/* a bit dirty but leak free */ char * ldap_parse_servers(const char * servers) { char * s = NULL; char * tmp = NULL, *urls[32]; unsigned int num = 0 , i = 0 , asize = 0; LDAPURLDesc *urld[32]; if (!servers) return NULL; /* local copy of the arg */ s = strdup(servers); if (!s) return NULL; /* first separate into URL tokens */ if ( tokenize(urls, sizeof(urls)/sizeof(*urls), s) < 0) return NULL; i = 0; while (urls[i]) { if (! ldap_is_ldap_url(urls[i]) || (ldap_url_parse(urls[i], &urld[i]) != 0)) { return NULL; } i++; } /* now free(s) */ free (s); /* how much memory do we need */ num = i; for (i = 0 ; i < num ; i++) asize += strlen(urld[i]->lud_host)+11; /* alloc */ s = (char *) calloc( asize+1 , sizeof(char)); if (!s) { for (i = 0 ; i < num ; i++) ldap_free_urldesc(urld[i]); return NULL; } /* then build the final host string */ for (i = 0 ; i < num ; i++) { /* built host part */ tmp = ldap_build_host(urld[i]->lud_host, urld[i]->lud_port); strncat(s, tmp, strlen(tmp)); ldap_free_urldesc(urld[i]); free(tmp); } return s; }
/** Instantiate the module * * Creates a new instance of the module reading parameters from a configuration section. * * @param conf to parse. * @param instance Where to write pointer to configuration data. * @return 0 on success < 0 on failure. */ static int mod_instantiate(CONF_SECTION *conf, void *instance) { static bool version_done; CONF_SECTION *options; ldap_instance_t *inst = instance; inst->cs = conf; options = cf_section_sub_find(conf, "options"); if (!options || !cf_pair_find(options, "chase_referrals")) { inst->chase_referrals_unset = true; /* use OpenLDAP defaults */ } inst->xlat_name = cf_section_name2(conf); if (!inst->xlat_name) { inst->xlat_name = cf_section_name1(conf); } /* * Only needs to be done once, prevents races in environment * initialisation within libldap. * * See: https://github.com/arr2036/ldapperf/issues/2 */ #ifdef HAVE_LDAP_INITIALIZE ldap_initialize(&inst->handle, ""); #else inst->handle = ldap_init("", 0); #endif /* * Get version info from the LDAP API. */ if (!version_done) { static LDAPAPIInfo info; /* static to quiet valgrind about this being uninitialised */ int ldap_errno; version_done = true; ldap_errno = ldap_get_option(NULL, LDAP_OPT_API_INFO, &info); if (ldap_errno == LDAP_OPT_SUCCESS) { if (strcmp(info.ldapai_vendor_name, LDAP_VENDOR_NAME) != 0) { WARN("rlm_ldap: libldap vendor changed since the server was built"); WARN("rlm_ldap: linked: %s, built: %s", info.ldapai_vendor_name, LDAP_VENDOR_NAME); } if (info.ldapai_vendor_version != LDAP_VENDOR_VERSION) { WARN("rlm_ldap: libldap version changed since the server was built"); WARN("rlm_ldap: linked: %i, built: %i", info.ldapai_vendor_version, LDAP_VENDOR_VERSION); } INFO("rlm_ldap: libldap vendor: %s, version: %i", info.ldapai_vendor_name, info.ldapai_vendor_version); ldap_memfree(info.ldapai_vendor_name); ldap_memfree(info.ldapai_extensions); } else { DEBUG("rlm_ldap: Falling back to build time libldap version info. Query for LDAP_OPT_API_INFO " "returned: %i", ldap_errno); INFO("rlm_ldap: libldap vendor: %s, version: %i.%i.%i", LDAP_VENDOR_NAME, LDAP_VENDOR_VERSION_MAJOR, LDAP_VENDOR_VERSION_MINOR, LDAP_VENDOR_VERSION_PATCH); } } /* * If the configuration parameters can't be parsed, then fail. */ if ((parse_sub_section(inst, conf, &inst->accounting, RLM_COMPONENT_ACCT) < 0) || (parse_sub_section(inst, conf, &inst->postauth, RLM_COMPONENT_POST_AUTH) < 0)) { cf_log_err_cs(conf, "Failed parsing configuration"); goto error; } /* * Sanity checks for cacheable groups code. */ if (inst->cacheable_group_name && inst->groupobj_membership_filter) { if (!inst->groupobj_name_attr) { cf_log_err_cs(conf, "Directive 'group.name_attribute' must be set if cacheable " "group names are enabled"); goto error; } } /* * Split original server value out into URI, server and port * so whatever initialization function we use later will have * the server information in the format it needs. */ if (ldap_is_ldap_url(inst->server)) { LDAPURLDesc *ldap_url; int port; if (ldap_url_parse(inst->server, &ldap_url)){ cf_log_err_cs(conf, "Parsing LDAP URL \"%s\" failed", inst->server); return -1; } /* * Figure out the port from the URL */ if (ldap_url->lud_port == 0) { if (strcmp(ldap_url->lud_scheme, "ldaps://") == 0) { if (inst->start_tls == true) { start_tls_error: cf_log_err_cs(conf, "ldaps:// scheme is not compatible with 'start_tls'"); return -1; } port = 636; } else { port = 384; } } else { port = ldap_url->lud_port; } inst->uri = inst->server; inst->server = talloc_strdup(inst, ldap_url->lud_host); if ((inst->port != 384) && (port != inst->port)) { WARN("Non-default 'port' directive %i set to %i by LDAP URI", inst->port, port); } inst->port = port; /* * @todo We could set a few other top level * directives using the URL, like base_dn * and scope. */ ldap_free_urldesc(ldap_url); /* * We need to construct an LDAP URI */ } else { switch (inst->port) { default: case 384: inst->uri = talloc_asprintf(inst, "ldap://%s:%i/", inst->server, inst->port); break; case 636: if (inst->start_tls == true) goto start_tls_error; inst->uri = talloc_asprintf(inst, "ldaps://%s:%i/", inst->server, inst->port); break; } } #ifdef LDAP_OPT_X_TLS_NEVER /* * Workaround for servers which support LDAPS but not START TLS */ if (inst->port == LDAPS_PORT || inst->tls_mode) { inst->tls_mode = LDAP_OPT_X_TLS_HARD; } else { inst->tls_mode = 0; } #endif /* * Convert dereference strings to enumerated constants */ if (inst->dereference_str) { inst->dereference = fr_str2int(ldap_dereference, inst->dereference_str, -1); if (inst->dereference < 0) { cf_log_err_cs(conf, "Invalid 'dereference' value \"%s\", expected 'never', 'searching', " "'finding' or 'always'", inst->dereference_str); goto error; } } #if LDAP_SET_REBIND_PROC_ARGS != 3 /* * The 2-argument rebind doesn't take an instance variable. Our rebind function needs the instance * variable for the username, password, etc. */ if (inst->rebind == true) { cf_log_err_cs(conf, "Cannot use 'rebind' directive as this version of libldap " "does not support the API that we need"); goto error; } #endif /* * Convert scope strings to enumerated constants */ inst->userobj_scope = fr_str2int(ldap_scope, inst->userobj_scope_str, -1); if (inst->userobj_scope < 0) { cf_log_err_cs(conf, "Invalid 'user.scope' value \"%s\", expected 'sub', 'one'" #ifdef LDAP_SCOPE_CHILDREN ", 'base' or 'children'" #else " or 'base'" #endif , inst->userobj_scope_str); goto error; } inst->groupobj_scope = fr_str2int(ldap_scope, inst->groupobj_scope_str, -1); if (inst->groupobj_scope < 0) { cf_log_err_cs(conf, "Invalid 'group.scope' value \"%s\", expected 'sub', 'one'" #ifdef LDAP_SCOPE_CHILDREN ", 'base' or 'children'" #else " or 'base'" #endif , inst->groupobj_scope_str); goto error; } inst->clientobj_scope = fr_str2int(ldap_scope, inst->clientobj_scope_str, -1); if (inst->clientobj_scope < 0) { cf_log_err_cs(conf, "Invalid 'client.scope' value \"%s\", expected 'sub', 'one'" #ifdef LDAP_SCOPE_CHILDREN ", 'base' or 'children'" #else " or 'base'" #endif , inst->clientobj_scope_str); goto error; } if (inst->tls_require_cert_str) { #ifdef LDAP_OPT_X_TLS_NEVER /* * Convert cert strictness to enumerated constants */ inst->tls_require_cert = fr_str2int(ldap_tls_require_cert, inst->tls_require_cert_str, -1); if (inst->tls_require_cert < 0) { cf_log_err_cs(conf, "Invalid 'tls.require_cert' value \"%s\", expected 'never', " "'demand', 'allow', 'try' or 'hard'", inst->tls_require_cert_str); goto error; } #else cf_log_err_cs(conf, "Modifying 'tls.require_cert' is not supported by current " "version of libldap. Please upgrade or substitute current libldap and " "rebuild this module"); goto error; #endif } /* * Build the attribute map */ if (map_afrom_cs(&inst->user_map, cf_section_sub_find(inst->cs, "update"), PAIR_LIST_REPLY, PAIR_LIST_REQUEST, rlm_ldap_map_verify, inst, LDAP_MAX_ATTRMAP) < 0) { return -1; } /* * Group comparison checks. */ if (cf_section_name2(conf)) { static ATTR_FLAGS flags; char buffer[256]; snprintf(buffer, sizeof(buffer), "%s-Ldap-Group", inst->xlat_name); if (dict_addattr(buffer, -1, 0, PW_TYPE_STRING, flags) < 0) { LDAP_ERR("Error creating group attribute: %s", fr_strerror()); return -1; } inst->group_da = dict_attrbyname(buffer); if (!inst->group_da) { LDAP_ERR("Failed creating attribute %s", buffer); goto error; } paircompare_register(inst->group_da, dict_attrbyvalue(PW_USER_NAME, 0), false, rlm_ldap_groupcmp, inst); /* * Were the default instance */ } else { inst->group_da = dict_attrbyvalue(PW_LDAP_GROUP, 0); paircompare_register(dict_attrbyvalue(PW_LDAP_GROUP, 0), dict_attrbyvalue(PW_USER_NAME, 0), false, rlm_ldap_groupcmp, inst); } xlat_register(inst->xlat_name, ldap_xlat, rlm_ldap_escape_func, inst); /* * Setup the cache attribute */ if (inst->cache_attribute) { static ATTR_FLAGS flags; if (dict_addattr(inst->cache_attribute, -1, 0, PW_TYPE_STRING, flags) < 0) { LDAP_ERR("Error creating cache attribute: %s", fr_strerror()); goto error; } inst->cache_da = dict_attrbyname(inst->cache_attribute); } else { inst->cache_da = inst->group_da; /* Default to the group_da */ } /* * Initialize the socket pool. */ inst->pool = fr_connection_pool_module_init(inst->cs, inst, mod_conn_create, NULL, NULL); if (!inst->pool) goto error; /* * Bulk load dynamic clients. */ if (inst->do_clients) { CONF_SECTION *cs; cs = cf_section_sub_find(inst->cs, "client"); if (!cs) { cf_log_err_cs(conf, "Told to load clients but no client section found"); goto error; } cs = cf_section_sub_find(cs, "attribute"); if (!cs) { cf_log_err_cs(conf, "Told to load clients but no attribute section found"); goto error; } if (rlm_ldap_client_load(inst, cs) < 0) { cf_log_err_cs(conf, "Error loading clients"); return -1; } } return 0; error: return -1; }
