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|
/* $OpenBSD: ikev2.c,v 1.370 2023/06/13 12:34:12 tb Exp $ */
/*
* Copyright (c) 2019 Tobias Heider <tobias.heider@stusta.de>
* Copyright (c) 2010-2013 Reyk Floeter <reyk@openbsd.org>
*
* 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 <sys/types.h>
#include <sys/queue.h>
#include <sys/socket.h>
#include <sys/uio.h>
#include <netinet/in.h>
#include <netinet/ip_ipsp.h>
#include <arpa/inet.h>
#include <stdlib.h>
#include <stdio.h>
#include <syslog.h>
#include <unistd.h>
#include <string.h>
#include <signal.h>
#include <endian.h>
#include <errno.h>
#include <err.h>
#include <event.h>
#include <openssl/sha.h>
#include <openssl/evp.h>
#include <openssl/x509.h>
#include "iked.h"
#include "ikev2.h"
#include "eap.h"
#include "dh.h"
#include "chap_ms.h"
#include "version.h"
void ikev2_info(struct iked *, int);
void ikev2_info_sa(struct iked *, int, const char *, struct iked_sa *);
void ikev2_info_csa(struct iked *, int, const char *, struct iked_childsa *);
void ikev2_info_flow(struct iked *, int, const char *, struct iked_flow *);
void ikev2_log_established(struct iked_sa *);
void ikev2_log_proposal(struct iked_sa *, struct iked_proposals *);
void ikev2_log_cert_info(const char *, struct iked_id *);
void ikev2_run(struct privsep *, struct privsep_proc *, void *);
void ikev2_shutdown(void);
int ikev2_dispatch_parent(int, struct privsep_proc *, struct imsg *);
int ikev2_dispatch_cert(int, struct privsep_proc *, struct imsg *);
int ikev2_dispatch_control(int, struct privsep_proc *, struct imsg *);
struct iked_sa *
ikev2_getimsgdata(struct iked *, struct imsg *, struct iked_sahdr *,
uint8_t *, uint8_t **, size_t *);
void ikev2_recv(struct iked *, struct iked_message *);
int ikev2_ike_auth_compatible(struct iked_sa *, uint8_t, uint8_t);
int ikev2_ike_auth_recv(struct iked *, struct iked_sa *,
struct iked_message *);
int ikev2_ike_auth(struct iked *, struct iked_sa *);
int ikev2_auth_verify(struct iked *, struct iked_sa *);
void ikev2_init_recv(struct iked *, struct iked_message *,
struct ike_header *);
void ikev2_init_ike_sa_timeout(struct iked *, void *);
int ikev2_init_ike_sa_peer(struct iked *, struct iked_policy *,
struct iked_addr *, struct iked_message *);
int ikev2_init_ike_auth(struct iked *, struct iked_sa *);
int ikev2_init_auth(struct iked *, struct iked_message *);
int ikev2_init_done(struct iked *, struct iked_sa *);
int ikev2_record_dstid(struct iked *, struct iked_sa *);
void ikev2_enable_timer(struct iked *, struct iked_sa *);
void ikev2_disable_timer(struct iked *, struct iked_sa *);
void ikev2_resp_recv(struct iked *, struct iked_message *,
struct ike_header *);
int ikev2_resp_ike_sa_init(struct iked *, struct iked_message *);
int ikev2_resp_ike_eap(struct iked *, struct iked_sa *,
struct iked_message *);
int ikev2_resp_ike_eap_mschap(struct iked *, struct iked_sa *,
struct iked_message *);
int ikev2_resp_ike_auth(struct iked *, struct iked_sa *);
int ikev2_send_auth_failed(struct iked *, struct iked_sa *);
int ikev2_send_error(struct iked *, struct iked_sa *,
struct iked_message *, uint8_t);
int ikev2_send_init_error(struct iked *, struct iked_message *);
int ikev2_handle_certreq(struct iked*, struct iked_message *);
ssize_t ikev2_handle_delete(struct iked *, struct iked_message *,
struct ibuf *, struct ikev2_payload **, uint8_t *);
int ikev2_send_create_child_sa(struct iked *, struct iked_sa *,
struct iked_spi *, uint8_t, uint16_t);
int ikev2_ikesa_enable(struct iked *, struct iked_sa *, struct iked_sa *);
void ikev2_ikesa_delete(struct iked *, struct iked_sa *, int);
int ikev2_nonce_cmp(struct ibuf *, struct ibuf *);
int ikev2_init_create_child_sa(struct iked *, struct iked_message *);
int ikev2_resp_create_child_sa(struct iked *, struct iked_message *);
void ikev2_ike_sa_rekey(struct iked *, void *);
void ikev2_ike_sa_rekey_timeout(struct iked *, void *);
void ikev2_ike_sa_rekey_schedule(struct iked *, struct iked_sa *);
void ikev2_ike_sa_rekey_schedule_fast(struct iked *, struct iked_sa *);
void ikev2_ike_sa_alive(struct iked *, void *);
void ikev2_ike_sa_keepalive(struct iked *, void *);
int ikev2_sa_negotiate_common(struct iked *, struct iked_sa *, struct iked_message *);
int ikev2_sa_initiator(struct iked *, struct iked_sa *,
struct iked_sa *, struct iked_message *);
int ikev2_sa_responder(struct iked *, struct iked_sa *, struct iked_sa *,
struct iked_message *);
int ikev2_sa_initiator_dh(struct iked_sa *, struct iked_message *,
unsigned int, struct iked_sa *);
int ikev2_sa_responder_dh(struct iked_kex *, struct iked_proposals *,
struct iked_message *, unsigned int);
void ikev2_sa_cleanup_dh(struct iked_sa *);
int ikev2_sa_keys(struct iked *, struct iked_sa *, struct ibuf *);
int ikev2_sa_tag(struct iked_sa *, struct iked_id *);
int ikev2_set_sa_proposal(struct iked_sa *, struct iked_policy *,
unsigned int);
int ikev2_childsa_negotiate(struct iked *, struct iked_sa *,
struct iked_kex *, struct iked_proposals *, int, int);
int ikev2_childsa_delete_proposed(struct iked *, struct iked_sa *,
struct iked_proposals *);
int ikev2_valid_proposal(struct iked_proposal *,
struct iked_transform **, struct iked_transform **, int *);
int ikev2_handle_notifies(struct iked *, struct iked_message *);
ssize_t ikev2_add_proposals(struct iked *, struct iked_sa *, struct ibuf *,
struct iked_proposals *, uint8_t, int, int, int);
ssize_t ikev2_add_cp(struct iked *, struct iked_sa *, int, struct ibuf *);
ssize_t ikev2_init_add_cp(struct iked *, struct iked_sa *, struct ibuf *);
ssize_t ikev2_resp_add_cp(struct iked *, struct iked_sa *, struct ibuf *);
ssize_t ikev2_add_transform(struct ibuf *,
uint8_t, uint8_t, uint16_t, uint16_t);
ssize_t ikev2_add_ts(struct ibuf *, struct ikev2_payload **, ssize_t,
struct iked_sa *, int);
ssize_t ikev2_add_certreq(struct ibuf *, struct ikev2_payload **, ssize_t,
struct ibuf *, uint8_t);
ssize_t ikev2_add_ipcompnotify(struct iked *, struct ibuf *,
struct ikev2_payload **, ssize_t, struct iked_sa *, int);
ssize_t ikev2_add_ts_payload(struct ibuf *, unsigned int, struct iked_sa *);
ssize_t ikev2_add_error(struct iked *, struct ibuf *, struct iked_message *);
int ikev2_add_data(struct ibuf *, void *, size_t);
int ikev2_add_buf(struct ibuf *buf, struct ibuf *);
int ikev2_cp_setaddr(struct iked *, struct iked_sa *, sa_family_t);
int ikev2_cp_setaddr_pool(struct iked *, struct iked_sa *,
struct iked_cfg *, const char **, sa_family_t);
int ikev2_cp_fixaddr(struct iked_sa *, struct iked_addr *,
struct iked_addr *);
int ikev2_cp_fixflow(struct iked_sa *, struct iked_flow *,
struct iked_flow *);
int ikev2_cp_request_configured(struct iked_sa *);
ssize_t ikev2_add_sighashnotify(struct ibuf *, struct ikev2_payload **,
ssize_t);
ssize_t ikev2_add_nat_detection(struct iked *, struct ibuf *,
struct ikev2_payload **, struct iked_message *, ssize_t);
ssize_t ikev2_add_vendor_id(struct ibuf *, struct ikev2_payload **,
ssize_t, struct ibuf *);
ssize_t ikev2_add_notify(struct ibuf *, struct ikev2_payload **, ssize_t,
uint16_t);
ssize_t ikev2_add_mobike(struct ibuf *, struct ikev2_payload **, ssize_t);
ssize_t ikev2_add_fragmentation(struct ibuf *, struct ikev2_payload **,
ssize_t);
ssize_t ikev2_add_transport_mode(struct iked *, struct ibuf *,
struct ikev2_payload **, ssize_t, struct iked_sa *);
int ikev2_update_sa_addresses(struct iked *, struct iked_sa *);
int ikev2_resp_informational(struct iked *, struct iked_sa *,
struct iked_message *);
void ikev2_ctl_reset_id(struct iked *, struct imsg *, unsigned int);
void ikev2_ctl_show_sa(struct iked *);
void ikev2_ctl_show_stats(struct iked *);
static struct privsep_proc procs[] = {
{ "parent", PROC_PARENT, ikev2_dispatch_parent },
{ "certstore", PROC_CERT, ikev2_dispatch_cert },
{ "control", PROC_CONTROL, ikev2_dispatch_control }
};
void
ikev2(struct privsep *ps, struct privsep_proc *p)
{
proc_run(ps, p, procs, nitems(procs), ikev2_run, NULL);
}
void
ikev2_run(struct privsep *ps, struct privsep_proc *p, void *arg)
{
/*
* pledge in the ikev2 process:
* stdio - for malloc and basic I/O including events.
* inet - for sendto with specified peer address.
* recvfd - for PFKEYv2 and the listening UDP sockets.
* In theory, recvfd could be dropped after getting the fds once.
*/
p->p_shutdown = ikev2_shutdown;
if (pledge("stdio inet recvfd", NULL) == -1)
fatal("pledge");
}
void
ikev2_shutdown(void)
{
struct iked *env = iked_env;
ibuf_free(env->sc_certreq);
env->sc_certreq = NULL;
config_doreset(env, RESET_ALL);
}
int
ikev2_dispatch_parent(int fd, struct privsep_proc *p, struct imsg *imsg)
{
struct iked *env = iked_env;
struct iked_sa *sa, *satmp;
struct iked_policy *pol, *old;
switch (imsg->hdr.type) {
case IMSG_CTL_RESET:
return (config_getreset(env, imsg));
case IMSG_CTL_COUPLE:
case IMSG_CTL_DECOUPLE:
return (config_getcoupled(env, imsg->hdr.type));
case IMSG_CTL_ACTIVE:
case IMSG_CTL_PASSIVE:
if (config_getmode(env, imsg->hdr.type) == -1)
return (0); /* ignore error */
timer_del(env, &env->sc_inittmr);
TAILQ_FOREACH(pol, &env->sc_policies, pol_entry) {
if (policy_generate_ts(pol) == -1)
fatalx("%s: too many traffic selectors", __func__);
}
/* Find new policies for dangling SAs */
RB_FOREACH_SAFE(sa, iked_sas, &env->sc_sas, satmp) {
if (sa->sa_state != IKEV2_STATE_ESTABLISHED) {
sa_state(env, sa, IKEV2_STATE_CLOSING);
ikev2_ike_sa_setreason(sa, "reload");
sa_free(env, sa);
continue;
}
old = sa->sa_policy;
if (policy_lookup_sa(env, sa) == -1) {
log_info("%s: No matching Policy found, terminating SA.",
SPI_SA(sa, __func__));
ikev2_ike_sa_setreason(sa, "Policy no longer exists");
ikev2_ikesa_delete(env, sa, sa->sa_hdr.sh_initiator);
}
if (old != sa->sa_policy) {
/* Cleanup old policy */
TAILQ_REMOVE(&old->pol_sapeers, sa, sa_peer_entry);
policy_unref(env, old);
policy_ref(env, sa->sa_policy);
TAILQ_INSERT_TAIL(&sa->sa_policy->pol_sapeers, sa, sa_peer_entry);
}
}
if (!env->sc_passive) {
timer_set(env, &env->sc_inittmr, ikev2_init_ike_sa,
NULL);
timer_add(env, &env->sc_inittmr,
IKED_INITIATOR_INITIAL);
}
return (0);
case IMSG_UDP_SOCKET:
return (config_getsocket(env, imsg, ikev2_msg_cb));
case IMSG_PFKEY_SOCKET:
return (config_getpfkey(env, imsg));
case IMSG_CFG_POLICY:
return (config_getpolicy(env, imsg));
case IMSG_CFG_FLOW:
return (config_getflow(env, imsg));
case IMSG_CFG_USER:
return (config_getuser(env, imsg));
case IMSG_COMPILE:
return (config_getcompile(env));
case IMSG_CTL_STATIC:
return (config_getstatic(env, imsg));
case IMSG_CERT_PARTIAL_CHAIN:
return(config_getcertpartialchain(env, imsg));
default:
break;
}
return (-1);
}
int
ikev2_dispatch_cert(int fd, struct privsep_proc *p, struct imsg *imsg)
{
struct iked *env = iked_env;
struct iked_sahdr sh;
struct iked_sa *sa;
uint8_t type;
uint8_t *ptr;
size_t len;
struct iked_id *id = NULL;
int ignore = 0;
int i;
switch (imsg->hdr.type) {
case IMSG_CERTREQ:
IMSG_SIZE_CHECK(imsg, &type);
ptr = imsg->data;
memcpy(&type, ptr, sizeof(type));
ptr += sizeof(type);
ibuf_free(env->sc_certreq);
env->sc_certreqtype = type;
env->sc_certreq = ibuf_new(ptr,
IMSG_DATA_SIZE(imsg) - sizeof(type));
log_debug("%s: updated local CERTREQ type %s length %zu",
__func__, print_map(type, ikev2_cert_map),
ibuf_length(env->sc_certreq));
break;
case IMSG_CERTVALID:
case IMSG_CERTINVALID:
/* Ignore invalid or unauthenticated SAs */
if ((sa = ikev2_getimsgdata(env, imsg,
&sh, &type, &ptr, &len)) == NULL ||
sa->sa_state < IKEV2_STATE_EAP)
break;
if (sh.sh_initiator)
id = &sa->sa_rcert;
else
id = &sa->sa_icert;
id->id_type = type;
id->id_offset = 0;
ibuf_free(id->id_buf);
id->id_buf = NULL;
if (len > 0 && (id->id_buf = ibuf_new(ptr, len)) == NULL) {
log_debug("%s: failed to get cert payload",
__func__);
break;
}
if (imsg->hdr.type == IMSG_CERTVALID) {
if (sa->sa_peerauth.id_type && ikev2_auth_verify(env, sa))
break;
log_debug("%s: peer certificate is valid", __func__);
sa_stateflags(sa, IKED_REQ_CERTVALID);
if (ikev2_ike_auth(env, sa) != 0)
log_debug("%s: failed to send ike auth", __func__);
} else {
log_warnx("%s: peer certificate is invalid",
SPI_SA(sa, __func__));
ikev2_send_auth_failed(env, sa);
}
break;
case IMSG_CERT:
if ((sa = ikev2_getimsgdata(env, imsg,
&sh, &type, &ptr, &len)) == NULL) {
log_debug("%s: invalid cert reply", __func__);
break;
}
/*
* Ignore the message if we already got a valid certificate.
* This might happen if the peer sent multiple CERTREQs.
*/
if (sa->sa_stateflags & IKED_REQ_CERT ||
type == IKEV2_CERT_NONE)
ignore = 1;
log_debug("%s: cert type %s length %zu, %s", __func__,
print_map(type, ikev2_cert_map), len,
ignore ? "ignored" : "ok");
if (ignore)
break;
if (sh.sh_initiator)
id = &sa->sa_icert;
else
id = &sa->sa_rcert;
id->id_type = type;
id->id_offset = 0;
ibuf_free(id->id_buf);
id->id_buf = NULL;
if (len <= 0 || (id->id_buf = ibuf_new(ptr, len)) == NULL) {
log_debug("%s: failed to get cert payload",
__func__);
break;
}
sa_stateflags(sa, IKED_REQ_CERT);
if (ikev2_ike_auth(env, sa) != 0)
log_debug("%s: failed to send ike auth", __func__);
break;
case IMSG_SCERT:
if ((sa = ikev2_getimsgdata(env, imsg,
&sh, &type, &ptr, &len)) == NULL) {
log_debug("%s: invalid supplemental cert reply",
__func__);
break;
}
if (sa->sa_stateflags & IKED_REQ_CERT ||
type == IKEV2_CERT_NONE)
ignore = 1;
log_debug("%s: supplemental cert type %s length %zu, %s",
__func__,
print_map(type, ikev2_cert_map), len,
ignore ? "ignored" : "ok");
if (ignore)
break;
for (i = 0; i < IKED_SCERT_MAX; i++) {
id = &sa->sa_scert[i];
if (id->id_type == IKEV2_CERT_NONE)
break;
id = NULL;
}
if (id == NULL) {
log_debug("%s: too many supplemental cert. ignored",
__func__);
break;
}
id->id_type = type;
id->id_offset = 0;
ibuf_free(id->id_buf);
id->id_buf = NULL;
if (len <= 0 || (id->id_buf = ibuf_new(ptr, len)) == NULL) {
log_debug("%s: failed to get supplemental cert payload",
__func__);
break;
}
break;
case IMSG_AUTH:
if ((sa = ikev2_getimsgdata(env, imsg,
&sh, &type, &ptr, &len)) == NULL) {
log_debug("%s: invalid auth reply", __func__);
break;
}
if (sa_stateok(sa, IKEV2_STATE_VALID)) {
log_warnx("%s: ignoring AUTH in state %s",
SPI_SA(sa, __func__),
print_map(sa->sa_state, ikev2_state_map));
break;
}
log_debug("%s: AUTH type %d len %zu", __func__, type, len);
id = &sa->sa_localauth;
id->id_type = type;
id->id_offset = 0;
ibuf_free(id->id_buf);
id->id_buf = NULL;
if (type != IKEV2_AUTH_NONE) {
if (len <= 0 ||
(id->id_buf = ibuf_new(ptr, len)) == NULL) {
log_debug("%s: failed to get auth payload",
__func__);
break;
}
}
sa_stateflags(sa, IKED_REQ_AUTH);
if (ikev2_ike_auth(env, sa) != 0)
log_debug("%s: failed to send ike auth", __func__);
break;
default:
return (-1);
}
return (0);
}
int
ikev2_dispatch_control(int fd, struct privsep_proc *p, struct imsg *imsg)
{
struct iked *env = iked_env;
switch (imsg->hdr.type) {
case IMSG_CTL_RESET_ID:
ikev2_ctl_reset_id(env, imsg, imsg->hdr.type);
break;
case IMSG_CTL_SHOW_SA:
ikev2_ctl_show_sa(env);
break;
case IMSG_CTL_SHOW_STATS:
ikev2_ctl_show_stats(env);
break;
default:
return (-1);
}
return (0);
}
/* try to delete established SA if no other exchange is active */
int
ikev2_ike_sa_delete(struct iked *env, struct iked_sa *sa)
{
if (sa->sa_state != IKEV2_STATE_ESTABLISHED)
return (-1);
if (sa->sa_stateflags & (IKED_REQ_CHILDSA|IKED_REQ_INF))
return (-1);
ikev2_disable_timer(env, sa);
ikev2_ike_sa_setreason(sa, "reset sa control message");
ikev2_ikesa_delete(env, sa, 1);
timer_add(env, &sa->sa_timer, 0);
return (0);
}
void
ikev2_ctl_reset_id(struct iked *env, struct imsg *imsg, unsigned int type)
{
struct iked_sa *sa;
char *reset_id = NULL;
char sa_id[IKED_ID_SIZE];
if ((reset_id = get_string(imsg->data, IMSG_DATA_SIZE(imsg))) == NULL)
return;
log_debug("%s: %s %d", __func__, reset_id, type);
RB_FOREACH(sa, iked_sas, &env->sc_sas) {
if (ikev2_print_id(IKESA_DSTID(sa), sa_id, sizeof(sa_id)) == -1)
continue;
if (strcmp(reset_id, sa_id) != 0)
continue;
if (sa->sa_state == IKEV2_STATE_CLOSED)
continue;
if (sa->sa_state == IKEV2_STATE_ESTABLISHED)
ikev2_disable_timer(env, sa);
log_info("%s: IKE SA %p id %s ispi %s rspi %s", __func__,
sa, sa_id,
print_spi(sa->sa_hdr.sh_ispi, 8),
print_spi(sa->sa_hdr.sh_rspi, 8));
ikev2_ike_sa_setreason(sa, "reset control message");
ikev2_ikesa_delete(env, sa, 1);
/* default IKED_IKE_SA_DELETE_TIMEOUT is 120s, so switch to 6s */
timer_add(env, &sa->sa_timer, 3 * IKED_RETRANSMIT_TIMEOUT);
}
free(reset_id);
}
void
ikev2_ctl_show_sa(struct iked *env)
{
ikev2_info(env, 0);
}
void
ikev2_ctl_show_stats(struct iked *env)
{
proc_compose(&env->sc_ps, PROC_CONTROL, IMSG_CTL_SHOW_STATS,
&env->sc_stats, sizeof(env->sc_stats));
}
struct iked_sa *
ikev2_getimsgdata(struct iked *env, struct imsg *imsg, struct iked_sahdr *sh,
uint8_t *type, uint8_t **buf, size_t *size)
{
uint8_t *ptr;
size_t len;
struct iked_sa *sa;
ptr = imsg->data;
len = IMSG_DATA_SIZE(imsg);
if (len < sizeof(*sh))
fatalx("ikev2_getimsgdata: length too small for sh");
memcpy(sh, ptr, sizeof(*sh));
len -= sizeof(*sh);
ptr += sizeof(*sh);
if (len < sizeof(*type))
fatalx("ikev2_getimsgdata: length too small for type");
memcpy(type, ptr, sizeof(*type));
len -= sizeof(*type);
ptr += sizeof(*type);
sa = sa_lookup(env, sh->sh_ispi, sh->sh_rspi, sh->sh_initiator);
log_debug("%s: imsg %d rspi %s ispi %s initiator %d sa %s"
" type %d data length %zd",
__func__, imsg->hdr.type,
print_spi(sh->sh_rspi, 8),
print_spi(sh->sh_ispi, 8),
sh->sh_initiator,
sa == NULL ? "invalid" : "valid", *type, len);
if (sa == NULL)
return (NULL);
*buf = ptr;
*size = len;
return (sa);
}
static time_t
gettime(void)
{
struct timeval tv;
gettimeofday(&tv, NULL);
return tv.tv_sec;
}
void
ikev2_recv(struct iked *env, struct iked_message *msg)
{
struct ike_header *hdr;
struct iked_sa *sa;
struct iked_msg_retransmit *mr;
unsigned int initiator, flag = 0;
int r;
hdr = ibuf_seek(msg->msg_data, msg->msg_offset, sizeof(*hdr));
if (hdr == NULL || ibuf_size(msg->msg_data) <
(betoh32(hdr->ike_length) - msg->msg_offset))
return;
ikestat_inc(env, ikes_msg_rcvd);
initiator = (hdr->ike_flags & IKEV2_FLAG_INITIATOR) ? 0 : 1;
msg->msg_response = (hdr->ike_flags & IKEV2_FLAG_RESPONSE) ? 1 : 0;
msg->msg_exchange = hdr->ike_exchange;
msg->msg_sa = sa_lookup(env,
betoh64(hdr->ike_ispi), betoh64(hdr->ike_rspi),
initiator);
msg->msg_msgid = betoh32(hdr->ike_msgid);
if (policy_lookup(env, msg, NULL, NULL, 0) != 0) {
ikestat_inc(env, ikes_msg_rcvd_dropped);
return;
}
logit(hdr->ike_exchange == IKEV2_EXCHANGE_INFORMATIONAL ?
LOG_DEBUG : LOG_INFO,
"%srecv %s %s %u peer %s local %s, %zu bytes, policy '%s'",
SPI_IH(hdr),
print_map(hdr->ike_exchange, ikev2_exchange_map),
msg->msg_response ? "res" : "req",
msg->msg_msgid,
print_addr(&msg->msg_peer),
print_addr(&msg->msg_local),
ibuf_length(msg->msg_data),
msg->msg_policy->pol_name);
log_debug("%s: ispi %s rspi %s", __func__,
print_spi(betoh64(hdr->ike_ispi), 8),
print_spi(betoh64(hdr->ike_rspi), 8));
if ((sa = msg->msg_sa) == NULL)
goto done;
sa->sa_last_recvd = gettime();
if (hdr->ike_exchange == IKEV2_EXCHANGE_CREATE_CHILD_SA)
flag = IKED_REQ_CHILDSA;
if (hdr->ike_exchange == IKEV2_EXCHANGE_INFORMATIONAL)
flag = IKED_REQ_INF;
if (hdr->ike_exchange != IKEV2_EXCHANGE_IKE_SA_INIT &&
hdr->ike_nextpayload != IKEV2_PAYLOAD_SK &&
hdr->ike_nextpayload != IKEV2_PAYLOAD_SKF) {
ikestat_inc(env, ikes_msg_rcvd_dropped);
return;
}
if (msg->msg_response) {
if (msg->msg_msgid > sa->sa_reqid) {
ikestat_inc(env, ikes_msg_rcvd_dropped);
return;
}
mr = ikev2_msg_lookup(env, &sa->sa_requests, msg,
hdr->ike_exchange);
if (hdr->ike_exchange != IKEV2_EXCHANGE_INFORMATIONAL &&
mr == NULL && sa->sa_fragments.frag_count == 0) {
ikestat_inc(env, ikes_msg_rcvd_dropped);
return;
}
if (flag) {
if ((sa->sa_stateflags & flag) == 0) {
ikestat_inc(env, ikes_msg_rcvd_dropped);
return;
}
/*
* We have initiated this exchange, even if
* we are not the initiator of the IKE SA.
*/
initiator = 1;
}
/*
* There's no need to keep the request (fragments) around
*/
if (mr != NULL && hdr->ike_nextpayload != IKEV2_PAYLOAD_SKF)
ikev2_msg_dispose(env, &sa->sa_requests, mr);
} else {
/*
* IKE_SA_INIT is special since it always uses the message id 0.
* Even when the message was rejected, and the new message has
* different proposals, the id will be the same. To discern
* retransmits and new messages, the RFC suggests to compare the
* the messages.
*/
if (sa->sa_state == IKEV2_STATE_CLOSED && sa->sa_1stmsg &&
hdr->ike_exchange == IKEV2_EXCHANGE_IKE_SA_INIT &&
msg->msg_msgid == 0 &&
(ibuf_length(msg->msg_data) != ibuf_length(sa->sa_1stmsg) ||
memcmp(ibuf_data(msg->msg_data), ibuf_data(sa->sa_1stmsg),
ibuf_length(sa->sa_1stmsg)) != 0)) {
ikev2_ike_sa_setreason(sa, NULL);
sa_free(env, sa);
msg->msg_sa = sa = NULL;
goto done;
}
if (msg->msg_msgid < sa->sa_msgid) {
ikestat_inc(env, ikes_msg_rcvd_dropped);
return;
}
if (flag)
initiator = 0;
/*
* See if we have responded to this request before
* For return values 0 and -1 we have.
*/
if ((r = ikev2_msg_retransmit_response(env, sa, msg,
hdr->ike_exchange)) != -2) {
if (r == -1) {
log_warn("%s: failed to retransmit a "
"response", __func__);
ikev2_ike_sa_setreason(sa,
"retransmitting response failed");
sa_free(env, sa);
}
return;
} else if (sa->sa_msgid_set && msg->msg_msgid == sa->sa_msgid) {
/*
* Response is being worked on, most likely we're
* waiting for the CA process to get back to us
*/
ikestat_inc(env, ikes_msg_rcvd_busy);
return;
}
sa->sa_msgid_current = msg->msg_msgid;
}
if (sa_address(sa, &sa->sa_peer, (struct sockaddr *)&msg->msg_peer)
== -1 ||
sa_address(sa, &sa->sa_local, (struct sockaddr *)&msg->msg_local)
== -1) {
ikestat_inc(env, ikes_msg_rcvd_dropped);
return;
}
sa->sa_fd = msg->msg_fd;
log_debug("%s: updated SA to peer %s local %s", __func__,
print_addr(&sa->sa_peer.addr), print_addr(&sa->sa_local.addr));
done:
if (initiator)
ikev2_init_recv(env, msg, hdr);
else
ikev2_resp_recv(env, msg, hdr);
if (sa != NULL && !msg->msg_response && msg->msg_valid) {
/*
* If it's a valid request, make sure to update the peer's
* message ID and dispose of all previous responses.
* We need to set sa_msgid_set in order to distinguish between
* "last msgid was 0" and "msgid not set yet".
*/
sa->sa_msgid = sa->sa_msgid_current;
sa->sa_msgid_set = 1;
ikev2_msg_prevail(env, &sa->sa_responses, msg);
}
if (sa != NULL && sa->sa_state == IKEV2_STATE_CLOSED) {
log_debug("%s: closing SA", __func__);
ikev2_ike_sa_setreason(sa, "closed");
sa_free(env, sa);
}
}
int
ikev2_ike_auth_compatible(struct iked_sa *sa, uint8_t policy, uint8_t wire)
{
if (wire == IKEV2_AUTH_SIG_ANY) /* internal, not on wire */
return (-1);
if (policy == wire || policy == IKEV2_AUTH_NONE)
return (0);
switch (policy) {
case IKEV2_AUTH_SIG_ANY:
switch (wire) {
case IKEV2_AUTH_SIG:
case IKEV2_AUTH_RSA_SIG:
case IKEV2_AUTH_ECDSA_256:
case IKEV2_AUTH_ECDSA_384:
case IKEV2_AUTH_ECDSA_521:
return (0);
}
break;
case IKEV2_AUTH_SIG:
case IKEV2_AUTH_RSA_SIG:
case IKEV2_AUTH_ECDSA_256:
case IKEV2_AUTH_ECDSA_384:
case IKEV2_AUTH_ECDSA_521:
switch (wire) {
/*
* XXX Maybe we need an indication saying:
* XXX Accept AUTH_SIG as long as its DSA?
