUBROUTINE INTA. * * SUBROUTINE INTA INITIALIZES THE NETWORK BUFFER TABLES. * THE NAM TABLE HEADER IS INITIALIZED FOR THE TABLES. * * ENTRY - * * (IR-IR+4) = PPU INPUT REGISTER IMAGE, * (CBA-CBA+1) = CURRENT NAM TABLE ENTRY ADDRESS. * * EXIT - * * (CBA-CBA+1) = NEXT NAM TABLE ENTRY ADDRESS. * * CALLS - * * INPW - INITIALIZE NAM POINTER WORD, * INTH - INITIALIZE NAM TABLE HEADER. * * SYSTEM MACRO CALLS - * * SFA - CALCULTE MANGAGE TABLE ADDRESS. * * USES - * * T7 = EQUIPMENT SCAN TABLE ADDRESS, * T1-T1+4 = EST POINTER WORD IMAGE, * T1+0 = CURRENT EST ENTRY ORDINAL * T1+2 = ENDING EST ORDINAL, * T10-T10+4 = EST ENTRY IMAGE, * T6 = CURRENT EQUIPMENT SCAN TABLE ADDRESS, * T5 = REQUESTED EQUIPMENT MNEMONIC, * T1+3 = DRIVER ORDINAL, * T1 = NETWORK BUFFER TABLE ENTRY COUNT, * T1+3 = DRIVER DEFINED FLAG INDEX, ** T1 = DRIVER INTERFACE TABLE ENTRY COUNT. INTA SUBR ENTRY/EXIT LDD IR+/NAM/C.PAD LOAD HIGH-ORDER OF PARAMETER ADDRESS SHN -6 POSITION MSS TYPE EQUIPMENT FLAG ZJN INTA.1 EXIT IF NORMAL EQUIPMENT SCAN LDN MSSEST-NOREST DELTA FOR MSS EQUIPMENT SCAN INTA.1 ADC NOREST PLUS NORMAL SCAN TABLE ADDRESS STD T7 STORE EQUIPMENT SCAN TABLE ADDRESS LDN ESTP LOAD ADDRESS OF EST POINTER WORD CRD T1 READ EST POINTER WORD LDN NOPE LOAD NUMBER OF PSEUDO EST ENTRIES STD T1+0 INITIALIZE CURRENT EST ORDINAL INTA.2 SFA EST,T1+0 CALCULATE ADDRESS OF NEXT EST ENTRY ADK EQDE PLUS OFFSET FOR EQUIPMENT DESCRIPTION WORD CRD T10 READ NEXT EQUIPMENT DESCRIPTION WORD LDD T7 LOAD EQUIPMENT TABLE SCAN ADDRESS STD T6 INITIALIZE EQUIPMENT TABLE SCAN ADDRESS INTA.3 LDI T6 LOAD NEXT EQUIPMENT TYPE TO CHECK ZJN INTA.5 EXIT IF END OF EQUIPMENT TYPE SCAN TABLE STD T5 STORE EQUIPMENT TYPE TO CHECK LDD T10+3 LOAD EQUIPMENT TYPE BYTE FROM EST LPC 3777B EXTRACT EQUIPMENT TYPE LMD T5 LESS REQUESTED EQUIPMENT TYPE MNEMONIC ZJN INTA.4 EXIT IF REQUESTED EQUIPMENT AOD T6 INCREMENT EQUIPMENT TABLE SCAN ADDRESS UJK INTA.3 EXIT TO CHECK NEXT EQUIPMENT MNEMONIC INTA.4 SFA EST,T1+0 ADDRESS OF EST ENTRY ADK EQAE OFFSET FOR SECOND WORD OF EST ENTRY CRD T10 READ SECOND WORD OF EST ENTRY LDD T10+2 BYTE CONTAINING DRIVER ORDINAL SHN -9 POSITION DRIVER ORDINAL TO LOW-ORDER LPN 7 EXTRACT DRIVER ORDINAL ZJN INTA.5 EXIT IF NO DRIVER ORDINAL SPECIFIED SBN MAXDRV+1 LESS MAXIMUM VALUE FOR DRIVER ORDINAL PJN INTA.5 EXIT IF NOT VALID DRIVER ORDINAL AOM EQPCNT INCREMENT EQUIPMENT FOUND COUNT INTA.5 AOD T1+0 INCREMENT CURRENT EST ORDINAL LMD T1+2 LESS ENDING EST ORDINAL NJN INTA.2 EXIT IF NOT END OF EST LDM EQPCNT LOAD COUNT OF EQUIPEMENT FOUND SBN MAXEQP+1 LESS MAXIMUM EQUIPMENT COUNT MJN INTA.6 EXIT IF FOUND COUNT LESS EQUAL MAXIMUM LCN 1 CONSTANT OF MINUS ONE INTA.6 ADN MAXEQP+1 PLUS MAXIMUM EQUIPMENT COUNT STM NBTHDR+/NAM/C.NBTEC SET FREE TABLE ENTRY COUNT STD T1 STORE COUNT OF NETWORK BUFFER TABLE ENTRIES INTA.7 ZJN INTA.8 EXIT IF ALL NETWORK TABLE ENTRIES COUNTED LDN /NAM/L.NBTE LOAD LENGTH OF NETWORK BUFFER TABLE ENTRY RAM NBTHDR+/NAM/C.BWD+1 INCREMENT BLOCK SIZE LENGTH SOD T1 DECREMENT COUNT OF NETWORK TABLE ENTRIES UJK INTA.7 EXIT TO CHECK FOR ALL ENTRIES PROCESSED INTA.8 LDN /NAM/W.NBTP OFFSET FOR NETWORK BUFFER TABLE POINTER RJM INPW EXIT TO INITIALIZE NAM POINTER WORD LDM NBTHDR+/NAM/C.BWD+1 LENGTH OF NETWORK BUFFER TABLES RAD CBA+1 INCREMENT LOW-ORDER CURRENT BUFFER ADDRESS SHN -12 POSITION POSSIBLE CARRY RAD CBA ADD TO HIGH-ORDER CURRENT BUFFER ADDRESS LDC NBTHDR LOAD ADDRESS OF NAM TABLE HEADER STD T10 STORE ADDRESS OF NAM TABLE HEADER LDN /NAM/L.BH LOAD LENGTH OF NAM TABLE HEADER STD T11 STORE LENGTH OF NAM TABLE HEADER LDN /NAM/Q.NBTID LOAD NAM TABLE ID RJM INTH EXIT TO INITIALIZE NAM TABLE HEADER UJK INTAX RETURN NBTHDR SPACE 2,6 * NETWORK BUFFER TABLE HEADER. NBTHDR CON ** BLOCK ID CON /NAM/L.BH+** BLOCK SIZE CON ** NUMBER OF FREE ENTRIES CON 0,0 STORAGE SPACE 2,6 * STORAGE AREA. EQPCNT BSSZ 1 EQUIPMENT FOUND COUNT NOREST SPACE 2,6 * NORMAL EQUIPMENT TYPE SCAN TABLE. NOREST BSS 0 NORMAL EQUIPMENT TYPE SCAN TABLE CON 2RND FRONT END TYPE MDI CON 2RNP FRONT END TYPE NPU CON 0 TEMINATE EQUIPMENT TYPE SCAN TABLE MSSEST SPACE 2,6 * MSS EQUIPMENT TYPE SCAN TABLE. MSSEST BSS 0 MSS EQUIPMENT TYPE SCAN TABLE CON 2RNQ FRONT END TYPE MSS CON 0 TERMINATE EQUIPMENT TYPE SCAN TABLE ICET SPACE 2,46 ** SUBROUTINE ICET. * * SUBROUTINE ICET INITIALIZES THE NAM COUPLER EQUIPMENT * TABLE. THE SYSTEM EQUIPMENT STATUS