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tools/dcnspy/dcnspy.mac
There are 11 other files named dcnspy.mac in the archive. Click here to see a list.
; UPD ID= 25, RIP:<7.TOOLS-TAPE>DCNSPY.MAC.6, 21-Apr-88 16:58:34 by WADDINGTON
;Edit 102 - Make the E command be EXIT (not ELB...) for QAR 150
; UPD ID= 24, RIP:<7.TOOLS-TAPE>DCNSPY.MAC.5, 21-Apr-88 16:48:00 by WADDINGTON
;Edit 101 - Update LAT slot block from LAT5.1 support. Update LAT HN begstr.
;Add LAT PR begstr. We can't use PR, so I'm going to call it PX instead.
;Add PRS,PRA,and PRX commands
; UPD ID= 17, RIP:<7.TOOLS-TAPE>DCNSPY.MAC.4, 26-Feb-88 10:44:44 by GSCOTT
;TCO 7.1236 - Edit 100, update copyright notice.
; UPD ID= 3, RIP:<7.TOOLS-TAPE>DCNSPY.MAC.3, 4-Oct-87 09:44:17 by WADDINGTON
;Update LAT slot block from 10/20 LAT code merge
; UPD ID= 103, SNARK:<6.1.UTILITIES>DCNSPY.MAC.37, 22-Mar-85 15:45:59 by PALMIERI
;Remove FTPARANOID in EL and MB ENTRY. macros
; UPD ID= 102, SNARK:<6.1.UTILITIES>DCNSPY.MAC.36, 21-Mar-85 16:14:54 by PALMIERI
;Update LAT BEGSTRs, fix TYPPRT to understand new port database
; UPD ID= 86, SNARK:<6.1.UTILITIES>DCNSPY.MAC.34, 22-Feb-85 16:09:05 by MCCOLLUM
;ADD DEFINITIONS TO HN BEGSTR
; More work on PSB and PTB displays. Add INDEX command
; UPD ID= 81, SNARK:<6.1.UTILITIES>DCNSPY.MAC.32, 18-Feb-85 21:51:17 by MCCOLLUM
; Add PSB and PTB displays
; UPD ID= 80, SNARK:<6.1.UTILITIES>DCNSPY.MAC.31, 18-Feb-85 16:04:54 by MCCOLLUM
;Fix up some TDB bugs. Reset LINGOL when toggling SCNCOM.
; UPD ID= 77, SNARK:<6.1.UTILITIES>DCNSPY.MAC.30, 13-Feb-85 14:28:44 by MCCOLLUM
;Add TDB and SLT commands and displays
; UPD ID= 75, SNARK:<6.1.UTILITIES>DCNSPY.MAC.29, 8-Feb-85 15:10:52 by NICHOLS
;Add help for HN and CBL displays
; UPD ID= 74, SNARK:<6.1.UTILITIES>DCNSPY.MAC.28, 8-Feb-85 15:00:16 by NICHOLS
;Add LAT displays HN and CBL
; UPD ID= 66, SNARK:<6.1.UTILITIES>DCNSPY.MAC.27, 12-Jan-85 00:07:43 by NICHOLS
;Break up DCNSPY with PRGENDs so that each subprogram can search a
;different universal file, so we can build tables with conflicting symbol
;names. Fix the symbol name conflict over LS.ON and LS.OFF between Line
;State and LAT State.
; UPD ID= 59, SNARK:<6.1.UTILITIES>DCNSPY.MAC.26, 17-Dec-84 14:47:06 by PALMIERI
;Have GTCHTR use XPEEKX instead of the NODE% JSYS; update PT begstr
; UPD ID= 43, SNARK:<6.1.UTILITIES>DCNSPY.MAC.25, 13-Nov-84 14:29:16 by PALMIERI
;Add DNADLL line table display
;Make common state table output routine
;Fix memory display for ASGRES stuff
; UPD ID= 32, SLICE:<6.1.UTILITIES>DCNSPY.MAC.25, 26-Sep-84 14:56:28 by NICHOLS
;Fix up names of SLDOB and SLSOB
; UPD ID= 23, SNARK:<6.1.UTILITIES>DCNSPY.MAC.23, 2-Aug-84 16:04:21 by PALMIERI
;Change CTERM state code display to agree with CTHSRV
; UPD ID= 20, SNARK:<6.1.UTILITIES>DCNSPY.MAC.22, 18-Jul-84 12:28:42 by MCINTEE
;More of previous
; UPD ID= 19, SNARK:<6.1.UTILITIES>DCNSPY.MAC.21, 18-Jul-84 12:24:28 by MCINTEE
;CHOUT no longer exists
; UPD ID= 16, SNARK:<6.1.UTILITIES>DCNSPY.MAC.20, 3-Jul-84 12:28:16 by MCINTEE
;Fix CDB
; UPD ID= 15, SNARK:<6.1.UTILITIES>DCNSPY.MAC.18, 3-Jul-84 11:51:19 by GLINDELL
;Fix PB,SL,EL
; UPD ID= 14, SNARK:<6.1.UTILITIES>DCNSPY.MAC.17, 27-Jun-84 17:33:21 by PALMIERI
;Add ESCDA and ESCWS.
;Add display of data link block to circuit block display
;Update display for circuit block
; UPD ID= 12, SNARK:<6.1.UTILITIES>DCNSPY.MAC.15, 8-Jun-84 14:19:33 by GLINDELL
;Add ELCIM
; UPD ID= 11, SNARK:<6.1.UTILITIES>DCNSPY.MAC.14, 31-May-84 15:27:07 by PALMIERI
;Remove AJLRM from adjacency block
; UPD ID= 10, SNARK:<6.1.UTILITIES>DCNSPY.MAC.13, 25-May-84 16:27:44 by PALMIERI
;Add adjacency state "off-line"
; UPD ID= 9, SNARK:<6.1.UTILITIES>DCNSPY.MAC.12, 15-May-84 12:22:20 by PALMIERI
;Add new circuit block state - FAILED
; UPD ID= 8, SNARK:<6.1.UTILITIES>DCNSPY.MAC.11, 25-Apr-84 16:00:48 by PALMIERI
;Update Adjacency block
;WORK:<PALMIERI.NI>DCNSPY.MAC.3 24-Apr-84 14:09:21, Edit by PALMIERI
;More CI stuff that only Gunnar understands
;SNARK:<6.1.UTILITIES>DCNSPY.MAC.9 17-Apr-84 11:32:13, Edit by GLINDELL
;Remove CBBMAC and PBBMAC since they are no longer in D36PAR
;WORK:<GLINDELL.MONITOR>DCNSPY.MAC.5 9-Apr-84 11:37:30, Edit by GLINDELL
;Add new DECnet/CI port connection states.
;WORK:<GLINDELL.MONITOR>DCNSPY.MAC.23 4-Apr-84 14:36:59, Edit by GLINDELL
;Add CI command to display DECnet/CI tables.
;Include drop # for CI in CIRCUIT command and typeout of circuit ID
;SNARK:<6.1.UTILITIES>DCNSPY.MAC.5 2-Apr-84 21:41:52, Edit by NICHOLS
;Change name of CI device from CIP to CI
;WORK:<PALMIERI.NI>DCNSPY.MAC.73 26-Mar-84 13:16:19, Edit by PALMIERI
;Add Data Link Block typeout
;Add previous/next capability to circuits/adjacencies
;Add DPY A command to display adjacencies associated with circuits
;Add MRQ to type out memory request table
;Make AJB invokable and neaten up its display
;SNARK:<6.1.UTILITIES>DCNSPY.MAC.4 19-Jan-84 14:39:25, Edit by NICHOLS
;Add AJB display
;WORK:<NICHOLS>DCNSPY.MAC.2 13-Jan-84 13:48:29, Edit by NICHOLS
;Add MB display
; UPD ID= 265, SNARK:<6.1.MONITOR>DCNSPY.MAC.8, 2-Dec-83 22:38:53 by NICHOLS
;Add PORT command to type out SJB's port table block for a channel.
;Add E command to exit from DPY mode.
; COPYRIGHT (c) DIGITAL EQUIPMENT CORPORATION 1985, 1988.
; ALL RIGHTS RESERVED.
;
; 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 THAT IS NOT SUPPLIED BY DIGITAL.
UNIVERSAL DCNSPY - Spy on DECnet-36
SEARCH MONSYM,MACSYM
SEARCH SCNMAC,DPYDEF
SEARCH D36PAR,SCPAR,CTERMD
.CPYRT <<1985, 1988>>
.REQUIRE SYS:MACREL
.REQUEST REL:SCAN
.REQUEST REL:HELPER
.REQUEST REL:DPY ;GET THE DPY PACKAGE
.TEXT "/LOCALS/SYMSEG:HIGH"
;DEFINE NODE,<CAIA> ;disables NODE JSYS, for debug
DEFINE RETSKP,<JRST CPOPJ1> ;OVERRIDE UNIVERSAL'S DEFN
XALL
PRGID='DCNSPY' ;NAME OF THIS PROGRAM
PRGABR='SPY' ;3 CHR ABBREVIATION USED FOR PROG.
SPYWHO==0
SPYVER==7 ;MAJOR VERSION
SPYMIN==0 ;MINOR VERSION
SPYEDT==102 ;EDIT NUMBER
SPYCST==0 ;CUSTOMER VERSION
SPVER==<BYTE(3)SPYCST(9)SPYVER(6)SPYMIN(18)SPYEDT> ;[7.1]
LOC 137 ;[7.1]
.JBVER: EXP SPVER ;[7.1]
RELOC ;[7.1]
Subttl Table of Contents
; Table of Contents for DCNSPY
;
; Section Page
;
;
; 1. Help for Hackers . . . . . . . . . . . . . . . . . . . 5
; 2. External Definitions . . . . . . . . . . . . . . . . . 6
; 3. Build the SCAN switch tables . . . . . . . . . . . . . 7
; 4. HLPSTR - The HELP string . . . . . . . . . . . . . . . 8
; 5. Accumulator Assignments . . . . . . . . . . . . . . . 9
; 6. Storage Definitions . . . . . . . . . . . . . . . . . 11
; 7. Necessary BEGSTRs . . . . . . . . . . . . . . . . . . 12
; 8. Line table BEGSTR . . . . . . . . . . . . . . . . . . 13
; 9. TDB BEGSTR . . . . . . . . . . . . . . . . . . . . . . 14
; 10. Start Here . . . . . . . . . . . . . . . . . . . . . . 15
; 11. Call .ISCAN . . . . . . . . . . . . . . . . . . . . . 16
; 12. Call .OSCAN . . . . . . . . . . . . . . . . . . . . . 17
; 13. Find out what user wants to see . . . . . . . . . . . 18
; 14. Action Commands . . . . . . . . . . . . . . . . . . . 19
; 15. SPYGO - Called by Action Commands . . . . . . . . . . 21
; 16. DPY Driver . . . . . . . . . . . . . . . . . . . . . . 22
; 17. TYPTIM - Type out current time . . . . . . . . . . . . 23
; 18. TYPSJB - Type out contents of an SJB . . . . . . . . . 24
; 19. TYPPRT - Type out contents of an PRT . . . . . . . . . 25
; 20. TYPSLB - Type out an SLB . . . . . . . . . . . . . . . 26
; 21. TYPELB - Type out the ELB . . . . . . . . . . . . . . 27
; 22. TYPCDB - Type out the CTERM Data Block . . . . . . . . 28
; 23. TYPRCB - Type out the Router Circuit Block . . . . . . 29
; 24. TYPSPY - Type out an arbitrary table . . . . . . . . . 30
; 25. TYPAJ - Type out an adjacency block . . . . . . . . . 31
; 26. FNDCHB - Find cache block . . . . . . . . . . . . . . 32
; 27. TYPMEM - Type out DECnet memory utilization . . . . . 33
; 28. TYPREB - Type the system free pool tables . . . . . . 35
; 29. TYPFRE - Type out free space utilization . . . . . . . 36
; 30. Load free core quota tables . . . . . . . . . . . . . 37
; 31. TYPQTA - Type out free space quotas (assigned and rema 38
; 32. TYPMRT - Type out the memory request table . . . . . . 39
; 33. XPEEKX - Common routine to peek into the monitor . . . 40
; 34. TYPMB - Type out a Message Block . . . . . . . . . . . 41
; 35. TYPCI - Type out CI DECnet tables . . . . . . . . . . 42
; 36. TYPHN - Type out LAT's HN Table . . . . . . . . . . . 43
; 37. TYPTDB - Read the TDB . . . . . . . . . . . . . . . . 44
; 38. GETTDB - Read in a TDB . . . . . . . . . . . . . . . . 45
; 39. SETSJB - Read the SJB . . . . . . . . . . . . . . . . 46
; 40. SETSLB - Read the SLB . . . . . . . . . . . . . . . . 47
; 41. SETELB - Read the ELB . . . . . . . . . . . . . . . . 48
; 42. SETCDB - Read the CTERM DATA BLOCK . . . . . . . . . . 49
; 43. SETRCB - Read the RCB . . . . . . . . . . . . . . . . 50
; 44. SETSPY - Read the table at SCNTAD, length LENGTH . . . 52
; 45. Error Message Routines . . . . . . . . . . . . . . . . 53
; 46. UTILITY OUTPUT SUBROUTINES . . . . . . . . . . . . . . 54
; 47. ENMCHN - Type out which channels are in use . . . . . 55
Subttl Table of Contents (page 2)
; Table of Contents for DCNSPY
;
; Section Page
;
;
; 48. TYPBLK - Type out a data block . . . . . . . . . . . . 56
; 49. TYPTAB - Type out an arbitrary table as octal words . 57
; 50. TYPMTB - Type out a memeory request table as decimal h 58
; 51. .SWxxx - Local Switch Value Processors . . . . . . . . 60
; 52. Terminal Handling Routines . . . . . . . . . . . . . . 63
; 53. End of Subprogram . . . . . . . . . . . . . . . . . . 65
; 54. Block Description Tables
; 54.1 SJB . . . . . . . . . . . . . . . . . . . . . 67
; 54.2 RCB (Router Circuit Block) . . . . . . . . . . 71
; 54.3 AJB (Adjacency Block) . . . . . . . . . . . . 72
; 54.4 DL (Data Link Block) . . . . . . . . . . . . . 73
; 54.5 MB (Message Block) . . . . . . . . . . . . . . 75
; 54.6 CDB (CTERM Data Block) . . . . . . . . . . . . 76
; 54.7 CHB (CH blocks) . . . . . . . . . . . . . . . 77
; 55. TDB Description Tables . . . . . . . . . . . . . . . . 78
; 56. Expand the Table Building Macros . . . . . . . . . . . 79
; 57. .Txxx - Local Typeout Routines . . . . . . . . . . . . 80
; 58. Expand the Table Building Macros . . . . . . . . . . . 93
; 59. Block Description Tables
; 59.1 LAT BEGSTRs . . . . . . . . . . . . . . . . . 97
; 60. CIRCUIT BLOCK data structure definitions . . . . . . . 98
; 61. SLOT BLOCK data structure definitions . . . . . . . . 99
; 62. PENDING REQUEST BLOCK . . . . . . . . . . . . . . . . 100
; 63. PORT STORAGE DEFINITIONS . . . . . . . . . . . . . . . 101
; 64. Macro Definitions
; 64.1 BEGSTRS . . . . . . . . . . . . . . . . . . . 102
; 65. Block Description Tables
; 65.1 LAT Tables . . . . . . . . . . . . . . . . . . 103
; 66. CIRCUIT BLOCK data structure definitions . . . . . . . 104
; 67. SLOT BLOCK data structure definitions . . . . . . . . 105
; 68. Data Structure Definitions - PX (Pending request block 106
; 69. Data Structure Definitions - PSB (PRT STORAGE BLOCK) . 107
; 70. Data Structure Definitions - PTB (PORTAL TABLE BLOCK) 108
; 71. Expand the Table Building Macros . . . . . . . . . . . 109
; 72. LAT Block-Finding Code . . . . . . . . . . . . . . . . 110
; 73. TYPBLK Service Subrs . . . . . . . . . . . . . . . . . 111
; 74. TYPSLT - Type out a Message Block . . . . . . . . . . 112
; 75. TYPPRS - Type out addresses of all PR blocks . . . . . 113
; 76. TYPPRX - Type out a Xmit buffer . . . . . . . . . . . 114
; 77. TYPPRA - Type out a Pending Request Block . . . . . . 115
; 78. TYPXBF - Type out a lat XMIT buffer . . . . . . . . . 116
; 79. TYPPSB - DISPLAY A PORT STORAGE BLOCK . . . . . . . . 117
; 80. TYPPTB - DISPLAY A PORTAL TABLE BLOCK . . . . . . . . 118
; 81. End of Program . . . . . . . . . . . . . . . . . . . . 119
SUBTTL Help for Hackers
COMMENT |
ADDING A NEW TABLE AND COMMANDS TO DCNSPY
DEFINING THE TABLE MACRO
The BEGSTR MACRO which defines your table must be copied into DCNSPY
and changed to the right format. It ends up as a macro named XXXMAC,
where XXX is the table name. The BEGSTR entries must be changed; for
example the BEGSTR entry
WORD NXT ;NEXT JOB BLOCK IN SYSTEM
would become
ENTRY. SJ,NXT,,.TXWDW,0,<NEXT JOB BLOCK IN SYSTEM>
o SJ is the name of the BEGSTR.
o NXT the name of the data item.
o The omitted third item is in case this table is an offset within an
outer table. See SLBMAC and ELBMAC.
o .TXWDW is the name of the routine to output the value. Standard
routines are:
.TXWDW XWD octal
.TDECD Decimal, followed by "."
.TOCTW Octal word
.TSTCF CTERM state
.TCHRS ASCII word (not a pointer), up to 5 characters
.TCHR8 8-bit ASCII word (not a pointer), up to 4 characters
You can write others if you want. They are called with the value in
T1.
o The 0 gives the number of CRLF's to output after this item when
DCNSPY is displaying in NOCOMMENT mode. If it's 0 DCNSPY will output
4 items per line; set it non-zero to double space or to force an item
to be at the beginning of a line.
o The comment is the text which is output in COMMENT mode. This is
usually just the comment from the BEGSTR macro.
There are SED and EMACS macros to help in changing a BEGSTR macro into one of
these things.
After defining the macro, add the entry
DOBLK XXX
after the other DOBLK's, where XXX is the XXX in XXXMAC.
SWITCHES:
In SWTCHS, Define a new action command, and perhaps some setup
commands, to implement your new command. Also add some documentation to
the help text at HLPSTR.
Generally an action command just looks like:
SP *SJB,0,SPYSJB
o The asterisk is a SCAN artifact which I won't explain here. Include
it on the action commands.
o SJB is the command name
o SPYSJB is the routine which handles the command (described further
below).
A setup command might look like:
SP JOB,SCNJOB,.SWDEC,JOB,FS.NFS!FS.NCM!FS.VRQ
o JOB is the command
o SCNJOB is a variable which gets set to 1 if
o JOB is typed, 0 if NOJOB is typed (-1 if not invoked),
o .SWDEC is the routine which reads the argument (decimal in this case)
o JOB is the list of defaults and ranges to use (defined by the DM's
just above SWTCHS),
o Then some optional flags:
NFS Not a file switch
NCM Not a command
VRQ Value required (no default)
LRG Argument can be larger than 18 bits
ROUTINES:
SPYXXX is given in the command entry in SWTCHS. It's the routine which
SCAN dispatches to when that command is typed. It is simply:
SPYXXX: MOVEI T1,TYPXXX ;TYPE OUT THE XXX TABLE
CALLRET SPYGO
where that's the same old XXX - some name representing your table.
TYPXXX needs to read in the table, output up the header, and call
TYPBLK to output the body of the table using the XXXMAC macro. It
should first call SETXXX to read the table. Then output the header.
Useful header routines are:
TYPJOB Type the job number or special name
TYPCHL Output the channel number and skip a line
TYPTTN Output the tty number
TYPTAD Output the address of the table being output
You can also add your own routines. Finish up with the following:
MOVE T1,XXXPTR
CALL TYPBLK
RETSKP
XXXPTR is set up along with XXXMAC. TYPBLK outputs the table according
to XXXMAC. The skip return indicates success. There are no error
returns now; the skip return is just there to waste time and
instructions.
(Note: if an error occurs while DPYing the table - mainly a NODE JSYS
error - DCNSPY will continue to loop, continuing to get the error,
until the user types ESC to get back to command level. This is so the
user can see a table which the monitor is setting it up - DCNSPY would
get errors until the table were created, and then it would start to
display the table.)
SETXXX: calls the NODE JSYS to read the table. If NODE doesn't know
how to read your table you will have to educate it. It's the routine
NDRDB in JNTMAN.MAC. To call NODE, set up the table name in
NODARG+.NDBST and the arguments, if any, in NODARG+.NDBSJ and
NODARG+.NDBSC. Then do:
MOVEI T2,NODARG
NODE
ERJMP NODERR ;FAILED - FATAL ERROR
If NODE succeeds the table is now at NODBLK and the address of the
table is at NODADR.
That's all there is to it.
|
SUBTTL External Definitions
EXTERN .JB41 ;LUUO TRAP ADDRESS (FOR DPY)
EXTERN DPYUUO ;DPY'S ENTRY POINT
EXTERN .ISCAN ;INITIALIZE THE WHOLE SCAN ROUTINE
EXTERN .OSCAN ;READ SWITCH.INI
EXTERN .PSCAN ;PARTIAL SCAN INITIALIZER
EXTERN .VSCAN ;VERB SCANNER
EXTERN .TSPAC ;TYPE A SPACE
EXTERN .TTABC ;TYPE A TAB CHARACTER
EXTERN .TCOMA ;TYPE OUT A COMMA
EXTERN .TCRLF ;TYPE A CRLF
EXTERN .TSTRG ;TYPE A STRING FROM T1
EXTERN .TOCTW ;TYPE NUMBER IN T1 IN OCTAL
EXTERN .TDECW ;TYPE NUMBER IN T1 IN DECIMAL
EXTERN .TSIXN ;TYPE VALUE IN T1 IN SIXBIT
EXTERN .TCOLN ;TYPE A COLON
EXTERN .TRBRK ;TYPE A RIGHT BRACKET
EXTERN .TPPNW ;TYPE T1 AS A PPN
EXTERN .TXWDW ;TYPE T1 AS HALF-WORDS
EXTERN .TCHAR ;TYPE CHARACTER IN T1
EXTERN .TTIME ;TYPE T1 AS A MILLISECOND TIME
EXTERN .TTIMN ;TYPE OUT THE CURRENT TIME
EXTERN .OCTNW ;READ THE CONTROLLER, AND OTHER, NUMBERS
EXTERN .DECNW ;READ IN A DECIMAL NUMBER
EXTERN .SWDEC ;READ IN A DECIMAL SWITCH ARG
EXTERN .SWOCT ;READ IN AN OCTAL SWITCH ARG
EXTERN .SIXSW ;READ IN A SWITCH NAME IN SIXBIT
EXTERN .TICHR ;Read a single character
SUBTTL Build the SCAN switch tables
; See SCNMAC.MAC for definition of macros used here.
;Define the defaults for switches:
; First arg is 3-chr abbreviation used for this switch.
; Second arg is maximum allowed value.
; Third arg is absent default (AD.xxx)
; (not used by SCAN, for application use only).
; Fourth arg is present default (PD.xxx)
; (used by SCAN unless FS.VRQ specified)
DEFINE DM(name,max,abs,pres),<
MX.'name==max
AD.'name==abs
PD.'name==pres
>
RADIX 10
; Name Max Absent Present
; xxx MX.xxx AD.xxx PD.xxx
; ---- ------ ------ -------
DM DPY, 1, 1, 1 ;/DPY
DM COM, 1, 0, 1 ;/COM
DM JOB, 1024, 0, 0 ;/JOB, /TTY
DM CHN, 1024, 1, 1 ;/CHANNEL
DM DLY, 1024, 2, 2 ;/DELAY (SECONDS)
DM PAG, 512, 10, 15 ;/PAGE
DM SJP, 0, 0, 0 ;/TABLE
DM TLN, 128, 0, 0 ;/LENGTH
DM IDX, 128, 0, 0 ;/INDEX
RADIX 8
;Remember to update HELP string at HLPSTR
DEFINE SWTCHS,<
XLIST
;SET-UP SWITCHES - SET ARGUMENTS FOR ACTION SWITCHES
SP *JOB,SCNJOB,.SWDEC,JOB,FS.NFS!FS.NCM!FS.VRQ
SP *CHANNEL,SCNCHN,.SWDEC,CHN,FS.NFS!FS.NCM!FS.VRQ
SP ADDRESS,SCNTAD,.SWOCT,SJP,FS.NFS!FS.NCM!FS.VRQ!FS.LRG
SP *LENGTH,SCNTLN,.SWDEC,TLN,FS.NFS!FS.NCM!FS.VRQ
SP TTY,SCNTTY,.SWOCT,JOB,FS.NFS!FS.NCM!FS.VRQ
SP NRT,,.SWNRT,,FS.NCM!FS.NFS ;(SETS UP SCNJOB)
SP CTERM,,.SWCTM,,FS.NCM!FS.NFS ;(SETS UP SCNJOB)
SP CIRCUIT,,.SWCKT,,FS.NFS!FS.NCM!FS.VRQ
SP *INDEX,SCNIDX,.SWDEC,IDX,FS.NFS!FS.NCM!FS.VRQ
;ACTION SWITCHES - CAUSE A TABLE TO BE DISPLAYED
SP *SJB,0,SPYSJB
SP *SLB,0,SPYSLB
SP *PRA,0,SPYPRA ;[101]
SP *PRS,0,SPYPRS ;[101]
SP *PRX,0,SPYPRX ;[101]
SP ELB,0,SPYELB ;[102]
SP *RCB,0,SPYRCB
SP *AJB,0,SPYAJ
SP *MEM,0,SPYMEM
SP *MRT,0,SPYMRT
SP *CDB,0,SPYCDB
SP *SPY,0,SPYSPY
SP *PORT,0,SPYPRT
SP *MB,0,SPYMB
SP *CI,0,SPYCI
SP *HN,0,SPYHN
SP CBL,0,SPYCBL
SP *SLT,0,SPYSLT
SP *TDB,0,SPYTDB
SP *PSB,0,SPYPSB
SP *PTB,0,SPYPTB
SP DAYTIME,0,SPYTIM
;COSMETIC SWITCHES - AFFECT THE NATURE OF THE DISPLAY
SP *EXIT,,SPYXIT,,FS.NCM!FS.NFS
SN DPY,SCNDPY,FS.NCM!FS.NFS
SP PAGE,SCNPAG,.SWDEC,PAG,FS.NFS!FS.NCM!FS.VRQ
SN COMMENT,SCNCOM,FS.NCM!FS.NFS
SP DELAY,SCNDLY,.SWDEC,DLY,FS.NFS!FS.NCM!FS.VRQ
LIST
>
;Now build the tables.
DOSCAN (SWT)
SUBTTL HLPSTR - The HELP string
HLPSTR: ASCIZ ~
DCNSPY uses verb-mode SCAN. The commands are:
Set-up commands:
JOB n Job number to spy on (for SJB, SLB, ELB)
NRT Look at NRT's DECnet data (instead of JOB)
CTERM Look at CTERM's DECnet data (instead of JOB)
CHANNEL n DECnet channel number for that job. Default is 1.
Channel also controls LAT CBL Circuit numbers, and LAT
Pending Request Blocks.
INDEX n NI PSB or PTB index number. Default is 0.
CIRCUIT c Set circuit-id for examining DECnet circuit blocks.
(Circuit-ids are of the form DEV-CNT-UNT, (DTE-0-1,CI-0-0.1))
TTY n TTY number to spy on (for CTERM's CDB)
ADDRESS n Look at the table starting at n, also used for MB msg blk.
Can also be used for LAT Pending Request Blocks.
LENGTH l Set length of the table at ADDRESS n to be l
Action commands:
AJ Type out the adjacency Block at the given Address
CBL Type out the Circuit Block (LAT) for given Channel = Circuit
CDB Type out the CTERM DATA BLOCK for the given TTY
CI Type out the CB and PB for DECnet/CI
DAYTIME Type out the current time
ELB Type out the ELB for the given Job, Channel
HN Type out LAT's Host Node Data Block for this system
MB Type out the Message Block at the given Address
MEM Type out DECnet free pool usage
MR Type out the memory request table
PORT Type out the Port Table for given Job, Channel
PRA Type out a specific LAT Pending Request Block for given Channel
PRS Type out the channel/address of all Pending Request Blocks
PRX Type out the XMIT buffer associated with a Pending Request
RCB Type out Router's RCB for given Circuit-id
SJB Type out the SJB for the given Job
SLB Type out the SLB for the given Job, Channel
SLT Type out the Slot Block for the given TTY
SPY Type out the table at the given Address and Length
TDB Type out the Terminal Data Block for the given TTY
PSB Type out the port storage block for the given index
PTB Type out the portal table block for the given index
Cosmetic commands:
[NO]COMMENT Type out comments for each field displayed
[NO]DPY Use DPY mode
PAGE Length by which DPY mode + and - commands shift page
DELAY Seconds to sleep in DPY mode
In DPY mode, the Immediate commands are:
escape Escape to command mode
^Z Exit to monitor. Type CONTINUE to continue
^C Exit to monitor. Type CONTINUE to continue
E Exit to monitor. Type CONTINUE to continue
C Toggle the comment/nocomment display mode
N Go to Next channel, LAT Circuit, PSB or PTB
P Go to Previous channel LAT Circuit, PSB or PTB
R Refresh the screen now
space Recalculate the screen now
<CR> Recalculate the screen now
+ Move window forward by PAGE lines
- Move window backward by PAGE lines
~;END OF ASCIZ STRING
SUBTTL Accumulator Assignments
T1=1
T2=2
T3=3
T4=4
P1=5
P2=6
NUM=7 ;NUMBER TO PRINT FOR "OUTNUM"
N=7 ;SCAN CALLS IT THIS
BAS=10 ;BASE FOR "OUTNUM" TO PRINT NUMBER IN
C=10 ;AGAIN FOR SCAN
WDT=11 ;WIDTH OF FIELD FOR OUTNUM. ZERO = ANY,
; MINUS MEANS LEFT JUSTIFY.
FIL=12 ;CHAR TO USE FOR FILLER.
DX=13 ;ADDRESS OF SCTL JOB BLOCK IN SPY PAGE
CX=16 ;SUPER-TEMP FOR MACROS
.SAC==CX ;SOME MACROS USE THIS NAME
P=17
%CIRMX==6 ;Maximum number of circuit addresses we cache
TYOBSZ==400 ;TTY'S OUTPUT BUFFER SIZE
SUBTTL MACROS
DEFINE ERR(TEXT),<
JRST [MOVEI T1,[ASCIZ |TEXT
|]
JRST ERRSTR]
>
DEFINE MSG(TEXT),<
JRST [MOVEI T1,[ASCIZ |TEXT
|]
JRST .TSTRG]
>
SUBTTL Expand the Block Description Macros
;The tables set on this page are used by the TYPBLK routine
;Define the offsets into the first-level tables, these offsets
;correspond to the ordering of the ENTRY. calls in the DOBLK macro.
DO.NAM==0
DO.PTR==1
DO.RTN==2
DO.TXT==3
DO.STX==4
DEFINE DOBLK1(aa),<
DEFINE ENTRY.(n1,n2,offset,routine,count,ltxt),<EXP <SIXBIT /n1'n2/>>
Z [aa'MAC](P2)
DEFINE ENTRY.(n1,n2,offset,routine,count,ltxt),<POINTR(n1'.'n2'offset,n1'n2)>
Z [aa'MAC](P2)
DEFINE ENTRY.(n1,n2,offset,routine,count,ltxt),<EXP routine>
Z @[aa'MAC](P2)
DEFINE ENTRY.(n1,n2,offset,routine,count,ltxt),<LTXMAC(<ltxt>)>
Z [aa'MAC](P2)
DEFINE ENTRY.(n1,n2,offset,routine,count,ltxt),<STXMAC(count)>
Z [aa'MAC](P2)
DEFINE ENTRY.(n1,n2,offset,routine,count,ltxt),<aa'LEN==aa'LEN+1>
aa'LEN==0
aa'MAC
>;END OF DEFINE DOBLK1
DEFINE STXMAC(count),<
EXP count
>
DEFINE LTXMAC(ltxt),<
[ASCIZ ~ltxt
~]>
DEFINE DOBLK(aa),<
aa'TBL::DOBLK1(aa)
aa'PTR::XWD -aa'LEN,aa'TBL
>
SUBTTL Storage Definitions
;Data areas to support the NODE JSYS .NDRDB function.
