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Trailing-Edge - PDP-10 Archives - bb-lw55a-bm - language-sources/ttt.mac
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	UNIVERSAL	TTTUNV	DECnet Task-to-Task Interface for COBOL and FORTRAN


COMMENT		#

  COPYRIGHT (C) DIGITAL EQUIPMENT CORPORATION 1983, 1986.
  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.

			#
	SALL

	T0=0		;Function value return
	T1=1		;These ACs are saved and restored by this subroutine
	T2=2		;...
	T3=3		;...
	T4=4		;...
	T5=5		;...

	ARG=16		;Argument list pointer
	P=17		;Push down stack pointer

; Compile-time switches:

TCK==-1			;Include type-checking code
MAXLL==^D20		;Maximum number of logical links allowed at one time
DISTIM==^D5000		;Period between checks for lost interrupts
TSIZE==^D1000		;Size of temporary strings (used for DECnet file
			;... specifications and for binary-mode data
			;... movement)
OTSFNC==-1		;[35] Try to use FUNCT. in OTS
			;[35] Turn this off only if there is no OTS


IFNDEF FTT10,<FTT10==0>	;Non-zero if TOPS-10 support
IFNDEF FTT20,<FTT20==0>	;Non-zero if TOPS-20 support
IFN FTT20,<IFN FTT10,<PRINTX ?Cannot have FTT10 and FTT20 both turned on!>>
IFE FTT20,<IFE FTT10,<PRINTX ?Must have one of FTT10 or FTT20 turned on!>>

; Interrupt system (TOPS-20 only):

; Note that we have to avoid getting clobbered by PA1050 if we are called by
; a compatible program.  See LEVTAB, CHNTAB, and PSITAB in PAT.MAC.
;[35] See PSINIT, below.  The following are attempted to get an interrupt
;[35] channel to use:  get one from the OTS via FUNCT. (only if OTSFNC
;[35] switch is on), get one from PA1050 if it is in memory via COMPT.
;[35] function code 6, get one from the existing table of interrupts if
;[35] there is one, or make interrupt tables and then use an interrupt
;[35] from them.
;[46] To read the interrupt tables, we will attempt to do a RIR%.  If that
;[46] fails, we will do an XRIR%.  However, to SET them ourselves, if they do
;[46] not already exist, we will try the XSIR% first, doing a SIR% if that
;[46] fails.  This is done because the monitor will let us do an XRIR% of tables
;[46] set by a SIR%, causing chaos, but will not let us do a RIR% of tables set
;[46] by XSIR%.  The tables are incompatible.

PSILEV==^D3		;Use level PSILEV (must be 3 to cooperate with PA1050)
PSINUM==^D2		;Use number PSINUM (PA1050 requires <= 2)

IFN	OTSFNC,<	;[35] FUNCT. codes for handling interrupt channels:
	GPSI==17		;[35] Get TOPS20 interrupt channel from the OTS
	RPSI==20		;[35] Return TOPS20 interrupt channel to OTS
>			;[35] end of IFN OTSFNC


; Event flag definitions:

EV.CON==1		;Connect event has occurred
EV.ABT==2		;Abort event has occurred
EV.INT==4		;Interrupt message is available
EV.DAT==10		;Data is available
EV.DIS==20		;A disconnect event has occurred

; Externals:

EXTERN	DILRET		;Return kludge for COBOL
IFN	OTSFNC,<	;[35] If OTS is used for FUNCT.
EXTERN	FUNCT.		;[35] OTS interface port
>			;[35] End of IFN OTSFNC
; Macro to save T1 through T4 at the beginning of subroutine execution
; and restore them just prior to returning to caller.

DEFINE	SAVAC,	<
	PUSH	P,T1			;Save T1
	PUSH	P,T2			;Save T2
	PUSH	P,T3			;Save T3
	PUSH	P,T4			;Save T4
	XMOVEI	T1,[	POP	P,T4	;[51]Return
			POP	P,T3	;   from
			POP	P,T2	;   subroutine
			POP	P,T1	;   comes
			POPJ	P,]	;[51]   here to restore registers.
	PUSH	P,T1			;[51]
>

; Macro used to return from a subroutine.

DEFINE	RETURN (B), <
	JRST	[PUSH	P,[<B>]		;Status code
		 CALL 	DILRET		;Call COBOL return kludge
		 POP	P,0		;Set up function return value
		 RET	]		;Return
>


; Macro to facilitate system dependant code isolation

DEFINE T10,<IFN FTT10>

DEFINE T20,<IFN FTT20>



; Macro to use DISMS% JSYS call to simulate HIBER UUO if TOPS-10 version

T10,<DEFINE DISMS%,<
	TLO	T1,(HB.RIO)	;; Wake on I/O complete
	HIBER	T1,		;; Hibernate
	  JFCL			;; Should never happen
>>
; Version number control

; "version" macro in Bliss modules:
; who updated:     bits 33-35  ( 3 bits) Who updated (0=DEC)
; major verion:    bits 24-32  ( 9 bits) Major verison number
; minor version:   bits 18-23  ( 6 bits) Minor version number
; edit number:     bits  0-17  (18 bits) Edit number

DEFINE	VERSIO (who,maj,min,num),<
	BYTE (3)who(9)maj(6)min(18)num
>

; "new_version" macro in Bliss modules:

DEFINE	NEW%VE (major,minor),<
	%%%MAJ==major
	%%%MIN==minor
>

; "edit" macro in Bliss modules

DEFINE	EDIT (number,date,maker),<
	%%%EDT==number
>

; "mark_versions" macro in Bliss modules

DEFINE	MARK%V (fac),<
	EXTERN	fac'VER		;; (fac'$k_version)
				;; ... Defined in DITHST.BLI
	fac'MVR==VERSIO (0,%%%MAJ,%%%MIN,%%%EDT)	;; (fac'$module_version)
	fac'GVR==fac'VER		;;(fac'$g_version)
>
; Edit History:

new%ve	1,0

edit	1,'14-Oct-82','Charlotte L. Richardson'
; %( Change version and revision standards.  All modules.  )%

edit	4,'27-Oct-82','Charlotte L. Richardson'
; %( Remove CLOSF% workaround in NFCLS.  TTT.MAC )%

edit	7,'29-Oct-82','Charlotte L. Richardson'
; %( Check that character strings are only ASCII.  TTT.MAC and DAPPER.B36 )%

edit	12,'5-Nov-82','Charlotte L. Richardon'
; %( Check interrupts before stealing one.  TTT.MAC )%

edit	13,'5-Nov-82','Charlotte L. Richardson'
; %( Fix edit 12!  TTT.MAC )%

edit	16,'16-Nov-82','Charlotte L. Richardson'
; %( Fix typo in OBJID processing of NFOPP.  QAR 4.  TTT.MAC )%

edit	17,'17-Nov-82','Charlotte L. aRichardson'
; %( Correct AIC% JSYS in interrupt setup when PA1050 is not involved.
;    QAR 4.  TTT.MAC )%

edit	30,'23-Nov-82','Charlotte L. Richardson'
; %( Modify TTT.MAC to code around bug in field-image MACRO.  QAR 18.
;    TTT.MAC  )%

edit	35,'1-Dec-82','Charlotte L. Richardson'
; %( Use FUNCT. to get an interrupt channel if possible.  QAR 13.  TTT.MAC )%

edit	37,'9-Dec-82','Charlotte L. Richardson'
; %( Use XRIR%/XSIR% JSYSes in the interrupt code and do RIR%/SIR% if these
;    fail to avoid being burned by FOROTS v. 7.  TTT.MAC )%

edit	41,'17-Dec-82','Charlotte L. Richardson'
; %( If node name is missing in call to active open routine, create network
;    file specification with a leading dash.  QAR 27.  TTT.MAC )%

edit	46,'5-Jan-83','Charlotte L. Richardson'
; %( More of edit 37.  QAR 29.  TTT.MAC )%

edit	47,'6-Jan-83','Charlotte L. Richardson'
;%( Prefix JSYS errors with an explanation.  TTT.MAC )%

edit	51,'17-Jan-83','Charlotte L. Richardson'
;%( Change MOVEIs to XMOVEIs so that this code can run in a nonzero
;   section.  TTT.MAC )%

edit	56,'24-Jan-83','Charlotte L. Richardson'
;%( Correct file names created for TOPS-20 tasks.  NFOPU and NFOPP in TTT.MAC )%

edit	60,'2-Feb-83','Charlotte L. Richardson'
;%( Fix typo in edit 56.  TTT.MAC )%

edit	61,'9-Mar-83','Charlotte L. Richardson'
;%( Declare version 1.  All modules. )%

edit	63,'11-Mar-83','Charlotte L. Richardson'
;%( Allow non-word-aligned character strings in TTT.MAC )%

edit	64,'15-Mar-84','Charlotte L. Richardson'
;%( Do not write JSYS errors to the user's terminal in .JSER. )%

new%ve	2,0

edit	65,'11-Apr-84','Sandy Clemens'
;%( Add DIT V2 files to DT2:.  Files: DITHST.BLI, DAPPER.B36, TTT.MAC )%

edit	72,'16-May-84','Doug Rayner'
;%( Fix NFINT and NFRCI for TOPS-10.  FILES: TTT.MAC, DITHST.BLI )%

edit	111, '04-June-84', 'Doug Rayner'
; %(  Code to make sure that NFSND in binary mode would not overflow
;     internal buffer TEMPST was not quite right.  We didn't overflow
;     the buffer, but we gave the user's byte count instead of the
;     truncated byte count to the monitor.  FILES: TTT.MAC, DILHST.BLI
; )%

edit	104, '8-Oct-84', 'Sandy Clemens'
;%( Add new format of COPYRIGHT notice.  FILES:  ALL )%

edit	110, '20-Nov-84', 'Sandy Clemens'
;%( On TOPS-10, if a remote node is down, the TTT code (1) in NFOP*
;   to open the link (with WAITLY) or (2) await the confirmation of
;   the connect (with WAITLY) in NFGND will wait indefinitely.  Add
;   a check for status .NSSCM (which indicates "no communication") to
;   correct this problem.   FILES:  TTT.MAC. )%

new%ve	2,1

edit	112,'1-Jun-86','Sandy Clemens'
;%( Add sources for version 2.1.  Update copyright notices. )%

; End of revision history

mark%v	DIT
; Status values:

	WARN==0				; Warning message
	SUCC==1				; Success message
	ERR==2				; Error message
	INFO==3				; Informational message
	SEVERE==4			; Severe (fatal) error message

; Facility code:

	DITFAC==^D233			; DIT facility code (actually decimal)

; Build status value:

; Bits 32 - 35 ( 4): unused
;(Bit  31      ( 1): custdf)
; Bits 18 - 31 (14): facno
; Bit  17      ( 1): facsp
; Bits  3 - 16 (14): code
; Bits  0 -  2 ( 3): sever

DEFINE	STACOD (SEVER,FACSP,CODE,FACNO,CUSTDF),<
	BYTE (4)0(1)^D<CUSTDF>(13)^D<FACNO>(1)^D<FACSP>(14)^D<CODE>(3)^D<SEVER>
>

	SSSUCC==STACOD	SUCC,0,0,0,0
; Type checking codes:

.TYPEM==001740,,0			;Type field mask
.TYPE==270500				;Type field LDB pointer left half

.OK==0					;Not specified, always OK
.LG==1					;Fortran logical
.I1==2					;One-word integer
.T3==3					;...
.R1==4					;One-word real
.T5==5					;...
.O1==6					;One-word octal
.LB==7					;label/procedure address
.R2==10					;Two-word real
.I2==11					;Two-word integer
.O2==12					;Two-word octal
.T13==13					;...
.CP==14					;Complex
.ST==15					;Byte string pointer (ILDB ptr, count)
.T16==16					;...
.AZ==17					;ASCIZ string
; Status values for return values:

	SYSERR==STACOD	SEVERE,1,1,DITFAC,0	; Same as DAPPER
	TOOMNY==STACOD	SEVERE,1,2,DITFAC,0	; Same as DAPPER
	INVARG==STACOD	SEVERE,1,3,DITFAC,0	; Same as DAPPER
						; codes 4-9 not used by TTT
	OVRRUN==STACOD	WARN,1,10,DITFAC,0	; Same as DAPPER
						; Up to 100 reserved for DAPPER
	CONEVT==STACOD	INFO,1,101,DITFAC,0	; Connect event
	ARJEVT==STACOD	INFO,1,102,DITFAC,0	; Abort or reject event
	INTEVT==STACOD	INFO,1,103,DITFAC,0	; Interrupt event
	DATEVT==STACOD	INFO,1,104,DITFAC,0	; Data event
	DSCEVT==STACOD	INFO,1,105,DITFAC,0	; Disconnect event
						; Up to 150 reserved for events
	ABRTRJ==STACOD	SEVERE,1,151,DITFAC,0	; Abort or reject
	INTRCV==STACOD	WARN,1,152,DITFAC,0	; Interrupt data to read first
	NOTENF==STACOD	ERR,1,153,DITFAC,0	; Not enough data available
	NODATA==STACOD	ERR,1,154,DITFAC,0	; No data available
	NOTAVL==STACOD	ERR,1,155,DITFAC,0	; Information is not available
	INFOUR==STACOD	SEVERE,1,156,DITFAC,0	; Information is out of range
; Routine return values:

; For anything:

	HORROR==SYSERR		; Awful error

; For NFGND:

	GDWRNG==INVARG		; Argument is of wrong type
	GDOK..==SSSUCC		; No errors
	GDCONN==CONEVT		; Connect event
	GDABRJ==ARJEVT		; Abort or reject
	GDINT.==INTEVT		; Interrupt data available
	GDDATA==DATEVT		; Data available
	GDDC..==DSCEVT		; Disconnect

; For NFOPA:

	OAWRNG==INVARG		; Argument is of wrong type
	OAOK..==SSSUCC		; No errors
	OA2MNY==TOOMNY		; Too many links or no more interrupt channels
	OAABRJ==ABRTRJ		; Abort or reject

; For NFOPB: same as NFOPA

; For NFOP8: same as NFOPA

; For NFOPP: same as NFOPA

; For NFACC:

	ACWRNG==INVARG		; An argument is of the wrong type
	ACOK..==SSSUCC		; No errors

; For NFRCV:

	RCWRNG==INVARG		; Argument is of the wrong type
	RCOK..==SSSUCC		; No errors
	RCABRJ==ABRTRJ		; Link disconnected or aborted
	RCINT.==INTRCV		; Interrupt data received must be read first
	RCOVRN==OVRRUN		; Data overrun
	RCNENF==NOTENF		; This much data not available

; For NFSND:

	SNWRNG==INVARG		; Argument is of the wrong type
	SNOK..==SSSUCC		; No errors

; For NFREJ:

	RJWRNG==INVARG		; Argument is of the wrong type
	RJOK..==SSSUCC		; No errors

; For NFINT:

	IDWRNG==INVARG		; Argument is of the wrong type
	IDOK..==SSSUCC		; No errors

; For NFRCI:

	RIWRNG==INVARG		; Argument is of the wrong type
	RIOK..==SSSUCC		; No errors
	RINONE==NODATA		; No data available

; For NFCLS:

	CLWRNG==INVARG		; Argument is of the wrong type
	CLOK..==SSSUCC		; No errors

; For NFINF:

	INWRNG==INVARG		; Argument is of the wrong type
	INOK..==SSSUCC		; No errors
	INNOTA==NOTAVL		; Information not available
	INOUTR==INFOUR		; Type is out of range
; Other codes:

	WAITLY==1		; Wait for link
	WAITLN==0		; Do not wait for link
	LASCII==0		; ASCII link type (for NFACC)
	LBIN==1			; Binary link type (for NFACC)
	L8BIT==2		; 8-bit link type (for NFACC)
	MSGMSG==1		; Message-mode transfer
	MSGSTM==0		; Stream-mode transfer

; Information types:

	IMIN==^D1		; Minimum information offset
	INODE==^D1		; Remote node name
	IOBJ==^D2		; Remote object type
	IDESCF==^D3		; Remote object descriptor format
	IDESC==^D4		; Remote object descriptor
	IUSER==^D5		; Remote process user id
	IPASS==^D6		; Remote process password
	IACT==^D7		; Remote process account
	IOPT==^D8		; Optional data
	ISEG==^D9		; Maximum segment size for the link
	IABTCD==^D10		; Maximum segment size for the link
	IMAX==^D10		; Maximum information offset

; Field sizes:

	SUSRID==^D39		; Size of USERID field
	SPASWD==^D39		; Size of PASSWORD field
	SACCNT==^D39		; Size of ACCOUNT field
	SHOSTN==^D16		; Size of HOSTNAME field
T10,<	SHOSTN==^D6>		; Size of HOSTNAME field
	SOBJID==^D16		; Size of OBJECTID field
	SDESCF==^D16		; Size of DECnet DESCRIPTOR field
	STASKN==^D16		; Size of TASKNAME field
	SOPTDT==^D16		; Size of OPTIONAL DATA field
	SINTDT==^D16		; Size of INTERRUPT DATA field
;; Local Storage

;; Here are stored the canonical forms of all parameters passed
;; between the calling module and the called module.  This
;; structure facilitates the use of these subroutines by many
;; higher-level languages.
;; Currently only FORTRAN and COBOL have been tested.

DEFINE	LOWSEG,<		;;Impure data definitions
	X	NETLN,1		;;Address of network logical name,  the
				;;   offset into the logical link tables.
	X	TYPE,1		;;Address of subroutine-dependent variable
	X	DESC,1		;;Byte pointer to ASCIZ representation
				;;   of complete TOPS20 file spec for
				;;   the network file
	X	WAIT,1		;;Address of WAIT variable:  1=WAIT 0=NOWAIT
	X	COUNT,1		;;Address of byte count for message transfers
	X	DATA,1		;;Byte pointer for data and status messages
	X	USIZE,1		;;Storage for message length unit size
	X	EOM,1		;;Address of end of msg flag:  1=END 0=STREAM
	X	CODE,1		;;Address of subroutine-dependent variable
	X	TEMPST,TSIZE	;;Temporary string storage

	X	NEXT,1		;;Fairness word for NFGND
	X	CHAN,1		;;Channel number chosen for all logical links
	X	START,1		;;Set to -1 after PSI initialization
	X	SLOP,1		;;Save left-over unused bits (receive binary)


;; Here are stored other local variables.

IFN	OTSFNC,<		;;[35] Locations used if FUNCT. is used in OTS
	X	FNCBLK,7	;;[35] Argument block for the FUNCT.
	X	FNCFNC,1	;;[35] FUNCT. function code
	X	FNCCOD,1	;;[35] FUNCT. error code prefix
	X	FNCSTS,1	;;[35] FUNCT. return status
	X	FNCLEV,1	;;[35] FUNCT. interrupt level number
	X	FNCINT,1	;;[35] FUNCT. interrupt address
>				;;[35] End of IFN OTSFNC
T20,<				;; TOPS-20 dependant storage

	X	T1T2,2		;;Save ACs during interrupts
	X	T3T4,2		;;...
	X	XBLOCK,3	;;[37] XSIR%/XRIR% block:
				;;[37]  word 0: length of block (3)
				;;[37]  word 1: address of level table
				;;[37]  word 2: address of channel table
	X	PC,2		;;[46] Save PC during interrupts
				;;[46] If extended interrupt JSYSes are used:
				;;[46]  word 0: flags
				;;[46]  word 1: real PC
	X	XFLAG,1		;;[46] Extended interrupt JSYS flag:
				;;[46]  if 0, not XSIR%; if -1, use XSIR%
	X	PCPTR,1		;;[35] Pointer to PC location
	X	LEVTAB,3	;;Priority level table: 0, 0, PC for ints.
	X	CHNTAB,^D36	;;Interrupt channel table: nothing at first
;[37]	X	LEVCHN,1	;;Save level and channel table addresses
	X	LLJFN,MAXLL	;;JFN of this logical link

;; Per-link data tables:

;**; [63] Change at LLEVNT	CLR	11-Mar-83
	X	LLEVNT,MAXLL	;;[63] 0,,event flags
	X	LLSTAT,MAXLL	;;Logical link status word
	X	CODES,MAXLL	;;Byte sizes of links
> ;; End of TOPS-20 dependant storage
T10,<				;;Start of TOPS-10 dependant storage
	X	BL$NSP,.NSAA3+1	;;Sapce for NSP. UUO arg block
	X	BL$CON,.NSCUD+1	;;Space for NSP. connect block
	X	BL$SPD,.NSDPN+1 ;;Space for NSP. source process desc. blk.
	X	BL$DPD,.NSDPN+1 ;;Space for NSP. dest. process desc. blk.

	X	BL$BEG,0	;;Mark beginning of string area
	X	BL$NOD,<1+<<SHOSTN+3>/4>> ;; Space for host name
	X	BL$USR,<1+<<SUSRID+3>/4>> ;; Space for user ID
	X	BL$PAS,<1+<<SPASWD+3>/4>> ;; Space for password
	X	BL$ACC,<1+<<SACCNT+3>/4>> ;; Space for account
	X	BL$OPT,<1+<<SOPTDT+3>/4>> ;; Space for optional user data
	X	BL$DPT,<1+<<STASKN+3>/4>> ;; Space for dst. prc. name
	X	BL$SPT,<1+<<STASKN+3>/4>> ;; Space for src. prc. name
	X	BL$END,0	;; Mark end of string area

	Y	BL$IND,<<SHOSTN+1+4>/5>	;;Space to hold remote host name
	Y	BL$IOB,0		;;Space to hold remote object type (LH)
	Y	BL$IFM,1		;;Space to hold remote format type (RH)
	Y	BL$IPP,1		;;Space to hold remote PPN
	Y	BL$ITK,<<STASKN+1+4>/5>	;;Space to hold remote task name
	Y	BL$IUS,<<SUSRID+1+4>/5>	;;Space to hold remote user id
	Y	BL$IPS,<<SPASWD+1+4>/5>	;;Space to hold remote password
	Y	BL$IAC,<<SACCNT+1+4>/5>	;;Space to hold remote account
	Y	BL$IOP,<<SOPTDT+1+4>/5>	;;Space to hold remote user data
	Y	BL$ILN,0		;;Length of remote info area

	X	BL$INF,<BL$ILN*<MAXLL>> ;; Space for NFINF blocks

;; Per-link data tables:

	X	LLEVNT,MAXLL+1	;;Byte pointer,,event flags
	X	LLSTAT,MAXLL+1	;;Logical link status word
	X	CODES,MAXLL+1	;;Byte sizes of links

	X	NUMLL,1		;;Number of active logical links
	X	VECTOR,.PSVIS+1	;;Location of PSI interrupt vector

>;; End of TOPS-10 dependant storage

>				;End of LOWSEG macro
DEFINE	TTTINI,<		;;Module initialization
	EXTERN	TTTLOW		;;Cause the low segment to appear
	TWOSEG	400000		;;High-segment code (for now)
T20,<	SEARCH	MONSYM,MACSYM>	;;Search the TOPS-20 universal files
T10,<	SEARCH	UUOSYM,MACSYM>	;;Search the TOPS-10 universal files
	RELOC	400000		;;Into the high segment (for now)

DEFINE	X (A,B),<		;;Macro to expand the low segment
;[30] This is done to get around bug in Polish processing in Macro 53.1.
	A==TTTLOW+I		;;[30] Set up address
	I==I+B			;;Increment address used up
>				;;End of X macro

DEFINE	Y (SYM,SIZ),<		;;Macro to generate offsets in BL$INF
	SYM==II
	II==II+SIZ
>				;;End of Y macro

;[30] This is done to get around bug in Polish processing in Macro 53.1.

	I==0			;;[30] Start off the addresses
	II==0			;; Start off the offsets

	LOWSEG			;;Into the low segment

>				;End of TTTINI macro

	PRGEND			;End of TTTUNV
	TITLE	NFGND Get event information
	ENTRY	NFGND
	SEARCH	TTTUNV
	TTTINI
	EXTERN	.UPEVT
T10,<	EXTERN	.GTINF>
; NFGND (1A)
;
; Get information on asynchronous network events.  Wait for any network
; event to occur.
;
; CALL NFGND USING NETLN, WAIT.
; RETCOD = NFGND (NETLN, WAIT)
;
; NETLN	integer network logical name, set by the NFOPA,
;	NFOPB, NFOP8, or NFOPP routine, or -1 for ALL.
; WAIT	integer WAITLY: wait for an event
;	WAITLN: return current status.
; Return code and function value:
;	GDWRNG: an argument is of the wrong type
;	GDOK..: no errors
;	GDCONN: connect event, should call NFINF, then NFACC or NFREJ
;		active: connect request accepted
;		passive: connect request received
;	GDABRJ: link aborted or rejected, call NFCLS
;	GDINT.: interrupt message available to read, call NFRCI
;	GDDATA: data may have been received, call NFRCV
;	GDDC..: link disconnected, call NFCLS
;	HORROR: JSYS error.

NFGND:	SAVAC				;Save ACs

; Parameter set-up code:

; NETLN (0) setup:

	IFN	TCK,<			;Type-checking code
	HRLI	T1,.TYPE		;Get NETLN's type
	HRRI	T1,0(ARG)		;...
	LDB	T1,T1			;...
	CAIN	T1,.OK			;Unspecified is always OK
	 JRST	L.4			;...
	CAIE	T1,.I1			;One-word integer is correct
	 RETURN	GDWRNG			;Anything else is trouble
>; End IFN TCK
L.4:	XMOVEI	T1,@0(ARG)		;[51]Address of NETLN
	MOVEM	T1,NETLN		;Save it
	MOVE	T1,@NETLN		;Get value given
	CAML	T1,[EXP -2]		;Can not be less than -1
	 CAILE	T1,MAXLL		;Or greater than MAXLL
	 RETURN	GDWRNG			;Return error

; WAIT (1) setup:

	IFN	TCK,<			;Type-checking code
	HRLI	T1,.TYPE		;Get WAIT's type
	HRRI	T1,1(ARG)		;...
	LDB	T1,T1			;...
	CAIN	T1,.OK			;Unspecified is always OK
	 JRST	L.5			;...
	CAIE	T1,.I1			;One-word integer is correct
	 RETURN	GDWRNG			;Anything else is trouble
>; End IFN TCK
L.5:	XMOVEI	T1,@1(ARG)		;[51]Address of WAIT flag
	MOVEM	T1,WAIT			;Save it

; End of parameter set-up code.
; GNDCHK (1.1)

; (Also NXTWAT (1.1.2))

; Get network event information.

; NETLN:	link number, of -1 for ALL
; WAIT:		WAITLN to return current status, or WAITLY to wait for an event
; RETCOD:	return code for NFGND

GNDCHK:	MOVE	T1,@NETLN		;Get link id
	JUMPL	T1,CHKALL		;If -1, check all links
	CALL	CHKEVT			;Anything happen?
	JUMPN	T2,0(T2)		;Yes, process it
	MOVE	T1,@WAIT		;Get wait code
	CAIE	T1,WAITLY		;Waiting?
	 RETURN	GDOK..			;No, return nothing
	MOVEI	T1,DISTIM		;Yes, wait
	DISMS%				;
	JRST	GNDCHK			;Go look again

CHKALL:	MOVE	T1,NEXT			;Get next logical link to look at

CHKA.1:	CALL	CHKEVT			;Anything happen
	JUMPN	T2,[MOVEM T1,@NETLN	;Return link number
		 AOS	T1		;Increment next counter
		 CAIN	T1,MAXLL	;End of list?
		  SETZ	T1,		;Yes, start over
		 MOVEM	T1,NEXT		;Save it
		 MOVE	T1,@NETLN	;Retrieve the offset
		 JRST	0(T2)]		;Process the event
	AOS	T1			;Look at next link
	CAIN	T1,MAXLL		;End of list?
	 SETZ	T1,			;Yes, start at beginning
	CAME	T1,NEXT			;Seen entire list?
	 JRST	CHKA.1			;No, look again
	SKIPN	@WAIT			;Waiting?
	 RETURN	GDOK..			;No
	MOVEI	T1,DISTIM		;
	DISMS%				;
	JRST	CHKALL			;Check again
; CHKEVT (1.1.1)

; Return current status.

