/* * EAPOL supplicant state machines * Copyright (c) 2004-2012, Jouni Malinen <j@w1.fi> * * This software may be distributed under the terms of the BSD license. * See README for more details. */ #include "includes.h" #include "common.h" #include "state_machine.h" #include "wpabuf.h" #include "eloop.h" #include "crypto/crypto.h" #include "crypto/md5.h" #include "common/eapol_common.h" #include "eap_peer/eap.h" #include "eap_peer/eap_proxy.h" #include "eapol_supp_sm.h" #define STATE_MACHINE_DATA struct eapol_sm #define STATE_MACHINE_DEBUG_PREFIX "EAPOL" /* IEEE 802.1X-2004 - Supplicant - EAPOL state machines */ /** * struct eapol_sm - Internal data for EAPOL state machines */ struct eapol_sm { /* Timers */ unsigned int authWhile; unsigned int heldWhile; unsigned int startWhen; unsigned int idleWhile; /* for EAP state machine */ int timer_tick_enabled; /* Global variables */ Boolean eapFail; Boolean eapolEap; Boolean eapSuccess; Boolean initialize; Boolean keyDone; Boolean keyRun; PortControl portControl; Boolean portEnabled; PortStatus suppPortStatus; /* dot1xSuppControlledPortStatus */ Boolean portValid; Boolean suppAbort; Boolean suppFail; Boolean suppStart; Boolean suppSuccess; Boolean suppTimeout; /* Supplicant PAE state machine */ enum { SUPP_PAE_UNKNOWN = 0, SUPP_PAE_DISCONNECTED = 1, SUPP_PAE_LOGOFF = 2, SUPP_PAE_CONNECTING = 3, SUPP_PAE_AUTHENTICATING = 4, SUPP_PAE_AUTHENTICATED = 5, /* unused(6) */ SUPP_PAE_HELD = 7, SUPP_PAE_RESTART = 8, SUPP_PAE_S_FORCE_AUTH = 9, SUPP_PAE_S_FORCE_UNAUTH = 10 } SUPP_PAE_state; /* dot1xSuppPaeState */ /* Variables */ Boolean userLogoff; Boolean logoffSent; unsigned int startCount; Boolean eapRestart; PortControl sPortMode; /* Constants */ unsigned int heldPeriod; /* dot1xSuppHeldPeriod */ unsigned int startPeriod; /* dot1xSuppStartPeriod */ unsigned int maxStart; /* dot1xSuppMaxStart */ /* Key Receive state machine */ enum { KEY_RX_UNKNOWN = 0, KEY_RX_NO_KEY_RECEIVE, KEY_RX_KEY_RECEIVE } KEY_RX_state; /* Variables */ Boolean rxKey; /* Supplicant Backend state machine */ enum { SUPP_BE_UNKNOWN = 0, SUPP_BE_INITIALIZE = 1, SUPP_BE_IDLE = 2, SUPP_BE_REQUEST = 3, SUPP_BE_RECEIVE = 4, SUPP_BE_RESPONSE = 5, SUPP_BE_FAIL = 6, SUPP_BE_TIMEOUT = 7, SUPP_BE_SUCCESS = 8 } SUPP_BE_state; /* dot1xSuppBackendPaeState */ /* Variables */ Boolean eapNoResp; Boolean eapReq; Boolean eapResp; /* Constants */ unsigned int authPeriod; /* dot1xSuppAuthPeriod */ /* Statistics */ unsigned int dot1xSuppEapolFramesRx; unsigned int dot1xSuppEapolFramesTx; unsigned int dot1xSuppEapolStartFramesTx; unsigned int dot1xSuppEapolLogoffFramesTx; unsigned int dot1xSuppEapolRespFramesTx; unsigned int dot1xSuppEapolReqIdFramesRx; unsigned int dot1xSuppEapolReqFramesRx; unsigned int dot1xSuppInvalidEapolFramesRx; unsigned int dot1xSuppEapLengthErrorFramesRx; unsigned int dot1xSuppLastEapolFrameVersion; unsigned char dot1xSuppLastEapolFrameSource[6]; /* Miscellaneous variables (not defined in IEEE 802.1X-2004) */ Boolean changed; struct eap_sm *eap; struct eap_peer_config *config; Boolean initial_req; u8 *last_rx_key; size_t last_rx_key_len; struct wpabuf *eapReqData; /* for EAP */ Boolean altAccept; /* for EAP */ Boolean altReject; /* for EAP */ Boolean replay_counter_valid; u8 last_replay_counter[16]; struct eapol_config conf; struct eapol_ctx *ctx; enum { EAPOL_CB_IN_PROGRESS = 0, EAPOL_CB_SUCCESS, EAPOL_CB_FAILURE } cb_status; Boolean cached_pmk; Boolean unicast_key_received, broadcast_key_received; Boolean force_authorized_update; #ifdef CONFIG_EAP_PROXY Boolean use_eap_proxy; struct eap_proxy_sm *eap_proxy; #endif /* CONFIG_EAP_PROXY */ }; static void eapol_sm_txLogoff(struct eapol_sm *sm); static void eapol_sm_txStart(struct eapol_sm *sm); static void eapol_sm_processKey(struct eapol_sm *sm); static void eapol_sm_getSuppRsp(struct eapol_sm *sm); static void eapol_sm_txSuppRsp(struct eapol_sm *sm); static void eapol_sm_abortSupp(struct eapol_sm *sm); static void eapol_sm_abort_cached(struct eapol_sm *sm); static void eapol_sm_step_timeout(void *eloop_ctx, void *timeout_ctx); static void eapol_sm_set_port_authorized(struct eapol_sm *sm); static void eapol_sm_set_port_unauthorized(struct eapol_sm *sm); /* Port Timers state machine - implemented as a function that will be called * once a second as a registered event loop timeout */ static void eapol_port_timers_tick(void *eloop_ctx, void *timeout_ctx) { struct eapol_sm *sm = timeout_ctx; if (sm->authWhile > 0) { sm->authWhile--; if (sm->authWhile == 0) wpa_printf(MSG_DEBUG, "EAPOL: authWhile --> 0"); } if (sm->heldWhile > 0) { sm->heldWhile--; if (sm->heldWhile == 0) wpa_printf(MSG_DEBUG, "EAPOL: heldWhile --> 0"); } if (sm->startWhen > 0) { sm->startWhen--; if (sm->startWhen == 0) wpa_printf(MSG_DEBUG, "EAPOL: startWhen --> 0"); } if (sm->idleWhile > 0) { sm->idleWhile--; if (sm->idleWhile == 0) wpa_printf(MSG_DEBUG, "EAPOL: idleWhile --> 0"); } if (sm->authWhile | sm->heldWhile | sm->startWhen | sm->idleWhile) { eloop_register_timeout(1, 0, eapol_port_timers_tick, eloop_ctx, sm); } else { wpa_printf(MSG_DEBUG, "EAPOL: disable timer tick"); sm->timer_tick_enabled = 0; } eapol_sm_step(sm); } static void eapol_enable_timer_tick(struct eapol_sm *sm) { if (sm->timer_tick_enabled) return; wpa_printf(MSG_DEBUG, "EAPOL: enable timer tick"); sm->timer_tick_enabled = 1; eloop_cancel_timeout(eapol_port_timers_tick, NULL, sm); eloop_register_timeout(1, 0, eapol_port_timers_tick, NULL, sm); } SM_STATE(SUPP_PAE, LOGOFF) { SM_ENTRY(SUPP_PAE, LOGOFF); eapol_sm_txLogoff(sm); sm->logoffSent = TRUE; eapol_sm_set_port_unauthorized(sm); } SM_STATE(SUPP_PAE, DISCONNECTED) { SM_ENTRY(SUPP_PAE, DISCONNECTED); sm->sPortMode = Auto; sm->startCount = 0; sm->logoffSent = FALSE; eapol_sm_set_port_unauthorized(sm); sm->suppAbort = TRUE; sm->unicast_key_received = FALSE; sm->broadcast_key_received = FALSE; /* * IEEE Std 802.1X-2004 does not clear heldWhile here, but doing so * allows the timer tick to be stopped more quickly when the port is * not enabled. Since this variable is used only within HELD state, * clearing it on initialization does not change actual state machine * behavior. */ sm->heldWhile = 0; } SM_STATE(SUPP_PAE, CONNECTING) { int send_start = sm->SUPP_PAE_state == SUPP_PAE_CONNECTING; SM_ENTRY(SUPP_PAE, CONNECTING); if (send_start) { sm->startWhen = sm->startPeriod; sm->startCount++; } else { /* * Do not send EAPOL-Start immediately since in most cases, * Authenticator is going to start authentication immediately * after association and an extra EAPOL-Start is just going to * delay authentication. Use a short timeout to send the first * EAPOL-Start if Authenticator does not