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boot.pal
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/ BOOT 0.5 -- DOWN-LINE BOOTSTRAP FOR DC72NP 01 MAR 77
/ KALMAN RETI
/*** COPYRIGHT 1977 DIGITAL EQUIPMENT CORP., MAYNARD, MASS. ***
MAJOR=0
MINOR=5
IFNDEF PDP8 <PDP8=2> /FOR PDP8I USE 1
/FOR PDP8E USE 2
PDP8I=PDP8-1
PDP8E=PDP8-2
IFNDEF FTDP01 <
IFZERO PDP8I <FTDP01=-1>/DEFAULT IS DP01 HDW
IFZERO PDP8E <FTDP01=0> /DEFAULT FOR 8E IS DP8E
>/END OF IFNDEF FTDP01
IFNZRO FTDP01 <FTDP8E=0>
IFZERO FTDP01 <FTDP8E=-1>
IFNDEF KG8E <
KG8E=0
IFZERO FTDP01 <
/KG8E=1
>/END OF IFZERO FTDP01
>/END OF IFNDEF KG8E
IFNDEF FTMIM <FTMIM=0> /MIMIC SWITCH OFF BY DEFAULT
IFNDEF EFIELD <EFIELD=1> /FIELD WHERE LOADED
IFNDEF FTBIGL <FTBIGL=0>
IFNDEF MAXLEN <MAXLEN=177+12>
IFNDEF FTDEBUG <FTDEBUG=0>
IFNDEF START <START=0>
IFNDEF NAME <
NAMXXX=1 /SWITCH TO TELL NAME MACRO UNDEFINED
DEFINE NAME <> /NULL NAME TO SEND IN REQUEST LOAD MESSAGE
>/END OF IFNDEF NAME
IFNDEF SERIAL <SERIAL=0> /SERIAL NUMBER OF MACHINE
IFNDEF NODE <NODE=0> /NODE TO SEND REQUEST LOAD TO
/ USEFUL OPCODES
NEGATE=CML CMA IAC /NEGATE AC & LINK
ZZ=EFIELD^10
CDFINS=CDF+ZZ /FIELD WE ARE EXECUTING IN
NL0=CLA CLL
NL1=CLA CLL IAC
NL2=CLA CLL IAC RAL
NLM1=CLA CLL CMA CML
NLM2=CLL CLA CMA RAL
BSW=7002
CAF=6007
IFZERO FTBIGL <DEFINE XL <XLIST>>
IFNZRO FTBIGL <DEFINE XL <>>
/ EQUATES
ACCPT=11
EXDATA=12
RJCT=13
AUTO1=10
AUTO2=11
IFNZRO FTDEBUG <
/LINE PRINTER IOT'S - LS8E & LE8=LP08
LPTSTF=6660 /SET THE FLAG (LS8E ONLY)
LPTSKF=6661 /SKIP ON FLAG
LPTCLF=6662 /CLEAR FLAG
LPTSKE=6663 /SKIP ON NOT READY
/ LPT=6664 /LOAD PRINT BUFFER
LPTSIE=6665 /SET PI ENABLE (LE8 ONLY)
/ IF AC11=1 SET PI ENABLE (LS8E ONLY)
/ IF AC11=0 CLEAR PI ENABLE (LS8E ONLY)
LPTSTB=6666 /LOAD DATA & CLEAR FLAG
LPTCIE=6667 /CLEAR PI ENABLE (LE8 ONLY)
LPTWID=204
IFNZRO FTMIM <
LPTSTB=6046
LPTSTF=6040
LPTSKF=6041
LPTWID=110
>/END OF IFNZRO FTMIM
>/END OF IFNZRO FTDEBUG
/MACROS
DEFINE HGHADR <
CLL RTR
RTR
RAR>
/IFZERO PDP8E <
/ DEFINE HGHADR <
/E BSW
/ CLL RTL>
/>/END OF IFZERO PDP8E
XL
IFNZRO FTDP01 <
XL
/IOTS FOR DP01
DPTAC=6301 /TRANSMIT A CHARACTER
DPCTF=6302 /CLEAR TRANSMIT FLAG & SKIP IF TRANSMIT ACTIVE FLAG SET
DPCIM=6304 /CLEAR IDLE MODE
DPSTF=6311 /SKIP ON TRANSMIT FLAG NOT SET
DPSIM=6314 /SET IDLE MODE
DPSRF=6351 /SKIP ON RECEIVE FLAG NOT SET
DPRRB=6312 /READ RECEIVE BUFFER(AND CLEAR FLAG)
DPSEF=6321 /SKIP ON RECEIVE END FLAG
DPCEF=6322 /CLEAR END FLAG
DPSRE=6324 /SET RING ENABLE
DPCRE=6344 /CLEAR RING ENABLE
DPSRI=6331 /SKIP ON RING INDICATOR
DPCRF=6332 /CLEAR RING FLAG
DPSTR=6334 /SET TERMINAL READY
DPCTR=6342 /CLEAR TERMINAL READY
DPSSR=6341 /SKIP ON DATASET READY
DPCRA=6352 /CLEAR RECEIVER ACTIVE
XL
>/END OF IFNZRO FTDP01
XL
/
XL
IFZERO FTDP01 <
XL
/IOTS FOR DP8E SYNCHRONOUS LINE INTERFACE
DPSGTT=6405 /TRANSMIT GO
DPSGRR=6404 /RECEIVE GO
DPSSCD=6400 /SKIP IF CHAR DETECTED
DPSCSD=6406 /CLEAR SYNC DETECT
DPSSRO=6402 /SKIP IF RECEIVE WORD COUNT OVERFLOW
