/* This file is part of the YAZ toolkit. * Copyright (C) Index Data * See the file LICENSE for details. */ /** * \file retrieval.c * \brief Retrieval utility */ #if HAVE_CONFIG_H #include #endif #include #include #include #include #include #include #include #include #include #if YAZ_HAVE_XML2 #include #include #include /** \brief The internal structure for yaz_retrieval_t */ struct yaz_retrieval_struct { /** \brief ODR memory for configuration */ ODR odr; /** \brief odr's NMEM memory (odr->mem) */ NMEM nmem; /** \brief string buffer for error messages */ WRBUF wr_error; /** \brief path for opening files */ char *path; /** \brief retrieval list */ struct yaz_retrieval_elem *list; /** \brief last pointer in retrieval list */ struct yaz_retrieval_elem **list_p; }; /** \brief information per 'retrieval' construct */ struct yaz_retrieval_elem { /** \brief schema identifier */ const char *identifier; /** \brief schema name , short-hand such as "dc" */ const char *name; /** \brief record syntax */ Odr_oid *syntax; /** \brief backend name */ const char *backend_name; /** \brief backend syntax */ Odr_oid *backend_syntax; /** \brief record conversion */ yaz_record_conv_t record_conv; /** \brief next element in list */ struct yaz_retrieval_elem *next; }; static void yaz_retrieval_reset(yaz_retrieval_t p); yaz_retrieval_t yaz_retrieval_create() { yaz_retrieval_t p = (yaz_retrieval_t) xmalloc(sizeof(*p)); p->odr = odr_createmem(ODR_ENCODE); p->nmem = odr_getmem(p->odr); p->wr_error = wrbuf_alloc(); p->list = 0; p->path = 0; yaz_retrieval_reset(p); return p; } void yaz_retrieval_destroy(yaz_retrieval_t p) { if (p) { yaz_retrieval_reset(p); odr_destroy(p->odr); wrbuf_destroy(p->wr_error); xfree(p->path); xfree(p); } } void yaz_retrieval_reset(yaz_retrieval_t p) { struct yaz_retrieval_elem *el = p->list; for(; el; el = el->next) yaz_record_conv_destroy(el->record_conv); wrbuf_rewind(p->wr_error); odr_reset(p->odr); p->list = 0; p->list_p = &p->list; } /** \brief parse retrieval XML config */ static int conf_retrieval(yaz_retrieval_t p, const xmlNode *ptr, struct yaz_record_conv_type *types) { struct _xmlAttr *attr; struct yaz_retrieval_elem *el = (struct yaz_retrieval_elem *) nmem_malloc(p->nmem, sizeof(*el)); el->syntax = 0; el->identifier = 0; el->name = 0; el->backend_name = 0; el->backend_syntax = 0; el->next = 0; for (attr = ptr->properties; attr; attr = attr->next) { if (!xmlStrcmp(attr->name, BAD_CAST "syntax") && attr->children && attr->children->type == XML_TEXT_NODE) { el->syntax = yaz_string_to_oid_odr( yaz_oid_std(), CLASS_RECSYN, (const char *) attr->children->content, p->odr); if (!el->syntax) { wrbuf_printf(p->wr_error, "Element : " " unknown attribute value syntax='%s'", (const char *) attr->children->content); return -1; } } else if (!xmlStrcmp(attr->name, BAD_CAST "identifier") && attr->children && attr->children->type == XML_TEXT_NODE) el->identifier = nmem_strdup(p->nmem, (const char *) attr->children->content); else if (!xmlStrcmp(attr->name, BAD_CAST "name") && attr->children && attr->children->type == XML_TEXT_NODE) el->name = nmem_strdup(p->nmem, (const char *) attr->children->content); else { wrbuf_printf(p->wr_error, "Element : " " expected attributes 'syntax', identifier' or " "'name', got '%s'", attr->name); return -1; } } if (!el->syntax) { wrbuf_printf(p->wr_error, "Missing 'syntax' attribute"); return -1; } /* parsing backend element */ el->record_conv = 0; /* OK to have no 'backend' sub content */ for (ptr = ptr->children; ptr; ptr = ptr->next) { if (ptr->type != XML_ELEMENT_NODE) continue; if (strcmp((const char *) ptr->name, "backend")) { wrbuf_printf(p->wr_error, "Element : expected" " zero or one element , got <%s>", (const char *) ptr->name); return -1; } else { struct _xmlAttr *attr; if (el->record_conv) { wrbuf_printf(p->wr_error, "Element : " "only one allowed"); yaz_record_conv_destroy(el->record_conv); return -1; } /* parsing