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|
/* $OpenBSD: ip_spd.c,v 1.110 2021/12/16 15:38:03 bluhm Exp $ */
/*
* The author of this code is Angelos D. Keromytis (angelos@cis.upenn.edu)
*
* Copyright (c) 2000-2001 Angelos D. Keromytis.
*
* Permission to use, copy, and modify this software with or without fee
* is hereby granted, provided that this entire notice is included in
* all copies of any software which is or includes a copy or
* modification of this software.
* You may use this code under the GNU public license if you so wish. Please
* contribute changes back to the authors under this freer than GPL license
* so that we may further the use of strong encryption without limitations to
* all.
*
* THIS SOFTWARE IS BEING PROVIDED "AS IS", WITHOUT ANY EXPRESS OR
* IMPLIED WARRANTY. IN PARTICULAR, NONE OF THE AUTHORS MAKES ANY
* REPRESENTATION OR WARRANTY OF ANY KIND CONCERNING THE
* MERCHANTABILITY OF THIS SOFTWARE OR ITS FITNESS FOR ANY PARTICULAR
* PURPOSE.
*/
#include <sys/param.h>
#include <sys/systm.h>
#include <sys/mbuf.h>
#include <sys/socket.h>
#include <sys/kernel.h>
#include <sys/socketvar.h>
#include <sys/domain.h>
#include <sys/protosw.h>
#include <sys/pool.h>
#include <sys/timeout.h>
#include <net/route.h>
#include <net/netisr.h>
#include <netinet/in.h>
#include <netinet/ip.h>
#include <netinet/ip_var.h>
#include <netinet/in_pcb.h>
#include <netinet/ip_ipsp.h>
#include <net/pfkeyv2.h>
int ipsp_spd_inp(struct mbuf *, struct inpcb *, struct ipsec_policy *,
struct tdb **);
int ipsp_acquire_sa(struct ipsec_policy *, union sockaddr_union *,
union sockaddr_union *, struct sockaddr_encap *, struct mbuf *);
struct ipsec_acquire *ipsp_pending_acquire(struct ipsec_policy *,
union sockaddr_union *);
void ipsp_delete_acquire_timo(void *);
void ipsp_delete_acquire(struct ipsec_acquire *);
struct pool ipsec_policy_pool;
struct pool ipsec_acquire_pool;
/*
* For tdb_walk() calling tdb_delete_locked() we need lock order
* tdb_sadb_mtx before ipo_tdb_mtx.
*/
struct mutex ipo_tdb_mtx = MUTEX_INITIALIZER(IPL_SOFTNET);
/* Protected by the NET_LOCK(). */
struct radix_node_head **spd_tables;
unsigned int spd_table_max;
TAILQ_HEAD(ipsec_acquire_head, ipsec_acquire) ipsec_acquire_head =
TAILQ_HEAD_INITIALIZER(ipsec_acquire_head);
struct radix_node_head *
spd_table_get(unsigned int rtableid)
{
unsigned int rdomain;
NET_ASSERT_LOCKED();
if (spd_tables == NULL)
return (NULL);
rdomain = rtable_l2(rtableid);
if (rdomain > spd_table_max)
return (NULL);
return (spd_tables[rdomain]);
}
struct radix_node_head *
spd_table_add(unsigned int rtableid)
{
struct radix_node_head *rnh = NULL;
unsigned int rdomain;
void *p;
NET_ASSERT_LOCKED();
rdomain = rtable_l2(rtableid);
if (spd_tables == NULL || rdomain > spd_table_max) {
if ((p = mallocarray(rdomain + 1, sizeof(*rnh),
M_RTABLE, M_NOWAIT|M_ZERO)) == NULL)
return (NULL);
if (spd_tables != NULL) {
memcpy(p, spd_tables, sizeof(*rnh) * (spd_table_max+1));
free(spd_tables, M_RTABLE,
sizeof(*rnh) * (spd_table_max+1));
}
spd_tables = p;
spd_table_max = rdomain;
}
if (spd_tables[rdomain] == NULL) {
if (rn_inithead((void **)&rnh,
offsetof(struct sockaddr_encap, sen_type)) == 0)
rnh = NULL;
spd_tables[rdomain] = rnh;
}
return (spd_tables[rdomain]);
}
int
spd_table_walk(unsigned int rtableid,
int (*func)(struct ipsec_policy *, void *, unsigned int), void *arg)
{
struct radix_node_head *rnh;
int (*walker)(struct radix_node *, void *, u_int) = (void *)func;
int error;
rnh = spd_table_get(rtableid);
if (rnh == NULL)
return (0);
/* EGAIN means the tree changed. */
while ((error = rn_walktree(rnh, walker, arg)) == EAGAIN)
continue;
return (error);
}
/*
* Lookup at the SPD based on the headers contained on the mbuf. The second
* argument indicates what protocol family the header at the beginning of
* the mbuf is. hlen is the offset of the transport protocol header
* in the mbuf.
