Trailing-Edge
-
PDP-10 Archives
-
SRI_NIC_PERM_SRC_1_19910112
-
5-galaxy/hpdspl.mac
There are no other files named hpdspl.mac in the archive.
;[SRI-NIC]SRC:<5-GALAXY>HPDSPL.MAC.11, 18-Jul-89 15:39:10, Edit by MKL
; fix GSJFN to re-open output device on restarts
;[SRI-NIC]SRC:<5-GALAXY>HPDSPL.MAC.2, 10-May-89 14:02:38, Edit by MKL
; make HPSPL into HPDSPL for double-sided Laserjet IID
;[SRI-NIC]SRC:<5-GALAXY>HPSPL.MAC.31, 16-Feb-89 22:13:19, Edit by MKL
; add escape sequence to handle unix (lf=crlf)
;[SRI-NIC]XS:<5-GALAXY>HPSPL.MAC.28, 17-Feb-88 16:52:13, Edit by MKL
; fix bugs in header page routine
;[SRI-NIC]XS:<5-GALAXY>HPSPL.MAC.25, 12-Feb-88 19:28:44, Edit by MKL
; turn off i/o timeouts (DISTIM)
;[SRI-NIC]XS:<5-GALAXY>HPSPL.MAC.21, 2-Feb-88 17:39:32, Edit by MKL
;Have superior get and open device, and pass jfn to inferior,
;instead of letting inferior open and close it
;[SRI-NIC]XS:<5-GALAXY>HPSPL.MAC.7, 1-Feb-88 14:07:17, Edit by MKL
;Make PSSPL into HPSPL
;[SRI-NIC]XS:<5-GALAXY>PSSPL.MAC.137, 19-Nov-87 14:55:37, Edit by MKL
; at SETPFT, pretend 36 bit files are 7 bit
;[SRI-NIC]XS:<5-GALAXY>PSSPL.MAC.131, 3-Aug-87 16:20:14, Edit by MKL
; print header page from papertray 0, fix JFNS% output on header page
; make userid bigger (usize) and not inversed.
;XS:<5-GALAXY>PSSPL.MAC.127, 19-May-87 12:27:14, Edit by KNIGHT
;XS:<5-GALAXY>PSSPL.MAC.125, 19-May-87 10:39:15, Edit by KNIGHT
;XS:<5-GALAXY>PSSPL.MAC.124, 19-May-87 09:37:52, Edit by KNIGHT
; Add support for 2up, book and landscape. Slurp prepend files from SYSTEM:
;[SRI-NIC]XS:<5-GALAXY>PSSPL.MAC.120, 10-Feb-87 14:47:50, Edit by VIVIAN
; Up I/O timeout from 5min to 10min
;[SRI-NIC]XS:<5-GALAXY>PSSPL.MAC.118, 3-Feb-87 13:05:39, Edit by MKL
; only do one header page per print job
;XS:<5-GALAXY>PSSPL.MAC.117, 22-Jan-87 11:26:34, Edit by KNIGHT
; Always output CR's before LF's.
;[SRI-NIC]XS:<5-GALAXY>PSSPL.MAC.116, 2-Dec-86 17:06:08, Edit by MKL
; Change SOUTR% to SOUT% because it seems to work a lot faster.
;[SRI-NIC]XS:<5-GALAXY>PSSPL.MAC.109, 24-Nov-86 13:49:23, Edit by MKL
; inhibit non-job output for device
;[SRI-NIC]XS:<5-GALAXY>PSSPL.MAC.106, 21-Nov-86 15:02:46, Edit by MKL
; send control-D after we hit EOF in PS routine
;[SRI-NIC]XS:<5-GALAXY>PSSPL.MAC.105, 20-Nov-86 16:31:42, Edit by MKL
; when printing errors in header, check if 2nd line is really an error
;[SRI-NIC]XS:<5-GALAXY>PSSPL.MAC.103, 20-Nov-86 15:23:21, Edit by MKL
; add a missing ENDIF. in IDLCHK
;[SRI-NIC]XS:<5-GALAXY>PSSPL.MAC.101, 20-Nov-86 14:02:23, Edit by MKL
; fixed random bugs in header page routine
;;SRC:<5-GALAXY>PSSPL.MAC.80, 23-Sep-86 09:09:26, Edit by KNIGHT
;SRC:<5-GALAXY>PSSPL.MAC.77, 15-Aug-86 14:43:31, Edit by KNIGHT
TITLE HPDSPL - HP Laserjet IID spooler
COMMENT \
This program augments the standard LPTSPL as the lineprinter
spooler. It features a number of functions in addition to the
normal ones. It handles any number of devices (streams) up to
maximum NPRINT which may be changed. Each stream executes in its
own subfork. Also, by specifying TCP instead of a TTY as the
printing devices PLPTx:, files will be spooled over the
net using TCP.
Physical LPTs and spooling to mag tape are NOT supported.
The Forms parameter file SYS:LPFORM.TXT also has a different
format as compared to LPFORM.INI, see below.
This stuff was written in the Fall of 1984 by
Bjorn Lindskog, Computer Science Lab, U of W, Seattle
Well, this sort of came to me by a roundabout route, and I won't
claim a lot of responsibility except to say that it seems to work
for me.
I've added compatibility for PostScript printers and for named units
ala Columbia.
Bob Knight
\
SEARCH GLXMAC,QSRMAC,ORNMAC,MACSYM,MONSYM
PROLOGUE(HPDSPL)
.DIRECT FLBLST
.REQUIRE SYS:MACREL
SALL ;SUPPRESS MACRO EXPANSIONS
;VERSION INFORMATION
LPTVER==1 ;MAJOR VERSION NUMBER
LPTMIN==0 ;MINOR VERSION NUMBER
LPTEDT==0 ;EDIT LEVEL
LPTWHO==0 ;WHO LAST PATCHED
%LPT==<BYTE (3)LPTWHO(9)LPTVER(6)LPTMIN(18)LPTEDT>
;STORE VERSION NUMBER IN JOBVER
LOC 137
.JBVER::EXP %LPT
RELOC
SUBTTL AC definitions
;Accumulator definitions
M==13 ;IPCF message address, used by top fork only
S==13 ;Status flags, used by inferiors only
E==14 ;Points to current file
J==15 ;Stream context pointer
C==16 ;Holds a 'character' i.e. 7 to 36 bits
;Status Flags used in S reg of inferior process
ARROW==1B0 ;ARROW MODE IN EFFECT
SUPFIL==1B1 ;NO USER FORM CONTROL
ERRFIL==1B3 ;Error in file, skip it
; CHRCNT==1B4 ;Dummy transfer to count characters.
TIMCKP==1B5 ;Timed checkpoints enabled
FCONV==1B6 ;THE NEXT CHAR IS FORTRAN FORMAT DATA
NEWLIN==1B7 ;FLAG FOR THE BEGINING OF LINE
FILXFR==1B9 ;Xferring a user file i.e. enable page skipping
FRMFND==1B10 ;Forms found in LPFORM.TXT
MINUS==1B11 ;Reading a neg. number from LPFORM.TXT
; File types (flags in S):
F%PL7==:1B18 ; 7-bit plaintext
F%PL8==:1B19 ; 8-bit plaintext
F%PS7==:1B20 ; 7-bit PostScript
F%PS8==:1B21 ; 8-bit PostScript
F%PLH7==:1B22 ; 7-bit plaintext with page headers
F%PLH8==:1B23 ; 8-bit plaintext with page headers
F%IM7==:1B24 ; 7-bit Impress files
F%IM8==:1B25 ; 8-bit Impress files
F%CRSN==:1B26 ; Last char seen was a CR
F%2UP==:1B27 ; Two-up format
F%BOOK==:1B28 ; Book format
F%LAND==:1B29 ; Landscape format
F%TWO==:1B30 ; Double sided printing
SUBTTL Parameters
;Parameters which may be changed at assembly time
ND CKPTIM,^D300 ;Seconds between checkpoints
ND DISTIM,^D600 ;Time-out in secs. when dismissed for I/O
ND OPBFSZ,^D2000 ;Size of output buffer in 8 bit bytes
ND IPBFSZ,^D2000 ;Size of input (file) buffer in 7 bit bytes
ND LGBFSZ,^D5000 ;Size of log buffer in 7 bit bytes
ND NPRINT,^D5 ;Number of devices this spooler handles
ND FATERT,%RSUNA ;Bit to set if fatal error (formerly %RSUDE)
;Constant parameters
XP MSBSIZ,30 ;Size of a message block
XP STKSIZ,^D100 ;Size of stacks
XP DDTSEC,37 ;section in which DDT resides
SUBTTL MACROS
;Macros to generate stream data area
DEFINE LP(SYM,VAL,FLAG),<
IF1,<
XLIST
IFNDEF J...X,<J...X==PAGSIZ>
IFDEF SYM,<PRINTX ?PARAM SYM USED TWICE>
SYM==J...X
J...X==J...X+VAL
IFNDEF ...BP,<...BP==1B0>
IFNDEF ...WP,<...WP==0>
REPEAT VAL,<
IFIDN <FLAG><Z>,<LPZ(\...WP,...BP)>
...BP==...BP_<-1>
IFE ...BP,<
...BP==1B0
...WP==...WP+1
> ;;END IFE ...BP
> ;;END REPEAT VAL
LIST
SALL
> ;END IF1
IF2,<
.XCREF
J...X==SYM
.CREF
SYM==J...X
> ;END IF2
> ;END DEFINE LP
DEFINE LPZ(A,B),<
IFNDEF ...Z'A,<...Z'A==B>
IFDEF ...Z'A,<...Z'A==...Z'A!B>
> ;END DEFINE LPZ
;Macros used to build dispatch tables
DEFINE BDTB,<
...ST==.
EXP 0 ;;We don't want to use the 0 entry
>
DEFINE DTE(ADDR,CONST),<
IF1,<IFDEF CONST,<PRINTX ?Constant used twice>>
CONST==.-...ST
EXP ADDR
>
DEFINE EDTB(LEN),<
LEN==.-...ST
>
;Macros used in inferiors's code
;The TXT macro is a poor man's implementation of the $TEXT macro. It is
;used by the inferiors since the original $TEXT in GLXLIB uses
;non reentrant code.
;This one uses the reentrant routines TXT.xx for the different functions.
;It takes three arguments: TXT(type,address,string)
;Type indicates whether address is the address of routine that outputs the
;char in C or the address of buffer. <> 0 is buffer.
;The string accepted has the following format:
;^<function character><argument>^<function character><argument>...^
;See macro TFUNC for a listing of the functions.
;The first function of the string is defaulted to ^! i.e. no function.
;Note that S1 and S2 are not preserved and cannot be referenced in the
;string.
;Macros used to build the argument strings
;Use CLSTR to init, APPSTR(TXT) to add TXT at the end and
;EXPSTR to get the string back.
DEFINE CLSTR <
DEFINE APPSTR (FTXT) <
DEFINE APPSTR (TXT) <
APP1 (<TXT>,<FTXT>)
>
DEFINE EXPSTR <FTXT>
>
DEFINE EXPSTR <>
> ;End def of CLSTR
DEFINE APP1 (NTXT,OTXT) <
DEFINE APPSTR (TXT) <
APP1 (<TXT>,<OTXT'NTXT>)
>
DEFINE EXPSTR <OTXT'NTXT>
> ;End def of APP1
;Macro used to build the definitions. Two macros TFBx and TFAx are
;created for each function character. TFBX is expanded when the
;function character is detected. It is used to init the argument
;string if necessary. TFAx is expanded when the
;argument has been collected i.e. at next ^ or at end of input.
DEFINE TF(FUNCT,BEFORE,AFTER) <
IFNB <BEFORE> <DEFINE TFB'FUNCT BEFORE>
IFNB <AFTER> <DEFINE TFA'FUNCT AFTER> > ;End of TF macro
;Macro to expand the collected argument into code
DEFINE EXPAND <MOVEI S2,EXPSTR>
;The following are definitions of the function characters
;accepted by the TXT macro.
DEFINE TFUNC <
TF(T, <APPSTR (<[ASCIZ ~>)>, ;;Insert string prefix
<APPSTR (<~]>) ;;Insert right delimiter
EXPAND ;;Make argument into code
$CALL TXT.AS>)
TF(A,, <EXPAND ;;Arg. points to ASCIZ string
$CALL TXT.AS>)
TF(D,, <EXPAND ;;Arg. points to decimal number
$CALL TXT.DN>)
TF(S,, <EXPAND ;;Arg. points to SIXBIT word
$CALL TXT.SX>)
TF(C,, <EXPAND ;;Arg points to int. time
$CALL TXT.DT>)
TF(H,, <$CALL TXT.TI>) ;;Time output as HH:MM:SS
TF(E,, <$CALL TXT.ER>) ;;Last error is output
TF(7,, <EXPAND ;;Arg. points to one char word
$CALL TXT.CH>)
TF(M, <APPSTR (<.CHCRT>) ;;Insert a ^M (CR)
EXPAND
$CALL TXT.CH>,)
TF(J, <APPSTR (<.CHLFD>) ;;Insert a ^J (LF)
EXPAND
$CALL TXT.CH>,)
TF(^, <APPSTR (<"^">) ;;Insert a ^
EXPAND
$CALL TXT.CH>,)
TF(0, <APPSTR (<0>) ;;Insert a NUL
EXPAND
$CALL TXT.CH>,)
TF(!,,) ;;No function
>;DEFINE TFUNC
TFUNC ;Generate them
;This macro does the work
DEFINE TX(C)<
TXF=="!" ;;Current function is 'no function'
TXD==0 ;;And no new function seen
CLSTR ;;Clear our argument string
IRPC C < ;;Parse the arg. one char at a time
IFE TXD <IFDIF <C><^> < ;;Nothing special, append char
APPSTR <C>>>
IFN TXD <CLSTR ;;We saw ^ prev. char, clear string
TXD==0 ;;No ^ seen anymore
TXF=="C" ;;Save current function
TPRE (\"TXF)> ;;Do pre-processing
IFIDN <C><^> <
TPST (\"TXF) ;;A ^: post process current function
IFDIF <TXF><^> <
TXD==1>> ;;Flag a ^ (unless funct was ^)
> ;;End of IRPC
TPST (\"TXF) ;;Post process last function
>;DEFINE TX
;Macros to call appropr. handler. Doesn't call if not defined.
;TPRE calls pre-processor, TPST post-processor.
DEFINE TPRE (FUNCT) <
IFDEF TFB'FUNCT <TFB'FUNCT>>
DEFINE TPST (FUNCT) <
IFDEF TFA'FUNCT <TFA'FUNCT>>
;This is the macro that should be called to do all this stuff.
