/* ldb database library Copyright (C) Simo Sorce 2004-2008 ** NOTE! The following LGPL license applies to the ldb ** library. This does NOT imply that all of Samba is released ** under the LGPL This library is free software; you can redistribute it and/or modify it under the terms of the GNU Lesser General Public License as published by the Free Software Foundation; either version 3 of the License, or (at your option) any later version. This library 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 Lesser General Public License for more details. You should have received a copy of the GNU Lesser General Public License along with this library; if not, see . */ /* * Name: ldb * * Component: ldb modules core * * Description: core modules routines * * Author: Simo Sorce */ #include "ldb_private.h" #include "dlinklist.h" #include "system/dir.h" static char *ldb_modules_strdup_no_spaces(TALLOC_CTX *mem_ctx, const char *string) { size_t i, len; char *trimmed; trimmed = talloc_strdup(mem_ctx, string); if (!trimmed) { return NULL; } len = strlen(trimmed); for (i = 0; trimmed[i] != '\0'; i++) { switch (trimmed[i]) { case ' ': case '\t': case '\n': memmove(&trimmed[i], &trimmed[i + 1], len -i -1); break; } } return trimmed; } /* modules are called in inverse order on the stack. Lets place them as an admin would think the right order is. Modules order is important */ const char **ldb_modules_list_from_string(struct ldb_context *ldb, TALLOC_CTX *mem_ctx, const char *string) { char **modules = NULL; const char **m; char *modstr, *p; unsigned int i; /* spaces not admitted */ modstr = ldb_modules_strdup_no_spaces(mem_ctx, string); if ( ! modstr) { ldb_debug(ldb, LDB_DEBUG_FATAL, "Out of Memory in ldb_modules_strdup_no_spaces()"); return NULL; } modules = talloc_realloc(mem_ctx, modules, char *, 2); if ( ! modules ) { ldb_debug(ldb, LDB_DEBUG_FATAL, "Out of Memory in ldb_modules_list_from_string()"); talloc_free(modstr); return NULL; } talloc_steal(modules, modstr); if (modstr[0] == '\0') { modules[0] = NULL; m = (const char **)modules; return m; } i = 0; /* The str*r*chr walks backwards: This is how we get the inverse order mentioned above */ while ((p = strrchr(modstr, ',')) != NULL) { *p = '\0'; p++; modules[i] = p; i++; modules = talloc_realloc(mem_ctx, modules, char *, i + 2); if ( ! modules ) { ldb_debug(ldb, LDB_DEBUG_FATAL, "Out of Memory in ldb_modules_list_from_string()"); return NULL; } } modules[i] = modstr; modules[i + 1] = NULL; m = (const char **)modules; return m; } static struct backends_list_entry { struct ldb_backend_ops *ops; struct backends_list_entry *prev, *next; } *ldb_backends = NULL; static struct ops_list_entry { const struct ldb_module_ops *ops; struct ops_list_entry *next; } *registered_modules = NULL; static struct backends_list_entry *ldb_find_backend(const char *url_prefix) { struct backends_list_entry *backend; for (backend = ldb_backends; backend; backend = backend->next) { if (strcmp(backend->ops->name, url_prefix) == 0) { return backend; } } return NULL; } /* register a new ldb backend if override is true, then override any existing backend for this prefix */ int ldb_register_backend(const char *url_prefix, ldb_connect_fn connectfn, bool override) { struct backends_list_entry *be; be = ldb_find_backend(url_prefix); if (be) { if (!override) { return LDB_SUCCESS; } } else { be = talloc_zero(ldb_backends, struct backends_list_entry); if (!be) { return LDB_ERR_OPERATIONS_ERROR; } be->ops = talloc_zero(be, struct ldb_backend_ops); if (!be->ops) { talloc_free(be); return LDB_ERR_OPERATIONS_ERROR; } DLIST_ADD_END(ldb_backends, be, struct backends_list_entry); } be->ops->name = url_prefix; be->ops->connect_fn = connectfn; return LDB_SUCCESS; } /* Return the ldb module form of a database. The URL can either be one of the following forms ldb://path ldapi://path flags is made up of LDB_FLG_* the options are passed uninterpreted to the backend, and are backend specific. This allows modules to get at only the backend module, for example where a module may wish to direct certain requests at a particular backend. */ int ldb_module_connect_backend(struct ldb_context *ldb, const char *url, const char *options[], struct ldb_module **backend_module) { int ret; char *backend; struct backends_list_entry *be; if (strchr(url, ':') != NULL) { backend = talloc_strndup(ldb, url, strchr(url, ':')-url); } else { /* Default to tdb */ backend = talloc_strdup(ldb, "tdb"); } be = ldb_find_backend(backend); talloc_free(backend); if (be == NULL) { ldb_debug(ldb, LDB_DEBUG_FATAL, "Unable to find backend for '%s' - do you need to set LDB_MODULES_PATH?", url); return LDB_ERR_OTHER; } ret = be->ops->connect_fn(ldb, url, ldb->flags, options, backend_module); if (ret != LDB_SUCCESS) { ldb_debug(ldb, LDB_DEBUG_ERROR, "Failed to connect to '%s' with backend '%s'", url, be->ops->name); return ret; } return ret; } static struct ldb_hooks { struct ldb_hooks *next, *prev; ldb_hook_fn hook_fn; } *ldb_hooks; /* register a ldb hook function */ int ldb_register_hook(ldb_hook_fn hook_fn) { struct ldb_hooks *lc; lc = talloc_zero(ldb_hooks, struct ldb_hooks); if (lc == NULL) { return LDB_ERR_OPERATIONS_ERROR; } lc->hook_fn = hook_fn; DLIST_ADD_END(ldb_hooks, lc, struct ldb_hooks); return LDB_SUCCESS; } /* call ldb hooks of a given type */ int ldb_modules_hook(struct ldb_context *ldb, enum ldb_module_hook_type t) { struct ldb_hooks *lc; for (lc = ldb_hooks; lc; lc=lc->next) { int ret = lc->hook_fn(ldb, t); if (ret != LDB_SUCCESS) { return ret; } } return LDB_SUCCESS; } static const struct ldb_module_ops *ldb_find_module_ops(const char *name) { struct ops_list_entry *e; for (e = registered_modules; e; e = e->next) { if (strcmp(e->ops->name, name) == 0) return e->ops; } return NULL; } int ldb_register_module(const struct ldb_module_ops *ops) { struct ops_list_entry *entry = talloc(talloc_autofree_context(), struct ops_list_entry); if (ldb_find_module_ops(ops->name) != NULL) return -1; if (entry == NULL) return -1; entry->ops = ops; entry->next = registered_modules; registered_modules = entry; return 0; } /* load a list of modules */ int ldb_module_load_list(struct ldb_context *ldb, const char **module_list, struct ldb_module *backend, struct ldb_module **out) { struct ldb_module *module; unsigned int i; module = backend; for (i = 0; module_list && module_list[i] != NULL; i++) { struct ldb_module *current; const struct ldb_module_ops *ops; if (strcmp(module_list[i], "") == 0) { continue; } ops = ldb_find_module_ops(module_list[i]); if (ops == NULL) { ldb_debug(ldb, LDB_DEBUG_FATAL, "WARNING: Module [%s] not found - do you need to set LDB_MODULES_PATH?", module_list[i]); continue; } current = talloc_zero(ldb, struct ldb_module); if (current == NULL) { return LDB_ERR_OPERATIONS_ERROR; } talloc_set_name(current, "ldb_module: %s", module_list[i]); current->ldb = ldb; current->ops = ops; DLIST_ADD(module, current); } *out = module; return LDB_SUCCESS; } /* initialise