1 | HLCSTCP1 ;SFIRMFO/RSD - BI-DIRECTIONAL TCP ;7/28/07 08:58
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2 | ;;1.6;HEALTH LEVEL SEVEN;**19,43,57,64,71,133,132,122**;OCT 13,1995;Build 4
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3 | ;Per VHA Directive 2004-038, this routine should not be modified.
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4 | ;Receiver
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5 | ;connection is initiated by sender and listener accepts connection
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6 | ;and calls this routine
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7 | ;
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8 | N $ETRAP,$ESTACK S $ETRAP="D ERROR^HLCSTCP1"
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9 | N HLMIEN,HLASTMSG
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10 | ;
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11 | ; patch HL*1.6*122 start
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12 | ; variable to replace ^TMP
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13 | N HLTMBUF
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14 | ; for HL7 application proxy user
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15 | N HLDUZ,DUZ
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16 | D MON^HLCSTCP("Open")
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17 | ; K ^TMP("HLCSTCP",$J,0)
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18 | S HLMIEN=0,HLASTMSG=""
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19 | ; set DUZ for application proxy user
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20 | D PROXY^HLCSTCP4
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21 | F D Q:$$STOP^HLCSTCP I 'HLMIEN D MON^HLCSTCP("Idle") H 3
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22 | . ; clean variables
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23 | . D CLEANVAR^HLCSTCP4
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24 | . S HLMIEN=$$READ
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25 | . Q:'HLMIEN
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26 | . ; DUZ comparison/reset for application proxy user
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27 | . D HLDUZ^HLCSTCP4
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28 | . ; protect HLDUZ
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29 | . N HLDUZ
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30 | . D PROCESS
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31 | ; patch HL*1.6*122 end
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32 | Q
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33 | ;
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34 | PROCESS ;check message and reply
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35 | ;HLDP=LL in 870
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36 | N HLTCP,HLTCPI,HLTCPO
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37 | S HLTCP="",HLTCPO=HLDP,HLTCPI=+HLMIEN
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38 | ;update monitor, msg. received
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39 | D LLCNT^HLCSTCP(HLDP,1)
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40 | D NEW^HLTP3(HLMIEN)
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41 | ;update monitor, msg. processed
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42 | D LLCNT^HLCSTCP(HLDP,2)
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43 | Q
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44 | ;
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45 | READ() ;read 1 message, returns ien in 773^ien in 772 for message
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46 | D MON^HLCSTCP("Reading")
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47 | N HLDB,HLDT,HLDEND,HLACKWT,HLDSTRT,HLHDR,HLIND1,HLINE,HLMSG,HLRDOUT,HLRS,HLX,X
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48 | ;HLDSTRT=start char., HLDEND=end char., HLRS=record seperator
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49 | S HLDSTRT=$C(11),HLDEND=$C(28),HLRS=$C(13)
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50 | ;HLRDOUT=exit read loop, HLINE=line count, HLIND1=ien 773^ien 772
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51 | ;HLHDR=have a header, HLTMBUF()=excess from last read, HLACKWT=wait for ack
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52 | ; HL*1.6*122 start
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53 | ; S (HLRDOUT,HLINE,HLIND1,HLHDR)=0,HLX=$G(^TMP("HLCSTCP",$J,0)),HLACKWT=HLDBACK
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54 | S (HLRDOUT,HLINE,HLIND1,HLHDR)=0,HLX=$G(HLTMBUF(0)),HLACKWT=HLDBACK
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55 | N HLBUFF,HLXX,MAXWAIT
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56 | ; based on patch 132 for readtime
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57 | S MAXWAIT=$S((HLACKWT>HLDREAD):HLACKWT,1:HLDREAD)
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58 | S HLRS("START-FLAG")=0
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59 | S HLTMBUF(0)=""
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60 | ; variable used to store data in HLBUFF
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61 | S HLX(1)=$G(HLTMBUF(1))
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62 | S HLTMBUF(1)=""
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63 | S HLBUFF("START")=0
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64 | S HLBUFF("END")=0
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65 | I (HLX]"")!(HLX(1)]"") D
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66 | . I (HLX[HLDSTRT)!(HLX(1)[HLDSTRT) D
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67 | .. S HLBUFF("START")=1
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68 | . I (HLX[HLDEND)!(HLX(1)[HLDEND) D
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69 | .. S HLBUFF("END")=1
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70 | F D RDBLK Q:HLRDOUT
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71 | ;**132**
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72 | ;switch to null device if opened to prevent 'leakage'
