X-Git-Url: http://git.indexdata.com/?a=blobdiff_plain;f=index%2Fzebraapi.c;h=97ac2d75f48f8d673f28225a6cc9f2a86d52b8a9;hb=d71149439012fadf092321e3b507d23711715743;hp=50b998883151ae48ac58c9f26ab3a844e694b9d5;hpb=b718b0a9f4aaf52d38031bfb82d0d539e50332d6;p=idzebra-moved-to-github.git diff --git a/index/zebraapi.c b/index/zebraapi.c index 50b9988..65b9176 100644 --- a/index/zebraapi.c +++ b/index/zebraapi.c @@ -1,591 +1,2481 @@ -/* - * Copyright (C) 1995-1999, Index Data - * All rights reserved. - * Sebastian Hammer, Adam Dickmeiss - * - * $Log: zebraapi.c,v $ - * Revision 1.25 1999-11-04 15:00:45 adam - * Implemented delete result set(s). - * - * Revision 1.24 1999/10/14 14:33:50 adam - * Added truncation 5=106. - * - * Revision 1.23 1999/09/07 11:36:32 adam - * Minor changes. - * - * Revision 1.22 1999/08/02 10:13:47 adam - * Fixed bug regarding zebra_hits. - * - * Revision 1.21 1999/07/14 10:59:26 adam - * Changed functions isc_getmethod, isams_getmethod. - * Improved fatal error handling (such as missing EXPLAIN schema). - * - * Revision 1.20 1999/07/06 12:28:04 adam - * Updated record index structure. Format includes version ID. Compression - * algorithm ID is stored for each record block. - * - * Revision 1.19 1999/05/26 07:49:13 adam - * C++ compilation. - * - * Revision 1.18 1999/05/15 14:36:38 adam - * Updated dictionary. Implemented "compression" of dictionary. - * - * Revision 1.17 1999/05/12 13:08:06 adam - * First version of ISAMS. - * - * Revision 1.16 1999/02/19 10:38:30 adam - * Implemented chdir-setting. - * - * Revision 1.15 1999/02/17 12:18:12 adam - * Fixed zebra_close so that a NULL pointer is ignored. - * - * Revision 1.14 1999/02/02 14:51:11 adam - * Updated WIN32 code specific sections. Changed header. - * - * Revision 1.13 1998/12/16 12:23:30 adam - * Added facility for database name mapping using resource mapdb. - * - * Revision 1.12 1998/11/16 10:18:10 adam - * Better error reporting for result sets. - * - * Revision 1.11 1998/10/16 08:14:34 adam - * Updated record control system. - * - * Revision 1.10 1998/09/22 10:03:42 adam - * Changed result sets to be persistent in the sense that they can - * be re-searched if needed. - * Fixed memory leak in rsm_or. - * - * Revision 1.9 1998/09/02 13:53:17 adam - * Extra parameter decode added to search routines to implement - * persistent queries. - * - * Revision 1.8 1998/08/24 17:29:23 adam - * Minor changes. - * - * Revision 1.7 1998/06/24 12:16:13 adam - * Support for relations on text operands. Open range support in - * DFA module (i.e. [-j], [g-]). - * - * Revision 1.6 1998/06/22 11:36:47 adam - * Added authentication check facility to zebra. - * - * Revision 1.5 1998/06/13 00:14:08 adam - * Minor changes. - * - * Revision 1.4 1998/06/12 12:22:12 adam - * Work on Zebra API. - * - * Revision 1.3 1998/05/27 16:57:44 adam - * Zebra returns surrogate diagnostic for single records when - * appropriate. - * - * Revision 1.2 1998/05/20 10:12:19 adam - * Implemented automatic EXPLAIN database maintenance. - * Modified Zebra to work with ASN.1 compiled version of YAZ. - * - * Revision 1.1 1998/03/05 08:45:13 adam - * New result set model and modular ranking system. Moved towards - * descent server API. System information stored as "SGML" records. - * - */ +/* This file is part of the Zebra server. + Copyright (C) 1994-2009 Index Data + +Zebra is free software; you can redistribute it and/or modify it under +the terms of the GNU General Public License as published by the Free +Software Foundation; either version 2, or (at your option) any later +version. + +Zebra is distributed in the hope that it will be useful, but WITHOUT ANY +WARRANTY; without even the implied warranty of MERCHANTABILITY or +FITNESS FOR A PARTICULAR PURPOSE. See the GNU General Public License +for more details. +You should have received a copy of the GNU General Public License +along with this program; if not, write to the Free Software +Foundation, Inc., 51 Franklin St, Fifth Floor, Boston, MA 02110-1301 USA + +*/ + +#include #include +#include #ifdef WIN32 #include #include #include -#else +#endif +#if HAVE_UNISTD_H #include #endif -#include -#include "zserver.h" +#include +#include +#include +#include "index.h" +#include "rank.h" +#include "orddict.h" +#include +#include +#include + +#define DEFAULT_APPROX_LIMIT 2000000000 + +/* simple asserts to validate the most essential input args */ +#define ASSERTZH assert(zh && zh->service) +#define ASSERTZHRES assert(zh && zh->service && zh->res) +#define ASSERTZS assert(zs) + +static int log_level = 0; +static int log_level_initialized = 0; + +static void zebra_open_res(ZebraHandle zh); +static void zebra_close_res(ZebraHandle zh); + +static ZEBRA_RES zebra_check_handle(ZebraHandle zh) +{ + if (zh) + return ZEBRA_OK; + return ZEBRA_FAIL; +} + +#define ZEBRA_CHECK_HANDLE(zh) if (zebra_check_handle(zh) != ZEBRA_OK) return ZEBRA_FAIL -static void zebra_chdir (ZebraHandle zh) +static int zebra_chdir(ZebraService zs) { - const char *dir = res_get (zh->res, "chdir"); + const char *dir ; + int r; + ASSERTZS; + yaz_log(log_level, "zebra_chdir"); + dir = res_get(zs->global_res, "chdir"); if (!dir) - return; - logf (LOG_DEBUG, "chdir %s", dir); + return 0; + yaz_log(YLOG_DEBUG, "chdir %s", dir); #ifdef WIN32 - _chdir(dir); + r = _chdir(dir); #else - chdir (dir); + r = chdir(dir); #endif + if (r) + yaz_log(YLOG_FATAL|YLOG_ERRNO, "chdir %s", dir); + return r; +} + +static ZEBRA_RES zebra_flush_reg(ZebraHandle zh) +{ + ZEBRA_CHECK_HANDLE(zh); + yaz_log(log_level, "zebra_flush_reg"); + zebraExplain_flush(zh->reg->zei, zh); + + key_block_flush(zh->reg->key_block, 1); + + zebra_index_merge(zh); + return ZEBRA_OK; +} + +static struct zebra_register *zebra_register_open(ZebraService zs, + const char *name, + int rw, int useshadow, + Res res, + const char *reg_path); +static void zebra_register_close(ZebraService zs, struct zebra_register *reg); + +const char *zebra_get_encoding(ZebraHandle zh) +{ + assert(zh && zh->session_res); + return res_get_def(zh->session_res, "encoding", "ISO-8859-1"); +} + +ZebraHandle zebra_open(ZebraService zs, Res res) +{ + ZebraHandle zh; + const char *default_encoding; + if (!log_level_initialized) + { + log_level = yaz_log_module_level("zebraapi"); + log_level_initialized = 1; + } + + yaz_log(log_level, "zebra_open"); + + if (!zs) + return 0; + + zh = (ZebraHandle) xmalloc(sizeof(*zh)); + yaz_log(YLOG_DEBUG, "zebra_open zs=%p returns %p", zs, zh); + + zh->service = zs; + zh->reg = 0; /* no register attached yet */ + zh->sets = 0; + zh->destroyed = 0; + zh->errCode = 0; + zh->errString = 0; + zh->res = 0; + zh->session_res = res_open(zs->global_res, res); + zh->user_perm = 0; + zh->dbaccesslist = 0; + + zh->reg_name = xstrdup(""); + zh->path_reg = 0; + zh->num_basenames = 0; + zh->basenames = 0; + + zh->approx_limit = DEFAULT_APPROX_LIMIT; + zh->trans_no = 0; + zh->trans_w_no = 0; + + zh->lock_normal = 0; + zh->lock_shadow = 0; + + zh->shadow_enable = 1; + zh->m_staticrank = 0; + zh->m_segment_indexing = 0; + + zh->break_handler_func = 0; + zh->break_handler_data = 0; + + default_encoding = zebra_get_encoding(zh); + + zh->iconv_to_utf8 = + yaz_iconv_open("UTF-8", default_encoding); + if (zh->iconv_to_utf8 == 0) + yaz_log(YLOG_WARN, "iconv: %s to UTF-8 unsupported", + default_encoding); + zh->iconv_from_utf8 = + yaz_iconv_open(default_encoding, "UTF-8"); + if (zh->iconv_to_utf8 == 0) + yaz_log(YLOG_WARN, "iconv: UTF-8 to %s unsupported", + default_encoding); + + zh->record_encoding = 0; + + zebra_mutex_cond_lock(&zs->session_lock); + + zh->next = zs->sessions; + zs->sessions = zh; + + zebra_mutex_cond_unlock(&zs->session_lock); + + zh->store_data_buf = 0; + + zh->m_limit = zebra_limit_create(1, 0); + + zh->nmem_error = nmem_create(); + + return zh; +} + +ZebraService zebra_start(const char *configName) +{ + return zebra_start_res(configName, 0, 0); +} + +ZebraService zebra_start_res(const char *configName, Res def_res, Res over_res) +{ + Res res; + char version_str[16]; + char system_str[80]; + + zebra_flock_init(); + + if (!log_level_initialized) + { + log_level = yaz_log_module_level("zebraapi"); + log_level_initialized = 1; + } + + *system_str = '\0'; + *version_str = '\0'; + zebra_get_version(version_str, system_str); + + yaz_log(YLOG_LOG, "zebra_start %s %s", version_str, system_str); + if (configName) + yaz_log(YLOG_LOG, "config %s", configName); + + if ((res = res_open(def_res, over_res))) + { + const