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|
/* $OpenBSD: policy.c,v 1.47 2017/11/27 18:39:35 patrick Exp $ */
/*
* Copyright (c) 2010-2013 Reyk Floeter <reyk@openbsd.org>
* Copyright (c) 2001 Daniel Hartmeier
*
* 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/queue.h>
#include <sys/socket.h>
#include <sys/uio.h>
#include <sys/tree.h>
#include <stdio.h>
#include <stdlib.h>
#include <unistd.h>
#include <string.h>
#include <errno.h>
#include <fcntl.h>
#include <event.h>
#include "iked.h"
#include "ikev2.h"
static __inline int
sa_cmp(struct iked_sa *, struct iked_sa *);
static __inline int
user_cmp(struct iked_user *, struct iked_user *);
static __inline int
childsa_cmp(struct iked_childsa *, struct iked_childsa *);
static __inline int
flow_cmp(struct iked_flow *, struct iked_flow *);
void
policy_init(struct iked *env)
{
TAILQ_INIT(&env->sc_policies);
TAILQ_INIT(&env->sc_ocsp);
RB_INIT(&env->sc_users);
RB_INIT(&env->sc_sas);
RB_INIT(&env->sc_activesas);
RB_INIT(&env->sc_activeflows);
}
int
policy_lookup(struct iked *env, struct iked_message *msg)
{
struct iked_policy pol;
char *s, idstr[IKED_ID_SIZE];
if (msg->msg_sa != NULL && msg->msg_sa->sa_policy != NULL) {
/* Existing SA with policy */
msg->msg_policy = msg->msg_sa->sa_policy;
goto found;
}
bzero(&pol, sizeof(pol));
pol.pol_af = msg->msg_peer.ss_family;
memcpy(&pol.pol_peer.addr, &msg->msg_peer, sizeof(msg->msg_peer));
memcpy(&pol.pol_local.addr, &msg->msg_local, sizeof(msg->msg_local));
if (msg->msg_id.id_type &&
ikev2_print_id(&msg->msg_id, idstr, IKED_ID_SIZE) == 0 &&
(s = strchr(idstr, '/')) != NULL) {
pol.pol_peerid.id_type = msg->msg_id.id_type;
pol.pol_peerid.id_length = strlen(s+1);
strlcpy(pol.pol_peerid.id_data, s+1,
sizeof(pol.pol_peerid.id_data));
log_debug("%s: peerid '%s'", __func__, s+1);
}
/* Try to find a matching policy for this message */
if ((msg->msg_policy = policy_test(env, &pol)) != NULL)
goto found;
/* No matching policy found, try the default */
if ((msg->msg_policy = env->sc_defaultcon) != NULL)
goto found;
/* No policy found */
return (-1);
found:
return (0);
}
struct iked_policy *
policy_test(struct iked *env, struct iked_policy *key)
{
struct iked_policy *p = NULL, *pol = NULL;
struct iked_flow *flow = NULL, *flowkey;
unsigned int cnt = 0;
p = TAILQ_FIRST(&env->sc_policies);
while (p != NULL) {
cnt++;
if (p->pol_flags & IKED_POLICY_SKIP)
p = p->pol_skip[IKED_SKIP_FLAGS];
else if (key->pol_af && p->pol_af &&
key->pol_af != p->pol_af)
p = p->pol_skip[IKED_SKIP_AF];
else if (key->pol_ipproto && p->pol_ipproto &&
key->pol_ipproto != p->pol_ipproto)
p = p->pol_skip[IKED_SKIP_PROTO];
else if (sockaddr_cmp((struct sockaddr *)&key->pol_peer.addr,
(struct sockaddr *)&p->pol_peer.addr,
p->pol_peer.addr_mask) != 0)
p = p->pol_skip[IKED_SKIP_DST_ADDR];
else if (sockaddr_cmp((struct sockaddr *)&key->pol_local.addr,
(struct sockaddr *)&p->pol_local.addr,
p->pol_local.addr_mask) != 0)
p = p->pol_skip[IKED_SKIP_SRC_ADDR];
else {
/*
* Check if a specific flow is requested
* (eg. for acquire messages from the kernel)
* and find a matching flow.