a chain of modules */ int ldb_module_init_chain(struct ldb_context *ldb, struct ldb_module *module) { while (module && module->ops->init_context == NULL) module = module->next; /* init is different in that it is not an error if modules * do not require initialization */ if (module) { int ret = module->ops->init_context(module); if (ret != LDB_SUCCESS) { ldb_debug(ldb, LDB_DEBUG_FATAL, "module %s initialization failed : %s", module->ops->name, ldb_strerror(ret)); return ret; } } return LDB_SUCCESS; } int ldb_load_modules(struct ldb_context *ldb, const char *options[]) { const char *modules_string; const char **modules = NULL; int ret; TALLOC_CTX *mem_ctx = talloc_new(ldb); if (!mem_ctx) { return LDB_ERR_OPERATIONS_ERROR; } /* find out which modules we are requested to activate */ /* check if we have a custom module list passd as ldb option */ if (options) { modules_string = ldb_options_find(ldb, options, "modules"); if (modules_string) { modules = ldb_modules_list_from_string(ldb, mem_ctx, modules_string); } } /* if not overloaded by options and the backend is not ldap try to load the modules list from ldb */ if ((modules == NULL) && (strcmp("ldap", ldb->modules->ops->name) != 0)) { const char * const attrs[] = { "@LIST" , NULL}; struct ldb_result *res = NULL; struct ldb_dn *mods_dn; mods_dn = ldb_dn_new(mem_ctx, ldb, "@MODULES"); if (mods_dn == NULL) { talloc_free(mem_ctx); return -1; } ret = ldb_search(ldb, mods_dn, &res, mods_dn, LDB_SCOPE_BASE, attrs, "@LIST=*"); if (ret == LDB_ERR_NO_SUCH_OBJECT) { ldb_debug(ldb, LDB_DEBUG_TRACE, "no modules required by the db"); } else if (ret != LDB_SUCCESS) { ldb_debug(ldb, LDB_DEBUG_FATAL, "ldb error (%s) occurred searching for modules, bailing out", ldb_errstring(ldb)); talloc_free(mem_ctx); return ret; } else { const char *module_list; if (res->count == 0) { ldb_debug(ldb, LDB_DEBUG_TRACE, "no modules required by the db"); } else if (res->count > 1) { ldb_debug(ldb, LDB_DEBUG_FATAL, "Too many records found (%d), bailing out", res->count); talloc_free(mem_ctx); return -1; } else { module_list = ldb_msg_find_attr_as_string(res->msgs[0], "@LIST", NULL); if (!module_list) { ldb_debug(ldb, LDB_DEBUG_TRACE, "no modules required by the db"); } modules = ldb_modules_list_from_string(ldb, mem_ctx, module_list); } } talloc_free(mods_dn); } if (modules != NULL) { ret = ldb_module_load_list(ldb, modules, ldb->modules, &ldb->modules); if (ret != LDB_SUCCESS) { talloc_free(mem_ctx); return ret; } } else { ldb_debug(ldb, LDB_DEBUG_TRACE, "No modules specified for this database"); } ret = ldb_module_init_chain(ldb, ldb->modules); talloc_free(mem_ctx); return ret; } /* by using this we allow ldb modules to only implement the functions they care about, which makes writing a module simpler, and makes it more likely to keep working when ldb is extended */ #define FIND_OP_NOERR(module, op) do { \ module = module->next; \ while (module && module->ops->op == NULL) module = module->next; \ if ((module && module->ldb->flags & LDB_FLG_ENABLE_TRACING)) { \ ldb_debug(module->ldb, LDB_DEBUG_TRACE, "ldb_trace_next_request: (%s)->" #op, \ module->ops->name); \ } \ } while (0) #define FIND_OP(module, op) do { \ struct ldb_context *ldb = module->ldb; \ FIND_OP_NOERR(module, op); \ if (module == NULL) { \ ldb_asprintf_errstring(ldb, "Unable to find backend operation for " #op ); \ return LDB_ERR_OPERATIONS_ERROR; \ } \ } while (0) struct ldb_module *ldb_module_new(TALLOC_CTX *memctx, struct ldb_context *ldb, const char *module_name, const struct ldb_module_ops *ops) { struct ldb_module *module; module = talloc(memctx, struct ldb_module); if (!module) { ldb_oom(ldb); return NULL; } talloc_set_name_const(module, module_name); module->ldb = ldb; module->prev = module->next = NULL; module->ops = ops; return module; } const char * ldb_module_get_name(struct ldb_module *module) { return module->ops->name; } struct ldb_context *ldb_module_get_ctx(struct ldb_module *module) { return module->ldb; } const struct ldb_module_ops *ldb_module_get_ops(struct ldb_module *module) { return module->ops; } void *ldb_module_get_private(struct ldb_module *module) { return module->private_data; } void ldb_module_set_private(struct ldb_module *module, void *private_data) { module->private_data = private_data; } /* helper functions to call the next module in chain */ int ldb_next_request(struct ldb_module *module, struct ldb_request *request) { int ret; if (request->callback == NULL) { ldb_set_errstring(module->ldb, "Requests MUST define callbacks"); return LDB_ERR_UNWILLING_TO_PERFORM; } request->handle->nesting++; switch (request->operation) { case LDB_SEARCH: FIND_OP(module, search); ret = module->ops->search(module, request); break; case LDB_ADD: FIND_OP(module, add); ret = module->ops->add(module, request); break; case LDB_MODIFY: FIND_OP(module, modify); ret = module->ops->modify(module, request); break; case LDB_DELETE: FIND_OP(module, del); ret = module->ops->del(module, request); break; case LDB_RENAME: FIND_OP(module, rename); ret = module->ops->rename(module, request); break; case LDB_EXTENDED: FIND_OP(module, extended); ret = module->ops->extended(module, request); break; default: FIND_OP(module, request); ret = module->ops->request(module, request); break; } request->handle->nesting--; if (ret == LDB_SUCCESS) { return ret; } if (!ldb_errstring(module->ldb)) { /* Set a default error string, to place the blame somewhere */ ldb_asprintf_errstring(module->ldb, "error in module %s: %s (%d)", module->ops->name, ldb_strerror(ret), ret); } if (!(request->handle->flags & LDB_HANDLE_FLAG_DONE_CALLED)) { /* It is _extremely_ common that a module returns a * failure without calling ldb_module_done(), but that * guarantees we will end up hanging in * ldb_wait(). This fixes it without having to rewrite * all our modules, and leaves us one less sharp * corner for module developers to cut themselves on */ ret = ldb_module_done(request, NULL, NULL, ret); } return ret; } int ldb_next_init(struct ldb_module *module) { module = module->next; return ldb_module_init_chain(module->ldb, module); } int ldb_next_start_trans(struct ldb_module *module) { int ret; FIND_OP(module, start_transaction); ret = module->ops->start_transaction(module); if (ret == LDB_SUCCESS) { return ret; } if (!ldb_errstring(module->ldb)) { /* Set a default error string, to place the blame somewhere */ ldb_asprintf_errstring(module->ldb, "start_trans error in module %s: %s (%d)", module->ops->name, ldb_strerror(ret), ret); } if ((module && module->ldb->flags & LDB_FLG_ENABLE_TRACING)) { ldb_debug(module->ldb, LDB_DEBUG_TRACE, "ldb_next_start_trans error: %s", ldb_errstring(module->ldb)); } return ret; } int ldb_next_end_trans(struct ldb_module *module) { int ret; FIND_OP(module, end_transaction); ret = module->ops->end_transaction(module); if (ret == LDB_SUCCESS) { return ret; } if (!ldb_errstring(module->ldb)) { /* Set a default error string, to place the blame somewhere */ ldb_asprintf_errstring(module->ldb, "end_trans error in module %s: %s (%d)", module->ops->name, ldb_strerror(ret), ret); } if ((module && module->ldb->flags & LDB_FLG_ENABLE_TRACING)) { ldb_debug(module->ldb, LDB_DEBUG_TRACE, "ldb_next_end_trans error: %s", ldb_errstring(module->ldb)); } return ret; } int ldb_next_prepare_commit(struct ldb_module *module) { int ret; FIND_OP_NOERR(module, prepare_commit); if (module == NULL) { /* we are allowed to have no prepare commit in backends */ return LDB_SUCCESS; } ret = module->ops->prepare_commit(module); if (ret == LDB_SUCCESS) { return ret; } if (!ldb_errstring(module->ldb)) { /* Set a default error string, to place the blame somewhere */ ldb_asprintf_errstring(module->ldb, "prepare_commit error in module %s: %s (%d)", module->ops->name, ldb_strerror(ret), ret); } if ((module && module->ldb->flags & LDB_FLG_ENABLE_TRACING)) { ldb_debug(module->ldb, LDB_DEBUG_TRACE, "ldb_next_prepare_commit error: %s", ldb_errstring(module->ldb)); } return ret; } int ldb_next_del_trans(struct ldb_module *module) { int ret; FIND_OP(module, del_transaction); ret = module->ops->del_transaction(module); if (ret == LDB_SUCCESS) { return ret; } if (!ldb_errstring(module->ldb)) { /* Set a default error string, to place the blame somewhere */ ldb_asprintf_errstring(module->ldb, "del_trans error in module %s: %s (%d)", module->ops->name, ldb_strerror(ret), ret); } if ((module && module->ldb->flags & LDB_FLG_ENABLE_TRACING)) { ldb_debug(module->ldb, LDB_DEBUG_TRACE, "ldb_next_del_trans error: %s", ldb_errstring(module->ldb)); } return ret; } struct ldb_handle *ldb_handle_new(TALLOC_CTX *mem_ctx, struct ldb_context *ldb) { struct ldb_handle *h; h = talloc_zero(mem_ctx, struct ldb_handle); if (h == NULL) { ldb_set_errstring(ldb, "Out of Memory"); return NULL; } h->status = LDB_SUCCESS; h->state = LDB_ASYNC_INIT; h->ldb = ldb; h->flags = 0; h->location = NULL; h->parent = NULL; return h; } /* calls the request callback to send an entry * * params: * req: the original request passed to your module * msg: reply message (must be a talloc pointer, and it will be stolen * on the ldb_reply that is sent to the callback) * ctrls: controls to send in the reply (must be a talloc pointer, and it will be stolen * on the ldb_reply that is sent to the callback) */ int ldb_module_send_entry(struct ldb_request *req, struct ldb_message *msg, struct ldb_control **ctrls) { struct ldb_reply *ares; ares = talloc_zero(req, struct ldb_reply); if (!ares) { ldb_oom(req->handle->ldb); req->callback(req, NULL); return LDB_ERR_OPERATIONS_ERROR; } ares->type = LDB_REPLY_ENTRY; ares->message = talloc_steal(ares, msg); ares->controls = talloc_steal(ares, ctrls); ares->error = LDB_SUCCESS; if ((req->handle->ldb->flags & LDB_FLG_ENABLE_TRACING) && req->handle->nesting == 0) { char *s; ldb_debug_add(req->handle->ldb, "ldb_trace_response: ENTRY\n"); s = ldb_ldif_message_string(req->handle->ldb, msg, LDB_CHANGETYPE_NONE, msg); ldb_debug_add(req->handle->ldb, "%s\n", s); talloc_free(s); ldb_debug_end(req->handle->ldb, LDB_DEBUG_TRACE); } return req->callback(req, ares); } /* calls the request callback to send an referrals * * params: * req: the original request passed to your module * ref: referral string (must be a talloc pointeri, steal) */ int ldb_module_send_referral(struct ldb_request *req, char *ref) { struct ldb_reply *ares; ares = talloc_zero(req, struct ldb_reply); if (!ares) { ldb_oom(req->handle->ldb); req->callback(req, NULL); return