; T1:		index of JFN of the link to check

CHKEVT:
T20,<	SKIPN	T2,LLJFN(T1)>		;Is JFN assigned?
T10,<	SKIPN	T2,LLSTAT(T1)>		;Is channel assigned?
	 RET				;No
	HRRZ	T2,LLEVNT(T1)		;Get event flags
	JUMPN	T2,CHKEV1		;Did they get updated at INT level?
	  CALL	.UPEVT			;No, update event word in case lost INT
	HRRZ	T2,LLEVNT(T1)		;Get event flags back
	JUMPE	T2,[RET]		;Report nothing happened
CHKEV1:	TXNE	T2,EV.CON		;Connect?
	 JRST	[MOVEI	T2,GND.C	;
		 RET]			;
	TXNE	T2,EV.ABT		;Abort?
	 JRST	[MOVEI	T2,GND.A	;
		 RET]			;
	TXNE	T2,EV.INT		;Interrupt message?
	 JRST	[MOVEI	T2,GND.I	;
		 RET]			;
	TXNE	T2,EV.DAT		;Data available?
	 JRST	[MOVEI	T2,GND.DA	;
		 RET]			;
	TXNE	T2,EV.DIS		;Disconnect event?
	 JRST	[MOVEI	T2,GND.DC	;
		 RET]			;
	SETZ	T2,			;
	RET				;

; Connect event occurred:

GND.C:	MOVEI	T2,EV.CON		;Connect event bit
	ANDCAM	T2,LLEVNT(T1)		;Turn it off
T10,<	CALL	.GTINF>			;Get connect info
	RETURN	GDCONN			;Return with connect status

; Abort occurred:

GND.A:	RETURN	GDABRJ			;Return with abort status

; Disconnect occurred:

GND.DC:	MOVEI	T2,EV.DIS		;Disconnect event bit
	ANDCAM	T2,LLEVNT(T1)		;Turn it off
	RETURN	GDDC..			;Return with disconnect status

; Interrupt message available:

GND.I:	RETURN	GDINT.			;Return with interrupt status

; Data available:

GND.DA:	RETURN	GDDATA			;Return with data available status

	PRGEND				;End of NFGND
	TITLE	NFOPU Active link open routines
	ENTRY	NFOPA
	SEARCH	TTTUNV
	TTTINI
	EXTERN	.LOPEN
T10,<	EXTERN	.NSPIN>
; NFOPA (2A)
;
; Open an active logical link (DCN:), establishing a connection for
; the transmission of ASCII data only.
;
; A passive link should be used by a server process which waits for
; other programs to link to it and request its services.  An active
; link should be used by a program which wants to link to a server
; program and request its services.  Once a link is established, there
; is no distinction between the active and passive tasks: both can
; send data, receive data, send interrupts, receive interrupts, and
; end the link.
;
; On TOPS20, a nonprivileged job can have only four open links.  The
; system quota of open links depends on the amount of monitor free
; core available.
;
; On TOPS10 and TOPS20, the data is in 7-bit bytes, actually transmitted
; through the network as 8-bit bytes.  On VMS systems, the data is in
; 8-bit bytes.
;
; CALL NFOPA USING NETLN, HOSTN, OBJID, DESC, TASKN, USERID,
;	PASSWD, ACCT, USERD, WAIT.
; RETCOD = NFOPA (NETLN, HOSTN, OBJID, DESC, TASKN, USERID,
;	1 PASSWD, ACCT, USERD, WAIT)
;
; NETLN	identifies the logical link, set by this routine.
; HOSTN	1 to SHOSTN character ASCII hostname.  This is the name of the
;	system where the passive task to be connected to is running.
; OBJID	Optional ASCII DECnet objectid.  This is the nonzero
;	object type expressed as a decimal number or, for TOPS-20 only,
;	an object name (1 to SOBJID ASCII characters).
;	It identifies the generic service offered by the passive
;	DECnet object being connected to (see Appendix C of the
;	Functional Specification).  See Appendix B of the Functional
;	Specification for examples of how the active task specifies
;	a particular passive task to be connected to.
; DESC	DECnet descriptor, a 1 to SDESCF character ASCII string which
;	may optionally be given if an objectid is specified (DECnet VAX
;	and DECnet-10 do not allow descriptors for nonzero objectids).
;	If the objectid is type 0 or object name TASK, this is the unique
;	taskname of the passive task.  For TOPS-20 only, if the objectid
;	identifies some other object type other than TASK, this field
;	must match the descriptor specified by the passive task.
;
; NOTE: HOSTN, OBJID, and DESC cannot exceed a total of thirty-seven
; characters (TOPS-20 only restriction).
;
; TASKN	DECnet taskname, a 1 to STASKN character ASCII string by which this
;	process is known to the network.  If this parameter is omitted,
;	the monitor will assign a taskname.
;	There is never any real reason for an active task to specify
;	its taskname.
; USERID
;	Optional 1 to SUSRID character ASCII userid.
; PASSWD
;	Optional 1 to SPASWD ASCII character password.
; ACCT	Optional 1 to SACCNT ASCII character account.
; USERD	Optional 1 to SOPTDT ASCII characters of user data.
; WAIT	wait code:
;	WAITLN: return now, use NFGND to check for completion
;	WAITLY: wait.
; Return code and function value:
;	OAWRNG: an argument is of the wrong type
;	OAOK..: success
;	OA2MNY: too many links or no more interrupt channels
;	OAABRJ: target rejected link or aborted, use NFINF to find out
;	HORROR: JSYS error.

NFOPA:	SAVAC				;Save ACs

; Set up parameters:

	MOVEI	T1,^D7			;Use 7-bit ASCII bytes
	JRST	OPACT			;Join common code
	ENTRY	NFOPB
; NFOPB (2B)
;
; Open an active logical link (DCN:), establishing a connection for
; the transmission of records or blocks of data.
;
; A passive link should be used by a server program which waits for other
; programs to link to it and request its services.  An active link
; should be used by a program which wants to link to a server program
; and request its services.  Once a link is established, there is no
; distinction between the active and passive tasks: both can send data,
; receive data, send interrupts, receive interrupts, and end the link.
;
; On TOPS20, a nonprivileged job can have only four open links.  The
; system quota of open links depends on the amount of monitor free
; core available.
;
; Data is moved as a string of bits (transmitted 8 bits at a time by the
; network) suitable for input to the data conversion routines,
; although for convenience the user may specify that his data contains
; so many bytes of a specified size.  For details of how the bit
; transport is done for use by the DCR, see Appendix H of the
; Functional Specification.
;
; CALL NFOPB USING NETLN, HOSTN, OBJID, DESC, TASKN, USERID,
;	PASSWD, ACCT, USERD, WAIT.
; RETCOD = NFOPB (NETLN, HOSTN, OBJID, DESC, TASKN, USERID,
;	1 PASSWD, ACCT, USERD, WAIT)
;
; NETLN	identifies the logical link, set by this routine.
; HOSTN	1 to SHOSTN character ASCII hostname.  This is the name of
;	the system where the passive task to be connected to is running.
; OBJID	Optional ASCII DECnet objectid.  This is the nonzero
;	object type expressed as a decimal number or, for TOPS-20 only,
;	an object name (1 to SOBJID ASCII characters).
;	It identifies the generic service offered by the passive
;	DECnet object being connected to (see Appendix C of the
;	Functional Specification).  See Appendix B of the Functional
;	Specification for examples of how the active task specifies
;	a particular passive task to be connected to.
; DESC	DECnet descriptor, a 1 to SDESCF character ASCII string which
;	may optionally be given if an objectid is specified (DECnet VAX
;	and DECnet-10 do not allow descriptors for nonzero objectids).
;	If the objectid is type 0 or object name TASK, this is the unique
;	taskname of the passive task.  For TOPS-20 only, if the objectid
;	identifies some other object type other than TASK, this field
;	must match the descriptor specified by the passive task.
;
; NOTE: HOSTN, OBJID, and DESC cannot exceed a total of thirty-seven
; characters (TOPS-20 only restriction).
;
; TASKN	DECnet taskname, a 1 to STASKN character ASCII string by which this
;	process is known to the network.  If this parameter is omitted,
;	the monitor will assign a taskname.
;	There is never any real reason for an active task to specify
;	its taskname.
; USERID
;	Optional 1 to SUSRID character ASCII userid.
; PASSWD
;	Optional 1 to SPASWD character ASCII password.
; ACCT	Optional 1 to SACCNT character ASCII account.
; USERD	Optional 1 to SOPTDT ASCII characters of user data.
; WAIT	wait code:
;	WAITLN: return now, use NFGND to check for completion
;	WAITLY: wait.
; Return code and function value:
;	OAWRNG: an argument is of the wrong type
;	OAOK..: success
;	OA2MNY: too many links or no more interrupt channels
;	OAABRJ: target rejected link or aborted, use NFINF to find out
;	HORROR: JSYS error.

NFOPB:	SAVAC				;Save ACs

; Set up parameters:

	MOVEI	T1,^D36			;Use image bytes
	JRST	OPACT			;Join common code
	ENTRY	NFOP8
; NFOP8 (2F)
;
; Open an active logical link (DCN:), establishing a connection for
; the transmission of 8-bit bytes of data, stored in the usual manner
; in which the local system stores 8-bit bytes (see Appendix H of the
; Functional Specification).
;
; A passive link should be used by a server program which waits for other
; programs to link to it and request its services.  An active link should
; be used by a program which wants to link to a server and request its
; services.  Once a link is established, there is no distinction
; between the active and passive tasks: both can send data, receive
; data, send interrupts, receive interrupts, or end the link.
;
; On TOPS20, a nonprivileged job can have only four open links.  The system
; quota of open links depends on the amount of monitor free core available.
;
; Data is moved as a string of 8-bit bytes, stored as the local system
; usually stores 8-bit bytes.  No unused bits are transferred.  For
; details of how the bit transport is done, see Appendix H of the
; Functional Specification.
;
; CALL NFOP8 USING NETLN, HOSTN, OBJID, DESC, TASKN, USERID,
;	PASSWD, ACCT, USERD, WAIT.
; RETCOD = NFOP8 (NETLN, HOSTN, OBJID, DESC, TASKN, USERID,
;	1 PASSWD, ACCT, USERD, WAIT)
;
; NETLN	identifies the logical link, set by this routine.
; HOSTN	1 to SHOSTN ASCII character hostname.  This is the name of the
;	system where the passive task to be connected to is running.
; OBJID	Optional ASCII DECnet objectid.  This is the nonzero
;	object type expressed as a decimal number or, for TOPS-20 only,
;	an object name (1 to SOBJID ASCII characters).
;	It identifies the generic service offered by the passive
;	DECnet object being connected to (see Appendix C of the
;	Functional Specification).  See Appendix B of the Functional
;	Specification for examples of how the active task specifies
;	a particular passive task to be connected to.
; DESC	DECnet descriptor, a 1 to SDESCF character ASCII string which
;	may optionally be given if an objectid is specified (DECnet VAX
;	and DECnet-10 do not allow descriptors for nonzero objectids).
;	If the objectid is type 0 or object name TASK, this is the unique
;	taskname of the passive task.  For TOPS-20 only, if the objectid
;	identifies some other object type other than TASK, this field
;	must match the descriptor specified by the passive task.
;
; NOTE: HOSTN, OBJID, and DESC cannot exceed a total of thirty-seven
; characters (TOPS-20 only restriction).
;
; TASKN	DECnet taskname, a 1 to STASKN character ASCII string by which this
;	process is known to the network.  If this parameter is omitted,
;	the monitor will assign a taskname.
;	There is never any real reason for an active task to specify
;	its taskname.
; USERID
;	Optional 1 to SUSRID character ASCII userid.
; PASSWD
;	Optional 1 to SPASWD character ASCII password.
; ACCT	Optional 1 to SACCNT character ASCII account.
; USERD	Optional 1 to SOPTDT ASCII characters of user data.
; WAIT	wait code:
;	WAITLN: return now, use NFGND to check for completion
;	WAITLY: wait.
; Return code and function value:
;	OAWRNG: an argument is of the wrong type
;	OAOK..: success
;	OA2MNY: too many links or no more interrupt channels
;	OAABRJ: target rejected link or aborted, use NFINF to find out
;	HORROR: JSYS error.

NFOP8:	SAVAC				;Save ACs

; Set up parameters:

	MOVEI	T1,^D8			;Use 8-bit bytes
;	JRST	OPACT			;Fall through to OPACT routine
; OPACT (2Z)

; Common code to set up active task parameters.

OPACT:	MOVEM	T1,CODE			;Remember the byte size
	MOVEI	T1,1			;Make us active
	MOVEM	T1,TYPE			;Remember this information

; NETLN (0) setup:

	IFN	TCK,<			;Type-checking code
	HRLI	T1,.TYPE		;Get NETLN's type
	HRRI	T1,0(ARG)		;...
	LDB	T1,T1			;...
	CAIN	T1,.OK			;Unspecified is always OK
	 JRST	L.6			;...
	CAIE	T1,.I1			;One-word integer is correct
	 RETURN	OAWRNG			;Anything else is trouble
>; end IFN TCK
L.6:	XMOVEI	T1,@0(ARG)		;[51]Address of NETLN
	MOVEM	T1,NETLN		;Save it
T10,<	CALL	.NSPIN>			;Initialize NSP. associated blocks
; HOSTN (1) setup:

	HRLI	T1,.TYPE		;Get HOSTN's type
	HRRI	T1,1(ARG)		;...
	LDB	T1,T1			;...
T20,<	MOVE	T4,[POINT 7,TEMPST]	;Build DECnet descriptor
	MOVEI	T2,"D"			;Form
	IDPB	T2,T4			;... device
	MOVEI	T2,"C"			;... DCN:
	IDPB	T2,T4			;... for
	MOVEI	T2,"N"			;... the
	IDPB	T2,T4			;... active
	MOVEI	T2,":"			;... task's
	IDPB	T2,T4			;... device.
>; End of T20
T10,<	MOVE	T4,[POINT 8,BL$NOD+.NSAST]> ;Byte pointer for host name string desc.
	CAIN	T1,.OK			;Unspecified, assume FORTRAN
	 JRST	L.52			;...
	CAIE	T1,.ST			;[7] COBOL byte string is correct
	 JRST	L.52			;[7] For now, anything else is FORTRAN

; COBOL code:

	XMOVEI	T1,@1(ARG)		;[51][7] Address of two-word descriptor
	MOVE	T2,0(T1)		;Byte pointer
	LDB	T3,[POINT 6,T2,11]	;[7] Get byte pointer
	CAIE	T3,7			;[7] Must be ASCII
	 RETURN	OAWRNG			;[7] Wrong type
	HRRZ	T3,1(T1)		;Byte count
	JUMPE	T3,.E10A			;[41] No bytes, skip this field
	CAILE	T3,SHOSTN		;Check for valid count
	 MOVEI	T3,SHOSTN		;Too big, use maximum
T10,<	HRLM	T3,BL$NOD+.NSASL>	;Save byte count in string desc. block
	ILDB	T1,T2			;Get a byte
	JUMPE	T1,.E10A			;[41] Null?  Yes, skip this field
	CAIN	T1,40			;Or blank?
	 JRST	.E10A			;[41] Yes, skip this field
	JRST	L.7			;Do not load new byte first time in loop

L.57:	ILDB	T1,T2			;Get a byte
	SKIPE	T1			;Null?  Yes, end string
	 CAIN	T1,40			;Or blank?
T20,<	  JRST	.E10>			;Yes, end string
T10,<	  JRST	[HLRZ T1,BL$NOD+.NSASL	;Get the COBOL string length
		SUBI  T1,(T3)		;Subtract the excess 
		HRLM  T1,BL$NOD+.NSASL	;Since NSP. does not tolerate spaces
		JRST  .E10]
>; End T10
L.7:	IDPB	T1,T4			;Otherwise store byte
	SOJG	T3,L.57			;Loop
	JRST	.E10			;End of string

; FORTRAN code:

L.52:	XMOVEI	T2,@1(ARG)		;[51]Characters in array
	HLL	T2,[POINT 7,0]		;Make byte pointer
	MOVEI	T3,1			;Count a byte
	ILDB	T1,T2			;Get a byte
	JUMPE	T1,.E10A			;[41] Null?  Yes, skip this field
	CAIN	T1,40			;Or blank?
	 JRST	.E10A			;[41] Yes, skip this field
	JRST	L.11			;Do not load new byte first time in loop

L.58:	ILDB	T1,T2			;Get a byte
	JUMPE	T1,L.59			;Null?  Yes, end string
	CAIN	T1,40			;Or blank?
	 JRST	L.59			;Yes, end string
	AOS	T3			;Increment byte count
L.11:	IDPB	T1,T4			;Otherwise store byte
	CAIGE	T3,SHOSTN		;Check for valid count
	 JRST	L.58			;Loop
L.59:
T10,<	HRLM	T3,BL$NOD+.NSASL	;Save byte count in string desc. block
	JRST	.E10			;Continue on
>; End of T10
.E10A:					;Here if node name blank or null
T10,<	MOVE	T1,[DN.FLE+<.DNLNN,,3>]	;DNET. function to get local node name
	SETZB	T2,T3			;Clear for good measure
	MOVEI	T0,T1			;Arg pointer
	DNET.	T0,			;Do it
	  SETZ	T3,			;Failed?  Clear node name
	MOVE	T2,[POINT 6,T3]		;SIXBIT pointer to node name
	MOVEI	T0,6			;Number or characters
.E10B:	ILDB	T1,T2			;Get a SIXBIT character
	JUMPE	T1,.E10C		;Stop if blank
	ADDI	T1,40			;Make it ASCII
	IDPB	T1,T4			;Save in BL$NOD block
	SOJG	T0,.E10B		;Do it for whole node name
.E10C:	MOVEI	T1,6			;Char count
	SUB	T1,T0			;Minus the spaces
	HRLM	T1,BL$NOD+.NSASL	;Save in string pointer
>; End of T10

; End of HOSTN, insert "-"

.E10:
T20,<	MOVEI	T1,"-"			;Get the character
	IDPB	T1,T4			;... and store it.
>; End of T20
; OBJID (2) setup:

	HRLI	T1,.TYPE		;[41] Get OBJID's type
	HRRI	T1,2(ARG)		;...
	LDB	T1,T1			;...
T10,<	MOVEI	T4,1			;Assume for now FORMAT type 1
	MOVEM	T4,BL$DPD+.NSDFM
	HRRZS	BL$DPT+.NSASL		;And zero length TASK name
	SETZ	T4,			;TOPS-10 requires integer OBJID
					;So, we will build the integer as we go
>; End of T10
	CAIN	T1,.OK			;Unspecified, assume FORTRAN
	 JRST	L.61			;...
	CAIE	T1,.ST			;[7] COBOL byte string
	 JRST	L.61			;[7] For now, anything else is FORTRAN

; COBOL code:

	XMOVEI	T1,@2(ARG)		;[51][7] Address of two-word descriptor
	MOVE	T2,0(T1)		;Byte pointer
	LDB	T3,[POINT 6,T2,11]	;[7] Get byte size
	CAIE	T3,7			;[7] Must be ASCII
	 RETURN	OAWRNG			;[7] Wrong type
	HRRZ	T3,1(T1)		;Byte count
	CAILE	T3,SOBJID		;Check for valid count
	 MOVEI	T3,SOBJID		;Too big, use maximum

;[56] The objectid is required, so use "0" if none is given.
	ILDB	T1,T2			;[56] Get first byte of objectid
	CAIE	T1,40			;[56] Is it blank
	 CAIN	T1,0			;[56] ... or null?
	  JRST	[MOVEI	T1,"0"		;[56] Yes, must use "0" instead
T20,<		 IDPB	T1,T4>		;[56] Store the zero
	 JRST	.E12	]	;[56] And go to end of objectid code
	JRST	L.63A			;Join the loop late

L.63:	ILDB	T1,T2			;Get a byte
	JUMPE	T1,.E12			;Null?  Yes, end string
	CAIN	T1,40			;Or blank?
	 JRST	.E12			;Yes, end string
L.63A:
T20,<	IDPB	T1,T4>			;Otherwise, store byte
T10,<	CAIL	T1,"0"			;If decimal digit
	 CAILE	T1,"9"
	  JRST	.E12			;Not digit, done
	IMULI	T4,^D10			;Prepare current accumulated integer
	SUBI	T1,"0"			;Convert ASCII to binary
	ADDI	T4,(T1)			;Add in this digit
>; End of T10
	SOJG	T3,L.63			;Count this byte
	 JRST	.E12			;End of string

; FORTRAN code:

L.61:	XMOVEI	T2,@2(ARG)		;[51]Characters in array
	HLL	T2,[POINT 7,0]		;Make byte pointer
	SETZM	T3			;Byte count

;[56] The objectid is required, so use "0" if none is given.
	ILDB	T1,T2			;[56] Get first byte of objectid
	CAIE	T1,40			;[56] Is it blank
	 CAIN	T1,0			;[56] ... or null?
	  JRST	[MOVEI	T1,"0"		;[56] Yes, use "0".
T20,<		 IDPB	T1,T4>		;[56] Store the zero
		 JRST	.E12	]	;[56] Go to end of objectid code
	JRST	L.64A			;Join the loop late

L.64:	ILDB	T1,T2			;Get a byte
	AOS	T3			;Count byte
	JUMPE	T1,.E12			;Null?  Yes, end string
	CAIN	T1,40			;Or blank?
	 JRST	.E12			;Yes, end string
L.64A:
T20,<	IDPB	T1,T4>			;Otherwise, store byte
T10,<	CAIL	T1,"0"			;If decimal digit
	 CAILE	T1,"9"
	  JRST	.E12			;Not a digit, done
	IMULI	T4,^D10			;Prepare current accumulated integer
	SUBI	T1,"0"			;Convert ASCII to binary
	ADDI	T4,(T1)			;Add in this digit
>; End of T10
	CAIGE	T3,SOBJID		;Check for valid count
	 JRST	L.64			;Loop

; End of OBJID, insert "-"

;[56] Do not insert the "-" after the objectid unless there is a descriptor
.E12:
;[56]	MOVEI	T1,"-"			;Get the character
;[56]	IDPB	T1,T4			;... and store it.
T10,<	MOVEM	T4,BL$DPD+.NSDOB	;Save away the object number
	SKIPE	T4			;And, if non-zero
	  SETZM	BL$DPD+.NSDFM		;Then this is a FORMAT type 0
	SKIPE	T4			;If non-zero object type
	  JRST	.E13			;DECnet-10 will not accept a
					; task name, so skip this
>; End of T10
; DESC (3) setup:

	HRLI	T1,.TYPE		;Get DESC's type
	HRRI	T1,3(ARG)		;...
	LDB	T1,T1			;...
T10,<	MOVE	T4,[POINT 8,BL$DPT+.NSAST]> ;Start TASK string
	CAIN	T1,.OK			;Unspecified, assume FORTRAN
	 JRST	L.65			;...
	CAIE	T1,.ST			;[7] COBOL byte string
	 JRST	L.65			;[7] For now, anything else is FORTRAN

; COBOL code:

	XMOVEI	T1,@3(ARG)		;[51]Address of two-word descriptor
	MOVE	T2,0(T1)		;Byte pointer
	LDB	T3,[POINT 6,T2,11]	;[7] Get byte size
	CAIE	T3,7			;[7] Must be ASCII
	 RETURN	OAWRNG			;[7] Wrong type
	HRRZ	T3,1(T1)		;Byte count
	CAILE	T3,SDESCF		;Check for valid count
	 MOVEI	T3,SDESCF		;Too big, use maximum
T10,<	HRLM	T3,BL$DPT+.NSASL>	;Save byte count in string desc. block

;[56] Insert "-" after the objectid if there is a descriptor
	ILDB	T1,T2			;[56] Get first byte of descriptor
	CAIE	T1,40			;[56] Is it blank
	 CAIN	T1,0			;[56] ... or null?
	  JRST	.E13			;[56] Yes, skip all this
T20,<	PUSH	P,T1			;[56] Otherwise, save this character
	MOVEI	T1,"-"			;[56] ... and get a "-"
	IDPB	T1,T4			;[56] Store the "-"
	POP	P,T1			;[56] Restore the character
>; End of T20
	IDPB	T1,T4			;[56] ... and insert it
	SOS	T3			;[56] Account for one character

L.67:	ILDB	T1,T2			;Get a byte
	JUMPE	T1,.E13			;Null?  Yes, end string
	CAIN	T1,40			;Or blank?
	 JRST	.E13			;Yes, end string
	IDPB	T1,T4			;Otherwise, store byte
	SOJG	T3,L.67			;Count this byte
	 JRST	.E13			;End of string

; FORTRAN code:

L.65:	XMOVEI	T2,@3(ARG)		;[51]Characters in array
	HLL	T2,[POINT 7,0]		;Make byte pointer
	SETZM	T3			;Byte count

;[56] Insert "-" after the objectid if there is a descriptor.
	ILDB	T1,T2			;[56] Get first byte of descriptor
	CAIE	T1,40			;[56] Is it blank
	 CAIN	T1,0			;[56] ... or null?
	  JRST	.E13			;[56] Yes, skip to end of desc. code
T20,<	PUSH	P,T1			;[56] otherwise, save this byte
	MOVEI	T1,"-"			;[56] ... and get a "-"
	IDPB	T1,T4			;[56] Store the "-"
	POP	P,T1			;[56] Restore the character
>; End of T20
	IDPB	T1,T4			;[56] ... and store it
	AOS	T3			;[56] Account for one character

L.68:	ILDB	T1,T2			;Get a byte
	JUMPE	T1,L.68A		;Null?  Yes, end string
	CAIN	T1,40			;Or blank?
	 JRST	L.68A			;Yes, end string
	AOS	T3			;Count byte
	IDPB	T1,T4			;Otherwise, store byte
	CAIGE	T3,SDESCF		;Check for valid count
	 JRST	L.68			;Loop
L.68A:
T10,<	HRLM	T3,BL$DPT+.NSASL>	;Save byte counter

; End of DESC, insert "."

