projects / simpleserver-moved-to-github.git / blob
? search:
summary | shortlog | log | commit | commitdiff | tree
history | raw | HEAD
EXTRA_RESPONSE_DATA for search+scan.
[simpleserver-moved-to-github.git] / SimpleServer.xs
1 /* This file is part of simpleserver.
2  * Copyright (C) 2000-2013 Index Data.
3  * All rights reserved.
4  * Redistribution and use in source and binary forms, with or without
5  * modification, are permitted provided that the following conditions are met:
6  *
7  *     * Redistributions of source code must retain the above copyright
8  *       notice, this list of conditions and the following disclaimer.
9  *     * Redistributions in binary form must reproduce the above copyright
10  *       notice, this list of conditions and the following disclaimer in the
11  *       documentation and/or other materials provided with the distribution.
12  *     * Neither the name of Index Data nor the names of its contributors
13  *       may be used to endorse or promote products derived from this
14  *       software without specific prior written permission.
15  *
16  * THIS SOFTWARE IS PROVIDED BY THE REGENTS AND CONTRIBUTORS ``AS IS'' AND ANY
17  * EXPRESS OR IMPLIED WARRANTIES, INCLUDING, BUT NOT LIMITED TO, THE IMPLIED
18  * WARRANTIES OF MERCHANTABILITY AND FITNESS FOR A PARTICULAR PURPOSE ARE
19  * DISCLAIMED. IN NO EVENT SHALL THE REGENTS AND CONTRIBUTORS BE LIABLE FOR ANY
20  * DIRECT, INDIRECT, INCIDENTAL, SPECIAL, EXEMPLARY, OR CONSEQUENTIAL DAMAGES
21  * (INCLUDING, BUT NOT LIMITED TO, PROCUREMENT OF SUBSTITUTE GOODS OR SERVICES;
22  * LOSS OF USE, DATA, OR PROFITS; OR BUSINESS INTERRUPTION) HOWEVER CAUSED AND
23  * ON ANY THEORY OF LIABILITY, WHETHER IN CONTRACT, STRICT LIABILITY, OR TORT
24  * (INCLUDING NEGLIGENCE OR OTHERWISE) ARISING IN ANY WAY OUT OF THE USE OF
25  * THIS SOFTWARE, EVEN IF ADVISED OF THE POSSIBILITY OF SUCH DAMAGE.
26  */
27
28 #include "EXTERN.h"
29 #include "perl.h"
30 #include "proto.h"
31 #include "embed.h"
32 #include "XSUB.h"
33 #include <assert.h>
34 #include <yaz/backend.h>
35 #include <yaz/facet.h>
36 #include <yaz/log.h>
37 #include <yaz/wrbuf.h>
38 #include <yaz/pquery.h>
39 #include <yaz/querytowrbuf.h>
40 #include <stdio.h>
41 #include <yaz/mutex.h>
42 #include <yaz/oid_db.h>
43 #include <yaz/yaz-version.h>
44 #ifdef WIN32
45 #else
46 #include <unistd.h>
47 #endif
48 #include <stdlib.h>
49 #include <ctype.h>
50 #define GRS_MAX_FIELDS 500
51 #ifdef ASN_COMPILED
52 #include <yaz/ill.h>
53 #endif
54 #ifndef sv_undef                /* To fix the problem with Perl 5.6.0 */
55 #define sv_undef PL_sv_undef
56 #endif
57
58 YAZ_MUTEX simpleserver_mutex;
59
60 typedef struct {
61         SV *ghandle;    /* Global handle specified at creation */
62         SV *handle;     /* Per-connection handle set at Init */
63         NMEM nmem;
64         int stop_flag;  /* is used to stop server prematurely .. */
65 } Zfront_handle;
66
67 #define ENABLE_STOP_SERVER 0
68
69 SV *_global_ghandle = NULL; /* To be copied into zhandle then ignored */
70 SV *init_ref = NULL;
71 SV *close_ref = NULL;
72 SV *sort_ref = NULL;
73 SV *search_ref = NULL;
74 SV *fetch_ref = NULL;
75 SV *present_ref = NULL;
76 SV *esrequest_ref = NULL;
77 SV *delete_ref = NULL;
78 SV *scan_ref = NULL;
79 SV *explain_ref = NULL;
80 SV *start_ref = NULL;
81 PerlInterpreter *root_perl_context;
82
83 #define GRS_BUF_SIZE 8192
84
85
86 /*
87  * Inspects the SV indicated by svp, and returns a null pointer if
88  * it's an undefined value, or a string allocation from `stream'
89  * otherwise.  Using this when filling in addinfo avoids those
90  * irritating "Use of uninitialized value in subroutine entry"
91  * warnings from Perl.
92  */
93 char *string_or_undef(SV **svp, ODR stream) {
94         STRLEN len;
95         char *ptr;
96
97         if (!SvOK(*svp))
98                 return 0;
99
100         ptr = SvPV(*svp, len);
101         return odr_strdupn(stream, ptr, len);
102 }
103
104
105 CV * simpleserver_sv2cv(SV *handler) {
106     STRLEN len;
107     char *buf;
108
109     if (SvPOK(handler)) {
110         CV *ret;
111         buf = SvPV( handler, len);
112         if ( !( ret = perl_get_cv(buf, FALSE ) ) ) {
113             fprintf( stderr, "simpleserver_sv2cv: No such handler '%s'\n\n", buf );
114             exit(1);
115         }
116
117         return ret;
118     } else {
119         return (CV *) handler;
120     }
121 }
122
123 /* debugging routine to check for destruction of Perl interpreters */
124 #ifdef USE_ITHREADS
125 void tst_clones(void)
126 {
127     int i;
128     PerlInterpreter *parent = PERL_GET_CONTEXT;
129     for (i = 0; i<5000; i++)
130     {
131         PerlInterpreter *perl_interp;
132
133         PERL_SET_CONTEXT(parent);
134         PL_perl_destruct_level = 2;
135         perl_interp = perl_clone(parent, CLONEf_CLONE_HOST);
136         PL_perl_destruct_level = 2;
137         PERL_SET_CONTEXT(perl_interp);
138         perl_destruct(perl_interp);
139         perl_free(perl_interp);
140     }
141     exit (0);
142 }
143 #endif
144
145 int simpleserver_clone(void) {
146 #ifdef USE_ITHREADS
147      yaz_mutex_enter(simpleserver_mutex);
148      if (1)
149      {
150          PerlInterpreter *current = PERL_GET_CONTEXT;
151
152          /* if current is unset, then we're in a new thread with
153           * no Perl interpreter for it. So we must create one .
154           * This will only happen when threaded is used..
155           */
156          if (!current) {
157              PerlInterpreter *perl_interp;
158              PERL_SET_CONTEXT( root_perl_context );
159              perl_interp = perl_clone(root_perl_context, CLONEf_CLONE_HOST);
160              PERL_SET_CONTEXT( perl_interp );
161          }
162      }
163      yaz_mutex_leave(simpleserver_mutex);
164 #endif
165      return 0;
166 }
167
168
169 void simpleserver_free(void) {
170     yaz_mutex_enter(simpleserver_mutex);
171     if (1)
172     {
173         PerlInterpreter *current_interp = PERL_GET_CONTEXT;
174
175         /* If current Perl Interp is different from root interp, then
176          * we're in threaded mode and we must destroy..
