/* * Asterisk -- A telephony toolkit for Linux. * * Copyright (C) 2005, Oxymium sarl * Manuel Guesdon - LDAP RealTime Driver Author/Adaptor * * Copyright (C) 2007, Digium, Inc. * Russell Bryant * * See http://www.asterisk.org for more information about * the Asterisk project. Please do not directly contact * any of the maintainers of this project for assistance; * the project provides a web site, mailing lists and IRC * channels for your use. * * This program is free software, distributed under the terms of * the GNU General Public License Version 2. See the LICENSE file * at the top of the source tree. * */ /*! \file * * \brief ldap plugin for portable configuration engine (ARA) * * \author Mark Spencer * \author Manuel Guesdon * \author Carl-Einar Thorner * \author Russell Bryant * * \extref OpenLDAP http://www.openldap.org */ /*** MODULEINFO ldap ***/ #include "asterisk.h" #include #include #include #include #include ASTERISK_FILE_VERSION(__FILE__, "$Revision$") #include "asterisk/channel.h" #include "asterisk/logger.h" #include "asterisk/config.h" #include "asterisk/module.h" #include "asterisk/lock.h" #include "asterisk/options.h" #include "asterisk/cli.h" #include "asterisk/utils.h" #include "asterisk/strings.h" #include "asterisk/pbx.h" #include "asterisk/linkedlists.h" #define RES_CONFIG_LDAP_CONF "res_ldap.conf" #define RES_CONFIG_LDAP_DEFAULT_BASEDN "asterisk" AST_MUTEX_DEFINE_STATIC(ldap_lock); static LDAP *ldapConn; static char url[512]; static char user[512]; static char pass[512]; static char base_distinguished_name[512]; static int version; static time_t connect_time; static int parse_config(void); static int ldap_reconnect(void); static char *realtime_ldap_status(struct ast_cli_entry *e, int cmd, struct ast_cli_args *a); struct category_and_metric { const char *name; int metric; const char *variable_name; const char *variable_value; int var_metric; /*!< For organizing variables (particularly includes and switch statments) within a context */ }; /*! \brief Table configuration */ struct ldap_table_config { char *table_name; /*!< table name */ char *additional_filter; /*!< additional filter */ struct ast_variable *attributes; /*!< attribute names conversion */ struct ast_variable *delimiters; /*!< the current delimiter is semicolon, so we are not using this variable */ AST_LIST_ENTRY(ldap_table_config) entry; /* TODO: Make proxies work */ }; /*! \brief Should be locked before using it */ static AST_LIST_HEAD_NOLOCK_STATIC(table_configs, ldap_table_config); static struct ldap_table_config *base_table_config; static struct ldap_table_config *static_table_config; static struct ast_cli_entry ldap_cli[] = { AST_CLI_DEFINE(realtime_ldap_status, "Shows connection information for the LDAP RealTime driver"), }; /*! \brief Create a new table_config */ static struct ldap_table_config *table_config_new(const char *table_name) { struct ldap_table_config *p; if (!(p = ast_calloc(1, sizeof(*p)))) return NULL; if (table_name) { if (!(p->table_name = ast_strdup(table_name))) { free(p); return NULL; } } return p; } /*! \brief Find a table_config - Should be locked before using it * \note This function assumes ldap_lock to be locked. */ static struct ldap_table_config *table_config_for_table_name(const char *table_name) { struct ldap_table_config *c = NULL; AST_LIST_TRAVERSE(&table_configs, c, entry) { if (!strcmp(c->table_name, table_name)) break; } return c; } /*! \brief Find variable by name */ static struct ast_variable *variable_named(struct ast_variable *var, const char *name) { for (; var; var = var->next) { if (!strcasecmp(name, var->name)) break; } return var; } /*! \brief for the semicolon delimiter \param somestr - pointer to a string \return number of occurances of the delimiter(semicolon) */ static int semicolon_count_str(const char *somestr) { int count = 0; for (; *somestr; somestr++) { if (*somestr == ';') count++; } return count; } /* takes a linked list of \a ast_variable variables, finds the one with the name variable_value * and returns the number of semicolons in the value for that \a ast_variable */ static int semicolon_count_var(struct ast_variable *var) { struct ast_variable *var_value = variable_named(var, "variable_value"); if (!var_value) { return 0; } ast_debug(2, "LINE(%d) semicolon_count_var: %s\n", __LINE__, var_value->value); return semicolon_count_str(var_value->value); } /*! \brief add attribute to table config - Should be locked before using it */ static void ldap_table_config_add_attribute(struct ldap_table_config *table_config, const char *attribute_name, const char *attribute_value) { struct ast_variable *var; if (ast_strlen_zero(attribute_name) || ast_strlen_zero(attribute_value)) { return; } if (!(var = ast_variable_new(attribute_name, attribute_value, table_config->table_name))) { return; } if (table_config->attributes) { var->next = table_config->attributes; } table_config->attributes = var; } /*! \brief Free table_config * \note assumes ldap_lock to be locked */ static void table_configs_free(void) { struct ldap_table_config *c; while ((c = AST_LIST_REMOVE_HEAD(&table_configs, entry))) { if (c->table_name) { ast_free(c->table_name); } if (c->additional_filter) { ast_free(c->additional_filter); } if (c->attributes) { ast_variables_destroy(c->attributes); } free(c); } base_table_config = NULL; static_table_config = NULL; } /*! \brief Convert variable name to ldap attribute name - Should be locked before using it */ static const char *convert_attribute_name_to_ldap(struct ldap_table_config *table_config, const char *attribute_name) { int i = 0; struct ldap_table_config *configs[] = { table_config, base_table_config }; for (i = 0; i < ARRAY_LEN(configs); i++) { struct ast_variable *attribute; if (!configs[i]) { continue; } attribute = configs[i]->attributes; for (; attribute; attribute = attribute->next) { if (!strcasecmp(attribute_name, attribute->name)) { return attribute->value; } } } return attribute_name; } /*! \brief Convert ldap attribute name to variable name \note Should be locked before using it */ static const char *convert_attribute_name_from_ldap(struct ldap_table_config *table_config, const char *attribute_name) { int i = 0; struct ldap_table_config *configs[] = { table_config, base_table_config }; for (i = 0; i < ARRAY_LEN(configs); i++) { struct ast_variable *attribute; if (!configs[i]) { continue; } attribute = configs[i]->attributes; for (; attribute; attribute = attribute->next) { if (strcasecmp(attribute_name, attribute->value) == 0) { return attribute->name; } } } return attribute_name; } /*! \brief Get variables from ldap entry attributes \note Should be locked before using it \return a linked list of ast_variable variables. */ static struct ast_variable *realtime_ldap_entry_to_var(struct ldap_table_config *table_config, LDAPMessage *ldap_entry) { BerElement *ber = NULL; struct ast_variable *var = NULL; struct ast_variable *prev = NULL; int is_delimited = 0; int i = 0; char *ldap_attribute_name; struct berval *value; int pos = 0; ldap_attribute_name = ldap_first_attribute(ldapConn, ldap_entry, &ber); while (ldap_attribute_name) { struct berval **values = NULL; const char *attribute_name = convert_attribute_name_from_ldap(table_config, ldap_attribute_name); int is_realmed_password_attribute = strcasecmp(attribute_name, "md5secret") == 0; values = ldap_get_values_len(ldapConn, ldap_entry, ldap_attribute_name); /* these are freed at the end */ if (values) { struct berval **v; char *valptr; for (v = values; *v; v++) { value = *v; valptr = value->bv_val; ast_debug(2, "LINE(%d) attribute_name: %s LDAP value: %s\n", __LINE__, attribute_name, valptr); if (is_realmed_password_attribute) { if (!strncasecmp(valptr, "{md5}", 5)) { valptr += 5; } ast_debug(2, "md5: %s\n", valptr); } if (valptr) { /* ok, so looping through all delimited values except the last one (not, last character is not delimited...) */ if (is_delimited) { i = 0; pos = 0; while (!ast_strlen_zero(valptr + i)) { if (valptr[i] == ';') { valptr[i] = '\0'; if (prev) { prev->next = ast_variable_new(attribute_name, &valptr[pos], table_config->table_name); if (prev->next) { prev = prev->next; } } else { prev = var = ast_variable_new(attribute_name, &valptr[pos], table_config->table_name); } pos = i + 1; } i++; } } /* for the last delimited value or if the value is not delimited: */ if (prev) { prev->next = ast_variable_new(attribute_name, &valptr[pos], table_config->table_name); if (prev->next) { prev = prev->next; } } else { prev = var = ast_variable_new(attribute_name, &valptr[pos], table_config->table_name); } } } ldap_value_free_len(values); } ldap_attribute_name = ldap_next_attribute(ldapConn, ldap_entry, ber); } ber_free(ber, 0); return var; } /*! \brief Get variables from ldap entry attributes - Should be locked before using it * * The results are freed outside this function so is the \a vars array. * * \return \a vars - an array of ast_variable variables terminated with a null. **/ static struct ast_variable **realtime_ldap_result_to_vars(struct ldap_table_config *table_config, LDAPMessage *ldap_result_msg, unsigned int *entries_count_ptr) { struct ast_variable **vars; int i = 0; int tot_count = 0; int entry_index = 0; LDAPMessage *ldap_entry = NULL; BerElement *ber = NULL; struct ast_variable *var = NULL; struct ast_variable *prev = NULL; int is_delimited = 0; char *delim_value = NULL; int delim_tot_count = 0; int delim_count = 0; /* First find the total count */ ldap_entry = ldap_first_entry(ldapConn, ldap_result_msg); for (tot_count = 0; ldap_entry; tot_count++) { struct ast_variable *tmp = realtime_ldap_entry_to_var(table_config, ldap_entry); tot_count += semicolon_count_var(tmp); ldap_entry = ldap_next_entry(ldapConn, ldap_entry); ast_variables_destroy(tmp); } if (entries_count_ptr) { *entries_count_ptr = tot_count; } /* Now that we have the total count we allocate space and create the variables * Remember that each element in vars is a linked list that points to realtime variable. * If the we are dealing with a static realtime variable we create a new element in the \a vars array for each delimited * value in \a variable_value; otherwise, we keep \a vars static and increase the length of the linked list of variables in the array element. * This memory must be freed outside of this function. */ vars = ast_calloc(sizeof(struct ast_variable *), tot_count + 1); ldap_entry = ldap_first_entry(ldapConn, ldap_result_msg); i = 0; /* For each static realtime variable we may create several entries in the \a vars array if it's delimited */ for (entry_index = 0; ldap_entry; ) { int pos = 0; delim_value = NULL; delim_tot_count = 0; delim_count = 0; do { /* while delim_count */ /* Starting new static var */ char *ldap_attribute_name = ldap_first_attribute(ldapConn, ldap_entry, &ber); struct berval *value; while (ldap_attribute_name) { const char *attribute_name = convert_attribute_name_from_ldap(table_config, ldap_attribute_name); int is_realmed_password_attribute = strcasecmp(attribute_name, "md5secret") == 0; struct berval **values = NULL; values = ldap_get_values_len(ldapConn, ldap_entry, ldap_attribute_name); if (values) { struct berval **v; char *valptr; for (v = values; *v; v++) { value = *v; valptr = value->bv_val; if (is_realmed_password_attribute) { if (strncasecmp(valptr, "{md5}", 5) == 0) { valptr += 5; } ast_debug(2, "md5: %s\n", valptr); } if (valptr) { if (delim_value == NULL && !is_realmed_password_attribute && (static_table_config != table_config || strcmp(attribute_name, "variable_value") == 0)) { delim_value = ast_strdup(valptr); if ((delim_tot_count = semicolon_count_str(delim_value)) > 0) { ast_debug(4, "LINE(%d) is delimited %d times: %s\n", __LINE__, delim_tot_count, delim_value); is_delimited = 1; } } if (is_delimited != 0 && !is_realmed_password_attribute && (static_table_config != table_config || strcmp(attribute_name, "variable_value") == 0) ) { /* for non-Static RealTime, first */ for (i = pos; !ast_strlen_zero(valptr + i); i++) { ast_debug(4, "LINE(%d) DELIM pos: %d i: %d\n", __LINE__, pos, i); if (delim_value[i] == ';') { delim_value[i] = '\0'; ast_debug(2, "LINE(%d) DELIM - attribute_name: %s value: %s pos: %d\n", __LINE__, attribute_name, &delim_value[pos], pos); if (prev) { prev->next = ast_variable_new(attribute_name, &delim_value[pos], table_config->table_name); if (prev->next) { prev = prev->next; } } else { prev = var = ast_variable_new(attribute_name, &delim_value[pos], table_config->table_name); } pos = i + 1; if (static_table_config == table_config) { break; } } } if (ast_strlen_zero(valptr + i)) { ast_debug(4, "LINE(%d) DELIM pos: %d i: %d delim_count: %d\n", __LINE__, pos, i, delim_count); /* Last delimited value */ ast_debug(4, "LINE(%d) DELIM - attribute_name: %s value: %s pos: %d\n", __LINE__, attribute_name, &delim_value[pos], pos); if (prev) { prev->next = ast_variable_new(attribute_name, &delim_value[pos], table_config->table_name); if (prev->next) { prev = prev->next; } } else { prev = var = ast_variable_new(attribute_name, &delim_value[pos], table_config->table_name); } /* Remembering to free memory */ is_delimited = 0; pos = 0; } free(delim_value); delim_value = NULL; ast_debug(4, "LINE(%d) DELIM pos: %d i: %d\n", __LINE__, pos, i); } else { /* not delimited */ if (delim_value) { free(delim_value); delim_value = NULL; } ast_debug(2, "LINE(%d) attribute_name: %s value: %s\n", __LINE__, attribute_name, valptr); if (prev) { prev->next = ast_variable_new(attribute_name, valptr, table_config->table_name); if (prev->next) { prev = prev->next; } } else { prev = var = ast_variable_new(attribute_name, valptr, table_config->table_name); } } } } /*!