/* $OpenBSD: ike_phase_1.c,v 1.71 2008/02/06 11:37:53 moritz Exp $ */ /* $EOM: ike_phase_1.c,v 1.31 2000/12/11 23:47:56 niklas Exp $ */ /* * Copyright (c) 1999, 2000 Niklas Hallqvist. All rights reserved. * Copyright (c) 1999, 2000 Angelos D. Keromytis. All rights reserved. * Copyright (c) 2001, 2004 Håkan Olsson. All rights reserved. * * Redistribution and use in source and binary forms, with or without * modification, are permitted provided that the following conditions * are met: * 1. Redistributions of source code must retain the above copyright * notice, this list of conditions and the following disclaimer. * 2. Redistributions in binary form must reproduce the above copyright * notice, this list of conditions and the following disclaimer in the * documentation and/or other materials provided with the distribution. * * THIS SOFTWARE IS PROVIDED BY THE AUTHOR ``AS IS'' AND ANY EXPRESS OR * IMPLIED WARRANTIES, INCLUDING, BUT NOT LIMITED TO, THE IMPLIED WARRANTIES * OF MERCHANTABILITY AND FITNESS FOR A PARTICULAR PURPOSE ARE DISCLAIMED. * IN NO EVENT SHALL THE AUTHOR BE LIABLE FOR ANY DIRECT, INDIRECT, * INCIDENTAL, SPECIAL, EXEMPLARY, OR CONSEQUENTIAL DAMAGES (INCLUDING, BUT * NOT LIMITED TO, PROCUREMENT OF SUBSTITUTE GOODS OR SERVICES; LOSS OF USE, * DATA, OR PROFITS; OR BUSINESS INTERRUPTION) HOWEVER CAUSED AND ON ANY * THEORY OF LIABILITY, WHETHER IN CONTRACT, STRICT LIABILITY, OR TORT * (INCLUDING NEGLIGENCE OR OTHERWISE) ARISING IN ANY WAY OUT OF THE USE OF * THIS SOFTWARE, EVEN IF ADVISED OF THE POSSIBILITY OF SUCH DAMAGE. */ /* * This code was written under funding by Ericsson Radio Systems. */ #include #include #include #include #include #include "attribute.h" #include "conf.h" #include "constants.h" #include "crypto.h" #include "dh.h" #include "doi.h" #include "dpd.h" #include "exchange.h" #include "hash.h" #include "ike_auth.h" #include "ike_phase_1.h" #include "ipsec.h" #include "ipsec_doi.h" #include "isakmp.h" #include "log.h" #include "math_group.h" #include "message.h" #include "nat_traversal.h" #include "prf.h" #include "sa.h" #include "transport.h" #include "util.h" #include "vendor.h" static int attribute_unacceptable(u_int16_t, u_int8_t *, u_int16_t, void *); static int ike_phase_1_validate_prop(struct exchange *, struct sa *, struct sa *); /* Offer a set of transforms to the responder in the MSG message. */ int ike_phase_1_initiator_send_SA(struct message *msg) { struct exchange *exchange = msg->exchange; struct ipsec_exch *ie = exchange->data; u_int8_t *proposal = 0, *sa_buf = 0, *saved_nextp, *attr; u_int8_t **transform = 0; size_t transforms_len = 0, proposal_len, sa_len; size_t *transform_len = 0; struct conf_list *conf, *life_conf; struct conf_list_node *xf, *life; int value, update_nextp; size_t i; struct payload *p; struct proto *proto; struct proto_attr *pa; int group_desc = -1, new_group_desc; /* Get the list of transforms. */ conf = conf_get_list(exchange->policy, "Transforms"); if (!conf) return -1; transform = calloc(conf->cnt, sizeof *transform); if (!transform) { log_error("ike_phase_1_initiator_send_SA: calloc (%lu, %lu) " "failed", (u_long)conf->cnt, (u_long)sizeof *transform); goto bail_out; } transform_len = calloc(conf->cnt, sizeof *transform_len); if (!transform_len) { log_error("ike_phase_1_initiator_send_SA: calloc (%lu, %lu) " "failed", (u_long)conf->cnt, (u_long)sizeof *transform_len); goto bail_out; } for (xf = TAILQ_FIRST(&conf->fields), i = 0; i < conf->cnt; i++, xf = TAILQ_NEXT(xf, link)) { /* XXX The sizing needs to be dynamic. */ transform[i] = malloc(ISAKMP_TRANSFORM_SA_ATTRS_OFF + 16 * ISAKMP_ATTR_VALUE_OFF); if (!transform[i]) { log_error("ike_phase_1_initiator_send_SA: malloc (%d) " "failed", ISAKMP_TRANSFORM_SA_ATTRS_OFF + 16 * ISAKMP_ATTR_VALUE_OFF); goto bail_out; } SET_ISAKMP_TRANSFORM_NO(transform[i], i); SET_ISAKMP_TRANSFORM_ID(transform[i], IPSEC_TRANSFORM_KEY_IKE); SET_ISAKMP_TRANSFORM_RESERVED(transform[i], 0); attr = transform[i] + ISAKMP_TRANSFORM_SA_ATTRS_OFF; if (attribute_set_constant(xf->field, "ENCRYPTION_ALGORITHM", ike_encrypt_cst, IKE_ATTR_ENCRYPTION_ALGORITHM, &attr)) goto bail_out; if (attribute_set_constant(xf->field, "HASH_ALGORITHM", ike_hash_cst, IKE_ATTR_HASH_ALGORITHM, &attr)) goto bail_out; if (attribute_set_constant(xf->field, "AUTHENTICATION_METHOD", ike_auth_cst, IKE_ATTR_AUTHENTICATION_METHOD, &attr)) goto bail_out; if (attribute_set_constant(xf->field, "GROUP_DESCRIPTION", ike_group_desc_cst, IKE_ATTR_GROUP_DESCRIPTION, &attr)) { /* * If no group description exists, try looking for * a user-defined one. */ if (attribute_set_constant(xf->field, "GROUP_TYPE", ike_group_cst, IKE_ATTR_GROUP_TYPE, &attr)) goto