6d7ab65177d26901d887755b60b5a4a3a48b4d8d
[pazpar2-moved-to-github.git] / src / session.c
1 /* This file is part of Pazpar2.
2    Copyright (C) Index Data
3
4 Pazpar2 is free software; you can redistribute it and/or modify it under
5 the terms of the GNU General Public License as published by the Free
6 Software Foundation; either version 2, or (at your option) any later
7 version.
8
9 Pazpar2 is distributed in the hope that it will be useful, but WITHOUT ANY
10 WARRANTY; without even the implied warranty of MERCHANTABILITY or
11 FITNESS FOR A PARTICULAR PURPOSE.  See the GNU General Public License
12 for more details.
13
14 You should have received a copy of the GNU General Public License
15 along with this program; if not, write to the Free Software
16 Foundation, Inc., 51 Franklin St, Fifth Floor, Boston, MA  02110-1301  USA
17
18 */
19
20 /** \file session.c
21     \brief high-level logic; mostly user sessions and settings
22 */
23
24 #if HAVE_CONFIG_H
25 #include <config.h>
26 #endif
27
28 #include <time.h>
29 #include <stdlib.h>
30 #include <stdio.h>
31 #include <string.h>
32 #if HAVE_SYS_TIME_H
33 #include <sys/time.h>
34 #endif
35 #if HAVE_UNISTD_H
36 #include <unistd.h>
37 #endif
38 #ifdef WIN32
39 #include <windows.h>
40 #endif
41 #include <signal.h>
42 #include <ctype.h>
43 #include <assert.h>
44 #include <math.h>
45
46 #include <yaz/marcdisp.h>
47 #include <yaz/comstack.h>
48 #include <yaz/tcpip.h>
49 #include <yaz/proto.h>
50 #include <yaz/readconf.h>
51 #include <yaz/pquery.h>
52 #include <yaz/otherinfo.h>
53 #include <yaz/yaz-util.h>
54 #include <yaz/nmem.h>
55 #include <yaz/query-charset.h>
56 #include <yaz/querytowrbuf.h>
57 #include <yaz/oid_db.h>
58 #include <yaz/snprintf.h>
59
60 #define USE_TIMING 1
61 #if USE_TIMING
62 #include <yaz/timing.h>
63 #endif
64
65 #include "ppmutex.h"
66 #include "parameters.h"
67 #include "session.h"
68 #include "eventl.h"
69 #include "http.h"
70 #include "termlists.h"
71 #include "reclists.h"
72 #include "relevance.h"
73 #include "database.h"
74 #include "client.h"
75 #include "settings.h"
76 #include "normalize7bit.h"
77
78 #include <libxml/tree.h>
79
80 #define MAX_CHUNK 15
81
82 #define MAX(a,b) ((a)>(b)?(a):(b))
83
84 // Note: Some things in this structure will eventually move to configuration
85 struct parameters global_parameters =
86 {
87     0,   // dump_records
88     0,   // debug_mode
89     0,   // predictable sessions
90 };
91
92 struct client_list {
93     struct client *client;
94     struct client_list *next;
95 };
96
97 /* session counting (1) , disable client counting (0) */
98 static YAZ_MUTEX g_session_mutex = 0;
99 static int no_sessions = 0;
100
101 static int session_use(int delta)
102 {
103     int sessions;
104     if (!g_session_mutex)
105         yaz_mutex_create(&g_session_mutex);
106     yaz_mutex_enter(g_session_mutex);
107     no_sessions += delta;
108     sessions = no_sessions;
109     yaz_mutex_leave(g_session_mutex);
110     yaz_log(YLOG_DEBUG, "%s sessions=%d", delta == 0 ? "" :
111             (delta > 0 ? "INC" : "DEC"), no_sessions);
112     return sessions;
113 }
114
115 int sessions_count(void)
116 {
117     return session_use(0);
118 }
119
120 static void log_xml_doc(xmlDoc *doc)
121 {
122     FILE *lf = yaz_log_file();
123     xmlChar *result = 0;
124     int len = 0;
125 #if LIBXML_VERSION >= 20600
126     xmlDocDumpFormatMemory(doc, &result, &len, 1);
127 #else
128     xmlDocDumpMemory(doc, &result, &len);
129 #endif
130     if (lf && len)
131     {
132         (void) fwrite(result, 1, len, lf);
133         fprintf(lf, "\n");
134     }
135     xmlFree(result);
136 }
137
138 static void session_enter(struct session *s, const char *caller)
139 {
140     if (caller)
141         session_log(s, YLOG_DEBUG, "Session lock by %s", caller);
142     yaz_mutex_enter(s->session_mutex);
143 }
144
145 static void session_leave(struct session *s, const char *caller)
146 {
147     yaz_mutex_leave(s->session_mutex);
148     if (caller)
149         session_log(s, YLOG_DEBUG, "Session unlock by %s", caller);
150 }
151
152 static void session_normalize_facet(struct session *s,
153                                     const char *type, const char *value,
154                                     WRBUF display_wrbuf, WRBUF facet_wrbuf)
155 {
156     struct conf_service *service = s->service;
157     pp2_charset_token_t prt;
158     const char *facet_component;
159     int i;
160     const char *icu_chain_id = 0;
161
162     for (i = 0; i < service->num_metadata; i++)
163         if (!strcmp((service->metadata + i)->name, type))
164             icu_chain_id = (service->metadata + i)->facetrule;
165     if (!icu_chain_id)
166         icu_chain_id = "facet";
167     prt = pp2_charset_token_create(service->charsets, icu_chain_id);
168     if (!prt)
169     {
170         session_log(s, YLOG_FATAL,
171                     "Unknown ICU chain '%s' for facet of type '%s'",
172                 icu_chain_id, type);
173         wrbuf_destroy(facet_wrbuf);
174         wrbuf_destroy(display_wrbuf);
175         return;
176     }
177     pp2_charset_token_first(prt, value, 0);
178     while ((facet_component = pp2_charset_token_next(prt)))
179     {
180         const char *display_component;
181         if (*facet_component)
182         {
183             if (wrbuf_len(facet_wrbuf))
184                 wrbuf_puts(facet_wrbuf, " ");
185             wrbuf_puts(facet_wrbuf, facet_component);
186         }
187         display_component = pp2_get_display(prt);
188         if (display_component)
189         {
190             if (wrbuf_len(display_wrbuf))
191                 wrbuf_puts(display_wrbuf, " ");
192             wrbuf_puts(display_wrbuf, display_component);
193         }
194     }
195     pp2_charset_token_destroy(prt);
196 }
197
198 void add_facet(struct session *s, const char *type, const char *value, int count)
199 {
200     WRBUF facet_wrbuf = wrbuf_alloc();
201     WRBUF display_wrbuf = wrbuf_alloc();
202
203     session_normalize_facet(s, type, value, display_wrbuf, facet_wrbuf);
204
205     if (wrbuf_len(facet_wrbuf))
206     {
207         int i;
208         for (i = 0; i < s->num_termlists; i++)
209             if (!strcmp(s->termlists[i].name, type))
210                 break;
211         if (i == s->num_termlists)
212         {
213             if (i == SESSION_MAX_TERMLISTS)
214             {
215                 session_log(s, YLOG_FATAL, "Too many termlists");
216                 wrbuf_destroy(facet_wrbuf);
217                 wrbuf_destroy(display_wrbuf);
218                 return;
219             }
220
221             s->termlists[i].name = nmem_strdup(s->nmem, type);
222             s->termlists[i].termlist = termlist_create(s->nmem);
223             s->num_termlists = i + 1;
224         }
225
226 #if 0
227         session_log(s, YLOG_LOG, "Facets for %s: %s norm:%s (%d)", type, value, wrbuf_cstr(facet_wrbuf), count);
228 #endif
229         termlist_insert(s->termlists[i].termlist, wrbuf_cstr(display_wrbuf),
230                         wrbuf_cstr(facet_wrbuf), count);
231     }
232     wrbuf_destroy(facet_wrbuf);
233     wrbuf_destroy(display_wrbuf);
234 }
235
236 static xmlDoc *record_to_xml(struct session *se,
237                              struct session_database *sdb, const char *rec)
238 {
239     struct database *db = sdb->database;
240     xmlDoc *rdoc = 0;
241
242     rdoc = xmlParseMemory(rec, strlen(rec));
243
244     if (!rdoc)
245     {
246         session_log(se, YLOG_WARN, "Non-wellformed XML");
247         return 0;
248     }
249
250     if (global_parameters.dump_records)
251     {
252         session_log(se, YLOG_LOG, "Un-normalized record from %s", db->id);
253         log_xml_doc(rdoc);
254     }
255
256     return rdoc;
257 }
258
259 #define MAX_XSLT_ARGS 16
260
261 // Add static values from session database settings if applicable
262 static void insert_settings_parameters(struct session_database *sdb,
263                                        struct conf_service *service,
264                                        char **parms,
265                                        NMEM nmem)
266 {
267     int i;
268     int nparms = 0;
269     int offset = 0;
270
271     for (i = 0; i < service->num_metadata; i++)
272     {
273         struct conf_metadata *md = &service->metadata[i];
274         int setting;
275
276         if (md->setting == Metadata_setting_parameter &&
277             (setting = settings_lookup_offset(service, md->name)) >= 0)
278         {
279             const char *val = session_setting_oneval(sdb, setting);
280             if (val && nparms < MAX_XSLT_ARGS)
281             {
282                 char *buf;
283                 int len = strlen(val);
284                 buf = nmem_malloc(nmem, len + 3);
285                 buf[0] = '\'';
286                 strcpy(buf + 1, val);
287                 buf[len+1] = '\'';
288                 buf[len+2] = '\0';
289                 parms[offset++] = md->name;
290                 parms[offset++] = buf;
291                 nparms++;
292             }
293         }
294     }
295     parms[offset] = 0;
296 }
297
298 // Add static values from session database settings if applicable
299 static void insert_settings_values(struct session_database *sdb, xmlDoc *doc,
300                                    xmlNode *root,
301                                    struct conf_service *service)
302 {
303     int i;
304
305     for (i = 0; i < service->num_metadata; i++)
306     {
307         struct conf_metadata *md = &service->metadata[i];
308         int offset;
309
310         if (md->setting == Metadata_setting_postproc &&
311             (offset = settings_lookup_offset(service, md->name)) >= 0)
312         {
313             const char *val = session_setting_oneval(sdb, offset);
314             if (val)
315             {
316                 xmlNode *n = xmlNewTextChild(root, 0, (xmlChar *) "metadata",
317                                              (xmlChar *) val);
318                 xmlSetProp(n, (xmlChar *) "type", (xmlChar *) md->name);
319             }
320         }
321     }
322 }
323
324 static xmlDoc *normalize_record(struct session *se,
325                                 struct session_database *sdb,
326                                 struct conf_service *service,
327                                 const char *rec, NMEM nmem)
328 {
329     xmlDoc *rdoc = record_to_xml(se, sdb, rec);
330
331     if (rdoc)
332     {
333         char *parms[MAX_XSLT_ARGS*2+1];
334
335         insert_settings_parameters(sdb, service, parms, nmem);
336
337         if (normalize_record_transform(sdb->map, &rdoc, (const char **)parms))
338         {
339             session_log(se, YLOG_WARN, "Normalize failed");
340         }
341     }
342     return rdoc;
343 }
344
345 void session_settings_dump(struct session *se,
346                            struct session_database *db,
347                            WRBUF w)
348 {
349     if (db->settings)
350     {
351         int i, num = db->num_settings;
352         for (i = 0; i < num; i++)
353         {
354             struct setting *s = db->settings[i];
355             for (;s ; s = s->next)
356             {
357                 wrbuf_puts(w, "<set name=\"");
358                 wrbuf_xmlputs(w, s->name);
359                 wrbuf_puts(w, "\" value=\"");
360                 wrbuf_xmlputs(w, s->value);
361                 wrbuf_puts(w, "\"/>");
362             }
363             if (db->settings[i])
364                 wrbuf_puts(w, "\n");
365         }
366     }
367 }
368
369 // Retrieve first defined value for 'name' for given database.