/** Expand an LDAP URL into a query, and return a string result from that query. * */ static ssize_t ldap_xlat(void *instance, REQUEST *request, char const *fmt, char *out, size_t freespace) { ldap_rcode_t status; size_t len = 0; ldap_instance_t *inst = instance; LDAPURLDesc *ldap_url; LDAPMessage *result = NULL; LDAPMessage *entry = NULL; struct berval **values; ldap_handle_t *conn; int ldap_errno; char const *url; char const **attrs; url = fmt; if (!ldap_is_ldap_url(url)) { REDEBUG("String passed does not look like an LDAP URL"); return -1; } if (ldap_url_parse(url, &ldap_url)){ REDEBUG("Parsing LDAP URL failed"); return -1; } /* * Nothing, empty string, "*" string, or got 2 things, die. */ if (!ldap_url->lud_attrs || !ldap_url->lud_attrs[0] || !*ldap_url->lud_attrs[0] || (strcmp(ldap_url->lud_attrs[0], "*") == 0) || ldap_url->lud_attrs[1]) { REDEBUG("Bad attributes list in LDAP URL. URL must specify exactly one attribute to retrieve"); goto free_urldesc; } if (ldap_url->lud_host && ((strcmp(inst->server, ldap_url->lud_host) != 0) || ((uint32_t) ldap_url->lud_port != inst->port))) { REDEBUG("LDAP expansions must specify the same host and port as the their module instance"); goto free_urldesc; } conn = mod_conn_get(inst, request); if (!conn) goto free_urldesc; memcpy(&attrs, &ldap_url->lud_attrs, sizeof(attrs)); status = rlm_ldap_search(inst, request, &conn, ldap_url->lud_dn, ldap_url->lud_scope, ldap_url->lud_filter, attrs, &result); switch (status) { case LDAP_PROC_SUCCESS: break; default: goto free_socket; } rad_assert(conn); rad_assert(result); entry = ldap_first_entry(conn->handle, result); if (!entry) { ldap_get_option(conn->handle, LDAP_OPT_RESULT_CODE, &ldap_errno); REDEBUG("Failed retrieving entry: %s", ldap_err2string(ldap_errno)); len = -1; goto free_result; } values = ldap_get_values_len(conn->handle, entry, ldap_url->lud_attrs[0]); if (!values) { RDEBUG("No \"%s\" attributes found in specified object", ldap_url->lud_attrs[0]); goto free_result; } if (values[0]->bv_len >= freespace) goto free_values; memcpy(out, values[0]->bv_val, values[0]->bv_len + 1); /* +1 as strlcpy expects buffer size */ len = values[0]->bv_len; free_values: ldap_value_free_len(values); free_result: ldap_msgfree(result); free_socket: mod_conn_release(inst, conn); free_urldesc: ldap_free_urldesc(ldap_url); return len; }
/* * call-seq: * OpenLDAP.split_url( str ) -> array * * Split an LDAP URL into an array of its parts: * - uri_scheme * - host * - port * - base * - attrs * - scope * - filter * - exts * - crit_exts */ static VALUE ropenldap_s_split_url( VALUE UNUSED(module), VALUE urlstring ) { const char *url = StringValueCStr( urlstring ); LDAPURLDesc *urldesc; VALUE rval = Qnil, obj = Qnil; if ( !ldap_is_ldap_url(url) ) rb_raise( rb_eArgError, "Not an LDAP URL." ); /* Parse the URL */ if ( ldap_url_parse(url, &urldesc) != 0 ) rb_raise( rb_eRuntimeError, "Error parsing %s as an LDAP URL!", url ); rval = rb_ary_new2( 9 ); /* Scheme */ if ( urldesc->lud_scheme ) { ropenldap_log( "debug", " parsed scheme: %s", urldesc->lud_scheme ); obj = rb_str_new2( urldesc->lud_scheme ); OBJ_INFECT( obj, urlstring ); rb_ary_store( rval, 0L, obj ); } /* LDAP host to contact */ if ( urldesc->lud_host ) { ropenldap_log( "debug", " parsed host: %s", urldesc->lud_host ); obj = rb_str_new2( urldesc->lud_host ); OBJ_INFECT( obj, urlstring ); rb_ary_store( rval, 1L, obj ); } /* Port */ rb_ary_store( rval, 2L, INT2FIX(urldesc->lud_port) ); /* Base DN */ if ( urldesc->lud_dn ) { ropenldap_log( "debug", " parsed DN: %s", urldesc->lud_dn ); obj = rb_str_new2( urldesc->lud_dn ); OBJ_INFECT( obj, urlstring ); rb_ary_store( rval, 3L, obj ); } /* Attributes */ rb_ary_store( rval, 4L, ropenldap_rb_string_array(urldesc->lud_attrs) ); /* Numeric scope (LDAP_SCOPE_*) */ rb_ary_store( rval, 5L, INT2FIX(urldesc->lud_scope) ); /* Filter */ if ( urldesc->lud_filter ) { ropenldap_log( "debug", " parsed filter: %s", urldesc->lud_filter ); obj = rb_str_new2( urldesc->lud_filter ); OBJ_INFECT( obj, urlstring ); rb_ary_store( rval, 6L, obj ); } /* lists of LDAP extensions */ rb_ary_store( rval, 7L, ropenldap_rb_string_array(urldesc->lud_exts) ); /* Critical extension/s flag */ rb_ary_store( rval, 8L, urldesc->lud_crit_exts ? Qtrue : Qfalse ); ldap_free_urldesc( urldesc ); return rval; }
int main(int argc, char *argv[]) { const char *url, *scope = NULL; LDAPURLDesc *lud; enum { IS_LDAP = 0, IS_LDAPS, IS_LDAPI } type = IS_LDAP; int rc; if ( argc != 2 ) { fprintf( stderr, "usage: urltest <url>\n" ); exit( EXIT_FAILURE ); } url = argv[ 1 ]; if ( ldap_is_ldaps_url( url ) ) { fprintf( stdout, "LDAPS url\n" ); type = IS_LDAPS; } else if ( ldap_is_ldapi_url( url ) ) { fprintf( stdout, "LDAPI url\n" ); type = IS_LDAPI; } else if ( ldap_is_ldap_url( url ) ) { fprintf( stdout, "generic LDAP url\n" ); } else { fprintf( stderr, "Need a valid LDAP url\n" ); exit( EXIT_FAILURE ); } rc = ldap_url_parse( url, &lud ); if ( rc != LDAP_URL_SUCCESS ) { fprintf( stderr, "ldap_url_parse(%s) failed (%d)\n", url, rc ); exit( EXIT_FAILURE ); } fprintf( stdout, "PROTO: %s\n", lud->lud_scheme ); switch ( type ) { case IS_LDAPI: fprintf( stdout, "PATH: %s\n", lud->lud_host ); break; default: fprintf( stdout, "HOST: %s\n", lud->lud_host ); if ( lud->lud_port != 0 ) { fprintf( stdout, "PORT: %d\n", lud->lud_port ); } } if ( lud->lud_dn && lud->lud_dn[ 0 ] ) { fprintf( stdout, "DN: %s\n", lud->lud_dn ); } if ( lud->lud_attrs ) { int i; fprintf( stdout, "ATTRS:\n" ); for ( i = 0; lud->lud_attrs[ i ]; i++ ) { fprintf( stdout, "\t%s\n", lud->lud_attrs[ i ] ); } } scope = ldap_pvt_scope2str( lud->lud_scope ); if ( scope ) { fprintf( stdout, "SCOPE: %s\n", scope ); } if ( lud->lud_filter ) { fprintf( stdout, "FILTER: %s\n", lud->lud_filter ); } if ( lud->lud_exts ) { int i; fprintf( stdout, "EXTS:\n" ); for ( i = 0; lud->lud_exts[ i ]; i++ ) { fprintf( stdout, "\t%s\n", lud->lud_exts[ i ] ); } } fprintf( stdout, "URL: %s\n", ldap_url_desc2str( lud )); return EXIT_SUCCESS; }
/** Instantiate the module * * Creates a new instance of the module reading parameters from a configuration section. * * @param conf to parse. * @param instance Where to write pointer to configuration data. * @return 0 on success < 0 on failure. */ static int mod_instantiate(CONF_SECTION *conf, void *instance) { CONF_SECTION *options; ldap_instance_t *inst = instance; inst->cs = conf; options = cf_section_sub_find(conf, "options"); if (!options || !cf_pair_find(options, "chase_referrals")) { inst->chase_referrals_unset = true; /* use OpenLDAP defaults */ } inst->xlat_name = cf_section_name2(conf); if (!inst->xlat_name) { inst->xlat_name = cf_section_name1(conf); } /* * If the configuration parameters can't be parsed, then fail. */ if ((parse_sub_section(inst, conf, &inst->accounting, RLM_COMPONENT_ACCT) < 0) || (parse_sub_section(inst, conf, &inst->postauth, RLM_COMPONENT_POST_AUTH) < 0)) { LDAP_ERR("Failed parsing configuration"); goto error; } /* * Sanity checks for cacheable groups code. */ if (inst->cacheable_group_name && inst->groupobj_membership_filter) { if (!inst->groupobj_name_attr) { LDAP_ERR("Directive 'group.name_attribute' must be set if cacheable group names are enabled"); goto error; } } /* * Check for URLs. If they're used and the library doesn't support them, then complain. */ inst->is_url = 0; if (ldap_is_ldap_url(inst->server)) { #ifdef HAVE_LDAP_INITIALIZE inst->is_url = 1; inst->port = 0; #else LDAP_ERR("Directive 'server' is in URL form but ldap_initialize() is not available"); goto error; #endif } /* * Workaround for servers which support LDAPS but not START TLS */ if (inst->port == LDAPS_PORT || inst->tls_mode) { inst->tls_mode = LDAP_OPT_X_TLS_HARD; } else { inst->tls_mode = 0; } #if LDAP_SET_REBIND_PROC_ARGS != 3 /* * The 2-argument rebind