;Note: NODBLK must be longer than the longest block read.
NODARG: BLOCK 4 ;ARGUMENT BLOCK FOR NODE JSYS
NODADR::BLOCK 1 ;ADDRESS OF THE TABLE BEING READ
NODBLK::BLOCK ^D128 ;(THAT OUGHT TO HOLD THE LITTLE SOB'S)
NODBLE=.-1
NODCHL: BLOCK ^D32 ;CHANNEL TABLE FOR JOB
PEKSTG: ASCII /?XPEEK JSYS failed - / ;(21 characters)
NODSTG: ASCII /?NODE JSYS failed - / ;(THIS IS 20 CHARACTERS LONG)
NODERM: BLOCK 20 ;PLACE TO HOLD MONITOR'S ERROR MESSAGE
XPKBLK: BLOCK .XPLEN ;XPEEK argument block
TTYJFN: BLOCK 1 ;TTY JFN, FOR OUTPUT
SPMSAV: BLOCK 1 ;RFMOD IN EFFECT WHILE DCNSPY IS RUNNING
FMDSAV: BLOCK 1 ;SAVED RFMOD WORD, TO BE RESTORED ON EXIT
INIFLG: BLOCK 1 ;-1 IF INI$ DONE, ELSE ZERO
SUBTTL General Storage
LN$PDL==100
PDL: BLOCK LN$PDL+1
TTYOBF: BLOCK 1 ;COUNT OF CHARACTERS LEFT IN OUTPUT BUFFER
TTYBPT: BLOCK 1 ;POINTER TO NEXT PLACE TO STORE A CHARACTER
OBF1: BLOCK TYOBSZ ;TTY OUTPUT BUFFER
BLOCK 1 ;EXTRA WORD TO MAKE SURE BUFFER ENDS WITH NULL
CCLF1: BLOCK 1 ;NON-ZERO IF CCL STARTED
SPYFCN: EXP 0 ;PUT FUNCTION ADDRESS HERE FOR SPYGO
TYPDPY: EXP 0 ;NON-ZERO TO TYPE IN DPY MODE
COLPOS: BLOCK 1 ;COLUMN POSITION WHILE DPY-ING
BIGOUT: BLOCK 1 ;NON-ZERO TO USE TTY OUTPUT BUFFERS
LINGOL: EXP 0 ;USED BY SPYINT'S + AND - COMMANDS
LINCNT: EXP 0 ; DITTO
NREPMX: EXP 0
NREQTA: EXP 0
NREPFR: EXP 0
XREPMX: EXP 0
XREQTA: EXP 0
XREPFR: EXP 0
CKTID: EXP 0 ;PLACE TO STORE CIRCUIT ID
LOPCKT: EXP 0 ; Current circuit block
CHBADR: EXP 0 ; Address of CH blocks
CHBSIZ: EXP 0 ; Length of CH blocks
CHBLKN: EXP 0 ; Number of CH blocks
CIRBUF: BLOCK RC.LID+1
CIRBLK: BLOCK %CIRMX ; Table of circuit blocks
CIRIDB: BLOCK %CIRMX ; Table of line IDs
CIRDLA: BLOCK %CIRMX ; Table of data link block addresses
CIRAJQ: BLOCK %CIRMX ; Table of adjacency queues
CIRIDX: BLOCK 1 ; Index into above tables
CBADR: BLOCK 1 ;Keeps address of CBBLK (DECnet/CI)
LAHNDB::BLOCK 1 ;Keeps address of HN block (LAT Host Node)
CHNBAS::BLOCK 1 ;ADDRESS OF FIRST PORT STORAGE BLOCK
PORBAS::BLOCK 1 ;ADDRESS OF FIRST PORTAL TABLE BLOCK
TTACTL::BLOCK 1 ;Holds value of monitor symbol TTACTL
PRVEC:: BLOCK 1 ;[101]Holds value of monitor symbol PRVECT
;SCAN storage
BEGSCN:! ;START OF REGION TO BE SET TO -1
SCNCHN::BLOCK 1 ;ZERO-RELATIVE CHANNEL NUMBER WE'RE TO SPY ON
SCNJOB: BLOCK 1 ;JOB NUMBER WE'RE TO SPY ON
SCNDPY: BLOCK 1 ;NON-ZERO TO GO INTO DPY MODE
SCNPAG: BLOCK 1 ;SIZE OF A PAGE, FOR "+" SCROLLING
SCNDLY: BLOCK 1 ;DEFAULT DPY TIMER
SCNCOM: BLOCK 1 ;TYPE OUT COMMENTS IF NON-ZERO
SCNTAD::BLOCK 1 ;ADDRESS OF MONITOR TABLE TO LOOK AT
MAPADR: BLOCK 1 ;Temporary location for SCNTAD
SCNTLN: BLOCK 1 ;LENGTH OF MONITOR TABLE TO LOOK AT
SCNTTY::BLOCK 1 ;TTY NUMBER TO LOOK AT
ENDSCN==.-1 ;END OF REGION TO BE SET TO -1
SCNIDX::BLOCK 1 ;INDEX FOR PSB,PTB
LENGTH::BLOCK 1 ;INTERMEDIATE TABLE LENGTH VALUE
SUBTTL Necessary BEGSTRs
;This is the CH BEGSTR from D36COM with its name changed to avoid conflicts
BEGSTR XH ;Core handler structure
WORD BOT ;Pointer to free pool start
WORD PTR ;pointer to first free block
WORD AVL ;Number of available blocks
HWORD LWM ;;; Low water mark
HWORD REQ ;;; Size requested
;The following 3 fields are expected to be in the last word, see CHBLKS
FIELD CON,1 ;Set if this block type subject to congestion
FIELD NUM,17 ;Total blocks, alloc & unalloc.
HWORD SIZ ;Size of blocks.
ENDSTR
BEGSTR RE
WORD BAS ;Starting address of free space
WORD END ;Address of last word of free space
WORD TOT ;Total size of free space in blocks
WORD PR1 ;If remaining space less than this,
; allocate only priority 1
WORD GRO ;If remaining space less than this, grow free
;space (larger than REPR1)
WORD BTB ;Address of start of bit table
WORD BTL ;Length of bit table (words)
WORD TFR ;Total remaining unallocated blocks
WORD FFB ;Number of block just past end of free space
WORD PMX ;Number of pools
WORD QTA ;Addr of block containing quota for each pool
WORD PFR ;Address of block containing count of
ENDSTR ; unallocated blocks per pool
SUBTTL Line table BEGSTR
BEGSTR LT
WORD LID ; Line ID
FIELD FLG,1 ; Flags
BIT DVE ; Driver believes device is present
FIELD STA,3 ; State of line
FIELD CON,2 ; Controller (normal/loopback)
FIELD PRO,6 ; Protocol type
FIELD CTY,6 ; Circuit type
FIELD DBF,6 ; Default number of buffers
FIELD BSZ,12 ; Maximum receive buffer size on this line
HWORD BNO ; Number of buffers to post
HWORD NBP ; Number of buffers posted
ENDSTR
SUBTTL TDB BEGSTR
BEGSTR T
FIELD FLG,30,29 ;FLAGS
BIT T%SAL ;SENDALL BEING DONE TO THIS LINE
BIT T%SHT ;THIS IS A SHORT BLOCK
BIT T%MES ;THIS IS A SYSTEM MESSAGE BLOCK
BIT T%OTP ;OUTPUT IS ENROUTE TO THE LINE
BIT T%FWK ;FORCED WAKEUP
BIT T%SFG ;STOPPED ON END-OF-PAGE
BIT T%RFG ;REPEAT LAST CHARACTER (BKJFN)
BIT T%WFG ;BLOCKED ON INPUT
BIT T%PRM ;DON'T DEALLOCATE DYNAMIC DATA
BIT T%BAC ;PERMANENT AND BECOMING ACTIVE
BIT T%NXO ;PAUSE ON END-OF-PAGE MODE
BIT T%BKO ;FORK BLOCKED FOR OUTPUT EVENT ON THIS LINE
BIT T%NUS ;NET USER STATE
BIT T%DD1 ;DEVICE DEPENDENT BIT
BIT T%NPM ;MCB NVT OLD PAGE MODE
BIT T%RXF ;HAVE RECEIVED XOFF ON LINE
BIT T%FLO ;FLUSHING OUTPUT AT TTSND
BIT T%HPO ;HIGH PRIORITY OUTPUT QUEUED
BIT T%DAL ;DEALLOCATE OF BLOCK REQUESTED
; BIT T%DBA ;CTS Terminal Data Base is Active
BIT T%XFF ;FORCE XOFF/XON STATUS TO FRONT-END
BIT T%SEC ;SERVER SHOULD ECHO
BIT T%WKC ;WAKE-UP SET HAS CHANGED
BIT T%SPG ;PAGE STOP IS TURNED ON IN THE SERVER
FIELD TLCK,6,35 ;(30-35) COUNT OF LOCKS ON THIS BLOCK
FIELD YLMD,2,4 ;TERMINAL DATA MODE FOR LAST INPUT CHAR
FIELD TOCN,3,7 ;COUNT OF EXTRA BUFFERS
FIELD TOMX,1,8 ;EXTRA BUFFERS IN USE
FIELD TTYP,9,17 ;TERMINAL TYPE
HWORD INTL
HWORD LTYP ;LINE TYPE (SAME AS TTSTY)
FIELD SALT,6,23 ;SENDALL TIMEOUT COUNT
FIELD SALC,12,35 ;SENDALL CHARACTER COUNT
WORD TSAL2 ;SENDALL BYTE POINTER
WORD TDEV ;DEVICE DEPENDET WORD
FIELD OWRN,8,7 ;COUNT IN OUPUT BUFFER FOR WAKEUP
FIELD TNIN,4,11 ;NO. INPUT BUFFERS
FIELD TNOU,4,15 ;NUMBER OUTPUT BUFFERS
FIELD IMAX,10,25 ;MAX BYTES IN INPUT BUFFER
FIELD OMAX,10,35 ;MAX BYTES IN OUTPUT BUFFER
WORD TOCT ;NUMBER CHARACTERS IN OUTPUT BUFFER
WORD TOOUT ;POINTER FOR REMOVING CHAR FROM OUTPUT BUFFER
WORD TOIN ;POINTER FOR ENTERING CHAR INTO OUTPUT BUFFER
FIELD TUPC,9,8 ;UNPAUSE ON PAGE CHARACTER
FIELD YLCH,9,17 ;LAST CHAR REMOVED FROM INPUT BUFFER
FIELD PWID,9,26 ;PAGE WIDTH
FIELD TPPC,9,35 ;PAUSE/UNPAUSE ON PAGE CHARACTER
WORD TICT ;NUMBER CHARACTERS IN INPUT BUFFER
WORD TIOUT ;POINTER FOR REMOVING CHAR FROM INPUT BUFFER
WORD TIIN ;POINTER FOR ENTERING CHAR INTO INPUT BUFFER
WORD MOD1 ;CONTROL CHARACTER OUTPUT CONTROL WORDS
WORD MOD2 ;(2 BITS PER CHARACTER)
WORD TDPSI ;BIT FOR TERMINAL CODE SET IF DEFERRED INTERRUPT
WORD TPSI ;BIT FOR TERMINAL CODE SET IF INTERRUPT
WORD TLNK ;LINES LINKED TO (9 BITS PER LINE)
HWORD PGPS ;CURRENT LINE POSITION WITHIN PAGE
HWORD LNPS ;CURRENT CHARACTER POSITION WITHIN LINE
FIELDM OFLG,TT%OSP ;CTRL/O WAS TYPED
FIELD PLEN,8,17 ;PAGE LENGTH
FIELDM TDUM,TT%DUM ;DUPLEX MODE
NXTWRD
HWORD CJOB ;CONTROLLING JOB NUMBER
HWORD WFRK ;NUMBER OF FORK IN INPUT WAIT ON THIS LINE
HWORD TPFK ;FORK WHICH IS TOP FORK OF A SCTTY TREE
HWORD TPSFK ;PSI FORK FOR NON CONTROL TTY PSI'S
WORD CHR1 ;WAKE UP CHARACTER MASK (ASCII CODES 0-31.)
WORD CHR2 ;WAKE UP CHARACTER MASK (ASCII CODES 32.-63.)
WORD CHR3 ;WAKE UP CHARACTER MASK (ASCII CODES 64.-95.)
WORD CHR4 ;WAKE UP CHARACTER MASK (ASCII CODES 96.-127.)
FIELD TIPSI,6,11 ;INPUT PSI LEVEL
FIELD TOPSI,6,17 ;OUPUT PSI LEVEL
HWORD TFCNT ;BYTE COUNT FOR WAKE-UP (0=DISABLED FOR WAKE UP)
WORD TLINE ;LINE COUNTER
FIELD TUEC,7,6 ;NET USER ESCAPE CHAR
FIELD TULL,29,35 ;NET USER LOGICAL LINK - WHEN TTLMAX NOT IN USE
NXTWRD
FIELD TFLA,1,0 ;FIRST CHARACTER SEEN FLAG
FIELD TETP,3,4 ;TYPE
FIELD TCH1,7,11 ;FIRST CHARACTER
FIELD TCH2,7,18 ;SECOND CHARACTER
NXTWRD
WORD TSVPD ;SAVED LINE SPEED
ENDSTR
SUBTTL Start Here
DCNSPY::TDZA T1,T1
MOVEI T1,1
MOVEM T1,CCLF1 ;SET CCL FLAG FOR SCAN
MOVEI T1,NODADR ;INITIALIZE THE NODE JSYS BLOCK:
MOVEM T1,NODARG+.NDRBD ; SET UP DESTINATION
OUTSTR [ASCIZ /Type HELP for HELP
/]
MOVE T1,[PUSHJ P,DPYUUO] ;GET CALLING INSTRUCTION
MOVEM T1,.JB41 ;AND SET UP LUUO DISATCH
RESTART:RESET
MOVE P,[IOWD LN$PDL,PDL] ;STACK
SETOM BEGSCN ;SET SCAN SWITCHES TO -1
MOVE T1,[BEGSCN,,BEGSCN+1]
BLT T1,ENDSCN
CALL TTYINI ;GET READY FOR TTY OUTPUT
SETZM SCNCOM ;SET FOR NO COMMENTS
;Fall through to next page
SUBTTL Call .ISCAN
;From previous page
;The comment from SCN7B.MAC about call to .ISCAN
;.ISCAN--SUBROUTINE TO INITIALIZE COMMAND SCANNER
;CALL AC1=XWD LENGTH,BLOCK
; BLOCK+0=0 OR IOWD PTR TO A LIST OF LEGAL MONITOR COMMANDS
; IF 0, NO RESCAN IS DONE
; BLOCK+1=RH 0 OR SIXBIT CCL NAME
; IF 0, NO CCL MODE
; LH 0 OR ADDRESS OF STARTING OFFSET
; BLOCK+2=RH 0 OR ADDRESS OF CHARACTER TYPEOUT ROUTINE
; IF 0, OUTCHR WILL BE DONE FROM T1
; LH 0 OR ADDRESS OF CHARACTER INPUT ROUTINE
; MUST SAVE ALL ACS, CHAR IN P4
; BLOCK+3=0 OR POINTER (XWD LEN,BLOCK) TO INDIRECT FILE BLOCK
; A.DEV NE 0 TO USE BLOCK
; BLOCK+4=RH 0 OR ADDRESS OF MONRET ROUTINE
; LH 0 OR ADDRESS OF PROMPT ROUTINE
; CALLED WITH CHAR IN RH(T1), LH(T1) HAS
; 0 FOR FIRST LINE, -1 FOR CONTINUATION LINES
; BLOCK+5=LH FLAGS
; RH (FUTURE)
;VALUE AC1=INDEX IN TABLE OF COMMANDS IF FOUND(0,1,...), ELSE -1
MOVE T1,[3,,[ 0
CCLF1,,PRGABR
0,,SCNOUC]]
CALL .ISCAN
;Fall through to next page
SUBTTL Call .OSCAN
;.OSCAN -- SUBROUTINE TO SCAN OPTIONS FILE (DSK:SWITCH.INI[,])
; RETURNS CPOPJ AFTER UPDATING GLOBAL SWITCHES FROM FILE
; THIS ROUTINE SHOULD BE CALLED AFTER TSCAN OR PSCAN
; BUT BEFORE DEFAULTING.
; CALL THIS ONLY AT END OF LINE.
; IT SHOULD BE CALLED BETWEEN ISCAN AND VSCAN FOR VERBS.
;ARGS: AC1=XWD LENGTH,BLOCK
; BLOCK+0=IOWD POINTER TO LIST OF SWITCH NAMES (IOWD XXXXXL,XXXXXN)
; BLOCK+1=LH ADDRESS OF DEFAULT SWITCH TABLE (XXXXXD)
; RH ADDRESS OF PROCESSOR SWITCH TABLE (XXXXXM)
; BLOCK+2=LH ADDRESS OF (FUTURE)
; RH ADDRESS OF SWITCH POINTERS FOR STORING (XXXXXP)
; BLOCK+3=LH TYPE OF HELP (0=NONE, 1=STRING, 2=SUBROUTINE)
; IF GT 77, NAME OF PROGRAM IN WHOLE WORD
; IF -1 IN WORD, USE JOB TABLE
; RH LOCATION OF HELP
; BLOCK+4=NAME OF OPTIONS TO SELECT IN FILE (0 IF NAME OF PROGRAM)
; OR LENGTH,,LIST OF OPTION NAMES
;IF CALL FROM VSCAN, C(T3)= SAME AS BLOCK+4 ABOVE
MOVE T1, [4,,[IOWD SWTL,SWTN ;SHORT LIST OF SWITCHES
SWTD,,SWTM
0,,SWTP
1,,HLPSTR]] ;HELP STRING
CALL .OSCAN ;OPTION (SWITCH.INI) SCANNER
;Now fill in from internal defaults set up with DM macro
DEFINE DFT,(name),<
MOVX T1,AD.'name
SKIPGE SCN'name
MOVEM T1,SCN'name
>
DFT DPY ;/DPY mode
DFT PAG ;/PAGE length
DFT DLY ;/DELAY seconds
DFT COM ;/COMMENTS
DFT CHN ;/CHANNEL number
;Fall through to next page
SUBTTL Find out what user wants to see
;.VSCAN --SUBROUTINE FOR VERB ARGS FORM OF COMMAND SCANNER
; RETURNS CPOPJ IF EOF DURING COMMAND OR CCL AT TOP LEVEL
;ARGS AC1=XWD LENGTH,BLOCK
; BLOCK+0=IOWD POINTER TO LIST OF SWITCH NAMES
; (IOWD XXXXXL,XXXXXN)
; BLOCK+1=LH ADDRESS OF DEFAULT SWITCH TABLE (XXXXXD)
; RH ADDRESS OF PROCESSOR SWITCH TABLE (XXXXXM)
; BLOCK+2=LH ADDRESS OF (FUTURE)
; RH ADDRESS OF SWITCH POINTERS FOR STORING (XXXXXP)
; BLOCK+3=LH TYPE OF HELP (0=NONE, 1=STRING, 2=SUBROUTINE)
; IF GT 77, NAME OF PROGRAM IN WHOLE WORD
; IF -1 IN WORD, USE JOB TABLE
; RH LOCATION OF HELP
; BLOCK+4=LH LENGTH OF FXXX AND PXXX AREAS
; RH START OF FXXX (PER FILE SWITCHES)
; BLOCK+5=LH (FUTURE)
; RH START OF PXXX (STICKY FORM OF FXXX)
; BLOCK+6=NAME OF OPTION LINES (0 IF THIS PROGRAM'S NAME)
;From previous page
MOVE T1, [4,,[IOWD SWTL,SWTN ;SHORT LIST OF SWITCHES
SWTD,,SWTM
0,,SWTP
1,,HLPSTR]] ;HELP STRING
CALL .VSCAN ;VERB SCANNER
JRST RESTART
SUBTTL Action Commands
SPYSJB: MOVEI T1,TYPSJB ;TYPE OUT THE SJB
CALLRET SPYGO
SPYSLB: MOVEI T1,TYPSLB ;TYPE OUT THE SLB
CALLRET SPYGO
SPYELB: MOVEI T1,TYPELB ;TYPE OUT THE ELB
CALLRET SPYGO
SPYCDB: MOVEI T1,TYPCDB ;TYPE OUT THE CTERM DATA BLOCK
CALLRET SPYGO
SPYRCB: MOVEI T1,TYPRCB ;TYPE OUT ROUTER CIRCUIT BLOCK
CALLRET SPYGO
SPYTIM: MOVEI T1,TYPTIM ;TYPE OUT TIME (FOR DPY DEBUG)
CALLRET SPYGO
SPYSPY: MOVEI T1,TYPSPY ;TYPE OUT SOME ARBITRARY TABLE
CALLRET SPYGO
SPYMB: MOVEI T1,TYPMB ;TYPE OUT A MESSAGE BLOCK
CALLRET SPYGO
SPYAJ: MOVEI T1,TYPAJ ;TYPE OUT AN ADJACENCY BLOCK
CALLRET SPYGO
SPYMEM: MOVEI T1,TYPMEM ;Show DECnet memory utilization
CALLRET SPYGO
SPYMRT: MOVEI T1,TYPMRT ;Type out the memory request table
CALLRET SPYGO
SPYPRT: MOVEI T1,TYPPRT ;TYPE OUT THE PORT
CALLRET SPYGO
SPYCI: MOVEI T1,TYPCI ;Type out CI blocks
CALLRET SPYGO
SPYHN: CALL HNSUBR ;Get HN block address
RET
MOVEI T1,TYPHN ;Type out HN (LAT Host Node) Blocks
CALLRET SPYGO
SPYCBL: CALL HNSUBR ;Get HN block address
RET
MOVEI T1,TYPCBL## ;Type out CBL (LAT Host Circuit) Block
CALLRET SPYGO
SPYSLT: CALL TDSUBR ;Get TTACTL address
RET
MOVEI T1,TYPSLT## ;Type out SLOT (LAT Slot) Block
CALLRET SPYGO
SPYPRX: CALL PRSUBR ;[101]Get PRVECT address
RET ;[101]
MOVEI T1,TYPPRX## ;[101]Type out the XMIT buffer
CALLRET SPYGO ;[101]
SPYPRS: CALL PRSUBR ;[101]Get PRVECT address
RET ;[101]
MOVEI T1,TYPPRS## ;[101]Type out the Pending Request Blocks
CALLRET SPYGO ;[101]
SPYPRA: CALL TDSUBR ;[101]Get TTACTL address
RET ;[101]
CALL PRSUBR ;[101]Get PRVECT address
RET ;[101]
MOVEI T1,TYPPRA## ;[101]Type out Pending Request Block
CALLRET SPYGO ;[101]
;[101] Add routine PRSUBR
PRSUBR: SKIPE PRVEC ;Already got the value?
RETSKP ;Yes, its not going to change
MOVX T1,.SNPSY ;Get symbol
MOVE T2,[RADIX50,PRVECT];PRVECT is global pointer to Pending Req
;Vector
MOVE T3,[RADIX50,LATSRV];In module LATSRV
SNOOP% ;Address comes back in T2
ERR ?Can't find symbol PRVECT
MOVX T1,1 ;Get pointer to Pending Request blocks
XMOVEI T3,PRVEC ; to PRVEC
CALL XPEEKX ; via XPEEK
ERR ?Can't XPEEK PRVECT pointer
RETSKP
HNSUBR: SKIPE LAHNDB ;Already got the value?
RETSKP ;Yes, its not going to change
MOVX T1,.SNPSY ;Get symbol
MOVE T2,[RADIX50,LAHNDB] ; LAHNDB is global pointer to Host Node list
SETZ T3, ; in any module
; MOVE T3,[RADIX50,LATSRV] ; in module LATSRV
SNOOP% ;Address comes back in T2
ERR ?Can't find symbol LAHNDB
MOVX T1,1 ;Get pointer to HN block
XMOVEI T3,LAHNDB ; to LAHNDB
CALL XPEEKX ; by way of XPEEK
ERR ?Can't XPEEK LAHNDB pointer
RETSKP
SPYPSB: CALL PSSUBR ;GET CHNBAS VALUE
RET ;FAILED
MOVEI T1,TYPPSB## ;DISPLAY PSB (PORT STORAGE BLOCK)
CALL SPYGO
SETZM SCNIDX ;REINIT SCNIDX
RET
PSSUBR: SKIPE CHNBAS ;ALREADY HAVE VALUE?
RETSKP ;ALL SET THEN
MOVX T1,.SNPSY ;Get symbol
MOVE T2,[RADIX50,CHNBAS] ;CHNBAS IS POINTER TO FIRST PSB
SETZ T3, ; in any module
SNOOP% ;Address comes back in T2
ERR ?Can't find symbol CHNBAS
MOVX T1,1 ;GET ADDRESS OF FIRST BLOCK
XMOVEI T3,CHNBAS ; to CHNBAS
CALL XPEEKX ; by way of XPEEK
ERR ?Can't XPEEK CHNBAS
RETSKP
SPYPTB: CALL PTSUBR ;GET PORBAS VALUE
RET ;FAILED
MOVEI T1,TYPPTB## ;DISPLAY PTB (PORTAL TABLE BLOCK)
CALL SPYGO
SETZM SCNIDX ;REINIT SCNIDX
RET
PTSUBR: SKIPE PORBAS ;ALREADY HAVE VALUE?
RETSKP ;ALL SET THEN
MOVX T1,.SNPSY ;Get symbol
MOVE T2,[RADIX50,PORBAS] ;PORBAS IS POINTER TO FIRST PTB
SETZ T3, ; in any module
SNOOP% ;Address comes back in T2
ERR ?Can't find symbol PORBAS
MOVX T1,1 ;GET ADDRESS OF FIRST BLOCK
XMOVEI T3,PORBAS ; to PORBAS
CALL XPEEKX ; by way of XPEEK
ERR ?Can't XPEEK PORBAS
RETSKP
SPYTDB: CALL TDSUBR ;Get TTACTL value
RET
MOVEI T1,TYPTDB ;Type out TDB (Terminal data block)
CALLRET SPYGO
TDSUBR: SKIPE TTACTL ;Already got the value?
RETSKP ;Yes, its not going to change
MOVX T1,.SNPSY ;Get symbol
MOVE T2,[RADIX50,TTACTL] ; LAHNDB is global pointer to Host Node list
SETZ T3, ; in any module
MOVE T3,[RADIX50,STG] ; in module STG
SNOOP% ;Address comes back in T2
ERR ?Can't find symbol TTACTL
MOVEM T2,TTACTL ;SAVE THE VALUE OF TTACTL
RETSKP
SUBTTL SPYGO - Called by Action Commands
;Call:
; CALL SPYGO
; Only Return
SPYGO: MOVEM T1,SPYFCN ;SAVE THE ADDRESS OF THE OUTPUT ROUTINE
MOVEI T1,.PRIOU ;TURN OFF ECHO
MOVE T2,SPMSAV
TRZ T2,4000
SFMOD ;SET THOSE SETTINGS
SKIPLE SCNDPY ;IN DPY MODE?
JRST SPYDPY ;YES, GO LOOP FOR A WHILE
;Here for non-DPY mode
SETZM TYPDPY ;TELL SCNOUC NOT TO USE DPY MODE
CALL @SPYFCN ;TYPE OUT THE DATA ONCE
JFCL ;IGNORE ERROR RETURN
RET ;RETURN TO VSCAN
;Here to loop for DPY mode
SPYDPY: SETZM LINGOL ;START AT TOP OF LOGICAL SCREEN
SETOM TYPDPY ;TELL SCNOUC TO USE DPY MODE
SETOM BIGOUT ;USE BUFFERS INSTEAD OF OUTCHRS
CALL SPYRFH ;DO THE DPY DISPLAY LOOP
SKIPE TYPDPY ;STILL IN DPY MODE?
TTY$ $TTCLR ;YES, HOME UP AND CLEAR SCREEN
CALL TTYFRC ;FORCE OUT LAST OF PIM MODE DATA
SETZM TYPDPY ;REFRAIN FROM DPY DISPLAYS NOW
SETZM BIGOUT ;NOW USE OUTCHRS INSTEAD OF BUFFERS
MOVEI T1,.PRIOU ;TURN ECHO BACK ON
MOVE T2,SPMSAV
SFMOD
RET ;RETURN TO VSCAN
SUBTTL DPY Driver
SPYRFH: INI$ ;INITIALIZE AND BLANK THE SCREEN
SETOM INIFLG ;SAY THE INITIALIZE WAS DONE
SET$ [XWD $SECHR,TTYOUC] ;USE OUR CHARACTER OUTPUT ROUTINE
SPYDPL: MOVEI T1,.PRIIN ;SEE IF THE USER TYPED SOMETHING
SIBE
JRST SPYINT ;THERE'S SOMETHING THERE - GO READ IT
SPYDP1: SETZM LINCNT ;TELL SCNOUC WE'RE STARTING ANEW
SETZM COLPOS ;SET POSITION TO COLUMN 1
CALL @SPYFCN ;CAUSE SOME TTY OUTPUT
RET ;RETURN NOW IF ERROR ENCOUNTERED
DPY$ ;SUCCESS, UPDATE THE SCREEN
CALL TTYFRC ;FORCE OUT REMAINDER OF BUFFER
MOVE T1,SCNDLY ;PICK UP USER'S IDEA OF A GOOD WAIT TIME
IMULI T1,^D1000 ;MAKE SECONDS INTO MILLISECONDS
DISMS ;SLEEP FOR SCNDLY MILLISECONDS
JRST SPYDPL ;TIME TO GO CHECK THINGS AGAIN
;HERE WHEN THE USER TYPED A CHARACTER, TO SEE WHAT HE WANTS
SPYINT: PBIN ;READ THE USER'S CHARACTER INTO T1
CAIL T1,"A"+40 ;LOWER CASE?
CAILE T1,"Z"+40 ;...
CAIA ;NO
SUBI T1,40 ;YES - MAKE UPPER CASE
CAIN T1,33 ; ESCAPE?
RET ;YES - GET OUT OF THE LOOP
CAIN T1,"A" ; User request we display adjacencies?
JRST [MOVE T1,SPYFCN ; Get previous request
CAIE T1,TYPRCB ; Were we showing circuits?
SKIPA T1,[TYPRCB]; No, toggle to circuits
MOVEI T1,TYPAJ ; Yes, then toggle to adjacencies
MOVEM T1,SPYFCN
JRST SPYRFH] ; and make the new display
CAIN T1,"R" ;REFRESH?
JRST SPYRFH ;YES
CAIN T1,"C" ;TOGGLE COMMENT/NOCOMMENT SWITCH
JRST [SKIPLE T1,SCNCOM ;YES - DO IT
TDZA T1,T1
MOVEI T1,1
MOVEM T1,SCNCOM
SETZM LINGOL
JRST SPYDPL] ;AND PROCEED
CAIE T1,15 ;<CR> OR
CAIN T1," " ; SPACE?
JRST SPYDPL ;YES, RECALC SCREEN
CAIE T1,"C"-100 ;CONTROL-C,
CAIN T1,"Z"-100 ; OR CONTROL Z?
JRST SPYXIT ;YES - GO HOME TO MONITOR
CAIN T1,"E" ; OR "E"
JRST SPYXIT ;YES - GO HOME TO MONITOR
CAIE T1,"=" ;LOWER CASE VERSION OF "+"
CAIN T1,"+" ;GO TO NEXT PART OF SCREEN?
JRST [MOVE T2,SCNPAG ;YES
ADDM T2,LINGOL
JRST SPYRFH]
CAIN T1,"N" ;GO TO NEXT CHANNEL?