DPSSTO=6403 /SKIP IF TRANSMIT WORD COUNT OVERFLOWS
DPSCSI=6401 /CLEAR SYNCHRONOUS INTERFACE
DPSRTA=6407 /READ TRANSFER ADDRESS REGISTER
DPSLCC=6412 /LOAD CONTROL
DPSSRG=6410 /SKIP IF RING FLAG
DPSSCA=6411 /SKIP IF CARRIER/AGC FLAG
DPSRS2=6414 /READ STATUS 2
/ AC00 CARRIER/AGC
/ AC01 REQUEST TO SEND
/ AC02 TERMINAL READY
/ AC03 CLEAR TO SEND
/ AC04 TEMA 0(TRANSMIT EXTENDED MEMORY ADDRESS)
/ AC05 TEMA 1
/ AC06 TEMA 2
/ AC07 RECEIVE DATA(INV)
DPSRS1=6415 /READ STATUS 1
/ AC00 R-RQST RECEIVE AND TRANSMIT
/ AC01 T-RQST BREAK REQUESTS
/ AC02 SYNC 2 RECEIVED SYNC
/ AC03 SYNC 1 CHARS
/ AC04 REMA 0
/ AC05 REMA 1
/ AC06 REMA 2
/ AC07 MODEM READY
DPSLFL=6413 /LOAD FIELD
DPSSBE=6416 /SKIP ON BUS ERROR
DPSRCD=6417 /READ CHAR DETECTED(IF AC0=0)
/FOLLOWING ARE IOTS FOR DP8-EP(KG8-EA) REDUNDANCY CHECK OPTION
/ 6110 /TEST VRC AND SKIP
BCCRDH=6111 /READ HIGH ORDER PORTION OF BCC INTO AC
BCCRDL=6112 /READ LOW ORDER PORTION OF BCC INTO AC
/ BCCVRC=6113 /COMPUTE VRC CHARACTER
BCCGEN=6114 /GENERATE BCC
BCCLCL=6115 /LOAD CONTROL REGISTER FROM AC
/ AC05=1: CRC; AC05=0: LRC
/ AC6-8=0: 16BIT BCC
/ AC6-8=1: 12BIT BCC
/ AC6-8=2: 8BIT BCC
/ AC6-8=3: 7BIT BCC
/ AC6-8=4: 6BIT BCC
/ AC9=0: PARITY TO AC4; AC9=1:PARITY TO AC11
/ AC10=1: 6114 ALSO CAUSES 6113
/ AC11=1: 6114 ALSO CAUSES 6110
BCCCLR=6116 /CLEAR ACCUMULATION
/ 6117 /MAINTENANCE TEST CLOCK
XL
>/END OF IFZERO FTDP01
XL
/BOOT: DLE CC1 CC2 0 0 A0 BCC1 BCC2
/ CODE DATA BCC3 BCC4
/
/CODE:
/
/BOOT: SNA <000> BOOTSTRAP-DATA
/EXAMINE SNA <001> ADDR1 ADDR2
/DEPOSIT SNA <002> ADDR1 DEPOSIT-DATA
/GOTO SNA <003> ADDR1
/CLEAR SNA <004> ADDR1 ADDR2
/DEBUG SNA <005>
/RESERVED <006>-<010>
/ACCEPT DNA <011> (ADDR1 DATA)
/EXAM DATA DNA <012> ADDR1 DATA
/REJECT DNA <013>
/REQUEST BOOT DNA <014> MACH SERIAL PROG
/REQUEST LOAD DNA <015> MACH SERIAL PROG
/
/
/ADDR1 = FIRST ADDRESS IN A RANGE, OR ONLY ADDRESS
/ FIRST LOW ORDER EIGHT BITS, THEN HIGH 4 + FIELD
/DATA = DATA FOR EXAMINE OR DEPOSIT, SIX BITS PER BYTE,
/ LOW ORDER BYTE FIRST
/DNA = DESTINATION NODE ADDRESS
/MACH = EXTENSIBLE BINARY FIELD GIVING A CODE FOR WHICH
/ MACHINE
/ 1=71
/ 2=72
/ 3=82,WITH DU11
/ 4=82,WITH DQ11
/NODE = EXTENSIBLE BINARY NODE NUMBER
/PROG = EXTENSIBLE ASCII PROGRAM NAME
/SERIAL = SERIAL NUMBER OF MACHINE, EXTENSIBLE BINARY
/SNA = SOURCE NODE ADDRESS
/
/
/ THE BOOT MESSAGE IS INTENDED TO CONTAIN A SHORT
/ BOOTSTRAP PROGRAM WHICH WILL BE USED TO LOAD A
/ MORE SOPHISTICATED ONE -- THE DATA FIELD IS THE
/ PROGRAM ITSELF, AND THE START ADDRESS IS THE FIRST
/ WORD.
/ A BOOT MESSAGE IS SENT IN RESPONSE TO A REQUEST BOOT.
/
/ THE REQUEST LOAD MESSAGE SAYS THAT THE NODE
/ WANTS TO BE EITHER DUMPED OR LOADED OR BOTH.
/ SPECIFICALLY, IT CAN HANDLE EXAMINE, DEPOSIT AND
/ GOTO MESSAGES.
/
/ THE EXAMINE MESSAGE GIVES THE ADDRESS RANGE
/ FOR WHICH THE SENDER WOULD LIKE AN EXAMINE-DATA MESSAGE
/ WITH THE CONTENTS.
/
/ THE RESPONSE TO A DEPOSIT MESSAGE IS AN ACCEPT
/ WITH THE DATA THAT WAS DEPOSITED.
