sys/net/if_ipsec.c

1.3.2.4  martin /*	$NetBSD: if_ipsec.c,v 1.3.2.4 2018/03/13 15:34:33 martin Exp $  */
1.3.2.2     snj
1.3.2.2     snj /*
1.3.2.2     snj  * Copyright (c) 2017 Internet Initiative Japan Inc.
1.3.2.2     snj  * All rights reserved.
1.3.2.2     snj  *
1.3.2.2     snj  * Redistribution and use in source and binary forms, with or without
1.3.2.2     snj  * modification, are permitted provided that the following conditions
1.3.2.2     snj  * are met:
1.3.2.2     snj  * 1. Redistributions of source code must retain the above copyright
1.3.2.2     snj  *    notice, this list of conditions and the following disclaimer.
1.3.2.2     snj  * 2. Redistributions in binary form must reproduce the above copyright
1.3.2.2     snj  *    notice, this list of conditions and the following disclaimer in the
1.3.2.2     snj  *    documentation and/or other materials provided with the distribution.
1.3.2.2     snj  *
1.3.2.2     snj  * THIS SOFTWARE IS PROVIDED BY THE NETBSD FOUNDATION, INC. AND CONTRIBUTORS
1.3.2.2     snj  * ``AS IS'' AND ANY EXPRESS OR IMPLIED WARRANTIES, INCLUDING, BUT NOT LIMITED
1.3.2.2     snj  * TO, THE IMPLIED WARRANTIES OF MERCHANTABILITY AND FITNESS FOR A PARTICULAR
1.3.2.2     snj  * PURPOSE ARE DISCLAIMED.  IN NO EVENT SHALL THE FOUNDATION OR CONTRIBUTORS
1.3.2.2     snj  * BE LIABLE FOR ANY DIRECT, INDIRECT, INCIDENTAL, SPECIAL, EXEMPLARY, OR
1.3.2.2     snj  * CONSEQUENTIAL DAMAGES (INCLUDING, BUT NOT LIMITED TO, PROCUREMENT OF
1.3.2.2     snj  * SUBSTITUTE GOODS OR SERVICES; LOSS OF USE, DATA, OR PROFITS; OR BUSINESS
1.3.2.2     snj  * INTERRUPTION) HOWEVER CAUSED AND ON ANY THEORY OF LIABILITY, WHETHER IN
1.3.2.2     snj  * CONTRACT, STRICT LIABILITY, OR TORT (INCLUDING NEGLIGENCE OR OTHERWISE)
1.3.2.2     snj  * ARISING IN ANY WAY OUT OF THE USE OF THIS SOFTWARE, EVEN IF ADVISED OF THE
1.3.2.2     snj  * POSSIBILITY OF SUCH DAMAGE.
1.3.2.2     snj  */
1.3.2.2     snj
1.3.2.2     snj #include <sys/cdefs.h>
1.3.2.4  martin __KERNEL_RCSID(0, "$NetBSD: if_ipsec.c,v 1.3.2.4 2018/03/13 15:34:33 martin Exp $");
1.3.2.2     snj
1.3.2.2     snj #ifdef _KERNEL_OPT
1.3.2.2     snj #include "opt_inet.h"
1.3.2.2     snj #endif
1.3.2.2     snj
1.3.2.2     snj #include <sys/param.h>
1.3.2.2     snj #include <sys/systm.h>
1.3.2.2     snj #include <sys/kernel.h>
1.3.2.2     snj #include <sys/mbuf.h>
1.3.2.2     snj #include <sys/socket.h>
1.3.2.2     snj #include <sys/sockio.h>
1.3.2.2     snj #include <sys/errno.h>
1.3.2.2     snj #include <sys/ioctl.h>
1.3.2.2     snj #include <sys/time.h>
1.3.2.2     snj #include <sys/syslog.h>
1.3.2.2     snj #include <sys/cpu.h>
1.3.2.2     snj #include <sys/kmem.h>
1.3.2.2     snj #include <sys/mutex.h>
1.3.2.2     snj #include <sys/pserialize.h>
1.3.2.2     snj #include <sys/psref.h>
1.3.2.2     snj
1.3.2.2     snj #include <net/if.h>
1.3.2.2     snj #include <net/if_types.h>
1.3.2.2     snj #include <net/route.h>
1.3.2.2     snj #include <net/bpf.h>
1.3.2.2     snj #include <net/pfkeyv2.h>
1.3.2.2     snj
1.3.2.2     snj #include <netinet/in.h>
1.3.2.2     snj #include <netinet/in_systm.h>
1.3.2.2     snj #include <netinet/ip.h>
1.3.2.2     snj #ifdef	INET
1.3.2.2     snj #include <netinet/in_var.h>
1.3.2.2     snj #endif	/* INET */
1.3.2.2     snj
1.3.2.2     snj #ifdef INET6
1.3.2.2     snj #include <netinet6/in6_var.h>
1.3.2.2     snj #include <netinet/ip6.h>
1.3.2.2     snj #include <netinet6/ip6_var.h>
1.3.2.2     snj #endif /* INET6 */
1.3.2.2     snj
1.3.2.2     snj #include <netinet/ip_encap.h>
1.3.2.2     snj
1.3.2.2     snj #include <net/if_ipsec.h>
1.3.2.2     snj
1.3.2.2     snj #include <net/raw_cb.h>
1.3.2.2     snj #include <net/pfkeyv2.h>
1.3.2.2     snj
1.3.2.2     snj #include <netipsec/key.h>
1.3.2.2     snj #include <netipsec/ipsec.h>
1.3.2.2     snj #include <netipsec/ipsecif.h>
1.3.2.2     snj
1.3.2.2     snj static void if_ipsec_ro_init_pc(void *, void *, struct cpu_info *);
1.3.2.2     snj static void if_ipsec_ro_fini_pc(void *, void *, struct cpu_info *);
1.3.2.2     snj
1.3.2.2     snj static int if_ipsec_clone_create(struct if_clone *, int);
1.3.2.2     snj static int if_ipsec_clone_destroy(struct ifnet *);
1.3.2.2     snj
1.3.2.2     snj static inline int if_ipsec_out_direct(struct ipsec_variant *, struct mbuf *, int);
1.3.2.2     snj static inline void if_ipsec_in_enqueue(struct mbuf *, int, struct ifnet *);
1.3.2.2     snj
1.3.2.2     snj static int if_ipsec_encap_attach(struct ipsec_variant *);
1.3.2.2     snj static int if_ipsec_encap_detach(struct ipsec_variant *);
1.3.2.2     snj static int if_ipsec_set_tunnel(struct ifnet *,
1.3.2.2     snj     struct sockaddr *, struct sockaddr *);
1.3.2.2     snj static void if_ipsec_delete_tunnel(struct ifnet *);
1.3.2.2     snj static int if_ipsec_ensure_flags(struct ifnet *, short);
1.3.2.2     snj static void if_ipsec_attach0(struct ipsec_softc *);
1.3.2.2     snj
1.3.2.2     snj static int if_ipsec_update_variant(struct ipsec_softc *,
1.3.2.2     snj     struct ipsec_variant *, struct ipsec_variant *);
1.3.2.2     snj
1.3.2.2     snj /* sadb_msg */
1.3.2.2     snj static inline void if_ipsec_add_mbuf(struct mbuf *, void *, size_t);
1.3.2.2     snj static inline void if_ipsec_add_pad(struct mbuf *, size_t);
1.3.2.2     snj static inline size_t if_ipsec_set_sadb_addr(struct sadb_address *,
1.3.2.2     snj     struct sockaddr *, int, uint16_t);
1.3.2.2     snj static inline size_t if_ipsec_set_sadb_src(struct sadb_address *,
1.3.2.2     snj     struct sockaddr *, int);
1.3.2.2     snj static inline size_t if_ipsec_set_sadb_dst(struct sadb_address *,
1.3.2.2     snj     struct sockaddr *, int);
1.3.2.2     snj static inline size_t if_ipsec_set_sadb_x_policy(struct sadb_x_policy *,
1.3.2.3  martin     struct sadb_x_ipsecrequest *, uint16_t, uint8_t, uint32_t, uint8_t,
1.3.2.3  martin     struct sockaddr *, struct sockaddr *);
1.3.2.2     snj static inline void if_ipsec_set_sadb_msg(struct sadb_msg *, uint16_t, uint8_t);
1.3.2.2     snj static inline void if_ipsec_set_sadb_msg_add(struct sadb_msg *, uint16_t);
1.3.2.2     snj static inline void if_ipsec_set_sadb_msg_del(struct sadb_msg *, uint16_t);
1.3.2.2     snj /* SPD */
1.3.2.2     snj static int if_ipsec_share_sp(struct ipsec_variant *);
1.3.2.2     snj static int if_ipsec_unshare_sp(struct ipsec_variant *);
1.3.2.2     snj static inline struct secpolicy *if_ipsec_add_sp0(struct sockaddr *,
1.3.2.2     snj     in_port_t, struct sockaddr *, in_port_t, int, int, int, u_int);
1.3.2.2     snj static inline int if_ipsec_del_sp0(struct secpolicy *);
1.3.2.2     snj static int if_ipsec_add_sp(struct ipsec_variant *,
1.3.2.2     snj     struct sockaddr *, in_port_t, struct sockaddr *, in_port_t);
1.3.2.2     snj static void if_ipsec_del_sp(struct ipsec_variant *);
1.3.2.2     snj static int if_ipsec_replace_sp(struct ipsec_softc *, struct ipsec_variant *,
1.3.2.2     snj     struct ipsec_variant *);
1.3.2.2     snj
1.3.2.2     snj static int if_ipsec_set_addr_port(struct sockaddr *, struct sockaddr *,
1.3.2.2     snj     in_port_t);
1.3.2.2     snj #define IF_IPSEC_GATHER_PSRC_ADDR_PORT(var, target)			\
1.3.2.2     snj 	if_ipsec_set_addr_port(target, (var)->iv_psrc, (var)->iv_sport)
1.3.2.2     snj #define IF_IPSEC_GATHER_PDST_ADDR_PORT(var, target)			\
1.3.2.2     snj 	if_ipsec_set_addr_port(target, (var)->iv_pdst, (var)->iv_dport)
1.3.2.2     snj
1.3.2.2     snj /*
1.3.2.2     snj  * ipsec global variable definitions
1.3.2.2     snj  */
1.3.2.2     snj
1.3.2.2     snj /* This list is used in ioctl context only. */
1.3.2.2     snj LIST_HEAD(ipsec_sclist, ipsec_softc);
1.3.2.2     snj static struct {
1.3.2.2     snj 	struct ipsec_sclist list;
1.3.2.2     snj 	kmutex_t lock;
1.3.2.2     snj } ipsec_softcs __cacheline_aligned;
1.3.2.2     snj
1.3.2.2     snj pserialize_t ipsec_psz __read_mostly;
1.3.2.2     snj struct psref_class *iv_psref_class __read_mostly;
1.3.2.2     snj
1.3.2.2     snj struct if_clone ipsec_cloner =
1.3.2.2     snj     IF_CLONE_INITIALIZER("ipsec", if_ipsec_clone_create, if_ipsec_clone_destroy);
1.3.2.2     snj static int max_ipsec_nesting = MAX_IPSEC_NEST;
1.3.2.2     snj
1.3.2.2     snj /* ARGSUSED */
1.3.2.2     snj void
1.3.2.2     snj ipsecifattach(int count)
1.3.2.2     snj {
1.3.2.2     snj
1.3.2.2     snj 	mutex_init(&ipsec_softcs.lock, MUTEX_DEFAULT, IPL_NONE);
1.3.2.2     snj 	LIST_INIT(&ipsec_softcs.list);
1.3.2.2     snj
1.3.2.2     snj 	ipsec_psz = pserialize_create();
