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update/t20src/diups2.b36
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%TITLE 'DIU Sender (slave and user job) IPCF routines'
MODULE DIUPS2 (IDENT = '253',
LANGUAGE(BLISS36),
ENTRY(ip_init, ! Initialize IPCF stuff
ip_check, ! Check to see if there is a master
ip_enter, ! Enter a request in the queue
ip_delete, ! Delete a request from the queue
ip_find, ! Find a request or requests
ip_modify, ! Modify a request
ip_status, ! Report status of a transfer
ip_connect_me ! Request connect to correct directory
)
)=
BEGIN
! COPYRIGHT (C) DIGITAL EQUIPMENT CORPORATION 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.
!
! FACILITY: DIU-20 (Data Interchange Utility for TOPS-20)
!
! ABSTRACT: This module provides the Interprocess communication facilities
! required by DIU User Jobs and DIU Slave Jobs for communication
! with the DIU Controlling Job.
!
! ENVIRONMENT: TOPS-20 V6.1 XPORT
! BLISS-36 V4 RMS V3.1
!
! AUTHOR: Larry Campbell CREATION DATE: March 21, 1982
%SBTTL 'Revision History'
! HISTORY:
!
! 253 Change IPCF20 library to DIUIP2.
! Gregory A. Scott 1-Jul-86
!
! 252 Remove library of CONDIT.
! Sandy Clemens 1-Jul-86
!
! 215 Delete routine IP_LIST, work is done in SHOQUE now.
! Gregory A. Scott 3-Jun-86
!
! 174 Remove library TOPS20, use library MONSYM instead.
! Gregory A. Scott 20-May-86
!
! 165 Remove qlist_indent macro since it is not used. Use page 277 for slave
! job IPCF pages to avoid interrupt/non-interrupt race problem with doing
! commands from spooler job.
! Gregory A. Scott 16-May-86
!
! 164 Call new routine SHOQUE rather than D$SHRQ from ip_list.
! Gregory A. Scott 16-May-86
!
! 146 Errors returned from IP_TALK weren't getting signalled properly.
! Gregory A. Scott 7-May-86
!
! 140 Add routine IP_CHECK which checks to see if there is a spooler.
! Gregory A. Scott 4-May-86
!
! 135 Routine IP_CONNECT_ME now puts the message saying that we have
! connected somewhere in the log file itself, rather than having other
! routines do it.
! Gregory A. Scott 1-May-86
!
! 134 Previous edit made SHOW QUEUE with nothing in the queue signal an error
! (from IP_FIND) so that you would get %DIU event 53: The queue is empty
! rather than [The queue is empty].
! Gregory A. Scott 30-Mar-86
!
! 133 Add routine IP_TALK which sends a message to the spooler and gets a
! response back. It also sets the send/recieve quotas to +INF if we are
! the spooler.
! Gregory A. Scott 29-Apr-86
!
! 126 Get a new master PID from the name each time incase the spooler is
! shutdown.
! Gregory A. Scott 26-Apr-86
!
! 123 Zero the rcvpid in IP_INIT.
! Gregory A. Scott 23-Apr-86
!
! 121 Remove historical code commented out by RDF who also probably moved all
! of the comments to AFTER the code that it applies to.
! Gregory A. Scott 19-Apr-86
!
! V01-000 RDF0001 Rick Fricchione 10-Aug-1984
! Convert from FTSIPS. Modify to use new request block
! and new routines. Clean up code, and comment.
!
! V00-00 AWN0001 Andy Nourse -no-date-
! Allow multiple /NOTIFY options to be displayed by SHOW
! QUEUE. Put in ENTRY points.