177          */
178         if (current_interp != root_perl_context) {
179             PL_perl_destruct_level = 2;
180             PERL_SET_CONTEXT(current_interp);
181             perl_destruct(current_interp);
182             perl_free(current_interp);
183         }
184     }
185     yaz_mutex_leave(simpleserver_mutex);
186 }
187
188
189 Z_GenericRecord *read_grs1(char *str, ODR o)
190 {
191         int type, ivalue;
192         char line[GRS_BUF_SIZE+1], *buf, *ptr, *original;
193         char value[GRS_BUF_SIZE+1];
194         Z_GenericRecord *r = 0;
195
196         original = str;
197         r = (Z_GenericRecord *)odr_malloc(o, sizeof(*r));
198         r->elements = (Z_TaggedElement **)
199                 odr_malloc(o, sizeof(Z_TaggedElement*) * GRS_MAX_FIELDS);
200         r->num_elements = 0;
201
202         for (;;)
203         {
204                 Z_TaggedElement *t;
205                 Z_ElementData *c;
206                 int len;
207
208                 ptr = strchr(str, '\n');
209                 if (!ptr) {
210                         return r;
211                 }
212                 len = ptr - str;
213                 if (len > GRS_BUF_SIZE) {
214                     yaz_log(YLOG_WARN, "GRS string too long - truncating (%d > %d)", len, GRS_BUF_SIZE);
215                     len = GRS_BUF_SIZE;
216                 }
217                 strncpy(line, str, len);
218                 line[len] = 0;
219                 buf = line;
220                 str = ptr + 1;
221                 while (*buf && isspace(*buf))
222                         buf++;
223                 if (*buf == '}') {
224                         memmove(original, str, strlen(str));
225                         return r;
226                 }
227                 if (sscanf(buf, "(%d,%[^)])", &type, value) != 2)
228                 {
229                         yaz_log(YLOG_WARN, "Bad data in '%s'", buf);
230                         return r;
231                 }
232                 if (!type && *value == '0')
233                         return r;
234                 if (!(buf = strchr(buf, ')')))
235                         return r;
236                 buf++;
237                 while (*buf && isspace(*buf))
238                         buf++;
239                 if (r->num_elements >= GRS_MAX_FIELDS)
240                 {
241                         yaz_log(YLOG_WARN, "Max number of GRS-1 elements exceeded [GRS_MAX_FIELDS=%d]", GRS_MAX_FIELDS);
242                         exit(0);
243                 }
244                 r->elements[r->num_elements] = t = (Z_TaggedElement *)
245                         odr_malloc(o, sizeof(Z_TaggedElement));
246                 t->tagType = odr_intdup(o, type);
247                 t->tagValue = (Z_StringOrNumeric *)
248                         odr_malloc(o, sizeof(Z_StringOrNumeric));
249                 if ((ivalue = atoi(value)))
250                 {
251                         t->tagValue->which = Z_StringOrNumeric_numeric;
252                         t->tagValue->u.numeric = odr_intdup(o, ivalue);
253                 }
254                 else
255                 {
256                         t->tagValue->which = Z_StringOrNumeric_string;
257                         t->tagValue->u.string = odr_strdup(o, value);
258                 }
259                 t->tagOccurrence = 0;
260                 t->metaData = 0;
261                 t->appliedVariant = 0;
262                 t->content = c = (Z_ElementData *)
263                         odr_malloc(o, sizeof(Z_ElementData));
264                 if (*buf == '{')
265                 {
266                         c->which = Z_ElementData_subtree;
267                         c->u.subtree = read_grs1(str, o);
268                 }
269                 else
270                 {
271                         c->which = Z_ElementData_string;
272                         c->u.string = odr_strdup(o, buf);
273                 }
274                 r->num_elements++;
275         }
276 }
277
278
279
280 static void oid2str(Odr_oid *o, WRBUF buf)
281 {
282     for (; *o >= 0; o++) {
283         char ibuf[16];
284         sprintf(ibuf, "%d", *o);
285         wrbuf_puts(buf, ibuf);
286         if (o[1] > 0)
287             wrbuf_putc(buf, '.');
288     }
289 }
290
291 WRBUF oid2dotted(Odr_oid *oid)
292 {
293     WRBUF buf = wrbuf_alloc();
294     oid2str(oid, buf);
295     return buf;
296 }
297
298
299 WRBUF zquery2pquery(Z_Query *q)
300 {
301     WRBUF buf = wrbuf_alloc();
302
303     if (q->which != Z_Query_type_1 && q->which != Z_Query_type_101)
304         return 0;
305     yaz_rpnquery_to_wrbuf(buf, q->u.type_1);
306     return buf;
307 }
308
309
310 /* Lifted verbatim from Net::Z3950 yazwrap/util.c */
311 #include <stdarg.h>
312 void fatal(char *fmt, ...)
313 {
314     va_list ap;
315
316     fprintf(stderr, "FATAL (SimpleServer): ");
317     va_start(ap, fmt);
318     vfprintf(stderr, fmt, ap);
319     va_end(ap);
320     fprintf(stderr, "\n");
321     abort();
322 }
323
324
325 /* Lifted verbatim from Net::Z3950 yazwrap/receive.c */
326 /*
327  * Creates a new Perl object of type `class'; the newly-created scalar
328  * that is a reference to the blessed thingy `referent' is returned.
329  */
330 static SV *newObject(char *class, SV *referent)
331 {
332     HV *stash;
333     SV *sv;
334
335     sv = newRV_noinc((SV*) referent);
336     stash = gv_stashpv(class, 0);
337     if (stash == 0)
338         fatal("attempt to create object of undefined class '%s'", class);
339     /*assert(stash != 0);*/
340     sv_bless(sv, stash);
341     return sv;
342 }
343
344
345 /* Lifted verbatim from Net::Z3950 yazwrap/receive.c */
346 static void setMember(HV *hv, char *name, SV *val)
347 {
348     /* We don't increment `val's reference count -- I think this is
349      * right because it's created with a refcount of 1, and in fact
350      * the reference via this hash is the only reference to it in
351      * general.
352      */
353     if (!hv_store(hv, name, (U32) strlen(name), val, (U32) 0))
354         fatal("couldn't store member in hash");
355 }
356
357
358 /* Lifted verbatim from Net::Z3950 yazwrap/receive.c */
359 static SV *translateOID(Odr_oid *x)
360 {
361     /* Yaz represents an OID by an int array terminated by a negative
362      * value, typically -1; we represent it as a reference to a
363      * blessed scalar string of "."-separated elements.
364      */
365     char buf[1000];
366     int i;
367
368     *buf = '\0';
369     for (i = 0; x[i] >= 0; i++) {
370         sprintf(buf + strlen(buf), "%d", (int) x[i]);
371         if (x[i+1] >- 0)
372             strcat(buf, ".");
373     }
374
375     /*
376      * ### We'd like to return a blessed scalar (string) here, but of
377      *  course you can't do that in Perl: only references can be
378      *  blessed, so we'd have to return a _reference_ to a string, and
379      *  bless _that_.  Better to do without the blessing, I think.
380      */
381     if (1) {
382         return newSVpv(buf, 0);
383     } else {
384         return newObject("Net::Z3950::APDU::OID", newSVpv(buf, 0));
385     }
386 }
387
388 static SV *attributes2perl(Z_AttributeList *list)
389 {
390     AV *av;
391         int i;
392         SV *attrs = newObject("Net::Z3950::RPN::Attributes",
393                               (SV*) (av = newAV()));
394         for (i = 0; i < list->num_attributes; i++) {
395             Z_AttributeElement *elem = list->attributes[i];
396             HV *hv2;
397             SV *tmp = newObject("Net::Z3950::RPN::Attribute",
398                                 (SV*) (hv2 = newHV()));
399             if (elem->attributeSet)
400                 setMember(hv2, "attributeSet",
401                           translateOID(elem->attributeSet));
402             setMember(hv2, "attributeType",
403                       newSViv(*elem->attributeType));
404             if (elem->which == Z_AttributeValue_numeric) {
405                 setMember(hv2, "attributeValue",
406                           newSViv(*elem->value.numeric));
407             } else {
408                 Z_ComplexAttribute *c;
409                 Z_StringOrNumeric *son;
410                 assert(elem->which == Z_AttributeValue_complex);
411                 c = elem->value.complex;
412                 /* We ignore semantic actions and multiple values */
413                 assert(c->num_list > 0);
414                 son = c->list[0];
415                 if (son->which == Z_StringOrNumeric_numeric) {
416                     setMember(hv2, "attributeValue",
417                               newSViv(*son->u.numeric));
418                 } else { /*Z_StringOrNumeric_string*/
419                     setMember(hv2, "attributeValue",