doesn't take an instance variable. Our rebind function needs the instance * variable for the username, password, etc. */ if (inst->rebind == true) { LDAP_ERR("Cannot use 'rebind' directive as this version of libldap does not support the API " "that we need"); goto error; } #endif /* * Convert scope strings to enumerated constants */ inst->userobj_scope = fr_str2int(ldap_scope, inst->userobj_scope_str, -1); if (inst->userobj_scope < 0) { LDAP_ERR("Invalid 'user.scope' value \"%s\", expected 'sub', 'one', 'base' or 'children'", inst->userobj_scope_str); goto error; } inst->groupobj_scope = fr_str2int(ldap_scope, inst->groupobj_scope_str, -1); if (inst->groupobj_scope < 0) { LDAP_ERR("Invalid 'group.scope' value \"%s\", expected 'sub', 'one', 'base' or 'children'", inst->groupobj_scope_str); goto error; } inst->clientobj_scope = fr_str2int(ldap_scope, inst->clientobj_scope_str, -1); if (inst->clientobj_scope < 0) { LDAP_ERR("Invalid 'client.scope' value \"%s\", expected 'sub', 'one', 'base' or 'children'", inst->clientobj_scope_str); goto error; } if (inst->tls_require_cert_str) { #ifdef LDAP_OPT_X_TLS_NEVER /* * Convert cert strictness to enumerated constants */ inst->tls_require_cert = fr_str2int(ldap_tls_require_cert, inst->tls_require_cert_str, -1); if (inst->tls_require_cert < 0) { LDAP_ERR("Invalid 'tls.require_cert' value \"%s\", expected 'never', 'demand', 'allow', " "'try' or 'hard'", inst->tls_require_cert_str); goto error; } #else LDAP_ERR("Modifying 'tls.require_cert' is not supported by current version of libldap. " "Please upgrade libldap and rebuild this module"); goto error; #endif } /* * Build the attribute map */ if (rlm_ldap_map_verify(inst, &(inst->user_map)) < 0) { goto error; } /* * Group comparison checks. */ if (cf_section_name2(conf)) { ATTR_FLAGS flags; char buffer[256]; snprintf(buffer, sizeof(buffer), "%s-Ldap-Group", inst->xlat_name); memset(&flags, 0, sizeof(flags)); if (dict_addattr(buffer, -1, 0, PW_TYPE_STRING, flags) < 0) { LDAP_ERR("Error creating group attribute: %s", fr_strerror()); return -1; } inst->group_da = dict_attrbyname(buffer); if (!inst->group_da) { LDAP_ERR("Failed creating attribute %s", buffer); goto error; } paircompare_register(inst->group_da, dict_attrbyvalue(PW_USER_NAME, 0), false, rlm_ldap_groupcmp, inst); /* * Were the default instance */ } else { inst->group_da = dict_attrbyvalue(PW_LDAP_GROUP, 0); paircompare_register(dict_attrbyvalue(PW_LDAP_GROUP, 0), dict_attrbyvalue(PW_USER_NAME, 0), false, rlm_ldap_groupcmp, inst); } xlat_register(inst->xlat_name, ldap_xlat, rlm_ldap_escape_func, inst); /* * Setup the cache attribute */ if (inst->cache_attribute) { ATTR_FLAGS flags; memset(&flags, 0, sizeof(flags)); if (dict_addattr(inst->cache_attribute, -1, 0, PW_TYPE_STRING, flags) < 0) { LDAP_ERR("Error creating cache attribute: %s", fr_strerror()); return -1; } inst->cache_da = dict_attrbyname(inst->cache_attribute); } else { inst->cache_da = inst->group_da; /* Default to the group_da */ } /* * Initialize the socket pool. */ inst->pool = fr_connection_pool_init(inst->cs, inst, mod_conn_create, NULL, mod_conn_delete, NULL); if (!inst->pool) { return -1; } /* * Bulk load dynamic clients. */ if (inst->do_clients) { if (rlm_ldap_load_clients(inst) < 0) { LDAP_ERR("Error loading clients"); return -1; } } return 0; error: return -1; }
/** Expand an LDAP URL into a query, and return a string result from that query. * */ static ssize_t ldap_xlat(void *instance, REQUEST *request, char const *fmt, char *out, size_t freespace) { ldap_rcode_t status; size_t len = 0; ldap_instance_t *inst = instance; LDAPURLDesc *ldap_url; LDAPMessage *result = NULL; LDAPMessage *entry = NULL; char **vals; ldap_handle_t *conn; int ldap_errno; char const *url; char const **attrs; url = fmt; if (!ldap_is_ldap_url(url)) { REDEBUG("String passed does not look like an LDAP URL"); return -1; } if (ldap_url_parse(url, &ldap_url)){ REDEBUG("Parsing LDAP URL failed"); return -1; } /* * Nothing, empty string, "*" string, or got 2 things, die. */ if (!ldap_url->lud_attrs || !ldap_url->lud_attrs[0] || !*ldap_url->lud_attrs[0] || (strcmp(ldap_url->lud_attrs[0], "*") == 0) || ldap_url->lud_attrs[1]) { REDEBUG("Bad attributes list in LDAP URL. URL must specify exactly one attribute to retrieve"); goto free_urldesc; } if (ldap_url->lud_host && ((strncmp(inst->server, ldap_url->lud_host, strlen(inst->server)) != 0) || (ldap_url->lud_port != inst->port))) { RDEBUG("Requested server/port is \"%s:%i\"", ldap_url->lud_host, inst->port); goto free_urldesc; } conn = rlm_ldap_get_socket(inst, request); if (!conn) goto free_urldesc; memcpy(&attrs, &ldap_url->lud_attrs, sizeof(attrs)); status = rlm_ldap_search(inst, request, &conn, ldap_url->lud_dn, ldap_url->lud_scope, ldap_url->lud_filter, attrs, &result); switch (status) { case LDAP_PROC_SUCCESS: break; case LDAP_PROC_NO_RESULT: RDEBUG("Search returned not found"); default: goto free_socket; } rad_assert(conn); rad_assert(result); entry = ldap_first_entry(conn->handle, result); if (!entry) { ldap_get_option(conn->handle, LDAP_OPT_RESULT_CODE, &ldap_errno); REDEBUG("Failed retrieving entry: %s", ldap_err2string(ldap_errno)); len = -1; goto free_result; } vals = ldap_get_values(conn->handle, entry, ldap_url->lud_attrs[0]); if (!vals) { RDEBUG("No \"%s\" attributes found in specified object", ldap_url->lud_attrs[0]); goto free_result; } len = strlen(vals[0]); if (len >= freespace){ goto free_vals; } strlcpy(out, vals[0], freespace); free_vals: ldap_value_free(vals); free_result: ldap_msgfree(result); free_socket: rlm_ldap_release_socket(inst, conn); free_urldesc: ldap_free_urldesc(ldap_url); return len; }
void *be_ldap_init() { struct ldap_backend *conf; char *uri; char *binddn, *bindpw; char *opt_flag; int rc, opt, len; _log(LOG_DEBUG, "}}}} LDAP"); uri = p_stab("ldap_uri"); binddn = p_stab("binddn"); bindpw = p_stab("bindpw"); if (!uri) { _fatal("Mandatory option 'ldap_uri' is missing"); return (NULL); } if (!ldap_is_ldap_url(uri)) { _fatal("Mandatory option 'ldap_uri' doesn't look like an LDAP URI"); return (NULL); } if ((conf = (struct ldap_backend *)malloc(sizeof(struct ldap_backend))) == NULL) return (NULL); conf->ldap_uri = NULL; conf->connstr = NULL; conf->lud = NULL; conf->ld = NULL; conf->user_uri = NULL; conf->superquery = NULL; conf->aclquery = NULL; conf->acldeny = 0; conf->ldap_uri = strdup(uri); if (ldap_url_parse(uri, &conf->lud) != 0) { _fatal("Cannot parse ldap_uri"); return (NULL); } /* ldap_initialize() allows schema://host:port only; build * an appropriate string from what we have, to use later also. */ len = strlen(conf->lud->lud_scheme) + strlen(conf->lud->lud_host) + 15; if ((conf->connstr = malloc(len)) == NULL) { _fatal("Out of memory"); return (NULL); } sprintf(conf->connstr, "%s://%s:%d", conf->lud->lud_scheme, conf->lud->lud_host, conf->lud->lud_port); if (ldap_initialize(&conf->ld, conf->connstr) != LDAP_SUCCESS) { ldap_free_urldesc(conf->lud); free(conf->connstr); free(conf->ldap_uri); _fatal("Cannot ldap_initialize"); return (NULL); } opt = LDAP_VERSION3; ldap_set_option(conf->ld, LDAP_OPT_PROTOCOL_VERSION, &opt); if ((rc = ldap_simple_bind_s(conf->ld, binddn, bindpw)) != LDAP_SUCCESS) { _fatal("Cannot bind to LDAP: %s", ldap_err2string(rc)); return (NULL); } // conf->superquery = p_stab("superquery"); // conf->aclquery = p_stab("aclquery"); opt_flag = get_bool("ldap_acl_deny", "false"); if (!strcmp("true", opt_flag)) conf->acldeny = 1; return ((void *)conf); }
PRBool ldapContainerp (RDF_Resource u) { return(ldap_is_ldap_url(resourceID(u))); /* XXX ??? */ }
void possiblyAccessldap(RDFT rdf, RDF_Resource u, RDF_Resource s, PRBool inversep) { /** try to get the values of u.s from the directory **/ LDAP *ld; LDAPMessage *result=NULL, *entry; LDAPURLDesc *ldURL=NULL; RDF_Resource node; char *attrs[2], **vals; int err, i; char *title = NULL; /* Note: a labeledURI is a url followed by an optional [space title-string] */ if (!stringEquals(resourceID(s), resourceID(gCoreVocab->RDF_parent)) || (!inversep) || (!ldap_is_ldap_url(resourceID(u)))) return; ldap_url_parse(resourceID(u), &ldURL); if (ldURL == NULL) return; ld = ldap_init (ldURL->lud_host, ldURL->lud_port); if (ld == NULL) { ldap_free_urldesc(ldURL); return; } if ((err = ldap_simple_bind_s(ld, NULL, NULL)) != LDAP_SUCCESS) { ldap_unbind(ld); ldap_free_urldesc(ldURL); return; } attrs[0] = "labeledURI"; attrs[1] = NULL; err = ldap_search_s(ld, ldURL->lud_dn, LDAP_SCOPE_BASE, ldURL->lud_filter, attrs, 0, &result); if (err == LDAP_SUCCESS) { for (entry=ldap_first_entry(ld, result); entry!=NULL; entry=ldap_next_entry(ld, entry)) { if ((vals = ldap_get_values(ld, entry, attrs[0])) != NULL) { for (i=0; vals[i] != NULL; i++) { /* vals[i] has a URL... add into RDF graph */ /* if (((title = strstr(vals[i], " ")) != NULL) && (*(title+1) != '\0')) { *(++title) = '\0'; } else { title = NULL; } */ if ((node = RDF_Create(vals[i], true)) != NULL) { setResourceType(node, LDAP_RT); if (ldapContainerp(node) == true) { setContainerp(node, 1); } ldapDBAdd(rdf, node, gCoreVocab->RDF_parent, u, RDF_RESOURCE_TYPE); if (title != NULL) { ldapDBAdd(rdf, node, gCoreVocab->RDF_name, title, RDF_STRING_TYPE); } } } ldap_value_free(vals); } } } if (result != NULL) { ldap_msgfree(result); } ldap_unbind(ld); ldap_free_urldesc(ldURL); }