DEFINE TXT (TYPE,ADDR,STR) <
JRST [IFE TYPE,<MOVEI S1,ADDR> ;;Address of routine
IFN TYPE,<MOVE S1,[POINT 7,ADDR]> ;;Address of buffer
TX (<STR>)
JRST .+1]
>;DEFINE TXT
;Slightly higher level string macros
;The text strings accepted are in TXT style
DEFINE OPRMSG (STR) <
JRST [MOVE S1,[POINT 7,J$SMOP(J)]
TX (<^T'STR'^0>) ;;Generate code for string (NUL at end)
MOVX S1,SIG.MS ;;Tell superior we have a message
$CALL SIGNAL
JRST .+1]
>;DEFINE OPRMSG
DEFINE ERROR (STR) <
JRST [MOVE S1,[POINT 7,J$SMOP(J)]
TX (<^T'STR'^0>) ;;Generate code for string (NUL at end)
MOVX S1,SIG.ER ;;Tell superior we have a message
$CALL SIGNAL
JRST .+1]
>;DEFINE ERROR
DEFINE FATAL (STR) <
JRST [MOVE S1,[POINT 7,J$SMOP(J)]
TX (<^T'STR'^0>) ;;Generate code for string (NUL at end)
MOVX S1,SIG.FT ;;Tell superior we have a message
$CALL SIGNAL
JRST .+1]
>;DEFINE FATAL
DEFINE LOGMSG (STR) <
TXT (0,LOGCHR,<^H^T 'STR'^M^J>) ;;Generate code for string
> ;End of define LOGMSG
SUBTTL Special Forms Handling Parameters
; Forms switches as used in LPFORM.TXT
; Note that the switches recognized are different from those used in
; the LPFORM.INI together with LPTSPL.
;
; BANNER:NN Number of job headers
; TRAILER:NN Number of job trailers
; A negative value gives that number of BANNER pages
; HEADER:NN Number of file headers (picture pages)
; LINES:NN Number of lines per page
; WIDTH:NN Number of characters per line
; FF:NN When to send FF. NN = <FF before banners> +
; 2*<FF before files> + 4*<FF before trailers> +
; 8*<FF after trailers> + 16*<FF for pagination>
; TABS:NN If 0, send TAB as is, else use spaces and NN
; between stops
; NAME:AA Name of printer on remote system
; TYPE:NORMAL/SCRZAP/8BIT/RAW Type of file being sent. SCRZAP and 8BIT
; overrides the switches given with PRINT
; Also tells UNIX which filter to use, see UXT.1
;
; What the abbreviations mean:
; NN is a decimal number
; AA is a string of 1 to 20 ASCII characters
; Location specifiers
; ALL all lineprinters
; LOCAL all lineprinters at the central site
; REMOTE all remote lineprinters
; LPTOOO lineprinter OOO only
;NOTE: HPDSPL will use the first entry which meets the location
; specification for its lineprinter.
DEFINE F,<
FS BANNER,0
FS TRAILER,0
FS HEADER,0
FS LINES,^D60
FS WIDTH,^D80
FS FF,^D16
FS NAME,0
FS TABS,0
FS TYPE,<SIXBIT /RAW/>
>
;Generate table of default parameters
DEFINE FS(X,Y),<
XLIST
D$'X: EXP Y
LIST
SALL
>
FFDEFS: F
F$NSW==.-FFDEFS
F$WCL1==^D60 ;Width class one is 1 to F$WCL1
F$WCL2==^D100 ;Width class two is F$WCL1 TO F$WCL2
F$LCL1==^D41 ;Length class one is 1 to F$LCL1
F$LCL2==^D55 ;Length class two is F$LCL1 to F$LCL2
;/FF switch bits
F$FFBB==1 ;FF before banner
F$FFBF==2 ;FF before file
F$FFBT==4 ;FF before trailer
F$FFAT==8 ;FF after trailer
F$FFPG==16 ;Do pagination
SUBTTL Stream Data Area
;The area between J$$BEG and J$$END is allocated when the stream is
;started and the inferior is spawned. Deallocated when shutdown and
;inferior killed.
;The LP macro will reserve one page right here to store the
;request (NEXTJB message)
LP J$$BEG,0 ;Beginning of parameter area
;General stream params
LP J$SSTK,STKSIZ ;Stack
LP J$SFRK,1 ;Handle on fork
LP J$PLIST,1 ;Printer list entry
LP J$SDPC,1 ;PC where last dismissed for I/O
LP J$SDTM,1 ;Time when last dismissed
LP J$SIST,1 ;Stream stat, set by inferior at end
; See ISTTAB for values.
LP J$SMOP,^D<15> ;Buffer for message passed to top fork
LP J$SICD,1 ;Stream command
;Right half is set when inf. is started
;See ICDTAB for values.
;Left half holds cancel command bits
ICD.AB==1B0 ;Abort bit
ICD.RQ==1B1 ;Requeue bit
LP J$SMLG,^D<15> ;Buffer for message when inferior abort
LP J$SOBJ,OBJ.SZ ;Object (Printer) parameters
LP J$SCKP,1 ;Time for next checkpoint
LP J$SPTL,1 ;Protocol, see below in PTLTAB
LP J$SSTG,^D<15> ;Translated device name string
;Current request parameters
LP J$RFLN,1 ;Number of files in request
LP J$RLIM,1 ;Job limit in pages
LP J$RTIM,1 ;Start time of job
LP J$RLFS,1,Z ;Adr of log file spec
LP J$RHNM,5,Z ;Name of remote host if used
LP J$RRST,1 ;Status of job in remote queue
LP J$RLPT,10 ;Name of remote printer
;Parameters saved in checkpoints.
;All protocols don't use all fields. PTLTTY uses all fields.
;PTLUNX ignores everything except the flags and device.
LP J$CBEG,0 ;Start of checkpoint params
LP J$CNFT,1,Z ;Number of files transferred
LP J$CNCT,1,Z ;Copies of last file transferred
LP J$CNPT,1,Z ;Pages of last copy transferred
LP J$CFLG,1,Z ;Status of checkpoint
CFGCKP==1B0 ;Checkpoint taken
CFGREM==1B1 ;Job sits in remote queue
CFGREQ==1B2 ;Job is requeued
LP J$CEND,1 ;End of checkpoint params
CHKLEN==J$CEND-J$CBEG ;Length of area
LP J$CMSG,1 ;Pointer to routine to generate CKP
; message output in queue listing
;Output parameters
LP J$OBFR,OPBFSZ/<36/8>+1 ;Output buffer
LP J$OBPT,1 ;Byte pointer
LP J$OBCT,1 ;Byte count
LP J$OBTZ,1 ;Output byte size
LP J$OJFN,1 ;JFN
;Current forms parameters
DEFINE FS(X,Y),<
LP J$F'X,1
>
LP J$FCUR,0 ;Start of forms params
F ;Current forms params
LP J$LDEV,1 ;Actual output device name
LP J$FORM,1 ;Current forms type
LP J$FWCL,1 ;Current width class
LP J$FLCL,1 ;Current length class
LP J$FJFN,1 ;JFN of LPFORM.TXT
;Parameters related to currently printing file
LP J$ITNM,5 ;Temp file name used for UNIX
LP J$INAM,10 ;Filename in recognizable form
LP J$IEXT,10 ;Extension and version no
LP J$IIPG,1 ;Pages to skip if > 0, don't if <=0
LP J$IJFN,1 ;The JFN
LP J$IFNM,1 ;Points to 'real' filename string
LP J$IBFR,IPBFSZ/<36/7>+1 ;Input buffer
LP J$IBPT,1 ;Byte pointer
LP J$IBCT,1 ;Byte count
LP J$IICT,1 ;Max no of bytes in curr size in buffer
LP J$IIBP,1 ;Byte pointer to start of buffer
;Miscellaneous
LP J$XTOP,1 ;Set if at top of form
LP J$XVPS,1 ;Current vertical position
LP J$XHPS,1 ;Current horizontal pos
LP J$XHBF,^D<20> ;Buffer for banner/header/trailer line
LP J$XCOD,^D<55> ;/REPORT check routine
LP J$XFRC,1 ;Fortran character repeat count
LP J$XCNT,1 ;Count of chars output with OUTBUF
LP J$XTMP,^D<25> ;Temporary buffer (strings, param blks)
;Log file parameters
LP J$LBFR,LGBFSZ/<36/7>+1 ;Log buffer
LP J$LBPT,1 ;Byte pointer
LP J$LBCT,1 ;Byte count
;Accounting params
LP J$ANPT,1,Z ;Total no of pages printed
TRLBFL==:^D10000 ;Length of buffer for trailer info
LP TRLBUF,TRLBFL ;Buffer for trailer info
NERBUF==:1000 ;Buffer for error information
LP ERRBUF,NERBUF ;Allocate it
LP ERRFLG,1 ;The error flag
LP FOOBUF,1000
LP J$$END,1 ;End of parameter area
J$$LEN==J$$END-J$$BEG ;Length of parameter area
;Now generate a bit table of which words in the stream data area to zero
;on a new job
ZTABLE: ;Put table here
DEFINE ZTAB(A),<
IFNDEF ...Z'A,<...Z'A==0>
EXP ...Z'A
> ;END DEFINE ZTAB
ZZ==0
REPEAT <J$$LEN+^D35>/^D36,<
XLIST
ZTAB(\ZZ)
ZZ==ZZ+1
LIST
> ;END REPEAT
SUBTTL Random Impure Storage used by top fork
STACK: BLOCK STKSIZ ;Top's stack
MESSAG: BLOCK 1 ;Address of message just received
BLKADR: BLOCK 1 ;IPCF message block addr save area
SAB: BLOCK SAB.SZ ;A send argument block
MSGBLK: BLOCK 2*MSBSIZ ;A block to build long messages in
STREAM: BLOCK 1 ;Number of current stream, index in STRPAR
INTFLG: BLOCK 1 ;Set to -1 on interrupts, 0 before
RSTFLG: BLOCK 1 ;-1 if main loop may be restarted, 0 otherwise
TMPBUF: BLOCK ^D20 ;Temp. buffer
SYSNAM: BLOCK ^D15 ;Sysname
;Permanent stream parameters
STRPAR: BLOCK NPRINT ;Address of the stream's (inferior fork's)
; parameter Area. 0 if not allocated
SJFNS: BLOCK NPRINT ;JFNS OF DEVICES
SUBTTL Message blocks and other constants
INTVEC==:LEVTAB,,CHNTAB
IB: $BUILD IB.SZ
$SET(IB.PRG,,%%.MOD) ;Program name
$SET(IB.INT,,INTVEC) ;Interrupt vector address
$SET(IB.PIB,,PIB) ;PIB address
$SET(IB.FLG,IP.STP,1) ;Stopcodes to ORION
$EOB
PIB: $BUILD PB.MNS
$SET(PB.HDR,PB.LEN,PB.MNS) ;PIB length,,0
$SET(PB.FLG,IP.PSI,1) ;PSI on
$SET(PB.INT,IP.CHN,1) ;Interrupt on channel 1
$EOB
HELLO: $BUILD HEL.SZ
$SET(.MSTYP,MS.TYP,.QOHEL) ;Message type
$SET(.MSTYP,MS.CNT,HEL.SZ) ;Message length
$SET(HEL.NM,,<'HPDSPL'>) ;Program name
$SET(HEL.FL,HEFVER,%%.QSR) ;QUASAR version
$SET(HEL.NO,HENNOT,1) ;Number of obj types
$SET(HEL.NO,HENMAX,NPRINT) ;Max number of jobs
$SET(HEL.OB,,.OTLPT) ;LPT object type
$EOB
SUBTTL HPDSPL - HP Laserjet spooler
;All code between here and INFST is only executed by the top fork.
HPDSPL: RESET% ;As usual.
MOVE P,[IOWD STKSIZ,STACK] ;Set up the stack.
MOVEI S1,IB.SZ ;Get the IB size.
MOVEI S2,IB ;Address of the IB.
$CALL I%INIT ;Set up GALAXY
MOVX S1,.FHSLF ;Load my fork handle
MOVX S2,<1B1!1B19> ;1:IPCF, 19:Inf. term.
AIC% ;Activate the channels
MOVX S1,.FHSLF ;Enable privileges
SETOB S2,T1 ;All!
EPCAP%
ERJMP [$STOP (NEP,Could not enable privileges)]
MOVX S1,.MSIIC ;Get 'ignore str accting' function
MSTR% ;We want to ignore structure accounting
ERJMP .+1 ;Ignore any error
MOVX S1,'SYSVER' ;Name of gettab for sysname
SYSGT% ;Get it
HRLZ T1,S2 ;Get table#,,0
MOVEI T2,^D14 ;And load loop counter
DO.
MOVS S1,T1 ;Get n,,table#
GETAB% ;Get the entry
MOVEI S1,0 ;Use zero if losing
MOVEM S1,SYSNAM(T1) ;Store the result
CAILE T2,(T1) ;Done enuf?
AOJA T1,TOP. ;No, loop
ENDDO.
PUSHJ P,P%LPIN## ;Get LPFORM.INI
MOVEI T1,HELLO ;Get address of hello message.
$CALL SNDQSR ;Say hi to QUASAR.
$CALL I%ION ;Turn on interrupts
;Fall through
SUBTTL Main Loop
;Restarted at MAIN on interrupts or after 30 secs
MAIN: DO.
SETZM RSTFLG ;Don't restart us now
SETZM INTFLG ;and no interrupts seen yet
MOVX P1,NPRINT-1 ;Max number of streams
DO.
SKIPN J,STRPAR(P1) ;Is data area allocated?
JRST MAI.9 ;No, nothing interesting
MOVEM P1,STREAM ;Set STREAM also
MOVE S1,J$SFRK(J) ;Get its fork handle
RFSTS% ;and its status
ERJMP [$STOP (NFS,Can't get fork status)]
HLRZ S1,S1 ;Get interesting part of status word
CAIE S1,.RFSLP ;Is it sleeping?
CAIN S1,.RFRUN ;Is it running?
JRST MAI.8 ;Yes, leave it alone
CAIE S1,.RFHLT ;Is it halted?
IFSKP.
SKIPE S1,J$SIST(J) ;Yes, did it signal?
$CALL INFTRM ;Yup, go check the message
JRST MAI.8 ;No, I guess it's just idle
ENDIF.
;Now check for hung streams
CAIE S1,.RFIO ;Dismissed for I/O?
IFSKP.
CAME S2,J$SDPC(J) ;Compare PCs
IFSKP.
; GTAD% ;Get time
; SUBX S1,3*DISTIM ;Subtract max I/O wait time
; CAMGE S1,J$SDTM(J) ;Compare with prev. check time
; JRST MAI.9 ;No time-out yet
; $WTO (HPDSPL - Stream I/O wait time-out,,J$SOBJ(J))
; MOVX S1,%RSUNA ;Shut it down temporarily
; $CALL SUPMSG
JRST MAI.9 ;Check next stream
ENDIF.
MOVEM S2,J$SDPC(J) ;Save PC
GTAD%
MOVEM S1,J$SDTM(J) ;and time
JRST MAI.9 ;Check next stream
ELSE. ;Involuntary termination
HRRZ T2,S2 ;Save PC
MOVE S1,J$SFRK(J) ;Get handle on process
$CALL ERRSTR ;and get the error string
$WTO (HPDSPL - Inferior abnormal termination,^T/TMPBUF/ at ^O/T2/,J$SOBJ(J))
MOVX S1,FATERT ;Shut it down properly
$CALL SUPMSG
ENDIF.
