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BB-H138F-BM_1988
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7-sources/faldap.b36
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MODULE FALDAP( !DAP message processing routines unique to FAL
IDENT='7.0(662) 1-Dec-86'
%BLISS36(,
ENTRY(
D$GACC, ! DAP$GET_ACCESS, ! Get Access message
D$GCTL, ! DAP$GET_CONTROL, ! Get Control message
D$GACM, ! DAP$GET_ACCESS_COMPLETE ! Get ACM message
D$PACK, ! DAP$PUT_ACK, ! Build ACK message
D$ERRD, ! DAP$ERROR_RMS_DAP, ! Conv RMS code to DAP
D$PSTS, ! DAP$PUT_STATUS ! Build STATUS message
D$PSUC, ! DAP$PUT_SUCCESS ! success status
D$GCNT, ! DAP$GET_CONTINUE ! Get CONTINUE message
D$RETR ! DAP$RETRY_LAST_OPERATION! Try again
))
)=
BEGIN
!
! COPYRIGHT (c) 1984, 1986 by
! DIGITAL EQUIPMENT CORPORATION, MAYNARD, MASS.
!
! THIS SOFTWARE IS FURNISHED UNDER A LICENSE AND MAY BE USED AND COPIED
! ONLY IN ACCORDANCE WITH THE TERMS OF SUCH LICENSE AND WITH THE
! INCLUSION OF THE ABOVE COPYRIGHT NOTICE. THIS SOFTWARE OR ANY OTHER
! COPIES THEREOF MAY NOT BE PROVIDED OR OTHERWISE MADE AVAILABLE TO ANY
! OTHER PERSON. NO TITLE TO AND OWNERSHIP OF THE SOFTWARE IS HEREBY
! TRANSFERRED.
!
! THE INFORMATION IN THIS SOFTWARE IS SUBJECT TO CHANGE WITHOUT NOTICE
! AND SHOULD NOT BE CONSTRUED AS A COMMITMENT BY DIGITAL EQUIPMENT
! CORPORATION.
!
! DIGITAL ASSUMES NO RESPONSIBILITY FOR THE USE OR RELIABILITY OF ITS
! SOFTWARE ON EQUIPMENT WHICH IS NOT SUPPLIED BY DIGITAL.
!
!++
! FACILITY: FAL-20
!
! ABSTRACT: This is the System-independent part of the DAP protocol.
!
!
! ENVIRONMENT: TOPS-20, Transportable BLISS DecNet Interface
!
! AUTHOR: Andrew Nourse, CREATION DATE: 14-Feb-83
! REVISION HISTORY:
!
! 533 - Crc Checking support
! 555 - Fix key field for relative files
! 556 - Add some new error codes
! 557 - Fix multistream access
! 561 - Eat ignorable KEY fields,
! default class to ASCII if RFM=UDF and MRS=0
! 566 - fix protocol error
! 600 - Send Key & Alloc attrs correctly
! 601 - Add some error codes to translation table.
! 603 - Fix Directory-List sending extra attributes msg.
! 605 - Use new routines for handling RFA's
! 610 - Fix extended KEY attributes, implement KNM sending/receiving,
! don't compare checksums if requested to do so but we are
! closing and deleting a file.
! 611 - D$PSTS and D$GCTL weren't sending/receiving RFAs correctly.
! 620 - Missing dot in D$GCTL trashed keyed KBF reception. Indexed
! $GETs/$PUTs brain-damaged in various ways
! 630 - Fix back-assward code mandated by DAP spec: Read key field
! first, then figure out whether its dtp is numeric or string
! for final Rab setup.
! 632 - Add more errors to DAP$ERROR_RMS_DAP
! 633 - Make wildcard delete work for PDP-11s.
! 635 - Filenames of the form "FILE.TYPE;0" should work. More work on
! renames to make them work from PDP-11 and VMS systems.
! 643 - Always return main attributes even though access msg didnt say to
! if it is a OPEN, CREATE, or SUBMIT message (used by RT11), and
! don't put extra acks in directory list if talking pre v7 DAP
! 647 - Remove some code that didn't do anything in DAP$GET_CONTROL
! 662 - Add ER$DUP to D$ERRD.
!--
!
! Conditionals
!
!
! Libraries
!
LIBRARY 'BLISSNET';
LIBRARY 'CONDIT';
REQUIRE 'RMSREQ';
!
! Table of Contents
!
FORWARD ROUTINE
DAP$GET_ACCESS, ! Get Access message
ACCESS, ! Access remote user's file
FillBlocks, ! Fill in Fab & XABs
DAP$GET_CONTROL, ! Get Control message
dap$generation_check : NOVALUE, ! Check for "name.type;gen"
CONTROL, ! Access remote user's record
DAP$GET_ACCESS_COMPLETE, ! Get Access complete message
DAP$PUT_ACK: NOVALUE, ! Build ACK message
DAP$ERROR_RMS_DAP, ! Convert RMS error code to DAP
DAP$PUT_STATUS: NOVALUE, ! Build STATUS message
DAP$PUT_SUCCESS: NOVALUE, ! Build STATUS message
DAP$GET_CONTINUE, ! Process CONTINUE message
DAP$RETRY_LAST_OPERATION, ! Retry the last RMS verb we tried
DAP$3_PART_NAME: NOVALUE; ! Send 3-part name if needed
!
! LITERALS
!
LITERAL FTPASSIVE = 1; ! This is always passive !a577
GLOBAL LITERAL RRE$$P = FTPASSIVE; !a577
! Interlock. Makes sure all modules compiled correct variant
! Link error if wrong
%IF %BLISS(BLISS36)
%THEN
%IF %SWITCHES(TOPS20)
%THEN
LITERAL
OUR_OSTYPE=DAP$K_TOPS20,
OUR_BLOCK_SIZE=512,
DEVICE_NAME_LENGTH=40, ! Including punctuation
DIRECTORY_NAME_LENGTH=41,!
FILE_NAME_LENGTH=40; !
%ELSE
%ERROR('Not implemented on TOPS-10')
%FI
LITERAL
OUR_FILESYS=DAP$K_RMS20;
%ELSE %ERROR('Not implemented for 16/32 bit architectures')
%FI;
!
! External references
!
EXTERNAL ROUTINE Chazac,
Chacaz, !630
S$Strdt,
S$Mount: NOVALUE,
Dap$Get_Header,
Dap$Unget_Header,
Dap$Get,
Dap$$Get,
Dap$$Get_Attributes,
Dap$Get_Byte,
Dap$Get_2byte,
Dap$Get_Date,
Dap$Get_Variable_String,
Dap$Get_Longword,
Dap$Size_Bitvector,
Dap$Get_Bitvector,
Dap$Get_Variable_Counted,
Dap$Put,
Dap$$Put,
Dap$Put_Bitvector,
Dap$Put_Header,
Dap$Put_2byte,
Dap$Put_Byte,
Dap$Put_String,
Dap$Put_Variable_Counted,
Dap$Put_Longword,
Dap$$Put_Attributes,
Dap$Put_Name,
Dap$Put_Message,
Dap$Unget_Byte,
Dap$Eat_Message,
Dap$Rfa_Rms_Dap,
Dap$Rfa_Dap_Rms,
Num_Vb, ! 630
Fal$Handle,
R$Null,
Rms$Signal,
UAddr,
UAPointer;
EXTERNAL !a557vv
FalFab: $Fab_decl,
FalFst: $Rms_Fst,
RabVector: BLOCKVECTOR[256,Rab$k_Bln] FIELD( Rab$r_Fields ),
RstVector: BLOCKVECTOR[256,Rst$k_Bln] FIELD( Rst$r_Fields ),
Usrbuf: VECTOR[CH$ALLOCATION(dap$k_buffer_size,9)] VOLATILE,
KeyBuf: VECTOR[255] VOLATILE, !a557^^
KnmBuf: VECTOR[256] VOLATILE; !610
!
! MACROS
!
MACRO Dap_Error (Ddesc,Mac,Mic) =
( BIND dapcod = Err_Ds (Mac, Mic);
SIGNAL ( dapcod, Ddesc );
dapcod )
%;
!
! Canned Messages (Global PLITS)
!
GLOBAL BIND ACRMSG=PLIT(CHAR8(DAP$K_ACCESS_COMPLETE,0,
DAP$K_ACCOMP_RESPONSE));
GLOBAL D_ACR: $XPN_DESCRIPTOR(BINARY_DATA=(3,ACRMSG,BYTES));
!
! OWN Storage
!
OWN D_NULL: $STR_DESCRIPTOR(STRING=%CHAR(0));
OWN
FalXabKey: BLOCKVECTOR[256,Xab$k_Keylen]
FIELD(XabHdr$r_fields,XabKey$r_fields),
FalXabAll: BLOCKVECTOR[32,Xab$k_Alllen]
FIELD(XabHdr$r_fields,XabAll$r_fields);
GLOBAL ROUTINE Dap$Get_Access (P_Dd: REF $Dap_Descriptor,
P_Fab: REF $Fab_Decl,
P_Fst: REF $Rms_Fst)=
!++
! FUNCTIONAL DESCRIPTION:
!