*/
case IKEV2_AUTH_SIG:
if (sa->sa_sigsha2)
return (0);
}
break;
}
return (-1);
}
int
ikev2_auth_verify(struct iked *env, struct iked_sa *sa)
{
struct iked_auth ikeauth;
struct ibuf *authmsg;
int ret;
memcpy(&ikeauth, &sa->sa_policy->pol_auth,
sizeof(ikeauth));
if (sa->sa_policy->pol_auth.auth_eap &&
sa->sa_eapmsk != NULL) {
/*
* The initiator EAP auth is a PSK derived
* from the EAP-specific MSK
*/
ikeauth.auth_method = IKEV2_AUTH_SHARED_KEY_MIC;
/* Copy session key as PSK */
memcpy(ikeauth.auth_data,
ibuf_data(sa->sa_eapmsk),
ibuf_size(sa->sa_eapmsk));
ikeauth.auth_length = ibuf_size(sa->sa_eapmsk);
}
if (ikev2_ike_auth_compatible(sa,
ikeauth.auth_method, sa->sa_peerauth.id_type) < 0) {
log_warnx("%s: unexpected auth method %s, was "
"expecting %s", SPI_SA(sa, __func__),
print_map(sa->sa_peerauth.id_type,
ikev2_auth_map),
print_map(ikeauth.auth_method,
ikev2_auth_map));
ikev2_send_auth_failed(env, sa);
explicit_bzero(&ikeauth, sizeof(ikeauth));
return (-1);
}
ikeauth.auth_method = sa->sa_peerauth.id_type;
if ((authmsg = ikev2_msg_auth(env, sa,
sa->sa_hdr.sh_initiator)) == NULL) {
log_debug("%s: failed to get auth data",
__func__);
ikev2_send_auth_failed(env, sa);
explicit_bzero(&ikeauth, sizeof(ikeauth));
return (-1);
}
ret = ikev2_msg_authverify(env, sa, &ikeauth,
ibuf_data(sa->sa_peerauth.id_buf),
ibuf_length(sa->sa_peerauth.id_buf),
authmsg);
ibuf_free(authmsg);
if (ret != 0) {
log_info("%s: ikev2_msg_authverify failed",
SPI_SA(sa, __func__));
ikev2_send_auth_failed(env, sa);
explicit_bzero(&ikeauth, sizeof(ikeauth));
return (-1);
}
if (sa->sa_eapmsk != NULL) {
if ((authmsg = ikev2_msg_auth(env, sa,
!sa->sa_hdr.sh_initiator)) == NULL) {
log_debug("%s: failed to get auth data",
__func__);
explicit_bzero(&ikeauth, sizeof(ikeauth));
return (-1);
}
/* XXX 2nd AUTH for EAP messages */
ret = ikev2_msg_authsign(env, sa, &ikeauth, authmsg);
ibuf_free(authmsg);
if (ret != 0) {
ikev2_send_auth_failed(env, sa);
explicit_bzero(&ikeauth, sizeof(ikeauth));
return (-1);
}
/* ikev2_msg_authverify verified AUTH */
sa_stateflags(sa, IKED_REQ_AUTHVALID);
sa_stateflags(sa, IKED_REQ_EAPVALID);
sa_state(env, sa, IKEV2_STATE_EAP_SUCCESS);
}
explicit_bzero(&ikeauth, sizeof(ikeauth));
return (0);
}
int
ikev2_ike_auth_recv(struct iked *env, struct iked_sa *sa,
struct iked_message *msg)
{
struct iked_id *id;
struct ibuf *authmsg;
struct iked_policy *old;
uint8_t *cert = NULL;
size_t certlen = 0;
int certtype = IKEV2_CERT_NONE;
/* The AUTH payload indicates if the responder wants EAP or not */
if (msg->msg_auth.id_type != IKEV2_AUTH_NONE &&
!sa_stateok(sa, IKEV2_STATE_EAP))
sa_state(env, sa, IKEV2_STATE_AUTH_REQUEST);
if (!sa->sa_hdr.sh_initiator &&
!sa_stateok(sa, IKEV2_STATE_AUTH_REQUEST) &&
sa->sa_policy->pol_auth.auth_eap)
sa_state(env, sa, IKEV2_STATE_EAP);
if (sa->sa_hdr.sh_initiator)
id = &sa->sa_rid;
else
id = &sa->sa_iid;
/* try to relookup the policy based on the peerid */
if (msg->msg_peerid.id_type && !sa->sa_hdr.sh_initiator) {
old = sa->sa_policy;
sa->sa_policy = NULL;
if (policy_lookup(env, msg, &sa->sa_proposals, NULL, 0) != 0 ||
msg->msg_policy == NULL) {
log_info("%s: no compatible policy found",
SPI_SA(sa, __func__));
ikev2_send_auth_failed(env, sa);
TAILQ_REMOVE(&old->pol_sapeers, sa, sa_peer_entry);
policy_unref(env, old);
return (-1);
}
if (msg->msg_policy != old) {
/* Clean up old policy */
TAILQ_REMOVE(&old->pol_sapeers, sa, sa_peer_entry);
policy_unref(env, old);
/* Update SA with new policy*/
if (sa_new(env, sa->sa_hdr.sh_ispi,
sa->sa_hdr.sh_rspi, 0, msg->msg_policy) != sa) {
log_warnx("%s: failed to update SA",
SPI_SA(sa, __func__));
ikev2_send_auth_failed(env, sa);
return (-1);
}
} else {
/* restore */
msg->msg_policy = sa->sa_policy = old;
}
if (ikev2_handle_certreq(env, msg) != 0)
return (-1);
} else if (sa->sa_hdr.sh_initiator) {
old = sa->sa_policy;
/* verify policy on initiator */
sa->sa_policy = NULL;
if (policy_lookup(env, msg, &sa->sa_proposals, &old->pol_flows,
old->pol_nflows) != 0 || msg->msg_policy != old) {
/* get dstid */
if (msg->msg_peerid.id_type) {
memcpy(id, &msg->msg_peerid, sizeof(*id));
bzero(&msg->msg_peerid, sizeof(msg->msg_peerid));
}
log_warnx("%s: policy mismatch", SPI_SA(sa, __func__));
ikev2_send_auth_failed(env, sa);
TAILQ_REMOVE(&old->pol_sapeers, sa, sa_peer_entry);
policy_unref(env, old);
return (-1);
}
/* restore */
msg->msg_policy = sa->sa_policy = old;
}
/* AUTH payload is required for non-EAP */
if (!msg->msg_auth.id_type &&
!sa->sa_policy->pol_auth.auth_eap) {
/* get dstid */
if (msg->msg_peerid.id_type) {
memcpy(id, &msg->msg_peerid, sizeof(*id));
bzero(&msg->msg_peerid, sizeof(msg->msg_peerid));
}
log_debug("%s: missing auth payload", SPI_SA(sa, __func__));
ikev2_send_auth_failed(env, sa);
return (-1);
}
if (msg->msg_peerid.id_type) {
memcpy(id, &msg->msg_peerid, sizeof(*id));
bzero(&msg->msg_peerid, sizeof(msg->msg_peerid));
if (!sa->sa_hdr.sh_initiator) {
if ((authmsg = ikev2_msg_auth(env, sa,
!sa->sa_hdr.sh_initiator)) == NULL) {
log_debug("%s: failed to get response "
"auth data", __func__);
return (-1);
}
ca_setauth(env, sa, authmsg, PROC_CERT);
ibuf_free(authmsg);
}
}
if (!TAILQ_EMPTY(&msg->msg_proposals)) {
if (proposals_negotiate(&sa->sa_proposals,
&sa->sa_policy->pol_proposals, &msg->msg_proposals,
0, -1) != 0) {
log_info("%s: no proposal chosen", __func__);
msg->msg_error = IKEV2_N_NO_PROPOSAL_CHOSEN;
ikestat_inc(env, ikes_sa_proposals_negotiate_failures);
return (-1);
} else
sa_stateflags(sa, IKED_REQ_SA);
}
if (msg->msg_auth.id_type) {
memcpy(&sa->sa_peerauth, &msg->msg_auth, sizeof(sa->sa_peerauth));
bzero(&msg->msg_auth, sizeof(msg->msg_auth));
}
if (msg->msg_cp) {
if (msg->msg_cp_addr) {
sa->sa_cp_addr = msg->msg_cp_addr;
msg->msg_cp_addr = NULL;
}
if (msg->msg_cp_addr6) {
sa->sa_cp_addr6 = msg->msg_cp_addr6;
msg->msg_cp_addr6 = NULL;
}
if (msg->msg_cp_dns) {
sa->sa_cp_dns = msg->msg_cp_dns;
msg->msg_cp_dns = NULL;
}
sa->sa_cp = msg->msg_cp;
}
/* For EAP and PSK AUTH can be verified without the CA process*/
if ((sa->sa_policy->pol_auth.auth_eap &&
sa->sa_eapmsk != NULL) ||
sa->sa_policy->pol_auth.auth_method == IKEV2_AUTH_SHARED_KEY_MIC)
ikev2_auth_verify(env, sa);
/* For CERT and Pubkey AUTH the CA process must find a matching key */
else if (sa->sa_peerauth.id_type) {
if (msg->msg_cert.id_type) {
certtype = msg->msg_cert.id_type;
cert = ibuf_data(msg->msg_cert.id_buf);
certlen = ibuf_length(msg->msg_cert.id_buf);
}
sa->sa_stateflags &= ~IKED_REQ_CERTVALID;
if (ca_setcert(env, &sa->sa_hdr, id, certtype, cert, certlen, PROC_CERT) == -1)
return (-1);
}
if (sa->sa_cp == IKEV2_CP_REPLY) {
if (sa->sa_cp_addr)
log_info("%s: obtained lease: %s", SPI_SA(sa, __func__),
print_addr(&sa->sa_cp_addr->addr));
if (sa->sa_cp_addr6)
log_info("%s: obtained lease: %s", SPI_SA(sa, __func__),
print_addr(&sa->sa_cp_addr6->addr));
if (sa->sa_cp_dns)
log_info("%s: obtained DNS: %s", SPI_SA(sa, __func__),
print_addr(&sa->sa_cp_dns->addr));
}
return ikev2_ike_auth(env, sa);
}
int
ikev2_ike_auth(struct iked *env, struct iked_sa *sa)
{
/* Attempt state transition */
if (sa->sa_state == IKEV2_STATE_EAP_SUCCESS)
sa_state(env, sa, IKEV2_STATE_EAP_VALID);
else if (sa->sa_state == IKEV2_STATE_AUTH_SUCCESS)
sa_state(env, sa, IKEV2_STATE_VALID);
if (sa->sa_hdr.sh_initiator) {
if (sa_stateok(sa, IKEV2_STATE_AUTH_SUCCESS))
return (ikev2_init_done(env, sa));
/* AUTH exchange is awaiting response from CA process, ignore */
else if (sa_stateok(sa, IKEV2_STATE_AUTH_REQUEST))
return (0);
else
return (ikev2_init_ike_auth(env, sa));
}
return (ikev2_resp_ike_auth(env, sa));
}
void
ikev2_init_recv(struct iked *env, struct iked_message *msg,
struct ike_header *hdr)
{
struct iked_sa *sa;
struct iked_policy *pol;
if (ikev2_msg_valid_ike_sa(env, hdr, msg) == -1) {
log_debug("%s: unknown SA", __func__);
return;
}
sa = msg->msg_sa;
switch (hdr->ike_exchange) {
case IKEV2_EXCHANGE_IKE_SA_INIT:
/* Update the SPIs */
if ((sa = sa_new(env,
betoh64(hdr->ike_ispi), betoh64(hdr->ike_rspi), 1,
NULL)) == NULL || sa != msg->msg_sa) {
log_debug("%s: invalid new SA", __func__);
if (sa) {
ikev2_ike_sa_setreason(sa, "invalid new SA");
sa_free(env, sa);
}
return;
}
break;
case IKEV2_EXCHANGE_IKE_AUTH:
case IKEV2_EXCHANGE_CREATE_CHILD_SA:
case IKEV2_EXCHANGE_INFORMATIONAL:
break;
default:
log_debug("%s: unsupported exchange: %s", __func__,
print_map(hdr->ike_exchange, ikev2_exchange_map));
return;
}
if (ikev2_pld_parse(env, hdr, msg, msg->msg_offset) != 0) {
log_debug("%s: failed to parse message", __func__);
return;
}
if (sa->sa_fragments.frag_count != 0)
return;
if (!ikev2_msg_frompeer(msg))
return;
if (ikev2_handle_notifies(env, msg) != 0)
return;
if (msg->msg_nat_detected && sa->sa_natt == 0)
ikev2_enable_natt(env, sa, msg, 1);
switch (hdr->ike_exchange) {
case IKEV2_EXCHANGE_IKE_SA_INIT:
if (ibuf_length(msg->msg_cookie)) {
pol = sa->sa_policy;
if (ikev2_init_ike_sa_peer(env, pol,
&pol->pol_peer, msg) != 0)
log_warnx("%s: failed to initiate a "
"IKE_SA_INIT exchange", SPI_SA(sa,
__func__));
break;
}
if (msg->msg_flags & IKED_MSG_FLAGS_NO_PROPOSAL_CHOSEN) {
log_info("%s: failed to negotiate IKE SA",
SPI_SA(sa, __func__));
ikev2_ike_sa_setreason(sa, "no proposal chosen");
sa_state(env, sa, IKEV2_STATE_CLOSED);
msg->msg_sa = NULL;
return;
}
if (ikev2_handle_certreq(env, msg) != 0)
return;
if (ikev2_init_auth(env, msg) != 0) {
ikev2_ike_sa_setreason(sa,
"failed to initiate IKE_AUTH exchange");
sa_state(env, sa, IKEV2_STATE_CLOSED);
msg->msg_sa = NULL;
return;
}
break;
case IKEV2_EXCHANGE_IKE_AUTH:
if (msg->msg_flags & IKED_MSG_FLAGS_AUTHENTICATION_FAILED) {
log_debug("%s: AUTHENTICATION_FAILED, closing SA",
__func__);
ikev2_log_cert_info(SPI_SA(sa, __func__),
sa->sa_hdr.sh_initiator ? &sa->sa_rcert
: &sa->sa_icert);
ikev2_ike_sa_setreason(sa,
"authentication failed notification from peer");
sa_state(env, sa, IKEV2_STATE_CLOSED);
msg->msg_sa = NULL;
return;
}
if (msg->msg_flags & IKED_MSG_FLAGS_NO_PROPOSAL_CHOSEN) {
log_info("%s: failed to negotiate IKE SA",
SPI_SA(sa, __func__));
ikev2_ike_sa_setreason(sa, "no proposal chosen (IKE SA)");
sa_state(env, sa, IKEV2_STATE_CLOSED);
msg->msg_sa = NULL;
return;
}
(void)ikev2_ike_auth_recv(env, sa, msg);
break;
case IKEV2_EXCHANGE_CREATE_CHILD_SA:
if (msg->msg_flags & IKED_MSG_FLAGS_NO_PROPOSAL_CHOSEN) {
log_info("%s: CREATE_CHILD_SA failed",
SPI_SA(sa, __func__));
ikev2_ike_sa_setreason(sa, "no proposal chosen (CHILD SA)");
sa_state(env, sa, IKEV2_STATE_CLOSED);
msg->msg_sa = NULL;
return;
}
(void)ikev2_init_create_child_sa(env, msg);
break;
case IKEV2_EXCHANGE_INFORMATIONAL:
sa->sa_stateflags &= ~IKED_REQ_INF;
break;
default:
log_debug("%s: exchange %s not implemented", __func__,
print_map(hdr->ike_exchange, ikev2_exchange_map));
break;
}
}
void
ikev2_enable_natt(struct iked *env, struct iked_sa *sa,
struct iked_message *msg, int udpencap)
{
struct iked_socket *sock;
in_port_t port;
sock = ikev2_msg_getsocket(env, sa->sa_local.addr_af, 1);
if (sock == NULL)
return;
/*
* Update address information and use the NAT-T
* port and socket, if available.
*/
port = htons(socket_getport(
(struct sockaddr *)&sock->sock_addr));
sa->sa_local.addr_port = port;
sa->sa_peer.addr_port = port;
(void)socket_af((struct sockaddr *)&sa->sa_local.addr, port);
(void)socket_af((struct sockaddr *)&sa->sa_peer.addr, port);
msg->msg_fd = sa->sa_fd = sock->sock_fd;
msg->msg_sock = sock;
sa->sa_natt = 1;
if (udpencap)
sa->sa_udpencap = 1;
log_debug("%s: detected NAT, enabling UDP encapsulation,"
" updated SA to peer %s local %s", __func__,
print_addr(&sa->sa_peer.addr), print_addr(&sa->sa_local.addr));
}
void
ikev2_init_ike_sa(struct iked *env, void *arg)
{
struct iked_policy *pol;
TAILQ_FOREACH(pol, &env->sc_policies, pol_entry) {
if ((pol->pol_flags & IKED_POLICY_ACTIVE) == 0)
continue;
if (!TAILQ_EMPTY(&pol->pol_sapeers)) {
log_debug("%s: \"%s\" is already active",
__func__, pol->pol_name);
continue;
}
log_info("%s: initiating \"%s\"", __func__, pol->pol_name);
if (ikev2_init_ike_sa_peer(env, pol, &pol->pol_peer, NULL))
log_debug("%s: failed to initiate with peer %s",
__func__, print_addr(&pol->pol_peer.addr));
}
timer_set(env, &env->sc_inittmr, ikev2_init_ike_sa, NULL);
timer_add(env, &env->sc_inittmr, IKED_INITIATOR_INTERVAL);
}
void
ikev2_init_ike_sa_timeout(struct iked *env, void *arg)
{
struct iked_sa *sa = arg;
log_debug("%s: ispi %s rspi %s", __func__,
print_spi(sa->sa_hdr.sh_ispi, 8),
print_spi(sa->sa_hdr.sh_rspi, 8));
ikev2_ike_sa_setreason(sa, "SA_INIT timeout");
sa_free(env, sa);
}
int
ikev2_init_ike_sa_peer(struct iked *env, struct iked_policy *pol,
struct iked_addr *peer, struct iked_message *retry)
{
struct sockaddr_storage ss;
struct iked_message req;
struct ike_header *hdr;
struct ikev2_payload *pld;
struct ikev2_keyexchange *ke;
struct ikev2_notify *n;
struct iked_sa *sa = NULL;
struct ibuf *buf, *cookie = NULL, *vendor_id = NULL;
struct dh_group *group;
ssize_t len;
int ret = -1;
struct iked_socket *sock;
in_port_t port;
if ((sock = ikev2_msg_getsocket(env, peer->addr_af, 0)) == NULL)
return (-1);
if (retry != NULL) {
sa = retry->msg_sa;
cookie = retry->msg_cookie;
sa_state(env, sa, IKEV2_STATE_INIT);
}
/* Create a new initiator SA */
if (sa == NULL &&
(sa = sa_new(env, 0, 0, 1, pol)) == NULL)
return (-1);
/* Pick peer's DH group if asked */
if (pol->pol_peerdh > 0 && sa->sa_dhgroup == NULL &&
(sa->sa_dhgroup = group_get(pol->pol_peerdh)) == NULL) {
log_warnx("%s: invalid peer DH group %u", SPI_SA(sa, __func__),
pol->pol_peerdh);
goto closeonly;
}
sa->sa_reqid = 0;
if (ikev2_sa_initiator(env, sa, NULL, NULL) == -1)
goto closeonly;
if (pol->pol_local.addr.ss_family == AF_UNSPEC) {
if (socket_getaddr(sock->sock_fd, &ss) == -1)
goto closeonly;
} else
memcpy(&ss, &pol->pol_local.addr, pol->pol_local.addr.ss_len);
if ((buf = ikev2_msg_init(env, &req, &peer->addr, peer->addr.ss_len,
&ss, ss.ss_len, 0)) == NULL)
goto done;
/* Inherit the port from the 1st send socket */
port = htons(socket_getport((struct sockaddr *)&sock->sock_addr));
(void)socket_af((struct sockaddr *)&req.msg_local, port);
(void)socket_af((struct sockaddr *)&req.msg_peer, port);
req.msg_fd = sock->sock_fd;
req.msg_sa = sa;
req.msg_sock = sock;
req.msg_msgid = ikev2_msg_id(env, sa);
/* IKE header */
if ((hdr = ikev2_add_header(buf, sa, req.msg_msgid,
cookie == NULL ? IKEV2_PAYLOAD_SA : IKEV2_PAYLOAD_NOTIFY,
IKEV2_EXCHANGE_IKE_SA_INIT, 0)) == NULL)
goto done;
/* Reflect COOKIE */
if (cookie) {
if ((pld = ikev2_add_payload(buf)) == NULL)
goto done;
if ((n = ibuf_reserve(buf, sizeof(*n))) == NULL)
goto done;
n->n_protoid = IKEV2_SAPROTO_NONE;
n->n_spisize = 0;
n->n_type = htobe16(IKEV2_N_COOKIE);
if (ikev2_add_buf(buf, cookie) == -1)
goto done;
len = sizeof(*n) + ibuf_size(cookie);
log_debug("%s: added cookie, len %zu", __func__,
ibuf_size(cookie));
print_hex(ibuf_data(cookie), 0, ibuf_size(cookie));
if (ikev2_next_payload(pld, len, IKEV2_PAYLOAD_SA) == -1)
goto done;
}
/* SA payload */
if ((pld = ikev2_add_payload(buf)) == NULL)
goto done;
if ((len = ikev2_add_proposals(env, sa, buf, &pol->pol_proposals,
IKEV2_SAPROTO_IKE, sa->sa_hdr.sh_initiator, 0, 0)) == -1)
goto done;
if (ikev2_next_payload(pld, len, IKEV2_PAYLOAD_KE) == -1)
goto done;
/* KE payload */
if ((pld = ikev2_add_payload(buf)) == NULL)
goto done;
if ((ke = ibuf_reserve(buf, sizeof(*ke))) == NULL)
goto done;
if ((group = sa->sa_dhgroup) == NULL) {
log_debug("%s: invalid dh", __func__);
goto done;
}
ke->kex_dhgroup = htobe16(group->id);
if (ikev2_add_buf(buf, sa->sa_dhiexchange) == -1)
goto done;
len = sizeof(*ke) + ibuf_length(sa->sa_dhiexchange);
if (ikev2_next_payload(pld, len, IKEV2_PAYLOAD_NONCE) == -1)
goto done;
/* NONCE payload */
if ((pld = ikev2_add_payload(buf)) == NULL)
goto done;
if (ikev2_add_buf(buf, sa->sa_inonce) == -1)
goto done;
len = ibuf_size(sa->sa_inonce);
if (env->sc_vendorid != 0) {
vendor_id = ibuf_new(IKED_VENDOR_ID, strlen(IKED_VENDOR_ID));
ibuf_add(vendor_id, IKED_VERSION, strlen(IKED_VERSION));
if ((len = ikev2_add_vendor_id(buf, &pld, len, vendor_id))
== -1)
goto done;
}
/* Fragmentation Notify */
if (env->sc_frag) {
if ((len = ikev2_add_fragmentation(buf, &pld, len))
== -1)
goto done;
}
if (env->sc_nattmode != NATT_DISABLE) {
if (ntohs(port) == env->sc_nattport) {
/* Enforce NAT-T on the initiator side */
log_debug("%s: enforcing NAT-T", __func__);
req.msg_natt = sa->sa_natt = sa->sa_udpencap = 1;
}
if ((len = ikev2_add_nat_detection(env, buf, &pld, &req, len))
== -1)
goto done;
}
if ((len = ikev2_add_sighashnotify(buf, &pld, len)) == -1)
goto done;
if (ikev2_next_payload(pld, len, IKEV2_PAYLOAD_NONE) == -1)
goto done;
if (ikev2_set_header(hdr, ibuf_size(buf) - sizeof(*hdr)) == -1)
goto done;
(void)ikev2_pld_parse(env, hdr, &req, 0);
ibuf_free(sa->sa_1stmsg);
if ((sa->sa_1stmsg = ibuf_dup(buf)) == NULL) {
log_debug("%s: failed to copy 1st message", __func__);
goto done;
}
if ((ret = ikev2_msg_send(env, &req)) == 0)
sa_state(env, sa, IKEV2_STATE_SA_INIT);
/* Setup exchange timeout. */
timer_set(env, &sa->sa_timer, ikev2_init_ike_sa_timeout, sa);
timer_add(env, &sa->sa_timer, IKED_IKE_SA_EXCHANGE_TIMEOUT);
done:
ikev2_msg_cleanup(env, &req);
closeonly:
if (ret == -1) {
log_debug("%s: closing SA", __func__);
ikev2_ike_sa_setreason(sa, "failed to send SA_INIT");
sa_free(env, sa);
}
ibuf_free(vendor_id);
return (ret);
}
int
ikev2_init_auth(struct iked *env, struct iked_message *msg)
{
struct iked_sa *sa = msg->msg_sa;
struct ibuf *authmsg;
if (sa == NULL)
return (-1);
if (ikev2_sa_initiator(env, sa, NULL, msg) == -1) {
log_info("%s: failed to get IKE keys", SPI_SA(sa, __func__));
return (-1);
}
if ((authmsg = ikev2_msg_auth(env, sa,
!sa->sa_hdr.sh_initiator)) == NULL) {
log_info("%s: failed to get auth data", SPI_SA(sa, __func__));
return (-1);
}
if (ca_setauth(env, sa, authmsg, PROC_CERT) == -1) {
log_info("%s: failed to get cert", SPI_SA(sa, __func__));
ibuf_free(authmsg);
return (-1);
}
ibuf_free(authmsg);
return (ikev2_init_ike_auth(env, sa));
}
int
ikev2_init_ike_auth(struct iked *env, struct iked_sa *sa)
{
struct iked_policy *pol = sa->sa_policy;
struct ikev2_payload *pld;
struct ikev2_cert *cert;
struct ikev2_auth *auth;
struct iked_id *id, *certid, peerid;
struct ibuf *e = NULL;
uint8_t firstpayload;
int ret = -1;
ssize_t len;
int i;
if (!sa_stateok(sa, IKEV2_STATE_SA_INIT))
return (0);
if (!sa->sa_localauth.id_type) {
log_debug("%s: no local auth", __func__);
return (0);
}
/* New encrypted message buffer */
if ((e = ibuf_static()) == NULL)
goto done;
id = &sa->sa_iid;
certid = &sa->sa_icert;
/* ID payloads */
if ((pld = ikev2_add_payload(e)) == NULL)
goto done;
firstpayload = IKEV2_PAYLOAD_IDi;
if (ibuf_cat(e, id->id_buf) != 0)
goto done;
len = ibuf_size(id->id_buf);
if (pol->pol_peerid.id_type) {
bzero(&peerid, sizeof(peerid));
if (ikev2_policy2id(&pol->pol_peerid, &peerid, 0) != 0) {
log_debug("%s: failed to get remote id", __func__);
goto done;
}
if (ikev2_next_payload(pld, len, IKEV2_PAYLOAD_IDr) == -1)
goto done;
if ((pld = ikev2_add_payload(e)) == NULL)
goto done;
if (ibuf_cat(e, peerid.id_buf) != 0)
goto done;
len = ibuf_size(peerid.id_buf);
}
/* CERT payload */
if ((sa->sa_stateinit & IKED_REQ_CERT) &&
(certid->id_type != IKEV2_CERT_NONE)) {
if (ikev2_next_payload(pld, len,
IKEV2_PAYLOAD_CERT) == -1)
goto done;
if ((pld = ikev2_add_payload(e)) == NULL)
goto done;
if ((cert = ibuf_reserve(e, sizeof(*cert))) == NULL)
goto done;
cert->cert_type = certid->id_type;
if (ibuf_cat(e, certid->id_buf) != 0)
goto done;
len = ibuf_size(certid->id_buf) + sizeof(*cert);
for (i = 0; i < IKED_SCERT_MAX; i++) {
if (sa->sa_scert[i].id_type == IKEV2_CERT_NONE)
break;
if (ikev2_next_payload(pld, len,
IKEV2_PAYLOAD_CERT) == -1)
goto done;
if ((pld = ikev2_add_payload(e)) == NULL)
goto done;
if ((cert = ibuf_reserve(e, sizeof(*cert))) == NULL)
goto done;
cert->cert_type = sa->sa_scert[i].id_type;
if (ibuf_cat(e, sa->sa_scert[i].id_buf) != 0)
goto done;
len = ibuf_size(sa->sa_scert[i].id_buf) + sizeof(*cert);
}
/* CERTREQ payload(s) */
if ((len = ikev2_add_certreq(e, &pld,
len, env->sc_certreq, env->sc_certreqtype)) == -1)
goto done;
if (env->sc_certreqtype != pol->pol_certreqtype &&
(len = ikev2_add_certreq(e, &pld,
len, NULL, pol->pol_certreqtype)) == -1)
goto done;
}
if (ikev2_next_payload(pld, len, IKEV2_PAYLOAD_AUTH) == -1)
goto done;
/* AUTH payload */
if ((pld = ikev2_add_payload(e)) == NULL)
goto done;
if ((auth = ibuf_reserve(e, sizeof(*auth))) == NULL)
goto done;
auth->auth_method = sa->sa_localauth.id_type;
if (ibuf_cat(e, sa->sa_localauth.id_buf) != 0)
goto done;
len = ibuf_size(sa->sa_localauth.id_buf) + sizeof(*auth);
/* CP payload */
if (ikev2_cp_request_configured(sa)) {
if (ikev2_next_payload(pld, len, IKEV2_PAYLOAD_CP) == -1)
goto done;
if ((pld = ikev2_add_payload(e)) == NULL)
goto done;
if ((len = ikev2_init_add_cp(env, sa, e)) == -1)
goto done;
}
if ((pol->pol_flags & IKED_POLICY_IPCOMP) &&
(len = ikev2_add_ipcompnotify(env, e, &pld, len, sa, 1)) == -1)
goto done;
if ((pol->pol_flags & IKED_POLICY_TRANSPORT) &&
(len = ikev2_add_transport_mode(env, e, &pld, len, sa)) == -1)
goto done;
if (ikev2_next_payload(pld, len, IKEV2_PAYLOAD_SA) == -1)
goto done;
/* SA payload */
if ((pld = ikev2_add_payload(e)) == NULL)
goto done;
if ((len = ikev2_add_proposals(env, sa, e, &pol->pol_proposals, 0,
sa->sa_hdr.sh_initiator, 0, 1)) == -1)
goto done;
if ((len = ikev2_add_ts(e, &pld, len, sa, 0)) == -1)
goto done;
if (ikev2_next_payload(pld, len, IKEV2_PAYLOAD_NONE) == -1)
goto done;
ret = ikev2_msg_send_encrypt(env, sa, &e,
IKEV2_EXCHANGE_IKE_AUTH, firstpayload, 0);
done:
ibuf_free(e);
return (ret);
}
void
ikev2_enable_timer(struct iked *env, struct iked_sa *sa)
{
sa->sa_last_recvd = gettime();
timer_set(env, &sa->sa_timer, ikev2_ike_sa_alive, sa);
if (env->sc_alive_timeout > 0)
timer_add(env, &sa->sa_timer, env->sc_alive_timeout);
timer_set(env, &sa->sa_keepalive, ikev2_ike_sa_keepalive, sa);
if (sa->sa_usekeepalive)
timer_add(env, &sa->sa_keepalive,
IKED_IKE_SA_KEEPALIVE_TIMEOUT);
timer_set(env, &sa->sa_rekey, ikev2_ike_sa_rekey, sa);
if (sa->sa_policy->pol_rekey)
ikev2_ike_sa_rekey_schedule(env, sa);
}
void
ikev2_reset_alive_timer(struct iked *env)
{
struct iked_sa *sa;
RB_FOREACH(sa, iked_sas, &env->sc_sas) {
if (sa->sa_state != IKEV2_STATE_ESTABLISHED)
continue;
timer_del(env, &sa->sa_timer);
if (env->sc_alive_timeout > 0)
timer_add(env, &sa->sa_timer, env->sc_alive_timeout);
}
}
void
ikev2_disable_timer(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);
}
int
ikev2_init_done(struct iked *env, struct iked_sa *sa)
{
int ret;
if (!sa_stateok(sa, IKEV2_STATE_VALID))
return (0); /* ignored */
ret = ikev2_childsa_negotiate(env, sa, &sa->sa_kex, &sa->sa_proposals,
sa->sa_hdr.sh_initiator, 0);
if (ret == 0)
ret = ikev2_childsa_enable(env, sa);
if (ret == 0) {
sa_state(env, sa, IKEV2_STATE_ESTABLISHED);
/* Delete exchange timeout. */
timer_del(env, &sa->sa_timer);
ikev2_enable_timer(env, sa);
ikev2_log_established(sa);
ikev2_record_dstid(env, sa);
sa_configure_iface(env, sa, 1);
}
if (ret)
ikev2_childsa_delete(env, sa, 0, 0, NULL, 1);
return (ret);
}
int
ikev2_policy2id(struct iked_static_id *polid, struct iked_id *id, int srcid)
{
struct ikev2_id hdr;
struct iked_static_id localpid;
char idstr[IKED_ID_SIZE];
struct in_addr in4;
struct in6_addr in6;
X509_NAME *name = NULL;
uint8_t *p;
int len;
/* Fixup the local Id if not specified */
if (srcid && polid->id_type == 0) {
polid = &localpid;
bzero(polid, sizeof(*polid));
/* Create a default local ID based on our FQDN */
polid->id_type = IKEV2_ID_FQDN;
if (gethostname((char *)polid->id_data,
sizeof(polid->id_data)) != 0)
return (-1);
polid->id_offset = 0;
polid->id_length =
strlen((char *)polid->id_data); /* excluding NUL */
}
if (!polid->id_length)
return (-1);
/* Create an IKEv2 ID payload */
bzero(&hdr, sizeof(hdr));
hdr.id_type = id->id_type = polid->id_type;
id->id_offset = sizeof(hdr);
ibuf_free(id->id_buf);
if ((id->id_buf = ibuf_new(&hdr, sizeof(hdr))) == NULL)
return (-1);
switch (id->id_type) {
case IKEV2_ID_IPV4:
if (inet_pton(AF_INET, (char *)polid->id_data, &in4) != 1 ||
ibuf_add(id->id_buf, &in4, sizeof(in4)) != 0) {
ibuf_free(id->id_buf);
id->id_buf = NULL;
return (-1);
}
break;
case IKEV2_ID_IPV6:
if (inet_pton(AF_INET6, (char *)polid->id_data, &in6) != 1 ||
ibuf_add(id->id_buf, &in6, sizeof(in6)) != 0) {
ibuf_free(id->id_buf);
id->id_buf = NULL;
return (-1);
}
break;
case IKEV2_ID_ASN1_DN:
/* policy has ID in string-format, convert to ASN1 */
if ((name = ca_x509_name_parse(polid->id_data)) == NULL ||
(len = i2d_X509_NAME(name, NULL)) < 0 ||
(p = ibuf_reserve(id->id_buf, len)) == NULL ||
(i2d_X509_NAME(name, &p)) < 0) {
if (name)
X509_NAME_free(name);
ibuf_free(id->id_buf);
id->id_buf = NULL;
return (-1);
}
X509_NAME_free(name);
break;
default:
if (ibuf_add(id->id_buf,
polid->id_data, polid->id_length) != 0) {
ibuf_free(id->id_buf);
id->id_buf = NULL;
return (-1);
}
break;
}
if (ikev2_print_id(id, idstr, sizeof(idstr)) == -1)
return (-1);
log_debug("%s: %s %s length %zu", __func__,
srcid ? "srcid" : "dstid",
idstr, ibuf_size(id->id_buf));
return (0);
}
struct ike_header *
ikev2_add_header(struct ibuf *buf, struct iked_sa *sa,
uint32_t msgid, uint8_t nextpayload,
uint8_t exchange, uint8_t flags)
{
struct ike_header *hdr;
if ((hdr = ibuf_reserve(buf, sizeof(*hdr))) == NULL) {
log_debug("%s: failed to add header", __func__);
return (NULL);
}
hdr->ike_ispi = htobe64(sa->sa_hdr.sh_ispi);
hdr->ike_rspi = htobe64(sa->sa_hdr.sh_rspi);
hdr->ike_nextpayload = nextpayload;
hdr->ike_version = IKEV2_VERSION;
hdr->ike_exchange = exchange;
hdr->ike_msgid = htobe32(msgid);
hdr->ike_length = htobe32(sizeof(*hdr));
hdr->ike_flags = flags;
if (sa->sa_hdr.sh_initiator)
hdr->ike_flags |= IKEV2_FLAG_INITIATOR;
return (hdr);
}
int
ikev2_set_header(struct ike_header *hdr, size_t length)
{
uint32_t hdrlength = sizeof(*hdr) + length;
if (hdrlength > UINT32_MAX) {
log_debug("%s: message too long", __func__);
return (-1);
}
hdr->ike_length = htobe32(sizeof(*hdr) + length);
return (0);
}
struct ikev2_payload *
ikev2_add_payload(struct ibuf *buf)
{
struct ikev2_payload *pld;
if ((pld = ibuf_reserve(buf, sizeof(*pld))) == NULL) {
log_debug("%s: failed to add payload", __func__);
return (NULL);
}
pld->pld_nextpayload = IKEV2_PAYLOAD_NONE;
pld->pld_length = sizeof(*pld);
return (pld);
}
ssize_t
ikev2_add_ts_payload(struct ibuf *buf, unsigned int type, struct iked_sa *sa)
{
struct iked_policy *pol = sa->sa_policy;
struct ikev2_tsp *tsp;
struct ikev2_ts *ts;
struct iked_addr *addr;
struct iked_addr pooladdr;
uint8_t *ptr;
size_t len = 0;
uint32_t av[4], bv[4], mv[4];
struct sockaddr_in *in4;
struct sockaddr_in6 *in6;
struct iked_tss *tss;
struct iked_ts *tsi;
bzero(&pooladdr, sizeof(pooladdr));
if ((tsp = ibuf_reserve(buf, sizeof(*tsp))) == NULL)
return (-1);
len = sizeof(*tsp);
if (type == IKEV2_PAYLOAD_TSi) {
if (sa->sa_hdr.sh_initiator) {
tss = &pol->pol_tssrc;
tsp->tsp_count = pol->pol_tssrc_count;
} else {
tss = &pol->pol_tsdst;
tsp->tsp_count = pol->pol_tsdst_count;
}
} else if (type == IKEV2_PAYLOAD_TSr) {
if (sa->sa_hdr.sh_initiator) {
tss = &pol->pol_tsdst;
tsp->tsp_count = pol->pol_tsdst_count;
} else {
tss = &pol->pol_tssrc;
tsp->tsp_count = pol->pol_tssrc_count;
}
} else
return (-1);
TAILQ_FOREACH(tsi, tss, ts_entry) {
if ((ts = ibuf_reserve(buf, sizeof(*ts))) == NULL)
return (-1);
addr = &tsi->ts_addr;
/* patch remote address (if configured to 0.0.0.0) */
if ((type == IKEV2_PAYLOAD_TSi && !sa->sa_hdr.sh_initiator) ||
(type == IKEV2_PAYLOAD_TSr && sa->sa_hdr.sh_initiator)) {
if (ikev2_cp_fixaddr(sa, addr, &pooladdr) == 0)
addr = &pooladdr;
}
ts->ts_protoid = tsi->ts_ipproto;
if (addr->addr_port) {
ts->ts_startport = addr->addr_port;
ts->ts_endport = addr->addr_port;
} else {
ts->ts_startport = 0;
ts->ts_endport = 0xffff;
}
switch (addr->addr_af) {
case AF_INET:
ts->ts_type = IKEV2_TS_IPV4_ADDR_RANGE;
ts->ts_length = htobe16(sizeof(*ts) + 8);
if ((ptr = ibuf_reserve(buf, 8)) == NULL)
return (-1);
in4 = (struct sockaddr_in *)&addr->addr;
if (addr->addr_net) {
/* Convert IPv4 network to address range */
mv[0] = prefixlen2mask(addr->addr_mask);
av[0] = in4->sin_addr.s_addr & mv[0];
bv[0] = in4->sin_addr.s_addr | ~mv[0];
} else
av[0] = bv[0] = in4->sin_addr.s_addr;
memcpy(ptr, &av[0], 4);
memcpy(ptr + 4, &bv[0], 4);
break;
case AF_INET6:
ts->ts_type = IKEV2_TS_IPV6_ADDR_RANGE;
ts->ts_length = htobe16(sizeof(*ts) + 32);
if ((ptr = ibuf_reserve(buf, 32)) == NULL)
return (-1);
in6 = (struct sockaddr_in6 *)&addr->addr;
memcpy(&av, &in6->sin6_addr.s6_addr, 16);
memcpy(&bv, &in6->sin6_addr.s6_addr, 16);
if (addr->addr_net) {
/* Convert IPv6 network to address range */
prefixlen2mask6(addr->addr_mask, mv);
av[0] &= mv[0];
av[1] &= mv[1];
av[2] &= mv[2];
av[3] &= mv[3];
bv[0] |= ~mv[0];
bv[1] |= ~mv[1];
bv[2] |= ~mv[2];
bv[3] |= ~mv[3];
}
memcpy(ptr, &av, 16);
memcpy(ptr + 16, &bv, 16);
break;
}
len += betoh16(ts->ts_length);
}
return (len);
}
ssize_t
ikev2_add_ts(struct ibuf *e, struct ikev2_payload **pld, ssize_t len,
struct iked_sa *sa, int reverse)
{
if (ikev2_next_payload(*pld, len, IKEV2_PAYLOAD_TSi) == -1)
return (-1);
/* TSi payload */
if ((*pld = ikev2_add_payload(e)) == NULL)
return (-1);
if ((len = ikev2_add_ts_payload(e, reverse ? IKEV2_PAYLOAD_TSr :
IKEV2_PAYLOAD_TSi, sa)) == -1)
return (-1);
if (ikev2_next_payload(*pld, len, IKEV2_PAYLOAD_TSr) == -1)
return (-1);
/* TSr payload */
if ((*pld = ikev2_add_payload(e)) == NULL)
return (-1);
if ((len = ikev2_add_ts_payload(e, reverse ? IKEV2_PAYLOAD_TSi :
IKEV2_PAYLOAD_TSr, sa)) == -1)
return (-1);
return (len);
}
ssize_t
ikev2_add_certreq(struct ibuf *e, struct ikev2_payload **pld, ssize_t len,
struct ibuf *certreq, uint8_t type)
{
struct ikev2_cert *cert;
if (type == IKEV2_CERT_NONE)
return (len);
if (ikev2_next_payload(*pld, len, IKEV2_PAYLOAD_CERTREQ) == -1)
return (-1);
/* CERTREQ payload */
if ((*pld = ikev2_add_payload(e)) == NULL)
return (-1);
if ((cert = ibuf_reserve(e, sizeof(*cert))) == NULL)
return (-1);
cert->cert_type = type;
len = sizeof(*cert);
if (certreq != NULL && cert->cert_type == IKEV2_CERT_X509_CERT) {
if (ikev2_add_buf(e, certreq) == -1)
return (-1);
len += ibuf_size(certreq);
}
log_debug("%s: type %s length %zd", __func__,
print_map(type, ikev2_cert_map), len);
return (len);
}
ssize_t
ikev2_add_ipcompnotify(struct iked *env, struct ibuf *e,
struct ikev2_payload **pld, ssize_t len, struct iked_sa *sa,
int initiator)
{
struct iked_childsa csa;
struct iked_ipcomp *ic;
struct ikev2_notify *n;
uint8_t *ptr;
uint16_t cpi;
uint32_t spi;
uint8_t transform;
/* we only support deflate */
transform = IKEV2_IPCOMP_DEFLATE;
ic = initiator ? &sa->sa_ipcompi : &sa->sa_ipcompr;
if (initiator) {
bzero(&csa, sizeof(csa));
csa.csa_saproto = IKEV2_SAPROTO_IPCOMP;
csa.csa_ikesa = sa;
csa.csa_local = &sa->sa_peer;
csa.csa_peer = &sa->sa_local;
if (pfkey_sa_init(env, &csa, &spi) == -1)
return (-1);
ic->ic_cpi_in = spi;
} else {
spi = ic->ic_cpi_in;
/* make sure IPCOMP CPIs are not reused */
ic->ic_transform = 0;
ic->ic_cpi_in = 0;
ic->ic_cpi_out = 0;
}
log_debug("%s: ic_cpi_in 0x%04x", __func__, spi);
/*
* We get spi == 0 if the kernel does not support IPcomp,
* so just return the length of the current payload.