/
/ A REJECT IS SENT WHENEVER AN ADDRESS
/ IS OUTSIDE THE RANGE OF THE MACHINE.
/
/ THE CLEAR MESSAGE IS USED TO ZERO OUT A RANGE
/ OF CORE. IT IS CURRENTLY UNIMPLEMENTED.
FIELD EFIELD
*START
TEMP1, 0
TEMP2, 0
TEMP3, 0
FLD1, 0
ADR1, 0
FLD2, 0
ADR2, 0
POINT, 0
0;0;0;0;0;0;0;0 /AUTOINCREMENT REGISTERS
ENDMSG, 0
BOOT, /START OF BOOTSTRAP
JMP INIT /INITIALIZE THINGS
XMIT, /TRANSMIT MESSAGE IN BUFF
IFNZRO FTDEBUG <JMS LPTRAC>
JMS SNDMSG /SEND IT
RCV, /GET A MESSAGE
JMS GETMSG /READ MESSAGE INTO BUFF
IFNZRO FTDEBUG <JMS LPTRAC>
JMS CHKCRC /CHECK CRC'S
JMP BOOT /START OVER IF BAD
TAD (BUFF+11 /POINT TO MESSAGE TYPE CODE
DCA POINT /STORE ADDRESS OF CODE
JMS RNGCHK /CHECK GOODNESS OF CODE
TAD (JMP I DSP /MAKE DISPATCH INSTRUCTION
DCA .+1 /STORE
0 /SET TO JMP I DSP+CODE
DSP, BOOT /0=BOOT, WE DON'T HANDLE IT
EXAM /1=EXAMINE
DEP /2=DEPOSIT
GOTO /3=GOTO
/ STORAGE
GETWD, 0 /GET NEXT WORD FROM MESSAGE
/ CALL IS:
/
/ JMS GETWD
/ ERROR RETURN (NONE LEFT)
/ NORMAL RETURN (AC HAS WORD)
/
/ POINT HOLDS CURRENT CHARACTER ADDRESS
/ ENDMSG HOLDS NEGATIVE OF LAST ADDRESS+1
/ WORD IS RETURNED IN AC (WHICH SHOULD BE ZERO AT ENTRY)
TAD POINT /GET CURRENT ADDRESS
TAD ENDMSG /SEE IF FINISHED
SNA CLA /NO, SKIP
JMP I GETWD /YES, RETURN
ISZ GETWD /MAKE SKIP RETURN
TAD I POINT /GET WORD FROM MESSAGE
ISZ POINT /POINT TO NEXT WORD
JMP I GETWD /RETURN WITH WORD
PUTCHR, 0 /SUBROUTINE TO PUT A WORD
/ POINT POINTS TO NEXT AVAILABLE ADDRESS
/ ENDMSG HOLDS NEGATIVE OF LAST ADDRESS+1
/ IF SPACE RUNS OUT, THE MESSAGE WILL BE SENT
/ AS IS.
AND (377 /ONLY 8 BITS
DCA I POINT /STORE CHARACTER IN MESSAGE
ISZ POINT /INCREMENT POINTER
TAD POINT /GET ADDRESS
TAD ENDMSG /IS IT END?
SZA CLA /SKIP IF YES
JMP I PUTCHR /NO, RETURN
JMP EXDONE /YES, FINISH MESSAGE AND RETURN
GETADR, 0 /GET ADDRESS FROM MESSAGE
/ USES GETWD TO GET INDIVIDUAL WORDS
/ FORMAT OF ADDRESS IS:
/ FIRST WORD, BITS 4-11: EIGHT LOW ORDER BITS OF ADDRESS
/ SECOND WORD, BITS 8-11 HIGH ORDER 4 BITS OF ADDRESS
/ BITS 5-7: FIELD
/ CALL IS
/ TAD ADDR WHERE FIELD INSTRUCTION IS TO GO
/ JMS GETADR
/ ERROR RETURN
/ NORMAL RETURN (FIELD CHANGE INSTRUCTION STORED WHERE
/ AC POINTED AT ENTRY, AC HAS ADDRESS
/ WITHIN FIELD)
DCA TEMP3 /SAVE ADDRESS TO PUT FIELD INSTRUCTION
JMS GETWD /GET FIRST WORD OF ADDRESS
JMP I GETADR /ERROR IF NOT THERE
DCA TEMP1 /SAVE LOW ORDER 8 ADDRESS BITS
JMS GETWD /GET 2ND ADDRESS WORD
JMP I GETADR /ERROR IF NOT THERE
DCA TEMP2 /SAVE FIELD AND HIGH ORDER ADDRESS BITS
TAD TEMP2 /GET THEM BACK
RAR /PUT INTO CORRECT POSITION
AND (0070 /CLEAR OTHER BITS
TAD (CDF /TURN INTO CHANGE FIELD INSTRUCTION
DCA I TEMP3 /STORE
TAD TEMP2 /GET HIGH ORDER BITS AGAIN
HGHADR /SHIFT TO HIGH ORDER BITS
AND (7400 /TURN OFF OTHERS
TAD TEMP1 /ADD IN LOW ORDER 8
ISZ GETADR /SET TO SKIP RETURN
JMP I GETADR /RETURN
PUTADR, 0 /PUT AN ADDRESS
/ THE ADDRESS IS IN ADR1 AND FLD1
TAD ADR1 /GET LOW ORDER
JMS PUTCHR /WILL ONLY PUT 8 BITS
TAD ADR1 /GET REST
IFZERO PDP8I <
CLL RTL
RTL
RAL /PUT IN RIGHT PLACE
>/END OF IFZERO PDP8I
IFZERO PDP8E <
BSW
RTR
>/END OF IFZERO PDP8E
AND (0017 /CLEAR EXTRA BITS
DCA TEMP1 /STORE
TAD FLD1 /GET FIELD
AND (0070 /CLEAR EXTRA BITS
CLL RAL
TAD TEMP1 /ADD TO REST
JMS PUTCHR /PUT INTO MESSAGE
JMP I PUTADR /RETURN
INCADR, 0 /INCREMENT ADDRESS
/ THIS SUBROUTINE INCREMENTS ADDRESS CONTAINED IN ADR1 AND
/ FLD1.