*/
if (key->pol_nflows &&
(flowkey = RB_MIN(iked_flows,
&key->pol_flows)) != NULL &&
(flow = RB_FIND(iked_flows, &p->pol_flows,
flowkey)) == NULL) {
p = TAILQ_NEXT(p, pol_entry);
continue;
}
/* make sure the peer ID matches */
if (key->pol_peerid.id_type &&
(key->pol_peerid.id_type != p->pol_peerid.id_type ||
memcmp(key->pol_peerid.id_data,
p->pol_peerid.id_data,
sizeof(key->pol_peerid.id_data)) != 0)) {
p = TAILQ_NEXT(p, pol_entry);
continue;
}
/* Policy matched */
pol = p;
if (pol->pol_flags & IKED_POLICY_QUICK)
break;
/* Continue to find last matching policy */
p = TAILQ_NEXT(p, pol_entry);
}
}
return (pol);
}
#define IKED_SET_SKIP_STEPS(i) \
do { \
while (head[i] != cur) { \
head[i]->pol_skip[i] = cur; \
head[i] = TAILQ_NEXT(head[i], pol_entry); \
} \
} while (0)
/* This code is derived from pf_calc_skip_steps() from pf.c */
void
policy_calc_skip_steps(struct iked_policies *policies)
{
struct iked_policy *head[IKED_SKIP_COUNT], *cur, *prev;
int i;
cur = TAILQ_FIRST(policies);
prev = cur;
for (i = 0; i < IKED_SKIP_COUNT; ++i)
head[i] = cur;
while (cur != NULL) {
if (cur->pol_flags & IKED_POLICY_SKIP)
IKED_SET_SKIP_STEPS(IKED_SKIP_FLAGS);
else if (cur->pol_af != AF_UNSPEC &&
prev->pol_af != AF_UNSPEC &&
cur->pol_af != prev->pol_af)
IKED_SET_SKIP_STEPS(IKED_SKIP_AF);
else if (cur->pol_ipproto && prev->pol_ipproto &&
cur->pol_ipproto != prev->pol_ipproto)
IKED_SET_SKIP_STEPS(IKED_SKIP_PROTO);
else if (IKED_ADDR_NEQ(&cur->pol_peer, &prev->pol_peer))
IKED_SET_SKIP_STEPS(IKED_SKIP_DST_ADDR);
else if (IKED_ADDR_NEQ(&cur->pol_local, &prev->pol_local))
IKED_SET_SKIP_STEPS(IKED_SKIP_SRC_ADDR);
prev = cur;
cur = TAILQ_NEXT(cur, pol_entry);
}
for (i = 0; i < IKED_SKIP_COUNT; ++i)
IKED_SET_SKIP_STEPS(i);
}
void
policy_ref(struct iked *env, struct iked_policy *pol)
{
pol->pol_refcnt++;
pol->pol_flags |= IKED_POLICY_REFCNT;
}
void
policy_unref(struct iked *env, struct iked_policy *pol)
{
if (pol == NULL || (pol->pol_flags & IKED_POLICY_REFCNT) == 0)
return;
if (--(pol->pol_refcnt) <= 0)
config_free_policy(env, pol);
else {
struct iked_sa *tmp;
int count = 0;
TAILQ_FOREACH(tmp, &pol->pol_sapeers, sa_peer_entry)
count++;
if (count != pol->pol_refcnt)
log_warnx("%s: ERROR pol %p pol_refcnt %d != count %d",
__func__, pol, pol->pol_refcnt, count);
}
}
void
sa_state(struct iked *env, struct iked_sa *sa, int state)
{
const char *a;
const char *b;
int ostate = sa->sa_state;
a = print_map(ostate, ikev2_state_map);
b = print_map(state, ikev2_state_map);
sa->sa_state = state;
if (ostate != IKEV2_STATE_INIT &&
!sa_stateok(sa, state)) {
log_debug("%s: cannot switch: %s -> %s", __func__, a, b);
sa->sa_state = ostate;
} else if (ostate != sa->sa_state) {
switch (state) {
case IKEV2_STATE_ESTABLISHED:
case IKEV2_STATE_CLOSED:
log_info("%s: %s -> %s from %s to %s policy '%s'",
__func__, a, b,
print_host((struct sockaddr *)&sa->sa_peer.addr,
NULL, 0),
print_host((struct sockaddr *)&sa->sa_local.addr,
NULL, 0),
sa->sa_policy ? sa->sa_policy->pol_name :
"<unknown>");
break;
default:
log_debug("%s: %s -> %s", __func__, a, b);
break;
}
}
}
void
sa_stateflags(struct iked_sa *sa, unsigned int flags)
{
unsigned int require;