start authentication. */ #ifdef CONFIG_WPS /* Reduce latency on starting WPS negotiation. */ sm->startWhen = 1; #else /* CONFIG_WPS */ sm->startWhen = 3; #endif /* CONFIG_WPS */ } eapol_enable_timer_tick(sm); sm->eapolEap = FALSE; if (send_start) eapol_sm_txStart(sm); } SM_STATE(SUPP_PAE, AUTHENTICATING) { SM_ENTRY(SUPP_PAE, AUTHENTICATING); sm->startCount = 0; sm->suppSuccess = FALSE; sm->suppFail = FALSE; sm->suppTimeout = FALSE; sm->keyRun = FALSE; sm->keyDone = FALSE; sm->suppStart = TRUE; } SM_STATE(SUPP_PAE, HELD) { SM_ENTRY(SUPP_PAE, HELD); sm->heldWhile = sm->heldPeriod; eapol_enable_timer_tick(sm); eapol_sm_set_port_unauthorized(sm); sm->cb_status = EAPOL_CB_FAILURE; } SM_STATE(SUPP_PAE, AUTHENTICATED) { SM_ENTRY(SUPP_PAE, AUTHENTICATED); eapol_sm_set_port_authorized(sm); sm->cb_status = EAPOL_CB_SUCCESS; } SM_STATE(SUPP_PAE, RESTART) { SM_ENTRY(SUPP_PAE, RESTART); sm->eapRestart = TRUE; } SM_STATE(SUPP_PAE, S_FORCE_AUTH) { SM_ENTRY(SUPP_PAE, S_FORCE_AUTH); eapol_sm_set_port_authorized(sm); sm->sPortMode = ForceAuthorized; } SM_STATE(SUPP_PAE, S_FORCE_UNAUTH) { SM_ENTRY(SUPP_PAE, S_FORCE_UNAUTH); eapol_sm_set_port_unauthorized(sm); sm->sPortMode = ForceUnauthorized; eapol_sm_txLogoff(sm); } SM_STEP(SUPP_PAE) { if ((sm->userLogoff && !sm->logoffSent) && !(sm->initialize || !sm->portEnabled)) SM_ENTER_GLOBAL(SUPP_PAE, LOGOFF); else if (((sm->portControl == Auto) && (sm->sPortMode != sm->portControl)) || sm->initialize || !sm->portEnabled) SM_ENTER_GLOBAL(SUPP_PAE, DISCONNECTED); else if ((sm->portControl == ForceAuthorized) && (sm->sPortMode != sm->portControl) && !(sm->initialize || !sm->portEnabled)) SM_ENTER_GLOBAL(SUPP_PAE, S_FORCE_AUTH); else if ((sm->portControl == ForceUnauthorized) && (sm->sPortMode != sm->portControl) && !(sm->initialize || !sm->portEnabled)) SM_ENTER_GLOBAL(SUPP_PAE, S_FORCE_UNAUTH); else switch (sm->SUPP_PAE_state) { case SUPP_PAE_UNKNOWN: break; case SUPP_PAE_LOGOFF: if (!sm->userLogoff) SM_ENTER(SUPP_PAE, DISCONNECTED); break; case SUPP_PAE_DISCONNECTED: SM_ENTER(SUPP_PAE, CONNECTING); break; case SUPP_PAE_CONNECTING: if (sm->startWhen == 0 && sm->startCount < sm->maxStart) SM_ENTER(SUPP_PAE, CONNECTING); else if (sm->startWhen == 0 && sm->startCount >= sm->maxStart && sm->portValid) SM_ENTER(SUPP_PAE, AUTHENTICATED); else if (sm->eapSuccess || sm->eapFail) SM_ENTER(SUPP_PAE, AUTHENTICATING); else if (sm->eapolEap) SM_ENTER(SUPP_PAE, RESTART); else if (sm->startWhen == 0 && sm->startCount >= sm->maxStart && !sm->portValid) SM_ENTER(SUPP_PAE, HELD); break; case SUPP_PAE_AUTHENTICATING: if (sm->eapSuccess && !sm->portValid && sm->conf.accept_802_1x_keys && sm->conf.required_keys == 0) { wpa_printf(MSG_DEBUG, "EAPOL: IEEE 802.1X for " "plaintext connection; no EAPOL-Key frames " "required"); sm->portValid = TRUE; if (sm->ctx->eapol_done_cb) sm->ctx->eapol_done_cb(sm->ctx->ctx); } if (sm->eapSuccess && sm->portValid) SM_ENTER(SUPP_PAE, AUTHENTICATED); else if (sm->eapFail || (sm->keyDone && !sm->portValid)) SM_ENTER(SUPP_PAE, HELD); else if (sm->suppTimeout) SM_ENTER(SUPP_PAE, CONNECTING); break; case SUPP_PAE_HELD: if (sm->heldWhile == 0) SM_ENTER(SUPP_PAE, CONNECTING); else if (sm->eapolEap) SM_ENTER(SUPP_PAE, RESTART); break; case SUPP_PAE_AUTHENTICATED: if (sm->eapolEap && sm->portValid) SM_ENTER(SUPP_PAE, RESTART); else if (!sm->portValid) SM_ENTER(SUPP_PAE, DISCONNECTED); break; case SUPP_PAE_RESTART: if (!sm->eapRestart) SM_ENTER(SUPP_PAE, AUTHENTICATING); break; case SUPP_PAE_S_FORCE_AUTH: break; case SUPP_PAE_S_FORCE_UNAUTH: break; } } SM_STATE(KEY_RX, NO_KEY_RECEIVE) { SM_ENTRY(KEY_RX, NO_KEY_RECEIVE); } SM_STATE(KEY_RX, KEY_RECEIVE) { SM_ENTRY(KEY_RX, KEY_RECEIVE); eapol_sm_processKey(sm); sm->rxKey = FALSE; } SM_STEP(KEY_RX) { if (sm->initialize || !sm->portEnabled) SM_ENTER_GLOBAL(KEY_RX, NO_KEY_RECEIVE); switch (sm->KEY_RX_state) { case KEY_RX_UNKNOWN: break; case KEY_RX_NO_KEY_RECEIVE: if (sm->rxKey) SM_ENTER(KEY_RX, KEY_RECEIVE); break; case KEY_RX_KEY_RECEIVE: if (sm->rxKey) SM_ENTER(KEY_RX, KEY_RECEIVE); break; } } SM_STATE(SUPP_BE, REQUEST) { SM_ENTRY(SUPP_BE, REQUEST); sm->authWhile = 0; sm->eapReq = TRUE; eapol_sm_getSuppRsp(sm); } SM_STATE(SUPP_BE, RESPONSE) { SM_ENTRY(SUPP_BE, RESPONSE); eapol_sm_txSuppRsp(sm); sm->eapResp = FALSE; } SM_STATE(SUPP_BE, SUCCESS) { SM_ENTRY(SUPP_BE, SUCCESS); sm->keyRun = TRUE; sm->suppSuccess = TRUE; #ifdef CONFIG_EAP_PROXY if (sm->use_eap_proxy) { if (eap_proxy_key_available(sm->eap_proxy)) { /* New key received - clear IEEE 802.1X EAPOL-Key replay * counter */ sm->replay_counter_valid = FALSE; } return; } #endif /* CONFIG_EAP_PROXY */ if (eap_key_available(sm->eap)) { /* New key received - clear IEEE 802.1X EAPOL-Key replay * counter */ sm->replay_counter_valid = FALSE; } } SM_STATE(SUPP_BE, FAIL) { SM_ENTRY(SUPP_BE, FAIL); sm->suppFail = TRUE; } SM_STATE(SUPP_BE, TIMEOUT) { SM_ENTRY(SUPP_BE, TIMEOUT); sm->suppTimeout = TRUE; } SM_STATE(SUPP_BE, IDLE) { SM_ENTRY(SUPP_BE, IDLE); sm->suppStart = FALSE; sm->initial_req = TRUE; } SM_STATE(SUPP_BE, INITIALIZE) { SM_ENTRY(SUPP_BE, INITIALIZE); eapol_sm_abortSupp(sm); sm->suppAbort = FALSE; /* * IEEE Std 802.1X-2004 does not clear authWhile here, but doing so * allows the timer tick to be stopped more quickly when the port is * not enabled. Since this variable is used only within RECEIVE state, * clearing it on initialization does not change actual state machine * behavior. */ sm->authWhile = 0; } SM_STATE(SUPP_BE, RECEIVE) { SM_ENTRY(SUPP_BE, RECEIVE); sm->authWhile = sm->authPeriod; eapol_enable_timer_tick(sm); sm->eapolEap = FALSE; sm->eapNoResp = FALSE; sm->initial_req = FALSE; } SM_STEP(SUPP_BE) { if (sm->initialize || sm->suppAbort) SM_ENTER_GLOBAL(SUPP_BE, INITIALIZE); else switch (sm->SUPP_BE_state) { case SUPP_BE_UNKNOWN: break; case SUPP_BE_REQUEST: /* * IEEE Std 802.1X-2004 has transitions from REQUEST to FAIL * and SUCCESS based on eapFail and eapSuccess, respectively. * However, IEEE Std 802.1X-2004 is also specifying that * eapNoResp should be set in conjunction with eapSuccess and * eapFail which would mean that more than one of the * transitions here would be activated at the same time. * Skipping RESPONSE and/or RECEIVE states in these cases can * cause problems and the direct transitions to do not seem * correct. Because of this, the conditions for these * transitions are verified only after eapNoResp. They are * unlikely to be used since eapNoResp should always be set if * either of eapSuccess or eapFail is set. */ if (sm->eapResp && sm->eapNoResp) { wpa_printf(MSG_DEBUG, "EAPOL: SUPP_BE REQUEST: both " "eapResp and eapNoResp set?!"); } if (sm->eapResp) SM_ENTER(SUPP_BE, RESPONSE); else