JRST [AOS SCNCHN ;Increment channel pointer
AOS SCNIDX ; and the index counter
SETZM CKTID ; and clear circuit the user requested
JRST SPYRFH]
CAIN T1,"P" ;GO TO PREV CHANNEL?
JRST [SOSG SCNCHN ;YES
AOS SCNCHN ;DON'T LET CHN GO BELOW 1
SOSGE SCNIDX ;Decrement index counter
AOS SCNIDX ; don't let it go below zero
SETZM CKTID ; and clear requested circuit
JRST SPYRFH]
CAIN T1,"-" ;GO TO PREVIOUS PAGE?
JRST [MOVN T2,SCNPAG ;YES
ADDB T2,LINGOL
JUMPGE T2,SPYRFH
SETZM LINGOL ;DON'T LET GOAL GO NEGATIVE
JRST SPYRFH]
JRST SPYDP1 ;UNKNOWN COMMAND - JUST LOOP
;HERE ON CONTROL-C OR CONTROL-Z, TO EXIT
SPYXIT: SKIPE INIFLG ;WAS AN INITIALIZE DONE?
TTY$ $TTCLR ;YES - HOME UP AND CLEAR SCREEN
CALL TTYFRC ;FORCE OUT REST OF TTY BUFFER
MOVEI T1,.PRIIN ;GET THE ORIGINAL RFMOD WORD
MOVE T2,FMDSAV
SFMOD ;RESTORE THE ORIGINAL SETTINGS
STPAR
HALTF ;GO HOME
JRST SPYRFH ;REFRESH SCREEN ON CONTINUE
SUBTTL TYPTIM - Type out current time
;For debugging the DPY driver
;
;Call:
; CALL TYPTIM ;NO ARGS IN ACS
; Error Return to stop DPY loop
; Normal Return
TYPTIM: CALL .TTIMN ;TYPE OUT CURRENT TIME
CALL .TCRLF ;CARRIAGE RETURN
RETSKP ;SUCCESS RETURN
SUBTTL TYPSJB - Type out contents of an SJB
;Call:
; CALL TYPSJB ;NO ARGS IN ACS
; Error Return to stop DPY loop
; Normal Return
TYPSJB: CALL SETSJB ;SET UP POINTERS TO DECNET BLOCKS
RETSKP ;LEAVE IF NO SJB (ERROR ALREADY GIVEN)
CALL .TCRLF ;SKIP A LINE BETWEEN CHANNELS AND BANNER
MOVEI T1,[ASCIZ /SJB for /]
CALL .TSTRG
CALL TYPJOB ;TYPE THE JOB NUMBER OR SPECIAL
CALL TYPTAD ;AND THE ADDRESS OF THE TABLE
MOVE T1,SJBPTR## ;GET AOBJN POINTER TO SJBTBL
CALL TYPBLK ;TYPE OUT THE SJB
RETSKP ;SUCCESS RETURN
SUBTTL TYPPRT - Type out contents of an PRT
;Call:
; CALL TYPPRT ;NO ARGS IN ACS
; Error Return to stop DPY loop
; Normal Return
TYPPRT: CALL SETSJB ;Set up pointers to DECnet blocks
RETSKP ;Leave if no SJB (error already given)
LOAD T1,SJMXP,+NODBLK ;Get count of channels alloc'd to port table
SKIPL SCNCHN ;Channel number not negative?
CAMGE T1,SCNCHN ;Channel number fit in allocated port slots?
JRST ILLCHN ;No, boo
LOAD T2,SJPRT,+NODBLK ;Add in address of port indirect table
JUMPE T2,ILLPRT ;Jump if no port indirect table exists
LOAD T1,SJMXP,+NODBLK ;Get length of port indirect table
CALL SUBSPY ;Read the indirect table into NODBLK
RETSKP
MOVX T1,PT.LEN ;Get length of port block for arg to XPEEKX
MOVE T2,SCNCHN ;Channel number = port block number
MOVE T2,NODBLK(T2) ;Get address of port block
JUMPE T2,CHNNIU
MOVEM T2,NODADR ;TELL TYPTAD WHERE THE BLOCK IS
CALL SUBSPY
RETSKP ;It's no use if no block
CALL .TCRLF ;Skip a line between channels and banner
MOVEI T1,[ASCIZ /Port Table for /]
CALL .TSTRG
CALL TYPJOB ;TYPE THE JOB NUMBER OR SPECIAL
CALL TYPCHL ;FOLLOWED BY THE CHANNEL NUMBER
CALL TYPTAD ;AND THE ADDRESS OF THE TABLE
MOVE T1,PRTPTR## ;GET AOBJN POINTER TO PRTTBL
CALL TYPBLK ;TYPE OUT THE PORT BLOCK
RETSKP ;SUCCESS RETURN
ILLPRT: MOVEI T1,[ASCIZ /?No port table for that SJB
/]
CALLRET .TSTRG
CHNNIU: MOVEI T1,[ASCIZ /%Channel is not in use
/]
CALL .TSTRG
RETSKP
SUBTTL TYPSLB - Type out an SLB
;Call:
; CALL TYPSLB ;NO ARGS IN ACS
; Error Return to stop DPY loop
; Normal Return
TYPSLB: CALL SETSLB ;SET UP POINTER TO SLB
RETSKP ;NO CHANNEL, NO TYPEOUT
MOVEI T1,[ASCIZ /SLB for /]
CALL .TSTRG
CALL TYPJOB ;OUTPUT THE JOB NUMBER OR SPECIAL
CALL TYPCHL ;FOLLOWED BY THE CHANNEL NUMBER
CALL TYPTAD ;AND THE ADDRESS OF THE TABLE
MOVE T1,SLBPTR## ;GET AOBJN POINTER TO SLBTBL
CALL TYPBLK ;TYPE OUT THE SLB
RETSKP ;SUCCESS RETURN
SUBTTL TYPELB - Type out the ELB
;Call:
; CALL TYPELB ;NO ARGS IN ACS
; Error Return to stop DPY loop
; Normal Return
TYPELB: CALL SETELB ;GET PTR TO ELB
RETSKP ;IT'S NO USE IF NO BLOCK
MOVEI T1,[ASCIZ /ELB for /]
CALL .TSTRG
CALL TYPJOB ;OUTPUT THE JOB NUMBER OR SPECIAL
CALL TYPCHL ;FOLLOWED BY THE CHANNEL NUMBER
CALL TYPTAD ;AND THE ADDRESS OF THE TABLE
MOVE T1,ELBPTR## ;GET AOBJN POINTER TO ELBTBL
CALL TYPBLK ;TYPE OUT THE ELB
RETSKP ;SUCCESS RETURN
SUBTTL TYPCDB - Type out the CTERM Data Block
;Call:
; CALL TYPCDB ;NO ARGS IN ACS
; Error Return to stop DPY loop
; Normal Return
TYPCDB: CALL SETCDB ;GET POINTER TO THE CDB
RETSKP ;IT'S NO USE IF NO BLOCK
MOVEI T1,[ASCIZ /CDB for /]
CALL .TSTRG
CALL TYPTTN ;OUTPUT THE TTY NUMBER
CALL TYPTAD ;AND THE ADDRESS OF THE TABLE
MOVE T1,CDBPTR## ;GET AOBJN POINTER TO CDBTBL
CALL TYPBLK ;TYPE OUT THE CDB
RETSKP ;SUCCESS RETURN
SUBTTL TYPRCB - Type out the Router Circuit Block
;Call:
; CALL TYPRCB ;NO ARGS IN ACS
; Error Return to stop DPY loop
; Normal Return
TYPRCB: STKVAR <DLB,LTP>
CALL SETRCB ;GET PTR TO RCB
RETSKP ;IT'S NO USE IF NO BLOCK
MOVEI T1,[ASCIZ /Router circuit block /]
CALL .TSTRG
MOVEI T1,NODBLK
LOAD T2,RCDLB,(T1)
MOVEM T2,DLB
LOAD T1,RCLID,(T1) ; Get the circuit ID
CALL .TCKT ;TYPE THE CIRCUIT
CALL TYPTAD ;AND THE ADDRESS OF THE TABLE
MOVE T1,RCBPTR## ;GET AOBJN POINTER TO RCBTBL
CALL TYPBLK ;TYPE OUT THE RCB
CALL .TCRLF ; End the previous display
MOVEI T1,[ASCIZ /DNADLL data link block:/]
CALL .TSTRG
;Get the data link block associated with the currently selected circuit
MOVE T2,DLB ; Get the address of the data link block
MOVEM T2,NODADR ; So TYPADR can display the address
MOVEI T1,DL.LEN ; Length of DLB
MOVEI T3,NODBLK ; Save the data here
CALL XPEEKX
MSG < getting Data Link Block>
MOVEI T1,NODBLK
LOAD T2,DLLTP,(T1)
MOVEM T2,LTP
MOVE T1,DLB
CALL TYPADR ; Display the address of the data link block
MOVE T1,DLBPTR## ; and now the data link block pointer
CALL TYPBLK ;Type it as well
CALL .TCRLF ; End the previous display
MOVEI T1,[ASCIZ /DNADLL line table:/]
CALL .TSTRG
MOVE T2,LTP ; Get the address of the line table
MOVEM T2,NODADR ; So TYPADR can display the address
MOVEI T1,LT.LEN ; Length of line table
MOVEI T3,NODBLK ; Save the data here
CALL XPEEKX
MSG < getting Line Table>
MOVEI T1,NODBLK
CALL TYPADR ; Display the address of the data link block
MOVE T1,LTBPTR## ; and now the data link block pointer
CALL TYPBLK ;Type it as well
RETSKP ;SUCCESS RETURN
SUBTTL TYPSPY - Type out an arbitrary table
;Call:
; CALL TYPSPY ;NO ARGS IN ACS
; Error Return to stop DPY loop
; Normal Return
TYPSPY: MOVE T1,SCNTLN ;GET USER-DECLARED LENGTH
MOVEM T1,LENGTH ;SAVE AS LENGTH OF TABLE TO READ
CALL SETSPY ;GET POINTER TO THE TABLE
RETSKP ;IT'S NO USE IF NO BLOCK
MOVEI T1,[ASCIZ /Generic/]
CALL .TSTRG
CALL TYPTAD ;AND THE ADDRESS OF THE TABLE
MOVE T1,LENGTH ;GET THE TABLE LENGTH
CALL TYPTAB ;TYPE OUT THE TABLE
RETSKP ;SUCCESS RETURN
SUBTTL TYPAJ - Type out an adjacency block
;Call:
; CALL TYPAJ ;NO ARGS IN ACS
; Error Return to stop DPY loop
; Normal Return
TYPAJ: SAVEAC <P1>
SKIPN T1,LOPCKT ; Get current circuit
ERR ?No circuit block selected
SETZ P1, ; Default is not to loop
CALL FNDCHB ; Find the cache entry offset
JRST NODERR ; **** FIX THIS ****
JUMPN T2,TYPAJ2
TYPAJ1: AOS P1 ; Say this is first adjacency
MOVEI T1,RC.AJQ+1 ; Read enough to get the queue pointer
MOVE T2,LOPCKT
MOVEI T3,NODBLK ; Save data at NODBLK
CALL XPEEKX ; Get partial circuit block
MSG <Getting circuit block at TYPAJ1>
MOVEI T2,NODBLK
SKIPN T2,RC.AJQ(T2) ; Pointer to adjacency block queue
ERR ?No adjacenies are online
TYPAJ2: MOVEI T1,AJ.LEN ; Length of adjacency block
MOVEM T2,NODADR ; Save block address for type out routine
MOVEI T3,NODBLK ; Store the data here
CALL XPEEKX
MSG <Getting adjacency block at TYPAJ2>
JUMPE P1,TYPAJ4 ; If zero, we have the data we want
MOVEI T4,NODBLK
MOVE T2,AJ.NXT(T4) ; Get next block pointer
CAMN P1,SCNCHN ; The one we want?
JRST TYPAJ4 ; Yes, display it
SKIPE T2 ; Continue as long as we have a pointer
AOJA P1,TYPAJ2 ; Get the next adjacency
MOVEI T1,1 ;
MOVEM T1,SCNCHN ; Reset SCNCHN to start
SETZ P1, ; Reset loop counter
JRST TYPAJ1 ; and try again
TYPAJ4: MOVEI T1,[ASCIZ /Adjacency Block/]
CALL .TSTRG
CALL TYPTAD ;AND THE ADDRESS OF THE TABLE
MOVE T1,AJBPTR## ;GET AOBJN POINTER TO AJBTBL
CALL TYPBLK ;TYPE OUT THE AJACENCY BLOCK
RETSKP ;SUCCESS RETURN
SUBTTL FNDCHB - Find cache block
;Find the adjacency queue for the currently selected circuit
;Call T1 = Circuit block address
FNDCHB: SAVEAC <P1>
MOVNI P1,%CIRMX ; Set up an AOBJN pointer for circuit max
HRLZ P1,P1
FNDCH1: CAMN T1,CIRBLK(P1) ; Is this the circuit block we want?
JRST FNDCH2 ; Yes, return the info requested
AOBJN P1,FNDCH1 ; No, try the next
SETZ T1, ; Failed to match
SETZ T2, ; Indicate failure
RET
FNDCH2: HRRZ T1,P1 ; Get the offset
MOVE T2,CIRAJQ(P1) ; and the adjacency address if any
RETSKP
SUBTTL TYPMEM - Type out DECnet memory utilization
TYPMEM: SAVEAC <P1,P2>
SKIPE CHBLKN ; Do we know how many blocks?
JRST TYPME1 ; Yes, don't have to look again
MOVE T1,[.SNPSY] ;Snoop for a symbol value
MOVE T2,[RADIX50,CHBLKQ] ;In particular CHBLKQ in D36COM
MOVE T3,[RADIX50,D36COM]
SNOOP% ;Return address in T2
RET
MOVEI T1,1 ;Now read our requested memory data
MOVEI T3,T4 ;Load the 1 word into T4
CALL XPEEKX ;Peek for number of CH blocks
MSG <Getting number of CH blocks>
MOVEM T4,CHBLKN
TYPME1: SKIPE T2,CHBADR ; Do we have an address for the blocks?
JRST TYPME2 ; Yes, then just read the data
MOVE T1,[.SNPSY] ; Snoop for a symbol value
MOVE T2,[RADIX50,CHBLKS] ;In particular CHBLKS in D36COM
MOVE T3,[RADIX50,D36COM]
SNOOP% ; Return address in T2
RET
MOVEM T2,CHBADR ; Save address for next time
MOVEM T2,NODADR ; To fool TYPTAD
TYPME2: SKIPE T2,CHBSIZ ; Do we have a length for the blocks?
JRST TYPME3 ; Yes, then just read the data
MOVE T1,[.SNPSY] ; Snoop for a symbol value
MOVE T2,[RADIX50,CH.LEN] ;In particular CH.LEN in D36COM
MOVE T3,[RADIX50,D36COM]
SNOOP% ;Return address in T2
RET
MOVEM T2,CHBSIZ ; Save length for next time
TYPME3: MOVE T1,CHBLKN ; Get number of blocks
IMUL T1,CHBSIZ ; Multiply by length to get number of words
MOVE T2,CHBADR ; Address of start of block
MOVEI T3,NODBLK ; Place to store data
CALL XPEEKX ; Get the data
MSG <Getting data from CH blocks>
MOVEI T1,[ASCIZ /CH block utilization/] ; Display name
CALL .TSTRG
CALL .TCRLF
CALL .TCRLF
MOVN P1,CHBLKN ; Set up an AOBJN pointer for number
HRLZ P1,P1 ; of blocks
CAIG P1,2 ; Do we have more than 2 blocks?
ADDI P1,5 ; No, assume just 2
TYPME4: MOVE T1,XBLCB(P1) ; Name of block
CALL .TSTRG
CALL .TTABC
CALL .TTABC
CALL .TSPAC
CALL .TSPAC
CALL .TSPAC
CALL .TSPAC
MOVE T1,CHBPTR## ; Get aobjn pointer to CH block table
CALL TYPBLK ; Type out the CH block
CALL .TCRLF ; End the previous display
MOVE T1,[NODBLK+XH.LEN,,NODBLK]
BLT T1,NODBLE
AOBJN P1,TYPME4 ;
CALL TYPREB
TRN
RETSKP
XBLCB: [ASCIZ /SBLCB:/]
[ASCIZ /ABLCB:/]
[ASCIZ /BBLCB:/]
[ASCIZ /LBLCB:/]
[ASCIZ /VBLCB:/]
[ASCIZ /MBLCB:/]
[ASCIZ /UBLCB:/]
DEFINE X(Name,description),<
[ASCIZ /NAME/]
>
FRETAB:
X <.REBAS>,<Starting address of free space>
X <.REEND>,<Address of last word of free space>
X <.RETOT>,<Total size of free space in blocks>
X <.REPR1>,<If remaining space less than this, allocate only priority 1>
X <.REGRO>,<If remaining space less than this, grow free space>
X <.REBTB>,<Address of start of bit table>
X <.REBTL>,<Length of bit table (words)>
X <.RETFR>,<Total remaining unallocated blocks>
X <.REFFB>,<Number of block just past end of free space>
X <.REPMX>,<Number of pools>
X <.REQTA>,<Address of block containing quota for each pool>
X <.REPFR>,<Address of block containing count of unallocated blocks per pool>
SUBTTL TYPREB - Type the system free pool tables
TYPREB: SAVEAC <P1>
MOVE T1,[.SNPSY]
MOVE T2,[RADIX50,SBLCB] ;In particular SBLCB in D36COM
MOVE T3,[RADIX50,D36COM]
SNOOP% ; Return address in T2
TRNA
RETSKP ; Return if using old memory manager
MOVE T1,[.SNPSY] ; Snoop for a symbol value
MOVE T2,[RADIX50,RES0TB] ;In particular RES0TB in STG
MOVE T3,[RADIX50,STG]
SNOOP% ; Return address in T2
RET
; MOVEM T2,RES0TB
MOVEI T1,RE.LEN ; Get length of block
MOVEI T3,NODBLK ; Place to store data
CALL XPEEKX ; Get the data
MSG <Getting non-extended free space block>
MOVE T1,[.SNPSY] ; Snoop for a symbol value
MOVE T2,[RADIX50,RESNTB] ;In particular RESNTB in STG
MOVE T3,[RADIX50,STG]
SNOOP% ; Return address in T2
RET
; MOVEM T2,RESNTB
MOVEI P1,NODBLK
ADDI P1,RE.LEN ; Don't overwrite previous data
MOVE T3,P1
MOVEI T1,RE.LEN ; Get length of block
CALL XPEEKX ; Get the data
MSG <Getting extended free space block>
ADDI P1,RE.LEN
SKIPN NREQTA
CALL LDQTA
MOVE T1,NREPMX ; Get length of block
MOVE T2,NREQTA ; Non-extended quota
MOVE T3,P1 ; Place to store data
CALL XPEEKX ; Get the data
RET
ADD P1,NREPMX
MOVE T1,NREPMX
MOVE T2,NREPFR ; Non-extended remaining
MOVE T3,P1
CALL XPEEKX
RET
ADD P1,NREPMX
MOVE T1,XREPMX ; Get length of block
MOVE T2,XREQTA ; Extended quota
MOVE T3,P1 ; Place to store data
CALL XPEEKX ; Get the data
RET
ADD P1,XREPMX
MOVE T1,XREPMX
MOVE T2,XREPFR ; Extended remaining
MOVE T3,P1
CALL XPEEKX
RET
CALL TYPFRE
RETSKP
SUBTTL TYPFRE - Type out free space utilization
TYPFRE: SAVEAC <P1,P2>
MOVEI T1,[ASCIZ / Pool Non-extended Extended Assigned Used/]
CALL .TSTRG
CALL .TCRLF
CALL .TCRLF
HRRZ P1,REBPTR## ;Pointer to REB table
HLLZ P2,REBPTR ;AOBJN length of table
TYPFR1: MOVE T1,@DO.NAM(P1) ; Entry name
CALL .TSIXN
CALL .TCOLN ;TYPE A COLON
CALL .TSPAC ;TYPE OUT A SPACE
MOVE T1,NODBLK(P2) ;GET THE VALUE
CALL @DO.RTN(P1)
CALL TYPTBB ;TAB OVER
HRRZ T1,P2
ADDI T1,RE.LEN
MOVE T1,NODBLK(T1)
CALL @DO.RTN(P1)
MOVE T1,P2
CALL TYPQTA
CALL .TCRLF ;MOVE TO THE NEXT LINE
AOBJN P2,TYPFR1 ;LOOP THOUGH ALL THE ITEMS
CALL TYPTBB ;TAB OVER
MOVE T1,P2
CALL TYPQTA
TRN
RET ;ALL DONE
SUBTTL Load free core quota tables
LDQTA: MOVEI T1,NODBLK
LOAD T2,REQTA,(T1)
MOVEM T2,NREQTA ; Save pointer to quota table
LOAD T2,REPMX,(T1) ; Get number of pools
MOVEM T2,NREPMX
LOAD T2,REPFR,(T1)
MOVEM T2,NREPFR ; and pointer to quota remaining
ADDI T1,RE.LEN
LOAD T2,REQTA,(T1)
MOVEM T2,XREQTA ; Save pointer to quota table
LOAD T2,REPMX,(T1) ; Get number of pools
MOVEM T2,XREPMX
LOAD T2,REPFR,(T1)
MOVEM T2,XREPFR ; and pointer to quota remaining
RET
SUBTTL TYPQTA - Type out free space quotas (assigned and remaining)
;Call:
; T1/ Offset into display
TYPQTA: SAVEAC <P1,P2>
STKVAR <TEMP>
SETZ P2, ; Initialize to start of NODBLK
HRRZ T1,T1 ; Right half only
CAMN T1,NREPMX ; Have we completed one block's worth?
RET ; Then leave a blank line
CAMG T1,NREPMX ; Have we reached the next block?
IFSKP.
SUBI T1,1 ; Account for the blank line
MOVE P2,NREPMX ; Compute offset into next group
LSH P2,1 ; which is 2 blocks away
ENDIF.
IDIV T1,NREPMX ; Get offset mod NREPMX
CAMLE T2,NREPMX ; If too big leave
RET
MOVE P1,T2 ; Preserve offset
CALL TYPTBB ; Type a tab
CAIE P1,0 ; If zeroth element
IFSKP.
CAIE P2,0 ; If beginning of display then
IFSKP.
MOVEI T1,[ASCIZ / -- Non-extended -- /] ; use this message
ELSE.
MOVEI T1,[ASCIZ / -- Extended -- /]
ENDIF.
CALL .TSTRG
ELSE.
MOVE T1,QTATAB(P1) ; Display item name
CALL .TSTRG
CALL .TCOLN ;TYPE A COLON
CALL .TSPAC ;TYPE OUT A SPACE
ADDI P2,<2*RE.LEN> ; Offset to the quota tables
ADD P2,P1 ; and into the entry in the quota table
MOVE T1,NODBLK(P2) ; Get datum
MOVEM T1,TEMP
CALL .TDECD
CALL TYPTBB ;TAB OVER
ADD P2,NREPMX ; Offset to remaining
MOVE T2,NODBLK(P2) ; Get datum
MOVE T1,TEMP ; Get quota
SUB T1,T2 ; Compute used
CALL .TDECD
ENDIF.
RET
DEFINE X(NAME),<
EXP 0
[ASCIZ /Genrl /]
[ASCIZ /Termnl/]
[ASCIZ /DECnet/]
[ASCIZ /Timer /]
[ASCIZ /Units /]
>
QTATAB: X
SUBTTL TYPMRT - Type out the memory request table
;Call:
; CALL TYPMRT ;No arguments in ACs
; Error Return to stop DPY loop
; Normal Return
TYPMRT: MOVE T1,[.SNPSY] ;Snoop for a symbol value
MOVE T2,[RADIX50,MRQTAB] ;In particular MRQTAB in D36COM
MOVE T3,[RADIX50,D36COM]
SNOOP% ;Return address in T2
RET
MOVEI T1,1 ;Now read our requested memory data
MOVEI T3,T4 ;Load the 1 word into T4
PUSHJ P, XPEEKX ;Peek...
RET
MOVEM T4,SCNTAD ;Address user requested
MOVEM T4,MAPADR ;Keep a safe copy
MOVEM T4,NODADR ;To fool TYPTAD
MOVEI T1,[ASCIZ /Memory request table/]
CALL .TSTRG
CALL TYPTAD ;And the address of the table
MOVEI T1,[ASCIZ /# Words High Current/]
CALL .TSTRG
CALL .TCRLF
CALL .TCRLF
MOVEI P1,<^D2048/^D128> ;Number of times we have to read memeory
MOVEI T1,^D128 ;Length of table
MOVEM T1,LENGTH ;Save as length of table to read
TYPMR1: CALL SETSPY ;Get pointer to the table
RETSKP ;It's no use if no block
MOVE T1,LENGTH ;Get the table length
CALL TYPMTB ;Type out the table
MOVEI T1,^D128 ;Step to next chunk of table
ADDM T1,SCNTAD
SOJG P1,TYPMR1 ;Continue until done
MOVE T1,MAPADR ;Restore address originally requested
MOVEM T1,SCNTAD
RETSKP ;Success return
SUBTTL XPEEKX - Common routine to peek into the monitor
;Call with
; T1 = Number of words to read
; T2 = Address to read from
; T3 = Place to store what is read
XPEEKX::SAVEAC <P1>
MOVEI P1,XPKBLK ;Argument block for JSYS
MOVEM T1,.XPCN1(P1) ;Count of words to read
SETZM .XPCN2(P1)
MOVEM T2,.XPMAD(P1) ;Memory addrees to begin reading
MOVEM T3,.XPUAD(P1) ;Where in user space to store results
MOVEI T1,.XPLEN
MOVEM T1,.XPABL(P1) ;Length of argument block
MOVEI T1,.XPPEK ;Function
MOVEM T1,.XPFNC(P1)
MOVEI T1,XPKBLK
XPEEK%
ERJMP PEKERR
RETSKP
SUBTTL TYPMB - Type out a Message Block
;Call:
; CALL TYPMB ;NO ARGS IN ACS
; Error Return to stop DPY loop
; Normal Return
TYPMB: MOVX T1,MB.LEN ;LENGTH OF A MESSAGE BLOCK
MOVEM T1,LENGTH ;STORE AS LENGTH OF TABLE TO READ
CALL SETSPY ;GET POINTER TO THE TABLE
RETSKP ;IT'S NO USE IF NO BLOCK
MOVEI T1,[ASCIZ /Message Block /]
CALL .TSTRG
CALL TYPTAD ;AND THE ADDRESS OF THE TABLE
MOVE T1,MBBPTR## ;GET AOBJN POINTER TO MBBTBL
CALL TYPBLK ;TYPE OUT THE MB
RETSKP ;SUCCESS RETURN
SUBTTL TYPCI - Type out CI DECnet tables
;Call:
; CALL TYPCI
; Error return to stop DPY loop
; Normal return
TYPCI: MOVE T1,[.SNPSY] ;Get symbol
MOVE T2,[RADIX50,CBBLK] ; CBBLK
MOVE T3,[RADIX50,CIDLL] ; in module CIDLL
SNOOP% ;Address comes back in T2
ERR ?Can't find symbol CBBLK
MOVX T1,CB.LEN ;Read all of CB
MOVEM T2,CBADR ; from T2 (and save value)
XMOVEI T3,NODBLK ; to NODBLK
CALL XPEEKX ; by way of XPEEK
ERR ?Can't XPEEK CBBLK
MOVEI T1,[ASCIZ ?DECnet/CI controller block (CBBLK) at address ?]
CALL .TSTRG ;Type out text
MOVE T1,CBADR ;Get address of CBBLK
CALL .TXWDW ; and type in halfword format
CALL .TCRLF ; and end with a free CRLF
CALL .TCRLF ; and a final one
;Now type CB table on screen
MOVE T1,CBBPTR## ;Get AOBJN pointer to CB table
CALL TYPBLK ; and write CB to screen
;Type out the name of the circuit the user specified
MOVEI T1,[ASCIZ /Circuit /]
CALL .TSTRG ;Type out header
MOVE T1,CKTID ; and get circuit ID
CALL .TCKT ; to type out the circuit name
;If the user specified a circuit ID, write the PB corresponding to the circuit
; below the CB.
MOVE T1,CKTID ;Get the circuit ID
LOAD T2,LIDEV,+T1 ;Get device type
CAXN T2,LD.CIP ;Is it CI?
IFSKP. ; -no
MOVEI T1,[ASCIZ / - is not a CI circuit/]
CALL .TSTRG ; and type error message
RETSKP ; and return
ENDIF.
LOAD T2,LIDRP,+T1 ;Get drop number
ADDI T2,CB.PRT## ;Add offset to port tables
SKIPE T2,NODBLK(T2) ; and retrieve port block pointer from CB block
IFSKP. ; -no such port
MOVEI T1,[ASCIZ / - no such port opened/]
CALL .TSTRG ; and type error message
RETSKP ; and return
ENDIF.
MOVX T1,PB.LEN ;Read all of PB
; from T2
XMOVEI T3,NODBLK+CB.LEN ; to just after CB block in NODBLK
CALL XPEEKX ; by way of XPEEK
IFNSK. ;Fail from XPEEK
MOVEI T1,[ASCIZ / - failed to read port block from monitor/]
CALL .TSTRG ; and type error message
RETSKP ; and return
ENDIF.
CALL .TCRLF ;Give a CRLF before typing table
CALL .TCRLF ; and another one
MOVE T1,PBBPTR## ;Get AOBJN pointer to PB table
CALL TYPBLK ; and write PB to screen
RETSKP ;Return success to allow a new pass
SUBTTL TYPHN - Type out LAT's HN Table
;Call:
; CALL TYPHN
; Error return to stop DPY loop
; Normal return
TYPHN: MOVX T1,HN.LEN## ;Read all of the HN block,
MOVE T2,LAHNDB ; pointer from T2
XMOVEI T3,NODBLK ; to NODBLK
CALL XPEEKX ; by way of XPEEK
ERR ?Can't XPEEK HN block
MOVEI T1,[ASCIZ "LAT's HN block, at address "]
CALL .TSTRG ;Type out text
MOVE T1,LAHNDB ;Get address of HN block
CALL .TXWDW ; and type in halfword format
CALL .TCRLF ;Give a CRLF before typing table
CALL .TCRLF ; and another one
MOVE T1,HNBPTR## ;Get AOBJN pointer to HN table
CALL TYPBLK ; and write HN to screen
RETSKP ;Return success to allow a new pass
SUBTTL TYPTDB - Read the TDB
;CALL:
; CALL TYPTDB
; Error return to stop DPY display
; Normal Return
TYPTDB::SAVEAC <P1> ;SAVE P1
CALL GETTDB ;READ IN THE TDB
RET ;FAILED
MOVEI T1,[ASCIZ/TDB for line /]
CALL .TSTRG ;HEADER TEXT
MOVE T1,SCNTTY ;GET THE LINE NUMBER
CALL .TOCTW ;DISPLAY IT
MOVEI T1,[ASCIZ/ at address /]
CALL .TSTRG ;HEADER TEXT
MOVE T1,NODADR ;GET ADDRESS OF TDB
CALL .TXWDW ;SHOW IT
CALL .TCRLF ;<CRLF>
CALL .TCRLF ;<CRLF>
MOVE T1,TDBPTR## ;GET AOBJN POINTER TO TDB TABLE
CALL TYPBLK ; AND WRITE TDB ONTO SCREEN
RETSKP ;DONE
SUBTTL GETTDB - Read in a TDB
; GETTDB - Read in a TDB
; CALL:
; +1 Failed to read TDB
; +2 Norml return, TDB IN NODBLK
GETTDB::SKIPG T2,SCNTTY ;GET THE TTY NUMBER THE USER GAVE
ERR ?TTY number must be specified
MOVEI T1,1 ;NUMBER OF WORDS TO READ
ADD T2,TTACTL ;GET MONITOR ADDRESS OF TDB FOR THIS LINE
MOVEI T3,NODADR ;PUT IT IN NODADR
CALL XPEEKX ;DO THE XPEEK
ERR ?Failed to read TTACTL entry
SKIPG T2,NODADR ;GET ADDRESS OF TDB
ERR ?No TTACTL entry for specified TTY
MOVEI T1,T.LEN ;GET LENGTH OF TDB
MOVEI T3,NODBLK ;USE NODBLK FOR TDB
CALL XPEEKX ;DO THE XPEEK
ERR ?Failed to read TDB
RETSKP
SUBTTL SETSJB - Read the SJB
;Call:
; CALL SETSJB
; Returns +1 on error, +2 on success
SETSJB: MOVE T1,SCNJOB ;GET THE JOB NUMBER THE USER GAVE
CAMN T1,[-1] ;DID HE GIVE ONE (OR A SPECIAL)?
