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pc2ser.mac
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TITLE PC2SER - SERVICE FOR PCL11-B CONTROLLER ON THE 2020(PCL20) - V001
SUBTTL J. Francis 20-Feb-81
SEARCH F,S
SALL
;THIS SOFTWARE IS FURNISHED UNDER LICENSE AND MAY ONLY BE USED OR
;COPIED IN ACCORDANCE WITH THE TERMS OF SUCH LICENSE.
;
;COPYRIGHT (C) 1979,1980,1981 BY DIGITAL EQUIPMENT CORP.,MAYNARD, MASS.
XP VPC2SR,-155 ;DEFINE GLOBAL VERSION NUMBER FOR LOADER MAP
IFNDEF FTDBUG,<FTDBUG==-1>
DEFINE E$MSG0(TEXT),<[ASCIZ /TEXT/]>
DEFINE E$MSG1(TEXT),<[ASCIZ /TEXT
/]>
DEFINE E$MSG2(TEXT),<[ASCIZ /
TEXT/]>
DEFINE E$MSG3(TEXT),<[ASCIZ /
TEXT
/]>
DEFINE E$TYPE(CODE,TEXT),<
MOVEI T1,E$MSG'CODE <TEXT>
PUSHJ P,CONMES##>
ENTRY PC2SER
PC2SER:
SUBTTL PCL20/PCL11-B REGISTER DEFINITIONS
;OFFSETS INTO THE EXTERNAL PAGE REGISTER
PCXTCR==0 ;TRANSMITTER COMMAND REGISTER
PCXTSR==2 ;TRANSMITTER STATUS REGISTER
PCTSDB==4 ;TRANSMITTER SOURCE DATA BUFFER
PCTSBC==6 ;TRANSMITTER SOURCE BYTE COUNT
PCTSBA==10 ;TRANSMITTER SOURCE BUS ADDRESS
PCTMMR==12 ;TRANSMITTER MASTER/MAINTENCE REGISTER
PCTCRC==14 ;TRANSMITTER SOURCE CYCLIC REDUNDANCY CHECK REGISTER
PCXRCR==20 ;RECEIVER COMMAND REGISTER
PCXRSR==22 ;RECEIVER STATUS REGISTER
PCRDDB==24 ;RECEIVER DESTINATION DATA REGISTER
PCRDBC==26 ;RECEIVER DESTINATION BYTE COUNT
PCRDBA==30 ;RECEIVER DESTINATION BUS ADDRESS
PCRCRC==34 ;RECEIVER CYCLIC REDUNDANCY CHECK REGISTER
;BIT ASSIGNMENTS FOR THE PCL20 TRANSMITTER COMMAND/CONTROL REGISTER
STRTXM==1B35 ;START TRANSMISSION
TXINIT==1B34 ;TRANSMITTER INITIALIZE
INHADI==1B33 ;INHIBIT BUS ADDRESS INCREMENT-ALSO FOR RCV
DTORDY==1B32 ;DATA OUTPUT READY
EXTADR==3B31 ;EXTENDED BUS ADDRESS FIELD-ALSO FOR RCV
INTENA==1B29 ;TRANSMIT INTERRUPT ENABLE-ALSO FOR RCV
RDSILO==1B28 ;READ SILO ENABLE
DSTCOD==37B27 ;DESTINATION ADDRESS CODE FIELD
SNDWRD==1B22 ;SEND WORD
TXXNPR==1B21 ;TRANSMIT VIA NPR
TXXRIB==1B20 ;RETRY IF BUSY
;BIT ASSIGNMENTS FOR THE TRANSMITTER MASTER MAINTENANCE REGISTER
TXMADR==37B35 ;MASTER ADDRESS SILO FIELD
PCMSTR==1B27 ;MASTER BIT
PCSECD==1B26 ;SECONDARY BIT
PCMSTN==1B25 ;MASTER NOW BIT
CHNOPN==1B24 ;CHANNEL OPEN BIT
AUTADR==1B23 ;AUTOADDRESSING BIT
CLRADR==1B22 ;CLEAR ADDRESS SILO
AIPRDY==1B21 ;ADDRESS INPUT READY BIT
AOPRDY==1B20 ;ADDRESS OUTPUT READY BIT
;BIT ASSIGNMENT FOR THE TRANSMITTER STATUS REGISTER
TXRSPA==3B35 ;RESPONSE FIELD A
TXRSPB==3B33 ;RESPONSE FIELD B
TBSBSY==1B31 ;TDM BUS BUSY
TXSORE==1B30 ;SOFTWARE REJECT
TXBUSY==1B29 ;TRANSMITTER BUSY
SUCTXF==1B28 ;SUCCESSFUL TRANSFER-ALSO FOR XMIT
DTIRDY==1B27 ;DATA INPUT READY
OVERUN==1B26 ;DATA OVERRUN
TIMOUT==1B25 ;SEND/RCV WORD TIME OUT-ALSO FOR XMIT
MSTDWN==1B24 ;MASTER DOWN
TXMERR==1B23 ;TRANSMISSION ERROR-XMIT AND RCV
MEMOFL==1B22 ;BUS ADDRESS OVERFLOW FOR NPR XFER-XMIT AND RCV
NONEXM==1B21 ;NON-EXISTENT MEMORY ADDRESSING ERROR-XMIT AND RCV
TXXERR==1B20 ;TRANSMITTER ERROR
;BIT ASSIGNMENT FOR THE RECEIVER COMMAND/CONTROL REGISTER
RCVDAT==1B35 ;RECEIVE DATA
RCINIT==1B34 ;RECEIVER INITIALIZE
RDIRDY==1B32 ;RECEIVE DATA INPUT READY
LDSILO==1B28 ;LOAD DATA SILO
IDENTC==37B27 ;RECEIVE IDENTIFICATION CODE FIELD
RCVWRD==1B22 ;RECEIVE WORD
RCVNPR==1B21 ;RECEIVE VIA NPR
REJECT==1B20 ;RECEIVER SOFTWARE REJECT BIT
;BIT ASSIGNMENT FOR RECEIVER STATUS REGISTER
RCRSPA==3B35 ;RCV RESPONSE FIELD A
RCRSPB==3B33 ;RCV RESPONSE FIELD B
RCHOPN==1B31 ;RECEIVE CHANNEL OPEN
REJCOM==1B30 ;REJECT SEQUANCE COMPLETED
RCBUSY==1B29 ;RECEIVE BUSY WITH XFER
RDORDY==1B27 ;DATA SILO OUTPUT READY
RBCOFL==1B26 ;RCV BYTE COUNT OVERFLOW
RCVPAR==1B24 ;RCV WORD PARITY OR CRC ERROR
RCVERR==1B20 ;RECEIVER ERROR
SUBTTL SYMBOL DEFINITIONS
;DEVICE DEPENDENT BITS IN LH OF DEVIOS
PCIPWT==1B21 ;INPUT QUEUE WAITING - BUSY
PCOBSY==1B22 ;OUTPUT BUSY
USERWT==1B23 ;DRVR WAIT ON USER RESPONSE FROM A PSI FLAG WORD INTERRUPT
PCIACT==1B19 ;INPUT XFER ACTIVE
PCOACT==1B20 ;OUTPUT XFER ACTIVE
REJACT==1B29 ;USER REJECT DEVOP ACTIVE
;DEVICE DEPENDENT BITS IN RH OF DEVIOS
IFLGWD==1B29 ;INCLUDE FLAG WORD IN DATA BUFFER
ACPTRD==1B28 ;ACCEPT AND READ FLAG, SET NORMALLY BY USER
ENIPUT==1B27 ;USER SELECTED ENABLE INPUT RCV
USERIB==1B26 ;USER SELECTED RIB BIT FOR XMIT
INHRCV==1B25 ;INHIBIT RCV ENABLE ON RCV DONE
PCLPRV==1B18 ;PCL PRIVILEDGE BIT FOR MASTER REGISTER
ADRMIN==^D20 ;MINIMUM SILO ADDRESSING ENTRIES
ADRMAX==^D50 ;MAXIMUM SILO ADDRESSING ENTRIES
.ERSPC==70 ;SPECIAL DEVICE CONTROLLER ERROR TYPE - (PCL20)
IONXM%==1 ;ERROR CODE FOR NON-EXISTANT MEMORY
IOOFL%==2 ;ERROR CODE FOR ADDRESS OVERFLOW
IOTOT%==4 ;ERROR CODE FOR TIMEOUT
IOOVR%==20 ;ERROR CODE FOR OVERRUN
IOBCO%==40 ;ERROR CODE FOR BYTE COUNT OVERFLOW
IOTXM%==1000 ;ERROR CODE FOR TRANSMISSION ERROR
IOMDN%==2000 ;ERROR CODE FOR MASTER DOWN
;EVENT WAIT CODE FOR PCL20
EV.RJT==77 ;EVENT WAIT CODE FOR REJECT SEQ.