*/
if (spi == 0)
return (len);
cpi = htobe16((uint16_t)spi);
if (*pld)
if (ikev2_next_payload(*pld, len, IKEV2_PAYLOAD_NOTIFY) == -1)
return (-1);
if ((*pld = ikev2_add_payload(e)) == NULL)
return (-1);
len = sizeof(*n) + sizeof(cpi) + sizeof(transform);
if ((ptr = ibuf_reserve(e, len)) == NULL)
return (-1);
n = (struct ikev2_notify *)ptr;
n->n_protoid = 0;
n->n_spisize = 0;
n->n_type = htobe16(IKEV2_N_IPCOMP_SUPPORTED);
ptr += sizeof(*n);
memcpy(ptr, &cpi, sizeof(cpi));
ptr += sizeof(cpi);
memcpy(ptr, &transform, sizeof(transform));
return (len);
}
ssize_t
ikev2_add_notify(struct ibuf *e, struct ikev2_payload **pld, ssize_t len,
uint16_t notify)
{
struct ikev2_notify *n;
if (*pld)
if (ikev2_next_payload(*pld, len, IKEV2_PAYLOAD_NOTIFY) == -1)
return (-1);
if ((*pld = ikev2_add_payload(e)) == NULL)
return (-1);
len = sizeof(*n);
if ((n = ibuf_reserve(e, len)) == NULL)
return (-1);
n->n_protoid = 0;
n->n_spisize = 0;
n->n_type = htobe16(notify);
log_debug("%s: done", __func__);
return (len);
}
ssize_t
ikev2_add_vendor_id(struct ibuf *e, struct ikev2_payload **pld,
ssize_t len, struct ibuf *id)
{
if (*pld)
if (ikev2_next_payload(*pld, len, IKEV2_PAYLOAD_VENDOR) == -1)
return (-1);
if ((*pld = ikev2_add_payload(e)) == NULL)
return (-1);
if (ibuf_cat(e, id) == -1)
return (-1);
return (ibuf_length(id));
}
ssize_t
ikev2_add_mobike(struct ibuf *e, struct ikev2_payload **pld, ssize_t len)
{
return ikev2_add_notify(e, pld, len, IKEV2_N_MOBIKE_SUPPORTED);
}
ssize_t
ikev2_add_fragmentation(struct ibuf *buf, struct ikev2_payload **pld,
ssize_t len)
{
return ikev2_add_notify(buf, pld, len, IKEV2_N_FRAGMENTATION_SUPPORTED);
}
ssize_t
ikev2_add_sighashnotify(struct ibuf *e, struct ikev2_payload **pld,
ssize_t len)
{
struct ikev2_notify *n;
uint8_t *ptr;
size_t i;
uint16_t hash, signature_hashes[] = {
IKEV2_SIGHASH_SHA2_256,
IKEV2_SIGHASH_SHA2_384,
IKEV2_SIGHASH_SHA2_512
};
if (ikev2_next_payload(*pld, len, IKEV2_PAYLOAD_NOTIFY) == -1)
return (-1);
/* XXX signature_hashes are hardcoded for now */
len = sizeof(*n) + nitems(signature_hashes) * sizeof(hash);
/* NOTIFY payload */
if ((*pld = ikev2_add_payload(e)) == NULL)
return (-1);
if ((ptr = ibuf_reserve(e, len)) == NULL)
return (-1);
n = (struct ikev2_notify *)ptr;
n->n_protoid = 0;
n->n_spisize = 0;
n->n_type = htobe16(IKEV2_N_SIGNATURE_HASH_ALGORITHMS);
ptr += sizeof(*n);
for (i = 0; i < nitems(signature_hashes); i++) {
hash = htobe16(signature_hashes[i]);
memcpy(ptr, &hash, sizeof(hash));
ptr += sizeof(hash);
}
return (len);
}
ssize_t
ikev2_add_transport_mode(struct iked *env, struct ibuf *e,
struct ikev2_payload **pld, ssize_t len, struct iked_sa *sa)
{
return ikev2_add_notify(e, pld, len, IKEV2_N_USE_TRANSPORT_MODE);
}
int
ikev2_next_payload(struct ikev2_payload *pld, size_t length,
uint8_t nextpayload)
{
size_t pldlength = sizeof(*pld) + length;
if (pldlength > UINT16_MAX) {
log_debug("%s: payload too long", __func__);
return (-1);
}
log_debug("%s: length %zu nextpayload %s",
__func__, pldlength, print_map(nextpayload, ikev2_payload_map));
pld->pld_length = htobe16(pldlength);
pld->pld_nextpayload = nextpayload;
return (0);
}
ssize_t
ikev2_nat_detection(struct iked *env, struct iked_message *msg,
void *ptr, size_t len, unsigned int type, int frompeer)
{
EVP_MD_CTX *ctx;
struct ike_header *hdr;
uint8_t md[SHA_DIGEST_LENGTH];
unsigned int mdlen = sizeof(md);
struct iked_sa *sa = msg->msg_sa;
struct sockaddr_in *in4;
struct sockaddr_in6 *in6;
ssize_t ret = -1;
struct sockaddr *src, *dst, *ss;
uint64_t rspi, ispi;
struct ibuf *buf;
uint32_t rnd;
if (ptr == NULL)
return (mdlen);
if (frompeer) {
buf = msg->msg_parent->msg_data;
if ((hdr = ibuf_seek(buf, 0, sizeof(*hdr))) == NULL)
return (-1);
ispi = hdr->ike_ispi;
rspi = hdr->ike_rspi;
src = (struct sockaddr *)&msg->msg_peer;
dst = (struct sockaddr *)&msg->msg_local;
} else {
ispi = htobe64(sa->sa_hdr.sh_ispi);
rspi = htobe64(sa->sa_hdr.sh_rspi);
src = (struct sockaddr *)&msg->msg_local;
dst = (struct sockaddr *)&msg->msg_peer;
}
ctx = EVP_MD_CTX_new();
if (ctx == NULL)
return (-1);
EVP_DigestInit_ex(ctx, EVP_sha1(), NULL);
switch (type) {
case IKEV2_N_NAT_DETECTION_SOURCE_IP:
log_debug("%s: %s source %s %s %s", __func__,
frompeer ? "peer" : "local",
print_spi(betoh64(ispi), 8),
print_spi(betoh64(rspi), 8),
print_addr(src));
ss = src;
break;
case IKEV2_N_NAT_DETECTION_DESTINATION_IP:
log_debug("%s: %s destination %s %s %s", __func__,
frompeer ? "peer" : "local",
print_spi(betoh64(ispi), 8),
print_spi(betoh64(rspi), 8),
print_addr(dst));
ss = dst;
break;
default:
goto done;
}
EVP_DigestUpdate(ctx, &ispi, sizeof(ispi));
EVP_DigestUpdate(ctx, &rspi, sizeof(rspi));
switch (ss->sa_family) {
case AF_INET:
in4 = (struct sockaddr_in *)ss;
EVP_DigestUpdate(ctx, &in4->sin_addr.s_addr,
sizeof(in4->sin_addr.s_addr));
EVP_DigestUpdate(ctx, &in4->sin_port,
sizeof(in4->sin_port));
break;
case AF_INET6:
in6 = (struct sockaddr_in6 *)ss;
EVP_DigestUpdate(ctx, &in6->sin6_addr.s6_addr,
sizeof(in6->sin6_addr.s6_addr));
EVP_DigestUpdate(ctx, &in6->sin6_port,
sizeof(in6->sin6_port));
break;
default:
goto done;
}
if (env->sc_nattmode == NATT_FORCE) {
/* Enforce NAT-T/UDP-encapsulation by distorting the digest */
rnd = arc4random();
EVP_DigestUpdate(ctx, &rnd, sizeof(rnd));
}
EVP_DigestFinal_ex(ctx, md, &mdlen);
if (len < mdlen)
goto done;
memcpy(ptr, md, mdlen);
ret = mdlen;
done:
EVP_MD_CTX_free(ctx);
return (ret);
}
ssize_t
ikev2_add_nat_detection(struct iked *env, struct ibuf *buf,
struct ikev2_payload **pld, struct iked_message *msg, ssize_t len)
{
struct ikev2_notify *n;
uint8_t *ptr;
/* *pld is NULL if there is no previous payload */
if (*pld != NULL) {
if (ikev2_next_payload(*pld, len, IKEV2_PAYLOAD_NOTIFY) == -1)
return (-1);
}
/* NAT-T notify payloads */
if ((*pld = ikev2_add_payload(buf)) == NULL)
return (-1);
if ((n = ibuf_reserve(buf, sizeof(*n))) == NULL)
return (-1);
n->n_type = htobe16(IKEV2_N_NAT_DETECTION_SOURCE_IP);
len = ikev2_nat_detection(env, msg, NULL, 0, 0, 0);
if ((ptr = ibuf_reserve(buf, len)) == NULL)
return (-1);
if ((len = ikev2_nat_detection(env, msg, ptr, len,
betoh16(n->n_type), 0)) == -1)
return (-1);
len += sizeof(*n);
if (ikev2_next_payload(*pld, len, IKEV2_PAYLOAD_NOTIFY) == -1)
return (-1);
if ((*pld = ikev2_add_payload(buf)) == NULL)
return (-1);
if ((n = ibuf_reserve(buf, sizeof(*n))) == NULL)
return (-1);
n->n_type = htobe16(IKEV2_N_NAT_DETECTION_DESTINATION_IP);
len = ikev2_nat_detection(env, msg, NULL, 0, 0, 0);
if ((ptr = ibuf_reserve(buf, len)) == NULL)
return (-1);
if ((len = ikev2_nat_detection(env, msg, ptr, len,
betoh16(n->n_type), 0)) == -1)
return (-1);
len += sizeof(*n);
return (len);
}
ssize_t
ikev2_add_cp(struct iked *env, struct iked_sa *sa, int type, struct ibuf *buf)
{
struct iked_policy *pol = sa->sa_policy;
struct ikev2_cp *cp;
struct ikev2_cfg *cfg;
struct iked_cfg *ikecfg;
unsigned int i;
uint32_t mask4;
size_t len;
struct sockaddr_in *in4;
struct sockaddr_in6 *in6;
uint8_t prefixlen;
int sent_addr4 = 0, sent_addr6 = 0;
int have_mask4 = 0, sent_mask4 = 0;
if ((cp = ibuf_reserve(buf, sizeof(*cp))) == NULL)
return (-1);
len = sizeof(*cp);
switch (type) {
case IKEV2_CP_REQUEST:
case IKEV2_CP_REPLY:
cp->cp_type = type;
break;
default:
/* Not yet supported */
return (-1);
}
for (i = 0; i < pol->pol_ncfg; i++) {
ikecfg = &pol->pol_cfg[i];
if (ikecfg->cfg_action != cp->cp_type)
continue;
/* only return one address in case of multiple pools */
if (type == IKEV2_CP_REPLY) {
switch (ikecfg->cfg_type) {
case IKEV2_CFG_INTERNAL_IP4_ADDRESS:
if (sent_addr4)
continue;
break;
case IKEV2_CFG_INTERNAL_IP6_ADDRESS:
if (sent_addr6)
continue;
break;
}
}
if ((cfg = ibuf_reserve(buf, sizeof(*cfg))) == NULL)
return (-1);
cfg->cfg_type = htobe16(ikecfg->cfg_type);
len += sizeof(*cfg);
switch (ikecfg->cfg_type) {
case IKEV2_CFG_INTERNAL_IP4_ADDRESS:
case IKEV2_CFG_INTERNAL_IP4_NETMASK:
case IKEV2_CFG_INTERNAL_IP4_DNS:
case IKEV2_CFG_INTERNAL_IP4_NBNS:
case IKEV2_CFG_INTERNAL_IP4_DHCP:
case IKEV2_CFG_INTERNAL_IP4_SERVER:
/* 4 bytes IPv4 address */
in4 = ((ikecfg->cfg_type ==
IKEV2_CFG_INTERNAL_IP4_ADDRESS) &&
sa->sa_addrpool &&
sa->sa_addrpool->addr_af == AF_INET) ?
(struct sockaddr_in *)&sa->sa_addrpool->addr :
(struct sockaddr_in *)&ikecfg->cfg.address.addr;
/* don't include unspecified address in request */
if (type == IKEV2_CP_REQUEST &&
!in4->sin_addr.s_addr)
break;
cfg->cfg_length = htobe16(4);
if (ibuf_add(buf, &in4->sin_addr.s_addr, 4) == -1)
return (-1);
len += 4;
if (ikecfg->cfg_type == IKEV2_CFG_INTERNAL_IP4_ADDRESS) {
sent_addr4 = 1;
if (sa->sa_addrpool &&
sa->sa_addrpool->addr_af == AF_INET &&
sa->sa_addrpool->addr_mask != 0)
have_mask4 = 1;
}
if (ikecfg->cfg_type == IKEV2_CFG_INTERNAL_IP4_NETMASK)
sent_mask4 = 1;
break;
case IKEV2_CFG_INTERNAL_IP4_SUBNET:
/* 4 bytes IPv4 address + 4 bytes IPv4 mask + */
in4 = (struct sockaddr_in *)&ikecfg->cfg.address.addr;
mask4 = prefixlen2mask(ikecfg->cfg.address.addr_mask);
cfg->cfg_length = htobe16(8);
if (ibuf_add(buf, &in4->sin_addr.s_addr, 4) == -1)
return (-1);
if (ibuf_add(buf, &mask4, 4) == -1)
return (-1);
len += 8;
break;
case IKEV2_CFG_INTERNAL_IP6_DNS:
case IKEV2_CFG_INTERNAL_IP6_NBNS:
case IKEV2_CFG_INTERNAL_IP6_DHCP:
case IKEV2_CFG_INTERNAL_IP6_SERVER:
/* 16 bytes IPv6 address */
in6 = (struct sockaddr_in6 *)&ikecfg->cfg.address.addr;
cfg->cfg_length = htobe16(16);
if (ibuf_add(buf, &in6->sin6_addr.s6_addr, 16) == -1)
return (-1);
len += 16;
break;
case IKEV2_CFG_INTERNAL_IP6_ADDRESS:
case IKEV2_CFG_INTERNAL_IP6_SUBNET:
/* 16 bytes IPv6 address + 1 byte prefix length */
in6 = ((ikecfg->cfg_type ==
IKEV2_CFG_INTERNAL_IP6_ADDRESS) &&
sa->sa_addrpool6 &&
sa->sa_addrpool6->addr_af == AF_INET6) ?
(struct sockaddr_in6 *)&sa->sa_addrpool6->addr :
(struct sockaddr_in6 *)&ikecfg->cfg.address.addr;
/* don't include unspecified address in request */
if (type == IKEV2_CP_REQUEST &&
IN6_IS_ADDR_UNSPECIFIED(&in6->sin6_addr))
break;
cfg->cfg_length = htobe16(17);
if (ibuf_add(buf, &in6->sin6_addr.s6_addr, 16) == -1)
return (-1);
if (ikecfg->cfg.address.addr_net)
prefixlen = ikecfg->cfg.address.addr_mask;
else
prefixlen = 128;
if (ibuf_add(buf, &prefixlen, 1) == -1)
return (-1);
len += 16 + 1;
if (ikecfg->cfg_type == IKEV2_CFG_INTERNAL_IP6_ADDRESS)
sent_addr6 = 1;
break;
case IKEV2_CFG_APPLICATION_VERSION:
/* Reply with an empty string (non-NUL terminated) */
cfg->cfg_length = 0;
break;
}
}
/* derive netmask from pool */
if (type == IKEV2_CP_REPLY && have_mask4 && !sent_mask4) {
if ((cfg = ibuf_reserve(buf, sizeof(*cfg))) == NULL)
return (-1);
cfg->cfg_type = htobe16(IKEV2_CFG_INTERNAL_IP4_NETMASK);
len += sizeof(*cfg);
mask4 = prefixlen2mask(sa->sa_addrpool->addr_mask);
cfg->cfg_length = htobe16(4);
if (ibuf_add(buf, &mask4, 4) == -1)
return (-1);
len += 4;
}
return (len);
}
ssize_t
ikev2_init_add_cp(struct iked *env, struct iked_sa *sa, struct ibuf *buf)
{
return (ikev2_add_cp(env, sa, IKEV2_CP_REQUEST, buf));
}
ssize_t
ikev2_resp_add_cp(struct iked *env, struct iked_sa *sa, struct ibuf *buf)
{
int ret;
switch (sa->sa_cp) {
case IKEV2_CP_REQUEST:
ret = ikev2_add_cp(env, sa, IKEV2_CP_REPLY, buf);
break;
case IKEV2_CP_REPLY:
case IKEV2_CP_SET:
case IKEV2_CP_ACK:
default:
/* Not yet supported */
ret = -1;
}
return (ret);
}
ssize_t
ikev2_add_proposals(struct iked *env, struct iked_sa *sa, struct ibuf *buf,
struct iked_proposals *proposals, uint8_t protoid, int initiator,
int sendikespi, int skipdh)
{
struct ikev2_sa_proposal *sap = NULL;
struct iked_transform *xform;
struct iked_proposal *prop;
struct iked_childsa csa;
ssize_t length = 0, saplength, xflen;
uint64_t spi64;
uint32_t spi32, spi = 0;
unsigned int i, xfi, nxforms;
int prop_skipdh;
TAILQ_FOREACH(prop, proposals, prop_entry) {
if ((protoid && prop->prop_protoid != protoid) ||
(!protoid && prop->prop_protoid == IKEV2_SAPROTO_IKE))
continue;
prop_skipdh = skipdh;
if (protoid != IKEV2_SAPROTO_IKE && initiator) {
if (spi == 0) {
bzero(&csa, sizeof(csa));
csa.csa_ikesa = sa;
csa.csa_saproto = prop->prop_protoid;
csa.csa_local = &sa->sa_peer;
csa.csa_peer = &sa->sa_local;
if (pfkey_sa_init(env, &csa, &spi) == -1)
return (-1);
}
prop->prop_localspi.spi = spi;
prop->prop_localspi.spi_size = 4;
prop->prop_localspi.spi_protoid = prop->prop_protoid;
}
if ((sap = ibuf_reserve(buf, sizeof(*sap))) == NULL) {
log_debug("%s: failed to add proposal", __func__);
return (-1);
}
if (sendikespi) {
/* Special case for IKE SA rekeying */
prop->prop_localspi.spi = initiator ?
sa->sa_hdr.sh_ispi : sa->sa_hdr.sh_rspi;
prop->prop_localspi.spi_size = 8;
prop->prop_localspi.spi_protoid = IKEV2_SAPROTO_IKE;
}
/*
* A single DH transform of type NONE is equivalent with
* not sending a DH transform at all.
* Prefer the latter for downwards compatibility.
*/
if (protoid != IKEV2_SAPROTO_IKE) {
for (i = 0; i < prop->prop_nxforms; i++) {
xform = prop->prop_xforms + i;
if (xform->xform_type == IKEV2_XFORMTYPE_DH &&
xform->xform_id != IKEV2_XFORMDH_NONE)
break;
}
if (i == prop->prop_nxforms)
prop_skipdh = 1;
}
/*
* RFC 7296: 1.2. The Initial Exchanges
* IKE_AUTH messages do not contain KE/N payloads, thus
* SA payloads cannot contain groups.
*/
if (prop_skipdh) {
nxforms = 0;
for (i = 0; i < prop->prop_nxforms; i++) {
xform = prop->prop_xforms + i;
if (xform->xform_type == IKEV2_XFORMTYPE_DH)
continue;
nxforms++;
}
} else
nxforms = prop->prop_nxforms;
sap->sap_more = IKEV1_PAYLOAD_PROPOSAL;
sap->sap_proposalnr = prop->prop_id;
sap->sap_protoid = prop->prop_protoid;
sap->sap_spisize = prop->prop_localspi.spi_size;
sap->sap_transforms = nxforms;
saplength = sizeof(*sap);
switch (prop->prop_localspi.spi_size) {
case 4:
spi32 = htobe32(prop->prop_localspi.spi);
if (ibuf_add(buf, &spi32, sizeof(spi32)) != 0)
return (-1);
saplength += 4;
break;
case 8:
spi64 = htobe64(prop->prop_localspi.spi);
if (ibuf_add(buf, &spi64, sizeof(spi64)) != 0)
return (-1);
saplength += 8;
break;
default:
break;
}
for (i = 0, xfi = 0; i < prop->prop_nxforms; i++) {
xform = prop->prop_xforms + i;
if (prop_skipdh && xform->xform_type == IKEV2_XFORMTYPE_DH)
continue;
if ((xflen = ikev2_add_transform(buf,
xfi == nxforms - 1 ?
IKEV2_XFORM_LAST : IKEV2_XFORM_MORE,
xform->xform_type, xform->xform_id,
xform->xform_length)) == -1)
return (-1);
xfi++;
saplength += xflen;
}
sap->sap_length = htobe16(saplength);
length += saplength;
}
if (sap != NULL)
sap->sap_more = IKEV1_PAYLOAD_NONE;
log_debug("%s: length %zd", __func__, length);
return (length);
}
ssize_t
ikev2_add_transform(struct ibuf *buf,
uint8_t more, uint8_t type, uint16_t id, uint16_t length)
{
struct ikev2_transform *xfrm;
struct ikev2_attribute *attr;
if ((xfrm = ibuf_reserve(buf, sizeof(*xfrm))) == NULL) {
log_debug("%s: failed to add transform", __func__);
return (-1);
}
xfrm->xfrm_more = more;
xfrm->xfrm_type = type;
xfrm->xfrm_id = htobe16(id);
if (length) {
xfrm->xfrm_length = htobe16(sizeof(*xfrm) + sizeof(*attr));
if ((attr = ibuf_reserve(buf, sizeof(*attr))) == NULL) {
log_debug("%s: failed to add attribute", __func__);
return (-1);
}
attr->attr_type = htobe16(IKEV2_ATTRAF_TV |
IKEV2_ATTRTYPE_KEY_LENGTH);
attr->attr_length = htobe16(length);
} else
xfrm->xfrm_length = htobe16(sizeof(*xfrm));
return (betoh16(xfrm->xfrm_length));
}
int
ikev2_add_data(struct ibuf *buf, void *data, size_t length)
{
void *msgbuf;
if ((msgbuf = ibuf_reserve(buf, length)) == NULL) {
log_debug("%s: failed", __func__);
return (-1);
}
memcpy(msgbuf, data, length);
return (0);
}
int
ikev2_add_buf(struct ibuf *buf, struct ibuf *data)
{
void *msgbuf;
if ((msgbuf = ibuf_reserve(buf, ibuf_size(data))) == NULL) {
log_debug("%s: failed", __func__);
return (-1);
}
memcpy(msgbuf, ibuf_data(data), ibuf_size(data));
return (0);
}
int
ikev2_resp_informational(struct iked *env, struct iked_sa *sa,
struct iked_message *msg)
{
struct ikev2_notify *n;
struct ikev2_payload *pld = NULL;
struct ibuf *buf = NULL;
ssize_t len = 0;
int ret = -1;
uint8_t firstpayload = IKEV2_PAYLOAD_NONE;
if (!sa_stateok(sa, IKEV2_STATE_AUTH_REQUEST) ||
msg->msg_responded || msg->msg_error)
goto done;
if ((buf = ibuf_static()) == NULL)
goto done;
if ((len = ikev2_handle_delete(env, msg, buf, &pld,
&firstpayload)) == -1)
goto done;
/*
* Include NAT_DETECTION notification on UPDATE_SA_ADDRESSES or if
* the peer did include them, too (RFC 4555, 3.8).