ERR ?Job number must be specified
MOVEM T1,NODARG+.NDRBJ ;YES - SAVE IT FOR NODE
MOVEI T1,.NDBSJ ;SET TO READ THE SJB
MOVEM T1,NODARG+.NDRBT
MOVEI T1,.NDRDB ;READ IT
MOVEI T2,NODARG
NODE
ERJMP NODERR ;FAILED - FATAL ERROR
;SUCCESS - SJB IS IN NODBLK
CALL GETCHT ;READ CHANNEL TABLE INTO NODCHL
CALL ENMCHN ;ENUMERATE OPEN CHANNELS FOR USER
RETSKP ;RETURN SUCCESS
;SUBROUTINE TO GET THE CHANNEL TABLE INTO NODCHL
;COPIES THE TABLE FROM THE SJB IF THAT'S WHERE IT IS
;OTHERWISE, READS THE TABLE FROM THE MONITOR
;ASSUMES THE SJB HAS BEEN READ INTO NODBLK
;RETURNS
; T1/ LENGTH OF THE CHANNEL TABLE
GETCHT: LOAD T1,SJCHT,+NODBLK ;GET POINTER TO CHANNEL TABLE
SUB T1,NODADR ;MAKE IT RELATIVE TO THE START OF THE SJB
CAILE T1,SJ.LEN ;IS THE TABLE PART OF THE SJB?
JRST GTCHTR ;NO - GO ASK YOUR MONITOR
ADDI T1,NODBLK ;YES - POINT TO THE START OF THE TABLE
LOAD T2,SJCHC,+NODBLK ;GET ITS LENGTH
MOVNS T2
HRL T1,T2 ;MAKE AN AOBJN POINTER
MOVEI T2,NODCHL ;GET THE PLACE TO STORE THE TABLE
GTCHT1: MOVE T3,(T1) ;GET A TABLE ENTRY
MOVEM T3,(T2) ;SAVE IT
AOJ T2,
AOBJN T1,GTCHT1 ;LOOP THROUGH ALL THE ENTRIES
GTCHTE: LOAD T1,SJCHC,+NODBLK ;RETURN THE LENGTH TO THE CALLER
RET ;DONE
;READ THE CHANNEL TABLE FROM THE MONITOR
GTCHTR: LOAD T2,SJCHT,+NODBLK ;GET THE ADDRESS OF THE CHANNEL TABLE
LOAD T1,SJCHC,+NODBLK ;AND ITS LENGTH
MOVEI T3,NODCHL ;READ IT INTO THE CHANNEL AREA
CALL XPEEKX
MSG < getting channel table>
MOVEI T1,NODADR ;RESTORE THE NODE BLOCK ADDRESS
MOVEM T1,NODARG+.NDRBD
JRST GTCHTE ;FINISH OFF AND RETURN
SUBTTL SETSLB - Read the SLB
;Call:
; CALL SETSLB
; Returns +1 on error, +2 on success
SETSLB: SKIPG T1,SCNCHN ;DID USER SPECIFY LEGAL CHANNEL NUMBER?
JRST ILLCHN ;NO, BOO
MOVEM T1,NODARG+.NDRBC ;YES - SAVE IT FOR NODE
MOVEI T1,.NDBSL ;SET TO READ THE SLB
MOVEM T1,NODARG+.NDRBT
MOVE T1,SCNJOB ;FOR THE TARGET JOB NUMBER
MOVEM T1,NODARG+.NDRBJ
MOVEI T1,.NDRDB ;READ IT
MOVEI T2,NODARG
NODE
ERJMP NODERR ;FAILED - FATAL ERROR
RETSKP ;SUCCESS - SLB IS IN NODBLK
SUBTTL SETELB - Read the ELB
;Call:
; CALL SETELB
; Returns +1 on error, +2 on success
SETELB: SKIPG T1,SCNCHN ;DID USER SPECIFY LEGAL CHANNEL NUMBER?
JRST ILLCHN ;NO, BOO
MOVEM T1,NODARG+.NDRBC ;YES - SAVE IT
MOVEI T1,.NDBEL ;SET TO READ THE ELB
MOVEM T1,NODARG+.NDRBT
MOVE T1,SCNJOB ;FOR THE TARGET JOB NUMBER
MOVEM T1,NODARG+.NDRBJ
MOVEI T1,.NDRDB ;READ IT
MOVEI T2,NODARG
NODE
ERJMP NODERR ;FAILED - FATAL ERROR
RETSKP ;SUCCESS - ELB IS IN NODBLK
SUBTTL SETCDB - Read the CTERM DATA BLOCK
;Call:
; CALL SETCDB
; Returns +1 on error, +2 on success
SETCDB: SKIPG T1,SCNTTY ;DID THE USER GIVE A TTY NUMBER
JRST ILLTTY ;NO, BOO
MOVEM T1,NODARG+.NDRBJ ;YES - SAVE IT
MOVEI T1,.NDBCT ;SET TO READ THE CDB
MOVEM T1,NODARG+.NDRBT
MOVEI T1,.NDRDB ;READ IT
MOVEI T2,NODARG
NODE
ERJMP NODERR ;FAILED - FATAL ERROR
RETSKP ;SUCCESS - CDB IS IN NODBLK
SUBTTL SETRCB - Read the RCB
;Call:
; CALL SETRCB
; Returns +1 on error, +2 on success
SETRCB: SAVEAC <P1>
SKIPE CIRBLK ; Circuit cache set up yet?
IFSKP.
CALL CIRCHE ; No, set it up
MSG <No circuit blocks>
ENDIF.
SKIPE T1,CKTID ; User request a block?
JRST SETURQ ; Yes, try to satisfy his request
MOVE P1,SCNCHN ; Get the relative circuit number
SOS P1 ; Block starts at zero, SCNCHN starts at 1
CAILE P1,%CIRMX ; Requesting block outside range?
SETRC1: JRST [MOVEI P1,1 ; Reset to beginning
MOVEM P1,SCNCHN
SETZ P1,
JRST .+1]
MOVE T2,CIRBLK(P1) ; Get the monitor circuit block address
JUMPE T2,SETRC1 ; If we didn't get one reset to beginning
JRST SETRDD ; Got one, display it
SETURQ: MOVNI P1,%CIRMX ; Make pointer to loop though circuit types
HRLZ P1,P1
SETUR1: CAME T1,CIRIDB(P1) ; Circuit user asked for?
AOBJN P1,SETUR1 ; No, try next
MOVE T2,CIRBLK(P1) ; Get the address
ADDI P1,1 ; Channels start at 1
HRRZM P1,SCNCHN ; Remember the relative circuit number
JUMPE T2,NODERR ; **** FIX THIS *****
;T2 points to data in monitor
;P1 is index into circuit block cache
SETRDD: MOVEM P1,CIRIDX ; Index into circuit block table
MOVEM T2,LOPCKT ; Save circuit we got for others
MOVEM T2,NODADR ; For TYPTAD
MOVEI T1,RC.LEN ; Now read in the data
MOVEI T3,NODBLK ; Into NODBLK
CALL XPEEKX
JRST NODERR ;
RETSKP ; Got it done
CIRCHE: SAVEAC <P1>
MOVNI P1,%CIRMX ; AOBJN pointer for max circuits
HRLZ P1,P1
MOVE T1,[.SNPSY] ; Snoop for a symbol value
MOVE T2,[RADIX50,RTRCBQ] ; SNOOP to get the first circuit block
MOVE T3,[RADIX50,ROUTER] ; in Router
SNOOP%
ERJMP NODERR ; *** Fix This ******
;T2 now contains the address of the pointer to the first circuit block
MOVEI T1,1 ; Read one word of circuit block address
MOVEI T3,T2 ; Load the word into AC T2
CALL XPEEKX ; Get the address of a circuit block
MSG <Peek for first circuit block failed>
SKIPN T2 ; Any circuits yet?
RET ; Return fail
;We now have the address of the circuit block in T2
CIRCH1: MOVEM T2,CIRBLK(P1) ; Save address
MOVEI T1,RC.LID ; See which is larger so we read enough in
CAIG T1,RC.DLB ; Which comes first the line ID
MOVEI T1,RC.DLB ; or the DLB address?
CAIG T1,RC.AJQ
MOVEI T1,RC.AJQ ; AJQ is the largest
ADDI T1,1 ; Read circuit block
MOVEI T3,NODBLK ; Save data in NODBLK
CALL XPEEKX ; Read as much of the block as we need
MSG <Getting circuit block at CIRCH1>
MOVEI T2,NODBLK ; Point to circuit block data
MOVE T1,RC.LID(T2) ; Get the ID
MOVEM T1,CIRIDB(P1)
MOVE T3,RC.AJQ(T2) ; Get the queue of adjacencies
LOAD T1,LIDEV,+T1 ; Get the device type
CAIN T1,LD.NI ; Is this an Ethernet circuit?
SETZ T3, ; Yes, then don't save an adjacency address
MOVEM T3,CIRAJQ(P1)
MOVE T1,RC.DLB(T2) ; Get DLB address
MOVEM T1,CIRDLA(P1)
SKIPE T2,RC.NXT(T2) ; Is there a next?
AOBJN P1,CIRCH1 ;
RETSKP
SUBTTL SETSPY - Read the table at SCNTAD, length LENGTH
;Call:
; CALL SETSPY
; Returns +1 on error, +2 on success
SETSPY::SKIPG T2,SCNTAD ;DID THE USER GIVE A TABLE ADDRESS?
JRST ILLTAB ;NO, BOO
SKIPG T1,LENGTH ;DID THE USER GIVE A TABLE LENGTH?
JRST ILLTLN ;NO, BOO
;CALL SUBSPY WITH T1/ LENGTH OF TABLE
; T2/ ADDRESS OF TABLE
SUBSPY: MOVEI T3,NODBLK ;Where to put data
CALL XPEEKX ;(T1,T2,T3)GET PORT BLK INTO NODBLK AREA
MSG <Getting table data for SUBSPY>
RETSKP
SUBTTL Error Message Routines
;HERE IF NODE JSYS FAILED
NODERR: SETZM NODERM ;ASSUME THERE WON'T BE A MESSAGE
HRROI T1,NODERM ;READ THE MONITOR'S ERROR MESSAGE
MOVE T2,[.FHSLF,,-1]
MOVSI T3,-^D80
ERSTR
JFCL ;ERROR (PROBABLY AN OLD ERRMES.BIN)
JFCL ;NOT ENOUGH ROOM
MOVEI T1,NODSTG ;OUTPUT THE ERROR MESSAGE
CALLRET .TSTRG ;AND RETURN TO LET THE CALLER PROCEED
PEKERR: SETZM NODERM ;ASSUME THERE WON'T BE A MESSAGE
HRROI T1,NODERM ;READ THE MONITOR'S ERROR MESSAGE
MOVE T2,[.FHSLF,,-1]
MOVSI T3,-^D80
ERSTR
JFCL ;ERROR (PROBABLY AN OLD ERRMES.BIN)
JFCL ;NOT ENOUGH ROOM
MOVEI T1,PEKSTG ;OUTPUT THE ERROR MESSAGE
CALLRET .TSTRG ;AND RETURN TO LET THE CALLER PROCEED
ILLCHN: MOVEI T1,[ASCIZ /?Channel /]
CALL ERRSTR
MOVE T1,SCNCHN ;GET CHANNEL USER REQUESTED
CALL .TDECD ;TYPE IN DECIMAL
MOVEI T1,[ASCIZ / is illegal
/]
CALLRET .TSTRG
ILLTTY: MOVEI T1,[ASCIZ /?No TTY number was given
/]
CALLRET .TSTRG
ILLTAB: MOVEI T1,[ASCIZ /?No table address was given
/]
CALLRET .TSTRG
ILLTLN: MOVEI T1,[ASCIZ /?No table length was given
/]
CALLRET .TSTRG
NORCB: ERR ?No circuit-id found to match /CIRCUIT switch
SUBTTL ERRSTR - Type out an error string
; T1/ Address of error string (ASCIZ)
ERRSTR::PUSH P,T1 ;SAVE ERROR MESSAGE ADDRESS
MOVEI T1,.PRIIN
CFIBF ;IGNORE REST OF ERRONEOUS TYPIN
SKIPE TYPDPY ;IN DPY MODE?
TTY$ $TTCLR ;HOME UP AND CLEAR SCREEN
SETZM TYPDPY ;LEAVE DPY MODE
POP P,T1 ;GET ERROR MESSAGE ADDRESS BACK
CALLRET .TSTRG ;TELL SCAN TO TYPE IT OUT NOW
RSKP:
CPOPJ1: AOS (P) ;SUCCESS RETURN
CPOPJ: RET
SUBTTL UTILITY OUTPUT SUBROUTINES
;SUBROUTINE TO TYPE THE JOB NUMBER OR SPECIAL NAME
TYPJOB: SKIPGE T1,SCNJOB ;IS IT SPECIAL?
JRST TYPJSP ;YES - HANDLE SEPARATELY
MOVEI T1,[ASCIZ /Job /] ;NO - OUTPUT THE JOB NUMBER
CALL .TSTRG
MOVE T1,SCNJOB ;TYPE THE JOB NUMBER THE USER GAVE
CALLRET .TDECD ;AND RETURN
TYPJSP: CAMN T1,[ASCIZ /NRT/] ;OUTPUT FOR NRT?
MOVEI T1,SCNJOB ;YES - SET UP ADDRESS OF STRING
CAMN T1,[ASCIZ /CTM/] ;OUTPUT FOR CTERM?
MOVEI T1,[ASCIZ /CTERM/] ;YES - SET UP ADDRESS OF LONGER STRING
CALLRET .TSTRG ;OUTPUT THE STRING AND RETURN
;SUBROUTINE TO OUTPUT THE CHANNEL NUMBER AND SKIP A LINE
;CALL AFTER TYPJOB FOR THOSE THINGS THAT DEPEND ON THE CHANNEL
TYPCHL: MOVEI T1,[ASCIZ /, channel /]
CALL .TSTRG
MOVE T1,SCNCHN
CALLRET .TDECD ;TYPE IN DECIMAL, WITH DECIMAL POINT; RETURN
;SUBROUTINE TO OUTPUT THE TTY NUMBER
TYPTTN: MOVE T1,SCNTTY ;OUTPUT THE TTY NUMBER
CALLRET .TTTY ;AND RETURN
;SUBROUTINE TO OUTPUT THE ADDRESS OF THE TABLE BEING OUTPUT
TYPTAD::MOVEI T1,[ASCIZ / - Table address: /]
CALL .TSTRG
MOVE T1,NODADR
CALL .TXWDW ; TYPE AS TWO HALF-WORDS
CALL .TTABC
MOVEI T1,[ASCIZ / Uptime: /]
CALL .TSTRG
TIME% ; Get the uptime in milliseconds
CALL .TTIME
CALL .TCRLF ; SKIP A LINE
CALLRET .TCRLF ; AND RETURN
TYPADR: MOVEI T1,[ASCIZ / - Table address: /]
CALL .TSTRG
MOVE T1,NODADR
CALL .TXWDW ; TYPE AS TWO HALF-WORDS
CALL .TCRLF
CALLRET .TCRLF ; AND RETURN
SUBTTL ENMCHN - Type out which channels are in use
;Call:
; T1/ Number of channel slots in use
; CALL ENMCHN
; Error Return
; Normal Return, no value
ENMCHN: SAVEAC <P1,P2>
MOVEI P1,NODCHL ;GET ADDRESS OF CHANNEL TABLE
MOVE P2,T1 ;Keep number of channels for a sec
MOVNS T1 ;NEGATE THE SLOT COUNT
HRL P1,T1 ;MAKE AN AOBJN POINTER
CALL TYPJOB ;OUTPUT THE JOB NUMBER OR SPECIAL
MOVEI T1,[ASCIZ / has the following channels open: /]
CALL .TSTRG
CAILE P2,^D10 ;If more than ten put them on a separate line
CALL .TCRLF
SETZ P2, ;FIRST CHANNEL NUMBER IS 1
ENMBL2: AOS T1,P2 ;INCREMENT USER'S CHANNEL NUMBER
SKIPN (P1) ;IS THIS SLOT IN USE?
JRST ENMBL3 ;NO
CALL .TDECW ;YES, TYPE OUT ITS NUMBER FROM T1
CALL .TSPAC ;SEPARATE WITH A SPACE
ENMBL3: AOBJN P1,ENMBL2 ;TRY THE NEXT
CALLRET .TCRLF ;THAT'S ALL
SUBTTL TYPBLK - Type out a data block
;Call: T1/ AOBJN Pointer to the DOBLK table for this block type
; (The block to be typed is at NODBLK)
; CALL TYPBLK
; Always returns +1
TABCOM==^D24 ;COLUMN POSITION AT WHICH TO START THE COMMENT
TABSPY==^D40 ;SECOND COLUMN FOR GENERIC TABLE
TABINT==^D20 ;LENGTH OF A TAB, FOR NO-COMMENT CASE
TABNUM==3 ;NUMBER OF COLUMNS ON THE SCREEN - 1
TYPBLK::SAVEAC <P1,P2>
HRRZ P1,T1 ;POINTER TO DESCRIPTOR TABLES TABLE
HLLZ P2,T1 ;AOBJN POINTER TO INDEX THRU TABLES
;Note that the DOBLK macro (above) depends on P2 being set up here
TYPBL1: MOVE T1,@DO.NAM(P1) ;GET THE SIXBIT NAME OF ENTRY
CALL .TSIXN ;TYPE IT OUT
CALL .TCOLN ;TYPE A COLON
CALL .TSPAC ;TYPE OUT A SPACE
MOVE T2,@DO.PTR(P1) ;PASS THE BYTE POINTER IN T2
HRRI T2,@T2 ;RESOLVE INDIRECTION AND EXTRA INDEXING
TLZ T2,37 ;WE RESOLVED IT, LEAVE BYTE PTRS P & S FIELDS
ADDI T2,NODBLK ;MAKE IT RELATIVE TO THE NODE BLOCK
LDB T1,T2 ;GET THE VALUE TO OUTPUT IN T1
;Call the typeout routine with
; T1/ Value in Location. Most typeout routines will type this
; T2/ Byte Ptr to Location; indexing and indirection resolved
CALL @DO.RTN(P1) ;CALL TYPEOUT ROUTINE
SKIPG SCNCOM ;DOES THE USER WANT THE COMMENTS?
JRST TYPBLS ;NO - JUST TAB OVER
MOVEI T2,TABCOM ;FIND HOW MANY SPACES ARE NEEDED
SUB T2,COLPOS ; TO GET TO THE TAB COLUMN
JUMPLE T2,TYPBL2 ;IF ALREADY THERE, DONE
CALL .TSPAC ;ELSE SPACE OVER
SOJG T2,.-1 ;TO THE DESIRED COLUMN
TYPBL2: MOVE T1,@DO.TXT(P1) ;THEN GET PTR TO THE TEXT STRING (COMMENT)
CALL .TSTRG ;TYPE IT OUT; CRLF IS INCLUDED IN TEXT
TYPBL3: AOBJN P2,TYPBL1 ;DO THE REST
RET ;ALL DONE
;MOVE TO THE NEXT TAB. TAB STOPS ARE AT 1, 21, 41, AND 61
;(use tabs .ttabc)
TYPBLS: SKIPE T2,@DO.STX(P1) ;DOES THE USER WANT ANYTHING SPECIAL?
JRST TYPBSF ;YES - DO WHAT HE SAYS
CALL TYPTBB ;NO - TAB OVER OR MOVE TO NEXT LINE
JRST TYPBL3 ;BACK TO THE FLOW
;HERE IF THE MACRO SAYS TO DO SOMETHING (FORCE ONE OR MORE CRLF'S)
TYPBSF: CALL .TCRLF ;MOVE TO A NEW LINE
SOJG T2,.-1 ;AS MANY TIMES AS THE MACRO WANTS
JRST TYPBL3 ;THEN BACK TO THE FLOW
;SUBROUTINE TO MOVE TO THE NEXT TAB SETTING OR TO THE NEXT LINE
TYPTBB::MOVE T2,COLPOS ;GET THE COLUMN POSITION
CAIL T2,TABINT*TABNUM ;PAST THE LAST TAB?
JRST TYPBB1 ;YES - MOVE TO THE NEXT LINE
SUBI T2,TABINT ;NO - FIND HOW MANY SPACES
JUMPGE T2,.-1 ; ARE NEEDED TO GET TO THE NEXT STOP
MOVNS T2
CALL .TSPAC ;OUTPUT THAT MANY SPACES
SOJG T2,.-1
RET ;BACK TO THE FLOW
TYPBB1: CALL .TCRLF ;BEYOND THE LAST TAB - MOVE TO A NEW LINE
RET ;BACK TO THE FLOW
SUBTTL TYPTAB - Type out an arbitrary table as octal words
;Also types out the data as decimal, ASCII, and 8-bit ASCII.
;That ought to hold 'em.
;Call: T1/ Length of the table
; (The block to be typed is at NODBLK)
; CALL TYPTAB
; Always returns +1
TYPTAB: SAVEAC <P1>
MOVNS T1 ;GET AN AOBJN POINTER TO THE TABLE
HRLZ P1,T1
TYPTB1: MOVEI T1,"+"
CALL .TCHAR
HRRZ T1,P1 ;OUTPUT THE LOCATON OF THE ENTRY
CALL .TOCTW ;TYPE IT OUT
CALL .TCOLN ;TYPE A COLON
CALL .TSPAC ;TYPE OUT A SPACE
HRRZ T1,P1
CAIGE T1,100 ;IS LOCATION ONE OR TWO DIGITS?
CALL .TSPAC ;YES - TYPE OUT ANOTHER SPACE
HRRZ T1,P1
CAIGE T1,10 ;IS LOCATION ONE DIGIT?
CALL .TSPAC ;YES - TYPE OUT ANOTHER SPACE
MOVE T1,NODBLK(P1) ;GET THE VALUE
CALL .TXWDW ;OUTPUT IT IN OCTAL
CALL TYPTBB ;TAB OVER
MOVE T1,NODBLK(P1) ;GET THE VALUE
CALL .TDECD ;OUTPUT IT IN DECIMAL
CALL TYPTBB ;TAB OVER
MOVE T1,NODBLK(P1) ;GET THE VALUE
CALL .TCHR8 ;OUTPUT IT IN 8-BIT ASCII
CALL TYPTBB ;TAB OVER
MOVE T1,NODBLK(P1) ;GET THE VALUE
TLNE T1,-1 ;IS THERE ANYTHING IN THE LEFT HALF?
CALL .TCHRS ;YES - OUTPUT IT IN ASCII
CALL .TCRLF ;MOVE TO THE NEXT LINE
AOBJN P1,TYPTB1 ;LOOP THOUGH ALL THE ITEMS
RET ;ALL DONE
SUBTTL TYPMTB - Type out a memeory request table as decimal half words
;Call: T1/ Length of the table
; (The block to be typed is at NODBLK)
; CALL TYPMTB
; Always returns +1
TYPMTB: SAVEAC <P1,P2>
MOVNS T1 ;Get an AOBJN pointer to the table
HRLZ P1,T1
TYPMT1: SKIPN NODBLK(P1) ;Any data?
JRST TYPMT2 ; No, check next location
MOVE P2,SCNTAD ; Start address
SUB P2,MAPADR ; Minus current
ADDI P2,(P1) ; Plus offset into current block
CAIG P2,^D9 ;Less than 2 digits
CALL .TSPAC
CAIG P2,^D99 ;Is memory addr less than 3 digits
CALL .TSPAC ;Yes - type out another space
CAIG P2,^D999 ;Less than 4 digits
CALL .TSPAC ;
MOVE T1,P2
CALL .TDECD ; Type that!
HLRZ P2,NODBLK(P1) ; Get the high water mark
CALL TYPTBL
HRRZ P2,NODBLK(P1) ; and now the current
CALL TYPTBL
CALL .TCRLF ;Move to the next line
TYPMT2: AOBJN P1,TYPMT1 ;Loop though all the items
RET ;All done
TYPTBL: CALL .TTABC ; Tab
CALL .TSPAC
CALL .TSPAC
CALL .TSPAC
CAIG P2,^D9 ; Less than 2 digits?
CALL .TSPAC ; Yes, then pad with a space
MOVE T1,P2
CALL .TDECD
RET
;Call: T1/ value
; CALL .TBOOL
; Normal Return
.TBOOL::TRNN T1,1 ;TRUE?
SKIPA T1,[[ASCIZ /false/]] ;NO
MOVEI T1,[ASCIZ /true/] ;YES
CALLRET .TSTRG
;Call: T1/ TTY number
; CALL .TTTY
; Normal Return
.TTTY:: PUSH P,T1 ;SAVE THE TTY NUMBER
MOVEI T1,[ASCIZ /TTY/] ;OUTPUT THE FACT THAT IT'S A TTY
CALL .TSTRG
POP P,T1 ;GET THE TTY NUMBER BACK
CALLRET .TOCTW ;OUTPUT IT AND RETURN
;Subroutine to output the character(s) left justified in T1
; or the single character, right justified
;Control characters are converted to up-arrow format
;If the string is 0, outputs nothing
;Call: T1/ String (Note: NOT a pointer)
; CALL .TCHRS
; Normal Return
.TCHRS::SKIPN T2,T1 ;PUT ENTIRE STRING IN SAFE PLACE - ANYTHING?
RET ;NO - TYPE NOTHING
TDNN T2,[-1,,777600] ;YES - IS THERE ONLY ONE CHARACTER?
JRST .TCHAR ;YES - OUTPUT IT AND RETURN
TLNN T2,-1 ;NO - IS THERE ANYTHING IN THE LEFT HALF?
RET ;NO - TYPE NOTHING
TCHR1A: SETZ T1, ;CLEAR THE TARGET
ROTC T1,7 ;GET A CHARACTER
CAIGE T1," " ;IS IT A CONTROL CHARACTER?
CALL TCHRC ;YES - START IT WITH AN ARROW
CALL .TCHAR ;OUTPUT THE CHARACTER
JUMPN T2,TCHR1A ;LOOP IF THERE'S MORE TO DO
RET ;ELSE DONE
TCHRC:: PUSH P,T1 ;SAVE THE CHARACTER
MOVEI T1,"^" ;START IT WITH AN UP-ARROW
CALL .TCHAR
POP P,T1 ;GET THE CHARACTER BACK
ADDI T1,"@" ;CONVERT IT TO PRINTING ASCII
RET ;AND RETURN TO OUTPUT IT
;Subroutine to output a word in 8-bit ASCII
;Control characters are converted to up-arrow format
;If the string is 0, outputs nothing
;Call: T1/ String (Note: NOT a pointer)
; CALL .TCHR8
; Normal Return
.TCHR8::SKIPN T2,T1 ;PUT ENTIRE STRING IN SAFE PLACE - ANYTHING?
RET ;NO - TYPE NOTHING
TCHR81: SETZ T1, ;CLEAR THE TARGET
ROTC T1,10 ;GET A CHARACTER
CAIGE T1," " ;IS IT A CONTROL CHARACTER?
CALL TCHRC ;YES - START IT WITH AN ARROW
CALL .TCHAR ;OUTPUT THE CHARACTER
JUMPN T2,TCHR81 ;LOOP IF THERE'S MORE TO DO
RET ;ELSE DONE
;Call: T1/ value
; CALL .TDECD
; Normal Return
.TDECD::CALL .TDECW ;TYPE T1 IN DECIMAL
MOVEI T1,"." ;LOAD UP A DECIMAL POINT
CALLRET .TCHAR ;FOLLOWED BY A DECIMAL POINT
;Call: T1/ Circuit ID
; CALL .TCKT
; Normal Return
.TCKT:: SAVEAC <P1>
MOVE P1,T1 ;PRESERVE CIRCUIT-ID
LOAD T1,LIDEV,+P1 ;GET THE DEVICE TYPE RIGHT JUSTIFIED
CAIL T1,0 ;IS THE DEVICE TYPE WITHIN RANGE?
CAILE T1,DEVTLN
JRST [MOVE T1,P1 ;NO - JUST OUTPUT IT IN OCTAL
JRST .TOCTW]
MOVE T1,DEVTAB(T1) ;GET THE NAME OF THE DEVICE
CALL .TSIXN ;TYPE IT OUT
MOVEI T1,"-" ;TYPE THE "-"
CALL .TCHAR
LOAD T1,LIKON,+P1 ;NOW GET THE CONTROLLER (CPU) NUMBER
CALL .TOCTW ;TYPE IT OUT
MOVEI T1,"-" ;TYPE THE "-"
CALL .TCHAR
LOAD T1,LIUNI,+P1 ;AND LAST DO THE UNIT NUMBER
CALL .TOCTW ;TYPE IT AND RETURN
LOAD T1,LIDEV,+P1 ;GET DEVICE TYPE
CAXE T1,LD.CIP ;IS THIS A CI DEVICE?
RET ;NO
MOVEI T1,"." ;YES, TYPE
CALL .TCHAR ; A DOT
LOAD T1,LIDRP,+P1 ;LOAD THE DROP NUMBER (PORT ON THE CI)
CALLRET .TDECW## ;TYPE IT IN DECIMAL AND RETURN TO CALLER
SUBTTL .SWxxx - Local Switch Value Processors
;Call: CALL .SWLIN
; Normal return
;Returns nothing
;The following is the definition of the Line-ID that router maps into
;a line block address. This is used by Network Management to set lines
;into loopback, etc.
.SWCKT: SAVEAC <P1,P2>
SETZ P2, ;CLEAR TARGET
CALL .SIXSW ;GET THE DEVICE NAME
MOVSI T3,-DEVTLN ;SET UP FOR DEVICE NAME SEARCH
SWCKT1: CAMN N,DEVTAB(T3) ;IS THIS THE RIGHT DEVICE?
JRST SWCKT2 ;YES, GO DO THE REST
AOBJN T3,SWCKT1 ;NO, CHECK THE NEXT ONE
SWCKTE: SETZB T1,CKTID ;RETURN AN ILLEGAL CIRCUIT-ID
POPJ P, ; TO CALLER
SWCKT2: STOR T3,LIDEV,+P2 ;PUT THE DEVICE TYPE IN THE RIGHT FIELD
CAIE C,"-" ;WAS IT A LEGAL SEPARATOR?
JRST SWCKTE ;NO - GIVE THE ERROR RETURN
CALL .OCTNW ;GET THE CONTROLLER (CPU) NUMBER
STOR N,LIKON,+P2 ;STORE IT
CAIE C,"-" ;WAS IT THE SEPARATOR?
JRST SWCKTE ;NO - GIVE THE ERROR RETURN
CALL RDOCT ;GET THE UNIT NUMBER
STOR N,LIUNI,+P2 ;STORE IT
LOAD T1,LIDEV,+P2 ;Get device type again
CAXE T1,LD.CIP ;Is it CI?
IFSKP. ; -yes, pick up a drop #
CAIE C,"." ; Was "." there?
JRST SWCKTE ; -no, give error return
CALL .DECNW ; Get the drop #
STOR N,LIDRP,+P2 ; and store it
ENDIF.
MOVE T1,P2 ;ALSO RETURN IN T1
MOVEM T1,CKTID ;SAVE THE CIRCUIT-ID
SKIPN CIRBLK ; Circuit cache set up yet?