TABLE IS SCANNED * AND AN ENTRY IS GENERATED IN THE COUPLER EQUIPMENT * TABLE FOR EACH SPECIFIED FRONT END ENTRY IN THE * EQUIPMENT STATUS TABLE. AFTER ALL EQUIPMENT ENTRIES * ARE BUILT THE NAM POINTER WORD AND TABLE HEADER ARE * INITIALIZED. * * ENTRY - * * (IR-IR+4) = PPU INPUT REGISTER IMAGE, * (CBA-CBA+1) = CURRENT NAM TABLE ENTRY ADDRESS. * * ERROR EXITS - * * ISSUE MESSAGE AND ABORT IF NO FRONT END EQUIPMENT. * * CALLS - * * INPW - INITIALIZE NAM POINTER WORD, * INTH - INITIALIZE NAM TABLE HEADER, * ARA - FORM ABSOLUTE CENTRAL ADDRESS. * * SYSTEM MACRO CALLS - * * SFA - CALCULATE MANAGED TABLE ADDRESS. * * USES - * * T17 = EQUIPMENT SCAN TABLE ADDRESS, * T0-T0+4 = EST POINTER WORD IMAGE, * T5 = REQUESTED EQUIPMENT MNEMONIC, * T15 = CURRENT EST ENTRY ORDINAL, * T16 = ENDING EST ORDINAL, * T7 = EQUIPMENT FOUND COUNT, * T0-T0+4 = EST ENTRY IMAGE, * T6 = DRIVER ORDINAL, ** T10-T1O+4 = COUPLER EQUIPMENT TABLE ENTRY IMAGE. ICET SUBR ENTRY/EXIT LDD IR+/NAM/C.PAD LOAD HIGH-ORDER OF PARAMETER ADDRESS SHN -6 POSITION MSS TYPE EQUIPMENT FLAG ZJN ICET.1 EXIT IF NORMAL EQUIPMENT SCAN LDN MSSEST-NOREST DELTA FOR MSS EQUIPMENT SCAN ICET.1 ADC NOREST PLUS NORMAL SCAN TABLE ADDRESS STD T17 STORE EQUIPMENT SCAN TABLE ADDRESS LDN /NAM/W.CETE LOAD LENGTH OF NAM TABLE HEADER RAD CBA+1 ADD TO LOW-ORDER OF CURRENT BUFFER ADDRESS SHN -12 POSITION POSSIBLE CARRY RAD CBA ADD TO HIGH-ORDER OF CURRENT BUFFER ADDRESS LDN ESTP LOAD ADDRESS OF EST POINTER WORD CRD T0 READ EST POINTER WORD LDN NOPE LOAD NUMBER OF PSEUDO EST ENTRIES STD T15 INITIALIZE CURRENT EST ORDINAL LDD T0+2 LOAD ENDING EST ORDINAL STD T16 STORE ENDING EST ORDINAL LDN 0 CONSTANT OF ZERO STD T7 INITIALIZE EQUIPMENT FOUNT COUNT ICET.2 SFA EST,T15 CALCULATE ADDRESS OF NEXT EST ENTRY ADK EQDE PLUS OFFSET FOR EQUIPMENT DESCRIPTION WORD CRD T0 READ NEXT EQUIPMENT DECRIPTION WORD ADK EQAE SECOND WORD OF EST ENTRY CRD T10 READ SECOND WORD OF EST ENTRY LDD T10+2 BYTE CONTAINING DRIVER ORDINAL SHN -9 RIGHT JUSTIFY DRIVER ORDINAL STD T6 SAVE DRIVER ORDINAL LDD T10+2 BYTE CONTAINING CDCNET TERMINAL NODE NO LPC 377B EXTRACT CDCNET TERMINAL NODE NUMBER STM ICET.10+1 CHANGE INSTRUCTION TO LDC TERMINAL NODE NO LDD T17 LOAD EQUIPMENT TABLE SCAN ADDRESS STD T10 INITIALIZE EQUIPMENT TABLE SCAN ADDRESS ICET.3 LDI T10 LOAD NEXT EQUIPMENT TYPE TO CHECK ZJN ICET.4 EXIT IF END OF EQUIPMENT TYPE SCAN TABLE STD T5 STORE EQUIPMENT TYPE TO CHECK LDD T0+3 LOAD EQUIPMENT TYPE BYTE FROM EST LPC 3777B EXTRACT EQUIPMENT TYPE LMD T5 LESS REQUESTED EQUIPMENT TYPE MNEMONIC ZJN ICET.6 EXIT IF REQUESTED EQUIPMENT AOD T10 INCREMENT EQUIPMENT TABLE SCAN ADDRESS UJK ICET.3 EXIT TO CHECK NEXT EQUIPMENT MNEMONIC ICET.4 AOD T15 INCREMENT CURRENT EST ORDINAL LMD T16 LESS ENDING EST ORDINAL NJN ICET.2 EXIT IF NOT END OF EST LDD T7 LOAD EQUIPMENT FOUNT COUNT NJN ICET.5 EXIT IF EQUIPMENT FOUND LDC ESE LOAD ADDRESS OF EST ERROR MESSAGE EXIT ARA.4 EXIT TO ISSUE ERROR MESSAGE ICET.5 STM CETHDR+/NAM/C.CETEC STORE EQUIPMENT OFF ENTRY COUNT ADN /NAM/W.CETE PLUS LENGTH OF NAM TABLE HEADER STM CETHDR+/NAM/C.BWD+1 STORE NAM TABLE LENGTH LDN /NAM/W.CETP OFFSET FOR COUPLER EQUIPMENT TABLE POINTER RJM INPW EXIT TO INITIALIZE NAM POINTER WORD LDC CETHDR LOAD ADDRESS OF NAM TABLE HEADER STD T10 STORE ADDRESS OF NAM TABLE HEADER LDN /NAM/W.CETE LOAD LENGTH OF NAM TABLE HEADER STD T11 STORE LENGTH OF NAM TABLE HEADER LDN /NAM/Q.CETID LOAD NAM TABLE ID RJM INTH EXIT TO INITIALIZE NAM TABLE HEADER UJK ICETX RETURN ICET.6 LDD T6 DRIVER ORDINAL NJN ICET.8 EXIT IF DRIVER SPECIFIED ICET.7 UJK ICET.4 EXIT TO CHECK FOR END OF EST ICET.8 SBN MAXDRV+1 MAXIMUM VALUE FOR DRIVER ORDINAL PJN ICET.7 EXIT IF NOT VALID DRIVER ORDINAL LDD T6 LOAD DRIVER ORDINAL STD T10+/NAM/C.CETDOR STORE DRIVER ORD IN CET ENTRY LDD T0+1 BYTE CONTAINING CHANNEL NO FROM EST ENTRY LPC 37B EXTRACT CHANNEL NUMBER SHN /NAM/S.CETCH POSITION CHANNEL NO TO CET ENTRY POSITION RAD T10+/NAM/C.CETCH STORE CHANNEL NO IN CET ENTRY LDD T0+4 BYTE CONTAINING HOST NODE NO FROM EST ENTRY LPC /NAM/L.CETHN EXTRACT HOST NODE NUMBER STD T10+/NAM/C.CETHN STORE HOST NODE NO IN CET ENTRY LDD T0+4 LOAD EQUIPMENT NUMBER FROM EST LPC 7000B EXTRACT EQUIPMENT NUMBER RAD T10+/NAM/C.CETEN ADD TO DRIVER ORDINAL LDD T15 LOAD CURRENT EST ORDINAL STD T10+/NAM/C.CETEST STORE EST ORDINAL LDD T0 EQUIPMENT STATUS BYTE LPN 3 EXTRACT EQUIPMENT