! Process ACCESS message
!
! FORMAL PARAMETERS:
!
! P_DD: Addr of DAP message descriptor
! P_FAB: Addr of FAB -- FAB[FAB$A_FNA] must point to 200 character buffer
! P_Fst: Addr of FST
!
! ROUTINE VALUE:
!
! DAP Operator code if successful, Signal error otherwise
!
! SIDE EFFECTS:
!
! The ACCESS Message will have been read.
! A name message after the ACCESS message will have been read if RENAME
!--
BEGIN !Digest ACCESS
BIND Idd=.P_Dd: $Dap_Descriptor,
Odd=.Idd[Dap$A_Other_Dd]: $Dap_Descriptor,
Fab=.P_Fab: $Fab_Decl,
Nam=UAddr(.Fab[Fab$a_Nam]): $Nam_decl,
Fst=.p_Fst: $Rms_Fst;
BIND Config=.Fst[Fst$a_Config]: $XabCfg_Decl; ! Configuration Xab
LOCAL
XabTail: REF $XabSum_decl,
Noa, ! Number of areas
Nok;
OWN
NEsa: VECTOR[CH$ALLOCATION(255)],
NRsa: VECTOR[CH$ALLOCATION(255)],
NNam: $Nam( Esa=CH$PTR(Nesa), Ess=255, Rsa=CH$PTR(NRsa), Rss=255),
NFna: VECTOR[CH$ALLOCATION(255)],
NFab: $Fab(Nam=NNam, Fna=CH$PTR(NFna), FOP=<NAM,OFP>, FAC=PUT); !m635
LOCAL hp_Fab: VOLATILE;
LOCAL hp_Fst: VOLATILE;
ENABLE fal$handle( hp_Fab, hp_Fst ); ! Set up condition handler
hp_Fab=Fab;
hp_Fst=Fst;
SELECTONE Dap$Get_Header(Idd) OF ! Munch the header
SET
[Dap$k_Access]:
BEGIN
LOCAL Display: BITVECTOR[28], !DISPLAY field for attributes to return
Password: VECTOR[CH$ALLOCATION(41)],
Accfunc,
Accopt: BITVECTOR[28],
Fac: BITVECTOR[28],
Shr: BITVECTOR[28];
Fst[Fst$b_Operation]=Dap$Get_Byte(Idd); !OPEN/CREATE/ERASE/RENAME,etc
Dap$Get_Bitvector(Idd,Accopt,5); !Access options
Fst[Fst$v_Accopt] = .Accopt; ! Save access options !a533
Dap$Get_Variable_String(Idd,.Fab[Fab$a_Fna],255);
!Store remote filespec where FNA points
dap$generation_check(.fab[fab$a_fna]); !a635
IF .Idd[Dap$h_Length] GTR 0
THEN
BEGIN
Dap$Get_Bitvector(Idd,Fac,3); ! FAC (File acce<ss options)
$Dap_Move_Bits(Fac,Dap$v_Fac_
,Fab,Fab$v_,
Put,Get,Del,Upd,Trn,
Bio,Bro,App);
END;
IF .Idd[Dap$h_Length] GTR 0 ! SHR
THEN
BEGIN
Dap$Get_Bitvector(Idd,Shr,3); !Shared operations
$Dap_Move_Bits(Shr,Dap$v_Fac_,Fab,Fab$v_Shr, !542
Put,Get,Del,Upd,Trn,
Bio,Bro,App);
END;
! Get display bits. Historical DAP feature: if no display menu, and
! its an open or create or submit then default to display the main
! attributes. This is still used by RT11.
IF .Idd[Dap$h_Length] GTR 0 ! DISPLAY
THEN Dap$Get_Bitvector(Idd,Display,4) !a643v
ELSE IF .fst[FST$B_OPERATION] EQL DAP$K_OPEN
OR .fst[FST$B_OPERATION] EQL DAP$K_CREATE
OR .fst[FST$B_OPERATION] EQL DAP$K_SUBMIT
THEN display=1; ! display the main attributes
!a643^
!This tells what attributes we should return
Fst[Fst$v_Display] = .Display;
IF .Idd[Dap$h_Length] GTR 0 ! PASSWORD
THEN Dap$Get_Variable_String(Idd,CH$PTR(Password),40);
!Password for file access
! IGNORE FOR NOW
! Get new name for $Rename
IF .Fst[Fst$b_Operation] EQL Dap$k_Rename
THEN
BEGIN
LOCAL nametype: BITVECTOR[21];
nnam[NAM$A_RLF] = nam; ! Set rlf to "old" nam block !a635
IF Dap$Get_Header( Idd ) NEQ Dap$k_Name ! looking for a NAME msg
THEN Dap_Error(Idd, Dap$k_Mac_Sync, .Idd[Dap$b_Operator] );
Dap$Get_Bitvector( Idd, nametype, 3);
IF .nametype[Dap$k_Nametype_Fsp] EQL 0
THEN Dap_Error(Idd, Dap$k_Mac_Sync, .Idd[Dap$b_Operator] );
Dap$Get_Variable_String( Idd, CH$PTR(NFna), 255);
dap$generation_check(CH$PTR(nfna)); !a635
END;
! Try to do the access
! This will also fill in all XABs except KEY and ALLOCATION
! which may occur in absurdly large numbers
Access(Fab, NFab, Fst);
IF .Nam[Nam$v_Wildcard] ! If Wildcarded
THEN Fst[Fst$v_Display_3_Part_Name] = 1; ! we need 3-part name
IF .Fst[Fst$v_File_Open] ! If we opened a file !m561
THEN ! Return its attributes
BEGIN
!
! Set up the appropriate Xabs by the display field
! The Date/Time and Summary XABs are already attached
!
XabTail = .Fab[Fab$a_Xab];
WHILE 1 DO
BEGIN
IF .XabTail[Xab$v_Cod] EQL Xab$k_Sum
THEN
BEGIN ! Find out how many areas & keys
nok=.XabTail[Xab$b_Nok];
noa=.XabTail[Xab$b_Noa];
END;
IF .XabTail[Xab$a_Nxt] NEQ 0 !m545
THEN XabTail=.XabTail[Xab$a_Nxt]
ELSE EXITLOOP;
END;
!
! Set up as many Key XABs as needed
!
BEGIN
MAP xabtail: REF $Xabkey_decl;
INCR krf FROM 0 TO .nok-1 ! Set up enough Key Xabs
DO
BEGIN
xabtail[xab$a_nxt] = FalXabKey[.krf,0,0,0,0];
xabtail = FalXabKey[.krf,0,0,0,0];
!+ 610
! Since a $DISPLAY will not update the Knm field unless there is
! a Knm pointer present, initialize one for each key XAB if not
! already available.
!-
IF .Knmbuf[.krf] EQL 0 !610
THEN
BEGIN
$XPO_GET_MEM( RESULT=KnmBuf[.krf],
UNITS=(40/(%BPVAL/8)),FILL=0);
END;
$XabKey_Init( Xab=.xabtail,
Knm=.KnmBuf[.krf],
KRef=.krf );
END;
END; !
!
! Set up as many Allocation XABs as needed
! At least 1, the vax requires it!
noa = MAX( .noa, 1 ); !m545
BEGIN
MAP xabtail: REF $XabAll_decl;
INCR aid FROM 0 TO .noa-1 ! Set up enough Area Xabs
DO
BEGIN
xabtail[xab$a_nxt] = FalXabAll[.aid,0,0,0,0];
xabtail = FalXabAll[.aid,0,0,0,0];
$XabAll_Init( Xab=.xabtail,
Aid=.aid );
END;
END;
xabtail[xab$a_nxt] = 0; ! This is the end of the chain !a545
$Rms_Display( Fab=Fab ); ! Fill in the XABs !a545
!d566
Dap$$Put_Attributes(Odd,Fab,Fst); ! Build attributes & send
Dap$Put_Ack(Odd); ! with an ack
Dap$Put_Message(Odd); ! Force it out
END
ELSE ! No file open
IF .Fst[Fst$v_Access_Active] ! If access still active
THEN !
BEGIN !
Fst[Fst$v_Access_Active] = 0; ! deactiviate it
Dap$$Put_Attributes( Odd, Fab, Fst ); ! Build attributes !a574
IF .Config[Xab$b_Version] GEQ 7 ! If DAP v7 or later
THEN Dap$Put_Ack(Odd); ! Put out an ACK to separate
!d635 IF (.Fst[Fst$b_Operation] EQL Dap$k_Rename) !a577v
!d635 THEN Dap$$Put_Attributes( Odd, NFab, Fst ); !m605
Dap$Put_String( Odd,D_Acr ); ! Send access complete
Dap$Put_Message( Odd ); ! response
END;
!+ 610
! Now that the access has been successfully completed, release
! any dynamic blocks pointed to by KnmBuf. Note that an access which
! fails will not release this memory here; a subsequent access will
! reuse it.