< for (v = values; *v; v++) */ ldap_value_free_len(values); }/*!< if (values) */ ldap_attribute_name = ldap_next_attribute(ldapConn, ldap_entry, ber); } /*!< while (ldap_attribute_name) */ ber_free(ber, 0); if (static_table_config == table_config) { if (option_debug > 2) { const struct ast_variable *tmpdebug = variable_named(var, "variable_name"); const struct ast_variable *tmpdebug2 = variable_named(var, "variable_value"); if (tmpdebug && tmpdebug2) { ast_debug(3, "LINE(%d) Added to vars - %s = %s\n", __LINE__, tmpdebug->value, tmpdebug2->value); } } vars[entry_index++] = var; prev = NULL; } delim_count++; } while (delim_count <= delim_tot_count && static_table_config == table_config); if (static_table_config != table_config) { ast_debug(3, "LINE(%d) Added to vars - non static\n", __LINE__); vars[entry_index++] = var; prev = NULL; } ldap_entry = ldap_next_entry(ldapConn, ldap_entry); } /*!< end for loop over ldap_entry */ return vars; } /*! \brief Check if we have a connection error */ static int is_ldap_connect_error(int err) { return (err == LDAP_SERVER_DOWN || err == LDAP_TIMEOUT || err == LDAP_CONNECT_ERROR); } /*! \brief Get LDAP entry by dn and return attributes as variables - Should be locked before using it This is used for setting the default values of an object(i.e., with accountBaseDN) */ static struct ast_variable *ldap_loadentry(struct ldap_table_config *table_config, const char *dn) { if (!table_config) { ast_log(LOG_ERROR, "No table config\n"); return NULL; } else { struct ast_variable **vars = NULL; struct ast_variable *var = NULL; int result = -1; LDAPMessage *ldap_result_msg = NULL; int tries = 0; ast_debug(2, "ldap_loadentry dn=%s\n", dn); do { result = ldap_search_ext_s(ldapConn, dn, LDAP_SCOPE_BASE, "(objectclass=*)", NULL, 0, NULL, NULL, NULL, LDAP_NO_LIMIT, &ldap_result_msg); if (result != LDAP_SUCCESS && is_ldap_connect_error(result)) { ast_log(LOG_WARNING, "Failed to query directory. Try %d/3\n", tries + 1); tries++; if (tries < 3) { usleep(500000L * tries); if (ldapConn) { ldap_unbind_ext_s(ldapConn, NULL, NULL); ldapConn = NULL; } if (!ldap_reconnect()) { break; } } } } while (result != LDAP_SUCCESS && tries < 3 && is_ldap_connect_error(result)); if (result != LDAP_SUCCESS) { ast_log(LOG_WARNING, "Failed to query directory. Error: %s.\n", ldap_err2string(result)); ast_debug(2, "dn=%s\n", dn); ast_mutex_unlock(&ldap_lock); return NULL; } else { int num_entry = 0; unsigned int *entries_count_ptr = NULL; /*!< not using this */ if ((num_entry = ldap_count_entries(ldapConn, ldap_result_msg)) > 0) { ast_debug(3, "num_entry: %d\n", num_entry); vars = realtime_ldap_result_to_vars(table_config, ldap_result_msg, entries_count_ptr); if (num_entry > 1) { ast_log(LOG_NOTICE, "More than one entry for dn=%s. Take only 1st one\n", dn); } } else { ast_debug(2, "Could not find any entry dn=%s.\n", dn); } } ldap_msgfree(ldap_result_msg); /* Chopping \a vars down to one variable */ if (vars != NULL) { struct ast_variable **p = vars; p++; var = *p; while (var) { ast_variables_destroy(var); p++; } vars = ast_realloc(vars, sizeof(struct ast_variable *)); } var = *vars; return var; } } /*! \note caller should free returned pointer */ static char *substituted(struct ast_channel *channel, const char *string) { #define MAXRESULT 2048 char *ret_string = NULL; if (!ast_strlen_zero(string)) { ret_string = ast_calloc(1, MAXRESULT); pbx_substitute_variables_helper(channel, string, ret_string, MAXRESULT - 1); } ast_debug(2, "substituted: string: '%s' => '%s' \n", string, ret_string); return ret_string; } /*! \note caller should free returned pointer */ static char *cleaned_basedn(struct ast_channel *channel, const char *basedn) { char *cbasedn = NULL; if (basedn) { char *p = NULL; cbasedn = substituted(channel, basedn); if (*cbasedn == '"') { cbasedn++; if (!ast_strlen_zero(cbasedn)) { int len = strlen(cbasedn); if (cbasedn[len - 1] == '"') cbasedn[len - 1] = '\0'; } } p = cbasedn; while (*p) { if (*p == '|') *p = ','; p++; } } ast_debug(2, "basedn: '%s' => '%s' \n", basedn, cbasedn); return cbasedn; } /*! \brief Replace \ by \ in string. \note No check is done on string allocated size ! */ static int replace_string_in_string(char *string, const char *search, const char *by) { int search_len = strlen(search); int by_len = strlen(by); int replaced = 0; char *p = strstr(string, search); if (p) { replaced = 1; while (p) { if (by_len == search_len) { memcpy(p, by, by_len); } else { memmove(p + by_len, p + search_len, strlen(p + search_len) + 1); memcpy(p, by, by_len); } p = strstr(p + by_len, search); } } return replaced; } /*! \brief Append a name=value filter string. The filter string can grow. */ static void append_var_and_value_to_filter(struct ast_str **filter, struct ldap_table_config *table_config, const char *name, const char *value) { char *new_name = NULL; char *new_value = NULL; char *like_pos = strstr(name, " LIKE"); ast_debug(2, "name='%s' value='%s'\n", name, value); if (like_pos) { int len = like_pos - name; name = new_name = ast_strdupa(name); new_name[len] = '\0'; value = new_value = ast_strdupa(value); replace_string_in_string(new_value, "\\_", "_"); replace_string_in_string(new_value, "%", "*"); } name = convert_attribute_name_to_ldap(table_config, name); ast_str_append(filter, 0, "(%s=%s)", name, value); } /*! \brief LDAP base function * \return a null terminated array of ast_variable (one per entry) or NULL if no entry is found or if an error occured * caller should free the returned array and ast_variables * \param entries_count_ptr is a pointer to found entries count (can be NULL) * \param basedn is the base DN * \param table_name is the table_name (used dor attribute convertion and additional filter) * \param ap contains null terminated list of pairs name/value */ static struct ast_variable **realtime_ldap_base_ap(unsigned int *entries_count_ptr, const char *basedn, const char *table_name, va_list ap) { struct ast_variable **vars = NULL; const char *newparam = NULL; const char *newval = NULL; struct ldap_table_config *table_config = NULL; char *clean_basedn = cleaned_basedn(NULL, basedn); struct ast_str *filter = NULL; int tries = 0; int result = 0; LDAPMessage *ldap_result_msg = NULL; if (!table_name) { ast_log(LOG_ERROR, "No table_name specified.