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BB-J724A-SM_1980
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sources/ibmcon.mac
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;<JENNESS>IBMCON.MAC.6, 30-Oct-79 14:43:22, Edit by JENNESS
; [103] Add a word in entry 233 to give port and line number.
;<JENNESS>IBMCON.MAC.2, 29-Oct-79 10:39:18, Edit by JENNESS
; [102] Add WAIT command and try to suppress superflous prompts during polling.
;<JENNESS>IBMCON.MAC.2, 29-Oct-79 10:38:45, Edit by MIERSWA
; [101] Fix to properly check for ports 10, 11 on KS
; IBMCON - IBM communications SYSERR recorder
;
;
; COPYRIGHT (c) 1980, 1979
; DIGITAL EQUIPMENT CORPORATION
;
; This software is furnished under a license and may be used
; and copied only in accordance with the terms of such license
; and with the inclusion of the above copyright notice. This
; software or any other copies thereof may not be provided or
; otherwise made available to any other person. No title to
; and ownership of the software is hereby transferred.
;
; The information in this software is subject to change
; without notice and should not be construed as a commitment
; by DIGITAL EQUIPMENT CORPORATION.
;
; DIGITAL assumes no responsibility for the use or reliability
; of its software on equipment which is not supplied by
; DIGITAL.
;
SUBTTL Universal searches and version information
SALL ; Make nice clean listings
.DIRECTIVE FLBLST ; List only 1st binary word in multi
; word text strings
SEARCH GLXMAC ; General GLXLIB definitions
SEARCH QSRMAC ; QUASAR definitions
SEARCH ORNMAC ; Command block definitions
SEARCH D60UNV ; Get DN60 linkage definitions
PROLOGUE (IBMCON) ; Initialize GLXLIB assembly options
; Version
XP ICMVER, 1 ; Major version number
XP ICMMIN, 0 ; Minor version number
XP ICMWHO, 0 ; Who did editing last (0=DEC)
XP ICMEDT, 102 ; Edit number
%%.ICM=:<VRSN. (ICM)> ; Set value of edit level/version
Define VOUTX ($S1,$S2,$S3,$S4)
<TITLE $S1 $S2'$S3'('$S4')
PRINTX $S1 $S2'$S3'('$S4')>
IF1,<
IFN <ICMMIN>,<VOUTX (IBMCON IBM communications SYSERR recorder,\ICMVER,\"<"A"+ICMMIN>,\ICMEDT)>
IFE <ICMMIN>,<VOUTX (IBMCON IBM communications SYSERR recorder,\ICMVER,,\ICMEDT)>
> ;End IF1
SUBTTL Miscellaneous
; Assembly parameters
ND NPORT, 4 ; Range of port numbers (start at 10)
ND NLINE, 6 ; Maximum number of lines/front end
; Global externals
EXTERNAL D60INI ; D60JSY initialization
EXTERNAL INIDMY,RLSHAN ; Interface handle entry routines
EXTERNAL LINSTS,PRTSTS ; Interface status routines
EXTERNAL SWAPB ; Byte swapping routine
EXTERNAL STSBUF ; Interface status buffer
.REQUIRE D60HOK ; Require its inclusion at load time
PARSET ; Define parser semantic externals
EXTERNAL PARSER ; Syntactic parser
.REQUIRE OPRPAR ; Where all the parser routines live
; Constants
XP PDLSIZ, 100 ; Size of the stack
XP SEC%D6, 233 ; Line status event code
XP SEC%DE, 234 ; Enable/disable event code
XP DEFLOG, ^d60 ; Default logging interval
XP TIMCHN, 1 ; TIMER interrupt channel
XP TIMLEV, 1 ; TIMER interrupt level
XP DMYCHN, 2 ; Dummy channel
XP DMYLEV, 1 ; Dummy level for OPRPAR
; Keyword values
XP .DIS, 0 ; Disable
XP .ENA, 1 ; Enable
XP .SET, 2 ; Set
XP .EXT, 3 ; Exit
XP .WAI, 4 ; Wait
; Error codes
XP .ERR1, 1 ; Port number out of range KS
XP .ERR2, 2 ; Port number out of range KL
XP .ERR3, 3 ; Line number out of range
SUBTTL Macros
; Macro - CNVPRT
;
; Function - To convert a port number (10 to (NPORT+9)) into a address of a
; port status block.
;
; Parameters -
;
; S1/ Port number
;
; Results - S1 contains address of port status block
Define CNVPRT <
XLIST
SUBI S1,10 ;; Remove DTE offset
IMULI S1,P.SIZ ;; Increment by table entry size
ADDI S1,PRTLST ;; Add in base address
LIST
> ;End CNVPRT definition
; Macro - CNVLIN
;
; Function - To convert a port number (10 to (NPORT+9)) and a line number
; (0 to (NLINE-1)) into the address of a line status block.
;
; Parameters -
;
; S1/ Port number
; S2/ Line number
;
; Results - S1 contains address of line status block
Define CNVLIN <
XLIST
SUBI S1,10 ;; Remove DTE offset
IMULI S1,NLINE ;; Move by number of lines per port
ADD S1,S2 ;; Move to actual block for this line
IMULI S1,L.SIZ ;; Increment to line block
ADDI S1,LINLST ;; Add in base address
LIST
> ;End CNVLIN definition
SUBTTL Data structures for polling/logging
Comment &
Port status block
This block describes the state of a port. The blocks for
all the ports are concatenated together in the area PRTLST.
