1 /* $Id: extract.c,v 1.131 2002-11-15 21:26:00 adam Exp $
2 Copyright (C) 1995,1996,1997,1998,1999,2000,2001,2002
5 This file is part of the Zebra server.
7 Zebra is free software; you can redistribute it and/or modify it under
8 the terms of the GNU General Public License as published by the Free
9 Software Foundation; either version 2, or (at your option) any later
12 Zebra is distributed in the hope that it will be useful, but WITHOUT ANY
13 WARRANTY; without even the implied warranty of MERCHANTABILITY or
14 FITNESS FOR A PARTICULAR PURPOSE. See the GNU General Public License
17 You should have received a copy of the GNU General Public License
18 along with Zebra; see the file LICENSE.zebra. If not, write to the
19 Free Software Foundation, 59 Temple Place - Suite 330, Boston, MA
37 #if _FILE_OFFSET_BITS == 64
38 #define PRINTF_OFF_T "%Ld"
40 #define PRINTF_OFF_T "%ld"
43 #define USE_SHELLSORT 0
46 static void shellsort(void *ar, int r, size_t s,
47 int (*cmp)(const void *a, const void *b))
52 static const int incs[16] = { 1391376, 463792, 198768, 86961, 33936,
53 13776, 4592, 1968, 861, 336,
54 112, 48, 21, 7, 3, 1 };
55 for ( k = 0; k < 16; k++)
56 for (h = incs[k], i = h; i < r; i++)
60 while (j > h && (*cmp)(a + s*(j-h), v) > 0)
62 memcpy (a + s*j, a + s*(j-h), s);
70 static void logRecord (ZebraHandle zh)
72 ++zh->records_processed;
73 if (!(zh->records_processed % 1000))
75 logf (LOG_LOG, "Records: %7d i/u/d %d/%d/%d",
76 zh->records_processed, zh->records_inserted, zh->records_updated,
81 static void extract_init (struct recExtractCtrl *p, RecWord *w)
83 w->zebra_maps = p->zebra_maps;
85 w->attrSet = VAL_BIB1;
91 static const char **searchRecordKey (ZebraHandle zh,
92 struct recKeys *reckeys,
93 int attrSetS, int attrUseS)
95 static const char *ws[32];
107 for (i = 0; i<32; i++)
111 chS = zebraExplain_lookupSU (zh->reg->zei, attrSetS, attrUseS);
115 while (off < reckeys->buf_used)
118 const char *src = reckeys->buf + off;
126 memcpy (&ch, src, sizeof(ch));
132 memcpy (&attrSet, src, sizeof(attrSet));
133 src += sizeof(attrSet);
137 memcpy (&attrUse, src, sizeof(attrUse));
138 src += sizeof(attrUse);
145 seqno += ((lead>>2) & 15)-1;
148 memcpy (&seqno, src, sizeof(seqno));
149 src += sizeof(seqno);
155 attrUseS == attrUse && attrSetS == attrSet
164 woff = seqno - startSeq;
165 if (woff >= 0 && woff < 31)
169 off = src - reckeys->buf;
171 assert (off == reckeys->buf_used);
175 struct file_read_info {
176 off_t file_max; /* maximum offset so far */
177 off_t file_offset; /* current offset */
178 off_t file_moffset; /* offset of rec/rec boundary */
185 static struct file_read_info *file_read_start (int fd)
187 struct file_read_info *fi = (struct file_read_info *)
188 xmalloc (sizeof(*fi));
192 fi->file_moffset = 0;
198 static void file_read_stop (struct file_read_info *fi)
203 static off_t file_seek (void *handle, off_t offset)
205 struct file_read_info *p = (struct file_read_info *) handle;
206 p->file_offset = offset;
209 return lseek (p->fd, offset, SEEK_SET);
212 static off_t file_tell (void *handle)
214 struct file_read_info *p = (struct file_read_info *) handle;
215 return p->file_offset;
218 static int file_read (void *handle, char *buf, size_t count)
220 struct file_read_info *p = (struct file_read_info *) handle;
226 if (r > p->sdrmax - p->file_offset)
227 r = p->sdrmax - p->file_offset;
229 memcpy (buf, p->sdrbuf + p->file_offset, r);
232 r = read (fd, buf, count);
236 if (p->file_offset > p->file_max)
237 p->file_max = p->file_offset;
242 static void file_begin (void *handle)
244 struct file_read_info *p = (struct file_read_info *) handle;
246 p->file_offset = p->file_moffset;
247 if (!p->sdrbuf && p->file_moffset)
248 lseek (p->fd, p->file_moffset, SEEK_SET);
252 static void file_end (void *handle, off_t offset)
254 struct file_read_info *p = (struct file_read_info *) handle;
256 assert (p->file_more == 0);
258 p->file_moffset = offset;
261 static char *fileMatchStr (ZebraHandle zh,
262 struct recKeys *reckeys, struct recordGroup *rGroup,
263 const char *fname, const char *spec)
265 static char dstBuf[2048]; /* static here ??? */
267 const char *s = spec;
268 static const char **w;
272 while (*s == ' ' || *s == '\t')
278 char attset_str[64], attname_str[64];
279 data1_attset *attset;
282 int attSet = 1, attUse = 1;
286 for (i = 0; *s && *s != ',' && *s != ')'; s++)
288 attset_str[i++] = *s;
289 attset_str[i] = '\0';
294 for (i = 0; *s && *s != ')'; s++)
296 attname_str[i++] = *s;
297 attname_str[i] = '\0';
300 if ((attset = data1_get_attset (zh->reg->dh, attset_str)))
303 attSet = attset->reference;
304 att = data1_getattbyname(zh->reg->dh, attset, attname_str);
308 attUse = atoi (attname_str);
310 w = searchRecordKey (zh, reckeys, attSet, attUse);
