/* * Copyright (C) 2012 Tobias Brunner * Hochschule fuer Technik Rapperswil * * Copyright (C) 2012 Martin Willi * Copyright (C) 2012 revosec AG * * This program is free software; you can redistribute it and/or modify it * under the terms of the GNU General Public License as published by the * Free Software Foundation; either version 2 of the License, or (at your * option) any later version. See . * * This program is distributed in the hope that it will be useful, but * WITHOUT ANY WARRANTY; without even the implied warranty of MERCHANTABILITY * or FITNESS FOR A PARTICULAR PURPOSE. See the GNU General Public License * for more details. */ #include "phase1.h" #include #include #include #include #include typedef struct private_phase1_t private_phase1_t; /** * Private data of an phase1_t object. */ struct private_phase1_t { /** * Public phase1_t interface. */ phase1_t public; /** * IKE_SA we negotiate */ ike_sa_t *ike_sa; /** * Currently selected peer config */ peer_cfg_t *peer_cfg; /** * Other possible peer config candidates */ linked_list_t *candidates; /** * Acting as initiator */ bool initiator; /** * Extracted SA payload bytes */ chunk_t sa_payload; /** * DH exchange */ diffie_hellman_t *dh; /** * Keymat derivation (from SA) */ keymat_v1_t *keymat; /** * Received public DH value from peer */ chunk_t dh_value; /** * Initiators nonce */ chunk_t nonce_i; /** * Responder nonce */ chunk_t nonce_r; }; /** * Get the first authentcation config from peer config */ static auth_cfg_t *get_auth_cfg(peer_cfg_t *peer_cfg, bool local) { enumerator_t *enumerator; auth_cfg_t *cfg = NULL; enumerator = peer_cfg->create_auth_cfg_enumerator(peer_cfg, local); enumerator->enumerate(enumerator, &cfg); enumerator->destroy(enumerator); return cfg; } /** * Lookup a shared secret for this IKE_SA */ static shared_key_t *lookup_shared_key(private_phase1_t *this, peer_cfg_t *peer_cfg) { host_t *me, *other; identification_t *my_id, *other_id; shared_key_t *shared_key = NULL; auth_cfg_t *my_auth, *other_auth; enumerator_t *enumerator; /* try to get a PSK for IP addresses */ me = this->ike_sa->get_my_host(this->ike_sa); other = this->ike_sa->get_other_host(this->ike_sa); my_id = identification_create_from_sockaddr(me->get_sockaddr(me)); other_id = identification_create_from_sockaddr(other->get_sockaddr(other)); if (my_id && other_id) { shared_key = lib->credmgr->get_shared(lib->credmgr, SHARED_IKE, my_id, other_id); } DESTROY_IF(my_id); DESTROY_IF(other_id); if (shared_key) { return shared_key; } if (peer_cfg) { /* as initiator or aggressive responder, use identities */ my_auth = get_auth_cfg(peer_cfg, TRUE); other_auth = get_auth_cfg(peer_cfg, FALSE); if (my_auth && other_auth) { my_id = my_auth->get(my_auth, AUTH_RULE_IDENTITY); if (peer_cfg->use_aggressive(peer_cfg)) { other_id = this->ike_sa->get_other_id(this->ike_sa); } else { other_id = other_auth->get(other_auth, AUTH_RULE_IDENTITY); } if (my_id && other_id) { shared_key = lib->credmgr->get_shared(lib->credmgr, SHARED_IKE, my_id, other_id); if (!shared_key) { DBG1(DBG_IKE, "no shared key found for '%Y'[%H] - '%Y'[%H]", my_id, me, other_id, other); } } } return shared_key; } /* as responder, we try to find a config by IP */ enumerator = charon->backends->create_peer_cfg_enumerator(charon->backends, me, other, NULL, NULL, IKEV1); while (enumerator->enumerate(enumerator, &peer_cfg)) { my_auth = get_auth_cfg(peer_cfg, TRUE); other_auth = get_auth_cfg(peer_cfg, FALSE); if (my_auth && other_auth) { my_id = my_auth->get(my_auth, AUTH_RULE_IDENTITY); other_id = other_auth->get(other_auth, AUTH_RULE_IDENTITY); if (my_id) { shared_key = lib->credmgr->get_shared(lib->credmgr, SHARED_IKE, my_id, other_id); if (shared_key) { break; } else { DBG1(DBG_IKE, "no shared key found for '%Y'[%H] - '%Y'[%H]", my_id, me, other_id, other); } } } } enumerator->destroy(enumerator); if (!shared_key) { DBG1(DBG_IKE, "no shared key found for %H - %H", me, other); } return shared_key; } METHOD(phase1_t, create_hasher, bool, private_phase1_t *this) { return this->keymat->create_hasher(this->keymat, this->ike_sa->get_proposal(this->ike_sa)); } METHOD(phase1_t, create_dh, bool, private_phase1_t *this, diffie_hellman_group_t group) { this->dh = this->keymat->keymat.create_dh(&this->keymat->keymat, group); return this->dh != NULL; } METHOD(phase1_t, derive_keys, bool, private_phase1_t *this, peer_cfg_t *peer_cfg, auth_method_t method) { shared_key_t *shared_key = NULL; switch (method) { case AUTH_PSK: case AUTH_XAUTH_INIT_PSK: case AUTH_XAUTH_RESP_PSK: shared_key = lookup_shared_key(this, peer_cfg); if (!shared_key) { return FALSE; } break; default: break; } if (!this->keymat->derive_ike_keys(this->keymat, this->ike_sa->get_proposal(this->ike_sa), this->dh, this->dh_value, this->nonce_i, this->nonce_r, this->ike_sa->get_id(this->ike_sa), method, shared_key)) { DESTROY_IF(shared_key); DBG1(DBG_IKE, "key derivation for %N failed", auth_method_names, method); return FALSE; } charon->bus->ike_keys(charon->bus, this->ike_sa, this->dh, this->dh_value, this->nonce_i, this->nonce_r, NULL, shared_key); DESTROY_IF(shared_key); return TRUE; } /** * Check if a peer skipped authentication by using Hybrid authentication */ static bool skipped_auth(private_phase1_t *this, auth_method_t method, bool local) { bool initiator; initiator = local == this->initiator; if (initiator && method == AUTH_HYBRID_INIT_RSA) { return TRUE; } if (!initiator && method == AUTH_HYBRID_RESP_RSA) { return TRUE; } return FALSE; } /** * Check if remote authentication constraints fulfilled */ static bool check_constraints(private_phase1_t *this, auth_method_t method) { identification_t *id; auth_cfg_t *auth, *cfg; peer_cfg_t *peer_cfg; auth = this->ike_sa->get_auth_cfg(this->ike_sa, FALSE); /* auth identity to comply */ id = this->ike_sa->get_other_id(this->ike_sa); auth->add(auth, AUTH_RULE_IDENTITY, id->clone(id)); if (skipped_auth(this, method, FALSE)) { return TRUE; } peer_cfg = this->ike_sa->get_peer_cfg(this->ike_sa); cfg = get_auth_cfg(peer_cfg, FALSE); return cfg && auth->complies(auth, cfg, TRUE); } /** * Save authentication information after authentication succeeded */ static void save_auth_cfg(private_phase1_t *this, auth_method_t method, bool local) { auth_cfg_t *auth; if (skipped_auth(this, method, local)) { return; } auth = auth_cfg_create(); /* for local config, we _copy_ entires from the config, as it contains * certificates we must send later. */ auth->merge(auth, this->ike_sa->get_auth_cfg(this->ike_sa, local), local); this->ike_sa->add_auth_cfg(this->ike_sa, local, auth); } /** * Create an authenticator instance */ static authenticator_t* create_authenticator(private_phase1_t *this, auth_method_t method, chunk_t id) { authenticator_t *authenticator; authenticator = authenticator_create_v1(this->ike_sa, this->initiator, method, this->dh, this->dh_value, this->sa_payload, id); if (!authenticator) { DBG1(DBG_IKE, "negotiated authentication method %N not supported", auth_method_names, method); } return authenticator; } METHOD(phase1_t, verify_auth, bool, private_phase1_t *this, auth_method_t method, message_t *message, chunk_t id_data) { authenticator_t *authenticator; status_t status; authenticator = create_authenticator(this, method, id_data); if (authenticator) { status = authenticator->process(authenticator, message); authenticator->destroy(authenticator); if (status == SUCCESS && check_constraints(this, method)) { save_auth_cfg(this, method, FALSE); return TRUE; } } return FALSE; } METHOD(phase1_t, build_auth, bool, private_phase1_t *this, auth_method_t method, message_t *message, chunk_t id_data) { authenticator_t *authenticator; status_t status; authenticator = create_authenticator(this, method, id_data); if (authenticator) { status = authenticator->build(authenticator, message); authenticator->destroy(authenticator); if (status == SUCCESS) { save_auth_cfg(this, method, TRUE); return TRUE; } } return FALSE; } /** * Get the two auth classes from local or remote config */ static void get_auth_class(peer_cfg_t *peer_cfg, bool local, auth_class_t *c1, auth_class_t *c2) { enumerator_t *enumerator; auth_cfg_t *auth; *c1 = *c2 = AUTH_CLASS_ANY; enumerator = peer_cfg->create_auth_cfg_enumerator(peer_cfg, local); while (enumerator->enumerate(enumerator, &auth)) { if (*c1 == AUTH_CLASS_ANY) { *c1 = (uintptr_t)auth->get(auth, AUTH_RULE_AUTH_CLASS); } else { *c2 = (uintptr_t)auth->get(auth, AUTH_RULE_AUTH_CLASS); break; } } enumerator->destroy(enumerator); } /** * Select an auth method to use by checking what key we have */ static auth_method_t get_pubkey_method(private_phase1_t *this, auth_cfg_t *auth) { auth_method_t method = AUTH_NONE; identification_t *id; private_key_t *private; if (auth) { id = (identification_t*)auth->get(auth, AUTH_RULE_IDENTITY); if (id) { private = lib->credmgr->get_private(lib->credmgr, KEY_ANY, id, NULL); if (private) { switch (private->get_type(private)) { case KEY_RSA: method = AUTH_RSA; break; case KEY_ECDSA: switch (private->get_keysize(private)) { case 256: method = AUTH_ECDSA_256; break; case 384: method = AUTH_ECDSA_384; break; case 521: method = AUTH_ECDSA_521; break; default: DBG1(DBG_IKE, "%d bit ECDSA private key size not " "supported", private->get_keysize(private)); break; } break; default: DBG1(DBG_IKE, "private key of type %N not supported", key_type_names, private->get_type(private)); break; } private->destroy(private); } else { DBG1(DBG_IKE, "no private key found for '%Y'", id); } } } return method; } /** * Calculate authentication method from a peer config */ static auth_method_t calc_auth_method(private_phase1_t *this, peer_cfg_t *peer_cfg) { auth_class_t i1, i2, r1, r2; get_auth_class(peer_cfg, this->initiator, &i1, &i2); get_auth_class(peer_cfg, !this->initiator, &r1, &r2); if (i1 == AUTH_CLASS_PUBKEY && r1 == AUTH_CLASS_PUBKEY) { if (i2 == AUTH_CLASS_ANY && r2 == AUTH_CLASS_ANY) { /* for any pubkey method, return RSA */ return AUTH_RSA; } if (i2 == AUTH_CLASS_XAUTH) { return AUTH_XAUTH_INIT_RSA; } if (r2 == AUTH_CLASS_XAUTH) { return AUTH_XAUTH_RESP_RSA; } } if (i1 == AUTH_CLASS_PSK && r1 == AUTH_CLASS_PSK) { if (i2 == AUTH_CLASS_ANY && r2 == AUTH_CLASS_ANY) { return AUTH_PSK; } if (i2 == AUTH_CLASS_XAUTH) { return AUTH_XAUTH_INIT_PSK; } if (r2 == AUTH_CLASS_XAUTH) { return