!
! Unfortunately we must cycle through the entire KNM vector looking
! for blocks to release, since there could be, e.g., 256 keys only
! the last of which had a Knm.
!-
INCR I from 0 to 255
DO
BEGIN
IF .KnmBuf[.i] NEQ 0
THEN
BEGIN
$Xpo_Free_Mem (BINARY_DATA=(40/(%BPVAL/8),.KnmBuf[.i]));
KnmBuf[.i] = 0;
END;
END;
RETURN Dap$k_Access
END; ! Process ACCESS message
[Dap$k_Access_Complete]:
BEGIN
BIND URab=RabVector[ .idd[Dap$b_StreamID], 0,0,0,0 ]: $Rab_decl;
BIND URst=RstVector[ .idd[Dap$b_StreamID], 0,0,0,0 ]: $Rms_Rst; !a561
dap$get_access_complete ( idd, Fab, URab, URst )
END;
[OTHERWISE]:
BEGIN
Dap_Error(Odd,Dap$k_Mac_Sync,.Idd[Dap$b_Operator]);
RETURN .Idd[Dap$b_Operator]
END;
TES
END; !End of DAP$GET_ACCESS (D$GACC) (process ACCESS message)
ROUTINE Access ( P_Fab: REF $Fab_decl,
P_NFab: REF $Fab_decl,
P_Fst: REF $Rms_Fst ) =
!++
! FUNCTIONAL DESCRIPTION:
!
! Perform a file access as requested by remote user
!
! FORMAL PARAMETERS:
!
! P_FAB: Address of RMS FAB
! P_NFAB: Address of RMS FAB for new name (rename only) or 0
! P_Fst: Address of FST
!--
BEGIN
BIND
Fab=.P_Fab: $Fab_Decl,
NFab=.P_NFab: $Fab_decl,
Fst=.P_Fst: $Rms_Fst,
Nam=UAddr(.Fab[Fab$a_Nam]): $Nam_decl,
Idd=.Fst[Fst$a_I_Dd]: $Dap_Descriptor,
Odd=.Fst[Fst$A_O_Dd]: $Dap_Descriptor,
Typ=.Fab[Fab$a_Typ]: $Typ_Decl,
Config=.Fst[Fst$a_Config]: $XabCfg_Decl; ! Configuration Xab
IF .Fst[Fst$h_File_Class] EQL 0 ! Default datatype to ASCII !m545
THEN Typ[Typ$h_Class] = Fst[Fst$h_File_Class] ! In typ block
= Typ$k_Ascii; ! in FST !m545
!+
! If the remote is trying for CRLF, or any other carriage control,
! This will hopefully keep old and stupid software out of trouble.
! If the file is an RMS file, it will get the reall attributes anyway.
!-
IF ((.Fst[Fst$h_Rat] AND Fab$m_Cr+Fab$m_Ftn+Fab$m_Emb) NEQ 0) !a545vv
THEN !d606
BEGIN
Typ[Typ$h_Class] = Fst[Fst$h_File_Class] = Typ$k_Ascii;
Fst[Fst$h_Bsz] = Fab[Fab$v_Bsz] = 7;
Fab[Fab$v_Rfm] = Fab$k_Stm;
Fab[Fab$h_Rat] = 0;
END; !a545^^
!+
! Default the byte size if it is still not set
!-
IF .Fst[Fst$h_Bsz] EQL 0
THEN Fst[Fst$h_Bsz] = Fab[Fab$v_Bsz] = 7; ! Default to 7-bit ascii !m570
!+
! Disbelieve the byte size if it is 8 and the file is ascii
! Unless the system can be expected to know better
!-
IF ( .Fst[Fst$h_Bsz] EQL 8 )
AND ( .Fst[Fst$h_File_Class] EQL Typ$k_Ascii )
AND ( .Config[Xab$b_OsType] NEQ Xab$k_Tops20 )
THEN Fst[Fst$h_Bsz] = Fab[Fab$v_Bsz] = 7; ! Force to 7-bit ascii !m570
!+
! Do the things we need for wildcarding
!-
SELECT .Fst[Fst$b_Operation] OF
SET
[Dap$k_Create, ! Output file parse
Dap$k_Submit]: Fab[Fab$v_Ofp] = 1; !
[OTHERWISE]: !610
Fab[Fab$v_Ofp] = 0; !610
TES;
!+
! Mount the structure
!-
S$Mount( .Fab[Fab$a_Fna] ); ! mount structure !a534
$Rms_Parse( Fab=Fab, Err=Rms$Signal ); ! Parse to get expanded filespec
$Rms_Search( Fab=Fab, Err=Rms$Signal ); ! Search to get first file
Fab[Fab$v_Drj] = Fab[Fab$v_Nam] = 1; ! Open by Nam Block
! and do not release JFN
Nam[Nam$v_Cha_Dev] = !a566v
Nam[Nam$v_Cha_Dir] =
Nam[Nam$v_Cha_Nam] =
Nam[Nam$v_Cha_Ext] = 1; ! All new access !a566^
IF .Fst[Fst$b_Operation] EQL Dap$k_Directory !a570
THEN ! Handle DIRECTORY specially
BEGIN
While .Fab[Fab$h_Sts] NEQ Rms$_Nmf DO
BEGIN
Fst[Fst$v_Display_3_Part_Name] = 1; ! Return 3-part name always
Dap$3_Part_Name( Odd, Fab, Fst );
FillBlocks();
! Build attributes & send
Dap$$Put_Attributes( Odd, Fab, Fst );
IF .Config[Xab$b_Version] GEQ 7 ! If DAP v7 or later !a643
THEN Dap$Put_Ack(Odd); ! Put out an ACK !m643
Dap$Put_Message( Odd );
! Search for next file
$Rms_Search( Fab=Fab );
END;
Dap$Put_String( Odd,D_Acr ); ! Send access complete !a603
Dap$Put_Message( Odd ); ! response !a603
END
ELSE
Dap$3_Part_Name( Odd, Fab, Fst ); ! Return 3-part name if needed
SELECTONE .fst[fst$b_operation] OF
SET
[Dap$k_Open]: $Rms_Open(Fab=Fab, Err=Rms$Signal);
[Dap$k_Create]: BEGIN !m573
LOCAL kd: REF $Rms_kdb INITIAL(.Fst[Fst$a_Kdb]);
LOCAL ad: REF $Rms_adb[32] INITIAL(.Fst[Fst$a_Adb]);
LOCAL XabTail: REF $XabSum_decl
INITIAL(.FalFab[Fab$a_Xab]);
! Find end of XAB chain
WHILE .XabTail[Xab$a_Nxt] NEQ 0
DO XabTail=.XabTail[Xab$a_Nxt];
! Climb through the kdb chain, building key xabs
WHILE .kd NEQ 0 ! We have keys defined, tell RMS
DO BEGIN
BIND xk = FalXabKey [.kd[Kdb$h_Reference],0,0,0,0]:
$XabKey_decl,
keyseg = xk[xab$h_siz0] : VECTOR,
segvec = kd[kdb$z_segments] : VECTOR;
$XabKey_Init( xab=xk, kref=.kd[Kdb$h_Reference] );
xk[Xab$a_Knm]=.Knmbuf[.kd[Kdb$h_Reference]];
xk[Xab$v_Dtp]=.kd[Kdb$v_Datatype];
xk[Xab$h_Flg]=.kd[Kdb$h_Flags];
xk[Xab$h_dfl]=.kd[Kdb$h_dfl_offset]; !610
xk[Xab$h_ifl]=.kd[Kdb$h_ifl_offset]; !610
xk[Xab$b_Ian]=.kd[Kdb$b_Ian]; !610
xk[Xab$b_Dan]=.kd[Kdb$b_Dan]; !610
INCR i from 0 TO 7
DO keyseg[.i]=.SegVec[.i]; ! Copy pos/siz pairs
xabtail[Xab$a_Nxt]=xk; ! Continue linked list !m600
xabtail=xk; !
kd=.kd[Kdb$a_Nxt];
END;
IF .ad NEQ 0 ! We have areas defined, tell RMS
THEN INCR i FROM 0 TO .ad[Adb$h_Bln]-1 DO
BEGIN
xabtail[xab$a_nxt] = FalXabAll[.i,0,0,0,0];
xabtail = FalXabAll[.i,0,0,0,0];
$XabAll_Init( Xab=.xabtail,
Aid=.i,
Bkz=.ad[adb$v_bkz,.i]);
END;
$Rms_Create(Fab=Fab, Err=Rms$Signal);
END;
[Dap$k_Erase]: BEGIN ! Erase wildcarded files !a633v
WHILE 1 ! Note $RMS_Erase doesn'e expunge file
DO BEGIN ! (first 3-part name already output)
Dap$$Put_Attributes( Odd, Fab, Fst ); ! Put attr out
$RMS_Erase(FAB=fab, ERR=RMS$SIGNAL); ! Erase file
IF .Config[Xab$b_Version] GEQ 7 ! If DAP v7 or later
THEN Dap$Put_Ack(Odd); ! Put out an ACK
$RMS_Search(FAB=fab); ! Get next file
IF .fab[FAB$H_STS] EQL RMS$_NMF ! No more files?