1.3.2.2     snj 	iv_psref_class = psref_class_create("ipsecvar", IPL_SOFTNET);
1.3.2.2     snj
1.3.2.2     snj 	if_clone_attach(&ipsec_cloner);
1.3.2.2     snj }
1.3.2.2     snj
1.3.2.2     snj static int
1.3.2.2     snj if_ipsec_clone_create(struct if_clone *ifc, int unit)
1.3.2.2     snj {
1.3.2.2     snj 	struct ipsec_softc *sc;
1.3.2.2     snj 	struct ipsec_variant *var;
1.3.2.2     snj
1.3.2.2     snj 	sc = kmem_zalloc(sizeof(*sc), KM_SLEEP);
1.3.2.2     snj
1.3.2.2     snj 	if_initname(&sc->ipsec_if, ifc->ifc_name, unit);
1.3.2.2     snj
1.3.2.2     snj 	if_ipsec_attach0(sc);
1.3.2.2     snj
1.3.2.2     snj 	var = kmem_zalloc(sizeof(*var), KM_SLEEP);
1.3.2.2     snj 	var->iv_softc = sc;
1.3.2.2     snj 	psref_target_init(&var->iv_psref, iv_psref_class);
1.3.2.2     snj
1.3.2.2     snj 	sc->ipsec_var = var;
1.3.2.2     snj 	mutex_init(&sc->ipsec_lock, MUTEX_DEFAULT, IPL_NONE);
1.3.2.2     snj 	sc->ipsec_ro_percpu = percpu_alloc(sizeof(struct ipsec_ro));
1.3.2.2     snj 	percpu_foreach(sc->ipsec_ro_percpu, if_ipsec_ro_init_pc, NULL);
1.3.2.2     snj
1.3.2.2     snj 	mutex_enter(&ipsec_softcs.lock);
1.3.2.2     snj 	LIST_INSERT_HEAD(&ipsec_softcs.list, sc, ipsec_list);
1.3.2.2     snj 	mutex_exit(&ipsec_softcs.lock);
1.3.2.2     snj 	return 0;
1.3.2.2     snj }
1.3.2.2     snj
1.3.2.2     snj static void
1.3.2.2     snj if_ipsec_attach0(struct ipsec_softc *sc)
1.3.2.2     snj {
1.3.2.2     snj
1.3.2.2     snj 	sc->ipsec_if.if_addrlen = 0;
1.3.2.2     snj 	sc->ipsec_if.if_mtu    = IPSEC_MTU;
1.3.2.2     snj 	sc->ipsec_if.if_flags  = IFF_POINTOPOINT | IFF_MULTICAST;
1.3.2.2     snj 	/* set ipsec(4) specific default flags. */
1.3.2.2     snj 	sc->ipsec_if.if_flags  |= IFF_FWD_IPV6;
1.3.2.2     snj 	sc->ipsec_if.if_extflags = IFEF_NO_LINK_STATE_CHANGE | IFEF_MPSAFE;
1.3.2.2     snj 	sc->ipsec_if.if_ioctl  = if_ipsec_ioctl;
1.3.2.2     snj 	sc->ipsec_if.if_output = if_ipsec_output;
1.3.2.2     snj 	sc->ipsec_if.if_type   = IFT_IPSEC;
1.3.2.2     snj 	sc->ipsec_if.if_dlt    = DLT_NULL;
1.3.2.2     snj 	sc->ipsec_if.if_softc  = sc;
1.3.2.2     snj 	IFQ_SET_READY(&sc->ipsec_if.if_snd);
1.3.2.2     snj 	if_initialize(&sc->ipsec_if);
1.3.2.2     snj 	if_alloc_sadl(&sc->ipsec_if);
1.3.2.2     snj 	bpf_attach(&sc->ipsec_if, DLT_NULL, sizeof(u_int));
1.3.2.2     snj 	if_register(&sc->ipsec_if);
1.3.2.2     snj }
1.3.2.2     snj
1.3.2.2     snj static void
1.3.2.2     snj if_ipsec_ro_init_pc(void *p, void *arg __unused, struct cpu_info *ci __unused)
1.3.2.2     snj {
1.3.2.2     snj 	struct ipsec_ro *iro = p;
1.3.2.2     snj
1.3.2.2     snj 	mutex_init(&iro->ir_lock, MUTEX_DEFAULT, IPL_NONE);
1.3.2.2     snj }
1.3.2.2     snj
1.3.2.2     snj static void
1.3.2.2     snj if_ipsec_ro_fini_pc(void *p, void *arg __unused, struct cpu_info *ci __unused)
1.3.2.2     snj {
1.3.2.2     snj 	struct ipsec_ro *iro = p;
1.3.2.2     snj
1.3.2.2     snj 	rtcache_free(&iro->ir_ro);
1.3.2.2     snj
1.3.2.2     snj 	mutex_destroy(&iro->ir_lock);
1.3.2.2     snj }
1.3.2.2     snj
1.3.2.2     snj static int
1.3.2.2     snj if_ipsec_clone_destroy(struct ifnet *ifp)
1.3.2.2     snj {
1.3.2.2     snj 	struct ipsec_softc *sc = ifp->if_softc;
1.3.2.2     snj 	struct ipsec_variant *var;
1.3.2.2     snj 	int bound;
1.3.2.2     snj
1.3.2.2     snj 	mutex_enter(&ipsec_softcs.lock);
1.3.2.2     snj 	LIST_REMOVE(sc, ipsec_list);
1.3.2.2     snj 	mutex_exit(&ipsec_softcs.lock);
1.3.2.2     snj
1.3.2.2     snj 	bound = curlwp_bind();
1.3.2.2     snj 	if_ipsec_delete_tunnel(&sc->ipsec_if);
1.3.2.2     snj 	curlwp_bindx(bound);
1.3.2.2     snj
1.3.2.2     snj 	bpf_detach(ifp);
1.3.2.2     snj 	if_detach(ifp);
1.3.2.2     snj
1.3.2.2     snj 	percpu_foreach(sc->ipsec_ro_percpu, if_ipsec_ro_fini_pc, NULL);
1.3.2.2     snj 	percpu_free(sc->ipsec_ro_percpu, sizeof(struct ipsec_ro));
1.3.2.2     snj
1.3.2.2     snj 	mutex_destroy(&sc->ipsec_lock);
1.3.2.2     snj
1.3.2.2     snj 	var = sc->ipsec_var;
1.3.2.2     snj 	kmem_free(var, sizeof(*var));
1.3.2.2     snj 	kmem_free(sc, sizeof(*sc));
1.3.2.2     snj
1.3.2.2     snj 	return 0;
1.3.2.2     snj }
1.3.2.2     snj
1.3.2.2     snj static inline bool
1.3.2.2     snj if_ipsec_nat_t(struct ipsec_softc *sc)
1.3.2.2     snj {
1.3.2.2     snj
1.3.2.2     snj 	return (sc->ipsec_if.if_flags & IFF_NAT_T) != 0;
1.3.2.2     snj }
1.3.2.2     snj
1.3.2.2     snj static inline bool
1.3.2.2     snj if_ipsec_fwd_ipv6(struct ipsec_softc *sc)
1.3.2.2     snj {
1.3.2.2     snj
1.3.2.2     snj 	return (sc->ipsec_if.if_flags & IFF_FWD_IPV6) != 0;
1.3.2.2     snj }
1.3.2.2     snj
1.3.2.2     snj int
1.3.2.2     snj if_ipsec_encap_func(struct mbuf *m, int off, int proto, void *arg)
1.3.2.2     snj {
1.3.2.2     snj 	struct ip ip;
1.3.2.2     snj 	struct ipsec_softc *sc;
1.3.2.2     snj 	struct ipsec_variant *var = NULL;
1.3.2.2     snj 	struct psref psref;
1.3.2.2     snj 	int ret = 0;
1.3.2.2     snj
1.3.2.2     snj 	sc = arg;
1.3.2.2     snj 	KASSERT(sc != NULL);
1.3.2.2     snj
1.3.2.2     snj 	if ((sc->ipsec_if.if_flags & IFF_UP) == 0)
1.3.2.2     snj 		goto out;
1.3.2.2     snj
1.3.2.2     snj 	var = if_ipsec_getref_variant(sc, &psref);
1.3.2.2     snj 	if (if_ipsec_variant_is_unconfigured(var))
1.3.2.2     snj 		goto out;
1.3.2.2     snj
1.3.2.2     snj 	switch (proto) {
1.3.2.2     snj 	case IPPROTO_IPV4:
1.3.2.2     snj 	case IPPROTO_IPV6:
1.3.2.2     snj 		break;
1.3.2.2     snj 	default:
1.3.2.2     snj 		goto out;
1.3.2.2     snj 	}
1.3.2.2     snj
1.3.2.2     snj 	if (m->m_pkthdr.len < sizeof(ip))
1.3.2.2     snj 		goto out;
1.3.2.2     snj
1.3.2.2     snj 	m_copydata(m, 0, sizeof(ip), &ip);
1.3.2.2     snj 	switch (ip.ip_v) {
1.3.2.2     snj #ifdef INET
1.3.2.2     snj 	case IPVERSION:
1.3.2.2     snj 		if (var->iv_psrc->sa_family != AF_INET ||
1.3.2.2     snj 		    var->iv_pdst->sa_family != AF_INET)
1.3.2.2     snj 			goto out;
1.3.2.2     snj 		ret = ipsecif4_encap_func(m, &ip, var);
1.3.2.2     snj 		break;
1.3.2.2     snj #endif
1.3.2.2     snj 	default:
1.3.2.2     snj 		goto out;
1.3.2.2     snj 	}
1.3.2.2     snj
1.3.2.2     snj out:
1.3.2.2     snj 	if (var != NULL)
1.3.2.2     snj 		if_ipsec_putref_variant(var, &psref);
1.3.2.2     snj 	return ret;
1.3.2.2     snj }
1.3.2.2     snj
1.3.2.2     snj /*
1.3.2.2     snj  * ipsec(4) I/F may cause infinite recursion calls when misconfigured.
1.3.2.2     snj  * We'll prevent this by introducing upper limit.
1.3.2.2     snj  */
1.3.2.2     snj static int
1.3.2.2     snj if_ipsec_check_nesting(struct ifnet *ifp, struct mbuf *m)
1.3.2.2     snj {
1.3.2.2     snj
1.3.2.2     snj 	return if_tunnel_check_nesting(ifp, m, max_ipsec_nesting);
1.3.2.2     snj }
1.3.2.2     snj
1.3.2.2     snj int
1.3.2.2     snj if_ipsec_output(struct ifnet *ifp, struct mbuf *m, const struct sockaddr *dst,
1.3.2.2     snj     const struct rtentry *rt)
1.3.2.2     snj {
1.3.2.2     snj 	struct ipsec_softc *sc = ifp->if_softc;
1.3.2.2     snj 	struct ipsec_variant *var;
1.3.2.2     snj 	struct psref psref;
1.3.2.2     snj 	int error;
1.3.2.2     snj 	int bound;
1.3.2.2     snj
1.3.2.2     snj 	IFQ_CLASSIFY(&ifp->if_snd, m, dst->sa_family);
1.3.2.2     snj
1.3.2.2     snj 	error = if_ipsec_check_nesting(ifp, m);
1.3.2.2     snj 	if (error) {
1.3.2.2     snj 		m_freem(m);
1.3.2.2     snj 		goto noref_end;
1.3.2.2     snj 	}
1.3.2.2     snj
1.3.2.2     snj 	if ((ifp->if_flags & IFF_UP) == 0) {
1.3.2.2     snj 		m_freem(m);
1.3.2.2     snj 		error = ENETDOWN;
1.3.2.2     snj 		goto noref_end;
1.3.2.2     snj 	}
1.3.2.2     snj
1.3.2.2     snj
1.3.2.2     snj 	bound = curlwp_bind();
1.3.2.2     snj 	var = if_ipsec_getref_variant(sc, &psref);
1.3.2.2     snj 	if (if_ipsec_variant_is_unconfigured(var)) {
1.3.2.2     snj 		m_freem(m);
1.3.2.2     snj 		error = ENETDOWN;
1.3.2.2     snj 		goto end;
1.3.2.2     snj 	}
1.3.2.2     snj
1.3.2.2     snj 	m->m_flags &= ~(M_BCAST|M_MCAST);
1.3.2.2     snj
1.3.2.2     snj 	/* use DLT_NULL encapsulation here to pass inner af type */
1.3.2.2     snj 	M_PREPEND(m, sizeof(int), M_DONTWAIT);
1.3.2.2     snj 	if (!m) {
1.3.2.2     snj 		error = ENOBUFS;
1.3.2.2     snj 		goto end;
1.3.2.2     snj 	}
1.3.2.2     snj 	*mtod(m, int *) = dst->sa_family;
1.3.2.2     snj
1.3.2.2     snj #if INET6
1.3.2.2     snj 	/* drop IPv6 packet if IFF_FWD_IPV6 is not set */
1.3.2.2     snj 	if (dst->sa_family == AF_INET6 &&
1.3.2.2     snj 	    !if_ipsec_fwd_ipv6(sc)) {
1.3.2.2     snj 		/*
1.3.2.2     snj 		 * IPv6 packet is not allowed to forward,that is not error.
