HLTF2 ;AISC/SAW/MTC-Process Message Text File Entries (Cont'd) ;10/17/2007 09:44 ;;1.6;HEALTH LEVEL SEVEN;**25,122**;Oct 13, 1995;Build 14 ;Per VHA Directive 2004-038, this routine should not be modified. ; MERGEIN(LLD0,LLD1,MTIEN,HDR,MSA) ;Merge Data From Communication Server ;Module Logical Link File into Message Text File ; ;This is a subroutine call with parameter passing. The output ;parameters HDR (and optionally) MSA are returned by this call. ; ;Required input parameters ; LLD0 = Internal entry number where message is stored in Logical Link ; file or XM if message is stored in MailMan ; LLD1 = Internal entry number of IN QUEUE multiple entry in Logical ; Link file (Only required for messages stored in Logical ; Link file) ; MTIEN = Internal entry number where message is to be copied to in ; Message Text file ; HDR = The variable in which the message header segment will ; be returned ; MSA = The variable in which the message acknowledgement segment ; will be returned, if one exists for this message ; ;Check for required parameters I $G(LLD0)']""!('$G(MTIEN)) Q I LLD0'="XM",'$G(LLD1) Q N FLG,HLCHAR,HLEVN,HLFS,I,X,X1,HLDONE S (FLG,HLCHAR,HLEVN,X)=0 ; ; patch HL*1.6*122: MPI-client/server F L +^HL(772,+$G(MTIEN)):10 Q:$T H 1 ; ;Move data from Logical Link file to Message Text file I LLD0'="XM" D .S I=0 F S X=$O(^HLCS(870,LLD0,1,LLD1,1,X)) Q:X'>0 S X1=$G(^(X,0)) S:"FHS,BHS,MSH"[$E(X1,1,3) FLG=1 I FLG S HLCHAR=HLCHAR+$L(X1) D ..;If header segment, process it and set HDR equal to it ..I X1'="","FHS,BHS,MSH"[$E(X1,1,3) D ...I '$D(HDR) S HDR=X1,HLFS=$E(X1,4) I $E(HDR,1,3)="BHS" S MSA="MSA"_HLFS_$P($P(HDR,HLFS,10),$E(HDR,5),1)_HLFS_$P(HDR,HLFS,12)_HLFS_$P($P(HDR,HLFS,10),$E(HDR,5),2) ...S $P(X1,HLFS,8)="" ...S:$E(X1,1,3)="MSH" HLEVN=HLEVN+1 ..;If acknowledgement segment, set MSA equal to it ..I $E(X1,1,3)="MSA",'$D(MSA),$E($G(HDR),1,3)="MSH" S MSA=X1 ..S I=I+1,^HL(772,MTIEN,"IN",I,0)=X1 ; ;Move data from MailMan Message file to Message Text file I LLD0="XM" D .S I=0 F X XMREC Q:XMER<0 S:"FHS,BHS,MSH"[$E(XMRG,1,3) FLG=1 I FLG S HLCHAR=HLCHAR+$L(XMRG) D Q:XMER<0 ..;If header segment, process it and set HDR equal to it ..I XMRG'="","FHS,BHS,MSH"[$E(XMRG,1,3) D ...I '$D(HDR) S HDR=XMRG,HLFS=$E(XMRG,4) I $E(HDR,1,3)="BHS" S MSA="MSA"_HLFS_$P($P(HDR,HLFS,10),$E(HDR,5),1)_HLFS_$P(HDR,HLFS,12)_HLFS_$P($P(HDR,HLFS,10),$E(HDR,5),2) ...S $P(XMRG,HLFS,8)="" ...S:$E(XMRG,1,3)="MSH" HLEVN=HLEVN+1 ..;If acknowledgement segment, set MSA equal to it ..I $E(XMRG,1,3)="MSA",'$D(MSA),$E($G(HDR),1,3)="MSH" S MSA=XMRG ..S I=I+1,^HL(772,MTIEN,"IN",I,0)=XMRG S ^HL(772,MTIEN,"IN",0)="^^"_I_"^"_I_"^"_$$DT^XLFDT_"^" ;Update statistics in Message Text file for this