if (sa->sa_state > IKEV2_STATE_SA_INIT)
require = sa->sa_statevalid;
else
require = sa->sa_stateinit;
log_debug("%s: 0x%04x -> 0x%04x %s (required 0x%04x %s)", __func__,
sa->sa_stateflags, sa->sa_stateflags | flags,
print_bits(sa->sa_stateflags | flags, IKED_REQ_BITS), require,
print_bits(require, IKED_REQ_BITS));
sa->sa_stateflags |= flags;
}
int
sa_stateok(struct iked_sa *sa, int state)
{
unsigned int require;
if (sa->sa_state < state)
return (0);
if (state == IKEV2_STATE_SA_INIT)
require = sa->sa_stateinit;
else
require = sa->sa_statevalid;
if (state == IKEV2_STATE_SA_INIT ||
state == IKEV2_STATE_VALID ||
state == IKEV2_STATE_EAP_VALID) {
log_debug("%s: %s flags 0x%04x, require 0x%04x %s", __func__,
print_map(state, ikev2_state_map),
(sa->sa_stateflags & require), require,
print_bits(require, IKED_REQ_BITS));
if ((sa->sa_stateflags & require) != require)
return (0); /* not ready, ignore */
}
return (1);
}
struct iked_sa *
sa_new(struct iked *env, uint64_t ispi, uint64_t rspi,
unsigned int initiator, struct iked_policy *pol)
{
struct iked_sa *sa;
struct iked_sa *old;
struct iked_id *localid;
unsigned int diff;
if ((ispi == 0 && rspi == 0) ||
(sa = sa_lookup(env, ispi, rspi, initiator)) == NULL) {
/* Create new SA */
if (!initiator && ispi == 0) {
log_debug("%s: cannot create responder IKE SA w/o ispi",
__func__);
return (NULL);
}
sa = config_new_sa(env, initiator);
if (sa == NULL) {
log_debug("%s: failed to allocate IKE SA", __func__);
return (NULL);
}
if (!initiator)
sa->sa_hdr.sh_ispi = ispi;
old = RB_INSERT(iked_sas, &env->sc_sas, sa);
if (old && old != sa) {
log_warnx("%s: duplicate IKE SA", __func__);
config_free_sa(env, sa);
return (NULL);
}
}
/* Update rspi in the initator case */
if (initiator && sa->sa_hdr.sh_rspi == 0 && rspi)
sa->sa_hdr.sh_rspi = rspi;
if (pol == NULL && sa->sa_policy == NULL)
fatalx("%s: sa %p no policy", __func__, sa);
else if (sa->sa_policy == NULL) {
/* Increment refcount if the policy has refcounting enabled. */
if (pol->pol_flags & IKED_POLICY_REFCNT) {
log_info("%s: sa %p old pol %p pol_refcnt %d",
__func__, sa, pol, pol->pol_refcnt);
policy_ref(env, pol);
}
sa->sa_policy = pol;
TAILQ_INSERT_TAIL(&pol->pol_sapeers, sa, sa_peer_entry);
} else
pol = sa->sa_policy;
sa->sa_statevalid = IKED_REQ_AUTH|IKED_REQ_AUTHVALID|IKED_REQ_SA;
if (pol != NULL && pol->pol_auth.auth_eap) {
sa->sa_statevalid |= IKED_REQ_CERT|IKED_REQ_EAPVALID;
} else if (pol != NULL && pol->pol_auth.auth_method !=
IKEV2_AUTH_SHARED_KEY_MIC) {
sa->sa_statevalid |= IKED_REQ_CERTVALID|IKED_REQ_CERT;
}
if (initiator) {
localid = &sa->sa_iid;
diff = IKED_REQ_CERTVALID|IKED_REQ_AUTHVALID|IKED_REQ_SA|
IKED_REQ_EAPVALID;
sa->sa_stateinit = sa->sa_statevalid & ~diff;
sa->sa_statevalid = sa->sa_statevalid & diff;
} else
localid = &sa->sa_rid;
if (!ibuf_length(localid->id_buf) && pol != NULL &&
ikev2_policy2id(&pol->pol_localid, localid, 1) != 0) {
log_debug("%s: failed to get local id", __func__);
sa_free(env, sa);
return (NULL);
}
return (sa);
}
void
sa_free(struct iked *env, struct iked_sa *sa)
{
log_debug("%s: ispi %s rspi %s", __func__,
print_spi(sa->sa_hdr.sh_ispi, 8),
print_spi(sa->sa_hdr.sh_rspi, 8));