AUTH_XAUTH_RESP_PSK; } } if (i1 == AUTH_CLASS_XAUTH && r1 == AUTH_CLASS_PUBKEY && i2 == AUTH_CLASS_ANY && r2 == AUTH_CLASS_ANY) { return AUTH_HYBRID_INIT_RSA; } return AUTH_NONE; } METHOD(phase1_t, get_auth_method, auth_method_t, private_phase1_t *this, peer_cfg_t *peer_cfg) { auth_method_t method; method = calc_auth_method(this, peer_cfg); if (method == AUTH_RSA) { return get_pubkey_method(this, get_auth_cfg(peer_cfg, TRUE)); } return method; } /** * Check if a peer config can be used with a given auth method */ static bool check_auth_method(private_phase1_t *this, peer_cfg_t *peer_cfg, auth_method_t given) { auth_method_t method; method = calc_auth_method(this, peer_cfg); switch (given) { case AUTH_ECDSA_256: case AUTH_ECDSA_384: case AUTH_ECDSA_521: return method == AUTH_RSA; default: return method == given; } } METHOD(phase1_t, select_config, peer_cfg_t*, private_phase1_t *this, auth_method_t method, bool aggressive, identification_t *id) { enumerator_t *enumerator; peer_cfg_t *current; host_t *me, *other; if (this->peer_cfg) { /* try to find an alternative config */ if (this->candidates->remove_first(this->candidates, (void**)¤t) != SUCCESS) { DBG1(DBG_CFG, "no alternative config found"); return NULL; } DBG1(DBG_CFG, "switching to peer config '%s'", current->get_name(current)); return current; } me = this->ike_sa->get_my_host(this->ike_sa); other = this->ike_sa->get_other_host(this->ike_sa); DBG1(DBG_CFG, "looking for %N peer configs matching %H...%H[%Y]", auth_method_names, method, me, other, id); enumerator = charon->backends->create_peer_cfg_enumerator(charon->backends, me, other, NULL, id, IKEV1); while (enumerator->enumerate(enumerator, ¤t)) { if (check_auth_method(this, current, method) && current->use_aggressive(current) == aggressive) { current->get_ref(current); if (!this->peer_cfg) { this->peer_cfg = current; } else { this->candidates->insert_last(this->candidates, current); } } } enumerator->destroy(enumerator); if (this->peer_cfg) { DBG1(DBG_CFG, "selected peer config \"%s\"", this->peer_cfg->get_name(this->peer_cfg)); return this->peer_cfg->get_ref(this->peer_cfg); } DBG1(DBG_IKE, "no peer config found"); return NULL; } METHOD(phase1_t, get_id, identification_t*, private_phase1_t *this, peer_cfg_t *peer_cfg, bool local) { identification_t *id = NULL; auth_cfg_t *auth; auth = get_auth_cfg(peer_cfg, local); if (auth) { id = auth->get(auth, AUTH_RULE_IDENTITY); if (local && (!id || id->get_type(id) == ID_ANY)) { /* no ID configured, use local IP address */ host_t *me; me = this->ike_sa->get_my_host(this->ike_sa); if (!me->is_anyaddr(me)) { id = identification_create_from_sockaddr(me->get_sockaddr(me)); auth->add(auth, AUTH_RULE_IDENTITY, id); } } } return id; } METHOD(phase1_t, has_virtual_ip, bool, private_phase1_t *this, peer_cfg_t *peer_cfg) { enumerator_t *enumerator; bool found = FALSE; host_t *host; enumerator = peer_cfg->create_virtual_ip_enumerator(peer_cfg); found = enumerator->enumerate(enumerator, &host); enumerator->destroy(enumerator); return found; } METHOD(phase1_t, has_pool, bool, private_phase1_t *this, peer_cfg_t *peer_cfg) { enumerator_t *enumerator; bool found = FALSE; char *pool; enumerator = peer_cfg->create_pool_enumerator(peer_cfg); found = enumerator->enumerate(enumerator, &pool); enumerator->destroy(enumerator); return found; } METHOD(phase1_t, save_sa_payload, bool, private_phase1_t *this, message_t *message) { enumerator_t *enumerator; payload_t *payload, *sa = NULL; chunk_t data; size_t offset = IKE_HEADER_LENGTH; enumerator = message->create_payload_enumerator(message); while (enumerator->enumerate(enumerator, &payload)) { if (payload->get_type(payload) == SECURITY_ASSOCIATION_V1) { sa = payload; break; } else { offset += payload->get_length(payload); } } enumerator->destroy(enumerator); data = message->get_packet_data(message); if (sa && data.len >= offset + sa->get_length(sa)) { /* Get SA payload without 4 byte fixed header */ data = chunk_skip(data, offset); data.len = sa->get_length(sa); data = chunk_skip(data, 4); this->sa_payload = chunk_clone(data); return TRUE; } DBG1(DBG_IKE, "unable to extract SA payload encoding"); return FALSE; } METHOD(phase1_t, add_nonce_ke, bool, private_phase1_t *this, message_t *message) { nonce_payload_t *nonce_payload; ke_payload_t *ke_payload; nonce_gen_t *nonceg; chunk_t nonce; ke_payload = ke_payload_create_from_diffie_hellman(KEY_EXCHANGE_V1, this->dh); message->add_payload(message, &ke_payload->payload_interface); nonceg = this->keymat->keymat.create_nonce_gen(&this->keymat->keymat); if (!nonceg) { DBG1(DBG_IKE, "no nonce generator found to create nonce"); return FALSE; } if (!nonceg->allocate_nonce(nonceg, NONCE_SIZE, &nonce)) { DBG1(DBG_IKE, "nonce allocation failed"); nonceg->destroy(nonceg); return FALSE; } nonceg->destroy(nonceg); nonce_payload = nonce_payload_create(NONCE_V1); nonce_payload->set_nonce(nonce_payload, nonce); message->add_payload(message, &nonce_payload->payload_interface); if (this->initiator) { this->nonce_i = nonce; } else { this->nonce_r = nonce; } return TRUE; } METHOD(phase1_t, get_nonce_ke, bool, private_phase1_t *this, message_t *message) { nonce_payload_t *nonce_payload; ke_payload_t *ke_payload; ke_payload = (ke_payload_t*)message->get_payload(message, KEY_EXCHANGE_V1); if (!ke_payload) { DBG1(DBG_IKE, "KE payload missing in message"); return FALSE; } this->dh_value = chunk_clone(ke_payload->get_key_exchange_data(ke_payload)); this->dh->set_other_public_value(this->dh, this->dh_value); nonce_payload = (nonce_payload_t*)message->get_payload(message, NONCE_V1); if (!nonce_payload) { DBG1(DBG_IKE, "NONCE payload missing in message"); return FALSE; } if (this->initiator) { this->nonce_r = nonce_payload->get_nonce(nonce_payload); } else { this->nonce_i = nonce_payload->get_nonce(nonce_payload); } return TRUE; } METHOD(phase1_t, destroy, void, private_phase1_t *this) { DESTROY_IF(this->peer_cfg); this->candidates->destroy_offset(this->candidates, offsetof(peer_cfg_t, destroy)); chunk_free(&this->sa_payload); DESTROY_IF(this->dh); free(this->dh_value.ptr); free(this->nonce_i.ptr); free(this->nonce_r.ptr); free(this); } /** * See header */ phase1_t *phase1_create(ike_sa_t *ike_sa, bool initiator) { private_phase1_t *this; INIT(this, .public = { .create_hasher = _create_hasher, .create_dh = _create_dh, .derive_keys = _derive_keys, .get_auth_method = _get_auth_method, .get_id = _get_id, .select_config = _select_config, .has_virtual_ip = _has_virtual_ip, .has_pool = _has_pool, .verify_auth = _verify_auth, .build_auth = _build_auth, .save_sa_payload = _save_sa_payload, .add_nonce_ke = _add_nonce_ke, .get_nonce_ke = _get_nonce_ke, .destroy = _destroy, }, .candidates = linked_list_create(), .ike_sa = ike_sa, .initiator = initiator, .keymat = (keymat_v1_t*)ike_sa->get_keymat(ike_sa), ); return &this->public; }