entry ; ; patch HL*1.6*122: MPI-client/server L -^HL(772,+$G(MTIEN)) ; D STATS^HLTF0(MTIEN,HLCHAR,HLEVN) Q MERGEOUT(MTIEN,LLD0,LLD1,HDR) ;Merge Text in Message Text File into ;Communication Server Module Logical Link File ; ;This is a routine call with parameter passing. There are no output ;parameters returned by this call. ; ;Required input parameters ; MTIEN = Internal entry number where message is stored in Message ; Text file ; LLD0 = Internal entry number where message is to be copied to in ; Logical Link file ; LLD1 = Internal entry number of IN QUEUE multiple entry in Logical ; Link file ; HDR = Name of the array that contains HL7 Header segment ; format: HLHDR - Used with indirection to build message in out ; queue ; This routine will first take the header information in the array ; specified by HDR and merge into the Message Text field of file 870. ; Then it will move the message contained in 772 (MTIEN) into 870. ; ;Check for required parameters I '$G(MTIEN)!('$G(LLD0))!('$G(LLD1))!(HDR="") Q ; ;-- initilize N I,X S I=0 ; ; patch HL*1.6*122: MPI-client/server F L +^HLCS(870,+$G(LLD0),2,+$G(LLD1)):10 Q:$T H 1 ; ;-- move header into 870 from HDR array S X="" F S X=$O(@HDR@(X)) Q:'X D . S I=I+1,^HLCS(870,LLD0,2,LLD1,1,I,0)=@HDR@(X) S I=I+1,^HLCS(870,LLD0,2,LLD1,1,I,0)="" ; ;Move data from Message Text file to Logical Link file S X=0 F S X=$O(^HL(772,MTIEN,"IN",X)) Q:X="" D . S I=I+1,^HLCS(870,LLD0,2,LLD1,1,I,0)=$G(^HL(772,MTIEN,"IN",X,0)) ; ;-- update 0 node of message and format arrays S ^HLCS(870,LLD0,2,LLD1,1,0)="^^"_I_"^"_I_"^"_$$DT^XLFDT_"^" ; ; patch HL*1.6*122: MPI-client/server L -^HLCS(870,+$G(LLD0),2,+$G(LLD1)) ; Q OUT(HLDA,HLMID,HLMTN) ;File Data in Message Text File for Outgoing Message ;Version 1.5 Interface Only ; ; patch HL*1.6*122: HLTF routine splitted, moves sub-routines, ; OUT, IN, and ACK to HLTF2 routine. ; Q:'$D(HLFS) ; I HLMTN="ACK"!(HLMTN="MCF")!(HLMTN="ORR") Q:'$D(HLMSA) D ACK(HLMSA,"I") Q ; ;-- if message contained MSA find inbound message I $D(HLMSA),$D(HLNDAP),$P(HLMSA,HLFS,3)]"" D . N HLDAI . S HLDAI=0 . F S HLDAI=$O(^HL(772,"AH",+$P($G(HLNDAP0),U,12),$P(HLMSA,HLFS,3),HLDAI)) Q:'HLDAI!($P($G(^HL(772,+HLDAI,0)),U,4)="I") . I 'HLDAI K HLDAI ; D STUFF^HLTF0("O") ; N HLAC S HLAC=$S($D(HLERR):4,'$P(HLNDAP0,"^",10):1,1:2) D STATUS^HLTF0(HLDA,HLAC,$G(HLMSG)) D:$D(HLCHAR) STATS^HLTF0(HLDA,HLCHAR,$G(HLEVN)) ; ;-- update status if MSA and found inbound message I $D(HLMSA),$D(HLDAI) D .N HLERR,HLMSG I $P(HLMSA,HLFS,4)]"" S HLERR=$P(HLMSA,HLFS,4) .S HLAC=$P(HLMSA,HLFS,2) .I HLAC'="AA" S HLMSG=$S(HLAC="AR":"Application Reject",HLAC="AE":"Application Error",1:"")_" - "_HLERR .S HLAC=$S(HLAC'="AA":4,1:3) D STATUS^HLTF0(HLDAI,HLAC,$G(HLMSG)) Q ; IN(HLMTN,HLMID,HLTIME) ;File Data in Message Text File for Incoming Message ;Version 1.5 Interface Only ; ; patch HL*1.6*122: HLTF routine splitted, moves sub-routines, ; OUT, IN, and ACK to HLTF2 routine. ; Q:'$D(HLFS) I HLMTN="ACK"!