420                               newSVpv(son->u.string, 0));
421                 }
422             }
423             av_push(av, tmp);
424         }
425         return attrs;
426 }
427
428 static SV *f_Term_to_SV(Z_Term *term, Z_AttributeList *attributes)
429 {
430         HV *hv;
431         SV *sv = newObject("Net::Z3950::RPN::Term", (SV*) (hv = newHV()));
432
433         if (term->which != Z_Term_general)
434                 fatal("can't handle RPN terms other than general");
435
436         setMember(hv, "term", newSVpv((char*) term->u.general->buf,
437                                   term->u.general->len));
438
439         if (attributes) {
440                 setMember(hv, "attributes", attributes2perl(attributes));
441         }
442         return sv;
443 }
444
445 static SV *rpn2perl(Z_RPNStructure *s)
446 {
447     SV *sv;
448     HV *hv;
449     AV *av;
450     Z_Operand *o;
451
452     switch (s->which) {
453     case Z_RPNStructure_simple:
454         o = s->u.simple;
455         switch (o->which) {
456         case Z_Operand_resultSetId: {
457             /* This code causes a SIGBUS on my machine, and I have no
458                idea why.  It seems as clear as day to me */
459             SV *sv2;
460             char *rsid = (char*) o->u.resultSetId;
461             /*printf("Encoding resultSetId '%s'\n", rsid);*/
462             sv = newObject("Net::Z3950::RPN::RSID", (SV*) (hv = newHV()));
463             /*printf("Made sv=0x%lx, hv=0x%lx\n", (unsigned long) sv ,(unsigned long) hv);*/
464             sv2 = newSVpv(rsid, strlen(rsid));
465             setMember(hv, "id", sv2);
466             /*printf("Set hv{id} to 0x%lx\n", (unsigned long) sv2);*/
467             return sv;
468         }
469
470         case  Z_Operand_APT:
471             return f_Term_to_SV(o->u.attributesPlusTerm->term,
472                         o->u.attributesPlusTerm->attributes);
473         default:
474             fatal("unknown RPN simple type %d", (int) o->which);
475         }
476
477     case Z_RPNStructure_complex: {
478         SV *tmp;
479         Z_Complex *c = s->u.complex;
480         char *type = 0;         /* vacuous assignment satisfies gcc -Wall */
481         switch (c->roperator->which) {
482         case Z_Operator_and:     type = "Net::Z3950::RPN::And";    break;
483         case Z_Operator_or:      type = "Net::Z3950::RPN::Or";     break;
484         case Z_Operator_and_not: type = "Net::Z3950::RPN::AndNot"; break;
485         case Z_Operator_prox:    fatal("proximity not yet supported");
486         default: fatal("unknown RPN operator %d", (int) c->roperator->which);
487         }
488         sv = newObject(type, (SV*) (av = newAV()));
489         if ((tmp = rpn2perl(c->s1)) == 0)
490             return 0;
491         av_push(av, tmp);
492         if ((tmp = rpn2perl(c->s2)) == 0)
493             return 0;
494         av_push(av, tmp);
495         return sv;
496     }
497
498     default:
499         fatal("unknown RPN node type %d", (int) s->which);
500     }
501
502     return 0;
503 }
504
505
506 /* Decode the Z_SortAttributes struct and store the whole thing into the
507  * hash by reference
508  */
509 int simpleserver_ExpandSortAttributes (HV *sort_spec, Z_SortAttributes *sattr)
510 {
511     WRBUF attrset_wr = wrbuf_alloc();
512     AV *list = newAV();
513     Z_AttributeList *attr_list = sattr->list;
514     int i;
515
516     oid2str(sattr->id, attrset_wr);
517     hv_store(sort_spec, "ATTRSET", 7,
518              newSVpv(attrset_wr->buf, attrset_wr->pos), 0);
519     wrbuf_destroy(attrset_wr);
520
521     hv_store(sort_spec, "SORT_ATTR", 9, newRV( sv_2mortal( (SV*) list ) ), 0);
522
523     for (i = 0; i < attr_list->num_attributes; i++)
524     {
525         Z_AttributeElement *attr = *attr_list->attributes++;
526         HV *attr_spec = newHV();
527
528         av_push(list, newRV( sv_2mortal( (SV*) attr_spec ) ));
529         hv_store(attr_spec, "ATTR_TYPE", 9, newSViv(*attr->attributeType), 0);
530
531         if (attr->which == Z_AttributeValue_numeric)
532         {
533             hv_store(attr_spec, "ATTR_VALUE", 10,
534                      newSViv(*attr->value.numeric), 0);
535         } else {
536             return 0;
537         }
538     }
539
540     return 1;
541 }
542
543
544 /* Decode the Z_SortKeySpec struct and store the whole thing in a perl hash */
545 int simpleserver_SortKeySpecToHash (HV *sort_spec, Z_SortKeySpec *spec)
546 {
547     Z_SortElement *element = spec->sortElement;
548
549     hv_store(sort_spec, "RELATION", 8, newSViv(*spec->sortRelation), 0);
550     hv_store(sort_spec, "CASE", 4, newSViv(*spec->caseSensitivity), 0);
551     hv_store(sort_spec, "MISSING", 7, newSViv(spec->which), 0);
552
553     if (element->which == Z_SortElement_generic)
554     {
555         Z_SortKey *key = element->u.generic;
556
557         if (key->which == Z_SortKey_sortField)
558         {
559             hv_store(sort_spec, "SORTFIELD", 9,
560                      newSVpv((char *) key->u.sortField, 0), 0);
561         }
562         else if (key->which == Z_SortKey_elementSpec)
563         {
564             Z_Specification *zspec = key->u.elementSpec;
565
566             hv_store(sort_spec, "ELEMENTSPEC_TYPE", 16,
567                      newSViv(zspec->which), 0);
568
569             if (zspec->which == Z_Schema_oid)
570             {
571                 WRBUF elementSpec = wrbuf_alloc();
572
573                 oid2str(zspec->schema.oid, elementSpec);
574                 hv_store(sort_spec, "ELEMENTSPEC_VALUE", 17,
575                          newSVpv(elementSpec->buf, elementSpec->pos), 0);
576                 wrbuf_destroy(elementSpec);
577             }
578             else if (zspec->which == Z_Schema_uri)
579             {
580                 hv_store(sort_spec, "ELEMENTSPEC_VALUE", 17,
581                          newSVpv((char *) zspec->schema.uri, 0), 0);
582             }
583         }
584         else if (key->which == Z_SortKey_sortAttributes)
585         {
586             return simpleserver_ExpandSortAttributes(sort_spec,
587                                                      key->u.sortAttributes);
588         }
589         else
590         {
591             return 0;
592         }
593     }
594     else
595     {
596         return 0;
597     }
598
599     return 1;
600 }
601
602
603 static SV *zquery2perl(Z_Query *q)
604 {
605     SV *sv;
606     HV *hv;
607
608     if (q->which != Z_Query_type_1 && q->which != Z_Query_type_101)
609         return 0;
610     sv = newObject("Net::Z3950::APDU::Query", (SV*) (hv = newHV()));
611     if (q->u.type_1->attributeSetId)
612         setMember(hv, "attributeSet",
613                   translateOID(q->u.type_1->attributeSetId));
614     setMember(hv, "query", rpn2perl(q->u.type_1->RPNStructure));
615     return sv;
616 }
617
618
619 int bend_sort(void *handle, bend_sort_rr *rr)
620 {
621         HV *href;
622         AV *aref;
623         AV *sort_seq;
624         SV **temp;
625         SV *err_code;
626         SV *err_str;
627         SV *status;
628         SV *point;
629         STRLEN len;
630         char *ptr;
631         char **input_setnames;
632         Zfront_handle *zhandle = (Zfront_handle *)handle;
633         Z_SortKeySpecList *sort_spec = rr->sort_sequence;
634         int i;
635
636         dSP;
637         ENTER;
638         SAVETMPS;
639
640         aref = newAV();
641         input_setnames = rr->input_setnames;
642         for (i = 0; i < rr->num_input_setnames; i++)
643         {
644             av_push(aref, newSVpv(*input_setnames++, 0));
645         }
646
647         sort_seq = newAV();
648         for (i = 0; i < sort_spec->num_specs; i++)
649         {
650             Z_SortKeySpec *spec = *sort_spec->specs++;
651             HV *sort_spec = newHV();
652
653             if ( simpleserver_SortKeySpecToHash(sort_spec, spec) )
654                 av_push(sort_seq, newRV( sv_2mortal( (SV*) sort_spec ) ));
655             else
656             {
657                 rr->errcode = 207;
658                 return 0;
659             }
660         }
661
662         href = newHV();
663         hv_store(href, "INPUT", 5, newRV( (SV*) aref), 0);
664         hv_store(href, "OUTPUT", 6, newSVpv(rr->output_setname, 0), 0);
665         hv_store(href, "SEQUENCE", 8, newRV( (SV*) sort_seq), 0);
666         hv_store(href, "GHANDLE", 7, newSVsv(zhandle->ghandle), 0);
667         hv_store(href, "HANDLE", 6, zhandle->handle, 0);
668         hv_store(href, "STATUS", 6, newSViv(0), 0);
669         hv_store(href, "ERR_CODE", 8, newSViv(0), 0);
670         hv_store(href, "ERR_STR", 7, newSVpv("", 0), 0);
671
672         PUSHMARK(sp);
673