315 for (i = 0; i<32; i++)
320 logf (LOG_WARN, "Missing ) in match criteria %s in group %s",
321 spec, rGroup->groupName ? rGroup->groupName : "none");
326 for (i = 0; i<32; i++)
327 if (matchFlag[i] && w[i])
339 logf (LOG_WARN, "Record didn't contain match"
340 " fields in (%s,%s)", attset_str, attname_str);
348 const char *spec_src = NULL;
349 const char *s1 = ++s;
350 while (*s1 && *s1 != ' ' && *s1 != '\t')
356 memcpy (special, s, spec_len);
357 special[spec_len] = '\0';
360 if (!strcmp (special, "group"))
361 spec_src = rGroup->groupName;
362 else if (!strcmp (special, "database"))
363 spec_src = rGroup->databaseName;
364 else if (!strcmp (special, "filename")) {
367 else if (!strcmp (special, "type"))
368 spec_src = rGroup->recordType;
373 strcpy (dst, spec_src);
374 dst += strlen (spec_src);
377 else if (*s == '\"' || *s == '\'')
379 int stopMarker = *s++;
383 while (*s && *s != stopMarker)
386 tmpString[i++] = *s++;
391 strcpy (dst, tmpString);
392 dst += strlen (tmpString);
396 logf (LOG_WARN, "Syntax error in match criteria %s in group %s",
397 spec, rGroup->groupName ? rGroup->groupName : "none");
404 logf (LOG_WARN, "No match criteria for record %s in group %s",
405 fname, rGroup->groupName ? rGroup->groupName : "none");
412 struct recordLogInfo {
415 struct recordGroup *rGroup;
418 static int recordExtract (ZebraHandle zh,
419 SYSNO *sysno, const char *fname,
420 struct recordGroup *rGroup, int deleteFlag,
421 struct file_read_info *fi,
422 RecType recType, char *subType, void *clientData)
424 RecordAttr *recordAttr;
429 off_t recordOffset = 0;
433 struct recExtractCtrl extractCtrl;
435 /* we are going to read from a file, so prepare the extraction */
438 zh->reg->keys.buf_used = 0;
439 zh->reg->keys.prevAttrUse = -1;
440 zh->reg->keys.prevAttrSet = -1;
441 zh->reg->keys.prevSeqNo = 0;
442 zh->reg->sortKeys.buf_used = 0;
443 zh->reg->sortKeys.buf_max = 0;
444 zh->reg->sortKeys.buf = 0;
446 recordOffset = fi->file_moffset;
447 extractCtrl.offset = fi->file_moffset;
448 extractCtrl.readf = file_read;
449 extractCtrl.seekf = file_seek;
450 extractCtrl.tellf = file_tell;
451 extractCtrl.endf = file_end;
453 extractCtrl.subType = subType;
454 extractCtrl.init = extract_init;
455 extractCtrl.tokenAdd = extract_token_add;
456 extractCtrl.schemaAdd = extract_schema_add;
457 extractCtrl.dh = zh->reg->dh;
458 extractCtrl.handle = zh;
459 for (i = 0; i<256; i++)
461 if (zebra_maps_is_positioned(zh->reg->zebra_maps, i))
462 extractCtrl.seqno[i] = 1;
464 extractCtrl.seqno[i] = 0;
466 extractCtrl.zebra_maps = zh->reg->zebra_maps;
467 extractCtrl.flagShowRecords = !rGroup->flagRw;
470 printf ("File: %s " PRINTF_OFF_T "\n", fname, recordOffset);
474 sprintf (msg, "%s:" PRINTF_OFF_T , fname, recordOffset);
475 yaz_log_init_prefix2 (msg);
478 r = (*recType->extract)(clientData, &extractCtrl);
480 yaz_log_init_prefix2 (0);
481 if (r == RECCTRL_EXTRACT_EOF)
483 else if (r == RECCTRL_EXTRACT_ERROR_GENERIC)
485 /* error occured during extraction ... */
486 if (rGroup->flagRw &&
487 zh->records_processed < rGroup->fileVerboseLimit)
489 logf (LOG_WARN, "fail %s %s " PRINTF_OFF_T, rGroup->recordType,
490 fname, recordOffset);
494 else if (r == RECCTRL_EXTRACT_ERROR_NO_SUCH_FILTER)
496 /* error occured during extraction ... */
497 if (rGroup->flagRw &&
498 zh->records_processed < rGroup->fileVerboseLimit)
500 logf (LOG_WARN, "no filter for %s %s "
501 PRINTF_OFF_T, rGroup->recordType,
502 fname, recordOffset);
506 if (zh->reg->keys.buf_used == 0)
508 /* the extraction process returned no information - the record
509 is probably empty - unless flagShowRecords is in use */
513 logf (LOG_WARN, "empty %s %s " PRINTF_OFF_T, rGroup->recordType,
514 fname, recordOffset);
519 /* perform match if sysno not known and if match criteria is specified */
526 if (rGroup->recordId && *rGroup->recordId)
530 matchStr = fileMatchStr (zh, &zh->reg->keys, rGroup, fname,
534 rinfo = dict_lookup (zh->reg->matchDict, matchStr);
536 memcpy (sysno, rinfo+1, sizeof(*sysno));
540 logf (LOG_WARN, "Bad match criteria");
551 logf (LOG_LOG, "delete %s %s " PRINTF_OFF_T, rGroup->recordType,
552 fname, recordOffset);
553 logf (LOG_WARN, "cannot delete record above (seems new)");
556 if (zh->records_processed < rGroup->fileVerboseLimit)
557 logf (LOG_LOG, "add %s %s " PRINTF_OFF_T, rGroup->recordType,
558 fname, recordOffset);
559 rec = rec_new (zh->reg->records);
563 recordAttr = rec_init_attr (zh->reg->zei, rec);
567 dict_insert (zh->reg->matchDict, matchStr, sizeof(*sysno), sysno);
569 extract_flushSortKeys (zh, *sysno, 1, &zh->reg->sortKeys);
570 extract_flushRecordKeys (zh, *sysno, 1, &zh->reg->keys);
572 zh->records_inserted++;
576 /* record already exists */