if (sm->eapNoResp) SM_ENTER(SUPP_BE, RECEIVE); else if (sm->eapFail) SM_ENTER(SUPP_BE, FAIL); else if (sm->eapSuccess) SM_ENTER(SUPP_BE, SUCCESS); break; case SUPP_BE_RESPONSE: SM_ENTER(SUPP_BE, RECEIVE); break; case SUPP_BE_SUCCESS: SM_ENTER(SUPP_BE, IDLE); break; case SUPP_BE_FAIL: SM_ENTER(SUPP_BE, IDLE); break; case SUPP_BE_TIMEOUT: SM_ENTER(SUPP_BE, IDLE); break; case SUPP_BE_IDLE: if (sm->eapFail && sm->suppStart) SM_ENTER(SUPP_BE, FAIL); else if (sm->eapolEap && sm->suppStart) SM_ENTER(SUPP_BE, REQUEST); else if (sm->eapSuccess && sm->suppStart) SM_ENTER(SUPP_BE, SUCCESS); break; case SUPP_BE_INITIALIZE: SM_ENTER(SUPP_BE, IDLE); break; case SUPP_BE_RECEIVE: if (sm->eapolEap) SM_ENTER(SUPP_BE, REQUEST); else if (sm->eapFail) SM_ENTER(SUPP_BE, FAIL); else if (sm->authWhile == 0) SM_ENTER(SUPP_BE, TIMEOUT); else if (sm->eapSuccess) SM_ENTER(SUPP_BE, SUCCESS); break; } } static void eapol_sm_txLogoff(struct eapol_sm *sm) { wpa_printf(MSG_DEBUG, "EAPOL: txLogoff"); sm->ctx->eapol_send(sm->ctx->eapol_send_ctx, IEEE802_1X_TYPE_EAPOL_LOGOFF, (u8 *) "", 0); sm->dot1xSuppEapolLogoffFramesTx++; sm->dot1xSuppEapolFramesTx++; } static void eapol_sm_txStart(struct eapol_sm *sm) { wpa_printf(MSG_DEBUG, "EAPOL: txStart"); sm->ctx->eapol_send(sm->ctx->eapol_send_ctx, IEEE802_1X_TYPE_EAPOL_START, (u8 *) "", 0); sm->dot1xSuppEapolStartFramesTx++; sm->dot1xSuppEapolFramesTx++; } #define IEEE8021X_ENCR_KEY_LEN 32 #define IEEE8021X_SIGN_KEY_LEN 32 struct eap_key_data { u8 encr_key[IEEE8021X_ENCR_KEY_LEN]; u8 sign_key[IEEE8021X_SIGN_KEY_LEN]; }; static void eapol_sm_processKey(struct eapol_sm *sm) { #ifndef CONFIG_FIPS struct ieee802_1x_hdr *hdr; struct ieee802_1x_eapol_key *key; struct eap_key_data keydata; u8 orig_key_sign[IEEE8021X_KEY_SIGN_LEN], datakey[32]; u8 ekey[IEEE8021X_KEY_IV_LEN + IEEE8021X_ENCR_KEY_LEN]; int key_len, res, sign_key_len, encr_key_len; u16 rx_key_length; size_t plen; wpa_printf(MSG_DEBUG, "EAPOL: processKey"); if (sm->last_rx_key == NULL) return; if (!sm->conf.accept_802_1x_keys) { wpa_printf(MSG_WARNING, "EAPOL: Received IEEE 802.1X EAPOL-Key" " even though this was not accepted - " "ignoring this packet"); return; } if (sm->last_rx_key_len < sizeof(*hdr) + sizeof(*key)) return; hdr = (struct ieee802_1x_hdr *) sm->last_rx_key; key = (struct ieee802_1x_eapol_key *) (hdr + 1); plen = be_to_host16(hdr->length); if (sizeof(*hdr) + plen > sm->last_rx_key_len || plen < sizeof(*key)) { wpa_printf(MSG_WARNING, "EAPOL: Too short EAPOL-Key frame"); return; } rx_key_length = WPA_GET_BE16(key->key_length); wpa_printf(MSG_DEBUG, "EAPOL: RX IEEE 802.1X ver=%d type=%d len=%d " "EAPOL-Key: type=%d key_length=%d key_index=0x%x", hdr->version, hdr->type, be_to_host16(hdr->length), key->type, rx_key_length, key->key_index); eapol_sm_notify_lower_layer_success(sm, 1); sign_key_len = IEEE8021X_SIGN_KEY_LEN; encr_key_len = IEEE8021X_ENCR_KEY_LEN; res = eapol_sm_get_key(sm, (u8 *) &keydata, sizeof(keydata)); if (res < 0) { wpa_printf(MSG_DEBUG, "EAPOL: Could not get master key for " "decrypting EAPOL-Key keys"); return; } if (res == 16) { /* LEAP derives only 16 bytes of keying material. */ res = eapol_sm_get_key(sm, (u8 *) &keydata, 16); if (res) { wpa_printf(MSG_DEBUG, "EAPOL: Could not get LEAP " "master key for decrypting EAPOL-Key keys"); return; } sign_key_len = 16; encr_key_len = 16; os_memcpy(keydata.sign_key, keydata.encr_key, 16); } else if (res) { wpa_printf(MSG_DEBUG, "EAPOL: Could not get enough master key " "data for decrypting EAPOL-Key keys (res=%d)", res); return; } /* The key replay_counter must increase when same master key */ if (sm->replay_counter_valid && os_memcmp(sm->last_replay_counter, key->replay_counter, IEEE8021X_REPLAY_COUNTER_LEN) >= 0) { wpa_printf(MSG_WARNING, "EAPOL: EAPOL-Key replay counter did " "not increase - ignoring key"); wpa_hexdump(MSG_DEBUG, "EAPOL: last replay counter", sm->last_replay_counter, IEEE8021X_REPLAY_COUNTER_LEN); wpa_hexdump(MSG_DEBUG, "EAPOL: received replay counter", key->replay_counter, IEEE8021X_REPLAY_COUNTER_LEN); return; } /* Verify key signature (HMAC-MD5) */ os_memcpy(orig_key_sign, key->key_signature, IEEE8021X_KEY_SIGN_LEN); os_memset(key->key_signature, 0, IEEE8021X_KEY_SIGN_LEN); hmac_md5(keydata.sign_key, sign_key_len, sm->last_rx_key, sizeof(*hdr) + be_to_host16(hdr->length), key->key_signature); if (os_memcmp_const(orig_key_sign, key->key_signature, IEEE8021X_KEY_SIGN_LEN) != 0) { wpa_printf(MSG_DEBUG, "EAPOL: Invalid key signature in " "EAPOL-Key packet"); os_memcpy(key->key_signature, orig_key_sign, IEEE8021X_KEY_SIGN_LEN); return; } wpa_printf(MSG_DEBUG, "EAPOL: EAPOL-Key key signature verified"); key_len = plen - sizeof(*key); if (key_len > 32 || rx_key_length > 32) { wpa_printf(MSG_WARNING, "EAPOL: Too long key data length %d", key_len ? key_len : rx_key_length); return; } if (key_len == rx_key_length) { os_memcpy(ekey, key->key_iv, IEEE8021X_KEY_IV_LEN); os_memcpy(ekey + IEEE8021X_KEY_IV_LEN, keydata.encr_key, encr_key_len); os_memcpy(datakey, key + 1, key_len); rc4_skip(ekey, IEEE8021X_KEY_IV_LEN + encr_key_len, 0, datakey, key_len); wpa_hexdump_key(MSG_DEBUG, "EAPOL: Decrypted(RC4) key", datakey, key_len); } else if (key_len == 0) { /* * IEEE 802.1X-2004 specifies that least significant Key Length * octets from MS-MPPE-Send-Key are used as the key if the key * data is not present. This seems to be meaning the beginning * of the MS-MPPE-Send-Key. In addition, MS-MPPE-Send-Key in * Supplicant corresponds to MS-MPPE-Recv-Key in Authenticator. * Anyway, taking the beginning of the keying material from EAP * seems to interoperate with Authenticators. */ key_len = rx_key_length; os_memcpy(datakey, keydata.encr_key, key_len); wpa_hexdump_key(MSG_DEBUG, "EAPOL: using part of EAP keying " "material data encryption key", datakey, key_len); } else { wpa_printf(MSG_DEBUG, "EAPOL: Invalid key data length %d " "(key_length=%d)", key_len, rx_key_length); return; } sm->replay_counter_valid = TRUE; os_memcpy(sm->last_replay_counter, key->replay_counter, IEEE8021X_REPLAY_COUNTER_LEN); wpa_printf(MSG_DEBUG, "EAPOL: Setting dynamic WEP key: %s keyidx %d " "len %d", key->key_index & IEEE8021X_KEY_INDEX_FLAG ? "unicast" : "broadcast", key->key_index & IEEE8021X_KEY_INDEX_MASK, key_len); if (sm->ctx->set_wep_key && sm->ctx->set_wep_key(sm->ctx->ctx, key->key_index & IEEE8021X_KEY_INDEX_FLAG, key->key_index & IEEE8021X_KEY_INDEX_MASK, datakey, key_len) < 0) { wpa_printf(MSG_WARNING, "EAPOL: Failed to set WEP key to the " " driver."); } else { if (key->key_index & IEEE8021X_KEY_INDEX_FLAG) sm->unicast_key_received = TRUE; else sm->broadcast_key_received = TRUE; if ((sm->unicast_key_received || !