*
* Return combinations (of return value and *tdbout):
* - -EINVAL -> silently drop the packet
* - errno -> drop packet and return error
* - 0/NULL -> no IPsec required on packet
* - 0/TDB -> do IPsec
*
* In the case of incoming flows, only the first three combinations are
* returned.
*/
int
ipsp_spd_lookup(struct mbuf *m, int af, int hlen, int direction,
struct tdb *tdbp, struct inpcb *inp, struct tdb **tdbout,
u_int32_t ipsecflowinfo)
{
struct radix_node_head *rnh;
struct radix_node *rn;
union sockaddr_union sdst, ssrc;
struct sockaddr_encap *ddst, dst;
struct ipsec_policy *ipo;
struct ipsec_ids *ids = NULL;
int error, signore = 0, dignore = 0;
u_int rdomain = rtable_l2(m->m_pkthdr.ph_rtableid);
NET_ASSERT_LOCKED();
/*
* If there are no flows in place, there's no point
* continuing with the SPD lookup.
*/
if (!ipsec_in_use && inp == NULL) {
if (tdbout != NULL)
*tdbout = NULL;
return 0;
}
/*
* If an input packet is destined to a BYPASS socket, just accept it.
*/
if ((inp != NULL) && (direction == IPSP_DIRECTION_IN) &&
(inp->inp_seclevel[SL_ESP_TRANS] == IPSEC_LEVEL_BYPASS) &&
(inp->inp_seclevel[SL_ESP_NETWORK] == IPSEC_LEVEL_BYPASS) &&
(inp->inp_seclevel[SL_AUTH] == IPSEC_LEVEL_BYPASS)) {
if (tdbout != NULL)
*tdbout = NULL;
return 0;
}
memset(&dst, 0, sizeof(dst));
memset(&sdst, 0, sizeof(union sockaddr_union));
memset(&ssrc, 0, sizeof(union sockaddr_union));
ddst = (struct sockaddr_encap *)&dst;
ddst->sen_family = PF_KEY;
ddst->sen_len = SENT_LEN;
switch (af) {
case AF_INET:
if (hlen < sizeof (struct ip) || m->m_pkthdr.len < hlen)
return EINVAL;
ddst->sen_direction = direction;
ddst->sen_type = SENT_IP4;
m_copydata(m, offsetof(struct ip, ip_src),
sizeof(struct in_addr), (caddr_t) &(ddst->sen_ip_src));
m_copydata(m, offsetof(struct ip, ip_dst),
sizeof(struct in_addr), (caddr_t) &(ddst->sen_ip_dst));
m_copydata(m, offsetof(struct ip, ip_p), sizeof(u_int8_t),
(caddr_t) &(ddst->sen_proto));
sdst.sin.sin_family = ssrc.sin.sin_family = AF_INET;
sdst.sin.sin_len = ssrc.sin.sin_len =
sizeof(struct sockaddr_in);
ssrc.sin.sin_addr = ddst->sen_ip_src;
sdst.sin.sin_addr = ddst->sen_ip_dst;
/*
* If TCP/UDP, extract the port numbers to use in the lookup.
*/
switch (ddst->sen_proto) {
case IPPROTO_UDP:
case IPPROTO_TCP:
/* Make sure there's enough data in the packet. */
if (m->m_pkthdr.len < hlen + 2 * sizeof(u_int16_t))
return EINVAL;
/*
* Luckily, the offset of the src/dst ports in
* both the UDP and TCP headers is the same (first
* two 16-bit values in the respective headers),
* so we can just copy them.