674         XPUSHs(sv_2mortal(newRV( (SV*) href)));
675
676         PUTBACK;
677
678         perl_call_sv(sort_ref, G_SCALAR | G_DISCARD);
679
680         SPAGAIN;
681
682         temp = hv_fetch(href, "ERR_CODE", 8, 1);
683         err_code = newSVsv(*temp);
684
685         temp = hv_fetch(href, "ERR_STR", 7, 1);
686         err_str = newSVsv(*temp);
687
688         temp = hv_fetch(href, "STATUS", 6, 1);
689         status = newSVsv(*temp);
690
691         temp = hv_fetch(href, "HANDLE", 6, 1);
692         point = newSVsv(*temp);
693
694         hv_undef(href);
695         av_undef(aref);
696         av_undef(sort_seq);
697
698         sv_free( (SV*) aref);
699         sv_free( (SV*) href);
700         sv_free( (SV*) sort_seq);
701
702         rr->errcode = SvIV(err_code);
703         rr->sort_status = SvIV(status);
704
705         ptr = SvPV(err_str, len);
706         rr->errstring = odr_strdupn(rr->stream, ptr, len);
707         zhandle->handle = point;
708
709         sv_free(err_code);
710         sv_free(err_str);
711         sv_free(status);
712
713         PUTBACK;
714         FREETMPS;
715         LEAVE;
716
717         return 0;
718 }
719
720 static SV *f_FacetField_to_SV(Z_FacetField *facet_field)
721 {
722         HV *hv;
723         AV *av;
724         SV *terms;
725         int i;
726         SV *sv = newObject("Net::Z3950::FacetField", (SV *) (hv = newHV()));
727         if (facet_field->attributes) {
728                 setMember(hv, "attributes",
729                      attributes2perl(facet_field->attributes));
730         }
731         terms = newObject("Net::Z3950::FacetTerms", (SV *) (av = newAV()));
732
733         for (i = 0; i < facet_field->num_terms; i++) {
734             Z_Term *z_term = facet_field->terms[i]->term;
735             HV *hv;
736             SV *sv_count = newSViv(*facet_field->terms[i]->count);
737             SV *sv_term;
738             SV *tmp;
739             if (z_term->which == Z_Term_general) {
740                 sv_term = newSVpv((char*) z_term->u.general->buf,
741                                    z_term->u.general->len);
742             } else if (z_term->which == Z_Term_characterString) {
743                 sv_term = newSVpv(z_term->u.characterString,
744                                   strlen(z_term->u.characterString));
745             }
746             tmp = newObject("Net::Z3950::FacetTerm", (SV *) (hv = newHV()));
747
748             setMember(hv, "count", sv_count);
749             setMember(hv, "term", sv_term);
750
751             av_push(av, tmp);
752         }
753         setMember(hv, "terms", terms);
754         return sv;
755 }
756
757 static SV *f_FacetList_to_SV(Z_FacetList *facet_list)
758 {
759         SV *sv = 0;
760         if (facet_list) {
761                 AV *av;
762                 int i;
763                 sv = newObject("Net::Z3950::FacetList", (SV *) (av = newAV()));
764
765                 for (i = 0; i < facet_list->num; i++) {
766                        SV *sv = f_FacetField_to_SV(facet_list->elements[i]);
767                        av_push(av, sv);
768                 }
769         }
770         return sv;
771 }
772
773
774 static void f_SV_to_FacetField(HV *facet_field_hv, Z_FacetField **fl, ODR odr)
775 {
776         int i;
777         int num_terms, num_attributes;
778         SV **temp;
779         Z_AttributeList *attributes = odr_malloc(odr, sizeof(*attributes));
780
781         AV *sv_terms, *sv_attributes;
782
783         temp = hv_fetch(facet_field_hv, "attributes", 10, 1);
784         sv_attributes = (AV *) SvRV(*temp);
785         num_attributes = av_len(sv_attributes) + 1;
786         attributes->num_attributes = num_attributes;
787         attributes->attributes = (Z_AttributeElement **)
788              odr_malloc(odr, sizeof(*attributes->attributes) * num_attributes);
789
790         for (i = 0; i < num_attributes; i++) {
791             HV *hv_elem = (HV*) SvRV(sv_2mortal(av_shift(sv_attributes)));
792             Z_AttributeElement *elem;
793             elem = (Z_AttributeElement *) odr_malloc(odr, sizeof(*elem));
794             attributes->attributes[i] = elem;
795
796             elem->attributeSet = 0;
797
798             temp = hv_fetch(hv_elem, "attributeType", 13, 1);
799             elem->attributeType = odr_intdup(odr, SvIV(*temp));
800
801             temp = hv_fetch(hv_elem, "attributeValue", 14, 1);
802
803             if (SvIOK(*temp)) {
804                     elem->which = Z_AttributeValue_numeric;
805                     elem->value.numeric = odr_intdup(odr, SvIV(*temp));
806             } else {
807                     STRLEN s_len;
808                     char *s_buf = SvPV(*temp, s_len);
809                     Z_ComplexAttribute *c = odr_malloc(odr, sizeof *c);
810                     elem->which = Z_AttributeValue_complex;
811                     elem->value.complex = c;
812
813                     c->num_list = 1;
814                     c->list = (Z_StringOrNumeric **) odr_malloc(odr,
815                           sizeof(*c->list));
816                     c->list[0] = (Z_StringOrNumeric *) odr_malloc(odr,
817                           sizeof(**c->list));
818                     c->list[0]->which = Z_StringOrNumeric_string;
819                     c->list[0]->u.string = odr_strdupn(odr, s_buf, s_len);
820                     c->num_semanticAction = 0;
821                     c->semanticAction = 0;
822             }
823             hv_undef(hv_elem);
824         }
825
826         temp = hv_fetch(facet_field_hv, "terms", 5, 1);
827
828         sv_terms = (AV *) SvRV(*temp);
829         if (SvTYPE(sv_terms) == SVt_PVAV) {
830             num_terms = av_len(sv_terms) + 1;
831         } else {
832             num_terms = 0;
833         }
834         *fl = facet_field_create(odr, attributes, num_terms);
835         for (i = 0; i < num_terms; i++) {
836             STRLEN s_len;
837             char *s_buf;
838             HV *hv_elem = (HV*) SvRV(sv_2mortal(av_shift(sv_terms)));
839
840             Z_FacetTerm *facet_term =
841              (Z_FacetTerm *) odr_malloc(odr, sizeof(*facet_term));
842             (*fl)->terms[i] = facet_term;
843
844             temp = hv_fetch(hv_elem, "count", 5, 1);
845             facet_term->count = odr_intdup(odr, SvIV(*temp));
846
847             temp = hv_fetch(hv_elem, "term", 4, 1);
848
849             s_buf = SvPV(*temp, s_len);
850             facet_term->term = z_Term_create(odr, Z_Term_general, s_buf, s_len);
851             hv_undef(hv_elem);
852         }
853 }
854
855 static void f_SV_to_FacetList(SV *sv, Z_OtherInformation **oip, ODR odr)
856 {
857         AV *entries = (AV *) SvRV(sv);
858         int num_facets;
859         if (entries && SvTYPE(entries) == SVt_PVAV &&
860                 (num_facets = av_len(entries) + 1) > 0)
861         {
862             Z_OtherInformation *oi;
863             Z_OtherInformationUnit *oiu;
864             Z_FacetList *facet_list = facet_list_create(odr, num_facets);
865             int i;
866             for (i = 0; i < num_facets; i++) {
867                 HV *facet_field = (HV*) SvRV(sv_2mortal(av_shift(entries)));
868                 f_SV_to_FacetField(facet_field, &facet_list->elements[i], odr);
869                 hv_undef(facet_field);
870             }
871             oi = odr_malloc(odr, sizeof(*oi));
872             oiu = odr_malloc(odr, sizeof(*oiu));
873             oi->num_elements = 1;
874             oi->list = odr_malloc(odr, oi->num_elements * sizeof(*oi->list));
875             oiu->category = 0;
876             oiu->which = Z_OtherInfo_externallyDefinedInfo;
877             oiu->information.externallyDefinedInfo = odr_malloc(odr, sizeof(*oiu->information.externallyDefinedInfo));
878             oiu->information.externallyDefinedInfo->direct_reference = odr_oiddup(odr, yaz_oid_userinfo_facet_1);
879             oiu->information.externallyDefinedInfo->descriptor = 0;
880             oiu->information.externallyDefinedInfo->indirect_reference = 0;
881             oiu->information.externallyDefinedInfo->which = Z_External_userFacets;
882             oiu->information.externallyDefinedInfo->u.facetList = facet_list;
883             oi->list[0] = oiu;
884             *oip = oi;
885         }
886 }
887
888 int bend_search(void *handle, bend_search_rr *rr)
889 {
890         HV *href;
891         AV *aref;
892         SV **temp;
893         int i;
894         char **basenames;
895         WRBUF query;
896         SV *point;
897         Zfront_handle *zhandle = (Zfront_handle *)handle;
898         CV* handler_cv = 0;
899         SV *rpnSV;
900         SV *facetSV;
901         char *ptr;
902         STRLEN len;
903
904         dSP;
905         ENTER;
906         SAVETMPS;
907