MAI.8: SETZM J$SDPC(J) ;Indicate no I/O wait
MAI.9: SOJGE P1,TOP. ;Loop over all streams
ENDDO.
$CALL CHKQUE ;Take care of any messages
SKIPE INTFLG ;Have we been interrupted?
LOOP. ;Yes, do another pass
SETOM RSTFLG ;We allow restarts now
MOVX S1,^D30000 ;Sleep for 30 secs
DISMS% ;..or until restarted
LOOP.
ENDDO.
;ERRSTR - Puts the errormessage for the most recent error
;into TMPBUF.
;S1 should contain the fork handle for the process.
ERRSTR: HRLO S2,S1 ;Get handle
HRROI S1,TMPBUF ;Point to the buffer
SETZ T1,
ERSTR%
JFCL
JFCL
$RETT
SUBTTL Interrupt Routines
LEVTAB: EXP LEV1PC ;Where to store level 1 int PC
EXP LEV2PC ;Level 2 in case we need it
EXP LEV3PC ;and 3
CHNTAB: BLOCK 1 ;Don't use channel 0
XWD 1,INTIPC ;Chn 1, IPCF message - level 1
BLOCK ^D17 ;We don't use these
XWD 1,INTINF ;Chn 19, Inferior termination
BLOCK ^D17 ;Rest of the table
LEV1PC: BLOCK 1 ;Where to store the PCs
LEV2PC: BLOCK 1
LEV3PC: BLOCK 1
;INTIPC - Interrupt routine for IPC message
INTIPC: $CALL C%INTR ;Flag the interrupt for GLXLIB
JRST INTALL ;Jump to common code
;INTINF - Interrupt routine for Inferior termination
INTINF:
; JRST INTALL ;Jump to common code
;INTALL - Common part of interrupt handlers
;Sets the interrupts flag INTFLG and restarts the main loop at MAIN
;if restarting is allowed.
INTALL: SETOM INTFLG ;Flag the interrupt
SKIPN RSTFLG ;Should we restart?
DEBRK% ;NO!!!
MOVEI S1,MAIN ;Restart at MAIN
IORX S1,1B5 ;Indicate user mode
MOVEM S1,LEV1PC
DEBRK% ;Return to MAIN
SUBTTL CHKQUE -- Routine to receive and process IPCF messages
CHKQUE: $SAVE <P1>
DO.
$CALL C%RECV ;Receive a message
JUMPF .POPJ ;Return,,nothing there.
SETZM BLKADR ;Clear the IPCF msg blk addr save area
LOAD S2,MDB.SI(S1) ;Get special index word
IFXN. S2,SI.FLG ;Is there an index there?
ANDX S2,SI.IDX ;And out the index
CAIE S2,SP.OPR ;Is it from OPR?
CAIN S2,SP.QSR ;Is it from QUASAR?
IFNSK.
LOAD M,MDB.MS(S1),MD.ADR ;Get the message address
LOAD S2,.MSTYP(M),MS.TYP ;Get the message type
MOVSI S1,-NMSGT ;Make AOBJN pointer for msg types
DO.
HRRZ T1,MSGTAB(S1) ;Get a message type
CAME S2,T1 ;Match?
IFSKP. ;Yes
HLRZ P1,MSGTAB(S1) ;Pick up the address
$CALL CHKOBJ ;Check if the printer exists
SKIPE ;It doesn't, forget all this
$CALL @P1 ;All OK, dispatch
ELSE.
AOBJN S1,TOP. ;No, loop
ENDIF.
ENDDO.
ENDIF.
ENDIF.
$CALL C%REL ;Release the message
LOOP.
ENDDO.
MSGTAB: XWD KILL,.QOABO ;Abort message
XWD CHKPNT,.QORCK ;Request-for-checkpoint
XWD NXTJOB,.QONEX ;NEXTJOB
XWD SETUP,.QOSUP ;Setup/shutdown
XWD OACCON,.OMCON ;Operator continue request.
XWD OACRSP,.OMRSP ;Operator WTOR response.
XWD OACREQ,.OMREQ ;Operator requeue request.
XWD OACCAN,.OMCAN ;Operator cancel request.
XWD OACPAU,.OMPAU ;Operator pause/stop request.
XWD OACFWS,.OMFWS ;Operator forward space request.
XWD OACALI,.OMALI ;Operator align request.
XWD OACSUP,.OMSUP ;Operator suppress request.
XWD OACBKS,.OMBKS ;Operator backspace request.
XWD QSRNWA,.QONWA ;QUASAR node-went-away message
XWD OPRD60,.OMDSP ;DN60 operator response message
XWD FORFOR,.QOFCH ;Force forms message
NMSGT==.-MSGTAB
SUBTTL INFTRM - Called when inferior terminates
;Dispatch table for message (termination reason)
ITMTAB: BDTB
DTE (ITM.0,IST.DN) ;Processing completed
DTE (ITM.1,IST.ER) ;Error, message in J$SMOP
DTE (ITM.2,IST.FT) ;Fatal error, message in J$SMOP
DTE (ITM.3,IST.MS) ;Message, in J$SMOP
DTE (ITM.4,IST.CP) ;Request for checkpoint
DTE (ITM.5,IST.CR) ;Cancel request and get next
EDTB (ITMLEN)
;J and STREAM should be set properly before this routine is called.
INFTRM: MOVE S1,J$SIST(J) ;Get message type
SKIPL S1 ;Make sure it's legal
CAIL S1,ITMLEN
$STOP (IMI,Illegal Message from Inferior)
PJRST @ITMTAB(S1) ;Dispatch
;Processing done (SIG.DN)
ITM.0: HRRZ S2,J$SICD(J) ;Get last command
HLLZ S1,J$SICD(J) ;and abort flags
SETZM J$SICD(J) ;and indicate we're idle
CAXE S2,ICD.SU ;Was it a set up?
IFSKP.
$WTO (HPDSPL - Stream Started,,J$SOBJ(J))
MOVX S1,%RSUOK ;Send a response to setup message
PJRST SUPMSG
ELSE.
CAXE S2,ICD.NJ ;Or a new job?
IFSKP.
PUSH P,S1 ;Save the abort flags
ANDX S1,ICD.RQ ;Only keep requeue flag
$CALL QRELEA ;Release/requeue the job
POP P,S1 ;Restore flags
$CALL FILDIS ;and go clean up
ELSE.
CAXE S2,ICD.CF ;Or new forms?
IFSKP.
MOVX S1,%RESET ;Default to reset
MOVEI T1,MSGBLK ;Get the message block address
MOVEM S1,STU.CD(T1) ;Save the status
HRLI S1,J$SOBJ(J) ;Get the object block address
HRRI S1,STU.RB(T1) ;Get destination address
BLT S1,STU.RB+OBJ.SZ-1(T1) ;Copy the obj blk over to the msg
MOVX S1,STU.SZ ;Get the message length
STORE S1,.MSTYP(T1),MS.CNT ;Save it
MOVX S1,.QOSTU ;Get the message type
STORE S1,.MSTYP(T1),MS.TYP ;Save it
PJRST SNDQSR ;Send it off to QUASAR
ENDIF.
ENDIF.
ENDIF.
$RETT ;Neither, just return
;Error (SIG.ER)
ITM.1: $WTO (HPDSPL - Error in Stream:,^T/J$SMOP(J)/,J$SOBJ(J))
MOVX S1,%RSUNA ;Say device is temporarily unavailable
PJRST SUPMSG ;and shut it down
;Fatal error (SIG.FT)
ITM.2: $WTO (HPDSPL - Fatal Error in Stream:,^T/J$SMOP(J)/,J$SOBJ(J))
MOVX S1,FATERT ;Say device permanently gone
PJRST SUPMSG ;and shut it down
;Message to OPR (SIG.MS)
ITM.3: $WTO (HPDSPL - Message from Stream:,^T/J$SMOP(J)/,J$SOBJ(J))
SKIPA
;Request for checkpoint (SIG.CP)
ITM.4: $CALL CHKPNT ;Take the checkpoint
MOVE S1,J$SFRK(J) ;Get inferior's fork handle
IORX S1,SF%CON ;Set continue bit
SFORK% ;and continue it
IFJER.
MOVX S1,.FHSLF
$CALL ERRSTR ;Get error string
$WTO (HPDSPL - Could not continue inferior,^T/TMPBUF/,J$SOBJ(J))
MOVX S1,%RSUNA ;Shut down for a while
PJRST SUPMSG
ENDIF.
$RETT
;Cancel request and continue (SIG.CR)
; We got here because file was unprintable for some reason (did not exist)
ITM.5: SETZ S1, ;Cancel request
$CALL QRELEA
$CALL FILDIS ;Go clean up any files
$RETT
SUBTTL Status and checkpoint routines
;CHKPNT -- Request for Checkpoint
;This routine is to checkpoint the job whose data area is pointed to by J.
;A stream should only be checkpointed when the inferior fork has requested
;it.
;Dispatch table for J$CMSG
CHKDTB: BDTB
DTE (CHK.0,MSG.NOR) ;Standard message
DTE (CHK.1,MSG.XFR) ;Message when transferring files
DTE (CHK.2,MSG.RQU) ;Message when in remote queue
EDTB (CKTLEN)
CHKPNT: $SAVE <P1> ;Save P1
MOVEI P1,MSGBLK ;And let it point to the block
MOVX S1,CH.FCH!CH.FST ;Get checkpoint and status flags
STORE S1,CHE.FL(P1) ;And store them
LOAD S1,.EQITN(J) ;Get job's ITN
MOVEM S1,CHE.IT(P1) ;And store it
MOVX S1,CFGCKP
ORM S1,J$CFLG(J)
HRRI S1,CHE.IN(P1) ;Set up for BLT, ?,,dest
HRLI S1,J$CBEG(J) ;Source,,dest
BLT S1,J$CEND-J$CBEG+CHE.IN-1(P1) ;Move it
SKIPN S1,J$CMSG(J) ;Get message type
$RETT ;Hasn't been set yet, so forget it
SKIPL S1 ;Make sure type is legal
CAIL S1,CKTLEN
$STOP (ICM,Illegal Checkpoint Message Specified)
$CALL @CHKDTB(S1) ;Dispatch
MOVE S1,[POINT 7,CHE.ST(P1)] ;Point to string just created
ILDB S2,S1 ;Get a byte
JUMPN S2,.-1 ;Get to last NUL
HRRZ S1,S1 ;Just keep address i.e. length
AOJ S1, ;Add one word
STORE S1,.MSTYP(P1),MS.CNT ;and save it
MOVX S1,.QOCHE ;Set the function
STORE S1,.MSTYP(P1),MS.TYP
MOVE T1,P1 ;Point to the message
PJRST SNDQSR ;and send it
;Standard checkpoint message
CHK.0: $TEXT (<-1,,CHE.ST(P1)>,<Started at ^C/J$RTIM(J)/, printed ^D/J$ANPT(J)/ of ^D/J$RLIM(J)/ pages^0>)
$RETT
;Message when transferring files
CHK.1: LOAD T1,.EQSPC(J),EQ.NUM ;Get no of files in request
AOJ T1, ;Add one control file
SKIPE J$FBAN(J) ;Banner file?
AOJ T1, ;Yes, another file
SKIPE J$FTRA(J) ;Trailer file?
AOJ T1, ;Yes, another file
$TEXT (<-1,,CHE.ST(P1)>,<Started at ^C/J$RTIM(J)/, transferred ^D/J$CNFT(J)/ of ^D/T1/ files to ^T/J$RHNM(J)/^0>)
$RETT
;Message when job is in queue on remote system
CHK.2: SKIPE T1,J$RRST(J) ;Get position in remote queue
IFSKP.
$TEXT (<-1,,CHE.ST(P1)>,<Now printing on ^T/J$RHNM(J)/^0>)
ELSE.
$TEXT (<-1,,CHE.ST(P1)>,<Number ^D/J$RRST(J)/ in queue on ^T/J$RHNM(J)/^0>)
ENDIF.
$RETT
SUBTTL Requeue/Release routines
;QRELEASE -- Routine to send a release/requeue msg to QUASAR.
;If S1 = 0 it's a release else a requeue.
QRELEA: PUSH P,S1 ;Save param for a while
$WTOJ (HPDSPL - End,<^R/.EQJBB(J)/>,J$SOBJ(J)) ;TELL THE OPERATOR.
$LOG (HPDSPL - Printed ^D/J$ANPT(J)/ pages,,J$SOBJ(J)) ; Log it
MOVEI S1,MSBSIZ ;Get block length
MOVEI S2,MSGBLK ;And the address
$CALL .ZCHNK ;Zero the block
POP P,S1 ;Restore parameter
IFE. S1 ;No requeue
MOVEI T1,MSGBLK ;GET ADDRESS OF THE BLOCK
LOAD S1,.EQITN(J) ;GET THE ITN
STORE S1,REL.IT(T1) ;STORE IT
MOVX S1,REL.SZ ;GET RELEASE MESSAGE SIZE
MOVX S2,.QOREL ;AND FUNCTION
ELSE.
MOVEI T1,MSGBLK ;Address of the block
LOAD S1,.EQITN(J) ;Get the ITN
STORE S1,REQ.IT(T1) ;and save it away
MOVE S1,J$CFLG(J) ;Set Requeue flag in checkpoint data
TXO S1,CFGREQ
MOVEM S1,J$CFLG(J)
SETZM J$CNFT(J) ;Say no files printed
SETZM J$CNCT(J) ;Say no copies of last one printed
SETZM J$CNPT(J) ;Say no pages of last copy printed
HRRI S1,REQ.IN(T1) ;set up for BLT, ?,,dest
HRLI S1,J$CBEG(J) ;source,,dest
BLT S1,J$CEND-J$CBEG+CHE.IN-1(T1) ;and move it
MOVX S1,RQ.HBO ;Set hold by operator
STORE S1,REQ.FL(T1)
MOVX S1,REQ.SZ ;Size
MOVX S2,.QOREQ ;and function
ENDIF.
STORE S1,.MSTYP(T1),MS.CNT ;STORE SIZE
STORE S2,.MSTYP(T1),MS.TYP ;AND CODE
PJRST SNDQSR ;SEND IT TO QUASAR
;FILDIS -- Routine to keep/delete printed files.
;Called when a job is released
;Whether the user has delete access or not to the file has
;already been checked in INPOPN.
;S1 is <> 0 if job was aborted, 0 if normal termination.
FILDIS: $SAVE <P1,P2>
MOVE P2,S1 ;Save the param
LOAD E,.EQLEN(J),EQ.LOH ;Get the header length
ADD E,J ;Point to first file
LOAD P1,.EQSPC(J),EQ.NUM ;Get the number of files
DO.
LOAD T1,.FPLEN(E),FP.LEN ;Get the FP length
ADD T1,E ;Compute the FD address
MOVEI S2,.FDSTG ;File name offset
ADD S2,T1 ;S2 points to file name string
MOVE T2,.FPINF(E) ;Get the file info word
LOAD E,.FPLEN(E),FD.LEN ;Get the FD length
ADD E,T1 ;Point E at next FP block
HRRO S2,S2 ;Make a pointer to file name
MOVX S1,<GJ%SHT!GJ%OLD> ;Short form and file must exist
GTJFN% ;Get a handle
IFNJE.