577 struct recKeys delkeys;
578 struct sortKeys sortKeys;
580 rec = rec_get (zh->reg->records, *sysno);
583 recordAttr = rec_init_attr (zh->reg->zei, rec);
585 if (recordAttr->runNumber ==
586 zebraExplain_runNumberIncrement (zh->reg->zei, 0))
588 yaz_log (LOG_LOG, "run number = %d", recordAttr->runNumber);
589 yaz_log (LOG_LOG, "skipped %s %s " PRINTF_OFF_T,
590 rGroup->recordType, fname, recordOffset);
591 extract_flushSortKeys (zh, *sysno, -1, &zh->reg->sortKeys);
596 delkeys.buf_used = rec->size[recInfo_delKeys];
597 delkeys.buf = rec->info[recInfo_delKeys];
599 sortKeys.buf_used = rec->size[recInfo_sortKeys];
600 sortKeys.buf = rec->info[recInfo_sortKeys];
602 extract_flushSortKeys (zh, *sysno, 0, &sortKeys);
603 extract_flushRecordKeys (zh, *sysno, 0, &delkeys);
606 /* record going to be deleted */
607 if (!delkeys.buf_used)
609 logf (LOG_LOG, "delete %s %s " PRINTF_OFF_T,
610 rGroup->recordType, fname, recordOffset);
611 logf (LOG_WARN, "cannot delete file above, storeKeys false");
615 if (zh->records_processed < rGroup->fileVerboseLimit)
616 logf (LOG_LOG, "delete %s %s " PRINTF_OFF_T,
617 rGroup->recordType, fname, recordOffset);
618 zh->records_deleted++;
620 dict_delete (zh->reg->matchDict, matchStr);
621 rec_del (zh->reg->records, &rec);
629 /* record going to be updated */
630 if (!delkeys.buf_used)
632 logf (LOG_LOG, "update %s %s " PRINTF_OFF_T,
633 rGroup->recordType, fname, recordOffset);
634 logf (LOG_WARN, "cannot update file above, storeKeys false");
638 if (zh->records_processed < rGroup->fileVerboseLimit)
639 logf (LOG_LOG, "update %s %s " PRINTF_OFF_T,
640 rGroup->recordType, fname, recordOffset);
641 extract_flushSortKeys (zh, *sysno, 1, &zh->reg->sortKeys);
642 extract_flushRecordKeys (zh, *sysno, 1, &zh->reg->keys);
643 zh->records_updated++;
647 /* update file type */
648 xfree (rec->info[recInfo_fileType]);
649 rec->info[recInfo_fileType] =
650 rec_strdup (rGroup->recordType, &rec->size[recInfo_fileType]);
652 /* update filename */
653 xfree (rec->info[recInfo_filename]);
654 rec->info[recInfo_filename] =
655 rec_strdup (fname, &rec->size[recInfo_filename]);
657 /* update delete keys */
658 xfree (rec->info[recInfo_delKeys]);
659 if (zh->reg->keys.buf_used > 0 && rGroup->flagStoreKeys == 1)
661 rec->size[recInfo_delKeys] = zh->reg->keys.buf_used;
662 rec->info[recInfo_delKeys] = zh->reg->keys.buf;
663 zh->reg->keys.buf = NULL;
664 zh->reg->keys.buf_max = 0;
668 rec->info[recInfo_delKeys] = NULL;
669 rec->size[recInfo_delKeys] = 0;
672 /* update sort keys */
673 xfree (rec->info[recInfo_sortKeys]);
675 rec->size[recInfo_sortKeys] = zh->reg->sortKeys.buf_used;
676 rec->info[recInfo_sortKeys] = zh->reg->sortKeys.buf;
677 zh->reg->sortKeys.buf = NULL;
678 zh->reg->sortKeys.buf_max = 0;
680 /* save file size of original record */
681 zebraExplain_recordBytesIncrement (zh->reg->zei,
682 - recordAttr->recordSize);
683 recordAttr->recordSize = fi->file_moffset - recordOffset;
684 if (!recordAttr->recordSize)
685 recordAttr->recordSize = fi->file_max - recordOffset;
686 zebraExplain_recordBytesIncrement (zh->reg->zei,
687 recordAttr->recordSize);
689 /* set run-number for this record */
690 recordAttr->runNumber = zebraExplain_runNumberIncrement (zh->reg->zei,
693 /* update store data */
694 xfree (rec->info[recInfo_storeData]);
695 if (rGroup->flagStoreData == 1)
697 rec->size[recInfo_storeData] = recordAttr->recordSize;
698 rec->info[recInfo_storeData] = (char *)
699 xmalloc (recordAttr->recordSize);
700 if (lseek (fi->fd, recordOffset, SEEK_SET) < 0)
702 logf (LOG_ERRNO|LOG_FATAL, "seek to " PRINTF_OFF_T " in %s",
703 recordOffset, fname);
706 if (read (fi->fd, rec->info[recInfo_storeData], recordAttr->recordSize)
707 < recordAttr->recordSize)
709 logf (LOG_ERRNO|LOG_FATAL, "read %d bytes of %s",
710 recordAttr->recordSize, fname);
716 rec->info[recInfo_storeData] = NULL;
717 rec->size[recInfo_storeData] = 0;
719 /* update database name */
720 xfree (rec->info[recInfo_databaseName]);
721 rec->info[recInfo_databaseName] =
722 rec_strdup (rGroup->databaseName, &rec->size[recInfo_databaseName]);
725 recordAttr->recordOffset = recordOffset;
727 /* commit this record */
728 rec_put (zh->reg->records, &rec);
733 int fileExtract (ZebraHandle zh, SYSNO *sysno, const char *fname,
734 const struct recordGroup *rGroupP, int deleteFlag)
742 struct recordGroup rGroupM;
743 struct recordGroup *rGroup = &rGroupM;
744 struct file_read_info *fi;
747 memcpy (rGroup, rGroupP, sizeof(*rGroupP));
749 if (!rGroup->groupName || !*rGroup->groupName)
752 sprintf (gprefix, "%s.", rGroup->groupName);
754 logf (LOG_DEBUG, "fileExtract %s", fname);
756 /* determine file extension */
758 for (i = strlen(fname); --i >= 0; )
761 else if (fname[i] == '.')