*/
m_copydata(m, hlen, sizeof(u_int16_t),
(caddr_t) &(ddst->sen_sport));
m_copydata(m, hlen + sizeof(u_int16_t), sizeof(u_int16_t),
(caddr_t) &(ddst->sen_dport));
break;
default:
ddst->sen_sport = 0;
ddst->sen_dport = 0;
}
break;
#ifdef INET6
case AF_INET6:
if (hlen < sizeof (struct ip6_hdr) || m->m_pkthdr.len < hlen)
return EINVAL;
ddst->sen_type = SENT_IP6;
ddst->sen_ip6_direction = direction;
m_copydata(m, offsetof(struct ip6_hdr, ip6_src),
sizeof(struct in6_addr),
(caddr_t) &(ddst->sen_ip6_src));
m_copydata(m, offsetof(struct ip6_hdr, ip6_dst),
sizeof(struct in6_addr),
(caddr_t) &(ddst->sen_ip6_dst));
m_copydata(m, offsetof(struct ip6_hdr, ip6_nxt),
sizeof(u_int8_t),
(caddr_t) &(ddst->sen_ip6_proto));
sdst.sin6.sin6_family = ssrc.sin6.sin6_family = AF_INET6;
sdst.sin6.sin6_len = ssrc.sin6.sin6_len =
sizeof(struct sockaddr_in6);
in6_recoverscope(&ssrc.sin6, &ddst->sen_ip6_src);
in6_recoverscope(&sdst.sin6, &ddst->sen_ip6_dst);
/*
* If TCP/UDP, extract the port numbers to use in the lookup.
*/
switch (ddst->sen_ip6_proto) {
case IPPROTO_UDP:
case IPPROTO_TCP:
/* Make sure there's enough data in the packet. */
if (m->m_pkthdr.len < hlen + 2 * sizeof(u_int16_t))
return EINVAL;
/*
* Luckily, the offset of the src/dst ports in
* both the UDP and TCP headers is the same
* (first two 16-bit values in the respective
* headers), so we can just copy them.
*/
m_copydata(m, hlen, sizeof(u_int16_t),
(caddr_t) &(ddst->sen_ip6_sport));
m_copydata(m, hlen + sizeof(u_int16_t), sizeof(u_int16_t),
(caddr_t) &(ddst->sen_ip6_dport));
break;
default:
ddst->sen_ip6_sport = 0;
ddst->sen_ip6_dport = 0;
}
break;
#endif /* INET6 */
default:
return EAFNOSUPPORT;
}
/* Actual SPD lookup. */
if ((rnh = spd_table_get(rdomain)) == NULL ||
(rn = rn_match((caddr_t)&dst, rnh)) == NULL) {
/*
* Return whatever the socket requirements are, there are no
* system-wide policies.
*/
return ipsp_spd_inp(m, inp, NULL, tdbout);
}
ipo = (struct ipsec_policy *)rn;
switch (ipo->ipo_type) {
case IPSP_PERMIT:
return ipsp_spd_inp(m, inp, ipo, tdbout);
case IPSP_DENY:
return EHOSTUNREACH;
case IPSP_IPSEC_USE:
case IPSP_IPSEC_ACQUIRE:
case IPSP_IPSEC_REQUIRE:
case IPSP_IPSEC_DONTACQ:
/* Nothing more needed here. */
break;
default:
return EINVAL;
}
/* Check for non-specific destination in the policy. */
switch (ipo->ipo_dst.sa.sa_family) {
case AF_INET:
if ((ipo->ipo_dst.sin.sin_addr.s_addr == INADDR_ANY) ||
(ipo->ipo_dst.sin.sin_addr.s_addr == INADDR_BROADCAST))
dignore = 1;
break;
#ifdef INET6
case AF_INET6:
if ((IN6_IS_ADDR_UNSPECIFIED(&ipo->ipo_dst.sin6.sin6_addr)) ||
(memcmp(&ipo->ipo_dst.sin6.sin6_addr, &in6mask128,
sizeof(in6mask128)) == 0))
dignore = 1;
break;
#endif /* INET6 */
}
/* Likewise for source. */
switch (ipo->ipo_src.sa.sa_family) {
case AF_INET:
if (ipo->ipo_src.sin.sin_addr.s_addr == INADDR_ANY)
signore = 1;
break;
#ifdef INET6
case AF_INET6:
if (IN6_IS_ADDR_UNSPECIFIED(&ipo->ipo_src.sin6.sin6_addr))
signore = 1;
break;
#endif /* INET6 */
}
/* Do we have a cached entry ? If so, check if it's still valid. */
mtx_enter(&ipo_tdb_mtx);
if (ipo->ipo_tdb != NULL &&
(ipo->ipo_tdb->tdb_flags & TDBF_INVALID)) {
TAILQ_REMOVE(&ipo->ipo_tdb->tdb_policy_head, ipo,
ipo_tdb_next);
tdb_unref(ipo->ipo_tdb);
ipo->ipo_tdb = NULL;
}
mtx_leave(&ipo_tdb_mtx);
/* Outgoing packet policy check. */
if (direction == IPSP_DIRECTION_OUT) {
/*
* If the packet is destined for the policy-specified
* gateway/endhost, and the socket has the BYPASS
* option set, skip IPsec processing.