ISZ ADR1 /INCREMENT ADDRESS PART
JMP I INCADR /IF NOT ZERO, WE ARE DONE
TAD FLD1 /GET FIELD INSTRUCTION
TAD (10 /INCREMENT FIELD
AND (0070 /IN CASE OF OVERFLOW
TAD (CDF /DITTO
DCA FLD1 /STORE BACK
JMP I INCADR
READ, 0 /GET WORD POINTED AT BY ADR1 AND FLD1
TAD FLD1 /GET FIELD INSTRUCTION
DCA .+1 /STORE IT
0
TAD I ADR1 /GET WORD
CDFINS /GET BACK TO INSTRUCTION FIELD
JMP I READ /RETURN
WRITE, 0 /STORES A WORD AT ADR1 + FLD1
DCA WRITE1 /STORE WORD
TAD FLD1
DCA .+1
0
TAD WRITE1 /GET WORD AGAIN
DCA I ADR1 /STORE IT
CDFINS /GO TO NORMAL FIELD
JMP I WRITE
WRITE1=READ /SAVE WORD TO BE STORED
PAGE
ALTSTR, JMP BOOT /ALTERNATE START (TO CONFORM TO PDP8 CONVENTION)
ZZ=MAJOR^100+MINOR
ZZ /VERSION
EXAM, /EXAMINE ROUTINE
TAD (FLD1 /WHERE FIELD SHOULD GO
JMS GETADR /GET START ADDRESS
JMP REJCT /IF BAD, REJECT
DCA ADR1 /SAVE ADDRESS
TAD (FLD2 /WHERE FIELD SHOULD GO
JMS GETADR /GET STOP ADDRESS+1
JMP REJCT /REJECT IF BAD
NEGATE /GET INTO PROPER FORM
DCA ADR2 /STORE
TAD FLD2 /GET FIELD
NEGATE /NEGATE IT AS WELL
DCA FLD2 /STORE BACK
JMS MSGBEG /START MESSAGE
TAD (EXDATA /EXAMINE DATA CODE
JMS PUTCHR /STORE IN MESSAGE
EXADR,
JMS PUTADR /STORE ADDRESS IN MESSAGE
EXLOOP, TAD ADR1 /GET ADDRESS
TAD ADR2 /COMPARE WITH STOP
SZA CLA /SKIP IF SEEMS TO BE END
JMP EXGET /GO GET THIS WORD
TAD FLD1 /GET FIELD
TAD FLD2 /COMPARE WITH STOP
SNA CLA /IF NON-ZERO, WASN'T REALLY END
JMP EXDONE /FINISHED
EXGET, /GET VALUE AND PUT INTO MESSAGE
JMS READ /GET VALUE OF WORD
DCA TEMP1 /SAVE
TAD TEMP1 /GET BACK AGAIN
AND (0077 /ONLY LOW ORDER BYT
JMS PUTCHR /SEND IT
TAD TEMP1 /GET BACK
IFZERO PDP8I <
RTR
RTR
RTR
>/END OF IFZERO PDP8I
IFZERO PDP8E <
BSW
>/END OF IFZERO PDP8E
AND (0077
JMS PUTCHR
JMS INCADR /INCREMENT ADDRESS
JMP EXLOOP
EXDONE, /FINISHED WITH MESSAGE
JMS MSGEND /CALC BCC, SET UP WC
JMP XMIT /SEND IT
DEP, /DEPOSIT
TAD (FLD2 /POINT TO WHERE FIELD SHOULD GO
JMS GETADR /GET ADDRESS
JMP REJCT
DCA ADR2 /SAVE ADDRESS
TAD ADR2 /GET IT AGAIN
DCA ADR1 /INTO RIGHT PLACE
TAD FLD2 /AND FIELD
DCA FLD1
DPLOOP, /DEPOSIT LOOP
JMS GETWD /TRY TO GET A DATA WORD
JMP DPEND /END OF DEPOSIT WHEN NONE LEFT
DCA TEMP3 /LOW ORDER BYTE
JMS GETWD /GET HIGH ORDER
JMP BOOT /SOMETHING'S WRONG
IFZERO PDP8I <
RTL
RTL
RTL
>/END OF IFZERO PDP8I
IFZERO PDP8E <
BSW
>/END OF IFZERO PDP8E
AND (7700
TAD TEMP3 /NOW HAVE WHOLE WORD
JMS WRITE /STORE THIS WORD
JMS INCADR /INCREMENT ADDRESS
JMP DPLOOP /CONTINUE
DPEND, /NOW SEND ACCEPT WITH THE DATA
TAD ADR1 /ADR1 IS LAST ADDRESS + 1
NEGATE
DCA TEMP1 /SAVE
TAD ADR2
DCA ADR1
TAD TEMP1
DCA ADR2
TAD FLD1 /NOW SWITCH FIELDS ALSO
NEGATE
DCA TEMP1 /SAVE
TAD FLD2
DCA FLD1
TAD TEMP1
DCA FLD2
JMS MSGBEG /START MESSAGE
TAD (ACCPT /ACCEPT CODE
JMS PUTCHR
JMP EXADR /PUT EXAMINE DATA IN REST
GOTO, /GOTO MESSAGE
TAD (FLD1 /POINT TO FIELD
JMS GETADR /GET ADDRESS
JMP REJCT
DCA ADR1
ACCEPT, JMS MSGBEG
TAD (ACCPT
JMS PUTCHR
JMS PUTADR /PUT ADDR1 AND FLD1 ADDRESS
JMS MSGEND
IFNZRO FTDEBUG < JMS LPTRAC>
JMS SNDMSG
DOGOTO, TAD FLD1 /GET FIELD
DCA .+5
TAD FLD1
IAC /CHANGE TO CIF
DCA .+1
0
0
JMP I ADR1 /GOTO
REJCT, JMS MSGBEG
TAD (RJCT
JMS PUTCHR