SUBTTL PCL SPECIFIC DDB DEFINITIONS
;PROTOTYPE DEFINITION FOR PCL20 INTERRUPT SERVICE ENTRY AND DDB - PCLDDB
.TYPCL==57 ;DEVICE TYPE CODE FOR PCL20
PCLTYP==57B27
PCLCBI==M.PC0I ;PCL INPUT CHANNEL DATA BLOCK NUMBER
PCLCBO==M.PC0O ;PCL OUTPUT CHANNEL DATA BLOCK NUMBER
DCV2IO=4000 ;FLAG TO INDICATE FULL DUPLEX DEVICE
PDVTIM=1400 ;DEVICE HUNG TIME CONSTANT
BFRSZE=205 ;DEFAULT BUFFER SIZE
MXFRBF=BFRSZE*6/4 ;MAX BUFFER SIZE FOR FORMATTING
DEFINE CHNMAC (Z) <
CHN'Z'CB##> ;END OF CHNMAC MACRO
PCLMOD==1_I ; Only Image Mode
DEFINE PCLDDB (N) <
ENTRY PC'N'INT,PC'N'DDB,PC'N'DDS
DEFINE CHNLOC (PI) <
PC'N'CHL=CH'PI'##
> ;END OF CHNLOC MACRO
CHNLOC \PC'N'CHN ;GET PC'N'CHL DEFINED NOW
PC'N'INT::
P'N'TINT: 0 ;TRANSMIT INTERRUPT VECTOR ENTRY
EXCH T1,PC'N'INT ;GET INTERRUPT PC
MOVEM T1,PC'N'CHL ;PUT INTO -10 STYLE INTERRUPT HANDLER
HRRZM T1,'N'TYINT ;FLAG TRANSMIT INTERRUPT
EXCH T1,PC'N'INT ;AND RESTORE T1
JRST P'N'XINT ;GO DO COMMON THINGS
'N'TYINT: 0 ;FLAG WORD FOR INTERRUPT TYPE
P'N'RINT: 0 ;RECEIVER INTERRUPT VECTOR ENTRY
EXCH T1,P'N'RINT ;GET INTERRUPT PC
MOVEM T1,PC'N'CHL ;PUT INTO -10 STYLE INTERRUPT HANDLER
HRROM T1,'N'TYINT ;FLAG RECEIVER INTERRUPT
EXCH T1,P'N'RINT ;RESTORE T1
P'N'XINT: JSR PC'N'SAV## ;SAVE AC'S
;GO SETUP F AND JSP TO INTERRUPT CODE
;PCL DDB BLOCK
PC'N'JSP: MOVE T4,'N'TYINT ;SETUP T4 TO IDENTIFY INTERRUPT TYPE
JSP F,PCLINT ;THIS INSTRUCTION MUST ALWAYS BE JUST BEFORE DDB
PC'N'DDB::PHASE 0 ;THE FIRST DDB LOCATION
SIXBIT /PC'N'/ ;(0) DEVNAM
XWD PDVTIM!DCV2IO,BFRSZE ;(1) DEVCHR
0 ;(2) DEVIOS
XWD 0,PCLDSP ;(3) DEVSER
XWD DVIN+DVOUT,PCLMOD ;(4) DEVMOD
0 ;(5) DEVLOG
0 ;(6) DEVBUF
XWD R,0 ;(7) DEVIAD
XWD R,0 ;(10) DEVOAD
0 ;(11) DEVSTS
XWD DEPLEN!PCLTYP,0 ;(12) DEVSTA
0 ;(13) DEVXTR
0 ;(14) DEVEVM
0 ;(15) DEVPSI
0 ;(16) DEVESE
0 ;(17) DEVHCW
0 ;(20) DEVJOB
PCIPTR::0 ;INPUT DATA POINTER WORD
PCOBYT::0 ;OUTPUT BYTE POINTER
PCIBYT::0 ;INPUT BYTE POINTER
TFLGWD: 0 ;LOCATION TO STORE XMIT FLAG WORD
RFLGWD: 0 ;LOCATION OF RECIEVE FLAG WORD
ONEWRD: 0 ;ONE WORD RECEIVE WORD
PCLDAP::0
PCLDAE::BLOCK 20 ;SYSERR BLOCK
REGBLK::BLOCK 20 ;STORAGE BLOCK FOR REGISTER DATA
PCLTST::0 ;MORE TRANSMITTER STATUS
PCLRST::0 ;MORE RECEIVER STATUS
PCLVEC::PCLBIV+VOFSET ;PCL11-B 11 STYLE INTERRUPT VECTOR ADDRESS
PCLBAS::PCLBDA+BOFSET ;PCL11-B BASE DEVICE ADDRESS
PCLTVI::JSR P'N'TINT ;INTERRUPT INSTRUCTION FOR THIS PCL
PCLRVI::JSR P'N'RINT ;RECEIVER INTERRUPT INSTRUCTIO
PCLTBL::PC'N'BLK ;POINTER TO PCLN BLOCK AREA
PCTRTY::0 ;TRANSMIT NODE RETRY COUNT
PCRRTY::0 ;RECEIVE NODE RETRY COUNT
PCICDB:: CHNMAC \PCLCBI ;POINTER TO INPUT CHANNEL DATA BLOCK
PCOCDB:: CHNMAC \PCLCBO ;POINTER TO OUTPUT CHANNEL DATA BLOCK
IFN FTDBUG,<
DVOPFC: 0 ;LAST DEVOP FUNCTION CODE
TIMDT0: 0 ;FLG WD INT ENTRY
TIMDT1: 0 ;FLG WD INT EXIT
TIMERR: 0 ;TIME AT ERROR
TIMIN0: 0 ;IN UUO ENTRY
TIMIN1: 0 ;IN UUO EXIT
TIMACP: 0 ;ACP & RD DEVOP
TIMING: 0 ;RCV STARTED
TIMRD0: 0 ;RCV INT DONE
TIMRD2: 0 ;RCV DONE EXIT
TIMOU0: 0 ;OUT UUO ENTRY
TIMOU1: 0 ;OUT UUO EXIT
TIMERC: 0 ;ENABLE RCV DEVOP
TIMDON: 0 ;STOP ROUTINE, EXIT
> ; END IFN FTDBUG
DEPHASE
XP PC'N'DDS,.-PC'N'DDB ;SIZE OF THE DDB
PC'N'BLK::PHASE 0 ;START OF PCLN DATA BLOCK AREA(INTERFACE SPECIFIC)
PCLTAB: BLOCK 21 ;TABLE OF DDB ADDRESSES FOR PC(N)
PCINIT::0 ;PCL INITIALIZE FLAG WORD
PCLBSY: 0 ;PCL BUSY WORD;LH-INPUT BUSY, RH-OUTPUT BUSY
DEPHASE
>;END OF PCLDDB DEFINITION
DEFINE PCLN < ;GENERATE A SYMBOL EQUAL TO CONFIGURED # OF PCL20
PCLN==0 ;INTERFACES ON THIS SYSTEM
VOFSET==0
BOFSET==0
IFDEF PCAN, < ;IS PCA DEFINED
IFG PCAN, < ;IS IT REALLY
PCLN==PCLN+1
PCLY==PCAN
PCLDDB A ;GENERATE DDB FOR PCA
>;END OF IFG PCAN
>;END OF IFDEF PCAN
IFDEF PCBN, < ;IS PCB DEFINED
IFG PCBN, < ;IS IT REALLY
PCLN==PCLN+1
BOFSET=BOFSET+40 ;SET BASE ADDRESS OFFSET
PCLDDB B ;GENERATE DDB FOR PCB
>;END OF IFG PCBN
>;END OF IFDEF PCBN
IFDEF PCCN, < ;IS PCC DEFINED
IFG PCCN, < ;IS IT REALLY
PCLN==PCLN+1
BOFSET=BOFSET+40 ;SET BASE ADDRESS OFFSET
PCLDDB C ;GENERATE DDB FOR PCC
>;END OF IFG PCCN
>;END OF IFDEF PCCN
IFDEF PCDN, < ;IS PCD DEFINED
IFG PCDN, < ;IS IT REALLY
PCLN==PCLN+1
BOFSET=BOFSET+40 ;SET BASE ADDRESS OFFSET
PCLDDB D ;GENERATE DDB FOR PCD
>;END OF IFG PCDN
>;END OF IFDEF PCDN
>;END OF PCLN DEFINITION
DEFINE SPASGDDB(DEV,CHAN,DEVMNY),<
DEV'CHN=CHAN ;;DEFINE PI CHANNEL FOR DEVICE
DEV'N=DEVMNY ;;DEFINE NUMBER OF DEICES
>
;
;FIRST DEFINE NUMBER OF DEVICES
SPCDDB
;NOW GENERATE PCLN AND ALL PCLDDB'S NEEDED
PCLN ;START HERE
SUBTTL PCL SYSERR DATA BLOCK DEFINITIONS
;WORDS ARE IN EACH PCL NODE DDB FOR DAEMON ERROR REPORTING
.HCNAM==0 ;DEVICE NAME
.HCTYP==1 ;CONTROLLER/DEVICE TYPE
HC.CTL==77B5 ;CONTROLLER TYPE BYTE
.CTPC2==77 ;TYPE FOR PCL20
HC.DEV==77B11 ;DEVICE TYPE BYTE
.DEPCL==77 ;PCL
HC.RTY==777777B35 ;RETRY COUNT FIELD
.RTNON==1B17 ;NON-RECOVERABLE FLAG
.HCUID==2 ;PPN OF USER
.HCPGM==3 ;PROGRAM NAME
.HCSBP==4 ;SUB-BLOCK POINTER
; (XWD .HCL30-.HCSBP,,.HCL20)
.HCL20==5 ;UBA STATUS REGISTER
.HCL21==6 ;UBA MAP SLOT
.HCL22==7 ;PCXTCT,,PCXTSR
.HCL23==10 ;PCTSDB,,PCTSBC
.HCL24==11 ;PCTSBA,,PCTMMR
.HCL25==12 ;PCTCRC,,0
.HCL26==13 ;PCXRCR,,PCXRSR
.HCL27==14 ;PCRDDB,,PCRDBC
.HCL30==15 ;PCRDBA,,PCRCRC
.HCSIZ==16 ;SIZE OF BLOCK
SUBTTL PCL SERVICE DISPATCH TABLE
;PCL20 DRIVER SERVICE DISPATCH TABLE
JRST PCLONL ;(-5)SEE IF THE PCL IS ON-LINE NOW
JRST PCLDVP ;(-4)PCL20 DEVOP. UUO DISPATCH
JRST REGSIZ## ;(-3)OPEN CALL, GET BUFFER SIZE FROM DDB
JRST PCLINI ;(-2)INITIALIZE PCL NETWORK
JRST PCLHNG ;(-1)HUNG DEVICE ERROR
PCLDSP::JRST PCLREL ;(0)RELEASE
JRST PCLCLS ;(1)CLOSE
JRST PCLOUT ;(2)OUTPUT
JRST PCLINP ;(3)INPUT
POPJ P, ;(4)ENTER
POPJ P, ;(5)LOOKUP
POPJ P, ;(6)DUMP OUTPUT
POPJ P, ;(7)DUMP INPUT
SUBTTL SYSTEM START-UP DEVICE PCL INITIALIZATION
;PCLINI IS CALLED AT SYSTEM INITIALIZATION TIME FOR EACH DEVICE NODE
PCLINI: PUSHJ P,SAVE2## ;SAVE P1 AND P2
HRRZ P1,PCLTBL(F) ;SETUP POINTER TO DDB ADDRESS TABLE
MOVE P2,PCLBAS(F) ;GET BASE ADDRESS
MOVE T1,P2 ;GET BASE ADDRESS INTO T1
PUSHJ P,UBGOOD## ;CHECK IF GOOD ADDRESS
SKIPA ;NO
PJRST PCINI1 ;YES-CONTINUE
MOVSI T1,DVOFLN## ;GET OFF-LINE BIT
IORM T1,DEVCHR(F) ;MARK PCL OFF-LINE
PJRST CPOPJ1## ;SKIP RETURN
PCINI1: HRRZ T1,PCLVEC(F) ;GET BASE INTERRUPT VECTOR ADDRESS
MOVE T4,PCINIT(P1) ;GET INITALIZED FLAG WORD
JUMPL T4,PCINI2 ;JUMP IF NEG. ALREADY BEEN INIT'ED
MOVEI T3,TXINIT ;BIT PCL INIT BIT
BSIO T3,PCXRCR(P2) ;RESET RECEIVER
BSIO T3,PCXTCR(P2) ;RESET TRANSMITTER
LSH T1,-2 ;DIVIDE BY 4
HLRZ T3,PCLBAS(F) ;GET UBA NUMBER
ADD T1,.EPVIT##-1(T3) ;ADD INTERRUPT TABLE ADDRESS
DMOVE T2,PCLTVI(F) ;GET INTERRUPT INSTRUCTONS
DMOVEM T2,(T1) ;PUT INTO VECTOR TABLE
;NOW DO SYSERR SETUP
PCINI2: MOVSI T1,-.HCSIZ ;GET LENGTH OF ERROR BLOCK
HRRI T1,PCLDAE(F) ;MAKE AOBJN POINTER
MOVEM T1,PCLDAP(F) ;AND SAVE IT
HRRZ T3,DEVNAM##(F) ;GET RH OF DEVICE NAME
LDB T1,PUNIT## ;GET UNIT NUMBER FROM DDB DEVJOB LOCATION
MOVEI T2,20000 ;GET UNIT NUMBER TO CONVERT ZERO TO
TRNE T1,37 ;TEST FOR UNIT ZERO
PJRST PCINI4 ;NO, NOT ZERO
IORM T2,DEVJOB(F) ;YES, CONVERT UNIT ZERO
MOVEI T1,20 ;GET NODE ADDRESS FOR ZERO
PCINI4: ADD T1,P1 ;MAKE ADDRESS INTO TABLE
MOVEM F,(T1) ;STORE DDB ADDRESS IN TABLE
TRZE T3,100 ;TEST BIT 29AND CLEAR IF SET
PUSHJ P,FIXNAM ;GO FIX UP NAME IF 29 SET
MOVE T1,DEVNAM##(F) ;GET DEVICE NAME
MOVEM T1,PCLDAE+.HCNAM(F) ;SAVE IT
MOVE T1,[XWD .HCL30-.HCSBP,.HCL20] ;GET SUB-BLOCK POINTER
MOVEM T1,PCLDAE+.HCSBP(F) ;SAVE IT
MOVSI T1,DVOFLN ;GET OFF-LINE BIT
ANDCAM T1,DEVCHR(F) ;ASSUME PCL ON-LINE
PUSHJ P,PCLONL ;IS IT REALLY
IORM T1,DEVCHR(F) ;NO-SET OFF-LINE BIT
MOVEI T1,INTENA ;GET INTERRUPT ENABLE BIT
JUMPL T4,PCINI3 ;TEST INITIALIZED FLAG, JMP IF NEG.