*/
if ((inp != NULL) &&
(inp->inp_seclevel[SL_ESP_TRANS] == IPSEC_LEVEL_BYPASS) &&
(inp->inp_seclevel[SL_ESP_NETWORK] ==
IPSEC_LEVEL_BYPASS) &&
(inp->inp_seclevel[SL_AUTH] == IPSEC_LEVEL_BYPASS)) {
/* Direct match. */
if (dignore ||
!memcmp(&sdst, &ipo->ipo_dst, sdst.sa.sa_len)) {
if (tdbout != NULL)
*tdbout = NULL;
return 0;
}
}
if (ipsecflowinfo)
ids = ipsp_ids_lookup(ipsecflowinfo);
/* Check that the cached TDB (if present), is appropriate. */
mtx_enter(&ipo_tdb_mtx);
if (ipo->ipo_tdb != NULL) {
if ((ipo->ipo_last_searched <= ipsec_last_added) ||
(ipo->ipo_sproto != ipo->ipo_tdb->tdb_sproto) ||
memcmp(dignore ? &sdst : &ipo->ipo_dst,
&ipo->ipo_tdb->tdb_dst,
ipo->ipo_tdb->tdb_dst.sa.sa_len))
goto nomatchout;
if (!ipsp_aux_match(ipo->ipo_tdb,
ids ? ids : ipo->ipo_ids,
&ipo->ipo_addr, &ipo->ipo_mask))
goto nomatchout;
/* Cached entry is good. */
error = ipsp_spd_inp(m, inp, ipo, tdbout);
mtx_leave(&ipo_tdb_mtx);
return error;
nomatchout:
/* Cached TDB was not good. */
TAILQ_REMOVE(&ipo->ipo_tdb->tdb_policy_head, ipo,
ipo_tdb_next);
tdb_unref(ipo->ipo_tdb);
ipo->ipo_tdb = NULL;
ipo->ipo_last_searched = 0;
}
/*
* If no SA has been added since the last time we did a
* lookup, there's no point searching for one. However, if the
* destination gateway is left unspecified (or is all-1's),
* always lookup since this is a generic-match rule
* (otherwise, we can have situations where SAs to some
* destinations exist but are not used, possibly leading to an
* explosion in the number of acquired SAs).
*/
if (ipo->ipo_last_searched <= ipsec_last_added) {
struct tdb *tdbp_new;
/* "Touch" the entry. */
if (dignore == 0)
ipo->ipo_last_searched = getuptime();
/* gettdb() takes tdb_sadb_mtx, preserve lock order */
mtx_leave(&ipo_tdb_mtx);
/* Find an appropriate SA from the existing ones. */
tdbp_new = gettdbbydst(rdomain,
dignore ? &sdst : &ipo->ipo_dst,
ipo->ipo_sproto, ids ? ids: ipo->ipo_ids,
&ipo->ipo_addr, &ipo->ipo_mask);
mtx_enter(&ipo_tdb_mtx);
if ((tdbp_new != NULL) &&
(tdbp_new->tdb_flags & TDBF_DELETED)) {
/*
* After tdb_delete() has released ipo_tdb_mtx
* in tdb_unlink(), never add a new one.
* tdb_cleanspd() has to catch all of them.