JMP EXDONE
PAGE
CHKCRC, 0 /SUBROUTINE TO CHECK CRC
JMS CRCCLR /CLEAR CRC
TAD (-10 /GET LENGTH
DCA TMP1 /STORE
TAD (BUFF /GET ADDRESS
DCA TMP2 /STORE
JMS CRC /CALCULATE CRC
JMS CRCUNL /GET CRC
JMP I CHKCRC /ERROR RETURN IF NOT GOOD
TAD LEN /GET LENGTH OF DATA PART
TAD (2 /ADD CRC
NEGATE
DCA TMP1 /STORE
TAD (BUFF+10 /POINT TO START
DCA TMP2 /STORE
JMS CRC
JMS CRCUNL /GET CRC
JMP I CHKCRC /ERROR RETURN IF BAD
ISZ CHKCRC /SKIP RETURN
JMP I CHKCRC
IFZERO KG8E <
DEFINE CRCALG <
DCA CRCTMP
TAD (-7
DCA CRCCNT
TAD CRCTMP
AND CRC2
CIA
CLL RAL
TAD CRCTMP
TAD CRC2
CLL RTR
LPCRC,
SPA
CML
RAR
ISZ CRCCNT
JMP LPCRC
DCA CRCT2
TAD CRCT2
CLL RTL
AND (301
DCA CRC2
TAD CRC1
AND CRC2
CIA
CLL RAL
TAD CRC1
TAD CRC2
DCA CRC2
TAD CRCT2
CLL RTR
DCA CRC1
TAD CRC1
AND CRCT2
CIA
CLL RAL
TAD CRC1
TAD CRCT2
CLL RTR
CLL RAR
CLL RAR
DCA CRC1
/ TAD CRCTMP /PUT BACK IF CHARACTER TO REMAIN IN AC
>/END OF DEFINE CRCALG
CRCINI, 0 /NULL INITIALIZATION SUBROUTINE
CRCCLR, 0 /CLEAR CRC
CLA
DCA CRC1
DCA CRC2
JMP I CRCCLR
CRCUNL, 0 /UNLOAD CRC
TAD CRC1 /GET SECOND HALF
SZA CLA
JMP I CRCUNL /ERROR RETURN
TAD CRC2
SZA CLA
JMP I CRCUNL /ERROR RETURN
ISZ CRCUNL
JMP I CRCUNL /GOOD RETURN
CRCACC, 0 /ACCUMULATE CRC
CRCALG
JMP I CRCACC /LEAVE AC 0
CRC1, 0
CRC2, 0
CRCTMP, 0
CRCT2, 0
CRCCNT, 0
GCR1, 0 /GET FIRST CRC CHAR
TAD CRC2
JMP I GCR1
GCR2, 0
TAD CRC1
JMP I GCR2
>/END OF IFZERO KG8E
IFNZRO KG8E <
CRCINI, 0 /INITIALIZE CRC
TAD (100 /SET TO CRC-16
BCCLCL /LOAD CONTROL REG
CLA /CLEAR AC
JMP I CRCINI /RETURN
CRCCLR, 0 /ROUTINE TO INITIALIZE THE CRC
BCCCLR /CLEAR BCC ACCUMULATION
NL0 /RETURN GOOD AC
JMP I CRCCLR /RETURN
CRCUNL, 0 /UNLOAD CRC
BCCRDH /READ HIGH PART
SZA CLA /SKIP IF OK
JMP I CRCUNL /GIVE ERROR RETURN
BCCRDL /READ LOW PART
SZA CLA /SKIP IF OK
JMP I CRCUNL /ERROR
IFZERO PDP8E <
CAF
>/END OF IFZERO PDP8E
ISZ CRCUNL /SKIP RETURN
JMP I CRCUNL
CRCACC, 0 /ACCUMULATE CRC CHARACTERS
BCCGEN /ADD TO CRC
NL0
JMP I CRCACC /RETURN
GCR1, 0 /GET LOW CRC BYTE
BCCRDL /READ IT
JMP I GCR1
GCR2, 0 /GET HIGH BYTE
BCCRDH
JMP I GCR2
>/END OF IFNZRO KG8E
CRC, 0 /CALCULATE A CRC
TAD I TMP2 /GET CHARACTER
JMS CRCACC /ADD TO CRC
ISZ TMP2 /ADVANCE POINTER
ISZ TMP1 /ADVANCE COUNT
JMP CRC+1 /LOOP TILL DONE
JMP I CRC /RETURN
TMP1=GCR1 /TEMPORARIES FOR CRC
TMP2=GCR2
/ SYNCHRONOUS LINE SUBROUTINES
IFNZRO FTDP01 <
F10CA=10 /USE AUTOINDEX REG FOR WC
DEFINE WCR < JMS WCRSUB>/END OF DEFINE WCR
INISYN, 0 /INITIALIZE
/ DPSIM /SET IDLE MODE
DPSTR /TERMINAL READY
DPSSR /SKIP OF MODEM READY
JMP .-1 /WAIT FOR IT
JMP I INISYN /RETURN
SNDMSG, 0 /SUBROUTINE TO SEND A MESSAGE
DPSTR
DPSSR
JMP .-1
TAD (226 /GET SYN
JMP SNDLP1
SNDLP, TAD I T10CA /GET CHARACTER
DPSTF /SKIP ON NOT TRANSMIT
SNDLP1, DPTAC DPCTF /SEND IT AND CLEAR FLAG
JMP .-2
CLA
ISZ T10CA
ISZ T10WC
JMP SNDLP
JMP I SNDMSG
T10WC, 0
T10CA, 0
PAGE
GETMSG, 0 /SUBROUTINE TO READ MESSAGE
DPSTR
DPCRA
DPSSR
JMP .-1
TAD (7400 /HALF OF SECOND ISZ
DCA COUNT2
DCA COUNT1
GETMS1, CLA /FOR BAD MESSAGES
TAD (BUFF-1
DCA F10CA
DPCRA /CLEAR RECEIVE ACTIVE
STMSG, DPSRF /SKIP ON NOT RECEIVE FLAG
JMP STMSG1 /GOT ONE
ISZ COUNT1
JMP STMSG
ISZ COUNT2