bail_out; #if 0 if (attribute_set_bignum(xf->field, "GROUP_PRIME", IKE_ATTR_GROUP_PRIME, &attr)) goto bail_out; if (attribute_set_bignum(xf->field, "GROUP_GENERATOR_2", IKE_ATTR_GROUP_GENERATOR_2, &attr)) goto bail_out; if (attribute_set_bignum(xf->field, "GROUP_GENERATOR_2", IKE_ATTR_GROUP_GENERATOR_2, &attr)) goto bail_out; if (attribute_set_bignum(xf->field, "GROUP_CURVE_A", IKE_ATTR_GROUP_CURVE_A, &attr)) goto bail_out; if (attribute_set_bignum(xf->field, "GROUP_CURVE_B", IKE_ATTR_GROUP_CURVE_B, &attr)) goto bail_out; #endif } /* * Life durations are special, we should be able to specify * several, one per type. */ life_conf = conf_get_list(xf->field, "Life"); if (life_conf) { for (life = TAILQ_FIRST(&life_conf->fields); life; life = TAILQ_NEXT(life, link)) { attribute_set_constant(life->field, "LIFE_TYPE", ike_duration_cst, IKE_ATTR_LIFE_TYPE, &attr); /* * XXX Deals with 16 and 32 bit lifetimes * only */ value = conf_get_num(life->field, "LIFE_DURATION", 0); if (value) { if (value <= 0xffff) attr = attribute_set_basic( attr, IKE_ATTR_LIFE_DURATION, value); else { value = htonl(value); attr = attribute_set_var(attr, IKE_ATTR_LIFE_DURATION, (u_int8_t *)&value, sizeof value); } } } conf_free_list(life_conf); } attribute_set_constant(xf->field, "PRF", ike_prf_cst, IKE_ATTR_PRF, &attr); value = conf_get_num(xf->field, "KEY_LENGTH", 0); if (value) attr = attribute_set_basic(attr, IKE_ATTR_KEY_LENGTH, value); value = conf_get_num(xf->field, "FIELD_SIZE", 0); if (value) attr = attribute_set_basic(attr, IKE_ATTR_FIELD_SIZE, value); value = conf_get_num(xf->field, "GROUP_ORDER", 0); if (value) attr = attribute_set_basic(attr, IKE_ATTR_GROUP_ORDER, value); /* Record the real transform size. */ transforms_len += transform_len[i] = attr - transform[i]; /* XXX I don't like exchange-specific stuff in here. */ if (exchange->type == ISAKMP_EXCH_AGGRESSIVE) { /* * Make sure that if a group description is specified, * it is specified for all transforms equally. */ attr = (u_int8_t *)conf_get_str(xf->field, "GROUP_DESCRIPTION"); new_group_desc = attr ? constant_value(ike_group_desc_cst, (char *)attr) : 0; if (group_desc == -1) group_desc = new_group_desc; else if (group_desc != new_group_desc) { log_print("ike_phase_1_initiator_send_SA: " "differing group descriptions in a " "proposal"); goto bail_out; } } /* * We need to check that we actually support our * configuration. */ if (attribute_map(transform[i] + ISAKMP_TRANSFORM_SA_ATTRS_OFF, transform_len[i] - ISAKMP_TRANSFORM_SA_ATTRS_OFF, exchange->doi->is_attribute_incompatible, msg)) { log_print("ike_phase_1_initiator_send_SA: " "section [%s] has unsupported attribute(s)", xf->field); goto bail_out; } } /* XXX I don't like exchange-specific stuff in here. */ if (exchange->type == ISAKMP_EXCH_AGGRESSIVE) ie->group = group_get(group_desc); proposal_len = ISAKMP_PROP_SPI_OFF; proposal = malloc(proposal_len); if (!proposal) { log_error("ike_phase_1_initiator_send_SA: malloc (%lu) failed", (unsigned long)proposal_len); goto bail_out; } SET_ISAKMP_PROP_NO(proposal, 1); SET_ISAKMP_PROP_PROTO(proposal, ISAKMP_PROTO_ISAKMP); SET_ISAKMP_PROP_SPI_SZ(proposal, 0); SET_ISAKMP_PROP_NTRANSFORMS(proposal, conf->cnt); /* XXX I would like to see this factored out. */ proto = calloc(1, sizeof *proto); if (!proto) { log_error("ike_phase_1_initiator_send_SA: " "calloc (1, %lu) failed", (unsigned long)sizeof *proto); goto bail_out; } proto->no = 1; proto->proto = ISAKMP_PROTO_ISAKMP; proto->sa = TAILQ_FIRST(&exchange->sa_list); proto->xf_cnt = conf->cnt; TAILQ_INIT(&proto->xfs); for (i = 0; i < proto->xf_cnt; i++) { pa = (struct proto_attr *)calloc(1, sizeof *pa); if (!pa) goto bail_out; pa->len = transform_len[i]; pa->attrs = (u_int8_t *)malloc(pa->len); if (!pa->attrs) { free(pa); goto bail_out; } memcpy(pa->attrs, transform[i], pa->len); TAILQ_INSERT_TAIL(&proto->xfs, pa, next); } TAILQ_INSERT_TAIL(&TAILQ_FIRST(&exchange->sa_list)->protos, proto, link); sa_len = ISAKMP_SA_SIT_OFF + IPSEC_SIT_SIT_LEN; sa_buf = malloc(sa_len); if (!sa_buf) { log_error("ike_phase_1_initiator_send_SA: malloc (%lu) failed", (unsigned long)sa_len); goto bail_out; } SET_ISAKMP_SA_DOI(sa_buf, IPSEC_DOI_IPSEC); SET_IPSEC_SIT_SIT(sa_buf + ISAKMP_SA_SIT_OFF, IPSEC_SIT_IDENTITY_ONLY); /* * Add the payloads. As this is a SA, we need to recompute the * lengths of the payloads containing others. */ if (message_add_payload(msg, ISAKMP_PAYLOAD_SA, sa_buf, sa_len, 1)) goto bail_out; SET_ISAKMP_GEN_LENGTH(sa_buf, sa_len + proposal_len + transforms_len); sa_buf = 0; saved_nextp = msg->nextp; if (message_add_payload(msg, ISAKMP_PAYLOAD_PROPOSAL, proposal, proposal_len, 