STATUS SBN 2 SUBTRACT STATUS VALUE FOR EQUIPMENT OFF ZJN ICET.9 EXIT IF EQUIPMENT TURNED OFF LDN 1 VALUE FOR INITIALLY ON FLAG SHN /NAM/S.CETIO POSITION INITIALLY ON FLAG FOR CET RAD T10+/NAM/C.CETEST ADD INITIALLY ON FLAG TO EST ORDINAL ICET.9 BSS 0 LDD T0+3 LOAD EQUIPMENT TYPE FROM EST LPC 3777B EXTRACT EQUIPMENT TYPE ADC 4000B PLUS EQUIPMENT OFF FLAG STD T10+/NAM/C.CETET STORE EQUIPMENT TYPE LMC 2RND+1S11 VALUE FOR OFF CDCNET EQUIPMENT ZJN ICET.10 EXIT IF CDCNET FRONT END LDD T0+0 BYTE CONTAINING SYSTEM AUTO-START MODULE (SAM) FLAG SHN -9 RIGHT JUSTIFY SAM FLAG LPN 1 EXTRACT SAM FLAG SHN /NAM/S.CETSAM POSITION FOR CET ENTRY STD T10+/NAM/C.CETTN STORE SAM FLAG IN CET ENTRY UJN ICET.11 EXIT TO SKIP STORING TERMINAL NODE NO ICET.10 LDC 0 LDC TERMINAL NODE NO (INSTRUCTION CHANGED) SHN /NAM/S.CETTN POSITION TERMINAL NODE TO CET ENTRY POS STD T10+/NAM/C.CETTN STORE TERMINAL NODE IN CET ENTRY ICET.11 LDD CBA HIGH ORDER OF CURRENT BUFFER ADDRESS SHN 12 POSITION TO HIGH-ORDER ADD CBA+1 PLUS LOW-ORDER OF CURRENT BUFFER ADDRESS RJM ARA EXIT TO FORM ABSOLUTE CENTRAL ADDRESS CWD T10 WRITE OUT COUPLER EQUIPMENT TABLE ENTRY AOD CBA+1 INCREMENT LOW-ORDER OF CURRENT BUFFER ADDRESS SHN -12 POSITION POSSIBLE CARRY RAD CBA ADD TO HIGH-ORDER CURRENT BUFFER ADDRESS AOD T7 INCREMENT EQUIPMENT FOUND COUNT UJK ICET.4 EXIT TO CHECK FOR END OF EST CETHDR SPACE 2,6 * COUPLER EQUIPMENT TABLE HEADER. CETHDR CON ** BLOCK ID CON ** BLOCK SIZE CON ** NUMBER OF OFF ENTRIES CON 0,0 CON 0,0,0,0 CON 1 DRIVER COMPLETED FLAG PSDO SPACE 2,36 ** SUBROUTINE PSDO. * * SUBROUTINE PSDO PRESETS THE DRIVER OVERLAY AREA IN * THE FIELD LENGTH OF NAM BY COPYING THE TRANSIENT * DRIVER OVERLAYS TO THE DRIVER OVERLAY AREA. THE * OVERLAY POINTER WORDS USED TO LOCATE THE OVERLAYS * ARE INITIALIZED AND ARE STORED AT THE BEGINNING OF * THE DRIVER OVERLAY AREA. THE POINTER WORD TO THE * OVERLAY POINTER WORDS IS INITIALIZED. * * ENTRY - * * (CBA-CBA+1) = CURRENT NAM TABLE ENTRY ADDRESS, * (LBA-LBA+1) = LAST AVAILABLE TABLE POSITION, * (CP) = CONTROL POINT AREA ADDRESS, * (IA) = PPU INPUT REGISTER ADDRESS. * * ERROR EXITS - * * ISSUE MESSAGE AND ABORT IF TABLE SPACE TOO SMALL. * * CALLS - * * ARA - FORM ABSOLUTE CENTRAL ADDRESS, * LCDO - LOAD CENTRAL DRIVER OVERLAY, * INTH - INITIALIZE NAM TABLE HEADER. * * USES - * * T10-T10+4 = OVERLAY AREA POINTER WORD, ** OTI = DRIVER OVERLAY NAME TABLE INDEX. PSDO SUBR ENTRY/EXIT LDD CBA LOAD HIGH-ORDER OF CURRENT BUFFER ADDRESS SHN 12 POSITION TO HIGH-ORDER ADD CBA+1 PLUS LOW-ORDER OF CURRENT BUFFER ADDRESS ADN /NAM/L.BH PLUS LENGTH OF NAM BLOCK HEADER ADN N.COV PLUS NUMBER OF OVERLAY POINTER WORDS ADC L.COA+1 PLUS LENGTH OF OVERLAY TABLE AREA SBD LBA+1 LESS LOW-ORDER OF LAST AVAILABLE ADDRESS SHN -12 POSITION HIGH-ORDER OF RESULT SBD LBA LESS HIGH-ORDER OF LAST AVAILABLE ADDRESS MJN PSDO.1 EXIT IF SPACE FOR DRIVER OVERLAYS LDC BTS LOAD ADDRESS OF BUFFER ERROR MESSAGE EXIT ARA.4 EXIT TO ISSUE ERROR MESSAGE PSDO.1 LDN ZERL LOAD ADDRESS OF ZERO WORD CRD T10 ZERO OVERLAY POINTER WORD IMAGE LDN /NAM/L.BH LOAD LENGTH OF NAM BLOCK HEADER RAD CBA+1 ADD TO LOW-ORDER OF CURRENT BUFFER ADDRESS STD T10+/NAM/C.DPT+1 STORE LOW-ORDER OF FIRST POINTER SHN -12 POSITION POSSIBLE CARRY RAD CBA ADD TO HIGH-ORDER OF CURRENT BUFFER ADDRESS STD T10+/NAM/C.DPT STORE HIGH-ORDER OF FIRST POINTER LDN /NAM/W.DOVA LOAD ADDRESS OF OVERLAY POINTER WORD RJM ARA EXIT TO FORM ABSOLUTE CENTRAL ADDRESS CWD T10 WRITE OUT OVERLAY AREA POINTER WORD LDN N.COV LOAD NUMBER OF DRIVER CENTRAL OVERLAYS RAD CBA+1 ADD TO LOW-ORDER OF CURRENT BUFFER ADDRESS SHN -12 POSITION POSSIBLE CARRY RAD CBA ADD TO HIGH-ORDER OF CURRENT BUFFER ADDRESS LDD CP LOAD CONTROL POINT ADDRESS SHN -7 POSITION TO FORM CONTROL POINT NUMBER RAM OLDR+1 ADD TO OVERLAY CALL IMAGE LDD IA LOAD THIS PPU INPUT REGISTER ADDRESS STM OLDR+2 STORE INTO OVERLAY CALL IMAGE LDN 0 CONSTANT OF ZERO STD T15 INITIALIZE TABLE TEXT INDEX STD OTI INITIALIZE OVERLAY NAME TABLE INDEX LDC OVBUF+1*5 DELTA TO BYPASS HEADER FOR TABLE OVERLAY STD T17 INITIALIZE SOURCE TEXT ADDRESS LDC TBLBUF LOAD ADDRESS OF TEXT TEXT BUFFER STM WOT.LDA+1 STORE TEXT BUFFER ADDRESS LDC LTOV LOAD ADDRESS OF TABLE TEXT PROCESSOR PSDO.2 STM LCDO.OTP+1 STORE ADDRESS OF OVERLAY TEXT PROCESSOR LDM ONT,OTI LOAD HIGH-ORDER OF NEXT DRIVER OVERLAY NAME ZJN PSDO.3 EXIT IF ALL OVERLAYS