/* * RADIUS client * Copyright (c) 2002-2015, Jouni Malinen * * This software may be distributed under the terms of the BSD license. * See README for more details. */ #include "includes.h" #include #include "common.h" #include "radius.h" #include "radius_client.h" #include "eloop.h" /* Defaults for RADIUS retransmit values (exponential backoff) */ /** * RADIUS_CLIENT_FIRST_WAIT - RADIUS client timeout for first retry in seconds */ #define RADIUS_CLIENT_FIRST_WAIT 3 /** * RADIUS_CLIENT_MAX_WAIT - RADIUS client maximum retry timeout in seconds */ #define RADIUS_CLIENT_MAX_WAIT 120 /** * RADIUS_CLIENT_MAX_FAILOVER - RADIUS client maximum retries * * Maximum number of server failovers before the entry is removed from * retransmit list. */ #define RADIUS_CLIENT_MAX_FAILOVER 3 /** * RADIUS_CLIENT_MAX_ENTRIES - RADIUS client maximum pending messages * * Maximum number of entries in retransmit list (oldest entries will be * removed, if this limit is exceeded). */ #define RADIUS_CLIENT_MAX_ENTRIES 30 /** * RADIUS_CLIENT_NUM_FAILOVER - RADIUS client failover point * * The number of failed retry attempts after which the RADIUS server will be * changed (if one of more backup servers are configured). */ #define RADIUS_CLIENT_NUM_FAILOVER 4 /** * struct radius_rx_handler - RADIUS client RX handler * * This data structure is used internally inside the RADIUS client module to * store registered RX handlers. These handlers are registered by calls to * radius_client_register() and unregistered when the RADIUS client is * deinitialized with a call to radius_client_deinit(). */ struct radius_rx_handler { /** * handler - Received RADIUS message handler */ RadiusRxResult (*handler)(struct radius_msg *msg, struct radius_msg *req, const u8 *shared_secret, size_t shared_secret_len, void *data); /** * data - Context data for the handler */ void *data; }; /** * struct radius_msg_list - RADIUS client message retransmit list * * This data structure is used internally inside the RADIUS client module to * store pending RADIUS requests that may still need to be retransmitted. */ struct radius_msg_list { /** * addr - STA/client address * * This is used to find RADIUS messages for the same STA. */ u8 addr[ETH_ALEN]; /** * msg - RADIUS message */ struct radius_msg *msg; /** * msg_type - Message type */ RadiusType msg_type; /** * first_try - Time of the first transmission attempt */ os_time_t first_try; /** * next_try - Time for the next transmission attempt */ os_time_t next_try; /** * attempts - Number of transmission attempts for one server */ int attempts; /** * accu_attempts - Number of accumulated attempts */ int accu_attempts; /** * next_wait - Next retransmission wait time in seconds */ int next_wait; /** * last_attempt - Time of the last transmission attempt */ struct os_reltime last_attempt; /** * shared_secret - Shared secret with the target RADIUS server */ const u8 *shared_secret; /** * shared_secret_len - shared_secret length in octets */ size_t shared_secret_len; /* TODO: server config with failover to backup server(s) */ /** * next - Next message in the list */ struct radius_msg_list *next; }; /** * struct radius_client_data - Internal RADIUS client data * * This data structure is used internally inside the RADIUS client module. * External users allocate this by calling radius_client_init() and free it by * calling radius_client_deinit(). The pointer to this opaque data is used in * calls to other functions as an identifier for the RADIUS client instance. */ struct radius_client_data { /** * ctx - Context pointer for hostapd_logger() callbacks */ void *ctx; /** * conf - RADIUS client configuration (list of RADIUS servers to use) */ struct hostapd_radius_servers *conf; /** * auth_serv_sock - IPv4 socket for RADIUS authentication messages */ int auth_serv_sock; /** * acct_serv_sock - IPv4 socket for RADIUS accounting messages */ int acct_serv_sock; /** * auth_serv_sock6 - IPv6 socket for RADIUS authentication messages */ int auth_serv_sock6; /** * acct_serv_sock6 - IPv6 socket for RADIUS accounting messages */ int acct_serv_sock6; /** * auth_sock - Currently used socket for RADIUS authentication server */ int auth_sock; /** * acct_sock - Currently used socket for RADIUS accounting server */ int acct_sock; /** * auth_handlers - Authentication message handlers */ struct radius_rx_handler *auth_handlers; /** * num_auth_handlers - Number of handlers in auth_handlers */ size_t num_auth_handlers; /** * acct_handlers - Accounting message handlers */ struct radius_rx_handler *acct_handlers; /** * num_acct_handlers - Number of handlers in acct_handlers */ size_t num_acct_handlers; /** * msgs - Pending outgoing RADIUS messages */ struct radius_msg_list *msgs; /** * num_msgs - Number of pending messages in the msgs list */ size_t num_msgs; /** * next_radius_identifier - Next RADIUS message identifier to use */ u8 next_radius_identifier; /** * interim_error_cb - Interim accounting error callback */ void (*interim_error_cb)(const u8 *addr, void *ctx); /** * interim_error_cb_ctx - interim_error_cb() context data */ void *interim_error_cb_ctx; }; static int radius_change_server(struct radius_client_data *radius, struct hostapd_radius_server *nserv, struct hostapd_radius_server *oserv, int sock, int sock6, int auth); static int radius_client_init_acct(struct radius_client_data *radius); static int radius_client_init_auth(struct