370 // Will be extended to take into account user associated with session
371 const char *session_setting_oneval(struct session_database *db, int offset)
372 {
373     if (offset >= db->num_settings || !db->settings[offset])
374         return "";
375     return db->settings[offset]->value;
376 }
377
378 // Prepare XSLT stylesheets for record normalization
379 // Structures are allocated on the session_wide nmem to avoid having
380 // to recompute this for every search. This would lead
381 // to leaking if a single session was to repeatedly change the PZ_XSLT
382 // setting. However, this is not a realistic use scenario.
383 static int prepare_map(struct session *se, struct session_database *sdb)
384 {
385     if (sdb->settings && !sdb->map)
386     {
387         const char *s;
388
389         if (sdb->settings[PZ_XSLT] &&
390             (s = session_setting_oneval(sdb, PZ_XSLT)))
391         {
392             char auto_stylesheet[256];
393
394             if (!strcmp(s, "auto"))
395             {
396                 const char *request_syntax = session_setting_oneval(
397                     sdb, PZ_REQUESTSYNTAX);
398                 if (request_syntax)
399                 {
400                     char *cp;
401                     yaz_snprintf(auto_stylesheet, sizeof(auto_stylesheet),
402                                  "%s.xsl", request_syntax);
403                     for (cp = auto_stylesheet; *cp; cp++)
404                     {
405                         /* deliberately only consider ASCII */
406                         if (*cp > 32 && *cp < 127)
407                             *cp = tolower(*cp);
408                     }
409                     s = auto_stylesheet;
410                 }
411                 else
412                 {
413                     session_log(se, YLOG_WARN,
414                                 "No pz:requestsyntax for auto stylesheet");
415                 }
416             }
417             sdb->map = normalize_cache_get(se->normalize_cache,
418                                            se->service, s);
419             if (!sdb->map)
420                 return -1;
421         }
422     }
423     return 0;
424 }
425
426 // called if watch should be removed because http_channel is to be destroyed
427 static void session_watch_cancel(void *data, struct http_channel *c,
428                                  void *data2)
429 {
430     struct session_watchentry *ent = data;
431
432     ent->fun = 0;
433     ent->data = 0;
434     ent->obs = 0;
435 }
436
437 // set watch. Returns 0=OK, -1 if watch is already set
438 int session_set_watch(struct session *s, int what,
439                       session_watchfun fun, void *data,
440                       struct http_channel *chan)
441 {
442     int ret;
443     session_enter(s, "session_set_watch");
444     if (s->watchlist[what].fun)
445         ret = -1;
446     else
447     {
448
449         s->watchlist[what].fun = fun;
450         s->watchlist[what].data = data;
451         s->watchlist[what].obs = http_add_observer(chan, &s->watchlist[what],
452                                                    session_watch_cancel);
453         ret = 0;
454     }
455     session_leave(s, "session_set_watch");
456     return ret;
457 }
458
459 void session_alert_watch(struct session *s, int what)
460 {
461     assert(s);
462     session_enter(s, "session_alert_watch");
463     if (s->watchlist[what].fun)
464     {
465         /* our watch is no longer associated with http_channel */
466         void *data;
467         session_watchfun fun;
468
469         http_remove_observer(s->watchlist[what].obs);
470         fun  = s->watchlist[what].fun;
471         data = s->watchlist[what].data;
472
473         /* reset watch before fun is invoked - in case fun wants to set
474            it again */
475         s->watchlist[what].fun = 0;
476         s->watchlist[what].data = 0;
477         s->watchlist[what].obs = 0;
478
479         session_leave(s, "session_alert_watch");
480         session_log(s, YLOG_DEBUG,
481                     "Alert Watch: %d calling function: %p", what, fun);
482         fun(data);
483     }
484     else
485         session_leave(s,"session_alert_watch");
486 }
487
488 //callback for grep_databases
489 static void select_targets_callback(struct session *se,
490                                     struct session_database *db)
491 {
492     struct client *cl;
493     struct client_list *l;
494
495     for (l = se->clients_cached; l; l = l->next)
496         if (client_get_database(l->client) == db)
497             break;
498
499     if (l)
500         cl = l->client;
501     else
502     {
503         cl = client_create(db->database->id);
504         client_set_database(cl, db);
505
506         l = xmalloc(sizeof(*l));
507         l->client = cl;
508         l->next = se->clients_cached;
509         se->clients_cached = l;
510     }
511     /* set session always. If may be 0 if client is not active */
512     client_set_session(cl, se);
513
514     l = xmalloc(sizeof(*l));
515     l->client = cl;
516     l->next = se->clients_active;
517     se->clients_active = l;
518 }
519
520 static void session_reset_active_clients(struct session *se,
521                                          struct client_list *new_list)
522 {
523     struct client_list *l;
524
525     session_enter(se, "session_reset_active_clients");
526     l = se->clients_active;
527     se->clients_active = new_list;
528     session_leave(se, "session_reset_active_clients");
529
530     while (l)
531     {
532         struct client_list *l_next = l->next;
533
534         client_lock(l->client);
535         client_set_session(l->client, 0); /* mark client inactive */
536         client_unlock(l->client);
537
538         xfree(l);
539         l = l_next;
540     }
541 }
542
543 static void session_remove_cached_clients(struct session *se)
544 {
545     struct client_list *l;
546
547     session_reset_active_clients(se, 0);
548
549     session_enter(se, "session_remove_cached_clients");
550     l = se->clients_cached;
551     se->clients_cached = 0;
552     session_leave(se, "session_remove_cached_clients");
553
554     while (l)
555     {
556         struct client_list *l_next = l->next;
557         client_lock(l->client);
558         client_set_session(l->client, 0);
559         client_set_database(l->client, 0);
560         client_unlock(l->client);
561         client_destroy(l->client);
562         xfree(l);
563         l = l_next;
564     }
565 }
566
567 // Associates a set of clients with a session;
568 // Note: Session-databases represent databases with per-session
569 // setting overrides
570 static int select_targets(struct session *se, const char *filter)
571 {
572     return session_grep_databases(se, filter, select_targets_callback);
573 }
574
575 int session_active_clients(struct session *s)
576 {
577     struct client_list *l;
578     int res = 0;
579
580     for (l = s->clients_active; l; l = l->next)
581         if (client_is_active(l->client))
582             res++;
583
584     return res;
585 }
586
587 int session_is_preferred_clients_ready(struct session *s)
588 {
589     struct client_list *l;
590     int res = 0;
591
592     for (l = s->clients_active; l; l = l->next)
593         if (client_is_active_preferred(l->client))
594             res++;
595     session_log(s, YLOG_DEBUG, "Has %d active preferred clients.", res);
596     return res == 0;
597 }
598
599 static void session_clear_set(struct session *se, struct reclist_sortparms *sp)
600 {
601     reclist_destroy(se->reclist);
602     if (nmem_total(se->nmem))
603         session_log(se, YLOG_DEBUG, "NMEN operation usage %zd",
604                     nmem_total(se->nmem));
605     nmem_reset(se->nmem);
606     se->total_records = se->total_merged = 0;
607     se->num_termlists = 0;
608
609     relevance_clear(se->relevance);
610
611     /* reset list of sorted results and clear to relevance search */
612     se->sorted_results = nmem_malloc(se->nmem, sizeof(*se->sorted_results));
613     se->sorted_results->name = nmem_strdup(se->nmem, sp->name);
614     se->sorted_results->increasing = sp->increasing;
615     se->sorted_results->type = sp->type;
616     se->sorted_results->next = 0;
617
618     session_log(se, YLOG_DEBUG, "clear_set session_sort: field=%s increasing=%d type=%d configured",
619             sp->name, sp->increasing, sp->type);
620
621     se->reclist = reclist_create(se->nmem);
622 }
623
624 static void session_sort_unlocked(struct session *se,
625                                   struct reclist_sortparms *sp,
626                                   const char *mergekey,
627                                   const char *rank)
628 {
629     struct client_list *l;
630     const char *field = sp->name;
631     int increasing = sp->increasing;
632     int type  = sp->type;
633     int clients_research = 0;
634
635     session_log(se, YLOG_DEBUG, "session_sort field=%s increasing=%d type=%d",
636                 field, increasing, type);
637
638     if (rank && (!se->rank || strcmp(se->rank, rank)))
639     {
640         /* new rank must research/reingest anyway */
641         assert(rank);
642         xfree(se->rank);
643         se->rank = *rank ? xstrdup(rank) : 0;
644         clients_research = 1;
645         session_log(se, YLOG_DEBUG, "session_sort: new rank = %s",
646                     rank);
647     }
648     if (mergekey && (!se->mergekey || strcmp(se->mergekey, mergekey)))
649     {
650         /* new mergekey must research/reingest anyway */
651         assert(mergekey);
652         xfree(se->mergekey);
653         se->mergekey = *mergekey ? xstrdup(mergekey) : 0;
654         clients_research = 1;
655         session_log(se, YLOG_DEBUG, "session_sort: new mergekey = %s",
656                     mergekey);
657     }
658     if (clients_research == 0)
659     {
660         struct reclist_sortparms *sr;
661         for (sr = se->sorted_results; sr; sr = sr->next)
662             if (!reclist_sortparms_cmp(sr, sp))
663                 break;
664         if (sr)
665         {
666             session_log(se, YLOG_DEBUG, "session_sort: field=%s increasing=%d type=%d already fetched",
667                         field, increasing, type);
668             return;
669         }
670     }
671     session_log(se, YLOG_DEBUG, "session_sort: field=%s increasing=%d type=%d must fetch",
672                 field, increasing, type);
673
674     // We need to reset reclist on every sort that changes the records, not just for position
675     // So if just one client requires new searching, we need to clear set.