PROCESSED LDD CBA LOAD HIGH-ORDER OF OVERLAY ADDRESS STM ONT+/NAM/C.DOAOA,OTI STORE HIGH-ORDER OF ADDRESS LDD CBA+1 LOAD LOW-ORDER OF OVERLAY ADDRESS STM ONT+/NAM/C.DOAOA+1,OTI STORE LOW-ORDER OF ADDRESS LDM ONT+1,OTI LOAD LOW-ORDER OF OVERLAY NAME SHN 6 POSITION LOW-ORDER OF OVERLAY NAME ADM ONT,OTI PLUS HIGH-ORDER OF OVERLAY NAME SHN 6 POSITION OVERLAY NAME RJM LCDO EXIT TO LOAD DRIVER CENTRAL OVERLAY LDN 5 CONSTANT OF FIVE RAD OTI INCREMENT DRIVER OVERLAY NAME TABLE INDEX LDM DDOC LOAD COUNT OF DEVICE DEPENDENT OVERLAYS NJN PSDO.4 EXIT IF LOADING DEVICE DEPENDENT OVERLAY LDC OVBUF LOAD ADDRESS OF OVERLAY TEXT BUFFER STM WOT.LDA+1 STORE TEXT BUFFER ADDRESS LDC LDOV LOAD ADDRESS OF OVERLAY TEXT PROCESSOR UJK PSDO.2 EXIT TO STORE ADDRESS OF TEXT PROCESSOR PSDO.3 LDC DOAHDR LOAD ADDRESS OF NAM TABLE HEADER STD T10 STORE ADDRESS OF NAM TABLE HEADER LDN L.DOAHDR LOAD LENGTH OF NAM TABLE HEADER STD T11 STORE LENGTH OF NAM TABLE HEADER LDN /NAM/Q.DOAID LOAD NAM TABLE ID RJM INTH EXIT TO INITIALIZE NAM TABLE HEADER UJK PSDOX RETURN PSDO.4 SOM DDOC DECREMENT COUNT OF DEVICE OVERLAYS TO LOAD LDC OVBUF+1*5 DELTA TO BYPASS HEADER FOR DEVICE OVERLAY STM WOT.LDA+1 STORE TEXT BUFFER ADDRESS LDC LDDO ADDRESS OF DEVICE OVERLAY TEXT PROCESSOR UJK PSDO.2 EXIT TO STORE ADDRESS OF TEXT PROCESSOR DDOC SPACE 2,6 * DEVICE DEPENDENT OVERLAY COUNT. DDOC CON 1+#1IP-#1IL COUNT OF DEVICE DEPENDENT OVERLAYS DOAHDR SPACE 2,12 ** DRIVER OVERLAY AREA HEADER. * * THE DRIVER OVERLAY AREA HEADER CONTAINS THE NAM TABLE * HEADER IMAGE PLUS THE DRIVER OVERLAY NAME TABLE. * THE DRIVER OVERLAY NAME TABLE IS USED TO IDENTIFY THE * DRIVER OVERLAYS THAT ARE LOADED INTO THE OVERLAY AREA ** AND TO BUILD THE POINTER WORDS TO THE DRIVER OVERLAYS. DOAHDR CON ** BLOCK ID .1 SET /NAM/L.BH .1 SET .1+N.OPW+L.COA-1-#1IP+#1IL CON .1 BLOCK SIZE CON 0,0,0 ONT BSS 0 OVERLAY NAME AND POINTER TABLE "ONT" .1 SET *-DOAHDR L.DOAHDR EQU .1/5 CENTRAL LENGTH OF OVERLAY AREA HEADER CON 0 TERMINATE OVERLAY NAME TABLE LCDO SPACE 2,38 ** SUBROUTINE LCDO. * * SUBROUTINE LCDO LOADS DRIVER OVERLAYS BY CALLING THE * PPU OVERLAY LOADER AND ACCEPTING THE OVERLAY TEXT * THROUGH THE PPU MESSAGE BUFFER. THE DRIVER OVERLAY * TEXT PROCESSOR IS CALLED AFTER EACH TRANSFER TO DISPOSE * OF THE OVERLAY TEXT. * * ENTRY - * * (A) = OVERLAY NAME, * (IA) = PPU INPUT REGISTER ADDRESS, * (MA) = PPU MESSAGE BUFFER ADDRESS, * (ZR-ZR+4) = CENTRAL WORD OF ZERO, * (LCDO.OTP+1) = ADDRESS OF OVERLAY TEXT PROCESSOR. * * CALLS - * * FTN - REQUEST PPU PROGRAM, * PSR - PAUSE FOR STORAGE RELOCATION. * * PROCESSOR CALLS - * * DRIVER OVERLAY TEXT PROCESSOR. * * USES - * * LIR = ADDRESS OF LOADER PPU INPUT REGISTER, * T10-T10+4 = LOADER PPU INPUT REGISTER, * T10-T10+4 = LOADER PPU OUTPUT REGISTER, * T10-T10+4 = THIS PPU OUTPUT REGISTER, ** T1 = CENTRAL WORD COUNT. LCDO SUBR ENTRY/EXIT STM OLDR+3+1 STORE LOW-ORDER OF OVERLAY NAME SHN -12 POSITTION HIGH-ORDER OF OVERLAY NAME STM OLDR+3 STORE HIGH-ORDER OF OVERLAY NAME LDD MA LOAD ADDRESS OF THIS PPU MESSAGE BUFFER CWM OLDR,ON WRITE OUT LOADER CALL IMAGE LCDO.1 RJM PSR EXIT TO PAUSE FOR STORAGE RELOCATION LDN 1 SET PRIORITY AND NO DROP OPTION STD T10+1 SET NO DROP OPTION LDK RPPM LOAD MONITOR FUNCTION TO REQUEST PPU RJM FTN EXIT TO REQUEST LOADER PPU LDD T10+1 LOAD REPLY BYTE ZJN LCDO.1 EXIT IF PPU NOT AVAILABLE STD LIR STORE ADDRESS OF LOADER PPU INPUT REGISTER LCDO.2 RJM PSR EXIT TO PAUSE FOR STORAGE RELOCATION LDN 77B LOAD DELAY COUNT SBN 1 DECREMENT DELAY COUNT NJN *-1 LOOP IF DELAY NOT EXPIRED LDD LIR LOAD ADDRESS OF LOADER PPU INPUT REGISTER CRD T10 READ LOADER PPU INPUT REGISTER LDD T10+1 LOAD CONTROL POINT BYTE FROM LOADER LMM OLDR+1 LESS VALUE FOR LOADER PPU NJN LCDO.1 EXIT IF LOADER TIMED OUT LDD T10+2 LOAD LOADER STATUS BYTE LMC 7777B LESS READY VALUE NJN LCDO.2 EXIT IF LOADER NOT READY LCDO.2A STD T10+2 SET REPLY TO READY STATUS LDD OA LOAD ADDRESS OF THIS PPU OUTPUT REGISTER CWD ZR SET READY FOR DATA LDD LIR LOAD ADDRESS OF LOADER PPU INPUT REGISTER CWD T10 REWRITE LOADER PPU INPUT REGISTER LCDO.3 LDD LIR LOAD ADDRESS OF LOADER PPU INPUT REGISTER ADN 1 PLUS ONE FOR LOADER OUTPUT REGISTER CRD T10 READ LOAD OUTPUT REGISTER LDD T10 LOAD LOADER PPU REQUEST BYTE LMN DSWM LESS VALUE FOR DRIVER SEEK WAIT ZJN LCDO.2 EXIT IF LOADER PAUSING LMN DSWM&PRLM CHECK FOR LOADER PPU PAUSING ZJN LCDO.2 EXIT