(sm->conf.required_keys & EAPOL_REQUIRE_KEY_UNICAST)) && (sm->broadcast_key_received || !(sm->conf.required_keys & EAPOL_REQUIRE_KEY_BROADCAST))) { wpa_printf(MSG_DEBUG, "EAPOL: all required EAPOL-Key " "frames received"); sm->portValid = TRUE; if (sm->ctx->eapol_done_cb) sm->ctx->eapol_done_cb(sm->ctx->ctx); } } #endif /* CONFIG_FIPS */ } static void eapol_sm_getSuppRsp(struct eapol_sm *sm) { wpa_printf(MSG_DEBUG, "EAPOL: getSuppRsp"); /* EAP layer processing; no special code is needed, since Supplicant * Backend state machine is waiting for eapNoResp or eapResp to be set * and these are only set in the EAP state machine when the processing * has finished. */ } static void eapol_sm_txSuppRsp(struct eapol_sm *sm) { struct wpabuf *resp; wpa_printf(MSG_DEBUG, "EAPOL: txSuppRsp"); #ifdef CONFIG_EAP_PROXY if (sm->use_eap_proxy) { /* Get EAP Response from EAP Proxy */ resp = eap_proxy_get_eapRespData(sm->eap_proxy); if (resp == NULL) { wpa_printf(MSG_WARNING, "EAPOL: txSuppRsp - EAP Proxy " "response data not available"); return; } } else #endif /* CONFIG_EAP_PROXY */ resp = eap_get_eapRespData(sm->eap); if (resp == NULL) { wpa_printf(MSG_WARNING, "EAPOL: txSuppRsp - EAP response data " "not available"); return; } /* Send EAP-Packet from the EAP layer to the Authenticator */ sm->ctx->eapol_send(sm->ctx->eapol_send_ctx, IEEE802_1X_TYPE_EAP_PACKET, wpabuf_head(resp), wpabuf_len(resp)); /* eapRespData is not used anymore, so free it here */ wpabuf_free(resp); if (sm->initial_req) sm->dot1xSuppEapolReqIdFramesRx++; else sm->dot1xSuppEapolReqFramesRx++; sm->dot1xSuppEapolRespFramesTx++; sm->dot1xSuppEapolFramesTx++; } static void eapol_sm_abortSupp(struct eapol_sm *sm) { /* release system resources that may have been allocated for the * authentication session */ os_free(sm->last_rx_key); sm->last_rx_key = NULL; wpabuf_free(sm->eapReqData); sm->eapReqData = NULL; eap_sm_abort(sm->eap); } static void eapol_sm_step_timeout(void *eloop_ctx, void *timeout_ctx) { eapol_sm_step(timeout_ctx); } static void eapol_sm_set_port_authorized(struct eapol_sm *sm) { int cb; cb = sm->suppPortStatus != Authorized || sm->force_authorized_update; sm->force_authorized_update = FALSE; sm->suppPortStatus = Authorized; if (cb && sm->ctx->port_cb) sm->ctx->port_cb(sm->ctx->ctx, 1); } static void eapol_sm_set_port_unauthorized(struct eapol_sm *sm) { int cb; cb = sm->suppPortStatus != Unauthorized || sm->force_authorized_update; sm->force_authorized_update = FALSE; sm->suppPortStatus = Unauthorized; if (cb && sm->ctx->port_cb) sm->ctx->port_cb(sm->ctx->ctx, 0); } /** * eapol_sm_step - EAPOL state machine step function * @sm: Pointer to EAPOL state machine allocated with eapol_sm_init() * * This function is called to notify the state machine about changed external * variables. It will step through the EAPOL state machines in loop to process * all triggered state changes. */ void eapol_sm_step(struct eapol_sm *sm) { int i; /* In theory, it should be ok to run this in loop until !changed. * However, it is better to use a limit on number of iterations to * allow events (e.g., SIGTERM) to stop the program cleanly if the * state machine were to generate a busy loop. */ for (i = 0; i < 100; i++) { sm->changed = FALSE; SM_STEP_RUN(SUPP_PAE); SM_STEP_RUN(KEY_RX); SM_STEP_RUN(SUPP_BE); #ifdef CONFIG_EAP_PROXY if (sm->use_eap_proxy) { /* Drive the EAP proxy state machine */ if (eap_proxy_sm_step(sm->eap_proxy, sm->eap)) sm->changed = TRUE; } else #endif /* CONFIG_EAP_PROXY */ if (eap_peer_sm_step(sm->eap)) sm->changed = TRUE; if (!sm->changed) break; } if (sm->changed) { /* restart EAPOL state machine step from timeout call in order * to allow other events to be processed. */ eloop_cancel_timeout(eapol_sm_step_timeout, NULL, sm); eloop_register_timeout(0, 0, eapol_sm_step_timeout, NULL, sm); } if (sm->ctx->cb && sm->cb_status != EAPOL_CB_IN_PROGRESS) { enum eapol_supp_result result; if (sm->cb_status == EAPOL_CB_SUCCESS) result = EAPOL_SUPP_RESULT_SUCCESS; else if (eap_peer_was_failure_expected(sm->eap)) result = EAPOL_SUPP_RESULT_EXPECTED_FAILURE; else result = EAPOL_SUPP_RESULT_FAILURE; sm->cb_status = EAPOL_CB_IN_PROGRESS; sm->ctx->cb(sm, result, sm->ctx->cb_ctx); } } #ifdef CONFIG_CTRL_IFACE static const char *eapol_supp_pae_state(int state) { switch (state) { case SUPP_PAE_LOGOFF: return "LOGOFF"; case SUPP_PAE_DISCONNECTED: return "DISCONNECTED"; case SUPP_PAE_CONNECTING: return "CONNECTING"; case SUPP_PAE_AUTHENTICATING: return "AUTHENTICATING"; case SUPP_PAE_HELD: return "HELD"; case SUPP_PAE_AUTHENTICATED: return "AUTHENTICATED"; case SUPP_PAE_RESTART: return "RESTART"; default: return "UNKNOWN"; } } static const char *eapol_supp_be_state(int state) { switch (state) { case SUPP_BE_REQUEST: return "REQUEST"; case SUPP_BE_RESPONSE: return "RESPONSE"; case SUPP_BE_SUCCESS: return "SUCCESS"; case SUPP_BE_FAIL: return "FAIL"; case SUPP_BE_TIMEOUT: return "TIMEOUT"; case SUPP_BE_IDLE: return "IDLE"; case SUPP_BE_INITIALIZE: return "INITIALIZE"; case SUPP_BE_RECEIVE: return "RECEIVE"; default: return "UNKNOWN"; } } static const char * eapol_port_status(PortStatus status) { if (status == Authorized) return "Authorized"; else return "Unauthorized"; } #endif /* CONFIG_CTRL_IFACE */ #if defined(CONFIG_CTRL_IFACE) || !defined(CONFIG_NO_STDOUT_DEBUG) static const char * eapol_port_control(PortControl ctrl) { switch (ctrl) { case Auto: return "Auto"; case ForceUnauthorized: return "ForceUnauthorized"; case ForceAuthorized: return "ForceAuthorized"; default: return "Unknown"; } } #endif /* CONFIG_CTRL_IFACE || !CONFIG_NO_STDOUT_DEBUG */ /** * eapol_sm_configure - Set EAPOL variables * @sm: Pointer to EAPOL state machine allocated with eapol_sm_init() * @heldPeriod: dot1xSuppHeldPeriod * @authPeriod: dot1xSuppAuthPeriod * @startPeriod: dot1xSuppStartPeriod * @maxStart: dot1xSuppMaxStart * * Set configurable EAPOL state machine variables. Each variable can be set to * the given value or ignored if set to -1 (to set only some of the variables). */ void eapol_sm_configure(struct eapol_sm *sm, int heldPeriod, int authPeriod, int startPeriod, int maxStart) { if (sm == NULL) return; if (heldPeriod >= 0) sm->heldPeriod = heldPeriod; if (authPeriod >= 0) sm->authPeriod = authPeriod; if (startPeriod >= 0) sm->startPeriod = startPeriod; if (maxStart >= 0) sm->maxStart = maxStart; } /** * eapol_sm_get_method_name - Get EAPOL method name * @sm: Pointer to EAPOL state machine allocated with eapol_sm_init() * Returns: Static string containing name of current eap method or NULL */ const char * eapol_sm_get_method_name(struct eapol_sm *sm) { if (sm->SUPP_PAE_state != SUPP_PAE_AUTHENTICATED || sm->suppPortStatus != Authorized) return NULL; return eap_sm_get_method_name(sm->eap); } #ifdef CONFIG_CTRL_IFACE /** * eapol_sm_get_status - Get EAPOL state machine status * @sm: Pointer to EAPOL state machine allocated with eapol_sm_init() * @buf: Buffer for status information * @buflen: Maximum buffer length * @verbose: Whether to include verbose status information * Returns: Number of bytes written to buf. * * Query EAPOL state machine for status information. This function fills in a * text area with current status information from the EAPOL state machine. If * the buffer (buf) is not large enough, status information will be truncated * to fit the buffer. */ int eapol_sm_get_status(struct eapol_sm *sm, char *buf, size_t buflen, int verbose) { int len, ret; if (sm == NULL) return 0; len = os_snprintf(buf, buflen, "Supplicant PAE state=%s\n" "suppPortStatus=%s\n", eapol_supp_pae_state(sm->SUPP_PAE_state), eapol_port_status(sm->suppPortStatus)); if (len < 0 || (size_t) len >= buflen) return 0; if (verbose) { ret = os_snprintf(buf + len, buflen - len, "heldPeriod=%u\n" "authPeriod=%u\n" "startPeriod=%u\n" "maxStart=%u\n" "portControl=%s\n" "Supplicant Backend state=%s\n", sm->heldPeriod, sm->authPeriod, sm->startPeriod, sm->maxStart, eapol_port_control(sm->portControl), eapol_supp_be_state(sm->SUPP_BE_state)); if (ret < 0 || (size_t) ret >= buflen - len) return len; len += ret; } #ifdef CONFIG_EAP_PROXY if (sm->use_eap_proxy) len += eap_proxy_sm_get_status(sm->eap_proxy, buf + len, buflen - len, verbose); else #endif /* CONFIG_EAP_PROXY */ len += eap_sm_get_status(sm->eap, buf + len, buflen - len, verbose); return len; } /** * eapol_sm_get_mib - Get EAPOL state machine MIBs * @sm: Pointer to EAPOL state machine allocated with eapol_sm_init() * @buf: Buffer for MIB information * @buflen: Maximum buffer length * Returns: Number of bytes written to buf. * * Query EAPOL state machine for MIB information. This function fills in a * text area with current MIB information from the EAPOL state machine. If * the buffer (buf) is not large enough, MIB information will be truncated to * fit the buffer. */ int eapol_sm_get_mib(struct eapol_sm *sm, char *buf, size_t buflen) { size_t len; int ret; if (sm == NULL) return 0; ret = os_snprintf(buf, buflen, "dot1xSuppPaeState=%d\n" "dot1xSuppHeldPeriod=%u\n" "dot1xSuppAuthPeriod=%u\n" "dot1xSuppStartPeriod=%u\n" "dot1xSuppMaxStart=%u\n" "dot1xSuppSuppControlledPortStatus=%s\n" "dot1xSuppBackendPaeState=%d\n", sm->SUPP_PAE_state, sm->heldPeriod, sm->authPeriod, sm->startPeriod, sm->maxStart, sm->suppPortStatus == Authorized ? "Authorized" : "Unauthorized", sm->SUPP_BE_state); if (ret < 0 || (size_t) ret >= buflen) return 0; len = ret; ret = os_snprintf(buf + len, buflen - len, "dot1xSuppEapolFramesRx=%u\n" "dot1xSuppEapolFramesTx=%u\n" "dot1xSuppEapolStartFramesTx=%u\n" "dot1xSuppEapolLogoffFramesTx=%u\n" "dot1xSuppEapolRespFramesTx=%u\n" "dot1xSuppEapolReqIdFramesRx=%u\n" "dot1xSuppEapolReqFramesRx=%u\n" "dot1xSuppInvalidEapolFramesRx=%u\n" "dot1xSuppEapLengthErrorFramesRx=%u\n" "dot1xSuppLastEapolFrameVersion=%u\n" "dot1xSuppLastEapolFrameSource=" MACSTR "\n", sm->dot1xSuppEapolFramesRx, sm->dot1xSuppEapolFramesTx, sm->dot1xSuppEapolStartFramesTx, sm->dot1xSuppEapolLogoffFramesTx, sm->dot1xSuppEapolRespFramesTx, sm->dot1xSuppEapolReqIdFramesRx, sm->dot1xSuppEapolReqFramesRx, sm->dot1xSuppInvalidEapolFramesRx, sm->dot1xSuppEapLengthErrorFramesRx, sm->dot1xSuppLastEapolFrameVersion, MAC2STR(sm->dot1xSuppLastEapolFrameSource)); if (ret < 0 || (size_t) ret >= buflen - len) return len; len += ret; return len; } #endif /* CONFIG_CTRL_IFACE */ /** * eapol_sm_rx_eapol - Process received EAPOL frames * @sm: Pointer to EAPOL state machine allocated with eapol_sm_init() * @src: Source MAC address of the EAPOL packet * @buf: Pointer to the beginning of the EAPOL data (EAPOL header) * @len: Length of the EAPOL frame * Returns: 1 = EAPOL frame processed, 0 = not for EAPOL state machine, * -1 failure */ int eapol_sm_rx_eapol(struct eapol_sm *sm, const u8 *src, const u8 *buf, size_t len) { const struct ieee802_1x_hdr *hdr; const struct ieee802_1x_eapol_key *key; int data_len; int res = 1; size_t plen; if (sm == NULL) return 0; sm->dot1xSuppEapolFramesRx++; if (len < sizeof(*hdr)) { sm->dot1xSuppInvalidEapolFramesRx++; return 0; } hdr = (const struct ieee802_1x_hdr *) buf; sm->dot1xSuppLastEapolFrameVersion = hdr->version; os_memcpy(sm->dot1xSuppLastEapolFrameSource, src, ETH_ALEN); if (hdr->version < EAPOL_VERSION) { /* TODO: backwards compatibility */ } plen = be_to_host16(hdr->length); if (plen > len - sizeof(*hdr)) { sm->dot1xSuppEapLengthErrorFramesRx++; return 0; } #ifdef CONFIG_WPS if (sm->conf.workaround && plen < len - sizeof(*hdr) && hdr->type == IEEE802_1X_TYPE_EAP_PACKET && len - sizeof(*hdr) > sizeof(struct eap_hdr)) { const struct eap_hdr *ehdr = (const struct eap_hdr *) (hdr + 1); u16 elen; elen = be_to_host16(ehdr->length); if (elen > plen && elen <= len - sizeof(*hdr)) { /* * Buffalo WHR-G125 Ver.1.47 seems to send EAP-WPS * packets with too short EAPOL header length field * (14 octets). This is fixed in firmware Ver.1.49. * As a workaround, fix the EAPOL header based on the * correct length in the EAP packet. */ wpa_printf(MSG_DEBUG, "EAPOL: Workaround - fix EAPOL " "payload length based on EAP header: " "%d -> %d", (int) plen, elen); plen = elen; } } #endif /* CONFIG_WPS */ data_len = plen + sizeof(*hdr); switch (hdr->type) { case IEEE802_1X_TYPE_EAP_PACKET: if (sm->conf.workaround) { /* * An AP has been reported to send out EAP message with * undocumented code 10 at some point near the * completion of EAP authentication. This can result in * issues with the unexpected EAP message triggering * restart of EAPOL authentication. Avoid this by * skipping the message without advancing the state * machine. */ const struct eap_hdr *ehdr = (const struct eap_hdr *) (hdr + 1); if (plen >= sizeof(*ehdr) && ehdr->code == 10) { wpa_printf(MSG_DEBUG, "EAPOL: Ignore EAP packet with unknown code 10"); break; } } if (sm->cached_pmk) { /* Trying to use PMKSA caching, but Authenticator did * not seem to have a matching entry. Need to restart * EAPOL state machines. */ eapol_sm_abort_cached(sm); } wpabuf_free(sm->eapReqData); sm->eapReqData = wpabuf_alloc_copy(hdr + 1, plen); if (sm->eapReqData) { wpa_printf(MSG_DEBUG, "EAPOL: Received EAP-Packet " "frame"); sm->eapolEap = TRUE; #ifdef CONFIG_EAP_PROXY if (sm->use_eap_proxy) { eap_proxy_packet_update( sm->eap_proxy, wpabuf_mhead_u8(sm->eapReqData), wpabuf_len(sm->eapReqData)); wpa_printf(MSG_DEBUG, "EAPOL: eap_proxy " "EAP Req updated"); } #endif /* CONFIG_EAP_PROXY */ eapol_sm_step(sm); } break; case IEEE802_1X_TYPE_EAPOL_KEY: if (plen < sizeof(*key)) { wpa_printf(MSG_DEBUG, "EAPOL: Too short EAPOL-Key " "frame received"); break; } key = (const struct ieee802_1x_eapol_key *) (hdr + 1); if (key->type == EAPOL_KEY_TYPE_WPA || key->type == EAPOL_KEY_TYPE_RSN) { /* WPA Supplicant takes care of this frame. */ wpa_printf(MSG_DEBUG, "EAPOL: Ignoring WPA EAPOL-Key " "frame in EAPOL state machines"); res = 0; break; } if (key->type != EAPOL_KEY_TYPE_RC4) { wpa_printf(MSG_DEBUG, "EAPOL: Ignored unknown " "EAPOL-Key type %d", key->type); break; } os_free(sm->last_rx_key); sm->last_rx_key = os_malloc(data_len); if (sm->last_rx_key) { wpa_printf(MSG_DEBUG, "EAPOL: Received EAPOL-Key " "frame"); os_memcpy(sm->last_rx_key, buf, data_len); sm->last_rx_key_len = data_len; sm->rxKey = TRUE; eapol_sm_step(sm); } break; #ifdef CONFIG_MACSEC case IEEE802_1X_TYPE_EAPOL_MKA: wpa_printf(MSG_EXCESSIVE, "EAPOL type %d will be handled by MKA", hdr->type); break; #endif /* CONFIG_MACSEC */ default: wpa_printf(MSG_DEBUG, "EAPOL: Received unknown EAPOL type %d", hdr->type); sm->dot1xSuppInvalidEapolFramesRx++; break; } return res; } /** * eapol_sm_notify_tx_eapol_key - Notification about transmitted EAPOL packet * @sm: Pointer to EAPOL state machine allocated with eapol_sm_init() * * Notify EAPOL state machine about transmitted EAPOL packet from an external * component, e.g., WPA. This will update the statistics. */ void eapol_sm_notify_tx_eapol_key(struct eapol_sm *sm) { if (sm) sm->dot1xSuppEapolFramesTx++; } /** * eapol_sm_notify_portEnabled - Notification about portEnabled change * @sm: Pointer to EAPOL state machine allocated with eapol_sm_init() * @enabled: New portEnabled value * * Notify EAPOL state machine about new portEnabled value. */ void eapol_sm_notify_portEnabled(struct eapol_sm *sm, Boolean enabled) { if (sm == NULL) return; wpa_printf(MSG_DEBUG, "EAPOL: External notification - " "portEnabled=%d", enabled); if (sm->portEnabled != enabled) sm->force_authorized_update = TRUE; sm->portEnabled = enabled; eapol_sm_step(sm); } /** * eapol_sm_notify_portValid - Notification about portValid change * @sm: Pointer to EAPOL state machine allocated with eapol_sm_init() * @valid: New portValid value * * Notify EAPOL state machine about new portValid value. */ void eapol_sm_notify_portValid(struct eapol_sm *sm, Boolean valid) { if (sm == NULL) return; wpa_printf(MSG_DEBUG, "EAPOL: External notification - " "portValid=%d", valid); sm->portValid = valid; eapol_sm_step(sm); } /** * eapol_sm_notify_eap_success - Notification of external EAP success trigger * @sm: Pointer to EAPOL state machine allocated with eapol_sm_init() * @success: %TRUE = set success, %FALSE = clear success * * Notify the EAPOL state machine that external event has forced EAP state to * success (success = %TRUE). This can be cleared by setting success = %FALSE. * * This function is called to update EAP state when WPA-PSK key handshake has * been completed successfully since WPA-PSK does not use EAP state machine. */ void eapol_sm_notify_eap_success(struct eapol_sm *sm, Boolean success) { if (sm == NULL) return; wpa_printf(MSG_DEBUG, "EAPOL: External notification - " "EAP success=%d", success); sm->eapSuccess = success; sm->altAccept = success; if (success) eap_notify_success(sm->eap); eapol_sm_step(sm); } /** * eapol_sm_notify_eap_fail - Notification of external EAP failure trigger * @sm: Pointer to EAPOL state machine allocated with eapol_sm_init() * @fail: %TRUE = set failure, %FALSE = clear failure * * Notify EAPOL state machine that external event has forced EAP state to * failure (fail = %TRUE). This can be cleared by setting fail = %FALSE. */ void eapol_sm_notify_eap_fail(struct eapol_sm *sm, Boolean fail) { if (sm == NULL) return; wpa_printf(MSG_DEBUG, "EAPOL: External notification - " "EAP fail=%d", fail); sm->eapFail = fail; sm->altReject = fail; eapol_sm_step(sm); } /** * eapol_sm_notify_config - Notification of EAPOL configuration change * @sm: Pointer to EAPOL state machine allocated with eapol_sm_init() * @config: Pointer to current network EAP configuration * @conf: Pointer to EAPOL configuration data * * Notify EAPOL state machine that configuration has changed. config will be * stored as a backpointer to network configuration. This can be %NULL to clear * the stored pointed. conf will be copied to local EAPOL/EAP configuration * data. If conf is %NULL, this part of the configuration change will be * skipped. */ void eapol_sm_notify_config(struct eapol_sm *sm, struct eap_peer_config *config, const struct eapol_config *conf) { if (sm == NULL) return; sm->config = config; #ifdef CONFIG_EAP_PROXY sm->use_eap_proxy = eap_proxy_notify_config(sm->eap_proxy, config) > 0; #endif /* CONFIG_EAP_PROXY */ if (conf == NULL) return; sm->conf.accept_802_1x_keys = conf->accept_802_1x_keys; sm->conf.required_keys = conf->required_keys; sm->conf.fast_reauth = conf->fast_reauth; sm->conf.workaround = conf->workaround; #ifdef CONFIG_EAP_PROXY if (sm->use_eap_proxy) { /* Using EAP Proxy, so skip EAP state machine update */ return; } #endif /* CONFIG_EAP_PROXY */ if (sm->eap) { eap_set_fast_reauth(sm->eap, conf->fast_reauth); eap_set_workaround(sm->eap, conf->workaround); eap_set_force_disabled(sm->eap, conf->eap_disabled); eap_set_external_sim(sm->eap, conf->external_sim); } } /** * eapol_sm_get_key - Get master session key (MSK) from EAP * @sm: Pointer to EAPOL state machine allocated with eapol_sm_init() * @key: Pointer for key buffer * @len: Number of bytes to copy to key * Returns: 0 on success (len of key available), maximum available key len * (>0) if key is available but it is shorter than len, or -1 on failure. * * Fetch EAP keying material (MSK, eapKeyData) from EAP state machine. The key * is available only after a successful authentication. */ int eapol_sm_get_key(struct eapol_sm *sm, u8 *key, size_t len) { const u8 *eap_key; size_t eap_len; #ifdef CONFIG_EAP_PROXY if (sm && sm->use_eap_proxy) { /* Get key from EAP proxy */ if (sm == NULL || !eap_proxy_key_available(sm->eap_proxy)) { wpa_printf(MSG_DEBUG, "EAPOL: EAP key not available"); return -1; } eap_key = eap_proxy_get_eapKeyData(sm->eap_proxy, &eap_len); if (eap_key == NULL) { wpa_printf(MSG_DEBUG, "EAPOL: Failed to get " "eapKeyData"); return -1; } goto key_fetched; } #endif /* CONFIG_EAP_PROXY */ if (sm == NULL || !eap_key_available(sm->eap)) { wpa_printf(MSG_DEBUG, "EAPOL: EAP key not available"); return -1; } eap_key = eap_get_eapKeyData(sm->eap, &eap_len); if (eap_key == NULL) { wpa_printf(MSG_DEBUG, "EAPOL: Failed to get eapKeyData"); return -1; } #ifdef CONFIG_EAP_PROXY key_fetched: #endif /* CONFIG_EAP_PROXY */ if (len > eap_len) { wpa_printf(MSG_DEBUG, "EAPOL: Requested key length (%lu) not " "available (len=%lu)", (unsigned long) len, (unsigned long) eap_len); return eap_len; } os_memcpy(key, eap_key, len); wpa_printf(MSG_DEBUG, "EAPOL: Successfully fetched key (len=%lu)", (unsigned long) len); return 0; } /** * eapol_sm_get_session_id - Get EAP Session-Id * @sm: Pointer to EAPOL state machine allocated with eapol_sm_init() * @len: Pointer to variable that will be set to number of bytes in the session * Returns: Pointer to the EAP Session-Id or %NULL on failure * * The Session-Id is available only after a successful authentication. */ const u8 * eapol_sm_get_session_id(struct eapol_sm *sm, size_t *len) { if (sm == NULL || !eap_key_available(sm->eap)) { wpa_printf(MSG_DEBUG, "EAPOL: EAP Session-Id not available"); return NULL; } return eap_get_eapSessionId(sm->eap, len); } /** * eapol_sm_notify_logoff - Notification of logon/logoff commands * @sm: Pointer to EAPOL state machine allocated with eapol_sm_init() * @logoff: Whether command was logoff * * Notify EAPOL state machines that user requested logon/logoff. */ void eapol_sm_notify_logoff(struct eapol_sm *sm, Boolean logoff) { if (sm) { sm->userLogoff = logoff; if (!logoff) { /* If there is a delayed txStart queued, start now. */ sm->startWhen = 0; } eapol_sm_step(sm); } } /** * eapol_sm_notify_pmkid_attempt - Notification of successful PMKSA caching * @sm: Pointer to EAPOL state machine allocated with eapol_sm_init() * * Notify EAPOL state machines that PMKSA caching was successful. This is used * to move EAPOL and EAP state machines into authenticated/successful state. */ void eapol_sm_notify_cached(struct eapol_sm *sm) { if (sm == NULL) return; wpa_printf(MSG_DEBUG, "EAPOL: PMKSA caching was used - skip EAPOL"); sm->eapSuccess = TRUE; eap_notify_success(sm->eap); eapol_sm_step(sm); } /** * eapol_sm_notify_pmkid_attempt - Notification of PMKSA caching * @sm: Pointer to EAPOL state machine allocated with eapol_sm_init() * @attempt: Whether PMKSA caching is tried * * Notify EAPOL state machines whether PMKSA caching is used. */ void eapol_sm_notify_pmkid_attempt(struct eapol_sm *sm, int attempt) { if (sm == NULL) return; if (attempt) { wpa_printf(MSG_DEBUG, "RSN: Trying to use cached PMKSA"); sm->cached_pmk = TRUE; } else { wpa_printf(MSG_DEBUG, "RSN: Do not try to use cached PMKSA"); sm->cached_pmk = FALSE; } } static void eapol_sm_abort_cached(struct eapol_sm *sm) { wpa_printf(MSG_DEBUG, "RSN: Authenticator did not accept PMKID, " "doing full EAP authentication"); if (sm == NULL) return; sm->cached_pmk = FALSE; sm->SUPP_PAE_state = SUPP_PAE_CONNECTING; eapol_sm_set_port_unauthorized(sm); /* Make sure we do not start sending EAPOL-Start frames first, but * instead move to RESTART state to start EAPOL authentication. */ sm->startWhen = 3; eapol_enable_timer_tick(sm); if (sm->ctx->aborted_cached) sm->ctx->aborted_cached(sm->ctx->ctx); } /** * eapol_sm_register_scard_ctx - Notification of smart card context * @sm: Pointer to EAPOL state machine allocated with eapol_sm_init() * @ctx: Context data for smart card operations * * Notify EAPOL state machines of context data for smart card operations. This * context data will be used as a parameter for scard_*() functions. */ void eapol_sm_register_scard_ctx(struct eapol_sm *sm, void *ctx) { if (sm) { sm->ctx->scard_ctx = ctx; eap_register_scard_ctx(sm->eap, ctx); } } /** * eapol_sm_notify_portControl - Notification of portControl changes * @sm: Pointer to EAPOL state machine allocated with eapol_sm_init() * @portControl: New value for portControl variable * * Notify EAPOL state machines that portControl variable has changed. */ void eapol_sm_notify_portControl(struct eapol_sm *sm, PortControl portControl) { if (sm == NULL) return; wpa_printf(MSG_DEBUG, "EAPOL: External notification - " "portControl=%s", eapol_port_control(portControl)); sm->portControl = portControl; eapol_sm_step(sm); } /** * eapol_sm_notify_ctrl_attached - Notification of attached monitor * @sm: Pointer to EAPOL state machine allocated with eapol_sm_init() * * Notify EAPOL state machines that a monitor was attached to the control * interface to trigger re-sending of pending requests for user input. */ void eapol_sm_notify_ctrl_attached(struct eapol_sm *sm) { if (sm == NULL) return; eap_sm_notify_ctrl_attached(sm->eap); } /** * eapol_sm_notify_ctrl_response - Notification of received user input * @sm: Pointer to EAPOL state machine allocated with eapol_sm_init() * * Notify EAPOL state machines that a control response, i.e., user * input, was received in order to trigger retrying of a pending EAP request. */ void eapol_sm_notify_ctrl_response(struct eapol_sm *sm) { if (sm == NULL) return; if (sm->eapReqData && !sm->eapReq) { wpa_printf(MSG_DEBUG, "EAPOL: received control response (user " "input) notification - retrying pending EAP " "Request"); sm->eapolEap = TRUE; sm->eapReq = TRUE; eapol_sm_step(sm); } } /** * eapol_sm_request_reauth - Request reauthentication * @sm: Pointer to EAPOL state machine allocated with eapol_sm_init() * * This function can be used to request EAPOL reauthentication, e.g., when the * current PMKSA entry is nearing expiration. */ void eapol_sm_request_reauth(struct eapol_sm *sm) { if (sm == NULL || sm->SUPP_PAE_state != SUPP_PAE_AUTHENTICATED) return; eapol_sm_txStart(sm); } /** * eapol_sm_notify_lower_layer_success - Notification of lower layer success * @sm: Pointer to EAPOL state machine allocated with eapol_sm_init() * @in_eapol_sm: Whether the caller is already running inside EAPOL state * machine loop (eapol_sm_step()) * * Notify EAPOL (and EAP) state machines that a lower layer has detected a * successful authentication. This is used to recover from dropped EAP-Success * messages. */ void eapol_sm_notify_lower_layer_success(struct eapol_sm *sm, int in_eapol_sm) { if (sm == NULL) return; eap_notify_lower_layer_success(sm->eap); if (!in_eapol_sm) eapol_sm_step(sm); } /** * eapol_sm_invalidate_cached_session - Mark cached EAP session data invalid * @sm: Pointer to EAPOL state machine allocated with eapol_sm_init() */ void eapol_sm_invalidate_cached_session(struct eapol_sm *sm) { if (sm) eap_invalidate_cached_session(sm->eap); } static struct eap_peer_config * eapol_sm_get_config(void *ctx) { struct eapol_sm *sm = ctx; return sm ? sm->config : NULL; } static struct wpabuf * eapol_sm_get_eapReqData(void *ctx) { struct eapol_sm *sm = ctx; if (sm == NULL || sm->eapReqData == NULL) return NULL; return sm->eapReqData; } static