!--
%SBTTL 'Libraries'
LIBRARY 'BLI:XPORT'; ! XPORT package
LIBRARY 'DIU'; ! DIU data structures
LIBRARY 'MONSYM'; ! TOPS-20 monitor symbols
LIBRARY 'DIUIP2'; ! IPCF macros
%SBTTL 'Forward Routine'
FORWARD ROUTINE
ip_init : NOVALUE, ! Initialize IPCF stuff
ip_check, ! Check if there is (yet) a spooler
ip_talk, ! Talk to the spooler
ip_enter, ! Enter a request in the queue
ip_delete, ! Delete a request from the queue
ip_find, ! Find a request or requests
ip_modify, ! Modify a request
ip_status, ! Report status of a transfer
ip_connect_me; ! request connect to correct directory
%SBTTL 'Static Storage'
BIND ip_page = %O'277000' : BLOCK [512] FIELD (DIUQ$$MESSAGE_FIELDS);
OWN
%IF %SWITCHES(DEBUG)
%THEN my_name : $STR_DESCRIPTOR (STRING = '[SYSTEM]DIUDEB'),
%ELSE my_name : $STR_DESCRIPTOR (STRING = '[SYSTEM]DIU'),
%FI
master_PID, ! PID to send to the spooler
slave_PID; ! PID to send from the slave
EXTERNAL
mst_flag, ! 1 if we are (yet) the spooler
rcvpid, ! PID to recieve spooler stuff on
tty : $XPO_IOB (); ! IOB for terminal
%SBTTL 'External Routines'
EXTERNAL ROUTINE
ip$get_pid, ! Get the PID of a process
ip$quota : NOVALUE, ! Set the send/recieve quotas
ip$send, ! Send an IPCF message
ip$receive, ! Receive an IPCF message
ip$delete_PID : NOVALUE, ! Delete a PID
s$jobno, ! Get our job number
s$time, ! Return current date/time
s$dtstr : NOVALUE, ! Convert date/time to string
SHOQUE : NOVALUE, ! Display queue entries
q$copy_req_block : NOVALUE, ! Copy a request block
q$release_chain : NOVALUE, ! Release chain of request blocks
q$valid_req_block; ! Validate a request block
%SBTTL 'Routine IP_INIT'
GLOBAL ROUTINE ip_init : NOVALUE =
BEGIN
!++
! FUNCTIONAL DESCRIPTION
!
! Initialize the IPCF interface.
!
! FORMAL PARAMETERS
!
! None
!
! IMPLICIT OUTPUTS
!
! master_PID, slave_PID, rcvPID: zeroed
!--
rcvpid = 0; ! No recieve pid
master_PID = 0; ! No spooler pid
slave_PID = 0; ! No slave pid
END; ! End of ip_init
%SBTTL 'Routine IP_CHECK'
GLOBAL ROUTINE ip_check =
BEGIN
!++
! FUNCTIONAL DESCRIPTION
!
! Check to see if there is (yet) a spooler job around. Used in DIUC20 to
! see if certain spooler command can typed because you are not (yet) the
! spooler.
!
! ROUTINE VALUE:
!
! TRUE: there is a spooler out there somewhere, he may be you.
! FALSE: there is not (yet) a spooler
!
!--
LOCAL s_pid; ! Temporary pid for our use
IF .mst_flag THEN RETURN TRUE; ! If we are the spooler, return now
s_pid = 0; ! Make sure this is zeroed
IF ((IP$GET_PID(my_name,s_pid)) NEQ 0) ! Is the spooler pid name assigned?
THEN BEGIN ! Yes
IP$DELETE_PID(.s_pid); ! Delete the pid we just got
RETURN TRUE; ! There is a spooler out there
END;
IF .s_pid NEQ 0 ! Toss any pid we got
THEN IP$DELETE_PID(.s_pid);
RETURN FALSE; ! There is not (yet) a spooler
END;
%SBTTL 'Routine IP_TALK'
ROUTINE ip_talk =
BEGIN
!++
! FUNCTIONAL DESCRIPTION
!
! Send a page via IPCF to the spooler, get a response. A new spooler job
! pid and a new slave job pid is acquired each time through here. A new
! slave pid is acquired to insure we will bet only one response to our
! messages, and a new master pid is acquired to insure that the spooler
! job is (yet) started.