IF LOADER PAUSING LDD LIR LOAD ADDRESS OF LOADER PPU INPUT REGISTER CRD T10 READ LOAD PPU INPUT REGISTER LDD T10+2 LOAD LOADER STATUS BYTE LMC 7777B CHECK FOR TRANSFER RESYNCHRONISATION ZJN LCDO.2A EXIT IF TRANSFER RESYNCHRONISED LCDO.4 LDN 77B LOAD DELAY COUNT SBN 1 DECREMENT DELAY COUNT NJN *-1 LOOP IF DELAY NOT EXPIRED LCDO.5 LDD OA LOAD ADDRESS OF THIS OUTPUT REGISTER CRD T10 READ THIS PPU OUTPUT REGISTER LDD T10+4 LOAD CENTRAL WORD COUNT BYTE ZJN LCDO.3 EXIT IF LOADER NOT READY LPN 77B EXTRACT CENTRAL WORD COUNT STD T1 STORE CENTEAL WORD COUNT ZJN LCDO.6 EXIT IF END OF OVERLAY LDD MA LOAD ADDRESS OF THIS PPU MESSAGE BUFFER CRM OVBUF,T1 READ OVERLAY TEXT LDD OA LOAD ADDRESS OF THIS PPU OUTPUT REGISTER CWD ZR SET DATA ACCEPTED LCDO.6 LDD T1 LOAD CENTRAL WORD COUNT LCDO.OTP RJM ** EXIT TO OVERLAY TEXT PROCESSOR NJN LCDO.5 EXIT IF NOT END OF LOAD UJK LCDOX RETURN OLDR SPACE 2,6 * OVERLAY LOADER CALL IMAGE. OLDR VFD 18/OV.1DL VFD 6/** CONTROL POINT NUMBER VFD 12/** THIS PPU INPUT REGISTER VFD 6/0 VFD 18/** OVERLAY NAME TO BE LOADED WOT SPACE 2,22 ** SUBROUTINE WOT. * * SUBROUTINE WOT WRITES OVERLAY TEXT TO CENTRAL MEMORY. * * ENTRY - * * (A) = CENTRAL WORD COUNT, * (CBA-CBA+1) = CURRENT CENTRAL ADDRESS, * (WOT.LDA+1) = OVERLAY TEXT BUFFER ADDRESS. * * EXIT - * * (CBA-CBA+1) = UPDATED FOR NEXT CENTRAL ADDRESS. * * CALLS - * ** ARA - FORM ABSOLUTE CENTRAL ADDRESS. WOT SUBR ENTRY/EXIT STD T7 STORE CENTRAL WORD COUNT LDD CBA LOAD HIGH-ORDER OF CENTRAL ADDRESS SHN 12 POSITION TO HIGH-ORDER ADD CBA+1 PLUS LOW-ORDER OF CENTRAL ADDRESS ADD T7 PLUS CENTRAL WORD COUNT RJM ARA EXIT TO FORM ABSOLUTE CENTRAL ADDRESS SBD T7 LESS CENTRAL WORD COUNT WOT.LDA CWM **,T7 WRITE OUT OVERLAY TEXT TO CENTRAL MEMORY LDD T7 LOAD CENTRAL WORD COUNT RAD CBA+1 ADD TO LOW-ORDER OF CENTRAL ADDRESS SHN -12 POSITION CARRY RAD CBA ADD TO HIGH-ORDER OF CENTRAL ADDRESS UJK WOTX RETURN LTOV TITLE OVERLAY TEXT PROCESSORS. LTOV SPACE 2,32 ** OVERLAY TEXT PROCESSOR LTOV. * * OVERLAY TEXT PROCESSOR LTOV WRITES THE DRIVER CONTROL * TABLE TEXT TO CENTRAL MEMORY. THE DRIVER CONTROL TABLE * TEXT IS WRITTEN FOUR BYTES PER CENTRAL MEMORY WORD. * * ENTRY - * * (A) = CENTRAL WORD COUNT OF TEXT, * (T17) = SOURCE TEXT ADDRESS, * (T15) = TABLE TEXT INDEX, * (TBLBUF+(T15)) = RESIDUAL TABLE TEXT. * * EXIT - * * (A) = ZERO IF END OF OVERLAY, * (T17) = RESET FOR SOURCE TEXT ADDRESS, * (T15) = TABLE TEXT INDEX, * (TBLBUF+(T15)) = RESIDUAL TABLE TEXT. * * CALLS - * * WOT - WRITE OVERLAY TABLE TO CENTRAL MEMORY. * * USES - * ** T16 = ENDING SOURCE TEXT ADDRESS. LTOV SUBR ENTRY/EXIT NJN LTOV.0 EXIT IF NOT END OF OVERLAY TEXT LDD T15 LOAD OVERLAY TEXT INDEX ZJN LTOVX RETURN IF NO RESIDUAL TABLE DATA LJM LTOV.4 EXIT TO PROCESS RESIDUAL TABLE DATA LTOV.0 STD T16 STORE CENTRAL WORD COUNT OF TEXT SHN 2 CENTRAL WORD COUNT TIMES FOUR ADD T16 CENTRAL WORD COUNT TIMES FIVE ADC OVBUF PLUS FWA OF OVERLAY TEXT BUFFER STD T16 STORE ENDING OVERLAY TEXT ADDRESS LTOV.1 LDI T17 LOAD NEXT OVERLAY TEXT BYTE STM TBLBUF,T15 STORE NEXT OVERLAY TABLE BYTE AOD T15 INCREMENT OVERLAY TABLE INDEX LMN 3+1 LESS ENDING VALUE NJN LTOV.2 EXIT IF OVERLAY TABLE WORD NOT COMPLETED STD T15 RESET OVERLAY TABLE INDEX LDN 1 CONSTANT OF ONE RJM WOT EXIT TO WRITE OVERLAY TABLE TO CENTRAL LDM TBLBUF+/NAM/C.QUOT LOAD PREVIOUS QUOT AND DEFICIT LPN /NAM/M.DEFC EXTRACT DEFICIT COUNT NJN LTOV.1B EXIT IF DEFICIT COUNT IS NON-ZERO LDN 15B CONSTANT FOR QUOT AND DEFICIT RAM TBLBUF+/NAM/C.QUOT BUMP QUOT AND INITIALIZE DEFICIT LTOV.1B SOM TBLBUF+/NAM/C.QUOT DECREMENT DEFICIT COUNT LTOV.2 AOD T17 INCREMENT OVERLAY TEXT ADDRESS LMD T16 LESS ENDING OVERLAY TEXT ADDRESS NJN LTOV.1 EXIT IF NOT END OF OVERLAY TEXT LDC OVBUF LOAD ADDRESS OF OVERLAY BUFFER STD T17 RESET OVERLAY TEXT ADDRESS UJK LTOVX RETURN LTOV.4 LDN 0 CONSTANT OF ZERO STM TBLBUF,T15 ZERO NEXT TABLE BYTE AOD T15 INCREMENT OVERLAY TABLE INDEX LMN 3+1 LESS ENDING VALUE NJN LTOV.4 EXIT IF OVERLAY TABLE WORD NOT COMPLETED LDN 1 CONSTANT OF ONE RJM WOT EXIT TO WRITE OVERLAY TABLE TO CENTRAL LDN 0 CONSTANT OF ZERO UJK LTOVX RETURN LDDO SPACE 2,22 ** OVERLAY TEXT PROCESSOR LDDO. * * OVERLAY TEXT PROCESSOR LDDO WRITES THE FIRST PORTION * OF THE DEVICE DEPENDENT OVERLAY TO CENTRAL MEMORY * BYPASSING THE HEADER WORD. AFTER THE FIRST PORTION OF * THE DEVICE DEPENDENT OVERLAY IS WRITTEN THE TRANSIENT * OVERLAY