*/
tdb_unref(tdbp_new);
tdbp_new = NULL;
}
if (ipo->ipo_tdb != NULL) {
/* Remove cached TDB from parallel thread. */
TAILQ_REMOVE(&ipo->ipo_tdb->tdb_policy_head,
ipo, ipo_tdb_next);
tdb_unref(ipo->ipo_tdb);
}
ipo->ipo_tdb = tdbp_new;
if (ipo->ipo_tdb != NULL) {
/* gettdbbydst() has already refcounted tdb */
TAILQ_INSERT_TAIL(
&ipo->ipo_tdb->tdb_policy_head,
ipo, ipo_tdb_next);
error = ipsp_spd_inp(m, inp, ipo, tdbout);
mtx_leave(&ipo_tdb_mtx);
return error;
}
}
mtx_leave(&ipo_tdb_mtx);
/* So, we don't have an SA -- just a policy. */
switch (ipo->ipo_type) {
case IPSP_IPSEC_REQUIRE:
/* Acquire SA through key management. */
if (ipsp_acquire_sa(ipo,
dignore ? &sdst : &ipo->ipo_dst,
signore ? NULL : &ipo->ipo_src, ddst, m) != 0) {
return EACCES;
}
/* FALLTHROUGH */
case IPSP_IPSEC_DONTACQ:
return -EINVAL; /* Silently drop packet. */
case IPSP_IPSEC_ACQUIRE:
/* Acquire SA through key management. */
ipsp_acquire_sa(ipo, dignore ? &sdst : &ipo->ipo_dst,
signore ? NULL : &ipo->ipo_src, ddst, NULL);
/* FALLTHROUGH */
case IPSP_IPSEC_USE:
return ipsp_spd_inp(m, inp, ipo, tdbout);
}
} else { /* IPSP_DIRECTION_IN */
if (tdbp != NULL) {
/*
* Special case for bundled IPcomp/ESP SAs:
* 1) only IPcomp flows are loaded into kernel
* 2) input processing processes ESP SA first
* 3) then optional IPcomp processing happens
* 4) we only update m_tag for ESP
* => 'tdbp' is always set to ESP SA
* => flow has ipo_proto for IPcomp
* So if 'tdbp' points to an ESP SA and this 'tdbp' is
* bundled with an IPcomp SA, then we replace 'tdbp'
* with the IPcomp SA at tdbp->tdb_inext.
*/
if (ipo->ipo_sproto == IPPROTO_IPCOMP &&
tdbp->tdb_sproto == IPPROTO_ESP &&
tdbp->tdb_inext != NULL &&
tdbp->tdb_inext->tdb_sproto == IPPROTO_IPCOMP)
tdbp = tdbp->tdb_inext;
/* Direct match in the cache. */
mtx_enter(&ipo_tdb_mtx);
if (ipo->ipo_tdb == tdbp) {
error = ipsp_spd_inp(m, inp, ipo, tdbout);
mtx_leave(&ipo_tdb_mtx);
return error;
}
mtx_leave(&ipo_tdb_mtx);
if (memcmp(dignore ? &ssrc : &ipo->ipo_dst,
&tdbp->tdb_src, tdbp->tdb_src.sa.sa_len) ||
(ipo->ipo_sproto != tdbp->tdb_sproto))
goto nomatchin;
/* Match source/dest IDs. */
if (ipo->ipo_ids)
if (tdbp->tdb_ids == NULL ||
!ipsp_ids_match(ipo->ipo_ids, tdbp->tdb_ids))
goto nomatchin;
/* Add it to the cache. */
mtx_enter(&ipo_tdb_mtx);
if (ipo->ipo_tdb != NULL) {
TAILQ_REMOVE(&ipo->ipo_tdb->tdb_policy_head,
ipo, ipo_tdb_next);
tdb_unref(ipo->ipo_tdb);
}
ipo->ipo_tdb = tdb_ref(tdbp);
TAILQ_INSERT_TAIL(&tdbp->tdb_policy_head, ipo,
ipo_tdb_next);
error = ipsp_spd_inp(m, inp, ipo, tdbout);
mtx_leave(&ipo_tdb_mtx);
return error;
nomatchin: /* Nothing needed here, falling through */
;
}
/* Check whether cached entry applies. */
mtx_enter(&ipo_tdb_mtx);
if (ipo->ipo_tdb != NULL) {
/*
* We only need to check that the correct
* security protocol and security gateway are
* set; IDs will be the same since the cached
* entry is linked on this policy.