CALL CIRCHE ; Set up circuit data base
TRN
POPJ P, ; AND RETURN
DEVTAB: SIXBIT /TST/ ;TEST BED DRIVER (IPCF OR KDP)
SIXBIT /DTE/ ;DTE
SIXBIT /KDP/ ;KDP
SIXBIT /DDP/ ;DDP
SIXBIT /CI/ ;CI
SIXBIT /NI/ ;NI
SIXBIT /DMR/ ;DMR
DEVTLN==.-DEVTAB
;RDOCT - read an octal # without accepting a decimal point. (Couldnt use
; .OCTNW in .SWCKT since it read the drop dot as part of the previous number)
;
;Return value in N, next character in C
RDOCT: SETZ N, ;No value yet
DO. ;LOOP
CALL .TICHR ; Read next character into C
CAIL C,"0" ; Between 0
CAILE C,"7" ; and 7?
EXIT. ; -no, get out of loop
SUBI C,"0" ; Make it a value
LSH N,3 ; N := N * 8 + C
ADD N,C ; ...
LOOP. ; Loop back
ENDDO. ;End of loop
RET ;Return with C and N
;Call: CALL .SWCTM CALL .SWNRT
; Normal return Normal return
;Returns with no value anywhere
.SWCTM: SKIPA T1,[ASCII /CTM/] ;FUDGE SCNJOB TO LOOK AT CTERM'S BLOCKS
.SWNRT: MOVE T1,[ASCII /NRT/] ;FUDGE SCNJOB TO LOOK AT NRT'S BLOCKS
MOVEM T1,SCNJOB
RET ;DONE - RETURN NO VALUE TO THE CALLER
;Routine to allocate output spec area
SCNAOT: OUTSTR [ASCIZ /?SCAN called for output space?
/]
RET ;RETURN
;Routine to allocate input spec area
SCNAIN: OUTSTR [ASCIZ /?SCAN called for input spec space?
/]
RET ;RETURN
SUBTTL Terminal Handling Routines
;TTYINI - Init the TTY
TTYINI: MOVE T1,[GJ%SHT] ;OPEN UP THE TERMINAL FOR OUTPUT
HRROI T2,[ASCIZ /TTY:/] ;SO OUTPUT WON'T BE TRANSLATED
GTJFN
HALTF
HRRZ T1,T1
MOVEM T1,TTYJFN
MOVE T2,[10B5+OF%RD+OF%WR]
OPENF
HALTF
MOVEI T1,.PRIIN ;READ MODE WORD
RFMOD
MOVEM T2,FMDSAV ;SAVE IT FOR EXIT
TDZ T2,[037777,,0020] ;ZERO PAGE LENGTH, WIDTH
TDO T2,[200000,,1300] ;TURN ON FORMF, NO-TRANS-OUTPUT BITS
MOVEM T2,SPMSAV ;SAVE OUR SETTINGS
SFMOD ;SET THOSE SETTINGS
STPAR
MOVEI T1,TYOBSZ*4 ;SAY THERE'S NOTHING IN THE BUFFER
MOVEM T1,TTYOBF
MOVE T1,[POINT 8,OBF1]
MOVEM T1,TTYBPT
POPJ P, ;ALL DONE
;TTYOUC - Output a character to TTY
TTYOUC: EXCH T1,(P) ;GET THE CHAR, SAVE T1
JUMPL T1,TTYOU2 ;JUMP IF SIGNAL FOR LAST - IGNORE IT & RETURN
TTYOU1: SOSG TTYOBF ;COUNT OUT THE NEXT CHARACTER
JRST [PUSH P,T1
PUSHJ P,TTYFRC ;IF NO ROOM, FORCE OUT CURRENT BUFFER
POP P,T1
JRST TTYOU1] ; AND TRY AGAIN
IDPB T1,TTYBPT ;STORE THE CHARACTER
TTYOU2: POP P,T1 ;RESTORE DPY'S AC
POPJ P, ; AND RETURN
;TTYFRC - Force out the current TTY buffer
TTYFRC: PUSH P,T2 ;SAVE THE FRAGGED ACS (T1 ALREADY SAVED)
PUSH P,T3
SETZ T1, ;MAKE SURE THE BUFFER ENDS WITH A NULL
IDPB T1,TTYBPT
MOVE T1,TTYJFN ;OUTPUT THE BUFFER TO THE TERMINAL
MOVE T2,[POINT 8,OBF1]
SETZ T3,
SOUT ;OUTPUT IT
ERJMP TTFERR ;ON FAILURE TYPE AN ERROR
POP P,T3 ;RESTORE THOSE SAVED ACS
POP P,T2
MOVEI T1,TYOBSZ*4 ;SAY THERE'S NOTHING IN THE BUFFER
MOVEM T1,TTYOBF
MOVE T1,[POINT 8,OBF1]
MOVEM T1,TTYBPT
RET ;DONE
TTFERR: ERR ? TTY output I/O error.
HALTF
;TTY output routine called from SCAN's .TCHAR
SCNOUC: SKIPN BIGOUT ;USE BIG BUFFER OUTPUT?
JRST [PBOUT ;NO, PUSH SCAN'S MSGS OUT NOW
RET]
SKIPN TYPDPY ;USER WANT DPY MODE?
JRST SCNOU1 ;NO, OUTPUT STRAIGHT TO TTY
;Here to output a character to DPY package
PUSH P,T2 ;CALLERS EXPECT ALL ACS TO BE SAVED
MOVE T2,LINCNT ;GET CURRENT LINE COUNT
CAML T2,LINGOL ;UP TO BEGINNING OF LOGICAL SCREEN YET?
CHR$ T1 ;YES, TELL DPY
POP P,T2 ;RESTORE CALLER'S T2
CAIN T1,12 ;A LINE FEED?
AOS LINCNT ;YES, ONE MORE LINE FEED OVER DAM
CAIN T1,11 ;WAS IT A TAB?
PUSHJ P,SCNOU3 ;YES - COUNT IT
AOS COLPOS ;BUMP THE CHARACTER POSITION
CAIN T1,12 ;GOT A LF?
SETZM COLPOS ;YES - SET BACK TO COLUMN 1
RET ;RETURN TO SCAN
SCNOU3: MOVEI T1,7 ;GOT A TAB - COUNT IT IN THE COLUMN POSITION
ORM T1,COLPOS
RET
SCNOU1: SOSG TTYOBF ;COUNT OUT NEXT CHARACTER
JRST [PUSH P,T1
PUSHJ P,TTYFRC ;IF NO ROOM, FORCE OUT CURRENT BUFFER
POP P,T1
JRST SCNOU1] ; AND TRY AGAIN
IDPB T1,TTYBPT ;STORE CHARACTER
POPJ P, ; AND RETURN
SUBTTL End of Subprogram
PRGEND DCNSPY
TITLE SPYDCN -- One of several Block Description Subprograms
;This and following modules are separate programs so that they can build
;tables based on different universals which contain conflicting symbols.
;All SPYxxx modules search these:
SEARCH MACSYM
SEARCH DCNSPY
;The following universals are searched for symbols in the xxxMAC tables:
SEARCH D36PAR,SCPAR,CTERMD
;And now glue the various subprograms together:
EXTERN .TTTY, .TBOOL, .TDECD, .TDECW, .TSIXN, .TOCTW, .TXWDW, ERRSTR
EXTERN .TSPAC, .TTABC
SUBTTL Block Description Tables -- SJB
;Session Control Job Block
DEFINE SJBMAC,<
ENTRY. SJ,NXT,,.TXWDW,0,<NEXT JOB BLOCK IN SYSTEM>
ENTRY. SJ,CHT,,.TXWDW,0,<PTR TO SLB TABLE (INDEXED BY CHANNEL)>
ENTRY. SJ,CHC,,.TDECD,0,<COUNT OF SPACES ALLOCATED IN SLB TABLE>
ENTRY. SJ,PSJ,,.TXWDW,0,<POINTER TO SYSTEM'S POINTER TO THE SJB>
ENTRY. SJ,BLK,,.TBOOL,0,<USER IS PRVJ PRIVILEGED>
ENTRY. SJ,RST,,.TBOOL,0,<RESET IN PROGRESS>
ENTRY. SJ,FRK,,.TDECD,0,<JOB NUMBER>
ENTRY. SJ,CTA,,.TDECD,0,<NUMBER OF CI TIMERS ACTIVE FOR JOB>
ENTRY. SJ,TXQ,,.TQUE ,0,<TRANSACTION QUEUE OF NSPSER CALLS>
ENTRY. SJ,PSQ,,.TQUE ,0,<QUEUE OF SLBs WITH PSIs OUTSTANDING>
ENTRY. SJ,GOL,,.TDECD,0,<INPUT DATA REQUEST GOAL>
ENTRY. SJ,INQ,,.TDECD,0,<JOB INPUT QUOTA>
ENTRY. SJ,OTQ,,.TDECD,0,<JOB OUTPUT QUOTA>
ENTRY. SJ,INU,,.TDECD,0,<BUFFERS USED TOWARD INPUT JOB QUOTA>
ENTRY. SJ,OTU,,.TDECD,0,<BUFFERS USED TOWARD OUTPUT JOB QUOTA>
ENTRY. SJ,SAB,,.TXWDW,0,<SA BLOCK POINTER>
ENTRY. SJ,PRT,,.TXWDW,0,<POINTER TO PORT TABLE>
ENTRY. SJ,MXP,,.TDECD,0,<MAXIMUM NUNBER OF PORTS>
>;END OF SJBMAC
DEFINE PRTMAC,<
ENTRY. PT,CON,,.TDECD,0,<USER'S PSI CHANNEL FOR INCOMING CI OR CC>
ENTRY. PT,INT,,.TDECD,0,<USER'S PSI CHANNEL FOR INTERRUPT MESSAGES>
ENTRY. PT,DAT,,.TDECD,0,<USER'S PSI CHANNEL FOR DATA/DISCONNECT>
ENTRY. PT,TYP,,.TPTYP,0,<OPEN TYPE: 0=PASSIVE 1=ACTIVE>
ENTRY. PT,EMI,,.TBOOL,0,<EOM HAS ARRIVED>
ENTRY. PT,PSI,,.TBOOL,0,<USER HAS BEEN "PSI"ED FOR DATA AVAILABLE>
ENTRY. PT,LWC,,.TBOOL,0,<LINK WAS CONNECTED INDICATOR>
ENTRY. PT,BLK,,.TBOOL,0,<"WE BLOCKED" DURING THE CALL TO SCTNSF>
ENTRY. PT,WAK,,.TBOOL,0,<WAKE THE NEXT PROCESS THAT TRIES TO BLOCK>
ENTRY. PT,NRR,,.TBOOL,0,<NULL RECORD RECEIVED.>
ENTRY. PT,JFN,,.TOCTW,0,<JFN ASSOCIATED WITH CHANNEL>
ENTRY. PT,FRK,,.TDECD,0,<FORK NUMBER>
ENTRY. PT,STS,,.TDECD,0,<LINK STATUS>
ENTRY. PT,DEV,,.TXWDW,0,<STORAGE FOR DEV DURING A BLOCK>
>;END OF PRTMAC
DEFINE SLBMAC,<
ENTRY. SL,ASQ,,.TXWDW,0,<NEXT SLB ON ALL SLBs QUEUE>
ENTRY. SL,NXP,,.TXWDW,0,<POINTER TO NEXT SL WITH ACTIVE PSI>
ENTRY. SL,JFQ,,.TXWDW,0,<POINTER TO NEXT SL REQUESTING JIFFY SERVICE>
ENTRY. SL,SLB,,.TXWDW,0,<POINTER TO OURSELVES>
ENTRY. SL,SJB,,.TXWDW,0,<POINTER TO JOB BLOCK>
ENTRY. SL,CHN,,.TDECD,0,<CHANNEL NUMBER>
ENTRY. SL,SOB,,.TDECD,0,<SOURCE OBJECT TYPE>
ENTRY. SL,DOB,,.TDECD,0,<DESTINATION OBJECT TYPE>
ENTRY. SL,CCB,,.TBOOL,0,<CHECK CONNECT BLOCK>
ENTRY. SL,KCB,,.TBOOL,0,<KEEP CONNECT BLOCK FOR LIFE OF LINK>
ENTRY. SL,PSI,,.TBOOL,0,<PSI PENDING FLAG>
ENTRY. SL,PH2,,.TBOOL,0,<PHASE II HAS NO RESEND CAPABILITY>
ENTRY. SL,ABO,,.TBOOL,0,<CLOSE PORT AFTER ABORT & RELEASE>
ENTRY. SL,FSL,,.TBOOL,0,<FREE SLB WHEN DONE WITH ALL PROCESSING>
ENTRY. SL,BSY,,.TBOOL,0,<SLB IS BUSY (CANNOT BE FREED)>
ENTRY. SL,LBC,,.TBOOL,0,<LINK IS BEING CLOSED BY NSP>
ENTRY. SL,JFR,,.TBOOL,0,<JIFFY SERVICE REQUESTED FLAG>
ENTRY. SL,EOM,,.TBOOL,0,< LAST SEGMENT OUTPUT WAS END OF MESSAGE>
ENTRY. SL,STA,,.TSTAS,0,<SESSION CONTROL STATE>
ENTRY. SL,XFL,,.TOCTW,0,<TRANSMIT FLOW CONTROL OPTION>
ENTRY. SL,RFL,,.TOCTW,0,<RECEIVE FLOW CONTROL OPTION>
ENTRY. SL,GOL,,.TDECD,0,<RECEIVE DATA REQUEST GOAL>
ENTRY. SL,INQ,,.TDECD,0,<INPUT QUOTA FOR LINK>
ENTRY. SL,OTQ,,.TDECD,0,<OUTPUT QUOTA FOR LINK>
ENTRY. SL,INU,,.TDECD,0,<INPUT BUFFERS IN USE>
ENTRY. SL,OTU,,.TDECD,0,<OUTPUT BUFFERS IN USE>
ENTRY. SL,SST,,.TOCTW,0,<LINK STATUS WORD>
ENTRY. SL,PSM,,.TOCTW,0,<THE PSI MASK>
ENTRY. SL,DRR,,.TDECD,0,<NORMAL DATA REQUESTS TO RESEND>
ENTRY. SL,RSN,,.TDECD,0,<REASON CODE OF DISCONNECT OR REJECT>
ENTRY. SL,PID,,.TXWDW,0,<NSPpid OF PORT>
ENTRY. SL,DNA,,.TNODE,0,<DESTINATION NODE ADDRESS>
ENTRY. SL,SIZ,,.TDECD,0,<SEGMENT SIZE IN BYTES>
ENTRY. SL,CTM,,.TTIME,0,<CONNECT INITIATE TIMER>
ENTRY. SL,WKA,,.TXWDW,0,<ADDRESS OF WAKEUP ROUTINE>
ENTRY. SL,CDM,,.TXWDW,0,<POINTER TO DIS/CONNECT MESSAGE BLOCK>
ENTRY. SL,CBP,,.TXWDW,0,<POINTER TO CONNECT BLOCK FOR PASSIVE TASK>
ENTRY. SL,OTM,,.TXWDW,0,<Ptr to partially filled output message>
ENTRY. SL,UID,,.TTIME,0,<Stale detection timestamp>
ENTRY. SL,BYS,,.TDECD,0,<Bytes sent>
ENTRY. SL,BYR,,.TDECD,0,<Bytes received>
ENTRY. SL,PKS,,.TDECD,0,<Packets sent>
ENTRY. SL,PKR,,.TDECD,2,<Packets received>
ENTRY. SS,OTH,+SL.NSL,.TBOOL,0,<INDICATES THIS IS "NORMAL" SUB-LINK>
ENTRY. SS,XDO,+SL.NSL,.TDECD,0,<SUBLINK TRANSMIT DRQS OUTSTANDING>
ENTRY. SS,RDO,+SL.NSL,.TDECD,0,<SUBLINK RECEIVE DRQS OUTSTANDING>
ENTRY. SS,INQ,+SL.NSL,.TQUE ,2,<SUBLINK INPUT QUEUE>
ENTRY. SS,OTH,+SL.OSL,.TBOOL,0,<INDICATES THIS IS "OTHER" SUB-LINK>
ENTRY. SS,XDO,+SL.OSL,.TDECD,0,<SUBLINK TRANSMIT DRQS OUTSTANDING>
ENTRY. SS,RDO,+SL.OSL,.TDECD,0,<SUBLINK RECEIVE DRQS OUTSTANDING>
ENTRY. SS,INQ,+SL.OSL,.TQUE ,0,<SUBLINK INPUT QUEUE>
>;END OF SLBMAC
DEFINE ELBMAC,<
ENTRY. EL,APQ,,.TXWDW,0,<NEXT IN QUEUE OF ALL LINK BLOCKS>
ENTRY. EL,HBQ,,.TXWDW,0,<NEXT IN QUEUE OF LINKS IN A HASH BUCKET>
ENTRY. EL,JFQ,,.TXWDW,0,<NEXT IN QUEUE OF LINKS NEEDING JIFFY SERVICE>
ENTRY. EL,OJQ,,.TBOOL,0,<LINK IS ON THE JIFFY-REQUEST QUEUE>
ENTRY. EL,SNC,,.TBOOL,0,<SET IF NOT YET TOLD SC ABOUT NO CONF>
ENTRY. EL,CNF,,.TBOOL,0,<SET IF WE HAVE CONFIDENCE IN LINK>
ENTRY. EL,SCM,,.TBOOL,0,<SEND CONNECT MESSAGE NEXT JIFFY>
ENTRY. EL,SDM,,.TBOOL,0,<SEND DISCONNECT CONFIRM MESSAGE NEXT JIFFY>
ENTRY. EL,ABO,,.TBOOL,0,<ABORTING THIS LOGICAL LINK>
ENTRY. EL,DTO,,.TBOOL,0,<DELAY TIMER IS FOR "OTHER" SUBLINK>
ENTRY. EL,STA,,.TSTAN,0,<NSP STATE OF THIS LINK>
ENTRY. EL,SIZ,,.TDECD,0,<MAX SIZE OF A SEGMENT ON THIS LINK>
ENTRY. EL,LLA,,.TOCTW,0,<LOCAL LINK ADDRESS>
ENTRY. EL,RLA,,.TOCTW,0,<REMOTE LINK ADDRESS>
ENTRY. EL,ORQ,,.TXWDW,0,<FIRST MSG ON OUT-IN-ROUTER QUEUE>
ENTRY. EL,ORQ,,.TQUE, 0,<QUEUE OF MSGS OUT IN ROUTER>
ENTRY. EL,CLC,,.TDECD,0,<COUNT-DOWN FOR CLOSE RETRIES>
ENTRY. EL,ORC,,.TDECD,0,<COUNT OF MSGS OUT IN ROUTER>
ENTRY. EL,VER,,.TDECD,0,<VERSION OF REMOTE NSP, SEE VER3.1,VER3.2>
ENTRY. EL,DSG,,.TXWDW,0,<MSG SEGMENT BEING TIMED FOR DELAY CALC>
ENTRY. EL,DTM,,.TTIME,0,< AND TIME IT WAS FIRST SENT>
ENTRY. EL,NNM,,.TNODE,0,<THE REMOTE'S NODE NUMBER>
ENTRY. EL,NDB,,.TXWDW,0,<PTR TO NSP NODE BLOCK>
ENTRY. EL,TMA,,.TTIME,0,<INACTIVITY TIMER>
ENTRY. EL,SCV,,.TXWDW,0,<SESSION CONTROL CALL VECTOR BASE ADDRESS>
ENTRY. EL,SCB,,.TXWDW,0,<SESSION CONTROL BLOCK ID>
ENTRY. EL,CIM,,.TXWDW,0,<PTR TO (R)CI MESSAGE>
ENTRY. EL,DIM,,.TXWDW,0,<PTR TO DI MESSAGE>
ENTRY. EL,CHK,,.TXWDW,2,<ADDRESS OF THIS EL, FOR ADDR CHECK
>
ENTRY. ES,OTH,+EL.NSL,.TBOOL,0,<FALSE SINCE THIS IS THE "NORMAL" SUBLINK>
ENTRY. ES,ACK,+EL.NSL,.TBOOL,0,<SEND ACK FOR THIS SUBLINK NEXT JIFFY>
ENTRY. ES,NAK,+EL.NSL,.TBOOL,0,<SEND NAK TO PH2 NSP (TURN ACK ON TOO)>
ENTRY. ES,ROF,+EL.NSL,.TBOOL,0,<RECEIVE IS OFF>
ENTRY. ES,ROC,+EL.NSL,.TBOOL,0,<RECEIVE OFF HAS CHANGED>
ENTRY. ES,XOF,+EL.NSL,.TBOOL,0,<XMIT IS OFF>
ENTRY. ES,BFR,+EL.NSL,.TBOOL,0,<REMOTE IS "BUFFER-RICH" ON THIS LINK>
ENTRY. ES,RFL,+EL.NSL,.TOCTW,0,<RECEIVE FLOW CONTROL TYPE>
ENTRY. ES,XFL,+EL.NSL,.TOCTW,0,<XMIT FLOW CONTROL TYPE>
ENTRY. ES,GOL,+EL.NSL,.TDECD,0,<DATA REQUEST GOAL>
ENTRY. ES,CGL,+EL.NSL,.TDECD,0,<AFTER-CONGESTION RECOVERY GOAL>
ENTRY. ES,XLD,+EL.NSL,.TDECD,0,<XMIT DRQS OUTSTANDING TO LOCAL SC>
ENTRY. ES,XRD,+EL.NSL,.TDECD,0,<XMIT DRQS OUTSTANDING TO REMOTE NSP>
ENTRY. ES,XSD,+EL.NSL,.TDECD,0,<XMIT DRQS NEED TO SEND TO SC>
ENTRY. ES,RLD,+EL.NSL,.TDECD,0,<RECEIVE DRQS OUTSTANDING TO LOCAL SC>
ENTRY. ES,RRD,+EL.NSL,.TDECD,0,<RECEIVE DRQS OUTSTANDING TO REMOTE NSP>
ENTRY. ES,RSD,+EL.NSL,.TDECD,0,<RECEIVE DRQS NEED TO SEND TO SC>
ENTRY. ES,LMA,+EL.NSL,.TOCTW,0,<LAST MESSAGE NUMBER ASSIGNED>
ENTRY. ES,LAR,+EL.NSL,.TOCTW,0,<LAST ACK RECEIVED (AND PROCESSED)>
ENTRY. ES,LMR,+EL.NSL,.TOCTW,0,<LAST MESSAGE RECEIVED>
ENTRY. ES,AKQ,+EL.NSL,.TQUE ,0,<QUEUE HEADER FOR THE TO-BE-ACKED Q>
ENTRY. ES,RCQ,+EL.NSL,.TQUE ,0,<QUEUE HEADER FOR THE RECEIVE Q>
ENTRY. ES,XMQ,+EL.NSL,.TQUE ,0,<QUEUE HEADER FOR THE XMIT Q>
ENTRY. ES,CWS,+EL.NSL,.TDECD,0,<Current window size>
ENTRY. ES,CDA,+EL.NSL,.TDECD,2,<# of ACK's since last window change
>
ENTRY. ES,OTH,+EL.OSL,.TBOOL,0,<TRUE SINCE THIS IS THE "OTHER" SUBLINK>
ENTRY. ES,ACK,+EL.OSL,.TBOOL,0,<SEND ACK FOR THIS SUBLINK NEXT JIFFY>
ENTRY. ES,NAK,+EL.NSL,.TBOOL,0,<SEND NAK TO PH2 NSP (TURN ACK ON TOO)>
ENTRY. ES,ROF,+EL.OSL,.TBOOL,0,<RECEIVE IS OFF>
ENTRY. ES,ROC,+EL.OSL,.TBOOL,0,<RECEIVE OFF HAS CHANGED>
ENTRY. ES,XOF,+EL.OSL,.TBOOL,0,<XMIT IS OFF>
ENTRY. ES,BFR,+EL.OSL,.TBOOL,0,<REMOTE IS "BUFFER-RICH" ON THIS LINK>
ENTRY. ES,RFL,+EL.OSL,.TOCTW,0,<RECEIVE FLOW CONTROL TYPE>
ENTRY. ES,XFL,+EL.OSL,.TOCTW,0,<XMIT FLOW CONTROL TYPE>
ENTRY. ES,GOL,+EL.OSL,.TDECD,0,<DATA REQUEST GOAL>
ENTRY. ES,CGL,+EL.OSL,.TDECD,0,<AFTER-CONGESTION RECOVERY GOAL>
ENTRY. ES,XLD,+EL.OSL,.TDECD,0,<XMIT DRQS OUTSTANDING TO LOCAL SC>
ENTRY. ES,XRD,+EL.OSL,.TDECD,0,<XMIT DRQS OUTSTANDING TO REMOTE NSP>
ENTRY. ES,XSD,+EL.OSL,.TDECD,0,<XMIT DRQS NEED TO SEND TO SC>
ENTRY. ES,RLD,+EL.OSL,.TDECD,0,<RECEIVE DRQS OUTSTANDING TO LOCAL SC>
ENTRY. ES,RRD,+EL.OSL,.TDECD,0,<RECEIVE DRQS OUTSTANDING TO REMOTE NSP>
ENTRY. ES,RSD,+EL.OSL,.TDECD,0,<RECEIVE DRQS NEED TO SEND TO SC>
ENTRY. ES,LMA,+EL.OSL,.TOCTW,0,<LAST MESSAGE NUMBER ASSIGNED>
ENTRY. ES,LAR,+EL.OSL,.TOCTW,0,<LAST ACK RECEIVED (AND PROCESSED)>
ENTRY. ES,LMR,+EL.OSL,.TOCTW,0,<LAST MESSAGE RECEIVED>
ENTRY. ES,AKQ,+EL.OSL,.TQUE ,0,<QUEUE HEADER FOR THE TO-BE-ACKED Q>
ENTRY. ES,RCQ,+EL.OSL,.TQUE ,0,<QUEUE HEADER FOR THE RECEIVE Q>
ENTRY. ES,XMQ,+EL.OSL,.TQUE ,0,<QUEUE HEADER FOR THE XMIT Q>
ENTRY. ES,CWS,+EL.OSL,.TDECD,0,<Current window size>
ENTRY. ES,CDA,+EL.OSL,.TDECD,2,<# of ACK's since last window change>
>;END OF ELBMAC
SUBTTL Block Description Tables -- RCB (Router Circuit Block)
EXTERN .TCKT ;Type out Circuit Id from internal format
DEFINE RCBMAC,<
ENTRY. RC,NXT,,.TXWDW,0,<Pointer to next circuit block>
ENTRY. RC,LID,,.TCKT, 0,<Circuit ID>
ENTRY. RC,DLB,,.TXWDW,0,<Data link block address>
ENTRY. RC,AJQ,,.TXWDW,0,<Head of queue of adjacencies>
ENTRY. RC,AJQ,,.TQUE, 0,<Count of adjacencies belonging to this circuit>
ENTRY. RC,BCT,,.TBOOL,0,<Broadcast circuit (should be bit 0)>
ENTRY. RC,SRM,,.TBOOL,0,<Send routing message flag>
ENTRY. RC,EBU,,.TBOOL,0,<Emergency buffer is in use>
ENTRY. RC,SHM,,.TBOOL,0,<Send hello message>
ENTRY. RC,DSR,,.TBOOL,0,<We are the designated router (NI only)>
ENTRY. RC,STA,,.TSTAR,0,<Circuit state>
ENTRY. RC,CST,,.TDECD,0,<Circuit cost>
ENTRY. RC,DRT,,.TDECD,0,<Time before we assume DSR role>
ENTRY. RC,TLS,,.TTIME,0,<Time last message of any type was sent>
ENTRY. RC,TLR,,.TTIME,0,<Time last routing message was sent>
ENTRY. RC,TLH,,.TTIME,0,<Time we sent the last hello (NI only)>
ENTRY. RC,TIN,,.TTIME,0,<Time we got protocol up from controller>
ENTRY. RC,TM3,,.TTMRD,0,<Hello message timer>
ENTRY. RC,BSZ,,.TDECD,0,<Maximum block size>
ENTRY. RC,RBS,,.TDECD,0,<Receive block size for this circuit>
ENTRY. RC,PRI,,.TDECD,0,<Our priority to be designated router (NI only)>
ENTRY. RC,MXR,,.TDECD,0,<Maximum routers on this circuit>
ENTRY. RC,NRO,,.TDECD,0,<Number of routers online>
ENTRY. RC,DSH,,.TXWDW,0,<ID of current designated router (NI only)>
ENTRY. RC,DSL,,.TXWDW,0,<Second half of router ID>
IFN FTMP,<
ENTRY. RC,JSQ,,.TQUE, 0,<Queue header for jiffy resend queue>
>
ENTRY. RC,CMQ,,.TDECD,0,<Messages queued for output on this circuit>
ENTRY. RC,CLC,,.TDECD,0,<Number of local messages transmitted>
ENTRY. RC,SLZ,,.TTIME,0,< (0) Time stamp of when last zeroed>
ENTRY. RC,CAP,,.TDECD,0,< (800) Arriving packets received (to NSP)>
ENTRY. RC,CDP,,.TDECD,0,< (801) Departing packets sent (from NSP)>
ENTRY. RC,CAL,,.TDECD,0,< (802) Arriving congestion loss (to NSP)>
ENTRY. RC,CTR,,.TDECD,0,< (810) Transit packets received>
ENTRY. RC,CTS,,.TDECD,0,< (811) Transit packets sent>
ENTRY. RC,CTL,,.TDECD,0,< (812) Transit congestion loss>
ENTRY. RC,CCD,,.TDECD,0,< (820) Circuit down events>
ENTRY. RC,AJD,,.TDECD,0,< Adjacency down>
ENTRY. RC,CIF,,.TDECD,0,< (821) Initialization failures>
ENTRY. RC,BSX,,.TDECD,0,<(xxxx) Adjacency block size exceeded /output>
> ;End RCBMAC
SUBTTL Block Description Tables -- AJB (Adjacency Block)
DEFINE AJBMAC,<
ENTRY. AJ,NXT,,.TXWDW,0,<Pointer to next adjacency block>
ENTRY. AJ,STA,,.TSTAA,0,<Adjacency state>
ENTRY. AJ,NTY,,.TAJTY,0,<Neighbor node type>
ENTRY. AJ,PH4,,.TBOOL,0,<Adjacency is Phase IV>
ENTRY. AJ,VRQ,,.TBOOL,0,<Verification required from remote>
ENTRY. AJ,BLO,,.TBOOL,0,<Blocking is requested by this node>
ENTRY. AJ,RJF,,.TBOOL,0,<Reject flag>
ENTRY. AJ,MTA,,.TBOOL,0,<No multi-cast traffic accepted>
ENTRY. AJ,VER,,.TOCTW,0,<Version of neighbor's router>
ENTRY. AJ,ECO,,.TOCTW,0,<ECO number of neighbor's router>
ENTRY. AJ,CUS,,.TOCTW,0,<Customer version of neighbor's router>
ENTRY. AJ,NAH,,.TXWDW,0,<Hi-order NI address>
ENTRY. AJ,NAL,,.TXWDW,0,<Lo-order NI string format>
ENTRY. AJ,NAA,,.TNODE,0,<Adjacency's node area>
ENTRY. AJ,NAN,,.TNODE,0,<Adjacency's node number>
ENTRY. AJ,RTV,,.TXWDW,0,<Pointer to this adjacencies routing vector>
ENTRY. AJ,CBP,,.TXWDW,0,<Circuit block pointer for this adjacency>
ENTRY. AJ,BSZ,,.TDECD,0,<Block size requested by neighbor>
ENTRY. AJ,NHT,,.TTMRD,0,<Neighbors hello timer>
ENTRY. AJ,TLR,,.TTIME,0,<Time last message received from neighbor>
ENTRY. AJ,PRI,,.TDECD,0,<Adjacent router's priority to be designated router>
ENTRY. AJ,ARE,,.TDECD,0,<Adjacent routers area>
ENTRY. AJ,MPD,,.TOCTW,0,<MPD (reserved)>
>;END OF AJBMAC
SUBTTL Block Description Tables -- DL (Data Link Block)
DEFINE DLBMAC,<
ENTRY. DL,NXT,,.TXWDW,0,<Link to next data link block>
ENTRY. DL,UID,,.TXWDW,0,<ID supplied by DNADLL user>
ENTRY. DL,DID,,.TCKT,0,<Device ID>
ENTRY. DL,RUN,,.TBOOL,0,<Data link is running>
ENTRY. DL,EBU,,.TBOOL,0,<Emergency buffer in use>
ENTRY. DL,LIU,,.TBOOL,0,<Line in use by circuit>
ENTRY. DL,KNO,,.TOCTW,0,<Kontroller number (DTE only)>
ENTRY. DL,UNB,,.TXWDW,0,<Pointer to the User-NI block>
ENTRY. DL,PID,,.TXWDW,0,<Portal ID>
ENTRY. DL,LTP,,.TXWDW,0,<Line table pointer>