763 strcpy (ext, fname+i+1);
766 /* determine file type - depending on extension */
767 if (!rGroup->recordType)
769 sprintf (ext_res, "%srecordType.%s", gprefix, ext);
770 if (!(rGroup->recordType = res_get (zh->res, ext_res)))
772 sprintf (ext_res, "%srecordType", gprefix);
773 rGroup->recordType = res_get (zh->res, ext_res);
776 if (!rGroup->recordType)
778 if (zh->records_processed < rGroup->fileVerboseLimit)
779 logf (LOG_LOG, "? %s", fname);
782 if (!*rGroup->recordType)
785 recType_byName (zh->reg->recTypes, rGroup->recordType, subType,
788 logf (LOG_WARN, "No such record type: %s", rGroup->recordType);
792 /* determine match criteria */
793 if (!rGroup->recordId)
795 sprintf (ext_res, "%srecordId.%s", gprefix, ext);
796 rGroup->recordId = res_get (zh->res, ext_res);
799 /* determine database name */
800 if (!rGroup->databaseName)
802 sprintf (ext_res, "%sdatabase.%s", gprefix, ext);
803 if (!(rGroup->databaseName = res_get (zh->res, ext_res)))
805 sprintf (ext_res, "%sdatabase", gprefix);
806 rGroup->databaseName = res_get (zh->res, ext_res);
809 if (!rGroup->databaseName)
810 rGroup->databaseName = "Default";
812 /* determine if explain database */
814 sprintf (ext_res, "%sexplainDatabase", gprefix);
815 rGroup->explainDatabase =
816 atoi (res_get_def (zh->res, ext_res, "0"));
818 /* announce database */
819 if (zebraExplain_curDatabase (zh->reg->zei, rGroup->databaseName))
821 if (zebraExplain_newDatabase (zh->reg->zei, rGroup->databaseName,
822 rGroup->explainDatabase))
826 if (rGroup->flagStoreData == -1)
829 sprintf (ext_res, "%sstoreData.%s", gprefix, ext);
830 if (!(sval = res_get (zh->res, ext_res)))
832 sprintf (ext_res, "%sstoreData", gprefix);
833 sval = res_get (zh->res, ext_res);
836 rGroup->flagStoreData = atoi (sval);
838 if (rGroup->flagStoreData == -1)
839 rGroup->flagStoreData = 0;
841 if (rGroup->flagStoreKeys == -1)
845 sprintf (ext_res, "%sstoreKeys.%s", gprefix, ext);
846 sval = res_get (zh->res, ext_res);
849 sprintf (ext_res, "%sstoreKeys", gprefix);
850 sval = res_get (zh->res, ext_res);
853 sval = res_get (zh->res, "storeKeys");
855 rGroup->flagStoreKeys = atoi (sval);
857 if (rGroup->flagStoreKeys == -1)
858 rGroup->flagStoreKeys = 0;
860 if (sysno && deleteFlag)
866 if (zh->path_reg && !yaz_is_abspath (fname))
868 strcpy (full_rep, zh->path_reg);
869 strcat (full_rep, "/");
870 strcat (full_rep, fname);
873 strcpy (full_rep, fname);
876 if ((fd = open (full_rep, O_BINARY|O_RDONLY)) == -1)
878 logf (LOG_WARN|LOG_ERRNO, "open %s", full_rep);
882 fi = file_read_start (fd);
886 r = recordExtract (zh, sysno, fname, rGroup, deleteFlag, fi,
887 recType, subType, clientData);
888 } while (r && !sysno && fi->file_more);
894 int extract_rec_in_mem (ZebraHandle zh, const char *recordType,
895 const char *buf, size_t buf_size,
896 const char *databaseName, int delete_flag,
897 int test_mode, int *sysno,
898 int store_keys, int store_data,
899 const char *match_criteria)
901 struct recordGroup rGroup;
902 rGroup.groupName = NULL;
903 rGroup.databaseName = (char *)databaseName;
905 rGroup.recordId = NULL;
906 rGroup.recordType = (char *)recordType;
907 rGroup.flagStoreData = store_data;
908 rGroup.flagStoreKeys = store_keys;
910 rGroup.databaseNamePath = 0;
911 rGroup.explainDatabase = 0;
912 rGroup.fileVerboseLimit = 100000;
913 rGroup.followLinks = -1;
914 return (bufferExtractRecord (zh,
924 If sysno is provided, then it's used to identify the reocord.
925 If not, and match_criteria is provided, then sysno is guessed
926 If not, and a record is provided, then sysno is got from there
929 int bufferExtractRecord (ZebraHandle zh,
930 const char *buf, size_t buf_size,
931 struct recordGroup *rGroup,
935 const char *match_criteria,
939 RecordAttr *recordAttr;
940 struct recExtractCtrl extractCtrl;
947 // const char *fname = "<no file>";
949 long recordOffset = 0;
950 struct zebra_fetch_control fc;
953 fc.record_int_buf = buf;
954 fc.record_int_len = buf_size;
955 fc.record_int_pos = 0;
957 fc.record_offset = 0;
959 extractCtrl.offset = 0;
960 extractCtrl.readf = zebra_record_int_read;
961 extractCtrl.seekf = zebra_record_int_seek;
962 extractCtrl.tellf = zebra_record_int_tell;
963 extractCtrl.endf = zebra_record_int_end;
964 extractCtrl.fh = &fc;
966 /* announce database */
967 if (zebraExplain_curDatabase (zh->reg->zei, rGroup->databaseName))
969 if (zebraExplain_newDatabase (zh->reg->zei, rGroup->databaseName, 0))
973 if (!(rGroup->recordType)) {
974 logf (LOG_WARN, "No such record type defined");
979 recType_byName (zh->reg->recTypes, rGroup->recordType, subType,
982 logf (LOG_WARN, "No such record type: %s", rGroup->recordType);
985 zh->reg->keys.buf_used = 0;
986 zh->reg->keys.prevAttrUse = -1;
987 zh->reg->keys.prevAttrSet = -1;
988 zh->reg->keys.prevSeqNo = 0;
989 zh->reg->sortKeys.buf_used = 0;
990 zh->reg->sortKeys.buf_max = 0;
991 zh->reg->sortKeys.buf = 0;
993 extractCtrl.subType = subType;
994 extractCtrl.init = extract_init;
995 extractCtrl.tokenAdd = extract_token_add;
996 extractCtrl.schemaAdd = extract_schema_add;
997 extractCtrl.dh = zh->reg->dh;
998 extractCtrl.handle = zh;