*/
if (sa->sa_mobike &&
(msg->msg_update_sa_addresses || msg->msg_natt_rcvd)) {
/* NAT-T notify payloads */
len = ikev2_add_nat_detection(env, buf, &pld, msg, len);
if (len == -1)
goto done;
firstpayload = IKEV2_PAYLOAD_NOTIFY;
}
/* Reflect COOKIE2 */
if (msg->msg_cookie2) {
/* *pld is NULL if there is no previous payload */
if (pld != NULL) {
if (ikev2_next_payload(pld, len, IKEV2_PAYLOAD_NOTIFY) == -1)
goto done;
}
if ((pld = ikev2_add_payload(buf)) == NULL)
goto done;
if ((n = ibuf_reserve(buf, sizeof(*n))) == NULL)
goto done;
n->n_protoid = IKEV2_SAPROTO_IKE;
n->n_spisize = 0;
n->n_type = htobe16(IKEV2_N_COOKIE2);
if (ikev2_add_buf(buf, msg->msg_cookie2) == -1)
goto done;
len = sizeof(*n) + ibuf_size(msg->msg_cookie2);
log_debug("%s: added cookie2", __func__);
if (firstpayload == IKEV2_PAYLOAD_NONE)
firstpayload = IKEV2_PAYLOAD_NOTIFY;
}
/* add terminator, if there is already a payload */
if (firstpayload != IKEV2_PAYLOAD_NONE)
if (ikev2_next_payload(pld, len, IKEV2_PAYLOAD_NONE) == -1)
goto done;
ret = ikev2_msg_send_encrypt(env, sa, &buf,
IKEV2_EXCHANGE_INFORMATIONAL, firstpayload, 1);
if (ret != -1)
msg->msg_responded = 1;
if (msg->msg_flags & IKED_MSG_FLAGS_AUTHENTICATION_FAILED) {
log_debug("%s: AUTHENTICATION_FAILED, closing SA",
__func__);
ikev2_log_cert_info(SPI_SA(sa, __func__),
sa->sa_hdr.sh_initiator ? &sa->sa_rcert : &sa->sa_icert);
ikev2_ike_sa_setreason(sa,
"authentication failed notification from peer");
sa_state(env, sa, IKEV2_STATE_CLOSED);
}
done:
ibuf_free(buf);
return (ret);
}
void
ikev2_resp_recv(struct iked *env, struct iked_message *msg,
struct ike_header *hdr)
{
struct iked_sa *sa;
switch (hdr->ike_exchange) {
case IKEV2_EXCHANGE_IKE_SA_INIT:
if (msg->msg_sa != NULL) {
log_debug("%s: SA already exists", __func__);
return;
}
if ((msg->msg_sa = sa_new(env,
betoh64(hdr->ike_ispi), betoh64(hdr->ike_rspi),
0, msg->msg_policy)) == NULL) {
log_debug("%s: failed to get new SA", __func__);
return;
}
/* Setup exchange timeout. */
timer_set(env, &msg->msg_sa->sa_timer,
ikev2_init_ike_sa_timeout, msg->msg_sa);
timer_add(env, &msg->msg_sa->sa_timer,
IKED_IKE_SA_EXCHANGE_TIMEOUT);
break;
case IKEV2_EXCHANGE_IKE_AUTH:
if (ikev2_msg_valid_ike_sa(env, hdr, msg) == -1)
return;
if (sa_stateok(msg->msg_sa, IKEV2_STATE_VALID)) {
log_debug("%s: already authenticated", __func__);
return;
}
break;
case IKEV2_EXCHANGE_CREATE_CHILD_SA:
case IKEV2_EXCHANGE_INFORMATIONAL:
if (ikev2_msg_valid_ike_sa(env, hdr, msg) == -1)
return;
break;
default:
log_debug("%s: unsupported exchange: %s", __func__,
print_map(hdr->ike_exchange, ikev2_exchange_map));
return;
}
if (ikev2_pld_parse(env, hdr, msg, msg->msg_offset) != 0) {
log_info("%s: failed to parse message",
SPI_SA(msg->msg_sa, __func__));
return;
}
if (!ikev2_msg_frompeer(msg))
return;
if (ikev2_handle_notifies(env, msg) != 0)
return;
if ((sa = msg->msg_sa) == NULL)
return;
if (sa->sa_fragments.frag_count != 0)
return;
msg->msg_valid = 1;
if (msg->msg_natt && sa->sa_natt == 0) {
log_debug("%s: NAT-T message received, updated SA", __func__);
sa->sa_natt = 1;
}
switch (hdr->ike_exchange) {
case IKEV2_EXCHANGE_IKE_SA_INIT:
if (ikev2_sa_responder(env, sa, NULL, msg) != 0) {
log_info("%s: failed to negotiate IKE SA",
SPI_SA(sa, __func__));
if (msg->msg_error == 0)
msg->msg_error = IKEV2_N_NO_PROPOSAL_CHOSEN;
ikev2_send_init_error(env, msg);
ikev2_ike_sa_setreason(sa, "no proposal chosen");
sa_state(env, sa, IKEV2_STATE_CLOSED);
return;
}
if (ikev2_resp_ike_sa_init(env, msg) != 0) {
log_debug("%s: failed to send init response", __func__);
ikev2_ike_sa_setreason(sa, "SA_INIT response failed");
sa_state(env, sa, IKEV2_STATE_CLOSED);
return;
}
break;
case IKEV2_EXCHANGE_IKE_AUTH:
if (!sa_stateok(sa, IKEV2_STATE_SA_INIT)) {
log_debug("%s: state mismatch", __func__);
ikev2_ike_sa_setreason(sa, "state mismatch IKE_AUTH");
sa_state(env, sa, IKEV2_STATE_CLOSED);
return;
}
/* Handle EAP authentication */
if (msg->msg_eap.eam_found) {
if (ikev2_resp_ike_eap(env, sa, msg)) {
log_info("%s: failed eap response",
SPI_SA(sa, __func__));
ikev2_ike_sa_setreason(sa, "EAP failed");
sa_state(env, sa, IKEV2_STATE_CLOSED);
return;
}
return;
}
if (ikev2_ike_auth_recv(env, sa, msg) != 0) {
log_debug("%s: failed to send auth response", __func__);
ikev2_send_error(env, sa, msg, hdr->ike_exchange);
ikev2_ike_sa_setreason(sa, "IKE_AUTH failed");
sa_state(env, sa, IKEV2_STATE_CLOSED);
return;
}
break;
case IKEV2_EXCHANGE_CREATE_CHILD_SA:
if (ikev2_resp_create_child_sa(env, msg) != 0) {
if (msg->msg_error == 0)
msg->msg_error = IKEV2_N_NO_PROPOSAL_CHOSEN;
ikev2_send_error(env, sa, msg, hdr->ike_exchange);
}
break;
case IKEV2_EXCHANGE_INFORMATIONAL:
if (msg->msg_update_sa_addresses)
ikev2_update_sa_addresses(env, sa);
(void)ikev2_resp_informational(env, sa, msg);
break;
default:
break;
}
}
ssize_t
ikev2_handle_delete(struct iked *env, struct iked_message *msg,
struct ibuf *resp, struct ikev2_payload **pld, uint8_t *firstpayload)
{
struct iked_childsa **peersas = NULL;
struct iked_sa *sa = msg->msg_sa;
struct ikev2_delete *localdel;
FILE *spif;
char *spibuf = NULL;
uint64_t *localspi = NULL;
uint64_t spi64, spi = 0;
uint32_t spi32;
uint8_t *buf;
size_t found = 0;
int ret = -1;
size_t i, sz, cnt, len, dummy;
if (!msg->msg_del_protoid)
return (0);
if ((spif = open_memstream(&spibuf, &dummy)) == NULL) {
log_warn("%s", __func__);
return (0);
}
sz = msg->msg_del_spisize;
switch (sz) {
case 4:
case 8:
break;
case 0:
if (msg->msg_del_protoid != IKEV2_SAPROTO_IKE) {
log_debug("%s: invalid SPI size", __func__);
goto done;
}
ikev2_ikesa_recv_delete(env, sa);
return (0);
default:
log_info("%s: error: invalid SPI size", __func__);
goto done;
}
cnt = msg->msg_del_cnt;
len = ibuf_length(msg->msg_del_buf);
if ((len / sz) != cnt) {
log_debug("%s: invalid payload length %zu/%zu != %zu",
__func__, len, sz, cnt);
return (-1);
}
if (((peersas = calloc(cnt, sizeof(struct iked_childsa *))) == NULL ||
(localspi = calloc(cnt, sizeof(uint64_t))) == NULL)) {
log_warn("%s", __func__);
goto done;
}
buf = ibuf_data(msg->msg_del_buf);
for (i = 0; i < cnt; i++) {
switch (sz) {
case 4:
memcpy(&spi32, buf + (i * sz), sizeof(spi32));
spi = betoh32(spi32);
break;
case 8:
memcpy(&spi64, buf + (i * sz), sizeof(spi64));
spi = betoh64(spi64);
break;
}
log_debug("%s: spi %s", __func__, print_spi(spi, sz));
if (peersas == NULL || sa == NULL)
continue;
if ((peersas[i] = childsa_lookup(sa, spi,
msg->msg_del_protoid)) == NULL) {
log_warnx("%s: CHILD SA doesn't exist for spi %s",
SPI_SA(sa, __func__),
print_spi(spi, sz));
continue;
}
if (ikev2_childsa_delete(env, sa, msg->msg_del_protoid, spi,
&localspi[i], 0) != -1) {
found++;
/* append SPI to log buffer */
if (ftello(spif) > 0)
fputs(", ", spif);
fputs(print_spi(spi, sz), spif);
}
/*
* Flows are left in the require mode so that it would be
* possible to quickly negotiate a new Child SA
*/
}
if (resp == NULL) {
ret = 0;
goto done;
}
/* Response to the INFORMATIONAL with Delete payload */
if (found) {
if ((*pld = ikev2_add_payload(resp)) == NULL)
goto done;
*firstpayload = IKEV2_PAYLOAD_DELETE;
if ((localdel = ibuf_reserve(resp, sizeof(*localdel))) == NULL)
goto done;
localdel->del_protoid = msg->msg_del_protoid;
localdel->del_spisize = sz;
localdel->del_nspi = htobe16(found);
ret = sizeof(*localdel);
for (i = 0; i < cnt; i++) {
if (localspi[i] == 0) /* happens if found < cnt */
continue;
switch (sz) {
case 4:
spi32 = htobe32(localspi[i]);
if (ibuf_add(resp, &spi32, sizeof(spi32)) != 0)
goto done;
ret += sizeof(spi32);
break;
case 8:
spi64 = htobe64(localspi[i]);
if (ibuf_add(resp, &spi64, sizeof(spi64)) != 0)
goto done;
ret += sizeof(spi64);
break;
}
}
fflush(spif);
if (!ferror(spif)) {
log_info("%sdeleted %zu SPI%s: %s",
SPI_SA(sa, NULL), found, found == 1 ? "" : "s",
spibuf);
}
} else {
/* XXX should we send an INVALID_SPI notification? */
ret = 0;
}
done:
free(localspi);
free(peersas);
fclose(spif);
free(spibuf);
return (ret);
}
int
ikev2_handle_notifies(struct iked *env, struct iked_message *msg)
{
struct iked_ipcomp *ic;
struct iked_sa *sa;
struct iked_spi rekey;
struct dh_group *group;
uint16_t groupid;
unsigned int protoid;
if ((sa = msg->msg_sa) == NULL)
return (-1);
if (msg->msg_flags & IKED_MSG_FLAGS_CHILD_SA_NOT_FOUND)
sa->sa_stateflags &= ~IKED_REQ_CHILDSA;
if ((msg->msg_flags & IKED_MSG_FLAGS_FRAGMENTATION) && env->sc_frag) {
log_debug("%s: fragmentation enabled", __func__);
sa->sa_frag = 1;
}
if ((msg->msg_flags & IKED_MSG_FLAGS_MOBIKE) && env->sc_mobike) {
log_debug("%s: mobike enabled", __func__);
sa->sa_mobike = 1;
/* enforce natt */
if (sa->sa_natt == 0 && sa->sa_udpencap == 0)
ikev2_enable_natt(env, sa, msg, 0);
}
if ((msg->msg_flags & IKED_MSG_FLAGS_NO_ADDITIONAL_SAS)
&& sa->sa_stateflags & IKED_REQ_CHILDSA) {
/* This makes sense for Child SAs only atm */
ikev2_disable_rekeying(env, sa);
sa->sa_stateflags &= ~IKED_REQ_CHILDSA;
}
if (msg->msg_flags & IKED_MSG_FLAGS_INVALID_KE) {
groupid = betoh16(msg->msg_group);
if (group_getid(groupid) == NULL) {
log_debug("%s: unable to select DH group %u",
__func__, groupid);
ikev2_ike_sa_setreason(sa,
"unable to select DH group");
sa_state(env, sa, IKEV2_STATE_CLOSED);
msg->msg_sa = NULL;
return (-1);
}
log_debug("%s: responder selected DH group %u", __func__,
groupid);
switch (msg->msg_exchange) {
case IKEV2_EXCHANGE_IKE_SA_INIT:
protoid = IKEV2_SAPROTO_IKE;
if (!sa->sa_hdr.sh_initiator) {
log_debug("%s: not an initiator", __func__);
ikev2_ike_sa_setreason(sa,
"received invalid KE as responder");
sa_state(env, sa, IKEV2_STATE_CLOSED);
msg->msg_sa = NULL;
return (-1);
}
if (config_findtransform_ext(&msg->msg_policy->pol_proposals,
IKEV2_XFORMTYPE_DH, groupid, protoid) == NULL) {
log_debug("%s: DH group %u denied by policy",
__func__, groupid);
ikev2_ike_sa_setreason(sa,
"unsupported group in INVALID_KE message");
sa_state(env, sa, IKEV2_STATE_CLOSED);
msg->msg_sa = NULL;
return (-1);
}
ikev2_ike_sa_setreason(sa,
"reinitiating with new DH group");
sa_state(env, sa, IKEV2_STATE_CLOSED);
msg->msg_sa = NULL;
msg->msg_policy->pol_peerdh = groupid;
timer_set(env, &env->sc_inittmr, ikev2_init_ike_sa, NULL);
timer_add(env, &env->sc_inittmr, IKED_INITIATOR_INITIAL);
return (-1);
case IKEV2_EXCHANGE_CREATE_CHILD_SA:
if (!(sa->sa_stateflags & IKED_REQ_CHILDSA)) {
log_debug("%s: IKED_REQ_CHILDSA missing",
__func__);
return (-1);
}
sa->sa_stateflags &= ~IKED_REQ_CHILDSA;
protoid = sa->sa_rekeyspi ?
IKEV2_SAPROTO_ESP : IKEV2_SAPROTO_IKE;
if (config_findtransform_ext(&msg->msg_policy->pol_proposals,
IKEV2_XFORMTYPE_DH, groupid, protoid) == NULL) {
log_debug("%s: DH group %u denied by policy",
__func__, groupid);
ikev2_ike_sa_setreason(sa,
"unsupported group in INVALID_KE message");
sa_state(env, sa, IKEV2_STATE_CLOSED);
msg->msg_sa = NULL;
return (-1);
}
if (protoid == IKEV2_SAPROTO_ESP) {
/* CHILDSA */
rekey.spi = sa->sa_rekeyspi;
rekey.spi_size = 4;
rekey.spi_protoid = protoid;
(void)ikev2_send_create_child_sa(env, sa,
&rekey, rekey.spi_protoid, groupid);
} else {
/* IKESA */
if ((group = group_get(groupid)) == NULL)
return -1;
group_free(sa->sa_dhgroup);
sa->sa_dhgroup = group;
timer_set(env, &sa->sa_rekey,
ikev2_ike_sa_rekey, sa);
timer_add(env, &sa->sa_rekey, 0);
}
return (-1);
}
}
if (msg->msg_flags & IKED_MSG_FLAGS_IPCOMP_SUPPORTED) {
/* we only support deflate */
if ((msg->msg_policy->pol_flags & IKED_POLICY_IPCOMP) &&
(msg->msg_transform == IKEV2_IPCOMP_DEFLATE)) {
ic = msg->msg_response ?
&sa->sa_ipcompi :
&sa->sa_ipcompr;
ic->ic_transform = msg->msg_transform;
ic->ic_cpi_out = betoh16(msg->msg_cpi);
}
}
if (msg->msg_nat_detected & IKED_MSG_NAT_DST_IP) {
/* Send keepalive, since we are behind a NAT-gw */
sa->sa_usekeepalive = 1;
}
/* Signature hash algorithm */
if (msg->msg_flags & IKED_MSG_FLAGS_SIGSHA2)
sa->sa_sigsha2 = 1;
if (msg->msg_flags & IKED_MSG_FLAGS_USE_TRANSPORT)
sa->sa_use_transport_mode = 1;
if ((msg->msg_flags & IKED_MSG_FLAGS_TEMPORARY_FAILURE)
&& sa->sa_nexti != NULL)
sa->sa_tmpfail = 1;
return (0);
}
int
ikev2_resp_ike_sa_init(struct iked *env, struct iked_message *msg)
{
struct iked_message resp;
struct ike_header *hdr;
struct ikev2_payload *pld;
struct ikev2_keyexchange *ke;
struct iked_sa *sa = msg->msg_sa;
struct ibuf *buf;
struct ibuf *vendor_id = NULL;
struct dh_group *group;
ssize_t len;
int ret = -1;
if (sa->sa_hdr.sh_initiator) {
log_debug("%s: called by initiator", __func__);
return (-1);
}
if (msg->msg_nat_detected && sa->sa_udpencap == 0) {
log_debug("%s: detected NAT, enabling UDP encapsulation",
__func__);
sa->sa_udpencap = 1;
}
if ((buf = ikev2_msg_init(env, &resp,
&msg->msg_peer, msg->msg_peerlen,
&msg->msg_local, msg->msg_locallen, 1)) == NULL)
goto done;
resp.msg_sa = sa;
resp.msg_fd = msg->msg_fd;
resp.msg_natt = msg->msg_natt;
resp.msg_msgid = 0;
/* IKE header */
if ((hdr = ikev2_add_header(buf, sa, resp.msg_msgid,
IKEV2_PAYLOAD_SA, IKEV2_EXCHANGE_IKE_SA_INIT,
IKEV2_FLAG_RESPONSE)) == NULL)
goto done;
/* SA payload */
if ((pld = ikev2_add_payload(buf)) == NULL)
goto done;
if ((len = ikev2_add_proposals(env, sa, buf, &sa->sa_proposals,
IKEV2_SAPROTO_IKE, sa->sa_hdr.sh_initiator, 0, 0)) == -1)
goto done;
if (ikev2_next_payload(pld, len, IKEV2_PAYLOAD_KE) == -1)
goto done;
/* KE payload */
if ((pld = ikev2_add_payload(buf)) == NULL)
goto done;
if ((ke = ibuf_reserve(buf, sizeof(*ke))) == NULL)
goto done;
if ((group = sa->sa_dhgroup) == NULL) {
log_debug("%s: invalid dh", __func__);
goto done;
}
ke->kex_dhgroup = htobe16(group->id);
if (ikev2_add_buf(buf, sa->sa_dhrexchange) == -1)
goto done;
len = sizeof(*ke) + ibuf_size(sa->sa_dhrexchange);
if (ikev2_next_payload(pld, len, IKEV2_PAYLOAD_NONCE) == -1)
goto done;
/* NONCE payload */
if ((pld = ikev2_add_payload(buf)) == NULL)
goto done;
if (ikev2_add_buf(buf, sa->sa_rnonce) == -1)
goto done;
len = ibuf_size(sa->sa_rnonce);
if (env->sc_vendorid != 0) {
vendor_id = ibuf_new(IKED_VENDOR_ID, strlen(IKED_VENDOR_ID));
ibuf_add(vendor_id, IKED_VERSION, strlen(IKED_VERSION));
if ((len = ikev2_add_vendor_id(buf, &pld, len, vendor_id))
== -1)
goto done;
}
/* Fragmentation Notify*/
if (sa->sa_frag) {
if ((len = ikev2_add_fragmentation(buf, &pld, len))
== -1)
goto done;
}
if ((env->sc_nattmode != NATT_DISABLE) &&
msg->msg_local.ss_family != AF_UNSPEC) {
if ((len = ikev2_add_nat_detection(env, buf, &pld, &resp, len))
== -1)
goto done;
}
if (sa->sa_statevalid & IKED_REQ_CERT) {
/* CERTREQ payload(s) */
if ((len = ikev2_add_certreq(buf, &pld,
len, env->sc_certreq, env->sc_certreqtype)) == -1)
goto done;
if (env->sc_certreqtype != sa->sa_policy->pol_certreqtype &&
(len = ikev2_add_certreq(buf, &pld,
len, NULL, sa->sa_policy->pol_certreqtype)) == -1)
goto done;
}
if (sa->sa_sigsha2 &&
(len = ikev2_add_sighashnotify(buf, &pld, len)) == -1)
goto done;
if (ikev2_next_payload(pld, len, IKEV2_PAYLOAD_NONE) == -1)
goto done;
if (ikev2_set_header(hdr, ibuf_size(buf) - sizeof(*hdr)) == -1)
goto done;
(void)ikev2_pld_parse(env, hdr, &resp, 0);
ibuf_free(sa->sa_2ndmsg);
if ((sa->sa_2ndmsg = ibuf_dup(buf)) == NULL) {
log_debug("%s: failed to copy 2nd message", __func__);
goto done;
}
ret = ikev2_msg_send(env, &resp);
done:
ibuf_free(vendor_id);
ikev2_msg_cleanup(env, &resp);
return (ret);
}
int
ikev2_send_auth_failed(struct iked *env, struct iked_sa *sa)
{
char dstid[IKED_ID_SIZE];
struct ikev2_notify *n;
struct ibuf *buf = NULL;
int ret = -1, exchange, response;
if (ikev2_print_id(IKESA_DSTID(sa), dstid, sizeof(dstid)) == -1)
bzero(dstid, sizeof(dstid));
log_info("%s: authentication failed for %s",
SPI_SA(sa, __func__), dstid);
/* Log certificate information */
ikev2_log_cert_info(SPI_SA(sa, __func__),
sa->sa_hdr.sh_initiator ? &sa->sa_rcert : &sa->sa_icert);
/* Notify payload */
if ((buf = ibuf_static()) == NULL)
goto done;
if ((n = ibuf_reserve(buf, sizeof(*n))) == NULL)
goto done;
n->n_protoid = IKEV2_SAPROTO_IKE;
n->n_spisize = 0;
n->n_type = htobe16(IKEV2_N_AUTHENTICATION_FAILED);
if (sa->sa_hdr.sh_initiator) {
exchange = IKEV2_EXCHANGE_INFORMATIONAL;
response = 0;
} else {
exchange = IKEV2_EXCHANGE_IKE_AUTH;
response = 1;
}
ret = ikev2_send_ike_e(env, sa, buf, IKEV2_PAYLOAD_NOTIFY,
exchange, response);
if (exchange == IKEV2_EXCHANGE_INFORMATIONAL)
sa->sa_stateflags |= IKED_REQ_INF;
done:
ibuf_free(buf);
/* cleanup SA after timeout */
sa_state(env, sa, IKEV2_STATE_CLOSING);
timer_del(env, &sa->sa_timer);
timer_set(env, &sa->sa_timer, ikev2_ike_sa_timeout, sa);
timer_add(env, &sa->sa_timer, IKED_IKE_SA_DELETE_TIMEOUT);
config_free_fragments(&sa->sa_fragments);
ikev2_ike_sa_setreason(sa, "authentication failed");
return (ret);
}
ssize_t
ikev2_add_error(struct iked *env, struct ibuf *buf, struct iked_message *msg)
{
struct ikev2_notify *n;
struct iked_spi *rekey;
uint16_t group;
uint32_t spi32;
uint64_t spi64;
size_t len;
uint8_t *ptr;
switch (msg->msg_error) {
case IKEV2_N_CHILD_SA_NOT_FOUND:
break;
case IKEV2_N_NO_PROPOSAL_CHOSEN:
ikev2_log_proposal(msg->msg_sa, &msg->msg_proposals);
break;
case IKEV2_N_INVALID_KE_PAYLOAD:
break;
default:
return (-1);
}
log_info("%s: %s", SPI_SA(msg->msg_sa, __func__),
print_map(msg->msg_error, ikev2_n_map));
len = sizeof(*n);
if ((ptr = ibuf_reserve(buf, len)) == NULL)
return (-1);
n = (struct ikev2_notify *)ptr;
n->n_type = htobe16(msg->msg_error);
switch (msg->msg_error) {
case IKEV2_N_CHILD_SA_NOT_FOUND:
rekey = &msg->msg_rekey;
switch (rekey->spi_size) {
case 4:
spi32 = htobe32(rekey->spi);
if (ibuf_add(buf, &spi32, sizeof(spi32)) != 0)
return (-1);
len += sizeof(spi32);
break;
case 8:
spi64 = htobe64(rekey->spi);
if (ibuf_add(buf, &spi64, sizeof(spi64)) != 0)
return (-1);
len += sizeof(spi64);
break;
default:
log_debug("%s: invalid SPI size %d", __func__,
rekey->spi_size);
return (-1);
}
n->n_protoid = rekey->spi_protoid;
n->n_spisize = rekey->spi_size;
break;
case IKEV2_N_INVALID_KE_PAYLOAD:
group = htobe16(msg->msg_dhgroup);
if (ibuf_add(buf, &group, sizeof(group)) != 0)
return (-1);
len += sizeof(group);
n->n_protoid = 0;
n->n_spisize = 0;
break;
default:
n->n_protoid = 0;
n->n_spisize = 0;
break;
}
log_debug("%s: done", __func__);
return (len);
}
int
ikev2_record_dstid(struct iked *env, struct iked_sa *sa)
{
struct iked_sa *osa;
osa = sa_dstid_lookup(env, sa);
if (osa == sa)
return (0);
if (osa != NULL) {
sa_dstid_remove(env, osa);
if (env->sc_enforcesingleikesa &&
osa->sa_state < IKEV2_STATE_CLOSING) {
log_info("%sreplaced by IKESA %s (identical DSTID)",
SPI_SA(osa, NULL),
print_spi(sa->sa_hdr.sh_ispi, 8));
if (osa->sa_state == IKEV2_STATE_ESTABLISHED)
ikev2_disable_timer(env, osa);
ikev2_ike_sa_setreason(osa, "sa replaced");
ikev2_ikesa_delete(env, osa, 0);
timer_add(env, &osa->sa_timer,
3 * IKED_RETRANSMIT_TIMEOUT);
}
}
osa = sa_dstid_insert(env, sa);
if (osa != NULL) {
/* XXX how can this fail */
log_info("%s: could not replace old IKESA %s",
SPI_SA(sa, __func__),
print_spi(osa->sa_hdr.sh_ispi, 8));
return (-1);
}
return (0);
}
int
ikev2_send_error(struct iked *env, struct iked_sa *sa,
struct iked_message *msg, uint8_t exchange)
{
struct ibuf *buf = NULL;
int ret = -1;
if (msg->msg_error == 0)
return (0);
if ((buf = ibuf_static()) == NULL)
goto done;
if (ikev2_add_error(env, buf, msg) == 0)
goto done;
ret = ikev2_send_ike_e(env, sa, buf, IKEV2_PAYLOAD_NOTIFY,
exchange, 1);
done:
ibuf_free(buf);
return (ret);
}
/*
* Variant of ikev2_send_error() that can be used before encryption
* is enabled. Based on ikev2_resp_ike_sa_init() code.
*/
int
ikev2_send_init_error(struct iked *env, struct iked_message *msg)
{
struct iked_message resp;
struct ike_header *hdr;
struct ikev2_payload *pld;
struct iked_sa *sa = msg->msg_sa;
struct ibuf *buf;
ssize_t len = 0;
int ret = -1;
if (sa->sa_hdr.sh_initiator) {
log_debug("%s: called by initiator", __func__);
return (-1);
}
if (msg->msg_error == 0)
return (0);
if ((buf = ikev2_msg_init(env, &resp,
&msg->msg_peer, msg->msg_peerlen,
&msg->msg_local, msg->msg_locallen, 1)) == NULL)
goto done;
resp.msg_sa = sa;
resp.msg_fd = msg->msg_fd;
resp.msg_natt = msg->msg_natt;
resp.msg_msgid = 0;
/* IKE header */
if ((hdr = ikev2_add_header(buf, sa, resp.msg_msgid,
IKEV2_PAYLOAD_NOTIFY, IKEV2_EXCHANGE_IKE_SA_INIT,
IKEV2_FLAG_RESPONSE)) == NULL)
goto done;
/* NOTIFY payload */
if ((pld = ikev2_add_payload(buf)) == NULL)
goto done;
if ((len = ikev2_add_error(env, buf, msg)) == 0)
goto done;
if (ikev2_next_payload(pld, len, IKEV2_PAYLOAD_NONE) == -1)
goto done;
if (ikev2_set_header(hdr, ibuf_size(buf) - sizeof(*hdr)) == -1)
goto done;
(void)ikev2_pld_parse(env, hdr, &resp, 0);
ret = ikev2_msg_send(env, &resp);
done:
ikev2_msg_cleanup(env, &resp);
return (ret);
}
int
ikev2_handle_certreq(struct iked* env, struct iked_message *msg)
{
struct iked_certreq *cr;
struct iked_sa *sa;
uint8_t crtype;
uint8_t more;
if ((sa = msg->msg_sa) == NULL)
return (-1);
/* Ignore CERTREQ when policy uses PSK authentication */
if (sa->sa_policy->pol_auth.auth_method == IKEV2_AUTH_SHARED_KEY_MIC)
return (0);
if (sa->sa_hdr.sh_initiator)
sa->sa_stateinit |= IKED_REQ_CERT;
else
sa->sa_statevalid |= IKED_REQ_CERT;
/*
* If we have to send a local certificate but did not receive an
* optional CERTREQ, use our own certreq to find a local certificate.
* We could alternatively extract the CA from the peer certificate
* to find a matching local one.