TEXT PROCESSOR IS USED TO WRITE THE REMAINDER * OF THE DEVICE DEPENDENT OVERLAY TO CENTRAL MEMORY. * * ENTRY - * * (A) = CENTRAL WORD COUNT OF TEXT. * * CALLS - * ** WOT - WRITE OVERLAY TEXT TO CENTRAL MEMORY. LDDO SUBR ENTRY/EXIT SBN 1 LESS ONE FOR HEADER WORD RJM WOT EXIT TO WRITE OVERLAY TEXT TO CENTRAL LDC OVBUF LOAD ADDRESS OF OVERLAY TEXT BUFFER STM WOT.LDA+1 STORE TEXT BUFFER ADDRESS LDC LDOV LOAD ADDRESS OF OVERLAY TEXT PROCESSOR STM LCDO.OTP+1 STORE ADDRESS OF OVERLAY TEXT PROCESSOR UJK LDDOX RETURN LDOV SPACE 2,22 ** OVERLAY TEXT PROCESSOR LDOV. * * OVERLAY TEXT PROCESSOR LDOV WRITES THE DRIVER * TRANSIENT OVERLAY TEXT TO CENTRAL MEMORY. * * ENTRY - * * (A) = CENTRAL WORD COUNT OF TEXT. * * EXIT - * * (A) = ZERO IF END OF OVERLAY. * * CALLS - * ** WOT - WRITE OVERLAY TEXT TO CENTRAL MEMORY. LDOV SUBR ENTRY/EXIT ZJN LDOVX RETURN IF END OF OVERLAY RJM WOT EXIT TO WRITE OVERLAY TEXT TO CENTRAL LDN 1 CONSTANT OF ONE UJK LDOVX RETURN INPW TITLE INITIALIZATION SUBROUTINES. INPW SPACE 2,24 ** SUBROUTINE INPW. * * SUBROUTINE INPW WRITES THE SPECIFIED NAM * POINTER WORD TO THE NAM POINTER WORD TABLE. * * ENTRY - * * (A) = POINTER WORD OFFSET, * (FBA-FBA+1) = TABLE HEADER ADDRESS. * * CALLS - * * ARA - FORM ABSOLUTE CENTRAL ADDRESS. * * USES - * * T15 = POINTER WORD OFFSET, * T10-T10+4 = POINTER WORD IMAGE, ** T0-T0+4 = NAM POINTER TABLE ADDRESS WORD. INPW SUBR ENTRY/EXIT STD T15 STORE POINTER WORD OFFSET LDN ZERL LOAD ADDRESS OF ZERO WORD CRD T10 ZERO POINTER WORD IMAGE LDD FBA LOAD HIGH-ORDER OF TABLE HEADER ADDRESS STD T10+/NAM/C.DPT STORE HIGH-ORDER OF TABLE POINTER LDD FBA+1 LOAD LOW-ORDER OF TABLE HEADER ADDRESS STD T10+/NAM/C.DPT+1 STORE LOW-ORDER OF TABLE POINTER LDN /NAM/W.NPTA LOAD ADDRESS OF NAM POINTER TABLE ADDRESS RJM ARA EXIT TO FORM ABSOLUTE CENTRAL ADDRESS CRD T0 READ NAM POINTER TABLE ADDRESS WORD LDD T0+/NAM/C.DPT LOAD HIGH-ORDER OF POINTER TABLE ADDRESS SHN 12 POSITION TO HIGH-ORDER ADD T0+/NAM/C.DPT+1 PLUS LOW-ORDER OF POINTER TABLE ADDRESS ADD T15 PLUS POINTER WORD OFFSET RJM ARA EXIT TO FORM ABSOLUTE CENTRAL ADDRESS CWD T10 WRITE OUT NAM POINTER WORD UJK INPWX RETURN INTH SPACE 2,32 ** SUBROUTINE INTH. * * SUBROUTINE INTH INITIALIZES THE NAM TABLE HEADER FOR * THE NAM TABLE CURRENTLY BEING BUILT AND UPDATES THE * CURRENT BUFFER ADDRESS FOR THE NEXT TABLE. * * ENTRY - * * (A) = NAM TABLE ID, * (T10) = ADDRESS OF NAM TABLE HEADER IMAGE, * (T11) = LENGTH OF NAM TABLE HEADER IMAGE, * (FBA-FBA+1) = ADDRESS OF CURRENT TABLE HEADER, * (CBA-CBA+1) = ADDRESS OF NEXT AVAILABLE POSITION, * (LBA-LBA+1) = LAST AAVAILABLE TABLE POSITION. * * EXIT - * * (FBA-FBA+1) = ADDRESS FOR NEXT TABLE HEADER. * * ERROR EXITS - * * ISSUE MESSAGE AND ABORT IF TABLE SPACE EXHAUSTED. * * CALLS - * ** ARA - FORM ABSOLUTE CENTRAL ADDRESS. INTH SUBR ENTRY/EXIT SHN /NAM/S.BID POSITION NAM BLOCK HEADER ID RAI T10 ADD TO NAM TABLE HEADER WORD LDD T10 LOAD NAM TABLE HEADER ADDRESS STM INTH.CW+1 STORE INTO WRITE INSTRUCTION LDD FBA LOAD HIGH-ORDER OF TABLE HEADER ADDRESS SHN 12 POSITION TO HIGH-ORDER ADD FBA+1 PLUS LOW-ORDER OF TABLE HEADER ADDRESS ADD T11 PLUS TABLE HEADER LENGTH RJM ARA EXIT TO FORM ABSOLUTE CENTRAL ADDRESS SBD T11 LESS TABLE HEADER LENGTH INTH.CW CWM **,T11 WRITE OUT NAM TABLE HEADER LDD CBA LOAD HIGH-ORDER CURRENT BUFFER ADDRESS STD FBA STORE HIGH-ORDER OF NEXT TABLE HEADER LDD CBA+1 LOAD LOW-ORDER OF CURRENT BUFFER ADDRESS STD FBA+1 STORE LOW-ORDER OF NEXT BUFFER ADDRESS LDD LBA LOAD HIGH-ORDER OF LAST AVAILABLE ADDRESS SBD FBA LESS HIGH-ORDER OF NEXT TABLE ADDRESS SHN 12 POSITION TO HIGH-ORDER ADD LBA+1 PLUS LOW-ORDER OF LAST AVAILABLE ADDRESS SBD FBA+1 LESS LOW-ORDER OF NEXT TABLE ADDRESS PJN INTHX RETURN IF BUFFER NOT EXHAUSTED LDC BTS LOAD ADDRESS OF BUFFER ERROR MESSAGE EXIT ARA.4 EXIT TO ISSUE ERROR MESSAGE MDTT SPACE 2,26 ** SUBROUTINE MDTT. * * SUBROUTINE MDTT MODIFIES THE DRIVER ASCII TRANSLATION * TABLE IN THE TRANSIENT DRIVER OVERLAY THAT CONTAINS * THE TABLE. * * ENTRY - * * (A) = TABLE OFFSET OF NEW CHARACTER, * (TTOA-TTOA+1) = CENTRAL ADDRESS OF OVERLAY, * (T15) = NEW ASCII CHARACTER VALUE. * * CALLS - * * DVBF - DIVIDE BY FIVE, * ARA - FORM ABSOLUTE CENTRAL ADDRESS. * * USES - * * T10-T10+4 = TRANSLATION TABLE WORD, ** T6-T6+1 = CENTRAL ADDRESS OF TABLE WORD. MDTT SUBR ENTRY/EXIT ADC ASCII-OL.TRANS PLUS OFFSET FOR TRANSLATION