;[56] Do not insert a "." after the descriptor unless there is a taskname.
.E13:
;[56]	MOVEI	T1,"."			;Get the character
;[56]	IDPB	T1,T4			;... and store it.
; TASKN (4) setup:

	HRLI	T1,.TYPE		;Get TASKN's type
	HRRI	T1,4(ARG)		;...
	LDB	T1,T1			;...
T10,<	MOVEI	T4,1			;Assume for now FORMAT type 1
	MOVEM	T4,BL$SPD+.NSDFM
	HRRZS	BL$SPT+.NSASL		;And zero length TASK name
	MOVE	T4,[POINT 8,BL$SPT+.NSAST] ;Start TASK string
>; End of T10
	CAIN	T1,.OK			;Unspecified, assume FORTRAN
	 JRST	L.69			;...
	CAIE	T1,.ST			;[7] COBOL byte string
	 JRST	L.69			;[7] For now, anything else is FORTRAN

; COBOL code:

	XMOVEI	T1,@4(ARG)		;[51][7] Address of two-word descriptor
	MOVE	T2,0(T1)		;Byte pointer
	LDB	T3,[POINT 6,T2,11]	;[7] Get byte size
	CAIE	T3,7			;[7] Must be ASCII
	 RETURN	OAWRNG			;[7] Wrong type
	HRRZ	T3,1(T1)		;Byte count
	CAILE	T3,STASKN		;Check for valid count
	 MOVEI	T3,STASKN		;Too big, use maximum
T10,<	HRLM	T3,BL$SPT+.NSASL>	;Save byte count in string desc. block

;[56] Insert "." if there is a taskname.
	ILDB	T1,T2			;[56] Get first character of taskname
	CAIE	T1,40			;[56] Is it blank
	 CAIN	T1,0			;[56] ... or null?
	  JRST	.E14A			;[56] Yes, skip to end of taskname
T20,<	PUSH	P,T1			;[56] Otherwise, save this character
	MOVEI	T1,"."			;[56] Get "."
	IDPB	T1,T4			;[56] ... and store it
	POP	P,T1			;[56] Restore the character
>; End of T20
	IDPB	T1,T4			;[56] ... and store it
	SOS	T3			;[56] Account for the character

L.71:	ILDB	T1,T2			;Get a byte
	JUMPE	T1,.E14			;Null?  Yes, end string
	CAIN	T1,40			;Or blank?
	 JRST	.E14			;Yes, end string
	IDPB	T1,T4			;Otherwise, store byte
	SOJG	T3,L.71			;Count this byte
	JRST	.E14			;End of string

; FORTRAN code:

L.69:	XMOVEI	T2,@4(ARG)		;[51]Characters in array
	HLL	T2,[POINT 7,0]		;Make byte pointer
	SETZM	T3			;Byte count

;[56] Insert "." if there is a taskname.
	ILDB	T1,T2			;[56] Get first character of taskname
	CAIE	T1,40			;[56] Is it blank
	 CAIN	T1,0			;[56] ... or null?
	  JRST	.E14A			;[60][56] Yes, go to end of taskname
T20,<	PUSH	P,T1			;[56] Otherwise, save this character
	MOVEI	T1,"."			;[56] Get the "."
	IDPB	T1,T4			;[56] ... and store it
	POP	P,T1			;[56] Restore the character
>; End of T20
	IDPB	T1,T4			;[56] ... and store it
	AOS	T3			;[56] Account for one character

L.72:	ILDB	T1,T2			;Get a byte
	JUMPE	T1,L.72A		;Null?  Yes, end string
	CAIN	T1,40			;Or blank?
	 JRST	L.72A			;Yes, end string
	AOS	T3			;Count byte
	IDPB	T1,T4			;Otherwise, store byte
	CAIGE	T3,STASKN		;Check for valid count
	 JRST	L.72			;Loop
L.72A:
T10,<	HRLM	T3,BL$SPT+.NSASL	;Save byte count
	JRST	.E14			;Done with task name
>; End of T10

.E14A:					;TOPS-10 special hack
T10,<	SETZM	BL$SPD+.NSDFM		;Here if no active task name given
	MOVEI	T1,345			;Must make a format type zero proc
	MOVEM	T1,BL$SPD+.NSDOB	; desc with obj type non-zero to keep
					; VMS happy (345 is an arbitrary OBJ!)
>; End of T10
; USERID (5) setup:

.E14:	HRLI	T1,.TYPE		;Get USERID's type
	HRRI	T1,5(ARG)		;...
	LDB	T1,T1			;...
T10,<	MOVE	T4,[POINT 8,BL$USR+.NSAST]> ;Start USERID string
	CAIN	T1,.OK			;Unspecified, assume FORTRAN
	 JRST	L.81			;...
	CAIE	T1,.ST			;[7] COBOL byte string
	 JRST	L.81			;[7] For now, anything else is FORTRAN

; COBOL code:

	XMOVEI	T1,@5(ARG)		;[51]Address of two-word descriptor
	MOVE	T2,0(T1)		;Byte pointer
	LDB	T3,[POINT 6,T2,11]	;[7] Get byte size
	CAIE	T3,7			;[7] Must be ASCII
	 RETURN	OAWRNG			;[7] Wrong type
	HRRZ	T3,1(T1)		;Byte count
	JUMPE	T3,.E17			;No bytes?  Skip this field
	CAILE	T3,SUSRID		;Check for valid count
	 MOVEI	T3,SUSRID		;Too big, use maximum
T10,<	HRLM	T3,BL$USR+.NSASL>	;Save byte count in string desc. block
	ILDB	T1,T2			;Get a byte
	JUMPE	T1,.E17			;Null?  Yes, skip this field
	CAIN	T1,40			;Or blank?
	 JRST	.E17			;yes, skip this field
T20,<	PUSH	P,T1			;Save the first byte
	PUSH	P,T2			;... the byte pointer
	PUSH	P,T3			;... and the byte count
	MOVE	T2,[POINT 7,[ASCIZ /;USERID:/]]
	MOVEI	T3,^D8			;8 characters in the prefix

L.83:	ILDB	T1,T2			;Get a character
	IDPB	T1,T4			;Store it in the DECnet descriptor
	SOJG	T3,L.83			;Get all of the prefix
	POP	P,T3			;Retrieve byte count
	POP	P,T2			;... byte pointer
	POP	P,T1			;... and the first byte.
>; End of T20
	JRST	L.105			;Skip getting a byte

L.84:	ILDB	T1,T2			;Get a byte
	JUMPE	T1,.E17			;Null?  Yes, end string
	CAIN	T1,40			;Or blank?
	 JRST	.E17			;Yes, end string
L.105:	IDPB	T1,T4			;Otherwise, store the byte
	SOJG	T3,L.84			;Count this byte
	 JRST	.E17			;End of string

; FORTRAN code:

L.81:	XMOVEI	T2,@5(ARG)		;[51]Characters in array
	HLL	T2,[POINT 7,0]		;Make a byte pointer
	MOVEI	T3,1			;Count a byte
	ILDB	T1,T2			;Get a byte
	JUMPE	T1,.E17			;Null?  Yes, skip this field
	CAIN	T1,40			;Or blank?
	 JRST	.E17			;Yes, skip this field
T20,<	PUSH	P,T1			;Save the first byte
	PUSH	P,T2			;... and the byte pointer
	MOVE	T2,[POINT 7,[ASCIZ /;USERID:/]]
	MOVEI	T3,^D8			;8 characters in the prefix

L.85:	ILDB	T1,T2			;Get a character
	IDPB	T1,T4			;Store it in the DECnet descriptor
	SOJG	T3,L.85			;Get all of the prefix
	POP	P,T2			;Retrieve the byte pointer
	POP	P,T1			;... and the first byte
>; End of T20
	JRST	L.107			;Skip getting another byte

L.86:	ILDB	T1,T2			;Get a byte
	JUMPE	T1,L.107A		;Null?  Yes, end string
	CAIN	T1,40			;Or blank?
	 JRST	L.107A			;Yes, end string
	AOS	T3			;Increment byte count

L.107:	IDPB	T1,T4			;Otherwise, store byte
	CAIGE	T3,SUSRID		;Check for valid count
	 JRST	L.86			;End loop
L.107A:
T10,<	HRLM	T3,BL$USR+.NSASL>	;Save byte count in string desc. block
; PASSWD (6) setup:

.E17:	HRLI	T1,.TYPE		;Get PASSWD's type
	HRRI	T1,6(ARG)		;...
	LDB	T1,T1			;...
T10,<	MOVE	T4,[POINT 8,BL$PAS+.NSAST]> ;Start USERID string
	CAIN	T1,.OK			;Unspecified, assume FORTRAN
	 JRST	L.87			;...
	CAIE	T1,.ST			;[7] COBOL byte string
	 JRST	L.87			;[7] For now, anything else is FORTRAN

; COBOL code:

	XMOVEI	T1,@6(ARG)		;[51][7] Address of two-word descriptor
	MOVE	T2,0(T1)		;Byte pointer
	LDB	T3,[POINT 6,T2,11]	;[7] Get byte size
	CAIE	T3,7			;[7] Must be ASCII
	 RETURN	OAWRNG			;[7] Wrong type
	HRRZ	T3,1(T1)		;Byte count
	JUMPE	T3,.E18			;No bytes?  Skip this field
	CAILE	T3,SPASWD		;Check for valid count
	 MOVEI	T3,SPASWD		;Too big, use maximum
T10,<	HRLM	T3,BL$PAS+.NSASL>	;Save byte count in string desc. block
	ILDB	T1,T2			;Get a byte
	JUMPE	T1,.E18			;Null?  Yes, skip this field
	CAIN	T1,40			;Or blank?
	 JRST	.E18			;yes, skip this field
T20,<	PUSH	P,T1			;Save the first byte
	PUSH	P,T2			;... the byte pointer
	PUSH	P,T3			;... and the byte count
	MOVE	T2,[POINT 7,[ASCIZ /;PASSWORD:/]]
	MOVEI	T3,^D10			;Ten characters in the prefix

L.89:	ILDB	T1,T2			;Get a character
	IDPB	T1,T4			;Store it in the DECnet descriptor
	SOJG	T3,L.89			;Get all of the prefix
	POP	P,T3			;Retrieve byte count
	POP	P,T2			;... byte pointer
	POP	P,T1			;... and the first byte.
>; End of T20
	JRST	L.108			;Skip getting a byte

L.90:	ILDB	T1,T2			;Get a byte
	JUMPE	T1,.E18			;Null?  Yes, end string
	CAIN	T1,40			;Or blank?
	 JRST	.E18			;Yes, end string
L.108:	IDPB	T1,T4			;Otherwise, store the byte
	SOJG	T3,L.90			;Count this byte
	 JRST	.E18			;End of string

; FORTRAN code:

L.87:	XMOVEI	T2,@6(ARG)		;[51]Characters in array
	HLL	T2,[POINT 7,0]		;Make a byte pointer
	MOVEI	T3,1			;Count a byte
	ILDB	T1,T2			;Get a byte
	JUMPE	T1,.E18			;Null?  Yes, skip this field
	CAIN	T1,40			;Or blank?
	 JRST	.E18			;Yes, skip this field
T20,<	PUSH	P,T1			;Save the first byte
	PUSH	P,T2			;... and the byte pointer
	MOVE	T2,[POINT 7,[ASCIZ /;PASSWORD:/]]
	MOVEI	T3,^D10			;Ten characters in the prefix

L.91:	ILDB	T1,T2			;Get a character
	IDPB	T1,T4			;Store it in the DECnet descriptor
	SOJG	T3,L.91			;Get all of the prefix
	POP	P,T2			;Retrieve the byte pointer
	POP	P,T1			;... and the first byte
>; End of T20
	JRST	L.109			;Skip getting another byte

L.92:	ILDB	T1,T2			;Get a byte
	JUMPE	T1,L.109A		;Null?  Yes, end string
	CAIN	T1,40			;Or blank?
	 JRST	L.109A			;Yes, end string
	AOS	T3			;Increment byte count

L.109:	IDPB	T1,T4			;Otherwise, store byte
	CAIGE	T3,SPASWD		;Check for valid count
	 JRST	L.92			;End loop
L.109A:
T10,<	HRLM	T3,BL$PAS+.NSASL>	;Save byte count in string desc. block
; ACCT (7) setup:

.E18:	HRLI	T1,.TYPE		;Get ACCT's type
	HRRI	T1,7(ARG)		;...
	LDB	T1,T1			;...
T10,<	MOVE	T4,[POINT 8,BL$ACC+.NSAST]> ;Start USERID string
	CAIN	T1,.OK			;Unspecified, assume FORTRAN
	 JRST	L.93			;...
	CAIE	T1,.ST			;[7] COBOL byte string
	 JRST	L.93			;[7] For now, anything else is FORTRAN

; COBOL code:

	XMOVEI	T1,@7(ARG)		;[51][7] Address of two-word descriptor
	MOVE	T2,0(T1)		;Byte pointer
	LDB	T3,[POINT 6,T2,11]	;[7] Get byte size
	CAIE	T3,7			;[7] Must be ASCII
	 RETURN	OAWRNG			;[7] Wrong type
	HRRZ	T3,1(T1)		;Byte count
	JUMPE	T3,.E19			;No bytes?  Skip this field
	CAILE	T3,SACCNT		;Check for valid account
	 MOVEI	T3,SACCNT		;Too big, use maximum
T10,<	HRLM	T3,BL$ACC+.NSASL>	;Save byte count in string desc. block
	ILDB	T1,T2			;Get a byte
	JUMPE	T1,.E19			;Null?  Yes, skip this field
	CAIN	T1,40			;Or blank?
	 JRST	.E19			;Yes, skip this field
T20,<	PUSH	P,T1			;Save the first byte
	PUSH	P,T2			;... the byte pointer
	PUSH	P,T3			;... and the byte count
	MOVE	T2,[POINT 7,[ASCIZ /;CHARGE:/]]
	MOVEI	T3,^D8			;8 characters in the prefix

L.95:	ILDB	T1,T2			;Get a character
	IDPB	T1,T4			;Store it in the DECnet descriptor
	SOJG	T3,L.95			;Get all of the prefix
	POP	P,T3			;Retrieve byte count
	POP	P,T2			;... byte pointer
	POP	P,T1			;... and the first byte.
>; End of T20
	JRST	L.111			;Skip getting another byte

L.96:	ILDB	T1,T2			;Get a byte
	JUMPE	T1,.E19			;Null?  Yes, end string
	CAIN	T1,40			;Or blank?
	 JRST	.E19			;Yes, end string
L.111:	IDPB	T1,T4			;Otherwise, store the byte
	SOJG	T3,L.96			;Count this byte
	 JRST	.E19			;End of string

; FORTRAN code:

L.93:	XMOVEI	T2,@7(ARG)		;[51]Characters in array
	HLL	T2,[POINT 7,0]		;Make a byte pointer
	MOVEI	T3,1			;Count a byte
	ILDB	T1,T2			;Get a byte
	JUMPE	T1,.E19			;Null?  Yes, skip this field
	CAIN	T1,40			;Or blank?
	 JRST	.E19			;Yes, skip this field
T20,<	PUSH	P,T1			;Save the first byte
	PUSH	P,T2			;... and the byte pointer
	MOVE	T2,[POINT 7,[ASCIZ /;CHARGE:/]]
	MOVEI	T3,^D8			;8 characters in the prefix

L.97:	ILDB	T1,T2			;Get a character
	IDPB	T1,T4			;Store it in the DECnet descriptor
	SOJG	T3,L.97			;Get all of the prefix
	POP	P,T2			;Retrieve the byte pointer
	POP	P,T1			;... and the first byte
>; End of T20
	JRST	L.112			;Skip getting another byte

L.98:	ILDB	T1,T2			;Get a byte
	JUMPE	T1,L.112A		;Null?  Yes, end string
	CAIN	T1,40			;Or blank?
	 JRST	L.112A			;Yes, end string
	AOS	T3			;Increment byte count

L.112:	IDPB	T1,T4			;Otherwise, store byte
	CAIGE	T3,SACCNT		;Check for valid count
	 JRST	L.98			;End loop
L.112A:
T10,<	HRLM	T3,BL$ACC+.NSASL>	;Save byte count in string desc. block
; USERD (10) setup:

.E19:	HRLI	T1,.TYPE		;Get USERID's type
	HRRI	T1,10(ARG)		;...
	LDB	T1,T1			;...
T10,<	MOVE	T4,[POINT 8,BL$OPT+.NSAST]> ;Start USERID string
	CAIN	T1,.OK			;Unspecified, assume FORTRAN
	 JRST	L.99			;...
	CAIE	T1,.ST			;[7] COBOL byte string
	 JRST	L.99			;[7] For now, anything else is FORTRAN

; COBOL code:

	XMOVEI	T1,@10(ARG)		;[51][7] Address of two-word descriptor
	MOVE	T2,0(T1)		;Byte pointer
	LDB	T3,[POINT 6,T2,11]	;[7] Get byte pointer
	CAIE	T3,7			;[7] Must be ASCII
	 RETURN	OAWRNG			;[7] Wrong type
	HRRZ	T3,1(T1)		;Byte count
	JUMPE	T3,.E20			;No bytes?  Skip this field
	CAILE	T3,SOPTDT		;Check for valid count
	 MOVEI	T3,SOPTDT		;Too big, use maximum
T10,<	HRLM	T3,BL$OPT+.NSASL>	;Save byte count in string desc. block
	ILDB	T1,T2			;Get a byte
	JUMPE	T1,.E20			;Null?  Yes, skip this field
	CAIN	T1,40			;Or blank?
	 JRST	.E20			;Yes, skip this field
T20,<	PUSH	P,T1			;Save the first byte
	PUSH	P,T2			;... the byte pointer
	PUSH	P,T3			;... and the byte count
	MOVE	T2,[POINT 7,[ASCIZ /;DATA:/]]
	MOVEI	T3,^D6			;6 characters in the prefix

L.101:	ILDB	T1,T2			;Get a character
	IDPB	T1,T4			;Store it in the DECnet descriptor
	SOJG	T3,L.101		;Get all of the prefix
	POP	P,T3			;Retrieve byte count
	POP	P,T2			;... byte pointer
	POP	P,T1			;... and the first byte.
>; End of T20
	JRST	L.113			;Skip getting another byte

L.102:	ILDB	T1,T2			;Get a byte
	JUMPE	T1,.E20			;Null?  Yes, end string
	CAIN	T1,40			;Or blank?
	 JRST	.E20			;Yes, end string
L.113:	IDPB	T1,T4			;Otherwise, store the byte
	SOJG	T3,L.102		;Count this byte
	 JRST	.E17			;End of string

; FORTRAN code:

L.99:	XMOVEI	T2,@10(ARG)		;[51]Characters in array
	HLL	T2,[POINT 7,0]		;Make a byte pointer
	MOVEI	T3,1			;Count a byte
	ILDB	T1,T2			;Get a byte
	JUMPE	T1,.E20			;Null?  Yes, skip this field
	CAIN	T1,40			;Or blank?
	 JRST	.E20			;Yes, skip this field
T20,<	PUSH	P,T1			;Save the first byte
	PUSH	P,T2			;... and the byte pointer
	MOVE	T2,[POINT 7,[ASCIZ /;DATA:/]]
	MOVEI	T3,^D6			;6 characters in the prefix

L.103:	ILDB	T1,T2			;Get a character
	IDPB	T1,T4			;Store it in the DECnet descriptor
	SOJG	T3,L.103		;Get all of the prefix
	POP	P,T2			;Retrieve the byte pointer
	POP	P,T1			;... and the first byte
>; End of T20
	JRST	L.114			;Skip getting another byte

L.104:	ILDB	T1,T2			;Get a byte
	JUMPE	T1,L.114A		;Null?  Yes, end string
	CAIN	T1,40			;Or blank?
	 JRST	L.114A			;Yes, end string
	AOS	T3			;Increment byte count

L.114:	IDPB	T1,T4			;Otherwise, store byte
	CAIGE	T3,SOPTDT		;Check for valid count
	 JRST	L.104			;End loop
L.114A:
T10,<	HRLM	T3,BL$OPT+.NSASL>	;Save byte count in string desc. block


; End of DECnet descriptor.  Make it ASCIZ by adding a null.

.E20:
T20,<	SETZ	T1,			;Get a null byte
	IDPB	T1,T4			;... and store it in the string
	MOVE	T2,[POINT 7,TEMPST]	;Get DECnet string address
	MOVEM	T2,DESC			;... and store it
>; End of T20
; WAIT (11) setup:

	IFN	TCK,<			;Type-checking code
	HRLI	T1,.TYPE		;Get WAIT's type
	HRRI	T1,11(ARG)		;...
	LDB	T1,T1			;...
	CAIN	T1,.OK			;Unspecified is always OK
	 JRST	L.10			;...
	CAIE	T1,.I1			;One-word integer is correct
	 RETURN	OAWRNG			;Anything else is trouble
>; End IFN TCK
L.10:	XMOVEI	T1,@11(ARG)		;[51]Get WAIT code's address
	MOVEM	T1,WAIT			;Save it

; End of parameter set-up.

	JRST	.LOPEN			;Join common code

	PRGEND				;End of NFOPU
	TITLE	NFOPP Open a passive link
	ENTRY	NFOPP
	SEARCH	TTTUNV
	TTTINI
	EXTERN	.LOPEN
T10,<	EXTERN	.NSPIN>
; NFOPP
;
; Open a passive logical link (SRV:), declaring a server task ready to
; accept connections from active tasks.
;
; A passive link should be used by a server program which waits for other
; programs to link to it and request its services.  An active link should
; be used by a program which wants to link to a server program and
; request its services.  Once a link is established, there is no distinction
; between the active and passive tasks: both can send data, receive
; data, send interrupts, receive interrupts, and end the link.
;
; On TOPS20, a nonprivileged job can have only four open links.  The system
; quota of open links depends on the amount of monitor free core
; available.
;
; How data is actually moved through the link is established when a
; connection to this passive task is accepted.  The passive task
; should accept the link for the same type of data transfer the active
; task opened the link for.  If some other type of data transfer is
; used instead, the results are undefined.  See Appendix H of the
; Functional Specification for details of how the bit transport is
; done for the various modes.
;
; CALL NFOPP USING NETLN, OBJID, DESC, TASKN, WAIT.
; RETCOD = NFOPP (NETLN, OBJID, DESC, TASKN, WAIT)
;
; NETLN	identifies the logical link, set by this routine.
;
; OBJID	Optional DECnet objectid.  This is the nonzero type expressed as
;	a decimal number or, for TOPS-20 only, an object name (1 to SOBJID
;	ASCII characters).  It identifies the generic service
;	offered by this passive DECnet object (see Appendix C of the Functional
;	Specification).  See Appendix B of the Functional Specification for
;	examples of how the active task specifies a particular passive task
;	to be connected to.
;
; NOTE: OBJID and DESC cannot exceed a total of thirty-eight characters.
;	(TOPS-20 only restriction)
;
; DESC	DECnet descriptor, a 1 to SDESCF character ASCII string which may
;	optionally be given if an objectid is specified (DECnet-10 and VAX do
;	not allow descriptors for nonzero objectids.  In fact, TOPS-10
;	ignores this argument entirely).  If a descriptor is
;	used by the passive task, it must be used by an active task in
;	order to access the passive task.
; TASKN	DECnet taskname, a 1 to STASKN character ASCII string by which this
;	process is known to the network.
;	If this parameter is omitted, the monitor will assign a
;	taskname.  For objectid 0 (object name TASK), this taskname
;	may be specified as the descriptor by an active task
;	desiring to connect to this passive task.
;	The taskname of a passive task is thus only important if the
;	objectid is zero (object name TASK), because the active task
;	will be using the taskname to refer to the passive task.
; WAIT	wait code:
;	WAITLN: return now, use NFGND to check for completion
;	WAITLY: wait.
; Return code and function value:
;	OAWRNG: an argument is of the wrong type
;	OAOK..: success
;	OA2MNY: too many links or no more interrupt channels
;	OAABRJ: target rejected link or aborted, use NFINF to find out
;	HORROR: JSYS error.

NFOPP:	SAVAC				;Save ACs

; Set up parameters:

	SETZM	TYPE			;Remember this is passive
	SETZM	CODE			;No bytesize yet

; NETLN (0) setup:

	IFN	TCK,<			;Type-checking code
	HRLI	T1,.TYPE		;Get NETLN's type
	HRRI	T1,0(ARG)		;...
	LDB	T1,T1			;...
	CAIN	T1,.OK			;Unspecified is always OK
	 JRST	L.106			;...
	CAIE	T1,.I1			;One-word integer is correct
	 RETURN	OAWRNG			;Anything else is trouble
>; end IFN TCK
L.106:	XMOVEI	T1,@0(ARG)		;[51]Address of NETLN
	MOVEM	T1,NETLN		;Save it
T10,<	CALL	.NSPIN			;Initialize the NSP. connect block
	MOVEI	T1,.NSCDD+1		;Passive block is shorter
	MOVEM	T1,BL$CON+.NSCNL	;So we don't check access info
	SETZM	BL$CON+.NSCND		;Accept from any NODE
	SETZM	BL$CON+.NSCSD		;Accept from any TASK
>; End of T10
; Set up DECnet description:

T20,<	MOVE	T4,[POINT 7,TEMPST]	;Build up DECnet description
	MOVEI	T2,"S"			;Form
	IDPB	T2,T4			;... SRV:
	MOVEI	T2,"R"			;... for
	IDPB	T2,T4			;... the
	MOVEI	T2,"V"			;... passive
	IDPB	T2,T4			;... task's
	MOVEI	T2,":"			;... device.
	IDPB	T2,T4			;...
>; End of T20

; OBJID (1) setup:

	HRLI	T1,.TYPE		;Get OBJID's type
	HRRI	T1,1(ARG)		;...
	LDB	T1,T1			;...
T10,<	MOVEI	T4,1			;Assume for now FORMAT type 1
	MOVEM	T4,BL$DPD+.NSDFM
	HRRZS	BL$DPT+.NSASL		;And zero length TASK name
	SETZ	T4,			;TOPS-10 requires integer OBJID
					;So, we will build the integer as we go
>; End of T10
	CAIN	T1,.OK			;Unspecified, assume FORTRAN
	 JRST	L.9			;...
	CAIE	T1,.ST			;[7] COBOL byte string
	 JRST	L.9			;[7] or now, anything else is FORTRAN

; COBOL code:

	XMOVEI	T1,@1(ARG)		;[51][7] Address of two-word descriptor
	MOVE	T2,0(T1)		;Byte pointer
	LDB	T3,[POINT 6,T2,11]	;[7] Get byte size
	CAIE	T3,7			;[7] Must be ASCII
	 RETURN	OAWRNG			;[7] Wrong type
	HRRZ	T3,1(T1)		;Byte count
	CAILE	T3,SOBJID		;Check for valid count
	 MOVEI	T3,SOBJID		;Too big, use maximum

T20,<					;This is a restriction only on TOPS-20
;[56] There cannot be a descriptor if there is no objectid
	ILDB	T1,T2			;[56] Get first character in objectid
	CAIE	T1,40			;[56] Is it blank
	 CAIN	T1,0			;[56] ... or null?
	  JRST	.E15			;[56] Yes, go to end of descriptor code
;[56] If the descriptor is 0 or TASK, it must not appear, so remove it
;[56] if the user supplied it!
	CAIN	T1,"0"			;[56] Is it "0"?
	 JRST	.E15			;[56] If so, skip to end of descriptor
	PUSH	P,T2			;[56] otherwise, save source pointer
	PUSH	P,T1			;[56] ... and this byte
	CAIE	T1,"T"			;[56] Check for "T"
	 CAIN	T1,"t"			;[56] ...
	  SKIPA				;[56] ...
	   JRST	L.1			;[56] Neither, quit looking
	ILDB	T1,T2			;[56] Get next byte
	CAIE	T1,"A"			;[56] Check for "A"
	 CAIN	T1,"a"			;[56] ...
	  SKIPA				;[56] ...
	   JRST	L.1			;[56] Neither, quit looking
	ILDB	T1,T2			;[56] Get next byte
	CAIE	T1,"S"			;[56] Check for "S"
	 CAIN	T1,"s"			;[56] ...
	  SKIPA				;[56] ...
	   JRST	L.1			;[56] Neither, quit looking
	ILDB	T1,T2			;[56] Get next byte
	CAIE	T1,"K"			;[56] Check for "K"
	 CAIN	T1,"k"			;[56] ...
	  SKIPA				;[56] ...
	   JRST	L.1			;[56] ...
	ILDB	T1,T2			;[56] Get next byte
	CAIE	T1,40			;[56] Check for blank
	 CAIN	T1,0			;[56] ... or null
	  JRST	[POP	P,T1		;[56] Found "TASK", so restore
		 POP	P,T2		;[56] ... registers and go to
		 JRST	.E15	]	;[56] ... end of descriptor code

L.1:	POP	P,T1			;[56] Not "TASK", so do normal process
	POP	P,T2			;[56] ... restoring character
	JRST	L.59A			;Join loop
>; End of T20

L.59:	ILDB	T1,T2			;Get a byte
	JUMPE	T1,.E11			;Null?  Yes, end string
	CAIN	T1,40			;Or blank?
	 JRST	.E11			;Yes, end string
L.59A:
T20,<	IDPB	T1,T4>			;Store byte
T10,<	CAIL	T1,"0"			;If decimal digit
	 CAILE	T1,"9"
	  JRST	.E11			;Not a digit, done
	IMULI	T4,^D10			;Prepare current accumulated integer
	SUBI	T1,"0"			;Convert ASCII to binary
	ADDI	T4,(T1)			;Add in this digit
>; End of T10
	SOJG	T3,L.59			;Do all bytes
	 JRST	.E11			;End string

; FORTRAN code:

L.9:	XMOVEI	T2,@1(ARG)		;[51]Get array address
	HLL	T2,[POINT 7,0]		;Make a byte pointer
	SETZM	T3			;Byte count

T20,<					;This is a restriction only on TOPS-20
;[56] There cannot be a descriptor if there is no objectid.
	ILDB	T1,T2			;[56] Get first character in objectid
	CAIE	T1,40			;[56] Is it blank
	 CAIN	T1,0			;[56] ... or null?
	  JRST	.E15			;[56] Yes, go to end of descriptor code
;[56] If objectid is "0" or "TASK", it is supposed to be left out,
;[56] so remove it for the monitor's benefit!
	CAIN	T1,"0"			;[56] Is it "0"?
	 JRST	.E15			;[56] Yes, skip to end of descriptor
;[56] Now check for "TASK"
	PUSH	P,T2			;[56] Save byte pointer
	PUSH	P,T1			;[56] ... and current character
	CAIE	T1,"T"			;[56] Is it "T"?
	 CAIN	T1,"t"			;[56] ...
	  SKIPA				;[56] ...
	   JRST	L.2			;[56] Neither, quit this
	ILDB	T1,T2			;[56] Get next character
	CAIE	T1,"A"			;[56] Is it "A"?
	 CAIN	T1,"a"			;[56] ...
	  SKIPA				;[56] ...
	   JRST	L.2			;[56] Neither, quit this
	ILDB	T1,T2			;[56] Get next character
	CAIE	T1,"S"			;[56] Is it "S"
	 CAIN	T1,"s"			;[56] ...
	  SKIPA				;[56] ...
	   JRST	L.2			;[56] Neither, quit this
	ILDB	T1,T2			;[56] Get next character
	CAIE	T1,"K"			;[56] Is it "K"?
	 CAIN	T1,"k"			;[56] ...
	  SKIPA				;[56] ...
	   JRST	L.2			;[56] Neither, quit this
	ILDB	T1,T2			;[56] Get next character
	CAIE	T1,40			;[56] Is it blank
	 CAIN	T1,0			;[56] ... or null?
	  JRST	[POP	P,T1		;[56] Yes, so ignore the objectid
		 POP	P,T2		;[56] ... clean up, and go to end of
		 JRST	.E15	]	;[56] ... descriptor code

L.2:	POP	P,T1			;[56] Objectid is not "TASK" or "0"
	POP	P,T2			;[56] Restore state and process it
	JRST	L.60A			;Join loop
>; End of T20

L.60:	ILDB	T1,T2			;Get a byte
	AOS	T3			;Count byte
	JUMPE	T1,.E11			;Null?  Yes, end string
	CAIN	T1,40			;Or blank?
	 JRST	.E11			;Yes, end string
L.60A:
T20,<	IDPB	T1,T4>			;Store byte
T10,<	CAIL	T1,"0"			;If decimal digit
	 CAILE	T1,"9"
	  JRST	.E11			;Not a digit, done
	IMULI	T4,^D10			;Prepare current accumulated integer
	SUBI	T1,"0"			;Convert ASCII to binary
	ADDI	T4,(T1)			;Add in this digit
>; End of T10
	CAIGE	T3,SOBJID		;[16] Check for valid count
;[16]	CAILE	T3,SOBJID		;Check for valid count
	 JRST	L.60			;Loop

; End OBJID string, insert "-"

;[56] Only insert "-" after objectid if there is a descriptor.
.E11:
;[56]	MOVEI	T1,"-"			;Get the character
;[56]	IDPB	T1,T4			;Store it
T10,<	MOVEM	T4,BL$DPD+.NSDOB	;Save away object type
	SKIPE	T4			;If non-zero
	  SETZM	BL$DPD+.NSDFM		;Then FORMAT type 0
	SKIPE	T4			;Of non-zero object type
	  JRST	.E16			;DECnet-10 won't allow a
					; task name, so skip that
>; End of T10
T20,<					;DECnet-10 will not allow descriptors
; DESC (2) setup:

	HRLI	T1,.TYPE		;Get DESC's type
	HRRI	T1,2(ARG)		;...
	LDB	T1,T1			;...
	CAIN	T1,.OK			;Unspecified, assume FORTRAN
	 JRST	L.73			;...
	CAIE	T1,.ST			;[7] COBOL byte string
	 JRST	L.73			;[7] For now, anything else is FORTRAN

; COBOL code:

	XMOVEI	T1,@2(ARG)		;[51][7] Address of two-word descriptor
	MOVE	T2,0(T1)		;Byte pointer
	LDB	T3,[POINT 6,T2,11]	;[7] Get byte size
	CAIE	T3,7			;[7] Must be ASCII
	 RETURN	OAWRNG			;[7] Wrong type
	HRRZ	T3,1(T1)		;Byte count
	CAILE	T3,SDESCF		;Check for valid count
	 MOVEI	T3,SDESCF		;Too big, use maximum

;[56] Only insert a "-" after the objectid if there is a descriptor
	ILDB	T1,T2			;[56] Get first character in descriptor
	CAIE	T1,40			;[56] Is it blank
	 CAIN	T1,0			;[56] ... or null?
	  JRST	.E15			;[56] Yes, go to end of descriptor code
	PUSH	P,T1			;[56] Otherwise, save this character
	MOVEI	T1,"-"			;[56] Get a "-"
	IDPB	T1,T4			;[56] ... and store it
	POP	P,T1			;[56] Restore the character
	IDPB	T1,T4			;[56] ... and store it
	SOS	T3			;[56] Account for this character

L.75:	ILDB	T1,T2			;Get a byte
	JUMPE	T1,.E15			;Null?  Yes, end string
	CAIN	T1,40			;Or blank?
	 JRST	.E15			;Yes, end string
	IDPB	T1,T4			;Store byte
	SOJG	T3,L.75			;Do all bytes
	 JRST	.E15			;End of string

; FORTRAN code:

L.73:	XMOVEI	T2,@2(ARG)		;[51]Get array address
	HLL	T2,[POINT 7,0]		;Make a byte pointer
	SETZM	T3			;Byte count

;[56] Only insert a "-" after the objectid if there is a descriptor
	ILDB	T1,T2			;[56] Get first character in descriptor
	CAIE	T1,40			;[56] Is it blank
	 CAIN	T1,0			;[56] ... or null?
	  JRST	.E15			;[56] Yes, go to end of descriptor code
T20,<	PUSH	P,T1			;[56] Otherwise, save this character
	MOVEI	T1,"-"			;[56] Get a "-"
	IDPB	T1,T4			;[56] ... and store it
	POP	P,T1			;[56] Restore the character
>; End of T20
	IDPB	T1,T4			;[56] ... and store it
	AOS	T3			;[56] Account for this character

L.76:	ILDB	T1,T2			;Get a byte
	AOS	T3			;Increment byte count
	JUMPE	T1,.E15			;Null?  Yes, end string
	CAIN	T1,40			;Or blank?
	 JRST	.E15			;Yes, end string
	IDPB	T1,T4			;Store byte
	CAIGE	T3,SDESCF		;Check for valid count
	 JRST	L.76			;Loop

; End of DESC, store a "."