0)) goto bail_out; SET_ISAKMP_GEN_LENGTH(proposal, proposal_len + transforms_len); proposal = 0; update_nextp = 0; for (i = 0; i < conf->cnt; i++) { if (message_add_payload(msg, ISAKMP_PAYLOAD_TRANSFORM, transform[i], transform_len[i], update_nextp)) goto bail_out; update_nextp = 1; transform[i] = 0; } msg->nextp = saved_nextp; /* Save SA payload body in ie->sa_i_b, length ie->sa_i_b_len. */ ie->sa_i_b_len = sa_len + proposal_len + transforms_len - ISAKMP_GEN_SZ; ie->sa_i_b = malloc(ie->sa_i_b_len); if (!ie->sa_i_b) { log_error("ike_phase_1_initiator_send_SA: malloc (%lu) failed", (unsigned long)ie->sa_i_b_len); goto bail_out; } memcpy(ie->sa_i_b, payload_first(msg, ISAKMP_PAYLOAD_SA)->p + ISAKMP_GEN_SZ, sa_len - ISAKMP_GEN_SZ); memcpy(ie->sa_i_b + sa_len - ISAKMP_GEN_SZ, payload_first(msg, ISAKMP_PAYLOAD_PROPOSAL)->p, proposal_len); transforms_len = 0; for (i = 0, p = TAILQ_FIRST(&msg->payload[ISAKMP_PAYLOAD_TRANSFORM]); i < conf->cnt; i++, p = TAILQ_NEXT(p, link)) { memcpy(ie->sa_i_b + sa_len + proposal_len + transforms_len - ISAKMP_GEN_SZ, p->p, transform_len[i]); transforms_len += transform_len[i]; } /* Advertise OpenBSD isakmpd. */ if (add_vendor_openbsd(msg)) goto bail_out; /* Advertise NAT-T capability. */ if (nat_t_add_vendor_payloads(msg)) goto bail_out; /* Advertise DPD capability. */ if (dpd_add_vendor_payload(msg)) goto bail_out; conf_free_list(conf); free(transform); free(transform_len); return 0; bail_out: free(sa_buf); free(proposal); if (transform) { for (i = 0; i < conf->cnt; i++) if (transform[i]) free(transform[i]); free(transform); } free(transform_len); conf_free_list(conf); return -1; } /* Figure out what transform the responder chose. */ int ike_phase_1_initiator_recv_SA(struct message *msg) { struct exchange *exchange = msg->exchange; struct sa *sa = TAILQ_FIRST(&exchange->sa_list); struct ipsec_exch *ie = exchange->data; struct ipsec_sa *isa = sa->data; struct payload *sa_p = payload_first(msg, ISAKMP_PAYLOAD_SA); struct payload *prop = payload_first(msg, ISAKMP_PAYLOAD_PROPOSAL); struct payload *xf = payload_first(msg, ISAKMP_PAYLOAD_TRANSFORM); /* * IKE requires that only one SA with only one proposal exists and * since we are getting an answer on our transform offer, only one * transform. */ if (TAILQ_NEXT(sa_p, link) || TAILQ_NEXT(prop, link) || TAILQ_NEXT(xf, link)) { log_print("ike_phase_1_initiator_recv_SA: " "multiple SA, proposal or transform payloads in phase 1"); /* XXX Is there a better notification type? */ message_drop(msg, ISAKMP_NOTIFY_PAYLOAD_MALFORMED, 0, 1, 0); return -1; } /* Check that the chosen transform matches an offer. */ if (message_negotiate_sa(msg, ike_phase_1_validate_prop) || !TAILQ_FIRST(&sa->protos)) return -1; ipsec_decode_transform(msg, sa, TAILQ_FIRST(&sa->protos), xf->p); /* XXX I don't like exchange-specific stuff in here. */ if (exchange->type != ISAKMP_EXCH_AGGRESSIVE) ie->group = group_get(isa->group_desc); /* Mark the SA as handled. */ sa_p->flags |= PL_MARK; return 0; } /* Send our public DH value and a nonce to the responder. */ int ike_phase_1_initiator_send_KE_NONCE(struct message *msg) { struct ipsec_exch *ie = msg->exchange->data; ie->g_x_len = dh_getlen(ie->group); /* XXX I want a better way to specify the nonce's size. */ return ike_phase_1_send_KE_NONCE(msg, 16); } /* Accept responder's public DH value and nonce. */ int ike_phase_1_initiator_recv_KE_NONCE(struct message *msg) { if (ike_phase_1_recv_KE_NONCE(msg)) return -1; return ike_phase_1_post_exchange_KE_NONCE(msg); } /* * Accept a set of transforms offered by the initiator and chose one we can * handle. */ int ike_phase_1_responder_recv_SA(struct message *msg) { struct exchange *exchange = msg->exchange; struct sa *sa = TAILQ_FIRST(&exchange->sa_list); struct ipsec_sa *isa = sa->data; struct payload *sa_p = payload_first(msg, ISAKMP_PAYLOAD_SA); struct payload *prop = payload_first(msg, ISAKMP_PAYLOAD_PROPOSAL); struct ipsec_exch *ie = exchange->data; /* Mark the SA as handled. */ sa_p->flags |= PL_MARK; /* IKE requires that only one SA with only one proposal exists. */ if (TAILQ_NEXT(sa_p, link) || TAILQ_NEXT(prop, link)) { log_print("ike_phase_1_responder_recv_SA: " "multiple SA or proposal payloads in phase 1"); /* XXX Is there a better notification type? */ message_drop(msg, ISAKMP_NOTIFY_PAYLOAD_MALFORMED, 0, 1, 0); return -1; } /* Chose a transform from the SA. */ if (message_negotiate_sa(msg, ike_phase_1_validate_prop) || !TAILQ_FIRST(&sa->protos)) return -1; /* XXX Move into message_negotiate_sa? */ ipsec_decode_transform(msg, sa, TAILQ_FIRST(&sa->protos), TAILQ_FIRST(&sa->protos)->chosen->p); ie->group = group_get(isa->group_desc); /* * Check