radius_client_data *radius); static void radius_client_auth_failover(struct radius_client_data *radius); static void radius_client_acct_failover(struct radius_client_data *radius); static void radius_client_msg_free(struct radius_msg_list *req) { radius_msg_free(req->msg); os_free(req); } /** * radius_client_register - Register a RADIUS client RX handler * @radius: RADIUS client context from radius_client_init() * @msg_type: RADIUS client type (RADIUS_AUTH or RADIUS_ACCT) * @handler: Handler for received RADIUS messages * @data: Context pointer for handler callbacks * Returns: 0 on success, -1 on failure * * This function is used to register a handler for processing received RADIUS * authentication and accounting messages. The handler() callback function will * be called whenever a RADIUS message is received from the active server. * * There can be multiple registered RADIUS message handlers. The handlers will * be called in order until one of them indicates that it has processed or * queued the message. */ int radius_client_register(struct radius_client_data *radius, RadiusType msg_type, RadiusRxResult (*handler)(struct radius_msg *msg, struct radius_msg *req, const u8 *shared_secret, size_t shared_secret_len, void *data), void *data) { struct radius_rx_handler **handlers, *newh; size_t *num; if (msg_type == RADIUS_ACCT) { handlers = &radius->acct_handlers; num = &radius->num_acct_handlers; } else { handlers = &radius->auth_handlers; num = &radius->num_auth_handlers; } newh = os_realloc_array(*handlers, *num + 1, sizeof(struct radius_rx_handler)); if (newh == NULL) return -1; newh[*num].handler = handler; newh[*num].data = data; (*num)++; *handlers = newh; return 0; } /** * radius_client_set_interim_erro_cb - Register an interim acct error callback * @radius: RADIUS client context from radius_client_init() * @addr: Station address from the failed message * @cb: Handler for interim accounting errors * @ctx: Context pointer for handler callbacks * * This function is used to register a handler for processing failed * transmission attempts of interim accounting update messages. */ void radius_client_set_interim_error_cb(struct radius_client_data *radius, void (*cb)(const u8 *addr, void *ctx), void *ctx) { radius->interim_error_cb = cb; radius->interim_error_cb_ctx = ctx; } /* * Returns >0 if message queue was flushed (i.e., the message that triggered * the error is not available anymore) */ static int radius_client_handle_send_error(struct radius_client_data *radius, int s, RadiusType msg_type) { #ifndef CONFIG_NATIVE_WINDOWS int _errno = errno; wpa_printf(MSG_INFO, "send[RADIUS,s=%d]: %s", s, strerror(errno)); if (_errno == ENOTCONN || _errno == EDESTADDRREQ || _errno == EINVAL || _errno == EBADF || _errno == ENETUNREACH || _errno == EACCES) { hostapd_logger(radius->ctx, NULL, HOSTAPD_MODULE_RADIUS, HOSTAPD_LEVEL_INFO, "Send failed - maybe interface status changed -" " try to connect again"); if (msg_type == RADIUS_ACCT || msg_type == RADIUS_ACCT_INTERIM) { radius_client_init_acct(radius); return 0; } else { radius_client_init_auth(radius); return 1; } } #endif /* CONFIG_NATIVE_WINDOWS */ return 0; } static int radius_client_retransmit(struct radius_client_data *radius, struct radius_msg_list *entry, os_time_t now) { struct hostapd_radius_servers *conf = radius->conf; int s; struct wpabuf *buf; size_t prev_num_msgs; u8 *acct_delay_time; size_t acct_delay_time_len; int num_servers; if (entry->msg_type == RADIUS_ACCT || entry->msg_type == RADIUS_ACCT_INTERIM) { num_servers = conf->num_acct_servers; if (radius->acct_sock < 0) radius_client_init_acct(radius); if (radius->acct_sock < 0 && conf->num_acct_servers > 1) { prev_num_msgs = radius->num_msgs; radius_client_acct_failover(radius); if (prev_num_msgs != radius->num_msgs) return 0; } s = radius->acct_sock; if (entry->attempts == 0) conf->acct_server->requests++; else { conf->acct_server->timeouts++; conf->acct_server->retransmissions++; } } else { num_servers = conf->num_auth_servers; if (radius->auth_sock < 0) radius_client_init_auth(radius); if (radius->auth_sock < 0 && conf->num_auth_servers > 1) { prev_num_msgs = radius->num_msgs; radius_client_auth_failover(radius); if (prev_num_msgs != radius->num_msgs) return 0; } s = radius->auth_sock; if (entry->attempts == 0) conf->auth_server->requests++; else { conf->auth_server->timeouts++; conf->auth_server->retransmissions++; } } if (entry->msg_type == RADIUS_ACCT_INTERIM) { wpa_printf(MSG_DEBUG, "RADIUS: Failed to transmit interim accounting update to " MACSTR " - drop message and request a new update", MAC2STR(entry->addr)); if (radius->interim_error_cb) radius->interim_error_cb(entry->addr, radius->interim_error_cb_ctx); return 1; } if (s < 0) { wpa_printf(MSG_INFO, "RADIUS: No valid socket for retransmission"); return 1; } if (entry->msg_type == RADIUS_ACCT && radius_msg_get_attr_ptr(entry->msg, RADIUS_ATTR_ACCT_DELAY_TIME, &acct_delay_time, &acct_delay_time_len, NULL) == 0 && acct_delay_time_len == 4) { struct radius_hdr *hdr; u32 delay_time; /* * Need to assign a new identifier since attribute contents * changes. */ hdr = radius_msg_get_hdr(entry->msg); hdr->identifier = radius_client_get_id(radius); /* Update Acct-Delay-Time to show wait time in queue */ delay_time = now - entry->first_try; WPA_PUT_BE32(acct_delay_time, delay_time); wpa_printf(MSG_DEBUG, "RADIUS: Updated Acct-Delay-Time to %u for