!
! IMPLICIT INPUTS
!
! ip_page: filled with a page of data to send to the spooler
!
! IMPLICIT OUTPUTS
!
! ip_page: filled with return (ack) message
!
! ROUTINE VALUE:
!
! DIU$_NORMAL - successful completion
! DIU$_QUEUE_EMPTY - the queue is empty
! DIU$_NO_MASTER - DIU master job not running
! DIU$_NO_SEND - can't send IPCF to master
! DIU$_NO_RECEIVE - can't receive IPCF from master
!
!--
LOCAL
pdb : $$PDB_DECL,
retcode;
! Flush PID so rcv queue is empty
IF .slave_pid NEQ 0 THEN IP$DELETE_PID(.slave_pid);
slave_pid = 0;
! Get a new master_PID each time to insure that the spooler is still there
IF (master_PID = IP$GET_PID (my_name, slave_PID)) EQL 0
THEN SIGNAL(DIU$_NO_MASTER);
! Set quotas to +inf if we are (yet) the spooler
IF .mst_flag THEN IP$QUOTA(.slave_pid, %O'777', %O'777');
! Send the message, page mode
IF NOT (retcode = IP$SEND (.master_PID, slave_PID, ip_page, 512))
THEN SIGNAL(DIU$_NO_SEND, .retcode<lh>);
! Try and receieve the response
pdb[PDB$$H_MESSAGE_ADDRESS] = ip_page;
pdb[PDB$$H_MESSAGE_LENGTH] = 512;
IF NOT (retcode = IP$RECEIVE (slave_PID, pdb,
%FIELDEXPAND (PDB$$H_MESSAGE_ADDRESS, 0) + 1))
THEN SIGNAL(DIU$_NO_RECEIVE, .retcode<lh>);
! Got a message, check code returned
IF .ip_page[DIUQ$B_FUNCTION] NEQ DIUQ$K_ACK
THEN RETURN(.ip_page[DIUQ$G_COMP_CODE]);
RETURN(DIU$_NORMAL) ! return OK
END;
%SBTTL 'Routine IP_ENTER'
GLOBAL ROUTINE ip_enter (p_req_block) =
BEGIN
!++
! FUNCTIONAL DESCRIPTION
!
! Enter a request in the queue.
!
! FORMAL PARAMETERS
!
! p_req_block - pointer to the request block
!
! IMPLICIT INPUTS
!
! NONE
!
! IMPLICIT OUTPUTS
!
! The request block is updated with the request ID number assigned.
!
! ROUTINE VALUE
!
! DIU$_NORMAL - successful completion
! DIU$_NO_MASTER - DIU master job not running
! DIU$_NO_SEND - can't send IPCF to master
! DIU$_NO_RECEIVE - can't receive IPCF from master
!
!--
BIND
req_block = .p_req_block : $DIU_BLOCK;
LOCAL
retcode;
! Make some cursory validity checks on the request block
IF NOT (retcode = Q$VALID_REQ_BLOCK(req_block))
THEN RETURN (SIGNAL(.retcode));
! Set up the enter message.
Q$COPY_REQ_BLOCK(req_block,ip_page[DIUQ$Z_REQ_BLOCK]);
ip_page[DIUQ$H_LENGTH] = 512;
ip_page[DIUQ$B_FUNCTION] = DIUQ$K_ENTER;
! Send the message and get a response
IF NOT (retcode = IP_TALK())
THEN RETURN(.retcode);
! Copy the request block returned to the caller
Q$COPY_REQ_BLOCK(ip_page[DIUQ$Z_REQ_BLOCK], req_block);
RETURN(DIU$_NORMAL) ! return OK
END; ! End of ip_enter
%SBTTL 'Routine IP_DELETE'
GLOBAL ROUTINE ip_delete (req_ID) =
BEGIN
!++
! FUNCTIONAL DESCRIPTION
!
! Delete a request from the queue.