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73 | I $G(IO(0))]"",IO(0)'=IO U IO(0)
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74 | ;
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75 | ;save any excess for next time
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76 | S:HLX]"" HLTMBUF(0)=HLX
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77 | S:HLX(1)]"" HLTMBUF(1)=HLX(1)
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78 | I +HLIND1,'$P(HLIND1,U,3) D DELMSG(HLIND1) S HLIND1=0
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79 | Q HLIND1
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80 | ;
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81 | RDBLK ;
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82 | ; initialize
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83 | S HLBUFF=""
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84 | ;
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85 | ;S HLDB=HLDBSIZE-$L(HLX)
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86 | ; store the total length of HLX and HLX(1) in HLDB(1)
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87 | S HLDB(1)=$L(HLX)+$L(HLX(1))
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88 | ;
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89 | ;**132 **
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90 | ;U IO R X#HLDB:HLDREAD
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91 | ; U IO R X#HLDB:MAXWAIT
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92 | ;
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93 | ; remove the readcount to speedup GT.M
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94 | U IO
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95 | R:(HLDB(1)<HLDBSIZE) HLBUFF:MAXWAIT
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96 | I HLBUFF]"" D
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97 | . I HLBUFF[HLDSTRT,(HLBUFF("START")=0) D
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98 | .. ; remove the extraneous text prefixing the "START" char
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99 | .. I $P(HLBUFF,HLDSTRT)]"" S HLBUFF=HLDSTRT_$P(HLBUFF,HLDSTRT,2,99)
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100 | .. S HLBUFF("START")=1
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101 | . ;
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102 | . I HLBUFF[HLDEND,(HLBUFF("END")=0) S HLBUFF("END")=1
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103 | ; detect disconnect for GT.M
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104 | I $G(^%ZOSF("OS"))["GT.M",$DEVICE S $ECODE=""
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105 | ; timedout, <clean up>, quit
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106 | ;I '$T,X="",HLX="" S HLACKWT=HLACKWT-HLDREAD D:HLACKWT<0&'HLHDR CLEAN Q
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107 | ;I '$T,X="",HLX="" D:'HLHDR CLEAN Q
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108 | I '$T,HLBUFF="",HLX="",HLX(1)="" D Q
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109 | . D:('HLHDR)&('HLIND1) CLEAN
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110 | ;add incoming line to what wasn't processed in last read
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111 | ;S HLX=$G(HLX)_X
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112 | ;
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113 | ; get block of characters from read buffer HLBUFF
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114 | ; every 'for-loop' deal with one read at most, and one message at most
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115 | ; if HLX is not empty, loop continues even no data is read
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116 | ; quit, if both HLDBUFF and HLX(1) are empty, means one read is done
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117 | ; quit, when HLRDOUT is set to 1, means one message is encountered
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118 | ; an "end"
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119 | ; F D Q:HLXX=""!(HLRDOUT)
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120 | F D Q:(HLRDOUT)!(HLBUFF=""&(HLX(1)=""))
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121 | . ;
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122 | . ; if HLX(1) is not empty
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123 | . I HLX(1)]"" D
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124 | .. ; hldb(2) is the number of characters extracted from hlx(1)
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125 | .. ; to be concatenated with hlx
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126 | .. S HLDB(2)=HLDBSIZE-$L(HLX)
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127 | .. ; hlx(2) stores the first hldb(2) characters extracted
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128 | .. ; from hlx(1)
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129 | .. S HLX(2)=$E(HLX(1),1,HLDB(2))
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130 | .. S HLX(1)=$E(HLX(1),HLDB(2)+1,$L(HLX(1)))
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131 | .. S HLX=$G(HLX)_HLX(2)
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132 | . ;
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133 | . ; if HLX(1) is empty, and HLBUFF contains data
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134 | . ; all the data in hlx(1) need to be extracted first
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135 | . I HLX(1)="",HLBUFF]"" D
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136 | .. S HLDB=HLDBSIZE-$L(HLX)
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137 | .. S HLXX=$E(HLBUFF,1,HLDB)
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138 | .. S HLBUFF=$E(HLBUFF,HLDB+1,$L(HLBUFF))
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139 | .. S HLX=$G(HLX)_HLXX
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140 | . ; quit when HLX is empty
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141 | . Q:(HLX="")
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142 | . ; ** 132 **
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143 | . ; if no segment end, HLX not full, go back for more