676     // Ask each of the client if sorting requires re-search due to native sort
677     // If it does it will require us to
678     for (l = se->clients_active; l; l = l->next)
679     {
680         struct client *cl = l->client;
681         // Assume no re-search is required.
682         client_parse_init(cl, 1);
683         clients_research += client_parse_sort(cl, sp);
684     }
685     if (clients_research)
686     {
687         session_log(se, YLOG_DEBUG,
688                     "session_sort: reset results due to %d clients researching",
689                     clients_research);
690         session_clear_set(se, sp);
691     }
692     else
693     {
694         // A new sorting based on same record set
695         struct reclist_sortparms *sr = nmem_malloc(se->nmem, sizeof(*sr));
696         sr->name = nmem_strdup(se->nmem, field);
697         sr->increasing = increasing;
698         sr->type = type;
699         sr->next = se->sorted_results;
700         se->sorted_results = sr;
701         session_log(se, YLOG_DEBUG, "session_sort: no research/ingesting done");
702         return ;
703     }
704     session_log(se, YLOG_DEBUG, "Re- search/ingesting for clients due to change in sort order");
705
706     for (l = se->clients_active; l; l = l->next)
707     {
708         struct client *cl = l->client;
709         if (client_get_state(cl) == Client_Connecting ||
710             client_get_state(cl) == Client_Idle ||
711             client_get_state(cl) == Client_Working) {
712             client_start_search(cl);
713         }
714         else
715         {
716             session_log(se, YLOG_DEBUG,
717                         "session_sort: %s: No re-start/ingest in show. "
718                         "Wrong client state: %d",
719                         client_get_id(cl), client_get_state(cl));
720         }
721     }
722 }
723
724 void session_sort(struct session *se, struct reclist_sortparms *sp,
725                   const char *mergekey, const char *rank)
726 {
727     //session_enter(se, "session_sort");
728     session_sort_unlocked(se, sp, mergekey, rank);
729     //session_leave(se, "session_sort");
730 }
731
732
733 enum pazpar2_error_code session_search(struct session *se,
734                                        const char *query,
735                                        const char *startrecs,
736                                        const char *maxrecs,
737                                        const char *filter,
738                                        const char *limit,
739                                        const char **addinfo,
740                                        const char **addinfo2,
741                                        struct reclist_sortparms *sp,
742                                        const char *mergekey,
743                                        const char *rank)
744 {
745     int live_channels = 0;
746     int no_working = 0;
747     int no_failed_query = 0;
748     int no_failed_limit = 0;
749     struct client_list *l, *l0;
750
751     session_alert_watch(se, SESSION_WATCH_SHOW);
752     session_alert_watch(se, SESSION_WATCH_BYTARGET);
753     session_alert_watch(se, SESSION_WATCH_TERMLIST);
754     session_alert_watch(se, SESSION_WATCH_SHOW_PREF);
755
756     session_log(se, YLOG_DEBUG, "Search");
757
758     *addinfo = 0;
759
760     if (se->settings_modified) {
761         session_remove_cached_clients(se);
762     }
763     else
764         session_reset_active_clients(se, 0);
765
766     session_enter(se, "session_search");
767     se->settings_modified = 0;
768
769     if (mergekey)
770     {
771         xfree(se->mergekey);
772         se->mergekey = *mergekey ? xstrdup(mergekey) : 0;
773     }
774     if (rank)
775     {
776         xfree(se->rank);
777         se->rank = *rank ? xstrdup(rank) : 0;
778     }
779
780     session_clear_set(se, sp);
781     relevance_destroy(&se->relevance);
782
783     live_channels = select_targets(se, filter);
784     if (!live_channels)
785     {
786         session_leave(se, "session_search");
787         return PAZPAR2_NO_TARGETS;
788     }
789
790     facet_limits_destroy(se->facet_limits);
791     se->facet_limits = facet_limits_create(limit);
792     if (!se->facet_limits)
793     {
794         *addinfo = "limit";
795         session_leave(se, "session_search");
796         return PAZPAR2_MALFORMED_PARAMETER_VALUE;
797     }
798
799     l0 = se->clients_active;
800     se->clients_active = 0;
801     session_leave(se, "session_search");
802
803     for (l = l0; l; l = l->next)
804     {
805         int parse_ret;
806         struct client *cl = l->client;
807         client_parse_init(cl, 1);
808         if (prepare_map(se, client_get_database(cl)) < 0)
809             continue;
810
811         parse_ret = client_parse_query(cl, query, se->facet_limits, addinfo2);
812         if (parse_ret == -1)
813             no_failed_query++;
814         else if (parse_ret == -2)
815             no_failed_limit++;
816         else if (parse_ret < 0)
817             no_working++; /* other error, such as bad CCL map */
818         else
819         {
820             client_parse_range(cl, startrecs, maxrecs);
821             client_parse_sort(cl, sp);
822             client_start_search(cl);
823             no_working++;
824         }
825     }
826     session_reset_active_clients(se, l0);
827
828     if (no_working == 0)
829     {
830         if (no_failed_query > 0)
831         {
832             *addinfo = "query";
833             return PAZPAR2_MALFORMED_PARAMETER_VALUE;
834         }
835         else if (no_failed_limit > 0)
836         {
837             *addinfo = "limit";
838             return PAZPAR2_MALFORMED_PARAMETER_VALUE;
839         }
840         else
841             return PAZPAR2_NO_TARGETS;
842     }
843     return PAZPAR2_NO_ERROR;
844 }
845
846 // Creates a new session_database object for a database
847 static void session_init_databases_fun(void *context, struct database *db)
848 {
849     struct session *se = (struct session *) context;
850     struct session_database *new = nmem_malloc(se->session_nmem, sizeof(*new));
851     int i;
852
853     new->database = db;
854
855     new->map = 0;
856     assert(db->settings);
857     new->settings = nmem_malloc(se->session_nmem,
858                                 sizeof(struct settings *) * db->num_settings);
859     new->num_settings = db->num_settings;
860     for (i = 0; i < db->num_settings; i++)
861     {
862         struct setting *setting = db->settings[i];
863         new->settings[i] = setting;
864     }
865     new->next = se->databases;
866     se->databases = new;
867 }
868
869 // Doesn't free memory associated with sdb -- nmem takes care of that
870 static void session_database_destroy(struct session_database *sdb)
871 {
872     sdb->map = 0;
873 }
874
875 // Initialize session_database list -- this represents this session's view
876 // of the database list -- subject to modification by the settings ws command
877 void session_init_databases(struct session *se)
878 {
879     se->databases = 0;
880     predef_grep_databases(se, se->service, session_init_databases_fun);
881 }
882
883 // Probably session_init_databases_fun should be refactored instead of
884 // called here.