!
! FORMAL PARAMETERS
!
! req_ID - the request ID of the request to be deleted
!
! IMPLICIT INPUTS
!
! None
!
! IMPLICIT OUTPUTS
!
! None
!
! ROUTINE VALUE
!
! DIU$_NORMAL - completed OK
! DIU$_NO_MASTER - no master DIU running
! DIU$_NO_SEND - can't send to master DIU
! DIU$_NO_RECEIVE - can't read master's response
! or any failure code returned by the master
!--
LOCAL retcode,
pdb : $$PDB_DECL;
! Can't delete 1 or 0
IF .req_ID LSS 2
THEN RETURN(DIU$_INVALID_REQUEST);
! Set up the delete message
ip_page[DIUQ$G_REQ_ID] = .req_ID;
ip_page[DIUQ$H_LENGTH] = 512;
ip_page[DIUQ$B_FUNCTION] = DIUQ$K_DELETE;
! Send the message and get a response
retcode = IP_TALK();
RETURN(.retcode)
END; ! End of ip_delete
%SBTTL 'Routine IP_FIND'
GLOBAL ROUTINE ip_find (p_req_block, chain_returned) =
BEGIN
!++
! FUNCTIONAL DESCRIPTION
!
! Find a request or requests that match a given request.
!
! FORMAL PARAMETERS
!
! p_req_block - pointer to request block
! chain_returned - cell to receive address of chain of blocks returned
!
! IMPLICIT INPUTS
!
! None
!
! IMPLICIT OUTPUTS
!
! Dynamic memory is allocated to hold a chain of requests returned,
! and the address of the chain is returned to the caller.
!
! ROUTINE VALUE
!
! DIU$_NORMAL - successful completion
! DIU$_NO_MASTER - no master DIU running
! DIU$_NO_SEND - can't send IPCF to master
! DIU$_NO_RECEIVE - can't read reply from master
! DIU$_NO_MEMORY - insufficient dynamic memory
! or any error code returned from master
!--
BIND
req_block = .p_req_block : $DIU_BLOCK;
LOCAL
message_count,
chain_head,
this_block,
prev_block,
last_sequence_number,
retcode,
pdb : $$PDB_DECL;
! Set up the message.
Q$COPY_REQ_BLOCK(req_block, ip_page[DIUQ$Z_REQ_BLOCK]);
ip_page[DIUQ$H_LENGTH] = 512;
ip_page[DIUQ$B_FUNCTION] = DIUQ$K_FIND;
! Send the message and get a response
IF NOT (retcode = IP_TALK())
THEN RETURN(.retcode);
! Got a response. Save it and get some more if possible.
last_sequence_number = 0;
chain_head = 0;
prev_block = chain_head;
WHILE 1 DO
BEGIN
IF NOT $XPO_GET_MEM(UNITS=DIU$K_LEN+%UPVAL,RESULT=this_block)
THEN BEGIN
Q$RELEASE_CHAIN(.chain_head);
SIGNAL (DIU$_NO_MEMORY);
END;
! Get memory to allocate this block
IF .ip_page[DIUQ$H_SEQUENCE_NUMBER] NEQ .last_sequence_number + 1
THEN SIGNAL (DIU$_MISSED_MESSAGE);
! Messages out of sequence
last_sequence_number = .ip_page[DIUQ$H_SEQUENCE_NUMBER];
! No, update it
(.prev_block) = .this_block;
(.this_block) = 0;
! Link this block to the next block, advance to next block
Q$COPY_REQ_BLOCK(ip_page[DIUQ$Z_REQ_BLOCK],.this_block+1);
! Copy request block returned to block we just got in heap
IF .ip_page[DIUQ$G_COMP_CODE] NEQ DIU$_MORE THEN EXITLOOP;
! If no more messages, quit
pdb[PDB$$H_MESSAGE_ADDRESS] = ip_page;
pdb[PDB$$H_MESSAGE_LENGTH] = 512;
IF NOT (retcode = IP$RECEIVE(slave_PID, pdb,
%FIELDEXPAND(PDB$$H_MESSAGE_ADDRESS,0)+1))
THEN SIGNAL(DIU$_NO_RECEIVE, .retcode<lh>);
! Did we get an ack for this
prev_block = .this_block;
END; %(while)%
(.chain_returned) = .chain_head;
! Update the callers argument
RETURN (DIU$_NORMAL);
END; ! End of ip_find
%SBTTL 'Routine IP_MODIFY'
GLOBAL ROUTINE ip_modify (req_ID, item_code, new_value) =
BEGIN
!++
! FUNCTIONAL DESCRIPTION
!
