/* $OpenBSD: config.c,v 1.78 2021/02/22 21:58:12 tobhe Exp $ */ /* * Copyright (c) 2019 Tobias Heider * Copyright (c) 2010-2013 Reyk Floeter * * Permission to use, copy, modify, and distribute this software for any * purpose with or without fee is hereby granted, provided that the above * copyright notice and this permission notice appear in all copies. * * THE SOFTWARE IS PROVIDED "AS IS" AND THE AUTHOR DISCLAIMS ALL WARRANTIES * WITH REGARD TO THIS SOFTWARE INCLUDING ALL IMPLIED WARRANTIES OF * MERCHANTABILITY AND FITNESS. IN NO EVENT SHALL THE AUTHOR BE LIABLE FOR * ANY SPECIAL, DIRECT, INDIRECT, OR CONSEQUENTIAL DAMAGES OR ANY DAMAGES * WHATSOEVER RESULTING FROM LOSS OF USE, DATA OR PROFITS, WHETHER IN AN * ACTION OF CONTRACT, NEGLIGENCE OR OTHER TORTIOUS ACTION, ARISING OUT OF * OR IN CONNECTION WITH THE USE OR PERFORMANCE OF THIS SOFTWARE. */ #include #include #include #include #include #include #include #include #include #include #include #include #include #include "iked.h" #include "ikev2.h" struct iked_sa * config_new_sa(struct iked *env, int initiator) { struct iked_sa *sa; if ((sa = calloc(1, sizeof(*sa))) == NULL) return (NULL); TAILQ_INIT(&sa->sa_proposals); TAILQ_INIT(&sa->sa_childsas); TAILQ_INIT(&sa->sa_flows); TAILQ_INIT(&sa->sa_requests); TAILQ_INIT(&sa->sa_responses); sa->sa_hdr.sh_initiator = initiator; sa->sa_type = IKED_SATYPE_LOCAL; if (initiator) sa->sa_hdr.sh_ispi = config_getspi(); else sa->sa_hdr.sh_rspi = config_getspi(); gettimeofday(&sa->sa_timecreated, NULL); memcpy(&sa->sa_timeused, &sa->sa_timecreated, sizeof(sa->sa_timeused)); return (sa); } uint64_t config_getspi(void) { uint64_t spi; do { arc4random_buf(&spi, sizeof spi); } while (spi == 0); return (spi); } void config_free_kex(struct iked_kex *kex) { if (kex == NULL) return; ibuf_release(kex->kex_inonce); ibuf_release(kex->kex_rnonce); group_free(kex->kex_dhgroup); ibuf_release(kex->kex_dhiexchange); ibuf_release(kex->kex_dhrexchange); free(kex); } void config_free_fragments(struct iked_frag *frag) { size_t i; if (frag && frag->frag_arr) { for (i = 0; i < frag->frag_total; i++) { if (frag->frag_arr[i] != NULL) free(frag->frag_arr[i]->frag_data); free(frag->frag_arr[i]); } free(frag->frag_arr); bzero(frag, sizeof(struct iked_frag)); } } void config_free_sa(struct iked *env, struct iked_sa *sa) { timer_del(env, &sa->sa_timer); timer_del(env, &sa->sa_keepalive); timer_del(env, &sa->sa_rekey); config_free_fragments(&sa->sa_fragments); config_free_proposals(&sa->sa_proposals, 0); config_free_childsas(env, &sa->sa_childsas, NULL, NULL); sa_configure_iface(env, sa, 0); sa_free_flows(env, &sa->sa_flows); if (sa->sa_addrpool) { (void)RB_REMOVE(iked_addrpool, &env->sc_addrpool, sa); free(sa->sa_addrpool); } if (sa->sa_addrpool6) { (void)RB_REMOVE(iked_addrpool6, &env->sc_addrpool6, sa); free(sa->sa_addrpool6); } if (sa->sa_policy) { TAILQ_REMOVE(&sa->sa_policy->pol_sapeers, sa, sa_peer_entry); policy_unref(env, sa->sa_policy); } ikev2_msg_flushqueue(env, &sa->sa_requests); ikev2_msg_flushqueue(env, &sa->sa_responses); ibuf_release(sa->sa_inonce); ibuf_release(sa->sa_rnonce); group_free(sa->sa_dhgroup); ibuf_release(sa->sa_dhiexchange); ibuf_release(sa->sa_dhrexchange); ibuf_release(sa->sa_simult); hash_free(sa->sa_prf); hash_free(sa->sa_integr); cipher_free(sa->sa_encr); ibuf_release(sa->sa_key_d); ibuf_release(sa->sa_key_iauth); ibuf_release(sa->sa_key_rauth); ibuf_release(sa->sa_key_iencr); ibuf_release(sa->sa_key_rencr); ibuf_release(sa->sa_key_iprf); ibuf_release(sa->sa_key_rprf); ibuf_release(sa->sa_1stmsg); ibuf_release(sa->sa_2ndmsg); ibuf_release(sa->sa_iid.id_buf); ibuf_release(sa->sa_rid.id_buf); ibuf_release(sa->sa_icert.id_buf); ibuf_release(sa->sa_rcert.id_buf); ibuf_release(sa->sa_localauth.id_buf); ibuf_release(sa->sa_peerauth.id_buf); ibuf_release(sa->sa_eap.id_buf); free(sa->sa_eapid); ibuf_release(sa->sa_eapmsk); free(sa->sa_cp_addr); free(sa->sa_cp_addr6); free(sa->sa_tag); free(sa); } struct iked_policy * config_new_policy(struct iked *env) { struct iked_policy *pol; if ((pol = calloc(1, sizeof(*pol))) == NULL) return (NULL); /* XXX caller does this again */ TAILQ_INIT(&pol->pol_proposals); TAILQ_INIT(&pol->pol_sapeers); TAILQ_INIT(&pol->pol_tssrc); TAILQ_INIT(&pol->pol_tsdst); RB_INIT(&pol->pol_flows); return (pol); } void config_free_policy(struct iked *env, struct iked_policy *pol) { struct iked_sa *sa; struct iked_ts *tsi; if (pol->pol_flags & IKED_POLICY_REFCNT) goto remove; TAILQ_REMOVE(&env->sc_policies, pol, pol_entry); TAILQ_FOREACH(sa, &pol->pol_sapeers, sa_peer_entry) { /* Remove from the policy list, but keep for existing SAs */ if (sa->sa_policy == pol) policy_ref(env, pol); else log_warnx("%s: ERROR: sa_policy %p != pol %p", __func__, sa->sa_policy, pol); } if (pol->pol_refcnt) return; remove: while ((tsi = TAILQ_FIRST(&pol->pol_tssrc))) { TAILQ_REMOVE(&pol->pol_tssrc, tsi, ts_entry); free(tsi); } while ((tsi = TAILQ_FIRST(&pol->pol_tsdst))) { TAILQ_REMOVE(&pol->pol_tsdst, tsi, ts_entry); free(tsi); } config_free_proposals(&pol->pol_proposals, 0); config_free_flows(env, &pol->pol_flows); free(pol); } struct iked_proposal * config_add_proposal(struct iked_proposals *head, unsigned int id, unsigned int proto) { struct iked_proposal *pp; TAILQ_FOREACH(pp, head, prop_entry) { if (pp->prop_protoid == proto && pp->prop_id == id) return (pp); } if ((pp = calloc(1, sizeof(*pp))) == NULL) return (NULL); pp->prop_protoid = proto; pp->prop_id = id; TAILQ_INSERT_TAIL(head, pp, prop_entry); return (pp); } void config_free_proposal(struct iked_proposals *head, struct iked_proposal *prop) { TAILQ_REMOVE(head, prop, prop_entry); if (prop->prop_nxforms) free(prop->prop_xforms); free(prop); } void config_free_proposals(struct iked_proposals *head, unsigned int proto) { struct iked_proposal *prop, *proptmp; TAILQ_FOREACH_SAFE(prop, head, prop_entry, proptmp) { /* Free any proposal or only selected SA proto */ if (proto != 0 && prop->prop_protoid != proto) continue; log_debug("%s: free %p", __func__, prop); config_free_proposal(head, prop); } } void config_free_flows(struct iked *env, struct iked_flows *head) { struct iked_flow *flow; while ((flow = RB_MIN(iked_flows, head))) { log_debug("%s: free %p", __func__, flow); RB_REMOVE(iked_flows, head, flow); flow_free(flow); } } void config_free_childsas(struct iked *env, struct iked_childsas *head, struct iked_spi *peerspi, struct iked_spi *localspi) { struct iked_childsa *csa, *csatmp, *ipcomp; if (localspi != NULL) bzero(localspi, sizeof(*localspi)); TAILQ_FOREACH_SAFE(csa, head, csa_entry, csatmp) { if (peerspi != NULL) { /* Only delete matching peer SPIs */ if (peerspi->spi != csa->csa_peerspi) continue; /* Store assigned local SPI */ if (localspi != NULL && localspi->spi == 0) memcpy(localspi, &csa->csa_spi, sizeof(*localspi)); } log_debug("%s: free %p", __func__, csa); TAILQ_REMOVE(head, csa, csa_entry); if (csa->csa_loaded) { RB_REMOVE(iked_activesas, &env->sc_activesas, csa); (void)pfkey_sa_delete(env->sc_pfkey, csa); } if ((ipcomp = csa->csa_bundled) != NULL) { log_debug("%s: free IPCOMP %p", __func__, ipcomp); if (ipcomp->csa_loaded) (void)pfkey_sa_delete(env->sc_pfkey, ipcomp); childsa_free(ipcomp); } childsa_free(csa); } } int config_add_transform(struct iked_proposal *prop, unsigned int type, unsigned int id, unsigned int length, unsigned int keylength) { struct iked_transform *xform; struct iked_constmap *map = NULL; int score = 1; unsigned int i; switch (type) { case IKEV2_XFORMTYPE_ENCR: map = ikev2_xformencr_map; break; case IKEV2_XFORMTYPE_PRF: map = ikev2_xformprf_map; break; case IKEV2_XFORMTYPE_INTEGR: map = ikev2_xformauth_map; break; case IKEV2_XFORMTYPE_DH: map = ikev2_xformdh_map; break; case IKEV2_XFORMTYPE_ESN: map = ikev2_xformesn_map; break; default: log_debug("%s: invalid transform type %d", __func__, type); return (-2); } for (i = 0; i < prop->prop_nxforms; i++) { xform = prop->prop_xforms + i; if (xform->xform_type == type && xform->xform_id == id && xform->xform_length == length) return (0); } for (i = 0; i < prop->prop_nxforms; i++) { xform = prop->prop_xforms + i; if (xform->xform_type == type) { switch (type) { case IKEV2_XFORMTYPE_ENCR: case IKEV2_XFORMTYPE_INTEGR: score += 3; break; case IKEV2_XFORMTYPE_DH: score += 2; break; default: score += 1; break; } } } if ((xform = reallocarray(prop->prop_xforms, prop->prop_nxforms + 1, sizeof(*xform))) == NULL) { return (-1); } prop->prop_xforms = xform; xform = prop->prop_xforms + prop->prop_nxforms++; bzero(xform, sizeof(*xform)); xform->xform_type = type; xform->xform_id = id; xform->xform_length = length; xform->xform_keylength = keylength; xform->xform_score = score; xform->xform_map = map; return (0); } struct iked_transform * config_findtransform_ext(struct iked_proposals *props, uint8_t type, int id, unsigned int proto) { struct iked_proposal *prop; struct iked_transform *xform; unsigned int i; /* Search of the first transform with the desired type */ TAILQ_FOREACH(prop, props, prop_entry) { /* Find any proposal or only selected SA proto */ if (proto != 0 && prop->prop_protoid != proto) continue; for (i = 0; i < prop->prop_nxforms; i++) { xform = prop->prop_xforms + i; /* optional lookup of specific transform */ if (id >= 0 && xform->xform_id != id) continue; if (xform->xform_type == type) return (xform); } } return (NULL); } struct iked_transform * config_findtransform(struct iked_proposals *props, uint8_t type, unsigned int proto) { return config_findtransform_ext(props, type, -1, proto); } struct iked_user * config_new_user(struct iked *env, struct iked_user *new) { struct iked_user *usr, *old; if ((usr = calloc(1, sizeof(*usr))) == NULL) return (NULL); memcpy(usr, new, sizeof(*usr)); if ((old = RB_INSERT(iked_users, &env->sc_users, usr)) != NULL) { /* Update the password of an existing user*/ memcpy(old->usr_pass, new->usr_pass, IKED_PASSWORD_SIZE); log_debug("%s: updating user %s", __func__, usr->usr_name); free(usr); return (old); } log_debug("%s: inserting new user %s", __func__, usr->usr_name); return (usr); } /* * Inter-process communication of configuration items. */ int config_setcoupled(struct iked *env, unsigned int couple) { unsigned int type; type = couple ? IMSG_CTL_COUPLE : IMSG_CTL_DECOUPLE; proc_compose(&env->sc_ps, PROC_IKEV2, type, NULL, 0); return (0); } int config_getcoupled(struct iked *env, unsigned int type) { return (pfkey_couple(env->sc_pfkey, &env->sc_sas, type == IMSG_CTL_COUPLE ? 1 : 0)); } int config_setmode(struct iked *env, unsigned int passive) { unsigned int type; type = passive ? IMSG_CTL_PASSIVE : IMSG_CTL_ACTIVE; proc_compose(&env->sc_ps, PROC_IKEV2, type, NULL, 0); return (0); } int config_getmode(struct iked *env, unsigned int type) { uint8_t old; unsigned char *mode[] = { "active", "passive" }; old = env->sc_passive ? 1 : 0; env->sc_passive = type == IMSG_CTL_PASSIVE ? 1 : 0; if (old == env->sc_passive) return (0); log_debug("%s: mode %s -> %s", __func__, mode[old], mode[env->sc_passive]); return (0); } int config_setreset(struct iked *env, unsigned int mode, enum privsep_procid id) { proc_compose(&env->sc_ps, id, IMSG_CTL_RESET, &mode, sizeof(mode)); return (0); } int config_getreset(struct iked *env, struct imsg *imsg) { struct iked_policy *pol, *poltmp; struct iked_sa *sa; struct iked_user *usr; unsigned int mode; IMSG_SIZE_CHECK(imsg, &mode); memcpy(&mode, imsg->data, sizeof(mode)); if (mode == RESET_EXIT || mode == RESET_ALL || mode == RESET_POLICY) { log_debug("%s: flushing policies", __func__); TAILQ_FOREACH_SAFE(pol, &env->sc_policies, pol_entry, poltmp) { config_free_policy(env, pol); } } if (mode == RESET_EXIT || mode == RESET_ALL || mode == RESET_SA) { log_debug("%s: flushing SAs", __func__); while ((sa = RB_MIN(iked_sas, &env->sc_sas))) { /* for RESET_SA we try send a DELETE */ if (mode == RESET_ALL || ikev2_ike_sa_delete(env, sa) != 0) { RB_REMOVE(iked_sas, &env->sc_sas, sa); if (sa->sa_dstid_entry_valid) sa_dstid_remove(env, sa); config_free_sa(env, sa); } } } if (mode == RESET_EXIT || mode == RESET_ALL || mode == RESET_USER) { log_debug("%s: flushing users", __func__); while ((usr = RB_MIN(iked_users, &env->sc_users))) { RB_REMOVE(iked_users, &env->sc_users, usr); free(usr); } } if (mode == RESET_EXIT) proc_compose(&env->sc_ps, PROC_PARENT, IMSG_CTL_EXIT, NULL, 0); return (0); } /* * The first call of this function sets the UDP socket for IKEv2. * The second call is optional, setting the UDP socket used for NAT-T. */ int config_setsocket(struct iked *env, struct sockaddr_storage *ss, in_port_t port, enum privsep_procid id) { int s; if ((s = udp_bind((struct sockaddr *)ss, port)) == -1) return (-1); proc_compose_imsg(&env->sc_ps, id, -1, IMSG_UDP_SOCKET, -1, s, ss, sizeof(*ss)); return (0); } int config_getsocket(struct iked *env, struct imsg *imsg, void (*cb)(int, short, void *)) { struct iked_socket *sock, **sock0, **sock1; log_debug("%s: received socket fd %d", __func__, imsg->fd); if ((sock = calloc(1, sizeof(*sock))) == NULL) fatal("config_getsocket: calloc"); IMSG_SIZE_CHECK(imsg, &sock->sock_addr); memcpy(&sock->sock_addr, imsg->data, sizeof(sock->sock_addr)); sock->sock_fd = imsg->fd; sock->sock_env = env; switch (sock->sock_addr.ss_family) { case AF_INET: sock0 = &env->sc_sock4[0]; sock1 = &env->sc_sock4[1]; break; case AF_INET6: sock0 = &env->sc_sock6[0]; sock1 = &env->sc_sock6[1]; break; default: fatal("config_getsocket: socket af: %u", sock->sock_addr.ss_family); /* NOTREACHED */ } if (*sock0 == NULL) *sock0 = sock; else if (*sock1 == NULL) *sock1 = sock; else fatalx("%s: too many call", __func__); event_set(&sock->sock_ev, sock->sock_fd, EV_READ|EV_PERSIST, cb, sock); event_add(&sock->sock_ev, NULL); return (0); } int config_setpfkey(struct iked *env) { int s; if ((s = pfkey_socket()) == -1) return (-1); proc_compose_imsg(&env->sc_ps, PROC_IKEV2, -1, IMSG_PFKEY_SOCKET, -1, s, NULL, 0); return (0); } int config_getpfkey(struct iked *env, struct imsg *imsg) { log_debug("%s: received pfkey fd %d", __func__, imsg->fd); pfkey_init(env, imsg->fd); return (0); } int config_setuser(struct iked *env, struct iked_user *usr, enum privsep_procid id) { if (env->sc_opts & IKED_OPT_NOACTION) { print_user(usr); return (0); } proc_compose(&env->sc_ps, id, IMSG_CFG_USER, usr, sizeof(*usr)); return (0); } int config_getuser(struct iked *env, struct imsg *imsg) { struct iked_user usr; IMSG_SIZE_CHECK(imsg, &usr); memcpy(&usr, imsg->data, sizeof(usr)); if (config_new_user(env, &usr) == NULL) return (-1); print_user(&usr); return (0); } int config_setpolicy(struct iked *env, struct iked_policy *pol, enum privsep_procid id) { struct iked_proposal *prop; struct iked_transform *xform; size_t iovcnt, j, c = 0; struct iovec iov[IOV_MAX]; iovcnt = 1; TAILQ_FOREACH(prop, &pol->pol_proposals, prop_entry) { iovcnt += prop->prop_nxforms + 1; } if (iovcnt > IOV_MAX) { log_warn("%s: too many proposals", __func__); return (-1); } iov[c].iov_base = pol; iov[c++].iov_len = sizeof(*pol); TAILQ_FOREACH(prop, &pol->pol_proposals, prop_entry) { iov[c].iov_base = prop; iov[c++].iov_len = sizeof(*prop); for (j = 0; j < prop->prop_nxforms; j++) { xform = prop->prop_xforms + j; iov[c].iov_base = xform; iov[c++].iov_len = sizeof(*xform); } } print_policy(pol); if (env->sc_opts & IKED_OPT_NOACTION) return (0); if (proc_composev(&env->sc_ps, id, IMSG_CFG_POLICY, iov, iovcnt) == -1) { log_debug("%s: proc_composev failed", __func__); return (-1); } return (0); } int config_setflow(struct iked *env, struct iked_policy *pol, enum privsep_procid id) { struct iked_flow *flow; struct iovec iov[2]; if (env->sc_opts & IKED_OPT_NOACTION) return (0); RB_FOREACH(flow, iked_flows, &pol->pol_flows) { iov[0].iov_base = &pol->pol_id; iov[0].iov_len = sizeof(pol->pol_id); iov[1].iov_base = flow; iov[1].iov_len = sizeof(*flow); if (proc_composev(&env->sc_ps, id, IMSG_CFG_FLOW, iov, 2) == -1) { log_debug("%s: proc_composev failed", __func__); return (-1); } } return (0); } int config_getpolicy(struct iked *env, struct imsg *imsg) { struct iked_policy *pol; struct iked_proposal pp, *prop; struct iked_transform xf; off_t offset = 0; unsigned int i, j; uint8_t *buf = (uint8_t *)imsg->data; IMSG_SIZE_CHECK(imsg, pol); log_debug("%s: received policy", __func__); if ((pol = config_new_policy(NULL)) == NULL) fatal("config_getpolicy: new policy"); memcpy(pol, buf, sizeof(*pol)); offset += sizeof(*pol); TAILQ_INIT(&pol->pol_tssrc); TAILQ_INIT(&pol->pol_tsdst); TAILQ_INIT(&pol->pol_proposals); TAILQ_INIT(&pol->pol_sapeers); RB_INIT(&pol->pol_flows); for (i = 0; i < pol->pol_nproposals; i++) { memcpy(&pp, buf + offset, sizeof(pp)); offset += sizeof(pp); if ((prop = config_add_proposal(&pol->pol_proposals, pp.prop_id, pp.prop_protoid)) == NULL) fatal("config_getpolicy: add proposal"); for (j = 0; j < pp.prop_nxforms; j++) { memcpy(&xf, buf + offset, sizeof(xf)); offset += sizeof(xf); if (config_add_transform(prop, xf.xform_type, xf.xform_id, xf.xform_length, xf.xform_keylength) != 0) fatal("config_getpolicy: add transform"); } } /* Flows are sent separately */ pol->pol_nflows = 0; TAILQ_INSERT_TAIL(&env->sc_policies, pol, pol_entry); if (pol->pol_flags & IKED_POLICY_DEFAULT) { /* Only one default policy, just free/unref the old one */ if (env->sc_defaultcon != NULL) config_free_policy(env, env->sc_defaultcon); env->sc_defaultcon = pol; } return (0); } int config_getflow(struct iked *env, struct imsg *imsg) { struct iked_policy *pol; struct iked_flow *flow; off_t offset = 0; unsigned int id; uint8_t *buf = (uint8_t *)imsg->data; if (IMSG_DATA_SIZE(imsg) < sizeof(id)) fatalx("bad length imsg received"); memcpy(&id, buf, sizeof(id)); offset += sizeof(id); TAILQ_FOREACH(pol, &env->sc_policies, pol_entry) { if (pol->pol_id == id) break; } if (pol == NULL) { log_warnx("%s: unknown policy %u", __func__, id); return (-1); } if ((flow = calloc(1, sizeof(*flow))) == NULL) fatal("config_getpolicy: new flow"); memcpy(flow, buf + offset, sizeof(*flow)); if (RB_INSERT(iked_flows, &pol->pol_flows, flow)) { log_warnx("%s: received duplicate flow", __func__); free(flow); return (-1); } pol->pol_nflows++; return (0); } int config_setcompile(struct iked *env, enum privsep_procid id) { if (env->sc_opts & IKED_OPT_NOACTION) return (0); proc_compose(&env->sc_ps, id, IMSG_COMPILE, NULL, 0); return (0); } int config_getcompile(struct iked *env) { /* * Do any necessary steps after configuration, for now we * only need to compile the skip steps. */ policy_calc_skip_steps(&env->sc_policies); log_debug("%s: compilation done", __func__); return (0); } int config_setstatic(struct iked *env) { proc_compose(&env->sc_ps, PROC_IKEV2, IMSG_CTL_STATIC, &env->sc_static, sizeof(env->sc_static)); return (0); } int config_getstatic(struct iked *env, struct imsg *imsg) { IMSG_SIZE_CHECK(imsg, &env->sc_static); memcpy(&env->sc_static, imsg->data, sizeof(env->sc_static)); log_debug("%s: dpd_check_interval %llu", __func__, env->sc_alive_timeout); log_debug("%s: %senforcesingleikesa", __func__, env->sc_enforcesingleikesa ? "" : "no "); log_debug("%s: %sfragmentation", __func__, env->sc_frag ? "" : "no "); log_debug("%s: %smobike", __func__, env->sc_mobike ? "" : "no "); log_debug("%s: nattport %u", __func__, env->sc_nattport); log_debug("%s: %sstickyaddress", __func__, env->sc_stickyaddress ? "" : "no "); return (0); } int config_setocsp(struct iked *env) { struct iovec iov[3]; int iovcnt = 0; if (env->sc_opts & IKED_OPT_NOACTION) return (0); iov[0].iov_base = &env->sc_ocsp_tolerate; iov[0].iov_len = sizeof(env->sc_ocsp_tolerate); iovcnt++; iov[1].iov_base = &env->sc_ocsp_maxage; iov[1].iov_len = sizeof(env->sc_ocsp_maxage); iovcnt++; if (env->sc_ocsp_url) { iov[2].iov_base = env->sc_ocsp_url; iov[2].iov_len = strlen(env->sc_ocsp_url); iovcnt++; } return (proc_composev(&env->sc_ps, PROC_CERT, IMSG_OCSP_CFG, iov, iovcnt)); } int config_getocsp(struct iked *env, struct imsg *imsg) { size_t have, need; u_int8_t *ptr; free(env->sc_ocsp_url); ptr = (u_int8_t *)imsg->data; have = IMSG_DATA_SIZE(imsg); /* get tolerate */ need = sizeof(env->sc_ocsp_tolerate); if (have < need) fatalx("bad 'tolerate' length imsg received"); memcpy(&env->sc_ocsp_tolerate, ptr, need); ptr += need; have -= need; /* get maxage */ need = sizeof(env->sc_ocsp_maxage); if (have < need) fatalx("bad 'maxage' length imsg received"); memcpy(&env->sc_ocsp_maxage, ptr, need); ptr += need; have -= need; /* get url */ if (have > 0) env->sc_ocsp_url = get_string(ptr, have); else env->sc_ocsp_url = NULL; log_debug("%s: ocsp_url %s tolerate %ld maxage %ld", __func__, env->sc_ocsp_url ? env->sc_ocsp_url : "none", env->sc_ocsp_tolerate, env->sc_ocsp_maxage); return (0); } int config_setcertpartialchain(struct iked *env) { unsigned int boolval; boolval = env->sc_cert_partial_chain; proc_compose(&env->sc_ps, PROC_CERT, IMSG_CERT_PARTIAL_CHAIN, &boolval, sizeof(boolval)); return (0); } int config_getcertpartialchain(struct iked *env, struct imsg *imsg) { unsigned int boolval; IMSG_SIZE_CHECK(imsg, &boolval); memcpy(&boolval, imsg->data, sizeof(boolval)); env->sc_cert_partial_chain = boolval; return (0); } int config_setkeys(struct iked *env) { FILE *fp = NULL; EVP_PKEY *key = NULL; struct iked_id privkey; struct iked_id pubkey; struct iovec iov[2]; int ret = -1; memset(&privkey, 0, sizeof(privkey)); memset(&pubkey, 0, sizeof(pubkey)); /* Read private key */ if ((fp = fopen(IKED_PRIVKEY, "r")) == NULL) { log_warn("%s: failed to open private key", __func__); goto done; } if ((key = PEM_read_PrivateKey(fp, NULL, NULL, NULL)) == NULL) { log_warnx("%s: failed to read private key", __func__); goto done; } if (ca_privkey_serialize(key, &privkey) != 0) { log_warnx("%s: failed to serialize private key", __func__); goto done; } if (ca_pubkey_serialize(key, &pubkey) != 0) { log_warnx("%s: failed to serialize public key", __func__); goto done; } iov[0].iov_base = &privkey; iov[0].iov_len = sizeof(privkey); iov[1].iov_base = ibuf_data(privkey.id_buf); iov[1].iov_len = ibuf_length(privkey.id_buf); if (proc_composev(&env->sc_ps, PROC_CERT, IMSG_PRIVKEY, iov, 2) == -1) { log_warnx("%s: failed to send private key", __func__); goto done; } iov[0].iov_base = &pubkey; iov[0].iov_len = sizeof(pubkey); iov[1].iov_base = ibuf_data(pubkey.id_buf); iov[1].iov_len = ibuf_length(pubkey.id_buf); if (proc_composev(&env->sc_ps, PROC_CERT, IMSG_PUBKEY, iov, 2) == -1) { log_warnx("%s: failed to send public key", __func__); goto done; } ret = 0; done: if (fp != NULL) fclose(fp); ibuf_release(pubkey.id_buf); ibuf_release(privkey.id_buf); EVP_PKEY_free(key); return (ret); } int config_getkey(struct iked *env, struct imsg *imsg) { size_t len; struct iked_id id; len = IMSG_DATA_SIZE(imsg); if (len <= sizeof(id)) fatalx("%s: invalid key message", __func__); memcpy(&id, imsg->data, sizeof(id)); if ((id.id_buf = ibuf_new((uint8_t *)imsg->data + sizeof(id), len - sizeof(id))) == NULL) fatalx("%s: failed to get key", __func__); explicit_bzero(imsg->data, len); ca_getkey(&env->sc_ps, &id, imsg->hdr.type); ikev2_reset_alive_timer(env); return (0); }