*/
if (SIMPLEQ_EMPTY(&msg->msg_certreqs)) {
if (sa->sa_policy->pol_certreqtype)
crtype = sa->sa_policy->pol_certreqtype;
else
crtype = env->sc_certreqtype;
ca_setreq(env, sa, &sa->sa_policy->pol_localid,
crtype, 0, ibuf_data(env->sc_certreq),
ibuf_size(env->sc_certreq), PROC_CERT);
} else {
while ((cr = SIMPLEQ_FIRST(&msg->msg_certreqs))) {
if (SIMPLEQ_NEXT(cr, cr_entry) != NULL)
more = 1;
else
more = 0;
ca_setreq(env, sa, &sa->sa_policy->pol_localid,
cr->cr_type, more, ibuf_data(cr->cr_data),
ibuf_length(cr->cr_data),
PROC_CERT);
ibuf_free(cr->cr_data);
SIMPLEQ_REMOVE_HEAD(&msg->msg_certreqs, cr_entry);
free(cr);
}
}
return (0);
}
int
ikev2_resp_ike_eap_mschap(struct iked *env, struct iked_sa *sa,
struct iked_message *msg)
{
uint8_t successmsg[EAP_MSCHAP_SUCCESS_SZ];
uint8_t ntresponse[EAP_MSCHAP_NTRESPONSE_SZ];
struct eap_msg *eap = &msg->msg_eap;
struct iked_user *usr;
uint8_t *pass;
char *name = NULL;
size_t passlen;
int ret;
switch (eap->eam_state) {
case EAP_STATE_IDENTITY:
sa->sa_eapid = eap->eam_identity;
return (eap_challenge_request(env, sa, eap->eam_id));
case EAP_STATE_MSCHAPV2_CHALLENGE:
if (eap->eam_user) {
name = eap->eam_user;
} else if (sa->sa_eapid) {
name = sa->sa_eapid;
}
if (name == NULL) {
log_info("%s: invalid response name",
SPI_SA(sa, __func__));
return (-1);
}
if ((usr = user_lookup(env, name)) == NULL) {
log_info("%s: unknown user '%s'", SPI_SA(sa, __func__),
name);
return (-1);
}
if ((pass = string2unicode(usr->usr_pass, &passlen)) == NULL)
return (-1);
mschap_nt_response(ibuf_data(sa->sa_eap.id_buf),
eap->eam_challenge, usr->usr_name, strlen(usr->usr_name),
pass, passlen, ntresponse);
if (memcmp(ntresponse, eap->eam_ntresponse,
sizeof(ntresponse)) != 0) {
log_info("%s: '%s' authentication failed",
SPI_SA(sa, __func__), usr->usr_name);
freezero(pass, passlen);
/* XXX should we send an EAP failure packet? */
return (-1);
}
bzero(&successmsg, sizeof(successmsg));
mschap_auth_response(pass, passlen,
ntresponse, ibuf_data(sa->sa_eap.id_buf),
eap->eam_challenge, usr->usr_name, strlen(usr->usr_name),
successmsg);
if ((sa->sa_eapmsk = ibuf_new(NULL, MSCHAP_MSK_SZ)) == NULL) {
log_info("%s: failed to get MSK", SPI_SA(sa, __func__));
freezero(pass, passlen);
return (-1);
}
mschap_msk(pass, passlen, ntresponse,
ibuf_data(sa->sa_eapmsk));
freezero(pass, passlen);
log_info("%s: '%s' authenticated", __func__, usr->usr_name);
ret = eap_mschap_challenge(env, sa, eap->eam_id, eap->eam_msrid,
successmsg, EAP_MSCHAP_SUCCESS_SZ);
if (ret == 0)
sa_state(env, sa, IKEV2_STATE_AUTH_SUCCESS);
break;
case EAP_STATE_MSCHAPV2_SUCCESS:
return (eap_mschap_success(env, sa, eap->eam_id));
case EAP_STATE_SUCCESS:
if (!sa_stateok(sa, IKEV2_STATE_AUTH_SUCCESS))
return (-1);
return (eap_success(env, sa, msg->msg_eap.eam_id));
default:
log_info("%s: eap ignored.", __func__);
break;
}
return 0;
}
int
ikev2_resp_ike_eap(struct iked *env, struct iked_sa *sa,
struct iked_message *msg)
{
if (!sa_stateok(sa, IKEV2_STATE_EAP))
return (-1);
switch (sa->sa_policy->pol_auth.auth_eap) {
case EAP_TYPE_MSCHAP_V2:
return ikev2_resp_ike_eap_mschap(env, sa, msg);
}
return -1;
}
int
ikev2_resp_ike_auth(struct iked *env, struct iked_sa *sa)
{
struct ikev2_payload *pld;
struct ikev2_cert *cert;
struct ikev2_auth *auth;
struct iked_id *id, *certid;
struct ibuf *e = NULL;
uint8_t firstpayload;
int ret = -1;
ssize_t len;
int i;
if (sa == NULL)
return (-1);
if (sa->sa_state == IKEV2_STATE_EAP)
return (eap_identity_request(env, sa));
if (!sa_stateok(sa, IKEV2_STATE_VALID))
return (0); /* ignore */
if (ikev2_cp_setaddr(env, sa, AF_INET) < 0 ||
ikev2_cp_setaddr(env, sa, AF_INET6) < 0)
return (-1);
if (ikev2_childsa_negotiate(env, sa, &sa->sa_kex, &sa->sa_proposals,
sa->sa_hdr.sh_initiator, 0) < 0)
return (-1);
/* New encrypted message buffer */
if ((e = ibuf_static()) == NULL)
goto done;
if (!sa->sa_localauth.id_type) {
/* Downgrade the state */
sa_state(env, sa, IKEV2_STATE_AUTH_SUCCESS);
}
if (sa->sa_hdr.sh_initiator) {
id = &sa->sa_iid;
certid = &sa->sa_icert;
} else {
id = &sa->sa_rid;
certid = &sa->sa_rcert;
}
if (sa->sa_state != IKEV2_STATE_EAP_VALID) {
/* ID payload */
if ((pld = ikev2_add_payload(e)) == NULL)
goto done;
firstpayload = IKEV2_PAYLOAD_IDr;
if (ibuf_cat(e, id->id_buf) != 0)
goto done;
len = ibuf_size(id->id_buf);
/* CERT payload */
if ((sa->sa_statevalid & IKED_REQ_CERT) &&
(certid->id_type != IKEV2_CERT_NONE)) {
if (ikev2_next_payload(pld, len,
IKEV2_PAYLOAD_CERT) == -1)
goto done;
if ((pld = ikev2_add_payload(e)) == NULL)
goto done;
if ((cert = ibuf_reserve(e, sizeof(*cert))) == NULL)
goto done;
cert->cert_type = certid->id_type;
if (ibuf_cat(e, certid->id_buf) != 0)
goto done;
len = ibuf_size(certid->id_buf) + sizeof(*cert);
for (i = 0; i < IKED_SCERT_MAX; i++) {
if (sa->sa_scert[i].id_type == IKEV2_CERT_NONE)
break;
if (ikev2_next_payload(pld, len,
IKEV2_PAYLOAD_CERT) == -1)
goto done;
if ((pld = ikev2_add_payload(e)) == NULL)
goto done;
if ((cert = ibuf_reserve(e,
sizeof(*cert))) == NULL)
goto done;
cert->cert_type = sa->sa_scert[i].id_type;
if (ibuf_cat(e, sa->sa_scert[i].id_buf) != 0)
goto done;
len = ibuf_size(sa->sa_scert[i].id_buf)
+ sizeof(*cert);
}
}
if (ikev2_next_payload(pld, len, IKEV2_PAYLOAD_AUTH) == -1)
goto done;
} else
firstpayload = IKEV2_PAYLOAD_AUTH;
/* AUTH payload */
if ((pld = ikev2_add_payload(e)) == NULL)
goto done;
if ((auth = ibuf_reserve(e, sizeof(*auth))) == NULL)
goto done;
auth->auth_method = sa->sa_localauth.id_type;
if (ibuf_cat(e, sa->sa_localauth.id_buf) != 0)
goto done;
len = ibuf_size(sa->sa_localauth.id_buf) + sizeof(*auth);
/* CP payload */
if (sa->sa_cp) {
if (ikev2_next_payload(pld, len, IKEV2_PAYLOAD_CP) == -1)
goto done;
if ((pld = ikev2_add_payload(e)) == NULL)
goto done;
if ((len = ikev2_resp_add_cp(env, sa, e)) == -1)
goto done;
}
if (sa->sa_ipcompr.ic_transform &&
(len = ikev2_add_ipcompnotify(env, e, &pld, len, sa, 0)) == -1)
goto done;
if (sa->sa_used_transport_mode &&
(len = ikev2_add_transport_mode(env, e, &pld, len, sa)) == -1)
goto done;
/* MOBIKE */
if (sa->sa_mobike &&
(len = ikev2_add_mobike(e, &pld, len)) == -1)
goto done;
if (ikev2_next_payload(pld, len, IKEV2_PAYLOAD_SA) == -1)
goto done;
/* SA payload */
if ((pld = ikev2_add_payload(e)) == NULL)
goto done;
if ((len = ikev2_add_proposals(env, sa, e, &sa->sa_proposals, 0,
sa->sa_hdr.sh_initiator, 0, 1)) == -1)
goto done;
if ((len = ikev2_add_ts(e, &pld, len, sa, 0)) == -1)
goto done;
if (ikev2_next_payload(pld, len, IKEV2_PAYLOAD_NONE) == -1)
goto done;
ret = ikev2_msg_send_encrypt(env, sa, &e,
IKEV2_EXCHANGE_IKE_AUTH, firstpayload, 1);
if (ret == 0)
ret = ikev2_childsa_enable(env, sa);
if (ret == 0) {
sa_state(env, sa, IKEV2_STATE_ESTABLISHED);
/* Delete exchange timeout. */
timer_del(env, &sa->sa_timer);
ikev2_enable_timer(env, sa);
ikev2_log_established(sa);
ikev2_record_dstid(env, sa);
}
done:
if (ret)
ikev2_childsa_delete(env, sa, 0, 0, NULL, 1);
ibuf_free(e);
return (ret);
}
int
ikev2_send_ike_e(struct iked *env, struct iked_sa *sa, struct ibuf *buf,
uint8_t firstpayload, uint8_t exchange, int response)
{
struct ikev2_payload *pld;
struct ibuf *e = NULL;
int ret = -1;
/* New encrypted message buffer */
if ((e = ibuf_static()) == NULL)
goto done;
if ((pld = ikev2_add_payload(e)) == NULL)
goto done;
if (buf) {
if (ibuf_cat(e, buf) != 0)
goto done;
if (ikev2_next_payload(pld, ibuf_size(buf),
IKEV2_PAYLOAD_NONE) == -1)
goto done;
}
ret = ikev2_msg_send_encrypt(env, sa, &e, exchange, firstpayload,
response);
done:
ibuf_free(e);
return (ret);
}
int
ikev2_set_sa_proposal(struct iked_sa *sa, struct iked_policy *pol,
unsigned int proto)
{
struct iked_proposal *prop, *copy;
struct iked_transform *xform;
unsigned int i;
/* create copy of the policy proposals */
config_free_proposals(&sa->sa_proposals, proto);
TAILQ_FOREACH(prop, &pol->pol_proposals, prop_entry) {
if (proto != 0 && prop->prop_protoid != proto)
continue;
if ((copy = config_add_proposal(&sa->sa_proposals,
prop->prop_id, prop->prop_protoid)) == NULL)
return (-1);
for (i = 0; i < prop->prop_nxforms; i++) {
xform = &prop->prop_xforms[i];
if (config_add_transform(copy, xform->xform_type,
xform->xform_id, xform->xform_length,
xform->xform_keylength) != 0)
return (-1);
}
}
return (0);
}
int
ikev2_send_create_child_sa(struct iked *env, struct iked_sa *sa,
struct iked_spi *rekey, uint8_t protoid, uint16_t proposed_group)
{
struct iked_policy *pol = sa->sa_policy;
struct iked_childsa *csa = NULL, *csb = NULL;
struct iked_transform *xform;
struct ikev2_notify *n;
struct ikev2_payload *pld = NULL;
struct ikev2_keyexchange *ke;
struct dh_group *group;
struct ibuf *e = NULL, *nonce = NULL;
uint8_t *ptr;
uint8_t firstpayload;
uint32_t spi;
ssize_t len = 0;
int initiator, ret = -1;
if (rekey)
log_debug("%s: rekeying %s spi %s", __func__,
print_map(rekey->spi_protoid, ikev2_saproto_map),
print_spi(rekey->spi, rekey->spi_size));
else
log_debug("%s: creating new CHILD SAs", __func__);
/* XXX cannot initiate multiple concurrent CREATE_CHILD_SA exchanges */
if (sa->sa_stateflags & (IKED_REQ_CHILDSA|IKED_REQ_INF)) {
log_debug("%s: another exchange already active",
__func__);
return (-1);
}
ibuf_free(sa->sa_simult);
sa->sa_simult = NULL;
sa->sa_rekeyspi = 0; /* clear rekey spi */
initiator = sa->sa_hdr.sh_initiator ? 1 : 0;
if (rekey &&
((csa = childsa_lookup(sa, rekey->spi,
rekey->spi_protoid)) == NULL ||
(csb = csa->csa_peersa) == NULL)) {
log_debug("%s: CHILD SA %s wasn't found", __func__,
print_spi(rekey->spi, rekey->spi_size));
goto done;
}
/* Generate new nonce */
if ((nonce = ibuf_random(IKED_NONCE_SIZE)) == NULL)
goto done;
/* Update initiator nonce */
ibuf_free(sa->sa_inonce);
sa->sa_inonce = nonce;
if ((e = ibuf_static()) == NULL)
goto done;
if ((pol->pol_flags & IKED_POLICY_IPCOMP) &&
(len = ikev2_add_ipcompnotify(env, e, &pld, 0, sa, 1)) == -1)
goto done;
if ((pol->pol_flags & IKED_POLICY_TRANSPORT) &&
(len = ikev2_add_transport_mode(env, e, &pld, len, sa)) == -1)
goto done;
if (pld) {
firstpayload = IKEV2_PAYLOAD_NOTIFY;
if (ikev2_next_payload(pld, len, IKEV2_PAYLOAD_SA) == -1)
goto done;
} else
firstpayload = IKEV2_PAYLOAD_SA;
/* SA payload */
if ((pld = ikev2_add_payload(e)) == NULL)
goto done;
/*
* We need to reset the sa_proposal. Otherwise it would be
* left over from the IKE_AUTH exchange and would not contain
* any DH groups (e.g. for ESP child SAs).
*/
if (ikev2_set_sa_proposal(sa, pol, protoid) < 0) {
log_debug("%s: ikev2_set_sa_proposal failed", __func__);
goto done;
}
if ((len = ikev2_add_proposals(env, sa, e, &sa->sa_proposals,
protoid, 1, 0, 0)) == -1)
goto done;
if (ikev2_next_payload(pld, len, IKEV2_PAYLOAD_NONCE) == -1)
goto done;
/* NONCE payload */
if ((pld = ikev2_add_payload(e)) == NULL)
goto done;
if (ikev2_add_buf(e, nonce) == -1)
goto done;
len = ibuf_size(nonce);
if ((xform = config_findtransform(&pol->pol_proposals, IKEV2_XFORMTYPE_DH,
protoid)) && xform->xform_id != IKEV2_XFORMDH_NONE) {
log_debug("%s: enable PFS", __func__);
ikev2_sa_cleanup_dh(sa);
if (proposed_group) {
if ((sa->sa_dhgroup =
group_get(proposed_group)) == NULL) {
log_debug("%s: failed to get group", __func__);
goto done;
}
}
if (ikev2_sa_initiator_dh(sa, NULL, protoid, NULL) < 0) {
log_debug("%s: failed to setup DH", __func__);
goto done;
}
if (ikev2_next_payload(pld, len, IKEV2_PAYLOAD_KE) == -1)
goto done;
/* KE payload */
if ((pld = ikev2_add_payload(e)) == NULL)
goto done;
if ((ke = ibuf_reserve(e, sizeof(*ke))) == NULL)
goto done;
if ((group = sa->sa_dhgroup) == NULL) {
log_debug("%s: invalid dh", __func__);
goto done;
}
ke->kex_dhgroup = htobe16(group->id);
if (ikev2_add_buf(e, sa->sa_dhiexchange) == -1)
goto done;
len = sizeof(*ke) + ibuf_length(sa->sa_dhiexchange);
}
if ((len = ikev2_add_ts(e, &pld, len, sa, !initiator)) == -1)
goto done;
if (rekey) {
if (ikev2_next_payload(pld, len, IKEV2_PAYLOAD_NOTIFY) == -1)
goto done;
/* REKEY_SA notification */
if ((pld = ikev2_add_payload(e)) == NULL)
goto done;
if ((n = ibuf_reserve(e, sizeof(*n))) == NULL)
goto done;
n->n_type = htobe16(IKEV2_N_REKEY_SA);
n->n_protoid = rekey->spi_protoid;
n->n_spisize = rekey->spi_size;
if ((ptr = ibuf_reserve(e, rekey->spi_size)) == NULL)
goto done;
len = rekey->spi_size;
spi = htobe32((uint32_t)csa->csa_peerspi);
memcpy(ptr, &spi, rekey->spi_size);
len += sizeof(*n);
}
if (ikev2_next_payload(pld, len, IKEV2_PAYLOAD_NONE) == -1)
goto done;
ret = ikev2_msg_send_encrypt(env, sa, &e,
IKEV2_EXCHANGE_CREATE_CHILD_SA, firstpayload, 0);
if (ret == 0) {
if (rekey) {
csa->csa_rekey = 1;
csb->csa_rekey = 1;
/*
* Remember the peer spi of the rekeyed
* SA for ikev2_init_create_child_sa().
*/
sa->sa_rekeyspi = csa->csa_peerspi;
}
sa->sa_stateflags |= IKED_REQ_CHILDSA;
}
done:
ibuf_free(e);
return (ret);
}
void
ikev2_ike_sa_rekey(struct iked *env, void *arg)
{
struct iked_sa *sa = arg;
struct iked_sa *nsa = NULL;
struct ikev2_payload *pld = NULL;
struct ikev2_keyexchange *ke;
struct dh_group *group;
struct ibuf *e = NULL, *nonce = NULL;
ssize_t len = 0;
int ret = -1;
log_debug("%s: IKE SA %p ispi %s rspi %s", __func__, sa,
print_spi(sa->sa_hdr.sh_ispi, 8),
print_spi(sa->sa_hdr.sh_rspi, 8));
if (sa->sa_nexti) {
log_debug("%s: already rekeying", __func__);
goto done;
}
if (sa->sa_stateflags & (IKED_REQ_CHILDSA|IKED_REQ_INF)) {
/*
* We cannot initiate multiple concurrent CREATE_CHILD_SA
* exchanges, so retry again fast.
*/
log_info("%s: busy, delaying rekey", SPI_SA(sa, __func__));
ikev2_ike_sa_rekey_schedule_fast(env, sa);
return;
}
/* We need to make sure the rekeying finishes in time */
timer_set(env, &sa->sa_rekey, ikev2_ike_sa_rekey_timeout, sa);
timer_add(env, &sa->sa_rekey, IKED_IKE_SA_REKEY_TIMEOUT);
if ((nsa = sa_new(env, 0, 0, 1, sa->sa_policy)) == NULL) {
log_debug("%s: failed to get new SA", __func__);
goto done;
}
if (ikev2_sa_initiator(env, nsa, sa, NULL)) {
log_debug("%s: failed to setup DH", __func__);
goto done;
}
sa_state(env, nsa, IKEV2_STATE_AUTH_SUCCESS);
nonce = nsa->sa_inonce;
if ((e = ibuf_static()) == NULL)
goto done;
/* SA payload */
if ((pld = ikev2_add_payload(e)) == NULL)
goto done;
/* just reuse the old IKE SA proposals */
if ((len = ikev2_add_proposals(env, nsa, e, &sa->sa_proposals,
IKEV2_SAPROTO_IKE, 1, 1, 0)) == -1)
goto done;
if (ikev2_next_payload(pld, len, IKEV2_PAYLOAD_NONCE) == -1)
goto done;
/* NONCE payload */
if ((pld = ikev2_add_payload(e)) == NULL)
goto done;
if (ikev2_add_buf(e, nonce) == -1)
goto done;
len = ibuf_size(nonce);
if (ikev2_next_payload(pld, len, IKEV2_PAYLOAD_KE) == -1)
goto done;
/* KE payload */
if ((pld = ikev2_add_payload(e)) == NULL)
goto done;
if ((ke = ibuf_reserve(e, sizeof(*ke))) == NULL)
goto done;
if ((group = nsa->sa_dhgroup) == NULL) {
log_debug("%s: invalid dh", __func__);
goto done;
}
ke->kex_dhgroup = htobe16(group->id);
if (ikev2_add_buf(e, nsa->sa_dhiexchange) == -1)
goto done;
len = sizeof(*ke) + ibuf_length(nsa->sa_dhiexchange);
if (ikev2_next_payload(pld, len, IKEV2_PAYLOAD_NONE) == -1)
goto done;
ret = ikev2_msg_send_encrypt(env, sa, &e,
IKEV2_EXCHANGE_CREATE_CHILD_SA, IKEV2_PAYLOAD_SA, 0);
if (ret == 0) {
sa->sa_stateflags |= IKED_REQ_CHILDSA;
sa->sa_nexti = nsa;
nsa->sa_previ = sa;
sa->sa_tmpfail = 0;
nsa = NULL;
}
done:
if (nsa) {
ikev2_ike_sa_setreason(nsa, "failed to send CREATE_CHILD_SA");
sa_free(env, nsa);
}
ibuf_free(e);
if (ret == 0)
log_debug("%s: create child SA sent", __func__);
else
log_debug("%s: could not send create child SA", __func__);
/* XXX should we try again in case of ret != 0 ? */
}
int
ikev2_nonce_cmp(struct ibuf *a, struct ibuf *b)
{
size_t alen, blen, len;
int ret;
alen = ibuf_length(a);
blen = ibuf_length(b);
len = MINIMUM(alen, blen);
ret = memcmp(ibuf_data(a), ibuf_data(b), len);
if (ret == 0)
ret = (alen < blen ? -1 : 1);
return (ret);
}
int
ikev2_init_create_child_sa(struct iked *env, struct iked_message *msg)
{
struct iked_childsa *csa = NULL;
struct iked_proposal *prop;
struct iked_sa *sa = msg->msg_sa;
struct iked_sa *nsa, *dsa;
struct iked_spi *spi;
struct ikev2_delete *del;
struct ibuf *buf = NULL;
struct ibuf *ni, *nr;
uint32_t spi32;
int pfs = 0, ret = -1;
if (!ikev2_msg_frompeer(msg) ||
(sa->sa_stateflags & (IKED_REQ_CHILDSA|IKED_REQ_INF)) == 0)
return (0);
if (sa->sa_nexti != NULL && sa->sa_tmpfail) {
sa->sa_stateflags &= ~IKED_REQ_CHILDSA;
ikev2_ike_sa_setreason(sa->sa_nexti, "tmpfail");
sa_free(env, sa->sa_nexti);
sa->sa_nexti = NULL;
timer_set(env, &sa->sa_rekey, ikev2_ike_sa_rekey, sa);
ikev2_ike_sa_rekey_schedule_fast(env, sa);
log_info("%s: IKESA rekey delayed", SPI_SA(sa, __func__));
return (0);
}
if (msg->msg_prop == NULL ||
TAILQ_EMPTY(&msg->msg_proposals)) {
log_info("%s: no proposal specified", SPI_SA(sa, __func__));
return (-1);
}
if (proposals_negotiate(&sa->sa_proposals, &sa->sa_proposals,
&msg->msg_proposals, 1, -1) != 0) {
log_info("%s: no proposal chosen", SPI_SA(sa, __func__));
ikestat_inc(env, ikes_sa_proposals_negotiate_failures);
return (-1);
}
TAILQ_FOREACH(prop, &sa->sa_proposals, prop_entry) {
if (prop->prop_protoid == msg->msg_prop->prop_protoid)
break;
}
if (prop == NULL) {
log_info("%s: failed to find %s proposals", SPI_SA(sa, __func__),
print_map(msg->msg_prop->prop_protoid, ikev2_saproto_map));
return (-1);
}
/* IKE SA rekeying */
if (prop->prop_protoid == IKEV2_SAPROTO_IKE) {
if (sa->sa_nexti == NULL) {
log_info("%s: missing IKE SA for rekeying",
SPI_SA(sa, __func__));
return (-1);
}
/* Update the responder SPI */
/* XXX sa_new() is just a lookup, so nsa == sa->sa_nexti */
spi = &msg->msg_prop->prop_peerspi;
if ((nsa = sa_new(env, sa->sa_nexti->sa_hdr.sh_ispi,
spi->spi, 1, NULL)) == NULL || nsa != sa->sa_nexti) {
log_info("%s: invalid rekey SA", SPI_SA(sa, __func__));
if (nsa) {
ikev2_ike_sa_setreason(nsa,
"invalid SA for rekey");
sa_free(env, nsa);
}
ikev2_ike_sa_setreason(sa->sa_nexti, "invalid SA nexti");
sa_free(env, sa->sa_nexti);
sa->sa_nexti = NULL; /* reset by sa_free */
return (-1);
}
if (ikev2_sa_initiator(env, nsa, sa, msg) == -1) {
log_info("%s: failed to get IKE keys",
SPI_SA(sa, __func__));
return (-1);
}
sa->sa_stateflags &= ~IKED_REQ_CHILDSA;
if (sa->sa_nextr) {
/*
* Resolve simultaneous IKE SA rekeying by
* deleting the SA with the lowest NONCE.
*/
log_info("%s: resolving simultaneous IKE SA rekeying",
SPI_SA(sa, __func__));
/* ni: minimum nonce of sa_nexti */
if (ikev2_nonce_cmp(sa->sa_nexti->sa_inonce,
sa->sa_nexti->sa_rnonce) < 0)
ni = sa->sa_nexti->sa_inonce;
else
ni = sa->sa_nexti->sa_rnonce;
/* nr: minimum nonce of sa_nextr */
if (ikev2_nonce_cmp(sa->sa_nextr->sa_inonce,
sa->sa_nextr->sa_rnonce) < 0)
nr = sa->sa_nextr->sa_inonce;
else
nr = sa->sa_nextr->sa_rnonce;
/* delete SA with minumum nonce */
if (ikev2_nonce_cmp(ni, nr) < 0) {
dsa = sa->sa_nexti;
nsa = sa->sa_nextr;
} else {
dsa = sa->sa_nextr;
nsa = sa->sa_nexti;
}
/* unlink sa_nextr */
sa->sa_nextr->sa_prevr = NULL;
sa->sa_nextr = NULL;
/* Setup address, socket and NAT information */
sa_address(dsa, &dsa->sa_peer,
(struct sockaddr *)&sa->sa_peer.addr);
sa_address(dsa, &dsa->sa_local,
(struct sockaddr *)&sa->sa_local.addr);
dsa->sa_fd = sa->sa_fd;
dsa->sa_natt = sa->sa_natt;
dsa->sa_udpencap = sa->sa_udpencap;
ikev2_ike_sa_setreason(dsa,
"resolving simultaneous rekeying");
ikev2_ikesa_delete(env, dsa, dsa->sa_hdr.sh_initiator);
}
/* unlink sa_nexti */
sa->sa_nexti->sa_previ = NULL;
sa->sa_nexti = NULL;
return (ikev2_ikesa_enable(env, sa, nsa));
}
/* Child SA rekeying */
if (sa->sa_rekeyspi &&
(csa = childsa_lookup(sa, sa->sa_rekeyspi, prop->prop_protoid))
!= NULL) {
log_info("%s: rekeying CHILD SA old %s spi %s",
SPI_SA(sa, __func__),
print_spi(csa->csa_spi.spi, csa->csa_spi.spi_size),
print_spi(prop->prop_peerspi.spi,
prop->prop_peerspi.spi_size));
}
/* check KE payload for PFS */
if (ibuf_length(msg->msg_ke)) {
log_debug("%s: using PFS", __func__);
if (ikev2_sa_initiator_dh(sa, msg, prop->prop_protoid, NULL) < 0) {
log_info("%s: failed to setup DH",
SPI_SA(sa, __func__));
return (ret);
}
if (sa->sa_dhpeer == NULL) {
log_info("%s: no peer DH", SPI_SA(sa, __func__));
return (ret);
}
pfs = 1;
/* XXX check group against policy ? */
/* XXX should proposals_negotiate do this? */
}
/* Update responder's nonce */
if (!ibuf_length(msg->msg_nonce)) {
log_info("%s: responder didn't send nonce",
SPI_SA(sa, __func__));
return (-1);
}
ibuf_free(sa->sa_rnonce);
sa->sa_rnonce = msg->msg_nonce;
msg->msg_nonce = NULL;
if (csa && (nr = sa->sa_simult) != NULL) {
log_info("%s: resolving simultaneous CHILD SA rekeying",
SPI_SA(sa, __func__));
/* set ni to minimum nonce for exchange initiated by us */
if (ikev2_nonce_cmp(sa->sa_inonce, sa->sa_rnonce) < 0)
ni = sa->sa_inonce;
else
ni = sa->sa_rnonce;
/*
* If the exchange initated by us has smaller nonce,
* then we have to delete our SAs.
*/
if (ikev2_nonce_cmp(ni, nr) < 0) {
ret = ikev2_childsa_delete_proposed(env, sa,
&sa->sa_proposals);
goto done;
}
}
if (ikev2_childsa_negotiate(env, sa, &sa->sa_kex, &sa->sa_proposals, 1,
pfs)) {
log_info("%s: failed to get CHILD SAs", SPI_SA(sa, __func__));
return (-1);
}
if (csa) {
/* Child SA rekeying */
if ((buf = ibuf_static()) == NULL)
goto done;
if ((del = ibuf_reserve(buf, sizeof(*del))) == NULL)
goto done;
del->del_protoid = prop->prop_protoid;
del->del_spisize = sizeof(spi32);
del->del_nspi = htobe16(1);
spi32 = htobe32(csa->csa_spi.spi);
if (ibuf_add(buf, &spi32, sizeof(spi32)))
goto done;
if (ikev2_send_ike_e(env, sa, buf, IKEV2_PAYLOAD_DELETE,
IKEV2_EXCHANGE_INFORMATIONAL, 0))
goto done;
sa->sa_stateflags |= IKED_REQ_INF;
}
ret = ikev2_childsa_enable(env, sa);
done:
sa->sa_stateflags &= ~IKED_REQ_CHILDSA;
if (ret)
ikev2_childsa_delete(env, sa, 0, 0, NULL, 1);
else if (csa) {
/* delete the rekeyed SA pair */
ikev2_childsa_delete(env, sa, csa->csa_saproto,
csa->csa_peerspi, NULL, 0);
}
ibuf_free(buf);
return (ret);
}
int
ikev2_ikesa_enable(struct iked *env, struct iked_sa *sa, struct iked_sa *nsa)
{
struct iked_childsa *csa, *csatmp, *ipcomp;
struct iked_flow *flow, *flowtmp;
struct iked_proposal *prop, *proptmp;
int i;
log_debug("%s: IKE SA %p ispi %s rspi %s replaced"
" by SA %p ispi %s rspi %s ",
__func__, sa,
print_spi(sa->sa_hdr.sh_ispi, 8),
print_spi(sa->sa_hdr.sh_rspi, 8),
nsa,
print_spi(nsa->sa_hdr.sh_ispi, 8),
print_spi(nsa->sa_hdr.sh_rspi, 8));
/* Transfer socket and NAT information */
nsa->sa_fd = sa->sa_fd;
nsa->sa_natt = sa->sa_natt;
nsa->sa_udpencap = sa->sa_udpencap;
nsa->sa_usekeepalive = sa->sa_usekeepalive;
nsa->sa_mobike = sa->sa_mobike;
nsa->sa_frag = sa->sa_frag;
/* Transfer old addresses */
memcpy(&nsa->sa_local, &sa->sa_local, sizeof(nsa->sa_local));
memcpy(&nsa->sa_peer, &sa->sa_peer, sizeof(nsa->sa_peer));
memcpy(&nsa->sa_peer_loaded, &sa->sa_peer_loaded,
sizeof(nsa->sa_peer_loaded));
/* Transfer all Child SAs and flows from the old IKE SA */
TAILQ_FOREACH_SAFE(flow, &sa->sa_flows, flow_entry, flowtmp) {
TAILQ_REMOVE(&sa->sa_flows, flow, flow_entry);
TAILQ_INSERT_TAIL(&nsa->sa_flows, flow,
flow_entry);
flow->flow_ikesa = nsa;
flow->flow_local = &nsa->sa_local;
flow->flow_peer = &nsa->sa_peer;
}
TAILQ_FOREACH_SAFE(csa, &sa->sa_childsas, csa_entry, csatmp) {
TAILQ_REMOVE(&sa->sa_childsas, csa, csa_entry);
TAILQ_INSERT_TAIL(&nsa->sa_childsas, csa,
csa_entry);
csa->csa_ikesa = nsa;
if (csa->csa_dir == IPSP_DIRECTION_IN) {
csa->csa_local = &nsa->sa_peer;
csa->csa_peer = &nsa->sa_local;
} else {
csa->csa_local = &nsa->sa_local;
csa->csa_peer = &nsa->sa_peer;
}
if ((ipcomp = csa->csa_bundled) != NULL) {
ipcomp->csa_ikesa = nsa;
ipcomp->csa_local = csa->csa_local;
ipcomp->csa_peer = csa->csa_peer;
}
}
/* Transfer all non-IKE proposals */
TAILQ_FOREACH_SAFE(prop, &sa->sa_proposals, prop_entry, proptmp) {
if (prop->prop_protoid == IKEV2_SAPROTO_IKE)
continue;
TAILQ_REMOVE(&sa->sa_proposals, prop, prop_entry);
TAILQ_INSERT_TAIL(&nsa->sa_proposals, prop,
prop_entry);
}
/* Preserve ID information */
ibuf_free(nsa->sa_iid.id_buf);
ibuf_free(nsa->sa_rid.id_buf);
ibuf_free(nsa->sa_icert.id_buf);
ibuf_free(nsa->sa_rcert.id_buf);
if (sa->sa_hdr.sh_initiator == nsa->sa_hdr.sh_initiator) {
nsa->sa_iid = sa->sa_iid;
nsa->sa_rid = sa->sa_rid;
nsa->sa_icert = sa->sa_icert;
nsa->sa_rcert = sa->sa_rcert;
} else {
/* initiator and responder role swapped */
nsa->sa_iid = sa->sa_rid;
nsa->sa_rid = sa->sa_iid;
nsa->sa_icert = sa->sa_rcert;
nsa->sa_rcert = sa->sa_icert;
}
for (i = 0; i < IKED_SCERT_MAX; i++)
nsa->sa_scert[i] = sa->sa_scert[i];
/* duplicate the actual buffer */
nsa->sa_iid.id_buf = ibuf_dup(nsa->sa_iid.id_buf);
nsa->sa_rid.id_buf = ibuf_dup(nsa->sa_rid.id_buf);
nsa->sa_icert.id_buf = ibuf_dup(nsa->sa_icert.id_buf);
nsa->sa_rcert.id_buf = ibuf_dup(nsa->sa_rcert.id_buf);
for (i = 0; i < IKED_SCERT_MAX; i++)
nsa->sa_scert[i].id_buf = ibuf_dup(nsa->sa_scert[i].id_buf);
/* Transfer sa_addrpool address */
if (sa->sa_addrpool) {
RB_REMOVE(iked_addrpool, &env->sc_addrpool, sa);
nsa->sa_addrpool = sa->sa_addrpool;
sa->sa_addrpool = NULL;
RB_INSERT(iked_addrpool, &env->sc_addrpool, nsa);
}
if (sa->sa_addrpool6) {
RB_REMOVE(iked_addrpool6, &env->sc_addrpool6, sa);
nsa->sa_addrpool6 = sa->sa_addrpool6;
sa->sa_addrpool6 = NULL;
RB_INSERT(iked_addrpool6, &env->sc_addrpool6, nsa);
}
nsa->sa_cp = sa->sa_cp;
nsa->sa_cp_addr = sa->sa_cp_addr;
sa->sa_cp_addr = NULL;
nsa->sa_cp_addr6 = sa->sa_cp_addr6;
sa->sa_cp_addr6 = NULL;
nsa->sa_cp_dns = sa->sa_cp_dns;
sa->sa_cp_dns = NULL;
/* Transfer other attributes */
if (sa->sa_dstid_entry_valid) {
sa_dstid_remove(env, sa);
sa_dstid_insert(env, nsa);
}
if (sa->sa_tag) {
nsa->sa_tag = sa->sa_tag;
sa->sa_tag = NULL;
}
if (sa->sa_eapid) {
nsa->sa_eapid = sa->sa_eapid;
sa->sa_eapid = NULL;
}
log_info("%srekeyed as new IKESA %s (enc %s%s%s group %s prf %s)",
SPI_SA(sa, NULL), print_spi(nsa->sa_hdr.sh_ispi, 8),
print_xf(nsa->sa_encr->encr_id, cipher_keylength(nsa->sa_encr) -
nsa->sa_encr->encr_saltlength, ikeencxfs),
nsa->sa_encr->encr_authid ? "" : " auth ",
nsa->sa_encr->encr_authid ? "" : print_xf(nsa->sa_integr->hash_id,
hash_keylength(nsa->sa_integr), authxfs),
print_xf(nsa->sa_dhgroup->id, 0, groupxfs),
print_xf(nsa->sa_prf->hash_id, hash_keylength(sa->sa_prf), prfxfs));
sa_state(env, nsa, IKEV2_STATE_ESTABLISHED);
ikev2_enable_timer(env, nsa);
ikestat_inc(env, ikes_sa_rekeyed);
nsa->sa_stateflags = nsa->sa_statevalid; /* XXX */
/* unregister DPD keep alive timer & rekey first */
if (sa->sa_state == IKEV2_STATE_ESTABLISHED)
ikev2_disable_timer(env, sa);
ikev2_ike_sa_setreason(sa, "SA rekeyed");
ikev2_ikesa_delete(env, sa, nsa->sa_hdr.sh_initiator);
return (0);
}
void
ikev2_ikesa_delete(struct iked *env, struct iked_sa *sa, int initiator)
{
struct ibuf *buf = NULL;
struct ikev2_delete *del;
if (initiator) {
/* XXX: Can not have simultaneous INFORMATIONAL exchanges */
if (sa->sa_stateflags & IKED_REQ_INF)
goto done;
/* Send PAYLOAD_DELETE */
if ((buf = ibuf_static()) == NULL)
goto done;
if ((del = ibuf_reserve(buf, sizeof(*del))) == NULL)
goto done;
del->del_protoid = IKEV2_SAPROTO_IKE;
del->del_spisize = 0;
del->del_nspi = 0;
if (ikev2_send_ike_e(env, sa, buf, IKEV2_PAYLOAD_DELETE,
IKEV2_EXCHANGE_INFORMATIONAL, 0) == -1)
goto done;
sa->sa_stateflags |= IKED_REQ_INF;
log_info("%s: sent delete, closing SA", SPI_SA(sa, __func__));
done:
ibuf_free(buf);
sa_state(env, sa, IKEV2_STATE_CLOSED);
} else {
sa_state(env, sa, IKEV2_STATE_CLOSING);
}
/* Remove IKE-SA after timeout, e.g. if we don't get a delete */
timer_set(env, &sa->sa_timer, ikev2_ike_sa_timeout, sa);
timer_add(env, &sa->sa_timer, IKED_IKE_SA_DELETE_TIMEOUT);
ikev2_ike_sa_setreason(sa, "deleting SA");
}
void
ikev2_ikesa_recv_delete(struct iked *env, struct iked_sa *sa)
{
log_info("%s: received delete", SPI_SA(sa, __func__));
if (sa->sa_nexti) {
/*
* We initiated rekeying, but since sa_nexti is still set
* we have to assume that the the peer did not receive our
* rekey message. So remove the initiated SA and -- if
* sa_nextr is set -- keep the responder SA instead.