that the mandatory attributes: encryption, hash, * authentication method and Diffie-Hellman group description, has * been supplied. */ if (!exchange->crypto || !ie->hash || !ie->ike_auth || !ie->group) { message_drop(msg, ISAKMP_NOTIFY_PAYLOAD_MALFORMED, 0, 1, 0); return -1; } /* Save the body for later hash computation. */ ie->sa_i_b_len = GET_ISAKMP_GEN_LENGTH(sa_p->p) - ISAKMP_GEN_SZ; ie->sa_i_b = malloc(ie->sa_i_b_len); if (!ie->sa_i_b) { /* XXX How to notify peer? */ log_error("ike_phase_1_responder_recv_SA: malloc (%lu) failed", (unsigned long)ie->sa_i_b_len); return -1; } memcpy(ie->sa_i_b, sa_p->p + ISAKMP_GEN_SZ, ie->sa_i_b_len); return 0; } /* Reply with the transform we chose. */ int ike_phase_1_responder_send_SA(struct message *msg) { /* Add the SA payload with the transform that was chosen. */ if (message_add_sa_payload(msg)) return -1; /* Advertise OpenBSD isakmpd. */ if (add_vendor_openbsd(msg)) return -1; /* Advertise NAT-T capability. */ if (nat_t_add_vendor_payloads(msg)) return -1; /* Advertise DPD capability. */ if (dpd_add_vendor_payload(msg)) return -1; return 0; } /* Send our public DH value and a nonce to the peer. */ int ike_phase_1_send_KE_NONCE(struct message *msg, size_t nonce_sz) { /* Public DH key. */ if (ipsec_gen_g_x(msg)) { /* XXX How to log and notify peer? */ return -1; } /* Generate a nonce, and add it to the message. */ if (exchange_gen_nonce(msg, nonce_sz)) { /* XXX Log? */ return -1; } /* Are there any CERTREQs to send? */ if (exchange_add_certreqs(msg)) { /* XXX Log? */ return -1; } /* Try to add certificates which are acceptable for the CERTREQs */ if (exchange_add_certs(msg)) { /* XXX Log? */ return -1; } /* If this exchange uses NAT-Traversal, add NAT-D payloads now. */ if (msg->exchange->flags & EXCHANGE_FLAG_NAT_T_CAP_PEER) if (nat_t_exchange_add_nat_d(msg)) { /* XXX Log? */ return -1; } return 0; } /* Receive our peer's public DH value and nonce. */ int ike_phase_1_recv_KE_NONCE(struct message *msg) { /* Copy out the initiator's DH public value. */ if (ipsec_save_g_x(msg)) { /* XXX How to log and notify peer? */ return -1; } /* Copy out the initiator's nonce. */ if (exchange_save_nonce(msg)) { /* XXX How to log and notify peer? */ return -1; } /* Copy out the initiator's cert requests. */ if (exchange_save_certreq(msg)) { /* XXX How to log and notify peer? */ return -1; } /* MainMode: Check for NAT-D payloads and contents. */ if (msg->exchange->type == ISAKMP_EXCH_ID_PROT && msg->exchange->flags & EXCHANGE_FLAG_NAT_T_CAP_PEER) (void)nat_t_exchange_check_nat_d(msg); return 0; } /* * Compute DH values and key material. This is done in a post-send function * as that means we can do parallel work in both the initiator and responder * thus speeding up exchanges. */ int ike_phase_1_post_exchange_KE_NONCE(struct message *msg) { struct exchange *exchange = msg->exchange; struct ipsec_exch *ie = exchange->data; struct prf *prf; struct hash *hash = ie->hash; enum cryptoerr err; /* Compute Diffie-Hellman shared value. */ ie->g_xy = malloc(ie->g_x_len); if (!ie->g_xy) { /* XXX How to notify peer? */ log_error("ike_phase_1_post_exchange_KE_NONCE: " "malloc (%lu) failed", (unsigned long)ie->g_x_len); return -1; } if (dh_create_shared(ie->group, ie->g_xy, exchange->initiator ? ie->g_xr : ie->g_xi)) { log_print("ike_phase_1_post_exchange_KE_NONCE: " "dh_create_shared failed"); return -1; } LOG_DBG_BUF((LOG_NEGOTIATION, 80, "ike_phase_1_post_exchange_KE_NONCE: g^xy", ie->g_xy, ie->g_x_len)); /* Compute the SKEYID depending on the authentication method. */ ie->skeyid = ie->ike_auth->gen_skeyid(exchange, &ie->skeyid_len); if (!ie->skeyid) { /* XXX Log and teardown? */ return -1; } LOG_DBG_BUF((LOG_NEGOTIATION, 80, "ike_phase_1_post_exchange_KE_NONCE: SKEYID", ie->skeyid, ie->skeyid_len)); /* SKEYID_d. */ ie->skeyid_d = malloc(ie->skeyid_len); if (!ie->skeyid_d) { /* XXX How to notify peer? */ log_error("ike_phase_1_post_exchange_KE_NONCE: " "malloc (%lu) failed", (unsigned long)ie->skeyid_len); return -1; } prf = prf_alloc(ie->prf_type, hash->type, ie->skeyid, ie->skeyid_len); if (!prf) { /* XXX Log and teardown? */ return -1; } prf->Init(prf->prfctx); prf->Update(prf->prfctx, ie->g_xy, ie->g_x_len); prf->Update(prf->prfctx, exchange->cookies, ISAKMP_HDR_COOKIES_LEN); prf->Update(prf->prfctx, (unsigned char *)"\0", 1); prf->Final(ie->skeyid_d, prf->prfctx); LOG_DBG_BUF((LOG_NEGOTIATION, 80, "ike_phase_1_post_exchange_KE_NONCE: SKEYID_d", ie->skeyid_d, ie->skeyid_len)); /* SKEYID_a. */ ie->skeyid_a = malloc(ie->skeyid_len); if (!ie->skeyid_a) { log_error("ike_phase_1_post_exchange_KE_NONCE: " "malloc (%lu) failed", (unsigned