\n"); ast_free(clean_basedn); return NULL; } if (!(filter = ast_str_create(80))) { ast_log(LOG_ERROR, "Can't initialize data structures.n"); ast_free(clean_basedn); return NULL; } /* Get the first parameter and first value in our list of passed paramater/value pairs */ newparam = va_arg(ap, const char *); newval = va_arg(ap, const char *); if (!newparam || !newval) { ast_log(LOG_ERROR, "Realtime retrieval requires at least 1 parameter" " and 1 value to search on.\n"); ast_free(filter); ast_free(clean_basedn); return NULL; } ast_mutex_lock(&ldap_lock); /* We now have our complete statement; Lets connect to the server and execute it. */ if (!ldap_reconnect()) { ast_mutex_unlock(&ldap_lock); ast_free(filter); ast_free(clean_basedn); return NULL; } table_config = table_config_for_table_name(table_name); if (!table_config) { ast_log(LOG_WARNING, "No table named '%s'.\n", table_name); ast_mutex_unlock(&ldap_lock); ast_free(filter); ast_free(clean_basedn); return NULL; } ast_str_append(&filter, 0, "(&"); if (table_config && table_config->additional_filter) { ast_str_append(&filter, 0, "%s", table_config->additional_filter); } if (table_config != base_table_config && base_table_config && base_table_config->additional_filter) { ast_str_append(&filter, 0, "%s", base_table_config->additional_filter); } /* Create the first part of the query using the first parameter/value pairs we just extracted */ /* If there is only 1 set, then we have our query. Otherwise, loop thru the list and concat */ append_var_and_value_to_filter(&filter, table_config, newparam, newval); while ((newparam = va_arg(ap, const char *))) { newval = va_arg(ap, const char *); append_var_and_value_to_filter(&filter, table_config, newparam, newval); } ast_str_append(&filter, 0, ")"); do { /* freeing ldap_result further down */ result = ldap_search_ext_s(ldapConn, clean_basedn, LDAP_SCOPE_SUBTREE, ast_str_buffer(filter), NULL, 0, NULL, NULL, NULL, LDAP_NO_LIMIT, &ldap_result_msg); if (result != LDAP_SUCCESS && is_ldap_connect_error(result)) { ast_log(LOG_DEBUG, "Failed to query directory. Try %d/10\n", tries + 1); if (++tries < 10) { usleep(1); if (ldapConn) { ldap_unbind_ext_s(ldapConn, NULL, NULL); ldapConn = NULL; } if (!ldap_reconnect()) { break; } } } } while (result != LDAP_SUCCESS && tries < 10 && is_ldap_connect_error(result)); if (result != LDAP_SUCCESS) { ast_log(LOG_WARNING, "Failed to query directory. Error: %s.\n", ldap_err2string(result)); ast_log(LOG_WARNING, "Query: %s\n", ast_str_buffer(filter)); } else { /* this is where we create the variables from the search result * freeing this \a vars outside this function */ if (ldap_count_entries(ldapConn, ldap_result_msg) > 0) { /* is this a static var or some other? they are handled different for delimited values */ vars = realtime_ldap_result_to_vars(table_config, ldap_result_msg, entries_count_ptr); } else { ast_debug(1, "Could not find any entry matching %s in base dn %s.\n", ast_str_buffer(filter), clean_basedn); } ldap_msgfree(ldap_result_msg); /* TODO: get the default variables from the accountBaseDN, not implemented with delimited values */ if (vars) { struct ast_variable **p = vars; while (*p) { struct ast_variable *append_var = NULL; struct ast_variable *tmp = *p; while (tmp) { if (strcasecmp(tmp->name, "accountBaseDN") == 0) { /* Get the variable to compare with for the defaults */ struct ast_variable *base_var = ldap_loadentry(table_config, tmp->value); while (base_var) { struct ast_variable *next = base_var->next; struct ast_variable *test_var = *p; int base_var_found = 0; /* run throught the default values and fill it inn if it is missing */ while (test_var) { if (strcasecmp(test_var->name, base_var->name) == 0) { base_var_found = 1; break; } else { test_var = test_var->next; } } if (base_var_found) { base_var->next = NULL; ast_variables_destroy(base_var); base_var = next; } else { if (append_var) { base_var->next = append_var; } else { base_var->next = NULL; } append_var = base_var; base_var = next; } } } if (!tmp->next && append_var) { tmp->next = append_var; tmp = NULL; } else { tmp = tmp->next; } } p++; } } } if (filter) { ast_free(filter); } if (clean_basedn) { ast_free(clean_basedn); } ast_mutex_unlock(&ldap_lock); return vars; } /*! \brief same as realtime_ldap_base_ap but take variable arguments count list */ static struct ast_variable **realtime_ldap_base(unsigned int *entries_count_ptr, const char *basedn, const char *table_name, ...) { struct ast_variable **vars = NULL; va_list ap; va_start(ap, table_name); vars = realtime_ldap_base_ap(entries_count_ptr, basedn, table_name, ap); va_end(ap); return vars; } /*! \brief See Asterisk doc * * For Realtime Dynamic(i.e., switch, queues, and directory) -- I think */ static struct ast_variable *realtime_ldap(const char *basedn, const char *table_name, va_list ap) { struct ast_variable **vars = realtime_ldap_base_ap(NULL, basedn, table_name, ap); struct ast_variable *var = NULL; if (vars) { struct ast_variable *last_var = NULL; struct ast_variable **p = vars; while (*p) { if (last_var) { while (last_var->next) { last_var = last_var->next; } last_var->next = *p; } else { var = *p; last_var = var; } p++; } free(vars); } return var; } /*! \brief See Asterisk doc * * this function will be called for the switch statment if no match is found with the realtime_ldap function(i.e. it is a failover); * however, the ast_load_realtime wil match on wildcharacters also depending on what the mode is set to * this is an area of asterisk that could do with a lot of modification * I think this function returns Realtime dynamic objects */ static struct ast_config *realtime_multi_ldap(const char *basedn, const char *table_name, va_list ap) { char *op; const char *initfield = NULL; const char *newparam, *newval; struct ast_variable **vars = realtime_ldap_base_ap(NULL, basedn, table_name, ap); struct ast_config *cfg = NULL; newparam = va_arg(ap, const char *); newval = va_arg(ap, const char *); if (!newparam || !newval) { ast_log(LOG_WARNING, "realtime retrieval requires at least 1 parameter and 1 value to search on.