char *passwd_plain = 0; + const char *passwd_encrypt = 0; + const char *dbaccess = 0; + ZebraService zh = 0; + + if (configName) + { + ZEBRA_RES ret = res_read_file(res, configName); + if (ret != ZEBRA_OK) + { + res_close(res); + return 0; + } + if (zebra_check_res(res)) + { + yaz_log(YLOG_FATAL, "Configuration error(s) for %s", + configName); + return 0; + } + } + else + { + zebra_check_res(res); + } + + zh = xmalloc(sizeof(*zh)); + zh->global_res = res; + zh->sessions = 0; + + if (zebra_chdir(zh)) + { + xfree(zh); + return 0; + } + + zebra_mutex_cond_init(&zh->session_lock); + passwd_plain = res_get(zh->global_res, "passwd"); + passwd_encrypt = res_get(zh->global_res, "passwd.c"); + dbaccess = res_get(zh->global_res, "dbaccess"); + + if (!passwd_plain && !passwd_encrypt) + zh->passwd_db = NULL; + else + { + zh->passwd_db = passwd_db_open(); + if (!zh->passwd_db) + yaz_log(YLOG_WARN|YLOG_ERRNO, "passwd_db_open failed"); + else + { + if (passwd_plain) + passwd_db_file_plain(zh->passwd_db, passwd_plain); + if (passwd_encrypt) + passwd_db_file_crypt(zh->passwd_db, passwd_encrypt); + } + } + + if (!dbaccess) + zh->dbaccess = NULL; + else { + zh->dbaccess = res_open(NULL, NULL); + if (res_read_file(zh->dbaccess, dbaccess) != ZEBRA_OK) { + yaz_log(YLOG_FATAL, "Failed to read %s", dbaccess); + return NULL; + } + } + + zh->timing = yaz_timing_create(); + zh->path_root = res_get(zh->global_res, "root"); + zh->nmem = nmem_create(); + zh->record_classes = recTypeClass_create(zh->global_res, zh->nmem); + + if (1) + { + const char *module_path = res_get(res, "modulePath"); + if (module_path) + recTypeClass_load_modules(&zh->record_classes, zh->nmem, + module_path); + } + return zh; + } + return 0; +} + +void zebra_filter_info(ZebraService zs, void *cd, + void(*cb)(void *cd, const char *name)) +{ + ASSERTZS; + assert(cb); + recTypeClass_info(zs->record_classes, cd, cb); +} + +void zebra_pidfname(ZebraService zs, char *path) +{ + ASSERTZS; + zebra_lock_prefix(zs->global_res, path); + strcat(path, "zebrasrv.pid"); +} + +Dict dict_open_res(BFiles bfs, const char *name, int cache, int rw, + int compact_flag, Res res) +{ + int page_size = 4096; + char resource_str[200]; + sprintf(resource_str, "dict.%.100s.pagesize", name); + assert(bfs); + assert(name); + + if (res_get_int(res, resource_str, &page_size) == ZEBRA_OK) + yaz_log(YLOG_LOG, "Using custom dictionary page size %d for %s", + page_size, name); + return dict_open(bfs, name, cache, rw, compact_flag, page_size); +} + +static +struct zebra_register *zebra_register_open(ZebraService zs, const char *name, + int rw, int useshadow, Res res, + const char *reg_path) +{ + struct zebra_register *reg; + int record_compression = REC_COMPRESS_NONE; + const char *compression_str = 0; + const char *profilePath; + int sort_type = ZEBRA_SORT_TYPE_FLAT; + ZEBRA_RES ret = ZEBRA_OK; + + ASSERTZS; + + reg = xmalloc(sizeof(*reg)); + + assert(name); + reg->name = xstrdup(name); + + reg->seqno = 0; + reg->last_val = 0; + + assert(res); + + yaz_log(YLOG_DEBUG, "zebra_register_open rw=%d useshadow=%d p=%p n=%s rp=%s", + rw, useshadow, reg, name, reg_path ? reg_path : "(none)"); + + reg->dh = data1_create(); + if (!reg->dh) + { + xfree(reg->name); + xfree(reg); + return 0; + } + reg->bfs = bfs_create(res_get(res, "register"), reg_path); + if (!reg->bfs) + { + data1_destroy(reg->dh); + xfree(reg->name); + xfree(reg); + return 0; + } + if (useshadow) + { + if (bf_cache(reg->bfs, res_get(res, "shadow")) == ZEBRA_FAIL) + { + bfs_destroy(reg->bfs); + data1_destroy(reg->dh); + xfree(reg->name); + xfree(reg); + return 0; + } + } + + profilePath = res_get_def(res, "profilePath", 0); + + data1_set_tabpath(reg->dh, profilePath); + data1_set_tabroot(reg->dh, reg_path); + reg->recTypes = recTypes_init(zs->record_classes, reg->dh); + + reg->zebra_maps = + zebra_maps_open(res, reg_path, profilePath); + if (!reg->zebra_maps) + { + recTypes_destroy(reg->recTypes); + bfs_destroy(reg->bfs); + data1_destroy(reg->dh); + xfree(reg->name); + xfree(reg); + return 0; + } + reg->rank_classes = NULL; + + reg->key_block = 0; + reg->keys = zebra_rec_keys_open(); + + reg->sortKeys = zebra_rec_keys_open(); + + reg->records = 0; + reg->dict = 0; + reg->sort_index = 0; + reg->isams = 0; + reg->matchDict = 0; + reg->isamc = 0; + reg->isamb = 0; + reg->zei = 0; + + /* installing rank classes */ + zebraRankInstall(reg, rank_1_class); + zebraRankInstall(reg, rank_2_class); + zebraRankInstall(reg, rank_similarity_class); + zebraRankInstall(reg, rank_static_class); + + compression_str = res_get_def(res, "compression_str", "none"); + if (!strcmp(compression_str, "none")) + record_compression = REC_COMPRESS_NONE; + else if (!strcmp(compression_str, "bzip2")) + record_compression = REC_COMPRESS_BZIP2; + else if (!strcmp(compression_str, "zlib")) + record_compression = REC_COMPRESS_ZLIB; + else + { + yaz_log(YLOG_FATAL, "invalid recordCompression: %s", compression_str); + ret = ZEBRA_FAIL; + } + + { + const char *index_fname = res_get_def(res, "index", "default.idx"); + if (index_fname && *index_fname && strcmp(index_fname, "none")) + { + if (zebra_maps_read_file(reg->zebra_maps, index_fname) != ZEBRA_OK) + ret = ZEBRA_FAIL; + } + else + { + zebra_maps_define_default_sort(reg->zebra_maps); + } + } + + if (!(reg->records = rec_open(reg->bfs, rw, record_compression))) + { + yaz_log(YLOG_WARN, "rec_open failed"); + ret = ZEBRA_FAIL; + } + if (rw) + { + reg->matchDict = dict_open_res(reg->bfs, GMATCH_DICT, 20, 1, 0, res); + } + if (!(reg->dict = dict_open_res(reg->bfs, FNAME_DICT, 40, rw, 0, res))) + { + yaz_log(YLOG_WARN, "dict_open failed"); + ret = ZEBRA_FAIL; + } + + + if (res_get_match(res, "sortindex", "f", "f")) + sort_type = ZEBRA_SORT_TYPE_FLAT; + else if (res_get_match(res, "sortindex", "i", "f")) + sort_type = ZEBRA_SORT_TYPE_ISAMB; + else if (res_get_match(res, "sortindex", "m", "f")) + sort_type = ZEBRA_SORT_TYPE_MULTI; + else + { + yaz_log(YLOG_WARN, "bad_value for 'sortindex'"); + ret = ZEBRA_FAIL; + } + + + if (!(reg->sort_index = zebra_sort_open(reg->bfs, rw, sort_type))) + { + yaz_log(YLOG_WARN, "zebra_sort_open failed"); + ret = ZEBRA_FAIL; + } + if (res_get_match(res, "isam", "s", ISAM_DEFAULT)) + { + struct ISAMS_M_s isams_m; + if (!(reg->isams = isams_open(reg->bfs, FNAME_ISAMS, rw, + key_isams_m(res, &isams_m)))) + { + yaz_log(YLOG_WARN, "isams_open failed"); + ret = ZEBRA_FAIL; + } + } + if (res_get_match(res, "isam", "c", ISAM_DEFAULT)) + { + struct ISAMC_M_s isamc_m; + if (!(reg->isamc = isamc_open(reg->bfs, FNAME_ISAMC, + rw, key_isamc_m(res, &isamc_m)))) + { + yaz_log(YLOG_WARN, "isamc_open failed"); + ret = ZEBRA_FAIL; + } + } + if (res_get_match(res, "isam", "b", ISAM_DEFAULT)) + { + struct ISAMC_M_s isamc_m; + + if (!(reg->isamb = isamb_open(reg->bfs, "isamb", + rw, key_isamc_m(res, &isamc_m), 0))) + { + yaz_log(YLOG_WARN, "isamb_open failed"); + ret = ZEBRA_FAIL; + } + } + if (res_get_match(res, "isam", "bc", ISAM_DEFAULT)) + { + struct ISAMC_M_s isamc_m; + + if (!(reg->isamb = isamb_open(reg->bfs, "isamb", + rw, key_isamc_m(res, &isamc_m), 1))) + { + yaz_log(YLOG_WARN, "isamb_open failed"); + ret = ZEBRA_FAIL; + } + } + if (res_get_match(res, "isam", "null", ISAM_DEFAULT)) + { + struct ISAMC_M_s isamc_m; + + if (!