THEN EXITLOOP; ! yes, finish up
Dap$3_Part_Name(Odd, Fab, Fst); ! Send next name
END; ! All files deleted
DAP$Put_String( Odd,D_Acr ); ! Send access comp
Dap$Put_Message( Odd ); ! response
END; !a633^
[Dap$k_Rename]: BEGIN !a635v
BIND nnam = .nfab[FAB$A_NAM] : $NAM_DECL;
fab[FAB$V_DRJ] = 0; ! Release the jfns we get here
WHILE 1
DO BEGIN
nnam[NAM$H_RSL] = 0; ! Don't let RMS think
nnam[NAM$H_ESL] = 0; ! that there is a RSL or ESL
$RMS_Parse(FAB=nfab); ! Let the rename catch errors
$RMS_Rename(OLDFAB=fab, NEWFAB=nfab, ERR=RMS$SIGNAL);
Dap$$Put_Attributes(Odd, Fab, Fst); ! Old attrib
IF .Config[Xab$b_Version] GEQ 7 ! If DAP v7 or later
THEN Dap$Put_Ack(Odd); ! Put out an ACK
Dap$$Put_Attributes(Odd, NFab, Fst); ! New attrib
IF .Config[Xab$b_Version] GEQ 7 ! If DAP v7
THEN Dap$Put_Ack(Odd); ! Put out an ACK
Dap$Put_Message(Odd);
$RMS_Parse(FAB=fab); ! Any more files
IF NOT $RMS_Status_ok(fab) ! to rename?
THEN EXITLOOP; ! If not, then exit
$RMS_Search(FAB=fab); ! yes, get it
Dap$3_Part_Name(Odd, Fab, Fst); ! Send old name
END;
DAP$Put_String(Odd, D_Acr); ! Send access comp
Dap$Put_Message(Odd);
END; !a635^
[Dap$k_Submit]: BEGIN
Fab[Fab$v_Scf]=1; ! Set Submit-on-Close bit
$Rms_Create(Fab=Fab, Err=Rms$Signal);
END;
[Dap$k_Execute]: BEGIN
Fab[Fab$v_Scf]=1; ! Set Submit-on-Close bit
$Rms_Open(Fab=Fab, Err=Rms$Signal);
$Rms_Close(Fab=Fab, Err=Rms$Signal);
END;
[Dap$k_Directory]: ; !d570
[OTHERWISE]: Dap_Error(Odd,Dap$k_Mac_Unsupported, !a635
Dap$k_Mic_Access_Accfunc); !a635
!d635
TES;
SELECTONE .fst[fst$b_operation] OF
SET
[Dap$k_Open,
Dap$k_Create,
Dap$k_Submit]: Fst[Fst$v_Access_Active]= ! Access is active
Fst[Fst$v_File_Open]=1; ! Remember file is open
[Dap$k_Execute]: !m635!m572
BEGIN !d603
Fst[Fst$v_Access_Active]=1; ! Access is active
Fst[Fst$v_File_Open]=0; ! No file is open
END;
[Dap$k_Rename, !a635
Dap$k_Erase, !a635
Dap$k_Directory]: BEGIN !m635
Fst[Fst$v_File_Open] = 0; ! File not open !m635
Fst[Fst$v_Access_Active] = 0; ! Access was ended !m635
END; !a635
TES;
!+
! Copy the file attributes into the FST that FAL uses
!-
Fst[Fst$h_Bsz] = .Fab[Fab$v_Bsz]; ! Use file byte size !a557vv
Fst[Fst$h_Rfm] = .Fab[Fab$v_Rfm]; ! and record format
Fst[Fst$h_Rat] = .Fab[Fab$h_Rat]; ! and record attributes
Fst[Fst$b_Fac] = .Fab[Fab$h_Fac]; ! and file access
Fst[Fst$h_Fop] = .Fab[Fab$h_Fop]; ! and file access options
Fst[Fst$h_Mrs] = .Fab[Fab$h_Mrs]; ! and maximum record size
Fst[Fst$g_Mrn] = .Fab[Fab$g_Mrn]; ! and maximum record number !a557^^
.Fab[Fab$h_Sts] ! return status
END;
GLOBAL ROUTINE FillBlocks =
!+
! FUNCTIONAL DESCRIPTION
!
! Fill in the Fabs & XABs for directory
!
! IMPLICIT INPUTS
!
! FALFAB
!-
BEGIN
BIND
Fab=FalFab: $Fab_Decl,
Fst=FalFst: $Rms_Fst,
Nam=.Fab[Fab$a_Nam]: $Nam_decl,
Idd=.Fst[Fst$a_I_Dd]: $Dap_Descriptor,
Odd=.Fst[Fst$A_O_Dd]: $Dap_Descriptor,
Typ=.Fab[Fab$a_Typ]: $Typ_Decl;
!
! Set up the appropriate Xabs by the display field
! Date/Time and Summary XABs are already attached
!
LOCAL
xabtail: REF $XABSUM_DECL,
noa, ! Number Of Areas
nok,
hp_rab: VOLATILE,
hp_rst: VOLATILE,
hp_nlb: VOLATILE;
ENABLE fal$handle (hp_rab, hp_rst, hp_nlb ); ! Enable handler
hp_nlb=.fst[fst$a_nlb]; ! Set up args for handler
XabTail = .Fab[Fab$a_Xab];
Fab[Fab$h_Fac] = Fab$m_Nil; ! Nil access, no locking
Fab[Fab$v_Drj] = Fab[Fab$v_Nam] = 1; ! Keep the jfn, Open by NAM block
$Rms_Open( Fab=Fab ); ! Try to open file
!
! Loop through the XABs to find the end of the chain
!
WHILE 1 DO
BEGIN
IF .XabTail[Xab$v_Cod] EQL Xab$k_Sum
THEN
BEGIN ! Find out how many areas & keys
nok=.XabTail[Xab$b_Nok];
noa=.XabTail[Xab$b_Noa];
END;
IF .XabTail[Xab$a_Nxt] NEQ 0
THEN XabTail=.XabTail[Xab$a_Nxt]
ELSE EXITLOOP;
END;
!
! Set up as many Key XABs as needed
!
BEGIN
MAP xabtail: REF $Xabkey_decl;
INCR krf FROM 0 TO .nok-1
DO
BEGIN
xabtail[xab$a_nxt]=FalXabKey[.krf,0,0,0,0];
xabtail = FalXabKey[.krf,0,0,0,0];
$XabKey_Init( Xab=.xabtail,
KRef=.krf );
END;
END; !
!
! Set up as many Allocation XABs as needed
! At least 1, the vax requires it!
noa = MAX( .noa, 1 );
BEGIN
MAP xabtail: REF $XabAll_decl;
INCR aid FROM 0 TO .noa-1
DO
BEGIN
xabtail[xab$a_nxt]=FalXabAll[.aid,0,0,0,0];
xabtail = FalXabAll[.aid,0,0,0,0];
$XabAll_Init( Xab=.xabtail,
Aid=.aid );
END;
END;
xabtail[xab$a_nxt] = 0; ! End of the chain
IF .Fab[Fab$a_Ifi] NEQ 0 ! If we got the file open
THEN
BEGIN
$Rms_Display( Fab=Fab ); ! Fill in the XABs
$Rms_Close( Fab=Fab ); ! Close the file again
END;
Rms$_Suc
END;
GLOBAL ROUTINE Dap$Get_Control( P_Dd: REF $Dap_Descriptor ) =
!++
! FUNCTIONAL DESCRIPTION:
!
! Routine to process a Control message
!
! FORMAL PARAMETERS:
!
! P_DD: Addr of DAP descriptor
!
! IMPLICIT INPUTS:
!
! RABVEC: This is the vector of RABs that FAL uses
! RSTVEC: This is the vector of RSTs that FAL uses
! For both of the above, the StreamId in the message header
! is used to select the RAB and the RST we want to use
!
! IMPLICIT OUTPUTS:
!
! RAB and RST: point to the current RAB & RST
!
! ROUTINE VALUE:
!
! CTLFUNC: the Control function code
!
! SIDE EFFECTS:
!