1.3.2.2     snj 		 */
1.3.2.2     snj 		error = 0;
1.3.2.2     snj 		IF_DROP(&ifp->if_snd);
1.3.2.2     snj 		m_freem(m);
1.3.2.2     snj 		goto end;
1.3.2.2     snj 	}
1.3.2.2     snj #endif
1.3.2.2     snj
1.3.2.2     snj 	error = if_ipsec_out_direct(var, m, dst->sa_family);
1.3.2.2     snj
1.3.2.2     snj end:
1.3.2.2     snj 	if_ipsec_putref_variant(var, &psref);
1.3.2.2     snj 	curlwp_bindx(bound);
1.3.2.2     snj noref_end:
1.3.2.2     snj 	if (error)
1.3.2.2     snj 		ifp->if_oerrors++;
1.3.2.2     snj
1.3.2.2     snj 	return error;
1.3.2.2     snj }
1.3.2.2     snj
1.3.2.2     snj static inline int
1.3.2.2     snj if_ipsec_out_direct(struct ipsec_variant *var, struct mbuf *m, int family)
1.3.2.2     snj {
1.3.2.2     snj 	struct ifnet *ifp = &var->iv_softc->ipsec_if;
1.3.2.2     snj 	int error;
1.3.2.2     snj 	int len;
1.3.2.2     snj
1.3.2.2     snj 	KASSERT(if_ipsec_heldref_variant(var));
1.3.2.2     snj 	KASSERT(var->iv_output != NULL);
1.3.2.2     snj
1.3.2.2     snj 	len = m->m_pkthdr.len;
1.3.2.2     snj
1.3.2.2     snj 	/* input DLT_NULL frame to BPF */
1.3.2.2     snj 	bpf_mtap(ifp, m);
1.3.2.2     snj
1.3.2.2     snj 	/* grab and chop off inner af type */
1.3.2.2     snj 	/* XXX need pullup? */
1.3.2.2     snj 	m_adj(m, sizeof(int));
1.3.2.2     snj
1.3.2.2     snj 	error = var->iv_output(var, family, m);
1.3.2.2     snj 	if (error)
1.3.2.2     snj 		return error;
1.3.2.2     snj
1.3.2.2     snj 	ifp->if_opackets++;
1.3.2.2     snj 	ifp->if_obytes += len;
1.3.2.2     snj
1.3.2.2     snj 	return 0;
1.3.2.2     snj }
1.3.2.2     snj
1.3.2.2     snj void
1.3.2.2     snj if_ipsec_input(struct mbuf *m, int af, struct ifnet *ifp)
1.3.2.2     snj {
1.3.2.2     snj
1.3.2.2     snj 	KASSERT(ifp != NULL);
1.3.2.2     snj
1.3.2.2     snj 	m_set_rcvif(m, ifp);
1.3.2.2     snj
1.3.2.2     snj 	bpf_mtap_af(ifp, af, m);
1.3.2.2     snj
1.3.2.2     snj 	if_ipsec_in_enqueue(m, af, ifp);
1.3.2.2     snj
1.3.2.2     snj 	return;
1.3.2.2     snj }
1.3.2.2     snj
1.3.2.2     snj static inline void
1.3.2.2     snj if_ipsec_in_enqueue(struct mbuf *m, int af, struct ifnet *ifp)
1.3.2.2     snj {
1.3.2.2     snj 	pktqueue_t *pktq;
1.3.2.2     snj 	int pktlen;
1.3.2.2     snj
1.3.2.2     snj 	/*
1.3.2.2     snj 	 * Put the packet to the network layer input queue according to the
1.3.2.2     snj 	 * specified address family.
1.3.2.2     snj 	 */
1.3.2.2     snj 	switch (af) {
1.3.2.2     snj #ifdef INET
1.3.2.2     snj 	case AF_INET:
1.3.2.2     snj 		pktq = ip_pktq;
1.3.2.2     snj 		break;
1.3.2.2     snj #endif
1.3.2.2     snj #ifdef INET6
1.3.2.2     snj 	case AF_INET6:
1.3.2.2     snj 		pktq = ip6_pktq;
1.3.2.2     snj 		break;
1.3.2.2     snj #endif
1.3.2.2     snj 	default:
1.3.2.2     snj 		ifp->if_ierrors++;
1.3.2.2     snj 		m_freem(m);
1.3.2.2     snj 		return;
1.3.2.2     snj 	}
1.3.2.2     snj
1.3.2.2     snj #if 1
1.3.2.2     snj 	const u_int h = curcpu()->ci_index;
1.3.2.2     snj #else
1.3.2.2     snj 	const uint32_t h = pktq_rps_hash(m);
1.3.2.2     snj #endif
1.3.2.2     snj 	pktlen = m->m_pkthdr.len;
1.3.2.2     snj 	if (__predict_true(pktq_enqueue(pktq, m, h))) {
1.3.2.2     snj 		ifp->if_ibytes += pktlen;
1.3.2.2     snj 		ifp->if_ipackets++;
1.3.2.2     snj 	} else {
1.3.2.2     snj 		m_freem(m);
1.3.2.2     snj 	}
1.3.2.2     snj
1.3.2.2     snj 	return;
1.3.2.2     snj }
1.3.2.2     snj
1.3.2.2     snj static inline int
1.3.2.2     snj if_ipsec_check_salen(struct sockaddr *addr)
1.3.2.2     snj {
1.3.2.2     snj
1.3.2.2     snj 	switch (addr->sa_family) {
1.3.2.2     snj #ifdef INET
1.3.2.2     snj 	case AF_INET:
1.3.2.2     snj 		if (addr->sa_len != sizeof(struct sockaddr_in))
1.3.2.2     snj 			return EINVAL;
1.3.2.2     snj 		break;
1.3.2.2     snj #endif /* INET */
1.3.2.2     snj #ifdef INET6
1.3.2.2     snj 	case AF_INET6:
1.3.2.2     snj 		if (addr->sa_len != sizeof(struct sockaddr_in6))
1.3.2.2     snj 			return EINVAL;
1.3.2.2     snj 		break;
1.3.2.2     snj #endif /* INET6 */
1.3.2.2     snj 	default:
1.3.2.2     snj 		return EAFNOSUPPORT;
1.3.2.2     snj 	}
1.3.2.2     snj
1.3.2.2     snj 	return 0;
1.3.2.2     snj }
1.3.2.2     snj
1.3.2.2     snj /* XXX how should we handle IPv6 scope on SIOC[GS]IFPHYADDR? */
1.3.2.2     snj int
1.3.2.2     snj if_ipsec_ioctl(struct ifnet *ifp, u_long cmd, void *data)
1.3.2.2     snj {
1.3.2.2     snj 	struct ipsec_softc *sc  = ifp->if_softc;
1.3.2.2     snj 	struct ipsec_variant *var = NULL;
1.3.2.2     snj 	struct ifreq     *ifr = (struct ifreq*)data;
1.3.2.2     snj 	struct ifaddr    *ifa = (struct ifaddr*)data;
1.3.2.2     snj 	int error = 0, size;
1.3.2.2     snj 	struct sockaddr *dst, *src;
1.3.2.2     snj 	u_long mtu;
1.3.2.2     snj 	short oflags = ifp->if_flags;
1.3.2.2     snj 	int bound;
1.3.2.2     snj 	struct psref psref;
1.3.2.2     snj
1.3.2.2     snj 	switch (cmd) {
1.3.2.2     snj 	case SIOCINITIFADDR:
1.3.2.2     snj 		ifp->if_flags |= IFF_UP;
1.3.2.2     snj 		ifa->ifa_rtrequest = p2p_rtrequest;
1.3.2.2     snj 		break;
1.3.2.2     snj
1.3.2.2     snj 	case SIOCSIFDSTADDR:
1.3.2.2     snj 		break;
1.3.2.2     snj
1.3.2.2     snj 	case SIOCADDMULTI:
1.3.2.2     snj 	case SIOCDELMULTI:
1.3.2.2     snj 		switch (ifr->ifr_addr.sa_family) {
1.3.2.2     snj #ifdef INET
1.3.2.2     snj 		case AF_INET:	/* IP supports Multicast */
1.3.2.2     snj 			break;
1.3.2.2     snj #endif /* INET */
1.3.2.2     snj #ifdef INET6
1.3.2.2     snj 		case AF_INET6:	/* IP6 supports Multicast */
1.3.2.2     snj 			break;
1.3.2.2     snj #endif /* INET6 */
1.3.2.2     snj 		default:  /* Other protocols doesn't support Multicast */
1.3.2.2     snj 			error = EAFNOSUPPORT;
1.3.2.2     snj 			break;
1.3.2.2     snj 		}
1.3.2.2     snj 		break;
1.3.2.2     snj
1.3.2.2     snj 	case SIOCSIFMTU:
1.3.2.2     snj 		mtu = ifr->ifr_mtu;
1.3.2.2     snj 		if (mtu < IPSEC_MTU_MIN || mtu > IPSEC_MTU_MAX)
1.3.2.2     snj 			return EINVAL;
1.3.2.2     snj 		else if ((error = ifioctl_common(ifp, cmd, data)) == ENETRESET)
1.3.2.2     snj 			error = 0;
1.3.2.2     snj 		break;
1.3.2.2     snj
1.3.2.2     snj #ifdef INET
1.3.2.2     snj 	case SIOCSIFPHYADDR:
1.3.2.2     snj #endif
1.3.2.2     snj #ifdef INET6
1.3.2.2     snj 	case SIOCSIFPHYADDR_IN6:
1.3.2.2     snj #endif /* INET6 */
1.3.2.2     snj 	case SIOCSLIFPHYADDR:
1.3.2.2     snj 		switch (cmd) {
1.3.2.2     snj #ifdef INET
1.3.2.2     snj 		case SIOCSIFPHYADDR:
1.3.2.2     snj 			src = (struct sockaddr *)
1.3.2.2     snj 				&(((struct in_aliasreq *)data)->ifra_addr);
1.3.2.2     snj 			dst = (struct sockaddr *)
1.3.2.2     snj 				&(((struct in_aliasreq *)data)->ifra_dstaddr);
1.3.2.2     snj 			break;
1.3.2.2     snj #endif /* INET */
1.3.2.2     snj #ifdef INET6
1.3.2.2     snj 		case SIOCSIFPHYADDR_IN6:
1.3.2.2     snj 			src = (struct sockaddr *)
1.3.2.2     snj 				&(((struct in6_aliasreq *)data)->ifra_addr);
1.3.2.2     snj 			dst = (struct sockaddr *)
1.3.2.2     snj 				&(((struct in6_aliasreq *)data)->ifra_dstaddr);
1.3.2.2     snj 			break;
1.3.2.2     snj #endif /* INET6 */
1.3.2.2     snj 		case SIOCSLIFPHYADDR:
1.3.2.2     snj 			src = (struct sockaddr *)
1.3.2.2     snj 				&(((struct if_laddrreq *)data)->addr);
1.3.2.2     snj 			dst = (struct sockaddr *)
1.3.2.2     snj 				&(((struct if_laddrreq *)data)->dstaddr);
1.3.2.2     snj 			break;
1.3.2.2     snj 		default:
1.3.2.2     snj 			return EINVAL;
1.3.2.2     snj 		}
1.3.2.2     snj
1.3.2.2     snj 		/* sa_family must be equal */
1.3.2.2     snj 		if (src->sa_family != dst->sa_family)
1.3.2.2     snj 			return EINVAL;
1.3.2.2     snj
1.3.2.2     snj 		error = if_ipsec_check_salen(src);
1.3.2.2     snj 		if (error)
1.3.2.2     snj 			return error;
1.3.2.2     snj 		error = if_ipsec_check_salen(dst);
1.3.2.2     snj 		if (error)
1.3.2.2     snj 			return error;
1.3.2.2     snj
1.3.2.2     snj 		/* check sa_family looks sane for the cmd */
1.3.2.2     snj 		switch (cmd) {
1.3.2.2     snj #ifdef INET
1.3.2.2     snj 		case SIOCSIFPHYADDR:
1.3.2.2     snj 			if (src->sa_family == AF_INET)
1.3.2.2     snj 				break;
1.3.2.2     snj 			return EAFNOSUPPORT;
1.3.2.2     snj #endif /* INET */
1.3.2.2     snj #ifdef INET6
1.3.2.2     snj 		case SIOCSIFPHYADDR_IN6:
1.3.2.2     snj 			if (src->sa_family == AF_INET6)
1.3.2.2     snj 				break;
1.3.2.2     snj 			return EAFNOSUPPORT;
1.3.2.2     snj #endif /* INET6 */
1.3.2.2     snj 		case SIOCSLIFPHYADDR:
1.3.2.2     snj 			/* checks done in the above */
1.3.2.2     snj 			break;
1.3.2.2     snj 		}
1.3.2.2     snj 		/*
1.3.2.2     snj 		 * calls if_ipsec_getref_variant() for other softcs to check
1.3.2.2     snj 		 * address pair duplicattion
1.3.2.2     snj 		 */
1.3.2.2     snj 		bound = curlwp_bind();
1.3.2.2     snj 		error = if_ipsec_set_tunnel(&sc->ipsec_if, src, dst);
1.3.2.2     snj 		if (error)
1.3.2.2     snj 			goto bad;
1.3.2.2     snj 		break;
1.3.2.2     snj
1.3.2.2     snj 	case SIOCDIFPHYADDR:
1.3.2.2     snj 		bound = curlwp_bind();
1.3.2.2     snj 		if_ipsec_delete_tunnel(&sc->ipsec_if);
1.3.2.2     snj 		curlwp_bindx(bound);
1.3.2.2     snj 		break;
1.3.2.2     snj
1.3.2.2     snj 	case SIOCGIFPSRCADDR:
1.3.2.2     snj #ifdef INET6
1.3.2.2     snj 	case SIOCGIFPSRCADDR_IN6:
1.3.2.2     snj #endif /* INET6 */
1.3.2.2     snj 		bound = curlwp_bind();
1.3.2.2     snj 		var = if_ipsec_getref_variant(sc, &psref);