ENTRY. DL,SLZ,,.TDECW,0,<(0) Seconds since last zeroed>
ENTRY. DL,BYR,,.TDECW,0,<(1000) Total bytes received>
ENTRY. DL,BYS,,.TDECW,0,<(1001) Total bytes sent>
ENTRY. DL,DBR,,.TDECW,0,<(1010) Total data blocks received>
ENTRY. DL,DBS,,.TDECW,0,<(1011) Total data blocks sent>
ENTRY. DL,UBU,,.TDECW,0,<(1065) User buffer unavailable>
>;End of DLBMAC
DEFINE LTBMAC,<
ENTRY. LT,LID,,.TCKT,0,<Line ID>
ENTRY. LT,DVE,,.TBOOL,0,<Driver believes device is present>
ENTRY. LT,STA,,.TSTAL,0,< State of line>
ENTRY. LT,CON,,.TDECW,0,<Controller (normal/loopback)>
ENTRY. LT,PRO,,.TDECW,0,<Protocol type>
ENTRY. LT,CTY,,.TDECW,0,<Circuit type>
ENTRY. LT,DBF,,.TDECW,0,<Default number of buffers>
ENTRY. LT,BNO,,.TDECW,0,<Number of buffers to post>
ENTRY. LT,NBP,,.TDECW,0,<Number of buffers posted>
> ;End of LTBMAC
SUBTTL Block Description Tables -- MB (Message Block)
DEFINE MBBMAC,<
ENTRY. MB,NXT,,.TXWDW,0,<PTR TO NEXT MESSAGE>
ENTRY. MB,FMS,,.TXWDW,0,<POINTER TO FIRST MSD>
ENTRY. MB,MSN,,.TXWDW,0,<DDCMP MESSAGE NUMBER>
ENTRY. MB,DST,,.TNODE,0,<DESTINATION NODE>
ENTRY. MB,SRC,,.TNODE,0,<SOURCE NODE>
ENTRY. MB,DS1,,.TXWDW,0,< FIRST 32 BITS OF DESTINATION>
ENTRY. MB,SR1,,.TXWDW,0,< FIRST 32 BITS OF SOURCE>
ENTRY. MB,OTH,,.TBOOL,0,<ON THE "OTHER" SUBLINK>
ENTRY. MB,BOM,,.TBOOL,0,<BEGINNING OF MESSAGE>
ENTRY. MB,EOM,,.TBOOL,0,<END OF MESSAGE>
ENTRY. MB,EBF,,.TBOOL,0,<EMERGENCY MESSAGE BLOCK >
ENTRY. MB,PH2,,.TBOOL,0,<PHASE II MESSAGE>
ENTRY. MB,DON,,.TBOOL,0,<"SYNCHRONOUS" INTERLOCK DONE BIT (NSP & SC)>
ENTRY. MB,LCL,,.TBOOL,0,<BOUND FOR THE LOCAL NSP>
ENTRY. MB,UNR,,.TBOOL,0,<UNREACHABLE>
ENTRY. MB,CHN,,.TXWDW,0,<LOOPBACK CHANNEL (CIRCUIT ID)>
ENTRY. MB,PRC,,.TXWDW,0,<PROCEDURE PROCESSOR (NSP & SC)>
ENTRY. MB,AR1,,.TXWDW,0,<ARGUMENT STORAGE #1 (NSP & SC)>
ENTRY. MB,AR2,,.TXWDW,0,<ARGUMENT STORAGE #2 (NSP & SC)>
ENTRY. MB,AR3,,.TXWDW,2,<ARGUMENT STORAGE #3 (NSP & SC)>
ENTRY. RM,OCP,,.TXWDW,0,<OUTPUT CIRCUIT BLK POINTER>
ENTRY. RM,ICP,,.TXWDW,0,<INPUT CIRCUIT BLK POINTER>
ENTRY. RM,OAP,,.TXWDW,0,<OUTPUT ADJACENCY POINTER>
ENTRY. RM,IAP,,.TXWDW,0,<INPUT ADJACENCY POINTER>
ENTRY. RM,FST,,.TDECD,0,<FIRST BYTE IN MESSAGE>
ENTRY. RM,MZ1,,.TBOOL,0,<MBZ>
ENTRY. RM,EVL,,.TBOOL,0,<EVOLUTION BIT (RESERVED)>
ENTRY. RM,MZ2,,.TBOOL,0,<MBZ (III)/INTRA-NI PACKET (IV NI)>
ENTRY. RM,RTS,,.TBOOL,0,<BEING RETURNED TO SENDER>
ENTRY. RM,RQR,,.TBOOL,0,<RETURN REQUESTED (RESERVED)>
ENTRY. RM,MZ3,,.TBOOL,0,<ALARM BIT (DIRECT FROM ENDNODE)>
ENTRY. RM,MB1,,.TBOOL,0,<MUST BE ONE>
ENTRY. RM,CTL,,.TBOOL,0,<CONTROL MESSAGE (NOT DATA)>
ENTRY. RM,CTY,,.TOCTW,0,< CONTROL MESSAGE TYPE>
ENTRY. RM,ODN,,.TBOOL,0,< DON'T ODN THIS MESSAGE>
ENTRY. RM,PH2,,.TBOOL,0,<MESSAGE SEEMS TO BE PHASE II>
ENTRY. RM,TRY,,.TBOOL,0,<NSP wants Router to "TRYHARD" on the NI>
ENTRY. RM,MK1,,.TXWDW,0,<FIRST MARK>
ENTRY. RM,MK2,,.TXWDW,1,<SECOND MARK>
ENTRY. MD,NXT,+RM.MSD,.TXWDW,0,<MUST BE ZERO ;PTR TO NEXT MSD>
ENTRY. MD,PTR,+RM.MSD,.TXWDW,0,<ILDB PTR INTO MSG ;IDPB PTR INTO MSG>
ENTRY. MD,AUX,+RM.MSD,.TXWDW,0,<NOT USED ;ILDB PTR TO BEG OF MSG>
ENTRY. MD,BYT,+RM.MSD,.TDECD,0,<BYTES LEFT TO READ ;BYTES WRITTEN SO FAR>
ENTRY. MD,VMC,+RM.MSD,.TDECD,0,<VIRTUAL MAP CONTEXT>
ENTRY. MD,ALL,+RM.MSD,.TDECD,0,<ALLOCATED LENGTH IN BYTES>
ENTRY. MD,ALA,+RM.MSD,.TXWDW,2,<ALLOCATED ADDRESS OF SEGMENT'S DATA>
ENTRY. NM,ACK,,.TBOOL,0,<NEEDS TO BE ACKED>
ENTRY. NM,RET,,.TBOOL,0,<RETURN MSG TO Session Control>
ENTRY. NM,SGN,,.TOCTW,0,<MESSAGE SEGMENT NUMBER>
ENTRY. NM,MGF,,.TMGF ,0,<THE MSGFLG FIELD OF THE NSP HEADER>
ENTRY. NM,CNT,,.TDECD,0,<# OF TIMES WE'VE SENT MESSAGE>
ENTRY. NM,TIM,,.TTIME,0,<TIME STAMP>
ENTRY. NM,PRT,,.TXWDW,0,<PTR TO PORT BLOCK>
ENTRY. NM,LLA,,.TOCTW,0,<LOCAL LINK ADDRESS>
ENTRY. NM,RLA,,.TOCTW,0,<REMOTE LINK ADDRESS>
ENTRY. NM,ORQ,,.TXWDW,0,<ORQ queue link>
ENTRY. NM,MAG,,.TXWDW,0,<Magic word for DTESRV, IN OCTAL>
ENTRY. NM,MAG,,.TSIXN,0,<Magic word for DTESRV, IN SIXBIT>
ENTRY. NM,MK1,,.TXWDW,0,<FIRST MARK>
ENTRY. NM,MK2,,.TXWDW,1,<SECOND MARK>
ENTRY. MD,NXT,+NM.MSD,.TXWDW,0,<MUST BE ZERO ;PTR TO NEXT MSD>
ENTRY. MD,PTR,+NM.MSD,.TXWDW,0,<ILDB PTR INTO MSG ;IDPB PTR INTO MSG>
ENTRY. MD,AUX,+NM.MSD,.TXWDW,0,<NOT USED ;ILDB PTR TO BEG OF MSG>
ENTRY. MD,BYT,+NM.MSD,.TDECD,0,<BYTES LEFT TO READ ;BYTES WRITTEN SO FAR>
ENTRY. MD,VMC,+NM.MSD,.TDECD,0,<VIRTUAL MAP CONTEXT>
ENTRY. MD,ALL,+NM.MSD,.TDECD,0,<ALLOCATED LENGTH IN BYTES>
ENTRY. MD,ALA,+NM.MSD,.TXWDW,2,<ALLOCATED ADDRESS OF SEGMENT'S DATA>
ENTRY. MD,NXT,+UD.MSD,.TXWDW,0,<MUST BE ZERO ;PTR TO NEXT MSD>
ENTRY. MD,PTR,+UD.MSD,.TXWDW,0,<ILDB PTR INTO MSG ;IDPB PTR INTO MSG>
ENTRY. MD,AUX,+UD.MSD,.TXWDW,0,<NOT USED ;ILDB PTR TO BEG OF MSG>
ENTRY. MD,BYT,+UD.MSD,.TDECD,0,<BYTES LEFT TO READ ;BYTES WRITTEN SO FAR>
ENTRY. MD,VMC,+UD.MSD,.TDECD,0,<VIRTUAL MAP CONTEXT>
ENTRY. MD,ALL,+UD.MSD,.TDECD,0,<ALLOCATED LENGTH IN BYTES>
ENTRY. MD,ALA,+UD.MSD,.TXWDW,0,<ALLOCATED ADDRESS OF SEGMENT'S DATA>
>;END OF MBBMAC
SUBTTL Block Description Tables -- CDB (CTERM Data Block)
DEFINE CDBMAC,<
ENTRY. CH,IMB,,.TXWDW,0,<ADDRESS OF CTERM MESSAGE INPUT BUFFER>
ENTRY. CH,UID,,.TXWDW,0,<UNIQUE ID>
ENTRY. CH,CO1,,.TXWDW,0,<CCOC WORDS LAST SENT TO SERVER>
ENTRY. CH,CO2,,.TXWDW,1,<CCOC WORDS LAST SENT TO SERVER>
ENTRY. CH,BR1,,.TXWDW,0,<BREAK MASK LAST SENT TO SERVER>
ENTRY. CH,BR2,,.TXWDW,0,<BREAK MASK LAST SENT TO SERVER>
ENTRY. CH,BR3,,.TXWDW,0,<BREAK MASK LAST SENT TO SERVER>
ENTRY. CH,BR4,,.TXWDW,0,<BREAK MASK LAST SENT TO SERVER>
ENTRY. CH,RFL,,.TXWDW,0,<START-READ FLAGS>
ENTRY. CH,LIN,,.TTTY, 0,<TOPS-20 TERMINAL LINE NUMBER>
ENTRY. CH,CHL,,.TDECD,0,<DECNET CHANNEL NUMBER>
ENTRY. CH,INC,,.TDECD,1,<COUNT OF CHARACTERS IN INPUT BUFFER>
ENTRY. CH,STS,,.TSTAS,0,<CURRENT STATE OF DECNET LINK>
ENTRY. CH,STA,,.TSTCF,1,<CURRENT CTERM STATE>
ENTRY. CH,SSZ,,.TDECD,0,<MAXIMUM CHARACTERS IN A SEGMENT FOR THIS LINK>
ENTRY. CH,MAX,,.TDECD,0,<MAXIMUM INPUT BUFFER LENGTH>
ENTRY. CH,RLN,,.TDECD,1,<START-READ LENGTH>
ENTRY. CH,RDA,,.TBOOL,0,<A READ REQUEST IS ACTIVE IN THE SERVER>
ENTRY. CH,MRD,,.TBOOL,0,<INPUT DATA IS AVAILABLE IN THE SERVER>
ENTRY. CH,MRD,,.TBOOL,0,<THERE IS MORE READ DATA AVAILABLE IN THE SERVER>
ENTRY. CH,SSD,,.TBOOL,0,<SET "DO NOT DISCARD" IN NEXT WRITE>
ENTRY. CH,DSO,,.TBOOL,0,<DISCARD OUTPUT>
ENTRY. CH,RCX,,.TBOOL,0,<CRLF IS NOT IN THE BREAK MASK>
ENTRY. CH,CLI,,.TBOOL,0,<CLEAR INPUT BUFFER>
ENTRY. CH,ASR,,.TBOOL,0,<SEND ANOTHER START-READ>
ENTRY. CH,COC,,.TBOOL,0,<SEND CCOC WORDS>
ENTRY. CH,EDT,,.TBOOL,0,<SERVER SUPPORTS CONTINUATION READ>
>
SUBTTL Block Description Tables -- CHB (CH blocks)
;Core handler structure
DEFINE CHBMAC,<
ENTRY. XH,BOT,,.TXWDW,0,<Pointer to free pool start>
ENTRY. XH,PTR,,.TXWDW,0,<Pointer to first free block>
ENTRY. XH,AVL,,.TDECD,0,<Number of available blocks>
ENTRY. XH,LWM,,.TDECD,0,<Low water mark>
ENTRY. XH,REQ,,.TDECD,0,<Size requested>
ENTRY. XH,NUM,,.TDECD,0,<Total blocks, alloc & unalloc.>
ENTRY. XH,SIZ,,.TDECD,0,<Size of block>
> ;End of CHBMAC
DEFINE REBMAC,<
ENTRY. RE,BAS,,.TXWDW,0,<Starting address of free space>
ENTRY. RE,END,,.TXWDW,0,<Address of last word of free space>
ENTRY. RE,TOT,,.TDECD,0,<Total size of free space in blocks>
ENTRY. RE,PR1,,.TDECD,0,<Priority one threshold>
ENTRY. RE,GRO,,.TDECD,0,<Lock down threshold>
ENTRY. RE,BTB,,.TXWDW,0,<Address of start of bit table>
ENTRY. RE,BTL,,.TDECD,0,<Length of bit table (words)>
ENTRY. RE,TFR,,.TDECD,0,<Total remaining unallocated blocks>
ENTRY. RE,FFB,,.TDECD,0,<Number of block just past end of free space>
ENTRY. RE,PMX,,.TDECD,0,<Number of pools>
ENTRY. RE,QTA,,.TXWDW,0,<Addr of block containing quota for each pool>
ENTRY. RE,PFR,,.TXWDW,0,<Addr of block containing count of unallocated blocks>
> ;End of REBMAC
SUBTTL TDB Description Tables
DEFINE TDBMAC,<
ENTRY. T,T%SAL,,.TBOOL,0,<Sendall being done to this line>
ENTRY. T,T%SHT,,.TBOOL,0,<This is a short block>
ENTRY. T,T%MES,,.TBOOL,0,<This is a system message block>
ENTRY. T,T%OTP,,.TBOOL,0,<Output is enroute to the line>
ENTRY. T,T%FWK,,.TBOOL,0,<Forced wakeup>
ENTRY. T,T%SFG,,.TBOOL,0,<Stopped on end-of-page>
ENTRY. T,T%RFG,,.TBOOL,0,<Repeat last character (BKJFN)>
ENTRY. T,T%WFG,,.TBOOL,0,<Blocked on input>
ENTRY. T,T%PRM,,.TBOOL,0,<Don't deallocate dynamic data>
ENTRY. T,T%BAC,,.TBOOL,0,<Permanent and becoming active>
ENTRY. T,T%NXO,,.TBOOL,0,<Pause on end-of-page mode>
ENTRY. T,T%BKO,,.TBOOL,0,<Fork blocked for output event on this line>
ENTRY. T,T%NUS,,.TBOOL,0,<Net user state>
ENTRY. T,T%DD1,,.TBOOL,0,<Device dependent bit>
ENTRY. T,T%NPM,,.TBOOL,0,<MCB NVT old page mode>
ENTRY. T,T%RXF,,.TBOOL,0,<Have received XOFF on line>
ENTRY. T,T%FLO,,.TBOOL,0,<Flushing output at TTSND>
ENTRY. T,T%HPO,,.TBOOL,0,<High priority output queued>
ENTRY. T,T%DAL,,.TBOOL,0,<Deallocate of block requested>
ENTRY. T,T%XFF,,.TBOOL,0,<Force XOFF/XON status to front-end>
ENTRY. T,T%SEC,,.TBOOL,0,<Server should echo>
ENTRY. T,T%WKC,,.TBOOL,0,<Wake-up set has changed>
ENTRY. T,T%SPG,,.TBOOL,0,<Page stop is turned on in the server>
ENTRY. T,TLCK,,.TDECD,0,<Count of locks on this block>
ENTRY. T,YLMD,,.TDECD,0,<Terminal data mode for last input char>
ENTRY. T,TOCN,,.TDECD,0,<Count of extra buffers>
ENTRY. T,TOMX,,.TBOOL,0,<Extra buffers in use>
ENTRY. T,TTYP,,.TDECD,0,<Terminal type>
ENTRY. T,INTL,,.TOCTW,0,<Internal line number (index into static data)>
ENTRY. T,LTYP,,.TDECD,0,<Line type (same as TTSTY)>
ENTRY. T,SALT,,.TDECD,0,<Sendall timeout count>
ENTRY. T,SALC,,.TDECD,0,<Sendall character count>
ENTRY. T,TSAL2,,.TXWDW,0,<Sendall byte pointer>
ENTRY. T,TDEV,,.TXWDW,0,<Device dependent word>
ENTRY. T,OWRN,,.TDECD,0,<Count in ouput buffer for wakeup>
ENTRY. T,TNIN,,.TDECD,0,<Number input buffers>
ENTRY. T,TNOU,,.TDECD,0,<Number output buffers>
ENTRY. T,IMAX,,.TDECD,0,<Max bytes in input buffer>
ENTRY. T,OMAX,,.TDECD,0,<Max bytes in output buffer>
ENTRY. T,TOCT,,.TDECD,0,<Number characters in output buffer>
ENTRY. T,TOOUT,,.TXWDW,0,<Pointer for removing char from output buffer>
ENTRY. T,TOIN,,.TXWDW,0,<Pointer for entering char into output buffer>
ENTRY. T,TUPC,,.TOCTW,0,<Unpause on page character>
ENTRY. T,YLCH,,.TOCTW,0,<Last char removed from input buffer>
ENTRY. T,PWID,,.TDECD,0,<Page width>
ENTRY. T,TPPC,,.TOCTW,0,<Pause/Unpause on page character>
ENTRY. T,TICT,,.TDECD,0,<Number characters in input buffer>
ENTRY. T,TIOUT,,.TXWDW,0,<Pointer for removing char from input buffer>
ENTRY. T,TIIN,,.TXWDW,0,<Pointer for entering char into input buffer>
ENTRY. T,MOD1,,.TXWDW,0,<Control character output control words>
ENTRY. T,MOD2,,.TXWDW,0,<Control character output control words>
ENTRY. T,TDPSI,,.TXWDW,0,<Bit for terminal code set if deferred interrupt>
ENTRY. T,TPSI,,.TXWDW,0,<Bit for terminal code set if interrupt>
ENTRY. T,TLNK,,.TXWDW,0,<Lines linked to (9 bits per line)>
ENTRY. T,PGPS,,.TDECD,0,<Current line position within page>
ENTRY. T,LNPS,,.TDECD,0,<Current character position within line>
ENTRY. T,OFLG,,.TBOOL,0,<^O was typed>
ENTRY. T,PLEN,,.TDECD,0,<Page length>
ENTRY. T,TDUM,,.TBOOL,0,<Duplex mode>
ENTRY. T,CJOB,,.TDECD,0,<Controlling job number>
ENTRY. T,WFRK,,.TOCTW,0,<Number of fork in input wait on this line>
ENTRY. T,TPSFK,,.TOCTW,0,<Fork which is top fork of a SCTTY tree>
ENTRY. T,TPFK,,.TOCTW,1,<PSI fork for non control TTY PSI's>
ENTRY. T,CHR1,,.TXWDW,0,<Wake up character mask (ASCII codes 0-31.)>
ENTRY. T,CHR2,,.TXWDW,0,<Wake up character mask (ASCII codes 32.-63.)>
ENTRY. T,CHR3,,.TXWDW,0,<Wake up character mask (ASCII codes 64.-95.)>
ENTRY. T,CHR4,,.TXWDW,0,<Wake up character mask (ASCII codes 96.-127.)>
ENTRY. T,TIPSI,,.TOCTW,0,<Input PSI level>
ENTRY. T,TOPSI,,.TOCTW,0,<Ouput PSI level>
ENTRY. T,TFCNT,,.TDECD,0,<Byte count for wake-up (0=disabled for wake up)>
ENTRY. T,TLINE,,.TDECD,0,<Line counter>
ENTRY. T,TULL,,.TOCTW,0,<Net user logical link - when TTLMAX not in use>
ENTRY. T,TUEC,,.TOCTW,0,<Net user escape char>
ENTRY. T,TFLA,,.TBOOL,0,<First character seen flag>
ENTRY. T,TETP,,.TDECD,0,<Type>
ENTRY. T,TCH1,,.TOCTW,0,<First character>
ENTRY. T,TCH2,,.TOCTW,0,<Second character>
ENTRY. T,TSVPD,,.TXWDW,0,<Saved line speed>
> ;END TDBMAC
SUBTTL Expand the Table Building Macros
DOBLK SJB
DOBLK SLB
DOBLK ELB
DOBLK RCB
DOBLK CDB
DOBLK PRT
DOBLK MBB
DOBLK AJB
DOBLK DLB
DOBLK LTB
DOBLK CHB
DOBLK REB
DOBLK TDB
SUBTTL .Txxx - Local Typeout Routines
;Call: T2/ Resolved Byte Pointer to first word of queue header
; CALL .TQUE
; Normal Return
.TQUE: MOVE T1,QH.CNT(T2) ;GET MAX,,COUNT
PUSH P,T1
HLRZS T1 ;ISOLATE THE MAX FIELD
CALL .TDECD ;TYPE OUT IN DECIMAL
MOVEI T1,"," ;LOAD A COMMA
CALL .TCHAR ; TO SEPARATE MAX FROM COUNT
POP P,T1
HRRZS T1 ;ISOLATE THE COUNT FIELD
CALLRET .TDECD ;TYPE OUT IN DECIMAL
;Call: T1/ value in milliseconds
; CALL .TTMRD
; Normal return
.TTMRD: IDIVI T1,^D1000 ;Convert form milleseconds to seconds
CALLRET .TDECD
;Call: T1/ value, 0=Passive 1=Active
; CALL .TPTYP
; Normal Return
.TPTYP: SKIPE T1 ;THE PORT TYPE, 0=Passive 1=Active
SKIPA T1,[[ASCIZ /DCN:/]] ;ACTIVE
MOVEI T1,[ASCIZ /SRV:/] ;PASSIVE
CALLRET .TSTRG
;Call: T1/ value (node number)
; CALL .TNODE
; Normal Return
.TNODE: PUSH P,T1 ;SAVE WHOLE NODE NUMBER
ASH T1,-12 ;GET AREA NUMBER ONLY
CALL .TDECD ;PRINT IT WITH A DOT FOLLOWING
POP P,T1 ;RECOVER WHOLE NODE NUMBER
ANDI T1,1777 ;GET NODE-WITHIN-AREA NUMBER
CALLRET .TDECW ;PRINT WITHOUT DOT FOLLOWING
;Call: T1/ Session Control State code
; CALL .TSTAS
; Normal Return
.TSTAS: MOVEI T2,STASBL ; Get state table address
MOVEI T3,STASLN ; and its length
CALLRET .TSTAT ; Call common state output routine
DEFINE STACOD(code),<
IF2,<IFN .NSS'code-.+STASBL,<PRINTX ?STASBL (code) table is defined wrong>>
EXP ASCIZ /code/
>
STASBL: ASCIZ /??/
STACOD CW ;CONNECT WAIT
STACOD CR ;CONNECT RECEIVED
STACOD CS ;CONNECT SENT
STACOD RJ ;REMOTE REJECTED CONNECT INIT
STACOD RN ;LINK IS UP AND RUNNING
STACOD DR ;DISCONNECT RECEIVED
STACOD DS ;DISCONNECT SENT
STACOD DC ;DISCONNECT CONFIRMED
STACOD CF ;NO CONFIDENCE
STACOD LK ;NO LINK
STACOD CM ;NO COMMUNICATION
STACOD NR ;NO RESOURCES
STASLN==.-STASBL-1
;Call: T1/ NSP State code
; CALL .TSTAN
; Normal Return
.TSTAN: MOVEI T2,STANBL ; Get state table address
MOVEI T3,STANLN ; and its length
CALLRET .TSTAT
DEFINE STACOD(code),<
IF2,<IFN NPS.'code-.+STANBL,<PRINTX ?STANBL (code) table is defined wrong>>
EXP ASCIZ /code/
>
STANBL: ASCIZ /??/
STACOD OP ;OPEN, WAITING FOR ENTER ACTIVE FROM SC
STACOD CI ;CONNECT INITIATE SENT
STACOD CD ;CONNECT DELIVERED
STACOD CR ;CONNECT RECEIVED
STACOD CC ;CONNECT CONFIRM
STACOD DR ;DISCONNECT REJECT
STACOD RC ;DISCONNECT REJECT COMPLETE (DRC)
STACOD RN ;RUN
STACOD RJ ;REJECT
STACOD DI ;DISCONNECT INITIATE
STACOD IC ;DISCONNECT INITIATE COMPLETE (DIC)
STACOD DN ;DISCONNECT NOTIFICATION
STACOD CN ;CLOSE NOTIFICATION
STACOD NR ;NO RESOURCES
STACOD NC ;NO COMMUNICATION
STACOD CL ;CLOSED
STACOD DP ;DESTROY PORT
STANLN==.-STANBL-1
;Call: T1/ Router circuit block state code
; CALL .TSTAR
; Normal Return
.TSTAR: MOVEI T2,STARBL ; Get state table address
MOVEI T3,STARLN ; and its length
CALLRET .TSTAT
DEFINE STACOD(code),<
IF2,<IFN RCS.'code-.+STARBL,<PRINTX ?STARBL (code) table is defined wrong>>
EXP ASCIZ /code/
>
STARBL: STACOD OF ;OFF
STACOD RJ ;Rejected
STACOD FA ;Failed
STACOD WT ;WAITING FOR PROTOCOL UP
STACOD TI ;WAITING FOR TI
STACOD TV ;WAITING FOR TV
STACOD TT ;TESTING
STACOD RN ;RUNNING
STARLN==.-STARBL-1
;Call: T1/ Line state from DNADLL line table
; CALL .TSTAL
; Normal Return
.TSTAL: MOVEI T2,STALBL ; Get state table address
MOVEI T3,STALLN ; and its length
CALLRET .TSTAT
DEFINE STACOD(code),<
IF2,<IFN LS.'code-.+STALBL,<PRINTX ?STALBL (code) table is defined wrong>>
EXP ASCIZ /code/
>
STALBL: STACOD ON ;ON
STACOD OFF ;Off
STACOD SRV ;Service
STACOD CLR ;Cleared
STALLN==.-STALBL-1
;Call: T1/ Router adjacency block state code
; CALL .TSTAA
; Normal Return
.TSTAA: MOVEI T2,STAABL
MOVEI T3,STAALN
CALLRET .TSTAT
DEFINE STACOD(code),<
IF2,<IFN ADJ.'code-.+STAABL,<PRINTX ?STAABL (code) table is defined wrong>>
EXP ASCIZ /code/
>
STAABL: STACOD UN ;This entry is currently unused
STACOD IN ;Currently initializing
STACOD UP ;Adjacency is up
STACOD OL ;Adjacency is off-line
STAALN==.-STAABL-1
;Call: T1/ CTERM State code
; CALL .TSTCF
; Normal Return
.TSTCF: MOVEI T2,STAFBL ; Get state table address
MOVEI T3,STAFLN ; and its length
CALLRET .TSTAT
DEFINE STACOD(code),<
IF2,<IFN .ST'code-.+STAFBL,<PRINTX ?STAFBL (code) table is defined wrong>>
EXP ASCIZ /code/
>
STAFBL: STACOD INI ;initializing
STACOD FND ;foundation started
STACOD RUN ;running
STACOD SHU ;shutting down
STAFLN==.-STAFBL-1
;Call: T1/ state code
; T2/ State table
; T3/ State table length
; CALL .TSTAT
; Normal Return
.TSTAT: STKVAR <STATE,STATAB,STALEN>
MOVEM T1,STATE ; Save state
MOVEM T2,STATAB ; and state table address
MOVEM T3,STALEN ; and the table's length
CALL .TDECW ; Type state in decimal
CALL .TSPAC
MOVEI T1,"("
CALL .TCHAR
MOVE T1,STATE ; Get state
MOVE T2,STALEN ; and table length
CAMLE T1,T2 ; Be sure within range of table
IFSKP.
MOVE T1,STATAB ; O.K., compute offset into state table
ADD T1,STATE
ELSE.
MOVEI T1,[ASCIZ /???/] ; else, type this
ENDIF.
CALL .TSTRG ; Type the state
MOVEI T1,")"
CALLRET .TCHAR
;
;Call: T1/ Router adjacency type code
; CALL .TAJTY
; Normal Return
.TAJTY: PUSH P,T1 ;SAVE STATE CODE
CALL .TDECW ;TYPE STATE IN DECIMAL
CALL .TSPAC
MOVEI T1,"("
CALL .TCHAR
POP P,T1
CAILE T1,AJTBLN ;WE UNDERSTAND THE STATE?
MOVEI T1,0 ;NO, USE ILLEGAL STATE
MOVEI T1,AJTTBL(T1) ;GET POINTER TO ASCIZ STRING
CALL .TSTRG ;TYPE IT OUT
MOVEI T1,")"
CALLRET .TCHAR
DEFINE ADJTYP(code),<
IF2,<IFN ADJ.'code-.+AJTTBL,<PRINTX ?AJTTBL (code) table is defined wrong>>
EXP ASCIZ /code/
>
AJTTBL: ADJTYP 3F ;Phase III non-routing node
ADJTYP 3S ;Phase III routing node
EXP 0 ;Unused
ADJTYP L2 ;Phase IV level II router
ADJTYP L1 ;Phase IV level I router
ADJTYP LN ;Phase IV non-routing
AJTBLN==.-AJTTBL-1
;Call: T1/ Message type from NMMGF field
; CALL .TMGF
; Normal Return
.TMGF: MOVE T2,T1 ;COPY MGF FIELD
LSH T2,-2 ;SET UP TO READ MSGTBL (MESSAGE TABLE)
CAILE T2,RCVMAX ;IS IT A LEGAL MESSAGE TYPE?
CALLRET .TDECD ;NO, TYPE IN DECIMAL
MOVE T1,MSGTBL(T2) ;GET NAME OF MSG TYPE IN SIXBIT
CALLRET .TSIXN ;TYPE IT OUT
;This table is copied from LLINKS.MAC. Only the first field (type) is used.