WRIO T1,PCXTCR(P2) ;SET XMIT INTERRUPT ENABLE
IORI T1,RCVWRD ;SET RCV WORD BIT TO ALLOW FLG WORDS
WRIO T1,PCXRCR(P2) ;SET RCV INTERRUPT ENABLE
PCINI3: SETOM PCINIT(P1) ;SET PCL INITIALIZED WORD
PJRST CPOPJ1## ;SKIP RETURN, FORCE CALL FOR EACH PCL DEVICE NODE
;HERE TO FIX DDB NAME UNIT IDENTIFICATION FOR HEX NOTATION
;ENTER WITH DEVNAM IN T3
FIXNAM: LDB T1,[POINT 3,T3,35] ;GET UNIT NUMBER BYTE
SUBI T1,2 ;SUBTRACT 2 FOR TEST
JUMPL T1,FIX89 ;TEST IF GREATER THAN 9 CODE
TRC T3,60 ;YES, SET FOR HEX CODE
SUBI T3,1 ;ADJUST FOR A
PJRST FIXEND ;THAT'S ALL
FIX89: TRC T3,10 ;ADJUST CODE FOR 8 & 9
FIXEND: HRRM T3,DEVNAM(F) ;PUT BACK IN DDB NAME RH
POPJ P, ;RETURN
SUBTTL PCL20 INTERRUPT SERVICE
;GENERAL INTERRUPT SERVICE FOR ALL PCL20 INTERRUPTS
PCLINT::PUSHJ P,SAVE4## ;START INTERRUPT SERVICE
MOVE T2,PCLBAS(F) ;GET BASE ADDRESS
SKIPG T4 ;IS IT A XMIT INTERRUPT
SKIPA T3,[RDIO T1,PCXRCR(T2)] ;NO, GET RCV INSTRUCTION
MOVE T3,[RDIO T1,PCXTCR(T2)] ;SETUP XMIT INSTRUCTION
XCT T3 ;DO IT
LDB T3,[POINT 5,T1,27] ;GET THE DC/ID CODE BITS
PUSHJ P,FSETUP ;GO SET F TO PROPER VALUE
SKIPG T4 ;IS IT XMIT INTERRUPT
SKIPA T3,[RDIO T1,PCXRSR(T2)] ;NO, GET OTHER INSTRUCTION
MOVE T3,[RDIO T1,PCXTSR(T2)] ;GET INSTRUCTION
XCT T3 ;DO IT
MOVE P1,PCLTBL(F) ;SETUP POINTER ADDRESS
JUMPL T4,PCINT1 ;IS IT RECEIVER INTERRUPT, IF YES JMP
TLO S,IO ;SET IO BIT IN STATUS FOR OUT DIRECTION
HRLM T1,DEVSTS(F) ;SAVE XMIT STATUS IN LH DEVSTS
PJRST PCINT2 ;GO CONTINUE
PCINT1: HRRM T1,DEVSTS(F) ;SAVE RCV STATUS IT IN RH DEVSTS
TLZ S,IO ;SET IO BIT IN STATUS FOR IN DIRECTION
TRNE T1,RDORDY ;IS THIS A RCV FLAG WORD INTERRUPT
PJRST TDTRDY ;YES, GO SERVICE IT
PCINT2: TRNE T1,TXXERR ;CHECK FOR ERROR - XMIT OR RCV
PJRST PCLERR ;YES, GO SERVICE ERROR
TRNE T1,SUCTXF ;IS SUCCESFUL XFER DONE
PJRST XFERDN ;YES, GO HANDLE IT
TRNE T1,TXSORE!REJCOM ;IS IT SORE(XMIT) OR REJECT COMP(RCV)
PJRST SOR%RJ ;YES, GO PROCESS IT
JUMPL T4,PURINT ;TEST INTERRUPT TYPE, JMP IF RCV
TRNE T1,TBSBSY ;WAS IT TDM BUS BUSY?
PJRST SOFBSY ;YES, GO HANDLE BUSY BY SOFTWARE
MOVEI T1,PCMSTN/400 ;GET "MASTER NOW" BIT
TIONB T1,PCTMMR+1(T2) ;IS BIT SET IN MASTER REGISTER ?
JRST PUTINT ;NO, UNKNOWN XMIT INTERRUPT
BCIOB T1,PCTMMR+1(T2) ;YES, CLEAR BIT FROM REGISTER
JRST MSTRNW ;GO SAY WE ARE NOW MASTER
;HERE TO GET CORRECT DDB ADDRESS IN F
FSETUP: SKIPN T3 ;TEST FOR ZERO STATE
MOVEI T3,20 ;YES, SETUP FOR NODE ZERO
ADD T3,PCLTBL(F) ;MAKE ADDRESS
MOVE T1,(T3) ;GET DDB ADDRESS FROM TABLE
HRR F,T1 ;SET F FROM TABLE
PUSHJ P,IOSET## ;SETUP R AND S AC'S
LDB J,PJOBN## ;SETUP J WITH JOB NUMBER
POPJ P, ;RETURN
SUBTTL VARIOUS INTERRUPT SERVICE ROUTINES
;HERE ON SUCCESFUL TRANSFER
XFERDN: TRNE T1,TXSORE!REJCOM ;IS ALSO SORE(XMIT) OR REJECT COMP(RCV) SET
PJRST TRUNCT ;YES, THEN MESSAGE WAS TRUNCATED
JUMPL T4,RCVDNX ;NO, JMP IF RCV INTERRUPT, SERVICE XFER DONE
PUSHJ P,RDRGXS ;READ ABBRIVIATED STATUS
;IT WAS A XMIT XFER DONE INTERRUPT
MOVEI T3,SUCTXF ;GET BIT TO CLEAR
BCIO T3,PCXTSR(T2) ;RESET TRANSMITTER SECTION STATUS
TXFRND: HLLZS PCLBSY(P1) ;CLEAR INTERFACE XMIT BUSY FLAG
PUSHJ P,CLRXMT ;CLEAR INTERFACE
TLZ S,PCOACT ;CLEAR NODE ACTIVE BIT
PUSHJ P,STOIOS## ;UPDATE DDB STATUS
PUSHJ P,ADVBFE## ;GO ADVANCE BUFFER, GET USEBIT CLEARED
PJRST PCSTOP ;NEXT BUFFER NOT AVAILABLE , RETURN TO USER
TRNE S,740000 ;ARE ERRORS INDICATED IN STATUS
PJRST PCSTOP ;YES, SHUT DOWN
PJRST PCOUTG ;RETURN TO OUTPUT ANOTHER BUFFER
CLRXMT: MOVE T2,PCLBAS(F) ;GET BASE ADDRESS
MOVEI T3,TXINIT ;GET BIT TO CLEAR
BSIO T3,PCXTCR(T2) ;CLEAR INTERFACE
XMTENA: MOVEI T3,INTENA ;GET INTERRUPT ENABLE
BSIO T3,PCXTCR(T2) ;TURN IT ON AGAIN
POPJ P, ;RETURN
CLRRCV: MOVE T2,PCLBAS(F) ;GET BASE ADDRESS
MOVEI T3,RCINIT ;GET CLEAR BIT
BSIO T3,PCXRCR(T2) ;CLEAR INTERFACE
MOVEI T3,RCVWRD!INTENA ;GET BITS TO SET
SKIPL ONEWRD(F) ;SKIP IF ONE WORD FLAG SET
TRNE S,INHRCV ;IS INHIBIT RCV SET
MOVEI T3,INTENA ;YES, GET JUST INT ENABLE
BSIO T3,PCXRCR(T2) ;SET IN REGISTER
POPJ P, ;RETURN
RCVDNX: PUSHJ P,RDRGST ;READ REGISTER STATUS
MOVE P1,PCLTBL(F) ;SETUP POINTER ADDRESS
IFN FTDBUG,<
MOVE T3,TIME## ;GET TIME
MOVEM T3,TIMRD0(F) ;SAVE IT
>; END IFN FTDBUG
TLNE S,USERWT ;WAS THIS A FLAG WORD ONLY TRANSFER
PJRST RCVONE ;YES, FLAG IT AND DO ENDING
TLNE S,PCIACT ;IS THIS NODE IN ACTIVE RECEIVE
PJRST RCVEND ;YES
; TAG RCLOST CAN BE REACHED IF AN XMIT NODE HAS SENT A FLAG WORD ONLY
; TRANSFER TO THIS IMPROPERLY OPENNED RECEIVE NODE.