908         aref = newAV();
909         basenames = rr->basenames;
910         for (i = 0; i < rr->num_bases; i++)
911         {
912                 av_push(aref, newSVpv(*basenames++, 0));
913         }
914 #if ENABLE_STOP_SERVER
915         if (rr->num_bases == 1 && !strcmp(rr->basenames[0], "XXstop"))
916         {
917                 zhandle->stop_flag = 1;
918         }
919 #endif
920         href = newHV();
921         hv_store(href, "SETNAME", 7, newSVpv(rr->setname, 0), 0);
922         if (rr->srw_sortKeys && *rr->srw_sortKeys)
923             hv_store(href, "SRW_SORTKEYS", 12, newSVpv(rr->srw_sortKeys, 0), 0);
924         hv_store(href, "REPL_SET", 8, newSViv(rr->replace_set), 0);
925         hv_store(href, "ERR_CODE", 8, newSViv(0), 0);
926         hv_store(href, "ERR_STR", 7, newSVpv("", 0), 0);
927         hv_store(href, "HITS", 4, newSViv(0), 0);
928         hv_store(href, "DATABASES", 9, newRV( (SV*) aref), 0);
929         hv_store(href, "GHANDLE", 7, newSVsv(zhandle->ghandle), 0);
930         hv_store(href, "HANDLE", 6, zhandle->handle, 0);
931         hv_store(href, "PID", 3, newSViv(getpid()), 0);
932         hv_store(href, "PRESENT_NUMBER", 14, newSViv(rr->present_number), 0);
933         if ((rpnSV = zquery2perl(rr->query)) != 0) {
934             hv_store(href, "RPN", 3, rpnSV, 0);
935         }
936         facetSV = f_FacetList_to_SV(yaz_oi_get_facetlist(&rr->search_input));
937         if (facetSV) {
938             hv_store(href, "INPUTFACETS", 11, facetSV, 0);
939         }
940
941         query = zquery2pquery(rr->query);
942         if (query)
943         {
944                 hv_store(href, "QUERY", 5, newSVpv((char *)query->buf, query->pos), 0);
945         }
946         else if (rr->query->which == Z_Query_type_104 &&
947                  rr->query->u.type_104->which == Z_External_CQL) {
948             hv_store(href, "CQL", 3,
949                      newSVpv(rr->query->u.type_104->u.cql, 0), 0);
950         }
951         else
952         {
953                 rr->errcode = 108;
954                 return 0;
955         }
956         PUSHMARK(sp);
957
958         XPUSHs(sv_2mortal(newRV( (SV*) href)));
959
960         PUTBACK;
961
962         handler_cv = simpleserver_sv2cv( search_ref );
963         perl_call_sv( (SV *) handler_cv, G_SCALAR | G_DISCARD);
964
965         SPAGAIN;
966
967         temp = hv_fetch(href, "HITS", 4, 1);
968         rr->hits = SvIV(*temp);
969
970         temp = hv_fetch(href, "ERR_CODE", 8, 1);
971         rr->errcode = SvIV(*temp);
972
973         temp = hv_fetch(href, "ERR_STR", 7, 1);
974         rr->errstring = string_or_undef(temp, rr->stream);
975
976         temp = hv_fetch(href, "HANDLE", 6, 1);
977         point = newSVsv(*temp);
978
979         temp = hv_fetch(href, "OUTPUTFACETS", 12, 1);
980         if (SvTYPE(*temp) != SVt_NULL)
981             f_SV_to_FacetList(*temp, &rr->search_info, rr->stream);
982
983         temp = hv_fetch(href, "EXTRA_RESPONSE_DATA", 19, 0);
984         if (temp)
985         {
986                 ptr = SvPV(*temp, len);
987                 rr->extra_response_data = odr_strdupn(rr->stream, ptr, len);
988         }
989
990         hv_undef(href);
991         av_undef(aref);
992
993         zhandle->handle = point;
994         sv_free( (SV*) aref);
995         sv_free( (SV*) href);
996         if (query)
997             wrbuf_destroy(query);
998         PUTBACK;
999         FREETMPS;
1000         LEAVE;
1001         return 0;
1002 }
1003
1004
1005 /* ### I am not 100% about the memory management in this handler */
1006 int bend_delete(void *handle, bend_delete_rr *rr)
1007 {
1008         Zfront_handle *zhandle = (Zfront_handle *)handle;
1009         HV *href;
1010         CV* handler_cv;
1011         int i;
1012         SV **temp;
1013         SV *point;
1014
1015         dSP;
1016         ENTER;
1017         SAVETMPS;
1018
1019         href = newHV();
1020         hv_store(href, "GHANDLE", 7, newSVsv(zhandle->ghandle), 0);
1021         hv_store(href, "HANDLE", 6, zhandle->handle, 0);
1022         hv_store(href, "STATUS", 6, newSViv(0), 0);
1023
1024         PUSHMARK(sp);
1025         XPUSHs(sv_2mortal(newRV( (SV*) href)));
1026         PUTBACK;
1027
1028         handler_cv = simpleserver_sv2cv(delete_ref);
1029
1030         if (rr->function == 1) {
1031             /* Delete all result sets in the session */
1032             perl_call_sv( (SV *) handler_cv, G_SCALAR | G_DISCARD);
1033             temp = hv_fetch(href, "STATUS", 6, 1);
1034             rr->delete_status = SvIV(*temp);
1035         } else {
1036             rr->delete_status = 0;
1037             /*
1038              * For some reason, deleting two or more result-sets in
1039              * one operation goes horribly wrong, and ### I don't have
1040              * time to debug it right now.
1041              */
1042             if (rr->num_setnames > 1) {
1043                 rr->delete_status = 3; /* "System problem at target" */
1044                 /* There's no way to sent delete-msg using the GFS */
1045                 return 0;
1046             }
1047
1048             for (i = 0; i < rr->num_setnames; i++) {
1049                 hv_store(href, "SETNAME", 7, newSVpv(rr->setnames[i], 0), 0);
1050                 perl_call_sv( (SV *) handler_cv, G_SCALAR | G_DISCARD);
1051                 temp = hv_fetch(href, "STATUS", 6, 1);
1052                 rr->statuses[i] = SvIV(*temp);
1053                 if (rr->statuses[i] != 0)
1054                     rr->delete_status = rr->statuses[i];
1055             }
1056         }
1057
1058         SPAGAIN;
1059
1060         temp = hv_fetch(href, "HANDLE", 6, 1);
1061         point = newSVsv(*temp);
1062
1063         hv_undef(href);
1064
1065         zhandle->handle = point;
1066
1067         sv_free( (SV*) href);
1068
1069         PUTBACK;
1070         FREETMPS;
1071         LEAVE;
1072
1073         return 0;
1074 }
1075
1076
1077 int bend_fetch(void *handle, bend_fetch_rr *rr)
1078 {
1079         HV *href;
1080         SV **temp;
1081         SV *basename;
1082         SV *record;
1083         SV *last;
1084         SV *err_code;
1085         SV *err_string;
1086         SV *sur_flag;
1087         SV *point;
1088         SV *rep_form;
1089         SV *schema = 0;
1090         char *ptr;
1091         WRBUF oid_dotted;
1092         Zfront_handle *zhandle = (Zfront_handle *)handle;
1093         CV* handler_cv = 0;
1094
1095         Z_RecordComposition *composition;
1096         Z_ElementSetNames *simple;
1097         Z_CompSpec *complex;
1098         STRLEN length;
1099
1100         dSP;
1101         ENTER;
1102         SAVETMPS;
1103
1104         rr->errcode = 0;
1105         href = newHV();
1106         hv_store(href, "SETNAME", 7, newSVpv(rr->setname, 0), 0);
1107         if (rr->schema)
1108                 hv_store(href, "SCHEMA", 6, newSVpv(rr->schema, 0), 0);
1109         else
1110                 hv_store(href, "SCHEMA", 6, newSVpv("", 0), 0);
1111
1112         temp = hv_store(href, "OFFSET", 6, newSViv(rr->number), 0);
1113         if (rr->request_format != 0) {
1114             oid_dotted = oid2dotted(rr->request_format);
1115         } else {
1116             /* Probably an SRU request: assume XML is required */
1117             oid_dotted = wrbuf_alloc();
1118             wrbuf_puts(oid_dotted, "1.2.840.10003.5.109.10");
1119         }
1120         hv_store(href, "REQ_FORM", 8, newSVpv((char *)oid_dotted->buf, oid_dotted->pos), 0);
1121         hv_store(href, "REP_FORM", 8, newSVpv((char *)oid_dotted->buf, oid_dotted->pos), 0);
1122         hv_store(href, "BASENAME", 8, newSVpv("", 0), 0);
1123         hv_store(href, "RECORD", 6, newSVpv("", 0), 0);
1124         hv_store(href, "LAST", 4, newSViv(0), 0);
1125         hv_store(href, "ERR_CODE", 8, newSViv(0), 0);
1126         hv_store(href, "ERR_STR", 7, newSVpv("", 0), 0);
1127         hv_store(href, "SUR_FLAG", 8, newSViv(0), 0);
1128         hv_store(href, "GHANDLE", 7, newSVsv(zhandle->ghandle), 0);
1129         hv_store(href, "HANDLE", 6, zhandle->handle, 0);
1130         hv_store(href, "PID", 3, newSViv(getpid()), 0);
1131         if (rr->comp)
1132         {
1133                 composition = rr->comp;
1134                 if (composition->which == Z_RecordComp_simple)
1135                 {
1136                         simple = composition->u.simple;
1137                         if (simple->which == Z_ElementSetNames_generic)
1138                         {
1139                                 hv_store(href, "COMP", 4, newSVpv(simple->u.generic, 0), 0);
1140                         }
1141                         else
1142                         {
1143                                 rr->errcode = 26;