! The requested Control function will have been initiated
!
!--
BEGIN
BIND idd=.p_dd: $dap_descriptor;
BIND odd=.p_dd[dap$a_other_dd]: $dap_descriptor;
BIND fab=FalFab: $Fab_decl, !m557
fst=FalFst: $Rms_Fst; !m557
LOCAL hp_rab: VOLATILE REF $rab_decl, ! Hold addresses of args for handler
hp_rst: VOLATILE REF $rms_rst, !
hp_nlb: VOLATILE REF $xpn_nlb(); !
ENABLE fal$handle (hp_rab, hp_rst, hp_nlb ); ! Enable handler
hp_nlb=.fst[fst$a_nlb]; ! Set up args for handler !d557
DO
BEGIN
SELECT dap$get_header(idd) OF
SET
[dap$k_control]:
BEGIN
BIND URab=RabVector[ .idd[Dap$b_StreamID], 0,0,0,0 ]: $Rab_decl, !a557
URst=RstVector[ .idd[Dap$b_StreamID], 0,0,0,0 ]: $Rms_Rst; !a557
LOCAL ctlfunc;
LOCAL ctlmenu: BITVECTOR[28] INITIAL(0);
LOCAL display: BITVECTOR[28] INITIAL(0);
LOCAL Key: BYTE8VECTOR[256] INITIAL(0); !630
LOCAL dkrf;
Rab = Hp_Rab = URab; !m560
Rst = Hp_Rst = URst; !m560
ctlfunc=dap$get_byte(idd);
URst[rst$v_no_send_control]=1; ! Do not send control msg back
dap$get_bitvector(idd,ctlmenu,1); ! Get the message menu
IF .ctlmenu[dap$v_ctl_rac] ! RAC field present
THEN URab[rab$b_rac]=$dap_translate_value(dap$get_byte(idd),
dap$k_rac_, rab$k_,
seq,key,rfa,blk,tra,bft);
IF .ctlmenu[dap$v_ctl_key] ! KEY field present !m555vv
THEN
BEGIN
LOCAL recnum;
CASE .URab[Rab$b_Rac] FROM Rab$k_Seq TO Rab$k_Bft OF
SET
[Rab$k_Key]:
!+ 630
! Read the key field into an intermediate buffer. Then match up the
! Krf with the FST's Fdb to figure out how to decode the field.
!-
CASE .Fab[Fab$v_Org] FROM Fab$k_Seq TO Fab$k_Idx OF
SET
[Fab$k_Idx]:
BEGIN
LOCAL ksz;
ksz = Dap$Get_Variable_Counted (idd,
CH$PTR(key,0,8),
255);
IF .ksz EQL Dap$_Ftl
THEN SIGNAL(Rms$_Ksz)
ELSE URab[Rab$b_Ksz] = .ksz;
END; ! of Indexed file access by key
[Fab$k_Rel]: ! Record number for relative files
(.URab[Rab$a_Kbf]) = dap$get_longword(idd);
[INRANGE, OUTRANGE]:
Dap$Get_Variable_String(idd,0,255); ! Ignore field !a561
TES;
[Rab$k_Blk,
Rab$k_Bft]:
URab[rab$g_bkt] = Get_Vbn(idd); !m577
[Rab$k_Rfa]:
BEGIN !a605v
LOCAL rfa: BYTE8VECTOR[8];
Dap$Get_Variable_Counted( idd, CH$PTR(rfa,0,8), 8 ); !m611
URab[Rab$g_Rfa] = Dap$Rfa_Dap_Rms(rfa);
END; !a605^
[INRANGE, OUTRANGE]:
Dap$Get_Variable_String( idd, 0, 255 ); ! Ignore field !m561
TES;
END; ! of code to handle KEY field !m555^^
dkrf = .URab[rab$b_krf]; ! get last-used KRF!630
IF .ctlmenu[dap$v_ctl_krf] ! KRF field present
THEN
BEGIN
Urab[rab$b_krf] = dap$get_byte(idd); ! get new KRF !630
dkrf = .URab[rab$b_Krf];
END;
IF .ctlmenu[dap$v_ctl_key] ! If there was
AND (.Fab[Fab$v_Org] EQL Fab$k_Idx) ! an indexed KEY
THEN
BEGIN ! 630
LOCAL dtp;
LOCAL Xabptr: REF $XabKey_decl;
Xabptr = FalXabKey[.dkrf,0,0,0,0];
dtp = .Xabptr[Xab$v_Dtp];
SELECT .dtp OF
SET
[Xab$k_In4, Xab$k_Bn4]:
BEGIN
.URab[Rab$a_kbf] = Num_Vb (key);
URab[Rab$b_Ksz] = 4; ! 620
END;
[Xab$k_Stg, Xab$k_Ebc, Xab$k_Pac]: ! ascii
BEGIN
LOCAL ksz,
Keyptr;
Keyptr=.URab[Rab$a_Kbf];
TGUPointer (Keyptr, .Fst[Fst$h_Bsz] );
ksz = chacaz (CH$PTR(key,0,8),.Keyptr);
URab[Rab$b_Ksz] = .ksz;
END;
[OTHERWISE]: SIGNAL(Rms$_dtp);
TES;
END;
IF .ctlmenu[dap$v_ctl_rop] ! ROP field present
THEN
BEGIN
LOCAL rop: BITVECTOR[42] INITIAL(0,0);
dap$get_bitvector(idd,rop,6);
$dap_move_bits(rop, dap$v_rop_, ! Translate DAP bits
URab, rab$v_, ! to RMS ones
eof,fdl,loc,rah,loa,wbh,kgt,kge,pad,
nrp,uif,ulk,tpt,nlk,bio,lim,nxr);
END;
IF .ctlmenu[dap$v_ctl_hsh] ! HSH field present
THEN
BEGIN
dap_error(odd,dap$k_mac_unsupported,dap$k_mic_control_hsh);
! Not Supported -- Reserved as of DAP 7.0
END;
IF .ctlmenu[dap$v_ctl_display] ! DISPLAY field present
THEN
BEGIN
dap$get_bitvector(idd,display,4);
Fst[Fst$v_Display] = .display;
END;
! Save the function code away
fst [ fst$b_operation ] = .ctlfunc ;
! Now do the requested function
control ( URab, URst )
END;
[DAP$K_ACCESS_COMPLETE]:
BEGIN
BIND URab=RabVector[ .idd[Dap$b_StreamID], 0,0,0,0 ]: $Rab_decl;
BIND URst=RstVector[ .idd[Dap$b_StreamID], 0,0,0,0 ]: $Rms_Rst; !a561
Hp_Rab = URab; !a557
Hp_Rst = URst; !a561
dap$get_access_complete ( idd, Fab, URab, URst ) ;
END;
[OTHERWISE]:
dap_error (odd, dap$k_mac_sync, .idd[dap$b_operator] )
TES;
END WHILE .fst[fst$v_file_open]
END;
ROUTINE dap$generation_check(p_pointer) : NOVALUE = !a635vv
!++
! FUNCTIONAL DESCRIPTION:
!
! Check for a filename of the form "file.type;gen" and change it into
! "file.type.gen". Also check for "<>file.type" and change it to
! "file.type". Yuk.
!
! FORMAL PARAMETERS:
!
! Byte pointer to ASCIZ filename to check.
!--
BEGIN
LOCAL char,
bpointer,
pointer;
! Braindamaged VMS gives us a directory string of "<>", so look for that
pointer = .p_pointer; ! Copy byte pointer to string
INCR i FROM 1 TO 255 ! Look through for the length of string
DO BEGIN
IF (char = CH$RCHAR_A(pointer)) EQL 0 ! If we hit a null we are done
THEN EXITLOOP;
IF .char EQL %C'<' OR .char EQL %C'[' ! Is it the beginning of a dir?
THEN BEGIN ! yes
char = CH$RCHAR_A(pointer); ! Get the next character
IF .char NEQ %C'>' AND .char NEQ %C']' ! Is it the end of dir spec?
THEN EXITLOOP; ! Nope, there is nothing wrong
bpointer = CH$PLUS(.pointer,-2); ! Back up by two please
INCR j FROM 1 TO 255-.i ! Look through the rest of str
DO BEGIN ! Move string back 2 characters
char = CH$RCHAR_A(pointer); ! Get a character
CH$WCHAR_A(.char,bpointer); ! Move it back by two
IF .char EQL 0 THEN EXITLOOP; ! If null exit INCR j loop
END; ! End of INCR j loop
EXITLOOP; ! And exit INCR i loop
END; ! End of INCR i loop
END;
! Look for the end of the string
pointer = .p_pointer; ! Copy byte pointer to string
INCR i FROM 1 TO 255 ! For the length of the string
DO IF CH$RCHAR_A(pointer) EQL 0 THEN EXITLOOP; ! Find the null there
pointer = CH$PLUS(.pointer,-1); ! Back up over the null
! Look backwards until a ";" found, quitting if anything besides a digit is
! found.