RCLOST: LDB T1,PUNIT ;GET UNIT NUMBER
ADD P1,T1 ;ADD TO BASE TABLE ADDRESS
HLRZ T1,(P1) ;GET TABLE ENTRY
AOS T1 ;INCREMENT COUNT
HRLM T1,(P1) ;RESTORE ENTRY IN TABLE
MOVE T1,DEVMOD(F) ;GET DEVMOD WORD
TRNN T1,ASSPRG ;IS NODE ASSIGNED
PJRST PCRCVI ;NO, RESET RCV AND EXIT
LOSTRC: PJRST PURINT ;YES, RECEIVE IS LOST
RCVEND: HRRZS PCLBSY(P1) ;CLEAR INTERFACE RCV BUSY FLAG
MOVEI T3,SUCTXF ;GET CLEAR RECEIVER BIT
TLNE S,REJACT ;IS THIS A TRUNCATE
IORI T3,REJCOM ;YES,OR IN REJECT COMP BIT
BCIO T3,PCXRSR(T2) ;RESET RECEIVER SECTION STATUS
TLZ S,PCIACT!IO ;CLEAR SOME BITS
MOVEI T3,RCVNPR ;GET BIT TO CLEAR
BCIO T3,PCXRCR(T2) ;CLEAR IT
RDIO T3,PCRDBC(T2) ;READ THE RECEIVER BYTE COUNT
HRLM T3,PCIPTR(F) ;SAVE IT FOR LATER
HRRZS PCIBYT(F) ;CLEAR LEFT SIDE OF LOCATION
PUSHJ P,GTDIBC ;GET DEFAULT BYTE COUNT
HLRZ T4,PCIPTR(F) ;GET ENDING BYTE COUNT
SKIPE T4 ;TEST FOR ZERO AND JUMP
ANDI T1,177777 ;MASK TO 16-BIT COUNT
SUB T4,T1 ;GET NUMBER BYTES XFERED
HRRZ T1,DEVIAD(F) ;GET INPUT BUFFER ADDRESS
HRRM T4,1(T1) ;STORE BYTE COUNT IN BUFFER HEADER
MOVE T3,RFLGWD(F) ;GET RCV FLAG WORD
TRNE S,IFLGWD ;IS FLAG WRD TO BE INCLUDED IN BUFFER
MOVEM T3,2(T1) ;STORE FLG WD IN FIRST WORD OF BUFFER
HRRM T4,PCIBYT(F) ;SAVE BYTE COUNT FOR LATER
JRST RCVND1 ;GO SEE IF MORE INPUT TO COME
RCVONE: SETOM ONEWRD(F) ;SET ONE WORD FLAG
RCVND1: TLZ S,PCIACT ;CLEAR INPUT ACTIVE
PUSHJ P,ADVBFF## ;GO ADVANCE BUFFER, GET USEBIT SET
PJRST RCVSTP ;NEXT BUFFER NOT AVAILABLE
PUSHJ P,CLRRCV ;GO CLEAR THE RECEIVER
TLO S,PCIPWT ;SET INPUT WAITING
PJRST PCLSTP ;DO STOP AND SETIOD, RETURN TO MONITOR
RCVSTP:
IFN FTDBUG,<
MOVE T3,TIME## ;GET TIME
MOVEM T3,TIMRD2(F) ;SAVE IT
>; END IFN FTDBUG
TLZ S,REJACT ;WAS THIS A TRUNCATED MSG
PUSHJ P,PCSTOP ;YES, EXIT AND RETURN WITH CURRENT S BITS
PJRST CLRRCV ;ENABLE RECEIVE INTERRUPT
;HERE FOR A SOFTWARE REJECTED MESSAGE
SOR%RJ: TRO S,IOIMPM!IODEND ;SET ERROR BIT IN STATUS
JUMPGE T4,TXFRND ;JMP IF XMIT INTERRUPT, HANDLE SOFTWARE REJECT
RREJCP: MOVEI T3,REJCOM ;RCV REJECT COMPLETE - GET BIT TO CLEAR
BCIO T3,PCXRSR(T2) ;CLEAR THEM
MOVE T3,DEVMOD(F) ;GET DEVMOD STATUS
TRNN T3,ASSPRG ;HAS DDB BEEN OPEN
PJRST PCRCVI ;NO, INITIALIZE THE RECEIVER TO RCV ANOTHER FLG WD
TLZE S,REJACT ;YES, WAS USER REJECTING MESSAGE
PJRST REJDON ;YES, GO WAKE UP USER
PJRST PCRCVI ;NO, TURN ON RECEIVER AGAIN
REJDON: PUSHJ P,STOIOS## ;UPDATE DDB STATUS
PUSHJ P,PCSTPI ;FINISH AND RETURN TO USER
PJRST CLRRCV ;DONE WITH REJECT, GO ENABLE RCV AND EXIT
;HERE FOR TRUNCATED MESSAGES
TRUNCT: TRO S,IOBKTL!IOIMPM ;SET ERROR BITS IN STATUS
JUMPL T4,RCVDNX ;JMP IF RCV, HANDLE RCV TRUNCATED
PJRST TXFRND ;GO FINISH THRU XMIT DONE
;HERE FOR MASTER NOW INTERRUPT
MSTRNW: MOVE T3,PCLTBL(F) ;GET POINTER TO PCL BLOCK
PUSH P,U ;SAVE U ON STACK
MOVE U,OPRLDB## ;GET LDB OF CONSOLE
PUSHJ P,CRLF## ;PRINT CRLF
HLRZ T2,DEVNAM(F) ;GET INTERFACE NAME
PUSHJ P,PRNAME## ;PRINT IT
E$TYPE (0,< NOW PCL NETWORK MASTER>)
PJRST UPOPJ## ;RESTORE U AND RETURN FROM INTERRUPT
SOFBSY: PUSHJ P,RDRGXS ;READ REGISTERS
MOVEI T3,TXXRIB ;GET RIB BIT
TIOE T3,PCXTCR(T2) ;TEST IF SET
JRST PUTINT ;YES, SHOULD NOT GET SOFT BUSY IF RIB BIT IS SET
SFTBSY: TRO S,220000 ;FLAG SOFT BUSY CONDITION IN STATUS
PJRST TXFRND ;EXIT
;HERE TO TEST RCV DATA SILO OUTPUT READY
;THIS INTERRUPT/BIT USED TO INDICATE A FLAG WORD RECEIVED
TDTRDY: TRNE T1,RCVERR ;IS RCV ERROR SET
JRST PCLERR ;YES, GO DO ERROR SERVICE
IFN FTDBUG,<
MOVE T3,TIME## ;GET TIME
MOVEM T3,TIMDT0(F) ;SAVE
>; END IFN FTDBUG
RDIO T3,PCRDDB(T2) ;NO, READ THE RCV SILO BUFFER
MOVE T1,DEVMOD(F) ;GET DEVMOD WORD
TRNN T1,ASSPRG ;HAS DDB BEEN OPENNED
PJRST REJMSG ;NO, REJECT THE FLAG WORD/MESSAGE
TRNN S,ENIPUT ;IS SOMEONE WAITING ON INPUT THIS NODE
PJRST REJMSG ;NO, GO REJECT IT
LDB T1,PUNIT## ;GET UNIT NUMBER
HRL T3,T1 ;SAVE IT WITH FLAG WORD
MOVEM T3,RFLGWD(F) ;STORE RECEIVE FLAG WORD
MOVE P1,PCLTBL(F) ;GET POINTER ADDRESS TO DATA BLOCK
PUSHJ P,RDRGST ;GO READ REGISTER DATA
MOVEI T1,INTENA ;GET INTERRUPT ENABLE
BCIO T1,PCXRCR(T2) ;CLEAR RCV INTERRUPT ENABLE
TRNE S,ACPTRD ;IS USER ACCEPT AND READ BIT ALREADY SET
PJRST RCVINP ;YES, GO SETUP A DMA INPUT TRANSFER
;FOR THIS NODE IS WAITING ON INPUT
MOVEI T1,IR.PFW ;NO, GET PCL CONDITION FOR INTERRUPT
PUSHJ P,PSITST## ;GO TEST IF USER ENABLED
PJRST REJMSG ;NO, REJECT MESSAGE
DTRINT: PUSHJ P,PSIDVB## ;GIVE USER FLAG WORD INTERRUPT
JFCL
TLO S,USERWT ;SET WAITING BIT FOR USER RESPONSE TO FLG WRD
PUSHJ P,STOIOS## ;SAVE STATUS IN DDB
MOVE T2,PCLBAS(F) ;GET PCL ADDRESS
IFN FTDBUG,<
MOVE T3,TIME## ;GET TIME
MOVEM T3,TIMDT1(F) ;SAVE
>; END IFN FTDBUG
SETZM T3 ;CLEAR T3
PJRST ENARCV ;ENABLE RCV INTERRUPTS AND EXIT
RCVINP: TLNN S,PCIPWT ;IS INPUT BUFFER WAITING
PJRST REJMSG ;NO, REJECT MESSAGE
PJRST PCINPT ;YES, GO INPUT MORE
REJMSG: MOVEI T1,REJECT ;GET REJECT BIT
BSIO T1,PCXRCR(T2) ;DO THE REJECT
SETZM T3 ;CLEAR T3
PJRST PCRCVI ;GO ENABLE RCV INTERRUPTS
PUTINT: STOPCD CPOPJ,JOB,UTI ;UNEXPECTED TRANSMIT INTERRUPT
PURINT: STOPCD CPOPJ,JOB,URI ;UNEXPECTED RECEIVE INTERRUPT
SUBTTL ERROR INTERRUPT ROUTINE - DISPATCH
PCTERR: TRNE T1,OVERUN ;DATA OVERRUN ERROR?
PJRST OVRNER ;YES, HANDLE IT
TRNE T1,MSTDWN ;IS MASTER DOWN?
PJRST MSTRDN ;YES, HANDLE IT
PJRST PCLER1 ;NO
PCRERR: TRNE T1,RBCOFL ;BYTE COUNT OVERFLOW?
PJRST BCOVFL ;YES, HANDLE IT
TRNE T1,RCVPAR ;PARITY ERROR?
PJRST PARERR ;YES, HANDLE IT
PJRST PCLER1 ;NO
;ENTRY POINT FOR ANY PCL11-B ERROR
PCLERR:
IFN FTDBUG,<
MOVE T3,TIME## ;GET TIME
MOVEM T3,TIMERR(F) ;SAVE
>; END IFN FTDBUG
PUSHJ P,RDRGST ;READ INTERFACE REGISTERS
TRNE T1,NONEXM ;NON-EXISTENT MEMORY ERROR?
PJRST NXMERR ;YES, HANDLE IT
TRNE T1,MEMOFL ;ADDRESS OVERFLOW ERROR?
PJRST OFLERR ;YES, HANDLE IT
TRNE T1,TXMERR ;TRANSMISSION ERROR?
PJRST TRNSER ;YES, HANDLE IT
TRNE T1,TIMOUT ;TIME OUT ERROR?
PJRST TOTERR ;YES, HANDLE IT
JUMPL T4,PCRERR ;IS IT RCV INTERRUPT, JMP IF YES
PJRST PCTERR ;NO, XMIT INTERRUPT
PCLER1: STOPCD CPOPJ,JOB,UPE ;++UNEXPECTED PCL20 ERROR
;HERE TO GIVE THE USER AN I/O ERROR,TRIGGER PSI,AND DISMISS INTERRUPT
PCLIOE: DPB T3,PDVESE## ;STORE THE ERROR CODE
TRO S,300000 ;SET STATUS ERROR BITS
PUSHJ P,PCLSYR ;DO SYSERR REPORTING
TLNE S,IO ;TEST WHICH IO, SKIP IF RECEIVE
PJRST TXFRND ;NO, XMIT - CLEAR TRANSMITTER
PJRST RCVND1 ;RCV - CLEAR RECEIVE
SUBTTL ERROR INTERRUPT ROUTINE - HANDLER
NXMERR: MOVEI T3,IONXM% ;LOAD ERROR CODE FOR NXM
PJRST PCLIOE ;GO DO COMMON ERROR ENDING
OFLERR: MOVEI T3,IOOFL% ;LOAD ERROR CODE FOR OVERFLOW
PJRST PCLIOE ;DO COMMON ERROR ENDING
TRNSER: MOVEI T3,IOTXM% ;LOAD ERROR CODE FOR TRANSMISSION ERR
PJRST PCLIOE ;GO DO COMMON ENDING
PARERR: MOVEI T3,IOPAR% ;LOAD ERROR CODE FOR PARERR
PJRST PCLIOE ;DO COMMON ERROR ENDING THINGS
OVRNER:MOVEI T3,IOOVR% ;LOAD ERROR CODE FOR OVERRUN
PJRST PCLIOE ;DO COMMON ERROR ENDING
TOTERR: JUMPGE T4,XMTOER ;JUMP IF THIS IS XMIT TIMEOUT
TOTER1: MOVEI T3,IOTOT% ;LOAD ERROR CODE FOR TIMEOUT
PJRST PCLIOE ;DO COMMON ERROR ENDING
XMTOER: MOVEI T3,TXXRIB ;GET RIB BIT
TIOE T3,PCXTCR(T2) ;TEST IF SET
TRNN T1,TBSBSY ;WAS TBS BUSY SET IN STATUS
PJRST TOTER1 ;NO, GIVE ERROR CONDITION
PJRST SFTBSY ;YES, SOFT BUSY TIME OUT
MSTRDN: PUSH P,U ;SAVE U
MOVE U,OPRLDB ;GET NEW LDB FOR OPERATOR
PUSHJ P,CRLF## ;GIVE A CRLF
HLRZ T2,DEVNAM(F) ;GET DEVICE NAME
PUSHJ P,PRNAME ;TYPE NAME
E$TYPE (1,< MASTER DOWN>) ;PRINT REST OF MESSAGE
POP P,U ;RESTORE U
MOVEI T3,IOMDN% ;LOAD ERROR CODE FOR MASTER DOWN
PJRST PCLIOE ;DO COMMON ERROR ENDING
BCOVFL: MOVEI T3,IOBCO% ;LOAD ERROR CODE FOR BC OVERFLOW
DPB T3,PDVESE## ;STORE ERROR CODE
MOVEI T1,RCVNPR!INTENA ;GET BIT FOR CLEAR
BCIO T1,PCXRCR(T2) ;CLEAR OUT NPR BIT
MOVEI T1,RBCOFL ;GET BIT FOR CLEAR
BCIO T1,PCXRSR(T2) ;CLEAR IT
MOVEI T1,REJECT ;GET REJECT BIT
BSIO T1,PCXRCR(T2) ;TRUNCATATE THE MESSAGE NOW
TLO S,REJACT ;SET REJECT ACTIVE IN STATUS
PUSHJ P,STOIOS## ;UPDATE STATUS IN DDB
SETZM T3 ;CLEAR T3
PJRST ENARCV ;ENABLE RCV INTERRUPT AND EXIT
SUBTTL CHECKS FOR PCL ON-LINE & HUNG
PCLONL: AOS (P) ;ADJUST FOR SKIP RETURN
POPJ P, ;RETURN
PCLHNG: TLNN S,IO ;IF NODE IS DOING OUTPUT
TLNN S,PCIPWT ;OR IF INPUT REALLY ACTIVE
JRST PCHNG1 ;THEN DEVICE REALLY IS HUNG
WRPI PI.OFF ;NO INTERRUPTS FOR NOW
TDZ S,[XWD PCIPWT,IOACT] ;CLEAR STATUS BITS
MOVEM S,DEVIOS(F) ;STORE STATUS IN DDB
PUSHJ P,RTEVM## ;UNMAP BUFFERS, ETC.