DEFINE MGTYPS,< ;{subtype,type}
MSGTYP(MIDSEG,RCVMDS,UPTOSG,NORMAL,NRQACK,RESPOND,FLOW ) ; 0: {0,0}
MSGTYP(ACK, RCVACK,UPTOAK,NORMAL,REQACK,NO.RESP,NOFLOW) ; 1: {0,1}
MSGTYP(NOP, RCVNOP,UPTOMG,NORMAL,NRQACK,RESPOND,NOFLOW) ; 2: {0,2}
MSGTYP(<0,3>, RCVILM,UPTOMG,NORMAL,NRQACK,RESPOND,NOFLOW) ; 3: {0,3}
MSGTYP(LNKSRV,RCVLKS,UPTOSG,OTHER ,NRQACK,RESPOND,NOFLOW) ; 4: {1,0}
MSGTYP(OTHACK,RCVACK,UPTOAK,OTHER ,REQACK,NO.RESP,NOFLOW) ; 5: {1,1}
MSGTYP(CI, RCVCI, UPTOMG,NORMAL,NRQACK,RESPOND,NOFLOW) ; 6: {1,2}
MSGTYP(<1,3>, RCVILM,UPTOMG,NORMAL,NRQACK,RESPOND,NOFLOW) ; 7: {1,3}
MSGTYP(BEGSEG,RCVBGS,UPTOSG,NORMAL,NRQACK,RESPOND,FLOW ) ;10: {2,0}
MSGTYP(CA, RCVCA, UPTODL,NORMAL,NRQACK,NO.RESP,NOFLOW) ;11: {2,1}
MSGTYP(CC, RCVCC, UPTOMG,NORMAL,NRQACK,RESPOND,NOFLOW) ;12: {2,2}
MSGTYP(<2,3>, RCVILM,UPTOMG,NORMAL,NRQACK,RESPOND,NOFLOW) ;13: {2,3}
MSGTYP(INTSEG,RCVONS,UPTOSG,OTHER ,NRQACK,RESPOND,FLOW ) ;14: {3,0}
MSGTYP(<3,1>, RCVILM,UPTOMG,NORMAL,NRQACK,RESPOND,NOFLOW) ;15: {3,1}
MSGTYP(DI, RCVDI, UPTOSL,NORMAL,NRQACK,RESPOND,NOFLOW) ;16: {3,2}
MSGTYP(<3,3>, RCVILM,UPTOMG,NORMAL,NRQACK,RESPOND,NOFLOW) ;17: {3,3}
MSGTYP(ENDSEG,RCVENS,UPTOSG,NORMAL,NRQACK,RESPOND,FLOW ) ;20: {4,0}
MSGTYP(<4,1>, RCVILM,UPTOMG,NORMAL,NRQACK,RESPOND,NOFLOW) ;21: {4,1}
MSGTYP(DC, RCVDC, UPTOSL,NORMAL,NRQACK,NO.RESP,NOFLOW) ;22: {4,2}
MSGTYP(<4,3>, RCVILM,UPTOMG,NORMAL,NRQACK,RESPOND,NOFLOW) ;23: {4,3}
MSGTYP(<5,0>, RCVILM,UPTOMG,NORMAL,NRQACK,RESPOND,NOFLOW) ;24: {5,0}
MSGTYP(<5,1>, RCVILM,UPTOMG,NORMAL,NRQACK,RESPOND,NOFLOW) ;25: {5,1}
MSGTYP(<5,2>, RCVILM,UPTOMG,NORMAL,NRQACK,RESPOND,NOFLOW) ;26: {5,2}
MSGTYP(<5,3>, RCVILM,UPTOMG,NORMAL,NRQACK,RESPOND,NOFLOW) ;27: {5,3}
MSGTYP(ONYSEG,RCVONS,UPTOSG,NORMAL,NRQACK,RESPOND,FLOW ) ;30: {6,0}
MSGTYP(<6,1>, RCVILM,UPTOMG,NORMAL,NRQACK,RESPOND,NOFLOW) ;31: {6,1}
MSGTYP(RCI, RCVCI, UPTOMG,NORMAL,NRQACK,RESPOND,NOFLOW) ;32: {6,2}
>;END OF MGTYPS MACRO
DEFINE MSGTYP(type,routine,upto,sublink,ack,respond,flow),<
SIXBIT \type\
>
MSGTBL: MGTYPS ;EXPAND A TABLE OF MSG TYPE NAMES
RCVMAX==.-MSGTBL ;LENGTH OF MSGTBL
PRGEND
TITLE SPYTMP -- One of several Block Description Subprograms
;This and following modules are separate programs so that they can build
;tables based on different universals which contain conflicting symbols.
;All SPYxxx modules search these:
SEARCH MACSYM
SEARCH DCNSPY
;The following universals are searched for symbols in the xxxMAC tables:
SEARCH D36PAR,SCPAR
;And now glue the various subprograms together:
EXTERN .TTTY, .TBOOL, .TDECD, .TDECW, .TSIXN, .TOCTW, .TXWDW, ERRSTR
EXTERN .TSPAC, .TTABC
SUBTTL Block Description Tables -- DECnet/CI tables
Repeat 1,< ;Temporary
;This structure contains the DECnet data representing a CI controller
INTERN CB.PRT ;Let main program see CB.PRT
BEGSTR CB ;DECnet/CI controller block
FIELD CPU,3 ;Cpu #
FIELD CI,3 ;Ci interface #
FIELD KLP,1 ;CI ("KLIPA") interface present
HWORD LPT ;Local port #
WORD CID ;Connect ID of current listener
WORD PRT,^D16 ;Pointers to port blocks, indexed by port #
ENDSTR
;This structure represents a port on a CI controller
BEGSTR PB
WORD CB ;Pointer to DECnet/CI controller block
WORD CID ;Connect ID
WORD DID ;DNADLL ID for this circuit
HWORD STA ;Connect state for port
HWORD PNR ;Port # of this port
HWORD DRE ;Disconnect reason
WORD BYR ;# of bytes received
WORD BYS ;# of bytes sent
WORD DGR ;# of datagrams received
WORD DGS ;# of datagrams sent
WORD DDG ;# of datagrams dropped by DECnet
WORD SDG ;# of datagrams dropped by SCA
ENDSTR
;The Port connection states are:
XP .PSOFF,0 ;OFF
XP .PSLIS,1 ;LISTEN
XP .PSACC,2 ;ACCEPT
XP .PSCDOWN,3 ;CONNECT, remote believed down
XP .PSCUP,4 ;CONNECT, remote believed up
XP .PSCSE,5 ;CONNECT sent
XP .PSRUN,6 ;RUN
> ;End rept 1
DEFINE CBBMAC,<
;DECnet/CI controller block
ENTRY. CB,CPU,,.TDECD,0,<Cpu #>
ENTRY. CB,CI,,.TDECD,0,<CI interface #>
ENTRY. CB,KLP,,.TBOOL,0,<CI ("KLIPA") interface present>
ENTRY. CB,LPT,,.TDECD,0,<Local port #>
ENTRY. CB,CID,,.TXWDW,2,<Connect ID of current listener>
ENTRY. CB,PRT,+^D0,.TXWDW,0,<Pointer to port block, indexed by port 0>
ENTRY. CB,PRT,+^D1,.TXWDW,0,<Pointer to port block, indexed by port 1>
ENTRY. CB,PRT,+^D2,.TXWDW,0,<Pointer to port block, indexed by port 2>
ENTRY. CB,PRT,+^D3,.TXWDW,0,<Pointer to port block, indexed by port 3>
ENTRY. CB,PRT,+^D4,.TXWDW,0,<Pointer to port block, indexed by port 4>
ENTRY. CB,PRT,+^D5,.TXWDW,0,<Pointer to port block, indexed by port 5>
ENTRY. CB,PRT,+^D6,.TXWDW,0,<Pointer to port block, indexed by port 6>
ENTRY. CB,PRT,+^D7,.TXWDW,0,<Pointer to port block, indexed by port 7>
ENTRY. CB,PRT,+^D8,.TXWDW,0,<Pointer to port block, indexed by port 8>
ENTRY. CB,PRT,+^D9,.TXWDW,0,<Pointer to port block, indexed by port 9>
ENTRY. CB,PRT,+^D10,.TXWDW,0,<Pointer to port block, indexed by port 10>
ENTRY. CB,PRT,+^D11,.TXWDW,0,<Pointer to port block, indexed by port 11>
ENTRY. CB,PRT,+^D12,.TXWDW,0,<Pointer to port block, indexed by port 12>
ENTRY. CB,PRT,+^D13,.TXWDW,0,<Pointer to port block, indexed by port 13>
ENTRY. CB,PRT,+^D14,.TXWDW,0,<Pointer to port block, indexed by port 14>
ENTRY. CB,PRT,+^D15,.TXWDW,2,<Pointer to port block, indexed by port 15>
>
DEFINE PBBMAC,<
;DECnet/CI port block
ENTRY. PB,CB ,+CB.LEN,.TXWDW,0,<Pointer to DECnet/CI controller block>
ENTRY. PB,CID,+CB.LEN,.TXWDW,0,<Connect ID>
ENTRY. PB,DID,+CB.LEN,.TXWDW,0,<DNADLL ID for this circuit>
ENTRY. PB,STA,+CB.LEN,.TCCIP,0,<Connect state for port>
ENTRY. PB,PNR,+CB.LEN,.TDECD,0,<Port # of this port>
ENTRY. PB,DRE,+CB.LEN,.TOCTW,0,<Disconnect reason>
ENTRY. PB,BYR,+CB.LEN,.TDECD,0,<# of bytes received>
ENTRY. PB,BYS,+CB.LEN,.TDECD,0,<# of bytes sent>
ENTRY. PB,DGR,+CB.LEN,.TDECD,0,<# of datagrams received>
ENTRY. PB,DGS,+CB.LEN,.TDECD,0,<# of datagrams sent>
ENTRY. PB,DDG,+CB.LEN,.TDECD,0,<# of datagrams dropped by DECnet>
ENTRY. PB,SDG,+CB.LEN,.TDECD,0,<# of datagrams dropped by SCA>
>
SUBTTL Expand the Table Building Macros
DOBLK CBB
DOBLK PBB
;Call: T1/ DECnet/CI port state
; CALL .TCCIP
; Normal return
.TCCIP: PUSH P,T1 ;Save state code
CALL .TDECW ;Type it in decimal
CALL .TSPAC ; and a space
MOVX T1,"(" ; and (
CALL .TCHAR
POP P,T1
CAILE T1,CIPSLN ;Do we know the port state?
SETO T1, ; -no use illegal port state
MOVE T1,CIPSTB(T1) ;Get string pointer
CALL .TSTRG ; and type it
MOVX T1,")" ; followed by )
CALLRET .TCHAR
DEFINE PSCOD(code) <
IF2,<IFN .PS'code-.+CIPSTB,<PRINTX ?CIPSTB (code) is defined wrong>>
[ASCIZ /code/ ]
>
ASCIZ /???/
CIPSTB: PSCOD OFF
PSCOD LIS
PSCOD ACC
PSCOD CDOWN
PSCOD CUP
PSCOD CSENT
PSCOD RUN
CIPSLN==.-CIPSTB-1
PRGEND
TITLE SPYLAT -- One of several Block Description Subprograms
;This and following modules are separate programs so that they can build
;tables based on different universals which contain conflicting symbols.
;All SPYxxx modules search these:
SEARCH MACSYM,MONSYM
SEARCH DCNSPY
;The following universals are searched for symbols in the xxxMAC tables:
;And now glue the various subprograms together:
EXTERN .TTTY, .TBOOL, .TDECD, .TDECW, .TSIXN, .TOCTW, .TXWDW, ERRSTR
EXTERN .TSPAC, .TTABC, XPEEKX, NODBLK, SCNCHN
EXTERN SETSPY, LENGTH, TYPTAD, TYPBLK, NODADR, SCNTAD, GETTDB
EXTERN CHNBAS, PORBAS, SCNIDX
SUBTTL Block Description Tables -- LAT BEGSTRs
ML.NNM==6 ;Max length of node name
ML.SYS==^D16 ;Max length of system name
ML.LOC==^D64 ;Max length of location field
;[101] Add new constants from LATSRV
ML.DSC==^D64 ;Max length of description field
ML.SNM==^D16 ;Max length of service name
ML.PNM==^D16 ;[7.1]Max length of port name
ML.SID==^D64 ;Max length of service identification field
ML.SLN==^D16 ;Max length of slot name
ML.SRN==^D16 ;[101]Max length of server name
ML.PRN==^D16 ;[101]Max length of port name
ML.SVN==^D16 ;[101]Max length of service name
PRMAXI==^D64 ;[101]Maximum pending requests
XBF.OF==26
;Host Node Data Structures
;
INTERN GB.LEN
BEGSTR GB ;SERVICE BLOCK
WORD RAT ;Service Rating.
HWORD NC ;Count of bytes in service name.
HWORD LC ;Count of bytes in service description
; WORD NAM,<<ML.SNM+4>/5> ;Storage for up to 16 bytes of service name.
; WORD HID,<<ML.SID+4>/5> ;Storage for up to 64 bytes of service id.
ENDSTR
INTERN HN.LEN
BEGSTR HN ;HOST NODE Data Base
FIELD FLG,^D18
BIT RUN ;NI run state
BIT ANY ;Reconstruct of START msg necessary
BIT CIP ;Virtual circuit connect in progress
FILLER ^D10
FIELD CFL,^D8 ;Multicast message change flags
BIT OTH ;Something other than above changed
BIT FIL
BIT CLS ;A host service class changed
BIT SVD ;A host service description changed
BIT SVR ;A host service rating changed
BIT SVN ;A host service name changed
BIT NDD ;Host Node Description changed
BIT ACS ;Access Codes changed
;START OF PARAMETERS DISPLAYED BY .LASCH
HWORD MXC ;Maximum allocatable circuit blocks
HWORD NCC ;Number of currently allocated circuit blocks
HWORD MAC ;Maximum number of active circuits
HWORD NAC ;Number of currently active circuits
HWORD MCO ;Maximum number of simultaneous connects
HWORD CON ;Current number of active connects
HWORD NUM ;Host number
HWORD LAS ;LAT access state
HWORD RLI ;Virtual circuit message retransmit limit
HWORD TIM ;Virtual circuit timer initial value (sec)
HWORD MTI ;Multicast timer initial value (sec)
; END OF PARAMETERS DISPLAYED BY .LASCH
HWORD RAT ;Host node dynamic rating
HWORD PRG ;Host progress timer
HWORD NRB ;Number of receive buffers allocated
HWORD RTX ;[101]Retransmit timer in ms for TOPS-20
; and jiffies for TOPS-10
HWORD CMT ;[101]Command message retry timer (ms)
HWORD CMX ;[101]Command message retry limit
WORD HST ;Address of state table
WORD QAC,2 ;Queue header for active circuit blocks
WORD QIC,2 ;Queue header for inactive circuit blocks
WORD NIQ,2 ;Interrupt level message queue
WORD SCQ,2 ;Scheduler level message queue
WORD PID ;NI Portal ID
HWORD NXI ;Next circuit block index to assign
HWORD NSV ;Number of offered services
WORD LOK ;Lock for HN data base
HWORD NMC ;Host node name count
HWORD IDC ;Host identification string count
WORD NAM,2 ;Host node name string
; WORD ID,<<ML.DSC+4>/5> ;Host identification string
; WORD SMT,<<<ML.HSM+3>/4>+SBF.OF>;Start message template
; WORD MCM,<<ML.HMC+3>/4> ;Copy of the multicast message.
; WORD SRV,<GB.LEN*MXHSRV>;Storage for service blocks
ENDSTR
INTERN AC.LEN
BEGSTR AC,HN.LST ;ACCESS CODES
WORD LNG ;Access code string length in bytes
WORD COD,^D32 ;Storage for 256 bit bit-mask
ENDSTR
;LAT Circuit counters for all servers
INTERN HC.LEN
BEGSTR HC,AC.LST
WORD RCV ;Messages received
WORD XMT ;Messages transmitted
WORD RTR ;Messages retransmitted
WORD SEQ ;Receive message sequence errors
WORD IMR ;Illegal messages received
WORD ISR ;Illegal slots received
WORD RES ;Resource errors
WORD MSK ;Illegal message error mask
ENDSTR
SUBTTL CIRCUIT BLOCK data structure definitions
INTERN CB.LEN
BEGSTR CB ;CIRCUIT BLOCK
WORD LNK,2 ;Queue Link words (must be first words)
HWORD RID ;Circuit handle assigned by the remote
HWORD LID ;Local circuit index
FIELD FLG,3 ;Virtual circuit flags
BIT RRF ;Reply requested flag
BIT MRS ;Must reply soon flag
BIT MRN ;Must reply now flag
HWORD CSB ;Count since balanced
HWORD SDC ;Number of slots with data waiting
HWORD TSQ ;Next transmit sequence number
HWORD RSQ ;Next expected receive sequence number
HWORD LRA ;Sequence number of last message ack'd by remote node.
WORD TIM ;Current value of circuit timer.
HWORD RTC ;Current retransmit count
WORD KAV ;2*Server Keep-alive-timer in ms.
WORD KAT ;TODCLK last time message receieved from server
HWORD QUA ;Circuit quality
HWORD ERR ;Reason code for last time circuit stopped
HWORD DLL ;Number of transmit buffers in the DLL
WORD XBQ,2 ;Queue of free transmit buffers
WORD AKQ,2 ;Unacknowledged queue header
WORD SBQ,2 ;Circuit slot queue
WORD DNI,2 ;NI address of remote server
HWORD MTF ;Maximum transmit frame size for circuit
HWORD RPV ;Remote protocol version and ECO
HWORD MSL ;Maximum slots allowed by remote
HWORD NBF ;Additional transmit buffers allowed by remote
HWORD CTI ;Value of remote's circuit timer
HWORD KTI ;Value of remote's keep-alive timer
HWORD PTC ;Product type code for remote node
HWORD STA ;Virtual circuit state
HWORD NUM ;Remote's system number
HWORD RSC ;Remote's system name count
HWORD RLC ;Remote's location text count
WORD SNM,<<ML.SNM+4>/5> ;Remote's system name
WORD LOC,<<ML.LOC+4>/5> ;Remote's location string
ENDSTR
INTERN CC.LEN
BEGSTR CC,CB.LST ;CIRCUIT COUNTERS
WORD RCV ;Messages received
WORD XMT ;Messages transmitted
WORD RTR ;Messages retransmitted
WORD SEQ ;Receive message sequence errors
WORD IMR ;Illegal messages received
WORD ISR ;Illegal slots received
WORD RES ;Resource errors
WORD MSK ;Illegal message error mask
ENDSTR
SUBTTL SLOT BLOCK data structure definitions
BEGSTR SB
WORD LNK,2 ;Queue link word (must be first)
FIELD FLG,^D18 ;Flags
;*** Beginning of bits to be kept in order ***
BIT SDP ;Slot data present (must be sign bit)
BIT REJ ;Send REJECT Slot
BIT STR ;Send START Slot
BIT FOU ;Flush output
BIT OUT ;Output data available
BIT FCC ;Flow control change
BIT STO ;Send STOP Slot(Must be last)
;*** End of bits to be kept in order ***
SBSMSK==SBREJ!SBSTR!SBFOU!SBOUT!SBFCC!SBSTO ;[7.1120]
;[7.1120]Mask of bits which match BLSDSP
BIT DLP ;[7.1120]This slot is a dialup line
HWORD ATS ;Maximum attention slot size
HWORD MDS ;Maximum slot data size
HWORD STA ;Slot state
HWORD RID ;Remote slot id
HWORD LID ;Local slot id
HWORD XCR ;Transmit credits available to us
HWORD RCR ;Receive credits still outstanding
HWORD REA ;Reason code for stop or reject
HWORD SRC ;[101]Server name count
HWORD PRC ;[101]Port name count
HWORD SVC ;[101]Service name count
WORD SRN,<<ML.SRN+4>/5> ;[101]Server name
WORD PRN,<<ML.PRN+4>/5> ;[101]Port name
WORD SVN,<<ML.SVN+4>/5> ;[101]Service name
WORD TDB ;Terminal data block
WORD CBA ;Circuit block address for this slot
WORD PRA ;[101]Pending request block address
ENDSTR
SUBTTL PENDING REQUEST BLOCK
;[101] Add PX begstr (it's the PR begstr from LATSRV)
BEGSTR PX
FIELD FLG,^D18 ;Flags
BIT WAI ;Wait for the connection
BIT QUE ;Queue this request
HWORD STA ;State (internal use only)
HWORD STS ;Status (visible to user)
HWORD QDP ;Queue depth
HWORD CID ;Local connect id
HWORD EID ;Remote entry id
HWORD JOB ;Job number (JCH for TOPS-10)
HWORD FRK ;Fork number
HWORD PSI ;PSI channel number
HWORD CMC ;Command message retry count
HWORD SRC ;Server name count
HWORD PRC ;Port name count
HWORD SVC ;Service name count
WORD SRN,<<ML.SRN+4>/5> ;Server name
WORD PRN,<<ML.PRN+4>/5> ;Port name
WORD SVN,<<ML.SVN+4>/5> ;Service name
WORD CMT ;Command message retry timer
WORD SBA ;Address of slot block
WORD XBA ;Address of COMMAND message
WORD DNI,2 ;Address of remote server
ENDSTR
SUBTTL PORT STORAGE DEFINITIONS
BEGSTR PS
WORD NXT ;Pointer to next channel block
WORD PCB ;PORT CONTROL BLOCK BASE ADDRESS (VIRTUAL)
WORD PBA ;PORT CONTROL BLOCK PHYSICAL BASE ADDRESS
WORD PTT ;VIRTUAL ADDRESS OF PROTOCOL TYPE TABLE
WORD MTT ;VIRTUAL ADDRESS OF MULTICAST ADDRESS TABLE
WORD INT ;INTERRUPT LEVEL CONTROL BUFFER
WORD NON ;NON-INTERRUPT LEVEL CONTROL BUFFER
WORD LPT ;LOAD PTT TABLE BUFFER ADDRESS
WORD LMT ;LOAD MULTICAST ADDRESS TABLE BUFFER ADDRESS
WORD WSI ;WRITE STATION INFO BUFFER ADDRESS
WORD RSI ;READ STATION INFO BUFFER ADDRESS
NXTWRD 3 ;PSEUDO PTT FOR UNKNOWN PROTOCOL TYPE QUEUE
FIELD FLG,18 ;FLAGS WORD
BIT SLS ;1=LINE STATE NEEDS REPORTED
BIT WUL ;1=WAITING FOR UCODE TO BE LOADED
BIT STP ;1=WAITING FOR PORT RESTART
BIT BIG ;1=KNISTP BUGINF REPORTED
BIT LSI ;1=NEED TO WRITE STATION INFORMATION
BIT LMC ;1=NEED TO DO LOAD MULTICAST TABLE COMMAND
BIT LPP ;1=NEED TO DO LOAD PROTOCOL TABLE COMMAND
BIT VAD ; 1=PSHAD/LAD is valid
NXTWRD
FIELD RUN,1,0 ;Channel is running, should be 1b0
FIELD SST,9,26 ;Channel substate
FIELD EXS,9,35 ;Channel external state
WORD HAD ;STORED HIGH ORDER STATION ADDRESS
WORD LAD ;STORED LOW ORDER STATION ADDRESS
WORD SAD,2 ;Shadowed address
WORD HRA ;STORED HIGH ORDER ROM ADDRESS
WORD LRA ;STORED LOW ORDER ROM ADDRESS
FIELD VAR,4 ;STORED VARIBLES
;--IMPORTANT-- THE FOLLOWING 4 BITS MUST BE IN SAME ORDER AS WSVAR
BIT CRC ;ALLOW RECEIPT OF FRAMES WITH CRC ERRORS
BIT PMC ;STATION IS IN PROMISCIOUS MULTICAST MODE
BIT H40 ;H4000 MODE IF 1
BIT PRM ;PROMISCIOUS MODE IF 1
FIELD SVA,4 ; Shadowed variables (what the port contains)
FIELD VBT,4 ; Valid bits in PSVAR (same order as PSVAR)
BIT VCR ; PSCRC is valid
BIT VPM ; PSPMC is valid
BIT VH4 ; PSH40 is valid
BIT VPR ; PSPRM is valid
FIELD RSP,8 ;MAXIMUM NUMBER OF ENTRIES ON THE RESPONSE QUE
FIELD CHN,4 ; Logical channel number
FIELD CBA,3 ; CBUS address
WORD CHK ; Check word, contains magic value
WORD TLR ; Time of last response
WORD CNO ; CONO KNI,(T1)
WORD CNI ; CONI KNI,T1
WORD DTO ; DATAO KNI,T1
WORD DTI ; DATAI KNI,T1
WORD CQA ; CONO KNI,CO.BTS+CO.CQA or NOP
WORD MXT ; # of Multicasts transmitted
HWORD UMA ; Major version #
HWORD UMI ; Minor version #
WORD UED ; Edit #
WORD TPC ;UDT OF PORT CRASH
WORD LAR ;LAR AT TIME OF UCODE CRASH
WORD CRL ;LEFT HAND CRAM BITS AT TIME OF CRASH
WORD CRR ;RIGHT HAND CRAM BITS AT TIME OF CRASH
WORD TLZ ;TIME AT WHICH PORT COUNTERS WERE ZEROED
WORD SHC ;ADDRESS OF SHADOW COUNTERS BLOCK
ENDSTR
SUBTTL Macro Definitions -- BEGSTRS
;+
; Data Structures
; Portal Table block
BEGSTR PR
WORD NXT ;POINTER TO NEXT BLOCK (MUST BE FIRST)
FIELD FLG,9 ;FLAGS FOR THIS PORTAL
BIT CLO ;PORTAL IS CLOSING
BIT PAD ;PAD FLAG
FIELD MYP,9 ; BIT VALUE FOR MY PORTAL
HWORD BSZ ;RECEIVE BUFFER SIZE
WORD UID ;WHAT USER WANTS ON CALL BACK
HWORD PMD ;PACKING MODE
HWORD PRO ;PROTOCAL TYPE
WORD CHN ;PHYSICAL CHANNEL
WORD MUL ;BIT VECTOR OF ENABLED MULTICASTS
WORD POS ;ADDRESS OF POSTING ADDRESS VECTOR
WORD CHK ;ADDRESS OF THIS BLOCK (CONSISTENCY CHECK)
WORD FQA ;FREE QUEUE HEADER ADDRESS
WORD TLZ ;TIME AT WHICH COUNTERS WERE ZEROED
WORD BYR ;BYTES RECEIVED
WORD DGR ;DATAGRAMS RECEIVED
WORD BYS ;BYTES SENT
WORD DGS ;DATAGRAMS SENT
WORD UBU ;USER BUFFER UNAVAILABLE
ENDSTR
SUBTTL Block Description Tables -- LAT Tables
;Host Node Data Structures
;
;SERVICE BLOCK
DEFINE GBBMAC,<
ENTRY. GB,RAT,,.TDECD,0,<Service Rating.>
ENTRY. GB,NC,,.TDECD,0,<Count of bytes in service name.>
ENTRY. GB,LC,,.TDECD,0,<Count of bytes in service description>
;ENTRY. GB,NAM,,.TSTRG,0,<Storage for up to 16 bytes of service name.>
;ENTRY. GB,HID,,.TSTRG,0,<Storage for up to 64 bytes of service id.>
>;END GBBMAC
;HOST NODE Data Base
DEFINE HNBMAC,<
ENTRY. HN,RUN,,.THNRN,0,<NI run state>
ENTRY. HN,ANY,,.TBOOL,0,<Reconstruct of START msg necessary>
ENTRY. HN,CIP,,.TBOOL,0,<Virtual circuit connect in progress>
ENTRY. HN,OTH,,.TBOOL,0,<Something other than above changed>
ENTRY. HN,CLS,,.TBOOL,0,<A host service class changed>
ENTRY. HN,SVD,,.TBOOL,0,<A host service description changed>
ENTRY. HN,SVR,,.TBOOL,0,<A host service rating changed>
ENTRY. HN,SVN,,.TBOOL,0,<A host service name changed>
ENTRY. HN,NDD,,.TBOOL,0,<Host Node Description changed>
ENTRY. HN,ACS,,.TBOOL,2,<Access Codes changed>
;START OF PARAMETERS DISPLAYED BY .LASCH
ENTRY. HN,MXC,,.TDECD,0,<Maximum allocatable circuit blocks>
ENTRY. HN,NCC,,.TDECD,0,<Number of currently allocated circuit blocks>
ENTRY. HN,MAC,,.TDECD,0,<Maximum number of active circuits>
ENTRY. HN,NAC,,.TDECD,0,<Number of currently active circuits>
ENTRY. HN,MCO,,.TDECD,0,<Maximum number of simultaneous connects>
ENTRY. HN,CON,,.TDECD,0,<Current number of active connects>
ENTRY. HN,NUM,,.TDECD,0,<Host number>
ENTRY. HN,LAS,,.TDECD,0,<LAT access state>
ENTRY. HN,RLI,,.TDECD,0,<Virtual circuit message retransmit limit>
ENTRY. HN,TIM,,.TDECD,0,<Virtual circuit timer initial value (sec)>
ENTRY. HN,MTI,,.TDECD,2,<Multicast timer initial value (sec)>
; END OF PARAMETERS DISPLAYED BY .LASCH
ENTRY. HN,RAT,,.TDECD,0,<Host node dynamic rating>
ENTRY. HN,PRG,,.TTIME,0,<Host progress timer>
ENTRY. HN,NRB,,.TDECD,0,<Number of receive buffers allocated>
ENTRY. HN,RTX,,.TDECD,0,<Retransmit timer in ms>
ENTRY. HN,CMT,,.TDECD,0,<Command message retry timer (ms)>
ENTRY. HN,CMX,,.TDECD,0,<Command message retry count>
ENTRY. HN,HST,,.TXWDW,0,<Address of state table>
ENTRY. HN,QAC,,.TXWDW,0,<Queue header for active circuit blocks>
ENTRY. HN,QIC,,.TXWDW,0,<Queue header for inactive circuit blocks>
ENTRY. HN,NIQ,,.TXWDW,0,<Interrupt level message queue>
ENTRY. HN,SCQ,,.TXWDW,0,<Scheduler level message queue>
ENTRY. HN,PID,,.TXWDW,0,<NI Portal ID>
ENTRY. HN,NXI,,.TXWDW,0,<Next circuit block index to assign>
ENTRY. HN,NSV,,.TDECD,0,<Number of offered services>
ENTRY. HN,LOK,,.TDECD,0,<Lock for HN data base>
ENTRY. HN,NMC,,.TDECD,0,<Host node name count>
ENTRY. HN,IDC,,.TDECD,0,<Host identification string count>
; WORD NAM,2 ;Host node name string
; WORD ID,<<ML.DSC+4>/5> ;Host identification string
; WORD SMT,<<<ML.HSM+3>/4>+SBF.OF>;Start message template
; WORD MCM,<<ML.HMC+3>/4> ;Copy of the multicast message.