1144                                 rr->errstring = odr_strdup(rr->stream, "non-generic 'simple' composition");
1145                                 return 0;
1146                         }
1147                 }
1148                 else if (composition->which == Z_RecordComp_complex)
1149                 {
1150                         if (composition->u.complex->generic &&
1151
1152                                         composition->u.complex->generic &&
1153                                         composition->u.complex->generic->elementSpec &&
1154                                         composition->u.complex->generic->elementSpec->which ==
1155                                         Z_ElementSpec_elementSetName)
1156                         {
1157                                 complex = composition->u.complex;
1158                                 hv_store(href, "COMP", 4,
1159                                         newSVpv(complex->generic->elementSpec->u.elementSetName, 0), 0);
1160                         }
1161                         else
1162                         {
1163 #if 0   /* For now ignore this error, which is ubiquitous in SRU */
1164                                 rr->errcode = 26;
1165                                 rr->errstring = odr_strdup(rr->stream, "'complex' composition is not generic ESN");
1166                                 return 0;
1167 #endif /*0*/
1168                         }
1169                 }
1170                 else
1171                 {
1172                         rr->errcode = 26;
1173                         rr->errstring = odr_strdup(rr->stream, "composition neither simple nor complex");
1174                         return 0;
1175                 }
1176         }
1177
1178         PUSHMARK(sp);
1179
1180         XPUSHs(sv_2mortal(newRV( (SV*) href)));
1181
1182         PUTBACK;
1183
1184         handler_cv = simpleserver_sv2cv( fetch_ref );
1185         perl_call_sv( (SV *) handler_cv, G_SCALAR | G_DISCARD);
1186
1187         SPAGAIN;
1188
1189         temp = hv_fetch(href, "BASENAME", 8, 1);
1190         basename = newSVsv(*temp);
1191
1192         temp = hv_fetch(href, "RECORD", 6, 1);
1193         record = newSVsv(*temp);
1194
1195         temp = hv_fetch(href, "LAST", 4, 1);
1196         last = newSVsv(*temp);
1197
1198         temp = hv_fetch(href, "ERR_CODE", 8, 1);
1199         err_code = newSVsv(*temp);
1200
1201         temp = hv_fetch(href, "ERR_STR", 7, 1),
1202         err_string = newSVsv(*temp);
1203
1204         temp = hv_fetch(href, "SUR_FLAG", 8, 1);
1205         sur_flag = newSVsv(*temp);
1206
1207         temp = hv_fetch(href, "REP_FORM", 8, 1);
1208         rep_form = newSVsv(*temp);
1209
1210         temp = hv_fetch(href, "SCHEMA", 6, 0);
1211         if (temp != 0)
1212         {
1213                 schema = newSVsv(*temp);
1214                 ptr = SvPV(schema, length);
1215                 if (length > 0)
1216                         rr->schema = odr_strdupn(rr->stream, ptr, length);
1217         }
1218
1219         temp = hv_fetch(href, "HANDLE", 6, 1);
1220         point = newSVsv(*temp);
1221
1222
1223         hv_undef(href);
1224
1225         ptr = SvPV(basename, length);
1226         rr->basename = odr_strdupn(rr->stream, ptr, length);
1227
1228         ptr = SvPV(rep_form, length);
1229
1230         rr->output_format = yaz_string_to_oid_odr(yaz_oid_std(),
1231                                         CLASS_RECSYN, ptr, rr->stream);
1232         if (!rr->output_format)
1233         {
1234                 printf("Net::Z3950::SimpleServer: WARNING: Bad OID %s\n", ptr);
1235                 rr->output_format =
1236                         odr_oiddup(rr->stream, yaz_oid_recsyn_sutrs);
1237         }
1238         ptr = SvPV(record, length);
1239         /* Treat GRS-1 records separately */
1240         if (!oid_oidcmp(rr->output_format, yaz_oid_recsyn_grs_1))
1241         {
1242                 rr->record = (char *) read_grs1(ptr, rr->stream);
1243                 rr->len = -1;
1244         }
1245         else
1246         {
1247                 rr->record = odr_strdupn(rr->stream, ptr, length);
1248                 rr->len = length;
1249         }
1250         zhandle->handle = point;
1251         handle = zhandle;
1252         rr->last_in_set = SvIV(last);
1253
1254         if (!(rr->errcode))
1255         {
1256                 rr->errcode = SvIV(err_code);
1257                 ptr = SvPV(err_string, length);
1258                 rr->errstring = odr_strdupn(rr->stream, ptr, length);
1259         }
1260         rr->surrogate_flag = SvIV(sur_flag);
1261
1262         wrbuf_destroy(oid_dotted);
1263         sv_free((SV*) href);
1264         sv_free(basename);
1265         sv_free(record);
1266         sv_free(last);
1267         sv_free(err_string);
1268         sv_free(err_code),
1269         sv_free(sur_flag);
1270         sv_free(rep_form);
1271
1272         if (schema)
1273                 sv_free(schema);
1274
1275         PUTBACK;
1276         FREETMPS;
1277         LEAVE;
1278
1279         return 0;
1280 }
1281
1282
1283 int bend_present(void *handle, bend_present_rr *rr)
1284 {
1285         HV *href;
1286         SV **temp;
1287         SV *err_code;
1288         SV *err_string;
1289         SV *point;
1290         STRLEN len;
1291         Z_RecordComposition *composition;
1292         Z_ElementSetNames *simple;
1293         Z_CompSpec *complex;
1294         char *ptr;
1295         Zfront_handle *zhandle = (Zfront_handle *)handle;
1296         CV* handler_cv = 0;
1297
1298 /*      WRBUF oid_dotted; */
1299
1300         dSP;
1301         ENTER;
1302         SAVETMPS;
1303
1304         href = newHV();
1305         hv_store(href, "GHANDLE", 7, newSVsv(zhandle->ghandle), 0);
1306         hv_store(href, "HANDLE", 6, zhandle->handle, 0);
1307         hv_store(href, "ERR_CODE", 8, newSViv(0), 0);
1308         hv_store(href, "ERR_STR", 7, newSVpv("", 0), 0);
1309         hv_store(href, "START", 5, newSViv(rr->start), 0);
1310         hv_store(href, "SETNAME", 7, newSVpv(rr->setname, 0), 0);
1311         hv_store(href, "NUMBER", 6, newSViv(rr->number), 0);
1312         /*oid_dotted = oid2dotted(rr->request_format_raw);
1313         hv_store(href, "REQ_FORM", 8, newSVpv((char *)oid_dotted->buf, oid_dotted->pos), 0);*/
1314         hv_store(href, "PID", 3, newSViv(getpid()), 0);
1315         if (rr->comp)
1316         {
1317                 composition = rr->comp;
1318                 if (composition->which == Z_RecordComp_simple)
1319                 {
1320                         simple = composition->u.simple;
1321                         if (simple->which == Z_ElementSetNames_generic)
1322                         {
1323                                 hv_store(href, "COMP", 4, newSVpv(simple->u.generic, 0), 0);
1324                         }
1325                         else
1326                         {
1327                                 rr->errcode = 26;
1328                                 rr->errstring = odr_strdup(rr->stream, "non-generic 'simple' composition");
1329                                 return 0;
1330                         }
1331                 }
1332                 else if (composition->which == Z_RecordComp_complex)
1333                 {
1334                         if (composition->u.complex->generic &&
1335
1336                                         composition->u.complex->generic &&
1337                                         composition->u.complex->generic->elementSpec &&
1338                                         composition->u.complex->generic->elementSpec->which ==
1339                                         Z_ElementSpec_elementSetName)
1340                         {
1341                                 complex = composition->u.complex;
1342                                 hv_store(href, "COMP", 4,
1343                                         newSVpv(complex->generic->elementSpec->u.elementSetName, 0), 0);
1344                         }
1345                         else
1346                         {
1347                                 rr->errcode = 26;
1348                                 rr->errstring = odr_strdup(rr->stream, "'complex' composition is not generic ESN");
1349                                 return 0;
1350                         }
1351                 }
1352                 else
1353                 {
1354                         rr->errcode = 26;
1355                         rr->errstring = odr_strdup(rr->stream, "composition neither simple nor complex");
1356                         return 0;
1357                 }
1358         }
1359
1360         PUSHMARK(sp);
1361
1362         XPUSHs(sv_2mortal(newRV( (SV*) href)));
1363
1364         PUTBACK;