UNTIL .pointer EQL .p_pointer ! Until we are back at the start
DO BEGIN ! Loop through here
pointer = CH$PLUS(.pointer,-1); ! Back up by one
char = CH$RCHAR(.pointer); ! Get that character
IF .char EQL %C';' ! is the character a semicolon?
THEN BEGIN ! Yes
CH$WCHAR(%C'.',.pointer); ! Change it back to a period
EXITLOOP; ! And return
END;
IF .char NEQ %C'-' AND (.char LSS %C'0' OR .char GTR %C'9')
THEN RETURN; ! Return now if character not numeric
END;
END; !a635^^
ROUTINE control ( p_rab: REF $rab_decl, p_rst: REF $rms_rst ) =
!++
! FUNCTIONAL DESCRIPTION:
!
! Perform a record access as requested by remote user
!
! FORMAL PARAMETERS:
!
! P_RAB: Address of RMS RAB
! P_RST: Address of RST
!
! IMPLICIT INPUTS:
!
! FAB: Address of FAB
! FST: Address of FST
!--
BEGIN
BIND Urst=.p_rst: $rms_rst, ! URst is an argument, Rst is the global !M557ff
Urab=.p_rab: $rab_decl, ! URab is an argument, Rab is the global !M557ff
UFab=.Fab: $Fab_decl,
UFst=.Fst: $Rms_Fst,
idd=.Fst[Fst$a_I_Dd]: $dap_descriptor,
odd=.Fst[Fst$a_O_Dd]: $dap_descriptor;
LOCAL
rabsav: REF $Rab_decl VOLATILE,
rstsav: REF $Rms_Rst VOLATILE;
ENABLE Fal$Handle ( rabsav, rstsav );
rabsav=URab;
rstsav=URst;
CASE .fst[fst$b_operation] FROM 1 TO dap$k_ctlfunc_max OF
SET
[Dap$k_Get]: ! GET RECORD(S)
BEGIN
SELECT .URab[Rab$b_Rac] OF
SET
[Rab$k_Bft]: ! Block mode file transfer
BEGIN
Fst[Fst$h_File_Class] = Typ$k_Image; ! Block image !a541
DO BEGIN
$Rms_Read (Rab=URab, Err=Rms$Signal); ! Get a record
Dap$$Put(URab, URst, Rms$Signal);
URab[Rab$g_Bkt] = .URab[RAb$g_Rfa]+1; ! Next bucket
END WHILE 1;
END;
[Rab$k_Tra]: ! Sequential File Transfer
BEGIN ! in Record Mode
DO BEGIN
$Rms_Get(Rab=URab, Err=Rms$Signal); ! Get a record
Dap$$Put(URab, URst, Rms$Signal)
END WHILE 1;
END;
[Rab$k_Blk]: ! random $READ
BEGIN
Fst[Fst$h_File_Class] = Typ$k_Image; ! Block image !a541
$Rms_Read (Rab=URab, Err=Rms$Signal);
Dap$$Put (URab, URst, Rms$Signal);
Dap$Put_Success( Odd); ! Win status !a555
END;
[OTHERWISE]: ! Record mode $GET
BEGIN
$Rms_Get (Rab=URab, Err=Rms$Signal);
Dap$$Put (URab, URst, Rms$Signal);
Dap$Put_Success( Odd); ! Win status !a555
END;
TES;
END;
[Dap$k_Connect]: ! INITIATE A DATA STREAM
BEGIN
LOCAL Rac;
!+
! Set up the RAB we are going to use
!- !a557vv
URab[Rab$h_Bid] = Rab$k_Bid;
URab[Rab$h_Bln] = Rab$k_Bln;
$Rab_Store(Rab=URab, Fab=UFab,
ubf=UsrBuf, usz=dap$k_buffer_size/(%BPUNIT/8),
Kbf=KeyBuf, Ksz=255 );
URst[Rst$h_Bln] = Rst$k_Bln; ! Set up the RST
URst[Rst$h_Bid] = Rst$k_Bid; !
URst[Rst$a_Fst] = .Fst; !
URst[Rst$v_StreamId] = .Idd[Dap$b_StreamId]; ! !a557^^
! Now save the RAC & make TRA, BLK, or BFT into SEQ
Rac=.URab[Rab$b_Rac];
SELECT .Rac OF
SET
[Rab$k_Tra,
Rab$k_Blk,
Rab$k_Bft]: URab[Rab$b_Rac]=Rab$k_Seq;
[ALWAYS]:
BEGIN
$Rms_Connect(Rab=URab, Err=Rms$Signal); ! Connect RAB to FAB
Dap$Put_Ack(Odd); ! Acknowledge the connect
Dap$Put_Message(Odd);
END;
[Rab$k_Tra,
Rab$k_Blk,
Rab$k_Bft]: URab[Rab$b_Rac]=.Rac; ! Restore RAC
TES;
IF .Fst[Fst$v_Accopt_Crc] ! If checking CRC !a533
THEN URst[Rst$h_Checksum] = %O'177777'; ! CRC-16 !a533
END;
[Dap$k_Update]: ! UPDATE CURRENT RECORD
BEGIN
Dap$$Get( URab, URst, Rms$Signal); ! Read record
$Rms_Update (Rab=URab, Err=Rms$Signal); ! Update record
Dap$Put_Success( Odd); ! Win status !a555
END;
[Dap$k_Put]: ! PUT FOLLOWING RECORD(S)
BEGIN
LOCAL Rac;
! Now save the RAC & make TRA, BLK, or BFT into SEQ
Rac=.URab[Rab$b_Rac];
SELECT .Rac OF
SET
[Rab$k_Tra]:
BEGIN
URab[Rab$b_Rac]=Rab$k_Seq;
!M542
WHILE Dap$$Get(URab, URst, Rms$Signal) NEQ 0 ! Read record
DO $Rms_Put(Rab=URab, Err=Rms$Signal); ! Write record
URab[Rab$b_Rac]=.Rac; ! Restore RAC
END;
[Rab$k_Bft]: ! Block mode file transfer
BEGIN !M542
Fst[Fst$h_File_Class] = Typ$k_Image; !a542
WHILE Dap$$Get(URab, URst, Rms$Signal) NEQ 0 ! Read block
DO
BEGIN
URab[Rab$g_Bkt] = .URab[Rab$g_Rfa]; !a542
$Rms_Write(Rab=URab, Err=Rms$Signal); ! Write block !m542
END
END;
[Rab$k_Blk]: ! Block mode $WRITE
BEGIN
Dap$$Get( URab, URst, Rms$Signal); ! Read block
$Rms_Write (Rab=URab, Err=Rms$Signal); ! Write block
Dap$Put_Success( Odd); ! Win status !a555
END;
[OTHERWISE]: ! Record mode $PUT
BEGIN
Dap$$Get( URab, URst, Rms$Signal); ! Read record
$Rms_Put (Rab=URab, Err=Rms$Signal); ! Write record
Dap$Put_Success( Odd); ! Win status !a555
END;
TES;
END; ! End of $PUT/$WRITE
[Dap$k_Delete]: ! DELETE CURRENT RECORD
BEGIN
$Rms_Delete (Rab=URab, Err=Rms$Signal);
Dap$Put_Success( Odd); ! Win status !a555
END;
[Dap$k_Rewind]: ! REWIND FILE
BEGIN
$Rms_Disconnect (Rab=URab, Err=Rms$Signal);
$Rms_Connect (Rab=URab, Err=Rms$Signal);
Dap$Put_Success( Odd); ! Win status !a555
END;
[Dap$k_Truncate]: ! TRUNCATE FILE
BEGIN
$Rms_Truncate (Rab=URab, Err=Rms$Signal);
Dap$Put_Success( Odd); ! Win status !a555
END;
[Dap$k_Release]: ! UNLOCK RECORD
BEGIN
$Rms_Release (Rab=URab, Err=Rms$Signal);
Dap$Put_Success( Odd); ! Win status !a555
END;
[Dap$k_Free]: ! UNLOCK ALL RECORDS
BEGIN
$Rms_Free (Rab=URab, Err=Rms$Signal);
Dap$Put_Success( Odd); ! Win status !a555
END;
[Dap$k_Flush]: ! WRITE OUT ALL MODIFIED I/O BUFS
BEGIN
$Rms_Flush (Rab=URab, Err=Rms$Signal);
Dap$Put_Success( Odd); ! Win status !a555
END;
[Dap$k_Find]: ! FIND RECORD
BEGIN
$Rms_Find (Rab=URab, Err=Rms$Signal);
Dap$Put_Success( Odd); ! Win status !a555
END;
! [DAP$K_MODIFY]: ! MODIFY FILE ATTRIBUTES
! [DAP$K_EXTEND_BEGIN]: ! FORWARD/BACKWARD SPACE
! [DAP$K_NXTVOL]: ! START NEXT VOLUME
! [DAP$K_EXTEND_END]: ! EXTEND FILE BY ALC MSG
[Dap$k_Display]: ! RETRIEVE ATTRIBUTES MESSAGE !a545vv
BEGIN
$Rms_Display( Fab=UFab, Err=Rms$Signal);
Dap$$Put_Attributes( Odd, UFab, UFst );
Dap$Put_Ack( Odd );
Dap$Put_Message( Odd );
END; !a545^^
! [DAP$K_SPACE_FORWARD]: ! FORWARD SPACE
! [DAP$K_SPACE_BACKWARD]: ! BACKWARD SPACE
! [DAP$K_CHECKPOINT]: ! CHECKPOINT
! [DAP$K_RECOVERY_GET]: ! GET, recovering after checkpoint
! [DAP$K_RECOVERY_PUT]: ! PUT, recovering after checkpoint
[INRANGE]: Dap_Error(Odd,Dap$k_Mac_Unsupported,
Dap$k_Mic_Control_Ctlfunc);
[OUTRANGE]: Dap_Error(Odd,Dap$k_Mac_Invalid,
Dap$k_Mic_Control_Ctlfunc);
TES;
.URab[rab$h_sts] ! Return status
END; ! CONTROL
GLOBAL ROUTINE dap$get_access_complete (p_dd: REF $dap_descriptor,
p_fab: REF $fab_decl,
p_rab: REF $rab_decl,
p_rst: REF $rms_rst )=
BEGIN
!++
! FUNCTIONAL DESCRIPTION:
!