retransmission", delay_time); radius_msg_finish_acct(entry->msg, entry->shared_secret, entry->shared_secret_len); if (radius->conf->msg_dumps) radius_msg_dump(entry->msg); } /* retransmit; remove entry if too many attempts */ if (entry->accu_attempts >= RADIUS_CLIENT_MAX_FAILOVER * RADIUS_CLIENT_NUM_FAILOVER * num_servers) { wpa_printf(MSG_INFO, "RADIUS: Removing un-ACKed message due to too many failed retransmit attempts"); return 1; } entry->attempts++; entry->accu_attempts++; hostapd_logger(radius->ctx, entry->addr, HOSTAPD_MODULE_RADIUS, HOSTAPD_LEVEL_DEBUG, "Resending RADIUS message (id=%d)", radius_msg_get_hdr(entry->msg)->identifier); os_get_reltime(&entry->last_attempt); buf = radius_msg_get_buf(entry->msg); if (send(s, wpabuf_head(buf), wpabuf_len(buf), 0) < 0) { if (radius_client_handle_send_error(radius, s, entry->msg_type) > 0) return 0; } entry->next_try = now + entry->next_wait; entry->next_wait *= 2; if (entry->next_wait > RADIUS_CLIENT_MAX_WAIT) entry->next_wait = RADIUS_CLIENT_MAX_WAIT; return 0; } static void radius_client_timer(void *eloop_ctx, void *timeout_ctx) { struct radius_client_data *radius = eloop_ctx; struct os_reltime now; os_time_t first; struct radius_msg_list *entry, *prev, *tmp; int auth_failover = 0, acct_failover = 0; size_t prev_num_msgs; int s; entry = radius->msgs; if (!entry) return; os_get_reltime(&now); while (entry) { if (now.sec >= entry->next_try) { s = entry->msg_type == RADIUS_AUTH ? radius->auth_sock : radius->acct_sock; if (entry->attempts >= RADIUS_CLIENT_NUM_FAILOVER || (s < 0 && entry->attempts > 0)) { if (entry->msg_type == RADIUS_ACCT || entry->msg_type == RADIUS_ACCT_INTERIM) acct_failover++; else auth_failover++; } } entry = entry->next; } if (auth_failover) radius_client_auth_failover(radius); if (acct_failover) radius_client_acct_failover(radius); entry = radius->msgs; first = 0; prev = NULL; while (entry) { prev_num_msgs = radius->num_msgs; if (now.sec >= entry->next_try && radius_client_retransmit(radius, entry, now.sec)) { if (prev) prev->next = entry->next; else radius->msgs = entry->next; tmp = entry; entry = entry->next; radius_client_msg_free(tmp); radius->num_msgs--; continue; } if (prev_num_msgs != radius->num_msgs) { wpa_printf(MSG_DEBUG, "RADIUS: Message removed from queue - restart from beginning"); entry = radius->msgs; prev = NULL; continue; } if (first == 0 || entry->next_try < first) first = entry->next_try; prev = entry; entry = entry->next; } if (radius->msgs) { if (first < now.sec) first = now.sec; eloop_cancel_timeout(radius_client_timer, radius, NULL); eloop_register_timeout(first - now.sec, 0, radius_client_timer, radius, NULL); hostapd_logger(radius->ctx, NULL, HOSTAPD_MODULE_RADIUS, HOSTAPD_LEVEL_DEBUG, "Next RADIUS client " "retransmit in %ld seconds", (long int) (first - now.sec)); } } static void radius_client_auth_failover(struct radius_client_data *radius) { struct hostapd_radius_servers *conf = radius->conf; struct hostapd_radius_server *next, *old; struct radius_msg_list *entry; char abuf[50]; old = conf->auth_server; hostapd_logger(radius->ctx, NULL, HOSTAPD_MODULE_RADIUS, HOSTAPD_LEVEL_NOTICE, "No response from Authentication server %s:%d - failover", hostapd_ip_txt(&old->addr, abuf, sizeof(abuf)), old->port); for (entry = radius->msgs; entry; entry = entry->next) { if (entry->msg_type == RADIUS_AUTH) old->timeouts++; } next = old + 1; if (next > &(conf->auth_servers[conf->num_auth_servers - 1])) next = conf->auth_servers; conf->auth_server = next; radius_change_server(radius, next, old, radius->auth_serv_sock, radius->auth_serv_sock6, 1); } static void radius_client_acct_failover(struct radius_client_data *radius) { struct hostapd_radius_servers *conf = radius->conf; struct hostapd_radius_server *next, *old; struct radius_msg_list *entry; char abuf[50]; old = conf->acct_server; hostapd_logger(radius->ctx, NULL, HOSTAPD_MODULE_RADIUS, HOSTAPD_LEVEL_NOTICE, "No response from Accounting server %s:%d - failover", hostapd_ip_txt(&old->addr, abuf, sizeof(abuf)), old->port); for (entry = radius->msgs; entry; entry = entry->next) { if (entry->msg_type == RADIUS_ACCT || entry->msg_type == RADIUS_ACCT_INTERIM) old->timeouts++; } next = old + 1; if (next > &conf->acct_servers[conf->num_acct_servers - 1]) next = conf->acct_servers; conf->acct_server = next; radius_change_server(radius, next, old, radius->acct_serv_sock, radius->acct_serv_sock6, 0); } static void radius_client_update_timeout(struct radius_client_data *radius) { struct os_reltime now; os_time_t first; struct radius_msg_list *entry; eloop_cancel_timeout(radius_client_timer, radius, NULL); if (radius->msgs == NULL) { return; } first = 0; for (entry = radius->msgs; entry; entry = entry->next) { if (first == 0 || entry->next_try < first) first = entry->next_try; } os_get_reltime(&now); if (first < now.sec) first = now.sec; eloop_register_timeout(first - now.sec, 0, radius_client_timer, radius, NULL); hostapd_logger(radius->ctx, NULL, HOSTAPD_MODULE_RADIUS, HOSTAPD_LEVEL_DEBUG, "Next RADIUS client retransmit in" " %ld seconds", (long int) (first - now.sec)); } static void radius_client_list_add(struct radius_client_data *radius, struct radius_msg *msg, RadiusType msg_type, const u8 *shared_secret, size_t shared_secret_len, const u8 *addr) { struct radius_msg_list *entry, *prev; if (eloop_terminated()) { /* No point in adding entries to retransmit queue since event * loop