JMP STMSG
JMP BOOT /START AGAIN, IF TAKES TOO LONG
STMSG1, DPRRB /READ CHARACTER
TAD (-226 /SEE IF SYN
SNA /SKIP ONLY IF NOT
JMP STMSG /STILL NOT START OF MESSAGE
TAD (6 /IF FIRST CHAR WAS 220, WILL
SZA CLA /WILL NOW BE ZERO
JMP GETMS1 /NO, SORRY
TAD (220 /1ST CHARACTER
DCA I F10CA /STORE
WCR
DCA LOWCNT /LOW BYTE OF COUNT
TAD LOWCNT /GET BACK
DCA I F10CA /STORE
WCR /THIRD CHARACTER
DCA HGHCNT
TAD HGHCNT
DCA I F10CA
WCR
DCA I F10CA /STORE FOURTH CHARACTER
TAD HGHCNT
RTR
DCA HGHCNT
WCR /5TH
DCA I F10CA
TAD HGHCNT
RTR
DCA HGHCNT
WCR /6TH
DCA I F10CA
TAD HGHCNT
RAR
DCA HGHCNT
WCR /7TH
DCA I F10CA
TAD HGHCNT
AND (7400 /CLEAR USELESS BITS
DCA HGHCNT
WCR /8TH
DCA I F10CA
TAD HGHCNT
TAD LOWCNT /NOW HAVE REAL COUNT
DCA COUNT
WCR /9TH
DCA I F10CA
TAD COUNT
DCA LEN /SAVE FOR LATER
WCR /10TH
DCA I F10CA
TAD COUNT
NEGATE
DCA COUNT
MSGLP, WCR
DCA I F10CA
TAD F10CA /GET ADDRESS
TAD (-BUFFRE /COMPARE WITH END
SNA CLA /SKIP IF STILL OK
JMP MSGFOR /BETTER FORCE END
ISZ COUNT
JMP MSGLP
MSGFOR, DPCTR
CLA CMA /GET MINUS 1
TAD F10CA /GET CURRENT ADDRESS (ACTUALLY AFTER LAST CHAR)
NEGATE /CONVERT TO NEGATIVE
DCA ENDMSG /REMEMBER END OF MESSAGE
JMP I GETMSG
WCRSUB, 0 /SUBROUTINE TO WAIT FOR CHARACTER
DPSRF /SKIP ON NOT RECEIVE FLAG
SKP /GOT CHARACTER
JMP .-2 /LOOP
DPRRB /READ CHARACTER
JMP I WCRSUB /RETURN
HGHCNT, 0 /HIGH ORDER COUNT FROM MESSAGE
LOWCNT, 0 /LOWER ORDER COUNT FROM MESSAGE
COUNT=LOWCNT
LEN=HGHCNT
COUNT1, 0 /INNER ISZ LOOP COUNTER
COUNT2, 0 /OUTER ISZ LOOP COUNTER
>/END OF IFNZRO DP01
INIT, /INITIALIZE
CLA /START WITH GOOD AC
CDFINS /SET DATA FIELD TO INSTRUCTION FIELD
XL
IFNZRO KG8E <
XL
JMS CRCINI /INITIALIZE KG
XL
>/END OF IFNZRO KG8E
XL
JMS INISYN /INITIALIZE SYNCHRONOUS LINE
/ MOVE REQUEST LOAD MESSAGE INTO BUFF
TAD (RQL-1 /POINT TO MESSAGE
DCA AUTO1 /STORE IN AUTOINCREMENT LOCATION
TAD (BUFF-1 /POINT TO DESTINATION
DCA AUTO2 /STORE IN AUTOINCREMENT LOCATION
TAD (RQL-RQLE /LENGTH FOR ISZ LOOP
DCA TEMP1 /STORE
MOVLP, TAD I AUTO1 /GET WORD
DCA I AUTO2 /STORE IT
ISZ TEMP1 /COUNT
JMP MOVLP /CONTINUE TILL DONE
TAD AUTO2 /END OF MESSAGE
IAC /MSGEND EXPECTS IT TO POINT PAST
DCA POINT /STORE
JMP EXDONE /PUT ON CRC'S AND GO TO XMIT
IFZERO FTDP01 <
PAGE
F10CA=7725
F10WC=7724
T10CA=7730
T10WC=7727
INISYN, 0 /INITIALIZE DP8E
DPSCSI /CLEAR SYNCHRONOUS LINE
TAD (5400 /TRANSMIT RQ,TERMINAL READY,IDLE
DPSLCC
ZZ=EFIELD^1100
TAD (ZZ-5400 /FIELDS
DPSLFL
TAD (7720-ZZ-1
DCA AUTO1
CDF
DCA I AUTO1
DCA I AUTO1
DCA I AUTO1
DCA I AUTO1
CDFINS
JMP I INISYN
SNDMSG, 0 /SEND A MESSAGE
DPSGTT
DPSSTO /SEE IF FLAG UP
JMP .-1
JMP I SNDMSG /RETURN
GETMSG, 0 /RECEIVE A MESSAGE
TAD (7400 /TIMER
DCA COUNT2
DCA COUNT1
GETMS0, CLA /JUNK HERE SOMETIMES
DPSCSD /CLEAR SYNCH DETECT
GETMS1, CDF /WE ARE MODIFYING FIELD 0
NLM1 /LENGTH OF FIRST PIECE
DCA F10WC
TAD (BUFF-1 /START ADDRESS
DCA F10CA /ADDRESS
CDFINS /BACK TO OUR FIELD
DPSGRR /START RECEIVER
GETM1, /LOOK FOR DONE
DPSSRO /SKIP IF DONE
JMP GETL1 /ELSE DECREMENT TIMER, THINK
TAD BUFF /GET CHARACTER GOTTEN
TAD (-226 /CHECK IF SYN
SNA /SKIP IF NOT
JMP GETMS1 /GO TRY AGAIN
TAD (6 /WAS IT DLE (220)?