To find the port status block for a particular port the port
number is converted to DTE number (subtract octal 10), multiplied
by the port status block size (P.SIZ) and added to PRTLST.
+===================================================+
! Port polling enabled/number of lines !
+---------------------------------------------------+
! Polling interval !
+---------------------------------------------------+
! Next polling time (UDT) !
+===================================================+
&
P.EN==0 ; Polling being done on this port
P.GO==-1 ; Polling started
P.STP==0 ; Polling stopped
P.INT==1 ; Polling interval for this port (minutes)
P.NXT==2 ; Next time port will be polled (UDT format)
P.SIZ==3 ; Size of port status block
Comment &
Line status block
This block describes that logging state of a line. All the line
blocks are concatenated together. To find a particular block the
port number must be known. After knowing the port number using the
following will give the base address of the line block:
Base = ((port-^O10)*NLINES+line number)*(L.SIZ)+LINLST
+===================================================+
! Line logging enabled !
+---------------------------------------------------+
! Logging interval !
+---------------------------------------------------+
! Next logging time (UDT) !
+===================================================+
&
L.EN==0 ; Logging being done on this line
L.POL==-1 ; Poll this line (line disabled)
L.LOG==1 ; Log on this line (line enabled)
L.STP==0 ; Don't look at this line
L.INT==1 ; Logging interval for this line (minutes)
L.NXT==2 ; Next time line will be logged (UDT format)
L.SIZ==3 ; Size of the line status block
SUBTTL SYSERR entry format
Comment &
This is a description of the SYSERR entry header. The body descriptions
follow later.
+===================================================+
! Code ! n/u ! T ! Version ! 4 ! Length !
+---------------------------------------------------+
! Date and time in Universal date/time format !
+---------------------------------------------------+
! System uptime !
+---------------------------------------------------+
! Processor serial number !
+===================================================+
&
DEFSTR (SYCOD,0,8,9) ; Event code
DEFSTR (SYT20,0,17,1) ; Entry was created by TOPS20
DEFSTR (SYVER,0,23,6) ; SYSERR entry type version number
DEFSTR (SYHLN,0,26,3) ; Header length (currently 4)
DEFSTR (SYLEN,0,35,9) ; Length of entry (w/o header)
DEFSTR (SYDAT,1,35,36) ; Date and time of this entry
DEFSTR (SYUPT,2,35,36) ; System uptime days,,fraction of day
DEFSTR (SYPSN,3,35,36) ; Proc. serial number of recording CPU
.SYDAT==4 ; Offset to data portion of entry
SUBTTL Data format for SYSERR code 233
Comment &
+===================================================+
! Port number ! Line number !
+---------------------------------------------------+
! Status string !
/ /
/ /
+===================================================+
The line status string is returned as a 8 bit byte string packed 4 bytes left
justified in a 36 bit word. In each byte the bit numbering is bit 0 to
the right (LSB) and bit 7 to the left (MSB).
Any 16 bit values have the 8 bit bytes that make it up swapped. So before
these bits defined below are valid, the bytes have to be swapped back again.
7 0 15 8 7 0 15 8 Bit no.'s in -11's word
! ! ! ! ! ! ! !
+------------------------------------------+
! byte 0 ! byte 1 ! byte 2 ! byte 3 ! ! Byte no. in -11
+------------------------------------------+
! 11-word 0 ! ! 11-word 1 ! ! Word no. in -11
0 15 16 31 35 Bit no.'s in -10's word
Line status [ 70 (8 bit) bytes, 18 (36 bit) words ]
Byte Meaning
---- -------
0 Terminal type: 0 = unknown, 1 = 3780, 2 = 2780, 3 = HASP
1-2 Flags: bit 0 set = simulate, clear = support
bit 1 set = primary BSC protocol, clear = secondary
bit 2 set = signed on
bit 3 set = transparent
bit 4 set = disable in progress
bit 5 set = line enable complete
bit 6 set = line abort complete
bit 7 set = off line (2780/3780 only)
bit 8 set = line disable complete
bit 9 set = disable done by DTE failure
bit 10 set = Line aborted by hardware failure
bit 11 set = Communications established
3 Line info:
bit 0 set = line is enabled
bit 1 set = DTR (data terminal ready)
bit 2 set = DSR (data set ready)
4-5 Count of DQ11/DUP11 error interrupts
6-7 DQ11/DUP11 status register 1 at last error
8-9 DQ11/DUP11 status register 2 at last error
10-11 Count of times receiver wasn't fast enough
12-13 Count of times transmitter wasn't fast enough
14-15 Count of CTS (clear to send) failures
16-17 Count of message sent and ACK'ed
18-19 Count of NAK's received (+wrong acknowledge after timeout)
20-21 Count of invalid responses to TTD
22-23 Count of invalid responses to messages
24-25 Count of TTD's sent
26-27 Count of WACK's received in response to messages
28-29 Count of EOT's (aborts) in response to messages
30-31 Count of invalid bids of responses to bids
32-33 Count of RVI's received while transmitting
34-35 Count of message received ok
36-37 Count of bad BCC's
38-39 Count of NAK's sent in response to data messages
40-41 Count of WACK's sent
42-43 Count of TTD's received
44-45 Count of EOT's sent or received which abort the stream
46-47 Count of messages ignored (out of chunks, unrecognizable or
timeout)
48-49 Count of transparent msg with an invalid character after DLE
50-51 Count of attempts to change between transparent and normal mode
in a blocked message
52-53 Count of transmitter timeouts
54-55 Clear to send delay in jiffies
56-57 Count of silo overflows
58-59 Number of bytes in silo warning area (usually 64, must be even)
60-61 Max number of bytes used in silo warning area since set last
62-63 Max bytes per message
64-65 Number of records per message
66-67 Line signature
68-69 Line driver type: 1 = DQ11, 2 = KMC11/DUP11, 3 = DUP11 w/o KMC
&
SUBTTL Format for SYSERR code 234
Comment &
Node enable/disable
+=======================================================+
! ! Enable/disable code !