\n"); return NULL; } initfield = ast_strdupa(newparam); if ((op = strchr(initfield, ' '))) { *op = '\0'; } if (vars) { cfg = ast_config_new(); if (!cfg) { ast_log(LOG_ERROR, "Unable to create a config!\n"); } else { struct ast_variable **p = vars; while (*p) { struct ast_category *cat = NULL; cat = ast_category_new("", table_name, -1); if (!cat) { ast_log(LOG_ERROR, "Unable to create a new category!\n"); break; } else { struct ast_variable *var = *p; while (var) { struct ast_variable *next = var->next; if (initfield && !strcmp(initfield, var->name)) { ast_category_rename(cat, var->value); } var->next = NULL; ast_variable_append(cat, var); var = next; } } ast_category_append(cfg, cat); p++; } } free(vars); } return cfg; } /*! * \brief Sorting alogrithm for qsort to find the order of the variables \a a and \a b * \param a pointer to category_and_metric struct * \param b pointer to category_and_metric struct * * \retval -1 for if b is greater * \retval 0 zero for equal * \retval 1 if a is greater */ static int compare_categories(const void *a, const void *b) { const struct category_and_metric *as = a; const struct category_and_metric *bs = b; if (as->metric < bs->metric) { return -1; } else if (as->metric > bs->metric) { return 1; } else if (as->metric == bs->metric && strcmp(as->name, bs->name) != 0) { return strcmp(as->name, bs->name); } /* if the metric and the category name is the same, we check the variable metric */ if (as->var_metric < bs->var_metric) { return -1; } else if (as->var_metric > bs->var_metric) { return 1; } return 0; } /*! \brief See Asterisk doc * * This is for Static Realtime (again: I think...) * * load the configuration stuff for the .conf files * called on a reload */ static struct ast_config *config_ldap(const char *basedn, const char *table_name, const char *file, struct ast_config *cfg, struct ast_flags config_flags, const char *sugg_incl, const char *who_asked) { unsigned int vars_count = 0; struct ast_variable **vars; int i = 0; struct ast_variable *new_v = NULL; struct ast_category *cur_cat = NULL; const char *last_category = NULL; int last_category_metric = 0; struct category_and_metric *categories; struct ast_variable **p; if (ast_strlen_zero(file) || !strcasecmp(file, RES_CONFIG_LDAP_CONF)) { ast_log(LOG_ERROR, "Missing configuration file: %s. Can't configure myself.\n", RES_CONFIG_LDAP_CONF); return NULL; } vars = realtime_ldap_base(&vars_count, basedn, table_name, "filename", file, "commented", "FALSE", NULL); if (!vars) { ast_log(LOG_WARNING, "Could not find config '%s' in directory.\n", file); return NULL; } /*!\note Since the items come back in random order, they need to be sorted * first, and since the data could easily exceed stack size, this is * allocated from the heap. */ if (!(categories = ast_calloc(sizeof(*categories), vars_count))) { return NULL; } for (vars_count = 0, p = vars; *p; p++) { struct ast_variable *category = variable_named(*p, "category"); struct ast_variable *cat_metric = variable_named(*p, "cat_metric"); struct ast_variable *var_name = variable_named(*p, "variable_name"); struct ast_variable *var_val = variable_named(*p, "variable_value"); struct ast_variable *var_metric = variable_named(*p, "var_metric"); struct ast_variable *dn = variable_named(*p, "dn"); ast_debug(3, "category: %s\n", category->value); ast_debug(3, "var_name: %s\n", var_name->value); ast_debug(3, "var_val: %s\n", var_val->value); ast_debug(3, "cat_metric: %s\n", cat_metric->value); if (!category) { ast_log(LOG_ERROR, "No category name in entry '%s' for file '%s'.\n", (dn ? dn->value : "?"), file); } else if (!cat_metric) { ast_log(LOG_ERROR, "No category metric in entry '%s'(category: %s) for file '%s'.\n", (dn ? dn->value : "?"), category->value, file); } else if (!var_metric) { ast_log(LOG_ERROR, "No variable metric in entry '%s'(category: %s) for file '%s'.\n", (dn ? dn->value : "?"), category->value, file); } else if (!var_name) { ast_log(LOG_ERROR, "No variable name in entry '%s' (category: %s metric: %s) for file '%s'.\n", (dn ? dn->value : "?"), category->value, cat_metric->value, file); } else if (!var_val) { ast_log(LOG_ERROR, "No variable value in entry '%s' (category: %s metric: %s variable: %s) for file '%s'.\n", (dn ? dn->value : "?"), category->value, cat_metric->value, var_name->value, file); } else { categories[vars_count].name = category->value; categories[vars_count].metric = atoi(cat_metric->value); categories[vars_count].variable_name = var_name->value; categories[vars_count].variable_value = var_val->value; categories[vars_count].var_metric = atoi(var_metric->value); vars_count++; } } qsort(categories, vars_count, sizeof(*categories), compare_categories); for (i = 0; i < vars_count; i++) { if (!strcmp(categories[i].variable_name, "#include")) { struct ast_flags flags = { 0 }; if (!ast_config_internal_load(categories[i].variable_value, cfg, flags, "", who_asked)) { break; } continue; } if (!last_category || strcmp(last_category, categories[i].name) || last_category_metric != categories[i].metric) { cur_cat = ast_category_new(categories[i].name, table_name, -1); if (!cur_cat) { break; } last_category = categories[i].name; last_category_metric = categories[i].metric; ast_category_append(cfg, cur_cat); } if (!(new_v = ast_variable_new(categories[i].variable_name, categories[i].variable_value, table_name))) { break; } ast_variable_append(cur_cat, new_v); } ast_free(vars); ast_free(categories); return cfg; } /* \brief Function to update a set of values in ldap static mode */ static int update_ldap(const char *basedn, const char *table_name, const char *attribute, const char *lookup, va_list ap) { int error = 0; LDAPMessage *ldap_entry = NULL; LDAPMod **ldap_mods; const char *newparam = NULL; const char *newval = NULL; char *dn; int num_entries = 0; int i = 0; int mods_size = 0; int mod_exists = 0; struct ldap_table_config *table_config = NULL; char *clean_basedn = NULL; struct ast_str *filter = NULL; int tries = 0; int result = 0; LDAPMessage *ldap_result_msg = NULL; if (!table_name) { ast_log(LOG_ERROR, "No table_name specified.