IFXE. T2,FP.SPL ;Is this file spooled?
IFE. P2 ;Normal termination?
IFXN. T2,FP.DEL ;Yes, do we want it deleted?
DELF% ;Delete it
ERJMP .+1
ENDIF.
ENDIF.
ELSE.
IORX S1,DF%EXP ;Delete and expunge
DELF%
ERJMP .+1
ENDIF.
RLJFN% ;Release JFN (just to be sure)
ERJMP .+1 ;We get a lot of errors
ENDIF.
SOJG P1,TOP. ;Go process the next file
ENDDO.
$RETT
SUBTTL CHKOBJ -- Routine to validate QUASAR/ORION/OPR msg obj blks.
;CALL: S1/OFFSET INTO MSGTAB
; S2/MESSAGE TYPE
;RET: J/Points to stream's data area
; STREAM/Set to stream number
CHKOBJ: CAIE S2,.OMRSP ;Is this an operator response?
CAIN S2,.QOSUP ;Is this a setup/shutdown message?
$RETT ;Yes, just return now.
CAIN S2,.OMDSP ;Is this a DN60 operator response?
$RETT ;Yes, just return now.
CAIE S2,.QOFCH ;Is it forms change message?
CAIL S2,.OMOFF ;Is this an OPR/ORION message?
IFNSK.
DO.
$CALL GETBLK ;Get a message block
JUMPF .RETF ;No more, that's an error
CAIE T1,.OROBJ ;Is this the object block?
LOOP.
ENDDO.
MOVE S1,T3 ;Get the block data address in S1.
ELSE.
XCT [MOVEI S1,ABO.TY(M) ;Get abort msg obj address.
MOVEI S1,RCK.TY(M) ;Get checkpoint msg obj address.
MOVEI S1,.EQROB(M)](S1) ;Get nextjob msg obj address.
ENDIF.
$CALL FNDOBJ ;Go find the object block.
JUMPF .RETF ;Not there, that's an error.
$RETT ;Return.
;GETBLK -- Routine to break down an IPCF message into its data blocks
;Call: M/ Message address
;
;Ret: T1/ Block type
; T2/ Block length
; T3/ Block data address
GETBLK: SOSGE .OARGC(M) ;Subtract 1 from the block count
$RETF ;No more, return
SKIPN S1,BLKADR ;Get the previous block address
MOVEI S1,.OHDRS+ARG.HD(M) ;None there,,get first block address
LOAD T1,ARG.HD(S1),AR.TYP ;Get the block type
LOAD T2,ARG.HD(S1),AR.LEN ;Get the block length
MOVEI T3,ARG.DA(S1) ;Get the block data address
ADD S1,T2 ;Point to the next message block
MOVEM S1,BLKADR ;Save it for the next call
$RETT ;Return to the caller
;FNDOBJ -- Check if the specified object (printer) exists
;Returns true with J pointing to parameter area and STREAM set
;to stream number if it does. Otherwise false.
FNDOBJ: MOVE T1,.ROBTY(S1) ;Get object type
MOVE T2,.ROBAT(S1) ;Get unit number
MOVE T3,.ROBND(S1) ;And node number
SETZ T4, ;Clear an index register
DO.
FNDO.1: SKIPN S1,STRPAR(T4) ;Stream allocated?
IFSKP.
MOVEI S2,J$SOBJ(S1) ;Get address of object block
CAMN T1,OBJ.TY(S2) ;Compare
CAME T2,OBJ.UN(S2) ;Compare
IFSKP.
CAMN T3,OBJ.ND(S2) ;Compare
JRST ENDLP.
ENDIF.
ENDIF.
AOJ T4, ;Increment
CAIL T4,NPRINT ;The end of the line?
$RETF ;Yes, return 'object not there'
LOOP.
ENDDO.
MOVE J,STRPAR(T4) ;Return pointer to parameter area
MOVEM T4,STREAM ;and which stream it is
$RETT
SUBTTL SNDQSR -- Routine to send a message to QUASAR.
;T1 should point to the message block
SNDQSR: MOVX S1,SP.QSR ;Get QUASAR flag
TXO S1,SI.FLG ;Set special index flag
STORE S1,SAB+SAB.SI ;And store it
SETZM SAB+SAB.PD ;Clear the PID word
LOAD S1,.MSTYP(T1),MS.CNT ;Get the message length
STORE S1,SAB+SAB.LN ;Save it
STORE T1,SAB+SAB.MS ;Save the message address
MOVEI S1,SAB.SZ ;Load the size
MOVEI S2,SAB ;And the address
$CALL C%SEND ;Send the message
JUMPT .RETT ;And return
$STOP (QSF,Send to QUASAR FAILED)
SUBTTL SETUP/SHUTDOWN Message processing
;M contains a pointer to the message
;J is not defined yet
SETUP: $SAVE <P1,P2> ;Save temp regs
LOAD S1,SUP.FL(M) ;Get the flags
IFXN. S1,SUFSHT ;Is it a shutdown?
CALL SHUTDN ;Yes, do it
ELSE.
SETZ T2, ;Clear a loop reg
DO.
SKIPN STRPAR(T2) ;A free stream?
IFSKP.
CAIGE T2,NPRINT-1 ;No, loop thru them all?
AOJA T2,TOP. ;No, keep going
$STOP (TMS,Too many setups)
endif.
ENDDO.
MOVEI S1,J$$END+PAGSIZ-1 ;Get LPT DB length rounded up a page
IDIVI S1,PAGSIZ ;Get number of pages in S1
$CALL M%AQNP ;Allocate them
PG2ADR S1 ;Convert to an address
MOVEM S1,STRPAR(T2) ;And save it
MOVE J,S1 ;Put it in J
MOVEM T2,STREAM ;Set STREAM also
SETZM J$SFRK(J) ;We don't have the inferior yet
MOVEI S2,J$SOBJ(J) ;Save object block
HRLI S2,SUP.TY(M)
BLT S2,OBJ.SZ+J$SOBJ-1(J) ;Get it
LOAD S2,SUP.FL(M),SPLTAP ;Are we trying to spool to tape?
IFN. S2
$WTO (HPDSPL - Not started,spooling to tape not supported,J$SOBJ(J))
MOVX S1,FATERT ;Signal does not exist
JRST SUPMSG
ENDIF.
MOVEI P1,J$SOBJ(J) ;Get our object block address
SETZ S1, ;Default node name of LOCAL
MOVE S2,OBJ.UN(P1) ;Get the unit number
$CALL P%FUNI## ;Find the printer entry
SKIPE
IFSKP. ;On failure...
$WTOJ (<Setup error>,<Printer not defined for this system>,J$SOBJ(J))
MOVX S1,FATERT ;Signal does not exist
JRST SUPMSG
ENDIF.
MOVEM S2,J$PLIST(J) ;Store printer list
MOVE S1,OBJ.UN(P1) ;Get unit number
IDIVI S1,^D10
LSH S1,6 ;[wew] Shift top digit one char
ADDI S1,(S2) ;[wew] Add in lower digit
ADD S1,[SIXBIT/LPT000/] ;Create physical name
MOVEM S1,J$LDEV(J) ;Save it
$TEXT (<-1,,J$XTMP(J)>,<PLPT^D/OBJ.UN(P1)/^0>) ;create unit name
MOVX S1,.LNSSY ;Transl. from logical to physical
HRROI S2,J$XTMP(J) ;Point to logical name
HRROI T1,J$SSTG(J) ;and where to store translation
LNMST%
IFJER.
$TEXT (<-1,,J$SSTG(J)>,<PLPT^D/OBJ.UN(P1)/:^0>)
ENDIF.
CALL GSJFN ;GET JFN READY
; MOVX S1,GJ%SHT ;Load GTJFN flags
; HRROI S2,J$SSTG(J) ;Point to the string
; GTJFN% ;Get JFN of the device
; IFJER.
; $WTO (HPDSPL - Not started,<Can't find device ^T/J$SSTG(J)/>,J$SOBJ(;J))
; MOVX S1,FATERT
; JRST SUPMSG
; ENDIF.
; MOVEM S1,J$OJFN(J) ;Save JFN for a millisecond
; DVCHR%
; IFJER.
; $STOP (IJS,Internal JFN Screwup)
; ENDIF.
; LOAD T1,S2,DV%TYP ;Get device type
; MOVE S1,J$OJFN(J) ;Get JFN again (trashed by DVCHR%)
; RLJFN% ;We don't need the JFN any more
; IFJER.
; $STOP (CRJ,Can't Release JFN)
; ENDIF.
MOVX S1,CR%MAP!CR%CAP!CR%ACS ;Same address space and priv's
SETZ S2, ;Let it have these ACs to start with
CFORK%
IFJER.
MOVX S1,.FHSLF ;Get handle on myself
$CALL ERRSTR ;Get error string
$WTO (HPDSPL - Not started,<Can't create inferior, ^T/TMPBUF/>,J$SOBJ(J))
MOVX S1,FATERT
JRST SUPMSG
ENDIF.
MOVEM S1,J$SFRK(J) ;Save fork handle
HRL S2,S1
HRRI S2,DDTSEC ;source
MOVSI S1,.FHSLF ;destination
MOVX T1,SM%RD!SM%WR!SM%EX!1 ;one section, full access
SMAP% ;copy DDT
ERJMP .+1
MOVE S1,J$SFRK(J) ;get fork handle back
MOVX S2,ICD.SU ;Tell her we're starting up
MOVEM S2,J$SICD(J)
MOVEI S2,INFST ;Get start address
SFORK% ;Here we go
IFJER.
MOVX S1,.FHSLF
$CALL ERRSTR
$WTO (HPDSPL - Not started,<Can't start inferior, ^T/TMPBUF/>,J$SOBJ(J))
MOVX S1,FATERT
JRST SUPMSG
ENDIF.
ENDIF.
$RETT
;GSJFN -- get jfn ready for stream if don't have already
; takes STREAM for jfn
GSJFN:
; SKIPE S2,SJFNS(S1) ;DON'T REOPEN IF ALREADY GOT IT
; JRST GSAJFN ;DONE
skipe 1,j$ojfn(j)
closf%
Erjmp .+1
Move S1,STREAM
PUSH P,J
MOVE J,STRPAR(S1)
MOVX S1,GJ%SHT ;Load gtjfn flags
HRROI S2,J$SSTG(J) ;Point to the string
GTJFN% ;Get JFN of the device
IFJER.
FATAL (<GTJFN failed second time on ^AJ$SSTG(J)^T, ^E>)
ENDIF.
MOVEM S1,J$OJFN(J) ;Save JFN
MOVX S2,<OF%WR!OF%RD!<FLD 8,OF%BSZ>> ;Write 8 bit bytes
OPENF%
IFJER.
ERROR (<Can't open device ^AJ$SSTG(J)^T, ^E>)
ENDIF.
MOVE S1,J$OJFN(J)
MOVX S2,<TT%LCA!TT%PGM> ;Set LC and ctl-S/ctl-Q
STPAR%
IFJER.
ERROR (<Can't set params for device ^AJ$SSTG(J)^T, ^E>)
ENDIF.
MOVE S1,J$OJFN(J) ;and image mode
MOVX S2,<FLD .TTBIN,TT%DAM>
SFMOD%
IFJER.
ERROR (<Can't set params for device ^AJ$SSTG(J)^T, ^E>)
ENDIF.
MOVE S1,J$OJFN(J) ;and image mode
MOVEI S2,.MOSTF
MOVX T1,MO%NUM!MO%NTM ;inhibit non-job output
MTOPR%
IFJER.
ERROR (<Can't inhibit output for device ^AJ$SSTG(J)^T, ^E>)
ENDIF.
MOVE S1,J$OJFN(J) ;and image mode
MOVEI S2,.MOSNT
MOVEI T1,.MOSMN
MTOPR%
IFJER.
ERROR (<Can't set no messages for device ^AJ$SSTG(J)^T, ^E>)
ENDIF.
MOVE S1,STREAM
MOVE S2,J$OJFN(J)
MOVEM S2,SJFNS(S1) ;SAVE JFN
POP P,J
RET
GSAJFN: MOVE T1,STRPAR(S1)
MOVEM S2,J$OJFN(T1) ;SAVE JFN WE ALREADY HAD
RET
SUBTTL Routines to signal startup OK and errors to QUASAR
;SUPMSG - Startup message. Sends a response to setup message to
;QUASAR. The message type is passed in S1 and is one of %RSUOK,
;%RSUDE or %RSUNA. It is also called on errors, in which case the
;stream is shut down.
SUPMSG: $CALL RSETUP ;Send the response to setup msg.
CAXE S1,%RSUOK ;Was it OK
CALL SHUTIN ;No, restore everything
$RETT ;Yes, return
;RSETUP -- Routine to send a response-to-setup msg to QUASAR
; S1 contains condition code
RSETUP: $SAVE S1 ;Save the setup condition code.
MOVE T2,S1
MOVEI S1,RSU.SZ ;Get message length
MOVEI S2,MSGBLK ;And the address of the block
$CALL .ZCHNK ;Zero it out
MOVEI T1,MSGBLK ;Get the block address
MOVX S1,RSU.SZ ;Get message size
STORE S1,.MSTYP(T1),MS.CNT ;Store it
MOVX S1,.QORSU ;Get function code
STORE S1,.MSTYP(T1),MS.TYP ;Store it
HRLI S1,J$SOBJ(J) ;Get OBJADR,,0
HRRI S1,RSU.TY(T1) ;And place to move it to
BLT S1,RSU.TY+OBJ.SZ-1(T1) ;And move the object block
STORE T2,RSU.CO(T1) ;Store the response code
MOVX S1,%LOWER ;Some device attributes
STORE S1,RSU.DA(T1),RO.ATR ;Store the device attributes
PJRST SNDQSR ;And send the message
SUBTTL SHUTDN -- Routine to shut down stream
;This routine has two entry points. SHUTDN is called when the QUASAR
;message is received and has FNDOBJ set the J reg and STREAM.
;SHUTIN is an internal shutdown and assumes that J and STREAM are already
;properly set.
SHUTDN: MOVEI S1,SUP.TY(M) ;Get the object block address
$CALL FNDOBJ ;Find the object block
JUMPF .RETT ;No object,,then nothing to shut down
SHUTIN: MOVE S1,J$SFRK(J) ;Get handle
IFN. S1
KFORK% ;and kill it
IFJER.
$STOP (CKI,Could not kill inferior)
ENDIF.
SETO S1, ;Release all loose handles
RFRKH%
IFJER.
$STOP (CRF,Could not release fork handle)
ENDIF.
ENDIF.
MOVE S1,STREAM
MOVE S1,SJFNS(S1) ;GET JFN OF DEVICE
CLOSF%
ERJMP .+1
MOVE S1,STREAM ;Get our stream number
SETZM STRPAR(S1) ;Indicate no allocated Job Area
MOVEI S1,J$$END+PAGSIZ-1 ;Get the lpt data base length
IDIVI S1,PAGSIZ ;Get number of pages in S1
MOVE S2,J ;Get the STRPAR address
ADR2PG S2 ;Convert to a page number
$CALL M%RLNP ;Return them
$CALL M%CLNC ;GET RID OF UNWANTED PAGES.
