/* This file is part of the YAZ toolkit. * Copyright (C) Index Data * See the file LICENSE for details. */ /** \file * \brief yaz-ztest Generic Frontend Server */ #if HAVE_CONFIG_H #include #endif #include #include #include #if HAVE_SYS_TIME_H #include #endif #if HAVE_UNISTD_H #include #endif #if HAVE_SYS_SELECT_H #include #endif #ifdef WIN32 #include #endif #include #include #include #include #include #include #include #include "ztest.h" static int log_level=0; static int log_level_set=0; struct delay { double d1; double d2; }; struct result_set { char *name; char *db; Odr_int hits; struct delay search_delay; struct delay present_delay; struct delay fetch_delay; struct result_set *next; }; struct session_handle { struct result_set *result_sets; }; int ztest_search(void *handle, bend_search_rr *rr); int ztest_sort(void *handle, bend_sort_rr *rr); int ztest_present(void *handle, bend_present_rr *rr); int ztest_esrequest(void *handle, bend_esrequest_rr *rr); int ztest_delete(void *handle, bend_delete_rr *rr); static struct result_set *get_set(struct session_handle *sh, const char *name) { struct result_set *set = sh->result_sets; for (; set; set = set->next) if (!strcmp(name, set->name)) return set; return 0; } static void remove_sets(struct session_handle *sh) { struct result_set *set = sh->result_sets; while (set) { struct result_set *set_next = set->next; xfree(set->name); xfree(set->db); xfree(set); set = set_next; } sh->result_sets = 0; } /** \brief use term value as hit count \param s RPN structure \param hash value for compuation \return >= 0: search term number or -1: not found Traverse RPN tree 'in order' and use term value as hit count. Only terms that looks a numeric is used.. Returns -1 if no sub tree has a hit count term */ static Odr_int get_term_hit(Z_RPNStructure *s, unsigned *hash) { Odr_int h = -1; switch(s->which) { case Z_RPNStructure_simple: if (s->u.simple->which == Z_Operand_APT) { Z_AttributesPlusTerm *apt = s->u.simple->u.attributesPlusTerm; if (apt->term->which == Z_Term_general) { Odr_oct *oct = apt->term->u.general; if (oct->len > 0 && oct->buf[0] >= '0' && oct->buf[0] <= '9') { WRBUF hits_str = wrbuf_alloc(); wrbuf_write(hits_str, (const char *) oct->buf, oct->len); h = odr_atoi(wrbuf_cstr(hits_str)); wrbuf_destroy(hits_str); } else { int i; for (i = 0; i < oct->len; i++) *hash = *hash * 65509 + oct->buf[i]; } } } break; case Z_RPNStructure_complex: h = get_term_hit(s->u.complex->s1, hash); if (h == -1) h = get_term_hit(s->u.complex->s2, hash); break; } return h; } /** \brief gets hit count for numeric terms in RPN queries \param q RPN Query \return number of hits This is just for testing.. A real database of course uses the content of a database to establish a value.. In our case, we have a way to trigger a certain hit count. Good for testing of client applications etc */ static Odr_int get_hit_count(Z_Query *q) { if (q->which == Z_Query_type_1 || q->which == Z_Query_type_101) { unsigned hash = 0; Odr_int h = -1; h = get_term_hit(q->u.type_1->RPNStructure, &hash); if (h == -1) h = hash % 24; return h; } else if (q->which == Z_Query_type_104 && q->u.type_104->which == Z_External_CQL) { unsigned hash = 0; const char *cql = q->u.type_104->u.cql; int i; for (i = 0; cql[i]; i++) hash = hash * 65509 + cql[i]; return hash % 24; } else return 24; } /** \brief checks if it's a dummy Slow database \param basename database name to check \param association backend association (or NULL