+-------------------------------------------------------+
! Node name in sixbit !
+-------------------------------------------------------+
! Port # ! Line # !
+=======================================================+
! Flags ! Station type !
+-------------------------------------------------------+
! Clear to send delay (in jiffies) !
+-------------------------------------------------------+
! Silo warning level (in bytes) !
+-------------------------------------------------------+
! Bytes per message !
+-------------------------------------------------------+
! Records per message !
+-------------------------------------------------------+
! Line signature !
+=======================================================+
Where
Enable/disable code is:
.CNENB = 1 Enable the line
.CNDIS = 2 Disable the line (hang-up)
Node name is the sixbit name that GALAXY uses for the node
Port and line number uniquely describe the synchronous line
talking to IBM node
Flags are:
CN$TRA = 1b15 Transparency enabled
CN$PSP = 1b16 Primary protocol if 1,
secondary if 0
CN$ETF = 1b17 Emulation node if 1, termination if 0
Station type is:
SL378 = 1 3780 protocol
SL278 = 2 2780 protocol
SLHSP = 3 HASP multileaving protocol
Clear to send delay is a 16 bit value in jiffies.
Bytes per message and silo warning level are 16 bit values in bytes.
Records per message is a 16 bit value in records.
Line signature is a 16 bit value of no dimensions, used for
identification only.
&
NED.CD==.SYDAT+0 ; Enable/disable code
NED.NM==NED.CD+1 ; Node name
NED.ID==NED.NM+1 ; Port,,line (ID)
NED.FL==NED.ID+1 ; Flags,,type
NED.CS==NED.FL+1 ; Clear to send delay
NED.SW==NED.CS+1 ; Silo warning level
NED.BM==NED.SW+1 ; Bytes per message
NED.RM==NED.BM+1 ; Records per message
NED.SG==NED.RM+1 ; Line signature
NED.SZ==^d9 ; Size of entry w/o header
NED.SH==^d3 ; Short entry for disable
SUBTTL GLXLIB initialization blocks
INTVEC==<LEVTAB,,CHNTAB> ; Interrupt vector address
; Initialization block
IB: $BUILD IB.SZ ; Size of initialization block
$SET (IB.PRG,,'IBMCON') ; Program name
$SET (IB.INT,,INTVEC) ; Interrupt system base
$SET (IB.FLG,IT.OCT,1) ; Open command terminal
$SET (IB.OUT,,T%TTY) ; Default $TEXT output routine
$EOB
SUBTTL Local writeables
PDL: BLOCK PDLSIZ ; Stack
CPUTYP: BLOCK 1 ; Loop cntr for ports (cpu dependant)
TIMCHK: BLOCK 1 ; Flagged if logging interrupt occured
LOGCHK: BLOCK 1 ; Flagged on entry of LOGGER it TIMCHK
CURTIM: BLOCK 1 ; Current time, start of LOGGER co-rtn
POLFLG: BLOCK 1 ; Flag for polling on current port
WAITFL: BLOCK 1 ; Wait flag .. to process no commands
KSFLG: BLOCK 1 ; Non-zero if on a KS (zero if KL)
PPAGE: BLOCK 1 ; Address of command page
LPAGE: BLOCK 1 ; Address of logging page
PARBLK: XWD 0,TOPPDB ; First PDB in command syntax
XWD 0,[ASCIZ /IBMCON>/] ; Prompt
XWD 0,0 ; Address of parsed data page
XWD 0,0 ; Address of string to parse (0=TTY)
PRTLST: BLOCK NPORT*P.SIZ ; Port status block storage
LINLST: BLOCK NLINE*NPORT*L.SIZ ; Line status block storage
; Software interrupt system data base
LEVTAB: EXP LEV1PC ; Where to store PC's for
EXP LEV2PC ; each of the 3 levels that
EXP LEV3PC ; interrupts can occur at
CHNTAB: EXP 0 ; Channel 0 not used
XWD TIMLEV,INTTIM ; TIMER interrupts on level 1 CHN 1
BLOCK ^d34 ; Room for other unused channels
LEV1PC: EXP 0 ; PC storage for PSI interrupts
LEV2PC: EXP 0 ; on each of the levels
LEV3PC: EXP 0
SUBTTL Startup and initialization
Comment &
This code is executed at program startup time. It initializes the
GLXLIB interface, the DN60 interface and the interrupt system.