Boolean eapol_sm_get_bool(void *ctx, enum eapol_bool_var variable) { struct eapol_sm *sm = ctx; if (sm == NULL) return FALSE; switch (variable) { case EAPOL_eapSuccess: return sm->eapSuccess; case EAPOL_eapRestart: return sm->eapRestart; case EAPOL_eapFail: return sm->eapFail; case EAPOL_eapResp: return sm->eapResp; case EAPOL_eapNoResp: return sm->eapNoResp; case EAPOL_eapReq: return sm->eapReq; case EAPOL_portEnabled: return sm->portEnabled; case EAPOL_altAccept: return sm->altAccept; case EAPOL_altReject: return sm->altReject; } return FALSE; } static void eapol_sm_set_bool(void *ctx, enum eapol_bool_var variable, Boolean value) { struct eapol_sm *sm = ctx; if (sm == NULL) return; switch (variable) { case EAPOL_eapSuccess: sm->eapSuccess = value; break; case EAPOL_eapRestart: sm->eapRestart = value; break; case EAPOL_eapFail: sm->eapFail = value; break; case EAPOL_eapResp: sm->eapResp = value; break; case EAPOL_eapNoResp: sm->eapNoResp = value; break; case EAPOL_eapReq: sm->eapReq = value; break; case EAPOL_portEnabled: sm->portEnabled = value; break; case EAPOL_altAccept: sm->altAccept = value; break; case EAPOL_altReject: sm->altReject = value; break; } } static unsigned int eapol_sm_get_int(void *ctx, enum eapol_int_var variable) { struct eapol_sm *sm = ctx; if (sm == NULL) return 0; switch (variable) { case EAPOL_idleWhile: return sm->idleWhile; } return 0; } static void eapol_sm_set_int(void *ctx, enum eapol_int_var variable, unsigned int value) { struct eapol_sm *sm = ctx; if (sm == NULL) return; switch (variable) { case EAPOL_idleWhile: sm->idleWhile = value; if (sm->idleWhile > 0) eapol_enable_timer_tick(sm); break; } } static void eapol_sm_set_config_blob(void *ctx, struct wpa_config_blob *blob) { #ifndef CONFIG_NO_CONFIG_BLOBS struct eapol_sm *sm = ctx; if (sm && sm->ctx && sm->ctx->set_config_blob) sm->ctx->set_config_blob(sm->ctx->ctx, blob); #endif /* CONFIG_NO_CONFIG_BLOBS */ } static const struct wpa_config_blob * eapol_sm_get_config_blob(void *ctx, const char *name) { #ifndef CONFIG_NO_CONFIG_BLOBS struct eapol_sm *sm = ctx; if (sm && sm->ctx && sm->ctx->get_config_blob) return sm->ctx->get_config_blob(sm->ctx->ctx, name); else return NULL; #else /* CONFIG_NO_CONFIG_BLOBS */ return NULL; #endif /* CONFIG_NO_CONFIG_BLOBS */ } static void eapol_sm_notify_pending(void *ctx) { struct eapol_sm *sm = ctx; if (sm == NULL) return; if (sm->eapReqData && !sm->eapReq) { wpa_printf(MSG_DEBUG, "EAPOL: received notification from EAP " "state machine - retrying pending EAP Request"); sm->eapolEap = TRUE; sm->eapReq = TRUE; eapol_sm_step(sm); } } #if defined(CONFIG_CTRL_IFACE) || !defined(CONFIG_NO_STDOUT_DEBUG) static void eapol_sm_eap_param_needed(void *ctx, enum wpa_ctrl_req_type field, const char *txt) { struct eapol_sm *sm = ctx; wpa_printf(MSG_DEBUG, "EAPOL: EAP parameter needed"); if (sm->ctx->eap_param_needed) sm->ctx->eap_param_needed(sm->ctx->ctx, field, txt); } #else /* CONFIG_CTRL_IFACE || !CONFIG_NO_STDOUT_DEBUG */ #define eapol_sm_eap_param_needed NULL #endif /* CONFIG_CTRL_IFACE || !CONFIG_NO_STDOUT_DEBUG */ static void eapol_sm_notify_cert(void *ctx, int depth, const char *subject, const char *cert_hash, const struct wpabuf *cert) { struct eapol_sm *sm = ctx; if (sm->ctx->cert_cb) sm->ctx->cert_cb(sm->ctx->ctx, depth, subject, cert_hash, cert); } static void eapol_sm_notify_status(void *ctx, const char *status, const char *parameter) { struct eapol_sm *sm = ctx; if (sm->ctx->status_cb) sm->ctx->status_cb(sm->ctx->ctx, status, parameter); } static void eapol_sm_set_anon_id(void *ctx, const u8 *id, size_t len) { struct eapol_sm *sm = ctx; if (sm->ctx->set_anon_id) sm->ctx->set_anon_id(sm->ctx->ctx, id, len); } static struct eapol_callbacks eapol_cb = { eapol_sm_get_config, eapol_sm_get_bool, eapol_sm_set_bool, eapol_sm_get_int, eapol_sm_set_int, eapol_sm_get_eapReqData, eapol_sm_set_config_blob, eapol_sm_get_config_blob, eapol_sm_notify_pending, eapol_sm_eap_param_needed, eapol_sm_notify_cert, eapol_sm_notify_status, eapol_sm_set_anon_id }; /** * eapol_sm_init - Initialize EAPOL state machine * @ctx: Pointer to EAPOL context data; this needs to be an allocated buffer * and EAPOL state machine will free it in eapol_sm_deinit() * Returns: Pointer to the allocated EAPOL state machine or %NULL on failure * * Allocate and initialize an EAPOL state machine. */ struct eapol_sm *eapol_sm_init(struct eapol_ctx *ctx) { struct eapol_sm *sm; struct eap_config conf; sm = os_zalloc(sizeof(*sm)); if (sm == NULL) return NULL; sm->ctx = ctx; sm->portControl = Auto; /* Supplicant PAE state machine */ sm->heldPeriod = 60; sm->startPeriod = 30; sm->maxStart = 3; /* Supplicant Backend state machine */ sm->authPeriod = 30; os_memset(&conf, 0, sizeof(conf)); conf.opensc_engine_path = ctx->opensc_engine_path; conf.pkcs11_engine_path = ctx->pkcs11_engine_path; conf.pkcs11_module_path = ctx->pkcs11_module_path; conf.wps = ctx->wps; conf.cert_in_cb = ctx->cert_in_cb; sm->eap = eap_peer_sm_init(sm, &eapol_cb, sm->ctx->msg_ctx, &conf); if (sm->eap == NULL) { os_free(sm); return NULL; } #ifdef CONFIG_EAP_PROXY sm->use_eap_proxy = FALSE; sm->eap_proxy = eap_proxy_init(sm, &eapol_cb, sm->ctx->msg_ctx); if (sm->eap_proxy == NULL) { wpa_printf(MSG_ERROR, "Unable to initialize EAP Proxy"); } #endif /* CONFIG_EAP_PROXY */ /* Initialize EAPOL state machines */ sm->force_authorized_update = TRUE; sm->initialize = TRUE; eapol_sm_step(sm); sm->initialize = FALSE; eapol_sm_step(sm); sm->timer_tick_enabled = 1; eloop_register_timeout(1, 0, eapol_port_timers_tick, NULL, sm); return sm; } /** * eapol_sm_deinit - Deinitialize EAPOL state machine * @sm: Pointer to EAPOL state machine allocated with eapol_sm_init() * * Deinitialize and free EAPOL state machine. */ void eapol_sm_deinit(struct eapol_sm *sm) { if (sm == NULL) return; eloop_cancel_timeout(eapol_sm_step_timeout, NULL, sm); eloop_cancel_timeout(eapol_port_timers_tick, NULL, sm); eap_peer_sm_deinit(sm->eap); #ifdef CONFIG_EAP_PROXY eap_proxy_deinit(sm->eap_proxy); #endif /* CONFIG_EAP_PROXY */ os_free(sm->last_rx_key); wpabuf_free(sm->eapReqData); os_free(sm->ctx); os_free(sm); } void eapol_sm_set_ext_pw_ctx(struct eapol_sm *sm, struct ext_password_data *ext) { if (sm && sm->eap) eap_sm_set_ext_pw_ctx(sm->eap, ext); } int eapol_sm_failed(struct eapol_sm *sm) { if (sm == NULL) return 0; return !sm->eapSuccess && sm->eapFail; } int eapol_sm_get_eap_proxy_imsi(struct eapol_sm *sm, char *imsi, size_t *len) { #ifdef CONFIG_EAP_PROXY if (sm->eap_proxy == NULL) return -1; return eap_proxy_get_imsi(sm->eap_proxy, imsi, len); #else /* CONFIG_EAP_PROXY */ return -1; #endif /* CONFIG_EAP_PROXY */ }