has already been terminated. */ radius_msg_free(msg); return; } entry = os_zalloc(sizeof(*entry)); if (entry == NULL) { wpa_printf(MSG_INFO, "RADIUS: Failed to add packet into retransmit list"); radius_msg_free(msg); return; } if (addr) os_memcpy(entry->addr, addr, ETH_ALEN); entry->msg = msg; entry->msg_type = msg_type; entry->shared_secret = shared_secret; entry->shared_secret_len = shared_secret_len; os_get_reltime(&entry->last_attempt); entry->first_try = entry->last_attempt.sec; entry->next_try = entry->first_try + RADIUS_CLIENT_FIRST_WAIT; entry->attempts = 1; entry->accu_attempts = 1; entry->next_wait = RADIUS_CLIENT_FIRST_WAIT * 2; if (entry->next_wait > RADIUS_CLIENT_MAX_WAIT) entry->next_wait = RADIUS_CLIENT_MAX_WAIT; entry->next = radius->msgs; radius->msgs = entry; radius_client_update_timeout(radius); if (radius->num_msgs >= RADIUS_CLIENT_MAX_ENTRIES) { wpa_printf(MSG_INFO, "RADIUS: Removing the oldest un-ACKed packet due to retransmit list limits"); prev = NULL; while (entry->next) { prev = entry; entry = entry->next; } if (prev) { prev->next = NULL; radius_client_msg_free(entry); } } else radius->num_msgs++; } /** * radius_client_send - Send a RADIUS request * @radius: RADIUS client context from radius_client_init() * @msg: RADIUS message to be sent * @msg_type: Message type (RADIUS_AUTH, RADIUS_ACCT, RADIUS_ACCT_INTERIM) * @addr: MAC address of the device related to this message or %NULL * Returns: 0 on success, -1 on failure * * This function is used to transmit a RADIUS authentication (RADIUS_AUTH) or * accounting request (RADIUS_ACCT or RADIUS_ACCT_INTERIM). The only difference * between accounting and interim accounting messages is that the interim * message will not be retransmitted. Instead, a callback is used to indicate * that the transmission failed for the specific station @addr so that a new * interim accounting update message can be generated with up-to-date session * data instead of trying to resend old information. * * The message is added on the retransmission queue and will be retransmitted * automatically until a response is received or maximum number of retries * (RADIUS_CLIENT_MAX_FAILOVER * RADIUS_CLIENT_NUM_FAILOVER) is reached. No * such retries are used with RADIUS_ACCT_INTERIM, i.e., such a pending message * is removed from the queue automatically on transmission failure. * * The related device MAC address can be used to identify pending messages that * can be removed with radius_client_flush_auth(). */ int radius_client_send(struct radius_client_data *radius, struct radius_msg *msg, RadiusType msg_type, const u8 *addr) { struct hostapd_radius_servers *conf = radius->conf; const u8 *shared_secret; size_t shared_secret_len; char *name; int s, res; struct wpabuf *buf; if (msg_type == RADIUS_ACCT || msg_type == RADIUS_ACCT_INTERIM) { if (conf->acct_server && radius->acct_sock < 0) radius_client_init_acct(radius); if (conf->acct_server == NULL || radius->acct_sock < 0 || conf->acct_server->shared_secret == NULL) { hostapd_logger(radius->ctx, NULL, HOSTAPD_MODULE_RADIUS, HOSTAPD_LEVEL_INFO, "No accounting server configured"); return -1; } shared_secret = conf->acct_server->shared_secret; shared_secret_len = conf->acct_server->shared_secret_len; radius_msg_finish_acct(msg, shared_secret, shared_secret_len); name = "accounting"; s = radius->acct_sock; conf->acct_server->requests++; } else { if (conf->auth_server && radius->auth_sock < 0) radius_client_init_auth(radius); if (conf->auth_server == NULL || radius->auth_sock < 0 || conf->auth_server->shared_secret == NULL) { hostapd_logger(radius->ctx, NULL, HOSTAPD_MODULE_RADIUS, HOSTAPD_LEVEL_INFO, "No authentication server configured"); return -1; } shared_secret = conf->auth_server->shared_secret; shared_secret_len = conf->auth_server->shared_secret_len; radius_msg_finish(msg, shared_secret, shared_secret_len); name = "authentication"; s = radius->auth_sock; conf->auth_server->requests++; } hostapd_logger(radius->ctx, NULL, HOSTAPD_MODULE_RADIUS, HOSTAPD_LEVEL_DEBUG, "Sending RADIUS message to %s " "server", name); if (conf->msg_dumps) radius_msg_dump(msg); buf = radius_msg_get_buf(msg); res = send(s, wpabuf_head(buf), wpabuf_len(buf), 0); if (res < 0) radius_client_handle_send_error(radius, s, msg_type); radius_client_list_add(radius, msg, msg_type, shared_secret, shared_secret_len, addr); return 0; } static void radius_client_receive(int sock, void *eloop_ctx, void *sock_ctx) { struct radius_client_data *radius = eloop_ctx; struct hostapd_radius_servers *conf = radius->conf; RadiusType msg_type = (uintptr_t) sock_ctx; int len, roundtrip; unsigned char buf[RADIUS_MAX_MSG_LEN]; struct msghdr msghdr = {0}; struct iovec iov; struct radius_msg *msg; struct radius_hdr *hdr; struct radius_rx_handler *handlers; size_t num_handlers, i; struct radius_msg_list *req, *prev_req; struct os_reltime now; struct hostapd_radius_server *rconf; int invalid_authenticator = 0; if (msg_type == RADIUS_ACCT) { handlers = radius->acct_handlers; num_handlers = radius->num_acct_handlers; rconf = conf->acct_server; } else { handlers = radius->auth_handlers; num_handlers = radius->num_auth_handlers; rconf = conf->auth_server; } iov.iov_base = buf; iov.iov_len = RADIUS_MAX_MSG_LEN; msghdr.msg_iov = &iov; msghdr.msg_iovlen = 1; msghdr.msg_flags = 0; len = recvmsg(sock, &msghdr, MSG_DONTWAIT); if (len < 0) { wpa_printf(MSG_INFO, "recvmsg[RADIUS]: %s", strerror(errno)); return; } hostapd_logger(radius->ctx, NULL, HOSTAPD_MODULE_RADIUS, HOSTAPD_LEVEL_DEBUG, "Received %d bytes from RADIUS " "server", len); if (msghdr.msg_flags & MSG_TRUNC) { wpa_printf(MSG_INFO, "RADIUS: Possibly too long UDP frame for our buffer - dropping it"); return; } msg = radius_msg_parse(buf, len); if (msg == NULL) { wpa_printf(MSG_INFO, "RADIUS: Parsing incoming frame failed"); rconf->malformed_responses++; return; } hdr = radius_msg_get_hdr(msg); hostapd_logger(radius->ctx, NULL, HOSTAPD_MODULE_RADIUS, HOSTAPD_LEVEL_DEBUG, "Received RADIUS message"); if (conf->msg_dumps) radius_msg_dump(msg); switch (hdr->code) { case RADIUS_CODE_ACCESS_ACCEPT: rconf->access_accepts++; break; case RADIUS_CODE_ACCESS_REJECT: rconf->access_rejects++; break; case RADIUS_CODE_ACCESS_CHALLENGE: rconf->access_challenges++; break; case RADIUS_CODE_ACCOUNTING_RESPONSE: rconf->responses++; break; } prev_req = NULL; req = radius->msgs; while (req) { /* TODO: also match by src addr:port of the packet when using * alternative RADIUS servers (?) */ if ((req->msg_type == msg_type || (req->msg_type == RADIUS_ACCT_INTERIM && msg_type == RADIUS_ACCT)) && radius_msg_get_hdr(req->msg)->identifier == hdr->identifier) break; prev_req = req; req = req->next; } if (req == NULL) { hostapd_logger(radius->ctx, NULL, HOSTAPD_MODULE_RADIUS, HOSTAPD_LEVEL_DEBUG, "No matching RADIUS request found (type=%d " "id=%d) - dropping packet", msg_type, hdr->identifier); goto fail; } os_get_reltime(&now); roundtrip = (now.sec - req->last_attempt.sec) * 100 + (now.usec - req->last_attempt.usec) / 10000; hostapd_logger(radius->ctx, req->addr, HOSTAPD_MODULE_RADIUS, HOSTAPD_LEVEL_DEBUG, "Received RADIUS packet matched with a pending " "request, round trip time %d.%02d sec", roundtrip / 100, roundtrip % 100); rconf->round_trip_time = roundtrip; /* Remove ACKed RADIUS packet from retransmit list */ if (prev_req) prev_req->next = req->next; else radius->msgs = req->next; radius->num_msgs--; for (i = 0; i < num_handlers; i++) { RadiusRxResult res; res = handlers[i].handler(msg, req->msg, req->shared_secret, req->shared_secret_len, handlers[i].data); switch (res) { case RADIUS_RX_PROCESSED: radius_msg_free(msg); /* fall through */ case RADIUS_RX_QUEUED: radius_client_msg_free(req); return; case RADIUS_RX_INVALID_AUTHENTICATOR: invalid_authenticator++; /* fall through */ case RADIUS_RX_UNKNOWN: /* continue with next handler */ break; } } if (invalid_authenticator) rconf->bad_authenticators++; else rconf->unknown_types++; hostapd_logger(radius->ctx, req->addr, HOSTAPD_MODULE_RADIUS, HOSTAPD_LEVEL_DEBUG, "No RADIUS RX handler found " "(type=%d code=%d id=%d)%s - dropping packet", msg_type, hdr->code, hdr->identifier, invalid_authenticator ? " [INVALID AUTHENTICATOR]" : ""); radius_client_msg_free(req); fail: radius_msg_free(msg); } /** * radius_client_get_id - Get an identifier for a new RADIUS message * @radius: RADIUS client context from radius_client_init() * Returns: Allocated identifier * * This function is used to fetch a unique (among pending requests) identifier * for a new RADIUS message. */ u8 radius_client_get_id(struct radius_client_data *radius) { struct radius_msg_list *entry, *prev, *_remove; u8 id = radius->next_radius_identifier++; /* remove entries with matching id from retransmit list to avoid * using new reply from the RADIUS server with an old request */ entry = radius->msgs; prev = NULL; while (entry) { if (radius_msg_get_hdr(entry->msg)->identifier == id) { hostapd_logger(radius->ctx, entry->addr, HOSTAPD_MODULE_RADIUS, HOSTAPD_LEVEL_DEBUG, "Removing pending RADIUS message, " "since its id (%d) is reused", id); if (prev) prev->next = entry->next; else radius->msgs = entry->next; _remove = entry; } else { _remove = NULL; prev = entry; } entry = entry->next; if (_remove) radius_client_msg_free(_remove); } return id; } /** * radius_client_flush - Flush all pending RADIUS client messages * @radius: RADIUS client context from radius_client_init() * @only_auth: Whether only authentication messages are removed */ void radius_client_flush(struct radius_client_data *radius, int only_auth) { struct radius_msg_list *entry, *prev, *tmp; if (!radius) return; prev = NULL; entry = radius->msgs; while (entry) { if (!only_auth || entry->msg_type == RADIUS_AUTH) { if (prev) prev->next = entry->next; else radius->msgs = entry->next; tmp = entry; entry = entry->next; radius_client_msg_free(tmp); radius->num_msgs--; } else { prev = entry; entry = entry->next; } } if (radius->msgs == NULL) eloop_cancel_timeout(radius_client_timer, radius, NULL); } static void radius_client_update_acct_msgs(struct radius_client_data *radius, const u8 *shared_secret, size_t shared_secret_len) { struct radius_msg_list *entry; if (!radius) return; for (entry = radius->msgs; entry; entry = entry->next) { if (entry->msg_type == RADIUS_ACCT) { entry->shared_secret = shared_secret; entry->shared_secret_len = shared_secret_len; radius_msg_finish_acct(entry->msg, shared_secret, shared_secret_len); } } } static int radius_change_server(struct radius_client_data *radius, struct hostapd_radius_server *nserv, struct hostapd_radius_server *oserv, int sock, int sock6, int auth) { struct sockaddr_in serv, claddr; #ifdef CONFIG_IPV6 struct sockaddr_in6 serv6, claddr6; #endif /* CONFIG_IPV6 */ struct sockaddr *addr, *cl_addr; socklen_t addrlen, claddrlen; char