LDB_ERR_OPERATIONS_ERROR; } ares->type = LDB_REPLY_REFERRAL; ares->referral = talloc_steal(ares, ref); ares->error = LDB_SUCCESS; if ((req->handle->ldb->flags & LDB_FLG_ENABLE_TRACING) && req->handle->nesting == 0) { ldb_debug_add(req->handle->ldb, "ldb_trace_response: REFERRAL\n"); ldb_debug_add(req->handle->ldb, "ref: %s\n", ref); ldb_debug_end(req->handle->ldb, LDB_DEBUG_TRACE); } return req->callback(req, ares); } /* calls the original request callback * * params: * req: the original request passed to your module * ctrls: controls to send in the reply (must be a talloc pointer, steal) * response: results for extended request (steal) * error: LDB_SUCCESS for a successful return * any other ldb error otherwise */ int ldb_module_done(struct ldb_request *req, struct ldb_control **ctrls, struct ldb_extended *response, int error) { struct ldb_reply *ares; ares = talloc_zero(req, struct ldb_reply); if (!ares) { ldb_oom(req->handle->ldb); req->callback(req, NULL); return LDB_ERR_OPERATIONS_ERROR; } ares->type = LDB_REPLY_DONE; ares->controls = talloc_steal(ares, ctrls); ares->response = talloc_steal(ares, response); ares->error = error; req->handle->flags |= LDB_HANDLE_FLAG_DONE_CALLED; if ((req->handle->ldb->flags & LDB_FLG_ENABLE_TRACING) && req->handle->nesting == 0) { ldb_debug_add(req->handle->ldb, "ldb_trace_response: DONE\n"); ldb_debug_add(req->handle->ldb, "error: %u\n", error); if (ldb_errstring(req->handle->ldb)) { ldb_debug_add(req->handle->ldb, "msg: %s\n", ldb_errstring(req->handle->ldb)); } ldb_debug_end(req->handle->ldb, LDB_DEBUG_TRACE); } return req->callback(req, ares); } /* to be used *only* in modules init functions. * this function is synchronous and will register * the requested OID in the rootdse module if present * otherwise it will return an error */ int ldb_mod_register_control(struct ldb_module *module, const char *oid) { struct ldb_request *req; int ret; req = talloc_zero(module, struct ldb_request); if (req == NULL) { return LDB_ERR_OPERATIONS_ERROR; } req->operation = LDB_REQ_REGISTER_CONTROL; req->op.reg_control.oid = oid; req->callback = ldb_op_default_callback; ldb_set_timeout(module->ldb, req, 0); req->handle = ldb_handle_new(req, module->ldb); if (req->handle == NULL) { return LDB_ERR_OPERATIONS_ERROR; } ret = ldb_request(module->ldb, req); if (ret == LDB_SUCCESS) { ret = ldb_wait(req->handle, LDB_WAIT_ALL); } talloc_free(req); return ret; } static int ldb_modules_load_dir(const char *modules_dir, const char *version); /* load one module. A static list of loaded module inode numbers is used to prevent a module being loaded twice dlopen() is used on the module, and dlsym() is then used to look for a ldb_init_module() function. If present, that function is called with the ldb version number as an argument. The ldb_init_module() function will typically call ldb_register_module() and ldb_register_backend() to register a module or backend, but it may also be used to register command line handling functions, ldif handlers or any other local modififications. The ldb_init_module() function does not get a ldb_context passed in, as modules will be used for multiple ldb context handles. The call from the first ldb_init() is just a convenient way to ensure it is called early enough. */ static int ldb_modules_load_path(const char *path, const char *version) { void *handle; int (*init_fn)(const char *); int ret; struct stat st; static struct loaded { struct loaded *next, *prev; ino_t st_ino; dev_t