.E15:
;[56]	MOVEI	T1,"."			;Get the character
;[56]	IDPB	T1,T4			;... and store it.
>; End of T20
; TASKN (3) setup:

	HRLI	T1,.TYPE		;Get TASKN's type
	HRRI	T1,3(ARG)		;...
	LDB	T1,T1			;...
T10,<	MOVE	T4,[POINT 8,BL$DPT+.NSAST]> ;Start TASK string
	CAIN	T1,.OK			;Unspecified, assume FORTRAN
	 JRST	L.77			;...
	CAIE	T1,.ST			;[7] COBOL byte string
	 JRST	L.77			;[7] For now, anything else is FORTRAN

; COBOL code:

	XMOVEI	T1,@3(ARG)		;[51][7] Address of two-word descriptor
	MOVE	T2,0(T1)		;Byte pointer
	LDB	T3,[POINT 6,T2,11]	;[7] Get byte size
	CAIE	T3,7			;[7] Must be ASCII
	 RETURN	OAWRNG			;[7] Wrong type
	HRRZ	T3,1(T1)		;Byte count
	CAILE	T3,STASKN		;Check for valid count
	 MOVEI	T3,STASKN		;Too big, use maximum
T10,<	HRLM	T3,BL$DPT+.NSASL>	;Save byte count in string desc. block

;[56] Only insert a "." if there is a taskname.
	ILDB	T1,T2			;[56] Get first character in taskname
	CAIE	T1,40			;[56] Is it blank
	 CAIN	T1,0			;[56] ... or null?
	  JRST	.E16			;[56] Yes, go to end of taskname code
T20,<	PUSH	P,T1			;[56] Otherwise, save this character
	MOVEI	T1,"."			;[56] Get a "."
	IDPB	T1,T4			;[56] ... and store it
	POP	P,T1			;[56] Restore the character
>; End of T20
	IDPB	T1,T4			;[56] ... and store it
	SOS	T3			;[56] Account for this character

L.79:	ILDB	T1,T2			;Get a byte
	JUMPE	T1,.E16			;Null?  Yes, end string
	CAIN	T1,40			;Or blank?
	 JRST	.E16			;Yes, end string
	IDPB	T1,T4			;Store byte
	SOJG	T3,L.79			;Do all bytes
	 JRST	.E16			;End of string

; FORTRAN code:

L.77:	XMOVEI	T2,@3(ARG)		;[51]Get array address
	HLL	T2,[POINT 7,0]		;Make a byte pointer
	SETZM	T3			;Byte count

;[56] Only insert a "." if there is a taskname.
	ILDB	T1,T2			;[56] Get first character in taskname
	CAIE	T1,40			;[56] Is it blank
	 CAIN	T1,0			;[56] ... or null?
	  JRST	.E16			;[56] Yes, go to end of taskname code
T20,<	PUSH	P,T1			;[56] Otherwise, save this character
	MOVEI	T1,"."			;[56] Get a "."
	IDPB	T1,T4			;[56] ... and store it
	POP	P,T1			;[56] Restore the character
>; End of T20
	IDPB	T1,T4			;[56] ... and store it
	AOS	T3			;[56] Account for the character

L.80:	ILDB	T1,T2			;Get a byte
	JUMPE	T1,L.80A		;Null?  Yes, end string
	CAIN	T1,40			;Or blank?
	 JRST	L.80A			;Yes, end string
	AOS	T3			;Increment byte count
	IDPB	T1,T4			;Store byte
	CAIGE	T3,STASKN		;Check for valid byte count
	 JRST	L.80			;Loop
L.80A:
T10,<	HRLM	T3,BL$DPT+.NSASL>	;Save byte counter

; End of TASKN, store a null to make ASCIZ

.E16:
T20,<	SETZ	T1,			;Get a null
	IDPB	T1,T4			;... and store it.
	MOVE	T1,[POINT 7,TEMPST]	;Get DECnet descriptor
	MOVEM	T1,DESC			;... and store it.
>; End of T20
; WAIT (4) setup:

	IFN	TCK,<			;Type-checking code
	HRLI	T1,.TYPE		;Get WAIT's type
	HRRI	T1,4(ARG)		;...
	LDB	T1,T1			;...
	CAIN	T1,.OK			;Unspecified is always OK
	 JRST	L.110			;...
	CAIE	T1,.I1			;One-word integer is correct
	 RETURN	OAWRNG			;Anything else is trouble
>; End IFN TCK
L.110:	XMOVEI	T1,@4(ARG)		;[51]Get WAIT code's address
	MOVEM	T1,WAIT			;Save it

; End of parameter set-up.

	JRST	.LOPEN			;Join common code

	PRGEND				;End of NFOPP
	TITLE	.LOPEN Open a logical link
	ENTRY	.LOPEN
	SEARCH	TTTUNV
	TTTINI
T10,<	ENTRY	.NSPIN
	EXTERN	.UPEVT,.CNEVT,.NSPER,XPN$DPSI
>; End of T10
T20,<	EXTERN	.JSER,.UPEVT>
; LOPEN (2)

; Open a logical link.

; NETLN:	link number
; CODE:		byte size (if active)
; TYPE:		link type
; WAIT:		wait code

.LOPEN:	SKIPN	START			;Interrupt system started yet?
	 CALL	PSINIT			;No, go do it
T20,<	MOVE	T2,[-MAXLL,,0]		;Check logical link tables for room

FINDLL:	MOVE	T3,LLJFN(T2)		;In use?
	JUMPE	T3,GOTLL		;Got a free slot?
	AOBJN	T2,FINDLL		;Keep looking
	RETURN	OA2MNY			;Fatal error, no slots

GOTLL:	HRRZM	T2,@NETLN		;Save slot number
	HRRZ	T2,T2			;Get slot number
	MOVE	T1,CODE			;Get byte size
	MOVEM	T1,CODES(T2)		;Save it
	MOVX	T1,GJ%SHT		;Short form
	MOVE	T2,DESC			;File spec pointer
	GTJFN%				;Get a JFN
	 ERJMP	.JSER			;JSYS error
	MOVE	T2,@NETLN		;Get slot number
	HRRZM	T1,LLJFN(T2)		;Save JFN
;**; [63] Remove code starting GOTLL + 12	CLR	11-Mar-83
;[63]	MOVE	T3,CODE			;Byte size
;[63]	CAIN	T3,^D36			;If 36, image mode, so use 8
;[63]	 MOVEI	T3,^D8			;...
;[63]	ADDI	T3,4400			;Make a byte pointer
;[63]	LSH	T3,^D24			;Shift it
;[63]	HLLM	T3,LLEVNT(T2)		;Save byte pointer
	MOVE	T3,CODE			;Byte size again
	SKIPE	T3			;If passive or
	 CAIN	T3,^D36			;... if 36 (image mode),
	  MOVEI	T3,^D8			;... use 8 for bytesize in OPENF%.
	LSH	T3,^D30			;Shift again
	MOVX	T2,<OF%RD+OF%WR>	;Read and write n bit bytes
	ADD	T2,T3			;Include in T2
>; End of T20
; LNKOPN (2.1)

; Open the link.

; NETLN:	slot number
; TYPE:		link type
; WAIT:		wait code

LNKOPN:
T20,<	OPENF%				;Open the logical link
	 ERJMP	.JSER			;Failure
	MOVE	T1,@NETLN		;Get slot number
	MOVE	T3,[MO%SRV+MO%WFC]	;Fake status for passive task
	MOVE	T2,TYPE			;Get type
	CAIE	T2,0			;Skip if passive
	 MOVE	T3,[MO%WCC]		;Fake status for active task
	MOVEM	T3,LLSTAT(T1)		;Save it
	MOVE	T1,@NETLN		;Our JFN
	MOVE	T1,LLJFN(T1)		;Our JFN
	MOVEI	T2,.MOACN		;Set up interrupts
	MOVE	T4,@NETLN		;
	MOVE	T4,CHAN			;Channel number
	SETZ	T3,			;This makes the bit mask for MTOPR:
	LSH	T4,^D9			;Connect, interrupt, and data
	ADD	T3,T4			; all on channel CHAN (PSINUM)
	LSH	T4,^D9			;...
	ADD	T3,T4			;...
	LSH	T4,^D9			;...
	ADD	T3,T4			;...
	MTOPR%				;Do it
	 ERJMP	.JSER			;Error?
	MOVE	T1,@NETLN		;Get offset
	CALL	.UPEVT			;Update event word
>; End of T20
T10,<	MOVE	T1,NUMLL		;Get current active LL
	CAIL	T1,MAXLL		;Already to max?
	 RETURN	TOOMNY			;Must stop here
	SKIPE	TYPE			;Active or passive?
	SKIPA	T1,[XWD .NSFEA,.NSAA1+1] ;Active
	MOVE	T1,[XWD .NSFEP,.NSAA1+1] ;Passive
	MOVEM	T1,BL$NSP+.NSAFN	;Store in NSP. arg blk
	SETZM	BL$NSP+.NSACH		;Zero channel for now
	MOVEI	T1,BL$CON		;Save connect block location
	MOVEM	T1,BL$NSP+.NSAA1
	MOVEI	T1,BL$NSP
	SETZM	@NETLN			;In case error
	NSP.	T1,			;Open Task
	  JRST	.NSPER			;Check error code
	MOVE	T1,BL$NSP+.NSACH	;Get assigned channel number
	HRRZ	T2,T1			;Just channel number
	CAILE	T2,MAXLL		;Too high for us?
	  JRST	[MOVEM T2,BL$NSP+.NSACH	;Yes, must release this channel
		MOVE T2,[XWD .NSFAB,.NSACH+1]
		MOVEM T2,BL$NSP+.NSAFN
		MOVEI T2,BL$NSP
		NSP. T2,
		  JFCL
		RETURN TOOMNY]		;And stop user
	MOVEM	T1,LLSTAT(T1)		;Save away
	HRRZM	T1,@NETLN		;Tell user
	MOVE	T3,CODE			;Byte size
	MOVEM	T3,CODES(T1)		;Save it for later
	CAIN	T3,^D36			;If 36, image mode, so use 8
	 MOVEI	T3,^D8			;...
	ADDI	T3,4400			;Make a byte pointer
	LSH	T3,^D24			;Shift it
	HLLM	T3,LLEVNT(T1)		;Save byte pointer
	MOVEI	T2,BL$ILN		;Size of a saved info block
	IMULI	T2,-1(T1)		;Offset of this links info block
	ADDI	T2,BL$INF		;Location of this links info block
	MOVE	T3,T2			;Save it
	HRL	T2,T2			;In both halves
	SETZM	(T2)			;Clear first word
	ADDI	T2,1			;Make a BLT pointer
	BLT	T2,BL$ILN(T3)		;BLT it to zeros
	MOVE	T1,[XWD .NSFPI,.NSAA1+1] ;Assign PSI reason NSP. function
	MOVEM	T1,BL$NSP+.NSAFN
	MOVEI	T1,(NS.STA!NS.IDA!NS.NDA) ;All reasons
	MOVEM	T1,BL$NSP+.NSAA1
	MOVEI	T1,BL$NSP
	NSP.	T1,			;Enable PSI ints for this link
	  JRST	.NSPER			;Check error code
	AOS	NUMLL			;One more active link
>; End of T10
	MOVE	T1,@WAIT		;Get wait code
	CAIE	T1,WAITLY		;Wait for the open?
	 RETURN	OAOK..			;No, return OK
; CHKCON (2.1.1)

; Wait for a connection.

; NETLN:	slot number

CHKCON:	MOVE	T1,@NETLN		;Get event word
	MOVE	T2,LLEVNT(T1)		;Connected yet?
CHKCN1:	TRZE	T2,EV.CON		;Turn off event bit
	 JRST	[MOVEM	T2,LLEVNT(T1)	;Turn off event bit
		 RETURN	OAOK..]		;   and return
	TRNE	T2,EV.ABT+EV.DIS	;Abort or disconnect?
	 RETURN	OAABRJ			;Yes, error return
	CALL	.UPEVT			;Update event word in case lost INT
	HRRZ	T2,LLEVNT(T1)		;Get event info back
	JUMPN	T2,CHKCN1		;If something there, go check it
	MOVEI	T1,DISTIM		;Else, go to sleep
	DISMS%				;
	JRST	CHKCON			;Got an interrupt, was it for us?
T10,<
; .NSPIN
; Initialize the NSP. Connect block
;	Source and Destination Process Descriptor Blocks
;	Various String Pointers (Node Name, User ID, etc.)
;
.NSPIN:	MOVE	T1,[XWD BL$BEG,BL$BEG+1] ;Zero string area
	SETZM	BL$BEG
	BLT	T1,BL$END-1
	MOVEI	T1,.NSCUD+1		;Initialize connect block
	MOVEM	T1,BL$CON+.NSCNL	;Length
	MOVEI	T1,BL$NOD
	MOVEM	T1,BL$CON+.NSCND	;Host string pointer
	MOVEI	T1,BL$SPD
	MOVEM	T1,BL$CON+.NSCSD	;Source process desc. blk.
	MOVEI	T1,BL$DPD
	MOVEM	T1,BL$CON+.NSCDD	;Destination process desc. blk.
	MOVEI	T1,BL$USR
	MOVEM	T1,BL$CON+.NSCUS	;User ID string pointer
	MOVEI	T1,BL$PAS
	MOVEM	T1,BL$CON+.NSCPW	;Password string pointer
	MOVEI	T1,BL$ACC
	MOVEM	T1,BL$CON+.NSCAC	;Account string pointer
	MOVEI	T1,BL$OPT
	MOVEM	T1,BL$CON+.NSCUD	;Optional user data string pointer
	MOVE	T1,[XWD BL$DPD,BL$DPD+1] ;Clear dest. proc. desc. blk.
	SETZM	BL$DPD
	BLT	T1,BL$DPD+.NSDPN-1
	MOVEI	T1,.NSDPN+1		;Initialize block length
	MOVEM	T1,BL$DPD+.NSDFL
	MOVEI	T1,BL$DPT		;Pointer to task name
	MOVEM	T1,BL$DPD+.NSDPN	;Store in desc. blk.
	MOVE	T1,[XWD BL$SPD,BL$SPD+1] ;Clear src. proc. desc. blk.
	SETZM	BL$SPD
	BLT	T1,BL$SPD+.NSDPN-1
	MOVEI	T1,.NSDPN+1		;Initialize block length
	MOVEM	T1,BL$SPD+.NSDFL
	MOVEI	T1,BL$SPT		;Pointer to task name
	MOVEM	T1,BL$SPD+.NSDPN	;Store in desc. blk.
	MOVE	T1,[XWD SHOSTN,1+<<SHOSTN+3>/4>]
	MOVEM	T1,BL$NOD+.NSASL	;Intialize NODE sting pointer
	MOVE	T1,[XWD SUSRID,1+<<SUSRID+3>/4>]
	MOVEM	T1,BL$USR+.NSASL	;Intialize USERID sting pointer
	MOVE	T1,[XWD SPASWD,1+<<SPASWD+3>/4>]
	MOVEM	T1,BL$PAS+.NSASL	;Intialize PASSWORD sting pointer
	MOVE	T1,[XWD SACCNT,1+<<SACCNT+3>/4>]
	MOVEM	T1,BL$ACC+.NSASL	;Intialize ACCOUNT sting pointer
	MOVE	T1,[XWD SOPTDT,1+<<SOPTDT+3>/4>]
	MOVEM	T1,BL$OPT+.NSASL	;Intialize USRDATA sting pointer
	MOVE	T1,[XWD STASKN,1+<<STASKN+3>/4>]
	MOVEM	T1,BL$DPT+.NSASL	;Intialize DEST TASK NAME sting pointer
	MOVEM	T1,BL$SPT+.NSASL	;Intialize SRC TASK NAME sting pointer
	RET
>; End of T10
; PSINIT (2.2)
;
; Initialize the interrupt system.
;[46]
;[46] First, try to use FUNCT. in the OTS. to get a channel.

PSINIT:
T20,<	SETOM	START			;Indicate that we have begun
	XMOVEI	T1,PC			;[51][35] Set up PC pointer
	MOVEM	T1,PCPTR		;[35] Will change if FUNCT. succeeds
IFN	OTSFNC,<			;[35] Code to get an interrupt from OTS
	HRLZI	T1,-6			;[35] -count,,0
	MOVEM	T1,FNCBLK		;[35] ... to addr-1
	MOVE	T1,[Z 2,FNCFNC]		;[35] Function code
	TLO	T1,400000		;[51] Set sign bit!
	MOVEM	T1,FNCBLK+1		;[35] ... to addr
	MOVEI	T1,GPSI			;[35] Set function code
	MOVEM	T1,FNCFNC		;[35] ... in parameter
	MOVE	T1,[Z 17,FNCCOD]	;[51][35] Error code prefix (not used)
	TLO	T1,400000		;[51] Set sign bit!
	MOVEM	T1,FNCBLK+2		;[35] ... to addr+1
	XMOVEI	T1,[ASCIZ 'DIT']	;[51][35] But set it up anyways
	MOVEM	T1,FNCCOD		;[35] ... for the future
	MOVE	T1,[Z 2,FNCSTS]		;[35] Return status
	TLO	T1,400000		;[51] Set sign bit!
	MOVEM	T1,FNCBLK+3		;[35] ... to addr+2
	MOVE	T1,[Z 2,CHAN]		;[35] Interrupt channel number
	TLO	T1,400000		;[51] Set sign bit!
	MOVEM	T1,FNCBLK+4		;[35] ... to addr+3
	SETZM	CHAN			;[35] Use -1 to get any user channel
	MOVE	T1,[Z 2,FNCLEV]		;[35] Level number
	TLO	T1,400000		;[51] Set sign bit!
	MOVEM	T1,FNCBLK+5		;[35] ... to addr+4
	MOVEI	T1,PSILEV		;[35] Get our level number
	MOVEM	T1,FNCLEV		;[35] ... and store it
	MOVE	T1,[Z 2,FNCINT]		;[35] Address of interrupt routine
	TLO	T1,400000		;[51] Set sign bit!
	MOVEM	T1,FNCBLK+6		;[35] ... to addr+5
	XMOVEI	T1,INT			;[51][35] Get interrupt routine address
	MOVEM	T1,FNCINT		;[35] ... and store it
	XMOVEI	ARG,FNCBLK+1		;[51][35] Set up parameter block
	PUSHJ	P,FUNCT.		;[35] Call the OTS routine
	MOVE	T1,FNCSTS		;[35] Check status
	JUMPL	T1,NOFNC.		;[35] No FUNCT. for this
	HRLZI	T2,400000		;[35] Get a bit
	MOVN	T1,CHAN			;[35] Get -channel
	LSH	T2,0(T1)		;[35] Move bit to channel position
	MOVEI	T1,.FHSLF		;[35] This process
	AIC%				;[35] Activate this interrupt channel
	 ERJMP	[POP	P,0(P)		;[46] Pop the stack
		 JRST	.JSER	]	;[46] Go to JSYS error handler
	MOVEI	T1,.FHSLF		;[46] This process
	RIR%				;[46] Try to get chn,,lev tables
	 ERJMP	TRYX			;[46] Failed, try it with XRIR%
	SETOM	XFLAG			;[46] Remember that RIR% worked
	HLRZ	T2,T2			;[46] Get level table address
	JRST	RIRCOM			;[46] Join common code
TRYX:	SETZM	XFLAG			;[46] Remember to use XRIR%
	MOVEI	T1,.FHSLF		;[37] This process
	MOVEI	T2,3			;[37] Size of block
	MOVEM	T2,XBLOCK		;[37] ... store it
	MOVEI	T2,XBLOCK		;[37] Argument block address
	XRIR%				;[37] Try XRIR%
	 ERJMP	[POP	P,0(P)		;[46] Clean up stack
		 JRST	.JSER	]	;[46] Go to JSYS error handler
	AOS	PCPTR			;[46] PC address is in second word
	MOVE	T2,XBLOCK+1		;[37] Get level table address

RIRCOM:	MOVE	T1,<PSILEV-1>(T2)	;[37] [35] Get OTS's PC address
	MOVEM	T1,PCPTR		;[35] Save as our PC
	SKIPN	XFLAG			;[46] Skip if non-extended interrupts
	 AOS	PCPTR			;[46] Otherwise, address is in next word
	MOVEI	T1,.FHSLF		;[35] This process
	EIR%				;[35] Make sure interrupts enabled
	 ERJMP	[POP	P,0(P)		;[46] Clean up stack
		 JRST	.JSER	]	;[46] Go to JSYS error handler
	RET				;[35] Return
NOFNC.:		>			;[35] End of INF OTSFNC
;[46] Next, try to use PA1050, if it is around.

	MOVEI	T1,.FHSLF		;For this process
	GCVEC%				;... see if PA1050 is here!
	 ERJMP	[POP	P,0(P)		;[46] Clean up stack
		 JRST	.JSER	]	;[46] Go to JSYS error handler
	JUMPL	T2,NOPAT		;No. Good!  Do it ourselves.
	JUMPE	T3,NOPAT		;...
	MOVEI	T1,.FHSLF		;[46] Try RIR% to check available chans
	RIR%				;[46] Try to get level,,channel tables
	 ERJMP	NORIR.			;[46] Not RIR%, try XRIR%
	SETOM	XFLAG			;[46] Remember RIR% worked
	HRRZ	T1,T2			;[46] Put channel table in T1
	JRST	NOFNCC			;[46] Join common code
;[46] We should never get here at present: PA1050 does a SIR%.
NORIR.:	SETZM	XFLAG			;[46] Remember that this is XRIR%
	MOVEI	T1,.FHSLF		;[37] This process
	MOVEI	T2,3			;[37] Size of argument block
	MOVEM	T2,XBLOCK		;[37] ... store it
	XMOVEI	T2,XBLOCK		;[51][37] Argument block address
	XRIR%				;[37] Do XRIR%
	 ERJMP	[POP	P,0(P)		;[46] Clean up stack
		 JRST	.JSER	]	;[46] Go to JSYS error handler
	MOVE	T1,XBLOCK+2		;[37] Get channel table address in T1

NOFNCC:	SKIPN	0(T1)			;[37] [12] Channel zero in use?
	 HRLI	T4,0			;[12] No, use it
	SKIPN	1(T1)			;[12] Channel one in use?
	 HRLI	T4,1			;[12] No, use it in preference
	SKIPN	2(T1)			;[12] Channel two in use?
	 HRLI	T4,2			;[12] No, use it in preference
;[12] This code should be changed if PA1050 is changed to allow more
;[12] user interrupt channels.
	HLRZM	T4,CHAN			;[12] Store channel used in CHAN
	MOVEI	T2,6			;[12] COMPT.: function code 6
	MOVE	T3,[PSILEV,,INT]	;[12]         PSI level,,trap address
	HRRI	T4,PC			;[12]         channel,,trap PC
	MOVE	T1,[3,,T2]		;[12]         Address of block (T2-T4)
;[12]	MOVE	T1,[3,,[6		;Yes, cooperate with COMPT. 6
;[12]		    PSILEV,,INT		;... level,, trap address
;[12]		    PSINUM,,PC]]	;... number,, PC
	COMPT.	T1,			;Do horrors
	 JRST	[POP	P,0(P)		;[46] Something awful happened!
		 RETURN	HORROR	]	;[46] Give up!
	RET				;[13] Leave
;[13]	JRST	PSIRET			;Leave
;[46] There is no PA1050 in memory.  That is probably just as well.
;[46] Use an interrupt from the already-set-up channel table, if any.

NOPAT:	MOVEI	T1,.FHSLF		;[46] This process
	RIR%				;[46] Try RIR% first
	 ERJMP	NOPAT1			;[46] No
	SETOM	XFLAG			;[46] Remember that RIR% worked
	JUMPE	T2,FIRST		;[46] No tables set up; go do it
	JRST	CONPSI			;[46] Already set up, join common code
NOPAT1:	SETZM	XFLAG			;[46] Remember that this is XRIR%
	MOVEI	T1,.FHSLF		;[37] This process
	MOVEI	T2,3			;[37] Length of block
	MOVEM	T2,XBLOCK		;[37] ... store in block
	XRIR%				;[37] Try XRIR% first
	 ERJMP	[POP	P,0(P)		;[46] Clean up stack
		 JRST	.JSER	]	;[46] Go to JSYS error handler
	AOS	PCPTR			;[46] PC address is in second word
	MOVE	T3,XBLOCK+1		;[37] Get level table address
	JUMPE	T3,FIRST		;[37] Nothing, so set it up

;[46] Set up our entry for extened JSYS-type tables:
CONX:	XMOVEI	T1,PC			;[51][37] Where to hold our PC
	MOVE	T3,XBLOCK+1		;[37] Level table address
	MOVEM	T1,<PSILEV-1>(T3)	;[37] Use level 2
	MOVE	T2,XBLOCK+2		;[37] Address of channel table
	MOVE	T1,[BYTE (6)PSILEV(12)0(18)INT]	;[46] Level and routine
	MOVEM	T1,PSINUM(T2)		;[37] Save it
	MOVEI	T1,.FHSLF		;[37] This process
	MOVX	T2,1B<PSINUM>		;[37] Channel PSINUM
	AIC%				;[37] Activate this interrupt channel
					;[37] Note that PA1050 will do this
					;[37] for us by itself if it is involved
	 ERJMP	[POP	P,0(P)		;[46] Clean up stack
		 JRST	.JSER	]	;[46] Go to JSYS error handler
	EIR%				;[37] Enable interrupts
	 ERJMP	[POP	P,0(P)		;[46] Clean up stack
		 JRST	.JSER	]	;[46] Go to JSYS error handler
	JRST	PSIRET			;[37] Return

;[46] Set up our own tables for non-extended type interrupts:
CONPSI:	XMOVEI	T1,PC			;[51]Where to hold our PC
	HLRZ	T3,T2			;Level table address
	MOVEM	T1,<PSILEV-1>(T3)	;Use level 2
	HRRZ	T2,T2			;Address of channel table
	MOVE	T1,[PSILEV,,INT]	;Level,,Routine
	MOVEM	T1,PSINUM(T2)		;Save it
	MOVEI	T1,.FHSLF		;This process
;[17] Note: PA1050 does an AIC% for us (in SETPSI) if it is involved.
	MOVX	T2,1B<PSINUM>		;[17] Channel PSINUM
;[17]	MOVEI	T2,1			;Channel PSINUM
	AIC%				;Activate this interrupt channel
	 ERJMP	[POP	P,0(P)		;[46] Clean up stack
		 JRST	.JSER	]	;[46] Go to JSYS error handler
	EIR%				;Enable interrupts (doesn't hurt)
	 ERJMP	[POP	P,0(P)		;[46] Clean up stack
		 JRST	.JSER	]	;[46] Go to JSYS error handler

PSIRET:	MOVEI	T1,PSINUM		;Channel PSINUM
	MOVEM	T1,CHAN			;Remember it
	RET				;
;[46] Final possibility: NO ONE has already set up interrupts, so do
;[46] so ourselves!