if not available) \retval 1 is slow database \retval 0 is not a slow database The Slow database is for testing.. It allows us to simulate a slow server... */ static int check_slow(const char *basename, bend_association association) { if (strncmp(basename, "Slow", 4) == 0) { #if HAVE_UNISTD_H int i, w = 3; if (basename[4]) sscanf(basename+4, "%d", &w); /* wait up to 3 seconds and check if connection is still alive */ for (i = 0; i < w; i++) { if (association && !bend_assoc_is_alive(association)) { yaz_log(YLOG_LOG, "search aborted"); break; } sleep(1); } #endif return 1; } return 0; } static int strcmp_prefix(const char *s, const char *p) { size_t l = strlen(p); if (strlen(s) >= l && !memcmp(s, p, l)) return 1; return 0; } static void init_delay(struct delay *delayp) { delayp->d1 = delayp->d2 = 0.0; } static int parse_delay(struct delay *delayp, const char *value) { if (sscanf(value, "%lf:%lf", &delayp->d1, &delayp->d2) == 2) ; else if (sscanf(value, "%lf", &delayp->d1) == 1) delayp->d2 = 0.0; else return -1; return 0; } static void ztest_sleep(double d) { #ifdef WIN32 Sleep( (DWORD) (d * 1000)); #else struct timeval tv; tv.tv_sec = d; tv.tv_usec = (d - (long) d) * 1000000; select(0, 0, 0, 0, &tv); #endif } static void do_delay(const struct delay *delayp) { double d = delayp->d1; if (d > 0.0) { if (delayp->d2 > d) d += (rand()) * (delayp->d2 - d) / RAND_MAX; ztest_sleep(d); } } static void addterms(ODR odr, Z_FacetField *facet_field, const char *facet_name) { int index; int freq = 100; int length = strlen(facet_name) + 10; char *key = odr_malloc(odr, length); key[0] = '\0'; for (index = 0; index < facet_field->num_terms; index++) { Z_FacetTerm *facet_term; sprintf(key, "%s%d", facet_name, index); yaz_log(YLOG_DEBUG, "facet add term %s %d %s", facet_name, index, key); facet_term = facet_term_create_cstr(odr, key, freq); freq = freq - 10 ; facet_field_term_set(odr, facet_field, facet_term, index); } } Z_OtherInformation *build_facet_response(ODR odr, Z_FacetList *facet_list) { int index, new_index = 0; Z_FacetList *new_list = facet_list_create(odr, facet_list->num); for (index = 0; index < facet_list->num; index++) { struct yaz_facet_attr attrvalues; yaz_facet_attr_init(&attrvalues); attrvalues.limit = 10; yaz_facet_attr_get_z_attributes(facet_list->elements[index]->attributes, &attrvalues); yaz_log(YLOG_LOG, "Attributes: %s limit=%d start=%d sort=%d", attrvalues.useattr ? attrvalues.useattr : "NONE", attrvalues.limit, attrvalues.start, attrvalues.sortorder); if (attrvalues.errstring) yaz_log(YLOG_LOG, "Error parsing attributes: %s", attrvalues.errstring); if (attrvalues.limit > 0 && attrvalues.useattr) { new_list->elements[new_index] = facet_field_create(odr, facet_list->elements[index]->attributes, attrvalues.limit); addterms(odr, new_list->elements[new_index], attrvalues.useattr); new_index++; } else { yaz_log(YLOG_DEBUG, "Facet: skipping %s due to 0 limit.", attrvalues.useattr); } } new_list->num = new_index; if (new_index > 0) { Z_OtherInformation *oi = odr_malloc(odr, sizeof(*oi)); Z_OtherInformationUnit *oiu = odr_malloc(odr, sizeof(*oiu)); oi->num_elements = 1; oi->list = odr_malloc(odr, oi->num_elements * sizeof(*oi->list)); oiu->category = 0; oiu->which = Z_OtherInfo_externallyDefinedInfo; oiu->information.externallyDefinedInfo = odr_malloc(odr, sizeof(*oiu->information.externallyDefinedInfo)); oiu->information.externallyDefinedInfo->direct_reference = odr_oiddup(odr, yaz_oid_userinfo_facet_1); oiu->information.externallyDefinedInfo->descriptor = 0; oiu->information.externallyDefinedInfo->indirect_reference = 0; oiu->information.externallyDefinedInfo->which = Z_External_userFacets; oiu->information.externallyDefinedInfo->u.facetList = new_list; oi->list[0] = oiu; return oi; } return 0; } static void echo_extra_args(ODR stream, Z_SRW_extra_arg *extra_args, char **extra_response) { if (extra_args) { Z_SRW_extra_arg *a; WRBUF response_xml = wrbuf_alloc(); wrbuf_puts(response_xml, ""); for (a = extra_args; a; a = a->next) { wrbuf_puts(response_xml, "name); wrbuf_puts(response_xml, "\""); if (a->value) { wrbuf_puts(response_xml, " value=\""); wrbuf_xmlputs(response_xml, a->value); wrbuf_puts(response_xml, "\""); } wrbuf_puts(response_xml, "/>"); } wrbuf_puts(response_xml, ""); *extra_response = odr_strdup(stream, wrbuf_cstr(response_xml)); wrbuf_destroy(response_xml); } } int ztest_search(void *handle, bend_search_rr *rr) { struct session_handle *sh = (struct session_handle*) handle; struct result_set *new_set; const char *db, *db_sep; if (rr->num_bases != 1) { rr->errcode = YAZ_BIB1_COMBI_OF_SPECIFIED_DATABASES_UNSUPP; return 0; } db = rr->basenames[0]; /* Allow Default, db.* and Slow */ if (strcmp_prefix(db, "Default")) ; /* Default is OK in our test */ else if (strcmp_prefix(db, "db")) ; /* db.* is OK in our test */ else if (check_slow(rr->basenames[0], rr->association)) { rr->estimated_hit_count = 1; } else { rr->errcode = YAZ_BIB1_DATABASE_UNAVAILABLE; rr->errstring = rr->basenames[0]; return 0; } new_set = get_set(sh, rr->setname); if (new_set) { if (!rr->replace_set) { rr->errcode = YAZ_BIB1_RESULT_SET_EXISTS_AND_REPLACE_INDICATOR_OFF; return 0; } xfree(new_set->db); } else { new_set = xmalloc(sizeof(*new_set)); new_set->next = sh->result_sets; sh->result_sets = new_set; new_set->name = xstrdup(rr->setname); } new_set->hits = 0; new_set->db = xstrdup(db); init_delay(&new_set->search_delay); init_delay(&new_set->present_delay); init_delay(&new_set->fetch_delay); db_sep = strchr(db, '?'); if (db_sep) { char **names; char **values; int no_parms = yaz_uri_to_array(db_sep+1, rr->stream, &names, &values); int i; for (i = 0; i < no_parms; i++) { const char *name = names[i]; const char *value = values[i]; if (!strcmp(name, "seed")) srand(atoi(value)); else if (!strcmp(name, "search-delay")) parse_delay(&new_set->search_delay, value); else if (!strcmp(name, "present-delay")) parse_delay(&new_set->present_delay, value); else if (!strcmp(name, "fetch-delay")) parse_delay(&new_set->fetch_delay, value); else { rr->errcode = YAZ_BIB1_SERVICE_UNSUPP_FOR_THIS_DATABASE; rr->errstring = odr_strdup(rr->stream, name); } } } echo_extra_args(rr->stream, rr->extra_args, &rr->extra_response_data); rr->hits = get_hit_count(rr->query); if (1) { Z_FacetList *facet_list = yaz_oi_get_facetlist(&rr->search_input); if (facet_list) { yaz_log(YLOG_LOG, "%d Facets in search request.", facet_list->num); rr->search_info = build_facet_response(rr->stream, facet_list); } else yaz_log(YLOG_DEBUG, "No facets parsed search request."); } do_delay(&new_set->search_delay); new_set->hits = rr->hits; return 0; } /* this huge function handles extended services */ int ztest_esrequest(void *handle, bend_esrequest_rr *rr) { if (rr->esr->packageName) yaz_log(log_level, "packagename: %s", rr->esr->packageName); yaz_log(log_level, "Waitaction: " ODR_INT_PRINTF, *rr->esr->waitAction); yaz_log(log_level, "function: " ODR_INT_PRINTF, *rr->esr->function); if (!rr->esr->taskSpecificParameters) { yaz_log(log_level, "No task specific parameters"); } else if (rr->esr->taskSpecificParameters->which == Z_External_itemOrder) { Z_ItemOrder *it = rr->esr->taskSpecificParameters->u.itemOrder; yaz_log(log_level, "Received ItemOrder"); if (it->which == Z_IOItemOrder_esRequest) { Z_IORequest *ir = it->u.esRequest; Z_IOOriginPartToKeep *k = ir->toKeep; Z_IOOriginPartNotToKeep *n = ir->notToKeep; const char *xml_in_response = 0; if (k && k->contact) { if (k->contact->name) yaz_log(log_level, "contact name %s", k->contact->name); if (k->contact->phone) yaz_log(log_level, "contact phone %s", k->contact->phone); if (k->contact->email) yaz_log(log_level, "contact email %s", k->contact->email); } if (k->addlBilling) { yaz_log(log_level, "Billing info (not shown)"); } if (n->resultSetItem) { yaz_log(log_level, "resultsetItem"); yaz_log(log_level, "setId: %s", n->resultSetItem->resultSetId); yaz_log(log_level, "item: " ODR_INT_PRINTF, *n->resultSetItem->item); } if (n->itemRequest) { Z_External *r = (Z_External*) n->itemRequest; ILL_ItemRequest *item_req = 0; ILL_APDU *ill_apdu = 0; if (r->direct_reference) { char oid_name_str[OID_STR_MAX]; oid_class oclass; const char *oid_name = yaz_oid_to_string_buf(r->direct_reference, &oclass, oid_name_str); if (oid_name) yaz_log(log_level, "OID %s", oid_name); if (!oid_oidcmp(r->direct_reference, yaz_oid_recsyn_xml)) { yaz_log(log_level, "ILL XML request"); if (r->which == Z_External_octet) yaz_log(log_level, "%.*s", r->u.octet_aligned->len, r->u.octet_aligned->buf); xml_in_response = "x"; } if (!oid_oidcmp(r->direct_reference, yaz_oid_general_isoill_1)) { yaz_log(log_level, "Decode ItemRequest begin"); if (r->which == ODR_EXTERNAL_single) { odr_setbuf(rr->decode, (char *) r->u.single_ASN1_type->buf, r->u.single_ASN1_type->len, 0); if (!ill_ItemRequest(rr->decode, &item_req, 0, 0)) { yaz_log(log_level, "Couldn't decode ItemRequest %s near %ld", odr_errmsg(odr_geterror(rr->decode)), (long) odr_offset(rr->decode)); } else yaz_log(log_level, "Decode ItemRequest OK"); if (rr->print) { ill_ItemRequest(rr->print, &item_req, 0, "ItemRequest"); odr_reset(rr->print); } } if (!item_req && r->which == ODR_EXTERNAL_single) { yaz_log(log_level, "Decode ILL APDU begin"); odr_setbuf(rr->decode, (char*) r->u.single_ASN1_type->buf, r->u.single_ASN1_type->len, 0); if (!ill_APDU(rr->decode, &ill_apdu, 0, 0)) { yaz_log(log_level, "Couldn't decode ILL APDU %s near %ld", odr_errmsg(odr_geterror(rr->decode)), (long) odr_offset(rr->decode)); yaz_log(log_level, "PDU dump:"); odr_dumpBER(yaz_log_file(), (char *) r->u.single_ASN1_type->buf, r->u.single_ASN1_type->len); } else yaz_log(log_level, "Decode ILL APDU OK"); if (rr->print) { ill_APDU(rr->print, &ill_apdu, 0, "ILL APDU"); odr_reset(rr->print); } } } } if (item_req) { yaz_log(log_level, "ILL protocol version = " ODR_INT_PRINTF, *item_req->protocol_version_num); } } if (k) { Z_External *ext = (Z_External *) odr_malloc(rr->stream, sizeof(*ext)); Z_IUOriginPartToKeep *keep = (Z_IUOriginPartToKeep *) odr_malloc(rr->stream, sizeof(*keep)); Z_IOTargetPart *targetPart = (Z_IOTargetPart *) odr_malloc(rr->stream, sizeof(*targetPart)); rr->taskPackage = (Z_TaskPackage *) odr_malloc(rr->stream, sizeof(*rr->taskPackage)); rr->taskPackage->packageType = odr_oiddup(rr->stream, rr->esr->packageType); rr->taskPackage->packageName = 0; rr->taskPackage->userId = 0; rr->taskPackage->retentionTime = 