! Modify a request in the queue.
!
! FORMAL PARAMETERS
!
! req_ID - request ID of request to hack
! item_code - code indicating which parameter to change
! new_value - new value of parameter. In the case of
! DIUQ$K_LOG_FILESPEC, this is the address of
! a descriptor for the new filespec.
!
! IMPLICIT INPUTS
!
! NONE
!
! IMPLICIT OUTPUTS
!
! NONE
!
! ROUTINE VALUE
!
! DIU$_NORMAL - successful completion
! DIU$_NO_MASTER - no master DIU running
! DIU$_NO_SEND - can't send IPCF to master
! DIU$_NO_RECEIVE - can't read reply from master
! DIU$_NO_MEMORY - insufficient dynamic memory
! or any error code returned from master
!--
LOCAL
retcode,
pdb : $$PDB_DECL;
! Set up the modify message.
ip_page[DIUQ$G_REQ_ID] = .req_ID;
ip_page[DIUQ$B_FUNCTION] = DIUQ$K_MODIFY;
ip_page[DIUQ$B_ITEM_CODE] = .item_code;
! When modifying the log file, copy it, otherwise just set the value
IF .item_code EQL DIUQ$K_LOG_FILESPEC
THEN BEGIN
MAP new_value : REF $STR_DESCRIPTOR();
CH$MOVE(.new_value[STR$H_LENGTH],
.new_value[STR$A_POINTER],
CH$PTR(ip_page[DIUQ$T_STATUS_TEXT]));
ip_page[DIUQ$H_STATUS_TEXT] = .new_value[STR$H_LENGTH];
END
ELSE ip_page[DIUQ$G_NEW_VALUE] = .new_value;
! Send the message and get a response
IF NOT (retcode = IP_TALK())
THEN SIGNAL(.retcode);
RETURN (.retcode)
END; ! End of ip_modify
%SBTTL 'Routine IP_STATUS'
GLOBAL ROUTINE ip_status (datum, datum2, p_descr) =
BEGIN
!++
! FUNCTIONAL DESCRIPTION:
! Send a status message to the master DIU. This is used by slave
! jobs to report their status in completing a transfer.
!
! FORMAL PARAMETERS:
! datum - arbitrary data item to pass, usually condition code
! datum2 - additional data, frequently a block count
! p_descr - pointer to descriptor for additional text
!
! IMPLICIT INPUTS:
! job_index - global in module DIU -- our job handle
! s$jobno is called because we need to stuff our job number
! into the message.
!
! IMPLICIT OUTPUTS:
! NONE
!
! ROUTINE VALUE and
! COMPLETION CODES:
! DIU$_NORMAL - successful completion
! DIU$_NO_MASTER - no master DIU running
! DIU$_NO_SEND - can't send IPCF to master
! DIU$_NO_MEMORY - insufficient dynamic memory
! or any error code returned from master
!
! SIDE EFFECTS:
! NONE
!