TABLE ENTRY RJM DVBF EXIT TO DIVIDE BY FIVE LDM ONT+TTOA LOAD HIGH-ORDER OF OVERLAY CENTRAL ADDRESS SHN 12 POSITION TO HIGH-ORDER ADM ONT+TTOA+1 PLUS LOW-ORDER OF OVERLAY CENTRAL ADDRESS ADD T16 PLUS CENTRAL MEMORY WORD OFFSET RJM ARA EXIT TO FORM ABSOLUTE CENTRAL ADDRESS CRD T10 READ CENTRAL MEMORY WORD OF TABLE STD T6+1 STORE LOW-ORDER OF CENTRAL MEMORY ADDRESS SHN -12 POSITION HIGH-ORDER OF ADDRESS STD T6 STORE HIGH-ORDER OF CENTRAL MEMORY ADDRESS LDM T10,T17 LOAD TRANSLATION TABLE BYTE LPC 7777B&0#FF RESET ASCII CHARACTER ADD T15 PLUS NEW ASCII CHRACTER VALUE STM T10,T17 STORE TRANSLATION TABLE BYTE LDD T6 LOAD HIGH-ORDER OF CENTRAL MEMORY ADDRESS SHN 12 POSITION TO HIGH-ORDER ADD T6+1 PLUS LOW-ORDER OF CENTRAL MEMORY ADDRESS CWD T10 REWRITE CENTRAL WORD TO TRANSLATION TABLE UJK MDTTX RETURN DVBF SPACE 2,18 ** SUBROUTINE DVBF. * * SUBROUTINE DVBF DIVIDES THE CALLING VALUE BY FIVE * AND RETURNS BOTH THE QUOTIENT AND THE REMAINDER. * * ENTRY - * * (A) = DIVIDEND. * * EXIT - * * (T16) = QUOTIENT, ** (T17) = REMAINDER. DVBF SUBR ENTRY/EXIT STD T17 STORE DIVIDEND LDN 0 CONSTANT OF ZERO STD T16 INITIALIZE QUOTIENT DVBF.1 LCN 5 CONSTANT OF MINUS FIVE RAD T17 DECREMENT DIVIDEND MJN DVBF.2 EXIT IF DIVIDE COMPLETED AOD T16 INCREMENT QUOTIENT UJK DVBF.1 EXIT TO DECREMENT DIVIDEND DVBF.2 ADN 5 RESTORE REMAINDER STD T17 STORE REMAINDER UJK DVBFX RETURN TBLBUF TITLE OVERLAY TEXT BUFFERS. TBLBUF SPACE 2,6 * OVERLAY TEXT BUFFERS. TBLBUF BSSZ 1*5 TABLE TEXT BUFFER OVBUF BSS 6*5 OVERLAY TEXT BUFFER QUAL .2IN EQU * DEFINE LAST WORD ADDRESS OF 2IN ERRNG 7772B-* TEST FOR PPU MEMORY OVERFLOW TTL 3IN - "VERSION" DRIVER INITIALIZATION. 3IN TITLE INITIALIZATION PROCESSORS. IDENT 3IN,OF.MINT PRESET MAIN DRIVER ORG OF.MINT QUAL INIT COMMENT 3IN/PIP - "VERSION" PRESET MAIN DRIVER. COMMENT COPYRIGHT CONTROL DATA SYSTEMS INC. 1994. LINKS SPACE 2,6 * RESET LINKS. .ERROR SET 0 PRSM SPACE 2,10 ** INITIALIZATION PROCESSOR PRSM. * * INITIALIZATION PROCESSOR PRSM RETURNS TO ** CONTINUE THE MAIN DRIVER INITIALIZATION. PRSM SUBR ENTRY/EXIT UJK PRSMX RETURN PRS SPACE 2,28 ** INITIALIZATION PROCESSOR PRS. * * INITIALIZATION PROCESSOR PRS PRESETS MAIN DRIVER * MEMORY. DIRECT CELLS, MEMORY LOCATIONS AND CONSTANT * CENTRAL MEMORY OFFSETS USED BY THE DRIVER ARE * INITIALIZED. THE OPERATING SYSTEM INTERFACE SUBROUTINE * IS INITIALIZED SO THAT THE PPU RESIDENT CAN BE * OVERWRITEN BY THE DRIVER CONTROL TABLES. * * EXIT - * * MAIN DRIVER MEMORY PRESET. * * ERROR EXITS - * * EXIT TO *ERROR* IF DRIVER TABLE POINTER ERROR, * EXIT TO *ERROR* IF DRIVER ORDINAL ERROR. * * CALLS - * * TFL - FORM ABSOLUTE CENTRAL ADDRESS, ** SCO - STORE CENTRAL MEMORY OFFSET. PRS SUBR ENTRY/EXIT LDN /NAM/W.DOVA LOAD ADDRESS OF OVERLAY AREA POINTER WORD RJM TFL EXIT TO FORM ABSOLUTE CENTRAL ADDRESS CRD T10 READ OVERLAY AREA POINTER WORD LDD T10+/NAM/C.DPT LOAD HIGH-ORDER OF CENTRAL OFFSET SHN 12 POSITION TO HIGH-ORDER ADD T10+/NAM/C.DPT+1 PLUS LOW-ORDER OF CENTRAL OFFSET NJN PRS.2 EXIT IF CENTRAL OFFSET PRESENT PRS.1 EREXIT NTP EXIT TO ERROR - NO DRIVER TABLE POINTER PRS.2 STD T1+1 STORE LOW-ORDER OF CENTRAL MEMORY OFFSET SHN -12 POSITION HIGH-ORDER OF CENTRAL OFFSET STD T1 STORE HIGH-ORDER OF CENTRAL MEMORY OFFSET LDC W.OVLP LOAD ADDRESS OF INSTRUCTION LIST RJM SCO EXIT TO STORE CENTRAL MEMORY OFFSET LCMA W.OVLP LOAD ADDRESS OF FIRST OVERLAY POINTER WORD RJM TFL EXIT TO FORM ABSOLUTE CENTRAL ADDRESS CRD T10 READ TABLE OVERLAY POINTER WORD LDD T10+/NAM/C.DOAOA LOAD HIGH-ORDER OF OVERLAY ADDRESS STD T1 STORE HIGH-ORDER OF CENTRAL OFFSET SHN 12 POSITION TO HIGH-ORDER ADD T10+/NAM/C.DOAOA+1 PLUS LOW-ORDER OF OVERLAY ADDRESS ZJN PRS.1 EXIT TO ERROR IF NO OVERLAY POINTER STD T1+1 STORE LOW-ORDER OF CENTRAL OFFSET LDC W.CTLT LOAD ADDRESS OF INSTRUCTION LIST RJM SCO EXIT TO STORE CENTRAL MEMORY OFFSET LDN /NAM/W.NPTA LOAD ADDRESS OF NAM POINTER TABLE POINTER RJM TFL EXIT TO FORM ABSOLUTE CENTRAL ADDRESS CRD T10 READ NAM POINTER TABLE POINTER WORD LDD T10+/NAM/C.DPT LOAD HIGH-ORDER OF POINTER TABLE ADDRESS SHN 12 POSITION TO HIGH-ORDER ADD T10+/NAM/C.DPT+1 PLUS LOW-ORDER OF POINTER TABLE ADDRESS NJN PRS.3 EXIT IF NAM POINTER TABLE POINTER UJK PRS.1 EXIT TO ERROR - NO POINTER TABLE ADDRESS PRS.3 ADN /NAM/W.TNTP DELTA FOR TERMINAL NODE TABLE POINTER STD T1+1 STORE LOW-ORDER OF CENTRAL MEMORY OFFSET SHN -12 POSITION HIGH-ORDER