1.3.2.2     snj 		if (var->iv_psrc == NULL) {
1.3.2.2     snj 			error = EADDRNOTAVAIL;
1.3.2.2     snj 			goto bad;
1.3.2.2     snj 		}
1.3.2.2     snj 		src = var->iv_psrc;
1.3.2.2     snj 		switch (cmd) {
1.3.2.2     snj #ifdef INET
1.3.2.2     snj 		case SIOCGIFPSRCADDR:
1.3.2.2     snj 			dst = &ifr->ifr_addr;
1.3.2.2     snj 			size = sizeof(ifr->ifr_addr);
1.3.2.2     snj 			break;
1.3.2.2     snj #endif /* INET */
1.3.2.2     snj #ifdef INET6
1.3.2.2     snj 		case SIOCGIFPSRCADDR_IN6:
1.3.2.2     snj 			dst = (struct sockaddr *)
1.3.2.2     snj 				&(((struct in6_ifreq *)data)->ifr_addr);
1.3.2.2     snj 			size = sizeof(((struct in6_ifreq *)data)->ifr_addr);
1.3.2.2     snj 			break;
1.3.2.2     snj #endif /* INET6 */
1.3.2.2     snj 		default:
1.3.2.2     snj 			error = EADDRNOTAVAIL;
1.3.2.2     snj 			goto bad;
1.3.2.2     snj 		}
1.3.2.2     snj 		if (src->sa_len > size) {
1.3.2.2     snj 			error = EINVAL;
1.3.2.2     snj 			goto bad;
1.3.2.2     snj 		}
1.3.2.2     snj 		error = IF_IPSEC_GATHER_PSRC_ADDR_PORT(var, dst);
1.3.2.2     snj 		if (error)
1.3.2.2     snj 			goto bad;
1.3.2.2     snj 		if_ipsec_putref_variant(var, &psref);
1.3.2.2     snj 		curlwp_bindx(bound);
1.3.2.2     snj 		break;
1.3.2.2     snj
1.3.2.2     snj 	case SIOCGIFPDSTADDR:
1.3.2.2     snj #ifdef INET6
1.3.2.2     snj 	case SIOCGIFPDSTADDR_IN6:
1.3.2.2     snj #endif /* INET6 */
1.3.2.2     snj 		bound = curlwp_bind();
1.3.2.2     snj 		var = if_ipsec_getref_variant(sc, &psref);
1.3.2.2     snj 		if (var->iv_pdst == NULL) {
1.3.2.2     snj 			error = EADDRNOTAVAIL;
1.3.2.2     snj 			goto bad;
1.3.2.2     snj 		}
1.3.2.2     snj 		src = var->iv_pdst;
1.3.2.2     snj 		switch (cmd) {
1.3.2.2     snj #ifdef INET
1.3.2.2     snj 		case SIOCGIFPDSTADDR:
1.3.2.2     snj 			dst = &ifr->ifr_addr;
1.3.2.2     snj 			size = sizeof(ifr->ifr_addr);
1.3.2.2     snj 			break;
1.3.2.2     snj #endif /* INET */
1.3.2.2     snj #ifdef INET6
1.3.2.2     snj 		case SIOCGIFPDSTADDR_IN6:
1.3.2.2     snj 			dst = (struct sockaddr *)
1.3.2.2     snj 				&(((struct in6_ifreq *)data)->ifr_addr);
1.3.2.2     snj 			size = sizeof(((struct in6_ifreq *)data)->ifr_addr);
1.3.2.2     snj 			break;
1.3.2.2     snj #endif /* INET6 */
1.3.2.2     snj 		default:
1.3.2.2     snj 			error = EADDRNOTAVAIL;
1.3.2.2     snj 			goto bad;
1.3.2.2     snj 		}
1.3.2.2     snj 		if (src->sa_len > size) {
1.3.2.2     snj 			error = EINVAL;
1.3.2.2     snj 			goto bad;
1.3.2.2     snj 		}
1.3.2.2     snj 		error = IF_IPSEC_GATHER_PDST_ADDR_PORT(var, dst);
1.3.2.2     snj 		if (error)
1.3.2.2     snj 			goto bad;
1.3.2.2     snj 		if_ipsec_putref_variant(var, &psref);
1.3.2.2     snj 		curlwp_bindx(bound);
1.3.2.2     snj 		break;
1.3.2.2     snj
1.3.2.2     snj 	case SIOCGLIFPHYADDR:
1.3.2.2     snj 		bound = curlwp_bind();
1.3.2.2     snj 		var = if_ipsec_getref_variant(sc, &psref);
1.3.2.2     snj 		if (if_ipsec_variant_is_unconfigured(var)) {
1.3.2.2     snj 			error = EADDRNOTAVAIL;
1.3.2.2     snj 			goto bad;
1.3.2.2     snj 		}
1.3.2.2     snj
1.3.2.2     snj 		/* copy src */
1.3.2.2     snj 		src = var->iv_psrc;
1.3.2.2     snj 		dst = (struct sockaddr *)
1.3.2.2     snj 			&(((struct if_laddrreq *)data)->addr);
1.3.2.2     snj 		size = sizeof(((struct if_laddrreq *)data)->addr);
1.3.2.2     snj 		if (src->sa_len > size) {
1.3.2.2     snj 			error = EINVAL;
1.3.2.2     snj 			goto bad;
1.3.2.2     snj 		}
1.3.2.2     snj 		error = IF_IPSEC_GATHER_PSRC_ADDR_PORT(var, dst);
1.3.2.2     snj 		if (error)
1.3.2.2     snj 			goto bad;
1.3.2.2     snj
1.3.2.2     snj 		/* copy dst */
1.3.2.2     snj 		src = var->iv_pdst;
1.3.2.2     snj 		dst = (struct sockaddr *)
1.3.2.2     snj 			&(((struct if_laddrreq *)data)->dstaddr);
1.3.2.2     snj 		size = sizeof(((struct if_laddrreq *)data)->dstaddr);
1.3.2.2     snj 		if (src->sa_len > size) {
1.3.2.2     snj 			error = EINVAL;
1.3.2.2     snj 			goto bad;
1.3.2.2     snj 		}
1.3.2.2     snj 		error = IF_IPSEC_GATHER_PDST_ADDR_PORT(var, dst);
1.3.2.2     snj 		if (error)
1.3.2.2     snj 			goto bad;
1.3.2.2     snj 		if_ipsec_putref_variant(var, &psref);
1.3.2.2     snj 		curlwp_bindx(bound);
1.3.2.2     snj 		break;
1.3.2.2     snj
1.3.2.2     snj 	default:
1.3.2.2     snj 		error = ifioctl_common(ifp, cmd, data);
1.3.2.2     snj 		if (!error) {
1.3.2.2     snj 			bound = curlwp_bind();
1.3.2.2     snj 			error = if_ipsec_ensure_flags(&sc->ipsec_if, oflags);
1.3.2.2     snj 			if (error)
1.3.2.2     snj 				goto bad;
1.3.2.2     snj 		}
1.3.2.2     snj 		break;
1.3.2.2     snj 	}
1.3.2.2     snj 	return error;
1.3.2.2     snj
1.3.2.2     snj bad:
1.3.2.2     snj 	if (var != NULL)
1.3.2.2     snj 		if_ipsec_putref_variant(var, &psref);
1.3.2.2     snj 	curlwp_bindx(bound);
1.3.2.2     snj
1.3.2.2     snj 	return error;
1.3.2.2     snj }
1.3.2.2     snj
1.3.2.2     snj struct encap_funcs {
1.3.2.2     snj #ifdef INET
1.3.2.2     snj 	int (*ef_inet)(struct ipsec_variant *);
1.3.2.2     snj #endif
1.3.2.2     snj #ifdef INET6
1.3.2.2     snj 	int (*ef_inet6)(struct ipsec_variant *);
1.3.2.2     snj #endif
1.3.2.2     snj };
1.3.2.2     snj
1.3.2.2     snj static struct encap_funcs ipsec_encap_attach = {
1.3.2.2     snj #ifdef INET
1.3.2.2     snj 	.ef_inet = ipsecif4_attach,
1.3.2.2     snj #endif
1.3.2.2     snj #ifdef INET6
1.3.2.2     snj 	.ef_inet6 = &ipsecif6_attach,
1.3.2.2     snj #endif
1.3.2.2     snj };
1.3.2.2     snj
1.3.2.2     snj static struct encap_funcs ipsec_encap_detach = {
1.3.2.2     snj #ifdef INET
1.3.2.2     snj 	.ef_inet = ipsecif4_detach,
1.3.2.2     snj #endif
1.3.2.2     snj #ifdef INET6
1.3.2.2     snj 	.ef_inet6 = &ipsecif6_detach,
1.3.2.2     snj #endif
1.3.2.2     snj };
1.3.2.2     snj
1.3.2.2     snj static int
1.3.2.2     snj if_ipsec_encap_common(struct ipsec_variant *var, struct encap_funcs *funcs)
1.3.2.2     snj {
1.3.2.2     snj 	int error;
1.3.2.2     snj
1.3.2.2     snj 	KASSERT(var != NULL);
1.3.2.2     snj 	KASSERT(if_ipsec_variant_is_configured(var));
1.3.2.2     snj
1.3.2.2     snj 	switch (var->iv_psrc->sa_family) {
1.3.2.2     snj #ifdef INET
1.3.2.2     snj 	case AF_INET:
1.3.2.2     snj 		error = (funcs->ef_inet)(var);
1.3.2.2     snj 		break;
1.3.2.2     snj #endif /* INET */
1.3.2.2     snj #ifdef INET6
1.3.2.2     snj 	case AF_INET6:
1.3.2.2     snj 		error = (funcs->ef_inet6)(var);
1.3.2.2     snj 		break;
1.3.2.2     snj #endif /* INET6 */
1.3.2.2     snj 	default:
1.3.2.2     snj 		error = EINVAL;
1.3.2.2     snj 		break;
1.3.2.2     snj 	}
1.3.2.2     snj
1.3.2.2     snj 	return error;
1.3.2.2     snj }
1.3.2.2     snj
1.3.2.2     snj static int
1.3.2.2     snj if_ipsec_encap_attach(struct ipsec_variant *var)
1.3.2.2     snj {
1.3.2.2     snj
1.3.2.2     snj 	return if_ipsec_encap_common(var, &ipsec_encap_attach);
1.3.2.2     snj }
1.3.2.2     snj
1.3.2.2     snj static int
1.3.2.2     snj if_ipsec_encap_detach(struct ipsec_variant *var)
1.3.2.2     snj {
1.3.2.2     snj
1.3.2.2     snj 	return if_ipsec_encap_common(var, &ipsec_encap_detach);
1.3.2.2     snj }
1.3.2.2     snj
1.3.2.2     snj /*
1.3.2.2     snj  * Validate and set ipsec(4) I/F configurations.
1.3.2.2     snj  *     (1) validate
1.3.2.2     snj  *         (1-1) Check the argument src and dst address pair will change
1.3.2.2     snj  *               configuration from current src and dst address pair.
1.3.2.2     snj  *         (1-2) Check any ipsec(4) I/F uses duplicated src and dst address pair
1.3.2.2     snj  *               with argument src and dst address pair, except for NAT-T shared
1.3.2.2     snj  *               tunnels.
1.3.2.2     snj  *     (2) set
1.3.2.2     snj  *         (2-1) Create variant for new configuration.
1.3.2.2     snj  *         (2-2) Create temporary "null" variant used to avoid to access
1.3.2.2     snj  *               dangling variant while SPs are deleted and added.
1.3.2.2     snj  *         (2-3) Swap variant include its SPs.
1.3.2.2     snj  *         (2-4) Cleanup last configurations.
1.3.2.2     snj  */
1.3.2.2     snj static int
1.3.2.2     snj if_ipsec_set_tunnel(struct ifnet *ifp,
1.3.2.2     snj     struct sockaddr *src, struct sockaddr *dst)
1.3.2.2     snj {
1.3.2.2     snj 	struct ipsec_softc *sc = ifp->if_softc;
1.3.2.2     snj 	struct ipsec_softc *sc2;
1.3.2.2     snj 	struct ipsec_variant *ovar, *nvar, *nullvar;
1.3.2.2     snj 	struct sockaddr *osrc, *odst;
1.3.2.2     snj 	struct sockaddr *nsrc, *ndst;
1.3.2.2     snj 	in_port_t nsport = 0, ndport = 0;
1.3.2.2     snj 	int error;
1.3.2.2     snj
1.3.2.2     snj 	error = encap_lock_enter();
1.3.2.2     snj 	if (error)
1.3.2.2     snj 		return error;
1.3.2.2     snj
1.3.2.2     snj 	nsrc = sockaddr_dup(src, M_WAITOK);
1.3.2.2     snj 	ndst = sockaddr_dup(dst, M_WAITOK);
1.3.2.2     snj 	nvar = kmem_zalloc(sizeof(*nvar), KM_SLEEP);
1.3.2.2     snj 	nullvar = kmem_zalloc(sizeof(*nullvar), KM_SLEEP);
1.3.2.2     snj
1.3.2.2     snj 	mutex_enter(&sc->ipsec_lock);
1.3.2.2     snj
1.3.2.2     snj 	ovar = sc->ipsec_var;
1.3.2.2     snj
1.3.2.2     snj 	switch(nsrc->sa_family) {
1.3.2.2     snj #ifdef INET
1.3.2.2     snj 	case AF_INET:
1.3.2.3  martin 		nsport = satosin(src)->sin_port;
1.3.2.2     snj 		/*
1.3.2.2     snj 		 * avoid confuse SP when NAT-T disabled,
1.3.2.2     snj 		 * e.g.