\n"); return -1; } if (!(filter = ast_str_create(80))) { return -1; } if (!attribute || !lookup) { ast_log(LOG_WARNING, "LINE(%d): search parameters are empty.\n", __LINE__); return -1; } ast_mutex_lock(&ldap_lock); /* We now have our complete statement; Lets connect to the server and execute it. */ if (!ldap_reconnect()) { ast_mutex_unlock(&ldap_lock); return -1; } table_config = table_config_for_table_name(table_name); if (!table_config) { ast_log(LOG_ERROR, "No table named '%s'.\n", table_name); ast_mutex_unlock(&ldap_lock); return -1; } clean_basedn = cleaned_basedn(NULL, basedn); /* Create the filter with the table additional filter and the parameter/value pairs we were given */ ast_str_append(&filter, 0, "(&"); if (table_config && table_config->additional_filter) { ast_str_append(&filter, 0, "%s", table_config->additional_filter); } if (table_config != base_table_config && base_table_config && base_table_config->additional_filter) { ast_str_append(&filter, 0, "%s", base_table_config->additional_filter); } append_var_and_value_to_filter(&filter, table_config, attribute, lookup); ast_str_append(&filter, 0, ")"); /* Create the modification array with the parameter/value pairs we were given, * if there are several parameters with the same name, we collect them into * one parameter/value pair and delimit them with a semicolon */ newparam = va_arg(ap, const char *); newparam = convert_attribute_name_to_ldap(table_config, newparam); newval = va_arg(ap, const char *); if (!newparam || !newval) { ast_log(LOG_WARNING, "LINE(%d): need at least one parameter to modify.\n", __LINE__); return -1; } mods_size = 2; /* one for the first param/value pair and one for the the terminating NULL */ ldap_mods = ast_calloc(sizeof(LDAPMod *), mods_size); ldap_mods[0] = ast_calloc(1, sizeof(LDAPMod)); ldap_mods[0]->mod_op = LDAP_MOD_REPLACE; ldap_mods[0]->mod_type = ast_strdup(newparam); ldap_mods[0]->mod_values = ast_calloc(sizeof(char *), 2); ldap_mods[0]->mod_values[0] = ast_strdup(newval); while ((newparam = va_arg(ap, const char *))) { newparam = convert_attribute_name_to_ldap(table_config, newparam); newval = va_arg(ap, const char *); mod_exists = 0; for (i = 0; i < mods_size - 1; i++) { if (ldap_mods[i]&& !strcmp(ldap_mods[i]->mod_type, newparam)) { /* We have the parameter allready, adding the value as a semicolon delimited value */ ldap_mods[i]->mod_values[0] = ast_realloc(ldap_mods[i]->mod_values[0], sizeof(char) * (strlen(ldap_mods[i]->mod_values[0]) + strlen(newval) + 2)); strcat(ldap_mods[i]->mod_values[0], ";"); strcat(ldap_mods[i]->mod_values[0], newval); mod_exists = 1; break; } } /* create new mod */ if (!mod_exists) { mods_size++; ldap_mods = ast_realloc(ldap_mods, sizeof(LDAPMod *) * mods_size); ldap_mods[mods_size - 1] = NULL; ldap_mods[mods_size - 2] = ast_calloc(1, sizeof(LDAPMod)); ldap_mods[mods_size - 2]->mod_type = ast_calloc(sizeof(char), strlen(newparam) + 1); strcpy(ldap_mods[mods_size - 2]->mod_type, newparam); if (strlen(newval) == 0) { ldap_mods[mods_size - 2]->mod_op = LDAP_MOD_DELETE; } else { ldap_mods[mods_size - 2]->mod_op = LDAP_MOD_REPLACE; ldap_mods[mods_size - 2]->mod_values = ast_calloc(sizeof(char *), 2); ldap_mods[mods_size - 2]->mod_values[0] = ast_calloc(sizeof(char), strlen(newval) + 1); strcpy(ldap_mods[mods_size - 2]->mod_values[0], newval); } } } /* freeing ldap_mods further down */ do { /* freeing ldap_result further down */ result = ldap_search_ext_s(ldapConn, clean_basedn, LDAP_SCOPE_SUBTREE, ast_str_buffer(filter), NULL, 0, NULL, NULL, NULL, LDAP_NO_LIMIT, &ldap_result_msg); if (result != LDAP_SUCCESS && is_ldap_connect_error(result)) { ast_log(LOG_WARNING, "Failed to query directory. Try %d/3\n", tries + 1); tries++; if (tries < 3) { usleep(500000L * tries); if (ldapConn) { ldap_unbind_ext_s(ldapConn, NULL, NULL); ldapConn = NULL; } if (!ldap_reconnect()) break; } } } while (result != LDAP_SUCCESS && tries < 3 && is_ldap_connect_error(result)); if (result != LDAP_SUCCESS) { ast_log(LOG_WARNING, "Failed to query directory. Error: %s.\n", ldap_err2string(result)); ast_log(LOG_WARNING, "Query: %s\n", ast_str_buffer(filter)); ast_mutex_unlock(&ldap_lock); free(filter); free(clean_basedn); ldap_msgfree(ldap_result_msg); ldap_mods_free(ldap_mods, 0); return -1; } /* Ready to update */ if ((num_entries = ldap_count_entries(ldapConn, ldap_result_msg)) > 0) { ast_debug(3, "LINE(%d) Modifying %s=%s hits: %d\n", __LINE__, attribute, lookup, num_entries); for (i = 0; option_debug > 2 && i < mods_size - 1; i++) { if (ldap_mods[i]->mod_op != LDAP_MOD_DELETE) { ast_debug(3, "LINE(%d) %s=%s \n", __LINE__, ldap_mods[i]->mod_type, ldap_mods[i]->mod_values[0]); } else { ast_debug(3, "LINE(%d) deleting %s \n", __LINE__, ldap_mods[i]->mod_type); } } ldap_entry = ldap_first_entry(ldapConn, ldap_result_msg); for (i = 0; ldap_entry; i++) { dn = ldap_get_dn(ldapConn, ldap_entry); if ((error = ldap_modify_ext_s(ldapConn, dn, ldap_mods, NULL, NULL)) != LDAP_SUCCESS) { ast_log(LOG_ERROR, "Couldn't modify dn:%s because %s", dn, ldap_err2string(error)); } ldap_entry = ldap_next_entry(ldapConn, ldap_entry); } } ast_mutex_unlock(&ldap_lock); ast_free(filter); ast_free(clean_basedn); ldap_msgfree(ldap_result_msg); ldap_mods_free(ldap_mods, 0); return num_entries; } static int update2_ldap(const char *basedn, const char *table_name, va_list ap) { int error = 0; LDAPMessage *ldap_entry = NULL; LDAPMod **ldap_mods; const char *newparam = NULL; const char *newval = NULL; char *dn; int num_entries = 0; int i = 0; int mods_size = 0; int mod_exists = 0; struct ldap_table_config *table_config = NULL; char *clean_basedn = NULL; struct ast_str *filter = NULL; int tries = 0; int result = 0; LDAPMessage *ldap_result_msg = NULL; if (!table_name) { ast_log(LOG_ERROR, "No table_name specified.\n"); return -1; } if (!(filter = ast_str_create(80))) { return -1; } ast_mutex_lock(&ldap_lock); /* We now have our complete statement; Lets connect to the server and execute it. */ if (!ldap_reconnect()) { ast_mutex_unlock(&ldap_lock); ast_free(filter); return -1; } table_config = table_config_for_table_name(table_name); if (!table_config) { ast_log(LOG_ERROR, "No table named '%s'.