long)ie->skeyid_len); prf_free(prf); return -1; } prf->Init(prf->prfctx); prf->Update(prf->prfctx, ie->skeyid_d, ie->skeyid_len); prf->Update(prf->prfctx, ie->g_xy, ie->g_x_len); prf->Update(prf->prfctx, exchange->cookies, ISAKMP_HDR_COOKIES_LEN); prf->Update(prf->prfctx, (unsigned char *)"\1", 1); prf->Final(ie->skeyid_a, prf->prfctx); LOG_DBG_BUF((LOG_NEGOTIATION, 80, "ike_phase_1_post_exchange_KE_NONCE: SKEYID_a", ie->skeyid_a, ie->skeyid_len)); /* SKEYID_e. */ ie->skeyid_e = malloc(ie->skeyid_len); if (!ie->skeyid_e) { /* XXX How to notify peer? */ log_error("ike_phase_1_post_exchange_KE_NONCE: " "malloc (%lu) failed", (unsigned long)ie->skeyid_len); prf_free(prf); return -1; } prf->Init(prf->prfctx); prf->Update(prf->prfctx, ie->skeyid_a, ie->skeyid_len); prf->Update(prf->prfctx, ie->g_xy, ie->g_x_len); prf->Update(prf->prfctx, exchange->cookies, ISAKMP_HDR_COOKIES_LEN); prf->Update(prf->prfctx, (unsigned char *)"\2", 1); prf->Final(ie->skeyid_e, prf->prfctx); prf_free(prf); LOG_DBG_BUF((LOG_NEGOTIATION, 80, "ike_phase_1_post_exchange_KE_NONCE: SKEYID_e", ie->skeyid_e, ie->skeyid_len)); /* Key length determination. */ if (!exchange->key_length) exchange->key_length = exchange->crypto->keymax; /* Derive a longer key from skeyid_e */ if (ie->skeyid_len < exchange->key_length) { u_int16_t len, keylen; u_int8_t *key, *p; prf = prf_alloc(ie->prf_type, hash->type, ie->skeyid_e, ie->skeyid_len); if (!prf) { /* XXX - notify peer */ return -1; } /* Make keylen a multiple of prf->blocksize */ keylen = exchange->key_length; if (keylen % prf->blocksize) keylen += prf->blocksize - (keylen % prf->blocksize); key = malloc(keylen); if (!key) { /* XXX - Notify peer. */ log_error("ike_phase_1_post_exchange_KE_NONCE: " "malloc (%d) failed", keylen); return -1; } prf->Init(prf->prfctx); prf->Update(prf->prfctx, (unsigned char *)"\0", 1); prf->Final(key, prf->prfctx); for (len = prf->blocksize, p = key; len < exchange->key_length; len += prf->blocksize, p += prf->blocksize) { prf->Init(prf->prfctx); prf->Update(prf->prfctx, p, prf->blocksize); prf->Final(p + prf->blocksize, prf->prfctx); } prf_free(prf); /* Setup our keystate using the derived encryption key. */ exchange->keystate = crypto_init(exchange->crypto, key, exchange->key_length, &err); free(key); } else /* Setup our keystate using the raw skeyid_e. */ exchange->keystate = crypto_init(exchange->crypto, ie->skeyid_e, exchange->key_length, &err); /* Special handling for DES weak keys. */ if (!exchange->keystate && err == EWEAKKEY && (exchange->key_length << 1) <= ie->skeyid_len) { log_print("ike_phase_1_post_exchange_KE_NONCE: " "weak key, trying subseq. skeyid_e"); exchange->keystate = crypto_init(exchange->crypto, ie->skeyid_e + exchange->key_length, exchange->key_length, &err); } if (!exchange->keystate) { log_print("ike_phase_1_post_exchange_KE_NONCE: " "exchange->crypto->init () failed: %d", err); /* * XXX We really need to know if problems are of transient * nature or fatal (like failed assertions etc.) */ return -1; } /* Setup IV. XXX Only for CBC transforms, no? */ hash->Init(hash->ctx); hash->Update(hash->ctx, ie->g_xi, ie->g_x_len); hash->Update(hash->ctx, ie->g_xr, ie->g_x_len); hash->Final(hash->digest, hash->ctx); crypto_init_iv(exchange->keystate, hash->digest, exchange->crypto->blocksize); return 0; } int ike_phase_1_responder_send_ID_AUTH(struct message *msg) { if (ike_phase_1_send_ID(msg)) return -1; return ike_phase_1_send_AUTH(msg); } int ike_phase_1_send_ID(struct message *msg) { struct exchange *exchange = msg->exchange; u_int8_t *buf; char header[80]; ssize_t sz; struct sockaddr *src; int initiator = exchange->initiator; u_int8_t **id; size_t *id_len; char *my_id = 0, *data; u_int8_t id_type; sa_family_t af = 0; /* Choose the right fields to fill-in. */ id = initiator ? &exchange->id_i : &exchange->id_r; id_len = initiator ? &exchange->id_i_len : &exchange->id_r_len; if (exchange->name) my_id = conf_get_str(exchange->name, "ID"); if (!my_id) my_id = conf_get_str("General", "Default-phase-1-ID"); msg->transport->vtbl->get_src(msg->transport, &src); sz = my_id ? ipsec_id_size(my_id, &id_type) : sockaddr_addrlen(src); if (sz == -1) return -1; sz += ISAKMP_ID_DATA_OFF; buf = malloc(sz); if (!buf) { log_error("ike_phase_1_send_ID: malloc (%lu) failed", (unsigned long)sz); return -1; } SET_IPSEC_ID_PROTO(buf + ISAKMP_ID_DOI_DATA_OFF, 0); SET_IPSEC_ID_PORT(buf + ISAKMP_ID_DOI_DATA_OFF, 0); if (my_id) { SET_ISAKMP_ID_TYPE(buf, id_type); switch (id_type) { case IPSEC_ID_IPV4_ADDR: case IPSEC_ID_IPV4_ADDR_SUBNET: af = AF_INET; break; case IPSEC_ID_IPV6_ADDR: case IPSEC_ID_IPV6_ADDR_SUBNET: af = AF_INET6; break; } switch (id_type) { case IPSEC_ID_IPV4_ADDR: case IPSEC_ID_IPV6_ADDR: data = conf_get_str(my_id, "Address"); if (!data) { log_print("ike_phase_1_send_ID: section %s " "has no \"Address\" tag", my_id); free(buf); return -1; } if (text2sockaddr(data, NULL, &src, af, 0)) { log_error("ike_phase_1_send_ID: " "text2sockaddr() failed"); free(buf); return -1; } memcpy(buf + ISAKMP_ID_DATA_OFF, sockaddr_addrdata(src), sockaddr_addrlen(src)); free(src); break; case IPSEC_ID_IPV4_ADDR_SUBNET: case IPSEC_ID_IPV6_ADDR_SUBNET: /* Network */ data = conf_get_str(my_id, "Network"); if (!data) { log_print("ike_phase_1_send_ID: section %s " "has no \"Network\" tag", my_id); free(buf); return -1; } if (text2sockaddr(data, NULL, &src, af, 0)) { log_error("ike_phase_1_send_ID: " "text2sockaddr() failed"); free(buf); return -1; } memcpy(buf + ISAKMP_ID_DATA_OFF, sockaddr_addrdata(src), sockaddr_addrlen(src)); free(src); /* Netmask */ data = conf_get_str(my_id, "Netmask"); if (!data) { log_print("ike_phase_1_send_ID: section %s " "has no \"Netmask\" tag", my_id); free(buf); return -1; } if (text2sockaddr(data, NULL, &src, af, 1)) { log_error("ike_phase_1_send_ID: " "text2sockaddr() failed"); free(buf); return -1; } memcpy(buf + ISAKMP_ID_DATA_OFF + sockaddr_addrlen(src), sockaddr_addrdata(src), sockaddr_addrlen(src)); free(src); break; case IPSEC_ID_FQDN: case IPSEC_ID_USER_FQDN: case IPSEC_ID_KEY_ID: data = conf_get_str(my_id, "Name"); if (!data) { log_print("ike_phase_1_send_ID: section %s " "has no \"Name\" tag", my_id); free(buf); return -1; } memcpy(buf + ISAKMP_ID_DATA_OFF, data, sz - ISAKMP_ID_DATA_OFF); break; default: log_print("ike_phase_1_send_ID: " "unsupported ID type %d", id_type); free(buf); return -1; } } else { switch (src->sa_family) { case AF_INET: SET_ISAKMP_ID_TYPE(buf, IPSEC_ID_IPV4_ADDR); break; case AF_INET6: SET_ISAKMP_ID_TYPE(buf, IPSEC_ID_IPV6_ADDR); break; } /* Already in network byteorder. */ memcpy(buf + ISAKMP_ID_DATA_OFF, sockaddr_addrdata(src), sockaddr_addrlen(src)); } if (message_add_payload(msg, ISAKMP_PAYLOAD_ID, buf, sz, 1)) { free(buf); return -1; } *id_len = sz - ISAKMP_GEN_SZ; *id = malloc(*id_len); if (!*id) { log_error("ike_phase_1_send_ID: malloc (%lu) failed", (unsigned long)*id_len); return -1; } memcpy(*id, buf + ISAKMP_GEN_SZ, *id_len); snprintf(header, sizeof header, "ike_phase_1_send_ID: %s", constant_name(ipsec_id_cst, GET_ISAKMP_ID_TYPE(buf))); LOG_DBG_BUF((LOG_NEGOTIATION, 40, header, buf + ISAKMP_ID_DATA_OFF, sz - ISAKMP_ID_DATA_OFF)); return 0; } int ike_phase_1_send_AUTH(struct message *msg) { struct exchange *exchange = msg->exchange; struct ipsec_exch *ie = exchange->data; if (ie->ike_auth->encode_hash(msg)) { /* XXX Log? */ return -1; } /* * XXX Many people say the COMMIT flag is just junk, especially in * Phase 1. */ #ifdef notyet if ((exchange->flags & EXCHANGE_FLAG_COMMITTED) == 0) exchange->flags |= EXCHANGE_FLAG_I_COMMITTED; #endif return 0; } /* Receive ID and HASH and check that the exchange has been consistent. */ int ike_phase_1_recv_ID_AUTH(struct message *msg) { if (ike_phase_1_recv_ID(msg)) return -1; return ike_phase_1_recv_AUTH(msg); } /* Receive ID. */ int ike_phase_1_recv_ID(struct message *msg) { struct exchange *exchange = msg->exchange; struct payload *payload; char header[80], *rs = 0, *rid = 0, *p; int initiator = exchange->initiator; u_int8_t **id, id_type; size_t *id_len; ssize_t sz; struct sockaddr *sa; sa_family_t af = 0; payload = payload_first(msg, ISAKMP_PAYLOAD_ID); if (exchange->name) rs = conf_get_str(exchange->name, "Remote-ID"); if (rs) { sz = ipsec_id_size(rs, &id_type); if (sz == -1) { log_print("ike_phase_1_recv_ID: could not handle " "specified Remote-ID [%s]", rs); return -1; } rid = malloc(sz); if (!rid) { log_error("ike_phase_1_recv_ID: malloc (%lu) failed", (unsigned long)sz); return -1; } switch (id_type) { case IPSEC_ID_IPV4_ADDR: af = AF_INET; break; case IPSEC_ID_IPV6_ADDR: af = AF_INET6; break; } switch (id_type) { case IPSEC_ID_IPV4_ADDR: case IPSEC_ID_IPV6_ADDR: p = conf_get_str(rs, "Address"); if (!p) { log_print("ike_phase_1_recv_ID: failed to get " "Address in Remote-ID section [%s]", rs); free(rid); return -1; } if (text2sockaddr(p, 0, &sa, af, 0) == -1) { log_print("ike_phase_1_recv_ID: " "failed to parse address %s", p); free(rid); return -1; } if ((id_type == IPSEC_ID_IPV4_ADDR && sa->sa_family != AF_INET) || (id_type == IPSEC_ID_IPV6_ADDR && sa->sa_family != AF_INET6)) { log_print("ike_phase_1_recv_ID: " "address %s not of expected family", p); free(rid); free(sa); return -1; } memcpy(rid, sockaddr_addrdata(sa), sockaddr_addrlen(sa)); free(sa); break; case IPSEC_ID_FQDN: case