*/
if (sa->sa_nextr) {
log_debug("%s: resolving simultaneous IKE SA rekeying",
SPI_SA(sa, __func__));
ikev2_ikesa_enable(env, sa, sa->sa_nextr);
/* unlink sa_nextr */
sa->sa_nextr->sa_prevr = NULL;
sa->sa_nextr = NULL;
}
ikev2_ike_sa_setreason(sa->sa_nexti,
"received delete (simultaneous rekeying)");
sa_free(env, sa->sa_nexti);
sa->sa_nexti = NULL; /* reset by sa_free */
}
ikev2_ike_sa_setreason(sa, "received delete");
if (env->sc_stickyaddress) {
/* delay deletion if client reconnects soon */
sa_state(env, sa, IKEV2_STATE_CLOSING);
timer_del(env, &sa->sa_timer);
timer_set(env, &sa->sa_timer, ikev2_ike_sa_timeout, sa);
timer_add(env, &sa->sa_timer, 3 * IKED_RETRANSMIT_TIMEOUT);
} else {
sa_state(env, sa, IKEV2_STATE_CLOSED);
}
}
int
ikev2_resp_create_child_sa(struct iked *env, struct iked_message *msg)
{
struct iked_childsa *csa = NULL;
struct iked_proposal *prop;
struct iked_proposals proposals;
struct iked_kex *kex, *kextmp = NULL;
struct iked_sa *nsa = NULL, *sa = msg->msg_sa;
struct iked_spi *spi, *rekey = &msg->msg_rekey;
struct iked_transform *xform;
struct ikev2_keyexchange *ke;
struct ikev2_payload *pld = NULL;
struct ibuf *e = NULL, *nonce = NULL;
uint8_t firstpayload;
ssize_t len = 0;
int initiator, protoid, rekeying = 1;
int ret = -1;
int pfs = 0;
initiator = sa->sa_hdr.sh_initiator ? 1 : 0;
if (!ikev2_msg_frompeer(msg) || msg->msg_prop == NULL)
return (0);
TAILQ_INIT(&proposals);
if ((protoid = rekey->spi_protoid) == 0) {
/*
* If REKEY_SA notification is not present, then it's either
* IKE SA rekeying or the client wants to create additional
* CHILD SAs
*/
if (msg->msg_prop->prop_protoid == IKEV2_SAPROTO_IKE) {
protoid = rekey->spi_protoid = IKEV2_SAPROTO_IKE;
if (sa->sa_hdr.sh_initiator)
rekey->spi = sa->sa_hdr.sh_rspi;
else
rekey->spi = sa->sa_hdr.sh_ispi;
rekey->spi_size = 8;
} else {
protoid = msg->msg_prop->prop_protoid;
rekeying = 0;
}
}
if (rekeying)
log_debug("%s: rekey %s spi %s", __func__,
print_map(rekey->spi_protoid, ikev2_saproto_map),
print_spi(rekey->spi, rekey->spi_size));
else
log_debug("%s: creating new %s SA", __func__,
print_map(protoid, ikev2_saproto_map));
if (protoid == IKEV2_SAPROTO_IKE) {
if ((sa->sa_stateflags & IKED_REQ_CHILDSA)
&& !(sa->sa_nexti)) {
log_debug("%s: Ignore IKE SA rekey: waiting for Child "
"SA response.", __func__);
/* Ignore, don't send error */
msg->msg_valid = 0;
return (0);
}
/* IKE SA rekeying */
spi = &msg->msg_prop->prop_peerspi;
if ((nsa = sa_new(env, spi->spi, 0, 0,
msg->msg_policy)) == NULL) {
log_debug("%s: failed to get new SA", __func__);
return (ret);
}
if (ikev2_sa_responder(env, nsa, sa, msg)) {
log_debug("%s: failed to get IKE SA keys", __func__);
return (ret);
}
sa_state(env, nsa, IKEV2_STATE_AUTH_SUCCESS);
nonce = nsa->sa_rnonce;
kex = &nsa->sa_kex;
} else {
/* Child SA creating/rekeying */
if ((kex = kextmp = calloc(1, sizeof(*kextmp))) == NULL) {
log_debug("%s: calloc kex", __func__);
goto fail;
}
if (proposals_negotiate(&proposals,
&sa->sa_policy->pol_proposals, &msg->msg_proposals,
1, msg->msg_dhgroup) != 0) {
log_info("%s: no proposal chosen", __func__);
msg->msg_error = IKEV2_N_NO_PROPOSAL_CHOSEN;
ikestat_inc(env, ikes_sa_proposals_negotiate_failures);
goto fail;
}
/* Check KE payload for PFS, ignore if DH transform is NONE */
if (((xform = config_findtransform(&proposals,
IKEV2_XFORMTYPE_DH, protoid)) != NULL) &&
xform->xform_id != IKEV2_XFORMDH_NONE &&
ibuf_length(msg->msg_ke)) {
log_debug("%s: using PFS", __func__);
if (ikev2_sa_responder_dh(kex, &proposals,
msg, protoid) < 0) {
log_debug("%s: failed to setup DH", __func__);
goto fail;
}
pfs = 1;
/* XXX check group against policy ? */
}
/* Update peer SPI */
TAILQ_FOREACH(prop, &proposals, prop_entry) {
if (prop->prop_protoid == protoid)
break;
}
if (prop == NULL) {
log_debug("%s: failed to find %s proposals", __func__,
print_map(protoid, ikev2_saproto_map));
goto fail;
} else
prop->prop_peerspi = msg->msg_prop->prop_peerspi;
/* Set rekeying flags on Child SAs */
if (rekeying) {
if ((csa = childsa_lookup(sa, rekey->spi,
rekey->spi_protoid)) == NULL) {
log_info("%s: CHILD SA %s wasn't found",
SPI_SA(sa, __func__),
print_spi(rekey->spi, rekey->spi_size));
msg->msg_error = IKEV2_N_CHILD_SA_NOT_FOUND;
goto fail;
}
if (!csa->csa_loaded || !csa->csa_peersa ||
!csa->csa_peersa->csa_loaded) {
log_info("%s: CHILD SA %s is not loaded"
" or no peer SA", SPI_SA(sa, __func__),
print_spi(rekey->spi, rekey->spi_size));
msg->msg_error = IKEV2_N_CHILD_SA_NOT_FOUND;
goto fail;
}
csa->csa_rekey = 1;
csa->csa_peersa->csa_rekey = 1;
}
/* Update initiator's nonce */
if (!ibuf_length(msg->msg_nonce)) {
log_debug("%s: initiator didn't send nonce", __func__);
goto fail;
}
ibuf_free(kex->kex_inonce);
kex->kex_inonce = msg->msg_nonce;
msg->msg_nonce = NULL;
/* Generate new responder's nonce */
if ((nonce = ibuf_random(IKED_NONCE_SIZE)) == NULL)
goto fail;
/* Update responder's nonce */
ibuf_free(kex->kex_rnonce);
kex->kex_rnonce = nonce;
if (ikev2_childsa_negotiate(env, sa, kex, &proposals, 0, pfs)) {
log_debug("%s: failed to get CHILD SAs", __func__);
goto fail;
}
if (rekeying && (sa->sa_stateflags & IKED_REQ_CHILDSA) &&
csa && (sa->sa_rekeyspi == csa->csa_peerspi)) {
log_info("%s: simultaneous rekeying for CHILD SA %s/%s",
SPI_SA(sa, __func__),
print_spi(rekey->spi, rekey->spi_size),
print_spi(sa->sa_rekeyspi, rekey->spi_size));
ibuf_free(sa->sa_simult);
if (ikev2_nonce_cmp(kex->kex_inonce, nonce) < 0)
sa->sa_simult = ibuf_dup(kex->kex_inonce);
else
sa->sa_simult = ibuf_dup(nonce);
}
}
if ((e = ibuf_static()) == NULL)
goto done;
if (!nsa && sa->sa_ipcompr.ic_transform &&
(len = ikev2_add_ipcompnotify(env, e, &pld, 0, sa, 0)) == -1)
goto done;
if (!nsa && sa->sa_used_transport_mode &&
(len = ikev2_add_transport_mode(env, e, &pld, len, sa)) == -1)
goto done;
if (pld) {
firstpayload = IKEV2_PAYLOAD_NOTIFY;
if (ikev2_next_payload(pld, len, IKEV2_PAYLOAD_SA) == -1)
goto done;
} else
firstpayload = IKEV2_PAYLOAD_SA;
/* SA payload */
if ((pld = ikev2_add_payload(e)) == NULL)
goto done;
if ((len = ikev2_add_proposals(env, nsa ? nsa : sa, e,
nsa ? &nsa->sa_proposals : &proposals,
protoid, 0, nsa ? 1 : 0, 0)) == -1)
goto done;
if (ikev2_next_payload(pld, len, IKEV2_PAYLOAD_NONCE) == -1)
goto done;
/* NONCE payload */
if ((pld = ikev2_add_payload(e)) == NULL)
goto done;
if (ikev2_add_buf(e, nonce) == -1)
goto done;
len = ibuf_size(nonce);
if (protoid == IKEV2_SAPROTO_IKE || pfs) {
if (ikev2_next_payload(pld, len, IKEV2_PAYLOAD_KE) == -1)
goto done;
/* KE payload */
if ((pld = ikev2_add_payload(e)) == NULL)
goto done;
if ((ke = ibuf_reserve(e, sizeof(*ke))) == NULL)
goto done;
if (kex->kex_dhgroup == NULL) {
log_debug("%s: invalid dh", __func__);
goto done;
}
ke->kex_dhgroup = htobe16(kex->kex_dhgroup->id);
if (ikev2_add_buf(e, kex->kex_dhrexchange) == -1)
goto done;
len = sizeof(*ke) + ibuf_length(kex->kex_dhrexchange);
}
if (protoid != IKEV2_SAPROTO_IKE)
if ((len = ikev2_add_ts(e, &pld, len, sa, initiator)) == -1)
goto done;
if (ikev2_next_payload(pld, len, IKEV2_PAYLOAD_NONE) == -1)
goto done;
if ((ret = ikev2_msg_send_encrypt(env, sa, &e,
IKEV2_EXCHANGE_CREATE_CHILD_SA, firstpayload, 1)) == -1)
goto done;
if (protoid == IKEV2_SAPROTO_IKE) {
/*
* If we also have initiated rekeying for this IKE SA, then
* sa_nexti is already set. In this case don't enable the new SA
* immediately, but record it in sa_nextr, until the exchange
* for sa_nexti completes in ikev2_init_create_child_sa() and
* the 'winner' can be selected by comparing nonces.
*/
if (sa->sa_nexti) {
log_info("%s: simultaneous IKE SA rekeying",
SPI_SA(sa, __func__));
sa->sa_nextr = nsa;
nsa->sa_prevr = sa; /* backpointer */
ret = 0;
} else
ret = ikev2_ikesa_enable(env, sa, nsa);
} else
ret = ikev2_childsa_enable(env, sa);
done:
if (ret && protoid != IKEV2_SAPROTO_IKE)
ikev2_childsa_delete(env, sa, 0, 0, NULL, 1);
ibuf_free(e);
config_free_proposals(&proposals, 0);
config_free_kex(kextmp);
return (ret);
fail:
config_free_proposals(&proposals, 0);
config_free_kex(kextmp);
return (-1);
}
void
ikev2_ike_sa_setreason(struct iked_sa *sa, char *reason)
{
/* allow update only if reason is reset to NULL */
if (reason == NULL || sa->sa_reason == NULL)
sa->sa_reason = reason;
}
void
ikev2_ike_sa_timeout(struct iked *env, void *arg)
{
struct iked_sa *sa = arg;
log_debug("%s: closing SA", __func__);
ikev2_ike_sa_setreason(sa, "timeout");
sa_free(env, sa);
}
void
ikev2_ike_sa_rekey_timeout(struct iked *env, void *arg)
{
struct iked_sa *sa = arg;
log_debug("%s: closing SA", __func__);
ikev2_ike_sa_setreason(sa, "rekey timeout");
sa_free(env, sa);
}
void
ikev2_ike_sa_rekey_schedule(struct iked *env, struct iked_sa *sa)
{
timer_add(env, &sa->sa_rekey, (sa->sa_policy->pol_rekey * 850 +
arc4random_uniform(100)) / 1000);
}
/* rekey delayed, so re-try after short delay (1% of configured) */
void
ikev2_ike_sa_rekey_schedule_fast(struct iked *env, struct iked_sa *sa)
{
int timeout = sa->sa_policy->pol_rekey / 100; /* 1% */
if (timeout > 60)
timeout = 60; /* max */
else if (timeout < 4)
timeout = 4; /* min */
timer_add(env, &sa->sa_rekey, timeout);
}
void
ikev2_ike_sa_alive(struct iked *env, void *arg)
{
struct iked_sa *sa = arg;
struct iked_childsa *csa = NULL;
uint64_t last_used, diff;
int foundin = 0, foundout = 0;
int ikeidle = 0;
if (env->sc_alive_timeout == 0)
return;
/* check for incoming traffic on any child SA */
TAILQ_FOREACH(csa, &sa->sa_childsas, csa_entry) {
if (!csa->csa_loaded)
continue;
if (pfkey_sa_last_used(env, csa, &last_used) != 0)
continue;
diff = (uint32_t)(gettime() - last_used);
log_debug("%s: %s CHILD SA spi %s last used %llu second(s) ago",
__func__,
csa->csa_dir == IPSP_DIRECTION_IN ? "incoming" : "outgoing",
print_spi(csa->csa_spi.spi, csa->csa_spi.spi_size), diff);
if (diff < env->sc_alive_timeout) {
if (csa->csa_dir == IPSP_DIRECTION_IN) {
foundin = 1;
break;
} else {
foundout = 1;
}
}
}
diff = (uint32_t)(gettime() - sa->sa_last_recvd);
if (diff >= IKED_IKE_SA_LAST_RECVD_TIMEOUT) {
ikeidle = 1;
log_debug("%s: IKE SA %p ispi %s rspi %s last received %llu"
" second(s) ago", __func__, sa,
print_spi(sa->sa_hdr.sh_ispi, 8),
print_spi(sa->sa_hdr.sh_rspi, 8), diff);
}
/*
* send probe if any outgoing SA has been used, but no incoming
* SA, or if we haven't received an IKE message. but only if we
* are not already waiting for an answer.
*/
if (((!foundin && foundout) || ikeidle) &&
(sa->sa_stateflags & (IKED_REQ_CHILDSA|IKED_REQ_INF)) == 0) {
log_debug("%s: sending alive check", __func__);
ikev2_send_ike_e(env, sa, NULL, IKEV2_PAYLOAD_NONE,
IKEV2_EXCHANGE_INFORMATIONAL, 0);
sa->sa_stateflags |= IKED_REQ_INF;
ikestat_inc(env, ikes_dpd_sent);
}
/* re-register */
timer_add(env, &sa->sa_timer, env->sc_alive_timeout);
}
void
ikev2_ike_sa_keepalive(struct iked *env, void *arg)
{
struct iked_sa *sa = arg;
uint8_t marker = 0xff;
if (sendtofrom(sa->sa_fd, &marker, sizeof(marker), 0,
(struct sockaddr *)&sa->sa_peer.addr, sa->sa_peer.addr.ss_len,
(struct sockaddr *)&sa->sa_local.addr, sa->sa_local.addr.ss_len)
== -1)
log_warn("%s: sendtofrom: peer %s local %s", __func__,
print_addr(&sa->sa_peer.addr),
print_addr(&sa->sa_local.addr));
else
log_debug("%s: peer %s local %s", __func__,
print_addr(&sa->sa_peer.addr),
print_addr(&sa->sa_local.addr));
ikestat_inc(env, ikes_keepalive_sent);
timer_add(env, &sa->sa_keepalive, IKED_IKE_SA_KEEPALIVE_TIMEOUT);
}
int
ikev2_send_informational(struct iked *env, struct iked_message *msg)
{
struct iked_message resp;
struct ike_header *hdr;
struct ikev2_payload *pld;
struct ikev2_notify *n;
struct iked_sa *sa = msg->msg_sa, sah;
struct ibuf *buf, *e = NULL;
int ret = -1;
if (msg->msg_error == 0)
return (0);
if ((buf = ikev2_msg_init(env, &resp,
&msg->msg_peer, msg->msg_peerlen,
&msg->msg_local, msg->msg_locallen, 0)) == NULL)
goto done;
/* New encrypted message buffer */
if ((e = ibuf_static()) == NULL)
goto done;
/* NOTIFY payload */
if ((pld = ikev2_add_payload(e)) == NULL)
goto done;
if ((n = ibuf_reserve(e, sizeof(*n))) == NULL)
goto done;
n->n_protoid = IKEV2_SAPROTO_IKE; /* XXX ESP etc. */
n->n_spisize = 0;
n->n_type = htobe16(msg->msg_error);
switch (msg->msg_error) {
case IKEV2_N_INVALID_IKE_SPI:
break;
case IKEV2_N_NO_PROPOSAL_CHOSEN:
ikev2_log_proposal(msg->msg_sa, &msg->msg_proposals);
break;
default:
log_warnx("%s: unsupported notification %s", SPI_SA(sa,
__func__), print_map(msg->msg_error, ikev2_n_map));
goto done;
}
log_info("%s: %s", SPI_SA(sa, __func__),
print_map(msg->msg_error, ikev2_n_map));
if (ikev2_next_payload(pld, sizeof(*n), IKEV2_PAYLOAD_NONE) == -1)
goto done;
if (sa != NULL && msg->msg_e) {
resp.msg_msgid = ikev2_msg_id(env, sa);
/* IKE header */
if ((hdr = ikev2_add_header(buf, sa, resp.msg_msgid,
IKEV2_PAYLOAD_SK, IKEV2_EXCHANGE_INFORMATIONAL,
0)) == NULL)
goto done;
if ((pld = ikev2_add_payload(buf)) == NULL)
goto done;
/* Encrypt message and add as an E payload */
if ((e = ikev2_msg_encrypt(env, sa, e, buf)) == NULL) {
log_debug("%s: encryption failed", __func__);
goto done;
}
if (ibuf_cat(buf, e) != 0)
goto done;
if (ikev2_next_payload(pld, ibuf_size(e),
IKEV2_PAYLOAD_NOTIFY) == -1)
goto done;
if (ikev2_set_header(hdr, ibuf_size(buf) - sizeof(*hdr)) == -1)
goto done;
/* Add integrity checksum (HMAC) */
if (ikev2_msg_integr(env, sa, buf) != 0) {
log_debug("%s: integrity checksum failed", __func__);
goto done;
}
} else {
if ((hdr = ibuf_seek(msg->msg_data, 0, sizeof(*hdr))) == NULL)
goto done;
bzero(&sah, sizeof(sah));
sah.sa_hdr.sh_rspi = betoh64(hdr->ike_rspi);
sah.sa_hdr.sh_ispi = betoh64(hdr->ike_ispi);
sah.sa_hdr.sh_initiator =
hdr->ike_flags & IKEV2_FLAG_INITIATOR ? 0 : 1;
resp.msg_msgid = ikev2_msg_id(env, &sah);
/* IKE header */
if ((hdr = ikev2_add_header(buf, &sah, resp.msg_msgid,
IKEV2_PAYLOAD_NOTIFY, IKEV2_EXCHANGE_INFORMATIONAL,
0)) == NULL)
goto done;
if (ibuf_cat(buf, e) != 0)
goto done;
if (ikev2_set_header(hdr, ibuf_size(buf) - sizeof(*hdr)) == -1)
goto done;
}
resp.msg_data = buf;
resp.msg_fd = msg->msg_fd;
TAILQ_INIT(&resp.msg_proposals);
ret = ikev2_msg_send(env, &resp);
done:
ibuf_free(e);
ikev2_msg_cleanup(env, &resp);
return (ret);
}
ssize_t
ikev2_psk(struct iked_sa *sa, uint8_t *data, size_t length,
uint8_t **pskptr)
{
uint8_t *psk;
size_t psklen = -1;
if (hash_setkey(sa->sa_prf, data, length) == NULL)
return (-1);
if ((psk = calloc(1, hash_keylength(sa->sa_prf))) == NULL)
return (-1);
hash_init(sa->sa_prf);
hash_update(sa->sa_prf, IKEV2_KEYPAD, strlen(IKEV2_KEYPAD));
hash_final(sa->sa_prf, psk, &psklen);
*pskptr = psk;
return (psklen);
}
int
ikev2_sa_initiator_dh(struct iked_sa *sa, struct iked_message *msg,
unsigned int proto, struct iked_sa *osa)
{
struct iked_policy *pol = sa->sa_policy;
struct iked_transform *xform;
struct iked_proposals *proposals;
proposals = osa ? &osa->sa_proposals : &pol->pol_proposals;
if (sa->sa_dhgroup == NULL) {
if ((xform = config_findtransform(proposals,
IKEV2_XFORMTYPE_DH, proto)) == NULL) {
log_debug("%s: did not find dh transform", __func__);
return (-1);
}
if ((sa->sa_dhgroup =
group_get(xform->xform_id)) == NULL) {
log_debug("%s: invalid dh %d", __func__,
xform->xform_id);
return (-1);
}
}
if (!ibuf_length(sa->sa_dhiexchange)) {
if (dh_create_exchange(sa->sa_dhgroup,
&sa->sa_dhiexchange, NULL) == -1) {
log_debug("%s: failed to get dh exchange", __func__);
return (-1);
}
}
/* Initial message */
if (msg == NULL)
return (0);
if (!ibuf_length(sa->sa_dhrexchange)) {
if (!ibuf_length(msg->msg_ke)) {
log_debug("%s: invalid peer dh exchange", __func__);
return (-1);
}
sa->sa_dhrexchange = msg->msg_ke;
msg->msg_ke = NULL;
}
/* Set a pointer to the peer exchange */
sa->sa_dhpeer = sa->sa_dhrexchange;
return (0);
}
int
ikev2_sa_negotiate_common(struct iked *env, struct iked_sa *sa, struct iked_message *msg)
{
struct iked_transform *xform;
/* XXX we need a better way to get this */
if (proposals_negotiate(&sa->sa_proposals,
&msg->msg_policy->pol_proposals, &msg->msg_proposals, 0, -1) != 0) {
log_info("%s: proposals_negotiate", __func__);
ikestat_inc(env, ikes_sa_proposals_negotiate_failures);
return (-1);
}
if (sa_stateok(sa, IKEV2_STATE_SA_INIT))
sa_stateflags(sa, IKED_REQ_SA);
if (sa->sa_encr == NULL) {
if ((xform = config_findtransform(&sa->sa_proposals,
IKEV2_XFORMTYPE_ENCR, 0)) == NULL) {
log_info("%s: did not find encr transform",
SPI_SA(sa, __func__));
return (-1);
}
if ((sa->sa_encr = cipher_new(xform->xform_type,
xform->xform_id, xform->xform_length)) == NULL) {
log_info("%s: failed to get encr",
SPI_SA(sa, __func__));
return (-1);
}
}
/* For AEAD ciphers integrity is implicit */
if (sa->sa_encr->encr_authid && sa->sa_integr == NULL) {
if ((sa->sa_integr = hash_new(IKEV2_XFORMTYPE_INTEGR,
sa->sa_encr->encr_authid)) == NULL) {
log_info("%s: failed to get AEAD integr",
SPI_SA(sa, __func__));
return (-1);
}
}
if (sa->sa_prf == NULL) {
if ((xform = config_findtransform(&sa->sa_proposals,
IKEV2_XFORMTYPE_PRF, 0)) == NULL) {
log_info("%s: did not find prf transform",
SPI_SA(sa, __func__));
return (-1);
}
if ((sa->sa_prf =
hash_new(xform->xform_type, xform->xform_id)) == NULL) {
log_info("%s: failed to get prf", SPI_SA(sa, __func__));
return (-1);
}
}
if (sa->sa_integr == NULL) {
if ((xform = config_findtransform(&sa->sa_proposals,
IKEV2_XFORMTYPE_INTEGR, 0)) == NULL) {
log_info("%s: did not find integr transform",
SPI_SA(sa, __func__));
return (-1);
}
if ((sa->sa_integr =
hash_new(xform->xform_type, xform->xform_id)) == NULL) {
log_info("%s: failed to get integr",
SPI_SA(sa, __func__));
return (-1);
}
}
return (0);
}
int
ikev2_sa_initiator(struct iked *env, struct iked_sa *sa,
struct iked_sa *osa, struct iked_message *msg)
{
if (ikev2_sa_initiator_dh(sa, msg, 0, osa) < 0)
return (-1);
if (!ibuf_length(sa->sa_inonce)) {
if ((sa->sa_inonce = ibuf_random(IKED_NONCE_SIZE)) == NULL) {
log_info("%s: failed to get local nonce",
SPI_SA(sa, __func__));
return (-1);
}
}
/* Initial message */
if (msg == NULL)
return (0);
if (!ibuf_length(sa->sa_rnonce)) {
if (!ibuf_length(msg->msg_nonce)) {
log_info("%s: invalid peer nonce",
SPI_SA(sa, __func__));
return (-1);
}
sa->sa_rnonce = msg->msg_nonce;
msg->msg_nonce = NULL;
}
if (ikev2_sa_negotiate_common(env, sa, msg) != 0)
return (-1);
ibuf_free(sa->sa_2ndmsg);
if ((sa->sa_2ndmsg = ibuf_dup(msg->msg_data)) == NULL) {
log_info("%s: failed to copy 2nd message",
SPI_SA(sa, __func__));
return (-1);
}
return (ikev2_sa_keys(env, sa, osa ? osa->sa_key_d : NULL));
}
int
ikev2_sa_responder_dh(struct iked_kex *kex, struct iked_proposals *proposals,
struct iked_message *msg, unsigned int proto)
{
struct iked_transform *xform;
if (kex->kex_dhgroup == NULL) {
if ((xform = config_findtransform(proposals,
IKEV2_XFORMTYPE_DH, proto)) == NULL) {
log_info("%s: did not find dh transform",
SPI_SA(msg->msg_sa, __func__));
return (-1);
}
if ((kex->kex_dhgroup =
group_get(xform->xform_id)) == NULL) {
log_debug("%s: invalid dh %d",
SPI_SA(msg->msg_sa, __func__), xform->xform_id);
return (-1);
}
}
/* Look for dhgroup mismatch during an IKE SA negotiation */
if (msg->msg_dhgroup != kex->kex_dhgroup->id) {
log_info("%s: want dh %s, KE has %s",
SPI_SA(msg->msg_sa, __func__),
print_map(kex->kex_dhgroup->id, ikev2_xformdh_map),
print_map(msg->msg_dhgroup, ikev2_xformdh_map));
msg->msg_error = IKEV2_N_INVALID_KE_PAYLOAD;
msg->msg_dhgroup = kex->kex_dhgroup->id;
return (-1);
}
if (!ibuf_length(kex->kex_dhiexchange)) {
kex->kex_dhiexchange = msg->msg_ke;
msg->msg_ke = NULL;
}
if (!ibuf_length(kex->kex_dhrexchange)) {
if (dh_create_exchange(kex->kex_dhgroup,
&kex->kex_dhrexchange, kex->kex_dhiexchange) == -1) {
log_info("%s: failed to get dh exchange",
SPI_SA(msg->msg_sa, __func__));
return (-1);
}
}
/* Set a pointer to the peer exchange */
kex->kex_dhpeer = kex->kex_dhiexchange;
return (0);
}
int
ikev2_sa_responder(struct iked *env, struct iked_sa *sa, struct iked_sa *osa,
struct iked_message *msg)
{
struct iked_policy *old;
/* re-lookup policy based on 'msg' (unless IKESA is rekeyed) */
if (osa == NULL) {
old = sa->sa_policy;
sa->sa_policy = NULL;
if (policy_lookup(env, msg, &msg->msg_proposals,
NULL, 0) != 0 || msg->msg_policy == NULL) {
sa->sa_policy = old;
log_info("%s: no proposal chosen", __func__);
msg->msg_error = IKEV2_N_NO_PROPOSAL_CHOSEN;
return (-1);
}
/* move sa to new policy */
sa->sa_policy = msg->msg_policy;
TAILQ_REMOVE(&old->pol_sapeers, sa, sa_peer_entry);
TAILQ_INSERT_TAIL(&sa->sa_policy->pol_sapeers,
sa, sa_peer_entry);
policy_unref(env, old);
policy_ref(env, sa->sa_policy);
}
sa_state(env, sa, IKEV2_STATE_SA_INIT);
ibuf_free(sa->sa_1stmsg);
if ((sa->sa_1stmsg = ibuf_dup(msg->msg_data)) == NULL) {
log_debug("%s: failed to copy 1st message", __func__);
return (-1);
}
if (!ibuf_length(sa->sa_rnonce) &&
(sa->sa_rnonce = ibuf_random(IKED_NONCE_SIZE)) == NULL) {
log_debug("%s: failed to get local nonce", __func__);
return (-1);
}
if (!ibuf_length(sa->sa_inonce) &&
(ibuf_length(msg->msg_nonce) < IKED_NONCE_MIN)) {
log_debug("%s: failed to get peer nonce", __func__);
return (-1);
}
sa->sa_inonce = msg->msg_nonce;
msg->msg_nonce = NULL;
if (ikev2_sa_negotiate_common(env, sa, msg) != 0)
return (-1);
if (ikev2_sa_responder_dh(&sa->sa_kex, &sa->sa_proposals, msg, 0) < 0)
return (-1);
return (ikev2_sa_keys(env, sa, osa ? osa->sa_key_d : NULL));
}
int
ikev2_sa_keys(struct iked *env, struct iked_sa *sa, struct ibuf *key)
{
struct iked_hash *prf, *integr;
struct iked_cipher *encr;
struct dh_group *group;
struct ibuf *ninr, *dhsecret, *skeyseed, *s, *t;
size_t nonceminlen, ilen, rlen, tmplen;
uint64_t ispi, rspi;
int ret = -1;
int isaead = 0;
ninr = dhsecret = skeyseed = s = t = NULL;
if ((encr = sa->sa_encr) == NULL ||
(prf = sa->sa_prf) == NULL ||
(integr = sa->sa_integr) == NULL ||
(group = sa->sa_dhgroup) == NULL) {
log_info("%s: failed to get key input data",
SPI_SA(sa, __func__));
return (-1);
}
/* For AEADs no auth keys are required (see RFC 5282) */
isaead = !!integr->hash_isaead;
if (prf->hash_fixedkey)
nonceminlen = prf->hash_fixedkey;
else
nonceminlen = IKED_NONCE_MIN;
/* Nonces need a minimal size and should have an even length */
if (ibuf_length(sa->sa_inonce) < nonceminlen ||
(ibuf_length(sa->sa_inonce) % 2) != 0 ||
ibuf_length(sa->sa_rnonce) < nonceminlen ||
(ibuf_length(sa->sa_rnonce) % 2) != 0) {
log_info("%s: invalid nonces", SPI_SA(sa, __func__));
return (-1);
}
if (prf->hash_fixedkey) {
/* Half of the key bits must come from Ni, and half from Nr */
ilen = prf->hash_fixedkey / 2;
rlen = prf->hash_fixedkey / 2;
} else {
/* Most PRF functions accept a variable-length key */
ilen = ibuf_length(sa->sa_inonce);
rlen = ibuf_length(sa->sa_rnonce);
}
/*
* Depending on whether we're generating new keying material
* or rekeying existing SA the algorithm is different. If the
* "key" argument is not specified a concatenation of nonces
* (Ni | Nr) is used as a PRF key, otherwise a "key" buffer
* is used and PRF is performed on the concatenation of DH
* exchange result and nonces (g^ir | Ni | Nr). See sections
* 2.14 and 2.18 of RFC7296 for more information.
*/
/*
* Generate g^ir
*/
if (dh_create_shared(group, &dhsecret, sa->sa_dhpeer) == -1) {
log_info("%s: failed to get dh secret"
" group %d secret %zu exchange %zu",
SPI_SA(sa, __func__),
group->id, ibuf_length(dhsecret),
ibuf_length(sa->sa_dhpeer));
goto done;
}
log_debug("%s: DHSECRET with %zu bytes", SPI_SA(sa, __func__),
ibuf_length(dhsecret));
print_hex(dhsecret->buf, 0, ibuf_length(dhsecret));
if (!key) {
/*
* Set PRF key to generate SKEYSEED = prf(Ni | Nr, g^ir)
*/
if ((ninr = ibuf_new(sa->sa_inonce->buf, ilen)) == NULL ||
ibuf_add(ninr, sa->sa_rnonce->buf, rlen) != 0) {
log_info("%s: failed to get nonce key buffer",
SPI_SA(sa, __func__));
goto done;
}
key = ninr;
} else {
/*
* Set PRF key to generate SKEYSEED = prf(key, g^ir | Ni | Nr)
*/
if (ibuf_add(dhsecret, sa->sa_inonce->buf, ilen) != 0 ||
ibuf_add(dhsecret, sa->sa_rnonce->buf, rlen) != 0) {
log_info("%s: failed to get nonce key buffer",
SPI_SA(sa, __func__));
goto done;
}
}
if ((hash_setkey(prf, key->buf, ibuf_length(key))) == NULL) {
log_info("%s: failed to set prf key", SPI_SA(sa, __func__));
goto done;
}
if ((skeyseed = ibuf_new(NULL, hash_keylength(prf))) == NULL) {
log_info("%s: failed to get SKEYSEED buffer",
SPI_SA(sa, __func__));
goto done;
}
tmplen = 0;
hash_init(prf);
hash_update(prf, dhsecret->buf, ibuf_length(dhsecret));
hash_final(prf, skeyseed->buf, &tmplen);
log_debug("%s: SKEYSEED with %zu bytes", __func__, tmplen);
print_hex(skeyseed->buf, 0, tmplen);
if (ibuf_setsize(skeyseed, tmplen) == -1) {
log_info("%s: failed to set keymaterial length",
SPI_SA(sa, __func__));
goto done;
}
/*
* Now generate the key material
*
* S = Ni | Nr | SPIi | SPIr
*/
/* S = Ni | Nr | SPIi | SPIr */
ilen = ibuf_length(sa->sa_inonce);
rlen = ibuf_length(sa->sa_rnonce);
ispi = htobe64(sa->sa_hdr.sh_ispi);
rspi = htobe64(sa->sa_hdr.sh_rspi);
if ((s = ibuf_new(sa->sa_inonce->buf, ilen)) == NULL ||
ibuf_add(s, sa->sa_rnonce->buf, rlen) != 0 ||
ibuf_add(s, &ispi, sizeof(ispi)) != 0 ||
ibuf_add(s, &rspi, sizeof(rspi)) != 0) {
log_info("%s: failed to set S buffer",
SPI_SA(sa, __func__));
goto done;
}
log_debug("%s: S with %zu bytes", SPI_SA(sa, __func__), ibuf_length(s));
print_hex(s->buf, 0, ibuf_length(s));
/*
* Get the size of the key material we need and the number
* of rounds we need to run the prf+ function.