\n", table_name); ast_mutex_unlock(&ldap_lock); ast_free(filter); return -1; } clean_basedn = cleaned_basedn(NULL, basedn); /* Create the filter with the table additional filter and the parameter/value pairs we were given */ ast_str_append(&filter, 0, "(&"); if (table_config && table_config->additional_filter) { ast_str_append(&filter, 0, "%s", table_config->additional_filter); } if (table_config != base_table_config && base_table_config && base_table_config->additional_filter) { ast_str_append(&filter, 0, "%s", base_table_config->additional_filter); } /* Get multiple lookup keyfields and values */ while ((newparam = va_arg(ap, const char *))) { newval = va_arg(ap, const char *); append_var_and_value_to_filter(&filter, table_config, newparam, newval); } ast_str_append(&filter, 0, ")"); /* Create the modification array with the parameter/value pairs we were given, * if there are several parameters with the same name, we collect them into * one parameter/value pair and delimit them with a semicolon */ newparam = va_arg(ap, const char *); newparam = convert_attribute_name_to_ldap(table_config, newparam); newval = va_arg(ap, const char *); if (!newparam || !newval) { ast_log(LOG_WARNING, "LINE(%d): need at least one parameter to modify.\n", __LINE__); ast_free(filter); ast_free(clean_basedn); return -1; } mods_size = 2; /* one for the first param/value pair and one for the the terminating NULL */ ldap_mods = ast_calloc(sizeof(LDAPMod *), mods_size); ldap_mods[0] = ast_calloc(1, sizeof(LDAPMod)); ldap_mods[0]->mod_op = LDAP_MOD_REPLACE; ldap_mods[0]->mod_type = ast_calloc(sizeof(char), strlen(newparam) + 1); strcpy(ldap_mods[0]->mod_type, newparam); ldap_mods[0]->mod_values = ast_calloc(sizeof(char), 2); ldap_mods[0]->mod_values[0] = ast_calloc(sizeof(char), strlen(newval) + 1); strcpy(ldap_mods[0]->mod_values[0], newval); while ((newparam = va_arg(ap, const char *))) { newparam = convert_attribute_name_to_ldap(table_config, newparam); newval = va_arg(ap, const char *); mod_exists = 0; for (i = 0; i < mods_size - 1; i++) { if (ldap_mods[i]&& !strcmp(ldap_mods[i]->mod_type, newparam)) { /* We have the parameter allready, adding the value as a semicolon delimited value */ ldap_mods[i]->mod_values[0] = ast_realloc(ldap_mods[i]->mod_values[0], sizeof(char) * (strlen(ldap_mods[i]->mod_values[0]) + strlen(newval) + 2)); strcat(ldap_mods[i]->mod_values[0], ";"); strcat(ldap_mods[i]->mod_values[0], newval); mod_exists = 1; break; } } /* create new mod */ if (!mod_exists) { mods_size++; ldap_mods = ast_realloc(ldap_mods, sizeof(LDAPMod *) * mods_size); ldap_mods[mods_size - 1] = NULL; ldap_mods[mods_size - 2] = ast_calloc(1, sizeof(LDAPMod)); ldap_mods[mods_size - 2]->mod_op = LDAP_MOD_REPLACE; ldap_mods[mods_size - 2]->mod_type = ast_calloc(sizeof(char), strlen(newparam) + 1); strcpy(ldap_mods[mods_size - 2]->mod_type, newparam); ldap_mods[mods_size - 2]->mod_values = ast_calloc(sizeof(char *), 2); ldap_mods[mods_size - 2]->mod_values[0] = ast_calloc(sizeof(char), strlen(newval) + 1); strcpy(ldap_mods[mods_size - 2]->mod_values[0], newval); } } /* freeing ldap_mods further down */ do { /* freeing ldap_result further down */ result = ldap_search_ext_s(ldapConn, clean_basedn, LDAP_SCOPE_SUBTREE, ast_str_buffer(filter), NULL, 0, NULL, NULL, NULL, LDAP_NO_LIMIT, &ldap_result_msg); if (result != LDAP_SUCCESS && is_ldap_connect_error(result)) { ast_log(LOG_WARNING, "Failed to query directory. Try %d/3\n", tries + 1); tries++; if (tries < 3) { usleep(500000L * tries); if (ldapConn) { ldap_unbind_ext_s(ldapConn, NULL, NULL); ldapConn = NULL; } if (!ldap_reconnect()) { break; } } } } while (result != LDAP_SUCCESS && tries < 3 && is_ldap_connect_error(result)); if (result != LDAP_SUCCESS) { ast_log(LOG_WARNING, "Failed to query directory. Error: %s.\n", ldap_err2string(result)); ast_log(LOG_WARNING, "Query: %s\n", ast_str_buffer(filter)); ast_mutex_unlock(&ldap_lock); ast_free(filter); ast_free(clean_basedn); ldap_msgfree(ldap_result_msg); ldap_mods_free(ldap_mods, 0); return -1; } /* Ready to update */ if ((num_entries = ldap_count_entries(ldapConn, ldap_result_msg)) > 0) { for (i = 0; option_debug > 2 && i < mods_size - 1; i++) { ast_debug(3, "LINE(%d) %s=%s \n", __LINE__, ldap_mods[i]->mod_type, ldap_mods[i]->mod_values[0]); } ldap_entry = ldap_first_entry(ldapConn, ldap_result_msg); for (i = 0; ldap_entry; i++) { dn = ldap_get_dn(ldapConn, ldap_entry); if ((error = ldap_modify_ext_s(ldapConn, dn, ldap_mods, NULL, NULL)) != LDAP_SUCCESS) { ast_log(LOG_ERROR, "Couldn't modify dn:%s because %s", dn, ldap_err2string(error)); } ldap_entry = ldap_next_entry(ldapConn, ldap_entry); } } ast_mutex_unlock(&ldap_lock); if (filter) { ast_free(filter); } if (clean_basedn) { ast_free(clean_basedn); } ldap_msgfree(ldap_result_msg); ldap_mods_free(ldap_mods, 0); return num_entries; } static struct ast_config_engine ldap_engine = { .name = "ldap", .load_func = config_ldap, .realtime_func = realtime_ldap, .realtime_multi_func = realtime_multi_ldap, .update_func = update_ldap, .update2_func = update2_ldap, }; static int load_module(void) { if (parse_config() < 0) { ast_log(LOG_ERROR, "Cannot load LDAP RealTime driver.\n"); return 0; } ast_mutex_lock(&ldap_lock); if (!ldap_reconnect()) { ast_log(LOG_WARNING, "Couldn't establish connection to LDAP directory. Check debug.\n"); } ast_config_engine_register(&ldap_engine); ast_verb(1, "LDAP RealTime driver loaded.\n"); ast_cli_register_multiple(ldap_cli, ARRAY_LEN(ldap_cli)); ast_mutex_unlock(&ldap_lock); return 0; } static int unload_module(void) { /* Aquire control before doing anything to the module itself. */ ast_mutex_lock(&ldap_lock); table_configs_free(); if (ldapConn) { ldap_unbind_ext_s(ldapConn, NULL, NULL); ldapConn = NULL; } ast_cli_unregister_multiple(ldap_cli, ARRAY_LEN(ldap_cli)); ast_config_engine_deregister(&ldap_engine); ast_verb(1, "LDAP RealTime driver unloaded.\n"); /* Unlock so something else can destroy the lock. */ ast_mutex_unlock(&ldap_lock); return 0; } static int reload(void) { /* Aquire control before doing anything to the module itself. */ ast_mutex_lock(&ldap_lock); if (ldapConn) { ldap_unbind_ext_s(ldapConn, NULL, NULL); ldapConn = NULL; } if (parse_config() < 0) { ast_log(LOG_NOTICE, "Cannot reload LDAP RealTime driver.\n"); ast_mutex_unlock(&ldap_lock); return 0; } if (!ldap_reconnect()) { ast_log(LOG_WARNING, "Couldn't establish connection to your directory server. Check debug.\n"); } ast_verb(2, "LDAP RealTime driver reloaded.