(reg->isamb = isamb_open(reg->bfs, "isamb", + rw, key_isamc_m(res, &isamc_m), -1))) + { + yaz_log(YLOG_WARN, "isamb_open failed"); + ret = ZEBRA_FAIL; + } + } + if (ret == ZEBRA_OK) + { + reg->zei = zebraExplain_open(reg->records, reg->dh, + res, rw, reg, + zebra_extract_explain); + if (!reg->zei) + { + yaz_log(YLOG_WARN, "Cannot obtain EXPLAIN information"); + ret = ZEBRA_FAIL; + } + } + + if (ret != ZEBRA_OK) + { + zebra_register_close(zs, reg); + return 0; + } + yaz_log(YLOG_DEBUG, "zebra_register_open ok p=%p", reg); + return reg; +} + +ZEBRA_RES zebra_admin_shutdown(ZebraHandle zh) +{ + ZEBRA_CHECK_HANDLE(zh); + yaz_log(log_level, "zebra_admin_shutdown"); + + zebra_mutex_cond_lock(&zh->service->session_lock); + zh->service->stop_flag = 1; + zebra_mutex_cond_unlock(&zh->service->session_lock); + return ZEBRA_OK; +} + +ZEBRA_RES zebra_admin_start(ZebraHandle zh) +{ + ZebraService zs; + ZEBRA_CHECK_HANDLE(zh); + yaz_log(log_level, "zebra_admin_start"); + zs = zh->service; + zebra_mutex_cond_lock(&zs->session_lock); + zebra_mutex_cond_unlock(&zs->session_lock); + return ZEBRA_OK; +} + +static void zebra_register_close(ZebraService zs, struct zebra_register *reg) +{ + ASSERTZS; + assert(reg); + yaz_log(YLOG_DEBUG, "zebra_register_close p=%p", reg); + reg->stop_flag = 0; + zebra_chdir(zs); + + zebraExplain_close(reg->zei); + dict_close(reg->dict); + if (reg->matchDict) + dict_close(reg->matchDict); + zebra_sort_close(reg->sort_index); + if (reg->isams) + isams_close(reg->isams); + if (reg->isamc) + isamc_close(reg->isamc); + if (reg->isamb) + isamb_close(reg->isamb); + rec_close(®->records); + + recTypes_destroy(reg->recTypes); + zebra_maps_close(reg->zebra_maps); + zebraRankDestroy(reg); + bfs_destroy(reg->bfs); + data1_destroy(reg->dh); + + zebra_rec_keys_close(reg->keys); + zebra_rec_keys_close(reg->sortKeys); + + key_block_destroy(®->key_block); + xfree(reg->name); + xfree(reg); +} + +ZEBRA_RES zebra_stop(ZebraService zs) +{ + if (!zs) + return ZEBRA_OK; + while (zs->sessions) + { + zebra_close(zs->sessions); + } + + zebra_mutex_cond_destroy(&zs->session_lock); + + if (zs->passwd_db) + passwd_db_close(zs->passwd_db); + + recTypeClass_destroy(zs->record_classes); + nmem_destroy(zs->nmem); + res_close(zs->global_res); + + yaz_timing_stop(zs->timing); + yaz_log(YLOG_LOG, "zebra_stop: %4.2f %4.2f %4.2f", + yaz_timing_get_real(zs->timing), + yaz_timing_get_user(zs->timing), + yaz_timing_get_sys(zs->timing)); + + + yaz_timing_destroy(&zs->timing); + xfree(zs); + return ZEBRA_OK; +} + +ZEBRA_RES zebra_close(ZebraHandle zh) +{ + ZebraService zs; + struct zebra_session **sp; + int i; + + yaz_log(log_level, "zebra_close"); + ZEBRA_CHECK_HANDLE(zh); + + zh->errCode = 0; + + zs = zh->service; + yaz_log(YLOG_DEBUG, "zebra_close zh=%p", zh); + resultSetDestroy(zh, -1, 0, 0); + + if (zh->reg) + zebra_register_close(zh->service, zh->reg); + zebra_close_res(zh); + res_close(zh->session_res); + + xfree(zh->record_encoding); + + xfree(zh->dbaccesslist); + + for (i = 0; i < zh->num_basenames; i++) + xfree(zh->basenames[i]); + xfree(zh->basenames); + + if (zh->iconv_to_utf8 != 0) + yaz_iconv_close(zh->iconv_to_utf8); + if (zh->iconv_from_utf8 != 0) + yaz_iconv_close(zh->iconv_from_utf8); + + zebra_mutex_cond_lock(&zs->session_lock); + zebra_lock_destroy(zh->lock_normal); + zebra_lock_destroy(zh->lock_shadow); + sp = &zs->sessions; + while (1) + { + assert(*sp); + if (*sp == zh) + { + *sp = (*sp)->next; + break; + } + sp = &(*sp)->next; + } + zebra_mutex_cond_unlock(&zs->session_lock); + xfree(zh->reg_name); + xfree(zh->user_perm); + zh->service = 0; /* more likely to trigger an assert */ + + zebra_limit_destroy(zh->m_limit); + + nmem_destroy(zh->nmem_error); + + xfree(zh->path_reg); + xfree(zh); + return ZEBRA_OK; +} + +struct map_baseinfo { + ZebraHandle zh; + NMEM mem; + int num_bases; + char **basenames; + int new_num_bases; + char **new_basenames; + int new_num_max; +}; + +static void zebra_open_res(ZebraHandle zh) +{ + char fname[512]; + ASSERTZH; + zh->errCode = 0; + + if (zh->path_reg) + { + sprintf(fname, "%.200s/zebra.cfg", zh->path_reg); + zh->res = res_open(zh->session_res, 0); + res_read_file(zh->res, fname); + } + else if (*zh->reg_name == 0) + { + zh->res = res_open(zh->session_res, 0); + } + else + { + yaz_log(YLOG_WARN, "no register root specified"); + zh->res = 0; /* no path for register - fail! */ + } } -static void zebra_register_unlock (ZebraHandle zh); +static void zebra_close_res(ZebraHandle zh) +{ + ASSERTZH; + zh->errCode = 0; + res_close(zh->res); + zh->res = 0; +} + +static void zebra_select_register(ZebraHandle zh, const char *new_reg) +{ + ASSERTZH; + zh->errCode = 0; + if (zh->res && strcmp(zh->reg_name, new_reg) == 0) + return; + if (!zh->res) + { + assert(zh->reg == 0); + assert(*zh->reg_name == 0); + } + else + { + if (zh->reg) + { + resultSetInvalidate(zh); + zebra_register_close(zh->service, zh->reg); + zh->reg = 0; + } + zebra_close_res(zh); + } + xfree(zh->reg_name); + zh->reg_name = xstrdup(new_reg); + + xfree(zh->path_reg); + zh->path_reg = 0; + if (zh->service->path_root) + { + zh->path_reg = xmalloc(strlen(zh->service->path_root) + + strlen(zh->reg_name) + 3); + strcpy(zh->path_reg, zh->service->path_root); + if (*zh->reg_name) + { + strcat(zh->path_reg, "/"); + strcat(zh->path_reg, zh->reg_name); + } + } + zebra_open_res(zh); + + if (zh->lock_normal) + zebra_lock_destroy(zh->lock_normal); + zh->lock_normal = 0; + + if (zh->lock_shadow) + zebra_lock_destroy(zh->lock_shadow); + zh->lock_shadow = 0; + + if (zh->res) + { + char fname[512]; + const char *lock_area = res_get(zh->res, "lockDir"); + + if (!lock_area && zh->path_reg) + res_set(zh->res, "lockDir", zh->path_reg); + sprintf(fname, "norm.%s.LCK", zh->reg_name); + zh->lock_normal = + zebra_lock_create(res_get(zh->res, "lockDir"), fname); + + sprintf(fname, "shadow.%s.LCK", zh->reg_name); + zh->lock_shadow = + zebra_lock_create(res_get(zh->res, "lockDir"), fname); + + if (!zh->lock_normal || !zh->lock_shadow) + { + if (zh->lock_normal) + { + zebra_lock_destroy(zh->lock_normal); + zh->lock_normal = 0; + } + if (zh->lock_shadow) + { + zebra_lock_destroy(zh->lock_shadow); + zh->lock_shadow = 0; + } + zebra_close_res(zh); + } + } + if (zh->res) + { + int approx = 0; + if (res_get_int(zh->res, "estimatehits", &approx) == ZEBRA_OK) + zebra_set_approx_limit(zh, approx); + } + if (zh->res) + { + if (res_get_int(zh->res, "staticrank", &zh->m_staticrank) == ZEBRA_OK) + yaz_log(YLOG_LOG, "static rank set and is %d", zh->m_staticrank); + } + if (zh->res) + { + if (res_get_int(zh->res, "segment", &zh->m_segment_indexing) == + ZEBRA_OK) + { + yaz_log(YLOG_DEBUG, "segment indexing set and is %d", + zh->m_segment_indexing); + } + } +} + +void map_basenames_func(void *vp, const char *name, const char *value) +{ + struct map_baseinfo *p = (struct map_baseinfo *) vp; + int i, no; + char fromdb[128], todb[8][128]; + + assert(value); + assert(name); + assert(vp); + + no = + sscanf(value, "%127s %127s %127s %127s %127s %127s %127s %127s %127s", + fromdb, todb[0], todb[1], todb[2], todb[3], todb[4], + todb[5], todb[6], todb[7]); + if (no < 2) + return ; + no--; + for (i = 0; inum_bases; i++) + if (p->basenames[i] && !STRCASECMP(p->basenames[i], fromdb)) + { + p->basenames[i] = 0; + for (i = 0; i < no; i++) + { + if (p->new_num_bases == p->new_num_max) + return; + p->new_basenames[(p->new_num_bases)++] = + nmem_strdup(p->mem, todb[i]); + } + return; + } +} + +int zebra_select_default_database(ZebraHandle zh) +{ + if (!zh->res) + { + /* no database has been selected - so we select based on + resource setting (including group) + */ + const char *group = res_get(zh->session_res, "group"); + const char *v = res_get_prefix(zh->session_res, + "database", group, "Default"); + return zebra_select_database(zh, v); + } + return 0; +} + +void map_basenames(ZebraHandle zh, ODR stream, + int *num_bases, char ***basenames) +{ + struct map_baseinfo info; + struct map_baseinfo *p = &info; + int i; + ASSERTZH; + yaz_log(log_level, "map_basenames "); + assert(stream); + + info.zh = zh; + + info.num_bases = *num_bases; + info.basenames = *basenames; + info.new_num_max = 128; + info.new_num_bases = 0; + info.new_basenames = (char **) + odr_malloc(stream, sizeof(*info.new_basenames) * info.new_num_max); + info.mem = stream->mem; + + res_trav(zh->session_res, "mapdb", &info, map_basenames_func); + + for (i = 0; inum_bases; i++) + if (p->basenames[i] && p->new_num_bases < p->new_num_max) + { + p->new_basenames[(p->new_num_bases)++] = + nmem_strdup(p->mem, p->basenames[i]); + } + *num_bases = info.new_num_bases; + *basenames = info.new_basenames; + for (i = 0; i<*num_bases; i++) + yaz_log(YLOG_DEBUG, "base %s", (*basenames)[i]); +} + +ZEBRA_RES zebra_select_database(ZebraHandle zh, const char *basename) +{ + ZEBRA_CHECK_HANDLE(zh); + + yaz_log(log_level, "zebra_select_database %s",basename); + assert(basename); + return zebra_select_databases(zh, 1, &basename); +} + +ZEBRA_RES zebra_select_databases(ZebraHandle zh, int num_bases, + const char **basenames) +{ + int i; + const char *cp; + int len = 0; + char *new_reg = 0; + + ZEBRA_CHECK_HANDLE(zh); + assert(basenames); + + yaz_log(log_level, "zebra_select_databases n=%d [0]=%s", + num_bases,basenames[0]); + zh->errCode = 0; + + if (num_bases < 1) + { + zh->errCode = YAZ_BIB1_COMBI_OF_SPECIFIED_DATABASES_UNSUPP; + return ZEBRA_FAIL; + } + + /* Check if the user has access to all databases (Seb) */ + /* You could argue that this should happen later, after we have + * determined that the database(s) exist. */ + if (zh->dbaccesslist) { + for (i = 0; i < num_bases; i++) { + const char *db = basenames[i]; + char *p, *pp; + for (p = zh->dbaccesslist; p && *p; p = pp) { + int len; + if ((pp = strchr(p, '+'))) { + len = pp - p; + pp++; + } + else + len = strlen(p); + if (len == strlen(db) && !strncmp(db, p, len)) + break; + } + if (!p) { + zh->errCode = YAZ_BIB1_ACCESS_TO_SPECIFIED_DATABASE_DENIED; + return ZEBRA_FAIL; + } + } + } + + for (i = 0; i < zh->num_basenames; i++) + xfree(zh->basenames[i]); + xfree(zh->basenames); + + zh->num_basenames = num_bases; + zh->basenames = xmalloc(zh->num_basenames * sizeof(*zh->basenames)); + for (i = 0; i < zh->num_basenames; i++) + zh->basenames[i] = xstrdup(basenames[i]); + + cp = strrchr(basenames[0], '/'); + if (cp) + { + len = cp - basenames[0]; + new_reg = xmalloc(len + 1); + memcpy(new_reg, basenames[0], len); + new_reg[len] = '\0'; + } + else + new_reg = xstrdup(""); + for (i = 1; ierrCode = YAZ_BIB1_COMBI_OF_SPECIFIED_DATABASES_UNSUPP; + return -1; + } + if (len != cp1 - basenames[i] || + memcmp(basenames[i], new_reg, len)) + { + zh->errCode = YAZ_BIB1_COMBI_OF_SPECIFIED_DATABASES_UNSUPP; + return -1; + } + } + else + { + if (cp1) + { + zh->errCode = YAZ_BIB1_COMBI_OF_SPECIFIED_DATABASES_UNSUPP; + return ZEBRA_FAIL; + } + } + } + zebra_select_register(zh, new_reg); + xfree(new_reg); + if (!zh->res) + { + zh->errCode = YAZ_BIB1_DATABASE_UNAVAILABLE; + return ZEBRA_FAIL; + } + if (!zh->lock_normal || !zh->lock_shadow) + { + zh->errCode = YAZ_BIB1_TEMPORARY_SYSTEM_ERROR; + return ZEBRA_FAIL; + } + return ZEBRA_OK; +} + +ZEBRA_RES zebra_set_approx_limit(ZebraHandle zh, zint approx_limit) +{ + if (approx_limit == 0) + approx_limit = DEFAULT_APPROX_LIMIT; + zh->approx_limit = approx_limit; + return ZEBRA_OK; +} + +void zebra_set_partial_result(ZebraHandle zh) +{ + zh->partial_result = 1; +} + + +ZEBRA_RES zebra_set_break_handler(ZebraHandle zh, + int (*f)(void *client_data), + void *client_data) +{ + zh->break_handler_func = f; + zh->break_handler_data = client_data; + return ZEBRA_OK; +} + +ZEBRA_RES zebra_search_RPN_x(ZebraHandle zh, ODR o, Z_RPNQuery *query, + const char *setname, zint *hits, + int *estimated_hit_count, + int *partial_resultset) +{ + ZEBRA_RES r; + + ZEBRA_CHECK_HANDLE(zh); + + assert(o); + assert(query); + assert(hits); + assert(setname); + yaz_log(log_level, "zebra_search_rpn"); + + zh->partial_result = 0; + + if (zebra_begin_read(zh) == ZEBRA_FAIL) + return ZEBRA_FAIL; + + r = resultSetAddRPN(zh, odr_extract_mem(o), query, + zh->num_basenames, zh->basenames, setname, + hits, estimated_hit_count); + + *partial_resultset = zh->partial_result; + zebra_end_read(zh); + return r; +} + +ZEBRA_RES zebra_search_RPN(ZebraHandle zh, ODR o, Z_RPNQuery *query, + const char *setname, zint *hits) +{ + int estimated_hit_count; + int partial_resultset; + return zebra_search_RPN_x(zh, o, query, setname, hits, + &estimated_hit_count, + &partial_resultset); +} + +ZEBRA_RES zebra_records_retrieve(ZebraHandle zh, ODR stream, + const char *setname, + Z_RecordComposition *comp, + const Odr_oid *input_format, int num_recs, + ZebraRetrievalRecord *recs) +{ + ZebraMetaRecord *poset; + int i; + ZEBRA_RES ret = ZEBRA_OK; + zint *pos_array; + + ZEBRA_CHECK_HANDLE(zh); + assert(stream); + assert(setname); + assert(recs); + assert(num_recs>0); + + yaz_log(log_level, "zebra_records_retrieve n=%d", num_recs); + + if (!zh->res) + { + zebra_setError(zh, YAZ_BIB1_SPECIFIED_RESULT_SET_DOES_NOT_EXIST, + setname); + return ZEBRA_FAIL; + } + + if (zebra_begin_read(zh) == ZEBRA_FAIL) + return ZEBRA_FAIL; + + pos_array = (zint *) xmalloc(num_recs * sizeof(*pos_array)); + for (i = 0; i 0) + { + recs[i].buf = (char*) odr_malloc(stream, len); + memcpy(recs[i].buf, buf, len); + } + else + recs[i].buf = buf; + recs[i].score = poset[i].score; + zebra_snippets_destroy(hit_snippet); + } + else + { + /* only need to set it once */ + if (pos_array[i] < zh->approx_limit && ret == ZEBRA_OK) + { + zebra_setError_zint(zh, + YAZ_BIB1_PRESENT_REQUEST_OUT_OF_RANGE, + pos_array[i]); + ret = ZEBRA_FAIL; + break; + } + } + } + zebra_meta_records_destroy(zh, poset, num_recs); + wrbuf_destroy(addinfo_w); + } + zebra_end_read(zh); + xfree(pos_array); + return ret; +} + +ZEBRA_RES zebra_scan_PQF(ZebraHandle zh, ODR stream, const char *query, + int *position, + int *num_entries, ZebraScanEntry **entries, + int *is_partial, + const char *setname) +{ + YAZ_PQF_Parser pqf_parser = yaz_pqf_create(); + Z_AttributesPlusTerm *zapt; + Odr_oid *attributeSet; + ZEBRA_RES res; + + if (!(zapt = yaz_pqf_scan(pqf_parser, stream, &attributeSet, query))) + { + res = ZEBRA_FAIL; + zh->errCode = YAZ_BIB1_SCAN_MALFORMED_SCAN; + } + else + { + res = zebra_scan(zh, stream, zapt, yaz_oid_attset_bib_1, + position, num_entries, entries, is_partial, + setname); + } + yaz_pqf_destroy(pqf_parser); + return res; +} + +ZEBRA_RES zebra_scan(ZebraHandle zh, ODR stream, Z_AttributesPlusTerm *zapt, + const Odr_oid *attributeset, + int *position, + int *num_entries, ZebraScanEntry **entries, + int *is_partial, + const char *setname) +{ + ZEBRA_RES res; + + ZEBRA_CHECK_HANDLE(zh); + + assert(stream); + assert(zapt); + assert(position); + assert(num_entries); + assert(is_partial); + assert(entries); + yaz_log(log_level, "zebra_scan"); + + if (zebra_begin_read(zh) == ZEBRA_FAIL) + { + *entries = 0; + *num_entries = 0; + return ZEBRA_FAIL; + } + + res = rpn_scan(zh, stream, zapt, attributeset, + zh->num_basenames, zh->basenames, position, + num_entries, entries, is_partial, setname); + zebra_end_read(zh); + return res; +} + +ZEBRA_RES zebra_sort(ZebraHandle zh, ODR stream, + int num_input_setnames, const char **input_setnames, + const char *output_setname, + Z_SortKeySpecList *sort_sequence, + int *sort_status) +{ + ZEBRA_RES res; + ZEBRA_CHECK_HANDLE(zh); + assert(stream); + assert(num_input_setnames>0); + assert(input_setnames); + assert(sort_sequence); + assert(sort_status); + yaz_log(log_level, "zebra_sort"); + + if (zebra_begin_read(zh) == ZEBRA_FAIL) + return ZEBRA_FAIL; + res = resultSetSort(zh, stream->mem, num_input_setnames, input_setnames, + output_setname, sort_sequence, sort_status); + zebra_end_read(zh); + return res; +} + +int zebra_deleteResultSet(ZebraHandle zh, int function, + int num_setnames, char **setnames, + int *statuses) +{ + int i, status; + ASSERTZH; + yaz_log(log_level, "zebra_deleteResultSet n=%d", num_setnames); + + if (zebra_begin_read(zh)) + return Z_DeleteStatus_systemProblemAtTarget; + switch (function) + { + case Z_DeleteResultSetRequest_list: + assert(num_setnames>0); + assert(setnames); + resultSetDestroy(zh, num_setnames, setnames, statuses); + break; + case Z_DeleteResultSetRequest_all: + resultSetDestroy(zh, -1, 0, statuses); + break; + } + zebra_end_read(zh); + status = Z_DeleteStatus_success; + for (i = 0; ierrCode); + return zh->errCode; + } + yaz_log(log_level, "zebra_errCode: o"); + return 0; +} + +const char *zebra_errString(ZebraHandle zh) +{ + const char *e = 0; + if (zh) + e= diagbib1_str(zh->errCode); + yaz_log(log_level, "zebra_errString: %s",e); + return e; +} + +char *zebra_errAdd(ZebraHandle zh) +{ + char *a = 0; + if (zh) + a= zh->errString; + yaz_log(log_level, "zebra_errAdd: %s",a); + return a; +} + +ZEBRA_RES zebra_auth(ZebraHandle zh, const char *user, const char *pass) +{ + const char *p; + const char *astring; + char u[40]; + ZebraService zs; + + ZEBRA_CHECK_HANDLE(zh); + + zs = zh->service; + + sprintf(u, "perm.