1.3.2.2     snj 		 *     expected: 10.0.1.2[any] 10.0.1.1[any] 4(ipv4)
1.3.2.2     snj 		 *     confuse : 10.0.1.2[600] 10.0.1.1[600] 4(ipv4)
1.3.2.2     snj 		 */
1.3.2.2     snj 		satosin(nsrc)->sin_port = 0;
1.3.2.3  martin 		ndport = satosin(dst)->sin_port;
1.3.2.2     snj 		satosin(ndst)->sin_port = 0;
1.3.2.2     snj 		break;
1.3.2.2     snj #endif /* INET */
1.3.2.2     snj #ifdef INET6
1.3.2.2     snj 	case AF_INET6:
1.3.2.3  martin 		nsport = satosin6(src)->sin6_port;
1.3.2.2     snj 		satosin6(nsrc)->sin6_port = 0;
1.3.2.3  martin 		ndport = satosin6(dst)->sin6_port;
1.3.2.2     snj 		satosin6(ndst)->sin6_port = 0;
1.3.2.2     snj 		break;
1.3.2.2     snj #endif /* INET6 */
1.3.2.2     snj 	default:
1.3.2.2     snj 		log(LOG_DEBUG,
1.3.2.2     snj 		    "%s: Invalid address family: %d.\n",
1.3.2.2     snj 		    __func__, src->sa_family);
1.3.2.2     snj 		error = EINVAL;
1.3.2.2     snj 		goto out;
1.3.2.2     snj 	}
1.3.2.2     snj
1.3.2.2     snj 	/*
1.3.2.2     snj 	 * (1-1) Check the argument src and dst address pair will change
1.3.2.2     snj 	 *       configuration from current src and dst address pair.
1.3.2.2     snj 	 */
1.3.2.2     snj 	if ((ovar->iv_pdst && sockaddr_cmp(ovar->iv_pdst, dst) == 0) &&
1.3.2.2     snj 	    (ovar->iv_psrc && sockaddr_cmp(ovar->iv_psrc, src) == 0) &&
1.3.2.2     snj 	    (ovar->iv_sport == nsport && ovar->iv_dport == ndport)) {
1.3.2.2     snj 		/* address and port pair not changed. */
1.3.2.2     snj 		error = 0;
1.3.2.2     snj 		goto out;
1.3.2.2     snj 	}
1.3.2.2     snj
1.3.2.2     snj 	/*
1.3.2.2     snj 	 * (1-2) Check any ipsec(4) I/F uses duplicated src and dst address pair
1.3.2.2     snj 	 *       with argument src and dst address pair, except for NAT-T shared
1.3.2.2     snj 	 *       tunnels.
1.3.2.2     snj 	 */
1.3.2.2     snj 	mutex_enter(&ipsec_softcs.lock);
1.3.2.2     snj 	LIST_FOREACH(sc2, &ipsec_softcs.list, ipsec_list) {
1.3.2.2     snj 		struct ipsec_variant *var2;
1.3.2.2     snj 		struct psref psref;
1.3.2.2     snj
1.3.2.2     snj 		if (sc2 == sc)
1.3.2.2     snj 			continue;
1.3.2.2     snj 		var2 = if_ipsec_getref_variant(sc2, &psref);
1.3.2.2     snj 		if (if_ipsec_variant_is_unconfigured(var2)) {
1.3.2.2     snj 			if_ipsec_putref_variant(var2, &psref);
1.3.2.2     snj 			continue;
1.3.2.2     snj 		}
1.3.2.2     snj 		if (if_ipsec_nat_t(sc) || if_ipsec_nat_t(sc2)) {
1.3.2.2     snj 			if_ipsec_putref_variant(var2, &psref);
1.3.2.2     snj 			continue; /* NAT-T shared tunnel */
1.3.2.2     snj 		}
1.3.2.2     snj 		if (sockaddr_cmp(var2->iv_pdst, dst) == 0 &&
1.3.2.2     snj 		    sockaddr_cmp(var2->iv_psrc, src) == 0) {
1.3.2.2     snj 			if_ipsec_putref_variant(var2, &psref);
1.3.2.2     snj 			mutex_exit(&ipsec_softcs.lock);
1.3.2.2     snj 			error = EADDRNOTAVAIL;
1.3.2.2     snj 			goto out;
1.3.2.2     snj 		}
1.3.2.2     snj
1.3.2.2     snj 		if_ipsec_putref_variant(var2, &psref);
1.3.2.2     snj 		/* XXX both end must be valid? (I mean, not 0.0.0.0) */
1.3.2.2     snj 	}
1.3.2.2     snj 	mutex_exit(&ipsec_softcs.lock);
1.3.2.2     snj
1.3.2.2     snj
1.3.2.2     snj 	osrc = ovar->iv_psrc;
1.3.2.2     snj 	odst = ovar->iv_pdst;
1.3.2.2     snj
1.3.2.2     snj 	/*
1.3.2.2     snj 	 * (2-1) Create ipsec_variant for new configuration.
1.3.2.2     snj 	 */
1.3.2.2     snj 	if_ipsec_copy_variant(nvar, ovar);
1.3.2.2     snj 	nvar->iv_psrc = nsrc;
1.3.2.2     snj 	nvar->iv_pdst = ndst;
1.3.2.2     snj 	nvar->iv_sport = nsport;
1.3.2.2     snj 	nvar->iv_dport = ndport;
1.3.2.2     snj 	nvar->iv_encap_cookie4 = NULL;
1.3.2.2     snj 	nvar->iv_encap_cookie6 = NULL;
1.3.2.2     snj 	psref_target_init(&nvar->iv_psref, iv_psref_class);
1.3.2.2     snj 	error = if_ipsec_encap_attach(nvar);
1.3.2.2     snj 	if (error)
1.3.2.2     snj 		goto out;
1.3.2.2     snj
1.3.2.2     snj 	/*
1.3.2.2     snj 	 * (2-2) Create temporary "null" variant.
1.3.2.2     snj 	 */
1.3.2.2     snj 	if_ipsec_copy_variant(nullvar, ovar);
1.3.2.2     snj 	if_ipsec_clear_config(nullvar);
1.3.2.2     snj 	psref_target_init(&nullvar->iv_psref, iv_psref_class);
1.3.2.2     snj 	membar_producer();
1.3.2.2     snj 	/*
1.3.2.2     snj 	 * (2-3) Swap variant include its SPs.
1.3.2.2     snj 	 */
1.3.2.2     snj 	error = if_ipsec_update_variant(sc, nvar, nullvar);
1.3.2.2     snj 	if (error) {
1.3.2.2     snj 		if_ipsec_encap_detach(nvar);
1.3.2.2     snj 		goto out;
1.3.2.2     snj 	}
1.3.2.2     snj
1.3.2.2     snj 	mutex_exit(&sc->ipsec_lock);
1.3.2.2     snj
1.3.2.2     snj 	/*
1.3.2.2     snj 	 * (2-4) Cleanup last configurations.
1.3.2.2     snj 	 */
1.3.2.2     snj 	if (if_ipsec_variant_is_configured(ovar))
1.3.2.2     snj 		if_ipsec_encap_detach(ovar);
1.3.2.2     snj 	encap_lock_exit();
1.3.2.2     snj
1.3.2.2     snj 	if (osrc != NULL)
1.3.2.2     snj 		sockaddr_free(osrc);
1.3.2.2     snj 	if (odst != NULL)
1.3.2.2     snj 		sockaddr_free(odst);
1.3.2.2     snj 	kmem_free(ovar, sizeof(*ovar));
1.3.2.2     snj 	kmem_free(nullvar, sizeof(*nullvar));
1.3.2.2     snj
1.3.2.2     snj 	return 0;
1.3.2.2     snj
1.3.2.2     snj out:
1.3.2.2     snj 	mutex_exit(&sc->ipsec_lock);
1.3.2.2     snj 	encap_lock_exit();
1.3.2.2     snj
1.3.2.2     snj 	sockaddr_free(nsrc);
1.3.2.2     snj 	sockaddr_free(ndst);
1.3.2.2     snj 	kmem_free(nvar, sizeof(*nvar));
1.3.2.2     snj 	kmem_free(nullvar, sizeof(*nullvar));
1.3.2.2     snj
1.3.2.2     snj 	return error;
1.3.2.2     snj }
1.3.2.2     snj
1.3.2.2     snj /*
1.3.2.2     snj  * Validate and delete ipsec(4) I/F configurations.
1.3.2.2     snj  *     (1) validate
1.3.2.2     snj  *         (1-1) Check current src and dst address pair are null,
1.3.2.2     snj  *               which means the ipsec(4) I/F is already done deletetunnel.
1.3.2.2     snj  *     (2) delete
1.3.2.2     snj  *         (2-1) Create variant for deleted status.
1.3.2.2     snj  *         (2-2) Create temporary "null" variant used to avoid to access
1.3.2.2     snj  *               dangling variant while SPs are deleted and added.
1.3.2.2     snj  *               NOTE:
1.3.2.2     snj  *               The contents of temporary "null" variant equal to the variant
1.3.2.2     snj  *               of (2-1), however two psref_target_destroy() synchronization
1.3.2.2     snj  *               points are necessary to avoid to access dangling variant
1.3.2.2     snj  *               while SPs are deleted and added. To implement that simply,
1.3.2.2     snj  *               we use the same manner as if_ipsec_set_tunnel(), that is,
1.3.2.2     snj  *               create extra "null" variant and use it temporarily.
1.3.2.2     snj  *         (2-3) Swap variant include its SPs.
1.3.2.2     snj  *         (2-4) Cleanup last configurations.
1.3.2.2     snj  */
1.3.2.2     snj static void
1.3.2.2     snj if_ipsec_delete_tunnel(struct ifnet *ifp)
1.3.2.2     snj {
1.3.2.2     snj 	struct ipsec_softc *sc = ifp->if_softc;
1.3.2.2     snj 	struct ipsec_variant *ovar, *nvar, *nullvar;
1.3.2.2     snj 	struct sockaddr *osrc, *odst;
1.3.2.2     snj 	int error;
1.3.2.2     snj
1.3.2.2     snj 	error = encap_lock_enter();
1.3.2.2     snj 	if (error)
1.3.2.2     snj 		return;
1.3.2.2     snj
1.3.2.2     snj 	nvar = kmem_zalloc(sizeof(*nvar), KM_SLEEP);
1.3.2.2     snj 	nullvar = kmem_zalloc(sizeof(*nullvar), KM_SLEEP);
1.3.2.2     snj
1.3.2.2     snj 	mutex_enter(&sc->ipsec_lock);
1.3.2.2     snj
1.3.2.2     snj 	ovar = sc->ipsec_var;
1.3.2.2     snj 	osrc = ovar->iv_psrc;
1.3.2.2     snj 	odst = ovar->iv_pdst;
1.3.2.2     snj 	/*
1.3.2.2     snj 	 * (1-1) Check current src and dst address pair are null,
1.3.2.2     snj 	 *       which means the ipsec(4) I/F is already done deletetunnel.
1.3.2.2     snj 	 */
1.3.2.2     snj 	if (osrc == NULL || odst == NULL) {
1.3.2.2     snj 		/* address pair not changed. */
1.3.2.2     snj 		mutex_exit(&sc->ipsec_lock);
1.3.2.2     snj 		encap_lock_exit();
1.3.2.2     snj 		kmem_free(nvar, sizeof(*nvar));
1.3.2.2     snj 		return;
1.3.2.2     snj 	}
1.3.2.2     snj
1.3.2.2     snj 	/*
1.3.2.2     snj 	 * (2-1) Create variant for deleted status.
1.3.2.2     snj 	 */
1.3.2.2     snj 	if_ipsec_copy_variant(nvar, ovar);
1.3.2.2     snj 	if_ipsec_clear_config(nvar);
1.3.2.2     snj 	psref_target_init(&nvar->iv_psref, iv_psref_class);
1.3.2.2     snj
1.3.2.2     snj 	/*
1.3.2.2     snj 	 * (2-2) Create temporary "null" variant used to avoid to access
1.3.2.2     snj 	 *       dangling variant while SPs are deleted and added.
1.3.2.2     snj 	 */
1.3.2.2     snj 	if_ipsec_copy_variant(nullvar, ovar);
1.3.2.2     snj 	if_ipsec_clear_config(nullvar);
1.3.2.2     snj 	psref_target_init(&nullvar->iv_psref, iv_psref_class);
1.3.2.2     snj 	membar_producer();
1.3.2.2     snj 	/*
1.3.2.2     snj 	 * (2-3) Swap variant include its SPs.
1.3.2.2     snj 	 */
1.3.2.2     snj 	/* if_ipsec_update_variant() does not fail when delete SP only. */
1.3.2.2     snj 	(void)if_ipsec_update_variant(sc, nvar, nullvar);
1.3.2.2     snj
1.3.2.2     snj 	mutex_exit(&sc->ipsec_lock);
1.3.2.2     snj
1.3.2.2     snj 	/*
1.3.2.2     snj 	 * (2-4) Cleanup last configurations.
1.3.2.2     snj 	 */
1.3.2.2     snj 	if (if_ipsec_variant_is_configured(ovar))
1.3.2.2     snj 		if_ipsec_encap_detach(ovar);
1.3.2.2     snj 	encap_lock_exit();
1.3.2.2     snj
1.3.2.2     snj 	sockaddr_free(osrc);
1.3.2.2     snj 	sockaddr_free(odst);
1.3.2.2     snj 	kmem_free(ovar, sizeof(*ovar));
1.3.2.2     snj 	kmem_free(nullvar, sizeof(*nullvar));
1.3.2.2     snj }
1.3.2.2     snj
1.3.2.2     snj /*
1.3.2.2     snj  * Check IFF_NAT_T and IFF_FWD_IPV6 flags, therefore update SPs if needed.
1.3.2.2     snj  *     (1) check
1.3.2.2     snj  *         (1-1) Check flags are changed.
