/* * Copyright (C) 2008 Tobias Brunner * Copyright (C) 2005-2007 Martin Willi * Copyright (C) 2005 Jan Hutter * Hochschule fuer Technik Rapperswil * * 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. * * $Id: ike_init.c 4206 2008-07-22 17:10:10Z andreas $ */ #include "ike_init.h" #include #include #include #include #include #include #include /** maximum retries to do with cookies/other dh groups */ #define MAX_RETRIES 5 typedef struct private_ike_init_t private_ike_init_t; /** * Private members of a ike_init_t task. */ struct private_ike_init_t { /** * Public methods and task_t interface. */ ike_init_t public; /** * Assigned IKE_SA. */ ike_sa_t *ike_sa; /** * Are we the initiator? */ bool initiator; /** * IKE config to establish */ ike_cfg_t *config; /** * diffie hellman group to use */ diffie_hellman_group_t dh_group; /** * Diffie hellman object used to generate public DH value. */ diffie_hellman_t *dh; /** * nonce chosen by us */ chunk_t my_nonce; /** * nonce chosen by peer */ chunk_t other_nonce; /** * Negotiated proposal used for IKE_SA */ proposal_t *proposal; /** * Old IKE_SA which gets rekeyed */ ike_sa_t *old_sa; /** * cookie received from responder */ chunk_t cookie; /** * retries done so far after failure (cookie or bad dh group) */ u_int retry; }; /** * build the payloads for the message */ static void build_payloads(private_ike_init_t *this, message_t *message) { sa_payload_t *sa_payload; ke_payload_t *ke_payload; nonce_payload_t *nonce_payload; linked_list_t *proposal_list; ike_sa_id_t *id; proposal_t *proposal; iterator_t *iterator; id = this->ike_sa->get_id(this->ike_sa); this->config = this->ike_sa->get_ike_cfg(this->ike_sa); if (this->initiator) { proposal_list = this->config->get_proposals(this->config); if (this->old_sa) { /* include SPI of new IKE_SA when we are rekeying */ iterator = proposal_list->create_iterator(proposal_list, TRUE); while (iterator->iterate(iterator, (void**)&proposal)) { proposal->set_spi(proposal, id->get_initiator_spi(id)); } iterator->destroy(iterator); } sa_payload = sa_payload_create_from_proposal_list(proposal_list); proposal_list->destroy_offset(proposal_list, offsetof(proposal_t, destroy)); } else { if (this->old_sa) { /* include SPI of new IKE_SA when we are rekeying */ this->proposal->set_spi(this->proposal, id->get_responder_spi(id)); } sa_payload = sa_payload_create_from_proposal(this->proposal); } message->add_payload(message, (payload_t*)sa_payload); nonce_payload = nonce_payload_create(); nonce_payload->set_nonce(nonce_payload, this->my_nonce); ke_payload = ke_payload_create_from_diffie_hellman(this->dh); if (this->old_sa) { /* payload order differs if we are rekeying */ message->add_payload(message, (payload_t*)nonce_payload); message->add_payload(message, (payload_t*)ke_payload); } else { message->add_payload(message, (payload_t*)ke_payload); message->add_payload(message, (payload_t*)nonce_payload); } } /** * Read payloads from message */ static void process_payloads(private_ike_init_t *this, message_t *message) { iterator_t *iterator; payload_t *payload; iterator = message->get_payload_iterator(message); while (iterator->iterate(iterator, (void**)&payload)) { switch (payload->get_type(payload)) { case SECURITY_ASSOCIATION: { sa_payload_t *sa_payload = (sa_payload_t*)payload; linked_list_t *proposal_list; proposal_list = sa_payload->get_proposals(sa_payload); this->proposal = this->config->select_proposal(this->config, proposal_list); proposal_list->destroy_offset(proposal_list, offsetof(proposal_t, destroy)); break; } case KEY_EXCHANGE: { ke_payload_t *ke_payload = (ke_payload_t*)payload; this->dh_group = ke_payload->get_dh_group_number(ke_payload); if (!this->initiator) { this->dh = lib->crypto->create_dh(lib->crypto, this->dh_group); } if (this->dh) { this->dh->set_other_public_value(this->dh, ke_payload->get_key_exchange_data(ke_payload)); } break; } case NONCE: { nonce_payload_t *nonce_payload = (nonce_payload_t*)payload; this->other_nonce = nonce_payload->get_nonce(nonce_payload); break; } case VENDOR_ID: { vendor_id_payload_t *vendor_id = (vendor_id_payload_t*)payload; chunk_t vid = vendor_id->get_data(vendor_id); DBG1(DBG_ENC, "received vendor id: %#B", &vid); } default: break; } } iterator->destroy(iterator); } /** * Implementation of task_t.process for initiator */ static status_t build_i(private_ike_init_t *this, message_t *message) { rng_t *rng; this->config = this->ike_sa->get_ike_cfg(this->ike_sa); SIG_IKE(UP_START, "initiating IKE_SA %s[%d] to %H", this->ike_sa->get_name(this->ike_sa), this->ike_sa->get_unique_id(this->ike_sa), this->ike_sa->get_other_host(this->ike_sa)); this->ike_sa->set_state(this->ike_sa, IKE_CONNECTING); if (this->retry++ >= MAX_RETRIES) { SIG_IKE(UP_FAILED, "giving up after %d retries", MAX_RETRIES); return FAILED; } /* if the DH group is set via use_dh_group(), we already have a DH object */ if (!this->dh) { this->dh_group = this->config->get_dh_group(this->config); this->dh = lib->crypto->create_dh(lib->crypto, this->dh_group); if (this->dh == NULL) { SIG_IKE(UP_FAILED, "configured DH group %N not supported", diffie_hellman_group_names, this->dh_group); return FAILED; } } /* generate nonce only when we are trying the first time */ if (this->my_nonce.ptr == NULL) { rng = lib->crypto->create_rng(lib->crypto, RNG_WEAK); if (!rng) { SIG_IKE(UP_FAILED, "error generating nonce"); return FAILED; } rng->allocate_bytes(rng, NONCE_SIZE, &this->my_nonce); rng->destroy(rng); } if (this->cookie.ptr) { message->add_notify(message, FALSE, COOKIE, this->cookie); } build_payloads(this, message); #ifdef ME { chunk_t connect_id = this->ike_sa->get_connect_id(this->ike_sa); if (connect_id.ptr) { message->add_notify(message, FALSE, ME_CONNECTID, connect_id); } } #endif /* ME */ return NEED_MORE; } /** * Implementation of task_t.process for responder */ static status_t process_r(private_ike_init_t *this, message_t *message) { rng_t *rng; this->config = this->ike_sa->get_ike_cfg(this->ike_sa); SIG_IKE(UP_START, "%H is initiating an IKE_SA", message->get_source(message)); this->ike_sa->set_state(this->ike_sa, IKE_CONNECTING); rng = lib->crypto->create_rng(lib->crypto, RNG_WEAK); if (!rng) { DBG1(DBG_IKE, "error generating nonce"); return FAILED; } rng->allocate_bytes(rng, NONCE_SIZE, &this->my_nonce); rng->destroy(rng); #ifdef ME { chunk_t connect_id = chunk_empty; iterator_t *iterator; payload_t *payload; /* check for a ME_CONNECTID notify */ iterator = message->get_payload_iterator(message); while (iterator->iterate(iterator, (void**)&payload)) { if (payload->get_type(payload) == NOTIFY) { notify_payload_t *notify = (notify_payload_t*)payload; notify_type_t type = notify->get_notify_type(notify); switch (type) { case ME_CONNECTID: { chunk_free(&connect_id); connect_id = chunk_clone(notify->get_notification_data(notify)); DBG2(DBG_IKE, "received ME_CONNECTID %#B", &connect_id); break; } default: { if (type < 16383) { DBG1(DBG_IKE, "received %N notify error", notify_type_names, type); break; } DBG2(DBG_IKE, "received %N notify", notify_type_names, type); break; } } } } iterator->destroy(iterator); if (connect_id.ptr) { charon->connect_manager->stop_checks(charon->connect_manager, connect_id); chunk_free(&connect_id); } } #endif /* ME */ process_payloads(this, message); return NEED_MORE; } /** * Implementation of task_t.build for responder */ static status_t build_r(private_ike_init_t *this, message_t *message) { chunk_t secret; status_t status; /* check if we have everything we need */ if (this->proposal == NULL || this->other_nonce.len == 0 || this->my_nonce.len == 0) { SIG_IKE(UP_FAILED, "received proposals inacceptable"); message->add_notify(message, TRUE, NO_PROPOSAL_CHOSEN, chunk_empty); return FAILED; } if (this->dh == NULL || !this->proposal->has_dh_group(this->proposal, this->dh_group) || this->dh->get_shared_secret(this->dh, &secret) != SUCCESS) { u_int16_t group; if (this->proposal->get_algorithm(this->proposal, DIFFIE_HELLMAN_GROUP, &group, NULL)) { SIG_CHD(UP_FAILED, NULL, "DH group %N inacceptable, requesting %N", diffie_hellman_group_names, this->dh_group, diffie_hellman_group_names, group); this->dh_group = group; group = htons(group); message->add_notify(message, FALSE, INVALID_KE_PAYLOAD, chunk_from_thing(group)); } else { SIG_IKE(UP_FAILED, "no acceptable proposal found"); } return FAILED; } if (this->old_sa) { ike_sa_id_t *id; prf_t *prf, *child_prf; /* Apply SPI if we are rekeying */ id = this->ike_sa->get_id(this->ike_sa); id->set_initiator_spi(id, this->proposal->get_spi(this->proposal)); /* setup crypto keys for the rekeyed SA */ prf = this->old_sa->get_prf(this->old_sa); child_prf = this->old_sa->get_child_prf(this->old_sa); status = this->ike_sa->derive_keys(this->ike_sa, this->proposal, secret, this->other_nonce, this->my_nonce, FALSE, child_prf, prf); } else { /* setup crypto keys */ status = this->ike_sa->derive_keys(this->ike_sa, this->proposal, secret, this->other_nonce, this->my_nonce, FALSE, NULL, NULL); } if (status != SUCCESS) { SIG_IKE(UP_FAILED, "key derivation failed"); message->add_notify(message, TRUE, NO_PROPOSAL_CHOSEN, chunk_empty); return FAILED; } /* Keep the selected IKE proposal for status information purposes */ { char buf[BUF_LEN]; snprintf(buf, BUF_LEN, "%P", this->proposal); this->ike_sa->set_proposal(this->ike_sa, buf+4); } build_payloads(this, message); return SUCCESS; } /** * Implementation of task_t.process for initiator */ static status_t process_i(private_ike_init_t *this, message_t *message) { chunk_t secret; status_t status; iterator_t *iterator; payload_t *payload; /* check for erronous notifies */ iterator = message->get_payload_iterator(message); while (iterator->iterate(iterator, (void**)&payload)) { if (payload->get_type(payload) == NOTIFY) { notify_payload_t *notify = (notify_payload_t*)payload; notify_type_t type = notify->get_notify_type(notify); switch (type) { case INVALID_KE_PAYLOAD: { chunk_t data; diffie_hellman_group_t bad_group; bad_group = this->dh_group; data = notify->get_notification_data(notify); this->dh_group = ntohs(*((u_int16_t*)data.ptr)); DBG1(DBG_IKE, "peer didn't accept DH group %N, " "it requested %N", diffie_hellman_group_names, bad_group, diffie_hellman_group_names, this->dh_group); if (this->old_sa == NULL) { /* reset the IKE_SA if we are not rekeying */ this->ike_sa->reset(this->ike_sa); } iterator->destroy(iterator); return NEED_MORE; } case NAT_DETECTION_SOURCE_IP: case NAT_DETECTION_DESTINATION_IP: /* skip, handled in ike_natd_t */ break; case COOKIE: { chunk_free(&this->cookie); this->cookie = chunk_clone(notify->get_notification_data(notify)); this->ike_sa->reset(this->ike_sa); iterator->destroy(iterator); DBG2(DBG_IKE, "received %N notify", notify_type_names, type); return NEED_MORE; } default: { if (type < 