0; rr->taskPackage->permissions = 0; rr->taskPackage->description = 0; rr->taskPackage->targetReference = odr_create_Odr_oct(rr->stream, "911", 3); rr->taskPackage->creationDateTime = 0; rr->taskPackage->taskStatus = odr_intdup(rr->stream, 0); rr->taskPackage->packageDiagnostics = 0; rr->taskPackage->taskSpecificParameters = ext; ext->direct_reference = odr_oiddup(rr->stream, rr->esr->packageType); ext->indirect_reference = 0; ext->descriptor = 0; ext->which = Z_External_itemOrder; ext->u.itemOrder = (Z_ItemOrder *) odr_malloc(rr->stream, sizeof(*ext->u.update)); ext->u.itemOrder->which = Z_IOItemOrder_taskPackage; ext->u.itemOrder->u.taskPackage = (Z_IOTaskPackage *) odr_malloc(rr->stream, sizeof(Z_IOTaskPackage)); ext->u.itemOrder->u.taskPackage->originPart = k; ext->u.itemOrder->u.taskPackage->targetPart = targetPart; if (xml_in_response) targetPart->itemRequest = z_ext_record_xml(rr->stream, xml_in_response, strlen(xml_in_response)); else targetPart->itemRequest = 0; targetPart->statusOrErrorReport = 0; targetPart->auxiliaryStatus = 0; } } } else if (rr->esr->taskSpecificParameters->which == Z_External_update) { Z_IUUpdate *up = rr->esr->taskSpecificParameters->u.update; yaz_log(log_level, "Received DB Update"); if (up->which == Z_IUUpdate_esRequest) { Z_IUUpdateEsRequest *esRequest = up->u.esRequest; Z_IUOriginPartToKeep *toKeep = esRequest->toKeep; Z_IUSuppliedRecords *notToKeep = esRequest->notToKeep; yaz_log(log_level, "action"); if (toKeep->action) { switch (*toKeep->action) { case Z_IUOriginPartToKeep_recordInsert: yaz_log(log_level, " recordInsert"); break; case Z_IUOriginPartToKeep_recordReplace: yaz_log(log_level, " recordReplace"); break; case Z_IUOriginPartToKeep_recordDelete: yaz_log(log_level, " recordDelete"); break; case Z_IUOriginPartToKeep_elementUpdate: yaz_log(log_level, " elementUpdate"); break; case Z_IUOriginPartToKeep_specialUpdate: yaz_log(log_level, " specialUpdate"); break; default: yaz_log(log_level, " unknown (" ODR_INT_PRINTF ")", *toKeep->action); } } if (toKeep->databaseName) { yaz_log(log_level, "database: %s", toKeep->databaseName); if (!strcmp(toKeep->databaseName, "fault")) { rr->errcode = YAZ_BIB1_DATABASE_UNAVAILABLE; rr->errstring = toKeep->databaseName; } if (!strcmp(toKeep->databaseName, "accept")) rr->errcode = -1; } if (toKeep) { Z_External *ext = (Z_External *) odr_malloc(rr->stream, sizeof(*ext)); Z_IUOriginPartToKeep *keep = (Z_IUOriginPartToKeep *) odr_malloc(rr->stream, sizeof(*keep)); Z_IUTargetPart *targetPart = (Z_IUTargetPart *) odr_malloc(rr->stream, sizeof(*targetPart)); rr->taskPackage = (Z_TaskPackage *) odr_malloc(rr->stream, sizeof(*rr->taskPackage)); rr->taskPackage->packageType = odr_oiddup(rr->stream, rr->esr->packageType); rr->taskPackage->packageName = 0; rr->taskPackage->userId = 0; rr->taskPackage->retentionTime = 0; rr->taskPackage->permissions = 0; rr->taskPackage->description = 0; rr->taskPackage->targetReference = odr_create_Odr_oct(rr->stream, "123", 3); rr->taskPackage->creationDateTime = 0; rr->taskPackage->taskStatus = odr_intdup(rr->stream, 0); rr->taskPackage->packageDiagnostics = 0; rr->taskPackage->taskSpecificParameters = ext; ext->direct_reference = odr_oiddup(rr->stream, rr->esr->packageType); ext->indirect_reference = 0; ext->descriptor = 0; ext->which = Z_External_update; ext->u.update = (Z_IUUpdate *) odr_malloc(rr->stream, sizeof(*ext->u.update)); ext->u.update->which = Z_IUUpdate_taskPackage; ext->u.update->u.taskPackage = (Z_IUUpdateTaskPackage *) odr_malloc(rr->stream, sizeof(Z_IUUpdateTaskPackage)); ext->u.update->u.taskPackage->originPart = keep; ext->u.update->u.taskPackage->targetPart = targetPart; keep->action = odr_intdup(rr->stream, *toKeep->action); keep->databaseName = odr_strdup(rr->stream, toKeep->databaseName); keep->schema = 0; keep->elementSetName = 0; keep->actionQualifier = 0; targetPart->updateStatus = odr_intdup(rr->stream, 1); targetPart->num_globalDiagnostics = 0; targetPart->globalDiagnostics = (Z_DiagRec **) odr_nullval(); targetPart->num_taskPackageRecords = 1; targetPart->taskPackageRecords = (Z_IUTaskPackageRecordStructure **) odr_malloc(rr->stream, sizeof(Z_IUTaskPackageRecordStructure *)); targetPart->taskPackageRecords[0] = (Z_IUTaskPackageRecordStructure *) odr_malloc(rr->stream, sizeof(Z_IUTaskPackageRecordStructure)); targetPart->taskPackageRecords[0]->which = Z_IUTaskPackageRecordStructure_record; targetPart->taskPackageRecords[0]->u.record = z_ext_record_sutrs(rr->stream, "test", 4); targetPart->taskPackageRecords[0]->correlationInfo = 0; targetPart->taskPackageRecords[0]->recordStatus = odr_intdup(rr->stream, Z_IUTaskPackageRecordStructure_success); targetPart->taskPackageRecords[0]->num_supplementalDiagnostics = 0; targetPart->taskPackageRecords[0]->supplementalDiagnostics = 0; } if (notToKeep) { int i; for (i = 0; i < notToKeep->num; i++) { Z_External *rec = notToKeep->elements[i]->record; if (rec->direct_reference) { char oid_name_str[OID_STR_MAX]; const char *oid_name = oid_name = yaz_oid_to_string_buf( rec->direct_reference, 0, oid_name_str); if (oid_name) yaz_log(log_level, "record %d type %s", i, oid_name); } switch (rec->which) { case Z_External_sutrs: if (rec->u.octet_aligned->len > 170) yaz_log(log_level, "%d bytes:\n%.168s ...", rec->u.sutrs->len, rec->u.sutrs->buf); else yaz_log(log_level, "%d bytes:\n%s", rec->u.sutrs->len, rec->u.sutrs->buf); break; case Z_External_octet : if (rec->u.octet_aligned->len > 170) yaz_log(log_level, "%d bytes:\n%.168s ...", rec->u.octet_aligned->len, rec->u.octet_aligned->buf); else yaz_log(log_level, "%d bytes\n%s", rec->u.octet_aligned->len, rec->u.octet_aligned->buf); } } } } } return 0; } /* result set delete */ int ztest_delete(void *handle, bend_delete_rr *rr) { if (rr->num_setnames == 1 && !strcmp(rr->setnames[0], "1")) rr->delete_status = Z_DeleteStatus_success; else rr->delete_status = Z_DeleteStatus_resultSetDidNotExist; return 0; } /* Our sort handler really doesn't sort... */ int ztest_sort(void *handle, bend_sort_rr *rr) { rr->errcode = 0; rr->sort_status = Z_SortResponse_success; return 0; } /* present request handler */ int ztest_present(void *handle, bend_present_rr *rr) { struct session_handle *sh = (struct session_handle*) handle; struct result_set *set = get_set(sh, rr->setname); if (!set) { rr->errcode = YAZ_BIB1_SPECIFIED_RESULT_SET_DOES_NOT_EXIST; rr->errstring = odr_strdup(rr->stream, rr->setname); return 0; } do_delay(&set->present_delay); return 0; } /* retrieval of a single record (present, and piggy back search) */ int ztest_fetch(void *handle, bend_fetch_rr *r) { struct session_handle *sh = (struct session_handle*) handle; char *cp; const Odr_oid *oid = r->request_format; struct result_set *set = get_set(sh, r->setname); const char *esn = yaz_get_esn(r->comp); if (!set) { r->errcode = YAZ_BIB1_SPECIFIED_RESULT_SET_DOES_NOT_EXIST; r->errstring = odr_strdup(r->stream, r->setname); return 0; } do_delay(&set->fetch_delay); r->last_in_set = 0; r->basename = set->db; r->output_format = r->request_format; if (r->number < 1 || r->number > set->hits) { r->errcode = YAZ_BIB1_PRESENT_REQUEST_OUT_OF_RANGE; return 0; } if (!oid || yaz_oid_is_iso2709(oid)) { cp = dummy_marc_record(r->number, r->stream); if (!cp) { r->errcode = YAZ_BIB1_SYSTEM_ERROR_IN_PRESENTING_RECORDS; r->surrogate_flag = 1; return 0; } else { r->len = strlen(cp); r->record = cp; r->output_format = odr_oiddup(r->stream, yaz_oid_recsyn_usmarc); } } else if (!oid_oidcmp(oid, yaz_oid_recsyn_opac)) { cp = dummy_marc_record(r->number, r->stream); if (!cp) { r->errcode = YAZ_BIB1_SYSTEM_ERROR_IN_PRESENTING_RECORDS; r->surrogate_flag = 1; return 0; } r->record = (char *) dummy_opac(r->number, r->stream, cp); r->len = -1; } else if (!oid_oidcmp(oid, yaz_oid_recsyn_sutrs)) { /* this section returns a small record */ char buf[100]; sprintf(buf, "This is dummy SUTRS record number %d\n", r->number); r->len = strlen(buf); r->record = (char *) odr_malloc(r->stream, r->len+1); strcpy(r->record, buf); } else if (!oid_oidcmp(oid, yaz_oid_recsyn_grs_1)) { r->len = -1; r->record = (char*) dummy_grs_record(r->number, r->stream); if (!r->record) { r->errcode = YAZ_BIB1_SYSTEM_ERROR_IN_PRESENTING_RECORDS; r->surrogate_flag = 1; return 0; } } else if (!oid_oidcmp(oid, yaz_oid_recsyn_postscript)) { char fname[20]; FILE *f; long size; sprintf(fname, "part.%d.ps", r->number); f = fopen(fname, "rb"); if (!f) { r->errcode = YAZ_BIB1_SYSTEM_ERROR_IN_PRESENTING_RECORDS; r->surrogate_flag = 1; return 0; } fseek(f, 0L, SEEK_END); size = ftell(f); if (size <= 0 || size >= 5000000) { r->errcode = YAZ_BIB1_SYSTEM_ERROR_IN_PRESENTING_RECORDS; r->surrogate_flag = 1; } fseek(f, 0L, SEEK_SET); r->record = (char*) odr_malloc(r->stream, size); r->len = size; if (fread(r->record, size, 1, f) != 1) { r->errcode = YAZ_BIB1_SYSTEM_ERROR_IN_PRESENTING_RECORDS; r->surrogate_flag = 1; } fclose(f); } else if (!oid_oidcmp(oid, yaz_oid_recsyn_xml)) { if ((cp = dummy_xml_record(r->number, r->stream, esn))) { r->len = strlen(cp); r->record = cp; r->schema = "info:srw/schema/1/marcxml-1.1"; } else { r->errcode = YAZ_BIB1_SYSTEM_ERROR_IN_PRESENTING_RECORDS; r->surrogate_flag = 1; return 0; } } else if (!oid_oidcmp(oid, yaz_oid_recsyn_json)) { if ((cp = dummy_json_record(r->number, r->stream, esn))) { r->len = strlen(cp); r->record = cp; r->schema = "info:srw/schema/1/marcxml-1.1"; } else { r->errcode = YAZ_BIB1_SYSTEM_ERROR_IN_PRESENTING_RECORDS; r->surrogate_flag = 1; return 0; } } else { char buf[OID_STR_MAX]; r->errcode = YAZ_BIB1_RECORD_SYNTAX_UNSUPP; r->errstring = odr_strdup(r->stream, oid_oid_to_dotstring(oid, buf)); return 0; } r->errcode = 0; return 0; } /* * silly dummy-scan what reads words from a file. */ int ztest_scan(void *handle, bend_scan_rr *q) { static FILE *f = 0; static struct scan_entry list[200]; static char entries[200][80]; int hits[200]; char term[80], *p; int i, pos; int term_position_req = q->term_position; int num_entries_req = q->num_entries; /* Throw Database unavailable if other than Default or Slow */ if (!yaz_matchstr(q->basenames[0], "Default")) ; /* Default is OK in our test */ else if (check_slow(q->basenames[0], 0 /* no assoc for scan */)) ; else { q->errcode = YAZ_BIB1_DATABASE_UNAVAILABLE; q->errstring = q->basenames[0]; return 0; } q->errcode = 0; q->errstring = 0; q->entries = list; q->status = BEND_SCAN_SUCCESS; if (!f && !