SZA CLA /SKIP IF YES
JMP GETMS0 /NO, JUNK MEANS CLEAR SYNCH DETECT
TAD (-7 /LENGTH OF REST OF HEADER
CDF /HAS TO GO INTO FIELD 0
DCA F10WC /STORE
CDFINS
DPSGRR /START RECEIVER
GETM2, /WAIT FOR SECOND PART TO COMPLETE
DPSSRO /SKIP ON DONE
JMP GETL2 /IF NOT, DECREMENT COUNTER
NL2 /TWO FOR CRC
TAD LEN /+LENGTH
NEGATE
CDF
DCA F10WC
CDFINS
DPSGRR /GET DATA PART
GETM3, DPSSRO /SKIP IF ALL DONE
JMP GETL3
CDF
NLM1 /SUBTRACT CRC
TAD F10CA /LAST ADDRESS + 1
NEGATE
CDFINS
DCA ENDMSG
JMP I GETMSG
GETL1, TAD (GETM1 /POINT TO DPSSRO
JMP ISZ1
GETL3, TAD (GETM3
JMP ISZ1
GETL2, TAD BUFF+2 /GET HIGH ORDER OF LENGTH
HGHADR
AND (7400
TAD BUFF+1 /ADD LOW ORDER
DCA LEN /SAVE
TAD LEN /GET IT AGAIN
SPA /IF NEGATIVE, WAY TOO BIG
JMP REPL /MAKE A MORE REASONABLE LENGTH
NEGATE
TAD (MAXLEN-12
SPA CLA /STILL TOO BIG IF NOT POSITIVE
JMP REPL
ISZ2, TAD (GETM2 /POINT TO DPSSRO
ISZ1, DCA PVT /WHERE TO GO
ISZ COUNT1 /INNER COUNTER
JMP I PVT
ISZ COUNT2 /OUTER COUNTER
JMP I PVT
JMP BOOT /TOOK TOO LONG, START OVER
REPL, NL0 /BECAUSE AC MIGHT HAVE JUNK
TAD (MAXLEN-12 /BETTER LENGTH
DCA LEN
JMP ISZ2
COUNT1=INISYN /INNER ISZ LOOP
COUNT2=CRC /OUTER ISZ LOOP
LEN=CRCINI /LENGTH STORED HERE
PVT=SNDMSG /POINTER TO RETURN FROM ISZ'ING
>/END OF IFZERO FTDP01
PAGE
RNGCHK, 0 /SUBROUTINE TO VALIDATE CODE
JMS GETWD /GET NEXT WORD
JMP BOOT /IF NONE LEFT
SPA /BETTER BE POSITIVE
JMP BOOT /ELSE START OVER
TAD (-4 /NEGATIVE OF FIRST ILLEGAL CODE
SMA /BETTER BE NEGATIVE
JMP BOOT /ELSE START OVER
TAD (4 /GET ORIGINAL CODE BACK
JMP I RNGCHK /RETURN
MSGBEG, 0 /SUBROUTINE TO START MESSAGE
TAD (BUFF-1 /ADDRESS FOR AUTO POINTER
DCA AUTO1 /STORE
TAD (220 /DLE
DCA I AUTO1 /STORE DLE
DCA I AUTO1 /COUNT (LOW ORDER)
DCA I AUTO1 /COUNT (HIGH ORDER)
DCA I AUTO1 /FILL
DCA I AUTO1 /FILL
IAC /STATION 1
DCA I AUTO1 /A0
DCA I AUTO1 /BCC1
DCA I AUTO1 /BCC2
DCA I AUTO1 /DNA
IAC /GET A 1
TAD AUTO1 /TO ADD TO CURRENT POSITION
DCA POINT /STORE FOR PUTCHR
TAD (-BUFFE /END OF DATA PART OF MESSAGE
DCA ENDMSG /STORE FOR PUTCHR
JMP I MSGBEG /RETURN
MSGEND, 0 /SUBROUTINE TO END A MESSAGE
TAD POINT /GET POINTER TO NEXT SLOT
TAD (-BUFF-10 /GET MESSAGE LENGTH
DCA LEN /STORE
TAD LEN /GET BACK
AND (7400 /SEE IF WILL FIT IN ONE WORD
SNA /SKIP IF NOT
JMP MSGE1 /YEAH, HAVE TO DO LOW PART ONLY
RTL /SHIFT TO RIGHT PLACE
RTL
RAL
DCA I (BUFF+2 /STORE IN SECOND COUNT WORD
MSGE1, TAD LEN /GET LOW ORDER
DCA I (BUFF+1 /STORE IT
JMS CRCCLR /CLEAR CRC
TAD (-6 /COUNT
DCA TMP1
TAD (BUFF /STARTING ADDRESS