*/
ilen = hash_length(prf) + /* SK_d */
(isaead ? 0 : hash_keylength(integr)) + /* SK_ai */
(isaead ? 0 : hash_keylength(integr)) + /* SK_ar */
cipher_keylength(encr) + /* SK_ei */
cipher_keylength(encr) + /* SK_er */
hash_keylength(prf) + /* SK_pi */
hash_keylength(prf); /* SK_pr */
if ((t = ikev2_prfplus(prf, skeyseed, s, ilen)) == NULL) {
log_info("%s: failed to get IKE SA key material",
SPI_SA(sa, __func__));
goto done;
}
/* ibuf_get() returns a new buffer from the next read offset */
if ((sa->sa_key_d = ibuf_get(t, hash_length(prf))) == NULL ||
(!isaead &&
(sa->sa_key_iauth = ibuf_get(t, hash_keylength(integr))) == NULL) ||
(!isaead &&
(sa->sa_key_rauth = ibuf_get(t, hash_keylength(integr))) == NULL) ||
(sa->sa_key_iencr = ibuf_get(t, cipher_keylength(encr))) == NULL ||
(sa->sa_key_rencr = ibuf_get(t, cipher_keylength(encr))) == NULL ||
(sa->sa_key_iprf = ibuf_get(t, hash_length(prf))) == NULL ||
(sa->sa_key_rprf = ibuf_get(t, hash_length(prf))) == NULL) {
log_debug("%s: failed to get SA keys", SPI_SA(sa, __func__));
goto done;
}
log_debug("%s: SK_d with %zu bytes", __func__,
ibuf_length(sa->sa_key_d));
print_hex(sa->sa_key_d->buf, 0, ibuf_length(sa->sa_key_d));
if (!isaead) {
log_debug("%s: SK_ai with %zu bytes", __func__,
ibuf_length(sa->sa_key_iauth));
print_hex(sa->sa_key_iauth->buf, 0,
ibuf_length(sa->sa_key_iauth));
log_debug("%s: SK_ar with %zu bytes", __func__,
ibuf_length(sa->sa_key_rauth));
print_hex(sa->sa_key_rauth->buf, 0,
ibuf_length(sa->sa_key_rauth));
}
log_debug("%s: SK_ei with %zu bytes", __func__,
ibuf_length(sa->sa_key_iencr));
print_hex(sa->sa_key_iencr->buf, 0, ibuf_length(sa->sa_key_iencr));
log_debug("%s: SK_er with %zu bytes", __func__,
ibuf_length(sa->sa_key_rencr));
print_hex(sa->sa_key_rencr->buf, 0, ibuf_length(sa->sa_key_rencr));
log_debug("%s: SK_pi with %zu bytes", __func__,
ibuf_length(sa->sa_key_iprf));
print_hex(sa->sa_key_iprf->buf, 0, ibuf_length(sa->sa_key_iprf));
log_debug("%s: SK_pr with %zu bytes", __func__,
ibuf_length(sa->sa_key_rprf));
print_hex(sa->sa_key_rprf->buf, 0, ibuf_length(sa->sa_key_rprf));
ret = 0;
done:
ibuf_free(ninr);
ibuf_free(dhsecret);
ibuf_free(skeyseed);
ibuf_free(s);
ibuf_free(t);
return (ret);
}
void
ikev2_sa_cleanup_dh(struct iked_sa *sa)
{
ibuf_free(sa->sa_dhiexchange);
ibuf_free(sa->sa_dhrexchange);
group_free(sa->sa_dhgroup);
sa->sa_dhiexchange = NULL;
sa->sa_dhrexchange = NULL;
sa->sa_dhgroup = NULL;
}
struct ibuf *
ikev2_prfplus(struct iked_hash *prf, struct ibuf *key, struct ibuf *seed,
size_t keymatlen)
{
struct ibuf *t = NULL, *t1 = NULL, *t2 = NULL;
size_t rlen, i, hashlen = 0;
uint8_t pad = 0;
/*
* prf+ (K, S) = T1 | T2 | T3 | T4 | ...
*
* T1 = prf (K, S | 0x01)
* T2 = prf (K, T1 | S | 0x02)
* T3 = prf (K, T2 | S | 0x03)
* T4 = prf (K, T3 | S | 0x04)
*/
if ((hash_setkey(prf, ibuf_data(key), ibuf_size(key))) == NULL) {
log_debug("%s: failed to set prf+ key", __func__);
goto fail;
}
if ((t = ibuf_new(NULL, 0)) == NULL) {
log_debug("%s: failed to get T buffer", __func__);
goto fail;
}
rlen = roundup(keymatlen, hash_length(prf)) / hash_length(prf);
if (rlen > 255)
fatalx("ikev2_prfplus: key material too large");
for (i = 0; i < rlen; i++) {
if (t1 != NULL) {
t2 = ibuf_new(t1->buf, ibuf_length(t1));
ibuf_free(t1);
} else
t2 = ibuf_new(NULL, 0);
t1 = ibuf_new(NULL, hash_keylength(prf));
ibuf_add(t2, seed->buf, ibuf_length(seed));
pad = i + 1;
ibuf_add(t2, &pad, 1);
hash_init(prf);
hash_update(prf, t2->buf, ibuf_length(t2));
hash_final(prf, t1->buf, &hashlen);
if (hashlen != hash_length(prf))
fatalx("ikev2_prfplus: hash length mismatch");
ibuf_free(t2);
ibuf_add(t, t1->buf, ibuf_length(t1));
log_debug("%s: T%d with %zu bytes", __func__,
pad, ibuf_length(t1));
print_hex(t1->buf, 0, ibuf_length(t1));
}
log_debug("%s: Tn with %zu bytes", __func__, ibuf_length(t));
print_hex(t->buf, 0, ibuf_length(t));
ibuf_free(t1);
return (t);
fail:
ibuf_free(t1);
ibuf_free(t);
return (NULL);
}
int
ikev2_sa_tag(struct iked_sa *sa, struct iked_id *id)
{
char *format, *domain = NULL, *idrepl = NULL;
char idstr[IKED_ID_SIZE];
int ret = -1;
size_t len;
free(sa->sa_tag);
sa->sa_tag = NULL;
format = sa->sa_policy->pol_tag;
len = IKED_TAG_SIZE;
if ((sa->sa_tag = calloc(1, len)) == NULL) {
log_debug("%s: calloc", __func__);
goto fail;
}
if (strlcpy(sa->sa_tag, format, len) >= len) {
log_debug("%s: tag too long", __func__);
goto fail;
}
if (ikev2_print_id(id, idstr, sizeof(idstr)) == -1) {
log_debug("%s: invalid id", __func__);
goto fail;
}
/* ASN.1 DER IDs are too long, use the CN part instead */
if ((id->id_type == IKEV2_ID_ASN1_DN) &&
(idrepl = strstr(idstr, "CN=")) != NULL) {
domain = strstr(idrepl, "emailAddress=");
idrepl[strcspn(idrepl, "/")] = '\0';
} else
idrepl = idstr;
if (strstr(format, "$id") != NULL) {
if (expand_string(sa->sa_tag, len, "$id", idrepl) != 0) {
log_debug("%s: failed to expand tag", __func__);
goto fail;
}
}
if (strstr(format, "$eapid") != NULL && sa->sa_eapid != NULL) {
if (expand_string(sa->sa_tag, len, "$eapid",
sa->sa_eapid) != 0) {
log_debug("%s: failed to expand tag", __func__);
goto fail;
}
}
if (strstr(format, "$name") != NULL) {
if (expand_string(sa->sa_tag, len, "$name",
sa->sa_policy->pol_name) != 0) {
log_debug("%s: failed to expand tag", __func__);
goto fail;
}
}
if (strstr(format, "$domain") != NULL) {
if (id->id_type == IKEV2_ID_FQDN)
domain = strchr(idrepl, '.');
else if (id->id_type == IKEV2_ID_UFQDN)
domain = strchr(idrepl, '@');
else if (*idstr == '/' && domain != NULL)
domain = strchr(domain, '@');
else
domain = NULL;
if (domain == NULL || strlen(domain) < 2) {
log_debug("%s: no valid domain in ID %s",
__func__, idstr);
goto fail;
}
domain++;
if (expand_string(sa->sa_tag, len, "$domain", domain) != 0) {
log_debug("%s: failed to expand tag", __func__);
goto fail;
}
}
log_debug("%s: %s (%zu)", __func__, sa->sa_tag, strlen(sa->sa_tag));
ret = 0;
fail:
if (ret != 0) {
free(sa->sa_tag);
sa->sa_tag = NULL;
}
return (ret);
}
int
ikev2_childsa_delete_proposed(struct iked *env, struct iked_sa *sa,
struct iked_proposals *proposals)
{
struct ibuf *buf = NULL;
struct iked_proposal *prop;
struct ikev2_delete *del;
uint32_t spi32;
uint8_t protoid = 0;
int ret = -1, count;
if (!sa_stateok(sa, IKEV2_STATE_VALID))
return (-1);
count = 0;
TAILQ_FOREACH(prop, proposals, prop_entry) {
if (ikev2_valid_proposal(prop, NULL, NULL, NULL) != 0)
continue;
protoid = prop->prop_protoid;
count++;
}
if (count == 0)
return (0);
if ((buf = ibuf_static()) == NULL)
return (-1);
if ((del = ibuf_reserve(buf, sizeof(*del))) == NULL)
goto done;
/* XXX we assume all have the same protoid */
del->del_protoid = protoid;
del->del_spisize = 4;
del->del_nspi = htobe16(count);
TAILQ_FOREACH(prop, proposals, prop_entry) {
if (ikev2_valid_proposal(prop, NULL, NULL, NULL) != 0)
continue;
spi32 = htobe32(prop->prop_localspi.spi);
if (ibuf_add(buf, &spi32, sizeof(spi32)))
goto done;
}
if (ikev2_send_ike_e(env, sa, buf, IKEV2_PAYLOAD_DELETE,
IKEV2_EXCHANGE_INFORMATIONAL, 0) == -1)
goto done;
sa->sa_stateflags |= IKED_REQ_INF;
ret = 0;
done:
ibuf_free(buf);
return (ret);
}
int
ikev2_childsa_negotiate(struct iked *env, struct iked_sa *sa,
struct iked_kex *kex, struct iked_proposals *proposals, int initiator,
int pfs)
{
struct iked_proposal *prop;
struct iked_transform *xform, *encrxf = NULL, *integrxf = NULL;
struct iked_childsa *csa = NULL, *csb = NULL;
struct iked_childsa *csa2 = NULL, *csb2 = NULL;
struct iked_flow *flow, *saflow, *flowa, *flowb;
struct iked_ipcomp *ic;
struct ibuf *keymat = NULL, *seed = NULL, *dhsecret = NULL;
struct dh_group *group = NULL;
uint32_t spi = 0;
unsigned int i;
size_t ilen = 0;
int esn, skip, ret = -1;
if (!sa_stateok(sa, IKEV2_STATE_VALID))
return (-1);
if (ikev2_sa_tag(sa, IKESA_DSTID(sa)) == -1)
return (-1);
ic = initiator ? &sa->sa_ipcompi : &sa->sa_ipcompr;
if (ic->ic_transform == 0 || ic->ic_cpi_out == 0 ||
(initiator && ic->ic_cpi_in == 0))
ic = NULL;
/* reset state */
sa->sa_used_transport_mode = 0;
/* We need to determine the key material length first */
TAILQ_FOREACH(prop, proposals, prop_entry) {
if (prop->prop_protoid == IKEV2_SAPROTO_IKE)
continue;
log_debug("%s: proposal %d", __func__, prop->prop_id);
for (i = 0; i < prop->prop_nxforms; i++) {
xform = prop->prop_xforms + i;
xform->xform_keylength =
keylength_xf(prop->prop_protoid,
xform->xform_type, xform->xform_id);
switch (xform->xform_type) {
case IKEV2_XFORMTYPE_ENCR:
case IKEV2_XFORMTYPE_INTEGR:
if (xform->xform_length)
xform->xform_keylength =
xform->xform_length;
xform->xform_keylength +=
noncelength_xf(xform->xform_type,
xform->xform_id);
ilen += xform->xform_keylength / 8;
break;
}
}
}
/* double key material length for inbound/outbound */
ilen *= 2;
log_debug("%s: key material length %zu", __func__, ilen);
if ((seed = ibuf_new(NULL, 0)) == NULL) {
log_debug("%s: failed to setup IKE SA key material", __func__);
goto done;
}
if (pfs) {
log_debug("%s: using PFS", __func__);
if (kex->kex_dhpeer == NULL ||
ibuf_length(kex->kex_dhpeer) == 0 ||
(group = kex->kex_dhgroup) == NULL) {
log_debug("%s: no dh group for pfs", __func__);
goto done;
}
if (dh_create_shared(group, &dhsecret, kex->kex_dhpeer) == -1) {
log_debug("%s: failed to get dh secret"
" group %d secret %zu exchange %zu",
__func__, group->id, ibuf_length(dhsecret),
ibuf_length(kex->kex_dhpeer));
goto done;
}
if (ibuf_cat(seed, dhsecret) != 0) {
log_debug("%s: failed to set dh secret", __func__);
goto done;
}
}
if (ibuf_cat(seed, kex->kex_inonce) != 0 ||
ibuf_cat(seed, kex->kex_rnonce) != 0 ||
(keymat = ikev2_prfplus(sa->sa_prf,
sa->sa_key_d, seed, ilen)) == NULL) {
log_debug("%s: failed to get IKE SA key material", __func__);
goto done;
}
/* Create the new flows */
TAILQ_FOREACH(prop, proposals, prop_entry) {
if (ikev2_valid_proposal(prop, NULL, NULL, NULL) != 0)
continue;
RB_FOREACH(flow, iked_flows, &sa->sa_policy->pol_flows) {
if ((flowa = calloc(1, sizeof(*flowa))) == NULL) {
log_debug("%s: failed to get flow", __func__);
goto done;
}
memcpy(flowa, flow, sizeof(*flow));
flowa->flow_dir = IPSP_DIRECTION_OUT;
flowa->flow_saproto = ic ? IKEV2_SAPROTO_IPCOMP :
prop->prop_protoid;
flowa->flow_rdomain = sa->sa_policy->pol_rdomain;
flowa->flow_local = &sa->sa_local;
flowa->flow_peer = &sa->sa_peer;
flowa->flow_ikesa = sa;
if (ikev2_cp_fixflow(sa, flow, flowa) == -1) {
flow_free(flowa);
continue;
}
skip = 0;
TAILQ_FOREACH(saflow, &sa->sa_flows, flow_entry) {
if (flow_equal(saflow, flowa)) {
skip = 1;
break;
}
}
if (skip) {
flow_free(flowa);
continue;
}
if ((flowb = calloc(1, sizeof(*flowb))) == NULL) {
log_debug("%s: failed to get flow", __func__);
flow_free(flowa);
goto done;
}
memcpy(flowb, flowa, sizeof(*flow));
flowb->flow_dir = IPSP_DIRECTION_IN;
memcpy(&flowb->flow_src, &flow->flow_dst,
sizeof(flow->flow_dst));
memcpy(&flowb->flow_dst, &flow->flow_src,
sizeof(flow->flow_src));
if (ikev2_cp_fixflow(sa, flow, flowb) == -1) {
flow_free(flowa);
flow_free(flowb);
continue;
}
TAILQ_INSERT_TAIL(&sa->sa_flows, flowa, flow_entry);
TAILQ_INSERT_TAIL(&sa->sa_flows, flowb, flow_entry);
}
}
/* create the CHILD SAs using the key material */
TAILQ_FOREACH(prop, proposals, prop_entry) {
if (ikev2_valid_proposal(prop, &encrxf, &integrxf, &esn) != 0)
continue;
spi = 0;
if ((csa = calloc(1, sizeof(*csa))) == NULL) {
log_debug("%s: failed to get CHILD SA", __func__);
goto done;
}
csa->csa_saproto = prop->prop_protoid;
csa->csa_ikesa = sa;
csa->csa_spi.spi_protoid = prop->prop_protoid;
csa->csa_esn = esn;
csa->csa_transport = sa->sa_use_transport_mode;
sa->sa_used_transport_mode = sa->sa_use_transport_mode;
if (pfs && group)
csa->csa_pfsgrpid = group->id;
/* Set up responder's SPIs */
if (initiator) {
csa->csa_dir = IPSP_DIRECTION_OUT;
csa->csa_local = &sa->sa_local;
csa->csa_peer = &sa->sa_peer;
csa->csa_peerspi = prop->prop_localspi.spi;
csa->csa_spi.spi = prop->prop_peerspi.spi;
csa->csa_spi.spi_size = prop->prop_peerspi.spi_size;
} else {
csa->csa_dir = IPSP_DIRECTION_IN;
csa->csa_local = &sa->sa_peer;
csa->csa_peer = &sa->sa_local;
if ((ret = pfkey_sa_init(env, csa,
&spi)) != 0)
goto done;
csa->csa_allocated = 1;
csa->csa_peerspi = prop->prop_peerspi.spi;
csa->csa_spi.spi = prop->prop_localspi.spi = spi;
csa->csa_spi.spi_size = 4;
}
if (encrxf && (csa->csa_encrkey = ibuf_get(keymat,
encrxf->xform_keylength / 8)) == NULL) {
log_debug("%s: failed to get CHILD SA encryption key",
__func__);
goto done;
}
if (integrxf && (csa->csa_integrkey = ibuf_get(keymat,
integrxf->xform_keylength / 8)) == NULL) {
log_debug("%s: failed to get CHILD SA integrity key",
__func__);
goto done;
}
if (encrxf)
csa->csa_encrid = encrxf->xform_id;
if (integrxf)
csa->csa_integrid = integrxf->xform_id;
if ((csb = calloc(1, sizeof(*csb))) == NULL) {
log_debug("%s: failed to get CHILD SA", __func__);
goto done;
}
memcpy(csb, csa, sizeof(*csb));
/* Set up initiator's SPIs */
csb->csa_spi.spi = csa->csa_peerspi;
csb->csa_peerspi = csa->csa_spi.spi;
csb->csa_allocated = csa->csa_allocated ? 0 : 1;
csb->csa_dir = csa->csa_dir == IPSP_DIRECTION_IN ?
IPSP_DIRECTION_OUT : IPSP_DIRECTION_IN;
csb->csa_local = csa->csa_peer;
csb->csa_peer = csa->csa_local;
if (encrxf && (csb->csa_encrkey = ibuf_get(keymat,
encrxf->xform_keylength / 8)) == NULL) {
log_debug("%s: failed to get CHILD SA encryption key",
__func__);
goto done;
}
if (integrxf && (csb->csa_integrkey = ibuf_get(keymat,
integrxf->xform_keylength / 8)) == NULL) {
log_debug("%s: failed to get CHILD SA integrity key",
__func__);
goto done;
}
if (ic && prop->prop_protoid == IKEV2_SAPROTO_ESP) {
/* add IPCOMP SAs */
if ((csa2 = calloc(1, sizeof(*csa2))) == NULL) {
log_debug("%s: failed to get CHILD SA", __func__);
goto done;
}
if ((csb2 = calloc(1, sizeof(*csb2))) == NULL) {
log_debug("%s: failed to get CHILD SA", __func__);
goto done;
}
csa2->csa_saproto = IKEV2_SAPROTO_IPCOMP;
csa2->csa_ikesa = csa->csa_ikesa;
csa2->csa_dir = csa->csa_dir;
csa2->csa_local = csa->csa_local;
csa2->csa_peer = csa->csa_peer;
if (initiator) {
csa2->csa_spi.spi = ic->ic_cpi_out;
csa2->csa_peerspi = ic->ic_cpi_in;
csa2->csa_allocated = 0;
/* make sure IPCOMP CPIs are not reused */
ic->ic_transform = 0;
ic->ic_cpi_in = ic->ic_cpi_out = 0;
} else {
if ((ret = pfkey_sa_init(env, csa2,
&spi)) != 0)
goto done;
ic->ic_cpi_in = spi;
csa2->csa_spi.spi = ic->ic_cpi_in;
csa2->csa_peerspi = ic->ic_cpi_out;
csa2->csa_allocated = 1;
}
csa2->csa_spi.spi_size = 2;
memcpy(csb2, csa2, sizeof(*csb2));
csb2->csa_spi.spi = csa2->csa_peerspi;
csb2->csa_peerspi = csa2->csa_spi.spi;
csb2->csa_allocated = csa2->csa_allocated ? 0 : 1;
csb2->csa_dir = csa2->csa_dir == IPSP_DIRECTION_IN ?
IPSP_DIRECTION_OUT : IPSP_DIRECTION_IN;
csb2->csa_local = csa2->csa_peer;
csb2->csa_peer = csa2->csa_local;
/* link IPComp and ESP SAs, switch ESP to transport */
csa->csa_transport = 1;
csa->csa_bundled = csa2;
csa2->csa_bundled = csa;
csb->csa_transport = 1;
csb->csa_bundled = csb2;
csb2->csa_bundled = csb;
csa2 = NULL;
csb2 = NULL;
ic = NULL;
}
TAILQ_INSERT_TAIL(&sa->sa_childsas, csa, csa_entry);
TAILQ_INSERT_TAIL(&sa->sa_childsas, csb, csa_entry);
ikestat_add(env, ikes_csa_created, 2);
csa->csa_peersa = csb;
csb->csa_peersa = csa;
csa = NULL;
csb = NULL;
}
ret = 0;
done:
sa->sa_use_transport_mode = 0; /* reset state after use */
ibuf_free(dhsecret);
ibuf_free(keymat);
ibuf_free(seed);
childsa_free(csa);
childsa_free(csb);
childsa_free(csa2);
childsa_free(csb2);
return (ret);
}
int
ikev2_childsa_enable(struct iked *env, struct iked_sa *sa)
{
struct iked_childsa *csa, *ocsa, *ipcomp;
struct iked_flow *flow, *oflow;
int peer_changed, reload;
FILE *spif, *flowf;
char *spibuf = NULL, *flowbuf = NULL;
char prenat_mask[10];
uint16_t encrid = 0, integrid = 0, groupid = 0;
size_t encrlen = 0, integrlen = 0, spisz, flowsz;
int esn = 0;
int ret = -1;
spif = open_memstream(&spibuf, &spisz);
if (spif == NULL) {
log_warn("%s", __func__);
return (ret);
}
flowf = open_memstream(&flowbuf, &flowsz);
if (flowf == NULL) {
log_warn("%s", __func__);
fclose(spif);
return (ret);
}
TAILQ_FOREACH(csa, &sa->sa_childsas, csa_entry) {
if (csa->csa_rekey || csa->csa_loaded)
continue;
ipcomp = csa->csa_bundled;
if (ipcomp && ipcomp->csa_loaded) {
log_info("%s: IPCOMP SA for CHILD SA spi %s"
" already loaded", __func__,
print_spi(csa->csa_spi.spi, csa->csa_spi.spi_size));
continue;
}
if (pfkey_sa_add(env, csa, NULL) != 0) {
log_debug("%s: failed to load CHILD SA spi %s",
__func__, print_spi(csa->csa_spi.spi,
csa->csa_spi.spi_size));
goto done;
}
if (ipcomp) {
if (pfkey_sa_add(env, ipcomp, csa) != 0) {
log_debug("%s: failed to load IPCOMP spi %s",
__func__, print_spi(ipcomp->csa_spi.spi,
ipcomp->csa_spi.spi_size));
ipcomp = NULL;
}
}
if ((ocsa = RB_FIND(iked_activesas, &env->sc_activesas, csa))
!= NULL) {
log_debug("%s: replaced CHILD SA %p with %p spi %s",
__func__, ocsa, csa, print_spi(ocsa->csa_spi.spi,
ocsa->csa_spi.spi_size));
ocsa->csa_loaded = 0;
ocsa->csa_rekey = 1; /* prevent re-loading */
RB_REMOVE(iked_activesas, &env->sc_activesas, ocsa);
}
RB_INSERT(iked_activesas, &env->sc_activesas, csa);
log_debug("%s: loaded CHILD SA spi %s", __func__,
print_spi(csa->csa_spi.spi, csa->csa_spi.spi_size));
/* append SPI to log buffer */
if (ftello(spif) > 0)
fputs(", ", spif);
fputs(print_spi(csa->csa_spi.spi, csa->csa_spi.spi_size), spif);
if (ipcomp)
fprintf(spif, "(%s)", print_spi(ipcomp->csa_spi.spi,
ipcomp->csa_spi.spi_size));
if (!encrid) {
encrid = csa->csa_encrid;
encrlen = ibuf_length(csa->csa_encrkey);
switch (encrid) {
case IKEV2_XFORMENCR_AES_GCM_16:
case IKEV2_XFORMENCR_AES_GCM_12:
encrlen -= 4;
break;
default:
if (!csa->csa_integrid)
break;
integrid = csa->csa_integrid;
integrlen = ibuf_length(csa->csa_integrkey);
}
groupid = csa->csa_pfsgrpid;
esn = csa->csa_esn;
}
}
peer_changed = (memcmp(&sa->sa_peer_loaded, &sa->sa_peer,
sizeof(sa->sa_peer_loaded)) != 0);
TAILQ_FOREACH(flow, &sa->sa_flows, flow_entry) {
/* re-load the flow if the peer for the flow has changed */
reload = 0;
if (flow->flow_loaded) {
if (!peer_changed) {
log_debug("%s: flow already loaded %p",
__func__, flow);
continue;
}
RB_REMOVE(iked_flows, &env->sc_activeflows, flow);
(void)pfkey_flow_delete(env, flow);
flow->flow_loaded = 0; /* we did RB_REMOVE */
reload = 1;
}
if (pfkey_flow_add(env, flow) != 0) {
log_debug("%s: failed to load flow", __func__);
goto done;
}
if ((oflow = RB_FIND(iked_flows, &env->sc_activeflows, flow))
!= NULL) {
log_debug("%s: replaced old flow %p with %p",
__func__, oflow, flow);
oflow->flow_loaded = 0;
RB_REMOVE(iked_flows, &env->sc_activeflows, oflow);
}
RB_INSERT(iked_flows, &env->sc_activeflows, flow);
log_debug("%s: %sloaded flow %p", __func__,
reload ? "re" : "", flow);
/* append flow to log buffer */
if (flow->flow_dir == IPSP_DIRECTION_OUT &&
flow->flow_prenat.addr_af != 0)
snprintf(prenat_mask, sizeof(prenat_mask), "%d",
flow->flow_prenat.addr_mask);
else
prenat_mask[0] = '\0';
if (flow->flow_dir == IPSP_DIRECTION_OUT) {
if (ftello(flowf) > 0)
fputs(", ", flowf);
fprintf(flowf, "%s-%s/%d%s%s%s%s%s=%s/%d(%u)%s",
print_map(flow->flow_saproto, ikev2_saproto_map),
print_addr(&flow->flow_src.addr),
flow->flow_src.addr_mask,
flow->flow_prenat.addr_af != 0 ? "[": "",
flow->flow_prenat.addr_af != 0 ?