999 extractCtrl.zebra_maps = zh->reg->zebra_maps;
1000 extractCtrl.flagShowRecords = 0;
1001 for (i = 0; i<256; i++)
1003 if (zebra_maps_is_positioned(zh->reg->zebra_maps, i))
1004 extractCtrl.seqno[i] = 1;
1006 extractCtrl.seqno[i] = 0;
1009 r = (*recType->extract)(clientData, &extractCtrl);
1011 if (r == RECCTRL_EXTRACT_EOF)
1013 else if (r == RECCTRL_EXTRACT_ERROR_GENERIC)
1015 /* error occured during extraction ... */
1016 yaz_log (LOG_WARN, "extract error: generic");
1019 else if (r == RECCTRL_EXTRACT_ERROR_NO_SUCH_FILTER)
1021 /* error occured during extraction ... */
1022 yaz_log (LOG_WARN, "extract error: no such filter");
1025 if (zh->reg->keys.buf_used == 0)
1027 /* the extraction process returned no information - the record
1028 is probably empty - unless flagShowRecords is in use */
1031 logf (LOG_WARN, "No keys generated for record");
1032 logf (LOG_WARN, " The file is probably empty");
1035 /* match criteria */
1040 if (strlen(match_criteria) > 0) {
1041 matchStr = (char *)match_criteria;
1043 if (rGroup->recordId && *rGroup->recordId) {
1044 matchStr = fileMatchStr (zh, &zh->reg->keys, rGroup, fname,
1049 rinfo = dict_lookup (zh->reg->matchDict, matchStr);
1051 memcpy (sysno, rinfo+1, sizeof(*sysno));
1053 logf (LOG_WARN, "Bad match criteria (recordID)");
1064 logf (LOG_LOG, "delete %s %s %ld", rGroup->recordType,
1065 fname, (long) recordOffset);
1066 logf (LOG_WARN, "cannot delete record above (seems new)");
1069 logf (LOG_LOG, "add %s %s %ld", rGroup->recordType, fname,
1070 (long) recordOffset);
1071 rec = rec_new (zh->reg->records);
1073 *sysno = rec->sysno;
1075 recordAttr = rec_init_attr (zh->reg->zei, rec);
1079 dict_insert (zh->reg->matchDict, matchStr,
1080 sizeof(*sysno), sysno);
1082 extract_flushSortKeys (zh, *sysno, 1, &zh->reg->sortKeys);
1083 extract_flushRecordKeys (zh, *sysno, 1, &zh->reg->keys);
1085 zh->records_inserted++;
1089 /* record already exists */
1090 struct recKeys delkeys;
1091 struct sortKeys sortKeys;
1093 rec = rec_get (zh->reg->records, *sysno);
1096 recordAttr = rec_init_attr (zh->reg->zei, rec);
1098 if (recordAttr->runNumber ==
1099 zebraExplain_runNumberIncrement (zh->reg->zei, 0))
1101 logf (LOG_LOG, "skipped %s %s %ld", rGroup->recordType,
1102 fname, (long) recordOffset);
1103 extract_flushSortKeys (zh, *sysno, -1, &zh->reg->sortKeys);
1108 delkeys.buf_used = rec->size[recInfo_delKeys];
1109 delkeys.buf = rec->info[recInfo_delKeys];
1111 sortKeys.buf_used = rec->size[recInfo_sortKeys];
1112 sortKeys.buf = rec->info[recInfo_sortKeys];
1114 extract_flushSortKeys (zh, *sysno, 0, &sortKeys);
1115 extract_flushRecordKeys (zh, *sysno, 0, &delkeys);
1118 /* record going to be deleted */
1119 if (!delkeys.buf_used)
1121 logf (LOG_LOG, "delete %s %s %ld", rGroup->recordType,
1122 fname, (long) recordOffset);
1123 logf (LOG_WARN, "cannot delete file above, storeKeys false");
1127 logf (LOG_LOG, "delete %s %s %ld", rGroup->recordType,
1128 fname, (long) recordOffset);
1129 zh->records_deleted++;
1131 dict_delete (zh->reg->matchDict, matchStr);
1132 rec_del (zh->reg->records, &rec);
1140 /* record going to be updated */
1141 if (!delkeys.buf_used)
1143 logf (LOG_LOG, "update %s %s %ld", rGroup->recordType,
1144 fname, (long) recordOffset);
1145 logf (LOG_WARN, "cannot update file above, storeKeys false");
1149 logf (LOG_LOG, "update %s %s %ld", rGroup->recordType,
1150 fname, (long) recordOffset);
1151 extract_flushSortKeys (zh, *sysno, 1, &zh->reg->sortKeys);
1152 extract_flushRecordKeys (zh, *sysno, 1, &zh->reg->keys);
1153 zh->records_updated++;
1157 /* update file type */
1158 xfree (rec->info[recInfo_fileType]);
1159 rec->info[recInfo_fileType] =
1160 rec_strdup (rGroup->recordType, &rec->size[recInfo_fileType]);
1162 /* update filename */
1163 xfree (rec->info[recInfo_filename]);
1164 rec->info[recInfo_filename] =
1165 rec_strdup (fname, &rec->size[recInfo_filename]);
1167 /* update delete keys */
1168 xfree (rec->info[recInfo_delKeys]);
1169 if (zh->reg->keys.buf_used > 0 && rGroup->flagStoreKeys == 1)
1171 rec->size[recInfo_delKeys] = zh->reg->keys.buf_used;
1172 rec->info[recInfo_delKeys] = zh->reg->keys.buf;
1173 zh->reg->keys.buf = NULL;
1174 zh->reg->keys.buf_max = 0;
1178 rec->info[recInfo_delKeys] = NULL;
1179 rec->size[recInfo_delKeys] = 0;
1182 /* update sort keys */
1183 xfree (rec->info[recInfo_sortKeys]);
1185 rec->size[recInfo_sortKeys] = zh->reg->sortKeys.buf_used;
1186 rec->info[recInfo_sortKeys] = zh->reg->sortKeys.buf;
1187 zh->reg->sortKeys.buf = NULL;
1188 zh->reg->sortKeys.buf_max = 0;
1190 /* save file size of original record */
1191 zebraExplain_recordBytesIncrement (zh->reg->zei,
1192 - recordAttr->recordSize);
1194 recordAttr->recordSize = fi->file_moffset - recordOffset;
1195 if (!recordAttr->recordSize)
1196 recordAttr->recordSize = fi->file_max - recordOffset;
1198 recordAttr->recordSize = buf_size;
1200 zebraExplain_recordBytesIncrement (zh->reg->zei,
1201 recordAttr->recordSize);
1203 /* set run-number for this record */
1204 recordAttr->runNumber =
1205 zebraExplain_runNumberIncrement (zh->reg->zei, 0);
1207 /* update store data */