(f = fopen("dummy-words", "r"))) { perror("dummy-words"); exit(1); } if (q->num_entries > 200) { q->errcode = YAZ_BIB1_RESOURCES_EXHAUSTED_NO_RESULTS_AVAILABLE; return 0; } if (q->term) { int len; if (q->term->term->which != Z_Term_general) { q->errcode = YAZ_BIB1_TERM_TYPE_UNSUPP; return 0; } if (*q->step_size != 0) { q->errcode = YAZ_BIB1_ONLY_ZERO_STEP_SIZE_SUPPORTED_FOR_SCAN; return 0; } len = q->term->term->u.general->len; if (len >= (int ) sizeof(term)) len = sizeof(term)-1; memcpy(term, q->term->term->u.general->buf, len); term[len] = '\0'; } else if (q->scanClause) { strncpy(term, q->scanClause, sizeof(term)-1); term[sizeof(term)-1] = '\0'; } else strcpy(term, "0"); for (p = term; *p; p++) if (yaz_islower(*p)) *p = yaz_toupper(*p); fseek(f, 0, SEEK_SET); q->num_entries = 0; for (i = 0, pos = 0; fscanf(f, " %79[^:]:%d", entries[pos], &hits[pos]) == 2; i++, pos < 199 ? pos++ : (pos = 0)) { if (!q->num_entries && strcmp(entries[pos], term) >= 0) /* s-point fnd */ { if ((q->term_position = term_position_req) > i + 1) { q->term_position = i + 1; q->status = BEND_SCAN_PARTIAL; } for (; q->num_entries < q->term_position; q->num_entries++) { int po; po = pos - q->term_position + q->num_entries+1; /* find pos */ if (po < 0) po += 200; if (!strcmp(term, "SD") && q->num_entries == 2) { list[q->num_entries].term = entries[pos]; list[q->num_entries].occurrences = -1; list[q->num_entries].errcode = YAZ_BIB1_SCAN_UNSUPP_VALUE_OF_POSITION_IN_RESPONSE; list[q->num_entries].errstring = "SD for Scan Term"; } else { list[q->num_entries].term = entries[po]; list[q->num_entries].occurrences = hits[po]; } } } else if (q->num_entries) { list[q->num_entries].term = entries[pos]; list[q->num_entries].occurrences = hits[pos]; q->num_entries++; } if (q->num_entries >= num_entries_req) break; } echo_extra_args(q->stream, q->extra_args, &q->extra_response_data); if (feof(f)) q->status = BEND_SCAN_PARTIAL; return 0; } int ztest_explain(void *handle, bend_explain_rr *rr) { if (rr->database && !strcmp(rr->database, "Default")) { rr->explain_buf = "\n" "\t\n" "\t\tlocalhost\n" "\t\t210\n" "\t\n" "\n"; } return 0; } int ztest_update(void *handle, bend_update_rr *rr) { rr->operation_status = "success"; return 0; } bend_initresult *bend_init(bend_initrequest *q) { bend_initresult *r = (bend_initresult *) odr_malloc(q->stream, sizeof(*r)); struct session_handle *sh = xmalloc(sizeof(*sh)); sh->result_sets = 0; if (!log_level_set) { log_level=yaz_log_module_level("ztest"); log_level_set=1; } r->errcode = 0; r->errstring = 0; r->handle = sh; /* tell GFS about our handle */ q->bend_sort = ztest_sort; /* register sort handler */ q->bend_search = ztest_search; /* register search handler */ q->bend_present = ztest_present; /* register present handle */ q->bend_esrequest = ztest_esrequest; q->bend_delete = ztest_delete; q->bend_fetch = ztest_fetch; q->bend_scan = ztest_scan; #if 0 q->bend_explain = ztest_explain; #endif q->bend_srw_scan = ztest_scan; q->bend_srw_update = ztest_update; q->query_charset = "ISO-8859-1"; q->records_in_same_charset = 0; return r; } void bend_close(void *handle) { struct session_handle *sh = (struct session_handle*) handle; remove_sets(sh); xfree(sh); /* release our session */ return; } int main(int argc, char **argv) { yaz_enable_panic_backtrace(argv[0]); return statserv_main(argc, argv, bend_init, bend_close); } /* * Local variables: * c-basic-offset: 4 * c-file-style: "Stroustrup" * indent-tabs-mode: nil * End: * vim: shiftwidth=4 tabstop=8 expandtab */