16383) { SIG_IKE(UP_FAILED, "received %N notify error", notify_type_names, type); iterator->destroy(iterator); return FAILED; } DBG2(DBG_IKE, "received %N notify", notify_type_names, type); break; } } } } iterator->destroy(iterator); process_payloads(this, message); /* check if we have everything */ if (this->proposal == NULL || this->other_nonce.len == 0 || this->my_nonce.len == 0) { SIG_IKE(UP_FAILED, "peer's proposal selection invalid"); return FAILED; } if (this->dh == NULL || !this->proposal->has_dh_group(this->proposal, this->dh_group) || this->dh->get_shared_secret(this->dh, &secret) != SUCCESS) { SIG_IKE(UP_FAILED, "peer's DH group selection invalid"); return FAILED; } /* Apply SPI if we are rekeying */ if (this->old_sa) { ike_sa_id_t *id; prf_t *prf, *child_prf; id = this->ike_sa->get_id(this->ike_sa); id->set_responder_spi(id, this->proposal->get_spi(this->proposal)); /* setup crypto keys for the rekeyed SA */ prf = this->old_sa->get_prf(this->old_sa); child_prf = this->old_sa->get_child_prf(this->old_sa); status = this->ike_sa->derive_keys(this->ike_sa, this->proposal, secret, this->my_nonce, this->other_nonce, TRUE, child_prf, prf); } else { /* setup crypto keys for a new SA */ status = this->ike_sa->derive_keys(this->ike_sa, this->proposal, secret, this->my_nonce, this->other_nonce, TRUE, NULL, NULL); } if (status != SUCCESS) { SIG_IKE(UP_FAILED, "key derivation failed"); return FAILED; } /* Keep the selected IKE proposal for status information purposes */ { char buf[BUF_LEN]; snprintf(buf, BUF_LEN, "%P", this->proposal); this->ike_sa->set_proposal(this->ike_sa, buf+4); } return SUCCESS; } /** * Implementation of task_t.get_type */ static task_type_t get_type(private_ike_init_t *this) { return IKE_INIT; } /** * Implementation of task_t.get_type */ static chunk_t get_lower_nonce(private_ike_init_t *this) { if (memcmp(this->my_nonce.ptr, this->other_nonce.ptr, min(this->my_nonce.len, this->other_nonce.len)) < 0) { return this->my_nonce; } else { return this->other_nonce; } } /** * Implementation of task_t.migrate */ static void migrate(private_ike_init_t *this, ike_sa_t *ike_sa) { DESTROY_IF(this->proposal); DESTROY_IF(this->dh); chunk_free(&this->other_nonce); this->ike_sa = ike_sa; this->proposal = NULL; this->dh = lib->crypto->create_dh(lib->crypto, this->dh_group); } /** * Implementation of task_t.destroy */ static void destroy(private_ike_init_t *this) { DESTROY_IF(this->proposal); DESTROY_IF(this->dh); chunk_free(&this->my_nonce); chunk_free(&this->other_nonce); chunk_free(&this->cookie); free(this); } /* * Described in header. */ ike_init_t *ike_init_create(ike_sa_t *ike_sa, bool initiator, ike_sa_t *old_sa) { private_ike_init_t *this = malloc_thing(private_ike_init_t); this->public.get_lower_nonce = (chunk_t(*)(ike_init_t*))get_lower_nonce; this->public.task.get_type = (task_type_t(*)(task_t*))get_type; this->public.task.migrate = (void(*)(task_t*,ike_sa_t*))migrate; this->public.task.destroy = (void(*)(task_t*))destroy; if (initiator) { this->public.task.build = (status_t(*)(task_t*,message_t*))build_i; this->public.task.process = (status_t(*)(task_t*,message_t*))process_i; } else { this->public.task.build = (status_t(*)(task_t*,message_t*))build_r; this->public.task.process = (status_t(*)(task_t*,message_t*))process_r; } this->ike_sa = ike_sa; this->initiator = initiator; this->dh_group = MODP_NONE; this->dh = NULL; this->my_nonce = chunk_empty; this->other_nonce = chunk_empty; this->cookie = chunk_empty; this->proposal = NULL; this->config = NULL; this->old_sa = old_sa; this->retry = 0; return &this->public; }