*/
if (ipo->ipo_sproto == ipo->ipo_tdb->tdb_sproto &&
!memcmp(&ipo->ipo_tdb->tdb_src,
dignore ? &ssrc : &ipo->ipo_dst,
ipo->ipo_tdb->tdb_src.sa.sa_len))
goto skipinputsearch;
/* Not applicable, unlink. */
TAILQ_REMOVE(&ipo->ipo_tdb->tdb_policy_head, ipo,
ipo_tdb_next);
tdb_unref(ipo->ipo_tdb);
ipo->ipo_tdb = NULL;
ipo->ipo_last_searched = 0;
}
/* Find whether there exists an appropriate SA. */
if (ipo->ipo_last_searched <= ipsec_last_added) {
struct tdb *tdbp_new;
if (dignore == 0)
ipo->ipo_last_searched = getuptime();
/* gettdb() takes tdb_sadb_mtx, preserve lock order */
mtx_leave(&ipo_tdb_mtx);
tdbp_new = gettdbbysrc(rdomain,
dignore ? &ssrc : &ipo->ipo_dst,
ipo->ipo_sproto, ipo->ipo_ids,
&ipo->ipo_addr, &ipo->ipo_mask);
mtx_enter(&ipo_tdb_mtx);
if ((tdbp_new != NULL) &&
(tdbp_new->tdb_flags & TDBF_DELETED)) {
/*
* After tdb_delete() has released ipo_tdb_mtx
* in tdb_unlink(), never add a new one.
* tdb_cleanspd() has to catch all of them.
*/
tdb_unref(tdbp_new);
tdbp_new = NULL;
}
if (ipo->ipo_tdb != NULL) {
/* Remove cached TDB from parallel thread. */
TAILQ_REMOVE(&ipo->ipo_tdb->tdb_policy_head,
ipo, ipo_tdb_next);
tdb_unref(ipo->ipo_tdb);
}
ipo->ipo_tdb = tdbp_new;
if (ipo->ipo_tdb != NULL) {
/* gettdbbysrc() has already refcounted tdb */
TAILQ_INSERT_TAIL(
&ipo->ipo_tdb->tdb_policy_head,
ipo, ipo_tdb_next);
}
}
skipinputsearch:
mtx_leave(&ipo_tdb_mtx);
switch (ipo->ipo_type) {
case IPSP_IPSEC_REQUIRE:
/* If appropriate SA exists, don't acquire another. */
if (ipo->ipo_tdb != NULL)
return -EINVAL; /* Silently drop packet. */
/* Acquire SA through key management. */
if ((error = ipsp_acquire_sa(ipo,
dignore ? &ssrc : &ipo->ipo_dst,
signore ? NULL : &ipo->ipo_src, ddst, m)) != 0)
return error;
/* FALLTHROUGH */
case IPSP_IPSEC_DONTACQ:
return -EINVAL; /* Silently drop packet. */
case IPSP_IPSEC_ACQUIRE:
/* If appropriate SA exists, don't acquire another. */
if (ipo->ipo_tdb != NULL)
return ipsp_spd_inp(m, inp, ipo, tdbout);
/* Acquire SA through key management. */
ipsp_acquire_sa(ipo, dignore ? &ssrc : &ipo->ipo_dst,
signore ? NULL : &ipo->ipo_src, ddst, NULL);
/* FALLTHROUGH */
case IPSP_IPSEC_USE:
return ipsp_spd_inp(m, inp, ipo, tdbout);
}
}
/* Shouldn't ever get this far. */
return EINVAL;
}
/*
* Delete a policy from the SPD.
*/
int
ipsec_delete_policy(struct ipsec_policy *ipo)
{
struct ipsec_acquire *ipa;
struct radix_node_head *rnh;
struct radix_node *rn = (struct radix_node *)ipo;
int err = 0;
NET_ASSERT_LOCKED();
if (--ipo->ipo_ref_count > 0)
return 0;
/* Delete from SPD. */
if ((rnh = spd_table_get(ipo->ipo_rdomain)) == NULL ||
rn_delete(&ipo->ipo_addr, &ipo->ipo_mask, rnh, rn) == NULL)
return (ESRCH);
mtx_enter(&ipo_tdb_mtx);
if (ipo->ipo_tdb != NULL) {
TAILQ_REMOVE(&ipo->ipo_tdb->tdb_policy_head, ipo,
ipo_tdb_next);
tdb_unref(ipo->ipo_tdb);
ipo->ipo_tdb = NULL;
}
mtx_leave(&ipo_tdb_mtx);
while ((ipa = TAILQ_FIRST(&ipo->ipo_acquires)) != NULL)
ipsp_delete_acquire(ipa);
TAILQ_REMOVE(&ipsec_policy_head, ipo, ipo_list);
if (ipo->ipo_ids)
ipsp_ids_free(ipo->ipo_ids);
ipsec_in_use--;
pool_put(&ipsec_policy_pool, ipo);
return err;
}
void
ipsp_delete_acquire_timo(void *v)
{
struct ipsec_acquire *ipa = v;
NET_LOCK();
ipsp_delete_acquire(ipa);
NET_UNLOCK();
}
/*
* Delete a pending IPsec acquire record.