&
ENTVEC: JRST IBMCON
JRST IBMCON
EXP %%.ICM
IBMCON: RESET ; Clear up everything
MOVE P,[IOWD PDLSIZ,PDL] ; Start up the stack
MOVX S1,IB.SZ ; Size of initialization block
MOVEI S2,IB ; Address of initialization block
$CALL I%INIT ; Initialize GLXLIB
SETZM KSFLG ; Assume a KL processor
MOVE T1,[-4,,10] ; 3 ports, 11,12,13
MOVE S1,[.ABGAD,,.FHSLF] ; Retrieve address break
ADBRK ; to distinguish between KL and KS
ERJMP [SETOM KSFLG ; Have found a KS processor
MOVE T1,[-3,,7] ; 2 ports (lines) 10,11
JRST .+1]
MOVEM T1,CPUTYP ; Save the port count
$CALL D60INI ; Initialize DN60 interface
$CALL INTINI ; Initialize the PSI system
MOVE S1,[DMYLEV,,DMYCHN] ; Dummy level and channel
MOVX S2,INTVEC ; so that OPRPAR will
$CALL P$INIT ; allow interrupts to break out.
SETZM TIMCHK ; Clear timer interrupt flag
$CALL M%GPAG ; Get a page for logging
MOVEM S1,LPAGE
$CALL I%ION ; Turn on interrupts and start
JRST COMMAND ; processing
SUBTTL Command processing co-routine (COMMAND)
Comment &
This is the command processor co-routine. All data base setting for
polling/logging intervals are set here. When a timer interrupt occurs
the logging co-routine is called.
&
COMMAND:
$CALL LOGGER ; Check for polling/logging
SKIPN WAITFL ; Check for "WAIT" being done
JRST COMGO ; No .. go process a command
WAI1ST: WAIT ; WAIT forever
WAILST: JRST COMMAND ; Go process the logging/polling
COMGO: SETOM S1 ; Reparse flag for no re-prompt
SKIPN LOGCHK ; Check for TIMER just serviced
MOVX S1,PAR.SZ ; No, size of the parser arg block
MOVEI S2,PARBLK ; Address of parser argument block
$CALL PARSER ; Parse a command
JUMPT CMMD.5 ; Success in parsing a command
MOVE T1,PRT.FL(S2) ; Failed .. get parser flags
TXNE T1,P.INTE ; Check for interrupt break out
JRST COMMAND ; Yes .. execute logger co-routine
LOAD T1,PRT.CF(S2) ; Get COMND flags
TXNE T1,CM%ESC ; Escape last character?
$TEXT ,<> ; Yes .. move to new line
SKIPE T1,PRT.EC(S2) ; Check for ACTION error code
JRST [$TEXT ,<? �^I/@EMSG-1(T1)/>
JRST COMMAND]
$TEXT ,<? �^T/@PRT.EM(S2)/> ; Output error message
JRST COMMAND ; Go execute logger co-routine
CMMD.5: MOVE S1,PRT.CM(S2) ; Get address of command page
MOVEM S1,PPAGE ; Save page address for releasing
MOVE S2,COM.PB(S1) ; Get offset to parser blocks
ADD S1,S2 ; Make address to start of blocks
$CALL P$SETUP ; Start semantic parsing
$CALL P$KEYW ; Get keyword value
$CALL @CMDVEC(S1) ; Vector to processing routine
MOVE S1,PPAGE ; Get page address of command
$CALL M%RPAG ; Return it to memory manager
JRST COMMAND ; Execute logger co-routine
CMDVEC: JRST DISABLE
JRST ENABLE
JRST SET
JRST EXIT
JRST WAITR
EMSG: [ITEXT <Port number out of valid range (10-11)>]
[ITEXT <Port number out of valid range (11-13)>]
[ITEXT <Line number out of valid range (0-^O/[NLINE-1]/)>]
SUBTTL Semantic processing routines
; Routine - DISABLE
;
; Function - To disable a port polling and any lines that are active.
DISABLE:
$CALL P$NUM ; Get port number
MOVE P1,S1 ; Save the port number
CNVPRT ; Convert port number to address
SKIPN P.EN(S1) ; Check if this port is polling
JRST [$TEXT ,<��?Port ^O/P1/ is not enabled>
$RETT]
MOVX S2,P.STP ; Value to stop polling
MOVEM S2,P.EN(S1) ; Stop polling on port, get nmbr lines
$RETT
; Routine - ENABLE
;
; Function - To set the start flag for the port which will initialize
; any lines active during the next execution of the LOGGER co-routine
; execution.
ENABLE:
$CALL P$NUM ; Get port number
MOVE P1,S1 ; Save port number
CNVPRT ; Convert to status block address
SKIPE P.EN(S1) ; Check for port already polling
JRST [$TEXT ,<��?Port ^O/P1/ already enabled>
$RETT]
MOVE P2,S1 ; Save address
MOVX S1,P.GO ; Get start status code
MOVEM S1,P.EN(P2) ; Set in status block
$CALL P$NUM ; Get polling interval (minutes)
MOVEM S1,P.INT(P2) ; Put interval into status block
$RETT
; Routine - EXIT
;
; Function - To exit to monitor level. If the program is continued
; all states will be saved and running.