abuf[50]; int sel_sock; struct radius_msg_list *entry; struct hostapd_radius_servers *conf = radius->conf; struct sockaddr_in disconnect_addr = { .sin_family = AF_UNSPEC, }; hostapd_logger(radius->ctx, NULL, HOSTAPD_MODULE_RADIUS, HOSTAPD_LEVEL_INFO, "%s server %s:%d", auth ? "Authentication" : "Accounting", hostapd_ip_txt(&nserv->addr, abuf, sizeof(abuf)), nserv->port); if (oserv && oserv == nserv) { /* Reconnect to same server, flush */ if (auth) radius_client_flush(radius, 1); } if (oserv && oserv != nserv && (nserv->shared_secret_len != oserv->shared_secret_len || os_memcmp(nserv->shared_secret, oserv->shared_secret, nserv->shared_secret_len) != 0)) { /* Pending RADIUS packets used different shared secret, so * they need to be modified. Update accounting message * authenticators here. Authentication messages are removed * since they would require more changes and the new RADIUS * server may not be prepared to receive them anyway due to * missing state information. Client will likely retry * authentication, so this should not be an issue. */ if (auth) radius_client_flush(radius, 1); else { radius_client_update_acct_msgs( radius, nserv->shared_secret, nserv->shared_secret_len); } } /* Reset retry counters */ for (entry = radius->msgs; oserv && entry; entry = entry->next) { if ((auth && entry->msg_type != RADIUS_AUTH) || (!auth && entry->msg_type != RADIUS_ACCT)) continue; entry->next_try = entry->first_try + RADIUS_CLIENT_FIRST_WAIT; entry->attempts = 0; entry->next_wait = RADIUS_CLIENT_FIRST_WAIT * 2; } if (radius->msgs) { eloop_cancel_timeout(radius_client_timer, radius, NULL); eloop_register_timeout(RADIUS_CLIENT_FIRST_WAIT, 0, radius_client_timer, radius, NULL); } switch (nserv->addr.af) { case AF_INET: os_memset(&serv, 0, sizeof(serv)); serv.sin_family = AF_INET; serv.sin_addr.s_addr = nserv->addr.u.v4.s_addr; serv.sin_port = htons(nserv->port); addr = (struct sockaddr *) &serv; addrlen = sizeof(serv); sel_sock = sock; break; #ifdef CONFIG_IPV6 case AF_INET6: os_memset(&serv6, 0, sizeof(serv6)); serv6.sin6_family = AF_INET6; os_memcpy(&serv6.sin6_addr, &nserv->addr.u.v6, sizeof(struct in6_addr)); serv6.sin6_port = htons(nserv->port); addr = (struct sockaddr *) &serv6; addrlen = sizeof(serv6); sel_sock = sock6; break; #endif /* CONFIG_IPV6 */ default: return -1; } if (sel_sock < 0) { wpa_printf(MSG_INFO, "RADIUS: No server socket available (af=%d sock=%d sock6=%d auth=%d", nserv->addr.af, sock, sock6, auth); return -1; } /* Force a reconnect by disconnecting the socket first */ if (connect(sel_sock, (struct sockaddr *) &disconnect_addr, sizeof(disconnect_addr)) < 0) wpa_printf(MSG_INFO, "disconnect[radius]: %s", strerror(errno)); #ifdef __linux__ if (conf->force_client_dev && conf->force_client_dev[0]) { if (setsockopt(sel_sock, SOL_SOCKET, SO_BINDTODEVICE, conf->force_client_dev, os_strlen(conf->force_client_dev)) < 0) { wpa_printf(MSG_ERROR, "RADIUS: setsockopt[SO_BINDTODEVICE]: %s", strerror(errno)); /* Probably not a critical error; continue on and hope * for the best. */ } else { wpa_printf(MSG_DEBUG, "RADIUS: Bound client socket to device: %s", conf->force_client_dev); } } #endif /* __linux__ */ if (conf->force_client_addr) { switch (conf->client_addr.af) { case AF_INET: os_memset(&claddr, 0, sizeof(claddr)); claddr.sin_family = AF_INET; claddr.sin_addr.s_addr = conf->client_addr.u.v4.s_addr; claddr.sin_port = htons(0); cl_addr = (struct sockaddr *) &claddr; claddrlen = sizeof(claddr); break; #ifdef CONFIG_IPV6 case AF_INET6: os_memset(&claddr6, 0, sizeof(claddr6)); claddr6.sin6_family = AF_INET6; os_memcpy(&claddr6.sin6_addr, &conf->client_addr.u.v6, sizeof(struct in6_addr)); claddr6.sin6_port = htons(0); cl_addr = (struct sockaddr *) &claddr6; claddrlen = sizeof(claddr6); break; #endif /* CONFIG_IPV6 */ default: return -1; } if (bind(sel_sock, cl_addr, claddrlen) < 0) { wpa_printf(MSG_INFO, "bind[radius]: %s", strerror(errno)); return -1; } } if (connect(sel_sock, addr, addrlen) < 0) { wpa_printf(MSG_INFO, "connect[radius]: %s", strerror(errno)); return -1; } #ifndef CONFIG_NATIVE_WINDOWS switch (nserv->addr.af) { case AF_INET: claddrlen = sizeof(claddr); if (getsockname(sel_sock, (struct sockaddr *) &claddr, &claddrlen) == 0) { wpa_printf(MSG_DEBUG, "RADIUS local address: %s:%u", inet_ntoa(claddr.sin_addr), ntohs(claddr.sin_port)); } break; #ifdef CONFIG_IPV6 case AF_INET6: { claddrlen = sizeof(claddr6); if (getsockname(sel_sock, (struct sockaddr *) &claddr6, &claddrlen) == 0) { wpa_printf(MSG_DEBUG, "RADIUS local address: %s:%u", inet_ntop(AF_INET6, &claddr6.sin6_addr, abuf, sizeof(abuf)), ntohs(claddr6.sin6_port)); } break; } #endif /* CONFIG_IPV6 */ } #endif /* CONFIG_NATIVE_WINDOWS */ if (auth) radius->auth_sock = sel_sock; else radius->acct_sock = sel_sock; return 0; } static void radius_retry_primary_timer(void *eloop_ctx, void *timeout_ctx) { struct radius_client_data *radius = eloop_ctx; struct hostapd_radius_servers *conf = radius->conf; struct hostapd_radius_server *oserv; if (radius->auth_sock >= 0 && conf->auth_servers && conf->auth_server != conf->auth_servers) { oserv = conf->auth_server; conf->auth_server = conf->auth_servers; if (radius_change_server(radius, conf->auth_server, oserv, radius->auth_serv_sock, radius->auth_serv_sock6, 1) < 0) { conf->auth_server = oserv; radius_change_server(radius, oserv, conf->auth_server, radius->auth_serv_sock, radius->auth_serv_sock6, 