*/
void
ipsp_delete_acquire(struct ipsec_acquire *ipa)
{
NET_ASSERT_LOCKED();
timeout_del(&ipa->ipa_timeout);
TAILQ_REMOVE(&ipsec_acquire_head, ipa, ipa_next);
if (ipa->ipa_policy != NULL)
TAILQ_REMOVE(&ipa->ipa_policy->ipo_acquires, ipa,
ipa_ipo_next);
pool_put(&ipsec_acquire_pool, ipa);
}
/*
* Find out if there's an ACQUIRE pending.
* XXX Need a better structure.
*/
struct ipsec_acquire *
ipsp_pending_acquire(struct ipsec_policy *ipo, union sockaddr_union *gw)
{
struct ipsec_acquire *ipa;
NET_ASSERT_LOCKED();
TAILQ_FOREACH (ipa, &ipo->ipo_acquires, ipa_ipo_next) {
if (!memcmp(gw, &ipa->ipa_addr, gw->sa.sa_len))
return ipa;
}
return NULL;
}
/*
* Signal key management that we need an SA.
* XXX For outgoing policies, we could try to hold on to the mbuf.
*/
int
ipsp_acquire_sa(struct ipsec_policy *ipo, union sockaddr_union *gw,
union sockaddr_union *laddr, struct sockaddr_encap *ddst, struct mbuf *m)
{
struct ipsec_acquire *ipa;
NET_ASSERT_LOCKED();
/* Check whether request has been made already. */
if ((ipa = ipsp_pending_acquire(ipo, gw)) != NULL)
return 0;
/* Add request in cache and proceed. */
ipa = pool_get(&ipsec_acquire_pool, PR_NOWAIT|PR_ZERO);
if (ipa == NULL)
return ENOMEM;
ipa->ipa_addr = *gw;
timeout_set_proc(&ipa->ipa_timeout, ipsp_delete_acquire_timo, ipa);
ipa->ipa_info.sen_len = ipa->ipa_mask.sen_len = SENT_LEN;
ipa->ipa_info.sen_family = ipa->ipa_mask.sen_family = PF_KEY;
/* Just copy the right information. */
switch (ipo->ipo_addr.sen_type) {
case SENT_IP4:
ipa->ipa_info.sen_type = ipa->ipa_mask.sen_type = SENT_IP4;
ipa->ipa_info.sen_direction = ipo->ipo_addr.sen_direction;
ipa->ipa_mask.sen_direction = ipo->ipo_mask.sen_direction;
if (ipsp_is_unspecified(ipo->ipo_dst)) {
ipa->ipa_info.sen_ip_src = ddst->sen_ip_src;
ipa->ipa_mask.sen_ip_src.s_addr = INADDR_BROADCAST;
ipa->ipa_info.sen_ip_dst = ddst->sen_ip_dst;
ipa->ipa_mask.sen_ip_dst.s_addr = INADDR_BROADCAST;
} else {
ipa->ipa_info.sen_ip_src = ipo->ipo_addr.sen_ip_src;
ipa->ipa_mask.sen_ip_src = ipo->ipo_mask.sen_ip_src;
ipa->ipa_info.sen_ip_dst = ipo->ipo_addr.sen_ip_dst;
ipa->ipa_mask.sen_ip_dst = ipo->ipo_mask.sen_ip_dst;
}
ipa->ipa_info.sen_proto = ipo->ipo_addr.sen_proto;
ipa->ipa_mask.sen_proto = ipo->ipo_mask.sen_proto;
if (ipo->ipo_addr.sen_proto) {
ipa->ipa_info.sen_sport = ipo->ipo_addr.sen_sport;
ipa->ipa_mask.sen_sport = ipo->ipo_mask.sen_sport;
ipa->ipa_info.sen_dport = ipo->ipo_addr.sen_dport;
ipa->ipa_mask.sen_dport = ipo->ipo_mask.sen_dport;
}
break;
#ifdef INET6
case SENT_IP6:
ipa->ipa_info.sen_type = ipa->ipa_mask.sen_type = SENT_IP6;