$WTO (HPDSPL - Stream Shutdown,,J$SOBJ(J))
$RETT
SUBTTL NXTJOB -- NEXTJOB Message from QUASAR
;J points to the stream data area
;M points to the message
NXTJOB: HRR S1,J ;Move the request block into job area
HRL S1,M ;Get source,,dest
LOAD S2,.MSTYP(M),MS.CNT ;Get length of message
ADDI S2,-1(J) ;Get adr of end of blt
BLT S1,(S2) ;Blt the data
SKIPN J$SICD(J) ;Is inferior idle?
IFSKP.
$WTO (HPDSPL - QUASAR error,New job received for already busy stream,J$SOBJ(J))
MOVX S1,FATERT
JRST SUPMSG
ENDIF.
MOVX S1,ICD.NJ ;Tell her it's a new job
MOVEM S1,J$SICD(J)
MOVE S1,J$SFRK(J) ;Get process handle
MOVEI S2,INFST ;Get start address
SFORK% ;Here we go
IFJER.
MOVX S1,.FHSLF ;Get handle on myself
$CALL ERRSTR ;and error string
$WTO (HPDSPL - New request failed,<Can't restart inferior, ^T/TMPBUF/>,J$SOBJ(J))
MOVX S1,FATERT
JRST SUPMSG
ENDIF.
$WTOJ (HPDSPL - Start,<^R/.EQJBB(J)/>,J$SOBJ(J)) ;Tell OPR
$RETT
SUBTTL FORFOR -- Force Forms change mess.
; This routine causes a forms change to occur even if there is no
; job currently scheduled for the printer.
;
; Assumes J contains the pointer to the job data base
; M contains a pointer to the message
; The object block has already been parsed correctly
FORFOR: MOVE S1,.OFLAG(M) ;Get the forms type
MOVEM S1,.EQLIM(J) ;Save it where NXTJOB does
SKIPN J$SICD(J) ;Is inferior idle?
IFSKP.
$WTO (HPDSPL - QUASAR error,Forms request received for already busy stream,J$SOBJ(J))
MOVX S1,%RSUNA
JRST SUPMSG
ENDIF.
MOVX S1,ICD.CF ;Tell her we want new forms
MOVEM S1,J$SICD(J)
MOVE S1,J$SFRK(J) ;Get process handle
MOVEI S2,INFST ;Get start address
SFORK% ;Here we go
IFJER.
MOVX S1,.FHSLF
$CALL ERRSTR
$WTO (HPDSPL - Setting forms failed,<Can't restart inferior, ^T/TMPBUF/>,J$SOBJ(J))
MOVX S1,FATERT
JRST SUPMSG
ENDIF.
$RETT
SUBTTL Job Cancel and Requeue requests
;KILL - User CANCEL Request
KILL: MOVE S1,J$SICD(J) ;Have we already told inf. to abort?
IFXE. S1,ICD.AB
$TEXT(<-1,,J$SMLG(J)>,<Job canceled by user ^U/ABO.ID(M)/^0^A>)
TXO S1,ICD.AB ;Tell her it's time to stop
MOVEM S1,J$SICD(J)
$WTOJ (<Canceled by User ^U/ABO.ID(M)/>,<^R/.EQJBB(J)/>,J$SOBJ(J))
ENDIF.
$RETT
;CANCEL - Operator Cancel request
OACCAN: DO.
$CALL GETBLK ;Get a message block
IFN.
CAIE T1,.CANTY ;Is this the cancel type block?
LOOP.
MOVE S1,0(T3) ;Load the cancel type.
CAIE S1,.CNPRG ;Is it /purge?
LOOP.
MOVE S1,J$SFRK(J) ;Get handle
HFORK% ;and stop it
IFJER.
$STOP (CKA,Could not halt inferior in purge request)
ENDIF.
MOVX S1,SIG.DN ;Fake a DONE message from inferior
MOVEM S1,J$SIST(J)
ELSE.
$TEXT(<-1,,J$SMLG(J)>,Job aborted by OPERATOR^0^A) ;Log message
MOVX S1,ICD.AB ;Tell her it's time to stop
IORM S1,J$SICD(J)
ENDIF.
$ACK (HPDSPL - Aborting,<^R/.EQJBB(J)/>,J$SOBJ(J),.MSCOD(M))
$RETT
ENDDO.
;OACREQ -- Operator REQUEUE request.
;Jobs are always requeued to start from the beginning.
OACREQ: $TEXT(<-1,,J$SMLG(J)>,Job requeued by OPERATOR^0^A) ;Log message
MOVX S1,ICD.RQ ;Tell her it's time to stop
IORM S1,J$SICD(J)
$ACK (HPDSPL - requeued,<^R/.EQJBB(J)/>,J$SOBJ(J),.MSCOD(M))
$RETT
SUBTTL Dummy routines for not implemented OPR commands
OACPAU: $ACK (HPDSPL - ignored,PAUSE not supported,J$SOBJ(J),.MSCOD(M))
$RETT
OACCON: $ACK (HPDSPL - ignored,CONTINUE not supported,J$SOBJ(J),.MSCOD(M))
$RETT
OACSUP: $ACK (HPDSPL - ignored,SUPPRESS not supported,J$SOBJ(J),.MSCOD(M))
$RETT
OACALI: $ACK (HPDSPL - Ignored,ALIGN not supported,J$SOBJ(J),.MSCOD(M))
$RETT
OACFWS: $ACK (HPDSPL - Ignored,<FORWARD unsupported, use ABORT>,J$SOBJ(J),.MSCOD(M))
$RETT
OACBKS: $ACK (HPDSPL - Ignored,<BACKSPACE unsupported, use REQUEUE>,J$SOBJ(J),.MSCOD(M))
OACRSP: $RETT ;Simply return
QSRNWA: $RETT ;Not used here, just return
OPRD60: $RET ;Should not happen
SUBTTL Code for inferior forks
;The following code is executed only by the inferior forks.
;It cannot use the GLXLIB since some parts of it are not reentrant.
;In particular, the $TEXT macro must not be used.
;
;The inferior is always started and restarted at INFST.
;The function depends on the value of the left half of J$SICD.
;The inferior always terminates with a HALTF% prior to which it
;puts the termination reason into J$SIST.
;The right half of J$SICD is used to pass commands while running such
;as abort and requeue.
;Dispatch table for the different functions
ICDTAB: BDTB
DTE (INF.0,ICD.SU) ;Inferior runs first time (Startup)
DTE (INF.1,ICD.NJ) ;New job present in message area
DTE (INF.2,ICD.CF) ;Change forms command
EDTB (ICDLEN)
INFST: RESET% ;Clean up
MOVX S1,<IOWD STKSIZ,J$SSTK> ;Set up the stack
ADD S1,J ;Add data area offset to stack pointer
MOVE P,S1 ;and init it
MOVEI S1,.FHSLF ;Set up the interrupt system
MOVE S2,[LEVTAB,,CHNTAB] ;Point to the tables
SIR%
EIR%
MOVX S2,1B2 ;2: Watchdog channel
AIC%
SETZM J$SIST(J) ;Reset termination status
HRRZ S1,J$SICD(J) ;Get command
SKIPLE S1 ;Make sure it's legal
CAIL S1,ICDLEN
FATAL (Illegal Command to Inferior)
JRST @ICDTAB(S1) ;Dispatch
;Stream startup
INF.0: MOVX S1,SIG.DN ;Quit right away
PJRST SIGNAL
;New job request in message area
INF.1: MOVEI S1,J$$BEG(J) ;Start address
MOVSI S2,-<J$$LEN+^D35>/^D36 ;AOBJN pointer to bit table
DO.
MOVEI T1,^D36 ;Bit counter for this word
MOVE T2,ZTABLE(S2) ;Get a word from bit table
DO.
IFN. T2
JFFO T2,.+1 ;Find the first 1 bit
ADD S1,T3 ;Move up to the corresponding word
SETZM 0(S1) ;And zero it
SUB T1,T3 ;Reduce bits left in this word
LSH T2,0(T3) ;Shift offending bit to bit 0
TXZ T2,1B0 ;And get rid of it
LOOP.
ENDIF.
ENDDO.
ADD S1,T1 ;Account for the rest of the word
AOBJN S2,TOP. ;And loop
ENDDO.
LOAD S1,.EQSPC(J),EQ.NUM ;Get number of files
MOVEM S1,J$RFLN(J) ;Store it
GETLIM T1,.EQLIM(J),OLIM ;Get page limit
MOVEM T1,J$RLIM(J) ;Save it
GTAD% ;Get time of day
MOVEM S1,J$RTIM(J) ;Save it away
MOVX S1,<POINT 8,0> ;Set byte pointer for output buffer
MOVEM S1,J$OBTZ(J)
$CALL OUTRES ;Init output buffer
MOVX S1,LGBFSZ ;Log buffer
MOVEM S1,J$LBCT(J)
MOVE S1,[POINT 7,J$LBFR(J)]
MOVEM S1,J$LBPT(J)
SETZ S, ;Reset all flags
MOVEI T1,LPTVER ;Get version number
MOVEI T2,LPTMIN
LOGMSG (HPDSPL version ^DT1^T.^DT2^T on ^ASYSNAM)
LOAD T1,.EQSEQ(J),EQ.SEQ ;Get sequence number
MOVE T2,OBJ.UN+J$SOBJ(J) ;Get unit number
LOGMSG (Job ^S.EQJOB(J)^T sequence #^DT1^T on Printer ^DT2^T)
SKIPN T1,J$CFLG-J$CBEG+.EQCHK(J) ;Job previously checkpointed?
IFSKP.
HRRI S1,J$CBEG(J) ;Yes, get checkpoint info: ??,,dest
HRL S1,.EQCHK(J) ;source,,dest
BLT S1,J$CEND-1(J) ;get it
MOVE S1,J$CFLG(J) ;Get checkpoint flags
IFXE. S1,CFGREQ ;Job requeued or crashed?
LOGMSG (Job Restarted after Failure)
ELSE.
LOGMSG (Job Restarted after Requeuing)
ENDIF.
ENDIF.
$CALL DONOR
MOVX S1,SIG.DN ;Tell superior we're done
PJRST SIGNAL
;Take care of change forms command
INF.2: SETZ S, ;Reset all flags
$CALL FORMS ;Set the forms
MOVX S1,SIG.DN ;Tell superior we're done
PJRST SIGNAL
;SIGNAL -- Passes messages to superior by setting the J$SIST var
;and halting. Some of the messages expect the superior to continue
;this fork after processing, others generate error if continued.
;Dispatch table
;The .CC function only generates a signal if it's time to checkpoint, returns
;directly normally. .CP always requests a checkpoint
SIGTAB: BDTB
DTE (SIG.0,SIG.DN) ;Done with processing
DTE (SIG.1,SIG.ER) ;Error (called by ERROR macro)
DTE (SIG.2,SIG.FT) ;Fatal error (called by FATAL macro)
DTE (SIG.3,SIG.MS) ;Message (called by OPRMSG macro)
DTE (SIG.4,SIG.CP) ;Request for checkpoint
DTE (SIG.5,SIG.CC) ;Check if checkpoint needed
DTE (SIG.6,SIG.CR) ;Cancel request and go to nxt
EDTB (SIGLEN)
SIGNAL: SKIPLE S1 ;Make sure command is legal
CAIL S1,SIGLEN
FATAL (Illegal Signal Requested)
JRST @SIGTAB(S1) ;Dispatch
;Processing done
SIG.0: MOVX S1,IST.DN
JRST SIG.22
;Error
SIG.1: MOVX S1,IST.ER
JRST SIG.22
;Fatal Error
SIG.2: MOVX S1,IST.FT
SIG.22: SKIPE J$SIST(J) ;Must be reset
FATAL (Inferior's Status not Reset)
MOVEM S1,J$SIST(J) ;Set new value
HALTF% ;Stop and tell superior
FATAL (Illegal Attempt to Continue Inferior) ;Not continuable
;Message to OPR
SIG.3: MOVX S1,IST.MS
JRST SIG.42
;Request for checkpoint
SIG.4: GTAD% ;Get time
ADDX S1,3*CKPTIM ;Add time until next
HRRZM S1,J$SCKP(J) ;Out with it, without date
MOVX S1,IST.CP ;Checkpoint message
SIG.42: SKIPE J$SIST(J) ;No prev. status set, please
FATAL (Inferior's status not reset)
MOVEM S1,J$SIST(J)
HALTF% ;Stop and tell superior
SETZM J$SIST(J) ;We're continuable
$RETT
;Check if time for a timed checkpoint
SIG.5: TXNN S,TIMCKP ;Timed checkpoints enabled?
$RETT ;No, forget this
GTAD% ;Get time
HRRZ S1,S1 ;Remove date
SUB S1,J$SCKP(J) ;Subtract set time
JUMPGE S1,SIG.4 ;It's time: request one
$RETT ;Not time yet
;Cancel request and get next (file unprintable or something)
SIG.6: MOVX S1,IST.CR
JRST SIG.22
;CHKABT -- Checks if superior wants to abort the processing.
;Returns true if time to abort, false otherwise.
CHKABT: MOVE S1,J$SICD(J) ;Get command word
TXNN S1,<ICD.AB!ICD.RQ> ;Abort or requeue
$RETF ;None, return false
$RETT ;Say it's time to quit
;The TXT.xx routines are called by code generated by the
;TXT macro.
;S1 contains a byte pointer which must be updated, or the
;address of routine which outputs one char from C.
;S2 points to the argument.
;All ACs are preserved (except S1 if byte pointer)
;TXT.AS - S2 points to an ASCIZ string
TXT.AS: $SAVE <S2,T1> ;Save some regs
MOVE T1,S2 ;Get the address
ADD T1,[POINT 7,0] ;Make it a byte pointer
DO.
ILDB S2,T1 ;Incr. the byte pointer
SKIPN S2 ;Check if end of string
$RETT ;Yupp, return
CAIE S2,^D22 ;Hairy patch to remove ctl-Vs
$CALL TXT.CH ;Output the char in S2
LOOP.
ENDDO.
;TXT.DN - S2 points to a word to be output as a decimal number
TXT.DN: $SAVE <S2,T1>
PUSH P,S1 ;Save S1 temporarily
MOVE S2,@S2 ;Get the number
HRRO S1,J$XTMP(J) ;Point to temp buffer
MOVX T1,<FLD ^D10,NO%RDX> ;Decimal radix
NOUT%
ERJMP .+1
TXT.D1: SETZ S2, ;Put a NUL last in buffer
IDPB S2,S1
POP P,S1 ;Get destination back
MOVEI S2,J$XTMP(J) ;Point to buffer
$CALL TXT.AS ;And output string
$RETT
;TXT.SX - S2 points to a SIXBIT word
TXT.SX: $SAVE <S2,T1,T2,T3>
MOVE T1,@S2 ;Get the word
MOVE T2,[POINT 6,T1] ;Make a byte pointer
MOVEI T3,^D6 ;Loop counter
DO.