1208 xfree (rec->info[recInfo_storeData]);
1209 if (rGroup->flagStoreData == 1)
1211 rec->size[recInfo_storeData] = recordAttr->recordSize;
1212 rec->info[recInfo_storeData] = (char *)
1213 xmalloc (recordAttr->recordSize);
1215 memcpy (rec->info[recInfo_storeData], buf, recordAttr->recordSize);
1217 if (lseek (fi->fd, recordOffset, SEEK_SET) < 0)
1219 logf (LOG_ERRNO|LOG_FATAL, "seek to %ld in %s",
1220 (long) recordOffset, fname);
1223 if (read (fi->fd, rec->info[recInfo_storeData], recordAttr->recordSize)
1224 < recordAttr->recordSize)
1226 logf (LOG_ERRNO|LOG_FATAL, "read %d bytes of %s",
1227 recordAttr->recordSize, fname);
1234 rec->info[recInfo_storeData] = NULL;
1235 rec->size[recInfo_storeData] = 0;
1237 /* update database name */
1238 xfree (rec->info[recInfo_databaseName]);
1239 rec->info[recInfo_databaseName] =
1240 rec_strdup (rGroup->databaseName, &rec->size[recInfo_databaseName]);
1243 recordAttr->recordOffset = recordOffset;
1245 /* commit this record */
1246 rec_put (zh->reg->records, &rec);
1253 int explain_extract (void *handle, Record rec, data1_node *n)
1255 ZebraHandle zh = (ZebraHandle) handle;
1256 struct recExtractCtrl extractCtrl;
1259 if (zebraExplain_curDatabase (zh->reg->zei,
1260 rec->info[recInfo_databaseName]))
1263 if (zebraExplain_newDatabase (zh->reg->zei,
1264 rec->info[recInfo_databaseName], 0))
1268 zh->reg->keys.buf_used = 0;
1269 zh->reg->keys.prevAttrUse = -1;
1270 zh->reg->keys.prevAttrSet = -1;
1271 zh->reg->keys.prevSeqNo = 0;
1272 zh->reg->sortKeys.buf_used = 0;
1274 extractCtrl.init = extract_init;
1275 extractCtrl.tokenAdd = extract_token_add;
1276 extractCtrl.schemaAdd = extract_schema_add;
1277 extractCtrl.dh = zh->reg->dh;
1278 for (i = 0; i<256; i++)
1279 extractCtrl.seqno[i] = 0;
1280 extractCtrl.zebra_maps = zh->reg->zebra_maps;
1281 extractCtrl.flagShowRecords = 0;
1282 extractCtrl.handle = handle;
1284 grs_extract_tree(&extractCtrl, n);
1286 if (rec->size[recInfo_delKeys])
1288 struct recKeys delkeys;
1289 struct sortKeys sortkeys;
1291 delkeys.buf_used = rec->size[recInfo_delKeys];
1292 delkeys.buf = rec->info[recInfo_delKeys];
1294 sortkeys.buf_used = rec->size[recInfo_sortKeys];
1295 sortkeys.buf = rec->info[recInfo_sortKeys];
1297 extract_flushSortKeys (zh, rec->sysno, 0, &sortkeys);
1298 extract_flushRecordKeys (zh, rec->sysno, 0, &delkeys);
1300 extract_flushRecordKeys (zh, rec->sysno, 1, &zh->reg->keys);
1301 extract_flushSortKeys (zh, rec->sysno, 1, &zh->reg->sortKeys);
1303 xfree (rec->info[recInfo_delKeys]);
1304 rec->size[recInfo_delKeys] = zh->reg->keys.buf_used;
1305 rec->info[recInfo_delKeys] = zh->reg->keys.buf;
1306 zh->reg->keys.buf = NULL;
1307 zh->reg->keys.buf_max = 0;
1309 xfree (rec->info[recInfo_sortKeys]);
1310 rec->size[recInfo_sortKeys] = zh->reg->sortKeys.buf_used;
1311 rec->info[recInfo_sortKeys] = zh->reg->sortKeys.buf;
1312 zh->reg->sortKeys.buf = NULL;
1313 zh->reg->sortKeys.buf_max = 0;
1318 void extract_flushRecordKeys (ZebraHandle zh, SYSNO sysno,
1319 int cmd, struct recKeys *reckeys)
1323 unsigned char attrSet = (unsigned char) -1;
1324 unsigned short attrUse = (unsigned short) -1;
1329 ZebraExplainInfo zei = zh->reg->zei;
1331 if (!zh->reg->key_buf)
1333 int mem= 1024*1024* atoi( res_get_def( zh->res, "memmax", "8"));
1336 logf(LOG_WARN, "Invalid memory setting, using default 8 MB");
1339 /* FIXME: That "8" should be in a default settings include */
1340 /* not hard-coded here! -H */
1341 zh->reg->key_buf = (char**) xmalloc (mem);
1342 zh->reg->ptr_top = mem/sizeof(char*);
1344 zh->reg->key_buf_used = 0;
1345 zh->reg->key_file_no = 0;
1347 zebraExplain_recordCountIncrement (zei, cmd ? 1 : -1);
1348 while (off < reckeys->buf_used)
1350 const char *src = reckeys->buf + off;
1359 memcpy (&ch, src, sizeof(ch));
1365 memcpy (&attrSet, src, sizeof(attrSet));
1366 src += sizeof(attrSet);
1370 memcpy (&attrUse, src, sizeof(attrUse));
1371 src += sizeof(attrUse);
1374 if (zh->reg->key_buf_used + 1024 >
1375 (zh->reg->ptr_top -zh->reg->ptr_i)*sizeof(char*))
1376 extract_flushWriteKeys (zh);
1378 (zh->reg->key_buf)[zh->reg->ptr_top - zh->reg->ptr_i] =
1379 (char*)zh->reg->key_buf + zh->reg->key_buf_used;
1382 ch = zebraExplain_lookupSU (zei, attrSet, attrUse);
1384 ch = zebraExplain_addSU (zei, attrSet, attrUse);
1387 zh->reg->key_buf_used +=
1388 key_SU_encode (ch,((char*)zh->reg->key_buf) +
1389 zh->reg->key_buf_used);
1392 ((char*)zh->reg->key_buf) [(zh->reg->key_buf_used)++] = *src++;
1394 ((char*)(zh->reg->key_buf))[(zh->reg->key_buf_used)++] = '\0';
1395 ((char*)(zh->reg->key_buf))[(zh->reg->key_buf_used)++] = cmd;
1398 seqno += ((lead>>2) & 15)-1;
1401 memcpy (&seqno, src, sizeof(seqno));
1402 src += sizeof(seqno);
1406 memcpy ((char*)zh->reg->key_buf + zh->reg->key_buf_used, &key, sizeof(key));
1407 (zh->reg->key_buf_used) += sizeof(key);
1408 off = src - reckeys->buf;
1410 assert (off == reckeys->buf_used);
1413 void extract_flushWriteKeys (ZebraHandle zh)
1416 char out_fname[200];
1418 struct encode_info encode_info;
1419 int ptr_i = zh->reg->ptr_i;
1423 if (!zh->reg->key_buf || ptr_i <= 0)
1426 (zh->reg->key_file_no)++;