1365
1366         handler_cv = simpleserver_sv2cv( present_ref );
1367         perl_call_sv( (SV *) handler_cv, G_SCALAR | G_DISCARD);
1368
1369         SPAGAIN;
1370
1371         temp = hv_fetch(href, "ERR_CODE", 8, 1);
1372         err_code = newSVsv(*temp);
1373
1374         temp = hv_fetch(href, "ERR_STR", 7, 1);
1375         err_string = newSVsv(*temp);
1376
1377         temp = hv_fetch(href, "HANDLE", 6, 1);
1378         point = newSVsv(*temp);
1379
1380         PUTBACK;
1381         FREETMPS;
1382         LEAVE;
1383
1384         hv_undef(href);
1385         rr->errcode = SvIV(err_code);
1386
1387         ptr = SvPV(err_string, len);
1388         rr->errstring = odr_strdupn(rr->stream, ptr, len);
1389 /*      wrbuf_free(oid_dotted, 1);*/
1390         zhandle->handle = point;
1391         handle = zhandle;
1392         sv_free(err_code);
1393         sv_free(err_string);
1394         sv_free( (SV*) href);
1395
1396         return 0;
1397 }
1398
1399
1400 int bend_esrequest(void *handle, bend_esrequest_rr *rr)
1401 {
1402         perl_call_sv(esrequest_ref, G_VOID | G_DISCARD | G_NOARGS);
1403         return 0;
1404 }
1405
1406
1407 int bend_scan(void *handle, bend_scan_rr *rr)
1408 {
1409         HV *href;
1410         AV *aref;
1411         AV *list;
1412         AV *entries;
1413         HV *scan_item;
1414         struct scan_entry *scan_list;
1415         struct scan_entry *buffer;
1416         int *step_size = rr->step_size;
1417         int scan_list_size = rr->num_entries;
1418         int i;
1419         char **basenames;
1420         SV **temp;
1421         SV *err_code = sv_newmortal();
1422         SV *err_str = sv_newmortal();
1423         SV *point = sv_newmortal();
1424         SV *status = sv_newmortal();
1425         SV *number = sv_newmortal();
1426         char *ptr;
1427         STRLEN len;
1428         SV *entries_ref;
1429         Zfront_handle *zhandle = (Zfront_handle *)handle;
1430         CV* handler_cv = 0;
1431         SV *rpnSV;
1432
1433         dSP;
1434         ENTER;
1435         SAVETMPS;
1436         href = newHV();
1437         list = newAV();
1438
1439         /* RPN is better than TERM since it includes attributes */
1440         if ((rpnSV = f_Term_to_SV(rr->term->term, rr->term->attributes)) != 0) {
1441             setMember(href, "RPN", rpnSV);
1442         }
1443
1444         if (rr->term->term->which == Z_Term_general)
1445         {
1446                 Odr_oct *oterm = rr->term->term->u.general;
1447                 hv_store(href, "TERM", 4, newSVpv((char*) oterm->buf,
1448                         oterm->len), 0);
1449         } else {
1450                 rr->errcode = 229;      /* Unsupported term type */
1451                 return 0;
1452         }
1453         hv_store(href, "STEP", 4, newSViv(*step_size), 0);
1454         hv_store(href, "NUMBER", 6, newSViv(rr->num_entries), 0);
1455         hv_store(href, "POS", 3, newSViv(rr->term_position), 0);
1456         hv_store(href, "ERR_CODE", 8, newSViv(0), 0);
1457         hv_store(href, "ERR_STR", 7, newSVpv("", 0), 0);
1458         hv_store(href, "GHANDLE", 7, newSVsv(zhandle->ghandle), 0);
1459         hv_store(href, "HANDLE", 6, zhandle->handle, 0);
1460         hv_store(href, "STATUS", 6, newSViv(BEND_SCAN_SUCCESS), 0);
1461         hv_store(href, "ENTRIES", 7, newRV((SV *) list), 0);
1462         aref = newAV();
1463         basenames = rr->basenames;
1464         for (i = 0; i < rr->num_bases; i++)
1465         {
1466                 av_push(aref, newSVpv(*basenames++, 0));
1467         }
1468         hv_store(href, "DATABASES", 9, newRV( (SV*) aref), 0);
1469
1470         PUSHMARK(sp);
1471
1472         XPUSHs(sv_2mortal(newRV( (SV*) href)));
1473
1474         PUTBACK;
1475
1476         handler_cv = simpleserver_sv2cv( scan_ref );
1477         perl_call_sv( (SV *) handler_cv, G_SCALAR | G_DISCARD);
1478
1479         SPAGAIN;
1480
1481         temp = hv_fetch(href, "ERR_CODE", 8, 1);
1482         err_code = newSVsv(*temp);
1483
1484         temp = hv_fetch(href, "ERR_STR", 7, 1);
1485         err_str = newSVsv(*temp);
1486
1487         temp = hv_fetch(href, "HANDLE", 6, 1);
1488         point = newSVsv(*temp);
1489
1490         temp = hv_fetch(href, "STATUS", 6, 1);
1491         status = newSVsv(*temp);
1492
1493         temp = hv_fetch(href, "NUMBER", 6, 1);
1494         number = newSVsv(*temp);
1495
1496         temp = hv_fetch(href, "ENTRIES", 7, 1);
1497         entries_ref = newSVsv(*temp);
1498
1499         temp = hv_fetch(href, "EXTRA_RESPONSE_DATA", 19, 0);
1500         if (temp)
1501         {
1502                 ptr = SvPV(*temp, len);
1503                 rr->extra_response_data = odr_strdupn(rr->stream, ptr, len);
1504         }
1505
1506         PUTBACK;
1507         FREETMPS;
1508         LEAVE;
1509
1510         ptr = SvPV(err_str, len);
1511         rr->errstring = odr_strdupn(rr->stream, ptr, len);
1512         rr->errcode = SvIV(err_code);
1513         rr->num_entries = SvIV(number);
1514         rr->status = SvIV(status);
1515         if (yaz_version(NULL, NULL) >= 0x4022c &&
1516                 rr->num_entries <= scan_list_size)
1517         {
1518                 /* entries has been initialized by yaz and is big enough
1519                    to hold all entries */
1520                 scan_list = rr->entries;
1521         }
1522         else
1523         {
1524                 scan_list = (struct scan_entry *)
1525                   odr_malloc(rr->stream, rr->num_entries * sizeof(*scan_list));
1526         }
1527         buffer = scan_list;
1528         entries = (AV *)SvRV(entries_ref);
1529         if (rr->errcode == 0) for (i = 0; i < rr->num_entries; i++)
1530         {
1531                 scan_item = (HV *)SvRV(sv_2mortal(av_shift(entries)));
1532                 temp = hv_fetch(scan_item, "TERM", 4, 1);
1533                 ptr = SvPV(*temp, len);
1534                 buffer->term = odr_strdupn(rr->stream, ptr, len);
1535                 temp = hv_fetch(scan_item, "OCCURRENCE", 10, 1);
1536                 buffer->occurrences = SvIV(*temp);
1537                 temp = hv_fetch(scan_item, "DISPLAY_TERM", 12, 0);
1538                 if (temp)
1539                 {
1540                         ptr = SvPV(*temp, len);
1541                         buffer->display_term = odr_strdupn(rr->stream, ptr,len);
1542                 }
1543                 buffer++;
1544                 hv_undef(scan_item);
1545         }
1546         rr->entries = scan_list;
1547
1548         zhandle->handle = point;
1549         handle = zhandle;
1550         sv_free(err_code);
1551         sv_free(err_str);
1552         sv_free(status);
1553         sv_free(number);
1554         hv_undef(href);
1555         sv_free((SV *)href);
1556         av_undef(aref);
1557         sv_free((SV *)aref);
1558         av_undef(list);
1559         sv_free((SV *)list);
1560         av_undef(entries);
1561         /*sv_free((SV *)entries);*/
1562         sv_free(entries_ref);
1563
1564         return 0;
1565 }
1566
1567 int bend_explain(void *handle, bend_explain_rr *q)
1568 {
1569         HV *href;
1570         CV *handler_cv = 0;
1571         SV **temp;
1572         char *explain;
1573         SV *explainsv;
1574         STRLEN len;
1575         Zfront_handle *zhandle = (Zfront_handle *)handle;
1576
1577         dSP;
1578         ENTER;
1579         SAVETMPS;
1580
1581         href = newHV();
1582         hv_store(href, "EXPLAIN", 7, newSVpv("", 0), 0);
1583         hv_store(href, "DATABASE", 8, newSVpv(q->database, 0), 0);
1584         hv_store(href, "GHANDLE", 7, newSVsv(zhandle->ghandle), 0);
1585         hv_store(href, "HANDLE", 6, zhandle->handle, 0);
1586
1587         PUSHMARK(sp);
1588         XPUSHs(sv_2mortal(newRV((SV*) href)));
1589         PUTBACK;
1590
1591         handler_cv = simpleserver_sv2cv(explain_ref);
1592         perl_call_sv((SV*) handler_cv, G_SCALAR | G_DISCARD);
1593
1594         SPAGAIN;
1595
1596         temp = hv_fetch(href, "EXPLAIN", 7, 1);
1597         explainsv = newSVsv(*temp);
1598
1599         PUTBACK;
1600         FREETMPS;
1601         LEAVE;
1602
1603         explain = SvPV(explainsv, len);
1604         q->explain_buf = odr_strdupn(q->stream, explain, len);
1605
1606         return 0;
1607 }
1608
1609
1610 /*
1611  * You'll laugh when I tell you this ...  Astonishingly, it turns out
1612  * that ActivePerl (which is widely used on Windows) has, in the
1613  * header file Perl\lib\CORE\XSUB.h, the following heinous crime:
1614  *          #    define open            PerlLIO_open
1615  * This of course screws up the use of the "open" member of the
1616  * Z_IdAuthentication structure below, so we have to undo this
1617  * brain-damage.