/* IKE rekeying running? */
if (sa->sa_nexti) {
RB_REMOVE(iked_sas, &env->sc_sas, sa->sa_nexti);
config_free_sa(env, sa->sa_nexti);
}
if (sa->sa_nextr) {
RB_REMOVE(iked_sas, &env->sc_sas, sa->sa_nextr);
config_free_sa(env, sa->sa_nextr);
}
RB_REMOVE(iked_sas, &env->sc_sas, sa);
config_free_sa(env, sa);
}
/* oflow did replace active flow, so we need to re-activate a matching flow */
int
flow_replace(struct iked *env, struct iked_flow *oflow)
{
struct iked_sa *sa;
struct iked_flow *flow, *other;
if (!oflow->flow_loaded)
return (-1);
RB_FOREACH(sa, iked_sas, &env->sc_sas) {
if (oflow->flow_ikesa == sa ||
sa->sa_state != IKEV2_STATE_ESTABLISHED)
continue;
TAILQ_FOREACH(flow, &sa->sa_flows, flow_entry) {
if (flow == oflow ||
flow->flow_loaded || !flow_equal(flow, oflow))
continue;
if ((other = RB_FIND(iked_flows, &env->sc_activeflows,
flow)) != NULL) {
/* XXX should not happen */
log_debug("%s: found flow %p for %p/%p",
__func__, other, flow, other);
return (-1);
}
if (pfkey_flow_add(env->sc_pfkey, flow) != 0) {
log_debug("%s: failed to load flow", __func__);
return (-1);
}
RB_INSERT(iked_flows, &env->sc_activeflows, flow);
log_debug("%s: loaded flow %p replaces %p", __func__,
flow, oflow);
/* check for matching flow if we get deleted, too */
flow->flow_replacing = 1;
return (0);
}
}
return (-1);
}
void
sa_free_flows(struct iked *env, struct iked_saflows *head)
{
struct iked_flow *flow, *next;
for (flow = TAILQ_FIRST(head); flow != NULL; flow = next) {
next = TAILQ_NEXT(flow, flow_entry);
log_debug("%s: free %p", __func__, flow);
if (flow->flow_loaded)
RB_REMOVE(iked_flows, &env->sc_activeflows, flow);
TAILQ_REMOVE(head, flow, flow_entry);
if (!flow->flow_replacing ||
flow_replace(env, flow) != 0)
(void)pfkey_flow_delete(env->sc_pfkey, flow);
flow_free(flow);
}
}
int
sa_address(struct iked_sa *sa, struct iked_addr *addr,
struct sockaddr_storage *peer)
{
bzero(addr, sizeof(*addr));
addr->addr_af = peer->ss_family;
addr->addr_port = htons(socket_getport((struct sockaddr *)peer));
memcpy(&addr->addr, peer, sizeof(*peer));
if (socket_af((struct sockaddr *)&addr->addr, addr->addr_port) == -1) {
log_debug("%s: invalid address", __func__);
return (-1);
}
return (0);
}
void
childsa_free(struct iked_childsa *csa)
{
struct iked_childsa *csb;
if (csa->csa_children) {
/* XXX should not happen */
log_warnx("%s: trying to remove CSA %p children %u",
__func__, csa, csa->csa_children);
return;
}
if (csa->csa_parent)
csa->csa_parent->csa_children--;
if ((csb = csa->csa_peersa) != NULL)
csb->csa_peersa = NULL;
ibuf_release(csa->csa_encrkey);
ibuf_release(csa->csa_integrkey);
free(csa);
}
struct iked_childsa *
childsa_lookup(struct iked_sa *sa, uint64_t spi, uint8_t protoid)
{
struct iked_childsa *csa;
if (sa == NULL || spi == 0 || protoid == 0)
return (NULL);
TAILQ_FOREACH(csa, &sa->sa_childsas, csa_entry) {
if (csa->csa_spi.spi_protoid == protoid &&
(csa->csa_spi.spi == spi))
break;
}
return (csa);
}
void
flow_free(struct iked_flow *flow)
{
free(flow);
}
struct iked_sa *
sa_lookup(struct iked *env, uint64_t ispi, uint64_t rspi,
unsigned int initiator)
{
struct iked_sa *sa, key;
key.sa_hdr.sh_ispi = ispi;