1.3.2.2     snj  *         (1-2) Check current src and dst address pair. If they are null,
1.3.2.2     snj  *               that means the ipsec(4) I/F is deletetunnel'ed, so it is
1.3.2.2     snj  *               not needed to update.
1.3.2.2     snj  *     (2) update
1.3.2.2     snj  *         (2-1) Create variant for new SPs.
1.3.2.2     snj  *         (2-2) Create temporary "null" variant used to avoid to access
1.3.2.2     snj  *               dangling variant while SPs are deleted and added.
1.3.2.2     snj  *               NOTE:
1.3.2.2     snj  *               There is the same problem as if_ipsec_delete_tunnel().
1.3.2.2     snj  *         (2-3) Swap variant include its SPs.
1.3.2.2     snj  *         (2-4) Cleanup unused configurations.
1.3.2.2     snj  *               NOTE: use the same encap_cookies.
1.3.2.2     snj  */
1.3.2.2     snj static int
1.3.2.2     snj if_ipsec_ensure_flags(struct ifnet *ifp, short oflags)
1.3.2.2     snj {
1.3.2.2     snj 	struct ipsec_softc *sc = ifp->if_softc;
1.3.2.2     snj 	struct ipsec_variant *ovar, *nvar, *nullvar;
1.3.2.2     snj 	int error;
1.3.2.2     snj
1.3.2.2     snj 	/*
1.3.2.2     snj 	 * (1) Check flags are changed.
1.3.2.2     snj 	 */
1.3.2.2     snj 	if ((oflags & (IFF_NAT_T|IFF_FWD_IPV6)) ==
1.3.2.2     snj 	    (ifp->if_flags & (IFF_NAT_T|IFF_FWD_IPV6)))
1.3.2.2     snj 		return 0; /* flags not changed. */
1.3.2.2     snj
1.3.2.2     snj 	error = encap_lock_enter();
1.3.2.2     snj 	if (error)
1.3.2.2     snj 		return error;
1.3.2.2     snj
1.3.2.2     snj 	nvar = kmem_zalloc(sizeof(*nvar), KM_SLEEP);
1.3.2.2     snj 	nullvar = kmem_zalloc(sizeof(*nullvar), KM_SLEEP);
1.3.2.2     snj
1.3.2.2     snj 	mutex_enter(&sc->ipsec_lock);
1.3.2.2     snj
1.3.2.2     snj 	ovar = sc->ipsec_var;
1.3.2.2     snj 	/*
1.3.2.2     snj 	 * (1-2) Check current src and dst address pair.
1.3.2.2     snj 	 */
1.3.2.2     snj 	if (if_ipsec_variant_is_unconfigured(ovar)) {
1.3.2.2     snj 		/* nothing to do */
1.3.2.2     snj 		mutex_exit(&sc->ipsec_lock);
1.3.2.2     snj 		return 0;
1.3.2.2     snj 	}
1.3.2.2     snj
1.3.2.2     snj 	/*
1.3.2.2     snj 	 * (2-1) Create variant for new SPs.
1.3.2.2     snj 	 */
1.3.2.2     snj 	if_ipsec_copy_variant(nvar, ovar);
1.3.2.2     snj 	psref_target_init(&nvar->iv_psref, iv_psref_class);
1.3.2.2     snj 	/*
1.3.2.2     snj 	 * (2-2) Create temporary "null" variant used to avoid to access
1.3.2.2     snj 	 *       dangling variant while SPs are deleted and added.
1.3.2.2     snj 	 */
1.3.2.2     snj 	if_ipsec_copy_variant(nullvar, ovar);
1.3.2.2     snj 	if_ipsec_clear_config(nullvar);
1.3.2.2     snj 	psref_target_init(&nullvar->iv_psref, iv_psref_class);
1.3.2.2     snj 	membar_producer();
1.3.2.2     snj 	/*
1.3.2.2     snj 	 * (2-3) Swap variant include its SPs.
1.3.2.2     snj 	 */
1.3.2.2     snj 	error = if_ipsec_update_variant(sc, nvar, nullvar);
1.3.2.2     snj
1.3.2.2     snj 	mutex_exit(&sc->ipsec_lock);
1.3.2.2     snj 	encap_lock_exit();
1.3.2.2     snj
1.3.2.2     snj 	/*
1.3.2.2     snj 	 * (2-4) Cleanup unused configurations.
1.3.2.2     snj 	 */
1.3.2.2     snj 	if (!error)
1.3.2.2     snj 		kmem_free(ovar, sizeof(*ovar));
1.3.2.2     snj 	else
1.3.2.2     snj 		kmem_free(nvar, sizeof(*ovar));
1.3.2.2     snj 	kmem_free(nullvar, sizeof(*nullvar));
1.3.2.2     snj
1.3.2.2     snj 	return error;
1.3.2.2     snj }
1.3.2.2     snj
1.3.2.2     snj /*
1.3.2.2     snj  * SPD management
1.3.2.2     snj  */
1.3.2.2     snj
1.3.2.2     snj /*
1.3.2.2     snj  * Share SP set with other NAT-T ipsec(4) I/F(s).
1.3.2.2     snj  *     Return 1, when "var" shares SP set.
1.3.2.2     snj  *     Return 0, when "var" cannot share SP set.
1.3.2.2     snj  *
1.3.2.2     snj  * NOTE:
1.3.2.2     snj  * if_ipsec_share_sp() and if_ipsec_unshare_sp() would require global lock
1.3.2.2     snj  * to exclude other ipsec(4) I/Fs set_tunnel/delete_tunnel. E.g. when ipsec0
1.3.2.2     snj  * and ipsec1 can share SP set, running ipsec0's set_tunnel and ipsec1's
1.3.2.2     snj  * set_tunnel causes race.
1.3.2.2     snj  * Currently, (fortunately) encap_lock works as this global lock.
1.3.2.2     snj  */
1.3.2.2     snj static int
1.3.2.2     snj if_ipsec_share_sp(struct ipsec_variant *var)
1.3.2.2     snj {
1.3.2.2     snj 	struct ipsec_softc *sc = var->iv_softc;
1.3.2.2     snj 	struct ipsec_softc *sc2;
1.3.2.2     snj 	struct ipsec_variant *var2;
1.3.2.2     snj 	struct psref psref;
1.3.2.2     snj
1.3.2.2     snj 	KASSERT(encap_lock_held());
1.3.2.2     snj 	KASSERT(var->iv_psrc != NULL && var->iv_pdst != NULL);
1.3.2.2     snj
1.3.2.2     snj 	mutex_enter(&ipsec_softcs.lock);
1.3.2.2     snj 	LIST_FOREACH(sc2, &ipsec_softcs.list, ipsec_list) {
1.3.2.2     snj 		if (sc2 == sc)
1.3.2.2     snj 			continue;
1.3.2.2     snj 		var2 = if_ipsec_getref_variant(sc2, &psref);
1.3.2.2     snj 		if (if_ipsec_variant_is_unconfigured(var2)) {
1.3.2.2     snj 			if_ipsec_putref_variant(var2, &psref);
1.3.2.2     snj 			continue;
1.3.2.2     snj 		}
1.3.2.2     snj 		if (sockaddr_cmp(var2->iv_pdst, var->iv_pdst) != 0 ||
1.3.2.2     snj 		    sockaddr_cmp(var2->iv_psrc, var->iv_psrc) != 0) {
1.3.2.2     snj 			if_ipsec_putref_variant(var2, &psref);
1.3.2.2     snj 			continue;
1.3.2.2     snj 		}
1.3.2.2     snj
1.3.2.2     snj 		break;
1.3.2.2     snj 	}
1.3.2.2     snj 	mutex_exit(&ipsec_softcs.lock);
1.3.2.2     snj 	if (sc2 == NULL)
1.3.2.2     snj 		return 0; /* not shared */
1.3.2.2     snj
1.3.2.2     snj 	IV_SP_IN(var) = IV_SP_IN(var2);
1.3.2.2     snj 	IV_SP_IN6(var) = IV_SP_IN6(var2);
1.3.2.2     snj 	IV_SP_OUT(var) = IV_SP_OUT(var2);
1.3.2.2     snj 	IV_SP_OUT6(var) = IV_SP_OUT6(var2);
1.3.2.2     snj
1.3.2.2     snj 	if_ipsec_putref_variant(var2, &psref);
1.3.2.2     snj 	return 1; /* shared */
1.3.2.2     snj }
1.3.2.2     snj
1.3.2.2     snj /*
1.3.2.2     snj  * Unshare SP set with other NAT-T ipsec(4) I/F(s).
1.3.2.2     snj  *     Return 1, when "var" shared SP set, and then unshare them.
1.3.2.2     snj  *     Return 0, when "var" did not share SP set.
1.3.2.2     snj  *
1.3.2.2     snj  * NOTE:
1.3.2.2     snj  * See if_ipsec_share_sp()'s note.
1.3.2.2     snj  */
1.3.2.2     snj static int
1.3.2.2     snj if_ipsec_unshare_sp(struct ipsec_variant *var)
1.3.2.2     snj {
1.3.2.2     snj 	struct ipsec_softc *sc = var->iv_softc;
1.3.2.2     snj 	struct ipsec_softc *sc2;
1.3.2.2     snj 	struct ipsec_variant *var2;
1.3.2.2     snj 	struct psref psref;
1.3.2.2     snj
1.3.2.2     snj 	KASSERT(encap_lock_held());
1.3.2.2     snj
1.3.2.2     snj 	if (!var->iv_pdst || !var->iv_psrc)
1.3.2.2     snj 		return 0;
1.3.2.2     snj
1.3.2.2     snj 	mutex_enter(&ipsec_softcs.lock);
1.3.2.2     snj 	LIST_FOREACH(sc2, &ipsec_softcs.list, ipsec_list) {
1.3.2.2     snj 		if (sc2 == sc)
1.3.2.2     snj 			continue;
1.3.2.2     snj 		var2 = if_ipsec_getref_variant(sc2, &psref);
1.3.2.2     snj 		if (!var2->iv_pdst || !var2->iv_psrc) {
1.3.2.2     snj 			if_ipsec_putref_variant(var2, &psref);
1.3.2.2     snj 			continue;
1.3.2.2     snj 		}
1.3.2.2     snj 		if (sockaddr_cmp(var2->iv_pdst, var->iv_pdst) != 0 ||
1.3.2.2     snj 		    sockaddr_cmp(var2->iv_psrc, var->iv_psrc) != 0) {
1.3.2.2     snj 			if_ipsec_putref_variant(var2, &psref);
1.3.2.2     snj 			continue;
1.3.2.2     snj 		}
1.3.2.2     snj
1.3.2.2     snj 		break;
1.3.2.2     snj 	}
1.3.2.2     snj 	mutex_exit(&ipsec_softcs.lock);
1.3.2.2     snj 	if (sc2 == NULL)
1.3.2.2     snj 		return 0; /* not shared */
1.3.2.2     snj
1.3.2.2     snj 	IV_SP_IN(var) = NULL;
1.3.2.2     snj 	IV_SP_IN6(var) = NULL;
1.3.2.2     snj 	IV_SP_OUT(var) = NULL;
1.3.2.2     snj 	IV_SP_OUT6(var) = NULL;
1.3.2.2     snj 	if_ipsec_putref_variant(var2, &psref);
1.3.2.2     snj 	return 1; /* shared */
1.3.2.2     snj }
1.3.2.2     snj
1.3.2.2     snj static inline void
1.3.2.4  martin if_ipsec_add_mbuf_optalign(struct mbuf *m0, void *data, size_t len, bool align)
1.3.2.2     snj {
1.3.2.2     snj 	struct mbuf *m;
1.3.2.2     snj
1.3.2.2     snj 	MGET(m, M_WAITOK | M_ZERO, MT_DATA);
1.3.2.4  martin 	if (align)
1.3.2.4  martin 		m->m_len = PFKEY_ALIGN8(len);
1.3.2.4  martin 	else
1.3.2.4  martin 		m->m_len = len;
1.3.2.2     snj 	m_copyback(m, 0, len, data);
1.3.2.2     snj 	m_cat(m0, m);
1.3.2.2     snj }
1.3.2.2     snj
1.3.2.2     snj static inline void
1.3.2.4  martin if_ipsec_add_mbuf(struct mbuf *m0, void *data, size_t len)
1.3.2.4  martin {
1.3.2.4  martin
1.3.2.4  martin 	if_ipsec_add_mbuf_optalign(m0, data, len, true);
1.3.2.4  martin }
1.3.2.4  martin
1.3.2.4  martin static inline void
1.3.2.4  martin if_ipsec_add_mbuf_addr_port(struct mbuf *m0, struct sockaddr *addr, in_port_t port, bool align)
1.3.2.3  martin {
1.3.2.3  martin
1.3.2.3  martin 	if (port == 0) {
1.3.2.4  martin 		if_ipsec_add_mbuf_optalign(m0, addr, addr->sa_len, align);
1.3.2.3  martin 	} else {
1.3.2.3  martin 		struct sockaddr addrport;
1.3.2.3  martin
1.3.2.3  martin 		if_ipsec_set_addr_port(&addrport, addr, port);
1.3.2.4  martin 		if_ipsec_add_mbuf_optalign(m0, &addrport, addrport.sa_len, align);
1.3.2.3  martin 	}
1.3.2.3  martin }
1.3.2.3  martin
1.3.2.3  martin static inline void
1.3.2.2     snj if_ipsec_add_pad(struct mbuf *m0, size_t len)
1.3.2.2     snj {
1.3.2.2     snj 	struct mbuf *m;
1.3.2.2     snj
1.3.2.2     snj 	if (len == 0)
1.3.2.2     snj 		return;
1.3.2.2     snj
1.3.2.2     snj 	MGET(m, M_WAITOK | M_ZERO, MT_DATA);
1.3.2.2     snj 	m->m_len = len;
1.3.2.2     snj 	m_cat(m0, m);
1.3.2.2     snj }