885 static struct session_database *load_session_database(struct session *se,
886                                                       char *id)
887 {
888     struct database *db = new_database_inherit_settings(id, se->session_nmem, se->service->settings);
889     session_init_databases_fun((void*) se, db);
890
891     // New sdb is head of se->databases list
892     return se->databases;
893 }
894
895 // Find an existing session database. If not found, load it
896 static struct session_database *find_session_database(struct session *se,
897                                                       char *id)
898 {
899     struct session_database *sdb;
900
901     for (sdb = se->databases; sdb; sdb = sdb->next)
902         if (!strcmp(sdb->database->id, id))
903             return sdb;
904     return load_session_database(se, id);
905 }
906
907 // Apply a session override to a database
908 void session_apply_setting(struct session *se, char *dbname, char *setting,
909                            char *value)
910 {
911     struct session_database *sdb = find_session_database(se, dbname);
912     struct conf_service *service = se->service;
913     struct setting *new = nmem_malloc(se->session_nmem, sizeof(*new));
914     int offset = settings_create_offset(service, setting);
915
916     expand_settings_array(&sdb->settings, &sdb->num_settings, offset,
917                           se->session_nmem);
918     new->precedence = 0;
919     new->target = dbname;
920     new->name = setting;
921     new->value = value;
922     new->next = sdb->settings[offset];
923     sdb->settings[offset] = new;
924
925     se->settings_modified = 1;
926
927     // Force later recompute of settings-driven data structures
928     // (happens when a search starts and client connections are prepared)
929     switch (offset)
930     {
931     case PZ_XSLT:
932         if (sdb->map)
933         {
934             sdb->map = 0;
935         }
936         break;
937     }
938 }
939
940 void session_destroy(struct session *se)
941 {
942     struct session_database *sdb;
943     session_log(se, YLOG_LOG, "destroy");
944     session_use(-1);
945     session_remove_cached_clients(se);
946
947     for (sdb = se->databases; sdb; sdb = sdb->next)
948         session_database_destroy(sdb);
949     normalize_cache_destroy(se->normalize_cache);
950     relevance_destroy(&se->relevance);
951     reclist_destroy(se->reclist);
952     xfree(se->mergekey);
953     xfree(se->rank);
954     if (nmem_total(se->nmem))
955         session_log(se, YLOG_DEBUG, "NMEN operation usage %zd", nmem_total(se->nmem));
956     if (nmem_total(se->session_nmem))
957         session_log(se, YLOG_DEBUG, "NMEN session usage %zd", nmem_total(se->session_nmem));
958     facet_limits_destroy(se->facet_limits);
959     nmem_destroy(se->nmem);
960     service_destroy(se->service);
961     yaz_mutex_destroy(&se->session_mutex);
962 }
963
964 size_t session_get_memory_status(struct session *session) {
965     size_t session_nmem;
966     if (session == 0)
967         return 0;
968     session_enter(session, "session_get_memory_status");
969     session_nmem = nmem_total(session->nmem);
970     session_leave(session, "session_get_memory_status");
971     return session_nmem;
972 }
973
974
975 struct session *new_session(NMEM nmem, struct conf_service *service,
976                             unsigned session_id)
977 {
978     int i;
979     struct session *session = nmem_malloc(nmem, sizeof(*session));
980
981     char tmp_str[50];
982
983     sprintf(tmp_str, "session#%u", session_id);
984
985     session->session_id = session_id;
986     session_log(session, YLOG_DEBUG, "New");
987     session->service = service;
988     session->relevance = 0;
989     session->total_records = 0;
990     session->number_of_warnings_unknown_elements = 0;
991     session->number_of_warnings_unknown_metadata = 0;
992     session->num_termlists = 0;
993     session->reclist = reclist_create(nmem);
994     session->clients_active = 0;
995     session->clients_cached = 0;
996     session->settings_modified = 0;
997     session->session_nmem = nmem;
998     session->nmem = nmem_create();
999     session->databases = 0;
1000     session->sorted_results = 0;
1001     session->facet_limits = 0;
1002     session->mergekey = 0;
1003     session->rank = 0;
1004
1005     for (i = 0; i <= SESSION_WATCH_MAX; i++)
1006     {
1007         session->watchlist[i].data = 0;
1008         session->watchlist[i].fun = 0;
1009     }
1010     session->normalize_cache = normalize_cache_create();
1011     session->session_mutex = 0;
1012     pazpar2_mutex_create(&session->session_mutex, tmp_str);
1013     session_log(session, YLOG_LOG, "create");
1014
1015     session_use(1);
1016     return session;
1017 }
1018
1019 const char * client_get_suggestions_xml(struct client *cl, WRBUF wrbuf);
1020
1021 static struct hitsbytarget *hitsbytarget_nb(struct session *se,
1022                                             int *count, NMEM nmem)
1023 {
1024     struct hitsbytarget *res = 0;
1025     struct client_list *l;
1026     size_t sz = 0;
1027
1028     for (l = se->clients_active; l; l = l->next)
1029         sz++;
1030
1031     res = nmem_malloc(nmem, sizeof(*res) * sz);
1032     *count = 0;
1033     for (l = se->clients_active; l; l = l->next)
1034     {
1035         struct client *cl = l->client;
1036         WRBUF w = wrbuf_alloc();
1037         const char *name = session_setting_oneval(client_get_database(cl),
1038                                                   PZ_NAME);
1039
1040         res[*count].id = client_get_id(cl);
1041         res[*count].name = *name ? name : "Unknown";
1042         res[*count].hits = client_get_hits(cl);
1043         res[*count].approximation = client_get_approximation(cl);
1044         res[*count].records = client_get_num_records(cl);
1045         res[*count].filtered = client_get_num_records_filtered(cl);
1046         res[*count].diagnostic =
1047             client_get_diagnostic(cl, &res[*count].message,
1048                                   &res[*count].addinfo);
1049         res[*count].state = client_get_state_str(cl);
1050         res[*count].connected  = client_get_connection(cl) ? 1 : 0;
1051         session_settings_dump(se, client_get_database(cl), w);
1052         res[*count].settings_xml = nmem_strdup(nmem, wrbuf_cstr(w));
1053         wrbuf_rewind(w);
1054         wrbuf_puts(w, "");
1055         res[*count].suggestions_xml = nmem_strdup(nmem, client_get_suggestions_xml(cl, w));
1056         wrbuf_destroy(w);
1057         (*count)++;
1058     }
1059     return res;
1060 }
1061
1062 struct hitsbytarget *get_hitsbytarget(struct session *se, int *count, NMEM nmem)
1063 {
1064     struct hitsbytarget *p;
1065     session_enter(se, "get_hitsbytarget");
1066     p = hitsbytarget_nb(se, count, nmem);
1067     session_leave(se, "get_hitsbytarget");
1068     return p;
1069 }
1070
1071 // Compares two hitsbytarget nodes by hitcount
1072 static int cmp_ht(const void *p1, const void *p2)
1073 {
1074     const struct hitsbytarget *h1 = p1;
1075     const struct hitsbytarget *h2 = p2;
1076     return h2->hits - h1->hits;
1077 }
1078
1079 // Compares two hitsbytarget nodes by hitcount
1080 static int cmp_ht_approx(const void *p1, const void *p2)
1081 {
1082     const struct hitsbytarget *h1 = p1;
1083     const struct hitsbytarget *h2 = p2;
1084     return h2->approximation - h1->approximation;
1085 }
1086
1087 static int targets_termlist_nb(WRBUF wrbuf, struct session *se, int num,
1088                                NMEM nmem, int version)
1089 {
1090     struct hitsbytarget *ht;
1091     int count, i;
1092
1093     ht = hitsbytarget_nb(se, &count, nmem);
1094     if (version >= 2)
1095         qsort(ht, count, sizeof(struct hitsbytarget), cmp_ht_approx);
1096     else
1097         qsort(ht, count, sizeof(struct hitsbytarget), cmp_ht);
1098     for (i = 0; i < count && i < num && ht[i].hits > 0; i++)
1099     {
1100
1101         // do only print terms which have display names
1102
1103         wrbuf_puts(wrbuf, "<term>\n");
1104
1105         wrbuf_puts(wrbuf, "<id>");
1106         wrbuf_xmlputs(wrbuf, ht[i].id);
1107         wrbuf_puts(wrbuf, "</id>\n");
1108
1109         wrbuf_puts(wrbuf, "<name>");
1110         if (!ht[i].name || !ht[i].name[0])
1111             wrbuf_xmlputs(wrbuf, "NO TARGET NAME");
1112         else
1113             wrbuf_xmlputs(wrbuf, ht[i].name);
1114         wrbuf_puts(wrbuf, "</name>\n");
1115
1116         wrbuf_printf(wrbuf, "<frequency>" ODR_INT_PRINTF "</frequency>\n",
1117                      ht[i].hits);
1118
1119         if (version >= 2) {
1120             // Should not print if we know it isn't a approximation.