/* key.sa_hdr.sh_rspi = rspi; */
key.sa_hdr.sh_initiator = initiator;
if ((sa = RB_FIND(iked_sas, &env->sc_sas, &key)) != NULL) {
gettimeofday(&sa->sa_timeused, NULL);
/* Validate if SPIr matches */
if ((sa->sa_hdr.sh_rspi != 0) &&
(rspi != 0) &&
(sa->sa_hdr.sh_rspi != rspi))
return (NULL);
}
return (sa);
}
static __inline int
sa_cmp(struct iked_sa *a, struct iked_sa *b)
{
if (a->sa_hdr.sh_initiator > b->sa_hdr.sh_initiator)
return (-1);
if (a->sa_hdr.sh_initiator < b->sa_hdr.sh_initiator)
return (1);
if (a->sa_hdr.sh_ispi > b->sa_hdr.sh_ispi)
return (-1);
if (a->sa_hdr.sh_ispi < b->sa_hdr.sh_ispi)
return (1);
#if 0
/* Responder SPI is not yet set in the local IKE SADB */
if ((b->sa_type == IKED_SATYPE_LOCAL && b->sa_hdr.sh_rspi == 0) ||
(a->sa_type == IKED_SATYPE_LOCAL && a->sa_hdr.sh_rspi == 0))
return (0);
if (a->sa_hdr.sh_rspi > b->sa_hdr.sh_rspi)
return (-1);
if (a->sa_hdr.sh_rspi < b->sa_hdr.sh_rspi)
return (1);
#endif
return (0);
}
static __inline int
sa_addrpool_cmp(struct iked_sa *a, struct iked_sa *b)
{
return (sockaddr_cmp((struct sockaddr *)&a->sa_addrpool->addr,
(struct sockaddr *)&b->sa_addrpool->addr, -1));
}
static __inline int
sa_addrpool6_cmp(struct iked_sa *a, struct iked_sa *b)
{
return (sockaddr_cmp((struct sockaddr *)&a->sa_addrpool6->addr,
(struct sockaddr *)&b->sa_addrpool6->addr, -1));
}
struct iked_user *
user_lookup(struct iked *env, const char *user)
{
struct iked_user key;
if (strlcpy(key.usr_name, user,
sizeof(key.usr_name)) >= sizeof(key.usr_name))
return (NULL);
return (RB_FIND(iked_users, &env->sc_users, &key));
}
static __inline int
user_cmp(struct iked_user *a, struct iked_user *b)
{
return (strcmp(a->usr_name, b->usr_name));
}
static __inline int
childsa_cmp(struct iked_childsa *a, struct iked_childsa *b)
{
if (a->csa_spi.spi > b->csa_spi.spi)
return (1);
if (a->csa_spi.spi < b->csa_spi.spi)
return (-1);
return (0);
}
static __inline int
addr_cmp(struct iked_addr *a, struct iked_addr *b, int useports)
{
int diff = 0;
diff = sockaddr_cmp((struct sockaddr *)&a->addr,
(struct sockaddr *)&b->addr, 128);
if (!diff)
diff = (int)a->addr_mask - (int)b->addr_mask;
if (!diff && useports)
diff = a->addr_port - b->addr_port;
return (diff);
}
static __inline int
flow_cmp(struct iked_flow *a, struct iked_flow *b)
{
int diff = 0;
if (!diff)
diff = (int)a->flow_ipproto - (int)b->flow_ipproto;
if (!diff)
diff = (int)a->flow_saproto - (int)b->flow_saproto;
if (!diff)
diff = (int)a->flow_dir - (int)b->flow_dir;
if (!diff)
diff = addr_cmp(&a->flow_dst, &b->flow_dst, 1);
if (!diff)
diff = addr_cmp(&a->flow_src, &b->flow_src, 1);
return (diff);
}
int
flow_equal(struct iked_flow *a, struct iked_flow *b)
{
return (flow_cmp(a, b) == 0);
}
RB_GENERATE(iked_sas, iked_sa, sa_entry, sa_cmp);
RB_GENERATE(iked_addrpool, iked_sa, sa_addrpool_entry, sa_addrpool_cmp);
RB_GENERATE(iked_addrpool6, iked_sa, sa_addrpool6_entry, sa_addrpool6_cmp);
RB_GENERATE(iked_users, iked_user, usr_entry, user_cmp);
RB_GENERATE(iked_activesas, iked_childsa, csa_node, childsa_cmp);
RB_GENERATE(iked_flows, iked_flow, flow_node, flow_cmp);
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