print_addr(&flow->flow_prenat.addr) : "",
flow->flow_prenat.addr_af != 0 ? "/" : "",
flow->flow_prenat.addr_af != 0 ? prenat_mask : "",
flow->flow_prenat.addr_af != 0 ? "]": "",
print_addr(&flow->flow_dst.addr),
flow->flow_dst.addr_mask,
flow->flow_ipproto,
reload ? "-R" : "");
}
}
/* remember the current address for ikev2_update_sa_addresses() */
if (peer_changed) {
memcpy(&sa->sa_peer_loaded, &sa->sa_peer,
sizeof(sa->sa_peer_loaded));
log_debug("%s: remember SA peer %s", __func__,
print_addr(&sa->sa_peer_loaded.addr));
}
fflush(spif);
if (ftello(spif) > 0 && !ferror(spif)) {
log_info("%s: loaded SPIs: %s (enc %s%s%s%s%s%s)",
SPI_SA(sa, __func__), spibuf,
print_xf(encrid, encrlen, ipsecencxfs),
integrid ? " auth " : "",
integrid ? print_xf(integrid, integrlen, authxfs) : "",
groupid ? " group " : "",
groupid ? print_xf(groupid, 0, groupxfs) : "",
esn ? " esn" : "");
}
fflush(flowf);
if (ftello(flowf) > 0 && !ferror(flowf)) {
log_info("%s: loaded flows: %s", SPI_SA(sa, __func__), flowbuf);
}
ret = 0;
done:
fclose(spif);
fclose(flowf);
free(spibuf);
free(flowbuf);
return (ret);
}
int
ikev2_childsa_delete(struct iked *env, struct iked_sa *sa, uint8_t saproto,
uint64_t spi, uint64_t *spiptr, int cleanup)
{
struct iked_childsa *csa, *csatmp = NULL, *ipcomp;
uint64_t peerspi = 0;
int found = 0;
TAILQ_FOREACH_SAFE(csa, &sa->sa_childsas, csa_entry, csatmp) {
if ((saproto && csa->csa_saproto != saproto) ||
(spi && (csa->csa_spi.spi != spi &&
csa->csa_peerspi != spi)) ||
(cleanup && csa->csa_loaded))
continue;
if (csa->csa_loaded)
RB_REMOVE(iked_activesas, &env->sc_activesas, csa);
if (pfkey_sa_delete(env, csa) != 0)
log_info("%s: failed to delete CHILD SA spi %s",
SPI_SA(sa, __func__), print_spi(csa->csa_spi.spi,
csa->csa_spi.spi_size));
else
log_debug("%s: deleted CHILD SA spi %s",
SPI_SA(sa, __func__), print_spi(csa->csa_spi.spi,
csa->csa_spi.spi_size));
found++;
if (spi && csa->csa_spi.spi == spi)
peerspi = csa->csa_peerspi;
ipcomp = csa->csa_bundled;
if (ipcomp) {
if (ipcomp->csa_loaded) {
if (pfkey_sa_delete(env, ipcomp) != 0)
log_info("%s: failed to delete IPCOMP"
" SA spi %s", SPI_SA(sa, __func__),
print_spi(ipcomp->csa_spi.spi,
ipcomp->csa_spi.spi_size));
else
log_debug("%s: deleted IPCOMP SA spi %s",
SPI_SA(sa, __func__),
print_spi(ipcomp->csa_spi.spi,
ipcomp->csa_spi.spi_size));
}
childsa_free(ipcomp);
}
TAILQ_REMOVE(&sa->sa_childsas, csa, csa_entry);
ikestat_inc(env, ikes_csa_removed);
childsa_free(csa);
}
if (spiptr)
*spiptr = peerspi;
return (found ? 0 : -1);
}
int
ikev2_valid_proposal(struct iked_proposal *prop,
struct iked_transform **exf, struct iked_transform **ixf, int *esn)
{
struct iked_transform *xform, *encrxf, *integrxf;
unsigned int i, doesn = 0;
switch (prop->prop_protoid) {
case IKEV2_SAPROTO_ESP:
case IKEV2_SAPROTO_AH:
break;
default:
return (-1);
}
encrxf = integrxf = NULL;
for (i = 0; i < prop->prop_nxforms; i++) {
xform = prop->prop_xforms + i;
if (xform->xform_type == IKEV2_XFORMTYPE_ENCR)
encrxf = xform;
else if (xform->xform_type == IKEV2_XFORMTYPE_INTEGR)
integrxf = xform;
else if (xform->xform_type == IKEV2_XFORMTYPE_ESN &&
xform->xform_id == IKEV2_XFORMESN_ESN)
doesn = 1;
}
if (prop->prop_protoid == IKEV2_SAPROTO_IKE) {
if (encrxf == NULL || integrxf == NULL)
return (-1);
} else if (prop->prop_protoid == IKEV2_SAPROTO_AH) {
if (integrxf == NULL)
return (-1);
} else if (prop->prop_protoid == IKEV2_SAPROTO_ESP) {
if (encrxf == NULL)
return (-1);
}
if (exf)
*exf = encrxf;
if (ixf)
*ixf = integrxf;
if (esn)
*esn = doesn;
return (0);
}
/* return 0 if processed, -1 if busy */
int
ikev2_child_sa_acquire(struct iked *env, struct iked_flow *acquire)
{
struct iked_flow *flow;
struct iked_sa *sa;
struct iked_policy pol, *p = NULL;
if (env->sc_passive)
return (0);
/* First try to find an active flow with IKE SA */
flow = RB_FIND(iked_flows, &env->sc_activeflows, acquire);
if (!flow) {
/* Otherwise try to find a matching policy */
bzero(&pol, sizeof(pol));
pol.pol_af = acquire->flow_peer->addr_af;
memcpy(&pol.pol_peer, acquire->flow_peer,
sizeof(pol.pol_peer));
RB_INIT(&pol.pol_flows);
RB_INSERT(iked_flows, &pol.pol_flows, acquire);
pol.pol_nflows = 1;
if ((p = policy_test(env, &pol)) == NULL) {
log_warnx("%s: flow wasn't found", __func__);
return (0);
}
log_debug("%s: found matching policy '%s'", __func__,
p->pol_name);
if (ikev2_init_ike_sa_peer(env, p,
&p->pol_peer, NULL) != 0)
log_warnx("%s: failed to initiate a "
"IKE_SA_INIT exchange for policy '%s'",
__func__, p->pol_name);
} else {
log_debug("%s: found active flow", __func__);
if ((sa = flow->flow_ikesa) == NULL) {
log_warnx("%s: flow without SA", __func__);
return (0);
}
if (sa->sa_stateflags & (IKED_REQ_CHILDSA|IKED_REQ_INF))
return (-1); /* busy, retry later */
if (ikev2_send_create_child_sa(env, sa, NULL,
flow->flow_saproto, 0) != 0)
log_warnx("%s: failed to initiate a "
"CREATE_CHILD_SA exchange", SPI_SA(sa, __func__));
}
return (0);
}
void
ikev2_disable_rekeying(struct iked *env, struct iked_sa *sa)
{
struct iked_childsa *csa;
TAILQ_FOREACH(csa, &sa->sa_childsas, csa_entry) {
csa->csa_persistent = 1;
csa->csa_rekey = 0;
}
(void)ikev2_childsa_delete(env, sa, 0, 0, NULL, 1);
}
/* return 0 if processed, -1 if busy */
int
ikev2_child_sa_rekey(struct iked *env, struct iked_spi *rekey)
{
struct iked_childsa *csa, key;
struct iked_sa *sa;
key.csa_spi = *rekey;
csa = RB_FIND(iked_activesas, &env->sc_activesas, &key);
if (!csa)
return (0);
if (csa->csa_rekey) /* See if it's already taken care of */
return (0);
if ((sa = csa->csa_ikesa) == NULL) {
log_warnx("%s: SA %s doesn't have a parent SA", __func__,
print_spi(rekey->spi, rekey->spi_size));
return (0);
}
if (!sa_stateok(sa, IKEV2_STATE_ESTABLISHED)) {
log_warnx("%s: not established, SPI %s", SPI_SA(sa, __func__),
print_spi(rekey->spi, rekey->spi_size));
return (0);
}
if (sa->sa_stateflags & (IKED_REQ_CHILDSA|IKED_REQ_INF)) {
log_info("%s: busy, retrying, SPI %s", SPI_SA(sa, __func__),
print_spi(rekey->spi, rekey->spi_size));
return (-1); /* busy, retry later */
}
if (sa->sa_tmpfail) {
log_info("%s: peer busy, retrying, SPI %s", SPI_SA(sa, __func__),
print_spi(rekey->spi, rekey->spi_size));
return (-1); /* peer is busy, retry later */
}
if (csa->csa_allocated) /* Peer SPI died first, get the local one */
rekey->spi = csa->csa_peerspi;
if (ikev2_send_create_child_sa(env, sa, rekey, rekey->spi_protoid, 0))
log_warnx("%s: failed to initiate a CREATE_CHILD_SA exchange",
SPI_SA(sa, __func__));
return (0);
}
/* return 0 if processed, -1 if busy */
int
ikev2_child_sa_drop(struct iked *env, struct iked_spi *drop)
{
struct ibuf *buf = NULL;
struct iked_childsa *csa, key;
struct iked_sa *sa;
struct ikev2_delete *del;
uint32_t spi32;
key.csa_spi = *drop;
csa = RB_FIND(iked_activesas, &env->sc_activesas, &key);
if (!csa || csa->csa_rekey)
return (0);
sa = csa->csa_ikesa;
if (sa && (sa->sa_stateflags & (IKED_REQ_CHILDSA|IKED_REQ_INF))) {
/* XXXX might loop, should we add a counter? */
log_debug("%s: parent SA busy", __func__);
return (-1); /* busy, retry later */
}
RB_REMOVE(iked_activesas, &env->sc_activesas, csa);
csa->csa_loaded = 0;
csa->csa_rekey = 1; /* prevent re-loading */
if (sa == NULL) {
log_debug("%s: failed to find a parent SA", __func__);
return (0);
}
if (csa->csa_allocated)
spi32 = htobe32(csa->csa_spi.spi);
else
spi32 = htobe32(csa->csa_peerspi);
if (ikev2_childsa_delete(env, sa, csa->csa_saproto,
csa->csa_peerspi, NULL, 0))
log_debug("%s: failed to delete CHILD SA %s", __func__,
print_spi(csa->csa_peerspi, drop->spi_size));
/* Send PAYLOAD_DELETE */
if ((buf = ibuf_static()) == NULL)
return (0);
if ((del = ibuf_reserve(buf, sizeof(*del))) == NULL)
goto done;
del->del_protoid = drop->spi_protoid;
del->del_spisize = 4;
del->del_nspi = htobe16(1);
if (ibuf_add(buf, &spi32, sizeof(spi32)))
goto done;
if (ikev2_send_ike_e(env, sa, buf, IKEV2_PAYLOAD_DELETE,
IKEV2_EXCHANGE_INFORMATIONAL, 0) == -1)
goto done;
sa->sa_stateflags |= IKED_REQ_INF;
done:
ibuf_free(buf);
return (0);
}
int
ikev2_print_static_id(struct iked_static_id *id, char *idstr, size_t idstrlen)
{
struct iked_id idp;
int ret = -1;
bzero(&idp, sizeof(idp));
if ((idp.id_buf = ibuf_new(id->id_data, id->id_length)) == NULL) {
bzero(idstr, idstrlen);
return (-1);
}
idp.id_type = id->id_type;
idp.id_offset = id->id_offset;
if (ikev2_print_id(&idp, idstr, idstrlen) == -1) {
bzero(idstr, idstrlen);
goto done;
}
ret = 0;
done:
ibuf_free(idp.id_buf);
return (ret);
}
int
ikev2_print_id(struct iked_id *id, char *idstr, size_t idstrlen)
{
uint8_t buf[BUFSIZ], *ptr;
struct sockaddr_in *s4;
struct sockaddr_in6 *s6;
char *str;
ssize_t len;
int i;
const char *type;
bzero(buf, sizeof(buf));
bzero(idstr, idstrlen);
if (id->id_buf == NULL)
return (-1);
len = ibuf_size(id->id_buf);
ptr = ibuf_data(id->id_buf);
if (len <= id->id_offset)
return (-1);
len -= id->id_offset;
ptr += id->id_offset;
type = print_map(id->id_type, ikev2_id_map);
if (strlcpy(idstr, type, idstrlen) >= idstrlen ||
strlcat(idstr, "/", idstrlen) >= idstrlen)
return (-1);
idstrlen -= strlen(idstr);
idstr += strlen(idstr);
switch (id->id_type) {
case IKEV2_ID_IPV4:
s4 = (struct sockaddr_in *)buf;
s4->sin_family = AF_INET;
s4->sin_len = sizeof(*s4);
memcpy(&s4->sin_addr.s_addr, ptr, len);
if (print_host((struct sockaddr *)s4,
idstr, idstrlen) == NULL)
return (-1);
break;
case IKEV2_ID_FQDN:
case IKEV2_ID_UFQDN:
if (len >= (ssize_t)sizeof(buf))
return (-1);
if ((str = get_string(ptr, len)) == NULL)
return (-1);
if (strlcpy(idstr, str, idstrlen) >= idstrlen) {
free(str);
return (-1);
}
free(str);
break;
case IKEV2_ID_IPV6:
s6 = (struct sockaddr_in6 *)buf;
s6->sin6_family = AF_INET6;
s6->sin6_len = sizeof(*s6);
memcpy(&s6->sin6_addr, ptr, len);
if (print_host((struct sockaddr *)s6,
idstr, idstrlen) == NULL)
return (-1);
break;
case IKEV2_ID_ASN1_DN:
if ((str = ca_asn1_name(ptr, len)) == NULL)
return (-1);
if (strlcpy(idstr, str, idstrlen) >= idstrlen) {
OPENSSL_free(str);
return (-1);
}
OPENSSL_free(str);
break;
default:
/* XXX test */
for (i = 0; i < ((ssize_t)idstrlen - 1) && i < len; i++)
snprintf(idstr + i, idstrlen - i,
"%02x", ptr[i]);
break;
}
return (0);
}
/*
* If we have an IKEV2_CP_REQUEST for IKEV2_CFG_INTERNAL_IP4_ADDRESS and
* if a network(pool) is configured, then select an address from that pool
* and remember it in the sa_addrpool attribute.
*/
int
ikev2_cp_setaddr(struct iked *env, struct iked_sa *sa, sa_family_t family)
{
struct iked_policy *pol = sa->sa_policy;
struct iked_cfg *ikecfg = NULL;
const char *errstr = NULL;
int ret, pass, passes;
size_t i;
switch (family) {
case AF_INET:
if (sa->sa_addrpool)
return (0);
break;
case AF_INET6:
if (sa->sa_addrpool6)
return (0);
break;
default:
return (-1);
}
if (pol->pol_ncfg == 0)
return (0);
/* default if no pool configured */
ret = 0;
/* two passes if client requests from specific pool */
passes = (sa->sa_cp_addr != NULL || sa->sa_cp_addr6 != NULL) ? 2 : 1;
for (pass = 0; pass < passes; pass++) {
/* loop over all address pool configs (addr_net) */
for (i = 0; i < pol->pol_ncfg; i++) {
ikecfg = &pol->pol_cfg[i];
if (!ikecfg->cfg.address.addr_net)
continue;
if ((family == AF_INET && ikecfg->cfg_type ==
IKEV2_CFG_INTERNAL_IP4_ADDRESS) ||
(family == AF_INET6 && ikecfg->cfg_type ==
IKEV2_CFG_INTERNAL_IP6_ADDRESS)) {
if ((ret = ikev2_cp_setaddr_pool(env, sa,
ikecfg, &errstr, family)) == 0)
return (0);
}
}
if (sa->sa_cp_addr != NULL) {
free(sa->sa_cp_addr);
sa->sa_cp_addr = NULL;
}
if (sa->sa_cp_addr6 != NULL) {
free(sa->sa_cp_addr6);
sa->sa_cp_addr6 = NULL;
}
}
if (errstr != NULL)
log_warnx("%s: %s", SPI_SA(sa, __func__), errstr);
return (ret);
}
int
ikev2_cp_setaddr_pool(struct iked *env, struct iked_sa *sa,
struct iked_cfg *ikecfg, const char **errstr, sa_family_t family)
{
struct sockaddr_in *in4 = NULL, *cfg4 = NULL;
struct sockaddr_in6 *in6 = NULL, *cfg6 = NULL;
struct iked_sa key;
struct iked_sa *osa;
char idstr[IKED_ID_SIZE];
struct iked_addr addr;
uint32_t mask, host, lower, upper, start, nhost;
int requested = 0;
/*
* failure: pool configured, but not requested.
* If we continue, we might end up with flows where 0.0.0.0 is NOT
* replaced with an address from the pool with ikev2_cp_fixaddr().
*/
if (sa->sa_cp != IKEV2_CP_REQUEST) {
log_debug("%s: pool configured, but IKEV2_CP_REQUEST missing",
__func__);
return (-1);
}
bzero(&addr, sizeof(addr));
addr.addr_af = family;
/* check if old IKESA for same DSTID already exists and transfer IPs */
if (env->sc_stickyaddress &&
(osa = sa_dstid_lookup(env, sa)) != NULL &&
((family == AF_INET && osa->sa_addrpool) ||
(family == AF_INET6 && osa->sa_addrpool6))) {
/* we have to transfer both, even if we just need one */
if (osa->sa_addrpool) {
if (RB_REMOVE(iked_addrpool, &env->sc_addrpool, osa)
!= osa) {
log_info("%s: addrpool error",
SPI_SA(osa, __func__));
return (-1);
}
}
if (osa->sa_addrpool6) {
if (RB_REMOVE(iked_addrpool6, &env->sc_addrpool6, osa)
!= osa) {
log_info("%s: addrpool6 error",
SPI_SA(osa, __func__));
return (-1);
}
}
sa_dstid_remove(env, osa);
sa->sa_addrpool = osa->sa_addrpool;
osa->sa_addrpool = NULL;
sa->sa_addrpool6 = osa->sa_addrpool6;
osa->sa_addrpool6 = NULL;
if (osa->sa_state < IKEV2_STATE_CLOSING) {
if (osa->sa_state == IKEV2_STATE_ESTABLISHED)
ikev2_disable_timer(env, osa);
ikev2_ike_sa_setreason(osa,
"address re-use (identical dstid)");
ikev2_ikesa_delete(env, osa, 1);
timer_add(env, &osa->sa_timer,
3 * IKED_RETRANSMIT_TIMEOUT);
}
if (sa->sa_addrpool) {
RB_INSERT(iked_addrpool, &env->sc_addrpool, sa);
log_info(
"%s: giving up assigned address %s to IKESA %s",
SPI_SA(osa, __func__),
print_addr(&sa->sa_addrpool->addr),
print_spi(sa->sa_hdr.sh_ispi, 8));
}
if (sa->sa_addrpool6) {
RB_INSERT(iked_addrpool6, &env->sc_addrpool6, sa);
log_info(
"%s: giving up assigned v6 address %s to IKESA %s",
SPI_SA(osa, __func__),
print_addr(&sa->sa_addrpool6->addr),
print_spi(sa->sa_hdr.sh_ispi, 8));
}
if (family == AF_INET && sa->sa_addrpool != NULL)
memcpy(&addr, sa->sa_addrpool, sizeof(addr));
else if (family == AF_INET6 && sa->sa_addrpool6 != NULL)
memcpy(&addr, sa->sa_addrpool6, sizeof(addr));
goto done;
}
switch (addr.addr_af) {
case AF_INET:
cfg4 = (struct sockaddr_in *)&ikecfg->cfg.address.addr;
mask = prefixlen2mask(ikecfg->cfg.address.addr_mask);
if (sa->sa_cp_addr != NULL) {
memcpy(&addr, sa->sa_cp_addr, sizeof(addr));
key.sa_addrpool = &addr;
in4 = (struct sockaddr_in *)&addr.addr;
if ((in4->sin_addr.s_addr & mask) !=
(cfg4->sin_addr.s_addr & mask)) {
*errstr = "requested addr out of range";
return (-1);
}
if (RB_FIND(iked_addrpool, &env->sc_addrpool,
&key)) {
*errstr = "requested addr in use";
return (-1);
}
sa->sa_addrpool = sa->sa_cp_addr;
sa->sa_cp_addr = NULL;
RB_INSERT(iked_addrpool, &env->sc_addrpool, sa);
requested = 1;
goto done;
}
in4 = (struct sockaddr_in *)&addr.addr;
in4->sin_family = AF_INET;
in4->sin_len = sizeof(*in4);
lower = ntohl(cfg4->sin_addr.s_addr & ~mask);
key.sa_addrpool = &addr;
break;
case AF_INET6:
cfg6 = (struct sockaddr_in6 *)&ikecfg->cfg.address.addr;
in6 = (struct sockaddr_in6 *)&addr.addr;
if (sa->sa_cp_addr6 != NULL) {
/* XXX not yet supported */
}
in6->sin6_family = AF_INET6;
in6->sin6_len = sizeof(*in6);
/* truncate prefixlen to get a 32-bit space */
mask = (ikecfg->cfg.address.addr_mask >= 96)
? prefixlen2mask(ikecfg->cfg.address.addr_mask - 96)
: prefixlen2mask(0);
memcpy(&lower, &cfg6->sin6_addr.s6_addr[12], sizeof(uint32_t));
lower = ntohl(lower & ~mask);
key.sa_addrpool6 = &addr;
break;
default:
return (-1);
}
/* Note that start, upper and host are in HOST byte order */
upper = ntohl(~mask);
/* skip .0 address if possible */
if (lower < upper && lower == 0)
lower = 1;
if (upper < lower)
upper = lower;
/* Randomly select start from [lower, upper-1] */
start = arc4random_uniform(upper - lower) + lower;
for (host = start;;) {
log_debug("%s: mask %x start %x lower %x host %x upper %x",
__func__, mask, start, lower, host, upper);
switch (addr.addr_af) {
case AF_INET:
in4->sin_addr.s_addr =
(cfg4->sin_addr.s_addr & mask) | htonl(host);
break;
case AF_INET6:
memcpy(in6, cfg6, sizeof(*in6));
memcpy(&nhost, &cfg6->sin6_addr.s6_addr[12],
sizeof(uint32_t));
nhost = (nhost & mask) | htonl(host);
memcpy(&in6->sin6_addr.s6_addr[12], &nhost,
sizeof(uint32_t));
break;
default:
return (-1);
}
if ((addr.addr_af == AF_INET &&
!RB_FIND(iked_addrpool, &env->sc_addrpool, &key)) ||
(addr.addr_af == AF_INET6 &&
!RB_FIND(iked_addrpool6, &env->sc_addrpool6, &key)))
break;
/* try next address */
host++;
/* but skip broadcast and network address */
if (host >= upper || host < lower)
host = lower;
if (host == start) {
*errstr = "address pool exhausted";
return (-1); /* exhausted */
}
}
addr.addr_mask = ikecfg->cfg.address.addr_mask;
switch (addr.addr_af) {
case AF_INET:
if (!key.sa_addrpool)
return (-1); /* cannot happen? */
if ((sa->sa_addrpool = calloc(1, sizeof(addr))) == NULL)
return (-1);
memcpy(sa->sa_addrpool, &addr, sizeof(addr));
RB_INSERT(iked_addrpool, &env->sc_addrpool, sa);
break;
case AF_INET6:
if (!key.sa_addrpool6)
return (-1); /* cannot happen? */
if ((sa->sa_addrpool6 = calloc(1, sizeof(addr))) == NULL)
return (-1);
memcpy(sa->sa_addrpool6, &addr, sizeof(addr));
RB_INSERT(iked_addrpool6, &env->sc_addrpool6, sa);
break;
default:
return (-1);
}
done:
if (ikev2_print_id(IKESA_DSTID(sa), idstr, sizeof(idstr)) == -1)
bzero(idstr, sizeof(idstr));
log_info("%sassigned address %s to %s%s", SPI_SA(sa, NULL),
print_addr(&addr.addr),
idstr, requested ? " (requested by peer)" : "");
return (0);
}
int
ikev2_cp_request_configured(struct iked_sa *sa)
{
struct iked_policy *pol = sa->sa_policy;
struct iked_cfg *ikecfg;
unsigned int i;
for (i = 0; i < pol->pol_ncfg; i++) {
ikecfg = &pol->pol_cfg[i];
if (ikecfg->cfg_action == IKEV2_CP_REQUEST) {
log_debug("%s: yes", SPI_SA(sa, __func__));
return 1;
}
}
log_debug("%s: no", SPI_SA(sa, __func__));
return 0;
}
/*
* if 'addr' is 'UNSPECIFIED' replace it with sa_addrpool from
* the ip-pool or the sa_cp_addr received from peer and store the
* result in 'patched'.
*/
int
ikev2_cp_fixaddr(struct iked_sa *sa, struct iked_addr *addr,
struct iked_addr *patched)
{
struct sockaddr_in *in4;
struct sockaddr_in6 *in6;
struct iked_addr *naddr;
if (addr->addr_net)
return (-2);
if (sa->sa_cp == 0)
return (-1);
switch (addr->addr_af) {
case AF_INET:
in4 = (struct sockaddr_in *)&addr->addr;
if (in4->sin_addr.s_addr)
return (-2);
naddr = (sa->sa_cp == IKEV2_CP_REQUEST) ?
sa->sa_addrpool : sa->sa_cp_addr;
if (naddr == NULL)
return (-1);
memcpy(patched, naddr, sizeof(*patched));
patched->addr_net = 0;
patched->addr_mask = 32;
break;
case AF_INET6:
in6 = (struct sockaddr_in6 *)&addr->addr;
if (!IN6_IS_ADDR_UNSPECIFIED(&in6->sin6_addr))
return (-2);
naddr = (sa->sa_cp == IKEV2_CP_REQUEST) ?
sa->sa_addrpool6 : sa->sa_cp_addr6;
if (naddr == NULL)
return (-1);
memcpy(patched, naddr, sizeof(*patched));
patched->addr_net = 0;
patched->addr_mask = 128;
break;
}
return (0);
}
/* replace unspecified address in flow with requested address */
int
ikev2_cp_fixflow(struct iked_sa *sa, struct iked_flow *flow,
struct iked_flow *patched)
{
switch (sa->sa_cp) {
case IKEV2_CP_REQUEST:
if (patched->flow_dir == IPSP_DIRECTION_IN)
return (ikev2_cp_fixaddr(sa, &flow->flow_dst,
&patched->flow_src));
else
return (ikev2_cp_fixaddr(sa, &flow->flow_dst,
&patched->flow_dst));
case IKEV2_CP_REPLY:
if (patched->flow_dir == IPSP_DIRECTION_IN)
return (ikev2_cp_fixaddr(sa, &flow->flow_src,
&patched->flow_dst));
else
return (ikev2_cp_fixaddr(sa, &flow->flow_src,
&patched->flow_src));
default:
return (0);
}
}
int
ikev2_update_sa_addresses(struct iked *env, struct iked_sa *sa)
{
struct iked_childsa *csa, *ipcomp;
struct iked_flow *flow, *oflow;
struct iked_message *msg;
struct iked_msg_retransmit *mr;
if (!sa_stateok(sa, IKEV2_STATE_ESTABLISHED))
return -1;
log_info("%s: old %s new %s", SPI_SA(sa, __func__),
print_addr(&sa->sa_peer_loaded.addr),
print_addr(&sa->sa_peer.addr));
TAILQ_FOREACH(csa, &sa->sa_childsas, csa_entry) {
if (!csa->csa_loaded)
continue;
if (pfkey_sa_update_addresses(env, csa) != 0)
log_debug("%s: failed to update sa", __func__);
if ((ipcomp = csa->csa_bundled) != NULL &&
ipcomp->csa_loaded)
if (pfkey_sa_update_addresses(env, ipcomp)
!= 0)
log_debug("%s: failed to update sa", __func__);
}
/* delete and re-add flows */
TAILQ_FOREACH(flow, &sa->sa_flows, flow_entry) {
if (flow->flow_loaded) {
RB_REMOVE(iked_flows, &env->sc_activeflows, flow);
(void)pfkey_flow_delete(env, flow);
flow->flow_loaded = 0;
}
if (pfkey_flow_add(env, flow) != 0)
log_debug("%s: failed to add flow %p", __func__, flow);
if (!flow->flow_loaded)
continue;
if ((oflow = RB_FIND(iked_flows, &env->sc_activeflows, flow))
!= NULL) {
log_debug("%s: replaced old flow %p with %p",
__func__, oflow, flow);
oflow->flow_loaded = 0;
RB_REMOVE(iked_flows, &env->sc_activeflows, oflow);
}
RB_INSERT(iked_flows, &env->sc_activeflows, flow);
}
/* update pending requests and responses */
TAILQ_FOREACH(mr, &sa->sa_requests, mrt_entry) {
TAILQ_FOREACH(msg, &mr->mrt_frags, msg_entry) {
msg->msg_local = sa->sa_local.addr;
msg->msg_locallen = sa->sa_local.addr.ss_len;
msg->msg_peer = sa->sa_peer.addr;
msg->msg_peerlen = sa->sa_peer.addr.ss_len;
}
}
TAILQ_FOREACH(mr, &sa->sa_responses, mrt_entry) {
TAILQ_FOREACH(msg, &mr->mrt_frags, msg_entry) {
msg->msg_local = sa->sa_local.addr;
msg->msg_locallen = sa->sa_local.addr.ss_len;
msg->msg_peer = sa->sa_peer.addr;
msg->msg_peerlen = sa->sa_peer.addr.ss_len;
}
}
/* Update sa_peer_loaded, to match in-kernel information */
memcpy(&sa->sa_peer_loaded, &sa->sa_peer, sizeof(sa->sa_peer_loaded));
return 0;
}
void
ikev2_info_sa(struct iked *env, int dolog, const char *msg, struct iked_sa *sa)
{
char idstr[IKED_ID_SIZE];
char *buf;
int buflen;
if (ikev2_print_id(IKESA_DSTID(sa), idstr, sizeof(idstr)) == -1)
bzero(idstr, sizeof(idstr));
buflen = asprintf(&buf,
"%s: %p rspi %s ispi %s %s->%s<%s>[%s] %s %c%s%s nexti %p pol %p\n",
msg, sa,
print_spi(sa->sa_hdr.sh_rspi, 8),
print_spi(sa->sa_hdr.sh_ispi, 8),
print_addr(&sa->sa_local.addr),
print_addr(&sa->sa_peer.addr),
idstr,
sa->sa_addrpool ? print_addr(&sa->sa_addrpool->addr) : "",
print_map(sa->sa_state, ikev2_state_map),
sa->sa_hdr.sh_initiator ? 'i' : 'r',
sa->sa_natt ? " natt" : "",
sa->sa_udpencap ? " udpecap" : "",
sa->sa_nexti, sa->sa_policy);
if (buflen == -1 || buf == NULL)
return;
if (dolog) {
if (buflen > 1)
buf[buflen - 1] = '\0';
log_debug("%s", buf);
} else
proc_compose(&env->sc_ps, PROC_CONTROL, IMSG_CTL_SHOW_SA,
buf, buflen + 1);
free(buf);
}
void
ikev2_info_csa(struct iked *env, int dolog, const char *msg, struct iked_childsa *csa)
{
char *buf;
int buflen;
buflen = asprintf(&buf,
"%s: %p %s %s %s %s -> %s (%s%s%s%s) B=%p P=%p @%p\n", msg, csa,
print_map(csa->csa_saproto, ikev2_saproto_map),
print_spi(csa->csa_spi.spi, csa->csa_spi.spi_size),
csa->csa_dir == IPSP_DIRECTION_IN ? "in" : "out",
print_addr(&csa->csa_local->addr),
print_addr(&csa->csa_peer->addr),
csa->csa_loaded ? "L" : "",
csa->csa_rekey ? "R" : "",
csa->csa_allocated ? "A" : "",
csa->csa_persistent ? "P" : "",
csa->csa_bundled,
csa->csa_peersa,
csa->csa_ikesa);
if (buflen == -1 || buf == NULL)
return;
if (dolog) {
if (buflen > 1)
buf[buflen - 1] = '\0';
log_debug("%s", buf);
} else
proc_compose(&env->sc_ps, PROC_CONTROL, IMSG_CTL_SHOW_SA,
buf, buflen + 1);
free(buf);
}
void
ikev2_info_flow(struct iked *env, int dolog, const char *msg, struct iked_flow *flow)
{
char prenat_mask[10];
char *buf;
int buflen;
if (flow->flow_prenat.addr_af != 0)
snprintf(prenat_mask, sizeof(prenat_mask), "%d",
flow->flow_prenat.addr_mask);
else
prenat_mask[0] = '\0';
buflen = asprintf(&buf,
"%s: %p %s %s %s/%d -> %s/%d %s%s%s%s%s[%u]@%d (%s) @%p\n", msg, flow,
print_map(flow->flow_saproto, ikev2_saproto_map),
flow->flow_dir == IPSP_DIRECTION_IN ? "in" : "out",
print_addr(&flow->flow_src.addr),
flow->flow_src.addr_mask,
print_addr(&flow->flow_dst.addr),
flow->flow_dst.addr_mask,
flow->flow_prenat.addr_af != 0 ? "[": "",
flow->flow_prenat.addr_af != 0 ?
print_addr(&flow->flow_prenat.addr) : "",
flow->flow_prenat.addr_af != 0 ? "/" : "",
flow->flow_prenat.addr_af != 0 ? prenat_mask : "",
flow->flow_prenat.addr_af != 0 ? "] ": "",
flow->flow_ipproto,
flow->flow_rdomain,
flow->flow_loaded ? "L" : "",
flow->flow_ikesa);
if (buflen == -1 || buf == NULL)
return;
if (dolog) {
if (buflen > 1)
buf[buflen - 1] = '\0';
log_debug("%s", buf);
} else
proc_compose(&env->sc_ps, PROC_CONTROL, IMSG_CTL_SHOW_SA,
buf, buflen + 1);
free(buf);
}
void
ikev2_info(struct iked *env, int dolog)
{
struct iked_sa *sa;
struct iked_childsa *csa, *ipcomp;
struct iked_flow *flow;
log_debug("%s: called", __func__);
RB_FOREACH(sa, iked_sas, &env->sc_sas) {
ikev2_info_sa(env, dolog, "iked_sas", sa);
TAILQ_FOREACH(csa, &sa->sa_childsas, csa_entry) {
ikev2_info_csa(env, dolog, " sa_childsas", csa);
if ((ipcomp = csa->csa_bundled) != NULL)
ikev2_info_csa(env, dolog, " ",
ipcomp);
}
TAILQ_FOREACH(flow, &sa->sa_flows, flow_entry) {
ikev2_info_flow(env, dolog, " sa_flows", flow);
}
}
RB_FOREACH(csa, iked_activesas, &env->sc_activesas) {
ikev2_info_csa(env, dolog, "iked_activesas", csa);
if ((ipcomp = csa->csa_bundled) != NULL)
ikev2_info_csa(env, dolog, " ", ipcomp);
}
RB_FOREACH(flow, iked_flows, &env->sc_activeflows) {
ikev2_info_flow(env, dolog, "iked_flows", flow);
}
RB_FOREACH(sa, iked_dstid_sas, &env->sc_dstid_sas) {
ikev2_info_sa(env, dolog, "iked_dstid_sas", sa);
}
if (dolog)
return;
/* Send empty reply to indicate end of information. */
proc_compose(&env->sc_ps, PROC_CONTROL, IMSG_CTL_SHOW_SA, NULL, 0);
}
const char *
ikev2_ikesa_info(uint64_t spi, const char *msg)
{
static char buf[1024];
const char *spistr;
spistr = print_spi(spi, 8);
if (msg)
snprintf(buf, sizeof(buf), "spi=%s: %s", spistr, msg);
else
snprintf(buf, sizeof(buf), "spi=%s: ", spistr);
return buf;
}
void
ikev2_log_established(struct iked_sa *sa)
{
char dstid[IKED_ID_SIZE], srcid[IKED_ID_SIZE];
if (ikev2_print_id(IKESA_DSTID(sa), dstid, sizeof(dstid)) == -1)
bzero(dstid, sizeof(dstid));
if (ikev2_print_id(IKESA_SRCID(sa), srcid, sizeof(srcid)) == -1)
bzero(srcid, sizeof(srcid));
log_info(
"%sestablished peer %s[%s] local %s[%s]%s%s%s%s policy '%s'%s"
" (enc %s%s%s group %s prf %s)", SPI_SA(sa, NULL),
print_addr(&sa->sa_peer.addr), dstid,
print_addr(&sa->sa_local.addr), srcid,
sa->sa_addrpool ? " assigned " : "",
sa->sa_addrpool ? print_addr(&sa->sa_addrpool->addr) : "",
sa->sa_addrpool6 ? " assigned " : "",
sa->sa_addrpool6 ? print_addr(&sa->sa_addrpool6->addr) : "",
sa->sa_policy ? sa->sa_policy->pol_name : "",
sa->sa_hdr.sh_initiator ? " as initiator" : " as responder",
print_xf(sa->sa_encr->encr_id, cipher_keylength(sa->sa_encr) -
sa->sa_encr->encr_saltlength, ikeencxfs),
sa->sa_encr->encr_authid ? "" : " auth ",
sa->sa_encr->encr_authid ? "" : print_xf(sa->sa_integr->hash_id,
hash_keylength(sa->sa_integr), authxfs),
print_xf(sa->sa_dhgroup->id, 0, groupxfs),
print_xf(sa->sa_prf->hash_id, hash_keylength(sa->sa_prf), prfxfs));
}
void
ikev2_log_cert_info(const char *msg, struct iked_id *certid)
{
X509 *cert = NULL;
BIO *rawcert = NULL;
if (certid->id_type != IKEV2_CERT_X509_CERT ||
certid->id_buf == NULL)
return;
if ((rawcert = BIO_new_mem_buf(ibuf_data(certid->id_buf),
ibuf_length(certid->id_buf))) == NULL ||
(cert = d2i_X509_bio(rawcert, NULL)) == NULL)
goto out;
ca_cert_info(msg, cert);
out:
if (cert)
X509_free(cert);
if (rawcert)
BIO_free(rawcert);
}
void
ikev2_log_proposal(struct iked_sa *sa, struct iked_proposals *proposals)
{
struct iked_proposal *prop;
struct iked_transform *xform;
unsigned int i;
char lenstr[20];
TAILQ_FOREACH(prop, proposals, prop_entry) {
for (i = 0; i < prop->prop_nxforms; i++) {
xform = &prop->prop_xforms[i];
if (xform->xform_keylength)
snprintf(lenstr, sizeof(lenstr), "-%u",
xform->xform_keylength);
else
lenstr[0] = '\0';
log_info("%s: %s #%u %s=%s%s",
sa ? SPI_SA(sa, __func__) : __func__,
print_map(prop->prop_protoid, ikev2_saproto_map),
prop->prop_id,
print_map(xform->xform_type, ikev2_xformtype_map),
xform->xform_map ?
print_map(xform->xform_id, xform->xform_map)
: "UNKNOWN",
lenstr);
}
}
}
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