ILDB S2,T2 ;Get a byte
SKIPN S2 ;Is it zero (=space)?
$RETT ;Yes, return
ADDI S2,40 ;Make it ASCII
$CALL TXT.CH ;Out with it
SOJG T3,TOP. ;Loop
ENDDO.
$RETT ;All 6 chars translated
;TXT.DT - S2 points to a word in internal time format
TXT.DT: $SAVE <S2,T1>
MOVE S2,@S2 ;Get the time
SETZ T1,
JRST TXT.T1
;TXT.TI - Outputs current time
TXT.TI: $SAVE <S2,T1>
SETO S2,
MOVX T1,<OT%NDA> ;Only time
TXT.T1: PUSH P,S1 ;Save dest for a while
HRROI S1,J$XTMP(J) ;Point to temp buffer
ODTIM%
PJRST TXT.D1 ;Finish up
;TXT.ER - Outputs the most recent error
TXT.ER: $SAVE <S2,T1>
MOVX S2,<.FHSLF,,-1> ;Most recent error
MOVX T1,^D30 ;Max number of chars
PUSH P,S1 ;Save dest for a while
HRROI S1,J$XTMP(J) ;Point to temp buffer
ERSTR%
TRN
TRN
PJRST TXT.D1 ;Finish up
;TXT.CH - Outputs the right adjusted char in S2
;Also handles the source designator in S1 properly.
TXT.CH: $SAVE <T1,C>
HLRZ T1,S1 ;Get left half of source design.
IFN. T1
IDPB S2,S1 ;Out with it
ELSE.
PUSH P,S1 ;Save our address
MOVE C,S2 ;Get the char into right reg
$CALL @S1 ;Dispatch
POP P,S1 ;Restore address
ENDIF.
$RETT
SUBTTL Common routines used by the different DOxxxx handlers
;FINISH -- Does the accounting and other misc stuff.
;Called immediately before outputting the trailer.
FINISH: MOVE S1,J$SICD(J) ;Were we aborted or requeued?
TXNE S1,<ICD.AB!ICD.RQ>
LOGMSG (^AJ$SMLG(J)) ;Yes, insert message into log
LOGMSG (Total ^DJ$ANPT(J)^T Pages of Output)
$RETT
SUBTTL DONOR -- Print on a normal TTY-LPT
DONOR: $SAVE <P1>
$CALL FORMS ;Get forms mounted
LOGMSG (Printing to local device ^AJ$SSTG(J)^T, Protocol PTLTTY)
MOVX T1,MSG.NOR ;Normal checkpoint messages
MOVEM T1,J$CMSG(J)
MOVE P1,J$CFLG(J) ;Get old flags before they're changed
TXO S,TIMCKP ;Enable timed checkpoints
MOVX S1,SIG.CP ;We want a checkpoint now
$CALL SIGNAL
LOAD E,.EQLEN(J),EQ.LOH ;Point to first file in request
ADD E,J
IFXN. P1,CFGCKP ;Job restarted?
MOVE S2,J$CNFT(J) ;Get no of files prev. sent
DO.
SOJL S2,ENDLP. ;Skip already printed files
$CALL NXTFIL ;Bump E to next spec
JUMPF DONO.7 ;All already printed
ENDDO.
MOVE T1,J$CNPT(J) ;Get no of pages prev. printed
SUBI T1,3 ;We want some overlap
SKIPGE T1
SETZ T1, ;Lowest page no is zero
ELSE.
LOAD T1,.FPFST(E) ;Get /START param
SOJ T1, ;Subtract one
ENDIF.
DO.
MOVEM T1,J$IIPG(J) ;save as initial page
$CALL NORFIL ;Print the file with all copies
$CALL NXTFIL ;Get next file
SKIPN ;Return true?
IFSKP.
LOAD T1,.FPFST(E) ;Get /START param
SOJ T1, ;Subtract one
LOOP.
ENDIF.
ENDDO.
DONO.7: SKIPE E,J$RLFS(J) ;Any log file to print?
$CALL NORFIL ;Yes, do it
$CALL FINISH ;Do the accounting etc
$RETT
MOVE S1,J$OJFN(J) ;Get JFN
CLOSF% ;and close down
ERJMP .+1
$RETT
;NORFIL -- Print a File on TTY-LPT
;This routine is always called for each of the files in the request even
;when the job has been canceled. (Although nothing is done in such case.)
NORFIL: STKVAR <DISPCH,PPNAME>
$CALL CHKABT ;Are we canceled?
JUMPT .RETT ;Yes, return
$CALL LIMCHK ;Are we over limit?
$RETIF ;Yes, just return
$CALL SETPFT ;Setup file type
MOVEM T1,DISPCH ;Save processing routine address
MOVEM T2,PPNAME ;Save pointer to prepend file name
$CALL INPOPN ;Open the input file up
$RETIF ;Fail, return
LOGMSG (Starting File ^A@J$IFNM(J))
$CALL HEADER ;Output header information
DO.
$CALL LIMCHK ;Check if we're over page limit
MOVX S1,SIG.CP ;Want a checkpoint now
$CALL SIGNAL
$CALL CHKABT ;Are we aborted?
JUMPT ENDLP. ;Yes
MOVE T1,DISPCH ;Get dispatch address
MOVE T2,PPNAME ;Get pointer to prepend file name
$CALL FILOUT ;Print the file
TXNN S,ERRFIL ;Was there an error in the file?
$CALL CHKABT ;Are we aborted?
JUMPT ENDLP. ;Yes
LOAD T1,.FPFST(E) ;Get /START param
SOJ T1, ;adjust it
MOVEM T1,J$IIPG(J) ;and save for next copy
AOS J$CNCT(J) ;Bump copy count
LOAD T1,.FPINF(E),FP.FCY
CAMLE T1,J$CNCT(J) ;All copies printed?
LOOP.
$CALL OUTBUF ;Empty buffer
AOS J$CNFT(J) ;Yes, bump file count
SETZM J$CNCT(J) ;and reset copy count
MOVX S1,SIG.CP ;Checkpoint now
$CALL SIGNAL
LOGMSG (Finished File ^A@J$IFNM(J)) ;Finished OK
ENDDO.
$CALL INPCLS ;Close the file
TXNE S,SUPFIL ;Are we suppressing forms/file?
SETZM J$XTOP(J) ;Yes, set we are not at top of page.
TXZ S,SUPFIL+ERRFIL ;Clear lots of bits
$RET ;And return
SUBTTL CHKPS -- Check if file is a valid PostScript file
; Return false ($RETF) if not valid PostScript
; Return true ($RETT) if valid PostScript
CHKPS: STKVAR <PSJFN>
MOVX S1,GJ%SHT!GJ%OLD
LOAD S2,.FPLEN(E),FP.LEN
ADD S2,E
ADDI S2,.FDSTG
HRRO S2,S2 ;Now have pointer to filename
GTJFN%
IFNJE.
MOVEM S1,PSJFN
MOVE S2,[1,,.FBCTL] ;Get the control/flags word
MOVEI T1,S2 ;Return the information in S2
GTFDB%
IFJER. ;JSYS error...
SETZ S2, ;Zero S2 for later
ENDIF.
LOAD S2,S2,FB%FCF ;Get the file class field
CAIE S2,.FBPS ;This a PostScript file?
IFSKP.
RLJFN% ;Flush the JFN
TRN ;Jeez, can't win
$RETT ;Indeed
ELSE.
HRRZ S2,S1
SETZM TRLBUF(J)
HRROI S1,TRLBUF(J) ;Check for extension of PS
MOVX T1,FLD(.JSAOF,JS%TYP) ;Just output the extension
SETZ T2,
JFNS%
ERJMP .+1
MOVE S1,[ASCIZ/PS/] ;Get what was returned
CAME S1,TRLBUF(J) ;Is it?
IFSKP. ;Yes...
MOVE S1,PSJFN ;Get the JFN
RLJFN%
TRN
$RETT ;PS file found
ENDIF.
ENDIF.
ENDIF.
$RETF
SUBTTL NXTFIL -- Find and return the next file in the nextjob msg
;E points to current file descriptor
NXTFIL: DO.
SOSG J$RFLN(J) ;Decrement number of files in request
$RETF
LOAD T1,.FPLEN(E),FP.LEN ;Get the FP length
ADD E,T1 ;Bump to the FD
LOAD T1,.FDLEN(E),FD.LEN ;Get the fd length
ADD E,T1 ;Bump to the next FP
LOAD T1,.FPINF(E),FP.FLG ;Get log file flag
JUMPE T1,.RETT ;Return if not the log file
MOVEM E,J$RLFS(J) ;Save address of log file spec
LOOP.
ENDDO.
SUBTTL Routines to handle the input files
;INPOPN -- Routine to open the input file
;Called with E pointing to the file parameter (FP) area for the file
;to be opened.
;J$IFNM is set to point to the file name string.
INPOPN: SETZM J$IJFN(J) ;No file opened yet
LOAD S2,.FPLEN(E),FP.LEN ;Get the FP length
ADD S2,E ;Compute the FD address
ADDI S2,.FDSTG ;Point to file name string
HRRZM S2,J$IFNM(J) ;Save the address
HRRO S2,S2 ;Make it a generic byte pointer
MOVX S1,GJ%SHT!GJ%OLD ;GTJFN flags: file must exist
GTJFN%
IFNJE.
MOVEM S1,J$IJFN(J) ;Success, save the JFN
LOAD S1,.EQSEQ(J),EQ.PRV ;Get the users priv's
IFE. S1
LOAD S1,.FPINF(E),FP.SPL ;Is the file spooled?
IFN. S1 ;Yes
MOVX S1,FP.DEL ;Set the file to be deleted
ORM S1,.FPINF(E)
ELSE.
HRROI S1,.EQOWN(J) ;Point to owner's name
MOVEM S1,.CKALD+J$XTMP(J) ;Put it into arg block
HRROI S1,.EQCON(J) ;Point to connected directory
MOVEM S1,.CKACD+J$XTMP(J) ;and store it
SETZM .CKAEC+J$XTMP(J) ;Indicate no priv's (already checked)
MOVE S1,J$IJFN(J) ;JFN
MOVEM S1,.CKAUD+J$XTMP(J)
MOVX S1,.CKARD ;Only interested in read access
MOVEM S1,.CKAAC+J$XTMP(J)
MOVX S1,CK%JFN!5 ;We pass JFN and 5 words of args
MOVEI S2,J$XTMP(J) ;Arg. block
CHKAC%
SETZ S1,
IFE. S1 ;Sorry
LOGMSG (Can't Access File ^A@J$IFNM(J)^T, ^E)
ZERO .FPINF(E),FP.DEL ;Clear the 'delete file' bit
SETZM J$IJFN(J) ;and the JFN to indicate no file
$RETF ;And return
ENDIF.
MOVX S1,.CKAWR ;Write access this time
MOVEM S1,.CKAAC+J$XTMP(J)
MOVX S1,CK%JFN!5 ;JFN and 5 words of arg
CHKAC%
SETZ S1,
IFE. S1
ZERO .FPINF(E),FP.DEL ;Zero the delete bit if no access
ENDIF.
ENDIF.
ENDIF.
ENDIF.
MOVEI S2,7 ;Assume 7 bit bytes
TXNE S,F%PL8!F%PS8!F%PLH8!F%IM8 ;Any eight bit bytes?
MOVEI S2,8 ;Yes, then use 8
MOVX T1,^D36 ;Bits per word
IDIV T1,S2 ;Get number of bytes per word to T1
IMULI T1,IPBFSZ/<36/7> ;Multiply by # of words in buffer
MOVEM T1,J$IICT(J) ;Save count
MOVE T1,S2 ;Get bits per byte again
LSH T1,^D24 ;Build a byte pointer to start of buff.
IORX T1,<^D36>B5 ;Initial position
IORI T1,J$IBFR(J) ;address
MOVEM T1,J$IIBP(J) ;and save it
LSH S2,^D30 ;Get size into position
IORX S2,OF%RD ;Only read access
MOVE S1,J$IJFN(J)
OPENF%
IFNJE.
SETZM J$IBCT(J) ;Indicate input buffer is empty
$CALL GETNAM ;Get a recognizable file name
$RETT
ELSE.
LOGMSG (Can't Access File ^A@J$IFNM(J)^T, ^E)
ZERO .FPINF(E),FP.DEL ;Clear the 'delete file' bit
SETZM J$IJFN(J) ;and the JFN to indicate no file
$RETF ;And return
ENDIF.
; CHKSIZ - Look at file to find its real byte size
; Returns S2/ byte-size
; Returns false if bad page or byte count
CHKSIZ: STKVAR <SIZJFN>
MOVX S1,GJ%SHT+GJ%OLD
LOAD S2,.FPLEN(E),FP.LEN
ADD S2,E
ADDI S2,.FDSTG
HRRO S2,S2 ;Now have pointer to filename
GTJFN%
ERJMP .RETF
MOVEM S1,SIZJFN ;Save JFN
SIZEF% ;Get byte size
IFNJE.
IFG. S2 ;Good byte count?
IFG. T1 ;Good page count?
MOVE S1,SIZJFN
MOVE S2,[1,,.FBBYV] ;Read byte size from FDB
MOVEI T1,T1 ;Put it in T1
GTFDB%
IFNJE.
MOVE S1,SIZJFN
RLJFN% ;Now flush the JFN
ERJMP .RETF
LOAD S2,T1,FB%BSZ ;Get byte size into S2
$RETT
ENDIF.
ENDIF.
ENDIF.
ENDIF.
MOVE T1,SIZJFN ;Get back the file JFN
RLJFN% ;Release it
ERJMP .+1 ;Some error
$RETF ;Take failure return
;INPBYT -- Read a byte from the input buffer. Fills the
;buffer if necessary.
;Returns the character in C. Returns False on EOF.
INPBYT: $CALL CHKABT ;Are we canceled?
JUMPT .RETF ;Yes, signal EOF
SKIPLE J$IBCT(J) ;Any chars in buffer?
IFSKP.
$CALL INPBUF ;No, get a bufferful
JUMPF .RETF ;Return false if EOF
ENDIF.
ILDB C,J$IBPT(J) ;Get the byte
SOS J$IBCT(J) ;and decrement count
$RETT
;INPBUF - Inputs a bufferful
;Returns false if attempt to read past EOF
INPBUF: MOVE S1,J$IJFN(J) ;JFN
MOVE S2,J$IIBP(J) ;Byte pointer to start of buffer
MOVEM S2,J$IBPT(J) ;Save as current pos too
MOVN T1,J$IICT(J) ;Max count
SIN%
IFJER.
GTSTS% ;Get status
IFXE. S2,GS%EOF ;Check if EOF
LOGMSG (<Error Reading Input File, ^E>)
TXO S,ERRFIL ;Skip the rest of the file
ENDIF.
ENDIF.