!--
EXTERNAL
job_index;
BIND
descr = .p_descr : $STR_DESCRIPTOR ();
LOCAL
retcode,
pdb : $$PDB_DECL;
! Set up the status message.
ip_page[DIUQ$H_LENGTH] = 512;
ip_page[DIUQ$B_FUNCTION] = DIUQ$K_STATUS;
ip_page[DIUQ$G_COMP_CODE] = .datum;
ip_page[DIUQ$G_2ND_CODE] = .datum2;
ip_page[DIUQ$H_SENDER_JOB] = s$jobno ();
ip_page[DIUQ$G_JOB_HANDLE] = .job_index;
ip_page[DIUQ$H_STATUS_TEXT] = .descr[STR$H_LENGTH];
! Move optional text
CH$MOVE (MAX(.descr[STR$H_LENGTH], 255),
.descr[STR$A_POINTER],
CH$PTR(ip_page[DIUQ$T_STATUS_TEXT]));
! Get a new master_PID each time to insure that the spooler is still there
IF (master_PID = IP$GET_PID (my_name, slave_PID)) EQL 0
THEN SIGNAL(DIU$_NO_MASTER);
! Send the message to the master job
IF NOT (retcode = IP$SEND (.master_pid, slave_pid, ip_page, 512))
THEN SIGNAL(DIU$_NO_SEND, .retcode<lh>);
RETURN (DIU$_NORMAL)
END; ! End of ip_status
%SBTTL 'Routine IP_CONNECT_ME'
GLOBAL ROUTINE ip_connect_me (dir_num, p_dir_descr) =
BEGIN
!++
! FUNCTIONAL DESCRIPTION:
! Connect me (a slave job) to the directory in which I should be executing.
!
! FORMAL PARAMETERS:
! dir_num - target directory number
!
! IMPLICIT INPUTS:
! job_index - global in module DIU -- our JOBSTATUS handle
! p_dir_descr - pointer to descriptor for directory name string
! Used for error messages only
!
! IMPLICIT OUTPUTS:
! NONE
!
! ROUTINE VALUE and
! COMPLETION CODES:
! NONE
!
! SIDE EFFECTS:
! NONE
!
!--
BIND dir_descr = .p_dir_descr : $STR_DESCRIPTOR ();
EXTERNAL job_index;
LOCAL retcode,
pdb : $$PDB_DECL;
! Set up the connect message.
ip_page[DIUQ$H_LENGTH] = 512;
ip_page[DIUQ$B_FUNCTION] = DIUQ$K_CONNECT_ME;
ip_page[DIUQ$G_COMP_CODE] = .dir_num;
ip_page[DIUQ$G_2ND_CODE] = 0;
ip_page[DIUQ$H_SENDER_JOB] = s$jobno ();
ip_page[DIUQ$G_JOB_HANDLE] = .job_index;
! Flush PID so rcv queue is empty
ip$delete_PID (.slave_pid);
slave_PID = 0;
! Get a new master_PID each time to insure that the spooler is still there
IF (master_PID = IP$GET_PID (my_name, slave_PID)) EQL 0
THEN SIGNAL(DIU$_NO_MASTER);
! Send the message to the master job
IF NOT (retcode = IP$SEND (.master_pid, slave_pid, ip_page, 512))
THEN SIGNAL(DIU$_NO_SEND, .retcode<lh>);
! Now try to receive acknowledgement
pdb[PDB$$H_MESSAGE_ADDRESS] = ip_page;
pdb[PDB$$H_MESSAGE_LENGTH] = 512;
IF NOT (retcode = ip$receive (slave_PID, pdb,
%FIELDEXPAND (PDB$$H_MESSAGE_ADDRESS, 0) + 1))
THEN SIGNAL(DIU$_NO_RECEIVE, .retcode<lh>);
! Got a message. Check code returned.
IF .ip_page[DIUQ$B_FUNCTION] NEQ DIUQ$K_ACK
THEN RETURN (SIGNAL(DIU$_NO_CONNECT,
.ip_page[DIUQ$G_COMP_CODE],
0,
dir_descr))
ELSE SIGNAL(DIU$_CONNECTED_TO,0,0,dir_descr);
RETURN (DIU$_NORMAL)
END; ! End of ip_connect_me
END
ELUDOM