1121             wrbuf_printf(wrbuf, "<approximation>" ODR_INT_PRINTF "</approximation>\n", ht[i].approximation);
1122             wrbuf_printf(wrbuf, "<records>%d</records>\n", ht[i].records - ht[i].filtered);
1123             wrbuf_printf(wrbuf, "<filtered>%d</filtered>\n", ht[i].filtered);
1124         }
1125
1126         wrbuf_puts(wrbuf, "<state>");
1127         wrbuf_xmlputs(wrbuf, ht[i].state);
1128         wrbuf_puts(wrbuf, "</state>\n");
1129
1130         wrbuf_printf(wrbuf, "<diagnostic>%d</diagnostic>\n",
1131                      ht[i].diagnostic);
1132         wrbuf_puts(wrbuf, "</term>\n");
1133     }
1134     return count;
1135 }
1136
1137 void perform_termlist(struct http_channel *c, struct session *se,
1138                       const char *name, int num, int version)
1139 {
1140     int i, j;
1141     NMEM nmem_tmp = nmem_create();
1142     char **names;
1143     int num_names = 0;
1144
1145     if (!name)
1146         name = "*";
1147
1148     nmem_strsplit(nmem_tmp, ",", name, &names, &num_names);
1149
1150     session_enter(se, "perform_termlist");
1151
1152     for (j = 0; j < num_names; j++)
1153     {
1154         const char *tname;
1155         int must_generate_empty = 1; /* bug 5350 */
1156
1157         for (i = 0; i < se->num_termlists; i++)
1158         {
1159             tname = se->termlists[i].name;
1160             if (!strcmp(names[j], tname) || !strcmp(names[j], "*"))
1161             {
1162                 struct termlist_score **p = 0;
1163                 int len;
1164
1165                 wrbuf_puts(c->wrbuf, "<list name=\"");
1166                 wrbuf_xmlputs(c->wrbuf, tname);
1167                 wrbuf_puts(c->wrbuf, "\">\n");
1168                 must_generate_empty = 0;
1169
1170                 p = termlist_highscore(se->termlists[i].termlist, &len,
1171                                        nmem_tmp);
1172                 if (p)
1173                 {
1174                     int i;
1175                     for (i = 0; i < len && i < num; i++)
1176                     {
1177                         // prevent sending empty term elements
1178                         if (!p[i]->display_term || !p[i]->display_term[0])
1179                             continue;
1180
1181                         wrbuf_puts(c->wrbuf, "<term>");
1182                         wrbuf_puts(c->wrbuf, "<name>");
1183                         wrbuf_xmlputs(c->wrbuf, p[i]->display_term);
1184                         wrbuf_puts(c->wrbuf, "</name>");
1185
1186                         wrbuf_printf(c->wrbuf,
1187                                      "<frequency>%d</frequency>",
1188                                      p[i]->frequency);
1189                         wrbuf_puts(c->wrbuf, "</term>\n");
1190                     }
1191                 }
1192                 wrbuf_puts(c->wrbuf, "</list>\n");
1193             }
1194         }
1195         tname = "xtargets";
1196         if (!strcmp(names[j], tname) || !strcmp(names[j], "*"))
1197         {
1198             wrbuf_puts(c->wrbuf, "<list name=\"");
1199             wrbuf_xmlputs(c->wrbuf, tname);
1200             wrbuf_puts(c->wrbuf, "\">\n");
1201
1202             targets_termlist_nb(c->wrbuf, se, num, c->nmem, version);
1203             wrbuf_puts(c->wrbuf, "</list>\n");
1204             must_generate_empty = 0;
1205         }
1206         if (must_generate_empty)
1207         {
1208             wrbuf_puts(c->wrbuf, "<list name=\"");
1209             wrbuf_xmlputs(c->wrbuf, names[j]);
1210             wrbuf_puts(c->wrbuf, "\"/>\n");
1211         }
1212     }
1213     session_leave(se, "perform_termlist");
1214     nmem_destroy(nmem_tmp);
1215 }
1216
1217 #ifdef MISSING_HEADERS
1218 void report_nmem_stats(void)
1219 {
1220     size_t in_use, is_free;
1221
1222     nmem_get_memory_in_use(&in_use);
1223     nmem_get_memory_free(&is_free);
1224
1225     yaz_log(YLOG_LOG, "nmem stat: use=%ld free=%ld",
1226             (long) in_use, (long) is_free);
1227 }
1228 #endif
1229
1230 struct record_cluster *show_single_start(struct session *se, const char *id,
1231                                          struct record_cluster **prev_r,
1232                                          struct record_cluster **next_r)
1233 {
1234     struct record_cluster *r = 0;
1235
1236     session_enter(se, "show_single_start");
1237     *prev_r = 0;
1238     *next_r = 0;
1239     reclist_limit(se->reclist, se, 1);
1240
1241     reclist_enter(se->reclist);
1242     while ((r = reclist_read_record(se->reclist)))
1243     {
1244         if (!strcmp(r->recid, id))
1245         {
1246             *next_r = reclist_read_record(se->reclist);
1247             break;
1248         }
1249         *prev_r = r;
1250     }
1251     reclist_leave(se->reclist);
1252     if (!r)
1253         session_leave(se, "show_single_start");
1254     return r;
1255 }
1256
1257 void show_single_stop(struct session *se, struct record_cluster *rec)
1258 {
1259     session_leave(se, "show_single_stop");
1260 }
1261
1262
1263 int session_fetch_more(struct session *se)
1264 {
1265     struct client_list *l;
1266     int ret = 0;
1267
1268     for (l = se->clients_active; l; l = l->next)
1269     {
1270         struct client *cl = l->client;
1271         if (client_get_state(cl) == Client_Idle)
1272         {
1273             if (client_fetch_more(cl))
1274             {
1275                 session_log(se, YLOG_LOG, "%s: more to fetch",
1276                             client_get_id(cl));
1277                 ret = 1;
1278             }
1279             else
1280             {
1281                 session_log(se, YLOG_LOG, "%s: no more to fetch",
1282                             client_get_id(cl));
1283             }
1284         }
1285         else
1286         {
1287             session_log(se, YLOG_LOG, "%s: no fetch due to state=%s",
1288                         client_get_id(cl), client_get_state_str(cl));
1289         }
1290
1291     }
1292     return ret;
1293 }
1294
1295 struct record_cluster **show_range_start(struct session *se,
1296                                          struct reclist_sortparms *sp,
1297                                          int start, int *num, int *total,
1298                                          Odr_int *sumhits, Odr_int *approx_hits,
1299                                          void (*show_records_ready)(void *data),
1300                                          struct http_channel *chan)
1301 {
1302     struct record_cluster **recs = 0;
1303     struct reclist_sortparms *spp;
1304     struct client_list *l;
1305     int i;
1306 #if USE_TIMING
1307     yaz_timing_t t = yaz_timing_create();
1308 #endif
1309     session_enter(se, "show_range_start");
1310     *sumhits = 0;
1311     *approx_hits = 0;
1312     *total = 0;
1313     reclist_limit(se->reclist, se, 0);
1314     if (se->relevance)
1315     {
1316         for (spp = sp; spp; spp = spp->next)
1317             if (spp->type == Metadata_type_relevance)
1318             {
1319                 relevance_prepare_read(se->relevance, se->reclist);
1320                 break;
1321             }
1322         for (l = se->clients_active; l; l = l->next) {
1323             *sumhits += client_get_hits(l->client);
1324             *approx_hits += client_get_approximation(l->client);
1325         }
1326     }
1327     reclist_sort(se->reclist, sp);
1328
1329     reclist_enter(se->reclist);
1330     *total = reclist_get_num_records(se->reclist);
1331
1332     for (l = se->clients_active; l; l = l->next)
1333         client_update_show_stat(l->client, 0);
1334
1335     for (i = 0; i < start; i++)
1336     {
1337         struct record_cluster *r = reclist_read_record(se->reclist);
1338         if (!r)
1339         {
1340             *num = 0;
1341             break;
1342         }
1343         else
1344         {
1345             struct record *rec = r->records;
1346             for (;rec; rec = rec->next)
1347                 client_update_show_stat(rec->client, 1);
1348         }
1349     }
1350     recs = nmem_malloc(se->nmem, (*num > 0 ? *num : 1) * sizeof(*recs));
1351     for (i = 0; i < *num; i++)
1352     {
1353         struct record_cluster *r = reclist_read_record(se->reclist);
1354         if (!r)
1355         {
1356             *num = i;
1357             break;
1358         }
1359         else
1360         {
1361             struct record *rec = r->records;
1362             for (;rec; rec = rec->next)
1363                 client_update_show_stat(rec->client, 1);
1364             recs[i] = r;
1365         }
1366     }
1367     reclist_leave(se->reclist);
1368 #if USE_TIMING
1369     yaz_timing_stop(t);
1370     session_log(se, YLOG_LOG, "show %6.5f %3.2f %3.2f",
1371             yaz_timing_get_real(t), yaz_timing_get_user(t),
1372             yaz_timing_get_sys(t));
1373     yaz_timing_destroy(&t);
1374 #endif
1375
1376     if (!session_fetch_more(se))
1377         session_log(se, YLOG_LOG, "can not fetch more");
1378     else
1379     {
1380         show_range_stop(se, recs);
1381         session_log(se, YLOG_LOG, "fetching more in progress");
1382         if (session_set_watch(se, SESSION_WATCH_SHOW,
1383                               show_records_ready, chan, chan))
1384         {
1385             session_log(se, YLOG_WARN, "Ignoring show block");
1386             session_enter(se, "show_range_start");
1387         }
1388         else
1389         {
1390             session_log(se, YLOG_LOG, "session watch OK");
1391             return 0;
1392         }
1393     }
1394     return recs;
1395 }
1396
1397 void show_range_stop(struct session *se, struct record_cluster **recs)
1398 {
1399     session_leave(se, "show_range_stop");
1400 }
1401
1402 void statistics(struct session *se, struct statistics *stat)
1403 {
1404     struct client_list *l;
1405     int count = 0;
1406
1407     memset(stat, 0, sizeof(*stat));
1408     stat->num_hits = 0;
1409     for (l = se->clients_active; l; l = l->next)
1410     {
1411         struct client *cl = l->client;
1412         if (!client_get_connection(cl))
1413             stat->num_no_connection++;
1414         stat->num_hits += client_get_hits(cl);
1415         switch (client_get_state(cl))
1416         {
1417         case Client_Connecting: stat->num_connecting++; break;
1418         case Client_Working: stat->num_working++; break;
1419         case Client_Idle: stat->num_idle++; break;
1420         case Client_Failed: stat->num_failed++; break;
1421         case Client_Error: stat->num_error++; break;
1422         default: break;
1423         }
1424         count++;
1425     }
1426     stat->num_records = se->total_records;
1427
1428     stat->num_clients = count;
1429 }
1430
1431 static struct record_metadata *record_metadata_init(
1432     NMEM nmem, const char *value, enum conf_metadata_type type,
1433     struct _xmlAttr *attr)
1434 {
1435     struct record_metadata *rec_md = record_metadata_create(nmem);
1436     struct record_metadata_attr **attrp = &rec_md->attributes;
1437
1438     for (; attr; attr = attr->next)
1439     {
1440         if (attr->children && attr->children->content)
1441         {
1442             if (strcmp((const char *) attr->name, "type")
1443                 && strcmp((const char *) attr->name, "empty"))
1444             {  /* skip the "type" + "empty" attribute..