FIRST:	MOVEI	T1,.FHSLF		;[37] This process
	MOVEI	T2,3			;[37] 3-word block
	MOVEM	T2,XBLOCK		;[37] ... store size in block
	XMOVEI	T2,LEVTAB		;[51][37] Level table address
	MOVEM	T2,XBLOCK+1		;[37] ... store it in block
	XMOVEI	T2,CHNTAB		;[51][37] Channel table address
	MOVEM	T2,XBLOCK+2		;[37] ... store it in block
	XSIR%				;[37] Try XSIR% first
	 ERJMP	NOXSIR			;[37] ...must be a KS
	SETZM	XFLAG			;[46] Remember that XSIR% worked
	AOS	PCPTR			;[46] PC address is in second word
	JRST	CONX			;[37] Go on

NOXSIR:	MOVEI	T1,.FHSLF		;[37] For this process
	MOVE	T2,[LEVTAB,,CHNTAB]	;
;[37]	MOVEM	T1,LEVCHN		;Save it
	SIR%				;Set up level and channel tables
	 ERJMP	[POP	P,0(P)		;[46] Clean up stack
		 JRST	.JSER	]	;[46] Go to JSYS error handler
	SETOM	XFLAG			;[46] Remember that SIR% worked
	JRST	CONPSI			;Go on
>; End of T20
; TOPS-10 PSI initialization
;
;	Notes: COBOL-10 V12B and FORTRAN-10 V7.0 do not use PSI
;
;	Hopefully, no users do either.  We must have it, but it is
;	very hard to share between non-cooperating routines.  In
;	7.01 they added a new PSI UUO (PISAV.) to get the PSI vector
;	address if it was already set up.  This is useful, but not
;	totally sufficient.  Which offset can we use?  We could look
;	for a free one (four words of zeros), but that may be
;	allocated to some other uninitialized routine.  We could put
;	ourselves into the interrupt chain on the first interrupt
;	block (each interrupt comes to us, we see it if is for us
;	(DECnet), if not, pass it to the previous owner of this
;	interrupt block).  But someone might overwrite that block,
;	then we stop getting interrupts!  So, until we can solve this
;	dilema, we will initialize the PSI system, and use it all
;	by ourselves!


T10,<	SETOM	START			;Indicate that we have begun
	PUSH	P,[EXP INT]		;Put address of INT handler on stack
	CALL	XPN$DPSI		;Call the external routine to setup
					;Everything.  This routine is part
					; of BLISSnet-10 and will arbitrate
					; between us and any other DECnet users
	POP	P,(P)			;Clear the stack
	RET				;All done
>; End of T10
; INT
;
; Process interrupts.

; This routine is called whenever an interrupt is seen on
; channel CHAN.

INT:
T20,<	DMOVEM	T1,T1T2			;Save T1 and T2
	MOVE	T1,@PCPTR		;[35] Address of interrupted code
	MOVE	T2,-1(T1)		;Get the instruction
	CAME	T2,[DISMS%]		;Wait instruction
	 JRST	GOBACK			;DEBRK
	TXO	T1,1B5			;User mode flag
	 MOVEM	T1,@PCPTR		;[35] Replace

GOBACK:	DMOVE	T1,T1T2			;Restore ACs
	DEBRK%				;Go back
>; End of T20


T10,<
	MOVE	T1,-1(P)		;Get link status from XPN$DPSI
	HRRZ	T2,T1			;Get just channel number
	CAIG	T2,MAXLL		;Is it one of ours?
	 SKIPN	LLSTAT(T2)
	  CAIA				;No, skip it
	CALL	.CNEVT			;Interpret it
	RET				;Return to XPN$DPSI and dismiss
>; End of T10

	PRGEND				;End of .LOPEN
	TITLE	NFACC Accept a link connection
	ENTRY	NFACC
	SEARCH	TTTUNV
	TTTINI
T20,<	EXTERN	.JSER,.UPEVT>
T10,<	EXTERN	.NSPER>
; NFACC (3A)
;
; Accept a connection received on a passive link which
; has been opened and which has had a connect event.
;
; Note: A connection could be implicitly accepted by writing to the
; network JFN, reading from the network JFN, or going into an input
; or output wait state.
;
; CALL NFACC USING NETLN, TYPE, COUNT, DATA.
; RETCOD = NFACC (NETLN, TYPE, COUNT, DATA)
;
; NETLN	network logical name, set by the NFOPP routine.
; TYPE	Type of data to be transmitted by this link:
;	LASCII: ASCII (active task opened link with NFOPA)
;	LBIN: binary (active task opened link with NFOPB)
;	L8BIT: 8-bit byte (active task opened link with NFOP8).
; COUNT	number of characters of optional data sent.
; DATA	optional ASCII data.
; Return code and function value:
;	ACWRNG: an argument is of the wrong type
;	ACOK..: connection accepted
;	HORROR: JSYS error.

NFACC:	SAVAC				;Save ACs

; Set up parameters:

; NETLN (0) setup:

	IFN	TCK,<			;Type-checking code
	HRLI	T1,.TYPE		;Get NETLN's type
	HRRI	T1,0(ARG)		;...
	LDB	T1,T1			;...
	CAIN	T1,.OK			;Unspecified is always OK
	 JRST	L.12			;...
	CAIE	T1,.I1			;One-word integer is correct
	 RETURN	ACWRNG			;Anything else is trouble
>; End IFN TCK
L.12:	XMOVEI	T1,@0(ARG)		;[51]Address of NETLN
	MOVEM	T1,NETLN		;Save it
	SKIPL	T1,@NETLN		;Get value given. Can not be negative
	CAILE	T1,MAXLL		;Or greater than MAXLL
	 RETURN	ACWRNG			;Return error

; TYPE (1) setup:

	IFN	TCK,<			;Type-checking code
	HRLI	T1,.TYPE		;Get TYPE's type
	HRRI	T1,1(ARG)		;...
	LDB	T1,T1			;...
	CAIN	T1,.OK			;Unspecified is always OK
	 JRST	L.53			;...
	CAIE	T1,.I1			;One-word integer is correct
	 RETURN	ACWRNG			;Anything else is trouble
>; End IFN TCK

L.53:	MOVE	T1,@1(ARG)		;Get TYPE
	MOVEI	T2,^D8			;Assume 8-bit bytes
	CAIN	T1,LASCII		;ASCII?
	 MOVEI	T2,^D7			;Yes, remember it
	CAIN	T1,LBIN			;Binary?
	 MOVEI	T2,^D36			;Yes, remember it
	CAILE	T1,L8BIT		;8-bit?
	 RETURN	ACWRNG			;None of the above is no good
	MOVEM	T2,CODE			;Store data mode
	MOVE	T1,@NETLN		;Get slot number
	MOVEM	T2,CODES(T1)		;Save byte size
;**; [63] Remove code starting at L.53 + 13	CLR	11-Mar-83
;[63]	CAIN	T2,^D36			;If 36 bits,
;[63]	 MOVEI	T2,^D8			;... use 8 bits
;[63]	ADDI	T2,4400			;Make byte pointer
;[63]	LSH	T2,^D24			;... and shift into position
;[63]	HLLM	T2,LLEVNT(T1)		;Store the byte pointer for this slot

; COUNT (2) setup:

	IFN	TCK,<			;Type-checking code
	HRLI	T1,.TYPE		;Get COUNT's type
	HRRI	T1,2(ARG)		;...
	LDB	T1,T1			;...
	CAIN	T1,.OK			;Unspecified is always OK
	 JRST	L.13			;...
	CAIE	T1,.I1			;One-word integer is correct
	 RETURN	ACWRNG			;Anything else is trouble
>; End IFN TCK
L.13:	XMOVEI	T1,@2(ARG)		;[51]Address of byte count
	MOVEM	T1,COUNT		;Save it

; DATA (3) setup:

	HRLI	T1,.TYPE		;Get DATA's type
	HRRI	T1,3(ARG)		;...
	LDB	T1,T1			;...
	CAIN	T1,.OK			;Unspecified, assume FORTRAN
	 JRST	L.15			;...
	CAIE	T1,.ST			;[7] COBOL byte string
	 JRST	L.15			;[7] Otherwise, assume FORTRAN for now

; COBOL code:

	XMOVEI	T1,@3(ARG)		;[51][7] Address of two-word descriptor
	MOVE	T1,0(T1)		;Byte pointer
	LDB	T3,[POINT 6,T1,11]	;[7] Get byte size
	CAIE	T3,7			;[7] Must be ASCII
	 RETURN	ACWRNG			;[7] Wrong type
	JRST	.E2			;...

; End of COBOL code.

; FORTRAN code:

L.15:	XMOVEI	T1,@3(ARG)		;[51]String address
	HLL	T1,[POINT 7,0]		;Make a byte pointer

; End of FORTRAN code.

.E2:	MOVEM	T1,DATA			;Save it

; End of parameter set-up code.
; ACC (3)

; Accept a connection.

; NETLN:	link number
; COUNT:	count of optional data
; DATA:		optional data

ACC:
T20,<	MOVE	T1,@NETLN		;Get slot number
	MOVE	T1,LLJFN(T1)		;Get the JFN
	MOVEI	T2,.MOCC		;Accept the connection
	MOVE	T3,DATA			;Get byte pointer
	MOVE	T4,@COUNT		;Character count for data
	CAILE	T4,SOPTDT		;Check for valid size
	 MOVEI	T4,SOPTDT		;Too big, use maximum
	MTOPR%				;Accept it
	 ERJMP	.JSER			;Error?
	MOVE	T1,@NETLN		;Offset
	CALL	.UPEVT			;Update event word
	RETURN	ACOK..			;
>; End of T20

T10,<	MOVE	T1,@NETLN		;Get channel number
	HRRZM	T1,BL$NSP+.NSACH	;Save in NSP. arg block
	MOVE	T1,@COUNT		;Get user byte count
	MOVEI	T2,.NSACH+1		;Assume short arg type
	SKIPN	T1			;Zero bytes?
	  JRST	ACC2			;Don't send it then
	CAILE	T1,SOPTDT		;More than the max?
	  MOVEI	T1,SOPTDT		;Make it the max
	HRLM	T1,BL$OPT+.NSASL	;Save in string desc.
	MOVE	T2,DATA			;Pointer to user data
	MOVE	T3,[POINT 8,BL$OPT+.NSAST] ;Pointer to string block
ACC1:	ILDB	T4,T2			;Get a char
	IDPB	T4,T3			;Store a char
	SOJG	T1,ACC1			;Loop
	MOVEI	T1,BL$OPT		;Update NSP. arg blk.
	MOVEM	T1,BL$NSP+.NSAA1
	MOVEI	T2,.NSAA1+1		;Long block length
ACC2:	HRLI	T2,.NSFAC		;Function code (ACCEPT)
	MOVEM	T2,BL$NSP+.NSAFN	;Save in NSP. arg blk.
	MOVEI	T1,BL$NSP
	NSP.	T1,			;Do it
	  JRST	.NSPER			;Look at error code
	RETURN	ACOK..			;
>; End of T10

	PRGEND				;End of NFACC
	TITLE	NFRCV Receive data over a logical link
	ENTRY	NFRCV
	SEARCH	TTTUNV
	TTTINI
	EXTERN	.UPEVT
T10,<	EXTERN	.CNEVT,.NSPER>
; NFRCV (4A)
;
; Receive data over a logical link.
;
; If message mode is specified, the routine will read exactly one DECNET
; message (terminated by a DECNET segment with the EOM bit on).  If
; non-message mode is specified, characters will be read from as many
; messages as necessary to get the requested number of characters, and the
; last (or only) message read from will not necessarily be exhausted.
; If a read in non-message mode is followed by a read in message mode,
; the second read may get a message fragment.
;
; If you use NFRCV with wait in non-message mode and an interrupt
; message is received, you will not get return code RCINT. until the next
; time you call NFRCV.  If the cooperating task does not send enough
; data to satisfy the waiting NFRCV, your task will not see the
; interrupt message.
;
; CALL NFRCV USING NETLN, USIZE, COUNT, DATA, MSG-FLG, WAIT.
; RETCOD = NFRCV (NETLN, USIZE, COUNT, DATA, MSGFLG, WAIT)
;
; NETLN	network logical name, set by NFOPA, NFOPB, NFOP8, or NFOPP.
; USIZE	Message unit size.  Ignored if the active side of the link was
;	opened with NFOPA or NFOP8.  For links opened with NFOPB, this is
;	the message length unit size.  Zero may be used to indicate
;	words (or VAX longwords (32 bits)
;	(for the local system).  This parameter is currently included
;	only for user convenience and does not affect how the data is
;	actually transmitted through the network.
; COUNT	maximum characters read in message mode, or actual count.
;	In stream mode on TOPS20, this number will never exceed 2048 for
;	ASCII and 8-bit links.  For either mode, for both TOPS-10 and TOPS-20,
;	this number will never exceed 456 words for binary links.
;	Will contain actual number of characters read.
;	For links opened with NFOPA, this is the number of ASCII
;	characters in the message.  For links opened with NFOP8,
;	this is the number of sequential 8-bit bytes in the message,
;	stored as the local system normally stores 8-bit bytes.
;	For links opened with NFOPB, this is the number of bytes
;	(of the size specified in the message unit size) or words
;	(or VAX longwords (32 bit))
;	read.  Note that the last byte or word will be padded with
;	zero bits if the message does not divide into bytes of the
;	specified size, since the message is actually sent as
;	8-bit bytes.
; DATA	where message will go.
; MSG-FLG	message mode flag:
;	MSGMSG: read one message
;	MSGSTM: read COUNT characters.
;	For TOPS-10 only, if MSGSTM is specified, MSG-FLG will be set
;	to MSGMSG if the End-of-message flag was on in the last
;	message segment read
; WAIT	wait flag:
;	WAITLY: wait until characters received or read fails
;	WAITLN and MSG-FLG MSGMSG: return characters or error
;	WAITLN and MSG-FLG MSGSTM: return message or fragment, or error.
; Return code and function value:
;	RCWRNG: an argument is of the wrong type
;	RCOK..: COUNT characters are in DATA
;	RCABRJ: link disconnected or aborted,
;		COUNT contains characters read to date
;	RCINT.: interrupt received must be read first using NFRCI
;	RCOVRN: overrun.  For TOPS-20, no data is lost.  Retry with
;		larger buffer size.  For TOPS-10, data was lost (MSGMSG mode
;		only, with buffer too small.  To avoid this, one could read
;		message segments with MSGSTM until end-of-message (MSGMSG)
;		is returned for last segment of the message).
;	RCNENF: this much data not available (TOPS-20), or no data
;		available (TOPS-10/20).
;	HORROR: JSYS error.

NFRCV:	SAVAC				;Save the ACs

; Set up parameters

; NETLN (0) setup:

	IFN	TCK,<			;Type-checking code
	HRLI	T1,.TYPE		;Get NETLN's type
	HRRI	T1,0(ARG)		;...
	LDB	T1,T1			;...
	CAIN	T1,.OK			;Unspecified is always OK
	 JRST	L.16			;...
	CAIE	T1,.I1			;One-word integer is correct
	 RETURN	RCWRNG			;Anything else is trouble
>; End IFN TCK
L.16:	XMOVEI	T1,@0(ARG)		;[51]Address of NETLN
	MOVEM	T1,NETLN		;Save it
	SKIPL	T1,@NETLN		;Get value given. Can not be negative
	CAILE	T1,MAXLL		;Or greater than MAXLL
	 RETURN	RCWRNG			;Return error

; USIZE (1) setup:

	IFN	TCK,<			;Type-checking code
	HRLI	T1,.TYPE		;Get USIZE's type
	HRRI	T1,1(ARG)		;...
	LDB	T1,T1			;...
	CAIN	T1,.OK			;Unspecified is always OK
	 JRST	L.54			;...
	CAIE	T1,.I1			;One-word integer is correct
	 RETURN	RCWRNG			;Anything else is trouble
>; End IFN TCK

L.54:	XMOVEI	T1,@1(ARG)		;[51]Address of USIZE
	MOVEM	T1,USIZE		;Save it

; COUNT (2) setup:

	IFN	TCK,<			;Type-checking code
	HRLI	T1,.TYPE		;Get COUNT's type
	HRRI	T1,2(ARG)		;...
	LDB	T1,T1			;...
	CAIN	T1,.OK			;Unspecified is always OK
	 JRST	L.17			;...
	CAIE	T1,.I1			;One-word integer is correct
	 RETURN	RCWRNG			;Anything else is trouble
>; End IFN TCK
L.17:	XMOVEI	T1,@2(ARG)		;[51]Address of byte count
	MOVEM	T1,COUNT		;Save it
	MOVE	T1,@COUNT		;Get byte count
	MOVE	T2,@NETLN		;Get our index
	MOVE	T3,CODES(T2)		;Get link type code
	CAIE	T3,^D36			;Binary?
	 JRST	L.122			;No, skip this calculation
	MOVE	T3,@USIZE		;Get byte size
	SKIPN	T3			;Zero?
	 MOVEI	T3,^D36			;Yes, use words
	IMUL	T3,T1			;Count * bytesize = bits
	IDIVI	T3,^D8			;Divided by 8 for 8-bit bytes
	SKIPE	T4			;No remainder?
	 AOS	T3			;Remainder, account for it
	MOVEM	T4,SLOP			;Save left-over unused bytes
	MOVEM	T3,@COUNT		;And use THIS value

; DATA (3) setup:

L.122:	HRLI	T1,.TYPE		;Get DATA's type
	HRRI	T1,3(ARG)		;...
	LDB	T1,T1			;...
	CAIN	T1,.OK			;Unspecified, assume FORTRAN
	 JRST	L.19			;...
	CAIN	T1,.ST			;COBOL byte string
	 JRST	L.18			;Do it
	JRST	L.19			;Otherwise assume FORTRAN for now

; COBOL code:

L.18:	XMOVEI	T1,@3(ARG)		;[51]Address of two-word descriptor block
	MOVE	T1,0(T1)		;Byte pointer
	JRST	.E3			;...

; End of COBOL code.

; FORTRAN code:

L.19:	XMOVEI	T1,@3(ARG)		;[51]String address
	HLL	T1,[POINT 7,0]		;Make a byte pointer
	MOVE	T2,@NETLN		;Get link index
	MOVE	T2,CODES(T2)		;Get byte size
	CAIE	T2,^D7			;Skip if 7-bit
	 HLL	T1,[POINT 8,0]		;Otherwise, use 8-bit pointer

; End of FORTRAN code.

.E3:	MOVEM	T1,DATA			;Save it

; MSG-FLG (4) setup:

	IFN	TCK,<			;Type-checking code
	HRLI	T1,.TYPE		;Get MSG-FLG's type
	HRRI	T1,4(ARG)		;...
	LDB	T1,T1			;...
	CAIN	T1,.OK			;Unspecified is always OK
	 JRST	L.20			;...
	CAIE	T1,.I1			;One-word integer is correct
	 RETURN	RCWRNG			;Anything else is trouble
>; End IFN TCK
L.20:	XMOVEI	T1,@4(ARG)		;[51]Message flag
	MOVEM	T1,EOM			;Save it

; WAIT (5) setup:

	IFN	TCK,<			;Type-checking code
	HRLI	T1,.TYPE		;Get WAIT's type
	HRRI	T1,5(ARG)		;...
	LDB	T1,T1			;...
	CAIN	T1,.OK			;Unspecified is always OK
	 JRST	L.21			;...
	CAIE	T1,.I1			;One-word integer is correct
	 RETURN	RCWRNG			;Anything else is trouble
>; End IFN TCK
L.21:	XMOVEI	T1,@5(ARG)		;[51]Wait flag
	MOVEM	T1,WAIT			;Save it

; End of setting up parameters.
; CHKDAT (4)

; Receive data over a link.

; NETLN:	link number
; COUNT:	count of data returned
; EOM:		message-mode flag
; DATA:		returned data

CHKDAT:	MOVE	T1,@NETLN		;Slot number
	HRRZ	T2,LLEVNT(T1)		;Get event flag
	JUMPN	T2,CHKAVL		;If somthing there, proceed
	CALL	.UPEVT			;Update event word in case lost INT
	MOVE	T2,LLEVNT(T1)		;Get newest info
; CHKAVL (4.1)

; Check for available data.

; NETLN:	link number
; EOM:		message-mode flag

CHKAVL:	TXNE	T2,EV.INT		;Interrupt message to read?
	 JRST	[SETZM	@COUNT		;No data returned
		 RETURN RCINT.]		;
T20,<	MOVE	T1,@EOM			;Message mode flag
	CAIN	T1,MSGMSG		;Message mode?
	 JRST	MESS			;Yes, go do it
	MOVE	T1,@NETLN		;Get slot number
	MOVE	T1,LLJFN(T1)		;Get the JFN
	SIBE%				;Any characters?
	 SKIPA				;Have some bytes!
	  JRST	CHKDS			;No data yet
	MOVE	T1,@WAIT		;Get wait code
	CAIE	T1,WAITLN		;Waiting?
	 JRST	DORCV			;Yes, go wait
	CAML	T2,@COUNT		;Have enough data?
	 JRST	DORCV			;Yes, get it
	MOVE	T3,@NETLN		;Get link number
	MOVE	T3,CODES(T3)		;Get byte size
	CAIE	T3,^D36			;Binary?
	 JRST	CHKA.1			;No, all set
	IMULI	T2,^D8			;Yes, compute bits
	MOVE	T1,@USIZE		;Get user's desired byte size
	SKIPN	T1			;Nonzero?
	 MOVEI	T1,^D36			;No, use words
	IDIV	T2,T1			;Get bytes
	SKIPE	T3			;Any remainder?
	 AOS	T2			;Yes, round up

CHKA.1:	HRRZM	T2,@COUNT		;Return how much is there
	RETURN	RCNENF			;Not enough for us
>; End of T20

T10,<	MOVE	T1,@NETLN		;Get channel number
	MOVE	T2,LLSTAT(T1)		;Get last status
	TXNN	T2,NS.NDA		;Data available?
	  JRST	CHKDS			;No, go wait
	JRST	DORCV			;Yes, go receive it
>; End of T10
; CHKDS (4.2.1.1)

; Check for a disconnect.

; NETLN:	link number
; COUNT:	count of data returned, set to zero
; WAIT:		wait flag
; DATA:		returned data

CHKDS:	MOVE	T1,@NETLN		;Get slot number
	MOVE	T1,LLEVNT(T1)		;Get status
	TXNE	T1,EV.ABT+EV.DIS	;Aborted or disconnected?
	 JRST	[SETZM	@COUNT		;No data returned
		 RETURN	RCABRJ]		;
	MOVE	T1,@WAIT		;Get wait code
	CAIE	T1,WAITLY		;Waiting?
	 JRST	[SETZM	@COUNT		;No, no data available yet
		 RETURN	RCNENF]		;
	MOVEI	T1,DISTIM		;Yes, wait for data
	DISMS%				;
	JRST	CHKDAT			;Go check again
; MESS (4.2)

; Handle message-mode data.

; NETLN:	link number
; COUNT:	count of data
; DATA:		returned data

MESS:
T20,<	MOVE	T1,@NETLN		;Slot number
	MOVE	T1,LLSTAT(T1)		;Get status word
	TXNN	T1,MO%EOM		;Full message?
	 JRST	MESS.2			;No, check if disconnected or not done
	MOVE	T1,@NETLN		;Get slot number
	MOVE	T1,LLJFN(T1)		;Get JFN
	SIBE%				;Get character count
	 JFCL				;...
	CAMG	T2,@COUNT		;Too many characters?
	 JRST	DORCV			;No, do the read
	MOVE	T3,@NETLN		;Get link number
	MOVE	T3,CODES(T3)		;Get byte size
	CAIE	T3,^D36			;Binary?
	 JRST	MESS.1			;No, all set
	IMULI	T2,^D8			;Yes, compute bits
	MOVE	T1,@USIZE		;Get user's desired byte size
	SKIPN	T1			;Nonzero?
	 MOVEI	T1,^D36			;No, use words
	IDIV	T2,T1			;Get bytes
	SKIPE	T3			;Any remainder?
	 AOS	T2			;Yes, round up

MESS.1:	MOVEM	T2,@COUNT		;Return record size
	RETURN	RCOVRN			;Too many characters

; We may get here if the full message exceeds 512 words.  We can't do
; anything else about this monitor "feature".

MESS.2:	MOVE	T1,@NETLN		;Not a full message yet
	MOVE	T1,LLJFN(T1)		;Get JFN
	SIBE%				;Get count
	 SKIPA				;Something there
	  JRST	CHKDS			;No, check for a disconnect
;	JRST	DORCV			;Read it anyways!
>; End of T20
; DORCV (4.2.1)

; Read data.

; NETLN:	link number
; COUNT:	character count
; EOM:		message-mode flag
; DATA:		returned data

DORCV:
T20,<	MOVE	T1,@NETLN		;Get slot number
	MOVE	T2,DATA			;Get the byte pointer
	MOVE	T3,CODES(T1)		;Check for
	CAIN	T3,^D36			;... 36 bit
;**; [63] Change at DORCV + 4		CLR	11-Mar-83
;[63]	 HRRI	T2,TEMPST		;... and use temporary area if so.
;[63]	HLL	T2,LLEVNT(T1)		;Byte pointer
	 MOVE	T2,[441000,,TEMPST]	;[63] ... and use temporary area if so
	MOVE	T1,LLJFN(T1)		;Get the JFN
	CAIN	T3,^D36			;36 bit?
	 JRST	[MOVEI	T3,<4*TSIZE>	;Yes, set up count (4*8-bit bytes)
		 MOVEM	T3,@COUNT	;Save count in user area
		 JRST	.+1	]	;... and ignore user count
	MOVN	T3,@COUNT		;Character count
	SKIPE	@EOM			;Message mode?
	 JRST	XMESS			;Yes
	SIN%				;No
	 ERJMP	EOF			;Error?
	JRST	SINCON			;Go on

XMESS:	SINR%				;Input
	 ERJMP	EOF			;Error?