1618  */
1619 #ifdef open
1620 #undef open
1621 #endif
1622
1623
1624 bend_initresult *bend_init(bend_initrequest *q)
1625 {
1626         int dummy = simpleserver_clone();
1627         bend_initresult *r = (bend_initresult *)
1628                 odr_malloc (q->stream, sizeof(*r));
1629         char *ptr;
1630         CV* handler_cv = 0;
1631         dSP;
1632         STRLEN len;
1633         NMEM nmem = nmem_create();
1634         Zfront_handle *zhandle = (Zfront_handle *)
1635                 nmem_malloc(nmem, sizeof(*zhandle));
1636         SV *handle;
1637         HV *href;
1638         SV **temp;
1639
1640         ENTER;
1641         SAVETMPS;
1642
1643         zhandle->ghandle = _global_ghandle;
1644         zhandle->nmem = nmem;
1645         zhandle->stop_flag = 0;
1646
1647         if (sort_ref)
1648         {
1649                 q->bend_sort = bend_sort;
1650         }
1651         if (search_ref)
1652         {
1653                 q->bend_search = bend_search;
1654         }
1655         if (present_ref)
1656         {
1657                 q->bend_present = bend_present;
1658         }
1659         /*q->bend_esrequest = bend_esrequest;*/
1660         if (delete_ref)
1661         {
1662                 q->bend_delete = bend_delete;
1663         }
1664         if (fetch_ref)
1665         {
1666                 q->bend_fetch = bend_fetch;
1667         }
1668         if (scan_ref)
1669         {
1670                 q->bend_scan = bend_scan;
1671         }
1672         if (explain_ref)
1673         {
1674                 q->bend_explain = bend_explain;
1675         }
1676
1677         href = newHV();
1678
1679         /* ### These should be given initial values from the client */
1680         hv_store(href, "IMP_ID", 6, newSVpv("", 0), 0);
1681         hv_store(href, "IMP_NAME", 8, newSVpv("", 0), 0);
1682         hv_store(href, "IMP_VER", 7, newSVpv("", 0), 0);
1683
1684         hv_store(href, "ERR_CODE", 8, newSViv(0), 0);
1685         hv_store(href, "ERR_STR", 7, newSViv(0), 0);
1686         hv_store(href, "PEER_NAME", 9, newSVpv(q->peer_name, 0), 0);
1687         hv_store(href, "GHANDLE", 7, newSVsv(zhandle->ghandle), 0);
1688         hv_store(href, "HANDLE", 6, newSVsv(&sv_undef), 0);
1689         hv_store(href, "PID", 3, newSViv(getpid()), 0);
1690         if (q->auth) {
1691             char *user = NULL;
1692             char *passwd = NULL;
1693             if (q->auth->which == Z_IdAuthentication_open) {
1694                 char *cp;
1695                 user = nmem_strdup (odr_getmem (q->stream), q->auth->u.open);
1696                 cp = strchr (user, '/');
1697                 if (cp) {
1698                     /* password after / given */
1699                     *cp = '\0';
1700                     passwd = cp+1;
1701                 }
1702             } else if (q->auth->which == Z_IdAuthentication_idPass) {
1703                 user = q->auth->u.idPass->userId;
1704                 passwd = q->auth->u.idPass->password;
1705             }
1706             /* ### some code paths have user/password unassigned here */
1707             if (user)
1708                 hv_store(href, "USER", 4, newSVpv(user, 0), 0);
1709             if (passwd)
1710                 hv_store(href, "PASS", 4, newSVpv(passwd, 0), 0);
1711         }
1712
1713         PUSHMARK(sp);
1714
1715         XPUSHs(sv_2mortal(newRV((SV*) href)));
1716
1717         PUTBACK;
1718
1719         if (init_ref != NULL)
1720         {
1721              handler_cv = simpleserver_sv2cv( init_ref );
1722              perl_call_sv( (SV *) handler_cv, G_SCALAR | G_DISCARD);
1723         }
1724
1725         SPAGAIN;
1726
1727         temp = hv_fetch(href, "IMP_ID", 6, 1);
1728         ptr = SvPV(*temp, len);
1729         q->implementation_id = nmem_strdup(nmem, ptr);
1730
1731         temp = hv_fetch(href, "IMP_NAME", 8, 1);
1732         ptr = SvPV(*temp, len);
1733         q->implementation_name = nmem_strdup(nmem, ptr);
1734
1735         temp = hv_fetch(href, "IMP_VER", 7, 1);
1736         ptr = SvPV(*temp, len);
1737         q->implementation_version = nmem_strdup(nmem, ptr);
1738
1739         temp = hv_fetch(href, "ERR_CODE", 8, 1);
1740         r->errcode = SvIV(*temp);
1741
1742         temp = hv_fetch(href, "ERR_STR", 7, 1);
1743         ptr = SvPV(*temp, len);
1744         r->errstring = odr_strdupn(q->stream, ptr, len);
1745
1746         temp = hv_fetch(href, "HANDLE", 6, 1);
1747         handle= newSVsv(*temp);
1748         zhandle->handle = handle;
1749
1750         r->handle = zhandle;
1751
1752         hv_undef(href);
1753         sv_free((SV*) href);
1754
1755         PUTBACK;
1756         FREETMPS;
1757         LEAVE;
1758
1759         return r;
1760 }
1761
1762 void bend_close(void *handle)
1763 {
1764         HV *href;
1765         Zfront_handle *zhandle = (Zfront_handle *)handle;
1766         CV* handler_cv = 0;
1767         int stop_flag = 0;
1768         dSP;
1769         ENTER;
1770         SAVETMPS;
1771
1772         if (close_ref)
1773         {
1774                 href = newHV();
1775                 hv_store(href, "GHANDLE", 7, newSVsv(zhandle->ghandle), 0);
1776                 hv_store(href, "HANDLE", 6, zhandle->handle, 0);
1777
1778                 PUSHMARK(sp);
1779
1780                 XPUSHs(sv_2mortal(newRV((SV *)href)));
1781
1782                 PUTBACK;
1783
1784                 handler_cv = simpleserver_sv2cv( close_ref );
1785                 perl_call_sv( (SV *) handler_cv, G_SCALAR | G_DISCARD);
1786
1787                 SPAGAIN;
1788
1789                 sv_free((SV*) href);
1790         }
1791         else
1792                 sv_free(zhandle->handle);
1793         PUTBACK;
1794         FREETMPS;
1795         LEAVE;
1796         stop_flag = zhandle->stop_flag;
1797         nmem_destroy(zhandle->nmem);
1798         simpleserver_free();
1799
1800         if (stop_flag)
1801                 exit(0);
1802         return;
1803 }
1804
1805 static void start_stop(struct statserv_options_block *sob, SV *handler_ref)
1806 {
1807         HV *href;
1808         dSP;
1809         ENTER;
1810         SAVETMPS;
1811
1812         href = newHV();
1813         hv_store(href, "CONFIG", 6, newSVpv(sob->configname, 0), 0);
1814
1815         PUSHMARK(sp);
1816
1817         XPUSHs(sv_2mortal(newRV((SV*) href)));
1818
1819         PUTBACK;
1820
1821         if (handler_ref != NULL)
1822         {
1823                 CV* handler_cv = simpleserver_sv2cv( handler_ref );
1824                 perl_call_sv( (SV *) handler_cv, G_SCALAR | G_DISCARD);
1825         }
1826
1827         SPAGAIN;
1828
1829         PUTBACK;
1830         FREETMPS;
1831         LEAVE;
1832
1833
1834 }
1835
1836 void bend_start(struct statserv_options_block *sob)
1837 {
1838         start_stop(sob, start_ref);
1839 }
1840
1841 MODULE = Net::Z3950::SimpleServer       PACKAGE = Net::Z3950::SimpleServer
1842
1843 PROTOTYPES: DISABLE
1844
1845
1846 void
1847 set_ghandle(arg)
1848                 SV *arg
1849         CODE:
1850                 _global_ghandle = newSVsv(arg);
1851
1852
1853 void
1854 set_init_handler(arg)
1855                 SV *arg
1856         CODE:
1857                 init_ref = newSVsv(arg);
1858
1859
1860 void
1861 set_close_handler(arg)
1862                 SV *arg
1863         CODE:
1864                 close_ref = newSVsv(arg);
1865
1866
1867 void
1868 set_sort_handler(arg)
1869                 SV *arg
1870         CODE:
1871                 sort_ref = newSVsv(arg);
1872
1873 void
1874 set_search_handler(arg)
1875                 SV *arg
1876         CODE:
1877                 search_ref = newSVsv(arg);
1878
1879
1880 void
1881 set_fetch_handler(arg)
1882                 SV *arg
1883         CODE:
1884                 fetch_ref = newSVsv(arg);
1885
1886
1887 void
1888 set_present_handler(arg)
1889                 SV *arg
1890         CODE:
1891                 present_ref = newSVsv(arg);
1892
1893
1894 void
1895 set_esrequest_handler(arg)
1896                 SV *arg
1897         CODE:
1898                 esrequest_ref = newSVsv(arg);
1899
1900
1901 void
1902 set_delete_handler(arg)
1903                 SV *arg
1904         CODE:
1905                 delete_ref = newSVsv(arg);
1906
1907
1908 void
1909 set_scan_handler(arg)
1910                 SV *arg
1911         CODE:
1912                 scan_ref = newSVsv(arg);
1913
1914 void
1915 set_explain_handler(arg)
1916                 SV *arg
1917         CODE:
1918                 explain_ref = newSVsv(arg);
1919
1920 void
1921 set_start_handler(arg)
1922                 SV *arg
1923         CODE:
1924                 start_ref = newSVsv(arg);
1925
1926 int
1927 start_server(...)
1928         PREINIT:
1929                 char **argv;
1930                 char **argv_buf;
1931                 char *ptr;
1932                 int i;
1933                 STRLEN len;
1934                 struct statserv_options_block *sob;
1935         CODE:
1936                 argv_buf = (char **)xmalloc((items + 1) * sizeof(char *));
1937                 argv = argv_buf;
1938                 for (i = 0; i < items; i++)
1939                 {
1940                         ptr = SvPV(ST(i), len);
1941                         *argv_buf = (char *)xmalloc(len + 1);
1942                         strcpy(*argv_buf++, ptr);
1943                 }
1944                 *argv_buf = NULL;
1945
1946                 sob = statserv_getcontrol();
1947                 sob->bend_start = bend_start;
1948                 statserv_setcontrol(sob);
1949
1950                 root_perl_context = PERL_GET_CONTEXT;
1951                 yaz_mutex_create(&simpleserver_mutex);
1952 #if 0
1953                 /* only for debugging perl_clone .. */
1954                 tst_clones();
1955 #endif
1956
1957                 RETVAL = statserv_main(items, argv, bend_init, bend_close);
1958         OUTPUT:
1959                 RETVAL
1960
1961
1962 int
1963 ScanSuccess()
1964         CODE:
1965                 RETVAL = BEND_SCAN_SUCCESS;
1966         OUTPUT:
1967                 RETVAL
1968
1969 int
1970 ScanPartial()
1971         CODE:
1972                 RETVAL = BEND_SCAN_PARTIAL;
1973         OUTPUT:
1974                 RETVAL
1975
1976
1977 void
1978 yazlog(arg)
1979                 SV *arg
1980         CODE:
1981                 STRLEN len;
1982                 char *ptr;
1983                 ptr = SvPV(arg, len);
1984                 yaz_log(YLOG_LOG, "%.*s", (int) len, ptr);
1985
1986 int
1987 yaz_diag_srw_to_bib1(srw_code)
1988         int srw_code
1989
1990 int
1991 yaz_diag_bib1_to_srw(bib1_code)
1992         int bib1_code
1993
Simple Perl API for building Z39.50 servers.