%.30s", user ? user : "anonymous"); + p = res_get(zs->global_res, u); + xfree(zh->user_perm); + zh->user_perm = xstrdup(p ? p : "r"); + + /* Determine database access list */ + astring = res_get(zs->dbaccess, user ? user : "anonymous"); + if (astring) + zh->dbaccesslist = xstrdup(astring); + else + zh->dbaccesslist = 0; + + /* users that don't require a password .. */ + if (zh->user_perm && strchr(zh->user_perm, 'a')) + return ZEBRA_OK; + + if (!zs->passwd_db || !passwd_db_auth(zs->passwd_db, user, pass)) + return ZEBRA_OK; + return ZEBRA_FAIL; +} + +ZEBRA_RES zebra_admin_import_begin(ZebraHandle zh, const char *database, + const char *record_type) +{ + yaz_log(log_level, "zebra_admin_import_begin db=%s rt=%s", + database, record_type); + if (zebra_select_database(zh, database) == ZEBRA_FAIL) + return ZEBRA_FAIL; + return zebra_begin_trans(zh, 1); +} + +ZEBRA_RES zebra_admin_import_end(ZebraHandle zh) +{ + ZEBRA_CHECK_HANDLE(zh); + yaz_log(log_level, "zebra_admin_import_end"); + return zebra_end_trans(zh); +} + +ZEBRA_RES zebra_admin_import_segment(ZebraHandle zh, Z_Segment *segment) +{ + ZEBRA_RES res = ZEBRA_OK; + zint sysno; + int i; + ZEBRA_CHECK_HANDLE(zh); + yaz_log(log_level, "zebra_admin_import_segment"); + + for (i = 0; inum_segmentRecords; i++) + { + Z_NamePlusRecord *npr = segment->segmentRecords[i]; + + if (npr->which == Z_NamePlusRecord_intermediateFragment) + { + Z_FragmentSyntax *fragment = npr->u.intermediateFragment; + if (fragment->which == Z_FragmentSyntax_notExternallyTagged) + { + Odr_oct *oct = fragment->u.notExternallyTagged; + sysno = 0; + + if(zebra_update_record( + zh, + action_update, + 0, /* record Type */ + &sysno, + 0, /* match */ + 0, /* fname */ + (const char *) oct->buf, oct->len) == ZEBRA_FAIL) + res = ZEBRA_FAIL; + } + } + } + return res; +} + +int delete_w_handle(const char *info, void *handle) +{ + ZebraHandle zh = (ZebraHandle) handle; + ISAM_P pos; + + if (*info == sizeof(pos)) + { + memcpy(&pos, info+1, sizeof(pos)); + isamb_unlink(zh->reg->isamb, pos); + } + return 0; +} + +int delete_w_all_handle(const char *info, void *handle) +{ + ZebraHandle zh = (ZebraHandle) handle; + ISAM_P pos; + + if (*info == sizeof(pos)) + { + ISAMB_PP pt; + memcpy(&pos, info+1, sizeof(pos)); + pt = isamb_pp_open(zh->reg->isamb, pos, 2); + if (pt) + { + struct it_key key; + key.mem[0] = 0; + while (isamb_pp_read(pt, &key)) + { + Record rec; + rec = rec_get(zh->reg->records, key.mem[0]); + rec_del(zh->reg->records, &rec); + } + isamb_pp_close(pt); + } + } + return delete_w_handle(info, handle); +} + +static int delete_SU_handle(void *handle, int ord, + const char *index_type, const char *string_index, + zinfo_index_category_t cat) +{ + ZebraHandle zh = (ZebraHandle) handle; + char ord_buf[20]; + int ord_len; +#if 0 + yaz_log(YLOG_LOG, "ord=%d index_type=%s index=%s cat=%d", ord, + index_type, string_index, (int) cat); +#endif + ord_len = key_SU_encode(ord, ord_buf); + ord_buf[ord_len] = '\0'; + + assert(zh->reg->isamb); + assert(zh->reg->records); + dict_delete_subtree(zh->reg->dict, ord_buf, + zh, + !strcmp(string_index, "_ALLRECORDS") ? + delete_w_all_handle : delete_w_handle); + return 0; +} + +ZEBRA_RES zebra_drop_database(ZebraHandle zh, const char *db) +{ + ZEBRA_RES ret = ZEBRA_OK; + + yaz_log(log_level, "zebra_drop_database %s", db); + ZEBRA_CHECK_HANDLE(zh); + + if (zebra_select_database(zh, db) == ZEBRA_FAIL) + return ZEBRA_FAIL; + if (zebra_begin_trans(zh, 1) == ZEBRA_FAIL) + return ZEBRA_FAIL; + if (zh->reg->isamb) + { + int db_ord; + if (zebraExplain_curDatabase(zh->reg->zei, db)) + { + zebra_setError(zh, YAZ_BIB1_DATABASE_DOES_NOT_EXIST, db); + ret = ZEBRA_FAIL; + } + else + { + db_ord = zebraExplain_get_database_ord(zh->reg->zei); + dict_delete_subtree_ord(zh->reg->matchDict, db_ord, + 0 /* handle */, 0 /* func */); + zebraExplain_trav_ord(zh->reg->zei, zh, delete_SU_handle); + zebraExplain_removeDatabase(zh->reg->zei, zh); + zebra_remove_file_match(zh); + } + } + else + { + yaz_log(YLOG_WARN, "drop database only supported for isam:b"); + zebra_setError(zh, YAZ_BIB1_ES_IMMEDIATE_EXECUTION_FAILED, + "drop database only supported for isam:b"); + ret = ZEBRA_FAIL; + } + if (zebra_end_trans(zh) != ZEBRA_OK) + { + yaz_log(YLOG_WARN, "zebra_end_trans failed"); + ret = ZEBRA_FAIL; + } + return ret; +} + +ZEBRA_RES zebra_create_database(ZebraHandle zh, const char *db) +{ + yaz_log(log_level, "zebra_create_database %s", db); + ZEBRA_CHECK_HANDLE(zh); + assert(db); + + if (zebra_select_database(zh, db) == ZEBRA_FAIL) + return ZEBRA_FAIL; + if (zebra_begin_trans(zh, 1)) + return ZEBRA_FAIL; + + /* announce database */ + if (zebraExplain_newDatabase(zh->reg->zei, db, 0 + /* explainDatabase */)) + { + if (zebra_end_trans(zh) != ZEBRA_OK) + { + yaz_log(YLOG_WARN, "zebra_end_trans failed"); + } + zebra_setError(zh, YAZ_BIB1_ES_IMMEDIATE_EXECUTION_FAILED, db); + return ZEBRA_FAIL; + } + return zebra_end_trans(zh); +} + +int zebra_string_norm(ZebraHandle zh, const char *index_type, + const char *input_str, int input_len, + char *output_str, int output_len) +{ + WRBUF wrbuf; + zebra_map_t zm = zebra_map_get(zh->reg->zebra_maps, index_type); + ASSERTZH; + assert(input_str); + assert(output_str); + yaz_log(log_level, "zebra_string_norm "); + + if (!zh->reg->zebra_maps) + return -1; + wrbuf = zebra_replace(zm, "", input_str, input_len); + if (!wrbuf) + return -2; + if (wrbuf_len(wrbuf) >= output_len) + return -3; + if (wrbuf_len(wrbuf)) + memcpy(output_str, wrbuf_buf(wrbuf), wrbuf_len(wrbuf)); + output_str[wrbuf_len(wrbuf)] = '\0'; + return wrbuf_len(wrbuf); +} + +/** \brief set register state (state*.LCK) + \param zh Zebra handle + \param val state + \param seqno sequence number + + val is one of: + d=writing to shadow(shadow enabled); writing to register (shadow disabled) + o=reading only + c=commit (writing to register, reading from shadow, shadow mode only) +*/ +static void zebra_set_state(ZebraHandle zh, int val, int seqno) +{ + char state_fname[256]; + char *fname; + long p = getpid(); + FILE *f; + ASSERTZH; + yaz_log(log_level, "zebra_set_state v=%c seq=%d", val, seqno); + + sprintf(state_fname, "state.%s.LCK", zh->reg_name); + fname = zebra_mk_fname(res_get(zh->res, "lockDir"), state_fname); + f = fopen(fname, "w"); + + yaz_log(YLOG_DEBUG, "zebra_set_state: %c %d %ld", val, seqno, p); + fprintf(f, "%c %d %ld\n", val, seqno, p); + fclose(f); + xfree(fname); +} + +static void zebra_get_state(ZebraHandle zh, char *val, int *seqno) +{ + char state_fname[256]; + char *fname; + FILE *f; + + ASSERTZH; + yaz_log(log_level, "zebra_get_state "); + + sprintf(state_fname, "state.%s.LCK", zh->reg_name); + fname = zebra_mk_fname(res_get(zh->res, "lockDir"), state_fname); + f = fopen(fname, "r"); + *val = 'o'; + *seqno = 0; + + if (f) + { + if (fscanf(f, "%c %d", val, seqno) != 2) + { + yaz_log(YLOG_ERRNO|YLOG_WARN, "fscan fail %s", + state_fname); + } + fclose(f); + } + xfree(fname); +} + +ZEBRA_RES zebra_begin_read(ZebraHandle zh) +{ + return zebra_begin_trans(zh, 0); +} + +ZEBRA_RES zebra_end_read(ZebraHandle zh) +{ + return zebra_end_trans(zh); +} -static int zebra_register_lock (ZebraHandle zh) +static void read_res_for_transaction(ZebraHandle zh) { - time_t lastChange; - int state; + const char *group = res_get(zh->res, "group"); + const char *v; + /* FIXME - do we still use groups ?? */ + + zh->m_group = group; + v = res_get_prefix(zh->res, "followLinks", group, "1"); + zh->m_follow_links = atoi(v); - zh->errCode = 0; - zh->errString = 0; + zh->m_record_id = res_get_prefix(zh->res, "recordId", group, 0); + zh->m_record_type = res_get_prefix(zh->res, "recordType", group, 0); - zebra_chdir (zh); + v = res_get_prefix(zh->res, "storeKeys", group, "1"); + zh->m_store_keys = atoi(v); - state = zebra_server_lock_get_state(zh, &lastChange); + v = res_get_prefix(zh->res, "storeData", group, "1"); + zh->m_store_data = atoi(v); - switch (state) - { - case 'c': - state = 1; - break; - default: - state = 0; - } - zebra_server_lock (zh, state); -#if HAVE_SYS_TIMES_H - times (&zh->tms1); -#endif - if (zh->registerState == state) + v = res_get_prefix(zh->res, "explainDatabase", group, "0"); + zh->m_explain_database = atoi(v); + + v = res_get_prefix(zh->res, "openRW", group, "1"); + zh->m_flag_rw = atoi(v); + + v = res_get_prefix(zh->res, "fileVerboseLimit", group, "1000"); + zh->m_file_verbose_limit = atoi(v); +} + +ZEBRA_RES zebra_begin_trans(ZebraHandle zh, int rw) +{ + ZEBRA_CHECK_HANDLE(zh); + zebra_select_default_database(zh); + if (!zh->res) { - if (zh->registerChange >= lastChange) - return 0; - logf (LOG_LOG, "Register completely updated since last access"); - } - else if (zh->registerState == -1) - logf (LOG_LOG, "Reading register using state %d pid=%ld", state, - (long) getpid()); - else - logf (LOG_LOG, "Register has changed state from %d to %d", - zh->registerState, state); - zh->registerChange = lastChange; - if (zh->records) - { - zebraExplain_close (zh->zei, 0, 0); - if (zh->dict) - dict_close (zh->dict); - if (zh->sortIdx) - sortIdx_close (zh->sortIdx); - if (zh->isam) - is_close (zh->isam); - if (zh->isamc) - isc_close (zh->isamc); - if (zh->isams) - isams_close (zh->isams); - rec_close (&zh->records); - } - bf_cache (zh->bfs, state ? res_get (zh->res, "shadow") : NULL); - zh->registerState = state; - - zh->isam = NULL; - zh->isamc = NULL; - zh->isams = NULL; - zh->dict = NULL; - zh->sortIdx = NULL; - zh->zei = NULL; - - if (!