ADD T1,J$IICT(J) ;Get total number read
MOVEM T1,J$IBCT(J) ;and save as current count
SKIPE T1 ;If 0 we have EOF
$RETT
$RETF
;INPCLS -- Close the input file
INPCLS: MOVE S1,J$IJFN(J)
CLOSF%
ERJMP .+1 ;Forget errors
SETZM J$IJFN(J) ;Indicate file is closed
$RETT
;INPREW -- Rewind the input file
; I.e. position the file pointer at the beginning of the file
INPREW: SKIPN S1,J$IJFN(J)
$RETF ;Don't do it if file not open
SETZ S2,
SFPTR%
IFJER.
FATAL (<Could not Rewind File, ^E>)
ENDIF.
SETZM J$IBCT(J) ;Indicate buffer empty
$RETT
;GETNAM -- Figures out a 'real' name for the just opened file
;E should point to the FP block and J$IFNM to the 'real' file name
;The name is put in J$INAM and extension + version in J$IEXT
GETNAM: LOAD S1,.FPINF(E) ;Get flags for file
IFXE. S1,FP.SPL ;Is it a spooled file?
IFXE. S1,FP.FLG ;No, is it also the log file?
MOVE S2,J$IJFN(J) ;No, get JFN
HRROI S1,J$INAM(J) ;Filename first
MOVX T1,<FLD .JSAOF,JS%NAM>
JFNS%
HRROI S1,J$IEXT(J) ;Now extension
MOVX T1,<FLD .JSAOF,JS%TYP>
JFNS%
MOVX T2,"." ;Insert a period
IDPB T2,S1
MOVX T1,<FLD .JSAOF,JS%GEN> ;and generation
JFNS%
LOAD S1,.FPINF(E),FP.SPL ;Get the spool bit
IFN. S1
MOVE T1,[POINT 7,J$INAM(J)] ;Restore the filename byte ptr.
MOVEI T2,3 ;How many dashes to look for
MOVE T3,T1 ;And an input pointer
DO.
ILDB S1,T3 ;Get a character
JUMPE S1,ENDLP.
CAIE S1,"-" ;A dash?
LOOP. ;No, loop
SOJG T2,TOP. ;Yes, loop until 4th field
ENDDO.
IFN. S1
DO.
ILDB S1,T3 ;Get a character
IDPB S1,T1 ;Deposit it
JUMPN S1,TOP. ;And loop until a null
ENDDO.
MOVEI T2,6 ;Load a counter
IDPB S1,T1 ;And deposit more nulls
SOJG T2,.-1 ;For width calculation
MOVE T1,J$INAM(J) ;Get the first word
TLNE T1,774000 ;Is there at least one character?
$RETT ;Yes
ENDIF.
ENDIF.
TXT (1,J$INAM(J),^TSpooled^0)
TXT (1,J$IEXT(J),^TPrinter File^0)
ELSE.
TXT (1,J$INAM(J),^TBatch^0) ;Spooled logs have no reasonable name
TXT (1,J$IEXT(J),^TLog File^0) ;So use something descriptive
ENDIF.
ELSE.
TXT (1,J$INAM(J),^TBatch^0) ;Spooled logs have no reasonable name
TXT (1,J$IEXT(J),^TLog File^0) ;So use something descriptive
ENDIF.
$RETT
SUBTTL FORMS change routines
;FORMS -- Setup Forms for a job
FORMS: GETLIM S1,.EQLIM(J),FORM ;Get the forms type
CAMN S1,J$FORM(J) ;Are forms exactly the same?
$RETT ;Yes, return immediately
MOVE S2,J$FORM(J) ;Get current forms type
MOVEM S1,J$FORM(J) ;Save new form
XOR S1,S2 ;Get common part
AND S1,[EXP FRMSK1] ;And it with the important part
IFE. S1
OPRMSG (Forms Changed to ^SJ$FORM(J)) ;Tell opr
ELSE.
HRLZI S1,-F$NSW ;Get negative switch table length
MOVEI T1,J$FCUR(J) ;Point to curr forms params
DO.
MOVE S2,FFDEFS(S1) ;Get a default
CAME S2,[-1] ;Is this supposed to be defaulted?
MOVEM S2,(T1) ;Yes, save it
AOJ T1, ;Increment new param store ctr
AOBJN S1,TOP. ;And loop
ENDDO.
SETZM J$RLPT(J) ;No name on remote printer yet
$CALL FRMINI ;Read the LPFORM.TXT file.
SKIPN
OPRMSG (<Forms not found in LPFORM.TXT, Defaults Being Used>)
MOVEI S1,3 ;Start at three for both
MOVEM S1,J$FWCL(J) ;Store it
MOVEM S1,J$FLCL(J) ;Store it again
MOVE S1,J$FWID(J) ;Get the width
CAIG S1,F$WCL2 ;LE class 2 limit?
SOS J$FWCL(J) ;Yes, SOS once
CAIG S1,F$WCL1 ;LE class 1 limit
SOS J$FWCL(J) ;Yes, SOS again
MOVE S1,J$FLIN(J) ;Get the length
CAIG S1,F$LCL2 ;LE class 2 limit?
SOS J$FLCL(J) ;Yes, sos once
CAIG S1,F$LCL1 ;LE class 1 limit?
SOS J$FLCL(J) ;Yes, sos again
ENDIF.
$RETT
SUBTTL Search for form in LPFORM.TXT
FRMINI: SKIPGE S1,J$PLIST(J) ;Get pointer to printer list
JRST .RETT ;None there,,don't bother
MOVE S2,J$FORM(J) ;Get FORMS name
PUSHJ P,P%FFRM## ;Find the FORMS entry
JUMPF .RETT ;Not there,,return with defaults
MOVE P1,S2 ;Save the FORMS entry address
LOAD S1,FF.LEN(P1),FF.WID ;Get width
SKIPE S1 ;Skip if nothing there
MOVEM S1,J$FWID(J) ;Save the width
LOAD S1,FF.LEN(P1),FF.LIN ;Get page size
SKIPE S1 ;None there
MOVEM S1,J$FLIN(J) ;Save the page length
$RETT ;Return true
SUBTTL Routines for the logging
;LOGCHR - Puts the char in C in the log buffer
;No return if buffer overflows.
LOGCHR: SOSL J$LBCT(J) ;Decrement the byte cout
IFSKP.
OPRMSG (Aborted - Log File too Big)
MOVX S1,SIG.DN ;Tell superior we're done
$CALL SIGNAL
ENDIF.
IDPB C,J$LBPT(J) ;Deposit a byte
$RETT
SUBTTL Routines to handle output
;OUTCHR puts the char in reg C in the outbuffer and dumps it if necessary
;It also keeps track of the horizontal position for simulated TABs and
;skips the output if we're skipping pages.
OUTCHR: IFXN. S,FILXFR ;Transfering a file?
SKIPLE J$IIPG(J) ;Yes, Any pages to skip?
$RETT ;Yes, don't output anything
ENDIF.
CAIL C," " ;Is it a printable char?
AOSA J$XHPS(J) ;Yes, increment horz counter
SETZM J$XHPS(J) ;No (probably CR or FF), zero counter
SETZM J$XTOP(J) ;Clear the top-of-form flag
CAIN C,.CHFFD ;Is it a formfeed?
SETOM J$XTOP(J) ;Yes, set it
DO.
SOSGE J$OBCT(J) ;Decrement the byte cout
IFSKP.
IDPB C,J$OBPT(J) ;Deposit a byte
$RETT ;And return
ENDIF.
$CALL OUTBUF ;Dump the buffer
LOOP.
ENDDO.
;OUTBUF -- Routine to output a buffer
;Also checks if it's time for a checkpoint.
OUTBUF: $CALL .SAVET ;Save the 't' acs
MOVX S1,SIG.CC ;Check if we need a timed CKP
$CALL SIGNAL
SKIPGE T1,J$OBCT(J) ;Get bytes remaining in buffer
SETZ T1, ;If less,,make it zero
SUBI T1,OPBFSZ ;Chars in buffer negated
SKIPN T1 ;Is the buffer empty?
$RETT ;Yes, forget this
MOVN T2,T1 ;Incr char count
ADDM T2,J$XCNT(J)
MOVE S1,J$OJFN(J) ;JFN
MOVEI S2,J$OBFR(J) ;Get address of buffer
ADD S2,J$OBTZ(J) ;and make it a byte pointer
SOUT% ;Output it
IFJER.
ERROR (<SOUTR Failed, ^E>)
ENDIF.
; Routine to reset the buffer
OUTRES: MOVEI S1,OPBFSZ ;Get characters per buffer
MOVEM S1,J$OBCT(J) ;Save as buffer byte count
MOVEI S1,J$OBFR(J) ;Get the buffer address
ADD S1,J$OBTZ(J) ;Add the byte ptr (left half)
MOVEM S1,J$OBPT(J) ;Save as buffer byte pointer
$RETT ;And return
SUBTTL Device independent routine to output a file
;Call with E pointing to the FP block for the open file
; J pointing to the Stream data area
; T1 pointing to the routine to output the file
FILOUT: PUSH P,T1 ;Save the dispatch address
PUSH P,T2 ;Save pointer to prepend filename
TXO S,FILXFR ;Say we're transferring a file
$CALL INPREW ;Rewind the input file
MOVE T1,J$FLIN(J) ;Start at top of page
MOVEM T1,J$XVPS(J) ;Save it
POP P,T2 ;Get pointer to prepend filename
POP P,T1 ;Get dispatch address
$CALL (T1) ;Dispatch
$CALL JOBTRL ;Print a trailer page
$CALL OUTBUF ;Empty buffer
TXZ S,FILXFR ;Finished with the file
SKIPE J$XTOP(J) ;Are we at TOF?
IFSKP.
AOS J$ANPT(J) ;No, charge him for rest of page
ENDIF.
$RET
SUBTTL SETPFT -- Setup file processing type
;Called to determine which type of processing should be done on the
;input file.
;
;Returns with T1 containing address of processing routine as follows:
; Sets flag in S:
; PLAIN: 7-bit plaintext F%PL7
; PLAIN: 8-bit plaintext F%PL8
; PS: 7-bit PostScript F%PS7
; PS: 8-bit PostScript F%PS8
; The following are printed with headers ala IM.EXE:
; PLH: 7-bit plaintext F%PLH7
; PLH: 8-bit plaintext F%PLH8
;These will be implemented later:
; IMP: 7-bit Impress F%IM7
; IMP: 8-bit Impress F%IM8
SETPFT: STKVAR <BYTSIZ>
$CALL CHKSIZ ;Get the byte size for the file.
SKIPN
MOVEI S2,7 ;Invalid page count or byte size
cain s2,^d36 ;if 36 bit file
movei s2,7 ;then pretend 7 bit
MOVEM S2,BYTSIZ ;Save the byte size for later
$CALL CHKPS ;Is this a PostScript file?
MOVE S2,BYTSIZ ;Get the bytesize
SKIPN
IFSKP. ;Yes, then determine 8 bitness
CAIE S2,7 ;Seven bit?
IFSKP.
TXO S,F%PS7 ;Yes, lite that flag
ELSE.
TXO S,F%PS8 ;No, eight bit...
ENDIF.
MOVEI T1,PS ;PostScript processor
ELSE. ;We're looking at a plaintext file
CAIE S2,7 ;Seven bit?
IFSKP. ;Yes...
TXO S,F%PL7
ELSE.
TXO S,F%PL8
ENDIF.
MOVEI T1,PLAIN ;This routine will be called any case
HRROI T2,[ASCIZ/PLAINTEXT/] ;Assume this prepend file
LOAD S1,.FPINF(E),FP.2PG ;Get flag for landscape/book/2up
HLRZ S2,.FPFR1(E) ;Get formwidth
IFN. S1 ;Flag set?
TXO S,F%TWO ;do double sided for any 2page request
ENDIF.
CAIN S2,^d132 ;wideness?
TXO S,F%LAND ;set landscape mode
ENDIF.
$RETT
SUBTTL Routines to send stuff to printers
; Send a PostScript file to the printer
PS: TXZ S,F%CRSN
DO.
$CALL INPBYT ;Get a character
JUMPF ENDLP. ;If false, EOF
$CALL OUTCHR
LOOP.
ENDDO.
SKIPN ERRFLG(J)
$CALL ERRCHK
$RETT
; Print a file using some prepend file.
; T2 contains byte pointer to prepend filename
PLAIN: $CALL PS ;Treat rest of file as PostScript file
$RETT ;Done here
STKVAR <PREPTR,PREJFN>
HRROI S1,PREBUF ;Place to build prepend file name
HRROI S2,[ASCIZ/SYSTEM:/] ;First part of name
SETZ T1,
SOUT%
MOVE S2,T2 ;Prepend filename
SOUT%
HRROI S2,[ASCIZ/.PS/] ;Extension
SOUT%
IDPB T1,S1 ;Tie it off with zip
MOVX S1,GJ%SHT!GJ%OLD ;Old file
HRROI S2,PREBUF ;Point to the finished filename
GTJFN% ;Get a JFN for it
IFJER. ;Oops...
MOVE T1,[POINT 7,PREPND] ;Print the file as straight plaintext
ELSE.
MOVEM S1,PREJFN ;Stash the JFN
MOVX S2,OF%THW!OF%RD!FLD(7,OF%BSZ) ;Else slurp this dude
OPENF% ;...
IFJER. ;Bazzfazz
MOVE S1,PREJFN ;Get the JFN back
RLJFN% ;Flush it
TRN ;...
MOVE T1,[POINT 7,PREPND] ;Print the file as straight plaintext
ELSE. ;We won...
MOVE S2,[1,,.FBSIZ] ;Get the file size in bytes
MOVEI T1,T1 ;Put it in T1
GTFDB%
ERJMP .+1 ;Shouldn't happen (but probably will)
HRROI S2,PREBUF ;Stick the file there
MOVNS T1 ;Negativize the file size
SIN% ;Slurp tha whole thing
IFJER. ;Foo
MOVE T1,[POINT 7,PREPND]
ELSE.
MOVE T1,[POINT 7,PREBUF] ;Point to prepend text
SETZ S1,
IDPB S1,S2
ENDIF.
CLOSF% ;Flush the file
IFJER.
MOVE S1,PREJFN ;Get the JFN
RLJFN%
TRN ;What kin ya say?
ENDIF.
ENDIF.
ENDIF.
DO.
ILDB C,T1
IFN. C
MOVEM T1,PREPTR ;Save the byte pointer
$CALL OUTCHR ;Output the character
MOVE T1,PREPTR ;Restore the byte pointer
LOOP.
ENDIF.
ENDDO.
$CALL OUTBUF
$CALL ERRCHK
SKIPE ;If no error...
$CALL PS ;Treat rest of file as PostScript file
$RETT ;Done here
;PostScript text to prepend to a plaintext file
PREPND: ASCIZ ^
/in. {72 mul} def
/line 1024 string def
/leftmargin where not{/leftmargin .75 in. def}{pop}ifelse
/topmargin where not{/topmargin 10.5 in. def}{pop}ifelse
/newppsn {leftmargin topmargin moveto} bind def
/newpage {showpage newppsn} bind def
/printfile{
newppsn
{currentfile cvlit line readline not{exit}if
(\f) search{show newpage pop}if
show
leftmargin currentpoint exch
pop 12 sub dup .5 in. le{pop pop newpage}{moveto}ifelse
}loop
showpage
}bind def
/Courier findfont 11 scalefont setfont
printfile
^;End of prepended PostScript text
SUBTTL ERRCHK - Check for error from the printer
ERRCHK: SETZM ERRFLG(J) ;Assume no errors
MOVE S1,J$OJFN(J) ;Get the JFN
SIBE% ;Is there anything there?