EXIT: HALTF
$RETT
; Routine - WAITR
;
; Function - To set that indefinite wait flag. This causes to COMMAND
; co-routine to stop processing console commands until the flag
; is cleared.
WAITR: SETOM WAITFL ; Set the only flag needed
$RETT
; Routine - SET
;
; Function - To set the logging interval for a particular line
SET: $CALL P$NUM ; Get line number
MOVE P2,S1 ; Save it
$CALL P$NUM ; Get port number
MOVE P1,S1 ; Save it also
$CALL P$NUM ; Get logging interval
MOVE P3,S1 ; Save
DMOVE S1,P1 ; Get port/line number
CNVLIN ; Convert to line status block addr
MOVEM P3,L.INT(S1) ; Set logging interval
$RETT
SUBTTL Port polling and line logging co-routine (LOGGER)
Comment &
This routine is called whenever the command co-routine goes through
a major command loop. The command loop is cycled when either a command
is finished or a TIMER interrupt occurs. If this co-routine is entered
after a timer interrupt has occured, line logging time is check. If
not, ports are only checked for new enables.
&
LOGGER: SETM LOGCHK ; Clear logging flag
AOSG TIMCHK ; Check if any TIMER gone off
SETOM LOGCHK ; Yes .. say that logging can be done
; $TEXT ,<- LOGGER called at: ^H/[-1]/>
$CALL I%NOW ; Get current time (UDT format)
MOVEM S1,CURTIM ; Save it for all logging routines
MOVE P1,CPUTYP ; loop index for all ports
LOG.P: AOBJP P1,.RETT ; Return if all ports polled
HRRZ S1,P1 ; Get port number
CNVPRT ; Convert to port status block address
MOVE P3,S1 ; Save status block address
SKIPN S2,P.EN(S1) ; Check if port polling enabled
JRST LOG.P ; No .. move onto next port
CAXE S2,P.GO ; Check for first time thru
JRST [SKIPN LOGCHK ; No .. check for TIMER gone off
JRST LOG.P ; No .. continue onto next port
JRST LOG.GO] ; Yes .. go check lines on port
$CALL POLINI ; Initialize port and all line blocks
JUMPF LOG.P ; If port not running .. goto next
SETOM POLFLG ; Set polling flag for lines
JRST LOG.LS ; Go start polling loop
LOG.GO: MOVE S1,P.NXT(P3) ; Get polling time for this port
SETZM POLFLG ; Reset poll time flag
CAML S1,CURTIM ; Check if time to poll
JRST LOG.LS ; No .. just look for logging lines
SETOM POLFLG ; Yes .. poll while checking logging
MOVE S1,P.INT(P3) ; Get polling interval
MOVE S1,P.INT(P3) ; Get polling interval again
$CALL TIMSET ; Set a TIMER interrupt for it
MOVEM S1,P.NXT(P3) ; Set next time to poll this port
LOG.LS: MOVNI P2,1(S2) ; Set up count
HRLOS P2 ; and index for line loop
LOG.L: AOBJP P2,LOG.P ; Check for anymore lines on port
HRRZ S1,P1 ; Get port number
HRRZ S2,P2 ; Get line number
CNVLIN ; Convert to line status block address
SKIPN S2,L.EN(S1) ; Check if line is allowed to log/poll
JRST LOG.L ; No .. move onto next line
MOVE T1,L.NXT(S1) ; Get time for logging
CAXN S2,L.LOG ; Check for logging
CAML T1,CURTIM ; Is it late enough for logging?
JRST [SKIPE POLFLG ; Check if port polling now
$CALL POLLIN ; Yes .. poll line
JRST LOG.L] ; Move onto next line
$CALL LOGLIN ; Log line counters
JRST LOG.L ; Move onto next line
SUBTTL Polling initialization for a port
; Routine - POLINI
;
; Function - To initialize polling on a particular port. If the port
; is running the number of lines on it is retrieved. This is stored
; in the port status block and each line has the polling (L.POL)
; set in it's enable block.
; If the port is not running, an error message is printed and
; the polling for the port is disabled.