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144 | . I $L(HLX)<HLDBSIZE,HLX'[HLRS,HLX'[HLDEND Q
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145 | . ;add incoming line to what wasn't processed
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146 | . D RDBLK2
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147 | ;
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148 | ; it is possible one message is encountered an "end" and other
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149 | ; messages left in buffer,HLBUFF, save it in HLX for next run
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150 | I HLBUFF]"" D
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151 | . ; variable HLBUFF may remain data with size more than HLDBSIZE
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152 | . ; variable HLBUFF is not empty, only if the total length of
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153 | . ; HLX and HLX(1) is less than HLDBSIZE and HLX(1) should be
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154 | . ; empty when the command s hlx(1)=$g(hlx(1))_hlbuff is executed
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155 | . ; use hlx(1) to store the data of hlbuff to avoid "MAXTRING" error
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156 | . S HLX(1)=$G(HLX(1))_HLBUFF
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157 | . S HLBUFF=""
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158 | Q
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159 | ;
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160 | RDBLK2 ;data stream: <sb>dddd<cr><eb><cr>
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161 | ; HL*1.6*122 end
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162 | ; look for segment= <CR>
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163 | F Q:HLX'[HLRS D Q:HLRDOUT
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164 | . ; Get the first piece, save the rest of the line
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165 | . S HLINE=HLINE+1,HLMSG(HLINE,0)=$P(HLX,HLRS),HLX=$P(HLX,HLRS,2,999)
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166 | . ; check for start block, Quit if no ien
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167 | . I HLMSG(HLINE,0)[HLDSTRT!HLHDR D Q
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168 | .. S HLRS("START-FLAG")=1 ; HL*1.6*122
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169 | .. D:HLMSG(HLINE,0)[HLDSTRT
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170 | ... S X=$L(HLMSG(HLINE,0),HLDSTRT)
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171 | ... S:X>2 HLMSG(HLINE,0)=HLDSTRT_$P(HLMSG(HLINE,0),HLDSTRT,X)
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172 | ... S HLMSG(HLINE,0)=$P(HLMSG(HLINE,0),HLDSTRT,2)
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173 | ... D RESET:(HLINE>1)
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174 | .. ;
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175 | .. ; patch HL*1.6*122
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176 | .. ; if the first line less than 10 characters
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177 | .. I HLHDR,$L(HLMSG(1,0))<10,$D(HLMSG(2,0)) D
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178 | ... S HLMSG(1,0)=HLMSG(1,0)_$E(HLMSG(2,0),1,10)
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179 | ... S HLMSG(2,0)=$E(HLMSG(2,0),11,9999999)
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180 | .. ;
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181 | .. ;ping message
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182 | .. I $E(HLMSG(1,0),1,9)="MSH^PING^" D PING Q
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183 | .. ; get next ien to store
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184 | .. D MIEN^HLCSTCP4
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185 | .. K HLMSG
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186 | .. S (HLINE,HLHDR)=0
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187 | . ; check for end block; <eb><cr>
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188 | . I HLMSG(HLINE,0)[HLDEND D
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189 | .. ; patch HL*1.6*122 start
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190 | .. ;no msg. ien
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191 | .. ; Q:'HLIND1
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192 | .. I 'HLIND1 D CLEAN Q
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193 | .. ; Kill just the last line if no data before HLDEND
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194 | .. I $P(HLMSG(HLINE,0),HLDEND)']"" D
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195 | ... K HLMSG(HLINE,0) S HLINE=HLINE-1
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196 | .. E S HLMSG(HLINE,0)=$P(HLMSG(HLINE,0),HLDEND)
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197 | .. ; patch HL*1.6*122 end
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198 | .. ;
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199 | .. ; move into 772
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200 | .. D SAVE(.HLMSG,"^HL(772,"_+$P(HLIND1,U,2)_",""IN"")")
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201 | .. ;mark that end block has been received
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202 | .. ;HLIND1=ien in 773^ien in 772^1 if end block was received
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203 | .. S $P(HLIND1,U,3)=1
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204 | .. S HLBUFF("HLIND1")=HLIND1
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205 | .. ;reset variables for next message
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206 | .. D CLEAN
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207 | . ;add blank line for carriage return
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208 | . I HLINE'=0,HLMSG(HLINE,0)]"" S HLINE=HLINE+1,HLMSG(HLINE,0)=""
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209 | Q:HLRDOUT
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210 | ;If the line is long and no <CR> move it into the array.