SINCON:	ADD	T3,@COUNT		;Compute characters read
	MOVEM	T3,@COUNT		;Return the count
	MOVE	T1,@NETLN		;Offset
	CALL	.UPEVT			;Update event word
	MOVE	T1,@NETLN		;Get link number
	MOVE	T1,CODES(T1)		;Get byte size
	CAIN	T1,^D36			;36-bits?
	 CALL	PACK			;Yes, pack bytes for the user
	RETURN	RCOK..			;Yes

EOF:	ADD	T3,@COUNT		;Compute characters read
	MOVEM	T3,@COUNT		;Return it
	MOVE	T1,@NETLN		;
	CALL	.UPEVT			;Update status
	MOVE	T1,@NETLN		;Get slot number
	MOVE	T2,CODES(T1)		;Get byte size
	CAIN	T2,^D36			;36-bits?
	 CALL	PACK			;Yes, pack up data
	MOVE	T1,@NETLN		;Get slot number back
	MOVE	T1,LLEVNT(T1)		;Get event flags
	TXNE	T1,EV.DIS+EV.ABT	;Disconnect or abort?
	 RETURN	RCABRJ			;Yes
	RETURN	HORROR			;SIN or SINR error
>; End of T20

T10,<	MOVE	T1,@NETLN		;Get slot number
	HRRZM	T1,BL$NSP+.NSACH	;Save channel in arg block
	MOVE	T2,DATA			;Get the byte pointer
	MOVE	T3,CODES(T1)		;Check for
	CAIN	T3,^D36			;... 36 bit
;**; [63] Change at DORCV + 4		DPR	11-Mar-83
;[63]	 HRRI	T2,TEMPST		;... and use temporary area if so.
;[63]	HLL	T2,LLEVNT(T1)		;Byte pointer
	 MOVE	T2,[441000,,TEMPST]	;[63] ... and use temporary area if so
	MOVEM	T2,BL$NSP+.NSAA2	;Save in NSP. arg block
	CAIN	T3,^D36			;36 bit?
	 JRST	[MOVEI	T3,<4*TSIZE>	;Yes, set up count (4*8-bit bytes)
		 MOVEM	T3,@COUNT	;Save count in user area
		 JRST	.+1	]	;... and ignore user count
	MOVE	T3,@COUNT		;Character count
	MOVEM	T3,BL$NSP+.NSAA1	;Save in NSP. arg block
	MOVE	T1,[XWD .NSFDR,.NSAA2+1] ;Function READ, block length
	TXO	T1,NS.WAI		;To do this correctly, we need to WAIT
	SKIPE	@EOM			;Was message mode requested?
	TXO	T1,NS.EOM		;Say so to NSP.
	MOVEM	T1,BL$NSP+.NSAFN	;Save in arg block
	MOVEI	T1,BL$NSP
	NSP.	T1,			;Read the data
	  JRST	.NSPER			;Check error code
	MOVE	T1,BL$NSP+.NSACH	;Get status
	CALL	.CNEVT			;Update event word
	MOVE	T1,@COUNT		;Get requested byte count
	SKIPL	BL$NSP+.NSAA1		;If negative, we overran the buffer
	SUB	T1,BL$NSP+.NSAA1	;Subtract bytes remaining
	MOVEM	T1,@COUNT		;Return the count transferred to user
	MOVE	T1,BL$NSP+.NSACH	;Get link status
	SKIPE	@EOM			;Message mode?
	  JRST	DORCV1			;Yes, skip this
	MOVX	T2,MSGMSG		;Flag for MSG-MSG
	TXNN	T1,NS.EOM		;Did we get last fragment of message?
	MOVEM	T2,@EOM			;Yes, tell user
DORCV1:	CALL	.CNEVT			;Update event word
	MOVE	T1,@NETLN		;Get link number
	MOVE	T1,CODES(T1)		;Get byte size
	CAIN	T1,^D36			;36-bits?
	 CALL	PACK			;Yes, pack bytes for the user
	SKIPL	BL$NSP+.NSAA1		;If message mode, we may have lost data
	RETURN	RCOK..			;No, return OK
	RETURN	RCOVRN			;Yes, tell user we had Overrun
>; End of T10
; PACK (4.2.1.1) Ugly but necessary

; Pack binary data received from the network in 8-bit bytes in VAX order
; (backwards) into 36-bit words and compute how many bytes (of the size
; specified by the user) were read.

; Received from the network:

; +-----+-----+-----+-----+---+ +-----+-----+-----+-----+---+ +-----+---
; |  1  |  2  |  3  |  4  |   | | H5L |  6  |  7  |  8  |   | |  9  | ...
; +-----+-----+-----+-----+---+ +-----+-----+-----+-----+---+ +-----+---

; Desired results:

; +---+-----+-----+-----+-----+ +-----+-----+-----+-----+---+
; | 5L|  4  |  3  |  2  |  1  | |  9  |  8  |  7  |  6  |H5 | ...
; +---+-----+-----+-----+-----+ +-----+-----+-----+-----+---+

PACK:	PUSH	P,T4			;Save a register for byte loading
	MOVE	T3,@COUNT		;Get byte count
	MOVE	T1,[POINT 8,TEMPST]	;ILDB pointer to temporary area
	JUMPE	T3,L.116		;If no bytes, skip moving them!
	HRR	T2,DATA			;Address of user data area

L.115:	HRLI	T2,001000		;Byte pointer to byte #1 destination
	ILDB	T4,T1			;Get byte #1
	DPB	T4,T2			;Store byte #1
	SOJE	T3,L.116		;Stop if done
	HRLI	T2,101000		;Byte pointer to byte #2 destination
	ILDB	T4,T1			;Get byte #2
	DPB	T4,T2			;Store byte #2
	SOJE	T3,L.116		;Stop if done
	HRLI	T2,201000		;Byte pointer to byte #3 destination
	ILDB	T4,T1			;Get byte #3
	DPB	T4,T2			;Store byte #3
	SOJE	T3,L.116		;Stop if done
	HRLI	T2,301000		;Byte pointer to byte #4 destination
	ILDB	T4,T1			;Get byte #4
	DPB	T4,T2			;Store byte #4
	SOJE	T3,L.116		;Stop if done
	HRLI	T2,400400		;Byte pointer to low-order nibble (#5)
	ILDB	T4,T1			;Get whole byte #5
	DPB	T4,T2			;Store low-order nibble (#5)
	CAIE	T3,1			;Last byte?
	 JRST	L.123			;No, skip this check
	SKIPE	SLOP			;Unused bits present?
	 JRST	L.116			;Yes, don't store them
L.123:	LDB	T4,T1			;Get byte #5 again
	LSH	T4,-4			;Remove low-order nibble
	AOJ	T2,0			;Move to next destination word
	HRLI	T2,000400		;Byte pointer to low-order nibble (#5)
	DPB	T4,T2			;Store high-order nibble (#5)
	SOJE	T3,L.116		;Stop if done
	HRLI	T2,041000		;Byte pointer to byte #6
	ILDB	T4,T1			;Get byte #6
	DPB	T4,T2			;Store byte #6
	SOJE	T3,L.116		;Stop if done
	HRLI	T2,141000		;Byte pointer to byte #7
	ILDB	T4,T1			;Get byte #7
	DPB	T4,T2			;Store byte #7
	SOJE	T3,L.116		;Stop if done
	HRLI	T2,241000		;Byte pointer to byte #8
	ILDB	T4,T1			;Get byte #8
	DPB	T4,T2			;Store byte #8
	SOJE	T3,L.116		;Stop if done
	HRLI	T2,341000		;Byte pointer to byte #9
	ILDB	T4,T1			;Get byte #9
	DPB	T4,T2			;Store byte #9
	AOJ	T2,0			;Increment destination word
	SOJG	T3,L.115		;Continue if more bytes

; Done shuffling bytes, so compute count.

L.116:	MOVE	T1,@COUNT		;Retrieve count as 8-bit bytes
	IMULI	T1,^D8			;... and convert to bits
	MOVE	T3,@USIZE		;Get user's byte size
	SKIPN	T3			;If zero,
	 MOVEI	T3,^D36			;... use word size
	IDIV	T1,T3			;Convert bits to user bytes
	MOVEM	T1,@COUNT		;Store result

L.117:	POP	P,T4			;Restore saved register
	RET				;

	PRGEND				;End of NFRCV
	TITLE	NFSND Send data over a logical link
	ENTRY	NFSND
	SEARCH	TTTUNV
	TTTINI
T20,<	EXTERN	.JSER>
T10,<	EXTERN	.CNEVT,.NSPER>
; NFSND (5A)
;
; Send data over a logical link.
;
; Messages sent over a link opened with NFOPA are sent in ASCII, and may
; be read directly as ASCII by the receiving task, even if the receiving
; task is on a heterogeneous system.
;
; Messages sent over links opened with NFOP8 are sent as sequential
; 8-bit bytes read as the local system normally stores such bytes and
; received as the remote system normally stores such bytes.  This type of
; message should be used for non-ASCII, non-numeric data such as
; bit masks.
;
; Messages sent over links opened with NFOPB will look the same to the
; receiving task as to the sender if the tasks are on homogeneous
; systems; if the tasks are on heterogeneous systems, either the sending
; task must convert the data before it is sent using the DCR, or the
; receiving task must convert the data it receives (unconverted data
; sent to a heterogeneous system will arrive in a format acceptable
; as input to the DCR).  See Appendix H of the Functional Specification
; for details of how the data is actually transported through the
; network.
;
; CALL NFSND USING NETLN, USIZE, COUNT, DATA, MSG-FLG.
; RETCOD = NFSND (NETLN, USIZE, COUNT, DATA, MSGFLG)
;
; NETLN	network logical name, set by NFOPA, NFOPB, NFOP8, or NFOPP.
; USIZE	Message unit size.  Ignored if the active side of the link
;	was opened with NFOPA, which will send ASCII data only, or with
;	NFOP8, which will send 8-bit bytes only.  For links opened with
;	NFOPB, this is the message length unit size.  Zero may be used to
;	indicate words (or VAX longwords (32 bits))
;	(on the local system).  This parameter is currently
;	included only for user convenience and does not affect how data
;	is actually transferred over the network.
; COUNT	Message length (must be greater than zero).  The length is
;	given in ASCII characters for links opened with NFOPA, in
;	sequential 8-bit bytes for links opened with NFOP8, or in bytes
;	of the size specified by the message unit size (or words
;	or VAX longwords (32 bit)) for links opened with NFOPB.
; DATA	message.
; MSG-FLG message mode flag:
;	MSGMSG: data in message mode
;	MSGSTM: data in non-message (stream) mode.
; Return code and function value:
;	SNWRNG: an argument is of the wrong type
;	SNOK..: data sent successfully
;	HORROR: JSYS error.

NFSND:	SAVAC				;Save the ACs

; Set up parameters:

; NETLN (0) setup:

	IFN	TCK,<			;Type-checking code
	HRLI	T1,.TYPE		;Get NETLN's type
	HRRI	T1,0(ARG)		;...
	LDB	T1,T1			;...
	CAIN	T1,.OK			;Unspecified is always OK
	 JRST	L.22			;...
	CAIE	T1,.I1			;One-word integer is correct
	 RETURN	SNWRNG			;Anything else is trouble
>;	 End IFN TCK
L.22:	XMOVEI	T1,@0(ARG)		;[51]NETLN
	MOVEM	T1,NETLN		;Save it
	SKIPL	T1,@NETLN		;Get value given. Can not be negative
	CAILE	T1,MAXLL		;Or greater than MAXLL
	 RETURN	SNWRNG			;Return error

; USIZE (1) setup:

	IFN	TCK,<			;Type-checking code
	HRLI	T1,.TYPE		;Get USIZE's type
	HRRI	T1,1(ARG)		;...
	LDB	T1,T1			;...
	CAIN	T1,.OK			;Unspecified is always OK
	 JRST	L.55			;...
	CAIE	T1,.I1			;One-word integer is correct
	 RETURN	SNWRNG			;Anything else is trouble
>; End IFN TCK
L.55:	XMOVEI	T1,@1(ARG)		;[51]Address of USIZE
	MOVEM	T1,USIZE		;Save it

; COUNT (2) setup:

	IFN	TCK,<			;Type-checking code
	HRLI	T1,.TYPE		;Get COUNT's type
	HRRI	T1,2(ARG)		;...
	LDB	T1,T1			;...
	CAIN	T1,.OK			;Unspecified is always OK
	 JRST	L.23			;...
	CAIE	T1,.I1			;One-word integer is correct
	 RETURN	SNWRNG			;Anything else is trouble
>; End IFN TCK
L.23:	XMOVEI	T1,@2(ARG)		;[51]COUNT address
	MOVEM	T1,COUNT		;Save it

; DATA (3) setup:

	HRLI	T1,.TYPE		;Get DATA's type
	HRRI	T1,3(ARG)		;...
	LDB	T1,T1			;...
	CAIN	T1,.OK			;Unspecified, use FORTRAN
	 JRST	L.25			;...
	CAIN	T1,.ST			;COBOL byte string
	 JRST	L.24			;Do it
	JRST	L.25			;Otherwise assume FORTRAN for now

; COBOL code:

L.24:	XMOVEI	T1,@3(ARG)		;[51]Data pointer address
	MOVE	T1,0(T1)		;Get byte pointer
	JRST	.E4			;...

; End of COBOL code.

; FORTRAN code:

L.25:	XMOVEI	T1,@3(ARG)		;[51]String address
	HLL	T1,[POINT 7,0]		;Make a byte pointer
	MOVE	T2,@NETLN		;Get link index
	MOVE	T2,CODES(T2)		;Get byte size
	CAIE	T2,^D7			;Skip if 7-bit
	 HLL	T1,[POINT 8,0]		;Otherwise, use 8-bit pointer

; End of FORTRAN code.

.E4:	MOVEM	T1,DATA			;Save it

; MSGFLG (4) setup:

	IFN	TCK,<			;Type-checking code
	HRLI	T1,.TYPE		;Get MSG-FLG's type
	HRRI	T1,4(ARG)		;...
	LDB	T1,T1			;...
	CAIN	T1,.OK			;Unspecified is always OK
	 JRST	L.26			;...
	CAIE	T1,.I1			;One-word integer is correct
	 RETURN	SNWRNG			;Anything else is trouble
>; End IFN TCK
L.26:	XMOVEI	T1,@4(ARG)		;[51]EOM flag address
	MOVEM	T1,EOM			;Save it

; End of setting up parameters.
; SEND (5)

; Send data over a logical link.

; NETLN:	link number
; DATA:		data to send
; COUNT:	length of data
; EOM:		message-mode flag

SEND:	MOVE	T1,@NETLN		;Slot number
	MOVE	T2,DATA			;Byte pointer
	MOVE	T3,CODES(T1)		;Get byte size
	CAIN	T3,^D36			;Binary mode?
	 JRST	[CALL	UNPACK		;Yes, unpack data
		 JRST	L.120	]	;Go do it
;**; [63] Remove code at SEND + 5	CLR	11-Mar-83
;[63]	HLL	T2,LLEVNT(T1)		;Byte pointer
	MOVN	T3,@COUNT		;Character count
L.120:
T20,<	MOVE	T1,LLJFN(T1)		;Get the JFN
	MOVE	T0,@EOM			;Get mode flag
	CAIE	T0,MSGMSG		;Message mode?
	 JRST	STREAM			;No
>; End of T20
;	JRST	MSG			;Yes, fall through to do message mode
; MSG (5.2)

; Do message mode.

MSG:
T20,<	SOUTR%				;Yes
	 ERJMP	.JSER			;Error?
	RETURN	SNOK..			;Return
>; End of T20
; STREAM (5.3)

; Do stream mode.

STREAM:
T20,<	SOUT%				;Output it
	 ERJMP	.JSER			;Error?
	RETURN	SNOK..			;
>; End of T20

T10,<	MOVE	T1,@NETLN		;Get channel number
	MOVEM	T1,BL$NSP+.NSACH	;Save channel number
	SKIPE	@EOM			;If message mode
	SKIPA	T1,[NS.WAI!NS.EOM!<XWD .NSFDS,.NSAA2+1>] ;Get function+flags
	MOVE	T1,[NS.WAI!<XWD .NSFDS,.NSAA2+1>] ; Get function+flags+length
	MOVEM	T1,BL$NSP+.NSAFN	;Save flags+functions+length
	MOVNM	T3,BL$NSP+.NSAA1	;Save byte count
	MOVEM	T2,BL$NSP+.NSAA2	;Save byte pointer
	MOVEI	T1,BL$NSP
	NSP.	T1,			;Do it
	  JRST	.NSPER			;Check error code
	MOVE	T1,BL$NSP+.NSACH	;Get Status
	CALL	.CNEVT			;Update event word
	RETURN	SNOK..			;Return
>; End of T10
; UNPACK (5.1) Ugly but necessary

; Unpack 36-bit words into 8-bit bytes to be sent over the network in
; VAX order (backwards).  The routine computes how many bytes to send
; based on the user's byte size and count.

; User data:

; +---+-----+-----+-----+-----+ +-----+-----+-----+-----+---+
; | 5L|  4  |  3  |  2  |  1  | |  9  |  8  |  7  |  6  |H5 | ...
; +---+-----+-----+-----+-----+ +-----+-----+-----+-----+---+

; Unpacked data for network transfer:

; +-----+-----+-----+-----+---+ +-----+-----+-----+-----+---+ +-----+---
; |  1  |  2  |  3  |  4  |   | | H5L |  6  |  7  |  8  |   | |  9  | ...
; +-----+-----+-----+-----+---+ +-----+-----+-----+-----+---+ +-----+---

UNPACK:	PUSH	P,T1			;Save temporary registers
	PUSH	P,T5			;Save a register for the split byte
	PUSH	P,T4			;Save a register for byte loading
	SKIPN	T3,@USIZE		;Get message unit size in bits
	 JRST	[MOVE T3,@COUNT		;If words, just pick up user count
		JRST	L.121]		;And use as is
	MOVEI	T1,^D36			;Compute bytes per word
	IDIV	T1,T3			;... in T1
	MOVE	T3,@COUNT		;Get count of bytes
	IDIV	T3,T1			;... and change to words in T3
	SKIPE	T4			;Any leftover bytes?
	 AOJ	T3,			;Yes, one more word
L.121:	MOVE	T4,T3			;One half (the number of words
	AOJ	T4,0			;... plus one)
	LSH	T4,-1			;... of split bytes
	LSH	T3,2			;Change words to 8-bit bytes
	ADD	T3,T4			;Add in byte fudge factor
;**; [111] Change at L.121	DPR	04-June-84
	CAILE	T3,TSIZE*4		;[111] If greater than out buffer
	  MOVEI	T3,TSIZE*4		;[111] That is the max
	PUSH	P,T3			;Save byte count for SOUT/SOUTR
	HRR	T2,DATA			;Get user data address
	MOVE	T1,[POINT 8,TEMPST]	;ILDB pointer to temporary area

L.118:	HRLI	T2,001000		;Byte pointer to byte #1 source
	LDB	T4,T2			;Get byte #1
	IDPB	T4,T1			;Store byte #1
	SOJE	T3,L.119		;Stop if done
	HRLI	T2,101000		;Byte pointer to byte #2
	LDB	T4,T2			;Get byte #2
	IDPB	T4,T1			;Store byte #2
	SOJE	T3,L.119		;Stop if done
	HRLI	T2,201000		;Byte pointer to byte #3 source
	LDB	T4,T2			;Get byte #3
	IDPB	T4,T1			;Store byte #3
	SOJE	T3,L.119		;Stop if done
	HRLI	T2,301000		;Byte pointer to byte #4 source
	LDB	T4,T2			;Get byte #4
	IDPB	T4,T1			;Store byte #4
	SOJE	T3,L.119		;Stop if done
	HRLI	T2,400400		;Byte pointer to low-order nibble (#5)
	LDB	T4,T2			;Get low-order nibble (#5)
	AOJ	T2,0			;Move to next source word
	HRLI	T2,000400		;Byte pointer to high-order nibble (#5)
	LDB	T5,T2			;Get high-order nibble (#5) and
	LSH	T5,4			;... shift it over and
	ADD	T4,T5			;... add nibbles to get byte #5
	IDPB	T4,T1			;Store byte #5
	SOJE	T3,L.119		;Stop if done
	HRLI	T2,041000		;Byte pointer to byte #6 source
	LDB	T4,T2			;Get byte #6
	IDPB	T4,T1			;Store byte #6
	SOJE	T3,L.119		;Stop if done
	HRLI	T2,141000		;Byte pointer to byte #7
	LDB	T4,T2			;Get byte #7
	IDPB	T4,T1			;Store byte #7
	SOJE	T3,L.119		;Stop if done
	HRLI	T2,241000		;Byte pointer to byte #8
	LDB	T4,T2			;Get byte #8
	IDPB	T4,T1			;Store byte #8
	SOJE	T3,L.119		;Stop if done
	HRLI	T2,341000		;Byte pointer to byte #9
	LDB	T4,T2			;Get byte #9
	IDPB	T4,T1			;Store byte #9
	AOJ	T2,0			;Increment source words
	SOJG	T3,L.118		;Continue if more bytes

; Done shuffling bytes.

L.119:	POP	P,T3			;Get byte count and
	MOVN	T3,T3			;... negate it for SOUT/SOUTR
	MOVE	T2,[POINT 8,TEMPST]	;Set up pointer for SOUT/SOUTR
	POP	P,T4			;Restore registers
	POP	P,T5			;...
	POP	P,T1			;...
	RET				;

	PRGEND				;End of NFSND
	TITLE	NFREJ Reject a link connection
	ENTRY	NFREJ
	SEARCH	TTTUNV
	TTTINI
T20,<	EXTERN	.JSER,.UPEVT>
T10,<	EXTERN	.NSPER>
; NFREJ (6A)
;
; Reject a connection on a passive link which got a connect event.
; The link specified will not be availale for use after this routine
; is called, whether or not the call succeeded.
;
; Note: A connection could be implicitly rejected by closing the JFN of
; the logical link before accepting the connection, producing a connect
; reject message with a reject code of 38 (user aborted).  In this case,
; you must reopen the network JFN to receive subsequent connect
; initiate messages.
;
; CALL NFREJ USING NETLN, CODE, COUNT, DATA.
; RETCOD = NFREJ (NETLN, CODE, COUNT, DATA)
;
; NETLN	network logical name, set by the NFOPP routine.
; CODE	abort or reject code.  See Appendix F of the
;	Functional Specification for a description of abort and
;	reject codes.
; COUNT	count of optional data characters.
; DATA	optional ASCII data.
; Return code and function value:
;	RJWRNG:	an argument is of the wrong type
;	RJOK..: connection rejected successfully
;	HORROR: JSYS error.

NFREJ:	SAVAC				;Save ACs

; Set up parameters:

; NETLN (0) setup:

	IFN	TCK,<			;Type-checking code
	HRLI	T1,.TYPE		;Get NETLN's type
	HRRI	T1,0(ARG)		;...
	LDB	T1,T1			;...
	CAIN	T1,.OK			;Unspecified is always OK
	 JRST	L.27			;...
	CAIE	T1,.I1			;One-word integer is correct
	 RETURN	RJWRNG			;Anything else is trouble
>; End IFN TCK
L.27:	XMOVEI	T1,@0(ARG)		;[51]Address of NETLN
	MOVEM	T1,NETLN		;Save it
	SKIPL	T1,@NETLN		;Get value given. Can not be negative
	CAILE	T1,MAXLL		;Or greater than MAXLL
	 RETURN	RJWRNG			;Return error

; CODE (1) setup:

	IFN	TCK,<			;Type-checking code
	HRLI	T1,.TYPE		;Get CODE's type
	HRRI	T1,1(ARG)		;...
	LDB	T1,T1			;...
	CAIN	T1,.OK			;Unspecified is always OK
	 JRST	L.28			;...
	CAIE	T1,.I1			;One-word integer is correct
	 RETURN	RJWRNG			;Anything else is trouble
>; End IFN TCK
L.28:	XMOVEI	T1,@1(ARG)		;[51]Address of CODE
	MOVEM	T1,CODE			;Save it

; COUNT (2) setup:

	IFN	TCK,<			;Type-checking code
	HRLI	T1,.TYPE		;Get COUNT's type
	HRRI	T1,2(ARG)		;...
	LDB	T1,T1			;...
	CAIN	T1,.OK			;Unspecified is always OK
	 JRST	L.29			;...
	CAIE	T1,.I1			;One-word integer is correct
	 RETURN	RJWRNG			;Anything else is trouble
>; End IFN TCK
L.29:	XMOVEI	T1,@2(ARG)		;[51]Address of COUNT
	MOVEM	T1,COUNT		;Save it

; DATA (3) setup:

	HRLI	T1,.TYPE		;Get DATA's type
	HRRI	T1,3(ARG)		;...
	LDB	T1,T1			;...
	CAIN	T1,.OK			;Unspecified, assume FORTRAN
	 JRST	L.31			;...
	CAIE	T1,.ST			;[7] COBOL byte string
	 JRST	L.31			;[7] Otherwise, assume FORTRAN for now

; COBOL code:

	XMOVEI	T1,@3(ARG)		;[51][7] Address of data descriptor
	MOVE	T1,0(T1)		;Get byte pointer
	LDB	T3,[POINT 6,T1,11]	;[7] Get byte pointer
	CAIE	T3,7			;[7] Must be ASCII
	 RETURN	RJWRNG			;[7] Wrong type
	JRST	.E5			;...

; End of COBOL code.

; FORTRAN code:

L.31:	XMOVEI	T1,@3(ARG)		;[51]String address
	HLL	T1,[POINT 7,0]		;Make a byte pointer

; End of FORTRAN code.

.E5:	MOVEM	T1,DATA			;Save it

; End of setting up parameters.
; REJ (6)

; Reject a link.

; NETLN:	link number
; CODE:		reject code
; DATA:		optional data
; COUNT:	length of data

REJ:
T20,<	MOVE	T1,@NETLN		;Get slot number
	MOVE	T1,LLJFN(T1)		;Get the JFN
	MOVEI	T2,.MOCLZ		;Reject function
	HRL	T2,@CODE		;Reject code
	MOVE	T3,DATA			;Reject message
	MOVE	T4,@COUNT		;Character count for message
	CAILE	T4,SOPTDT		;Check size
	 MOVEI	T4,SOPTDT		;Too big, so use maximum
	MTOPR%				;
	 ERJMP	.JSER			;Error?
	MOVE	T1,@NETLN		;
	CALL	.UPEVT			;Update status
	RETURN	RJOK..			;
>; End of T20

T10,<	MOVE	T1,@NETLN		;Get channel number
	HRRZM	T1,BL$NSP+.NSACH	;Save in NSP. arg block
	MOVE	T1,@COUNT		;Get user byte count
	MOVEI	T2,.NSACH+1		;Assume short arg type
	SKIPN	T1			;Zero bytes?
	  JRST	REJ2			;Don't send it then
	CAILE	T1,SOPTDT		;More than the max??
	  MOVEI	T1,SOPTDT		;Make it the max
	HRLM	T1,BL$OPT+.NSASL	;Save in string desc.
	MOVE	T2,DATA			;Pointer to user data
	MOVE	T3,[POINT 8,BL$OPT+.NSAST] ;Pointer to string block
REJ1:	ILDB	T4,T2			;Get a char
	IDPB	T4,T3			;Store a char
	SOJG	T1,REJ1			;Loop
	MOVEI	T1,BL$OPT		;Update NSP. arg blk.
	MOVEM	T1,BL$NSP+.NSAA1
	MOVEI	T2,.NSAA1+1		;Long block length
REJ2:	HRLI	T2,.NSFRJ		;Function code (REJECT)
	MOVEM	T2,BL$NSP+.NSAFN	;Save in NSP. arg blk.
	MOVEI	T1,BL$NSP
	NSP.	T1,			;Do it
	  JRST	.NSPER			;Look at error code
	RETURN	RJOK..			;
>; End of T10

	PRGEND				;End of NFREJ
	TITLE	NFINT Send an interrupt message
	ENTRY	NFINT
	SEARCH	TTTUNV
	TTTINI
T20,<	EXTERN	.JSER>
T10,<	EXTERN	.NSPER,.CNEVT>
; NFINT (7A)
;
; Send an interrupt message over a logical link.
;
; Unlike NFSND, data is always sent in message mode, so a prompt attempt
; to send data is guaranteed.  Data sent in this mode is not sent in sync
; with data sent by NFSND.  Only one interrupt can be sent over a logical
; link at one time.
;
; CALL NFINT USING NETLN, COUNT, DATA.
; RETCOD = NFINT (NETLN, COUNT, DATA)
;
; NETLN	network logical name, set by NFOPA, NFOPB, NFOP8, or NFOPP.
; COUNT	characters of data to send (1 to SINTDT).
; DATA	ASCII data.
; Return code and function value:
;	IDWRNG: an argument is of the wrong type
;	IDOK..: data sent successfully
;	HORROR: JSYS error.

NFINT:	SAVAC				;Save the ACs

; Set up parameters:

; NETLN (0) setup:

	IFN	TCK,<			;Type-checking code
	HRLI	T1,.TYPE		;Get NETLN's type
	HRRI	T1,0(ARG)		;...
	LDB	T1,T1			;...
	CAIN	T1,.OK			;Unspecified is always OK
	 JRST	L.32			;...
	CAIE	T1,.I1			;One-word integer is correct
	 RETURN	IDWRNG			;Anything else is trouble
>; End IFN TCK
L.32:	XMOVEI	T1,@0(ARG)		;[51]Address of NETLN
	MOVEM	T1,NETLN		;Save it
	SKIPL	T1,@NETLN		;Get value given. Can not be negative
	CAILE	T1,MAXLL		;Or greater than MAXLL
	 RETURN	IDWRNG			;Return error

; COUNT (1) setup:

	IFN	TCK,<			;Type-checking code
	HRLI	T1,.TYPE		;Get COUNT's type
	HRRI	T1,1(ARG)		;...
	LDB	T1,T1			;...
	CAIN	T1,.OK			;Unspecified is always OK
	 JRST	L.33			;...
	CAIE	T1,.I1			;One-word integer is correct
	 RETURN	IDWRNG			;Anything else is trouble
>; End IFN TCK
L.33:	XMOVEI	T1,@1(ARG)		;[51]Address of COUNT
	MOVEM	T1,COUNT		;Save it

; DATA (2) setup:

	HRLI	T1,.TYPE		;Get DATA's type
	HRRI	T1,2(ARG)		;...
	LDB	T1,T1			;...
	CAIN	T1,.OK			;Unspecified, assume FORTRAN
	 JRST	L.35			;...
	CAIE	T1,.ST			;[7] COBOL byte string
	 JRST	L.35			;[7] Otherwise, assume FORTRAN for now

; COBOL code:

	XMOVEI	T1,@2(ARG)		;[51][7] Address of data descriptor
	MOVE	T1,0(T1)		;Byte pointer
	LDB	T3,[POINT 6,T1,11]	;[7] Get byte size
	CAIE	T3,7			;[7] Must be ASCII
	 RETURN	IDWRNG			;[7] Wrong type
	JRST	.E6			;...