;
; Parameters -
;
; S1/ Port status block address
; P1/ RH = port number
;
; Returns - True/ S2 contains number of lines
; False/ if port is not running
POLINI: $SAVE <S1,P1,P2>
MOVE P2,S1 ; Save status block address
HRRZ S1,P1 ; Get port number
$CALL INIDMY ; Initialize a dummy handle entry
JUMPF PLI.F ; Can't get a dummy entry
$CALL PRTSTS ; Get port status
JUMPF PLI.F ; Can't get status .. shut down
$CALL RLSHAN ; Release handle/front end
LOAD T1,,S6LIN ; Get number of lines on port
CAILE T1,NLINE ; Maximum line in data base exceeded
JRST [$TEXT ,<%More lines (^O/S2/) on port than allowed (^O/[NLINE]/)>
MOVX T1,NLINE ; Truncate to max
JRST .+1]
MOVEM T1,P.EN(P2) ; Put into enable word in port status
MOVE S1,P.INT(P2) ; Get polling interval
$CALL TIMSET ; Set a polling TIMER interrupt
MOVEM S1,P.NXT(P2) ; Set next time to poll this port
MOVE S2,P.EN(P2) ; Get number of lines again
PLI.L: SOJL S2,PLI.R ; Loop over all lines .. return after
HRRZ S1,P1 ; Get port number
CNVLIN ; Convert to line status block address
MOVX T1,L.POL ; Get poll line enable code
MOVEM T1,L.EN(S1) ; Store enable code
SKIPN T1,L.INT(S1) ; Get stored logging interval
MOVX T1,DEFLOG ; Get default logging interval
MOVEM T1,L.INT(S1) ; Store appropriate logging interval
JRST PLI.L ; Move onto next line
PLI.R: MOVE S2,L.EN(P2) ; Get number of lines on port
$RETT ; Return and check lines
PLI.F: HRRZ S1,P1 ; Get port number
$TEXT ,<?Port ^O/S1/ not running.>
MOVX S1,P.STP
MOVEM S1,P.EN(P2) ; Stop polling on port
$RETF
SUBTTL LOGLIN logging SYSERR info on a line
; Routine - LOGLIN
;
; Function - To log SYSERR information about a line specified in the Action
; Queue data word. To get this information, hooks into the D60JSY
; package call internal routines to call the line status (LINSTS)
; routine and retrieve it's buffer. The SYSERR header is built
; and the data copied. Then it is all shipped to the SYSERR data
; base by whatever mechanism the system supplies.
; If the line turns out to be non-active, the node disable SYSERR
; entry is made and the line status enable code is changed to just
; polling (L.POL).
;
; Parameters -
;
; S1/ Line status block address
; P1/ RH = port number
; P2/ RH = line number
;
; Returns - always
LOGLIN: $SAVE <P1,P2,P3>
HRL P1,S1 ; Save status block address
MOVE P3,LPAGE ; Get the address of buffer
MOVX S1,SEC%D6 ; DN60 line logging code
MOVX S2,<LS.BYT+3>/4 ; Number of words in entry (w/o header)
$CALL SYRHDR ; Make a SYSERR entry header
HRRZ S1,P1 ; Get port number
$CALL INIDMY ; Start up a dummy handle list entry
JUMPF LLG.F ; Failed to open front end
STORE P2,(S2),H$LIN ; Store line number
STORE P2,(S2),H$HLN ; in handle and PDD entries
$CALL LINSTS ; Get the line statistics
JUMPF [$CALL RLSHAN ; Failed .. imply line shut down
JRST LLG.F]
$CALL RLSHAN ; Release the handle
HRLM P1,.SYDAT(P3) ; Put port number
HRRM P2,.SYDAT(P3) ; and line number into data portion
HRLI S1,STSBUF ; Get address of status buffer
HRRI S1,.SYDAT+1(P3) ; Address of SYSERR data body
BLT S1,.SYDAT+1+<LS.BYT+3>/4(P3) ; Move it all
MOVE S1,P3 ; Get address of SYSERR entry
MOVX S2,.SYDAT+1+<LS.BYT+3>/4 ; Length of the total entry
SYERR ; Dump it to SYSERR data base
ERJMP .ERSJF
HLRZ S2,P1 ; Get address of line status block
MOVE S1,L.INT(S2) ; Get logging interval
$CALL TIMSET ; Set a timer interrupt for then
MOVEM S1,L.NXT(S2) ; Store the future time to log again
JRST POL.CK ; Go check for status claiming line
; gone away.
LLG.F: $CALL LINDWN ; Record that line has died
HRLZ S1,P1 ; Get line status block address
MOVX S2,L.POL ; Stop logging .. poll only
MOVEM S2,L.EN(S1) ; Put into line enable flag
$RETT
SUBTTL POLLIN Polling lines for lines come up/gone away
; Routine - POLLIN
;
; Function - To poll a specific line, checking for a state transition.
; If the line has come up, the line is activated for logging and
; a node enable entry is made in SYSERR. If the line has gone down,
; the line is put back into polling state and a node disable entry
; is made.
;
; Parameters -
;
; S1/ Line status block address
; P1/ RH = port number
; P2/ RH = line number
POLLIN: $SAVE <P1,P2,P3>
HRL P1,S1 ; Save status block address
HRRZ S1,P1 ; Get port number
$CALL INIDMY ; Initialize a handle list entry and FE
JUMPF PLL.G ; Line has gone away for good.
STORE P2,(S2),H$LIN ; Store line number
STORE P2,(S2),H$HLN ; in handle and PPD entries
$CALL LINSTS ; Get the status
JUMPF [$CALL RLSHAN ; Failed .. release FE device
JRST PLL.G] ; Line has gone away
$CALL RLSHAN ; Release the handle here also
POL.CK: LOAD S1,,SLFLG ; Get line flags
TXNE S1,SLHWA ; Check hardware abort flag
JRST PLL.G ; Yes .. line gone away
LOAD S1,,SLINF ; Get line info flags
TXNN S1,SLDSR ; Check DSR set flag
JRST PLL.G ; No DSR .. line down
HLRZ S1,P1 ; Get line status block address
MOVE S2,L.EN(S1) ; Get logging state of line
CAXN S2,L.LOG ; Check for line is already logging
$RETT ; Yes .. just return, line is ok
$CALL LINUP ; Record that line has been enabled
MOVX S2,L.LOG ; Make this line now in the
MOVEM S2,L.EN(S1) ; logging state
MOVE S1,L.INT(S1) ; Get logging interval
$CALL TIMSET ; Set a TIMER interrupt for loggin
HLRZ S2,P1 ; Get line status block address again
MOVEM S1,L.NXT(S2) ; Store time in future for logging
$RETT ; Return
PLL.G: HLRZ S1,P1 ; Get line status block address
MOVE S2,L.EN(S1) ; Get logging state of line
CAXN S2,L.POL ; Check for line only polling
$RETT ; Yes .. not a state transition
$CALL LINDWN ; Record that line has died
MOVX S2,L.POL ; Get line polling state
MOVEM S2,L.EN(S1) ; Put line back to polling only
$RETT
SUBTTL Line gone down SYSERR recording
; Routine - LINDWN
;
; Function - To make the SYSERR entry stating that the line has gone
; down.