WRPI PI.ON ;REENABLE INTERRUPTS
JRST CPOPJ1## ;TAKE SKIP RETURN (DEVICE IS O.K.)
PCHNG1: PUSHJ P,SAVE4## ;ENSURE ALL ACS ARE PRESERVED
MOVE P1,PCLTBL(F) ;GET ADDRESS OF PCX: TABLE
AOS (P) ;SKIP RETURN TO AVOID HUNG MESSAGE
TRO S,700000 ;SET ERROR BITS FOR HUNG DEVICE
TLNE S,IO ;XMT OR RCV ?
JRST TXFRND ;XMT - RESET TRANSMITTER
JRST RCVND1 ;RCV - RESET RECEIVER
RDRGXS: MOVNI T3,12 ;GET COUNT FOR NUMBER OF REGISTERS TO READ
SKIPA ;
RDRGST: MOVNI T3,16 ;GET COUNT AND NEGATE
MOVEI P4,REGBLK(F) ;GET ADDRESS OF DATA BLOCK
MOVE P3,[RDIO P2,PCXTCR(T2)] ;GET READ INSTRUCTION
HRLM T3,P4 ;CONSTRUCT IOWD WORD IN P4
REGST1: XCT P3 ;READ A REGISTER
MOVEM P2,(P4) ;STORE REGISTER DATA
ADDI P3,2 ;INCREMENT TO NEXT REG
AOBJN P4,REGST1 ;+1 COUNTER, LOOP IF STILL NEG
POPJ P, ;RETURN
SUBTTL DEVOP UUO INTERFACE - DISPATCH
;HERE ON A DISPATCH FROM UUOCON
; F=DDB
; T1=FUNCTION
;
;THE FOLLOWING ARE ERROR CODES WHICH CAN RESULT FOR THE PCL DEVOP UUO'S
;
;
;ERROR CODE TYPE UUO DESCRIPTION
;
; -1 NEUTRAL NOT A REAL ERROR CONDITION. UNIT WAS ALREADY
; IN NEUTRAL STATE WHEN REQUESTED.
; REJECT/ACCEPT INDICATES A ONE WORD ONLY TRANSFER OCCURED FOR
; THIS TRANSMISSION.
; 1 GENERAL FUNCTION CODE = 0. SHOULD NEVER OCCUR AT
; DRIVER LEVEL SINCE UUOCON CHECKS FOR ZERO
; 2 GENERAL FUNCTION CODE NOT VALID FOR PCL20 DRIVER
; 3 GENERAL CHECK OF THE PCL UBA ADDRESS FAILED
; 4 GENERAL TEST OF JOB ASSIGNED TO THE DEVICE NODE FAILED
; 5 NEUT/MSTR/SECD CHECK IF JOB PRIVILEGE TO MODIFY MASTER FAILED
; 6 MSTR/SECD NUMBER VALUE SPECIFIED FOR ADDRESS SILO LOAD
; WAS EITHER ZERO OR ONE
; 7 MSTR/SECD NUMBER VALUE SPECIFIED FOR SILO ADDRESS LOAD
; WAS GREATER THAN 50 DECIMAL.
; 10 MSTR/SECD GET WORD FAILED ON A FETCHING A WORD FROM
; USERS ARGUMENT BLOCK.
; 11
; 12 MSTR/SECD ADJUCENT ADDRESS CHECK FAILED.
; 13 MSTR/SECD FIRST AND LAST ADDRESSES MATCH.
; 14 MASTER MASTER BIT DID NOT SET IN TMMR
; WHEN MASTER REQUESTED. COULD BE ANOTHER MASTER
; ALREADY CONTROLING THE TDM BUS.
; 15 SECONDARY SECONDARY OR MASTER NOW BIT DID NOT SET IN TMMR
; WHEN SECONDARY REQUESTED.
; 16 SECONDARY ILLEGAL SECONDARY REQUEST WHEN TMMR ALREADY SET
; FOR MASTER STATE.
; 17 NEUTRAL NEUTRAL STATE DID NOT SET WHEN REQUESTED
;
; 20 REJECT/ACCEPT REJECT DEVOP GIVEN WITH NO ACTIVE TRANSFER PENDING
; ACCEPT/REJECT DEVOP GIVEN WHEN NOT IN USER WAIT STATE
; 21 GENERAL PUT WORD FAILED ON A STORE OF A WORD TO THE USERS ARGUMENT
; BLOCK
; 22 REJECT/ACCEPT ERROR STATUS SET IN DDB. TRANSFER CANNOT PROCEED
;
PCLDVP: MOVSI T2,-PCLDVL ;GET TABLE LENGTH SETUP AOBJN PTR
PUSHJ P,SAVE4## ;SAVE P1 THRU P4
PCLDV1: HLRZ T3,PCLDVT(T2) ;GET FUNCTION
CAME T1,T3 ;DO CODE MATCH?
AOBJN T2,PCLDV1 ;NO, GO LOOP
JUMPGE T2,ECOD2## ;NO MATCH, GIVE ERROR RTN
CAIE T1,1000 ;READ XMT STATUS ?
CAIN T1,1004 ;READ RCV STATUS ?
SKIPA T3,J ;YES - ALWAYS MATCH
LDB T3,PJOBN## ;NO - TEST DDB OWNERSHIP
CAME T3,J ;JOB NUMBERS MATCH ?
JRST ECOD4## ;NO - RETURN ERROR TO USER
IFN FTDBUG,<MOVEM T1,DVOPFC(F)> ;SAVE LAST DEVOP. FUNCTION CODE
HRRZ T4,PCLDVT(T2) ;GET DISPATCH ADDRESS
JRST (T4) ;DISPATCH TO INDIVIDUAL DEVOP. ROUTINE
PCLDVT: XWD 0,ECOD1## ;NO FUNCTION CODE SPECIFIED
XWD 1,DVREJT ;REJECT RECEIVE TRANSFER
XWD 2,DVACPR ;ENABLE INPUT TO ACCEPT AND READ CURRENT MESSAGE
XWD 3,DVERCV ;ENABLE RECEIVER FOR INPUT
XWD 11,DVTRTY ;SET TRANSMITTER RETRY CNT
XWD 12,DVRRTY ;SET RECEIVER RETRY CNT
XWD 1000,DVTSTS ;READ TRANSMITTER STATUS
XWD 1004,DVRSTS ;READ RECEIVER STATUS
XWD 1005,DVRFLG ;READ OF CURRENT STORED RCV FLAG WORD
XWD 1006,DVRERG ;READ SAVED ERROR STATUS REGISTERS
XWD 2000,DVNEUT ;SET DEVICE NEUTRAL
XWD 2004,DVMSTR ;SET DEVICE MASTER
XWD 2005,DVSECD ;SET DEVICE TO SECONDARY MASTER
PCLDVL==.-PCLDVT ;DISPATCH TABLE LENGTH
;HERE TO REJECT A MESSAGE VIA DEVOP.
DVREJT: PUSHJ P,SETBAS ;SETUP UBA BASE ADDRESS
TRNE S,300000 ;TEST FOR ERRORS
PJRST DVER22 ;YES, GIVE ERROR RETURN AND EXIT
TLZN S,USERWT ;IS DRIVER WAITING ON USER
PJRST DACPR1 ;NO, GIVE ERROR RETURN
TLO S,REJACT ;SET REJECT ACTIVE BIT IN STATUS
PUSHJ P,STOIOS## ;UPDATE DDB STATUS
MOVEI T3,REJECT!INTENA ;SET REJECT BIT IN RCR
BSIO T3,PCXRCR(T2) ;DO IT
; MOVE S,DEVIOS(F) ;GET STATUS FROM DDB
; TLNE S,REJACT ;TEST FOR REJECT COMPLETE
; PJRST .-2 ;WAIT IN THIS LOOP
DRJEND: PJRST RTZER## ;GIVE GOOD RETURN
;HERE FOR ACCEPT AND READ DEVOP. ROUTINE
DVACPR: PUSHJ P,SETBAS ;SETUP UBA BASE ADDRESS
IFN FTDBUG,<
MOVE T3,TIME## ;GET TIME
MOVEM T3,TIMACP(F) ;SAVE
>; END IFN FTDBUG
TRNE S,300000 ;TEST IF ERRORS IN STATUS
PJRST DVER22 ;YES, EXIT
TLZN S,USERWT ;IS THIS NODE WAIT FOR USER RESPONSE
PJRST DACPR1 ;NO, GIVE ERROR CODE AND RETURN
MOVE P1,PCLTBL(F) ;SETUP P1
MOVEI T1,INTENA ;GET BIT
BCIO T1,PCXRCR(T2) ;CLEAR INTERRUPT ENABLE
PUSHJ P,RCVINP ;GO TURN ON INPUT TO RCV MESSAGE
PJRST RTZER1## ;GIVE DEVOP. RETURN
DACPR1: PUSHJ P,PCRCVE ;ENABLE RECEIVER
SKIPL ONEWRD(F) ;WAS THIS A ONE WORD TRANSFER
PJRST ECOD20## ;GIVE ERROR CODE AND RETURN
SETZM ONEWRD(F) ;YES, CLEAR FLAG AND RETURN CODE
PJRST RTM1## ;GIVE -1 RETURN CODE IN AC
DVER22: PUSHJ P,PCSTPI ;GO RESET DEVICE BUFFERS, ETC.