1); } } if (radius->acct_sock >= 0 && conf->acct_servers && conf->acct_server != conf->acct_servers) { oserv = conf->acct_server; conf->acct_server = conf->acct_servers; if (radius_change_server(radius, conf->acct_server, oserv, radius->acct_serv_sock, radius->acct_serv_sock6, 0) < 0) { conf->acct_server = oserv; radius_change_server(radius, oserv, conf->acct_server, radius->acct_serv_sock, radius->acct_serv_sock6, 0); } } if (conf->retry_primary_interval) eloop_register_timeout(conf->retry_primary_interval, 0, radius_retry_primary_timer, radius, NULL); } static int radius_client_disable_pmtu_discovery(int s) { int r = -1; #if defined(IP_MTU_DISCOVER) && defined(IP_PMTUDISC_DONT) /* Turn off Path MTU discovery on IPv4/UDP sockets. */ int action = IP_PMTUDISC_DONT; r = setsockopt(s, IPPROTO_IP, IP_MTU_DISCOVER, &action, sizeof(action)); if (r == -1) wpa_printf(MSG_ERROR, "RADIUS: Failed to set IP_MTU_DISCOVER: %s", strerror(errno)); #endif return r; } static void radius_close_auth_sockets(struct radius_client_data *radius) { radius->auth_sock = -1; if (radius->auth_serv_sock >= 0) { eloop_unregister_read_sock(radius->auth_serv_sock); close(radius->auth_serv_sock); radius->auth_serv_sock = -1; } #ifdef CONFIG_IPV6 if (radius->auth_serv_sock6 >= 0) { eloop_unregister_read_sock(radius->auth_serv_sock6); close(radius->auth_serv_sock6); radius->auth_serv_sock6 = -1; } #endif /* CONFIG_IPV6 */ } static void radius_close_acct_sockets(struct radius_client_data *radius) { radius->acct_sock = -1; if (radius->acct_serv_sock >= 0) { eloop_unregister_read_sock(radius->acct_serv_sock); close(radius->acct_serv_sock); radius->acct_serv_sock = -1; } #ifdef CONFIG_IPV6 if (radius->acct_serv_sock6 >= 0) { eloop_unregister_read_sock(radius->acct_serv_sock6); close(radius->acct_serv_sock6); radius->acct_serv_sock6 = -1; } #endif /* CONFIG_IPV6 */ } static int radius_client_init_auth(struct radius_client_data *radius) { struct hostapd_radius_servers *conf = radius->conf; int ok = 0; radius_close_auth_sockets(radius); radius->auth_serv_sock = socket(PF_INET, SOCK_DGRAM, 0); if (radius->auth_serv_sock < 0) wpa_printf(MSG_INFO, "RADIUS: socket[PF_INET,SOCK_DGRAM]: %s", strerror(errno)); else { radius_client_disable_pmtu_discovery(radius->auth_serv_sock); ok++; } #ifdef CONFIG_IPV6 radius->auth_serv_sock6 = socket(PF_INET6, SOCK_DGRAM, 0); if (radius->auth_serv_sock6 < 0) wpa_printf(MSG_INFO, "RADIUS: socket[PF_INET6,SOCK_DGRAM]: %s", strerror(errno)); else ok++; #endif /* CONFIG_IPV6 */ if (ok == 0) return -1; radius_change_server(radius, conf->auth_server, NULL, radius->auth_serv_sock, radius->auth_serv_sock6, 1); if (radius->auth_serv_sock >= 0 && eloop_register_read_sock(radius->auth_serv_sock, radius_client_receive, radius, (void *) RADIUS_AUTH)) { wpa_printf(MSG_INFO, "RADIUS: Could not register read socket for authentication server"); radius_close_auth_sockets(radius); return -1; } #ifdef CONFIG_IPV6 if (radius->auth_serv_sock6 >= 0 && eloop_register_read_sock(radius->auth_serv_sock6, radius_client_receive, radius, (void *) RADIUS_AUTH)) { wpa_printf(MSG_INFO, "RADIUS: Could not register read socket for authentication server"); radius_close_auth_sockets(radius); return -1; } #endif /* CONFIG_IPV6 */ return 0; } static int radius_client_init_acct(struct radius_client_data *radius) { struct hostapd_radius_servers *conf = radius->conf; int ok = 0; radius_close_acct_sockets(radius); radius->acct_serv_sock = socket(PF_INET, SOCK_DGRAM, 0); if (radius->acct_serv_sock < 0) wpa_printf(MSG_INFO, "RADIUS: socket[PF_INET,SOCK_DGRAM]: %s", strerror(errno)); else { radius_client_disable_pmtu_discovery(radius->acct_serv_sock); ok++; } #ifdef CONFIG_IPV6 radius->acct_serv_sock6 = socket(PF_INET6, SOCK_DGRAM, 0); if (radius->acct_serv_sock6 < 0) wpa_printf(MSG_INFO, "RADIUS: socket[PF_INET6,SOCK_DGRAM]: %s", strerror(errno)); else ok++; #endif /* CONFIG_IPV6 */ if (ok == 0) return -1; radius_change_server(radius, conf->acct_server, NULL, radius->acct_serv_sock, radius->acct_serv_sock6, 0); if (radius->acct_serv_sock >= 0 && eloop_register_read_sock(radius->acct_serv_sock, radius_client_receive, radius, (void *) RADIUS_ACCT)) { wpa_printf(MSG_INFO, "RADIUS: Could not register read socket for accounting server"); radius_close_acct_sockets(radius); return -1; } #ifdef CONFIG_IPV6 if (radius->acct_serv_sock6 >= 0 && eloop_register_read_sock(radius->acct_serv_sock6, radius_client_receive, radius, (void *) RADIUS_ACCT)) { wpa_printf(MSG_INFO, "RADIUS: Could not register read socket for accounting server"); radius_close_acct_sockets(radius); return -1; } #endif /* CONFIG_IPV6 */ return 0; } /** * radius_client_init - Initialize RADIUS client * @ctx: Callback context to be used in hostapd_logger() calls * @conf: RADIUS client configuration (RADIUS servers) * Returns: Pointer to private RADIUS client context or %NULL on failure * * The caller is responsible for keeping the configuration data available for * the lifetime of the RADIUS client, i.e., until radius_client_deinit() is * called for the returned context pointer. */ struct radius_client_data * radius_client_init(void *ctx, struct hostapd_radius_servers *conf) { struct radius_client_data *radius; radius = os_zalloc(sizeof(struct radius_client_data)); if (radius == NULL) return NULL; radius->ctx = ctx; radius->conf = conf; radius->auth_serv_sock = radius->acct_serv_sock = radius->auth_serv_sock6 = radius->acct_serv_sock6 = radius->auth_sock = radius->acct_sock = -1; if (conf->auth_server && radius_client_init_auth(radius)) { radius_client_deinit(radius); return NULL; } if (conf->acct_server && radius_client_init_acct(radius)) { radius_client_deinit(radius); return NULL; } if (conf->retry_primary_interval) eloop_register_timeout(conf->retry_primary_interval, 0, radius_retry_primary_timer, radius, NULL); return radius; } /** * radius_client_deinit - Deinitialize RADIUS client * @radius: RADIUS client context from radius_client_init() */ void radius_client_deinit(struct radius_client_data *radius) { if (!radius) return; radius_close_auth_sockets(radius); radius_close_acct_sockets(radius); eloop_cancel_timeout(radius_retry_primary_timer, radius, NULL); radius_client_flush(radius, 0); os_free(radius->auth_handlers); os_free(radius->acct_handlers); os_free(radius); } /** * radius_client_flush_auth - Flush pending RADIUS messages for an address * @radius: RADIUS client context from radius_client_init() * @addr: MAC address of the related device * * This function can be used to remove pending RADIUS authentication messages * that are related to a specific device. The addr parameter is matched with * the one used in radius_client_send() call that was used to transmit the * authentication request. */ void radius_client_flush_auth(struct radius_client_data *radius, const u8 *addr) { struct radius_msg_list *entry, *prev, *tmp; prev = NULL; entry = radius->msgs; while (entry) { if (entry->msg_type == RADIUS_AUTH && os_memcmp(entry->addr, addr, ETH_ALEN) == 0) { hostapd_logger(radius->ctx, addr, HOSTAPD_MODULE_RADIUS, HOSTAPD_LEVEL_DEBUG, "Removing pending RADIUS authentication" " message for removed client"); if (prev) prev->next = entry->next; else radius->msgs = entry->next; tmp = entry; entry = entry->next; radius_client_msg_free(tmp); radius->num_msgs--; continue; } prev = entry; entry = entry->next; } } static int radius_client_dump_auth_server(char *buf, size_t buflen, struct hostapd_radius_server *serv, struct radius_client_data *cli) { int pending = 0; struct radius_msg_list *msg; char abuf[50]; if (cli) { for (msg = cli->msgs; msg; msg = msg->next) { if (msg->msg_type == RADIUS_AUTH) pending++; } } return os_snprintf(buf, buflen, "radiusAuthServerIndex=%d\n" "radiusAuthServerAddress=%s\n" "radiusAuthClientServerPortNumber=%d\n" "radiusAuthClientRoundTripTime=%d\n" "radiusAuthClientAccessRequests=%u\n" "radiusAuthClientAccessRetransmissions=%u\n" "radiusAuthClientAccessAccepts=%u\n" "radiusAuthClientAccessRejects=%u\n" "radiusAuthClientAccessChallenges=%u\n" "radiusAuthClientMalformedAccessResponses=%u\n" "radiusAuthClientBadAuthenticators=%u\n" "radiusAuthClientPendingRequests=%u\n" "radiusAuthClientTimeouts=%u\n" "radiusAuthClientUnknownTypes=%u\n" "radiusAuthClientPacketsDropped=%u\n", serv->index, hostapd_ip_txt(&serv->addr, abuf, sizeof(abuf)), serv->port, serv->round_trip_time, serv->requests, serv->retransmissions, serv->access_accepts, serv->access_rejects, serv->access_challenges, serv->malformed_responses, serv->bad_authenticators, pending, serv->timeouts, serv->unknown_types, serv->packets_dropped); } static int radius_client_dump_acct_server(char *buf, size_t buflen, struct hostapd_radius_server *serv, struct radius_client_data *cli) { int pending = 0; struct radius_msg_list *msg; char abuf[50]; if (cli) { for (msg = cli->msgs; msg; msg = msg->next) { if (msg->msg_type == RADIUS_ACCT || msg->msg_type == RADIUS_ACCT_INTERIM) pending++; } } return os_snprintf(buf, buflen, "radiusAccServerIndex=%d\n" "radiusAccServerAddress=%s\n" "radiusAccClientServerPortNumber=%d\n" "radiusAccClientRoundTripTime=%d\n" "radiusAccClientRequests=%u\n" "radiusAccClientRetransmissions=%u\n" "radiusAccClientResponses=%u\n" "radiusAccClientMalformedResponses=%u\n" "radiusAccClientBadAuthenticators=%u\n" "radiusAccClientPendingRequests=%u\n" "radiusAccClientTimeouts=%u\n" "radiusAccClientUnknownTypes=%u\n" "radiusAccClientPacketsDropped=%u\n", serv->index, hostapd_ip_txt(&serv->addr, abuf, sizeof(abuf)), serv->port, serv->round_trip_time, serv->requests, serv->retransmissions, serv->responses, serv->malformed_responses, serv->bad_authenticators, pending, serv->timeouts, serv->unknown_types, serv->packets_dropped); } /** * radius_client_get_mib - Get RADIUS client MIB information * @radius: RADIUS client context from radius_client_init() * @buf: Buffer for returning MIB data in text format * @buflen: Maximum buf length in octets * Returns: Number of octets written into the buffer */ int radius_client_get_mib(struct radius_client_data *radius, char *buf, size_t buflen) { struct hostapd_radius_servers *conf; int i; struct hostapd_radius_server *serv; int count = 0; if (!radius) return 0; conf = radius->conf; if (conf->auth_servers) { for (i = 0; i < conf->num_auth_servers; i++) { serv = &conf->auth_servers[i]; count += radius_client_dump_auth_server( buf + count, buflen - count, serv, serv == conf->auth_server ? radius : NULL); } } if (conf->acct_servers) { for (i = 0; i < conf->num_acct_servers; i++) { serv = &conf->acct_servers[i]; count += radius_client_dump_acct_server( buf + count, buflen - count, serv, serv == conf->acct_server ? radius : NULL); } } return count; } void radius_client_reconfig(struct radius_client_data *radius, struct hostapd_radius_servers *conf) { if (radius) radius->conf = conf; }