ipa->ipa_info.sen_ip6_direction =
ipo->ipo_addr.sen_ip6_direction;
ipa->ipa_mask.sen_ip6_direction =
ipo->ipo_mask.sen_ip6_direction;
if (ipsp_is_unspecified(ipo->ipo_dst)) {
ipa->ipa_info.sen_ip6_src = ddst->sen_ip6_src;
ipa->ipa_mask.sen_ip6_src = in6mask128;
ipa->ipa_info.sen_ip6_dst = ddst->sen_ip6_dst;
ipa->ipa_mask.sen_ip6_dst = in6mask128;
} else {
ipa->ipa_info.sen_ip6_src = ipo->ipo_addr.sen_ip6_src;
ipa->ipa_mask.sen_ip6_src = ipo->ipo_mask.sen_ip6_src;
ipa->ipa_info.sen_ip6_dst = ipo->ipo_addr.sen_ip6_dst;
ipa->ipa_mask.sen_ip6_dst = ipo->ipo_mask.sen_ip6_dst;
}
ipa->ipa_info.sen_ip6_proto = ipo->ipo_addr.sen_ip6_proto;
ipa->ipa_mask.sen_ip6_proto = ipo->ipo_mask.sen_ip6_proto;
if (ipo->ipo_mask.sen_ip6_proto) {
ipa->ipa_info.sen_ip6_sport =
ipo->ipo_addr.sen_ip6_sport;
ipa->ipa_mask.sen_ip6_sport =
ipo->ipo_mask.sen_ip6_sport;
ipa->ipa_info.sen_ip6_dport =
ipo->ipo_addr.sen_ip6_dport;
ipa->ipa_mask.sen_ip6_dport =
ipo->ipo_mask.sen_ip6_dport;
}
break;
#endif /* INET6 */
default:
pool_put(&ipsec_acquire_pool, ipa);
return 0;
}
#ifdef IPSEC
timeout_add_sec(&ipa->ipa_timeout, ipsec_expire_acquire);
#endif
TAILQ_INSERT_TAIL(&ipsec_acquire_head, ipa, ipa_next);
TAILQ_INSERT_TAIL(&ipo->ipo_acquires, ipa, ipa_ipo_next);
ipa->ipa_policy = ipo;
/* PF_KEYv2 notification message. */
return pfkeyv2_acquire(ipo, gw, laddr, &ipa->ipa_seq, ddst);
}
/*
* Deal with PCB security requirements.
*/
int
ipsp_spd_inp(struct mbuf *m, struct inpcb *inp, struct ipsec_policy *ipo,
struct tdb **tdbout)
{
/* Sanity check. */
if (inp == NULL)
goto justreturn;
/* We only support IPSEC_LEVEL_BYPASS or IPSEC_LEVEL_AVAIL */
if (inp->inp_seclevel[SL_ESP_TRANS] == IPSEC_LEVEL_BYPASS &&
inp->inp_seclevel[SL_ESP_NETWORK] == IPSEC_LEVEL_BYPASS &&
inp->inp_seclevel[SL_AUTH] == IPSEC_LEVEL_BYPASS)
goto justreturn;
if (inp->inp_seclevel[SL_ESP_TRANS] == IPSEC_LEVEL_AVAIL &&
inp->inp_seclevel[SL_ESP_NETWORK] == IPSEC_LEVEL_AVAIL &&
inp->inp_seclevel[SL_AUTH] == IPSEC_LEVEL_AVAIL)
goto justreturn;
return -EINVAL; /* Silently drop packet. */
justreturn:
if (tdbout != NULL) {
if (ipo != NULL)
*tdbout = tdb_ref(ipo->ipo_tdb);
else
*tdbout = NULL;
}
return 0;
}
/*
* Find a pending ACQUIRE record based on its sequence number.
* XXX Need to use a better data structure.
*/
struct ipsec_acquire *
ipsec_get_acquire(u_int32_t seq)
{
struct ipsec_acquire *ipa;
NET_ASSERT_LOCKED();
TAILQ_FOREACH (ipa, &ipsec_acquire_head, ipa_next)
if (ipa->ipa_seq == seq)
return ipa;
return NULL;
}
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