st_dev; } *loaded; struct loaded *le; ret = stat(path, &st); if (ret != 0) { fprintf(stderr, "ldb: unable to stat module %s : %s\n", path, strerror(errno)); return LDB_ERR_UNAVAILABLE; } for (le=loaded; le; le=le->next) { if (le->st_ino == st.st_ino && le->st_dev == st.st_dev) { /* its already loaded */ return LDB_SUCCESS; } } le = talloc(loaded, struct loaded); if (le == NULL) { fprintf(stderr, "ldb: unable to allocated loaded entry\n"); return LDB_ERR_UNAVAILABLE; } le->st_ino = st.st_ino; le->st_dev = st.st_dev; DLIST_ADD_END(loaded, le, struct loaded); /* if it is a directory, recurse */ if (S_ISDIR(st.st_mode)) { return ldb_modules_load_dir(path, version); } handle = dlopen(path, RTLD_NOW); if (handle == NULL) { fprintf(stderr, "ldb: unable to dlopen %s : %s\n", path, dlerror()); return LDB_SUCCESS; } init_fn = dlsym(handle, "ldb_init_module"); if (init_fn == NULL) { /* ignore it, it could be an old-style * module. Once we've converted all modules we * could consider this an error */ dlclose(handle); return LDB_SUCCESS; } ret = init_fn(version); return ret; } static int qsort_string(const char **s1, const char **s2) { return strcmp(*s1, *s2); } /* load all modules from the given ldb modules directory. This is run once during the first ldb_init() call. Modules are loaded in alphabetical order to ensure that any module load ordering dependencies are reproducible. Modules should avoid relying on load order */ static int ldb_modules_load_dir(const char *modules_dir, const char *version) { DIR *dir; struct dirent *de; const char **modlist = NULL; TALLOC_CTX *tmp_ctx = talloc_new(NULL); unsigned i, num_modules = 0; dir = opendir(modules_dir); if (dir == NULL) { if (errno == ENOENT) { talloc_free(tmp_ctx); /* we don't have any modules */ return LDB_SUCCESS; } talloc_free(tmp_ctx); fprintf(stderr, "ldb: unable to open modules directory '%s' - %s\n", modules_dir, strerror(errno)); return LDB_ERR_UNAVAILABLE; } while ((de = readdir(dir))) { if (ISDOT(de->d_name) || ISDOTDOT(de->d_name)) continue; modlist = talloc_realloc(tmp_ctx, modlist, const char *, num_modules+1); if (modlist == NULL) { talloc_free(tmp_ctx); closedir(dir); fprintf(stderr, "ldb: unable to allocate modules list\n"); return LDB_ERR_UNAVAILABLE; } modlist[num_modules] = talloc_asprintf(modlist, "%s/%s", modules_dir, de->d_name); if (modlist[num_modules] == NULL) { talloc_free(tmp_ctx); closedir(dir); fprintf(stderr, "ldb: unable to allocate module list entry\n"); return LDB_ERR_UNAVAILABLE; } num_modules++; } closedir(dir); /* sort the directory, so we get consistent load ordering */ TYPESAFE_QSORT(modlist, num_modules, qsort_string); for (i=0; ihandle) { char *s = talloc_asprintf_append_buffer(ret, "req[%u] %p : %s\n", i++, req, ldb_req_location(req)); if (s == NULL) { talloc_free(ret); return NULL; } ret = s; req = req->handle->parent; } return ret; } /* return the next module in the chain */ struct ldb_module *ldb_module_next(struct ldb_module *module) { return module->next; } /* set the next module in the module chain */ void ldb_module_set_next(struct ldb_module *module, struct ldb_module *next) { module->next = next; } /* get the popt_options pointer in the ldb structure. This allows a ldb module to change the command line parsing */ struct poptOption **ldb_module_popt_options(struct ldb_context *ldb) { return &ldb->popt_options; } /* return the current ldb flags LDB_FLG_* */ uint32_t ldb_module_flags(struct ldb_context *ldb) { return ldb->flags; }