IFNSK.
SETZM ERRBUF(J)
MOVEI S1,ERRBUF(J) ;Get pointer to the buffer
HRLS S1
AOS S1 ;ERRBUF,,ERRBUF+1
MOVEI T1,ERRBUF+NERBUF-1(J)
BLT S1,T1 ;Zero it
PUSH P,S2 ;Save the count
MOVN T1,S2 ;Get count of bytes there
MOVE S2,[POINT ^D8,ERRBUF+1(J)] ;Point to the input buffer
PUSH P,S2 ;Save this pointer
MOVE S1,J$OJFN(J)
SIN% ;Get the junk
ERJMP .+1 ;Ignore an error, sort of
MOVE S1,[POINT 7,ERRBUF(J)]
POP P,T2 ;Get back 8 bit byte pointer
MOVE T1,(P) ;Get the counter
DO. ;Convert 8 bit chars to 7 bit
ILDB S2,T2 ;Get a character
IFN. S2
IDPB S2,S1 ;Stash it back
SOJG T1,TOP.
ENDIF.
ENDDO.
POP P,T1 ;Get the count back
$CALL GETERR ;Get the error type
JUMPF .RETT ;None???
CAIE S1,1 ;PostScript interpreter error?
IFSKP.
SETOM ERRFLG(J) ;Yes, blow the sucker out of the water
$RETF
ENDIF.
ENDIF.
$RETT
SUBTTL IDLCHK - Check for printer in idle state
; Check for printer idle
IDLCHK: $RETT ;The printer's idle
STKVAR <NCHARS,DOWAIT,DOBUSY>
$CALL OUTBUF
SETZM DOWAIT ;No check for waiting, yet
SETOM DOBUSY ;Check for busy
DO.
DO.
MOVE S1,J$OJFN(J) ;Get the JFN
MOVEI S2,.TICCT ;Send a Control-T
BOUT%
MOVEI S1,^D2500 ;Wait a second
DISMS%
MOVE S1,J$OJFN(J) ;Get the JFN
SIBE%
TRNA ;Now it's got something
LOOP.
ENDDO.
MOVEM S2,NCHARS ;Save number of characters
MOVN T1,S2 ;Get negative count of characters
MOVE S2,[POINT 8,TRLBUF(J)] ;Buffer where they go.
SIN%
ERJMP .+1 ;Should NEVER happen!
SKIPN DOBUSY ;Do busy?
IFSKP.
MOVE S1,[POINT 8,[BYTE(8) ":"," ","b","u","s","y"]]
MOVE S2,NCHARS ;Number of characters in the buffer
$CALL FNDSTR ;Go look for it
IFNSK.
SETZM DOBUSY ;Not found, look for waiting state
SETOM DOWAIT
ENDIF.
LOOP. ;Loop while engine busy
ELSE.
SKIPN DOWAIT ;Look for waiting status?
IFSKP. ;Yes
MOVE S1,[POINT 8,[BYTE(8) ":"," ","w","a","i","t"]]
MOVE S2,NCHARS ;Number of characters in the buffer
$CALL FNDSTR ;Go look for it
IFSKP. ;Then we found it
MOVE S1,J$OJFN(J) ;Get the JFN
MOVEI S2,.TICCD ;Send a control-D
BOUT%
ENDIF.
SETZM DOWAIT ;No longer looking for waiting state
LOOP.
ELSE.
MOVE S1,[POINT 8,[BYTE(8) ":"," ","i","d","l","e"]]
MOVE S2,NCHARS ;Number of characters in the buffer
$CALL FNDSTR ;Go look for it
LOOP. ;Loop if we didn't find it
ENDIF.
ENDIF.
ENDDO.
$RETT ;The printer's idle
; FNDSTR - Find the string pointed to by S1, in buffer length S2. Buffer is
; TRLBUF(J). This goes from the end of the buffer to the beginning, since
; we're more interested in recency than anything else
FNDSTR: PUSH P,S1
SUBI S2,6
IFL. S2 ;At least six characters there?
POP P,S1 ;No, then get back S1
POPJ P, ;If not, then return +1
ENDIF.
MOVE T1,S2 ;Save counter of characters left left
MOVE S1,[POINT 8,TRLBUF(J)] ;Point to buffer
ADJBP S2,S1 ;Go almost to the end of the buffer
POP P,S1
DO.
PUSH P,S1 ;Save test string pointer
PUSH P,T1 ;Save that counter
PUSH P,S2 ;Save that pointer
MOVEI T2,6 ;Compare six characters
DO.
ILDB T1,S1 ;Get a test character
ILDB C,S2 ;Get a buffer character
CAMN C,T1 ;Equal?
SOJG T2,TOP. ;Yes, continue
ENDDO.
SKIPE T2 ;If we exhausted the count,
IFSKP. ;...then we're done, having found the
POP P,(P) ;...string...Skip return.
POP P,(P) ;clean up stack, too
POP P,(P) ;clean up stack, too
AOS (P)
POPJ P,
ENDIF.
POP P,S1 ;Get buffer pointer
POP P,T1 ;Get count
SETO S2, ;Back up buffer pointer
ADJBP S2,S1
POP P,S1 ;Get back test string pointer
SOJG T1,TOP. ;Loop some more
ENDDO.
POPJ P, ;Non-skip return
SUBTTL GETERR - Get error type
; We look for the first occurrence of the following in ERRBUF. We return
; False if neither found, True if either found
; String Contents of S1 on return
; %%[PrinterError: 0
; %%[Error: 1
; T1 contains the byte count in ERRBUF upon entry
GETERR: STKVAR <BUFPTR>
MOVE S2,[POINT 7,ERRBUF(J)] ;Point to the error buffer
DO.
MOVEM S2,BUFPTR ;Save this pointer
HRROI S1,[ASCIZ/%%[ PrinterError:/] ;Was there this kind?
STCMP%
IFXN. S1,SC%SUB ;Do we have a match?
SETZ S1, ;Set return code...
$RETT
ENDIF.
HRROI S1,[ASCIZ/%%[ Error:/] ;Was there this kind?
MOVE S2,BUFPTR ;Get the pointer
STCMP%
IFXN. S1,SC%SUB ;Do we have a match?
MOVEI S1,1 ;Set return code...
$RETT
ENDIF.
MOVE S2,BUFPTR
IBP S2 ;Increment to the next character
SOJG T1,TOP. ;Continue on...
ENDDO.
$RETF ;No errors found in this crop
SUBTTL LIMCHK -- Check on page limits
Comment\
The purpose of this routine is to check and see if the current page limit
for the job has been exceeded.
Not implemented since we use unlimited limits at UWCSL.\
LIMCHK: $RETT
SUBTTL HEADER - prepare to print a file
HEADER: STKVAR <HDRPTR>
MOVE S1,[POINT 8,TRLBUF(J)] ;Point to trailer buffer
;reset printer, set left margin in 5 characters, 11 hmi (10.91/120)=(1/11)
; CR->CR, LF->CRLF, FF->CRFF
MOVE S2,[POINT 7,[ASCIZ /�E�&a5L�&k10.91H�&k2G/]]
SETZ T1,
SOUT%
;now the header
MOVE S2,[POINT 8,B.TOP] ;top of box
SOUT%
MOVE S2,[POINT 8,B.SIDE] ;side of box
SOUT%
MOVE S2,[POINT 8,B.SIDE] ;side of box
SOUT%
PUSH P,S1
MOVE S1,[POINT 8,FOOBUF]
MOVE S2,[POINT 8,B.SIDE] ;side of box
SOUT% ;copy sides
IDPB T1,S1
MOVE S1,[POINT 8,FOOBUF+1]
HRROI S2,[ASCIZ /Owner: /]
SOUT%
HRROI S2,.EQOWN(J)
SOUT%
MOVEI S2,.CHSPC
IDPB S2,S1
POP P,S1
MOVE S2,[POINT 8,FOOBUF]
SOUT%
MOVE S2,[POINT 8,B.SIDE] ;side of box
SOUT%
MOVE S2,[POINT 8,B.SIDE] ;side of box
SOUT%
PUSH P,S1
MOVE S1,[POINT 8,FOOBUF]
MOVE S2,[POINT 8,B.SIDE] ;side of box
SOUT% ;copy sides
IDPB T1,S1
MOVE S1,[POINT 8,FOOBUF+1]
HRROI S2,[ASCIZ /Date: /]
SOUT%
SETOB S2,T1
ODTIM%
ERJMP .+1
SETZ T1,
MOVEI S2,.CHSPC
IDPB S2,S1
POP P,S1
MOVE S2,[POINT 8,FOOBUF]
SOUT%
MOVE S2,[POINT 8,B.SIDE] ;side of box
SOUT%
MOVE S2,[POINT 8,B.SIDE] ;side of box
SOUT%
PUSH P,S1
MOVE S1,[POINT 8,FOOBUF]
MOVE S2,[POINT 8,B.SIDE] ;side of box
SOUT% ;copy sides
IDPB T1,S1
MOVE S1,[POINT 8,FOOBUF+1]
HRROI S2,[ASCIZ /File: /]
SOUT%
move 4,1
move 1,j$ijfn(j)
hrli 1,.gflwr
move 2,4
GFUST%
move 1,4
ildb 3,1
caie 3,175
jrst notunx
move 1,2
jrst isunx
notunx: move 1,4
MOVE S2,J$IJFN(J)
MOVE T1,[111110,,000001]
JFNS%
ERJMP .+1
isunx: SETZ T1,
MOVEI S2,.CHSPC
IDPB S2,S1
POP P,S1
MOVE S2,[POINT 8,FOOBUF]
SOUT%
MOVE S2,[POINT 8,B.SIDE] ;side of box
SOUT%
MOVE S2,[POINT 8,B.SIDE] ;side of box
SOUT%
MOVE S2,[POINT 8,B.MID] ;middle crossbar
SOUT%
MOVEI T2,^D44
NSIDE: MOVE S2,[POINT 8,B.SIDE] ;side of box
SOUT%
SOJGE T2,NSIDE
MOVE S2,[POINT 8,B.BOT] ;bottom
SOUT%
; MOVEI S2,.CHFFD
; IDPB S2,S1
HRROI S2,[ASCIZ /�&l0H/] ;eject page
SETZ T1,
SOUT%
;if double sided, set it
TXNN S,F%TWO ;is it set?
IFSKP.
HRROI S2,[ASCIZ /�&l1S/] ;double-sided printing
SOUT%
ENDIF.
;if landscape, set it
TXNN S,F%LAND ;is it set?
IFSKP.
HRROI S2,[ASCIZ /�&l1O/] ;double-sided printing
SOUT%
ENDIF.
SETZ S2,
IDPB S2,S1 ;and finish it off with a null
MOVE S1,[POINT 8,TRLBUF(J)]
DO.
ILDB C,S1
JUMPE C,ENDLP. ;Done on null byte
MOVEM S1,HDRPTR ;Save the byte pointer
$CALL OUTCHR ;Output the character
MOVE S1,HDRPTR ;Restore the byte pointer
LOOP.
ENDDO.
$RETT
;HEADER PAGE CHARACTERS
B.TOP: BYTE (8) 311,315,315,315,315,315,315,315,315,315,315,315 ;12 CHARS
BYTE (8) 315,315,315,315,315,315,315,315,315,315,315,315 ;24 CHARS
BYTE (8) 315,315,315,315,315,315,315,315,315,315,315,315 ;36 CHARS
BYTE (8) 315,315,315,315,315,315,315,315,315,315,315,315 ;48 CHARS
BYTE (8) 315,315,315,315,315,315,315,315,315,315,315,315 ;60 CHARS
BYTE (8) 315,315,315,315,315,315,315,315,315,315,315,315 ;72 CHARS
BYTE (8) 315,315,315,315,315,273,15,12
0
B.SIDE: BYTE (8) 272,40,40,40,40,40,40,40,40,40,40,40 ;12 CHARS
BYTE (8) 40,40,40,40,40,40,40,40,40,40,40,40 ;24 CHARS
BYTE (8) 40,40,40,40,40,40,40,40,40,40,40,40 ;36 CHARS
BYTE (8) 40,40,40,40,40,40,40,40,40,40,40,40 ;48 CHARS
BYTE (8) 40,40,40,40,40,40,40,40,40,40,40,40 ;60 CHARS
BYTE (8) 40,40,40,40,40,40,40,40,40,40,40,40 ;72 CHARS
BYTE (8) 40,40,40,40,40,272,15,12
0
B.MID: BYTE (8) 314,315,315,315,315,315,315,315,315,315,315,315 ;12 CHARS
BYTE (8) 315,315,315,315,315,315,315,315,315,315,315,315 ;24 CHARS
BYTE (8) 315,315,315,315,315,315,315,315,315,315,315,315 ;36 CHARS
BYTE (8) 315,315,315,315,315,315,315,315,315,315,315,315 ;48 CHARS
BYTE (8) 315,315,315,315,315,315,315,315,315,315,315,315 ;60 CHARS
BYTE (8) 315,315,315,315,315,315,315,315,315,315,315,315 ;72 CHARS
BYTE (8) 315,315,315,315,315,271,15,12
0
B.BOT: BYTE (8) 310,315,315,315,315,315,315,315,315,315,315,315 ;12 CHARS
BYTE (8) 315,315,315,315,315,315,315,315,315,315,315,315 ;24 CHARS
BYTE (8) 315,315,315,315,315,315,315,315,315,315,315,315 ;36 CHARS
BYTE (8) 315,315,315,315,315,315,315,315,315,315,315,315 ;48 CHARS
BYTE (8) 315,315,315,315,315,315,315,315,315,315,315,315 ;60 CHARS
BYTE (8) 315,315,315,315,315,315,315,315,315,315,315,315 ;72 CHARS
BYTE (8) 315,315,315,315,315,274,15,12
0
SUBTTL Routine to generate trailer page
;JOBTRL - Generates trailer pages
JOBTRL: STKVAR <TRLPTR>
MOVE S1,[POINT 7,TRLBUF(J)] ;Point to trailer buffer
HRROI S2,[ASCIZ /�&l0H/] ;eject page
SETZ T1,
SOUT%
SETZ S2,
IDPB S2,S1 ;and finish it off with a null
MOVE S1,[POINT 7,TRLBUF(J)]
DO.
ILDB C,S1
JUMPE C,ENDLP. ;Done on null byte
MOVEM S1,TRLPTR ;Save the byte pointer
$CALL OUTCHR ;Output the character
MOVE S1,TRLPTR ;Restore the byte pointer
LOOP.
ENDDO.
$RETT
LIT
VAR
PREBUF: BLOCK ^D<512*10> ;The rest of our world is this buffer
END HPDSPL