; End of COBOL code.

; FORTRAN code:

L.35:	XMOVEI	T1,@2(ARG)		;[51]String address
	HLL	T1,[POINT 7,0]		;Make it a byte pointer

; End of FORTRAN code.

.E6:	MOVEM	T1,DATA			;Save it

; End of setting up parameters.
; SINT (7)

; Send an interrupt message.

; NETLN:	link number
; DATA:		interrupt data
; COUNT:	length of data

SINT:
T20,<	MOVE	T1,@NETLN		;Get slot number
	MOVE	T1,LLJFN(T1)		;Get the JFN
	MOVEI	T2,.MOSIM		;Send interrupt message function
	MOVE	T3,DATA			;Byte pointer
	MOVE	T4,@COUNT		;Character count for message
	CAILE	T4,SINTDT		;Check size
	 MOVEI	T4,SINTDT		;Too big, use maximum
	MTOPR%				;Send it
	 ERJMP	.JSER			;Error?
	RETURN	IDOK..			;
>; End of T20

T10,<	MOVE	T1,@NETLN		;Get channel number
	HRRZM	T1,BL$NSP+.NSACH	;Save in NSP. arg block
	MOVE	T1,@COUNT		;Get user byte count
	CAILE	T1,SINTDT		;More than the max?
	  MOVEI	T1,SINTDT		;Make it the max
	HRLM	T1,BL$OPT+.NSASL	;Save in string desc.
	JUMPE	T1,SINT2		;No data??
	MOVE	T2,DATA			;Pointer to user data
	MOVE	T3,[POINT 8,BL$OPT+.NSAST] ;Pointer to string block
SINT1:	ILDB	T4,T2			;Get a char
	IDPB	T4,T3			;Store a char
	SOJG	T1,SINT1			;Loop
	MOVEI	T1,BL$OPT		;Update NSP. arg blk.
	MOVEM	T1,BL$NSP+.NSAA1
SINT2:	MOVE	T2,[XWD .NSFIS,.NSAA1+1];Block length, function(snd int data)
	MOVEM	T2,BL$NSP+.NSAFN	;Save in NSP. arg blk.
	MOVEI	T1,BL$NSP
	NSP.	T1,			;Do it
	  JRST	.NSPER			;Look at error code
	MOVE	T1,BL$NSP+.NSACH	;Get status
	CALL	.CNEVT			;Update event word
	RETURN	IDOK..			;
>; End of T10

	PRGEND				;End of NFINT
	TITLE	NFRCI Receive an interrupt message
	ENTRY	NFRCI
	SEARCH	TTTUNV
	TTTINI
T10,<	EXTERN	.NSPER,.CNEVT>
; NFRCI (8A)
;
; Receive a single interrupt message over a logical link.
;
; Receipt of an interrupt message is an asynchronous event.  The normal
; way to access asynchronous events is through the NFGND interface
; routine.  NFGND will announce interrupt messages before data messages;
; such messages must be read before NFGND will announce any lower-level
; events (data messages or disconnections).  Note that NFRCV will return
; error code 2 and refuse to return data if an interrupt message is
; available which has not been read by NFRCI.
;
; CALL NFRCI USING NETLN, COUNT, DATA.
; RETCOD = NFRCI (NETLN, COUNT, DATA)
;
; NETLN	network logical name, set by NFOPA, NFOPB, NFOP8, or NFOPP.
; COUNT	count of characters read.
; DATA	ASCII data read (1 to SINTDT characters).  This area
;	must be at least SINTDT characters long.
; Return code and function value:
;	RIWRNG: an argument is of the wrong type
;	RIOK..: interrupt message read successfully.  COUNT has number
;		of characters read
;	RINONE: no message available now 
;	HORROR: JSYS error.

NFRCI:	SAVAC				;Save the ACs

; Set up parameters:

; NETLN (0) setup:

	IFN	TCK,<			;Type-checking code
	HRLI	T1,.TYPE		;Get NETLN's type
	HRRI	T1,0(ARG)		;...
	LDB	T1,T1			;...
	CAIN	T1,.OK			;Unspecified is always OK
	 JRST	L.36			;...
	CAIE	T1,.I1			;One-word integer is correct
	 RETURN	RIWRNG			;Anything else is trouble
>; End IFN TCK
L.36:	XMOVEI	T1,@0(ARG)		;[51]Address of NETLN
	MOVEM	T1,NETLN		;Save it
	SKIPL	T1,@NETLN		;Get value given. Can not be negative
	CAILE	T1,MAXLL		;Or greater than MAXLL
	 RETURN	RIWRNG			;Return error

; COUNT (1) setup:

	IFN	TCK,<			;Type-checking code
	HRLI	T1,.TYPE		;Get COUNT's type
	HRRI	T1,1(ARG)		;...
	LDB	T1,T1			;...
	CAIN	T1,.OK			;Unspecified is always OK
	 JRST	L.37			;...
	CAIE	T1,.I1			;One-word integer is correct
	 RETURN	RIWRNG			;Anything else is trouble
>; End IFN TCK
L.37:	XMOVEI	T1,@1(ARG)		;[51]Address of ARG
	MOVEM	T1,COUNT		;Save it

; DATA (2) setup:

	HRLI	T1,.TYPE		;Get DATA's type
	HRRI	T1,2(ARG)		;...
	LDB	T1,T1			;...
	CAIN	T1,.OK			;Unspecified, assume FORTRAN
	 JRST	L.39			;...
	CAIE	T1,.ST			;[7] COBOL byte string
	 JRST	L.39			;[7] Otherwise, assume FORTRAN for now

; COBOL code:

	XMOVEI	T1,@2(ARG)		;[51][7] Address of string descriptor
	MOVE	T1,0(T1)		;Byte pointer
	LDB	T3,[POINT 6,T1,11]	;[7] Get byte size
	CAIE	T3,7			;[7] Must be ASCII
	 RETURN	RIWRNG			;[7] Wrong type
	JRST	.E7			;...

; End of COBOL code.

; FORTRAN code:

L.39:	XMOVEI	T1,@2(ARG)		;[51]String address
	HLL	T1,[POINT 7,0]		;Make it a byte pointer

; End of FORTRAN code.

.E7:	MOVEM	T1,DATA			;Save it

; End of setting up parameters.
; RCI (8)

; Receive an interrupt.

; NETLN:	link number
; DATA:		interrupt data returned
; COUNT:	length of data

RCI:
T20,<	MOVE	T1,@NETLN		;Get slot number
	MOVX	T2,EV.INT		;
	ANDCAM	T2,LLEVNT(T1)		;
	MOVE	T1,LLJFN(T1)		;Get the JFN
	MOVEI	T2,.MORIM		;MTOPR function
	MOVE	T3,DATA			;Byte pointer
	MTOPR%				;
	 ERJMP	[RETURN RINONE]		;No interrupt message
	MOVEM	T4,@COUNT		;Return count of bytes in message
	MOVE	T1,@NETLN		;Get slot number
	RETURN	RIOK..			;Return 0
>; End of T20

T10,<	MOVE	T1,@NETLN		;Get channel number
	HRRZM	T1,BL$NSP+.NSACH	;Save in NSP. arg block
	MOVEI	T1,<1+<<SOPTDT+3>/4>> ;Make string header
	MOVEM	T1,BL$OPT		;Save in block
	MOVEI	T1,BL$OPT		;Update NSP. arg blk.
	MOVEM	T1,BL$NSP+.NSAA1
	MOVE	T2,[XWD .NSFIR,.NSAA1+1] ;Function code (REC INT DATA), length
	MOVEM	T2,BL$NSP+.NSAFN	;Save in NSP. arg blk.
	MOVEI	T1,BL$NSP
	NSP.	T1,			;Do it
	  JRST	.NSPER			;Look at error code
	MOVE	T1,BL$NSP+.NSACH	;Get status
	CALL	.CNEVT			;Update event word
	HLRZ	T1,BL$OPT+.NSASL	;Get string length
	MOVEM	T1,@COUNT		;Tell user how many bytes
	JUMPE	T1,[RETURN RINONE]	;No data??
	MOVE	T2,DATA			;Pointer to user data
	MOVE	T3,[POINT 8,BL$OPT+.NSAST] ;Pointer to string block
RCI1:	ILDB	T4,T3			;Get a char
	IDPB	T4,T2			;Store a char
	SOJG	T1,RCI1			;Loop
	RETURN	RIOK..			;Return okay
>; End of T10

	PRGEND				;End of NFRCI
	TITLE	NFCLS Disconnect or abort a logical link
	ENTRY	NFCLS
	SEARCH	TTTUNV
	TTTINI
T20,<	EXTERN	.JSER>
T10,<	EXTERN	.NSPER>
; NFCLS (9A)
;
; Disconnect or abort the logical link (release its resources for reuse).
;
; A synchronous disconnect acts as a pipeline marker which will disconnect
; the link after all transmissions outstanding have been completed.  An
; abort instantaneously disconnects the link from the local end, as far as
; the user is concerned.  DECNET specifies an abort code to be passed in
; either case, but this feature is not universally implemented.  This routine
; may be called either before or after receipt of a disconnect for the other
; end.
;
; Network event indications are cleared at various times, depending on the
; event.  Connect and disconnect (NOT abort) are cleared when reported.
; Abort is never cleared; any further invocations of NFGND for an aborted
; link will always get the "abort" code (until the link is disconnected
; by the user, in which case the NETLN becomes an invalid parameter).
; A data event is cleared only when there is no more data to be gotten at the
; moment.  An interrupt event is cleared immediately for all implementations
; that allow only one outstanding interrupt message (all, at present).
; For other implementations, it is treated like a data event.
;
; CALL NFCLS USING NETLN, TYPE, COUNT, DATA.
; RETCOD = NFCLS (NETLN, TYPE, COUNT, DATA)
;
; NETLN	network logical name, set by NFOPA, NFOPB, NFOP8, or NFOPP.
; TYPE	type of link disconnect requested:
;	0: synchronous disconnect (quiesce before disconnecting)
;	nonzero: abort.
;	See Appendix F of the Functional Specification for a description
;	of abort codes.
; COUNT	count of optional data.
; DATA	ASCII optional data (1 to SOPTDT ASCII characters).
; Return code and function value:
;	CLWRNG: an argument is of the wrong type
;	CLOK..: link disconnected
;	HORROR: JSYS error.

NFCLS:	SAVAC				;Save the ACs

; Set up parameters:

; NETLN (0) setup:

	IFN	TCK,<			;Type-checking code
	HRLI	T1,.TYPE		;Get NETLN's type
	HRRI	T1,0(ARG)		;...
	LDB	T1,T1			;...
	CAIN	T1,.OK			;Unspecified is always OK
	 JRST	L.40			;...
	CAIE	T1,.I1			;One-word integer is correct
	 RETURN	CLWRNG			;Anything else is trouble
>; End IFN TCK
L.40:	XMOVEI	T1,@0(ARG)		;[51]NETLN address
	MOVEM	T1,NETLN		;Save it
	SKIPL	T1,@NETLN		;Get value given. Can not be negative
	CAILE	T1,MAXLL		;Or greater than MAXLL
	 RETURN	CLWRNG			;Return error

; TYPE (1) setup:

	IFN	TCK,<			;Type-checking code
	HRLI	T1,.TYPE		;Get TYPE's type
	HRRI	T1,1(ARG)		;...
	LDB	T1,T1			;...
	CAIN	T1,.OK			;Unspecified is always OK
	 JRST	L.41			;...
	CAIE	T1,.I1			;One-word integer is correct
	 RETURN	CLWRNG			;Anything else is trouble
>; End IFN TCK
L.41:	XMOVEI	T1,@1(ARG)		;[51]Abort or disconnect flag
	MOVEM	T1,TYPE			;Save it

; COUNT (2) setup:

	IFN	TCK,<			;Type-checking code
	HRLI	T1,.TYPE		;Get COUNT's type
	HRRI	T1,2(ARG)		;...
	LDB	T1,T1			;...
	CAIN	T1,.OK			;Unspecified is always OK
	 JRST	L.43			;...
	CAIE	T1,.I1			;One-word integer is correct
	 RETURN	CLWRNG			;Anything else is trouble
>; End IFN TCK
L.43:	XMOVEI	T1,@2(ARG)		;[51]Byte count address
	MOVEM	T1,COUNT		;Save it

; DATA (3) setup:

	HRLI	T1,.TYPE		;Get DATA's type
	HRRI	T1,3(ARG)		;...
	LDB	T1,T1			;...
	CAIN	T1,.OK			;Unspecified, assume FORTRAN
	 JRST	L.45			;...
	CAIE	T1,.ST			;[7] COBOL byte string
	 JRST	L.45			;[7] Otherwise, assume FORTRAN for now

; COBOL code:

	XMOVEI	T1,@3(ARG)		;[51][7] DATA descriptor
	MOVE	T1,0(T1)		;Byte pointer
	LDB	T3,[POINT 6,T1,11]	;[7] Get byte size
	CAIE	T3,7			;[7] Must be ASCII
	 RETURN	CLWRNG			;[7] Wrong type
	JRST	.E8			;...

; End of COBOL code.

; FORTRAN code:

L.45:	XMOVEI	T1,@3(ARG)		;[51]String address
	HLL	T1,[POINT 7,0]		;Make it a byte pointer

; End of FORTRAN code.

.E8:	MOVEM	T1,DATA			;Save it

; End of setting up parameters.
; CLS (9)

; Close a logical link.

; NETLN:	link number
; TYPE:		type of close
; COUNT:	count of optional data
; DATA:		optional data

CLS:
T20,<	MOVE	T1,@NETLN		;Get slot number
	MOVE	T2,LLSTAT(T1)		;[4] Get status
	TXNN	T2,MO%CON		;[4] Still connected?
	 JRST	CLOZ			;[4] Only close allowed here
	SKIPE	@TYPE			;[4] Synchronous disconnect?
	 JRST	DOMTR			;[4] No
	SKIPN	@COUNT			;[4] Optional data?
	 JRST	CLOZ			;[4] No
>; End of T20

;[4] Reinsert this code.  They say CLOSF% is fixed.
;[4]
;[4] This code can be re-inserted when CLOSF% is fixed to properly do a
;[4] synchronous disconnect with no optional data.  It currently (5.1
;[4] monitor) does not send a DI unless the MTOPR% is done, so we will
;[4] always do the MTOPR% for now.
; DOMTR

; Do an abort or disconnect with optional data.

; DATA:		optional data
; COUNT:	length of data
; TYPE:		type of disconnect
; CODE:		abort code

DOMTR:
T20,<	MOVE	T1,LLJFN(T1)		;JFN of the link
	MOVEI	T2,.MOCLZ		;Disconnect code
	MOVE	T3,DATA			;Byte pointer
	MOVE	T4,@COUNT		;Character count
	CAILE	T4,SOPTDT		;Check for too long
	 MOVEI	T4,SOPTDT		;Use maximum instead
	HRL	T2,@TYPE		;Abort code
	MTOPR%				;
	 ERJMP	.JSER			;Error?
>; End of T20
; CLOZ

; Do a synchronous disconnect or abort with no optional data.

; TYPE:		type of close
; NETLN:	link number

CLOZ:
T20,<	MOVE	T1,@NETLN		;Get slot number
	MOVE	T1,LLJFN(T1)		;Get the JFN
	SKIPE	@TYPE			;Abort or synchronous?
	 TXO	T1,CZ%ABT		;Abort
	CLOSF%				;Close the logical link
	 ERJMP	.JSER			;Error?
	MOVE	T2,@NETLN		;Slot number
	SETZM	LLJFN(T2)		;Zero the JFN
	SETZM	LLEVNT(T2)		;Zero the event word
	SETZM	LLSTAT(T2)		;   and the status word
	RETURN	CLOK..			;
>; End of T20
T10,<	MOVE	T1,@NETLN		;Get channel number
	HRRZM	T1,BL$NSP+.NSACH	;Save in NSP. arg block
	MOVE	T1,@COUNT		;Get user byte count
	MOVEI	T2,.NSACH+1		;Assume short arg type
	SKIPN	T1			;Zero bytes?
	  JRST	CLS2			;Don't send it then
	CAILE	T1,SOPTDT		;More than the max?
	  MOVEI	T1,SOPTDT		;Make it the max
	HRLM	T1,BL$OPT+.NSASL	;Save in string desc.
	MOVE	T2,[POINT 7,@DATA]	;Pointer to user data
	MOVE	T3,[POINT 8,BL$OPT+.NSAST] ;Pointer to string block
CLS1:	ILDB	T4,T2			;Get a char
	IDPB	T4,T3			;Store a char
	SOJG	T1,CLS1			;Loop
	MOVEI	T1,BL$OPT		;Update NSP. arg blk.
	MOVEM	T1,BL$NSP+.NSAA1
	MOVEI	T2,.NSAA1+1		;Long block length
CLS2:	HRLI	T2,.NSFSD		;Function code (Synchronous disconnect)
	MOVEM	T2,BL$NSP+.NSAFN	;Save in NSP. arg blk.
	MOVEI	T1,BL$NSP
	NSP.	T1,			;Do it
	  JFCL				;Probably wrong state
	MOVE	T1,[XWD .NSFRL,.NSACH+1];Now, release the channel
	MOVEM	T1,BL$NSP+.NSAFN
	MOVEI	T1,BL$NSP
	NSP.	T1,			;Do it
	  JFCL				;Could be wrong state again, but
					; in any case the link is released
CLS3:	MOVE	T1,@NETLN		;Get line number
	SETZM	LLSTAT(T1)		;Clear status word
	SETZM	LLEVNT(T1)		;Clear event word
	SOSGE	NUMLL			;Decrement active LL count
	  SETZM	NUMLL			;Don't let it go negative
	RETURN	CLOK..			;
>; End of T10

	PRGEND				;End of NFCLS
	TITLE	NFINF Get link information
	ENTRY	NFINF
	SEARCH	TTTUNV
	TTTINI
T20,<	EXTERN	.JSER>
T10,<	EXTERN	.NSPER>
; NFINF (10A)
;
; Get information about the other end of the logical link.
;
; CALL NFINF USING NETLN, TYPE, COUNT, AREA.
; RETCOD = NFINF (NETLN, TYPE, COUNT, AREA)
;
; NETLN	network logical name, set by NFOPA, NFOPB, NFOP8, or NFOPP.
; TYPE	type of information wanted:
;	INODE: remote node name
;	IOBJ: remote object type (passive only)
;	IDESCF: remote object descriptor format (0, 1, 2) (passive only)
;	IDESC: remote object descriptor (passive only)
;	IUSER: remote process user id (passive only)
;	IPASS: remote process password (passive only)
;	IACCT: remote process account (passive only)
;	IOPT: remote process optional data or disconnection
;	or reject optional data
;	ISEG: maximum segment size for the link
;		Only available if connection has been accepted!
;	IABTCD: abort code
; COUNT	length of data returned.
; AREA	where to put ASCII data.  Must be at least 16 characters long.
; Return code and function value:
;	INWRNG: an argument is of the wrong type
;	INOK..: success
;	INNOTA: information not available
;	INOUTR: type is out of range
;	HORROR: JSYS error.

NFINF:	SAVAC				;Save the ACs

; Set up parameters:

; NETLN (0) setup:

	IFN	TCK,<			;Type-checking code
	HRLI	T1,.TYPE		;Get NETLN's type
	HRRI	T1,0(ARG)		;...
	LDB	T1,T1			;...
	CAIN	T1,.OK			;Unspecified is always OK
	 JRST	L.46			;...
	CAIE	T1,.I1			;One-word integer is correct
	 RETURN	INWRNG			;Anything else is trouble
>; End IFN TCK
L.46:	XMOVEI	T1,@0(ARG)		;[51]Address of NETLN
	MOVEM	T1,NETLN		;Save it
	SKIPL	T1,@NETLN		;Get value given. Can not be negative
	CAILE	T1,MAXLL		;Or greater than MAXLL
	 RETURN	INWRNG			;Return error

; TYPE (1) setup:

	IFN	TCK,<			;Type-checking code
	HRLI	T1,.TYPE		;Get TYPE's type
	HRRI	T1,1(ARG)		;...
	LDB	T1,T1			;...
	CAIN	T1,.OK			;Unspecified is always OK
	 JRST	L.47			;...
	CAIE	T1,.I1			;One-word integer is correct
	 RETURN	INWRNG			;Anything else is trouble
>; End IFN TCK
L.47:	XMOVEI	T1,@1(ARG)		;[51]Address of TYPE
	MOVEM	T1,TYPE			;Save TYPE

; COUNT (2) setup:

	IFN	TCK,<			;Type-checking code
	HRLI	T1,.TYPE		;Get COUNT's type
	HRRI	T1,2(ARG)		;...
	LDB	T1,T1			;...
	CAIN	T1,.OK			;Unspecified is always OK
	 JRST	L.48			;...
	CAIE	T1,.I1			;One-word integer is correct
	 RETURN	INWRNG			;Anything else is touble
>; End IFN TCK
L.48:	XMOVEI	T1,@2(ARG)		;[51]Address of COUNT
	MOVEM	T1,COUNT		;Save it

; AREA (3) setup:

	HRLI	T1,.TYPE		;Get AREA's type
	HRRI	T1,3(ARG)		;...
	LDB	T1,T1			;...
	CAIN	T1,.OK			;Unspecified, assume FORTRAN
	 JRST	L.50			;...
	CAIE	T1,.ST			;[7] COBOL byte string
	 JRST	L.50			;[7] Otherwise, assume FORTRAN for now

; COBOL code:

	XMOVEI	T1,@3(ARG)		;[51][7] Address of data descriptor
	MOVE	T1,0(T1)		;Byte pointer
	LDB	T3,[POINT 6,T1,11]	;[7] Get byte size
	CAIE	T3,7			;[7] Must be ASCII
	 RETURN	INWRNG			;[7] Wrong type
	JRST	.E9			;...

; End of COBOL code.

; FORTRAN code:

L.50:	XMOVEI	T1,@3(ARG)		;[51]String address
	HLL	T1,[POINT 7,0]		;Make it a byte pointer

; End of FORTRAN code.

.E9:	MOVEM	T1,DATA			;Save it

; End of setting up parameters.

	MOVE	T1,@TYPE		;Get information type
	CAIL	T1,IMIN			;Is requested type
	 CAILE	T1,IMAX			;   within range?
	  RETURN INOUTR			;No, error
	JRST	INFDSP(T1)		;Go do it.
; INFDSP (10)

; Get link information.

; TYPE:		type of information

INFDSP:	JRST	BADTYP			;(0): No such function
	JRST	NODNAM			;INODE (1): Return node name
	JRST	OBJTYP			;IOBJ (2): Return object type
	JRST	OBJDSF			;IDESCF (3): Object descriptor format
	JRST	OBJDSC			;IDESC (4): Return object descriptor
	JRST	USERID			;IUSER (5): Return userid
	JRST	PASSWD			;IPASS (6): Return password
	JRST	ACCNT			;IACCT (7): Return account
	JRST	OPTDAT			;IOPT (8): Return optional data
	JRST	SEGSIZ			;ISEG (9): Return maximum segment size
	JRST	ABTCOD			;IABTCD (10): Get abort code


BADTYP:	RETURN	INOUTR			;Unknown TYPE arg
; ABTCOD (10.10)

; Get the abort code.

; NETLN:	link number
; DATA:		returned data
; COUNT:	length of returned data


ABTCOD:
T20,<	MOVE	T1,@NETLN		;Get slot number
	HRRZ	T2,LLSTAT(T1)		;Abort or disconnect code
	MOVE	T1,DATA			;Byte pointer
	MOVEI	T3,^D10			;Radix
	NOUT%				;
	 ERJMP	.JSER			;Error?
	CALL	NUMB			;Return string size
	RETURN	INOK..			;
>; End of T20

T10,<	MOVE	T1,@NETLN		;Get channel number
	HRRZM	T1,BL$NSP+.NSACH	;Save in NSP. arg block
	SETZM	T1,BL$NSP+.NSAA1	;We don't want the user data
	MOVE	T2,[XWD .NSFRD,.NSAA2+1] ;Function code (READ DISC DATA), length
	MOVEM	T2,BL$NSP+.NSAFN	;Save in NSP. arg blk.
	MOVEI	T1,BL$NSP
	NSP.	T1,			;Do it
	 RETURN	INNOTA			;Not available, I guess
	MOVE	T1,DATA			;Get byte pointer to user area
	MOVE	T2,BL$NSP+.NSAA2	;Get code
	CALL	DECSTR			;Convert radix 10 to string
	CALL	NUMB			;Tell user count of bytes
	RETURN	INOK..			;Return 0
>; End of T10
; NODNAM (10.1)

; Get the remote node name.

; NETLN:	link number
; DATA:		returned data
; COUNT:	length of returned data

NODNAM:
T20,<	MOVE	T1,@NETLN		;Get slot number
	MOVE	T1,LLJFN(T1)		;Get the JFN
	MOVEI	T2,.MORHN		;
	MOVE	T3,DATA			;
	MTOPR%				;
	 ERJMP	.JSER			;Error?
	MOVE	T1,T3			;Updated byte pointer
	CALL	NUMB			;Count bytes
	RETURN	INOK..			;Return node name
>; End of T20

T10,<	MOVE	T4,@NETLN		;Get channel number
	SKIPN	LLSTAT(T4)
	 RETURN	INNOTA			;Not assigned
	SUBI	T4,1			;Channel numbers start at 1
	IMULI	T4,BL$ILN		;Multiply by INFO block size
	SKIPN	BL$INF+BL$IND(T4)	;Do we have it?
	 RETURN	INNOTA			;Nope
	MOVE	T1,DATA			;Pointer to user data area
	MOVE	T2,[POINT 7,BL$INF+BL$IND(T4)] ; Pointer to INFO area
NODNM1:	ILDB	T3,T2			;Get a byte
	JUMPE	T3,NODNM2		;End of string?
	IDPB	T3,T1			;No, save it
	JRST	NODNM1			;Loop
NODNM2:	CALL	NUMB			;Count bytes for user
	RETURN	INOK..			;All done
>; End of T10
; OBJTYP (10.2)

; Get the remote object type.

; NETLN:	link number
; DATA:		returned data
; COUNT:	length of returned data


OBJTYP:
T20,<	MOVE	T1,@NETLN		;Get slot number
	MOVE	T2,LLSTAT(T1)		;Get logical link status
	TXNN	T2,MO%SRV		;A server?
	 RETURN	INNOTA			;No, no data to return
	MOVE	T1,LLJFN(T1)		;Get the JFN
	MOVEI	T2,.MORCN		;
	MTOPR%				;
	 ERJMP	.JSER			;Error?
	MOVE	T1,DATA			;
	MOVE	T2,T3			;Object type
	MOVEI	T3,^D10			;Base 10
	NOUT%				;Return it
	 JRST	.JSER			;Error?
	CALL	NUMB			;String size
	RETURN	INOK..			;
>; End of T20

T10,<	MOVE	T4,@NETLN		;Get channel number
	SKIPN	LLSTAT(T4)
	 RETURN	INNOTA			;Not assigned
	SUBI	T4,1			;Channel numbers start at 1
	IMULI	T4,BL$ILN		;Multiply by INFO block size
	HLRZ	T2,BL$INF+BL$IOB(T4)	;Get INFO
	SKIPN	T2			;Do we have it?
	 RETURN	INNOTA			;Nope
	TRZ	T2,400000		;Clear "valid" flag
	MOVE	T1,DATA			;Byte pointer to user area
	CALL	DECSTR			;Convert radix 10 to string
	CALL	NUMB			;Tell user count of bytes
	RETURN	INOK..			;Return node name
>; End of T10
; USERID (10.5)

; Get the remote process userid.