1445                   The "Type" is already part of the element in output
1446                   (md-%s) and so repeating it here is redundant */
1447                 *attrp = nmem_malloc(nmem, sizeof(**attrp));
1448                 (*attrp)->name =
1449                     nmem_strdup(nmem, (const char *) attr->name);
1450                 (*attrp)->value =
1451                     nmem_strdup(nmem, (const char *) attr->children->content);
1452                 attrp = &(*attrp)->next;
1453             }
1454         }
1455     }
1456     *attrp = 0;
1457
1458     switch (type)
1459     {
1460     case Metadata_type_generic:
1461     case Metadata_type_skiparticle:
1462         if (strstr(value, "://")) /* looks like a URL */
1463             rec_md->data.text.disp = nmem_strdup(nmem, value);
1464         else
1465             rec_md->data.text.disp =
1466                 normalize7bit_generic(nmem_strdup(nmem, value), " ,/.:([");
1467         rec_md->data.text.sort = 0;
1468         rec_md->data.text.snippet = 0;
1469         break;
1470     case Metadata_type_year:
1471     case Metadata_type_date:
1472     {
1473         int first, last;
1474         int longdate = 0;
1475
1476         if (type == Metadata_type_date)
1477             longdate = 1;
1478         if (extract7bit_dates((char *) value, &first, &last, longdate) < 0)
1479             return 0;
1480
1481         rec_md->data.number.min = first;
1482         rec_md->data.number.max = last;
1483     }
1484     break;
1485     case Metadata_type_float:
1486         rec_md->data.fnumber = atof(value);
1487         break;
1488     case Metadata_type_relevance:
1489     case Metadata_type_position:
1490         return 0;
1491     }
1492     return rec_md;
1493 }
1494
1495 static void mergekey_norm_wr(pp2_charset_fact_t charsets,
1496                              WRBUF norm_wr, const char *value)
1497 {
1498     const char *norm_str;
1499     pp2_charset_token_t prt =
1500         pp2_charset_token_create(charsets, "mergekey");
1501
1502     pp2_charset_token_first(prt, value, 0);
1503     while ((norm_str = pp2_charset_token_next(prt)))
1504     {
1505         if (*norm_str)
1506         {
1507             if (wrbuf_len(norm_wr))
1508                 wrbuf_puts(norm_wr, " ");
1509             wrbuf_puts(norm_wr, norm_str);
1510         }
1511     }
1512     pp2_charset_token_destroy(prt);
1513 }
1514
1515 static int get_mergekey_from_doc(xmlDoc *doc, xmlNode *root, const char *name,
1516                                  struct conf_service *service, WRBUF norm_wr)
1517 {
1518     xmlNode *n;
1519     int no_found = 0;
1520     for (n = root->children; n; n = n->next)
1521     {
1522         if (n->type != XML_ELEMENT_NODE)
1523             continue;
1524         if (!strcmp((const char *) n->name, "metadata"))
1525         {
1526             xmlChar *type = xmlGetProp(n, (xmlChar *) "type");
1527             if (type == NULL) {
1528                 yaz_log(YLOG_FATAL, "Missing type attribute on metadata element. Skipping!");
1529             }
1530             else if (!strcmp(name, (const char *) type))
1531             {
1532                 xmlChar *value = xmlNodeListGetString(doc, n->children, 1);
1533                 if (value && *value)
1534                 {
1535                     if (wrbuf_len(norm_wr) > 0)
1536                         wrbuf_puts(norm_wr, " ");
1537                     wrbuf_puts(norm_wr, name);
1538                     mergekey_norm_wr(service->charsets, norm_wr,
1539                                      (const char *) value);
1540                     no_found++;
1541                 }
1542                 if (value)
1543                     xmlFree(value);
1544             }
1545             xmlFree(type);
1546         }
1547     }
1548     return no_found;
1549 }
1550
1551 static const char *get_mergekey(xmlDoc *doc, xmlNode *root, 
1552                                 struct client *cl, int record_no,
1553                                 struct conf_service *service, NMEM nmem,
1554                                 const char *session_mergekey)
1555 {
1556     char *mergekey_norm = 0;
1557     WRBUF norm_wr = wrbuf_alloc();
1558     xmlChar *mergekey;
1559
1560     if (session_mergekey)
1561     {
1562         int i, num = 0;
1563         char **values = 0;
1564         nmem_strsplit_escape2(nmem, ",", session_mergekey, &values,
1565                               &num, 1, '\\', 1);
1566
1567         for (i = 0; i < num; i++)
1568             get_mergekey_from_doc(doc, root, values[i], service, norm_wr);
1569     }
1570     else if ((mergekey = xmlGetProp(root, (xmlChar *) "mergekey")))
1571     {
1572         mergekey_norm_wr(service->charsets, norm_wr, (const char *) mergekey);
1573         xmlFree(mergekey);
1574     }
1575     else
1576     {
1577         /* no mergekey defined in XSL. Look for mergekey metadata instead */
1578         int field_id;
1579         for (field_id = 0; field_id < service->num_metadata; field_id++)
1580         {
1581             struct conf_metadata *ser_md = &service->metadata[field_id];
1582             if (ser_md->mergekey != Metadata_mergekey_no)
1583             {
1584                 int r = get_mergekey_from_doc(doc, root, ser_md->name,
1585                                               service, norm_wr);
1586                 if (r == 0 && ser_md->mergekey == Metadata_mergekey_required)
1587                 {
1588                     /* no mergekey on this one and it is required..
1589                        Generate unique key instead */
1590                     wrbuf_rewind(norm_wr);
1591                     break;
1592                 }
1593             }
1594         }
1595     }
1596
1597     /* generate unique key if none is not generated already or is empty */
1598     if (wrbuf_len(norm_wr) == 0)
1599     {
1600         wrbuf_printf(norm_wr, "position: %s-%d",
1601                      client_get_id(cl), record_no);
1602     }
1603     else
1604     {
1605         const char *lead = "content: ";
1606         wrbuf_insert(norm_wr, 0, lead, strlen(lead));
1607     }
1608     if (wrbuf_len(norm_wr) > 0)
1609         mergekey_norm = nmem_strdup(nmem, wrbuf_cstr(norm_wr));
1610     wrbuf_destroy(norm_wr);
1611     return mergekey_norm;
1612 }
1613
1614 /** \brief see if metadata for pz:recordfilter exists
1615     \param root xml root element of normalized record
1616     \param sdb session database for client
1617     \retval 0 if there is no metadata for pz:recordfilter
1618     \retval 1 if there is metadata for pz:recordfilter
1619
1620     If there is no pz:recordfilter defined, this function returns 1
1621     as well.
1622 */
1623
1624 static int check_record_filter(xmlNode *root, struct session_database *sdb)
1625 {
1626     int match = 0;
1627     xmlNode *n;
1628     const char *s;
1629     s = session_setting_oneval(sdb, PZ_RECORDFILTER);
1630
1631     if (!s || !*s)
1632         return 1;
1633
1634     for (n = root->children; n; n = n->next)
1635     {
1636         if (n->type != XML_ELEMENT_NODE)
1637             continue;
1638         if (!strcmp((const char *) n->name, "metadata"))
1639         {
1640             xmlChar *type = xmlGetProp(n, (xmlChar *) "type");
1641             if (type)
1642             {
1643                 size_t len;
1644                 int substring;
1645                 const char *eq;
1646
1647                 if ((eq = strchr(s, '=')))
1648                     substring = 0;
1649                 else if ((eq = strchr(s, '~')))
1650                     substring = 1;
1651                 if (eq)
1652                     len = eq - s;
1653                 else
1654                     len = strlen(s);
1655                 if (len == strlen((const char *)type) &&
1656                     !memcmp((const char *) type, s, len))
1657                 {
1658                     xmlChar *value = xmlNodeGetContent(n);
1659                     if (value && *value)
1660                     {
1661                         if (!eq ||
1662                             (substring && strstr((const char *) value, eq+1)) ||
1663                             (!substring && !strcmp((const char *) value, eq + 1)))
1664                             match = 1;
1665                     }
1666                     xmlFree(value);
1667                 }
1668                 xmlFree(type);
1669             }
1670         }
1671     }
1672     return match;
1673 }
1674
1675 static int ingest_to_cluster(struct client *cl,
1676                              xmlDoc *xdoc,
1677                              xmlNode *root,
1678                              int record_no,
1679                              struct record_metadata_attr *mergekey);
1680
1681 static int ingest_sub_record(struct client *cl, xmlDoc *xdoc, xmlNode *root,
1682                              int record_no, NMEM nmem,
1683                              struct session_database *sdb,
1684                              struct record_metadata_attr *mergekeys)
1685 {
1686     int ret = 0;
1687     struct session *se = client_get_session(cl);
1688     struct conf_service *service = se->service;
1689
1690     insert_settings_values(sdb, xdoc, root, service);
1691
1692     if (!check_record_filter(root, sdb))
1693     {
1694         session_log(se, YLOG_LOG,
1695                     "Filtered out record no %d from %s",
1696                     record_no, sdb->database->id);
1697         return 0;
1698     }
1699     session_enter(se, "ingest_sub_record");
1700     if (client_get_session(cl) == se && se->relevance)
1701         ret = ingest_to_cluster(cl, xdoc, root, record_no, mergekeys);
1702     session_leave(se, "ingest_sub_record");
1703
1704     return ret;
1705 }
1706
1707 /** \brief ingest XML record
1708     \param cl client holds the result set for record
1709     \param rec record buffer (0 terminated)
1710     \param record_no record position (1, 2, ..)