! Routine to process an ACCESS COMPLETE message
! The message header may have already been eaten
!
! FORMAL PARAMETERS:
!
! P_DD: Addr of DAP descriptor
! P_FAB: Addr of FAB
! P_RAB: Addr of RAB
! P_RST: Addr of rst
!
! IMPLICIT INPUTS:
!
! FALFST: Fst
!
! ROUTINE VALUE:
!
! CMPFUNC: the ACCESS COMPLETE function code
!
! SIDE EFFECTS:
!
! The accessed file, if any, will be closed or flushed
!
!--
BIND Idd=.p_Dd: $Dap_Descriptor;
Bind Odd=.idd[Dap$a_Other_Dd]: $Dap_Descriptor;
BIND Fab=.p_Fab: $Fab_decl;
BIND Nam=.Fab[Fab$a_Nam]: $Nam_decl; ! In Same section as we are in
BIND Rab=.p_Rab: $Rab_decl;
BIND Rst=.p_Rst: $Rms_Rst;
BIND Fst=FalFst: $Rms_fst;
LOCAL fop: BITVECTOR[42];
LOCAL original_fop: BITVECTOR[18];
LOCAL checksum;
LOCAL cmpfunc;
LOCAL v;
original_fop=.fab[fab$h_fop]; ! Save original fop bits
If .idd[dap$h_length] LEQ 0 ! If we have not read header
THEN IF dap$get_header(idd) NEQ dap$k_access_complete ! do so, and if it isnt
THEN ! Access Complete
BEGIN !
dap$unget_header(idd); ! then regurgitate
RETURN 0 ! and return
END;
cmpfunc=dap$get_byte(idd); ! Save ACCOMP function
IF .idd[dap$h_length] GTR 0 ! If message continues
THEN ! next field is a FOP
BEGIN
dap$get_bitvector(idd,fop,6); ! Get FOP field
$dap_move_bits(fop,dap$v_fop_,fab,fab$v_, !m573
rwo,rwc,pos,dlk,lck,
ctg,sup,nef,tmp,mkd,dmo,
wck,rck,cif,lko,sqo,mxv,spl,
scf,dlt,cbt,wat,dfw,tef,
drj);
END;
IF .idd[dap$h_length] GTR 0 ! If anything left in message
THEN ! It must be the checksum !a533vv
BEGIN
LOCAL checksum;
IF .Fop[Dap$v_Fop_Dlt] ! 610 If we're deleting the file
AND .cmpfunc EQL Dap$k_Accomp_Command ! 610 on a close
THEN Dap$Eat_message (idd) ! 610 don't bother with checksum
ELSE
BEGIN
checksum=dap$get_2byte(idd); ! Get checksum field if any
IF (.checksum NEQ .Rst[Rst$h_Checksum]) !If it was wrong
AND .Fst[Fst$v_Accopt_Crc] ! and the caller cares !a561
THEN SIGNAL( Dap$_Crc );
END;
END; !a533^^
v=(CASE .cmpfunc FROM 1 TO Dap$k_Accomp_Max OF
SET
[Dap$k_Accomp_Command]:
BEGIN
! Allow search afterwards if wildcarded
Fab[Fab$v_Drj] = ( Nam NEQ 0 AND .Nam[Nam$v_Wildcard]);
!m577
$Rms_Close (Fab=Fab, Err=Rms$Signal); ! close the file
IF .Fab[Fab$v_Drj] !m577
THEN
BEGIN
$Rms_Search (Fab=Fab); ! Look for more files
IF .Fab[Fab$h_Sts] NEQ Rms$_Nmf
THEN Dap$3_Part_Name( Odd, Fab, Fst ); !a566
IF .Fab[Fab$h_Sts] EQL Rms$_Suc
THEN ! Found one
BEGIN ! Send new attributes & RETURN
$Rms_Open (Fab=Fab, Err=Rms$Signal );
Dap$$Put_Attributes( Odd, Fab, Fst );
Dap$Put_Ack( Odd );
Dap$Put_Message( Odd );
Fst[Fst$v_File_Open]=1; ! file open now !a566
RETURN Dap$k_Accomp_Command;
END
END;
Fst[Fst$v_File_Open]=0; ! no file open now
Dap$Put_String(Odd,D_Acr);
Dap$Put_Message(Odd);
Dap$k_Accomp_Command ! we won & we're done
END;
[Dap$k_Accomp_Response]:
Dap_Error(Idd, Dap$k_Mac_Invalid,Dap$k_Mic_Accomp_Cmpfunc);
! An Active task is not supposed to send this
[Dap$k_Accomp_Purge]:
BEGIN
EXTERNAL ROUTINE r$reset; !?
EXTERNAL ROUTINE r$null; !?
r$reset(fab,r$null); !?
fst[fst$v_file_open]=0; ! No file open now
dap$put_string(odd,d_acr);
dap$put_message(odd);
dap$k_accomp_purge ! They gave up on us
END;
[DAP$K_ACCOMP_EOS]: ! $DISCONNECT rab
BEGIN
$Rms_disconnect ( rab=rab, err=rms$signal );
dap$put_string(odd,d_acr);
dap$put_message(odd);
Dap$k_Accomp_Eos
END;
[Dap$k_Accomp_Skip]:
BEGIN
!+
! This is like Accomp_Command except
! that the FOP close options are NOT honored.
! Unlike Accomp_Purge, wildcard access may continue.
!-
Fst[Fst$h_Fop] = .Fab[Fab$h_Fop]; ! Save the real FOP
Fab[Fab$h_Fop] = Fab$m_Drj+Fab$m_Nam ; ! Allow search
IF (.Fab[Fab$a_Ifi] NEQ 0) ! If the file is open !a566
THEN $Rms_Close (Fab=Fab, Err=Rms$Signal); ! close the file
Fab[Fab$h_Fop] = .Fst[Fst$h_Fop]; ! Get back the real FOP
IF Nam NEQ 0 AND .Nam[Nam$v_Wildcard]
THEN
BEGIN
$Rms_Search (Fab=Fab); ! Look for more files
IF .Fab[Fab$h_Sts] NEQ Rms$_Nmf
THEN Dap$3_Part_Name( Odd, Fab, Fst ); !a566
IF .Fab[Fab$h_Sts] EQL Rms$_Suc
THEN ! Found one
BEGIN ! Send new attributes & RETURN
$Rms_Open( Fab=Fab, Err=Rms$Signal );
Dap$$Put_Attributes( Odd, Fab, Fst );
Dap$Put_Ack( Odd );
Dap$Put_Message( Odd );
Fst[Fst$v_File_Open]=1; ! file open now !a566
RETURN Dap$k_Accomp_Skip;
END
END;
Fst[Fst$v_File_Open]=0; ! no file open now
Dap$Put_String(Odd,D_Acr);
Dap$Put_Message(Odd);
Dap$k_Accomp_Skip ! we won & we're done
END;
[Dap$k_Accomp_Change_Begin]:
BEGIN
Dap_Error(Idd, Dap$k_Mac_Unsupported,
Dap$k_Mic_Accomp_Cmpfunc);
Dap$k_Accomp_Change_Begin
END;
[Dap$k_Accomp_Change_End]:
BEGIN
Dap_Error(Idd, Dap$k_Mac_Unsupported,
Dap$k_Mic_Accomp_Cmpfunc);
Dap$k_Accomp_Change_End
END;
[Dap$k_Accomp_Terminate]:
BEGIN
Fab[Fab$v_Drj]=0; ! No more files! Period!