; WORD SRV,<GB.LEN*MXHSRV>;Storage for service blocks
>;END HNBMAC
;LAT Circuit counters for all servers
DEFINE HCBMAC,<
ENTRY. HC,RCV,,.TDECD,0,<Messages received>
ENTRY. HC,XMT,,.TDECD,0,<Messages transmitted>
ENTRY. HC,RTR,,.TDECD,0,<Messages retransmitted>
ENTRY. HC,SEQ,,.TDECD,0,<Receive message sequence errors>
ENTRY. HC,IMR,,.TDECD,0,<Illegal messages received>
ENTRY. HC,ISR,,.TDECD,0,<Illegal slots received>
ENTRY. HC,RES,,.TDECD,0,<Resource errors>
ENTRY. HC,MSK,,.TXWDW,0,<Illegal message error mask>
>;END HCBMAC
SUBTTL CIRCUIT BLOCK data structure definitions
DEFINE CBLMAC,<
ENTRY. CB,LNK,,.TXWDW,0,<Queue Link words (must be first words)>
ENTRY. CB,RID,,.TXWDW,0,<Circuit handle assigned by the remote>
ENTRY. CB,LID,,.TXWDW,0,<Local circuit index>
ENTRY. CB,RRF,,.TBOOL,0,<Reply requested flag>
ENTRY. CB,MRS,,.TBOOL,0,<Must reply soon flag>
ENTRY. CB,MRN,,.TBOOL,0,<Must reply now flag>
ENTRY. CB,CSB,,.TDECD,0,<Count since balanced>
ENTRY. CB,SDC,,.TDECD,0,<Number of slots with data waiting>
ENTRY. CB,TSQ,,.TDECD,0,<Next transmit sequence number>
ENTRY. CB,RSQ,,.TDECD,0,<Next expected receive sequence number>
ENTRY. CB,LRA,,.TDECD,0,<Sequence number of last message ack'd by remote node.>
ENTRY. CB,TIM,,.TDECD,0,<Current value of circuit timer.>
ENTRY. CB,RTC,,.TDECD,0,<Current retransmit count>
ENTRY. CB,KAV,,.TDECD,0,<Host keep alive timer value in ms.>
ENTRY. CB,KAT,,.TDECD,0,<TODCLK last time message received from server>
ENTRY. CB,QUA,,.TDECD,0,<Circuit quality>
ENTRY. CB,ERR,,.TDECD,0,<Reason code for last time circuit stopped>
ENTRY. CB,DLL,,.TDECD,0,<Number of transmit buffers in the DLL>
ENTRY. CB,XBQ,,.TXWDW,0,<Queue of free transmit buffers>
ENTRY. CB,AKQ,,.TXWDW,0,<Unacknowledged queue header>
ENTRY. CB,SBQ,,.TXWDW,0,<Circuit slot queue>
ENTRY. CB,DNI,,.TXWDW,0,<NI address of remote server>
ENTRY. CB,MTF,,.TDECD,0,<Maximum transmit frame size for circuit>
ENTRY. CB,RPV,,.TDECD,0,<Remote protocol version and ECO>
ENTRY. CB,MSL,,.TDECD,0,<Maximum slots allowed by remote>
ENTRY. CB,NBF,,.TDECD,0,<Additional transmit buffers allowed by remote>
ENTRY. CB,CTI,,.TDECD,0,<Value of remote's circuit timer>
ENTRY. CB,KTI,,.TDECD,0,<Value of remote's keep-alive timer>
ENTRY. CB,PTC,,.TDECD,0,<Product type code for remote node>
ENTRY. CB,STA,,.TDECD,0,<Virtual circuit state>
ENTRY. CB,NUM,,.TDECD,0,<Remote's system number>
ENTRY. CB,RSC,,.TDECD,0,<Remote's system name count>
ENTRY. CB,RLC,,.TDECD,,<Remote's location text count>
ENTRY. CB,SNM,,.TADRZ,0,<Server name>
ENTRY. CB,LOC,,.TADRZ,2,<Server location>
>;END CBLMAC
DEFINE CCLMAC,<
ENTRY. CC,RCV,,.TDECD,0,<Messages received>
ENTRY. CC,XMT,,.TDECD,0,<Messages transmitted>
ENTRY. CC,RTR,,.TDECD,0,<Messages retransmitted>
ENTRY. CC,SEQ,,.TDECD,0,<Receive message sequence errors>
ENTRY. CC,IMR,,.TDECD,0,<Illegal messages received>
ENTRY. CC,ISR,,.TDECD,0,<Illegal slots received>
ENTRY. CC,RES,,.TDECD,0,<Resource errors>
ENTRY. CC,MSK,,.TDECD,0,<Illegal message error mask>
>;END CCLMAC
SUBTTL SLOT BLOCK data structure definitions
DEFINE SLTMAC,<
ENTRY. SB,LNK,,.TXWDW,0,<Queue link word (must be first)>
ENTRY. SB,SDP,,.TBOOL,0,<Slot data present (must be sign bit)>
ENTRY. SB,REJ,,.TBOOL,0,<Send REJECT slot>
ENTRY. SB,STR,,.TBOOL,0,<Send START Slot>
ENTRY. SB,FOU,,.TBOOL,0,<Flush output>
ENTRY. SB,OUT,,.TBOOL,0,<Output data available>
ENTRY. SB,FCC,,.TBOOL,0,<Flow control change>
ENTRY. SB,STO,,.TBOOL,0,<Send STOP Slot (Must be last)>
ENTRY. SB,DLP,,.TBOOL,0,<This slot is a dialup line>
ENTRY. SB,ATS,,.TDECD,0,<Maximum attention slot size>
ENTRY. SB,MDS,,.TDECD,0,<Maximum slot data size>
ENTRY. SB,STA,,.TSLTS,0,<Slot state>
ENTRY. SB,RID,,.TOCTW,0,<Remote slot id>
ENTRY. SB,LID,,.TOCTW,0,<Local slot id>
ENTRY. SB,XCR,,.TDECD,0,<Transmit credits available to us>
ENTRY. SB,RCR,,.TDECD,0,<Receive credits still outstanding>
ENTRY. SB,REA,,.TDECD,0,<Reason code for stop or reject>
ENTRY. SB,SRC,,.TDECD,0,<Server name count>
ENTRY. SB,PRC,,.TDECD,0,<Port name Count>
ENTRY. SB,SVC,,.TDECD,0,<Service name Count>
ENTRY. SB,SRN,,.TADRZ,0,<Server name (16 characters max)> ;[7.1]
ENTRY. SB,PRN,,.TADRZ,0,<Port name (16 characters max)> ;[7.1]
ENTRY. SB,SVN,,.TADRZ,0,<Service name (16 characters max)> ;[7.1]
ENTRY. SB,TDB,,.TXWDW,0,<Terminal data block>
ENTRY. SB,CBA,,.TXWDW,0,<Circuit block address for this slot>
ENTRY. SB,PRA,,.TXWDW,0,<Pending Request block address for this slot>
>; END SLTMAC
SUBTTL Data Structure Definitions - PX (Pending request block)
DEFINE PRSMAC,<>
DEFINE PRXMAC,<>
DEFINE PRAMAC,<
ENTRY. PX,WAI,,.TBOOL,0,<Wait for the connection>
ENTRY. PX,QUE,,.TBOOL,0,<Queue this request at the server>
ENTRY. PX,STA,,.TSLTS,0,<Internal state>
ENTRY. PX,STS,,.TOCTW,0,<Current status>
ENTRY. PX,QDP,,.TDECD,0,<Queue depth>
ENTRY. PX,CID,,.TOCTW,0,<Local Connect id>
ENTRY. PX,EID,,.TOCTW,0,<Remote Entry id>
ENTRY. PX,JOB,,.TOCTW,0,<Job number associated with this request>
ENTRY. PX,FRK,,.TOCTW,0,<FORKX associated with this request>
ENTRY. PX,PSI,,.TOCTW,0,<Psi channel number>
ENTRY. PX,CMC,,.TDECD,0,<Command message retry count>
ENTRY. PX,SRC,,.TDECD,0,<Server name count>
ENTRY. PX,PRC,,.TDECD,0,<Port name count>
ENTRY. PX,SVC,,.TDECD,0,<Service name count>
ENTRY. PX,SRN,,.TADRZ,0,<Server name>
ENTRY. PX,PRN,,.TADRZ,0,<Port name>
ENTRY. PX,SVN,,.TADRZ,0,<Service name>
ENTRY. PX,CMT,,.TDECD,0,<Command message retry timer>
ENTRY. PX,SBA,,.TXWDW,0,<Address of slot block>
ENTRY. PX,XBA,,.TXWDW,0,<Address of Xmit buffer>
ENTRY. PX,DNI,,.TXWDW,0,<Ethernet address of server>
>; END PRAMAC
SUBTTL Data Structure Definitions - PSB (PRT STORAGE BLOCK)
DEFINE PSBMAC,<
ENTRY. PS,NXT,,.TXWDW,0,<Pointer to next channel block>
ENTRY. PS,PCB,,.TXWDW,0,<Port control block base address (virtual)>
ENTRY. PS,PBA,,.TXWDW,0,<Port control block physical base address>
ENTRY. PS,PTT,,.TXWDW,0,<Virtual address of protocol type table>
ENTRY. PS,MTT,,.TXWDW,0,<Virtual address of multicast address table>
ENTRY. PS,INT,,.TXWDW,0,<Interrupt level control buffer>
ENTRY. PS,NON,,.TXWDW,0,<Non-interrupt level control buffer>
ENTRY. PS,LPT,,.TXWDW,0,<Load PTT table buffer address>
ENTRY. PS,LMT,,.TXWDW,0,<Load multicast address table buffer address>
ENTRY. PS,WSI,,.TXWDW,0,<Write station info buffer address>
ENTRY. PS,RSI,,.TXWDW,0,<Read station info buffer address>
ENTRY. PS,SLS,,.TBOOL,0,<Line state needs reported>
ENTRY. PS,WUL,,.TBOOL,0,<Waiting for ucode to be loaded>
ENTRY. PS,STP,,.TBOOL,0,<Waiting for port restart>
ENTRY. PS,BIG,,.TBOOL,0,<KNISTP BUGINF reported>
ENTRY. PS,LSI,,.TBOOL,0,<Need to write station information>
ENTRY. PS,LMC,,.TBOOL,0,<Need to do load multicast table command>
ENTRY. PS,LPP,,.TBOOL,0,<Need to do load protocol table command>
ENTRY. PS,VAD,,.TBOOL,0,<PSHAD/LAD is valid>
ENTRY. PS,RUN,,.TBOOL,0,<Channel is running, should be 1B0>
ENTRY. PS,SST,,.TOCTW,0,<Channel substate>
ENTRY. PS,EXS,,.TOCTW,0,<Channel external state>
ENTRY. PS,HAD,,.TXWDW,0,<Stored high order station address>
ENTRY. PS,LAD,,.TXWDW,0,<Stored low order station address>
ENTRY. PS,SAD,,.TXWDW,0,<Shadowed address>
ENTRY. PS,HRA,,.TXWDW,0,<Stored high order rom address>
ENTRY. PS,LRA,,.TXWDW,0,<Stored low order rom address>
ENTRY. PS,CRC,,.TBOOL,0,<Allow receipt of frames with CRC errors>
ENTRY. PS,PMC,,.TBOOL,0,<Station is in promiscious multicast mode>
ENTRY. PS,H40,,.TBOOL,0,<H4000 mode if 1>
ENTRY. PS,PRM,,.TBOOL,0,<Promiscious mode if 1>
ENTRY. PS,SVA,,.TOCTW,0,<Shadowed variables (what the port contains)>
ENTRY. PS,VCR,,.TBOOL,0,<PSCRC is valid>
ENTRY. PS,VPM,,.TBOOL,0,<PSPMC is valid>
ENTRY. PS,VH4,,.TBOOL,0,<PSH40 is valid>
ENTRY. PS,VPR,,.TBOOL,0,<PSPRM is valid>
ENTRY. PS,RSP,,.TDECD,0,<Maximum number of entries on the response queue>
ENTRY. PS,CHN,,.TOCTW,0,<Logical channel number>
ENTRY. PS,CBA,,.TOCTW,0,<CBUS address>
ENTRY. PS,CHK,,.TXWDW,0,<Check word, contains magic value>
ENTRY. PS,TLR,,.TXWDW,0,<Time of last response>
ENTRY. PS,CNO,,.TXWDW,0,<CONO KNI,(T1)>
ENTRY. PS,CNI,,.TXWDW,0,<CONI KNI,T1>
ENTRY. PS,DTO,,.TXWDW,0,<DATAO KNI,T1>
ENTRY. PS,DTI,,.TXWDW,0,<DATAI KNI,T1>
ENTRY. PS,CQA,,.TXWDW,0,<CONO KNI,CO.BTS+CO.CQA or NOP>
ENTRY. PS,MXT,,.TDECD,0,<# Of multicasts transmitted>
ENTRY. PS,UMA,,.TOCTW,0,<Major version #>
ENTRY. PS,UMI,,.TOCTW,0,<Minor version #>
ENTRY. PS,UED,,.TOCTW,0,<Edit #>
ENTRY. PS,TPC,,.TXWDW,0,<UDT of port crash>
ENTRY. PS,LAR,,.TXWDW,0,<LAR at time of Ucode crash>
ENTRY. PS,CRL,,.TXWDW,0,<Left hand CRAM bits at time of crash>
ENTRY. PS,CRR,,.TXWDW,0,<Right hand CRAM bits at time of crash>
ENTRY. PS,TLZ,,.TTIME,0,<Time at which port counters were zeroed>
ENTRY. PS,SHC,,.TXWDW,0,<Address of shadow counters block>
> ;END PSBMAC
SUBTTL Data Structure Definitions - PTB (PORTAL TABLE BLOCK)
DEFINE PTBMAC,<
ENTRY. PR,NXT,,.TXWDW,0,<Pointer to next block (must be first)>
ENTRY. PR,CLO,,.TBOOL,0,<Portal is closing>
ENTRY. PR,PAD,,.TBOOL,0,<PAD flag>
ENTRY. PR,MYP,,.TOCTW,0,<Bit value for my portal>
ENTRY. PR,BSZ,,.TOCTW,0,<Receive buffer size>
ENTRY. PR,UID,,.TXWDW,0,<What user wants on call back>
ENTRY. PR,PMD,,.TOCTW,0,<Packing mode>
ENTRY. PR,PRO,,.TOCTW,0,<Protocal type>
ENTRY. PR,CHN,,.TDECD,0,<Physical channel>
ENTRY. PR,MUL,,.TXWDW,0,<Bit vector of enabled multicasts>
ENTRY. PR,POS,,.TXWDW,0,<Address of posting address vector>
ENTRY. PR,CHK,,.TXWDW,0,<Address of this block (consistency check)>
ENTRY. PR,FQA,,.TXWDW,0,<Free queue header address>
ENTRY. PR,TLZ,,.TTIME,0,<Time at which counters were zeroed>
ENTRY. PR,BYR,,.TDECD,0,<Bytes received>
ENTRY. PR,DGR,,.TDECD,0,<Datagrams received>
ENTRY. PR,BYS,,.TDECD,0,<Bytes sent>
ENTRY. PR,DGS,,.TDECD,0,<Datagrams sent>
ENTRY. PR,UBU,,.TXWDW,0,<User buffer unavailable>
> ;END PTBMAC
SUBTTL Expand the Table Building Macros
DOBLK GBB
DOBLK HNB
DOBLK CBL
DOBLK HCB
DOBLK CCL
DOBLK SLT
DOBLK PRA
; DOBLK PRS
DOBLK PSB
DOBLK PTB
SUBTTL LAT Block-Finding Code
SUBTTL TYPCBL - Type out LAT's CB Table
;Call:
; CALL TYPCBL
; Error return to stop DPY loop
; Normal return
TYPCBL::SAVEAC P1
STKVAR <CBLADR>
MOVX T1,HN.LEN ;Read all of the HN block,
MOVE T2,LAHNDB## ; pointer from T2
XMOVEI T3,NODBLK ; to NODBLK
CALL XPEEKX ; by way of XPEEK
ERR ?Can't XPEEK LAT's CB block
MOVX T1,CB.LEN ;Read all of the CBL block,
LOAD T2,HNQAC,+NODBLK ;Get addr of first active circuit
SKIPN T2
ERR %No active LAT circuits
MOVEM T2,CBLADR ;Save address of CB
XMOVEI T3,NODBLK ; to NODBLK
CALL XPEEKX ; by way of XPEEK
ERR ?Can't XPEEK LAT's CB block
MOVE P1,SCNCHN ;Get 'channel' number
DO.
SOJLE P1,ENDLP.
MOVX T1,CB.LEN ;Read all of the CBL block,
LOAD T2,CBLNK,+NODBLK ;Get addr of first active circuit
SKIPN T2
ERR %No more active LAT circuits
MOVEM T2,CBLADR
XMOVEI T3,NODBLK ; to NODBLK
CALL XPEEKX ; by way of XPEEK
ERR ?Can't XPEEK CB block
LOOP.
ENDDO.
MOVEI T1,[ASCIZ "LAT's CB block #"]
CALL .TSTRG ;Type out text
SKIPG T1,SCNCHN ;Get 'channel' number
MOVEI T1,1
CALL .TDECD
MOVEI T1,[ASCIZ ", at address "]
CALL .TSTRG ;Type out text
MOVE T1,CBLADR ;Get address of CBL block
CALL .TXWDW ; and type in halfword format
CALL .TCRLF ;Give a CRLF before typing name strings
CALL .TCRLF ; and another one
XMOVEI T1,CB.SNM+NODBLK ;Pointer to System name
CALL .TSTRG ;Type out text
CALL .TCRLF
XMOVEI T1,CB.LOC+NODBLK ;Pointer to Location String
CALL .TSTRG ;Type out text
CALL .TCRLF ;Give a CRLF before typing table
CALL .TCRLF ; and another one
MOVE T1,CBLPTR ;Get AOBJN pointer to CBL table
CALL TYPBLK## ; and write HC to screen
RETSKP ;Return success to allow a new pass
SUBTTL TYPBLK Service Subrs
;Routine to type out LAT's impression of NI state
;Call:
; T1/ State Code
; CALL .THNRN
; Only Return
.THNRN: SKIPE T1 ;HNRUN flag set?
SKIPA T1,[[ASCIZ "Stop"]] ;Yes, that means stop!
MOVEI T1,[ASCIZ "Run"] ;No, that means run!
CALLRET .TSTRG
SUBTTL TYPSLT - Type out a Message Block
;Call:
; CALL TYPSLT ;NO ARGS IN ACS
; Error Return to stop DPY loop
; normal Return
TYPSLT::CALL GETTDB ;GET THE TDB FOR THIS TERMINAL
RET ;FAILED
LOAD T1,TLTYP,+NODBLK ;GET THE TERMINAL TYPE
CAIE T1,5 ;LAT TERMINAL?
ERR ?Specified terminal is not a LAT terminal
MOVEI T1,SB.LEN ;LENGTH OF SLOT BLOCK
LOAD T2,TTDEV,+NODBLK ;GET DEVICE SPECIFIC CODE
MOVEM T2,NODADR ;SAVE IT
MOVEI T3,NODBLK ;INTO NODE BLOCK
CALL XPEEKX ;READ IT
ERR ?Failed to read Slot Block
MOVEI T1,[ASCIZ /SLOT Block at /]
CALL .TSTRG ;HEADER TEXT
MOVE T1,NODADR ;GET ADDRESS OF SLOT BLOCK
CALL .TXWDW ;DISPLAY IT
CALL .TCRLF ;<CRLF>
CALL .TCRLF ;<CRLF>
MOVE T1,SLTPTR ;GET AOBJN POINTER TO MBBTBL
CALL TYPBLK ;TYPE OUT THE SB
RETSKP ;SUCCESS RETURN
SUBTTL TYPPRS - Type out addresses of all PR blocks
;[101] Add routine TYPPRS
TYPPRS::STKVAR <DATFLG> ;Data flag
SETZM DATFLG ;Initialize it
MOVE P1,PRVEC## ;Get PRVECT address
MOVE P2,[-PRMAXI,,1] ;Initialize AOBJN pointer
PRLOOP: ADDI P1,1 ;Point to the next PR
MOVEI T1,1 ;Get one word
MOVE T2,P1 ;from PRVECT
XMOVEI T3,NODADR ;into NODADR
CALL XPEEKX ;Do it
ERR ?Failed to read PRVECT entry
SKIPN NODADR ;Is there data here?
IFSKP. ;Skip is yes
SETOM DATFLG ;Yes. Set the data flag
HRRZ T1,P2 ;Get the channel number
CALL .TDECD ;Display it
CALL .TSPAC ;and a space
MOVE T1,NODADR ;Now get the address
CALL .TXWDW ;and display it also
CALL .TCRLF ;followed by a <CRLF>
ENDIF. ;
AOBJN P2,PRLOOP ;Now, loop until all entries are processed
SKIPN DATFLG ;We're done. Any PR Blocks?
ERR ?No Pending Request blocks in PRVECT
RETSKP ;Go home now
SUBTTL TYPPRX - Type out a Xmit buffer
;[101]Add routine TYPPRX
TYPPRX::SKIPE SCNTAD ;Do we already have an address?
IFSKP. ;Skip means no
SKIPN T2,SCNCHN ;Do we have a channel number?
ERR ?Need CHANNEL or ADDRESS for PRX command
CALL GETPRV ;Put PR block address in T2
RETSKP ;Failed. Wait here...
MOVEI T1,PX.LEN ;Length of Pending Request block
SKIPN T2 ;Is there an address?
ERR ?No Pending request for this slot
MOVEM T2,NODADR ;Save it
MOVEI T3,NODBLK ;Into Node Block
CALL XPEEKX ;Read it
ERR ?Failed to read Pending Request Block
MOVE T1,NODADR ;Get address of Pending Request Block
LOAD T2,PXXBA,+NODBLK ;Get the address of the XBA
ADDI T2,XBF.OF ;Point to the right place
MOVEM T2,SCNTAD ;Save it for TYPPRX
ENDIF.
MOVEI T1,100 ;100 should be more than enough
MOVEM T1,LENGTH ;Save as length of table to read
CALL SETSPY ;Initialize as per SPY command
RETSKP ;Failed
MOVEI T1,[ASCIZ /Reverse LAT XMIT Buffer/]
CALL .TSTRG ;Type the header
CALL TYPTAD ;and the address of the table
MOVE T1,LENGTH ;Get the table length
CALL TYPXBF ;and go type it out
RETSKP ;Success. return.
SUBTTL TYPPRA - Type out a Pending Request Block
;[101]Add routine TYPPRA
TYPPRA::SKIPN T2,SCNCHN
IFSKP.
CALL GETPRV ;Put PR block address in T1
RETSKP ;Failed
ELSE.
CALL GETTDB ;Get the TDB for this terminal
RET ;Failed
LOAD T1,TLTYP,+NODBLK ;Get the terminal type
CAIE T1,5 ;LAT Terminal?
ERR ?Specified terminal is not a LAT terminal
MOVEI T1,SB.LEN ;Length of SB
LOAD T2,TTDEV,+NODBLK ;Get device specific code
MOVEM T2,NODADR ;Save it
MOVEI T3,NODBLK ;Into Node block
CALL XPEEKX ;Read it
ERR ?Failed to read Slot Block
LOAD T2,SBPRA,+NODBLK ;Get PR block address
ENDIF.
MOVEI T1,PX.LEN ;Length of Pending Request block
SKIPE T2 ;Is there an address?
IFSKP. ;No
MOVEI T1,[ASCIZ/%No Pending Request Block/]
CALL .TSTRG ;Display message
RETSKP ;and wait...
ENDIF. ;
MOVEM T2,NODADR ;Save it
MOVEI T3,NODBLK ;Into Node Block
CALL XPEEKX ;Read it
ERR ?Failed to read Pending Request Block
MOVEI T1,[ASCIZ /Pending Request Block at /]
CALL .TSTRG ;Display header text
MOVE T1,NODADR ;Get address of Pending Request Block
LOAD T2,PXXBA,+NODBLK ;Get the address of the XBA
ADDI T2,XBF.OF ;Point to the right place
MOVEM T2,SCNTAD ;Save it for TYPPRX
CALL .TXWDW ;Display it
CALL .TCRLF ;<CRLF>
CALL .TCRLF ;<CRLF>
MOVE T1,PRAPTR ;Get AOBJN pointer to MBBTBL
CALL TYPBLK ;Type out the PR
RETSKP
SUBTTL TYPXBF - Type out a lat XMIT buffer
;[101]Add routine TYPXBF
;Types out the data as 8-bit octal and 8-bit ASCII.
;That ought to hold 'em.
;Call: T1/ Length of the table
; (The block to be typed is at NODBLK)
; CALL TYPTAB
; Always returns +1
TYPXBF: SAVEAC <P1> ;Don't trash P1
MOVNS T1 ;Get an AOBJN pointer to the table
HRLZ P1,T1 ;
TYPXB1: MOVEI T1,"+" ;Put out a "+"
CALL .TCHAR ;
HRRZ T1,P1 ;Output the locaton of the entry
CALL .TOCTW ;Type it out
CALL .TCOLN ;Type a colon
CALL .TSPAC ;Type out a space
HRRZ T1,P1
CAIGE T1,100 ;Is location one or two digits?
CALL .TSPAC ;Yes - type out another space
HRRZ T1,P1
CAIGE T1,10 ;Is location one digit?
CALL .TSPAC ;Yes - type out another space
MOVE T1,NODBLK(P1) ;Get the value
CALL .TOCT8 ;Type out 8bit octal
CALL TYPTBB## ;Tab over
MOVE T1,NODBLK(P1) ;Get the value
CALL .TCHR8## ;Output it in 8-bit ascii
CALL .TCRLF ;Move to the next line
AOBJN P1,TYPXB1 ;Loop though all the items
RET ;All Done
.TOCT8::SAVEAC <P1,P2> ;Don't trash P1,P2
MOVE P1,T1 ;Get the value
LSH P1,-4 ;Strip off last 4 bits
IDIVI P1,400 ;Get the last byte
PUSH P,P2 ;Stack it
IDIVI P1,400 ;Get the next byte
PUSH P,P2 ;Stack it
IDIVI P1,400 ;Get the next byte
PUSH P,P2 ;Stack it
IDIVI P1,400 ;Get the first byte
MOVE T1,P2 ;Put the value here
CALL SPCS ;Put out the right number of spaces
CALL .TOCTW ;Display the byte
CALL .TSPAC ;Followed by a space
POP P,T1 ;Unstack the second byte
CALL SPCS ;Put out the right number of spaces
CALL .TOCTW ;Display the byte
CALL .TSPAC ;Followed by a space
POP P,T1 ;Unstack the third byte
CALL SPCS ;Put out the right number of spaces
CALL .TOCTW ;Display the byte
CALL .TSPAC ;followed by a space
POP P,T1 ;Unstack the last byte
CALL SPCS ;Put out the right number of spaces
CALL .TOCTW ;Display the byte
RET ;and go home
SPCS: SAVEAC <T1> ;Don't trash T1
CAIL T1,100 ;Is it 3 digits?
RET ;Yes. Nothing to do...
CAIGE T1,10 ;Is it 2 digits?
CALL .TSPAC ;No, only one
CALL .TSPAC ;Last space
RET
; GETPRV - Get PRVECT into nodblk
;[101]Add routine GETPRV
GETPRV::MOVEI T1,1 ;Number of words to read
ADD T2,PRVEC## ;Index into PRVECT
MOVEI T3,NODADR ;Put it in NODADR
CALL XPEEKX ;Do the XPEEK
IFNSK. ;It failed
MOVEI T1,[ASCIZ/%Failed to read PRVECT entry/]
CALLRET .TSTRG
ENDIF.
SKIPE T2,NODADR ;Get address of PR
IFSKP. ;No address...
MOVEI T1,[ASCIZ/%No PR Address on specified channel/]
CALLRET .TSTRG
ENDIF.
RETSKP
; TADRZ - Display an asciz string
;[7.1]
; T2/ Address of an ASCIZ string in the right half
;RETURNS:
; +1 Error
; +2 Success
.TADRZ: HRRZ T1,T2 ;Move the address into T1
CALLRET .TSTRG ;Display the portname
;[101]Add routine .TSLTS
;DISPLAY THE SLOT STATE
;
STTAB: [ASCIZ/HALTED/]
[ASCIZ/RUN/]
[ASCIZ/SOLINF/]
[ASCIZ/SOLACS/]
[ASCIZ/SOLACS/]
[ASCIZ/QUEUED/]
[ASCIZ/REJECT/]
[ASCIZ/TIMOUT/]
[ASCIZ/CANCEL/]
[ASCIZ/CANCEL/]
[ASCIZ/******/]
SS.MIN==0
SS.MAX==11
SS.ERR==SS.MAX+1
.TSLTS: CAIL T1,SS.MIN ;State out of range?
CAILE T1,SS.MAX ;
MOVEI T1,SS.ERR ;Yes.
MOVE T1,STTAB(T1) ;Get the approppriate message
CALLRET .TSTRG ;SHOW IT
SUBTTL TYPPSB - DISPLAY A PORT STORAGE BLOCK
;Call:
; CALL TYPPSB ;NO ARGS IN ACS
; Error Return to stop DPY loop
; normal Return
TYPPSB::SKIPN T2,CHNBAS ;GET ADDRESS OF FIRST PSB
ERR ?No PSB for specified channel value
MOVE P1,SCNIDX ;GET THE INDEX COUNT
NXTPSB: SOJL P1,DOPSB ;IS THIS THE PSB WE WANT?
CALL GETPSB ;NO. READ ADDRESS OF NEXT PSB INTO T2
ERR ?No PSB for specified channel value
JRST NXTPSB ;SEE IF THIS IS THE ONE WE WANT
DOPSB: MOVEM T2,NODADR ;SAVE ADDRESS OF THIS BLOCK
MOVEI T1,PS.LEN ;LENGTH OF PSB TO READ
MOVEI T3,NODBLK ;STORE DATA IN NODE BLOCK
CALL XPEEKX ;READ THE BLOCK
ERR ?Couldn't read PSB
MOVEI T1,[ASCIZ/PSB number /]
CALL .TSTRG ;HEADER TEXT
MOVE T1,SCNIDX ;GET INDEX NUMBER
CALL .TDECD ;DISPLAY IT
MOVEI T1,[ASCIZ/ at address /]
CALL .TSTRG ;SHOW IT
MOVE T1,NODADR ;GET ADDRESS OF THIS BLOCK
CALL .TXWDW ;DISPLAY IT
CALL .TCRLF ;SEPARATE IT
CALL .TCRLF ;...
MOVE T1,PSBPTR ;GET THE BLOCK POINTER
CALL TYPBLK ;AND DISPLAY THIS PSB
RETSKP ;DONE
; GETPSB - READ ADDRESS OF NEXT PSB
; CALL:
; CALL GETPSB T2/ADDRESS OF THIS PSB
; RETURNS:
; +1: FAILED
; +2: SUCCESS, ADDRESS OF NEXT BLOCK IN T2
GETPSB: ADDI T2,PS.NXT ;MAKE ADDRESS OF NEXT PSB
MOVEI T1,1 ;ONE WORD
MOVEI T3,NODADR ;WHERE TO STORE ADDRESS OF BLOCK
CALL XPEEKX ;GET NEXT PSB ADDRESS
ERR ?Couldn't read address of next PSB
SKIPN T2,NODADR ;IS THERE ANOTHER BLOCK?
RET ;NO RETURN +1
RETSKP
SUBTTL TYPPTB - DISPLAY A PORTAL TABLE BLOCK
;Call:
; CALL TYPPTB ;NO ARGS IN ACS
; Error Return to stop DPY loop
; normal Return
TYPPTB::SKIPN T2,PORBAS ;GET ADDRESS OF FIRST PTB
ERR ?No PTB for specified index
MOVE P1,SCNIDX ;GET THE CHANNEL COUNT
NXTPTB: SOJL P1,DOPTB ;IS THIS THE PTB WE WANT?
CALL GETPTB ;NO. READ ADDRESS OF NEXT PTB INTO T2
ERR ?No PTB for specified channel value
JRST NXTPTB ;SEE IF THIS IS THE ONE WE WANT
DOPTB: MOVEM T2,NODADR ;SAVE ADDRESS OF THIS PTB
MOVEI T1,PR.LEN ;LENGTH OF PTB TO READ
MOVEI T3,NODBLK ;STORE DATA IN NODE BLOCK
CALL XPEEKX ;READ THE BLOCK
ERR ?Couldn't read PTB
MOVEI T1,[ASCIZ/PTB number /]
CALL .TSTRG ;HEADER TEXT
MOVE T1,SCNIDX ;GET INDEX NUMBER
CALL .TDECD ;DISPLAY IT
MOVEI T1,[ASCIZ/ at address /]
CALL .TSTRG ;SHOW IT
MOVE T1,NODADR ;GET ADDRESS OF THIS BLOCK
CALL .TXWDW ;DISPLAY IT
CALL .TCRLF ;SEPARATE IT
CALL .TCRLF ;...
MOVE T1,PTBPTR ;GET THE BLOCK POINTER
CALL TYPBLK ;AND DISPLAY THIS PTB
RETSKP ;DONE
; GETPTB - READ ADDRESS OF NEXT PTB
; CALL:
; CALL GETPTB T2/ADDRESS OF THIS PTB
; RETURNS:
; +1: FAILED
; +2: SUCCESS, ADDRESS OF NEXT BLOCK IN T2
GETPTB: ADDI T2,PR.NXT ;MAKE ADDRESS OF NEXT PTB
MOVEI T1,1 ;ONE WORD
MOVEI T3,NODADR ;WHERE TO STORE ADDRESS OF BLOCK
CALL XPEEKX ;GET NEXT PTB ADDRESS
ERR ?Couldn't read address of next PTB
SKIPN T2,NODADR ;IS THERE ANOTHER BLOCK?
RET ;NO RETURN +1
RETSKP
SUBTTL End of Program
END