(zh->records = rec_open (zh->bfs, 0, 0))) - { - logf (LOG_WARN, "rec_open"); - zh->errCode = 2; + zebra_setError(zh, YAZ_BIB1_TEMPORARY_SYSTEM_ERROR, + "zebra_begin_trans: no database selected"); + return ZEBRA_FAIL; } - else + ASSERTZHRES; + yaz_log(log_level, "zebra_begin_trans rw=%d",rw); + + if (zh->user_perm) { - if (!(zh->dict = dict_open (zh->bfs, FNAME_DICT, 40, 0, 0))) - { - logf (LOG_WARN, "dict_open"); - zh->errCode = 2; - } - if (!(zh->sortIdx = sortIdx_open (zh->bfs, 0))) - { - logf (LOG_WARN, "sortIdx_open"); - zh->errCode = 2; - } - if (res_get_match (zh->res, "isam", "i", NULL)) - { - if (!(zh->isam = is_open (zh->bfs, FNAME_ISAM, key_compare, 0, - sizeof (struct it_key), zh->res))) - { - logf (LOG_WARN, "is_open"); - zh->errCode = 2; - } - } - else if (res_get_match (zh->res, "isam", "s", NULL)) + if (rw && !strchr(zh->user_perm, 'w')) { - struct ISAMS_M_s isams_m; - if (!(zh->isams = isams_open (zh->bfs, FNAME_ISAMS, 0, - key_isams_m(zh->res, &isams_m)))) - { - logf (LOG_WARN, "isams_open"); - zh->errCode = 2; - } + zebra_setError( + zh, + YAZ_BIB1_ES_PERMISSION_DENIED_ON_ES_CANNOT_MODIFY_OR_DELETE, + 0); + return ZEBRA_FAIL; } - else + } + + assert(zh->res); + if (rw) + { + int seqno = 0; + char val = '?'; + const char *rval = 0; + + (zh->trans_no++); + if (zh->trans_w_no) { - struct ISAMC_M_s isamc_m; - if (!(zh->isamc = isc_open (zh->bfs, FNAME_ISAMC, - 0, key_isamc_m(zh->res, &isamc_m)))) - { - logf (LOG_WARN, "isc_open"); - zh->errCode = 2; - } + read_res_for_transaction(zh); + return 0; } - zh->zei = zebraExplain_open (zh->records, zh->dh, zh->res, 0, 0, 0); - if (!zh->zei) + if (zh->trans_no != 1) + { + zebra_setError(zh, YAZ_BIB1_TEMPORARY_SYSTEM_ERROR, + "zebra_begin_trans: no write trans within read"); + return ZEBRA_FAIL; + } + if (zh->reg) { - logf (LOG_WARN, "Cannot obtain EXPLAIN information"); - zh->errCode = 2; + resultSetInvalidate(zh); + zebra_register_close(zh->service, zh->reg); } + zh->trans_w_no = zh->trans_no; + + zh->records_inserted = 0; + zh->records_updated = 0; + zh->records_deleted = 0; + zh->records_processed = 0; + zh->records_skipped = 0; + +#if HAVE_SYS_TIMES_H + times(&zh->tms1); +#endif + /* lock */ + if (zh->shadow_enable) + rval = res_get(zh->res, "shadow"); + + if (rval) + { + zebra_lock_r(zh->lock_normal); + zebra_lock_w(zh->lock_shadow); + } + else + { + zebra_lock_w(zh->lock_normal); + zebra_lock_w(zh->lock_shadow); + } + zebra_get_state(zh, &val, &seqno); + if (val != 'o') + { + /* either we didn't finish commit or shadow is dirty */ + if (!rval) + { + yaz_log(YLOG_WARN, "previous transaction did not finish " + "(shadow disabled)"); + } + zebra_unlock(zh->lock_shadow); + zebra_unlock(zh->lock_normal); + if (zebra_commit(zh)) + { + zh->trans_no--; + zh->trans_w_no = 0; + return ZEBRA_FAIL; + } + if (rval) + { + zebra_lock_r(zh->lock_normal); + zebra_lock_w(zh->lock_shadow); + } + else + { + zebra_lock_w(zh->lock_normal); + zebra_lock_w(zh->lock_shadow); + } + } + + zebra_set_state(zh, 'd', seqno); + + zh->reg = zebra_register_open(zh->service, zh->reg_name, + 1, rval ? 1 : 0, zh->res, + zh->path_reg); + if (zh->reg) + zh->reg->seqno = seqno; + else + { + zebra_set_state(zh, 'o', seqno); + + zebra_unlock(zh->lock_shadow); + zebra_unlock(zh->lock_normal); + + zh->trans_no--; + zh->trans_w_no = 0; + + zebra_setError(zh, YAZ_BIB1_TEMPORARY_SYSTEM_ERROR, + "zebra_begin_trans: cannot open register"); + yaz_log(YLOG_FATAL, "%s", zh->errString); + return ZEBRA_FAIL; + } + zebraExplain_curDatabase(zh->reg->zei, zh->basenames[0]); } - if (zh->errCode) + else { - zebra_register_unlock (zh); - zh->registerState = -1; - return -1; + int dirty = 0; + char val; + int seqno; + + (zh->trans_no)++; + + if (zh->trans_no != 1) + { + return zebra_flush_reg(zh); + } +#if HAVE_SYS_TIMES_H + times(&zh->tms1); +#endif + if (!zh->res) + { + (zh->trans_no)--; + zh->errCode = YAZ_BIB1_DATABASE_UNAVAILABLE; + return ZEBRA_FAIL; + } + if (!zh->lock_normal || !zh->lock_shadow) + { + (zh->trans_no)--; + zh->errCode = YAZ_BIB1_TEMPORARY_SYSTEM_ERROR; + return ZEBRA_FAIL; + } + zebra_get_state(zh, &val, &seqno); + if (val == 'd') + val = 'o'; + + if (!zh->reg) + dirty = 1; + else if (seqno != zh->reg->seqno) + { + yaz_log(YLOG_DEBUG, "reopen seqno cur/old %d/%d", + seqno, zh->reg->seqno); + dirty = 1; + } + else if (zh->reg->last_val != val) + { + yaz_log(YLOG_DEBUG, "reopen last cur/old %d/%d", + val, zh->reg->last_val); + dirty = 1; + } + if (!dirty) + return ZEBRA_OK; + + if (val == 'c') + zebra_lock_r(zh->lock_shadow); + else + zebra_lock_r(zh->lock_normal); + + if (zh->reg) + { + resultSetInvalidate(zh); + zebra_register_close(zh->service, zh->reg); + } + zh->reg = zebra_register_open(zh->service, zh->reg_name, + 0, val == 'c' ? 1 : 0, + zh->res, zh->path_reg); + if (!zh->reg) + { + zebra_unlock(zh->lock_normal); + zebra_unlock(zh->lock_shadow); + zh->trans_no--; + zh->errCode = YAZ_BIB1_DATABASE_UNAVAILABLE; + return ZEBRA_FAIL; + } + zh->reg->last_val = val; + zh->reg->seqno = seqno; } - return 0; + read_res_for_transaction(zh); + return ZEBRA_OK; } -static void zebra_register_unlock (ZebraHandle zh) +ZEBRA_RES zebra_end_trans(ZebraHandle zh) { - static int waitSec = -1; + ZebraTransactionStatus dummy; -#if HAVE_SYS_TIMES_H - times (&zh->tms2); - logf (LOG_LOG, "user/system: %ld/%ld", - (long) (zh->tms2.tms_utime - zh->tms1.tms_utime), - (long) (zh->tms2.tms_stime - zh->tms1.tms_stime)); -#endif - if (waitSec == -1) + yaz_log(log_level, "zebra_end_trans"); + ZEBRA_CHECK_HANDLE(zh); + return zebra_end_transaction(zh, &dummy); +} + +ZEBRA_RES zebra_end_transaction(ZebraHandle zh, ZebraTransactionStatus *status) +{ + char val; + int seqno; + const char *rval; + + ZEBRA_CHECK_HANDLE(zh); + + assert(status); + yaz_log(log_level, "zebra_end_transaction"); + + status->processed = 0; + status->inserted = 0; + status->updated = 0; + status->deleted = 0; + status->utime = 0; + status->stime = 0; + + if (!zh->res || !zh->reg) { - char *s = res_get (zh->res, "debugRequestWait"); - if (s) - waitSec = atoi (s); - else - waitSec = 0; + zebra_setError(zh, YAZ_BIB1_TEMPORARY_SYSTEM_ERROR, + "zebra_end_trans: no open transaction"); + return ZEBRA_FAIL; } -#ifdef WIN32 -#else - if (waitSec > 0) - sleep (waitSec); + if (zh->trans_no != zh->trans_w_no) + { + zh->trans_no--; + if (zh->trans_no != 0) + return ZEBRA_OK; + + /* release read lock */ + + zebra_unlock(zh->lock_normal); + zebra_unlock(zh->lock_shadow); + } + else + { /* release write lock */ + zh->trans_no--; + zh->trans_w_no = 0; + + yaz_log(YLOG_DEBUG, "zebra_end_trans"); + rval = res_get(zh->res, "shadow"); + + zebraExplain_runNumberIncrement(zh->reg->zei, 1); + + zebra_flush_reg(zh); + + resultSetInvalidate(zh); + + zebra_register_close(zh->service, zh->reg); + zh->reg = 0; + + yaz_log(YLOG_LOG, "Records: "ZINT_FORMAT" i/u/d " + ZINT_FORMAT"/"ZINT_FORMAT"/"ZINT_FORMAT, + zh->records_processed, zh->records_inserted, + zh->records_updated, zh->records_deleted); + + status->processed = zh->records_processed; + status->inserted = zh->records_inserted; + status->updated = zh->records_updated; + status->deleted = zh->records_deleted; + + zebra_get_state(zh, &val, &seqno); + if (val != 'd') + { + BFiles bfs = bfs_create(rval, zh->path_reg); + bf_commitClean(bfs, rval); + bfs_destroy(bfs); + } + if (!rval) + seqno++; + zebra_set_state(zh, 'o', seqno); + zebra_unlock(zh->lock_shadow); + zebra_unlock(zh->lock_normal); + + } +#if HAVE_SYS_TIMES_H + times(&zh->tms2); + yaz_log(log_level, "user/system: %ld/%ld", + (long) (zh->tms2.tms_utime - zh->tms1.tms_utime), + (long) (zh->tms2.tms_stime - zh->tms1.tms_stime)); + + status->utime = (long) (zh->tms2.tms_utime - zh->tms1.tms_utime); + status->stime = (long) (zh->tms2.tms_stime - zh->tms1.tms_stime); #endif - if (zh->registerState != -1) - zebra_server_unlock (zh, zh->registerState); + return ZEBRA_OK; } -ZebraHandle zebra_open (const char *configName) +ZEBRA_RES zebra_repository_update(ZebraHandle zh, const char *path) { - ZebraHandle zh; + return zebra_repository_index(zh, path, action_update); +} + +ZEBRA_RES zebra_repository_delete(ZebraHandle zh, const char *path) +{ + return zebra_repository_index(zh, path, action_delete); +} + +ZEBRA_RES zebra_repository_index(ZebraHandle zh, const char *path, + enum zebra_recctrl_action_t action) +{ + ASSERTZH; + assert(path); + + if (action == action_update) + yaz_log(log_level, "updating %s", path); + else if (action == action_delete) + yaz_log(log_level, "deleting %s", path); + else if (action == action_a_delete) + yaz_log(log_level, "attempt deleting %s", path); + else + yaz_log(log_level, "update action=%d", (int) action); + + if (zh->m_record_id && !strcmp(zh->m_record_id, "file")) + return zebra_update_file_match(zh, path); + else + return zebra_update_from_path(zh, path, action); +} + +ZEBRA_RES zebra_repository_show(ZebraHandle zh, const char *path) +{ + ASSERTZH; + assert(path); + yaz_log(log_level, "zebra_repository_show"); + repositoryShow(zh, path); + return ZEBRA_OK; +} + +static ZEBRA_RES zebra_commit_ex(ZebraHandle zh, int clean_only) +{ + int seqno; + char val; + const char *rval; + BFiles bfs; + ZEBRA_RES res = ZEBRA_OK; + + ASSERTZH; - zh = (ZebraHandle) xmalloc (sizeof(*zh)); - if (!