;
; Parameters -
;
; P1/ RH = port number
; P2/ RH = line number
LINDWN: $SAVE <S1,S2,P3> ; Save some registers
MOVE P3,LPAGE ; Get address of logging page
MOVX S1,SEC%DE ; Line enable/disable entry
MOVX S2,NED.SH ; Short entry
$CALL SYRHDR ; Make header for this entry
MOVX S1,.CNDIS ; Line disable
HRRZM S1,NED.CD(P3) ; Put in enable/disable code
SETZM NED.NM(P3) ; Don't know node name
HRLM P1,NED.ID(P3) ; Store port number
HRRM P2,NED.ID(P3) ; Store line number
MOVE S1,P3 ; Get address of entry
MOVX S2,NED.SH+.SYDAT ; Total length of entry
SYERR ; Put in ERROR.SYS file
ERJMP .ERSJF
$RETT
SUBTTL Line come up SYSERR recording
; Routine - LINUP
;
; Function - To make the SYSERR entry stating that the line has come up.
;
; Parameters -
;
; P1/ RH = port number
; P2/ RH = line number
; STSBUF/ Current line status
LINUP: $SAVE <S1,S2,P3> ; Save some registers
MOVE P3,LPAGE ; Get address of logging page
MOVX S1,SEC%DE ; Line enable/disable entry
MOVX S2,NED.SZ ; Length of entry
$CALL SYRHDR ; Make header for this entry
MOVX S1,.CNENB ; Line enable
HRRZM S1,NED.CD(P3) ; Put in enable/disable code
SETZM NED.NM(P3) ; Don't know node name
HRLM P1,NED.ID(P3) ; Store port number
HRRM P2,NED.ID(P3) ; Store line number
LOAD S1,,SLCSD ; Transfer clear to send delay
MOVEM S1,NED.CS(P3)
LOAD S1,,SLSWL ; Transfer silo warning level
MOVEM S1,NED.SW(P3)
LOAD S1,,SLBPM ; Transfer bytes per message
MOVEM S1,NED.BM(P3)
LOAD S1,,SLRPM ; Transfer records per message
MOVEM S1,NED.RM(P3)
LOAD S1,,SLSIG ; Transfer line signature
MOVEM S1,NED.SG(P3)
MOVE S1,P3 ; Get address of entry
MOVX S2,NED.SZ+.SYDAT ; Total length of entry
SYERR ; Put in ERROR.SYS file
ERJMP .ERSJF
$RETT
.ERSJF: $STOP SJF,<SYERR JSYS failed>
SUBTTL SYSERR entry header creation
; Routine - SYRHDR
;
; Function - To create a SYSERR entry header containing the pertinent
; data.
;
; Parameters -
;
; S1/ SYSERR Event code
; S2/ Length of entry (without header)
; P3/ Address of SYSERR block
;
; Returns - yes
SYRHDR: STORE S1,(P3),SYCOD ; Store event code (SY%XXX)
STORE S2,(P3),SYLEN ; Store length of entry
MOVX S1,4 ; Get length of SYSERR entry header
STORE S1,(P3),SYHLN ; Store in header
MOVX S1,1 ; Get version of SYSERR header
STORE S1,(P3),SYVER ; Store in header
SETO S1, ; Turn on all the bits (only for one)
STORE S1,(P3),SYT20 ; Note that this entry made by TOPS-20
GTAD ; Get current time and date
STORE S1,(P3),SYDAT ; Store time and date in entry
TIME ; Get current uptime
IDIV S1,[<^D1000*^D3600*^D24>/<1_^D18>] ; Convert to days,,fractions of days
STORE S1,(P3),SYUPT ; Store uptime in entry header
MOVE S1,[SIXBIT/APRID/] ; Get table name
SYSGT ; Get processor serial number
STORE S1,(P3),SYPSN ; Save processor serial number
$RETT
SUBTTL Interrupt system management
; Routine - INTINI
;
; Function - To initialize the interrupt system. After this routine is
; executed, interrupts will be allowed to come in.
;
; Parameters - none
;
; Returns - Success always
;
; Notes - Turns the interrupt system on
INTINI: MOVX S1,.FHSLF ; Point to this process
MOVX S2,1b<TIMCHN> ; TIMER interrupts
AIC ; Activate the system
CIS ; Clear interrupt system
$RETT
SUBTTL Interrupt service routines
; Routine - INTTIM
;
; Function - To flag a "TIMER gone off" event to the command parser so
; that the parser will return and logging/polling can be executed.