1.3.2.2     snj
1.3.2.2     snj static inline size_t
1.3.2.2     snj if_ipsec_set_sadb_addr(struct sadb_address *saaddr, struct sockaddr *addr,
1.3.2.2     snj     int proto, uint16_t exttype)
1.3.2.2     snj {
1.3.2.2     snj 	size_t size;
1.3.2.2     snj
1.3.2.2     snj 	KASSERT(saaddr != NULL);
1.3.2.2     snj 	KASSERT(addr != NULL);
1.3.2.2     snj
1.3.2.2     snj 	size = sizeof(*saaddr) + PFKEY_ALIGN8(addr->sa_len);
1.3.2.2     snj 	saaddr->sadb_address_len = PFKEY_UNIT64(size);
1.3.2.2     snj 	saaddr->sadb_address_exttype = exttype;
1.3.2.2     snj 	saaddr->sadb_address_proto = proto;
1.3.2.2     snj 	switch (addr->sa_family) {
1.3.2.2     snj #ifdef INET
1.3.2.2     snj 	case AF_INET:
1.3.2.2     snj 		saaddr->sadb_address_prefixlen = sizeof(struct in_addr) << 3;
1.3.2.2     snj 		break;
1.3.2.2     snj #endif /* INET */
1.3.2.2     snj #ifdef INET6
1.3.2.2     snj 	case AF_INET6:
1.3.2.2     snj 		saaddr->sadb_address_prefixlen = sizeof(struct in6_addr) << 3;
1.3.2.2     snj 		break;
1.3.2.2     snj #endif /* INET6 */
1.3.2.2     snj 	default:
1.3.2.2     snj 		log(LOG_DEBUG,
1.3.2.2     snj 		    "%s: Invalid address family: %d.\n",
1.3.2.2     snj 		    __func__, addr->sa_family);
1.3.2.2     snj 		break;
1.3.2.2     snj 	}
1.3.2.2     snj 	saaddr->sadb_address_reserved = 0;
1.3.2.2     snj
1.3.2.2     snj 	return size;
1.3.2.2     snj }
1.3.2.2     snj
1.3.2.2     snj static inline size_t
1.3.2.2     snj if_ipsec_set_sadb_src(struct sadb_address *sasrc, struct sockaddr *src,
1.3.2.2     snj     int proto)
1.3.2.2     snj {
1.3.2.2     snj
1.3.2.2     snj 	return if_ipsec_set_sadb_addr(sasrc, src, proto,
1.3.2.2     snj 	    SADB_EXT_ADDRESS_SRC);
1.3.2.2     snj }
1.3.2.2     snj
1.3.2.2     snj static inline size_t
1.3.2.2     snj if_ipsec_set_sadb_dst(struct sadb_address *sadst, struct sockaddr *dst,
1.3.2.2     snj     int proto)
1.3.2.2     snj {
1.3.2.2     snj
1.3.2.2     snj 	return if_ipsec_set_sadb_addr(sadst, dst, proto,
1.3.2.2     snj 	    SADB_EXT_ADDRESS_DST);
1.3.2.2     snj }
1.3.2.2     snj
1.3.2.2     snj static inline size_t
1.3.2.2     snj if_ipsec_set_sadb_x_policy(struct sadb_x_policy *xpl,
1.3.2.2     snj     struct sadb_x_ipsecrequest *xisr, uint16_t policy, uint8_t dir, uint32_t id,
1.3.2.3  martin     uint8_t level, struct sockaddr *src, struct sockaddr *dst)
1.3.2.2     snj {
1.3.2.2     snj 	size_t size;
1.3.2.2     snj
1.3.2.2     snj 	KASSERT(policy != IPSEC_POLICY_IPSEC || xisr != NULL);
1.3.2.2     snj
1.3.2.2     snj 	size = sizeof(*xpl);
1.3.2.2     snj 	if (policy == IPSEC_POLICY_IPSEC) {
1.3.2.2     snj 		size += PFKEY_ALIGN8(sizeof(*xisr));
1.3.2.4  martin 		if (src != NULL && dst != NULL)
1.3.2.4  martin 			size += PFKEY_ALIGN8(src->sa_len + dst->sa_len);
1.3.2.2     snj 	}
1.3.2.2     snj 	xpl->sadb_x_policy_len = PFKEY_UNIT64(size);
1.3.2.2     snj 	xpl->sadb_x_policy_exttype = SADB_X_EXT_POLICY;
1.3.2.2     snj 	xpl->sadb_x_policy_type = policy;
1.3.2.2     snj 	xpl->sadb_x_policy_dir = dir;
1.3.2.2     snj 	xpl->sadb_x_policy_reserved = 0;
1.3.2.2     snj 	xpl->sadb_x_policy_id = id;
1.3.2.2     snj 	xpl->sadb_x_policy_reserved2 = 0;
1.3.2.2     snj
1.3.2.2     snj 	if (policy == IPSEC_POLICY_IPSEC) {
1.3.2.2     snj 		xisr->sadb_x_ipsecrequest_len = PFKEY_ALIGN8(sizeof(*xisr));
1.3.2.4  martin 		if (src != NULL && dst != NULL)
1.3.2.4  martin 			xisr->sadb_x_ipsecrequest_len +=
1.3.2.4  martin 				PFKEY_ALIGN8(src->sa_len + dst->sa_len);
1.3.2.2     snj 		xisr->sadb_x_ipsecrequest_proto = IPPROTO_ESP;
1.3.2.2     snj 		xisr->sadb_x_ipsecrequest_mode = IPSEC_MODE_TRANSPORT;
1.3.2.2     snj 		xisr->sadb_x_ipsecrequest_level = level;
1.3.2.2     snj 		xisr->sadb_x_ipsecrequest_reqid = key_newreqid();
1.3.2.2     snj 	}
1.3.2.2     snj
1.3.2.2     snj 	return size;
1.3.2.2     snj }
1.3.2.2     snj
1.3.2.2     snj static inline void
1.3.2.2     snj if_ipsec_set_sadb_msg(struct sadb_msg *msg, uint16_t extlen, uint8_t msgtype)
1.3.2.2     snj {
1.3.2.2     snj
1.3.2.2     snj 	KASSERT(msg != NULL);
1.3.2.2     snj
1.3.2.2     snj 	msg->sadb_msg_version = PF_KEY_V2;
1.3.2.2     snj 	msg->sadb_msg_type = msgtype;
1.3.2.2     snj 	msg->sadb_msg_errno = 0;
1.3.2.2     snj 	msg->sadb_msg_satype = SADB_SATYPE_UNSPEC;
1.3.2.2     snj 	msg->sadb_msg_len = PFKEY_UNIT64(sizeof(*msg)) + extlen;
1.3.2.2     snj 	msg->sadb_msg_reserved = 0;
1.3.2.2     snj 	msg->sadb_msg_seq = 0; /* XXXX */
1.3.2.2     snj 	msg->sadb_msg_pid = 0; /* XXXX */
1.3.2.2     snj }
1.3.2.2     snj
1.3.2.2     snj static inline void
1.3.2.2     snj if_ipsec_set_sadb_msg_add(struct sadb_msg *msg, uint16_t extlen)
1.3.2.2     snj {
1.3.2.2     snj
1.3.2.2     snj 	if_ipsec_set_sadb_msg(msg, extlen, SADB_X_SPDADD);
1.3.2.2     snj }
1.3.2.2     snj
1.3.2.2     snj static inline void
1.3.2.2     snj if_ipsec_set_sadb_msg_del(struct sadb_msg *msg, uint16_t extlen)
1.3.2.2     snj {
1.3.2.2     snj
1.3.2.2     snj 	if_ipsec_set_sadb_msg(msg, extlen, SADB_X_SPDDELETE2);
1.3.2.2     snj }
1.3.2.2     snj
1.3.2.2     snj static int
1.3.2.2     snj if_ipsec_set_addr_port(struct sockaddr *addrport, struct sockaddr *addr,
1.3.2.2     snj     in_port_t port)
1.3.2.2     snj {
1.3.2.2     snj 	int error = 0;
1.3.2.2     snj
1.3.2.2     snj 	sockaddr_copy(addrport, addr->sa_len, addr);
1.3.2.2     snj
1.3.2.2     snj 	switch (addr->sa_family) {
1.3.2.2     snj #ifdef INET
1.3.2.2     snj 	case AF_INET: {
1.3.2.2     snj 		struct sockaddr_in *sin = satosin(addrport);
1.3.2.3  martin 		sin->sin_port = port;
1.3.2.2     snj 		break;
1.3.2.2     snj 	}
1.3.2.2     snj #endif /* INET */
1.3.2.2     snj #ifdef INET6
1.3.2.2     snj 	case AF_INET6: {
1.3.2.2     snj 		struct sockaddr_in6 *sin6 = satosin6(addrport);
1.3.2.3  martin 		sin6->sin6_port = port;
1.3.2.2     snj 		break;
1.3.2.2     snj 	}
1.3.2.2     snj #endif /* INET6 */
1.3.2.2     snj 	default:
1.3.2.2     snj 		log(LOG_DEBUG,
1.3.2.2     snj 		    "%s: Invalid address family: %d.\n",
1.3.2.2     snj 		    __func__, addr->sa_family);
1.3.2.2     snj 		error = EINVAL;
1.3.2.2     snj 	}
1.3.2.2     snj
1.3.2.2     snj 	return error;
1.3.2.2     snj }
1.3.2.2     snj
1.3.2.2     snj static struct secpolicy *
1.3.2.2     snj if_ipsec_add_sp0(struct sockaddr *src, in_port_t sport,
1.3.2.2     snj     struct sockaddr *dst, in_port_t dport,
1.3.2.2     snj     int dir, int proto, int level, u_int policy)
1.3.2.2     snj {
1.3.2.2     snj 	struct sadb_msg msg;
1.3.2.2     snj 	struct sadb_address xsrc, xdst;
1.3.2.2     snj 	struct sadb_x_policy xpl;
1.3.2.2     snj 	struct sadb_x_ipsecrequest xisr;
1.3.2.2     snj 	size_t size;
1.3.2.2     snj 	size_t padlen;
1.3.2.2     snj 	uint16_t ext_msg_len = 0;
1.3.2.2     snj 	struct mbuf *m;
1.3.2.2     snj
1.3.2.2     snj 	memset(&msg, 0, sizeof(msg));
1.3.2.2     snj 	memset(&xsrc, 0, sizeof(xsrc));
1.3.2.2     snj 	memset(&xdst, 0, sizeof(xdst));
1.3.2.2     snj 	memset(&xpl, 0, sizeof(xpl));
1.3.2.2     snj 	memset(&xisr, 0, sizeof(xisr));
1.3.2.2     snj
1.3.2.2     snj 	MGETHDR(m, M_WAITOK, MT_DATA);
1.3.2.2     snj
1.3.2.2     snj 	size = if_ipsec_set_sadb_src(&xsrc, src, proto);
1.3.2.2     snj 	ext_msg_len += PFKEY_UNIT64(size);
1.3.2.2     snj 	size = if_ipsec_set_sadb_dst(&xdst, dst, proto);
1.3.2.2     snj 	ext_msg_len += PFKEY_UNIT64(size);
1.3.2.3  martin 	size = if_ipsec_set_sadb_x_policy(&xpl, &xisr, policy, dir, 0, level, src, dst);
1.3.2.2     snj 	ext_msg_len += PFKEY_UNIT64(size);
1.3.2.2     snj 	if_ipsec_set_sadb_msg_add(&msg, ext_msg_len);
1.3.2.2     snj
1.3.2.2     snj 	/* build PF_KEY message */
1.3.2.2     snj
1.3.2.2     snj 	m->m_len = sizeof(msg);
1.3.2.2     snj 	m_copyback(m, 0, sizeof(msg), &msg);
1.3.2.2     snj
1.3.2.2     snj 	if_ipsec_add_mbuf(m, &xsrc, sizeof(xsrc));
1.3.2.4  martin 	if_ipsec_add_mbuf_addr_port(m, src, sport, true);
1.3.2.2     snj 	padlen = PFKEY_UNUNIT64(xsrc.sadb_address_len)
1.3.2.2     snj 		- (sizeof(xsrc) + PFKEY_ALIGN8(src->sa_len));
1.3.2.2     snj 	if_ipsec_add_pad(m, padlen);
1.3.2.2     snj
1.3.2.2     snj 	if_ipsec_add_mbuf(m, &xdst, sizeof(xdst));
1.3.2.4  martin 	if_ipsec_add_mbuf_addr_port(m, dst, dport, true);
1.3.2.2     snj 	padlen = PFKEY_UNUNIT64(xdst.sadb_address_len)
1.3.2.2     snj 		- (sizeof(xdst) + PFKEY_ALIGN8(dst->sa_len));
1.3.2.2     snj 	if_ipsec_add_pad(m, padlen);
1.3.2.2     snj
1.3.2.2     snj 	if_ipsec_add_mbuf(m, &xpl, sizeof(xpl));
1.3.2.3  martin 	if (policy == IPSEC_POLICY_IPSEC) {
1.3.2.2     snj 		if_ipsec_add_mbuf(m, &xisr, sizeof(xisr));
1.3.2.4  martin 		if_ipsec_add_mbuf_addr_port(m, src, sport, false);
1.3.2.4  martin 		if_ipsec_add_mbuf_addr_port(m, dst, dport, false);
1.3.2.3  martin 	}
1.3.2.3  martin 	padlen = PFKEY_UNUNIT64(xpl.sadb_x_policy_len) - sizeof(xpl);
1.3.2.4  martin 	if (src != NULL && dst != NULL)
1.3.2.4  martin 		padlen -= PFKEY_ALIGN8(src->sa_len + dst->sa_len);
1.3.2.3  martin 	if_ipsec_add_pad(m, padlen);
1.3.2.2     snj
1.3.2.2     snj 	/* key_kpi_spdadd() has already done KEY_SP_REF(). */
1.3.2.2     snj 	return key_kpi_spdadd(m);
1.3.2.2     snj }
1.3.2.2     snj
1.3.2.2     snj static int
1.3.2.2     snj if_ipsec_add_sp(struct ipsec_variant *var,
1.3.2.2     snj     struct sockaddr *src, in_port_t sport,
1.3.2.2     snj     struct sockaddr *dst, in_port_t dport)
1.3.2.2     snj {
1.3.2.2     snj 	struct ipsec_softc *sc = var->iv_softc;
1.3.2.2     snj 	int level;
1.3.2.2     snj 	u_int v6policy;
1.3.2.2     snj
1.3.2.2     snj 	/*
1.3.2.2     snj 	 * must delete sp before add it.