1427 logf (LOG_LOG, "sorting section %d", (zh->reg->key_file_no));
1429 qsort (zh->reg->key_buf + zh->reg->ptr_top - ptr_i, ptr_i,
1430 sizeof(char*), key_qsort_compare);
1431 extract_get_fname_tmp (zh, out_fname, zh->reg->key_file_no);
1433 if (!(outf = fopen (out_fname, "wb")))
1435 logf (LOG_FATAL|LOG_ERRNO, "fopen %s", out_fname);
1438 logf (LOG_LOG, "writing section %d", zh->reg->key_file_no);
1439 prevcp = cp = (zh->reg->key_buf)[zh->reg->ptr_top - ptr_i];
1441 encode_key_init (&encode_info);
1442 encode_key_write (cp, &encode_info, outf);
1446 cp = (zh->reg->key_buf)[zh->reg->ptr_top - ptr_i];
1447 if (strcmp (cp, prevcp))
1449 encode_key_flush ( &encode_info, outf);
1450 encode_key_init (&encode_info);
1451 encode_key_write (cp, &encode_info, outf);
1455 encode_key_write (cp + strlen(cp), &encode_info, outf);
1457 encode_key_flush ( &encode_info, outf);
1459 qsort (key_buf + ptr_top-ptr_i, ptr_i, sizeof(char*), key_x_compare);
1460 extract_get_fname_tmp (out_fname, key_file_no);
1462 if (!(outf = fopen (out_fname, "wb")))
1464 logf (LOG_FATAL|LOG_ERRNO, "fopen %s", out_fname);
1467 logf (LOG_LOG, "writing section %d", key_file_no);
1469 prevcp = key_buf[ptr_top-i];
1471 if (!--i || strcmp (prevcp, key_buf[ptr_top-i]))
1473 key_y_len = strlen(prevcp)+1;
1475 logf (LOG_LOG, "key_y_len: %2d %02x %02x %s",
1476 key_y_len, prevcp[0], prevcp[1], 2+prevcp);
1478 qsort (key_buf + ptr_top-ptr_i, ptr_i - i,
1479 sizeof(char*), key_y_compare);
1480 cp = key_buf[ptr_top-ptr_i];
1482 encode_key_init (&encode_info);
1483 encode_key_write (cp, &encode_info, outf);
1486 cp = key_buf[ptr_top-ptr_i];
1487 encode_key_write (cp+key_y_len, &encode_info, outf);
1489 encode_key_flush ( &encode_info, outf);
1492 prevcp = key_buf[ptr_top-ptr_i];
1497 logf (LOG_FATAL|LOG_ERRNO, "fclose %s", out_fname);
1500 logf (LOG_LOG, "finished section %d", zh->reg->key_file_no);
1502 zh->reg->key_buf_used = 0;
1505 void extract_add_index_string (RecWord *p, const char *string,
1509 unsigned char attrSet;
1510 unsigned short attrUse;
1513 int *pseqno = &p->seqno;
1514 ZebraHandle zh = p->extractCtrl->handle;
1515 ZebraExplainInfo zei = zh->reg->zei;
1516 struct recKeys *keys = &zh->reg->keys;
1518 if (keys->buf_used+1024 > keys->buf_max)
1522 b = (char *) xmalloc (keys->buf_max += 128000);
1523 if (keys->buf_used > 0)
1524 memcpy (b, keys->buf, keys->buf_used);
1528 dst = keys->buf + keys->buf_used;
1530 attrSet = p->attrSet;
1531 if (keys->buf_used > 0 && keys->prevAttrSet == attrSet)
1534 keys->prevAttrSet = attrSet;
1535 attrUse = p->attrUse;
1536 if (keys->buf_used > 0 && keys->prevAttrUse == attrUse)
1539 keys->prevAttrUse = attrUse;
1541 diff = 1 + *pseqno - keys->prevSeqNo;
1542 if (diff >= 1 && diff <= 15)
1543 lead |= (diff << 2);
1547 keys->prevSeqNo = *pseqno;
1554 int ch = zebraExplain_lookupSU (zei, attrSet, attrUse);
1557 ch = zebraExplain_addSU (zei, attrSet, attrUse);
1558 yaz_log (LOG_DEBUG, "addSU set=%d use=%d SU=%d",
1559 attrSet, attrUse, ch);
1562 memcpy (dst, &ch, sizeof(ch));
1568 memcpy (dst, &attrSet, sizeof(attrSet));
1569 dst += sizeof(attrSet);
1573 memcpy (dst, &attrUse, sizeof(attrUse));
1574 dst += sizeof(attrUse);
1577 *dst++ = p->reg_type;
1578 memcpy (dst, string, length);
1584 memcpy (dst, pseqno, sizeof(*pseqno));
1585 dst += sizeof(*pseqno);
1587 keys->buf_used = dst - keys->buf;
1590 static void extract_add_sort_string (RecWord *p, const char *string,
1593 ZebraHandle zh = p->extractCtrl->handle;
1594 struct sortKeys *sk = &zh->reg->sortKeys;
1597 while (off < sk->buf_used)
1601 off += key_SU_decode(&set, sk->buf + off);
1602 off += key_SU_decode(&use, sk->buf + off);
1603 off += key_SU_decode(&slen, sk->buf + off);
1605 if (p->attrSet == set && p->attrUse == use)
1608 assert (off == sk->buf_used);
1610 if (sk->buf_used + IT_MAX_WORD > sk->buf_max)
1614 b = (char *) xmalloc (sk->buf_max += 128000);
1615 if (sk->buf_used > 0)
1616 memcpy (b, sk->buf, sk->buf_used);
1620 off += key_SU_encode(p->attrSet, sk->buf + off);
1621 off += key_SU_encode(p->attrUse, sk->buf + off);
1622 off += key_SU_encode(length, sk->buf + off);
1623 memcpy (sk->buf + off, string, length);
1624 sk->buf_used = off + length;
1627 void extract_add_string (RecWord *p, const char *string, int length)
1629 assert (length > 0);
1630 if (zebra_maps_is_sort (p->zebra_maps, p->reg_type))
1631 extract_add_sort_string (p, string, length);
1633 extract_add_index_string (p, string, length);
1636 static void extract_add_incomplete_field (RecWord *p)
1638 const char *b = p->string;
1639 int remain = p->length;
1640 const char **map = 0;
1643 map = zebra_maps_input(p->zebra_maps, p->reg_type, &b, remain);
1647 char buf[IT_MAX_WORD+1];
1651 while (map && *map && **map == *CHR_SPACE)
1653 remain = p->length - (b - p->string);
1655 map = zebra_maps_input(p->zebra_maps, p->reg_type, &b, remain);
1662 while (map && *map && **map != *CHR_SPACE)
1664 const char *cp = *map;
1666 while (i < IT_MAX_WORD && *cp)
1668 remain = p->length - (b - p->string);
1670 map = zebra_maps_input(p->zebra_maps, p->reg_type, &b, remain);