IPSEC_ID_USER_FQDN: case IPSEC_ID_KEY_ID: p = conf_get_str(rs, "Name"); if (!p) { log_print("ike_phase_1_recv_ID: failed to " "get Name in Remote-ID section [%s]", rs); free(rid); return -1; } memcpy(rid, p, sz); break; default: log_print("ike_phase_1_recv_ID: " "unsupported ID type %d", id_type); free(rid); return -1; } /* Compare expected/desired and received remote ID */ if (bcmp(rid, payload->p + ISAKMP_ID_DATA_OFF, sz)) { free(rid); log_print("ike_phase_1_recv_ID: " "received remote ID other than expected %s", p); return -1; } free(rid); } /* Choose the right fields to fill in */ id = initiator ? &exchange->id_r : &exchange->id_i; id_len = initiator ? &exchange->id_r_len : &exchange->id_i_len; *id_len = GET_ISAKMP_GEN_LENGTH(payload->p) - ISAKMP_GEN_SZ; *id = malloc(*id_len); if (!*id) { log_error("ike_phase_1_recv_ID: malloc (%lu) failed", (unsigned long)*id_len); return -1; } memcpy(*id, payload->p + ISAKMP_GEN_SZ, *id_len); snprintf(header, sizeof header, "ike_phase_1_recv_ID: %s", constant_name(ipsec_id_cst, GET_ISAKMP_ID_TYPE(payload->p))); LOG_DBG_BUF((LOG_NEGOTIATION, 40, header, payload->p + ISAKMP_ID_DATA_OFF, *id_len + ISAKMP_GEN_SZ - ISAKMP_ID_DATA_OFF)); payload->flags |= PL_MARK; return 0; } /* Receive HASH and check that the exchange has been consistent. */ int ike_phase_1_recv_AUTH(struct message *msg) { struct exchange *exchange = msg->exchange; struct ipsec_exch *ie = exchange->data; struct prf *prf; struct hash *hash = ie->hash; char header[80]; size_t hashsize = hash->hashsize; int initiator = exchange->initiator; u_int8_t **hash_p, *id; size_t id_len; /* Choose the right fields to fill in */ hash_p = initiator ? &ie->hash_r : &ie->hash_i; id = initiator ? exchange->id_r : exchange->id_i; id_len = initiator ? exchange->id_r_len : exchange->id_i_len; /* The decoded hash will be in ie->hash_r or ie->hash_i */ if (ie->ike_auth->decode_hash(msg)) { message_drop(msg, ISAKMP_NOTIFY_INVALID_ID_INFORMATION, 0, 1, 0); return -1; } /* Allocate the prf and start calculating his HASH. */ prf = prf_alloc(ie->prf_type, hash->type, ie->skeyid, ie->skeyid_len); if (!prf) { /* XXX Log? */ return -1; } prf->Init(prf->prfctx); prf->Update(prf->prfctx, initiator ? ie->g_xr : ie->g_xi, ie->g_x_len); prf->Update(prf->prfctx, initiator ? ie->g_xi : ie->g_xr, ie->g_x_len); prf->Update(prf->prfctx, exchange->cookies + (initiator ? ISAKMP_HDR_RCOOKIE_OFF : ISAKMP_HDR_ICOOKIE_OFF), ISAKMP_HDR_ICOOKIE_LEN); prf->Update(prf->prfctx, exchange->cookies + (initiator ? ISAKMP_HDR_ICOOKIE_OFF : ISAKMP_HDR_RCOOKIE_OFF), ISAKMP_HDR_ICOOKIE_LEN); prf->Update(prf->prfctx, ie->sa_i_b, ie->sa_i_b_len); prf->Update(prf->prfctx, id, id_len); prf->Final(hash->digest, prf->prfctx); prf_free(prf); snprintf(header, sizeof header, "ike_phase_1_recv_AUTH: " "computed HASH_%c", initiator ? 'R' : 'I'); LOG_DBG_BUF((LOG_NEGOTIATION, 80, header, hash->digest, hashsize)); /* Check that the hash we got matches the one we computed. */ if (memcmp(*hash_p, hash->digest, hashsize) != 0) { /* XXX Log? */ return -1; } /* Mark message as authenticated. */ msg->flags |= MSG_AUTHENTICATED; return 0; } struct attr_node { LIST_ENTRY(attr_node) link; u_int16_t type; }; struct validation_state { struct conf_list_node *xf; LIST_HEAD(attr_head, attr_node) attrs; char *life; }; /* Validate a proposal inside SA according to EXCHANGE's policy. */ static int ike_phase_1_validate_prop(struct exchange *exchange, struct sa *sa, struct sa *isakmp_sa) { struct conf_list *conf, *tags; struct conf_list_node *xf, *tag; struct proto *proto; struct validation_state vs; struct attr_node *node, *next_node; /* Get the list of transforms. */ conf = conf_get_list(exchange->policy, "Transforms"); if (!conf) return 0; for (xf = TAILQ_FIRST(&conf->fields); xf; xf = TAILQ_NEXT(xf, link)) { for (proto = TAILQ_FIRST(&sa->protos); proto; proto = TAILQ_NEXT(proto, link)) { /* Mark all attributes in our policy as unseen. */ LIST_INIT(&vs.attrs); vs.xf = xf; vs.life = 0; if (attribute_map(proto->chosen->p + ISAKMP_TRANSFORM_SA_ATTRS_OFF, GET_ISAKMP_GEN_LENGTH(proto->chosen->p) - ISAKMP_TRANSFORM_SA_ATTRS_OFF, attribute_unacceptable, &vs)) goto try_next; /* Sweep over unseen tags in this section. */ tags = conf_get_tag_list(xf->field); if (tags) { for (tag = TAILQ_FIRST(&tags->fields); tag; tag = TAILQ_NEXT(tag, link)) /* * XXX Should we care about attributes * we have, they do not provide? */ for (node = LIST_FIRST(&vs.attrs); node; node = next_node) { next_node = LIST_NEXT(node, link); if (node->type == constant_value(ike_attr_cst, tag->field)) { LIST_REMOVE(node, link); free(node); } } conf_free_list(tags); } /* Are there leftover tags in this