(zh->res = res_open (configName))) + yaz_log(log_level, "zebra_commit_ex clean_only=%d", clean_only); + zebra_select_default_database(zh); + if (!zh->res) { - logf (LOG_WARN, "Failed to read resources `%s'", configName); - return NULL; + zh->errCode = YAZ_BIB1_DATABASE_UNAVAILABLE; + return ZEBRA_FAIL; } - zebra_chdir (zh); - zebra_server_lock_init (zh); - zh->dh = data1_create (); - if (!zh->dh) + rval = res_get(zh->res, "shadow"); + if (!rval) { - zebra_server_lock_destroy (zh); - xfree (zh); - return 0; + yaz_log(YLOG_WARN, "Cannot perform commit - No shadow area defined"); + return ZEBRA_OK; } - zh->bfs = bfs_create (res_get (zh->res, "register")); - if (!zh->bfs) + + zebra_lock_w(zh->lock_normal); + zebra_lock_r(zh->lock_shadow); + + bfs = bfs_create(res_get(zh->res, "register"), zh->path_reg); + if (!bfs) { - zebra_server_lock_destroy (zh); - data1_destroy(zh->dh); - xfree (zh); - return 0; + zebra_unlock(zh->lock_shadow); + zebra_unlock(zh->lock_normal); + return ZEBRA_FAIL; + } + zebra_get_state(zh, &val, &seqno); + + if (val == 'd') + { + /* shadow area is dirty and so we must throw it away */ + yaz_log(YLOG_WARN, "previous transaction didn't reach commit"); + clean_only = 1; + } + else if (val == 'c') + { + /* commit has started. We can not remove it anymore */ + clean_only = 0; } - bf_lockDir (zh->bfs, res_get (zh->res, "lockDir")); - data1_set_tabpath (zh->dh, res_get(zh->res, "profilePath")); - zh->sets = NULL; - zh->registerState = -1; /* trigger open of registers! */ - zh->registerChange = 0; - zh->recTypes = recTypes_init (zh->dh); - recTypes_default_handlers (zh->recTypes); - - zh->records = NULL; - zh->zebra_maps = zebra_maps_open (zh->res); - zh->rank_classes = NULL; - zh->errCode = 0; - zh->errString = 0; - - zebraRankInstall (zh, rank1_class); - if (!res_get (zh->res, "passwd")) - zh->passwd_db = NULL; + if (rval && *rval) + bf_cache(bfs, rval); + if (bf_commitExists(bfs)) + { + if (clean_only) + zebra_set_state(zh, 'd', seqno); + else + { + zebra_set_state(zh, 'c', seqno); + + yaz_log(log_level, "commit start"); + if (bf_commitExec(bfs)) + res = ZEBRA_FAIL; + } + if (res == ZEBRA_OK) + { + seqno++; + zebra_set_state(zh, 'o', seqno); + + zebra_unlock(zh->lock_shadow); + zebra_unlock(zh->lock_normal); + + zebra_lock_w(zh->lock_shadow); + bf_commitClean(bfs, rval); + zebra_unlock(zh->lock_shadow); + } + else + { + zebra_unlock(zh->lock_shadow); + zebra_unlock(zh->lock_normal); + yaz_log(YLOG_WARN, "zebra_commit: failed"); + } + } else { - zh->passwd_db = passwd_db_open (); - if (!zh->passwd_db) - logf (LOG_WARN|LOG_ERRNO, "passwd_db_open failed"); - else - passwd_db_file (zh->passwd_db, res_get (zh->res, "passwd")); + zebra_unlock(zh->lock_shadow); + zebra_unlock(zh->lock_normal); + yaz_log(log_level, "nothing to commit"); } - return zh; + bfs_destroy(bfs); + + return res; } -void zebra_close (ZebraHandle zh) +ZEBRA_RES zebra_clean(ZebraHandle zh) { - if (!zh) - return; - zebra_chdir (zh); - if (zh->records) - { - resultSetDestroy (zh, -1, 0, 0); - zebraExplain_close (zh->zei, 0, 0); - dict_close (zh->dict); - sortIdx_close (zh->sortIdx); - if (zh->isam) - is_close (zh->isam); - if (zh->isamc) - isc_close (zh->isamc); - if (zh->isams) - isams_close (zh->isams); - rec_close (&zh->records); - zebra_register_unlock (zh); - } - recTypes_destroy (zh->recTypes); - zebra_maps_close (zh->zebra_maps); - zebraRankDestroy (zh); - bfs_destroy (zh->bfs); - data1_destroy (zh->dh); - zebra_server_lock_destroy (zh); - - if (zh->passwd_db) - passwd_db_close (zh->passwd_db); - res_close (zh->res); - xfree (zh); + yaz_log(log_level, "zebra_clean"); + ZEBRA_CHECK_HANDLE(zh); + return zebra_commit_ex(zh, 1); } -struct map_baseinfo { - ZebraHandle zh; - NMEM mem; - int num_bases; - char **basenames; - int new_num_bases; - char **new_basenames; - int new_num_max; -}; - -void map_basenames_func (void *vp, const char *name, const char *value) +ZEBRA_RES zebra_commit(ZebraHandle zh) { - struct map_baseinfo *p = (struct map_baseinfo *) vp; - int i, no; - char fromdb[128], todb[8][128]; - - no = - sscanf (value, "%127s %127s %127s %127s %127s %127s %127s %127s %127s", - fromdb, todb[0], todb[1], todb[2], todb[3], todb[4], - todb[5], todb[6], todb[7]); - if (no < 2) - return ; - no--; - for (i = 0; inum_bases; i++) - if (p->basenames[i] && !strcmp (p->basenames[i], fromdb)) - { - p->basenames[i] = 0; - for (i = 0; i < no; i++) - { - if (p->new_num_bases == p->new_num_max) - return; - p->new_basenames[(p->new_num_bases)++] = - nmem_strdup (p->mem, todb[i]); - } - return; - } + yaz_log(log_level, "zebra_commit"); + ZEBRA_CHECK_HANDLE(zh); + return zebra_commit_ex(zh, 0); } -void map_basenames (ZebraHandle zh, ODR stream, - int *num_bases, char ***basenames) + +ZEBRA_RES zebra_init(ZebraHandle zh) { - struct map_baseinfo info; - struct map_baseinfo *p = &info; - int i; + const char *rval; + BFiles bfs = 0; - info.zh = zh; - info.num_bases = *num_bases; - info.basenames = *basenames; - info.new_num_max = 128; - info.new_num_bases = 0; - info.new_basenames = (char **) - odr_malloc (stream, sizeof(*info.new_basenames) * info.new_num_max); - info.mem = stream->mem; + yaz_log(log_level, "zebra_init"); + + ZEBRA_CHECK_HANDLE(zh); + + zebra_select_default_database(zh); + if (!zh->res) + { + zebra_setError(zh, YAZ_BIB1_TEMPORARY_SYSTEM_ERROR, + "cannot select default database"); + return ZEBRA_FAIL; + } + rval = res_get(zh->res, "shadow"); - res_trav (zh->res, "mapdb", &info, map_basenames_func); + bfs = bfs_create(res_get(zh->res, "register"), zh->path_reg); + if (!bfs) + { + zebra_setError(zh, YAZ_BIB1_TEMPORARY_SYSTEM_ERROR, "bfs_create"); + return ZEBRA_FAIL; + } + if (rval && *rval) + bf_cache(bfs, rval); - for (i = 0; inum_bases; i++) - if (p->basenames[i] && p->new_num_bases < p->new_num_max) - { - p->new_basenames[(p->new_num_bases)++] = - nmem_strdup (p->mem, p->basenames[i]); - } - *num_bases = info.new_num_bases; - *basenames = info.new_basenames; - for (i = 0; i<*num_bases; i++) - logf (LOG_LOG, "base %s", (*basenames)[i]); + bf_reset(bfs); + bfs_destroy(bfs); + zebra_set_state(zh, 'o', 0); + return ZEBRA_OK; } -void zebra_search_rpn (ZebraHandle zh, ODR stream, ODR decode, - Z_RPNQuery *query, int num_bases, char **basenames, - const char *setname) +ZEBRA_RES zebra_compact(ZebraHandle zh) { - zh->hits = 0; - if (zebra_register_lock (zh)) - return; - map_basenames (zh, stream, &num_bases, &basenames); - resultSetAddRPN (zh, stream, decode, query, num_bases, basenames, setname); + BFiles bfs; - zebra_register_unlock (zh); + yaz_log(log_level, "zebra_compact"); + ZEBRA_CHECK_HANDLE(zh); + if (!zh->res) + { + zh->errCode = YAZ_BIB1_DATABASE_UNAVAILABLE; + return ZEBRA_FAIL; + } + bfs = bfs_create(res_get(zh->res, "register"), zh->path_reg); + inv_compact(bfs); + bfs_destroy(bfs); + return ZEBRA_OK; } -void zebra_records_retrieve (ZebraHandle zh, ODR stream, - const char *setname, Z_RecordComposition *comp, - oid_value input_format, int num_recs, - ZebraRetrievalRecord *recs) +void zebra_result(ZebraHandle zh, int *code, char **addinfo) { - ZebraPosSet poset; - int i, *pos_array; - - if (zebra_register_lock (zh)) - return; - pos_array = (int *) xmalloc (num_recs * sizeof(*pos_array)); - for (i = 0; ierrCode = 30; - zh->errString = nmem_strdup (stream->mem, setname); + *code = zh->errCode; + *addinfo = zh->errString; } else { - for (i = 0; ierrCode = 13; - zh->errString = nmem_strdup (stream->mem, num_str); - break; - } - else - { - recs[i].errCode = - zebra_record_fetch (zh, poset[i].sysno, poset[i].score, - stream, input_format, comp, - &recs[i].format, &recs[i].buf, - &recs[i].len, - &recs[i].base); - recs[i].errString = NULL; - } - } - zebraPosSetDestroy (zh, poset, num_recs); + *code = YAZ_BIB1_TEMPORARY_SYSTEM_ERROR; + *addinfo ="ZebraHandle