PUSHJ P,PCRCVI ;REENABLE RECEIVER INTERRUPTS
PJRST ECOD22## ;RETURN ERROR CODE TO THE USER
;HERE TO ENABLE RECEIVER FOR INPUT
DVERCV:
IFN FTDBUG,<
MOVE T3,TIME## ;GET TIME
MOVEM T3,TIMERC(F) ;SAVE IT
>; END IFN FTDBUG
PUSHJ P,SETBAS ;SETUP UBA BASE ADDRESS
SETZM ONEWRD(F) ;CLEAR ONE WORD FLAG
PUSHJ P,PCRCVE ;ENABLE RECEIVE
PJRST RTZER1 ;GIVE A GOOD RETURN
;HERE TO SET RETRY COUNTS
DVTRTY: PUSHJ P,FTCHWD ;GET TRANSMIT RETRY CNT FROM USER
MOVEM T1,PCTRTY(F) ;SAVE COUNT
PJRST RTZER1## ;GIVE GOOD RETURN
DVRRTY: PUSHJ P,FTCHWD ;GET RECEIVER RETRY CNT FROM USER
MOVEM T1,PCRRTY(F) ;SAVE COUNT IN DDB BLOCK
PJRST RTZER1## ;GIVE GOOD RETURN
;HERE TO READ PCL11-B REGISTER STATUS
DVTSTS: SKIPA T4,[RDIO T1,PCXTCR(T2)] ;SETUP READ REGISTER CMD
DVRSTS: MOVE T4,[RDIO T1,PCXRCR(T2)] ;SETUP READ REGISTER CMD
PUSHJ P,SETBAS ;GET BASE ADDRESS
MOVEI T3,7 ;SETUP LOOP COUNT FOR 7 REGISTERS
DVSTS1: XCT T4 ;READ THE REGISTER
CAM ;NOP NEEDED TO PROTECT PC FROM
CAM ;READ SILO INTERRUPTS
PUSHJ P,PUTWR1## ;PUT STATUS WRD IN USER BLOCK
PJRST ECOD21## ;STORE FAILED
ADDI T2,2 ;ADJUST TO NEXT REGISTER
SOSE T3 ;READ ALL STATUS
PJRST DVSTS1 ;NO, LOOP
PJRST RTZER1 ;YES - GIVE GOOD RETURN
;HERE TO READ THE CURRENT RECEIVED FLAG WORD
DVRFLG: MOVE T1,RFLGWD(F) ;GET THE CURRENT RECEIVE FLAG WORD
PUSHJ P,PUTWR1 ;STORE IT IN THE USERS ARGUMENT BLOCK
PJRST ECOD21## ;PUT WORD FAILED
PJRST RTZER1 ;GIVE A GOOD RETURN
;HERE TO READ ERROR REGISTERS SAVED ON LAST ERROR
DVRERG: MOVE T1,PCLDAE+.HCL26(F) ;GET RECEIVER STATUS REGISTER
HRL T1,PCLDAE+.HCL22(F) ; ADD TRANSMITTER " " "
PJRST STOTC1## ;SKIP RETURN WITH ANSWER IN AC
;HERE TO SET INTERFACE TO NEUTRAL STATE
DVNEUT: PUSHJ P,SETBAS ;SETUP T2 WITH PCL BASE ADDR.
RDIO T3,PCTMMR(T2) ;READ MASTER REGISTER
TRNN T3,PCSECD!PCMSTR ;TEST MSTR AND SECD BITS
PJRST RTM1S ;EXIT - ALREADY NEUTRAL
PUSHJ P,CKPVBT ;CHECK PRIVILEDGE BIT
PUSH P,U ; SAVE U FOR LATER
MOVE U,OPRLDB## ;SETUP U TO POINT TO OPR
MOVEM T2,P4 ;SAVE PCL BASE ADDRESS FOR LATER
PUSHJ P,MESAGA ;PRINT HEADER MSG TO OPR
MOVEI T1,E$MSG2 <BACKUP SECONDARY BEING REMOVED >
TRNE T3,PCMSTR ;TEST IF MASTER SET
PJRST DNEUT2 ;NO, ITS SECONDARY - TELL OPR
MOVEI T1,E$MSG2 <NETWORK WILL BE LOSING PRIMARY MASTER>
TRNN T3,PCMSTN ;IS THIS PCL MASTER NOW
PUSHJ P,CONMES## ;NO - MASTER ONLY SET,TELL OPR
MOVEI T1,E$MSG2 <MASTER BEING REMOVED >
DNEUT2: PUSHJ P,CONMES ;YES, MASTER OF NETWORK - TELL
;OPR NETWORK LOSING PRIME
;NETWORK MASTER!!!!!
DNEUT1: MOVEI T3,PCMSTN!PCSECD!PCMSTR ;GET BITS TO CLEAR
MOVE T2,P4 ;RESTORE BASE ADDR. TO T2
RDIO T1,PCTMMR(T2) ;READ TMMR STATUS
BCIO T3,PCTMMR(T2) ;CLEARING BITS FOR NEUTRAL
MOVE P1,PCLTBL(F) ;SETUP ADDRESS TO PCL BLOCK
RDIO T1,PCTMMR(T2) ;STATE NOW, READ RESULTING STATE
TRNE T1,PCSECD!PCMSTR ;TEST MASTER AND SECD NOT SET
PJRST DNER17 ;BITS DID NOT CLEAR FOR NEUTRAL
PUSHJ P,CRLF## ;SEND OPR A CRLF
HLLZ T2,DEVNAM(F) ;GET DEVICE NAME
PUSHJ P,PRNAME## ;PRINT IT
E$TYPE (0,< DEVICE BEING SET NEUTRAL>)
PJRST DVRTN1 ;GIVE GOOD RETURN
DNER17: E$TYPE (3,<?? NEUTRAL STATE FAILED TO SET ??>)
POP P,U ;RESTORE U
PJRST ECOD17## ;GIVE ERROR CODE, BITS DIDN'T CLEAR
;HERE TO SETUP FOR MASTER OR SECONDARY
DVMSTR: TDZA P1,P1 ;SET FLAG FOR MASTER DEVOP
DVSECD: SETO P1, ;SET FLAG FOR SECONDARY DEVOP
MOVE P2,PCLTBL(F) ;GET ADDRESS TO PCL BLOCK
PUSHJ P,CKPVBT ;SAVE T1-CHECK PRIV BIT
PUSH P,U ;SAVE U
MOVE U,OPRLDB## ;POINT U TO OPR
PUSHJ P,MESAGA ;PRINT HEADER
PUSHJ P,SETBAS ;SET T2 TO PCL BASE ADDRESS
PUSHJ P,CKADRS ;GO CHECK ADDRESS FOR SILO LOAD
PJRST UPOPJ## ;ERROR RETURN
PUSHJ P,LDADRS ;GO LOAD ADDRESS SILO
DMEXIT: PJRST UPOPJ ;ERROR RETURN - EXIT
PUSH P,[DMEXIT] ;PUSH ERROR RETURN ON STACK
RDIO T3,PCTMMR(T2) ;GET MASTER REGISTER STATUS
TRNN T3,PCSECD!PCMSTR ;TEST FOR NEUTRAL
PJRST DMSTR3 ;BY-PASS OTHER CHECKING
MOVEI T1,PCSECD ;GET SECONDARY BIT
TION T1,PCTMMR(T2) ;TEST FOR IT
JUMPL P1,ECOD16## ;NO,MASTER MUST BE SET - ILLEGAL IF
;SECD REQUESTED,JMP & GIVE ERROR RTN
TIOE T1,PCTMMR(T2) ;TEST IF MASTER SET
JUMPE P1,DMSTR4 ;NO, SECD BUT WANTS MASTER - OK
JUMPE P1,DMSTR6 ;YES, MASTER - JMP IF WANTS MASTER
JRST DSECD1 ;NO, WANTS SECONDARY - OK
DMSTR4: E$TYPE (2,<BACKUP SECONDARY BEING REMOVED >)
DMSTR3: JUMPL P1,DSECD1 ;TEST WHICH DEVOP, JMP IF SECONDARY
DMSTR5: MOVEI T1,E$MSG2 <NEW NETWORK MASTER BEING SET >
MOVEI T3,PCMSTR/400 ;GET MASTER BIT
BSIOB T3,PCTMMR+1(T2) ;SET HIGH BYTE
TIONB T3,PCTMMR+1(T2) ;TEST IF MASTER BIT SET
PJRST ECOD14## ;MASTER DID NOT SET, COULD BE ANOTHER MASTER ON BUS
DMSTR1: PUSHJ P,CONMES ;YES-TELL OPR YOU ARE NOW NETWORK MASTER
DMSTR6: POP P, ;GET RID OF ERROR ADDRESS
PJRST DVRTN ;DO ENDING AND RETURN
;HERE TO SETUP SECONDARY
DSECD1: E$TYPE (2,<BACKUP SECONDARY BEING SET >)
MOVEI T1,PCSECD/400 ;GET SECONARDY BIT
BSIOB T1,PCTMMR+1(T2) ;SET HIGH BYTE, SECONDARY BIT
TIOEB T1,PCTMMR+1(T2) ;TEST SECONDARY SET
JRST DSECD2 ;YES, GO END
MOVEI T3,PCMSTR ;NO, GET MASTER BIT
MOVEI T1,E$MSG2 <SECONDARY NOW NETWORK MASTER>
TIOE T3,PCTMMR(T2) ;TEST IF MASTER
PJRST DMSTR1 ;YES, GOT MASTERSHIP-TELL OPR
RDIO T3,PCTMMR(T2) ;NO - ERROR, NOTHING SET
PJRST ECOD15## ;GIVE ERROR RETURN
DSECD2: POP P, ;POP ERROR ADDRESS OFF STACK
; **** PJRST DVRTN ;DO ENDING AND RETURN
DVRTN: MOVEI T3,AUTADR/400 ;GET AUTO-ADDRESS BIT
JUMPL P4,DVRTN2 ;DO WE WANT AUTO-ADR
BCIOB T3,PCTMMR+1(T2) ;NO, WANTS SILO ADDRESSING
MOVEI T1,E$MSG2 <SILO ADDRESSING ENABLED>
SKIPA ;SKIP AND PRINT THIS MESSAGE
DVRTN2: MOVEI T1,E$MSG2 <AUTO ADDRESSING ENABLED >
PUSHJ P,CONMES ;PRINT IT
DVRTN1: E$TYPE (3,<END OF PCL STATUS UPDATE>)
POP P,U ;RESTORE U
PJRST RTZER1 ;RETURN
RTM1S: SETOM T1 ;SET T1 ALL ONES FOR RETURN
AOS (P) ;ADJUST STACK FOR SKIP RETURN
PJRST STOTAC## ;GO RETURN
;HERE TO PRINT MASTER REGISTER STATUS CHANGING MESSAGE
MESAGA: PUSHJ P,CRLF## ;TYPE A CRLF
E$TYPE (2,<PCL NETWORK STATUS UPDATE >)
E$TYPE (2,<MASTER SECTION MAY BE BEING MODIFIED ON>)
HLRZ T2,DEVNAM(F) ;GET DEVICE NAME
PUSHJ P,PRNAME## ;PRINT DEVICE NAME
POPJ P, ;RETURN
SUBTTL ADDRESS SILO ROUTINES
CKADRS: PUSH P,M ;SAVE M FOR LOAD CYCLE
PUSH P,[CKEXIT] ;PUSH ERROR RETURN ADDRESS ON STACK
PUSHJ P,GETWR1## ;GET FIRST WORD
PJRST ECOD10## ;ERROR RETURN
SKIPGE P4,T1 ;TEST FOR AUTO ADDRESSING, SAVE IN P4
PJRST SAUTAD ;GO SET AUTADR MODE BIT
CAIG P4,1 ;IS IT GOOD VALUE - NOT ZERO AND ONE
PJRST ECOD6## ;NO - VALUE SPECIFIED IS ZERO-ERROR
CAIGE P4,ADRMIN ;IS NUMBER AT LEAST 20 DECIMAL
SETOM P3 ;NO-FLAG REPEAT COUNT NEEDED
CAILE P4,ADRMAX ;IS NUMBER GREATER THAN 50 DECIMAL
PJRST ECOD7## ;YES - GIVE ERROR RETURN
TRC T1,-1 ;COMPLEMENT NUMBER
ADDI T1,2 ;ADJUST FOR PROPER COUNT
HRLZ T3,T1 ;SETUP COUNT IN T3
PUSHJ P,GETWR1 ;GET FIRST ADDRESS VALUE
PJRST ECOD10 ;ERROR RETURN - EXIT
MOVE P2,T1 ;SAVE FIRST WORD
CKADR2: MOVE T4,T1 ;SETUP FOR FIRST COMPARE
PUSHJ P,GETWR1 ;GET NEXT ADDRESS VALUE
PJRST ECOD10 ;ERROR RETURN - EXIT
CAMN T1,T4 ;COMPARE ADJACENT VALUES
PJRST ECOD12## ;ERROR, VALUES COMPARE
AOBJN T3,CKADR2 ;DONE ALL VALUES - JUMP IF NOT
CAMN T1,P2 ;COMPARE FIRST AND LAST VALUES
PJRST ECOD13## ;ERROR-FIRST AND LAST =
POP P, ;REMOVE ERROR ADDRESS FROM STACK
CKADR1: AOS -1(P) ;GIVE SKIP RETURN
CKEXIT: PJRST MPOPJ## ;RESTORE M, RETURN
SAUTAD: POP P, ;GET RID OF ERROR ADDRESS
AOS -1(P) ;ADJUST RETURN TO SKIP LOAD CYCLE
AOS -1(P) ;
LDADRS: MOVEI T3,CLRADR!AUTADR ;GET BITS FOR SILO LOAD
BSIO T3,PCTMMR(T2) ;SET CLEAR ADDRESS SILO AND SET AUTO ADR
SKIPGE P4 ;CHECK FOR AUTO ADR FLAG
PJRST CKADR1 ;EXIT - AUTO ADDRESS MODE
MOVEI T3,RDSILO ;
BCIO T3,PCXTCR(T2) ;MAKE SURE READ SILO BIT CLEAR
SETZM T3 ;CLEAR T3 FOR COUNT
HRRI M,1(M) ;INCREMENT M TO POINT TO FIRST ADDR.