1.3.2.2     snj 	 */
1.3.2.2     snj 	KASSERT(IV_SP_IN(var) == NULL);
1.3.2.2     snj 	KASSERT(IV_SP_OUT(var) == NULL);
1.3.2.2     snj 	KASSERT(IV_SP_IN6(var) == NULL);
1.3.2.2     snj 	KASSERT(IV_SP_OUT6(var) == NULL);
1.3.2.2     snj
1.3.2.2     snj 	/*
1.3.2.2     snj 	 * can be shared?
1.3.2.2     snj 	 */
1.3.2.2     snj 	if (if_ipsec_share_sp(var))
1.3.2.2     snj 		return 0;
1.3.2.2     snj
1.3.2.2     snj 	if (if_ipsec_nat_t(sc))
1.3.2.2     snj 		level = IPSEC_LEVEL_REQUIRE;
1.3.2.2     snj 	else
1.3.2.2     snj 		level = IPSEC_LEVEL_UNIQUE;
1.3.2.2     snj
1.3.2.2     snj 	if (if_ipsec_fwd_ipv6(sc))
1.3.2.2     snj 		v6policy = IPSEC_POLICY_IPSEC;
1.3.2.2     snj 	else
1.3.2.2     snj 		v6policy = IPSEC_POLICY_DISCARD;
1.3.2.2     snj
1.3.2.2     snj 	IV_SP_IN(var) = if_ipsec_add_sp0(dst, dport, src, sport,
1.3.2.2     snj 	    IPSEC_DIR_INBOUND, IPPROTO_IPIP, level, IPSEC_POLICY_IPSEC);
1.3.2.2     snj 	if (IV_SP_IN(var) == NULL)
1.3.2.2     snj 		goto fail;
1.3.2.2     snj 	IV_SP_OUT(var) = if_ipsec_add_sp0(src, sport, dst, dport,
1.3.2.2     snj 	    IPSEC_DIR_OUTBOUND, IPPROTO_IPIP, level, IPSEC_POLICY_IPSEC);
1.3.2.2     snj 	if (IV_SP_OUT(var) == NULL)
1.3.2.2     snj 		goto fail;
1.3.2.2     snj 	IV_SP_IN6(var) = if_ipsec_add_sp0(dst, dport, src, sport,
1.3.2.2     snj 	    IPSEC_DIR_INBOUND, IPPROTO_IPV6, level, v6policy);
1.3.2.2     snj 	if (IV_SP_IN6(var) == NULL)
1.3.2.2     snj 		goto fail;
1.3.2.2     snj 	IV_SP_OUT6(var) = if_ipsec_add_sp0(src, sport, dst, dport,
1.3.2.2     snj 	    IPSEC_DIR_OUTBOUND, IPPROTO_IPV6, level, v6policy);
1.3.2.2     snj 	if (IV_SP_OUT6(var) == NULL)
1.3.2.2     snj 		goto fail;
1.3.2.2     snj
1.3.2.2     snj 	return 0;
1.3.2.2     snj
1.3.2.2     snj fail:
1.3.2.2     snj 	if (IV_SP_IN6(var) != NULL) {
1.3.2.2     snj 		if_ipsec_del_sp0(IV_SP_IN6(var));
1.3.2.2     snj 		IV_SP_IN6(var) = NULL;
1.3.2.2     snj 	}
1.3.2.2     snj 	if (IV_SP_OUT(var) != NULL) {
1.3.2.2     snj 		if_ipsec_del_sp0(IV_SP_OUT(var));
1.3.2.2     snj 		IV_SP_OUT(var) = NULL;
1.3.2.2     snj 	}
1.3.2.2     snj 	if (IV_SP_IN(var) != NULL) {
1.3.2.2     snj 		if_ipsec_del_sp0(IV_SP_IN(var));
1.3.2.2     snj 		IV_SP_IN(var) = NULL;
1.3.2.2     snj 	}
1.3.2.2     snj
1.3.2.2     snj 	return EEXIST;
1.3.2.2     snj }
1.3.2.2     snj
1.3.2.2     snj static int
1.3.2.2     snj if_ipsec_del_sp0(struct secpolicy *sp)
1.3.2.2     snj {
1.3.2.2     snj 	struct sadb_msg msg;
1.3.2.2     snj 	struct sadb_x_policy xpl;
1.3.2.2     snj 	size_t size;
1.3.2.2     snj 	uint16_t ext_msg_len = 0;
1.3.2.2     snj 	int error;
1.3.2.2     snj 	struct mbuf *m;
1.3.2.2     snj
1.3.2.2     snj 	if (sp == NULL)
1.3.2.2     snj 		return 0;
1.3.2.2     snj
1.3.2.2     snj 	memset(&msg, 0, sizeof(msg));
1.3.2.2     snj 	memset(&xpl, 0, sizeof(xpl));
1.3.2.2     snj
1.3.2.2     snj 	MGETHDR(m, M_WAITOK, MT_DATA);
1.3.2.2     snj
1.3.2.3  martin 	size = if_ipsec_set_sadb_x_policy(&xpl, NULL, 0, 0, sp->id, 0, NULL, NULL);
1.3.2.2     snj 	ext_msg_len += PFKEY_UNIT64(size);
1.3.2.2     snj
1.3.2.2     snj 	if_ipsec_set_sadb_msg_del(&msg, ext_msg_len);
1.3.2.2     snj
1.3.2.2     snj 	m->m_len = sizeof(msg);
1.3.2.2     snj 	m_copyback(m, 0, sizeof(msg), &msg);
1.3.2.2     snj
1.3.2.2     snj 	if_ipsec_add_mbuf(m, &xpl, sizeof(xpl));
1.3.2.2     snj
1.3.2.2     snj 	/*  unreference correspond to key_kpi_spdadd(). */
1.3.2.2     snj 	KEY_SP_UNREF(&sp);
1.3.2.2     snj 	error = key_kpi_spddelete2(m);
1.3.2.2     snj 	if (error != 0) {
1.3.2.2     snj 		log(LOG_ERR, "%s: cannot delete SP(ID=%u) (error=%d).\n",
1.3.2.2     snj 		    __func__, sp->id, error);
1.3.2.2     snj 	}
1.3.2.2     snj 	return error;
1.3.2.2     snj }
1.3.2.2     snj
1.3.2.2     snj static void
1.3.2.2     snj if_ipsec_del_sp(struct ipsec_variant *var)
1.3.2.2     snj {
1.3.2.2     snj
1.3.2.2     snj 	/* are the SPs shared? */
1.3.2.2     snj 	if (if_ipsec_unshare_sp(var))
1.3.2.2     snj 		return;
1.3.2.2     snj
1.3.2.2     snj 	(void)if_ipsec_del_sp0(IV_SP_OUT(var));
1.3.2.2     snj 	(void)if_ipsec_del_sp0(IV_SP_IN(var));
1.3.2.2     snj 	(void)if_ipsec_del_sp0(IV_SP_OUT6(var));
1.3.2.2     snj 	(void)if_ipsec_del_sp0(IV_SP_IN6(var));
1.3.2.2     snj 	IV_SP_IN(var) = NULL;
1.3.2.2     snj 	IV_SP_IN6(var) = NULL;
1.3.2.2     snj 	IV_SP_OUT(var) = NULL;
1.3.2.2     snj 	IV_SP_OUT6(var) = NULL;
1.3.2.2     snj }
1.3.2.2     snj
1.3.2.2     snj static int
1.3.2.2     snj if_ipsec_replace_sp(struct ipsec_softc *sc, struct ipsec_variant *ovar,
1.3.2.2     snj     struct ipsec_variant *nvar)
1.3.2.2     snj {
1.3.2.2     snj 	in_port_t src_port = 0;
1.3.2.2     snj 	in_port_t dst_port = 0;
1.3.2.2     snj 	struct sockaddr *src;
1.3.2.2     snj 	struct sockaddr *dst;
1.3.2.2     snj 	int error = 0;
1.3.2.2     snj
1.3.2.2     snj 	KASSERT(mutex_owned(&sc->ipsec_lock));
1.3.2.2     snj
1.3.2.2     snj 	if_ipsec_del_sp(ovar);
1.3.2.2     snj
1.3.2.2     snj 	src = nvar->iv_psrc;
1.3.2.2     snj 	dst = nvar->iv_pdst;
1.3.2.2     snj 	if (if_ipsec_nat_t(sc)) {
1.3.2.2     snj 		/* NAT-T enabled */
1.3.2.2     snj 		src_port = nvar->iv_sport;
1.3.2.2     snj 		dst_port = nvar->iv_dport;
1.3.2.2     snj 	}
1.3.2.2     snj 	if (src && dst)
1.3.2.2     snj 		error = if_ipsec_add_sp(nvar, src, src_port, dst, dst_port);
1.3.2.2     snj
1.3.2.2     snj 	return error;
1.3.2.2     snj }
1.3.2.2     snj
1.3.2.2     snj /*
1.3.2.2     snj  * ipsec_variant and its SPs update API.
1.3.2.2     snj  *
1.3.2.2     snj  * Assumption:
1.3.2.2     snj  * reader side dereferences sc->ipsec_var in reader critical section only,
1.3.2.2     snj  * that is, all of reader sides do not reader the sc->ipsec_var after
1.3.2.2     snj  * pserialize_perform().
1.3.2.2     snj  */
1.3.2.2     snj static int
1.3.2.2     snj if_ipsec_update_variant(struct ipsec_softc *sc, struct ipsec_variant *nvar,
1.3.2.2     snj     struct ipsec_variant *nullvar)
1.3.2.2     snj {
1.3.2.2     snj 	struct ifnet *ifp = &sc->ipsec_if;
1.3.2.2     snj 	struct ipsec_variant *ovar = sc->ipsec_var;
1.3.2.2     snj 	int error;
1.3.2.2     snj
1.3.2.2     snj 	KASSERT(mutex_owned(&sc->ipsec_lock));
1.3.2.2     snj
1.3.2.2     snj 	/*
1.3.2.2     snj 	 * To keep consistency between ipsec(4) I/F settings and SPs,
1.3.2.2     snj 	 * we stop packet processing while replacing SPs, that is, we set
1.3.2.2     snj 	 * "null" config variant to sc->ipsec_var.
1.3.2.2     snj 	 */
1.3.2.2     snj 	sc->ipsec_var = nullvar;
1.3.2.2     snj 	pserialize_perform(ipsec_psz);
1.3.2.2     snj 	psref_target_destroy(&ovar->iv_psref, iv_psref_class);
1.3.2.2     snj
1.3.2.2     snj 	error = if_ipsec_replace_sp(sc, ovar, nvar);
1.3.2.2     snj 	if (!error)
1.3.2.2     snj 		sc->ipsec_var = nvar;
1.3.2.2     snj 	else {
1.3.2.2     snj 		sc->ipsec_var = ovar; /* rollback */
1.3.2.2     snj 		psref_target_init(&ovar->iv_psref, iv_psref_class);
1.3.2.2     snj 	}
1.3.2.2     snj
1.3.2.2     snj 	pserialize_perform(ipsec_psz);
1.3.2.2     snj 	psref_target_destroy(&nullvar->iv_psref, iv_psref_class);
1.3.2.2     snj
1.3.2.2     snj 	if (if_ipsec_variant_is_configured(sc->ipsec_var))
1.3.2.2     snj 		ifp->if_flags |= IFF_RUNNING;
1.3.2.2     snj 	else
1.3.2.2     snj 		ifp->if_flags &= ~IFF_RUNNING;
1.3.2.2     snj
1.3.2.2     snj 	return error;
1.3.2.2     snj }