(HLMTN="MCF")!(HLMTN="ORR") Q:'$D(HLMSA) D ACK(HLMSA,"O",$G(HLDA)) Q ; N HLDAI S HLDA=0 I $D(HLNDAP),HLMID]"" D .F S HLDA=+$O(^HL(772,"AH",+$P($G(HLNDAP0),U,12),HLMID,HLDA)) Q:'HLDA!($P($G(^HL(772,+HLDA,0)),U,4)="I") .I HLDA D ..S HLDT=+$P($G(^HL(772,HLDA,0)),"^"),HLDT1=$$HLDATE^HLFNC(HLDT) ..K ^HL(772,HLDA,"IN") .I $D(HLMSA),$P(HLMSA,HLFS,3)]"" D ..S HLDAI=0 ..F S HLDAI=$O(^HL(772,"AH",+$P($G(HLNDAP0),U,12),$P(HLMSA,HLFS,3),HLDAI)) Q:'HLDAI!($P($G(^HL(772,+HLDAI,0)),U,4)="O") ..I 'HLDAI K HLDAI ; ; patch HL*1.6*122: MPI-client/server ; I 'HLDA D CREATE(.HLMID,.HLDA,.HLDT,.HLDT1) K HLZ I 'HLDA D CREATE^HLTF(.HLMID,.HLDA,.HLDT,.HLDT1) K HLZ ; D STUFF^HLTF0("I") N HLAC S HLAC=$S($D(HLERR):4,1:1) D STATUS^HLTF0(HLDA,HLAC,$G(HLMSG)) ; D MERGE15^HLTF1("G",HLDA,"HLR",HLTIME) ; I '$D(HLERR),$D(HLMSA),$D(HLDAI) D .N HLAC,HLERR,HLMSG I $P(HLMSA,HLFS,4)]"" S HLERR=$P(HLMSA,HLFS,4) .S HLAC=$P(HLMSA,HLFS,2) I HLAC'="AA" S HLMSG=$S(HLAC="AR":"Application Reject",1:"Application Error")_" - "_HLERR .S HLAC=$S(HLAC'="AA":4,1:3) D STATUS^HLTF0(HLDAI,HLAC,$G(HLMSG)) Q ; ACK(HLMSA,HLIO,HLDA) ;Process 'ACK' Message Type - Version 1.5 Interface Only ; ; patch HL*1.6*122: HLTF routine splitted, moves sub-routines, ; OUT, IN, and ACK to HLTF2 routine. ; ; To determine the correct message to link the ACK, HLIO is used. ; For an ack from DHCP (original message from remote system) then ; HLIO should be "I" so that the correct inbound message is ack-ed. For ; an inbound ack (original message outbound from DHCP) HLIO should be ; "O". This distinction must be made due to the possible duplicate ; message ids from a bi-direction interface. ; ; Input : MSA - MSA from ACK message. ; HLIO - Either "I" or "O" : See note above. ;Output : None ; N HLAC,HLMIDI ;-- set up required vars S HLAC=$P(HLMSA,HLFS,2),HLMIDI=$P(HLMSA,HLFS,3) ;-- quit Q:HLMIDI']""!(HLAC']"")!('$D(HLNDAP)) ;-- find message to ack I '$G(HLDA) S HLDA=0 D . F S HLDA=+$O(^HL(772,"AH",+$P($G(HLNDAP0),U,12),HLMIDI,HLDA)) Q:'HLDA!($P($G(^HL(772,+HLDA,0)),U,4)=HLIO) ;-- quit if no message Q:'$D(^HL(772,+HLDA,0)) ;-- check for error I $P(HLMSA,HLFS,4)]"" N HLERR S HLERR=$P(HLMSA,HLFS,4) I $D(HLERR),'$D(HLMSG) N HLMSG S HLMSG="Error During Receipt of Acknowledgement Message"_$S(HLAC="AR":" - Application Reject",HLAC="AE":" - Application Error",1:"")_" - "_HLERR ;-- update status S HLAC=$S(HLMTN="MCF":2,HLAC'="AA":4,1:3) D STATUS^HLTF0(HLDA,HLAC,$G(HLMSG)) Q ;