1711     \param nmem working NMEM
1712     \retval 0 OK
1713     \retval -1 failure
1714     \retval -2 Filtered
1715 */
1716 int ingest_record(struct client *cl, const char *rec,
1717                   int record_no, NMEM nmem)
1718 {
1719     struct session *se = client_get_session(cl);
1720     struct session_database *sdb = client_get_database(cl);
1721     struct conf_service *service = se->service;
1722     xmlDoc *xdoc = normalize_record(se, sdb, service, rec, nmem);
1723     int r = 0;
1724     xmlNode *root;
1725
1726     if (!xdoc)
1727         return -1;
1728
1729     if (global_parameters.dump_records)
1730     {
1731         session_log(se, YLOG_LOG, "Normalized record from %s",
1732                     sdb->database->id);
1733         log_xml_doc(xdoc);
1734     }
1735
1736     root = xmlDocGetRootElement(xdoc);
1737
1738     if (!strcmp((const char *) root->name, "cluster"))
1739     {
1740         int no_merge_keys = 0;
1741         int no_merge_dups = 0;
1742         xmlNode *sroot;
1743         struct record_metadata_attr *mk = 0;
1744
1745         for (sroot = root->children; sroot; sroot = sroot->next)
1746             if (sroot->type == XML_ELEMENT_NODE &&
1747                 !strcmp((const char *) sroot->name, "record"))
1748             {
1749                 struct record_metadata_attr **mkp;
1750                 const char *mergekey_norm =
1751                     get_mergekey(xdoc, sroot, cl, record_no, service, nmem,
1752                                  se->mergekey);
1753                 if (!mergekey_norm)
1754                 {
1755                     r = -1;
1756                     break;
1757                 }
1758                 for (mkp = &mk; *mkp; mkp = &(*mkp)->next)
1759                     if (!strcmp((*mkp)->value, mergekey_norm))
1760                         break;
1761                 if (!*mkp)
1762                 {
1763                     *mkp = (struct record_metadata_attr*)
1764                         nmem_malloc(nmem, sizeof(**mkp));
1765                     (*mkp)->name = 0;
1766                     (*mkp)->value = nmem_strdup(nmem, mergekey_norm);
1767                     (*mkp)->next = 0;
1768                     no_merge_keys++;
1769                 }
1770                 else
1771                     no_merge_dups++;
1772             }
1773         if (no_merge_keys > 1 || no_merge_dups > 0)
1774         {
1775             yaz_log(YLOG_LOG, "Got %d mergekeys, %d dups for position %d",
1776                     no_merge_keys, no_merge_dups, record_no);
1777         }
1778         for (sroot = root->children; !r && sroot; sroot = sroot->next)
1779             if (sroot->type == XML_ELEMENT_NODE &&
1780                 !strcmp((const char *) sroot->name, "record"))
1781             {
1782                 r = ingest_sub_record(cl, xdoc, sroot, record_no, nmem, sdb,
1783                                       mk);
1784             }
1785     }
1786     else if (!strcmp((const char *) root->name, "record"))
1787     {
1788         const char *mergekey_norm =
1789             get_mergekey(xdoc, root, cl, record_no, service, nmem,
1790                          se->mergekey);
1791         if (mergekey_norm)
1792         {
1793             struct record_metadata_attr *mk = (struct record_metadata_attr*)
1794                 nmem_malloc(nmem, sizeof(*mk));
1795             mk->name = 0;
1796             mk->value = nmem_strdup(nmem, mergekey_norm);
1797             mk->next = 0;
1798
1799             r = ingest_sub_record(cl, xdoc, root, record_no, nmem, sdb, mk);
1800         }
1801     }
1802     else
1803     {
1804         session_log(se, YLOG_WARN, "Bad pz root element: %s",
1805                     (const char *) root->name);
1806         r = -1;
1807     }
1808     xmlFreeDoc(xdoc);
1809     return r;
1810 }
1811
1812
1813 //    struct conf_metadata *ser_md = &service->metadata[md_field_id];
1814 //    struct record_metadata *rec_md = record->metadata[md_field_id];
1815 static int match_metadata_local(struct conf_service *service,
1816                                 struct conf_metadata *ser_md,
1817                                 struct record_metadata *rec_md0,
1818                                 char **values, int num_v)
1819 {
1820     int i;
1821     struct record_metadata *rec_md = rec_md0;
1822     WRBUF val_wr = 0;
1823     WRBUF text_wr = wrbuf_alloc();
1824     for (i = 0; i < num_v; )
1825     {
1826         if (rec_md)
1827         {
1828             if (ser_md->type == Metadata_type_year
1829                 || ser_md->type == Metadata_type_date)
1830             {
1831                 int y = atoi(values[i]);
1832                 if (y >= rec_md->data.number.min
1833                     && y <= rec_md->data.number.max)
1834                     break;
1835             }
1836             else
1837             {
1838                 if (!val_wr)
1839                 {
1840                     val_wr = wrbuf_alloc();
1841                     mergekey_norm_wr(service->charsets, val_wr, values[i]);
1842                 }
1843                 wrbuf_rewind(text_wr);
1844                 mergekey_norm_wr(service->charsets, text_wr,
1845                                  rec_md->data.text.disp);
1846                 if (!strcmp(wrbuf_cstr(val_wr), wrbuf_cstr(text_wr)))
1847                     break;
1848             }
1849             rec_md = rec_md->next;
1850         }
1851         else
1852         {
1853             rec_md = rec_md0;
1854             wrbuf_destroy(val_wr);
1855             val_wr = 0;
1856             i++;
1857         }
1858     }
1859     wrbuf_destroy(val_wr);
1860     wrbuf_destroy(text_wr);
1861     return i < num_v ? 1 : 0;
1862 }
1863
1864 int session_check_cluster_limit(struct session *se, struct record_cluster *rec)
1865 {
1866     int i;
1867     struct conf_service *service = se->service;
1868     int ret = 1;
1869     const char *name;
1870     const char *value;
1871     NMEM nmem_tmp = nmem_create();
1872
1873     for (i = 0; (name = facet_limits_get(se->facet_limits, i, &value)); i++)
1874     {
1875         int j;
1876         for (j = 0; j < service->num_metadata; j++)
1877         {
1878             struct conf_metadata *md = service->metadata + j;
1879             if (!strcmp(md->name, name) && md->limitcluster)
1880             {
1881                 char **values = 0;
1882                 int num = 0;
1883                 int md_field_id =
1884                     conf_service_metadata_field_id(service,
1885                                                    md->limitcluster);
1886
1887                 if (md_field_id < 0)
1888                 {
1889                     ret = 0;
1890                     break;
1891                 }
1892
1893                 nmem_strsplit_escape2(nmem_tmp, "|", value, &values,
1894                                       &num, 1, '\\', 1);
1895
1896                 if (!match_metadata_local(service,
1897                                           &service->metadata[md_field_id],
1898                                           rec->metadata[md_field_id],
1899                                           values, num))
1900                 {
1901                     ret = 0;
1902                     break;
1903                 }
1904             }
1905         }
1906     }
1907     nmem_destroy(nmem_tmp);
1908     return ret;
1909 }
1910
1911 // Skip record on non-zero
1912 static int check_limit_local(struct client *cl,
1913                              struct record *record,
1914                              int record_no)
1915 {
1916     int skip_record = 0;
1917     struct session *se = client_get_session(cl);
1918     struct conf_service *service = se->service;
1919     NMEM nmem_tmp = nmem_create();
1920     struct session_database *sdb = client_get_database(cl);
1921     int l = 0;
1922     while (!skip_record)
1923     {
1924         int md_field_id;
1925         char **values = 0;
1926         int num_v = 0;
1927         const char *name =
1928             client_get_facet_limit_local(cl, sdb, &l, nmem_tmp,
1929                                          &num_v, &values);
1930         if (!name)
1931             break;
1932
1933         if (!strcmp(name, "*"))
1934         {
1935             for (md_field_id = 0; md_field_id < service->num_metadata;
1936                  md_field_id++)
1937             {
1938                 if (match_metadata_local(
1939                         service,
1940                         &service->metadata[md_field_id],
1941                         record->metadata[md_field_id],
1942                         values, num_v))
1943                     break;
1944             }
1945             if (md_field_id == service->num_metadata)
1946                 skip_record = 1;
1947         }
1948         else
1949         {
1950             md_field_id = conf_service_metadata_field_id(service, name);
1951             if (md_field_id < 0)
1952             {
1953                 skip_record = 1;
1954                 break;
1955             }
1956             if (!match_metadata_local(
1957                     service,
1958                     &service->metadata[md_field_id],
1959                     record->metadata[md_field_id],
1960                     values, num_v))
1961             {
1962                 skip_record = 1;
1963             }
1964         }
1965     }
1966     nmem_destroy(nmem_tmp);
1967     return skip_record;
1968 }
1969
1970 static int ingest_to_cluster(struct client *cl,
1971                              xmlDoc *xdoc,
1972                              xmlNode *root,
1973                              int record_no,
1974                              struct record_metadata_attr *merge_keys)
1975 {
1976     xmlNode *n;
1977     xmlChar *type = 0;
1978     xmlChar *value = 0;
1979     struct session *se = client_get_session(cl);
1980     struct conf_service *service = se->service;
1981     int term_factor = 1;
1982     struct record_cluster *cluster;
1983     struct record_metadata **metadata0;
1984     struct session_database *sdb = client_get_database(cl);
1985     NMEM ingest_nmem = 0;
1986     char **rank_values = 0;
1987     int rank_num = 0;
1988     struct record *record = record_create(se->nmem,
1989                                           service->num_metadata,
1990                                           service->num_sortkeys, cl,
1991                                           record_no);
1992
1993     for (n = root->children; n; n = n->next)
1994     {
1995         if (type)
1996             xmlFree(type);
1997         if (value)
1998             xmlFree(value);
1999         type = value = 0;
2000
2001         if (n->type != XML_ELEMENT_NODE)
2002             continue;
2003         if (!strcmp((const char *) n->name, "metadata"))
2004         {
2005             struct conf_metadata *ser_md = 0;
2006             struct record_metadata **wheretoput = 0;
2007             struct record_metadata *rec_md = 0;
2008             int md_field_id = -1;
2009
2010             type = xmlGetProp(n, (xmlChar *) "type");
2011             value = xmlNodeListGetString(xdoc, n->children, 1);
2012             if (!type)
2013                 continue;
2014             if (!value || !*value)
2015             {
2016                 xmlChar *empty = xmlGetProp(n, (xmlChar *) "empty");
2017                 if (!empty)
2018                     continue;
2019                 if (value)
2020                     xmlFree(value);
2021                 value = empty;
2022             }
2023             md_field_id
2024                 = conf_service_metadata_field_id(service, (const char *) type);
2025             if (md_field_id < 0)
2026             {
2027                 if (se->number_of_warnings_unknown_metadata == 0)
2028                 {
2029                     session_log(se, YLOG_WARN,
2030                             "Ignoring unknown metadata element: %s", type);
2031                 }
2032                 se->number_of_warnings_unknown_metadata++;
2033                 continue;
2034             }
2035
2036             ser_md = &service->metadata[md_field_id];
2037
2038             // non-merged metadata
2039             rec_md = record_metadata_init(se->nmem, (const char *) value,
2040                                           ser_md->type, n->properties);