/*% checks that the LDAP URL parameters make sense */ static isc_result_t ldap_checkURL(ldap_instance_t *db, char *URL, int attrCnt, const char *msg) { isc_result_t result = ISC_R_SUCCESS; int ldap_result; LDAPURLDesc *ldap_url = NULL; if (!ldap_is_ldap_url(URL)) { db->log(ISC_LOG_ERROR, "%s query is not a valid LDAP URL", msg); result = ISC_R_FAILURE; goto cleanup; } ldap_result = ldap_url_parse(URL, &ldap_url); if (ldap_result != LDAP_SUCCESS || ldap_url == NULL) { db->log(ISC_LOG_ERROR, "parsing %s query failed", msg); result = ISC_R_FAILURE; goto cleanup; } if (ldap_count_values(ldap_url->lud_attrs) < attrCnt) { db->log(ISC_LOG_ERROR, "%s query must specify at least " "%d attributes to return", msg, attrCnt); result = ISC_R_FAILURE; goto cleanup; } if (ldap_url->lud_host != NULL) { db->log(ISC_LOG_ERROR, "%s query must not specify a host", msg); result = ISC_R_FAILURE; goto cleanup; } if (ldap_url->lud_port != 389) { db->log(ISC_LOG_ERROR, "%s query must not specify a port", msg); result = ISC_R_FAILURE; goto cleanup; } if (ldap_url->lud_dn == NULL || strlen (ldap_url->lud_dn) < 1) { db->log(ISC_LOG_ERROR, "%s query must specify a search base", msg); result = ISC_R_FAILURE; goto cleanup; } if (ldap_url->lud_exts != NULL || ldap_url->lud_crit_exts != 0) { db->log(ISC_LOG_ERROR, "%s uses extensions. " "The driver does not support LDAP extensions.", msg); result = ISC_R_FAILURE; goto cleanup; } cleanup: if (ldap_url != NULL) ldap_free_urldesc(ldap_url); return (result); }
/* * dict_ldap_get_values: for each entry returned by a search, get the values * of all its attributes. Recurses to resolve any DN or URL values found. * * This and the rest of the handling of multiple attributes, DNs and URLs * are thanks to LaMont Jones. */ static void dict_ldap_get_values(DICT_LDAP *dict_ldap, LDAPMessage * res, VSTRING *result) { static int recursion = 0; static int expansion; long entries = 0; long i = 0; int rc = 0; LDAPMessage *resloop = 0; LDAPMessage *entry = 0; BerElement *ber; char **vals; char *attr; char *myname = "dict_ldap_get_values"; struct timeval tv; LDAPURLDesc *url; tv.tv_sec = dict_ldap->timeout; tv.tv_usec = 0; if (++recursion == 1) expansion = 0; if (msg_verbose) msg_info("%s[%d]: Search found %d match(es)", myname, recursion, ldap_count_entries(dict_ldap->ld, res)); for (entry = ldap_first_entry(dict_ldap->ld, res); entry != NULL; entry = ldap_next_entry(dict_ldap->ld, entry)) { ber = NULL; /* * LDAP should not, but may produce more than the requested maximum * number of entries. */ if (dict_errno == 0 && ++entries > dict_ldap->size_limit && dict_ldap->size_limit) { msg_warn("%s[%d]: %s: Query size limit (%ld) exceeded", myname, recursion, dict_ldap->ldapsource, dict_ldap->size_limit); dict_errno = DICT_ERR_RETRY; } for (attr = ldap_first_attribute(dict_ldap->ld, entry, &ber); attr != NULL; ldap_memfree(attr), attr = ldap_next_attribute(dict_ldap->ld, entry, ber)) { vals = ldap_get_values(dict_ldap->ld, entry, attr); if (vals == NULL) { if (msg_verbose) msg_info("%s[%d]: Entry doesn't have any values for %s", myname, recursion, attr); continue; } /* * If we previously encountered an error, we still continue * through the loop, to avoid memory leaks, but we don't waste * time accumulating any further results. * * XXX: There may be a more efficient way to exit the loop with no * leaks, but it will likely be more fragile and not worth the * extra code. */ if (dict_errno != 0 || vals[0] == 0) { ldap_value_free(vals); continue; } /* * The "result_attributes" list enumerates all the requested * attributes, first the ordinary result attribtutes and then the * special result attributes that hold DN or LDAP URL values. * * The number of ordinary attributes is "num_attributes". * * We compute the attribute type (ordinary or special) from its * index on the "result_attributes" list. */ for (i = 0; dict_ldap->result_attributes->argv[i]; i++) { if (strcasecmp(dict_ldap->result_attributes->argv[i], attr) == 0) break; } /* * Append each returned address to the result list, possibly * recursing (for dn or url attributes). */ if (i < dict_ldap->num_attributes) { /* Ordinary result attribute */ for (i = 0; vals[i] != NULL; i++) { if (++expansion > dict_ldap->expansion_limit && dict_ldap->expansion_limit) { msg_warn("%s[%d]: %s: Expansion limit exceeded at" " result attribute %s=%s", myname, recursion, dict_ldap->ldapsource, attr, vals[i]); dict_errno = DICT_ERR_RETRY; break; } if (VSTRING_LEN(result) > 0) vstring_strcat(result, ","); if (dict_ldap->result_filter == NULL) vstring_strcat(result, vals[i]); else dict_ldap_expand_filter(dict_ldap->ldapsource, dict_ldap->result_filter, vals[i], result); } if (dict_errno != 0) continue; if (msg_verbose) msg_info("%s[%d]: search returned %ld value(s) for" " requested result attribute %s", myname, recursion, i, attr); } else if (recursion < dict_ldap->recursion_limit && dict_ldap->result_attributes->argv[i]) { /* Special result attribute */ for (i = 0; vals[i] != NULL; i++) { if (ldap_is_ldap_url(vals[i])) { if (msg_verbose) msg_info("%s[%d]: looking up URL %s", myname, recursion, vals[i]); rc = ldap_url_parse(vals[i], &url); if (rc == 0) { rc = ldap_search_st(dict_ldap->ld, url->lud_dn, url->lud_scope, url->lud_filter, url->lud_attrs, 0, &tv, &resloop); ldap_free_urldesc(url); } } else { if (msg_verbose) msg_info("%s[%d]: looking up DN %s", myname, recursion, vals[i]); rc = ldap_search_st(dict_ldap->ld, vals[i], LDAP_SCOPE_BASE, "objectclass=*", dict_ldap->result_attributes->argv, 0, &tv, &resloop); } switch (rc) { case LDAP_SUCCESS: dict_ldap_get_values(dict_ldap, resloop, result); break; case LDAP_NO_SUCH_OBJECT: /* * Go ahead and treat this as though the DN existed * and just didn't have any result attributes. */ msg_warn("%s[%d]: DN %s not found, skipping ", myname, recursion, vals[i]); break; default: msg_warn("%s[%d]: search error %d: %s ", myname, recursion, rc, ldap_err2string(rc)); dict_errno = DICT_ERR_RETRY; break; } if (resloop != 0) ldap_msgfree(resloop); if (dict_errno != 0) break; } if (dict_errno != 0) continue; if (msg_verbose) msg_info("%s[%d]: search returned %ld value(s) for" " special result attribute %s", myname, recursion, i, attr); } else if (recursion >= dict_ldap->recursion_limit && dict_ldap->result_attributes->argv[i]) { msg_warn("%s[%d]: %s: Recursion limit exceeded" " for special attribute %s=%s", myname, recursion, dict_ldap->ldapsource, attr, vals[0]); dict_errno = DICT_ERR_RETRY; } ldap_value_free(vals); } if (ber) ber_free(ber, 0); } if (msg_verbose) msg_info("%s[%d]: Leaving %s", myname, recursion, myname); --recursion; }
DICT *dict_ldap_open(const char *ldapsource, int dummy, int dict_flags) { char *myname = "dict_ldap_open"; DICT_LDAP *dict_ldap; VSTRING *url_list; char *s; char *h; char *server_host; char *domainlist; char *scope; char *attr; int tmp; if (msg_verbose) msg_info("%s: Using LDAP source %s", myname, ldapsource); dict_ldap = (DICT_LDAP *) dict_alloc(DICT_TYPE_LDAP, ldapsource, sizeof(*dict_ldap)); dict_ldap->dict.lookup = dict_ldap_lookup; dict_ldap->dict.close = dict_ldap_close; dict_ldap->dict.flags = dict_flags | DICT_FLAG_FIXED; dict_ldap->ld = NULL; dict_ldap->parser = cfg_parser_alloc(ldapsource); dict_ldap->ldapsource = mystrdup(ldapsource); server_host = cfg_get_str(dict_ldap->parser, "server_host", "localhost", 1, 0); /* * get configured value of "server_port"; default to LDAP_PORT (389) */ dict_ldap->server_port = cfg_get_int(dict_ldap->parser, "server_port", LDAP_PORT, 0, 0); /* * Define LDAP Version. */ dict_ldap->version = cfg_get_int(dict_ldap->parser, "version", 2, 2, 0); switch (dict_ldap->version) { case 2: dict_ldap->version = LDAP_VERSION2; break; case 3: dict_ldap->version = LDAP_VERSION3; break; default: msg_warn("%s: %s Unknown version %d.", myname, ldapsource, dict_ldap->version); dict_ldap->version = LDAP_VERSION2; } #if defined(LDAP_API_FEATURE_X_OPENLDAP) dict_ldap->ldap_ssl = 0; #endif url_list = vstring_alloc(32); s = server_host; while ((h = mystrtok(&s, " \t\n\r,")) != NULL) { #if defined(LDAP_API_FEATURE_X_OPENLDAP) /* * Convert (host, port) pairs to LDAP URLs */ if (ldap_is_ldap_url(h)) { LDAPURLDesc *url_desc; int rc; if ((rc = ldap_url_parse(h, &url_desc)) != 0) { msg_error("%s: error