1676 extract_add_string (p, buf, i);
1681 static void extract_add_complete_field (RecWord *p)
1683 const char *b = p->string;
1684 char buf[IT_MAX_WORD+1];
1685 const char **map = 0;
1686 int i = 0, remain = p->length;
1689 map = zebra_maps_input (p->zebra_maps, p->reg_type, &b, remain);
1691 while (remain > 0 && i < IT_MAX_WORD)
1693 while (map && *map && **map == *CHR_SPACE)
1695 remain = p->length - (b - p->string);
1697 map = zebra_maps_input(p->zebra_maps, p->reg_type, &b, remain);
1704 if (i && i < IT_MAX_WORD)
1705 buf[i++] = *CHR_SPACE;
1706 while (map && *map && **map != *CHR_SPACE)
1708 const char *cp = *map;
1710 if (i >= IT_MAX_WORD)
1712 while (i < IT_MAX_WORD && *cp)
1714 remain = p->length - (b - p->string);
1716 map = zebra_maps_input (p->zebra_maps, p->reg_type, &b,
1724 extract_add_string (p, buf, i);
1727 void extract_token_add (RecWord *p)
1730 if ((wrbuf = zebra_replace(p->zebra_maps, p->reg_type, 0,
1731 p->string, p->length)))
1733 p->string = wrbuf_buf(wrbuf);
1734 p->length = wrbuf_len(wrbuf);
1736 if (zebra_maps_is_complete (p->zebra_maps, p->reg_type))
1737 extract_add_complete_field (p);
1739 extract_add_incomplete_field(p);
1742 void extract_schema_add (struct recExtractCtrl *p, Odr_oid *oid)
1744 ZebraHandle zh = (ZebraHandle) (p->handle);
1745 zebraExplain_addSchema (zh->reg->zei, oid);
1748 void extract_flushSortKeys (ZebraHandle zh, SYSNO sysno,
1749 int cmd, struct sortKeys *sk)
1751 SortIdx sortIdx = zh->reg->sortIdx;
1754 sortIdx_sysno (sortIdx, sysno);
1756 while (off < sk->buf_used)
1758 int set, use, slen, l;
1760 off += key_SU_decode(&set, sk->buf + off);
1761 off += key_SU_decode(&use, sk->buf + off);
1762 off += key_SU_decode(&slen, sk->buf + off);
1764 sortIdx_type(sortIdx, use);
1766 sortIdx_add(sortIdx, sk->buf + off, slen);
1768 sortIdx_add(sortIdx, "", 1);
1773 void encode_key_init (struct encode_info *i)
1784 char *encode_key_int (int d, char *bp)
1788 else if (d <= 16383)
1790 *bp++ = 64 + (d>>8);
1793 else if (d <= 4194303)
1795 *bp++ = 128 + (d>>16);
1796 *bp++ = (d>>8) & 255;
1801 *bp++ = 192 + (d>>24);
1802 *bp++ = (d>>16) & 255;
1803 *bp++ = (d>>8) & 255;
1810 /* this is the old encode_key_write
1811 * may be deleted once we are confident that the new works
1814 void encode_key_write (char *k, struct encode_info *i, FILE *outf)
1819 while ((*bp++ = *k++))
1821 memcpy (&key, k+1, sizeof(struct it_key));
1822 bp = encode_key_int ( (key.sysno - i->sysno) * 2 + *k, bp);
1823 if (i->sysno != key.sysno)
1825 i->sysno = key.sysno;
1828 else if (!i->seqno && !key.seqno && i->cmd == *k)
1830 bp = encode_key_int (key.seqno - i->seqno, bp);
1831 i->seqno = key.seqno;
1833 if (fwrite (i->buf, bp - i->buf, 1, outf) != 1)
1835 logf (LOG_FATAL|LOG_ERRNO, "fwrite");
1840 void encode_key_flush (struct encode_info *i, FILE *outf)
1841 { /* dummy routine */
1846 /* new encode_key_write
1847 * The idea is to buffer one more key, and compare them
1848 * If we are going to delete and insert the same key,
1849 * we may as well not bother. Should make a difference in
1850 * updates with small modifications (appending to a mbox)
1852 void encode_key_write (char *k, struct encode_info *i, FILE *outf)
1857 if (*k) /* first time for new key */
1860 while ((*bp++ = *k++))
1862 i->keylen= bp - i->buf -1;
1863 assert(i->keylen+1+sizeof(struct it_key) < ENCODE_BUFLEN);
1867 bp=i->buf + i->keylen;
1872 memcpy (&key, k+1, sizeof(struct it_key));
1873 if (0==i->prevsys) /* no previous filter, fill up */
1875 i->prevsys=key.sysno;
1876 i->prevseq=key.seqno;
1879 else if ( (i->prevsys==key.sysno) &&
1880 (i->prevseq==key.seqno) &&
1882 { /* same numbers, diff cmd, they cancel out */
1886 { /* different stuff, write previous, move buf */
1887 bp = encode_key_int ( (i->prevsys - i->sysno) * 2 + i->prevcmd, bp);
1888 if (i->sysno != i->prevsys)
1890 i->sysno = i->prevsys;
1893 else if (!i->seqno && !i->prevseq && i->cmd == i->prevcmd)
1895 return; /* ??? Filters some sort of duplicates away */
1896 /* ??? Can this ever happen -H 15oct02 */
1898 bp = encode_key_int (i->prevseq - i->seqno, bp);
1899 i->seqno = i->prevseq;
1900 i->cmd = i->prevcmd;
1901 if (fwrite (i->buf, bp - i->buf, 1, outf) != 1)
1903 logf (LOG_FATAL|LOG_ERRNO, "fwrite");
1906 i->keylen=0; /* ok, it's written, forget it */
1907 i->prevsys=key.sysno;
1908 i->prevseq=key.seqno;
1913 void encode_key_flush (struct encode_info *i, FILE *outf)
1914 { /* flush the last key from i */
1915 char *bp =i->buf + i->keylen;
1918 return; /* nothing to flush */
1921 bp = encode_key_int ( (i->prevsys - i->sysno) * 2 + i->prevcmd, bp);
1922 if (i->sysno != i->prevsys)
1924 i->sysno = i->prevsys;
1927 else if (!i->seqno && !i->prevseq && i->cmd == i->prevcmd)
1929 return; /* ??? Filters some sort of duplicates away */
1930 /* ??? Can this ever happen -H 15oct02 */
1932 bp = encode_key_int (i->prevseq - i->seqno, bp);
1933 i->seqno = i->prevseq;
1934 i->cmd = i->prevcmd;
1935 if (fwrite (i->buf, bp - i->buf, 1, outf) != 1)
1937 logf (LOG_FATAL|LOG_ERRNO, "fwrite");
1940 i->keylen=0; /* ok, it's written, forget it */
1941 i->prevsys=0; /* forget the values too */