;
; Parameters - none
;
; Returns - to non-interrupt level
;
; Notes - The data word in the queue entry is the time of day that the
; interrupt occured.
INTTIM: $BGINT TIMLEV ; Start service for level 1
SETOM TIMCHK ; Say that TIMER has gone off
$CALL P$INTR ; Flag to PARSER for command break out
MOVX S1,.FHSLF ; Point to this process
MOVX S2,1b<DMYCHN> ; Interrupt for the OPRPAR
IIC ; TIMER interrupt services
MOVX S2,1b5 ; User mode flag
HRRZ S1,LEV1PC ; Get address of interrupted execution
CAIL S1,WAI1ST ; Check for bounds
CAILE S1,WAILST ; of the "WAIT" command routine
SKIPA
IORM S2,LEV1PC ; Turn on user mode .. break from WAIT
$DEBRK ; Go back to non-interrupt level
; Routine - TIMSET
;
; Function - To set a TIMER interrupt.
;
; Parameters -
;
; S1/ Incremental time for interrupt (from now) in minutes
; CURTIM/ Current time in UDT format
;
; Returns -
;
; S1/ UDT format time that interrupt will occur
TIMSET: $SAVE <S2,T1,P1> ; Save the registers
MOVE P1,S1 ; Save time (minutes)
IMULI S1,^d60*^d1000 ; Change time to milliseconds
MOVE S2,S1
MOVSI S1,.FHSLF ; Point to this process
HRRI S1,.TIMEL ; Elapsed time function
HRRZI T1,TIMCHN ; Get channel for interrupt
TIMER ; Set the interrupt
ERJMP [$STOP UST,<Unable to set timer interrupt>]
IMULI P1,^d3*^d60 ; Convert to third of second
MOVE S1,CURTIM ; Get current time
ADD S1,P1 ; Make into future time
; $TEXT ,< - TIMSET interrupt set for: ^H/S1/>
$RETT
SUBTTL Command syntax tables
TOPPDB: $INIT (TOP.1) ; Top level initialization
TOP.1: $KEYDSP (TOP.2) ; First key word
TOP.2: $STAB
DSPTAB (DISPDB,.DIS,<DISABLE>)
DSPTAB (ENAPDB,.ENA,<ENABLE>)
DSPTAB (CFMPDB,.EXT,<EXIT>)
DSPTAB (SETPDB,.SET,<SET>)
DSPTAB (WAIPDB,.WAI,<WAIT>)
$ETAB
CFMPDB: $CRLF
; DISABLE (polling on port) nn
DISPDB: $NOISE (DIS001,<polling on port>)
DIS001: $NUMBER (DIS002,^d8,<Port number>,<$Action (PRTCHK)>)
DIS002: $CRLF
; ENABLE (polling on port) nn (interval) mm
ENAPDB: $NOISE (ENA001,<polling on port>)
ENA001: $NUMBER (ENA002,^d8,<Port number>,<$Action (PRTCHK)>)
ENA002: $NOISE (ENA003,<interval>)
ENA003: $NUMBER (ENA004,^d10,<minutes between polling>,<$Default (10)>)
ENA004: $CRLF
; SET (logging interval on line) ll (port) pp (interval) mm
SETPDB: $NOISE (SET001,<logging interval on line>)
SET001: $NUMBER (SET002,^d8,<Line number>,<$Action (LINCHK)>)
SET002: $NOISE (SET003,<port>)
SET003: $NUMBER (SET004,^d8,<Port number (11-13)>,<$Action (PRTCHK)>)
SET004: $NOISE (SET005,<interval>)
SET005: $NUMBER (SET006,^d10,<minutes between logging>,<$Default (60)>)
SET006: $CRLF
WAIPDB: $NOISE (WAI001,<forever>)
WAI001: $CRLF
SUBTTL Command action routines
; Routine - PRTCHK
;
; Function - To validate the range of a port number. It must be between
; 10 and 11 (inclusive) on the KS and 11 and 13 (inclusive)
; on the KL.
;
; Parameters - Standard parser action routine
PRTCHK: SKIPE KSFLG ; Check for a KS processor
JRST KS ; Yes .. go check for "lines"
MOVE T1,CR.RES(S2) ; Get value that was input
CAIL T1,11 ; Check for less than minimum
CAILE T1,10+NPORT-1 ; or greater than max
JRST [MOVX S1,.ERR2 ; Yes .. give error return
$RETF]
$RETT
KS: MOVE T1,CR.RES(S2) ; Get input value
CAIL T1,10 ; Check for less than min
CAILE T1,11 ; or greater than max
JRST [MOVX S1,.ERR1 ; Yes, give error return
$RETF]
$RETT
; Routine - LINCHK
;
; Function - To validate the range of a line number. It must be between
; 0 and NLINE (inclusive).
;
; Parameters - Standard parser action routine
LINCHK: MOVE T1,CR.RES(S2) ; Get value input
CAIL T1,0 ; Check for negative line
CAILE T1,NLINE-1 ; or greater than max lines
JRST [MOVX S1,.ERR3 ; Yes .. give error return
$RETF]
$RETT
END IBMCON