parsing URL %s: %d: %s; skipping", myname, h, rc, ldap_err2string(rc)); continue; } if (strcasecmp(url_desc->lud_scheme, "ldap") != 0 && dict_ldap->version != LDAP_VERSION3) { msg_warn("%s: URL scheme %s requires protocol version 3", myname, url_desc->lud_scheme); dict_ldap->version = LDAP_VERSION3; } if (strcasecmp(url_desc->lud_scheme, "ldaps") == 0) dict_ldap->ldap_ssl = 1; ldap_free_urldesc(url_desc); vstring_sprintf_append(url_list, " %s", h); } else { if (strrchr(h, ':')) vstring_sprintf_append(url_list, " ldap://%s", h); else vstring_sprintf_append(url_list, " ldap://%s:%d", h, dict_ldap->server_port); } #else vstring_sprintf_append(url_list, " %s", h); #endif } dict_ldap->server_host = mystrdup(VSTRING_LEN(url_list) > 0 ? vstring_str(url_list) + 1 : ""); #if defined(LDAP_API_FEATURE_X_OPENLDAP) /* * With URL scheme, clear port to normalize connection cache key */ dict_ldap->server_port = LDAP_PORT; if (msg_verbose) msg_info("%s: %s server_host URL is %s", myname, ldapsource, dict_ldap->server_host); #endif myfree(server_host); vstring_free(url_list); /* * Scope handling thanks to Carsten Hoeger of SuSE. */ scope = cfg_get_str(dict_ldap->parser, "scope", "sub", 1, 0); if (strcasecmp(scope, "one") == 0) { dict_ldap->scope = LDAP_SCOPE_ONELEVEL; } else if (strcasecmp(scope, "base") == 0) { dict_ldap->scope = LDAP_SCOPE_BASE; } else if (strcasecmp(scope, "sub") == 0) { dict_ldap->scope = LDAP_SCOPE_SUBTREE; } else { msg_warn("%s: %s: Unrecognized value %s specified for scope; using sub", myname, ldapsource, scope); dict_ldap->scope = LDAP_SCOPE_SUBTREE; } myfree(scope); dict_ldap->search_base = cfg_get_str(dict_ldap->parser, "search_base", "", 0, 0); domainlist = cfg_get_str(dict_ldap->parser, "domain", "", 0, 0); if (*domainlist) { #ifdef MATCH_FLAG_NONE dict_ldap->domain = match_list_init(MATCH_FLAG_NONE, domainlist, 1, match_string); #else dict_ldap->domain = match_list_init(domainlist, 1, match_string); #endif if (dict_ldap->domain == NULL) msg_warn("%s: domain match list creation using \"%s\" failed, will continue without it", myname, domainlist); if (msg_verbose) msg_info("%s: domain list created using \"%s\"", myname, domainlist); } else { dict_ldap->domain = NULL; } myfree(domainlist); /* * get configured value of "timeout"; default to 10 seconds * * Thanks to Manuel Guesdon for spotting that this wasn't really getting * set. */ dict_ldap->timeout = cfg_get_int(dict_ldap->parser, "timeout", 10, 0, 0); dict_ldap->query_filter = cfg_get_str(dict_ldap->parser, "query_filter", "(mailacceptinggeneralid=%s)", 0, 0); dict_ldap->result_filter = cfg_get_str(dict_ldap->parser, "result_filter", "%s", 0, 0); if (strcmp(dict_ldap->result_filter, "%s") == 0) { myfree(dict_ldap->result_filter); dict_ldap->result_filter = NULL; } attr = cfg_get_str(dict_ldap->parser, "result_attribute", "maildrop", 0, 0); dict_ldap->result_attributes = argv_split(attr, " ,\t\r\n"); dict_ldap->num_attributes = dict_ldap->result_attributes->argc; myfree(attr); attr = cfg_get_str(dict_ldap->parser, "special_result_attribute", "", 0, 0); if (*attr) { argv_split_append(dict_ldap->result_attributes, attr, " ,\t\r\n"); } myfree(attr); /* * get configured value of "bind"; default to true */ dict_ldap->bind = cfg_get_bool(dict_ldap->parser, "bind", 1); /* * get configured value of "bind_dn"; default to "" */ dict_ldap->bind_dn = cfg_get_str(dict_ldap->parser, "bind_dn", "", 0, 0); /* * get configured value of "bind_pw"; default to "" */ dict_ldap->bind_pw = cfg_get_str(dict_ldap->parser, "bind_pw", "", 0, 0); /* * get configured value of "cache"; default to false */ tmp = cfg_get_bool(dict_ldap->parser, "cache", 0); if (tmp) msg_warn("%s: %s ignoring cache", myname, ldapsource); /* * get configured value of "cache_expiry"; default to 30 seconds */ tmp = cfg_get_int(dict_ldap->parser, "cache_expiry", -1, 0, 0); if (tmp >= 0) msg_warn("%s: %s ignoring cache_expiry", myname, ldapsource); /* * get configured value of "cache_size"; default to 32k */ tmp = cfg_get_int(dict_ldap->parser, "cache_size", -1, 0, 0); if (tmp >= 0) msg_warn("%s: %s ignoring cache_size", myname, ldapsource); /* * get configured value of "recursion_limit"; default to 1000 */ dict_ldap->recursion_limit = cfg_get_int(dict_ldap->parser, "recursion_limit", 1000, 1, 0); /* * get configured value of "expansion_limit"; default to 0 */ dict_ldap->expansion_limit = cfg_get_int(dict_ldap->parser, "expansion_limit", 0, 0, 0); /* * get configured value of "size_limit"; default to expansion_limit */ dict_ldap->size_limit = cfg_get_int(dict_ldap->parser, "size_limit", dict_ldap->expansion_limit, 0, 0); /* * Alias dereferencing suggested by Mike Mattice. */ dict_ldap->dereference = cfg_get_int(dict_ldap->parser, "dereference", 0, 0, 0); if (dict_ldap->dereference < 0 || dict_ldap->dereference > 3) { msg_warn("%s: %s Unrecognized value %d specified for dereference; using 0", myname, ldapsource, dict_ldap->dereference); dict_ldap->dereference = 0; } /* Referral chasing */ dict_ldap->chase_referrals = cfg_get_bool(dict_ldap->parser, "chase_referrals", 0); #ifdef LDAP_API_FEATURE_X_OPENLDAP /* * TLS options */ /* get configured value of "start_tls"; default to no */ dict_ldap->start_tls = cfg_get_bool(dict_ldap->parser, "start_tls", 0); if (dict_ldap->start_tls && dict_ldap->version < LDAP_VERSION3) { msg_warn("%s: %s start_tls requires protocol version 3", myname, ldapsource); dict_ldap->version = LDAP_VERSION3; } /* get configured value of "tls_require_cert"; default to no */ dict_ldap->tls_require_cert = cfg_get_bool(dict_ldap->parser, "tls_require_cert", 0); /* get configured value of "tls_ca_cert_file"; default "" */ dict_ldap->tls_ca_cert_file = cfg_get_str(dict_ldap->parser, "tls_ca_cert_file", "", 0, 0); /* get configured value of "tls_ca_cert_dir"; default "" */ dict_ldap->tls_ca_cert_dir = cfg_get_str(dict_ldap->parser, "tls_ca_cert_dir", "", 0, 0); /* get configured value of "tls_cert"; default "" */ dict_ldap->tls_cert = cfg_get_str(dict_ldap->parser, "tls_cert", "", 0, 0); /* get configured value of "tls_key"; default "" */ dict_ldap->tls_key = cfg_get_str(dict_ldap->parser, "tls_key", "", 0, 0); /* get configured value of "tls_random_file"; default "" */ dict_ldap->tls_random_file = cfg_get_str(dict_ldap->parser, "tls_random_file", "", 0, 0); /* get configured value of "tls_cipher_suite"; default "" */ dict_ldap->tls_cipher_suite = cfg_get_str(dict_ldap->parser, "tls_cipher_suite", "", 0, 0); #endif /* * Debug level. */ #if defined(LDAP_OPT_DEBUG_LEVEL) && defined(LBER_OPT_LOG_PRINT_FN) dict_ldap->debuglevel = cfg_get_int(dict_ldap->parser, "debuglevel", 0, 0, 0); #endif /* * Find or allocate shared LDAP connection container. */ dict_ldap_conn_find(dict_ldap); /* * Return the new dict_ldap structure. */ return (DICT_DEBUG (&dict_ldap->dict)); }
static int perform_ldap_search(uschar *ldap_url, uschar *server, int s_port, int search_type, uschar **res, uschar **errmsg, BOOL *defer_break, uschar *user, uschar *password, int sizelimit, int timelimit, int tcplimit, int dereference, void *referrals) { LDAPURLDesc *ludp = NULL; LDAPMessage *result = NULL; BerElement *ber; LDAP_CONNECTION *lcp; struct timeval timeout; struct timeval *timeoutptr = NULL; uschar *attr; uschar **attrp; uschar *data = NULL; uschar *dn = NULL; uschar *host; uschar **values; uschar **firstval; uschar porttext[16]; uschar *error1 = NULL; /* string representation of errcode (static) */ uschar *error2 = NULL; /* error message from the server */ uschar *matched = NULL; /* partially matched DN */ int attr_count = 0; int error_yield = DEFER; int msgid; int rc, ldap_rc, ldap_parse_rc; int port; int ptr = 0; int rescount = 0; int size = 0; BOOL attribute_found = FALSE; BOOL ldapi = FALSE; DEBUG(D_lookup) debug_printf("perform_ldap_search: ldap%s URL = \"%s\" server=%s port=%d " "sizelimit=%d timelimit=%d tcplimit=%d\n", (search_type == SEARCH_LDAP_MULTIPLE)? "m" : (search_type == SEARCH_LDAP_DN)? "dn" : (search_type == SEARCH_LDAP_AUTH)? "auth" : "", ldap_url, server, s_port, sizelimit, timelimit, tcplimit); /* Check if LDAP thinks the URL is a valid LDAP URL. We assume that if the LDAP library that is in use doesn't recognize, say, "ldapi", it will barf here. */ if (!ldap_is_ldap_url(CS ldap_url)) { *errmsg = string_sprintf("ldap_is_ldap_url: not an LDAP url \"%s\"\n", ldap_url); goto RETURN_ERROR_BREAK; } /* Parse the URL */ if ((rc = ldap_url_parse(CS ldap_url, &ludp)) != 0) { *errmsg = string_sprintf("ldap_url_parse: (error %d) parsing \"%s\"\n", rc, ldap_url); goto RETURN_ERROR_BREAK; } /* If the host name is empty, take it from the separate argument, if one is given. OpenLDAP 2.0.6 sets an unset hostname to "" rather than empty, but expects NULL later in ldap_init() to mean "default", annoyingly. In OpenLDAP 2.0.11 