DCA TMP2
JMS CRC /CALC CRC
JMS GCR1 /GET LOW ORDER
DCA I (BUFF+6 /STASH
JMS GCR2 /GET HIGH ORDER
DCA I (BUFF+7 /STASH
TAD LEN /GET LENGTH
NEGATE /FOR ISZ LOOPING
DCA TMP1 /STORE AS COUNT
TAD (BUFF+10 /START OF DATA PORTION
DCA TMP2 /STORE
JMS CRCCLR /CLEAR CRC
JMS CRC /CALC DATA CRC
TAD TMP2 /GET POINTER
DCA MTMP /STORE IN THIS PAGE
JMS GCR1 /GET LOW ORDER CRC CHAR
DCA I MTMP /PUT INTO MESSAGE
ISZ MTMP /BUMP POINTER
JMS GCR2 /GET HIGH ORDER CRC
DCA I MTMP /PUT INTO MESSAGE
TAD LEN /GET LENGTH OF DATA
TAD (2+10+4 /ADD BCC,HEADER,AND SYNCHS
NEGATE /INTO PROPER FORM
IFZERO FTDP01 <CDF /CHANGE TO RIGHT FIELD>
DCA T10WC /FOR WORD COUNT
TAD (SYNBUF /POINT TO START
DCA T10CA /STORE
IFZERO FTDP01 <CDFINS /GO BACK>
JMP I MSGEND
MTMP, 0 /TEMP LOCATION
IFNZRO FTDEBUG <
PAGE
LPTRAC, 0 /SUBROUTINE TO TRACE MESSAGES
TAD (15
LPTSTB /START
JMS TADR /PUT OUT ADDRESS
TAD (40
JMS LPTC /PUT OUT CHARACTER
TAD (BUFF-1 /POINT TO MESSAGE
DCA LPTAUT /STORE IN AUTO
TAD BUFF+2
HGHADR /SHIFT TO HIGH ADDRESS
TAD BUFF+1 /ADD LOW
TAD (12 /HEADER+CRC
NEGATE
DCA TCNT /TRACE COUNTER
JMP LPTLP1 /START OUTPUTTING
LPTLP, TAD (", /COMMA
JMS LPTC /PRINT IT
TAD LPTCOL /GET COLUMN
TAD (6 /WHERE AFTER NEXT OCTAL CHAR
TAD (-LPTWID /END OF LINE
SMA CLA /SKIP IF OK
JMS LCRLF /OTHERWISE END THIS LINE
LPTLP1, TAD I LPTAUT /GET MESSAGE CHARACTER
JMS TOCT /PUT OUT OCTAL
ISZ TCNT
JMP LPTLP
JMP I LPTRAC /RETURN
TADR, 0 /PUT OUT ADDRESS
CLA
TAD (15
JMS LPTC
TAD (12
JMS LPTC
DCA LPTCOL /NOW AT BEGINNING
TAD (60+EFIELD
JMS LPTC
TAD LPTRAC /GET RETURN ADDRESS
TAD (-1 /GET ADDRESS OF CALL
DCA LPTWK /SAVE
TAD (-4
DCA LPTCNT
ADRL, TAD LPTWK /GET CURRENT VERSION
AND (7000
RTL
RTL
AND (7
TAD (60
JMS LPTC
TAD LPTWK
CLL RTL
RAL
DCA LPTWK
ISZ LPTCNT
JMP ADRL
JMP I TADR
TOCT, 0 /PUT OUT OCTAL BYTE
AND (377 /ONLY 8 BITS
DCA LPTWK /SAVE WORD
TAD ("<
JMS LPTC
TAD (TOCT1
DCA TADR
TAD LPTWK
CLL RTL
CLL RAL
DCA LPTWK
TAD (-3
DCA LPTCNT
JMP ADRL
TOCT1, TAD (">
JMS LPTC
JMP I TOCT
LPTC, 0
LPTSKF
JMP .-1
LPTSTB
CLA
ISZ LPTCOL
JMP I LPTC
LCRLF, 0
TAD (15
JMS LPTC
TAD (12
JMS LPTC
DCA LPTCOL
TAD (-6
DCA LCRCNT
LCRLFL, TAD (40
JMS LPTC
ISZ LCRCNT
JMP LCRLFL
JMP I LCRLF
LPTCOL, 0
LPTCNT, 0
LCRCNT, 0
LPTWK, 0
TCNT, 0
LPTAUT=12
>/END OF IFNZRO FTDEBUG
RQL, 220;RQLE-RQL-10;0;0;0;1;0;0;NODE;15;PDP8;SERIAL
NAME
IFDEF NAMXXX <XLIST>
RQLE,
PAGE
SYNBUF, 226;226;226;226 /FOUR SYNCHS
BUFF=.
BUFFE=.+MAXLEN /END OF BUFFER
BUFFRE=BUFFE+2 /REAL END (ROOM FOR CORC)
FIELD EFIELD
*INIT /FOR LOADER
$