attributees */ for (attr = ptr->properties; attr; attr = attr->next) { if (!xmlStrcmp(attr->name, BAD_CAST "name") && attr->children && attr->children->type == XML_TEXT_NODE) el->backend_name = nmem_strdup(p->nmem, (const char *) attr->children->content); else if (!xmlStrcmp(attr->name, BAD_CAST "syntax") && attr->children && attr->children->type == XML_TEXT_NODE) { el->backend_syntax = yaz_string_to_oid_odr( yaz_oid_std(), CLASS_RECSYN, (const char *) attr->children->content, p->odr); if (!el->backend_syntax) { wrbuf_printf(p->wr_error, "Element : " "attribute 'syntax' has invalid " "value '%s'", attr->children->content, attr->children->content); return -1; } } else { wrbuf_printf(p->wr_error, "Element : expected " "attributes 'syntax' or 'name, got '%s'", attr->name); return -1; } } /* parsing internal of record conv */ el->record_conv = yaz_record_conv_create(); yaz_record_conv_set_path(el->record_conv, p->path); if (yaz_record_conv_configure_t(el->record_conv, ptr, types)) { wrbuf_printf(p->wr_error, "%s", yaz_record_conv_get_error(el->record_conv)); yaz_record_conv_destroy(el->record_conv); return -1; } } } *p->list_p = el; p->list_p = &el->next; return 0; } int yaz_retrieval_configure_t(yaz_retrieval_t p, const xmlNode *ptr, struct yaz_record_conv_type *types) { yaz_retrieval_reset(p); if (ptr && ptr->type == XML_ELEMENT_NODE && !strcmp((const char *) ptr->name, "retrievalinfo")) { for (ptr = ptr->children; ptr; ptr = ptr->next) { if (ptr->type != XML_ELEMENT_NODE) continue; if (!strcmp((const char *) ptr->name, "retrieval")) { if (conf_retrieval(p, ptr, types)) return -1; } else { wrbuf_printf(p->wr_error, "Element : " "expected element , got <%s>", ptr->name); return -1; } } } else { wrbuf_printf(p->wr_error, "Expected element "); return -1; } return 0; } int yaz_retrieval_configure(yaz_retrieval_t p, const xmlNode *ptr) { return yaz_retrieval_configure_t(p, ptr, 0); } int yaz_retrieval_request(yaz_retrieval_t p, const char *schema, Odr_oid *syntax, const char **match_schema, Odr_oid **match_syntax, yaz_record_conv_t *rc, const char **backend_schema, Odr_oid **backend_syntax) { struct yaz_retrieval_elem *el = p->list; int syntax_matches = 0; int schema_matches = 0; struct yaz_retrieval_elem *el_best = 0; wrbuf_rewind(p->wr_error); if (!el) return 0; for(; el; el = el->next) { int schema_ok = 0; int syntax_ok = 0; if (!schema) schema_ok = 1; else { if (el->name && yaz_match_glob(el->name, schema)) schema_ok = 2; if (el->identifier && !strcmp(schema, el->identifier)) schema_ok = 2; if (!el->name && !el->identifier) schema_ok = 1; } if (syntax && el->syntax && !oid_oidcmp(syntax, el->syntax)) syntax_ok = 1; if (!syntax) syntax_ok = 1; if (syntax_ok) syntax_matches++; if (schema_ok) schema_matches++; if (syntax_ok && schema_ok) { if (!el_best || schema_ok == 2) el_best = el; } } if (el_best) { el = el_best; *match_syntax = el->syntax; if (el->identifier) *match_schema = el->identifier; else *match_schema = 0; if (backend_schema) { if (el->backend_name) { if (*el->backend_name) *backend_schema = el->backend_name; } else if (el->name) *backend_schema = el->name; else *backend_schema = schema; } if (backend_syntax) { if (el->backend_syntax) *backend_syntax = el->backend_syntax; else *backend_syntax = el->syntax; } if (rc) *rc = el->record_conv; return 0; } if (!syntax_matches && syntax) { char buf[OID_STR_MAX]; wrbuf_printf(p->wr_error, "%s", oid_oid_to_dotstring(syntax, buf)); return 2; } if (schema) wrbuf_printf(p->wr_error, "%s", schema); if (!schema_matches) return 1; return 3; } const char *yaz_retrieval_get_error(yaz_retrieval_t p) { return wrbuf_cstr(p->wr_error); } void yaz_retrieval_set_path(yaz_retrieval_t p, const char *path) { xfree(p->path); p->path = 0; if (path) p->path = xstrdup(path); } #endif /* * Local variables: * c-basic-offset: 4 * c-file-style: "Stroustrup" * indent-tabs-mode: nil * End: * vim: shiftwidth=4 tabstop=8 expandtab */