; NETLN:	link number
; DATA:		returned data
; COUNT:	length of returned data

USERID:
T20,<	MOVE	T1,@NETLN		;Slot number
	MOVE	T2,LLSTAT(T1)		;Logical link status
	TXNN	T2,MO%SRV		;A server?
	 RETURN	INNOTA			;No
	MOVE	T1,LLJFN(T1)		;Get the JFN
	MOVEI	T2,.MORUS		;
	MOVE	T3,DATA			;
	MTOPR%				;
	 ERJMP	.JSER			;Error?
	MOVE	T1,T3			;Updated byte pointer
	CALL	NUMB			;String length
	RETURN	INOK..			;
>; End of T20

T10,<	MOVE	T4,@NETLN		;Get channel number
	SKIPN	LLSTAT(T4)
	 RETURN	INNOTA			;Not assigned
	SUBI	T4,1			;Channel numbers start at 1
	IMULI	T4,BL$ILN		;Multiply by INFO block size
	SKIPN	BL$INF+BL$IUS(T4)	;Do we have it?
	 RETURN	INNOTA			;Nope
	MOVE	T1,DATA			;Pointer to user data area
	MOVE	T2,[POINT 7,BL$INF+BL$IUS(T4)] ; Pointer to INFO area
USRID1:	ILDB	T3,T2			;Get a byte
	JUMPE	T3,USRID2		;End of string?
	IDPB	T3,T1			;No, save it
	JRST	USRID1			;Loop
USRID2:	CALL	NUMB			;Count bytes for user
	RETURN	INOK..			;All done
>; End of T10
; OBJDSF (10.3)

; Get the remote object descriptor format:

; NETLN:	link number
; DATA:		returned data
; COUNT:	length of returned data

OBJDSF:
T20,<	MOVEI	T1,1			;String length
	MOVEM	T1,@COUNT		;Return it
	MOVE	T1,@NETLN		;Get slot number
	MOVE	T2,LLSTAT(T1)		;Get logical link status
	TXNN	T2,MO%SRV		;Server?
	 RETURN	INNOTA			;
	MOVE	T1,LLJFN(T1)		;Get the JFN
	MOVEI	T2,.MOROD		;Function
	MOVE	T3,[POINT 7,TEMPST]
	MTOPR%				;
	 ERJMP	.JSER			;Error?
	MOVE	T1,DATA			;
	MOVEI	T2,"0"			;
	CAMN	T3,[POINT 7,TEMPST]	;
	 JRST	[BOUT%			;
		 RETURN	INOK..]		;
	JUMPE	T4,[ADDI T2,1		;User and group numbers?  No
		 BOUT%			;
		 RETURN	INOK..]		;
	ADDI	T2,2			;Yes
	BOUT%				;
	RETURN	INOK..			;
>; End of T20

T10,<	MOVE	T4,@NETLN		;Get channel number
	SKIPN	LLSTAT(T4)
	 RETURN	INNOTA			;Not assigned
	SUBI	T4,1			;Channel numbers start at 1
	IMULI	T4,BL$ILN		;Multiply by INFO block size
	HRRZ	T2,BL$INF+BL$IFM(T4)	;Get INFO
	SKIPN	T2			;Do we have it
	 RETURN	INNOTA			;Nope
	TRZ	T2,400000		;Clear "valid" flag
	MOVE	T1,DATA			;Byte pointer to user area
	CALL	DECSTR			;Convert radix 10 to string
	CALL	NUMB			;Tell user count of bytes
	RETURN	INOK..			;Return node name
>; End of T10
; OBJDSC (10.4)

; Get the remote object description.

; NETLN:	link number
; DATA:		returned data
; COUNT:	length of returned data

OBJDSC:
T20,<	MOVE	T1,@NETLN		;Get slot number
	MOVE	T2,LLSTAT(T1)		;Get logical link status
	TXNN	T2,MO%SRV		;Server?
	 RETURN	INNOTA			;No
	MOVE	T1,LLJFN(T1)		;Get JFN
	MOVEI	T2,.MOROD		;Object descriptor function
	MOVE	T3,[POINT 7,TEMPST]	;
	MTOPR%				;
	 ERJMP	.JSER			;Error?
	JUMPE	T4,[HRROI T1,TEMPST	;Group and user codes?
		 MOVE	T2,DATA		;From temp string to user's buffer
		 SETZ	T3,		;ASCIZ string
		 SIN%			;
		 MOVE	T1,T2		;Updated pointer
		 CALL	NUMB		;String length
		 RETURN	INOK..]		;
	MOVE	T1,DATA			;User's buffer
	HLRZ	T2,T4			;Group
	MOVEI	T3,^D8			;Octal
	NOUT%				;
	 ERJMP	.JSER			;Error?
	MOVEI	T2,","			;Comma
	BOUT%				;
	HRRZ	T2,T4			;User
	NOUT%				;
	 ERJMP	.JSER			;Error?
	MOVEI	T2,","			;
	BOUT%				;
	HRROI	T2,TEMPST		;
	SETZ	T3,			;
	SOUT%				;
	CALL	NUMB			;String length
	RETURN	INOK..			;
>; End of T20
T10,<	MOVE	T4,@NETLN		;Get channel number
	SKIPN	LLSTAT(T4)
	 RETURN	INNOTA			;Not assigned
	SUBI	T4,1			;Channel numbers start at 1
	IMULI	T4,BL$ILN		;Multiply by INFO block size
	HRRZ	T2,BL$INF+BL$IFM(T4)	;Get Format type
	SKIPN	T2			;Do we have it?
	 RETURN	INNOTA			;Nope
	MOVE	T1,DATA			;Byte pointer to user area
	TRZ	T2,400000		;Clear "valid" flag
	CAIGE	T2,2			;Format type 0 or 1?
	  JRST	OBJD4			;Then only a string
	HLRZ	T2,BL$INF+BL$IPP(T4)	;Get group (project) number
	CALL	OCTSTR			;Turn it into a string
	MOVEI	T2,","			;Separate with comma
	IDPB	T2,T1
	HRRZ	T2,BL$INF+BL$IPP(T4)	;Get user (programmer) number
	CALL	OCTSTR			;Turn it into a string
	MOVEI	T2,","			;Separate with comma
	IDPB	T2,T1
OBJD4:	MOVE	T2,[POINT 7,BL$INF+BL$ITK(T4)] ; Pointer to INFO area
OBJD1:	ILDB	T3,T2			;Get a byte
	JUMPE	T3,OBJD2		;End of string?
	IDPB	T3,T1			;No, save it
	JRST	OBJD1			;Loop
OBJD2:	CALL	NUMB			;Count bytes for user
	RETURN	INOK..			;All done
>; End of T10
; PASSWD (10.6)

; Get the remote process password:

; NETLN:	link number
; DATA:		returned data
; COUNT:	length of returned data

PASSWD:
T20,<
	MOVE	T1,@NETLN		;Get slot number
	MOVE	T2,LLSTAT(T1)		;Get link status
	TXNN	T2,MO%SRV		;Server only
	 RETURN	INNOTA			;
	MOVE	T1,LLJFN(T1)		;Get the JFN
	MOVEI	T2,.MORPW		;Password function
	MOVE	T3,DATA			;
	MTOPR%				;
	 ERJMP	.JSER			;Error?
	MOVE	T1,T3			;Updated pointer
	CALL	NUMB			;
	RETURN	INOK..			;
>; End of T20

T10,<	MOVE	T4,@NETLN		;Get channel number
	SKIPN	LLSTAT(T4)
	 RETURN	INNOTA			;Not assigned
	SUBI	T4,1			;Channel numbers start at 1
	IMULI	T4,BL$ILN		;Multiply by INFO block size
	SKIPN	BL$INF+BL$IPS(T4)	;Do we have it?
	 RETURN	INNOTA			;Nope
	MOVE	T1,DATA			;Pointer to user data area
	MOVE	T2,[POINT 7,BL$INF+BL$IPS(T4)] ; Pointer to INFO area
PASSW1:	ILDB	T3,T2			;Get a byte
	JUMPE	T3,PASSW2		;End of string?
	IDPB	T3,T1			;No, save it
	JRST	PASSW1			;Loop
PASSW2:	CALL	NUMB			;Count bytes for user
	RETURN	INOK..			;All done
>; End of T10
; ACCNT (10.7)

; Get the remote process account.

; NETLN:	link number
; DATA:		returned data
; COUNT:	length of returned data

ACCNT:
T20,<	MOVE	T1,@NETLN		;Get slot number
	MOVE	T2,LLSTAT(T1)		;Get logical link status
	TXNN	T2,MO%SRV		;Server?
	 RETURN	INNOTA			;No
	MOVE	T1,LLJFN(T1)		;Get the JFN
	MOVEI	T2,.MORAC		;Account string function
	MOVE	T3,DATA			;
	MTOPR%				;
	 ERJMP	.JSER			;Error?
	MOVE	T1,T3			;Updated pointer
	CALL	NUMB			;String length
	RETURN	INOK..			;
>; End of T20

T10,<	MOVE	T4,@NETLN		;Get channel number
	SKIPN	LLSTAT(T4)
	 RETURN	INNOTA			;Not assigned
	SUBI	T4,1			;Channel numbers start at 1
	IMULI	T4,BL$ILN		;Multiply by INFO block size
	SKIPN	BL$INF+BL$IAC(T4)	;Do we have it?
	 RETURN	INNOTA			;Nope
	MOVE	T1,DATA			;Pointer to user data area
	MOVE	T2,[POINT 7,BL$INF+BL$IAC(T4)] ; Pointer to INFO area
ACCT1:	ILDB	T3,T2			;Get a byte
	JUMPE	T3,ACCT2		;End of string?
	IDPB	T3,T1			;No, save it
	JRST	ACCT1			;Loop
ACCT2:	CALL	NUMB			;Count bytes for user
	RETURN	INOK..			;All done
>; End of T10
; OPTDAT (10.8)

; Get the remote process optional data.

; NETLN:	link number
; DATA:		returned data
; COUNT:	length of returned data

OPTDAT:
T20,<	MOVE	T1,@NETLN		;Get slot number
	MOVE	T1,LLJFN(T1)		;Get the JFN
	MOVEI	T2,.MORDA		;Optional data function
	MOVE	T3,DATA			;Byte pointer
	MTOPR%				;
	 ERJMP	.JSER			;Error?
	MOVE	T1,T3			;Updated pointer
	CALL	NUMB			;String length
	RETURN	INOK..			;
>; End of T20

T10,<	MOVE	T4,@NETLN		;Get channel number
	SKIPN	LLSTAT(T4)
	 RETURN	INNOTA			;Not assigned
	SUBI	T4,1			;Channel numbers start at 1
	IMULI	T4,BL$ILN		;Multiply by INFO block size
	SKIPN	BL$INF+BL$IOP(T4)	;Do we have it?
	 RETURN	INNOTA			;Nope
	MOVE	T1,DATA			;Pointer to user data area
	MOVE	T2,[POINT 7,BL$INF+BL$IOP(T4)] ; Pointer to INFO area
OPTD1:	ILDB	T3,T2			;Get a byte
	JUMPE	T3,OPTD2		;End of string?
	IDPB	T3,T1			;No, save it
	JRST	OPTD1			;Loop
OPTD2:	CALL	NUMB			;Count bytes for user
	RETURN	INOK..			;All done
>; End of T10
; SEGSIZ (10.9)

; Get the maximum segment size.

; NETLN:	link number
; DATA:		returned data
; COUNT:	length of returned data

SEGSIZ:
T20,<	MOVE	T1,@NETLN		;Get slot number
	MOVE	T1,LLJFN(T1)		;Get the JFN
	MOVEI	T2,.MORSS		;Segment size function
	MTOPR%				;Do the function
	 ERJMP	.JSER			;Error?
	MOVE	T2,T3			;Size
	MOVEI	T3,^D10			;Radix ten
	MOVE	T1,DATA			;Byte pointer
	NOUT%				;...
	 ERJMP	.JSER			;Error?
	CALL	NUMB			;Return string size
	RETURN	INOK..			;
>; End of T20
T10,<	MOVE	T1,[XWD .NSFRS,.NSAA1+1] ;Function (READ STS), length
	MOVEM	T1,BL$NSP+.NSAFN
	MOVE	T1,@NETLN		;Get channel number
	MOVEM	T1,BL$NSP+.NSACH
	MOVEI	T1,BL$NSP
	NSP.	T1,			;Do it
	 RETURN	INNOTA			;Not available
	MOVE	T1,DATA			;Get pointer to user area
	MOVE	T2,BL$NSP+.NSAA1	;Get segment size
	CALL	DECSTR			;Give decimal string to user
	CALL	NUMB			;Tell him/her how many bytes
	RETURN	INOK..
>; End of T10
; NUMB

; Count bytes in a string.

; T1:		byte pointer to end of string
; DATA:		start of string
; COUNT:	length of string

NUMB:	HRRZ	T2,T1			;Updated word
	HRRZ	T3,DATA			;Original word
	SUB	T2,T3			;Number of words
	IMULI	T2,^D5			;Number of characters
	LSH	T1,-^D30		;Get P
	MOVEI	T3,^D36			;Bits in a word
	SUB	T3,T1			;Bits
	IDIVI	T3,^D7			;Bytes
	ADD	T2,T3			;Total bytes
	MOVEM	T2,@COUNT		;Return it
	RET				;

T10,<
DECSTR:	SKIPA	T4,[EXP ^D10]
OCTSTR:	MOVEI	T4,^D8
NUMSTR:	JUMPGE	T2,NUMST1
	MOVEI	T3,"-"
	IDPB	T3,T1
	MOVMS	T2
NUMST1:	IDIVI	T2,(T4)
	ADDI	T3,"0"
	PUSH	P,T3
	SKIPE	T2
	PUSHJ	P,NUMST1
	POP	P,T3
	IDPB	T3,T1
	POPJ	P,
>; End of T10
	PRGEND				;End of NFINF

	TITLE	.UPEVT	Update the event flags
	SEARCH	TTTUNV
	TTTINI
	ENTRY	.UPEVT
T10,<	ENTRY	.CNEVT,.GTINF
	EXTERN	.NSPER,.NSPIN>
; .UPEVT (2.3)
;
; Update the event flags.
;
; Called explicitly and whenever an interrupt occurs.
;
; T1 must contain the slot number of the logical link
; or -1 to indicate update of all links.

.UPEVT:	JUMPGE	T1,[CALL ONELL		;If one link, update the single link
		 RET	]		;... and return
	MOVE	T4,[-MAXLL,,0]		;Make AOBJN pointer

; Do all links:

UPLP:	HRRZ	T1,T4			;Get logical link number
T20,<	SKIPN	LLJFN(T1)>		;Link in use?
T10,<	SKIPN	LLSTAT(T1)>		;Channel assigned?
	 JRST	UPLPE			;No
	PUSH	P,T4			;Save T4
	CALL	ONELL			;Yes
	POP	P,T4			;Restore T4

UPLPE:	AOBJN	T4,UPLP			;Do all links
	RET				;
; Do one link:

ONELL:
T20,<	PUSH	P,T1			;Save the slot number
	MOVE	T1,LLJFN(T1)		;Get the JFN
	MOVEI	T2,.MORLS		;Get link status
	MTOPR%				;Get it
	 ERCAL	[SETZ	T3,		;Zero status on error
		 RET	]		;Go on
	POP	P,T1			;Get slot number
	MOVE	T2,LLSTAT(T1)		;Get old status
	MOVE	T4,LLEVNT(T1)		;Get event word
	TXNE	T3,MO%SRV		;Passive task?
	 JRST	PASS			;Yes, do it now
	TXNE	T3,MO%CON		;Now connected?
	 JRST	[TXNN	T2,MO%CON	;Not connected before?
		  TXO	T4,EV.CON	;Connect event
		 JRST	.+1	]	;
	JRST	COMM			;Common checks

PASS:	TXNE	T2,MO%WFC		;Were waiting for connect?
	 JRST	[TXNN	T3,MO%WFC	;Yes, connect event
		  TXO	T4,EV.CON	;Yes, connect event
		 JRST	.+1	]	;

COMM:	TXNE	T3,MO%ABT		;Abort?
	 JRST	[TXNN	T2,MO%ABT	;Abort before?
		  TXO	T4,EV.ABT	;Abort event
		 JRST	.+1	]	;
	TXNE	T3,MO%INT		;Interrupt message available?
	 JRST	[TXNN	T2,MO%INT	;
		  TXO	T4,EV.INT	;Interrupt message event
		 JRST	.+1	]	;
	TXNE	T3,MO%SYN		;Disconnect?
	 JRST	[TXNN	T2,MO%SYN	;
		  TXO	T4,EV.DIS	;Disconnect event
		 JRST	.+1	]	;
	MOVEM	T3,LLSTAT(T1)		;Save new link status
	PUSH	P,T1			;Save slot number
	MOVE	T1,LLJFN(T1)		;Get JFN
	SIBE%				;Any data?
	 JRST	[TXO	T4,EV.DAT	;Data event
		 JRST	GOTDAT	]	;
	TXZ	T4,EV.DAT		;No data

GOTDAT:	POP	P,T1			;Restore T1
	MOVEM	T4,LLEVNT(T1)		;Save event word
	RET				;
>; End of T20
T10,<	MOVE	T2,[XWD .NSFRS,.NSACH+1] ;Function (READ STS), length
	MOVEM	T2,BL$NSP+.NSAFN
	MOVEM	T1,BL$NSP+.NSACH
	MOVEI	T2,BL$NSP
	NSP.	T2,			;Do it
	  JRST	.NSPER			;Check error code
	SKIPA	T2,BL$NSP+.NSACH	;Get channel status
.CNEVT:	MOVE	T2,T1			;External entry with T1=STATUS
					;Get status into T2 as well
	MOVE	T3,LLSTAT(T1)		;Get old Status
	MOVE	T4,LLEVNT(T1)		;Get current event word
	TXZ	T4,EV.DAT		;Assume no data available
	TXNE	T2,NS.NDA		;Data now available?
	  TXO	T4,EV.DAT		;Mark it
	TXZ	T4,EV.INT		;Assume no interrupt data
	TXNE	T2,NS.IDA		;Int data now available?
	  TXO	T4,EV.INT		;Mark it
	MOVEM	T2,LLSTAT(T1)		;Save new Status
	LDB	T2,[POINTR T2,NS.STA]	;Get new status code
	LDB	T3,[POINTR T3,NS.STA]	;Get old status code
	CAIN	T2,.NSSCM		;[110] if no communications
	  JRST  [TXO T4, EV.ABT		;[110] tell user link is aborted
		 JRST ONELL5]		;[110]
	CAIE	T2,.NSSCR		;Now connect received?
	 CAIN	T2,.NSSRN		;Or running?
	  CAIA				;Then link is connected
	JRST	ONELL1			;Not connected, on to next test
	CAIE	T3,.NSSCW		;Old status connect wait?
	 CAIN	T3,.NSSCS		;or connect sent?
	  JRST	[TXO T4,EV.CON		;Then we have a connect event!!!
		JRST ONELL5]		;That's all we need to know
ONELL1:	CAIE	T2,.NSSDR		;New status disconnect received?
	 CAIN	T2,.NSSDC		;Or disconnect confirmed?
	  CAIA				;Then link is disconnected
	JRST	ONELL2			;Not disconnected, on to next test
	CAIE	T3,.NSSRN		;Old status running?
	 CAIN	T3,.NSSDS		;Or disconnect sent?
	  JRST	[TXO T4,EV.DIS		;Then we have a disconnect event!!!
		JRST ONELL5]		;That's all we need to know
ONELL2:	CAIE	T2,.NSSRJ		;Did we get a reject?
	  JRST	ONELL3			;No, continue on
	CAIE	T3,.NSSRN		;Was old state running?
	 CAIN	T3,.NSSCS		;Or connect sent?
	  JRST	[TXO T4,EV.DIS		;Let's call that a disconnect
		JRST ONELL5]		;That's all we need to know
ONELL3:	CAIE	T2,.NSSRN		;Now, if not running
	 CAIE	T3,.NSSRN		;And old status was running
	  CAIA				;Now running, all okay
	   TXO	T4,EV.ABT		;The link must have been aborted
ONELL5:	MOVEM	T4,LLEVNT(T1)		;Store new event word
	RET
; Routine .GTINF
;
; Called when a link goes into connect state.  This routine will read
; the connect block for the link and save away the data that may be
; needed by the NFINF sub-functions.  This is necessary since DECnet-10
; will only save the info until the first read/write from/to the link
; or the first call to NSP. to read connect data.
;
;	Arguments:  T1 contains the channel number
;
;	Preserves all AC's
;
.GTINF:	PUSH	P,T1			;Save some AC's
	PUSH	P,T2
	PUSH	P,T3
	PUSH	P,T4
	MOVEM	T1,BL$NSP+.NSACH	;Save the channel number in NSP. blk
	MOVEI	T4,BL$ILN		;Length of an INFO block
	IMULI	T4,-1(T1)		;Index for this channel
	ADDI	T4,BL$INF		;Plus origin of the table
	MOVE	T1,[XWD .NSFRI,.NSAA1+1] ;NSP. function,,length
	MOVEM	T1,BL$NSP+.NSAFN
	CALL	.NSPIN			;Initialize the connect block
	MOVEI	T1,BL$CON		;Pointer to connect block
	MOVEM	T1,BL$NSP+.NSAA1	;Save for NSP.
	MOVEI	T1,BL$NSP
	NSP.	T1,			;Get the info
	  JRST	GTINF9			;This is not good!
	HLRZ	T1,BL$NOD+.NSASL	;Get byte count
	MOVE	T2,[POINT 8,BL$NOD+.NSAST] ;And pointer to node name
	MOVE	T3,[POINT 7,BL$IND(T4)]	;Plus pointer for INFO block
GTINF1:	ILDB	T0,T2			;Get a byte
	IDPB	T0,T3			;Save it
	SOJG	T1,GTINF1		;Loop
	SETZ	T0,			;Get a zero byte
	IDPB	T0,T3			;Make it ASCIZ
	HLRZ	T1,BL$USR+.NSASL	;Get byte count
	MOVE	T2,[POINT 8,BL$USR+.NSAST] ;And pointer to user ID
	MOVE	T3,[POINT 7,BL$IUS(T4)]	;Plus pointer for INFO block
GTINF2:	ILDB	T0,T2			;Get a byte
	IDPB	T0,T3			;Save it
	SOJG	T1,GTINF2		;Loop
	SETZ	T0,			;Get a zero byte
	IDPB	T0,T3			;Make it ASCIZ
	HLRZ	T1,BL$PAS+.NSASL	;Get byte count
	MOVE	T2,[POINT 8,BL$PAS+.NSAST] ;And pointer to password
	MOVE	T3,[POINT 7,BL$IPS(T4)]	;Plus pointer for INFO block
GTINF3:	ILDB	T0,T2			;Get a byte
	IDPB	T0,T3			;Save it
	SOJG	T1,GTINF3		;Loop
	SETZ	T0,			;Get a zero byte
	IDPB	T0,T3			;Make it ASCIZ
	HLRZ	T1,BL$ACC+.NSASL	;Get byte count
	MOVE	T2,[POINT 8,BL$ACC+.NSAST] ;And pointer to account
	MOVE	T3,[POINT 7,BL$IAC(T4)]	;Plus pointer for INFO block
GTINF4:	ILDB	T0,T2			;Get a byte
	IDPB	T0,T3			;Save it
	SOJG	T1,GTINF4		;Loop
	SETZ	T0,			;Get a zero byte
	IDPB	T0,T3			;Make it ASCIZ
	HLRZ	T1,BL$OPT+.NSASL	;Get byte count
	MOVE	T2,[POINT 8,BL$OPT+.NSAST] ;And pointer to optional user data
	MOVE	T3,[POINT 7,BL$IOP(T4)]	;Plus pointer for INFO block
GTINF5:	ILDB	T0,T2			;Get a byte
	IDPB	T0,T3			;Save it
	SOJG	T1,GTINF5		;Loop
	SETZ	T0,			;Get a zero byte
	IDPB	T0,T3			;Make it ASCIZ
	HLRZ	T1,BL$SPT+.NSASL	;Get byte count
	MOVE	T2,[POINT 8,BL$SPT+.NSAST] ;And pointer to task name
	MOVE	T3,[POINT 7,BL$ITK(T4)]	;Plus pointer for INFO block
GTINF6:	ILDB	T0,T2			;Get a byte
	IDPB	T0,T3			;Save it
	SOJG	T1,GTINF6		;Loop
	SETZ	T0,			;Get a zero byte
	IDPB	T0,T3			;Make it ASCIZ
	MOVE	T1,BL$SPD+.NSDPP	;Get PPN
	MOVEM	T1,BL$IPP(T4)		;Save in block
	MOVE	T1,BL$SPD+.NSDFM	;Get format type
	TRO	T1,400000		;Set "valid" flag
	HRRM	T1,BL$IFM(T4)		;Save in block
	MOVE	T1,BL$SPD+.NSDOB	;Get object type
	TRO	T1,400000		;Set "valid" flag
	HRLM	T1,BL$IOB(T4)		;Save in block
GTINF9:	POP	P,T4			;Restore the AC's
	POP	P,T3
	POP	P,T2
	POP	P,T1
	RET				;Return
>; End of T10
	PRGEND				;End of .UPEVT
	SEARCH	TTTUNV
T20,<	TITLE	.JSER	Handle JSYS errors
	ENTRY	.JSER>
T10,<	TITLE	.NSPER	Handle NSP. UUO errors
	ENTRY	.NSPER>
	TTTINI
; .JSER
;
; Code to execute when a JSYS fails.
; T1 will contain the error code.

.JSER:
T20,<	CAIGE	T1,600000		;Real error code?
	 JRST	[MOVEI	T1,.FHSLF	;For this process
		 GETER%			;Get most recent error
		 HRRZ	T1,T2		;
		 CAIGE	T1,600000	;Real code?
		  SETZ	T1,		;
		 JRST	.+1	]	;
	PUSH	P,T1			;Save real JSYS error code
	MOVEI	T1,.PRIOU		;[46] To the user terminal
	HRROI	T2,[ASCIZ /?JSYS error: /]	;[47][46] Give a nice prefix
	SETZB	T3,T4			;[46] ...
;**; [64] In .JSER, remove SOUT's	CLR	15-Mar-84
;[64]	SOUT%				;[46] Show the user
	MOVEI	T1,.PRIOU		;Primary output
	HRLI	T2,.FHSLF		;Self
	HLLO	T2,T2			;Most recent error
	SETZ	T3,			;All bytes
;**; [64] In .JSER, remove ERSTR	DPR	17-Apr-84
;[64]	ERSTR				;Get error message
	 JFCL
	 JFCL
	MOVEI	T1,.PRIOU		;Add
	HRROI	T2,[ASCIZ /
/]					;... a <CR><LF>
	SETZB	T3,T4			;... to
;**; [64] In .JSER, remove SOUT's	CLR	15-Mar-84
;[64]	SOUT				;... the error message.
	POP	P,T4			;Get JSYS error code
	CAIN	T4,DCNX1		;Invalid network filename
	 RETURN	INVARG			;...
	CAIN	T4,DCNX5		;No more logical links available
	 RETURN	TOOMNY			;...
	CAIN	T4,DCNX3		;Invalid object
	 RETURN	INVARG			;...
	CAIN	T4,DCNX4		;Invalid task name
	 RETURN	INVARG			;...
	CAIN	T4,DCNX9		;Object is already defined
	 RETURN	INVARG			;...
	CAIN	T4,DCNX11		;Link aborted
	 RETURN	ABRTRJ			;...
	CAIN	T4,DCNX12		;String execeeds 16 bytes
	 RETURN	INVARG			;...
	CAIN	T4,DCNX2		;Interrupt message must be read first
	 RETURN	INTRCV			;...
	CAIN	T4,DCNX14		;Previous interrupt message outstanding
	 RETURN	INTRCV			;...
	CAIN	T4,DCNX15		;No interrupt message available
	 RETURN	NODATA			;...
	RETURN	HORROR			;Return horrible otherwise
>; End of T20
; .NSPER	Called on NSP. error return
;
;	T1 = error code returned by NSP.
;

T10,<
.NSPER:	CAIN	T1,NSALF%		;Resource allocation failure
	 RETURN	TOOMNY
	CAIN	T1,NSNCD%		;No connect data to read
	 RETURN	NODATA
	CAIE	T1,NSWRS%		;Function called in wrong state
	CAIN	T1,NSUKN%		;Unknown node name
	 RETURN	INVARG
	CAIN	T1,NSUXS%		;Unexpected state
	 RETURN	INVARG
	CAIGE	T1,NSUNR%		;One of the other "unexpected states"?
	 CAIG	T1,NSUDS%
	  CAIA				;No
	 RETURN	INVARG
	CAIGE	T1,NSREJ%		;One of the reject codes?
	 CAIG	T1,NSRBO%
	  CAIA				;No
	 RETURN	ABRTRJ
	SKIPG	T2,@NETLN		;Get channel number
	 RETURN	HORROR			;Bad channel number
	LDB	T2,[POINTR LLSTAT(T2),NS.STA] ;Get current state code
	CAIE	T2,.NSSRJ		;Reject state?
	CAIN	T2,.NSSDR		;Disconnect received state?
	 RETURN	ABRTRJ
	CAIE	T2,.NSSNR		;No resources state?
	CAIN	T2,.NSSCF		;No confidence state?
	 RETURN	ABRTRJ
	CAIE	T2,.NSSLK		;No link state?
	CAIN	T2,.NSSCM		;No communication state?
	 RETURN	ABRTRJ
	RETURN	HORROR			;Not much else to check
>; End of T10

	PRGEND				;End of .JSER
	TITLE	TTTLOW Impure data for TTT
	SEARCH	TTTUNV
T10,<	SEARCH	UUOSYM>
	ENTRY	TTTLOW
DEFINE	X,(A,B),<
A:	BLOCK	B
>
DEFINE	Y (SYM,SIZ),<		;;Macro to generate offsets in BL$INF
	SYM==II
	II==II+SIZ
>				;;End of Y macro
	II==0

TTTLOW:	LOWSEG

	END				;End of TTTLOW