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211 | I ($L(HLX)=HLDBSIZE),(HLX'[HLRS),(HLX'[HLDEND),(HLX'[HLDSTRT) D Q
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212 | . S HLINE=HLINE+1,HLMSG(HLINE,0)=HLX,HLX=""
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213 | ;have start block but no record seperator
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214 | I HLX[HLDSTRT D Q
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215 | . ;check for more than 1 start block
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216 | . S X=$L(HLX,HLDSTRT) S:X>2 HLX=HLDSTRT_$P(HLX,HLDSTRT,X)
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217 | . ;
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218 | . ; patch HL*1.6*122
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219 | . ; S:$L($P(HLX,HLDSTRT,2))>8 HLINE=HLINE+1,HLMSG(HLINE,0)=$P(HLX,HLDSTRT,2),HLX="",HLHDR=1
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220 | . S HLINE=HLINE+1,HLMSG(HLINE,0)=$P(HLX,HLDSTRT,2),HLX="",HLHDR=1
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221 | . ;
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222 | . D RESET:(HLHDR&(HLINE>1))
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223 | ;if no ien, reset
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224 | ; patch HL*1.6*122
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225 | ; I 'HLIND1 D CLEAN Q
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226 | I (HLRS("START-FLAG")=1),'HLIND1 D CLEAN Q
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227 | ; big message-merge from local to global every 100 lines
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228 | I (HLINE-$O(HLMSG(0)))>100 D
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229 | . M ^HL(772,+$P(HLIND1,U,2),"IN")=HLMSG
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230 | . ; reset working array
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231 | . K HLMSG
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232 | Q
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233 | ;
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234 | SAVE(SRC,DEST) ;save into global & set top node
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235 | ;SRC=source array (passed by ref.), DEST=destination global
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236 | M @DEST=SRC
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237 | S @DEST@(0)="^^"_HLINE_"^"_HLINE_"^"_DT_"^"
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238 | Q
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239 | ;
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240 | DELMSG(HLMAMT) ;delete message from Message Administration/Message Text files.
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241 | N DIK,DA
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242 | S DA=+HLMAMT,DIK="^HLMA("
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243 | D ^DIK
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244 | S DA=$P(HLMAMT,U,2),DIK="^HL(772,"
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245 | D ^DIK
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246 | Q
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247 | PING ;process PING message
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248 | S X=HLMSG(1,0)
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249 | I X[HLDEND U IO W X,! D
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250 | . ; switch to null device if opened to prevent 'leakage'
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251 | . I $G(IO(0))]"",$G(IO(0))'=IO U IO(0)
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252 | CLEAN ;reset var. for next message
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253 | K HLMSG
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254 | S HLINE=0,HLRDOUT=1
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255 | Q
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256 | ;
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257 | ERROR ; Error trap for disconnect error and return back to the read loop.
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258 | S $ETRAP="D UNWIND^%ZTER"
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259 | I $$EC^%ZOSV["IOEOF" D UNWIND^%ZTER Q ;VOE change for GT.M
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260 | I $$EC^%ZOSV["READ"!($$EC^%ZOSV["NOTOPEN")!($$EC^%ZOSV["DEVNOTOPN") D UNWIND^%ZTER Q
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261 | I $$EC^%ZOSV["WRITE" D CC("Wr-err") D UNWIND^%ZTER Q
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262 | I $ECODE["UREAD" D UNWIND^%ZTER Q ; HL*1.6*122 GT.M
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263 | S HLCSOUT=1 D ^%ZTER,CC("Error")
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264 | D UNWIND^%ZTER
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265 | Q
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266 | ;
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267 | CC(X) ;cleanup and close
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268 | D MON^HLCSTCP(X)
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269 | H 2
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270 | Q
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271 | RESET ;reset info as a result of no end block
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272 | N %
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273 | S HLMSG(1,0)=HLMSG(HLINE,0)
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274 | F %=2:1:HLINE K HLMSG(%,0)
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275 | S HLINE=1
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276 | Q
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