\n"); /* Done reloading. Release lock so others can now use driver. */ ast_mutex_unlock(&ldap_lock); return 0; } /*! \brief parse the configuration file */ static int parse_config(void) { struct ast_config *config; struct ast_flags config_flags = {0}; const char *s, *host; int port; char *category_name = NULL; /* Make sure that global variables are reset */ url[0] = '\0'; user[0] = '\0'; pass[0] = '\0'; base_distinguished_name[0] = '\0'; version = 3; config = ast_config_load(RES_CONFIG_LDAP_CONF, config_flags); if (config == CONFIG_STATUS_FILEMISSING || config == CONFIG_STATUS_FILEINVALID) { ast_log(LOG_ERROR, "Cannot load configuration file: %s\n", RES_CONFIG_LDAP_CONF); return -1; } if (!(s = ast_variable_retrieve(config, "_general", "user"))) { ast_log(LOG_NOTICE, "No directory user found, anonymous binding as default.\n"); user[0] = '\0'; } else { ast_copy_string(user, s, sizeof(user)); } if (!ast_strlen_zero(user)) { if (!(s = ast_variable_retrieve(config, "_general", "pass"))) { ast_log(LOG_WARNING, "No directory password found, using 'asterisk' as default.\n"); ast_copy_string(pass, "asterisk", sizeof(pass)); } else { ast_copy_string(pass, s, sizeof(pass)); } } /* URL is preferred, use host and port if not found */ if ((s = ast_variable_retrieve(config, "_general", "url"))) { ast_copy_string(url, s, sizeof(url)); } else if ((host = ast_variable_retrieve(config, "_general", "host"))) { if (!(s = ast_variable_retrieve(config, "_general", "port")) || sscanf(s, "%5d", &port) != 1 || port > 65535) { ast_log(LOG_NOTICE, "No directory port found, using 389 as default.\n"); port = 389; } snprintf(url, sizeof(url), "ldap://%s:%d", host, port); } else { ast_log(LOG_ERROR, "No directory URL or host found.\n"); ast_config_destroy(config); return -1; } if (!(s = ast_variable_retrieve(config, "_general", "basedn"))) { ast_log(LOG_ERROR, "No LDAP base dn found, using '%s' as default.\n", RES_CONFIG_LDAP_DEFAULT_BASEDN); ast_copy_string(base_distinguished_name, RES_CONFIG_LDAP_DEFAULT_BASEDN, sizeof(base_distinguished_name)); } else ast_copy_string(base_distinguished_name, s, sizeof(base_distinguished_name)); if (!(s = ast_variable_retrieve(config, "_general", "version")) && !(s = ast_variable_retrieve(config, "_general", "protocol"))) { ast_log(LOG_NOTICE, "No explicit LDAP version found, using 3 as default.\n"); } else if (sscanf(s, "%30d", &version) != 1 || version < 1 || version > 6) { ast_log(LOG_WARNING, "Invalid LDAP version '%s', using 3 as default.\n", s); version = 3; } table_configs_free(); while ((category_name = ast_category_browse(config, category_name))) { int is_general = (strcasecmp(category_name, "_general") == 0); int is_config = (strcasecmp(category_name, "config") == 0); /*!< using the [config] context for Static RealTime */ struct ast_variable *var = ast_variable_browse(config, category_name); if (var) { struct ldap_table_config *table_config = table_config_for_table_name(category_name); if (!table_config) { table_config = table_config_new(category_name); AST_LIST_INSERT_HEAD(&table_configs, table_config, entry); if (is_general) base_table_config = table_config; if (is_config) static_table_config = table_config; } for (; var; var = var->next) { if (!strcasecmp(var->name, "additionalFilter")) { table_config->additional_filter = ast_strdup(var->value); } else { ldap_table_config_add_attribute(table_config, var->name, var->value); } } } } ast_config_destroy(config); return 1; } /*! \note ldap_lock should have been locked before calling this function. */ static int ldap_reconnect(void) { int bind_result = 0; struct berval cred; if (ldapConn) { ast_debug(2, "Everything seems fine.\n"); return 1; } if (ast_strlen_zero(url)) { ast_log(LOG_ERROR, "Not enough parameters to connect to ldap directory\n"); return 0; } if (LDAP_SUCCESS != ldap_initialize(&ldapConn, url)) { ast_log(LOG_ERROR, "Failed to init ldap connection to '%s'. Check debug for more info.\n", url); return 0; } if (LDAP_OPT_SUCCESS != ldap_set_option(ldapConn, LDAP_OPT_PROTOCOL_VERSION, &version)) { ast_log(LOG_WARNING, "Unable to set LDAP protocol version to %d, falling back to default.\n", version); } if (!ast_strlen_zero(user)) { ast_debug(2, "bind to '%s' as user '%s'\n", url, user); cred.bv_val = (char *) pass; cred.bv_len = strlen(pass); bind_result = ldap_sasl_bind_s(ldapConn, user, LDAP_SASL_SIMPLE, &cred, NULL, NULL, NULL); } else { ast_debug(2, "bind %s anonymously\n", url); cred.bv_val = NULL; cred.bv_len = 0; bind_result = ldap_sasl_bind_s(ldapConn, NULL, LDAP_SASL_SIMPLE, &cred, NULL, NULL, NULL); } if (bind_result == LDAP_SUCCESS) { ast_debug(2, "Successfully connected to directory.\n"); connect_time = time(NULL); return 1; } else { ast_log(LOG_WARNING, "bind failed: %s\n", ldap_err2string(bind_result)); ldap_unbind_ext_s(ldapConn, NULL, NULL); ldapConn = NULL; return 0; } } static char *realtime_ldap_status(struct ast_cli_entry *e, int cmd, struct ast_cli_args *a) { char status[256], credentials[100] = ""; int ctimesec = time(NULL) - connect_time; switch (cmd) { case CLI_INIT: e->command = "realtime show ldap status"; e->usage = "Usage: realtime show ldap status\n" " Shows connection information for the LDAP RealTime driver\n"; return NULL; case CLI_GENERATE: return NULL; } if (!ldapConn) return CLI_FAILURE; if (!ast_strlen_zero(url)) snprintf(status, sizeof(status), "Connected to '%s', baseDN %s", url, base_distinguished_name); if (!ast_strlen_zero(user)) snprintf(credentials, sizeof(credentials), " with username %s", user); if (ctimesec > 31536000) { ast_cli(a->fd, "%s%s for %d years, %d days, %d hours, %d minutes, %d seconds.\n", status, credentials, ctimesec / 31536000, (ctimesec % 31536000) / 86400, (ctimesec % 86400) / 3600, (ctimesec % 3600) / 60, ctimesec % 60); } else if (ctimesec > 86400) { ast_cli(a->fd, "%s%s for %d days, %d hours, %d minutes, %d seconds.\n", status, credentials, ctimesec / 86400, (ctimesec % 86400) / 3600, (ctimesec % 3600) / 60, ctimesec % 60); } else if (ctimesec > 3600) { ast_cli(a->fd, "%s%s for %d hours, %d minutes, %d seconds.\n", status, credentials, ctimesec / 3600, (ctimesec % 3600) / 60, ctimesec % 60); } else if (ctimesec > 60) { ast_cli(a->fd, "%s%s for %d minutes, %d seconds.\n", status, credentials, ctimesec / 60, ctimesec % 60); } else { ast_cli(a->fd, "%s%s for %d seconds.\n", status, credentials, ctimesec); } return CLI_SUCCESS; } AST_MODULE_INFO(ASTERISK_GPL_KEY, AST_MODFLAG_LOAD_ORDER, "LDAP realtime interface", .load = load_module, .unload = unload_module, .reload = reload, .load_pri = AST_MODPRI_REALTIME_DRIVER, );