is NULL"; } - zebra_register_unlock (zh); - xfree (pos_array); } -void zebra_scan (ZebraHandle zh, ODR stream, Z_AttributesPlusTerm *zapt, - oid_value attributeset, - int num_bases, char **basenames, - int *position, int *num_entries, ZebraScanEntry **entries, - int *is_partial) +void zebra_shadow_enable(ZebraHandle zh, int value) { - if (zebra_register_lock (zh)) - { - *entries = 0; - *num_entries = 0; - return; - } - map_basenames (zh, stream, &num_bases, &basenames); - rpn_scan (zh, stream, zapt, attributeset, - num_bases, basenames, position, - num_entries, entries, is_partial); - zebra_register_unlock (zh); + ASSERTZH; + yaz_log(log_level, "zebra_shadow_enable"); + zh->shadow_enable = value; } -void zebra_sort (ZebraHandle zh, ODR stream, - int num_input_setnames, const char **input_setnames, - const char *output_setname, Z_SortKeySpecList *sort_sequence, - int *sort_status) +ZEBRA_RES zebra_octet_term_encoding(ZebraHandle zh, const char *encoding) { - if (zebra_register_lock (zh)) - return; - resultSetSort (zh, stream->mem, num_input_setnames, input_setnames, - output_setname, sort_sequence, sort_status); - zebra_register_unlock (zh); + yaz_log(log_level, "zebra_octet_term_encoding %s", encoding); + ZEBRA_CHECK_HANDLE(zh); + assert(encoding); + + if (zh->iconv_to_utf8 != 0) + yaz_iconv_close(zh->iconv_to_utf8); + if (zh->iconv_from_utf8 != 0) + yaz_iconv_close(zh->iconv_from_utf8); + + zh->iconv_to_utf8 = + yaz_iconv_open("UTF-8", encoding); + if (zh->iconv_to_utf8 == 0) + yaz_log(YLOG_WARN, "iconv: %s to UTF-8 unsupported", encoding); + zh->iconv_from_utf8 = + yaz_iconv_open(encoding, "UTF-8"); + if (zh->iconv_to_utf8 == 0) + yaz_log(YLOG_WARN, "iconv: UTF-8 to %s unsupported", encoding); + + return ZEBRA_OK; } -int zebra_deleleResultSet(ZebraHandle zh, int function, - int num_setnames, char **setnames, - int *statuses) +ZEBRA_RES zebra_record_encoding(ZebraHandle zh, const char *encoding) { - int i, status; - if (zebra_register_lock (zh)) - return Z_DeleteStatus_systemProblemAtTarget; - switch (function) - { - case Z_DeleteRequest_list: - resultSetDestroy (zh, num_setnames, setnames, statuses); - break; - case Z_DeleteRequest_all: - resultSetDestroy (zh, -1, 0, statuses); - break; - } - zebra_register_unlock (zh); - status = Z_DeleteStatus_success; - for (i = 0; irecord_encoding); + zh->record_encoding = 0; + if (encoding) + zh->record_encoding = xstrdup(encoding); + return ZEBRA_OK; } -int zebra_errCode (ZebraHandle zh) +void zebra_set_resource(ZebraHandle zh, const char *name, const char *value) { - return zh->errCode; + assert(name); + assert(value); + yaz_log(log_level, "zebra_set_resource %s:%s", name, value); + ASSERTZH; + res_set(zh->res, name, value); } -const char *zebra_errString (ZebraHandle zh) +const char *zebra_get_resource(ZebraHandle zh, + const char *name, const char *defaultvalue) { - return diagbib1_str (zh->errCode); + const char *v; + ASSERTZH; + assert(name); + v = res_get_def(zh->res, name,(char *)defaultvalue); + yaz_log(log_level, "zebra_get_resource %s:%s", name, v); + return v; } -char *zebra_errAdd (ZebraHandle zh) +/* moved from zebra_api_ext.c by pop */ +/* FIXME: Should this really be public??? -Heikki */ + +int zebra_trans_no(ZebraHandle zh) { - return zh->errString; + yaz_log(log_level, "zebra_trans_no"); + ASSERTZH; + return zh->trans_no; } -int zebra_hits (ZebraHandle zh) +int zebra_get_shadow_enable(ZebraHandle zh) { - return zh->hits; + yaz_log(log_level, "zebra_get_shadow_enable"); + ASSERTZH; + return zh->shadow_enable; } -int zebra_auth (ZebraHandle zh, const char *user, const char *pass) +void zebra_set_shadow_enable(ZebraHandle zh, int value) { - if (!zh->passwd_db || !passwd_db_auth (zh->passwd_db, user, pass)) - return 0; - return 1; + yaz_log(log_level, "zebra_set_shadow_enable %d",value); + ASSERTZH; + zh->shadow_enable = value; +} + +ZEBRA_RES zebra_add_record(ZebraHandle zh, + const char *buf, int buf_size) +{ + return zebra_update_record(zh, action_update, + 0 /* record type */, + 0 /* sysno */ , + 0 /* match */, + 0 /* fname */, + buf, buf_size); +} + +ZEBRA_RES zebra_update_record(ZebraHandle zh, + enum zebra_recctrl_action_t action, + const char *recordType, + zint *sysno, const char *match, + const char *fname, + const char *buf, int buf_size) +{ + ZEBRA_RES res; + + ZEBRA_CHECK_HANDLE(zh); + + assert(buf); + + yaz_log(log_level, "zebra_update_record"); + if (sysno) + yaz_log(log_level, " sysno=" ZINT_FORMAT, *sysno); + + if (buf_size < 1) + buf_size = strlen(buf); + + if (zebra_begin_trans(zh, 1) == ZEBRA_FAIL) + return ZEBRA_FAIL; + res = zebra_buffer_extract_record(zh, buf, buf_size, + action, + recordType, + sysno, + match, + fname); + if (zebra_end_trans(zh) != ZEBRA_OK) + { + yaz_log(YLOG_WARN, "zebra_end_trans failed"); + res = ZEBRA_FAIL; + } + return res; } -void zebra_setDB (ZebraHandle zh, int num_bases, char **basenames) +/* --------------------------------------------------------------------------- + Searching +*/ + +ZEBRA_RES zebra_search_PQF(ZebraHandle zh, const char *pqf_query, + const char *setname, zint *hits) { + zint lhits = 0; + ZEBRA_RES res = ZEBRA_OK; + Z_RPNQuery *query; + ODR odr; + + + ZEBRA_CHECK_HANDLE(zh); + + odr = odr_createmem(ODR_ENCODE); + + assert(pqf_query); + assert(setname); + + yaz_log(log_level, "zebra_search_PQF s=%s q=%s", setname, pqf_query); + + query = p_query_rpn(odr, pqf_query); + + if (!query) + { + yaz_log(YLOG_WARN, "bad query %s\n", pqf_query); + zh->errCode = YAZ_BIB1_MALFORMED_QUERY; + res = ZEBRA_FAIL; + } + else + res = zebra_search_RPN(zh, odr, query, setname, &lhits); + + odr_destroy(odr); + + yaz_log(log_level, "Hits: " ZINT_FORMAT, lhits); + if (hits) + *hits = lhits; + + return res; } -void zebra_setRecordType (ZebraHandle zh, const char *type) +/* --------------------------------------------------------------------------- + Sort - a simplified interface, with optional read locks. +*/ +int zebra_sort_by_specstr(ZebraHandle zh, ODR stream, + const char *sort_spec, + const char *output_setname, + const char **input_setnames) { + int num_input_setnames = 0; + int sort_status = 0; + Z_SortKeySpecList *sort_sequence; + + ZEBRA_CHECK_HANDLE(zh); + assert(stream); + assert(sort_spec); + assert(output_setname); + assert(input_setnames); + sort_sequence = yaz_sort_spec(stream, sort_spec); + yaz_log(log_level, "sort (FIXME) "); + if (!sort_sequence) + { + yaz_log(YLOG_WARN, "invalid sort specs '%s'", sort_spec); + zh->errCode = YAZ_BIB1_CANNOT_SORT_ACCORDING_TO_SEQUENCE; + return -1; + } + + /* we can do this, since the perl typemap code for char** will + put a NULL at the end of list */ + while (input_setnames[num_input_setnames]) num_input_setnames++; + + if (zebra_begin_read(zh)) + return -1; + + resultSetSort(zh, stream->mem, num_input_setnames, input_setnames, + output_setname, sort_sequence, &sort_status); + + zebra_end_read(zh); + return sort_status; +} +/* --------------------------------------------------------------------------- + Get BFS for Zebra system (to make alternative storage methods) +*/ +struct BFiles_struct *zebra_get_bfs(ZebraHandle zh) +{ + if (zh && zh->reg) + return zh->reg->bfs; + return 0; } -void zebra_setGroup (ZebraHandle zh, const char *group) + +/* --------------------------------------------------------------------------- + Set limit for search/scan +*/ +ZEBRA_RES zebra_set_limit(ZebraHandle zh, int complement_flag, zint *ids) { + ZEBRA_CHECK_HANDLE(zh); + zebra_limit_destroy(zh->m_limit); + zh->m_limit = zebra_limit_create(complement_flag, ids); + return ZEBRA_OK; +} +/* + Set Error code + addinfo +*/ +void zebra_setError(ZebraHandle zh, int code, const char *addinfo) +{ + if (!zh) + return; + zh->errCode = code; + nmem_reset(zh->nmem_error); + zh->errString = addinfo ? nmem_strdup(zh->nmem_error, addinfo) : 0; } -void zebra_admin (ZebraHandle zh, const char *command) +void zebra_setError_zint(ZebraHandle zh, int code, zint i) { + char vstr[60]; + sprintf(vstr, ZINT_FORMAT, i); + zh->errCode = code; + nmem_reset(zh->nmem_error); + zh->errString = nmem_strdup(zh->nmem_error, vstr); } + +void zebra_lock_prefix(Res res, char *path) +{ + const char *lock_dir = res_get_def(res, "lockDir", ""); + + strcpy(path, lock_dir); + if (*path && path[strlen(path)-1] != '/') + strcat(path, "/"); +} + +/* + * Local variables: + * c-basic-offset: 4 + * c-file-style: "Stroustrup" + * indent-tabs-mode: nil + * End: + * vim: shiftwidth=4 tabstop=8 expandtab + */ +