2041             if (!rec_md)
2042             {
2043                 session_log(se, YLOG_WARN, "bad metadata data '%s' "
2044                             "for element '%s'", value, type);
2045                 continue;
2046             }
2047
2048             if (ser_md->type == Metadata_type_generic)
2049             {
2050                 WRBUF w = wrbuf_alloc();
2051                 if (relevance_snippet(se->relevance,
2052                                       (char*) value, ser_md->name, w))
2053                     rec_md->data.text.snippet = nmem_strdup(se->nmem,
2054                                                             wrbuf_cstr(w));
2055                 wrbuf_destroy(w);
2056             }
2057
2058
2059             wheretoput = &record->metadata[md_field_id];
2060             while (*wheretoput)
2061                 wheretoput = &(*wheretoput)->next;
2062             *wheretoput = rec_md;
2063         }
2064     }
2065
2066     if (check_limit_local(cl, record, record_no))
2067     {
2068         session_log(se, YLOG_LOG, "Facet filtered out record no %d from %s",
2069                     record_no, sdb->database->id);
2070         if (type)
2071             xmlFree(type);
2072         if (value)
2073             xmlFree(value);
2074         return -2;
2075     }
2076     cluster = reclist_insert(se->reclist, se->relevance, service, record,
2077                              merge_keys, &se->total_merged);
2078     if (!cluster)
2079     {
2080         if (type)
2081             xmlFree(type);
2082         if (value)
2083             xmlFree(value);
2084         return 0; // complete match with existing record
2085     }
2086
2087     {
2088         const char *use_term_factor_str =
2089             session_setting_oneval(sdb, PZ_TERMLIST_TERM_FACTOR);
2090         if (use_term_factor_str && use_term_factor_str[0] == '1')
2091         {
2092             int maxrecs = client_get_maxrecs(cl);
2093             int hits = (int) client_get_hits(cl);
2094             term_factor = MAX(hits, maxrecs) /  MAX(1, maxrecs);
2095             assert(term_factor >= 1);
2096             session_log(se, YLOG_DEBUG, "Using term factor: %d (%d / %d)",
2097                         term_factor, MAX(hits, maxrecs), MAX(1, maxrecs));
2098         }
2099     }
2100
2101     if (global_parameters.dump_records)
2102         session_log(se, YLOG_LOG, "Cluster id %s from %s (#%d)", cluster->recid,
2103                     sdb->database->id, record_no);
2104
2105     // original metadata, to check if first existence of a field
2106     metadata0 = xmalloc(sizeof(*metadata0) * service->num_metadata);
2107     memcpy(metadata0, cluster->metadata,
2108            sizeof(*metadata0) * service->num_metadata);
2109
2110     ingest_nmem = nmem_create();
2111     if (se->rank)
2112     {
2113         yaz_log(YLOG_LOG, "local in sort : %s", se->rank);
2114         nmem_strsplit_escape2(ingest_nmem, ",", se->rank, &rank_values,
2115                               &rank_num, 1, '\\', 1);
2116     }
2117
2118     // now parsing XML record and adding data to cluster or record metadata
2119     for (n = root->children; n; n = n->next)
2120     {
2121         pp2_charset_token_t prt;
2122         if (type)
2123             xmlFree(type);
2124         if (value)
2125             xmlFree(value);
2126         type = value = 0;
2127
2128         if (n->type != XML_ELEMENT_NODE)
2129             continue;
2130         if (!strcmp((const char *) n->name, "metadata"))
2131         {
2132             struct conf_metadata *ser_md = 0;
2133             struct conf_sortkey *ser_sk = 0;
2134             struct record_metadata **wheretoput = 0;
2135             struct record_metadata *rec_md = 0;
2136             int md_field_id = -1;
2137             int sk_field_id = -1;
2138             const char *rank = 0;
2139             xmlChar *xml_rank = 0;
2140
2141             type = xmlGetProp(n, (xmlChar *) "type");
2142             value = xmlNodeListGetString(xdoc, n->children, 1);
2143
2144             if (!type || !value || !*value)
2145                 continue;
2146
2147             md_field_id
2148                 = conf_service_metadata_field_id(service, (const char *) type);
2149             if (md_field_id < 0)
2150                 continue;
2151
2152             ser_md = &service->metadata[md_field_id];
2153
2154             if (ser_md->sortkey_offset >= 0)
2155             {
2156                 sk_field_id = ser_md->sortkey_offset;
2157                 ser_sk = &service->sortkeys[sk_field_id];
2158             }
2159
2160             // merged metadata
2161             rec_md = record_metadata_init(se->nmem, (const char *) value,
2162                                           ser_md->type, 0);
2163
2164             // see if the field was not in cluster already (from beginning)
2165
2166             if (!rec_md)
2167                 continue;
2168
2169             if (rank_num)
2170             {
2171                 int i;
2172                 for (i = 0; i < rank_num; i++)
2173                 {
2174                     const char *val = rank_values[i];
2175                     const char *cp = strchr(val, '=');
2176                     if (!cp)
2177                         continue;
2178                     if ((cp - val) == strlen((const char *) type)
2179                         && !memcmp(val, type, cp - val))
2180                     {
2181                         rank = cp + 1;
2182                         break;
2183                     }
2184                 }
2185             }
2186             else
2187             {
2188                 xml_rank = xmlGetProp(n, (xmlChar *) "rank");
2189                 rank = xml_rank ? (const char *) xml_rank : ser_md->rank;
2190             }
2191
2192             wheretoput = &cluster->metadata[md_field_id];
2193
2194             if (ser_md->merge == Metadata_merge_first)
2195             {
2196                 if (!metadata0[md_field_id])
2197                 {
2198                     while (*wheretoput)
2199                         wheretoput = &(*wheretoput)->next;
2200                     *wheretoput = rec_md;
2201                 }
2202             }
2203             else if (ser_md->merge == Metadata_merge_unique)
2204             {
2205                 while (*wheretoput)
2206                 {
2207                     if (!strcmp((const char *) (*wheretoput)->data.text.disp,
2208                                 rec_md->data.text.disp))
2209                         break;
2210                     wheretoput = &(*wheretoput)->next;
2211                 }
2212                 if (!*wheretoput)
2213                     *wheretoput = rec_md;
2214             }
2215             else if (ser_md->merge == Metadata_merge_longest)
2216             {
2217                 if (!*wheretoput
2218                     || strlen(rec_md->data.text.disp)
2219                     > strlen((*wheretoput)->data.text.disp))
2220                 {
2221                     *wheretoput = rec_md;
2222                     if (ser_sk)
2223                     {
2224                         const char *sort_str = 0;
2225                         int skip_article =
2226                             ser_sk->type == Metadata_type_skiparticle;
2227
2228                         if (!cluster->sortkeys[sk_field_id])
2229                             cluster->sortkeys[sk_field_id] =
2230                                 nmem_malloc(se->nmem,
2231                                             sizeof(union data_types));
2232
2233                         prt =
2234                             pp2_charset_token_create(service->charsets, "sort");
2235
2236                         pp2_charset_token_first(prt, rec_md->data.text.disp,
2237                                                 skip_article);
2238
2239                         pp2_charset_token_next(prt);
2240
2241                         sort_str = pp2_get_sort(prt);
2242
2243                         cluster->sortkeys[sk_field_id]->text.disp =
2244                             rec_md->data.text.disp;
2245                         if (!sort_str)
2246                         {
2247                             sort_str = rec_md->data.text.disp;
2248                             session_log(se, YLOG_WARN,
2249                                     "Could not make sortkey. Bug #1858");
2250                         }
2251                         cluster->sortkeys[sk_field_id]->text.sort =
2252                             nmem_strdup(se->nmem, sort_str);
2253                         pp2_charset_token_destroy(prt);
2254                     }
2255                 }
2256             }
2257             else if (ser_md->merge == Metadata_merge_all)
2258             {
2259                 while (*wheretoput)
2260                     wheretoput = &(*wheretoput)->next;
2261                 *wheretoput = rec_md;
2262             }
2263             else if (ser_md->merge == Metadata_merge_range)
2264             {
2265                 if (!*wheretoput)
2266                 {
2267                     *wheretoput = rec_md;
2268                     if (ser_sk)
2269                         cluster->sortkeys[sk_field_id]
2270                             = &rec_md->data;
2271                 }
2272                 else
2273                 {
2274                     int this_min = rec_md->data.number.min;
2275                     int this_max = rec_md->data.number.max;
2276                     if (this_min < (*wheretoput)->data.number.min)
2277                         (*wheretoput)->data.number.min = this_min;
2278                     if (this_max > (*wheretoput)->data.number.max)
2279                         (*wheretoput)->data.number.max = this_max;
2280                 }
2281             }
2282
2283             // ranking of _all_ fields enabled ...
2284             if (rank)
2285             {
2286                 relevance_countwords(se->relevance, cluster,
2287                                      (char *) value, rank, ser_md->name);
2288             }
2289             // construct facets ... unless the client already has reported them
2290             if (ser_md->termlist && !client_has_facet(cl, (char *) type))
2291             {
2292                 if (ser_md->type == Metadata_type_year)
2293                 {
2294                     char year[64];
2295                     sprintf(year, "%d", rec_md->data.number.max);
2296
2297                     add_facet(se, (char *) type, year, term_factor);
2298                     if (rec_md->data.number.max != rec_md->data.number.min)
2299                     {
2300                         sprintf(year, "%d", rec_md->data.number.min);
2301                         add_facet(se, (char *) type, year, term_factor);
2302                     }
2303                 }
2304                 else
2305                     add_facet(se, (char *) type, (char *) value, term_factor);
2306             }
2307
2308             // cleaning up
2309             if (xml_rank)
2310                 xmlFree(xml_rank);
2311             xmlFree(type);
2312             xmlFree(value);
2313             type = value = 0;
2314         }
2315         else
2316         {
2317             if (se->number_of_warnings_unknown_elements == 0)
2318                 session_log(se, YLOG_WARN,
2319                         "Unexpected element in internal record: %s", n->name);
2320             se->number_of_warnings_unknown_elements++;
2321         }
2322     }
2323     if (type)
2324         xmlFree(type);
2325     if (value)
2326         xmlFree(value);
2327
2328     nmem_destroy(ingest_nmem);
2329     xfree(metadata0);
2330     relevance_donerecord(se->relevance, cluster);
2331     se->total_records++;
2332
2333     return 0;
2334 }
2335
2336 void session_log(struct session *s, int level, const char *fmt, ...)
2337 {
2338     char buf[1024];
2339     va_list ap;
2340     va_start(ap, fmt);
2341
2342     yaz_vsnprintf(buf, sizeof(buf)-30, fmt, ap);
2343     yaz_log(level, "Session %u: %s", s ? s->session_id : 0, buf);
2344
2345     va_end(ap);
2346 }
2347
2348 /*
2349  * Local variables:
2350  * c-basic-offset: 4
2351  * c-file-style: "Stroustrup"
2352  * indent-tabs-mode: nil
2353  * End:
2354  * vim: shiftwidth=4 tabstop=8 expandtab
2355  */
2356