$Rms_Close (Fab=Fab, Err=Rms$Signal); ! close the file
Fst[Fst$v_File_Open]=0; ! no file open now
Dap$Put_String(Odd,D_Acr);
Dap$Put_Message(Odd);
Dap$k_Accomp_Terminate ! we won & we're done
END;
[OUTRANGE]: BEGIN ! Not a valid function code
dap_error(odd,
dap$k_mac_invalid,
dap$k_mic_accomp_cmpfunc)
END;
TES);
fab[fab$h_fop]=.original_fop; ! Restore the FOP
.v ! Returned value is Access Complete function code
END; !DAP$GET_ACCESS_COMPLETE
GLOBAL ROUTINE dap$put_ack ( dd: REF $dap_descriptor ): NOVALUE=
!++
! FUNCTIONAL DESCRIPTION:
!
! Build an ACK message
!
! FORMAL PARAMETERS:
!
! DD: Addr of output DAP message descriptor
!
!--
BEGIN
Init_Message(dd[$]); ! Set up dap descriptor
Dd[Dap$b_Operator]=dap$k_ack; ! Build header
Dd[Dap$v_Mflags_Length] = 1; ! Send length field
Dd[Dap$h_Length] = 0; ! No data
dap$put_header(dd[$]); !
END; ! DAP$PUT_ACK
GLOBAL ROUTINE dap$error_rms_dap (stscode) =
!++
! FUNCTIONAL DESCRIPTION:
!
! Return appropriate DAP Miccode for RMS error code
!
! FORMAL PARAMETERS:
!
! STSCODE: RMS error code
!
!--
BEGIN
SELECT .STSCODE OF
SET
$dap$$translate_value(rms$_,dap$_,
bug,bsz,ccf,ccr,cef,cgj,chg,cod,cof,cur,
dan,del,dev,dup,dtp,dme,dnf,eof,ext,
fex,flg,flk,fnf,fnm,fop,ful,ian,iop,key,ksz,
mrn,mrs,nef,nmf,npk,org,pos,prv,
rac,rat,rbf,rer,rex,rfa,rfm,rlk,rnf,rnl,rop,rsz,
rtb,shr,siz,
typ,ubf,usz,wer,wlk,
xab,xcl
);
!m662
[rms$_fsi]: dap$_syn;
[Dap$k_Facility_Code TO Dap$k_Facility_Code+%O'7777777']: !a545
.StsCode; ! Already what we want !a545
[OTHERWISE]: 0;
TES
END; ! DAP$ERROR_RMS_DAP
GLOBAL ROUTINE dap$put_status(p_dd: REF $dap_descriptor,
maccode,
miccode,
rfa,
recnum,
stv,
p_txt): NOVALUE=
!++
! FUNCTIONAL DESCRIPTION:
!
! Build a STATUS message, using specified status codes
!
! FORMAL PARAMETERS:
!
! P_DD: Address of DAP message descriptor
! MACCODE: As defined in DAP spec
! MICCODE: As defined in DAP spec
! or put the whole code in MICCODE and leave MACCODE 0
! RFA: RFA number in error
! RECNUM: Record number in error
! STV: Secondary status code
! TXT: String descriptor to text if nonzero
!--
BEGIN ! Fix handling of RFAs & recnums !m605
BIND dd=.p_dd: $Dap_Descriptor;
BIND txt=.p_txt: $str_descriptor();
LOCAL macmic; ! Combined code goes here
! !----!------------!
macmic=.miccode+.maccode; ! !MAC ! MIC !
! !----!------------!
! 4 bits 12 bits
IF .macmic GTR Dap$k_Facility_Code ! If we got a 32-bit condition code
THEN macmic=.macmic<DapCode>; ! Convert to 16-bit Dap status code
init_message(dd); !
dd[dap$b_operator]=dap$k_status; ! Build header
dd[dap$h_length]=2; ! Length of MACCODE+MICCODE
dap$put_header(dd); !
dap$put_2byte(dd,.macmic); ! Put maccode & miccode as 2 byte field
IF .rfa NEQ 0
THEN
BEGIN
LOCAL vrfa: BYTE8VECTOR[8];
Dap$Rfa_Rms_Dap( .rfa, vrfa );
Dap$Put_Variable_Counted(dd,CH$PTR(vrfa,0,8)); ! And the RFA !m611
END;
IF .recnum NEQ 0 THEN dap$put_longword(dd,.recnum); ! And the record number
IF .stv NEQ 0 THEN dap$put_longword(dd,.stv); ! And the STV
IF txt NEQ 0 ! Send text if any
THEN
BEGIN
dap$put_byte(dd,.txt[str$h_length]);
dap$put_string(dd,txt);
END;
END; ! DAP$PUT_STATUS
GLOBAL ROUTINE dap$put_Success( dd: REF $dap_descriptor ): NOVALUE=
!++
! FUNCTIONAL DESCRIPTION:
!
! Build and send a STATUS message, using SUCCESS status codes
!
! FORMAL PARAMETERS:
!
! DD: Address of DAP message descriptor
!
! IMPLICIT INPUTS:
!
! MACCODE: Dap$k_Mac_Success (as defined in DAP spec)
! MICCODE: Dap$k_Err_Normal (As defined in DAP spec)
! RFA: from Rab[Rab$g_Rfa]
! RECNUM: 0
! STV: 0
! TXT: 0
!--
BEGIN
Dap$Put_Status( .dd, ! Use output descriptor we were passed
Dap$k_Mac_Success, ! Normal success return
Dap$k_Err_Normal, ! Normal success return
.Rab[Rab$g_Rfa], ! Return the RFA to the user
0, ! No RECNUM
0, ! No STV
0 ! No text of error message
);
Dap$Put_Message( .dd ); ! Force it out
END; ! Dap$Put_Success
GLOBAL ROUTINE dap$get_continue ( p_dd: REF $dap_descriptor )=
!++
! FUNCTIONAL DESCRIPTION
!
! Flush all messages in the pipe until a CONTINUE is seen.
! Then parse the CONTINUE message and return its function code
!
! FORMAL PARAMETERS
!
! P_DD: address of input dap descriptor
!
! RETURNED VALUE
!
! dap function code for CONTINUE message
!--
BEGIN
BIND dd=.p_dd: $dap_descriptor;
! Ignore all messages until a CONTINUE message
WHILE dap$get_header (dd) NEQ dap$k_continue
DO dap$eat_message (dd); ! Throw away this message
dap$get_byte (dd) ! Return CONTINUE function code
END;
GLOBAL ROUTINE dap$retry_last_operation ( p_blk: REF $rab_decl,
P_st: REF $rms_rst )=
!++
! FUNCTIONAL DESCRIPTION
!
! Retry the last operation we attempted
!
! FORMAL PARAMETERS
!
! P_BLK: address of RAB or FAB (as appropriate)
! P_ST: address of FST or RST ( " " )
!
! RETURNED VALUE
!
! whatever the last operation returns when we retry it
!
!--
BEGIN
IF .P_Blk[rab$h_bid] EQL fab$k_bid
THEN access ( .P_Blk, .P_st )
ELSE control ( .P_blk, .P_st )
END;
ROUTINE Dap$3_Part_Name( P_Odd, P_Fab, P_Fst ): NOVALUE =
!+
! Send 3-part Name Message(s) if needed
!-
BEGIN !a566v
BIND Odd=.P_Odd: $Dap_Descriptor,
Fab=.P_Fab: $Fab_decl,
Nam=.Fab[Fab$a_Nam]: $Nam_decl,
Fst=.P_Fst: $Rms_Fst;
IF .Nam[Nam$v_Wildcard]
THEN Fst[Fst$v_Display_3_Part_Name] = 1;
IF .Fst[Fst$v_Display_3_Part_Name]
THEN
BEGIN
Local Nametype: BITVECTOR[28];
IF .Nam[Nam$v_Cha_Str]
THEN
BEGIN
Nametype=0;
Nametype[Dap$k_Nametype_Str]=1;
Dap$Put_Name( Odd, Fab, Nametype );
END;
IF .Nam[Nam$v_Cha_Dir]
THEN
BEGIN
Nametype=0;
Nametype[Dap$k_Nametype_Dir]=1;
Dap$Put_Name( Odd, Fab, Nametype );
END;
!+
! Send the filename and extension in any case
!-
Nametype=0;
Nametype[Dap$k_Nametype_Nam]=1;
Dap$Put_Name( Odd, Fab, Nametype );
END;
END; !Dap$3_Part_Name !A566^
END ELUDOM