this has changed (it uses NULL). */ if ((ludp->lud_host == NULL || ludp->lud_host[0] == 0) && server != NULL) { host = server; port = s_port; } else { host = US ludp->lud_host; if (host != NULL && host[0] == 0) host = NULL; port = ludp->lud_port; } DEBUG(D_lookup) debug_printf("after ldap_url_parse: host=%s port=%d\n", host, port); if (port == 0) port = LDAP_PORT; /* Default if none given */ sprintf(CS porttext, ":%d", port); /* For messages */ /* If the "host name" is actually a path, we are going to connect using a Unix socket, regardless of whether "ldapi" was actually specified or not. This means that a Unix socket can be declared in eldap_default_servers, and "traditional" LDAP queries using just "ldap" can be used ("ldaps" is similarly overridden). The path may start with "/" or it may already be escaped as "%2F" if it was actually declared that way in eldap_default_servers. (I did it that way the first time.) If the host name is not a path, the use of "ldapi" causes an error, except in the default case. (But lud_scheme doesn't seem to exist in older libraries.) */ if (host != NULL) { if ((host[0] == '/' || Ustrncmp(host, "%2F", 3) == 0)) { ldapi = TRUE; porttext[0] = 0; /* Remove port from messages */ } #if defined LDAP_LIB_OPENLDAP2 else if (strncmp(ludp->lud_scheme, "ldapi", 5) == 0) { *errmsg = string_sprintf("ldapi requires an absolute path (\"%s\" given)", host); goto RETURN_ERROR; } #endif } /* Count the attributes; we need this later to tell us how to format results */ for (attrp = USS ludp->lud_attrs; attrp != NULL && *attrp != NULL; attrp++) attr_count++; /* See if we can find a cached connection to this host. The port is not relevant for ldapi. The host name pointer is set to NULL if no host was given (implying the library default), rather than to the empty string. Note that in this case, there is no difference between ldap and ldapi. */ for (lcp = ldap_connections; lcp != NULL; lcp = lcp->next) { if ((host == NULL) != (lcp->host == NULL) || (host != NULL && strcmpic(lcp->host, host) != 0)) continue; if (ldapi || port == lcp->port) break; } /* Use this network timeout in any requests. */ if (tcplimit > 0) { timeout.tv_sec = tcplimit; timeout.tv_usec = 0; timeoutptr = &timeout; } /* If no cached connection found, we must open a connection to the server. If the server name is actually an absolute path, we set ldapi=TRUE above. This requests connection via a Unix socket. However, as far as I know, only OpenLDAP supports the use of sockets, and the use of ldap_initialize(). */ if (lcp == NULL) { LDAP *ld; /* --------------------------- OpenLDAP ------------------------ */ /* There seems to be a preference under OpenLDAP for ldap_initialize() instead of ldap_init(), though I have as yet been unable to find documentation that says this. (OpenLDAP documentation is sparse to non-existent). So we handle OpenLDAP differently here. Also, support for ldapi seems to be OpenLDAP-only at present. */ #ifdef LDAP_LIB_OPENLDAP2 /* We now need an empty string for the default host. Get some store in which to build a URL for ldap_initialize(). In the ldapi case, it can't be bigger than (9 + 3*Ustrlen(shost)), whereas in the other cases it can't be bigger than the host name + "ldaps:///" plus : and a port number, say 20 + the length of the host name. What we get should accommodate both, easily. */ uschar *shost = (host == NULL)? US"" : host; uschar *init_url = store_get(20 + 3 * Ustrlen(shost)); uschar *init_ptr; /* Handle connection via Unix socket ("ldapi"). We build a basic LDAP URI to contain the path name, with slashes escaped as %2F. */ if (ldapi) { int ch; init_ptr = init_url + 8; Ustrcpy(init_url, "ldapi://"); while ((ch = *shost++) != 0) { if (ch == '/') { Ustrncpy(init_ptr, "%2F", 3); init_ptr += 3; } else *init_ptr++ = ch; } *init_ptr = 0; } /* This is not an ldapi call. Just build a URI with the protocol type, host name, and port. */ else { init_ptr = Ustrchr(ldap_url, '/'); Ustrncpy(init_url, ldap_url, init_ptr - ldap_url); init_ptr = init_url + (init_ptr - ldap_url); sprintf(CS init_ptr, "//%s:%d/", shost, port); } /* Call ldap_initialize() and check the result */ DEBUG(D_lookup) debug_printf("ldap_initialize with URL %s\n", init_url); rc = ldap_initialize(&ld, CS init_url); if (rc != LDAP_SUCCESS) { *errmsg = string_sprintf("ldap_initialize: (error %d) URL \"%s\"\n", rc, init_url); goto RETURN_ERROR; } store_reset(init_url); /* Might as well save memory when we can */ /* ------------------------- Not OpenLDAP ---------------------- */ /* For libraries other than OpenLDAP, use ldap_init(). */ #else /* LDAP_LIB_OPENLDAP2 */ ld = ldap_init(CS host, port); #endif /* LDAP_LIB_OPENLDAP2 */ /* -------------------------------------------------------------- */ /* Handle failure to initialize */ if (ld == NULL) { *errmsg = string_sprintf("failed to initialize for LDAP server %s%s - %s", host, porttext, strerror(errno)); goto RETURN_ERROR; } /* Set the TCP connect time limit if available. This is something that is in Netscape SDK v4.1; I don't know about other libraries. */ #ifdef LDAP_X_OPT_CONNECT_TIMEOUT if (tcplimit > 0) { int timeout1000 = tcplimit*1000; ldap_set_option(ld, LDAP_X_OPT_CONNECT_TIMEOUT, (void *)&timeout1000); } else { int notimeout = LDAP_X_IO_TIMEOUT_NO_TIMEOUT; ldap_set_option(ld, LDAP_X_OPT_CONNECT_TIMEOUT, (void *)¬imeout); } #endif /* Set the TCP connect timeout. This works with OpenLDAP 2.2.14. */ #ifdef LDAP_OPT_NETWORK_TIMEOUT if (tcplimit > 0) ldap_set_option(ld, LDAP_OPT_NETWORK_TIMEOUT, (void *)timeoutptr); #endif /* I could not get TLS to work until I set the version to 3. That version seems to be the default nowadays. The RFC is dated 1997, so I would hope that all the LDAP libraries support it. Therefore, if eldap_version hasn't been set, go for v3 if we can. */ if (eldap_version < 0) { #ifdef LDAP_VERSION3 eldap_version = LDAP_VERSION3; #else eldap_version = 2; #endif } #ifdef LDAP_OPT_PROTOCOL_VERSION ldap_set_option(ld, LDAP_OPT_PROTOCOL_VERSION, (void *)&eldap_version); #endif DEBUG(D_lookup) debug_printf("initialized for LDAP (v%d) server %s%s\n", eldap_version, host, porttext); /* If not using ldapi and TLS is available, set appropriate TLS options: hard for "ldaps" and soft otherwise. */ #ifdef LDAP_OPT_X_TLS if (!ldapi) { int tls_option; if (strncmp(ludp->lud_scheme, "ldaps", 5) == 0) { tls_option = LDAP_OPT_X_TLS_HARD; DEBUG(D_lookup) debug_printf("LDAP_OPT_X_TLS_HARD set\n"); } else { tls_option = LDAP_OPT_X_TLS_TRY; DEBUG(D_lookup) debug_printf("LDAP_OPT_X_TLS_TRY set\n"); } ldap_set_option(ld, LDAP_OPT_X_TLS, (void *)&tls_option); } #endif /* LDAP_OPT_X_TLS */ #ifdef LDAP_OPT_X_TLS_CACERTFILE if (eldap_ca_cert_file != NULL) { ldap_set_option(ld, LDAP_OPT_X_TLS_CACERTFILE, eldap_ca_cert_file); } #endif #ifdef LDAP_OPT_X_TLS_CACERTDIR if (eldap_ca_cert_dir != NULL) { ldap_set_option(ld, LDAP_OPT_X_TLS_CACERTDIR, eldap_ca_cert_dir); } #endif #ifdef LDAP_OPT_X_TLS_CERTFILE if (eldap_cert_file != NULL) { ldap_set_option(ld, LDAP_OPT_X_TLS_CERTFILE, eldap_cert_file); } #endif #ifdef LDAP_OPT_X_TLS_KEYFILE if (eldap_cert_key != NULL) { ldap_set_option(ld, LDAP_OPT_X_TLS_KEYFILE, eldap_cert_key); } #endif #ifdef LDAP_OPT_X_TLS_CIPHER_SUITE if (eldap_cipher_suite != NULL) { ldap_set_option(ld, LDAP_OPT_X_TLS_CIPHER_SUITE, eldap_cipher_suite); } #endif #ifdef LDAP_OPT_X_TLS_REQUIRE_CERT if (eldap_require_cert != NULL) { int cert_option = LDAP_OPT_X_TLS_NEVER; if (Ustrcmp(eldap_require_cert, "hard") == 0) { cert_option = LDAP_OPT_X_TLS_HARD; } else if (Ustrcmp(eldap_require_cert, "demand") == 0) { cert_option = LDAP_OPT_X_TLS_DEMAND; } else if (Ustrcmp(eldap_require_cert, "allow") == 0) { cert_option = LDAP_OPT_X_TLS_ALLOW; } else if (Ustrcmp(eldap_require_cert, "try") == 0) { cert_option = LDAP_OPT_X_TLS_TRY; } ldap_set_option(ld, LDAP_OPT_X_TLS_REQUIRE_CERT, &cert_option); } #endif /* Now add this connection to the chain of cached connections */ lcp = store_get(sizeof(LDAP_CONNECTION)); lcp->host = (host == NULL)? NULL : string_copy(host); lcp->bound = FALSE; lcp->user = NULL; lcp->password = NULL; lcp->port = port; lcp->ld = ld; lcp->next = ldap_connections; ldap_connections = lcp; } /* Found cached connection */ else { DEBUG(D_lookup) debug_printf("re-using cached connection to LDAP server %s%s\n", host, porttext); } /* Bind with the user/password supplied, or an anonymous bind if these values are NULL, unless a cached connection is already bound with the same values. */ if (!lcp->bound || (lcp->user == NULL && user != NULL) || (lcp->user != NULL && user == NULL) || (lcp->user != NULL && user != NULL && Ustrcmp(lcp->user, user) != 0) || (lcp->password == NULL && password != NULL) || (lcp->password != NULL && password == NULL) || (lcp->password != NULL && password != NULL && Ustrcmp(lcp->password, password) != 0)) { DEBUG(D_lookup) debug_printf("%sbinding with user=%s password=%s\n", (lcp->bound)? "re-" : "", user, password); #ifdef LDAP_OPT_X_TLS /* The Oracle LDAP libraries (LDAP_LIB_TYPE=SOLARIS) don't support this: */ if (eldap_start_tls) { ldap_start_tls_s(lcp->ld, NULL, NULL); } #endif if ((msgid = ldap_bind(lcp->ld, CS user, CS password, LDAP_AUTH_SIMPLE)) == -1) { *errmsg = string_sprintf("failed to bind the LDAP connection to server " "%s%s - ldap_bind() returned -1", host, porttext); goto RETURN_ERROR; } if ((rc = ldap_result( lcp->ld, msgid, 1, timeoutptr, &result )) <= 0) { *errmsg = string_sprintf("failed to bind the LDAP connection to server " "%s%s - LDAP error: %s", host, porttext, rc == -1 ? "result retrieval failed" : "timeout" ); result = NULL; goto RETURN_ERROR; } rc = ldap_result2error( lcp->ld, result, 0 ); /* Invalid credentials when just checking credentials returns FAIL. This stops any further servers being tried. */ if (search_type == SEARCH_LDAP_AUTH && rc == LDAP_INVALID_CREDENTIALS) { DEBUG(D_lookup) debug_printf("Invalid credentials: ldapauth returns FAIL\n"); error_yield = FAIL; goto RETURN_ERROR_NOMSG; } /* Otherwise we have a problem that doesn't stop further servers from being tried. */ if (rc != LDAP_SUCCESS) { *errmsg = string_sprintf("failed to bind the LDAP connection to server " "%s%s - LDAP error %d: %s", host, porttext, rc, ldap_err2string(rc)); goto RETURN_ERROR; } /* Successful bind */ lcp->bound = TRUE; lcp->user = (user == NULL)? NULL : string_copy(user); lcp->password = (password == NULL)? NULL : string_copy(password); ldap_msgfree(result); result = NULL; } /* If we are just checking credentials, return OK. */ if (search_type == SEARCH_LDAP_AUTH) { DEBUG(D_lookup) debug_printf("Bind succeeded: ldapauth returns OK\n"); goto RETURN_OK; } /* Before doing the search, set the time and size limits (if given). Here again the different implementations of LDAP have chosen to do things differently. */ #if defined(LDAP_OPT_SIZELIMIT) ldap_set_option(lcp->ld, LDAP_OPT_SIZELIMIT, (void *)&sizelimit); ldap_set_option(lcp->ld, LDAP_OPT_TIMELIMIT, (void *)&timelimit); #else lcp->ld->ld_sizelimit = sizelimit; lcp->ld->ld_timelimit = timelimit; #endif /* Similarly for dereferencing aliases. Don't know if this is possible on an LDAP library without LDAP_OPT_DEREF. */ #if defined(LDAP_OPT_DEREF) ldap_set_option(lcp->ld, LDAP_OPT_DEREF, (void *)&dereference); #endif /* Similarly for the referral setting; should the library follow referrals that the LDAP server returns? The conditional is just in case someone uses a library without it. */ #if defined(LDAP_OPT_REFERRALS) ldap_set_option(lcp->ld, LDAP_OPT_REFERRALS, referrals); #endif /* Start the search on the server. */ DEBUG(D_lookup) debug_printf("Start search\n"); msgid = ldap_search(lcp->ld, ludp->lud_dn, ludp->lud_scope, ludp->lud_filter, ludp->lud_attrs, 0); if (msgid == -1) { #if defined LDAP_LIB_SOLARIS || defined LDAP_LIB_OPENLDAP2 int err; ldap_get_option(lcp->ld, LDAP_OPT_ERROR_NUMBER, &err); *errmsg = string_sprintf("ldap_search failed: %d, %s", err, ldap_err2string(err)); #else *errmsg = string_sprintf("ldap_search failed"); #endif goto RETURN_ERROR; } /* Loop to pick up results as they come in, setting a timeout if one was given. */ while ((rc = ldap_result(lcp->ld, msgid, 0, timeoutptr, &result)) == LDAP_RES_SEARCH_ENTRY) { LDAPMessage *e; DEBUG(D_lookup) debug_printf("ldap_result loop\n"); for(e = ldap_first_entry(lcp->ld, result); e != NULL; e = ldap_next_entry(lcp->ld, e)) { uschar *new_dn; BOOL insert_space = FALSE; DEBUG(D_lookup) debug_printf("LDAP entry loop\n"); rescount++; /* Count results */ /* Results for multiple entries values are separated by newlines. */ if (data != NULL) data = string_cat(data, &size, &ptr, US"\n", 1); /* Get the DN from the last result. */ new_dn = US ldap_get_dn(lcp->ld, e); if (new_dn != NULL) { if (dn != NULL) { #if defined LDAP_LIB_NETSCAPE || defined LDAP_LIB_OPENLDAP2 ldap_memfree(dn); #else /* OPENLDAP 1, UMich, Solaris */ free(dn); #endif } /* Save for later */ dn = new_dn; } /* If the data we want is actually the DN rather than any attribute values, (an "ldapdn" search) add it to the data string. If there are multiple entries, the DNs will be concatenated, but we test for this case below, as for SEARCH_LDAP_SINGLE, and give an error. */ if (search_type == SEARCH_LDAP_DN) /* Do not amalgamate these into one */ { /* condition, because of the else */ if (new_dn != NULL) /* below, that's for the first only */ { data = string_cat(data, &size, &ptr, new_dn, Ustrlen(new_dn)); data[ptr] = 0; attribute_found = TRUE; } } /* Otherwise, loop through the entry, grabbing attribute values. If there's only one attribute being retrieved, no attribute name is given, and the result is not quoted. Multiple values are separated by (comma, space). If more than one attribute is being retrieved, the data is given as a sequence of name=value pairs, with the value always in quotes. If there are multiple values, they are given within the quotes, comma separated. */ else for (attr = US ldap_first_attribute(lcp->ld, e, &ber); attr != NULL; attr = US ldap_next_attribute(lcp->ld, e, ber)) { if (attr[0] != 0) { /* Get array of values for this attribute. */ if ((firstval = values = USS ldap_get_values(lcp->ld, e, CS attr)) != NULL) { if (attr_count != 1) { if (insert_space) data = string_cat(data, &size, &ptr, US" ", 1); else insert_space = TRUE; data = string_cat(data, &size, &ptr, attr, Ustrlen(attr)); data = string_cat(data, &size, &ptr, US"=\"", 2); } while (*values != NULL) { uschar *value = *values; int len = Ustrlen(value); DEBUG(D_lookup) debug_printf("LDAP attr loop %s:%s\n", attr, value); if (values != firstval) data = string_cat(data, &size, &ptr, US", ", 2); /* For multiple attributes, the data is in quotes. We must escape internal quotes, backslashes, newlines. */ if (attr_count != 1) { int j; for (j = 0; j < len; j++) { if (value[j] == '\n') data = string_cat(data, &size, &ptr, US"\\n", 2); else { if (value[j] == '\"' || value[j] == '\\') data = string_cat(data, &size, &ptr, US"\\", 1); data = string_cat(data, &size, &ptr, value+j, 1); } } } /* For single attributes, copy the value verbatim */ else data = string_cat(data, &size, &ptr, value, len); /* Move on to the next value */ values++; attribute_found = TRUE; } /* Closing quote at the end of the data for a named attribute. */ if (attr_count != 1) data = string_cat(data, &size, &ptr, US"\"", 1); /* Free the values */ ldap_value_free(CSS firstval); } } #if defined LDAP_LIB_NETSCAPE || defined LDAP_LIB_OPENLDAP2 /* Netscape and OpenLDAP2 LDAP's attrs are dynamically allocated and need to be freed. UMich LDAP stores them in static storage and does not require this. */ ldap_memfree(attr); #endif } /* End "for" loop for extracting attributes from an entry */ } /* End "for" loop for extracting entries from a result */ /* Free the result */ ldap_msgfree(result); result = NULL; } /* End "while" loop for multiple results */ /* Terminate the dynamic string that we have built and reclaim unused store */ if (data != NULL) { data[ptr] = 0; store_reset(data + ptr + 1); } /* Copy the last dn into eldap_dn */ if (dn != NULL) { eldap_dn = string_copy(dn); #if defined LDAP_LIB_NETSCAPE || defined LDAP_LIB_OPENLDAP2 ldap_memfree(dn); #else /* OPENLDAP 1, UMich, Solaris */ free(dn); #endif } DEBUG(D_lookup) debug_printf("search ended by ldap_result yielding %d\n",rc); if (rc == 0) { *errmsg = US"ldap_result timed out"; goto RETURN_ERROR; } /* A return code of -1 seems to mean "ldap_result failed internally or couldn't provide you with a message". Other error states seem to exist where ldap_result() didn't give us any message from the server at all, leaving result set to NULL. Apparently, "the error parameters of the LDAP session handle will be set accordingly". That's the best we can do to retrieve an error status; we can't use functions like ldap_result2error because they parse a message from the server, which we didn't get. Annoyingly, the different implementations of LDAP have gone for different methods of handling error codes and generating error messages. */ if (rc == -1 || result == NULL) { int err; DEBUG(D_lookup) debug_printf("ldap_result failed\n"); #if defined LDAP_LIB_SOLARIS || defined LDAP_LIB_OPENLDAP2 ldap_get_option(lcp->ld, LDAP_OPT_ERROR_NUMBER, &err); *errmsg = string_sprintf("ldap_result failed: %d, %s", err, ldap_err2string(err)); #elif defined LDAP_LIB_NETSCAPE /* Dubious (surely 'matched' is spurious here?) */ (void)ldap_get_lderrno(lcp->ld, &matched, &error1); *errmsg = string_sprintf("ldap_result failed: %s (%s)", error1, matched); #else /* UMich LDAP aka OpenLDAP 1.x */ *errmsg = string_sprintf("ldap_result failed: %d, %s", lcp->ld->ld_errno, ldap_err2string(lcp->ld->ld_errno)); #endif goto RETURN_ERROR; } /* A return code that isn't -1 doesn't necessarily mean there were no problems with the search. The message must be an LDAP_RES_SEARCH_RESULT or LDAP_RES_SEARCH_REFERENCE or else it's something we can't handle. Some versions of LDAP do not define LDAP_RES_SEARCH_REFERENCE (LDAP v1 is one, it seems). So we don't provide that functionality when we can't. :-) */ if (rc != LDAP_RES_SEARCH_RESULT #ifdef LDAP_RES_SEARCH_REFERENCE && rc != LDAP_RES_SEARCH_REFERENCE #endif ) { *errmsg = string_sprintf("ldap_result returned unexpected code %d", rc); goto RETURN_ERROR; } /* We have a result message from the server. This doesn't yet mean all is well. We need to parse the message to find out exactly what's happened. */ #if defined LDAP_LIB_SOLARIS || defined LDAP_LIB_OPENLDAP2 ldap_rc = rc; ldap_parse_rc = ldap_parse_result(lcp->ld, result, &rc, CSS &matched, CSS &error2, NULL, NULL, 0); DEBUG(D_lookup) debug_printf("ldap_parse_result: %d\n", ldap_parse_rc); if (ldap_parse_rc < 0 && (ldap_parse_rc != LDAP_NO_RESULTS_RETURNED #ifdef LDAP_RES_SEARCH_REFERENCE || ldap_rc != LDAP_RES_SEARCH_REFERENCE #endif )) { *errmsg = string_sprintf("ldap_parse_result failed %d", ldap_parse_rc); goto RETURN_ERROR; } error1 = US ldap_err2string(rc); #elif defined LDAP_LIB_NETSCAPE /* Dubious (it doesn't reference 'result' at all!) */ rc = ldap_get_lderrno(lcp->ld, &matched, &error1); #else /* UMich LDAP aka OpenLDAP 1.x */ rc = ldap_result2error(lcp->ld, result, 0); error1 = ldap_err2string(rc); error2 = lcp->ld->ld_error; matched = lcp->ld->ld_matched; #endif /* Process the status as follows: (1) If we get LDAP_SIZELIMIT_EXCEEDED, just carry on, to return the truncated result list. (2) If we get LDAP_RES_SEARCH_REFERENCE, also just carry on. This was a submitted patch that is reported to "do the right thing" with Solaris LDAP libraries. (The problem it addresses apparently does not occur with Open LDAP.) (3) The range of errors defined by LDAP_NAME_ERROR generally mean "that object does not, or cannot, exist in the database". For those cases we fail the lookup. (4) All other non-successes here are treated as some kind of problem with the lookup, so return DEFER (which is the default in error_yield). */ DEBUG(D_lookup) debug_printf("ldap_parse_result yielded %d: %s\n", rc, ldap_err2string(rc)); if (rc != LDAP_SUCCESS && rc != LDAP_SIZELIMIT_EXCEEDED #ifdef LDAP_RES_SEARCH_REFERENCE && rc != LDAP_RES_SEARCH_REFERENCE #endif ) { *errmsg = string_sprintf("LDAP search failed - error %d: %s%s%s%s%s", rc, (error1 != NULL)? error1 : US"", (error2 != NULL && error2[0] != 0)? US"/" : US"", (error2 != NULL)? error2 : US"", (matched != NULL && matched[0] != 0)? US"/" : US"", (matched != NULL)? matched : US""); #if defined LDAP_NAME_ERROR if (LDAP_NAME_ERROR(rc)) #elif defined NAME_ERROR /* OPENLDAP1 calls it this */ if (NAME_ERROR(rc)) #else if (rc == LDAP_NO_SUCH_OBJECT) #endif { DEBUG(D_lookup) debug_printf("lookup failure forced\n"); error_yield = FAIL; } goto RETURN_ERROR; } /* The search succeeded. Check if we have too many results */ if (search_type != SEARCH_LDAP_MULTIPLE && rescount > 1) { *errmsg = string_sprintf("LDAP search: more than one entry (%d) was returned " "(filter not specific enough?)", rescount); goto RETURN_ERROR_BREAK; } /* Check if we have too few (zero) entries */ if (rescount < 1) { *errmsg = string_sprintf("LDAP search: no results"); error_yield = FAIL; goto RETURN_ERROR_BREAK; } /* If an entry was found, but it had no attributes, we behave as if no entries were found, that is, the lookup failed. */ if (!attribute_found) { *errmsg = US"LDAP search: found no attributes"; error_yield = FAIL; goto RETURN_ERROR; } /* Otherwise, it's all worked */ DEBUG(D_lookup) debug_printf("LDAP search: returning: %s\n", data); *res = data; RETURN_OK: if (result != NULL) ldap_msgfree(result); ldap_free_urldesc(ludp); return OK; /* Error returns */ RETURN_ERROR_BREAK: *defer_break = TRUE; RETURN_ERROR: DEBUG(D_lookup) debug_printf("%s\n", *errmsg); RETURN_ERROR_NOMSG: if (result != NULL) ldap_msgfree(result); if (ludp != NULL) ldap_free_urldesc(ludp); #if defined LDAP_LIB_OPENLDAP2 if (error2 != NULL) ldap_memfree(error2); if (matched != NULL) ldap_memfree(matched); #endif return error_yield; }
void uwsgi_ldap_config(char *url) { LDAP *ldp; LDAPMessage *results, *entry; BerElement *ber; struct berval **bervalues; char *attr; char *uwsgi_attr; char *url_slash; int desired_version = LDAP_VERSION3; int ret; LDAPURLDesc *ldap_url; if (!ldap_is_ldap_url(url)) { uwsgi_log("invalid LDAP url.\n"); exit(1); } if (ldap_url_parse(url, &ldap_url) != LDAP_SUCCESS) { uwsgi_log("unable to parse LDAP url.\n"); exit(1); } uwsgi_log("[uWSGI] getting LDAP configuration from %s\n", url); url_slash = strchr(url, '/'); url_slash = strchr(url_slash + 1, '/'); url_slash = strchr(url_slash + 1, '/'); if (url_slash) { url_slash[0] = 0; } #ifdef UWSGI_DEBUG uwsgi_debug("LDAP URL: %s\n", url); uwsgi_debug("LDAP BASE DN: %s\n", ldap_url->lud_dn); #endif #if LDAP_API_VERSION >= 3000 if ((ret = ldap_initialize(&ldp, url)) != LDAP_SUCCESS) { uwsgi_log("LDAP: %s\n", ldap_err2string(ret)); exit(1); } #else if ((ldp = ldap_init(ldap_url->lud_host, ldap_url->lud_port)) == NULL) { uwsgi_error("ldap_init()"); exit(1); } #endif if ((ret = ldap_set_option(ldp, LDAP_OPT_PROTOCOL_VERSION, &desired_version)) != LDAP_OPT_SUCCESS) { uwsgi_log("LDAP: %s\n", ldap_err2string(ret)); exit(1); } if ((ret = ldap_search_ext_s(ldp, ldap_url->lud_dn, ldap_url->lud_scope, ldap_url->lud_filter, NULL, 0, NULL, NULL, NULL, 1, &results)) != LDAP_SUCCESS) { uwsgi_log("LDAP: %s\n", ldap_err2string(ret)); exit(1); } #ifdef UWSGI_DEBUG uwsgi_debug("LDAP connection initialized %p\n", ldp); #endif free(ldap_url); if (ldap_count_entries(ldp, results) < 1) { uwsgi_log("no LDAP entry found\n"); exit(1); } entry = ldap_first_entry(ldp, results); int found = 0; for (attr = ldap_first_attribute(ldp, entry, &ber); attr != NULL; attr = ldap_next_attribute(ldp, entry, ber)) { if (!strncmp(attr, "uWSGI", 5)) { found = 1; uwsgi_attr = malloc(calc_ldap_name(attr) + 1); if (!uwsgi_attr) { uwsgi_error("malloc()"); exit(1); } ldap2uwsgi(attr + 5, uwsgi_attr); #ifdef UWSGI_DEBUG uwsgi_debug("LDAP attribute: %s = --%s\n", attr, uwsgi_attr); #endif bervalues = ldap_get_values_len(ldp, entry, attr); if (bervalues) { // do not free uwsgi_attr/uwsgi_val; char *uwsgi_val = malloc(bervalues[0]->bv_len + 1); if (!uwsgi_val) { uwsgi_error("malloc()"); exit(1); } memcpy(uwsgi_val, bervalues[0]->bv_val, bervalues[0]->bv_len); uwsgi_val[bervalues[0]->bv_len] = 0; add_exported_option((char *) uwsgi_attr, uwsgi_val, 0); free(bervalues); } else { free(uwsgi_attr); } } free(attr); } if (!found) { uwsgi_log("no uWSGI LDAP entry found\n"); exit(1); } free(ber); free(results); ldap_unbind_ext_s(ldp, NULL, NULL); }
static ldaphost* ldaphost_new(const char *url) { ldaphost *p; int ret; p = OPENSSL_malloc(sizeof(ldaphost)); if (p == NULL) return(NULL); memset(p, 0, sizeof(ldaphost)); p->url = OPENSSL_malloc(strlen(url) + 1); if (p->url == NULL) goto error; strcpy(p->url, url); /*ldap://hostport/dn[?attrs[?scope[?filter[?exts]]]] */ ret = ldap_is_ldap_url(url); if (ret < 0) { X509byLDAPerr(X509byLDAP_F_LDAPHOST_NEW, X509byLDAP_R_NOT_LDAP_URL); goto error; } ret = ldap_url_parse(p->url, &p->ldapurl); if (ret != 0) { X509byLDAPerr(X509byLDAP_F_LDAPHOST_NEW, X509byLDAP_R_INVALID_URL); openssl_add_ldap_error(ret); goto error; } #ifdef TRACE_BY_LDAP fprintf(stderr, "TRACE_BY_LDAP ldaphost_new: ldap_url_desc2str=%s\n", ldap_url_desc2str(p->ldapurl)); fprintf(stderr, "TRACE_BY_LDAP ldaphost_new: ldapurl->%s://%s:%d\n", p->ldapurl->lud_scheme, p->ldapurl->lud_host, p->ldapurl->lud_port); #endif /* open ldap connection */ #ifdef HAVE_LDAP_INITIALIZE ret = ldap_initialize(&p->ld, p->url); if (ret != LDAP_SUCCESS) { X509byLDAPerr(X509byLDAP_F_LDAPHOST_NEW, X509byLDAP_R_INITIALIZATION_ERROR); openssl_add_ldap_error(ret); goto error; } #ifdef TRACE_BY_LDAP fprintf(stderr, "TRACE_BY_LDAP ldaphost_new: ldap_initialize(..., url=%s)\n", p->url); #endif #else /*ndef HAVE_LDAP_INITIALIZE*/ p->ld = ldap_init(p->ldapurl->lud_host, p->ldapurl->lud_port); if(p->ld == NULL) { X509byLDAPerr(X509byLDAP_F_LDAPHOST_NEW, X509byLDAP_R_INITIALIZATION_ERROR); goto error; } #endif /*ndef HAVE_LDAP_INITIALIZE*/ { int version = -1; ret = ldap_get_option(p->ld, LDAP_OPT_PROTOCOL_VERSION, &version); if (ret != LDAP_OPT_SUCCESS) { X509byLDAPerr(X509byLDAP_F_LDAPHOST_NEW, X509byLDAP_R_UNABLE_TO_GET_PROTOCOL_VERSION ); goto error; } #ifdef TRACE_BY_LDAP fprintf(stderr, "TRACE_BY_LDAP ldaphost_new: using ldap v%d protocol\n", version); #endif } return(p); error: ldaphost_free(p); return(NULL); }