OF CENTRAL OFFSET STD T1 STORE HIGH-ORDER OF CENTRAL MEMORY OFFSET LDC W.TNTP LOAD ADDRESS OF INSTRUCTION LIST RJM SCO EXIT TO STORE CENTRAL MEMORY OFFSET LDD PAD LOAD HIGH-ORDER OF PARAMETER ADDRESS STD DIT STORE HIGH-ORDER OF DRIVER INTERFACE TABLE SHN 12 POSITION TO HIGH-ORDER ADD PAD+1 PLUS LOW-ORDER OF PARAMETER ADDRESS STD DIT+1 STORE LOW-ORDER OF DRIVER INTERFACE TABLE RJM TFL EXIT TO FORM ABSOLUTE CENTRAL ADDRESS CRD T10 READ DRIVER INTERFACE TABLE HEADER WORD LDD T10+/NAM/C.DITDOR LOAD DRIVER ORDINAL BYTE NJN PRS.5 EXIT IF POSSIBLE VALID DRIVER ORDINAL PRS.4 EREXIT DOE EXIT TO ERROR - DRIVER ORDINAL ERROR PRS.5 STM DROR STORE DRIVER ORDINAL SBN MAXDRV+1 LESS MAXIMUM VALID VALUE PJN PRS.4 EXIT IF INVALID DRIVER ORDINAL LDN /NAM/W.DITP LOAD ADDRESS OF INTERFACE TABLE POINTER RJM TFL EXIT TO FORM ABSOLUTE CENTRAL ADDRESS CRD T10 READ INTERFACE TABLE POINTER WORD LDD T10+/NAM/C.DPT LOAD HIGH-ORDER OF CENTRAL OFFSET SHN 12 POSITION TO HIGH-ORDER ADD T10+/NAM/C.DPT+1 PLUS LOW-ORDER OF CENTRAL OFFSET NJN PRS.6 EXIT IF CENTRAL OFFSET PRESENT UJK PRS.1 EXIT TO ERROR - NO INTERFACE TABLE POINTER PRS.6 STD T1+1 STORE LOW-ORDER OF CENTRAL MEMORY OFFSET SHN -12 POSITION HIGH-ORDER OF CENTRAL OFFSET STD T1 STORE HIGH-ORDER OF CENTRAL MEMORY OFFSET LDC W.PITP LOAD ADDRESS OF INSTRUCTION LIST RJM SCO EXIT TO STORE CENTRAL MEMORY OFFSET LDC FETABLE LOAD ADDRESS OF FRONT END TABLE STD FEI INITIALIZE FRONT END TABLE ADDRESS LDN 0 CONSTANT OF ZERO STD PWO INITIALIZE TABLE POINTER WORD OFFSET LCN 1 CONSTANT OF MINUS ONE STM FETP SET NO DEVICE DEPENDENT OVERLAY LOADED LDD CP LOAD CONTROL POINT NUMBER SHN -7 POSITION TO FORM CONTROL POINT NUMBER RAM CCIO+1 ADD TO CIO CALL IMAGE UJK PRSX RETURN SCO TITLE INITIALIZATION SUBROUTINES. SCO SPACE 2,20 ** SUBROUTINE SCO. * * SUBROUTINE SCO STORES A CENTRAL MEMORY OFFSET INTO * THE PPU INSTRUCTIONS SPECIFIED BY THE INSTRUCTION * ADDRESS LIST. * * ENTRY - * * (A) = ADDRESS OF INSTRUCTION ADDRESS LIST, * (T1-T1+1) = CENTRAL MEMORY OFFSET. * * USES - * * T0 = ADDRESS OF INSTRUCTION ADDRESS LIST, ** T3 = INSTRUCTION ADDRESS. SCO SUBR ENTRY/EXIT STD T0 STORE ADDRESS OF INSTRUCTION ADDRESS LIST SCO.1 LDI T0 LOAD ADDRESS OF NEXT INSTRUCTION ZJN SCOX RETURN IF END OF INSTRUCTION ADDRESS LIST STD T3 STORE ADDRESS OF INSTRUCTION LDD T1 LOAD HIGH-ORDER OF CENTRAL MEMORY OFFSET RAI T3 ADD TO PPU INSTRUCTION LDD T1+1 LOAD LOW-ORDER OF CENTRAL MEMORY OFFSET STM 1,T3 STORE INTO PPU INSTRUCTION AOD T0 INCREMENT ADDRESS OF INSTRUCTION LIST UJK SCO.1 EXIT TO TEST FOR END OF LIST W.OVLP TITLE INITIALIZATION ADDRESS LISTS. LIST D W.OVLP SPACE 2,12 ** OVERLAY POINTER TABLE ADDRESS LIST. * * THE OVERLAY POINTER TABLE ADDRESS LIST CONTAINS AN * ENTRY FOR EACH DRIVER REFERENCE TO THE ADDRESS OF THE * OVERLAY POINTER TABLE. THE CONTENTS OF EACH ENTRY IS * THE ADDRESS OF THE INSTRUCTION REFERENCING THE OVERLAY ** POINTER TABLE. W.OVLP BSS 0 OVERLAY POINTER TABLE ADDRESS LIST W.OVLP HERE CON 0 TERMINATE ADDRESS LIST W.CTLT SPACE 2,12 ** DRIVER CONTROL TABLE ADDRESS LIST. * * THE DRIVER CONTROL TABLE ADDRESS LIST CONTAINS AN * ENTRY FOR EACH DRIVER REFERENCE TO THE ADDRESS OF THE * DRIVER CONTROL TABLE. THE CONTENTS OF EACH ENTRY IS * THE ADDRESS OF THE INSTRUCTION REFERENCING THE DRIVER ** CONTROL TABLE. W.CTLT BSS 0 DRIVER CONTROL TABLE ADDRESS LIST W.CTLT HERE CON 0 TERMINATE ADDRESS LIST W.PITP SPACE 2,10 ** PIP INTERFACE TABLE ADDRESS LIST. * * THE PIP INTERFACE TABLE ADDRESS LIST CONTAINS AN * ENTRY FOR EACH DRIVER REFERENCE TO THE ADDRESS OF THE * PIP INTERFACE TABLE HEADER WORD. THE CONTENTS OF EACH * ENTRY IS THE ADDRESS OF THE INSTRUCTION REFERENCING ** THE PIP INTERFACE TABLE HEADER WORD. W.PITP BSS 0 PIP INTERFACE TABLE ADDRESS LIST. W.PITP HERE CON 0 TERMINATE ADDRESS LIST W.TNTP SPACE 2,12 ** TERMINAL NODE TABLE POINTER ADDRESS LIST. * * THE TERMINAL NODE TABLE POINTER ADDRESS LIST CONTAINS * AN ENTRY FOR EACH DRIVER REFERENCE TO THE TERMINAL NODE * TABLE POINTER. THE CONTENTS OF EACH ENTRY IS THE * ADDRESS OF THE INSTRUCTION REFERENCING THE TERMINAL ** NODE TABLE POINTER. W.TNTP BSS 0 TERMINAL NODE TABLE POINTER ADDRESS LIST W.TNTP HERE CON 0 TERMINATE ADDRESS LIST LIST * .LAST SET * QUAL .3IN EQU * DEFINE LAST WORD ADDRESS OF 3IN ERRNG 7772B-* TEST FOR PPU MEMORY OVERFLOW END SPACE 5,6 TTL PIP - "VERSION" DRIVER FOR NPU. END