MOVE P2,M ;SAVE M FOR LATER
LDADS2: HRR T1,P4 ;GET NUMBER OF ADDRESSES
TRC T1,-1 ;COMPLEMENT THE NUMBER
AOS T1 ;ADJUST FOR PROPER COUNT
HRL T3,T1 ;SETUP COUNT
MOVE M,P2 ;RESTORE M FOR LOOP
LDADS1: PUSHJ P,GETWR1 ;GET ADDRESS VALUE
PJRST ECOD10 ;ERROR RETURN - EXIT
LDADS3: RDIO T4,PCTMMR(T2) ;READ TMMR STATUS
TRNN T4,AIPRDY ;TEST IF WE CAN LOAD AN ADDRESS IN SILO
JRST LDADS3 ;NO, NOT YET - WAIT IN THIS LOOP
WRIOB T1,PCTMMR(T2) ;LOAD ADDRESS INTO SILO
AOBJN T3,LDADS1 ;DONE LOAD
JUMPGE P3,LDEXIT ;YES - TEST REPEAT SEQ FLAG
HRRZ T1,T3 ;REPEAT CYCLE NEEDED
CAIGE T1,ADRMIN ;IS MIN. NUMBER OF ADDRESSES BEEN LOADED
JUMPA LDADS2 ;NO-CONTINUE LOAD BY REPEATING SEQ
LDEXIT: AOS (P) ;ADJUST STACK FOR RETURN
POPJ P, ;TAKE SKIP RETURN
;HERE TO GET A WORD FROM USERS ARGUMENT BLOCK
FTCHWD: PUSHJ P,GETWR1## ;GET USER ARGUMENT WORD
SKIPA
POPJ P, ;RETURN
POP P, ;FETCH FAILED
PJRST ECOD10## ;EXIT
;HERE TO SETUP AND TEST PCL BASE ADDRESS
SETBAS: MOVE T2,PCLBAS(F) ;GET PCL BASE ADDRESS
MOVE T1,T2 ;T1 MUST HAVE ADDRESS
PUSHJ P,UBGOOD## ;GO CHECK UBA THERE
SKIPA ;BAD UBA,ADDRESS OR BUS
POPJ P, ;YES, RETURN
POP P, ;ADJUST STACK
PJRST ECOD3## ;EXIT
;HERE TO CHECK FOR PRIVILEDGED USER
CKPVBT: MOVEI T1,PCLPRV ;SETUP T1 WITH PRIV BIT
PUSHJ P,PRVBT## ;GOTO CHECK ROUTINE
POPJ P, ;OK, GOOD RETURN-CAN MODIFY MASTER SECTION
POP P, ;NO - FORGET IT,BAD GUY!!!
PJRST ECOD5## ;EXIT
SUBTTL OUT/OUTPUT PCL20 UUO SERVICE
PCLOUT: PUSHJ P,SAVE4## ;SAVE P1 - P4
TLO S,IO ;FLAG OUTPUT
MOVE P1,PCLTBL(F) ;GET POINTER ADDRESS
HRLZ T1,PCLBSY(P1) ;GET BUSY WORD
SKIPL T1 ;SKIP IF BUSY
TLNE S,PCOBSY ;;IS IT SET
PJRST PCBUSY ;YES,INTERFACE TRANSMITTER NOT AVAILABLE
TLO S,PCOBSY ;OK, INTERFACE AVAILABLE TO USE
PCOUTG: SKIPL @DEVOAD(F) ;TEST IF BUFFER READY
POPJ P, ;NO, BUFFER NOT AVAILABLE - EXIT
MOVE P1,PCLTBL(F) ;GET ADDRESS TO CONTROL BLOCK
HLLOS PCLBSY(P1) ;SET INTERFACE XMIT BUSY FLAG
IFN FTDBUG,<
MOVE T1,TIME## ;GET TIME
MOVEM T1,TIMOU0(F) ;SAVE IT
>; END IFN FTDBUG
PUSHJ P,PCSETO ;SETUP USER'S OUT BUFFER
PJRST STOIOS## ;ERROR IN BUFFER SETUP, EXIT
TRO S,IOACT ;SET IO ACTIVE
TLO S,PCOACT ;SET OUTPUT ACTIVE
;HERE TO START PCL OUTPUT GOING
PCLOGO: PUSHJ P,STOIOS## ;UPDATE STATUS FIRST
MOVE T2,PCLBAS(F) ;GET BASE ADDRESS OF PCL
MOVEI T1,INTENA ;GET BIT
BCIO T1,PCXTCR(T2) ;CLEAR INT ENABLE
MOVN T1,PCOBYT(F) ;GET NEGATIVE BYTE COUNT
TRNN S,IOWC ;IS BIT SET
SOS T1 ;NO, ADJUST BYTE COUNT
WRIO T1,PCTSBC(T2) ;SET IN BYTE COUNT REGISTER
RDIO T1,PCTSBC(T2) ;
MOVE P3,PCOCDB(F) ;GET OUTPUT CHANNEL BLOCK ADDRESS
MOVE T1,CHNIEA##(P3) ;GET -11 STYLE ADDRESS
WRIO T1,PCTSBA(T2) ;SET IN BUS ADDRESS REGISTER
RDIO T3,PCTSBA(T2) ;
LSH T1,-14 ;ISOLATE TWO HIGH ORDER ADDRESS BITS
TRZ T1,777717 ;MASK FOR PROPER POSITION
MOVE T3,TFLGWD(F) ;GET THE FLAG WORD
WRIO T3,PCTSDB(T2) ;LOAD INTO THE DATA SILO
RDIO T3,PCTSDB(T2) ;
IORI T1,SNDWRD ;GET INTERFACE START BITS
LDB T3,PUNIT ;GET DESTINATION NODE ADDRESS
LSH T3,10 ;SHIFT INTO POSITION
IOR T1,T3 ;COMBINE WITH OTHER BITS
TRNE S,USERIB ;DOES USER WANT RIB BIT SET
IORI T1,TXXRIB ;YES, SET RIB BIT IN TCR
IORI T1,STRTXM!TXXNPR ;GET ENABLE BITS
WRIO T1,PCXTCR(T2) ;SET IN COMMAND REGISTER
IFN FTDBUG,<
MOVE T1,TIME## ;GET TIME
MOVEM T1,TIMOU1(F) ;SAVE IT
>; END IFN FTDBUG
PUSHJ P,RDRGXS ;GO READ IF REGISTERS
RDIO T1,PCXTCR(T2) ;READ COMMAND REG
HRLM T1,PCLTST(F) ;SAVE FOR REFERANCE
RDIO T3,PCXTSR(T2) ;READ STATUS
HRRM T3,PCLTST(F) ;SAVE IT
PCOEND: PUSHJ P,STOIOS## ;STORE STATUS, SET HUNG TIMER
MOVEI T1,INTENA ;GET INTERRUPT ENABLE BIT
BSIO T1,PCXTCR(T2) ;SET XMIT ENABLE INTERRUPTS
POPJ P, ;EXIT TO MONITOR
SUBTTL IN/INPUT PCL20 UUO SERVICE
PCLINP: PUSHJ P,SAVE4 ;SAVE P1 - P4
IFN FTDBUG,<
MOVE T3,TIME## ;GET TIME
MOVEM T3,TIMIN0(F) ;SAVE
>; END IFN FTDBUG
TLNE S,PCIPWT ;IS THIS NODE WAITING TO RECEIVE
PJRST PCBUSY ;YES, BUSY - GO EXIT
MOVE T1,DEVIAD(F) ;GET AND SAVE INPUT BUFFER ADDRESS
MOVEM T1,PCIPTR(F) ;FOR USE LATER AT INTERRUPT
MOVE T2,PCLBAS(F) ;GET PCL BASE ADDRESS
TLO S,PCIPWT ;SET NODE WAITING
TRO S,IOACT ;SET IO ACTIVE BIT
PUSHJ P,STOIOS## ;UPDATE STATUS
PUSHJ P,RDRGST ;READ REGISTER DATA
IFN FTDBUG,<
MOVE T3,TIME## ;GET TIME
MOVEM T3,TIMIN1(F) ;SAVE
>; END IFN FTDBUG
POPJ P, ;RETURN
;HERE TO GET PCL INPUT GOING
PCINPT: SKIPGE @DEVIAD(F) ;TEST IF BUFFER AVAILABLE
PJRST REJMSG ;BUFFER NOT AVAILABLE, REJECT MESSAGE
HRROS PCLBSY(P1) ;SET INTERFACE RCV BUSY FLAG
PUSHJ P,PCSETI ;GO SETUP BUFFER
PJRST STOIOS ;ERROR IN BUFFER SETUP, NON-SKIP RETURN
TLZ S,PCIPWT ;CLEAR INPUT WAIT BIT
TLO S,PCIACT ;SET INPUT NOW ACTIVE
MOVEM S,DEVIOS(F) ;UPDATE DDB STATUS
PUSHJ P,GTDIBC ;GET INPUT BYTE COUNT
MOVE T2,PCLBAS(F) ;GET BASE ADDRESS OF I/O REGISTER
HRLM T1,PCIPTR(F) ;SAVE COUNT FOR REFERENCE
WRIO T1,PCRDBC(T2) ;SET IN BYTE COUNT REGISTER
MOVE P3,PCICDB(F) ;GET INPUT CHANNEL BLOCK ADDRESS
MOVE T1,CHNIEA##(P3) ;GET -11 STYLE ADDRESS
HRLM T1,PCIBYT(F) ;SAVE ADDRESS FOR REFERANCE
WRIO T1,PCRDBA(T2) ;SET IN BUS ADDRESS REGISTER
LSH T1,-14 ;GET TWO HIGH ORDER ADDRESS BITS ISOLATED
TRZ T1,777717 ;MASK FOR PROPER POSITION
IORI T1,RCVDAT!RCVNPR ;OR IN THE TRANSFER ENABLE BITS
MOVEI T3,RCVERR ;GET ERROR BIT
TIOE T3,PCXRSR(T2) ;TEST FOR RCV ERROR SET
PJRST PCINER ;YES, EXIT DON'T START A TRANSFER
BSIO T1,PCXRCR(T2) ;SET IN COMMAND REGISTER
RDIO T1,PCXRCR(T2) ;READ WHAT WAS WRITTEN
HRLM T1,PCLRST(F) ;SAVE FOR LATER
RDIO T3,PCXRSR(T2) ;READ STATUS
HRRM T3,PCLRST(F) ;SAVE IT
PUSHJ P,RDRGST ;READ REGISTER DATA
PCIEND: PUSHJ P,STOIOS## ;STORE STATUS,SET HUNG TIMER
PCIND1:
IFN FTDBUG,<
MOVE T3,TIME## ;GET TIME
MOVEM T3,TIMING(F) ;SAVE
>; END IFN FTDBUG
MOVEI T3,INTENA ;GET ENABLE BITS
BSIO T3,PCXRCR(T2) ;SET IN COMMAND REGISTER
POPJ P, ;RETURN
PCINER: TRZ S,IOACT ;CLEAR IO ACTIVE BIT
PUSHJ P,STOIOS## ;STORE STATUS
PUSHJ P,RTEVM## ;RETURN EVM FOR BUFFER