section? */ node = LIST_FIRST(&vs.attrs); if (node) goto try_next; } /* All protocols were OK, we succeeded. */ LOG_DBG((LOG_NEGOTIATION, 20, "ike_phase_1_validate_prop: " "success")); conf_free_list(conf); free(vs.life); return 1; try_next: /* Are there leftover tags in this section? */ node = LIST_FIRST(&vs.attrs); while (node) { LIST_REMOVE(node, link); free(node); node = LIST_FIRST(&vs.attrs); } free(vs.life); } LOG_DBG((LOG_NEGOTIATION, 20, "ike_phase_1_validate_prop: failure")); conf_free_list(conf); return 0; } /* * Look at the attribute of type TYPE, located at VALUE for LEN bytes forward. * The VVS argument holds a validation state kept across invocations. * If the attribute is unacceptable to use, return non-zero, otherwise zero. */ static int attribute_unacceptable(u_int16_t type, u_int8_t *value, u_int16_t len, void *vvs) { struct validation_state *vs = vvs; struct conf_list *life_conf; struct conf_list_node *xf = vs->xf, *life; char *tag = constant_lookup(ike_attr_cst, type); char *str; struct constant_map *map; struct attr_node *node; int rv, dur = 0; if (!tag) { log_print("attribute_unacceptable: " "attribute type %d not known", type); return 1; } switch (type) { case IKE_ATTR_ENCRYPTION_ALGORITHM: case IKE_ATTR_HASH_ALGORITHM: case IKE_ATTR_AUTHENTICATION_METHOD: case IKE_ATTR_GROUP_DESCRIPTION: case IKE_ATTR_GROUP_TYPE: case IKE_ATTR_PRF: str = conf_get_str(xf->field, tag); if (!str) { /* This attribute does not exist in this policy. */ log_print("attribute_unacceptable: " "attr %s does not exist in %s", tag, xf->field); return 1; } map = constant_link_lookup(ike_attr_cst, type); if (!map) return 1; if ((constant_value(map, str) == decode_16(value)) || (!strcmp(str, "ANY"))) { /* Mark this attribute as seen. */ node = malloc(sizeof *node); if (!node) { log_error("attribute_unacceptable: " "malloc (%lu) failed", (unsigned long)sizeof *node); return 1; } node->type = type; LIST_INSERT_HEAD(&vs->attrs, node, link); return 0; } log_print("attribute_unacceptable: %s: got %s, expected %s", tag, constant_name(map, decode_16(value)), str); return 1; case IKE_ATTR_GROUP_PRIME: case IKE_ATTR_GROUP_GENERATOR_1: case IKE_ATTR_GROUP_GENERATOR_2: case IKE_ATTR_GROUP_CURVE_A: case IKE_ATTR_GROUP_CURVE_B: /* XXX Bignums not handled yet. */ log_print("attribute_unacceptable: " "bignum type %d not supported", type); return 1; case IKE_ATTR_LIFE_TYPE: case IKE_ATTR_LIFE_DURATION: life_conf = conf_get_list(xf->field, "Life"); if (life_conf && !strcmp(conf_get_str(xf->field, "Life"), "ANY")) { conf_free_list(life_conf); return 0; } rv = 1; if (!life_conf) { /* Life attributes given, but not in our policy. */ log_print("attribute_unacceptable: " "life attribute received, none in policy"); return 1; } /* * Each lifetime type must match, otherwise we turn the * proposal down. In order to do this we need to find the * specific section of our policy's "Life" list and match * its duration. */ switch (type) { case IKE_ATTR_LIFE_TYPE: for (life = TAILQ_FIRST(&life_conf->fields); life; life = TAILQ_NEXT(life, link)) { str = conf_get_str(life->field, "LIFE_TYPE"); if (!str) { log_print("attribute_unacceptable: " "section [%s] has no LIFE_TYPE", life->field); continue; } /* * If this is the type we are looking at, * save a pointer to this section in vs->life. */ if (constant_value(ike_duration_cst, str) == decode_16(value)) { vs->life = strdup(life->field); rv = 0; goto bail_out; } } log_print("attribute_unacceptable: " "unrecognized LIFE_TYPE %d", decode_16(value)); vs->life = 0; break; case IKE_ATTR_LIFE_DURATION: if (!vs->life) { log_print("attribute_unacceptable: " "LIFE_DURATION without LIFE_TYPE"); rv = 1; goto bail_out; } str = conf_get_str(vs->life, "LIFE_DURATION"); if (str) { if (!strcmp(str, "ANY")) rv = 0; else dur = (len == 4) ? decode_32(value) : decode_16(value); if ((rv = !conf_match_num(vs->life, "LIFE_DURATION", dur))) { log_print( "attribute_unacceptable: " "LIFE_DURATION: got %d, " " expected %s", dur, str); } } else { log_print("attribute_unacceptable: " "section [%s] has no LIFE_DURATION", vs->life); rv = 1; } free(vs->life); vs->life = 0; break; } bail_out: conf_free_list(life_conf); return rv; case IKE_ATTR_KEY_LENGTH: case IKE_ATTR_FIELD_SIZE: case IKE_ATTR_GROUP_ORDER: if (conf_match_num(xf->field, tag, decode_16(value))) { /* Mark this attribute as seen. */ node = malloc(sizeof *node); if (!node) { log_error("attribute_unacceptable: " "malloc (%lu) failed", (unsigned long)sizeof *node); return 1; } node->type = type; LIST_INSERT_HEAD(&vs->attrs, node, link); return 0; } return 1; default: log_print("attribute_unacceptable: unexpected type %d", type); } return 1; }