PJRST PCIND1 ;DO ENDING
SUBTTL SETUP NEXT BUFFER ROUTINES
PCSETI: MOVEI T3,@DEVIAD(F) ;GET ADDRESS OF CURRENT IN BUFFER
HRRZ T4,1(T3) ;GET COUNT FROM BUFFER HEADER
TRNN S,IOWC ;IS USER SPECIFYING BYTE COUNT
IMULI T4,4 ;NO, CONVERT WORDS TO BYTES
HLRZ T2,DEVEVM(F) ;GET CURRENT USER IN BUFFER ADDRESS
HRL T2,T4 ;FORM IOWD IN T2
AOS T2 ;BUMP T2 FOR IOWD, DO THIS BUFFER
MOVEM T2,PCIPTR(F) ;SAVE BYTE COUNT AND ADDRESS OF BUFFER
MOVEM T4,PCIBYT(F) ;SAVE COUNT FOR LATER
MOVE R,JBTADR##(J) ;GET CURRENT RELOCATION
ADDI T2,(R) ;RELOCATE "IOWD" TO EXEC SPACE
HLL T2,@DEVIAD(F) ;GET CURRENT INPUT BUFFER SIZE
TLZ T2,400000 ;CLEAR USE BIT
TLCE T2,777777 ;SET WORD COUNT NEGATIVE
TRNE S,IFLGWD ;IF USER WANTS FLAG WORD IN DATA BUFFER
AOBJP T2,NOMSG ; ADJUST ADDRESS TO FIRST DATA LOCATION
MOVE P3,PCICDB(F) ;GET POINTER TO IN CHANNEL DATA BLOCK
PJRST PBUFST ;
PCSETO: MOVEI T1,@DEVOAD(F) ;GET ADDRESS OF CURRENT OUT BUFFER
HRRZ T4,1(T1) ;GET BYTE COUNT FROM BUFFER HEADER
TRNE S,IOWC ;IS USER SPECIFYING BYTE COUNT
JRST PSETO1 ;YES - LEAVE COUNT AS IT IS
IMULI T4,4 ;NO, CONVERT WORDS TO BYTES
SUBI T4,2 ;BUT REMEMBER ONLY 2 BYTES IN 1ST WORD
PSETO1: JUMPLE T4,NOMSG ;TEST FOR ZERO LENGTH, JMP IF YES
MOVEM T4,PCOBYT(F) ;SAVE COUNT FOR LATER
MOVE T1,2(T1) ;GET FLAG WORD INTO T1
MOVEM T1,TFLGWD(F) ;SAVE IT IN THE DDB
MOVEI P1,2(T4) ; Get # of bytes (+2, for rounding)
LSH P1,-2 ; Convert byte-count to word-count
HLRZ T2,DEVEVM(F) ;GET USER VIRTUAL ADDRESS OF BUFFER
MOVE R,JBTADR(J) ;GET CURRENT RELOCATION
ADDI T2,(R) ;RELOCATE "IOWD" TO EXEC SPACE
HRROI T2,3-1(T2) ;GET ADDRESS-1 FOR MAPIO
TLC T2,(P1) ;FORM IOWD
MOVE P3,PCOCDB(F) ;GET POINTER TO OUT CHANNEL DATA BLOCK
; PJRST PBUFST ;
PBUFST: SETZ P1, ;CLEAR P1
PUSHJ P,MAPIO## ;GO SETUP UNIBUS ADAPTER REGISTERS
STOPCD CPOPJ,JOB,MGL ;+++MAPIO GOT LOST
AOS (P) ;GIVE SKIP RETURN
POPJ P, ;RETURN
;HERE TO GET THE MAX DEFAULT BYTE COUNT FOR SELECTED DATA MODE
; RETURNS WITH NEGATIVE BYTE COUNT IN T1
GTDIBC: TLNE S,PCIPWT ;IS THIS INPUT START UP
SKIPE PCIBYT(F) ;TEST FOR ZERO COUNT
PJRST GTUCNT ;NO, TAKE USER SUPPLIED COUNT
HLRZ T1,@DEVIAD(F) ;GET CURRENT INPUT BUFFER SIZE
TRZ T1,400000 ;CLEAR USE BIT
IMULI T1,4 ;IMAGE MODE, MAKE IMAGE COUNT
MOVEM T1,PCIBYT(F) ;SAVE COUNT FOR FORMATTER
MOVN T1,T1 ;GET NEGATIVE OF COUNT IN T1
POPJ P, ;RETURN
GTUCNT: TRNE S,IOWC ;IS USER WC BIT SET
SOS PCIBYT(F) ;YES, ADJUST FOR BYTE COUNT
SOS PCIBYT(F) ;ADJUST COUNT
MOVN T1,PCIBYT(F) ;JUST GET BYTE COUNT
POPJ P, ;RETURN
PCRCVI: MOVE T2,PCLBAS(F) ;GET BASE ADDRESS
MOVEI T3,RCINIT ;GET BIT TO CLEAR RECEIVER SO THAT THE
BSIO T3,PCXRCR(T2) ;TIMEOUT ONE SHOT CAN GET RESET
RDIO T1,PCXRCR(T2) ;READ RCV COMMAND REGISTER
PCRCVE: MOVEI T3,RCVWRD ;GET BITS FOR SETTING
ENARCV: TRO T3,INTENA ;SET ENABLE BIT
BSIO T3,PCXRCR(T2) ;THEN INITIALIZE RCV TO RECEIVE ANOTHER FLG WD
POPJ P, ;RETURN
NOMSG: POP P,T1 ;CLEAN UP STACK
TRO S,IOIMPM ;SET ERROR BIT IN STATUS
HLLZS PCLBSY(P1) ;CLEAR OUT BUSY
PJRST PCSTOP ;SHUT DOWN THIS IO
SUBTTL CLOSE UUO
PCLCLS: MOVE T2,PCLBAS(F) ;GET BASE ADDRESS
TLNE S,IO ;TEST WHICH IO
PJRST XMTENA ;ENABLE XMIT
PJRST PCRCVE ;ENABLE RCV
SUBTTL RELEASE UUO
PCLREL: PUSHJ P,PCLCLS ;DO CLOSE THINGS
TRO S,IODEND ;SET EOF BIT IN STATUS
PCSTOP: TLNN S,IO ;IS THIS INPUT OR OUTPUT RELEASE ?
PCSTPI: TLZA S,USERWT!PCIPWT!PCIACT ;CLEAR INPUT BITS
PCSTPO: TLZ S,PCOBSY!PCOACT ;CLEAR OUTPUT BITS
TRZ S,IOACT ;CLEAR ACTIVE
PUSHJ P,RTEVM## ;RETURN EVM FOR BUFFER
;HERE TO STOP THE PCL AND START THE USER
PCLSTP: PUSHJ P,STOIOS## ;STORE STATUS IN DDB
IFN FTDBUG,<
MOVE T1,TIME## ;GET TIME
MOVEM T1,TIMDON(F) ;SAVE IT
>; END IFN FTDBUG
PJRST SETIOD## ;CLEAR IO WAIT, REQUE IF NEEDED
;EXIT AND RETURN TO MONITOR!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!
PCBUSY: TRO S,200000 ;SET AN ERROR BIT
PJRST PCLSTP ;STOP AND RETURN
SUBTTL DAEMON ERROR REPORTING FOR SYSERR
;HERE TO DO DAEMON ERROR REPORTING FOR SYSERR
PCLSYR: MOVE T1,PCLBAS(F) ;GET PCL BASE ADDRESS IN T1
MOVE U,PCICDB(F) ;GET IN CHANNEL BLOCK ADDRESS
TLNE S,IO ;IS THIS INPUT ERROR??
MOVE U,PCOCDB(F) ;NO, OUTPUT. GET CHANNEL ADDRESS
RDIO T2,@CHNUBA##(U) ;READ UBA STATUS REGISTER
MOVEM T2,PCLDAE+.HCL20(F) ;SAVE IT
RDIO T3,PCXTSR(T1) ;GET STATUS REGISTER
LSH T3,-4 ;POSITION 2 BIT ADDRESS EXTENSION
RDIO T2,PCTSBA(T1) ;GET REST OF BUS ADDRESS
DPB T3,[POINT 2,T2,19] ;PUT IN HIGH ORDER BITS
IDIVI T2,UBAMUL ;COMPUTE MAP REGISTER OFFSET
ADDI T2,UBAEXP ;ADD IN THE BASE ADDRESS
HLL T2,CHNUBA##(U) ;PUT IN PROPER UBA NUMBER
RDIO T3,(T2) ;READ OUT MAP SLOT OF LAST WORD XFER'ED
MOVEM T3,PCLDAE+.HCL21(F) ;SAVE IT
RDIO U,PCXTCR(T1) ;GET STATUS REGISTER
RDIO T2,PCXTSR(T1) ;GET STATUS REGISTER
HRLI T2,(U) ;PUT IN LH OF T2
MOVEM T2,PCLDAE+.HCL22(F) ;SAVE IT
RDIO U,PCTSDB(T1) ;GET REGISTER
RDIO T2,PCTSBC(T1) ;GET REGISTER
HRLI T2,(U) ;PUT IN LH OF T2
MOVEM T2,PCLDAE+.HCL23(F) ;SAVE IT
RDIO U,PCTSBA(T1) ;GET REGISTER
RDIO T2,PCTMMR(T1) ;GET REGISTER
HRLI T2,(U) ;PUT IN LH OF T2
MOVEM T2,PCLDAE+.HCL24(F) ;SAVE IT
RDIO T2,PCTCRC(T1) ;GET REGISTER
HRLZ T2,T2 ;SWAP HALVES
MOVEM T2,PCLDAE+.HCL25(F) ;SAVE IT
RDIO U,PCXRCR(T1) ;GET REGISTER
RDIO T2,PCXRSR(T1) ;GET REGISTER
HRLI T2,(U) ;PUT IN LH OF T2
MOVEM T2,PCLDAE+.HCL26(F) ;SAVE IT
RDIO U,PCRDDB(T1) ;GET REGISTER
RDIO T2,PCRDBC(T1) ;GET REGISTER
HRLI T2,(U) ;PUT IN LH OF T2
MOVEM T2,PCLDAE+.HCL27(F) ;SAVE IT
RDIO U,PCRDBA(T1) ;GET REGISTER
RDIO T2,PCRCRC(T1) ;GET REGISTER
HRLI T2,(U) ;PUT IN LH OF T2
MOVEM T2,PCLDAE+.HCL30(F) ;SAVE IT
MOVE T2,JBTPPN##(J) ;PICK UP PPN
MOVEM T2,PCLDAE+.HCUID(F) ;SAVE IT
MOVE T2,JBTPRG##(J) ;PICK UP PROGRAM NAME
MOVEM T2,PCLDAE+.HCPGM(F) ;SAVE IT
MOVEI T1,.ERSPC ;GET SYSERR TYPE FOR THIS DEVICE
HRLI T1,PCLDAP(F) ;POINTER TO AOBJN POINTER
PJRST DAEERR## ;CALL DAEMON
XLIST ; **** LITERALS ****
LIT
LIST
PCLEND: END