sys/netinet/ip_encap.c

1.65.2.4    martin /*	$NetBSD: ip_encap.c,v 1.65.2.4 2019/05/29 15:47:05 martin Exp $	*/
     1.7    itojun /*	$KAME: ip_encap.c,v 1.73 2001/10/02 08:30:58 itojun Exp $	*/
     1.1    itojun
     1.1    itojun /*
     1.1    itojun  * Copyright (C) 1995, 1996, 1997, and 1998 WIDE Project.
     1.1    itojun  * All rights reserved.
     1.1    itojun  *
     1.1    itojun  * Redistribution and use in source and binary forms, with or without
     1.1    itojun  * modification, are permitted provided that the following conditions
     1.1    itojun  * are met:
     1.1    itojun  * 1. Redistributions of source code must retain the above copyright
     1.1    itojun  *    notice, this list of conditions and the following disclaimer.
     1.1    itojun  * 2. Redistributions in binary form must reproduce the above copyright
     1.1    itojun  *    notice, this list of conditions and the following disclaimer in the
     1.1    itojun  *    documentation and/or other materials provided with the distribution.
     1.1    itojun  * 3. Neither the name of the project nor the names of its contributors
     1.1    itojun  *    may be used to endorse or promote products derived from this software
     1.1    itojun  *    without specific prior written permission.
     1.1    itojun  *
     1.1    itojun  * THIS SOFTWARE IS PROVIDED BY THE PROJECT AND CONTRIBUTORS ``AS IS'' AND
     1.1    itojun  * ANY EXPRESS OR IMPLIED WARRANTIES, INCLUDING, BUT NOT LIMITED TO, THE
     1.1    itojun  * IMPLIED WARRANTIES OF MERCHANTABILITY AND FITNESS FOR A PARTICULAR PURPOSE
     1.1    itojun  * ARE DISCLAIMED.  IN NO EVENT SHALL THE PROJECT OR CONTRIBUTORS BE LIABLE
     1.1    itojun  * FOR ANY DIRECT, INDIRECT, INCIDENTAL, SPECIAL, EXEMPLARY, OR CONSEQUENTIAL
     1.1    itojun  * DAMAGES (INCLUDING, BUT NOT LIMITED TO, PROCUREMENT OF SUBSTITUTE GOODS
     1.1    itojun  * OR SERVICES; LOSS OF USE, DATA, OR PROFITS; OR BUSINESS INTERRUPTION)
     1.1    itojun  * HOWEVER CAUSED AND ON ANY THEORY OF LIABILITY, WHETHER IN CONTRACT, STRICT
     1.1    itojun  * LIABILITY, OR TORT (INCLUDING NEGLIGENCE OR OTHERWISE) ARISING IN ANY WAY
     1.1    itojun  * OUT OF THE USE OF THIS SOFTWARE, EVEN IF ADVISED OF THE POSSIBILITY OF
     1.1    itojun  * SUCH DAMAGE.
     1.1    itojun  */
     1.1    itojun /*
     1.1    itojun  * My grandfather said that there's a devil inside tunnelling technology...
     1.1    itojun  *
     1.1    itojun  * We have surprisingly many protocols that want packets with IP protocol
     1.1    itojun  * #4 or #41.  Here's a list of protocols that want protocol #41:
     1.1    itojun  *	RFC1933 configured tunnel
     1.1    itojun  *	RFC1933 automatic tunnel
     1.1    itojun  *	RFC2401 IPsec tunnel
     1.1    itojun  *	RFC2473 IPv6 generic packet tunnelling
     1.1    itojun  *	RFC2529 6over4 tunnel
     1.7    itojun  *	RFC3056 6to4 tunnel
     1.7    itojun  *	isatap tunnel
     1.1    itojun  *	mobile-ip6 (uses RFC2473)
     1.1    itojun  * Here's a list of protocol that want protocol #4:
     1.1    itojun  *	RFC1853 IPv4-in-IPv4 tunnelling
     1.1    itojun  *	RFC2003 IPv4 encapsulation within IPv4
     1.1    itojun  *	RFC2344 reverse tunnelling for mobile-ip4
     1.1    itojun  *	RFC2401 IPsec tunnel
     1.1    itojun  * Well, what can I say.  They impose different en/decapsulation mechanism
     1.1    itojun  * from each other, so they need separate protocol handler.  The only one
     1.1    itojun  * we can easily determine by protocol # is IPsec, which always has
     1.1    itojun  * AH/ESP/IPComp header right after outer IP header.
     1.1    itojun  *
     1.1    itojun  * So, clearly good old protosw does not work for protocol #4 and #41.
     1.1    itojun  * The code will let you match protocol via src/dst address pair.
     1.1    itojun  */
     1.1    itojun /* XXX is M_NETADDR correct? */
     1.6     lukem
     1.7    itojun /*
    1.55  knakahar  * With USE_RADIX the code will use radix table for tunnel lookup, for
     1.7    itojun  * tunnels registered with encap_attach() with a addr/mask pair.
     1.7    itojun  * Faster on machines with thousands of tunnel registerations (= interfaces).
     1.7    itojun  *
     1.7    itojun  * The code assumes that radix table code can handle non-continuous netmask,
     1.7    itojun  * as it will pass radix table memory region with (src + dst) sockaddr pair.
     1.7    itojun  */
    1.55  knakahar #define USE_RADIX
     1.7    itojun
     1.6     lukem #include <sys/cdefs.h>
1.65.2.4    martin __KERNEL_RCSID(0, "$NetBSD: ip_encap.c,v 1.65.2.4 2019/05/29 15:47:05 martin Exp $");
     1.1    itojun
    1.46     pooka #ifdef _KERNEL_OPT
     1.4    itojun #include "opt_mrouting.h"
     1.4    itojun #include "opt_inet.h"
    1.61  knakahar #include "opt_net_mpsafe.h"
    1.46     pooka #endif
     1.1    itojun
     1.1    itojun #include <sys/param.h>
     1.1    itojun #include <sys/systm.h>
     1.1    itojun #include <sys/socket.h>
1.65.2.4    martin #include <sys/socketvar.h> /* for softnet_lock */
     1.1    itojun #include <sys/sockio.h>
     1.1    itojun #include <sys/mbuf.h>
     1.1    itojun #include <sys/errno.h>
     1.4    itojun #include <sys/queue.h>
    1.47  knakahar #include <sys/kmem.h>
    1.56  knakahar #include <sys/mutex.h>
    1.59  knakahar #include <sys/condvar.h>
    1.56  knakahar #include <sys/psref.h>
    1.56  knakahar #include <sys/pslist.h>
     1.1    itojun
     1.1    itojun #include <net/if.h>
     1.1    itojun
     1.1    itojun #include <netinet/in.h>
     1.1    itojun #include <netinet/in_systm.h>
     1.1    itojun #include <netinet/ip.h>
     1.1    itojun #include <netinet/ip_var.h>
     1.1    itojun #include <netinet/ip_encap.h>
     1.1    itojun #ifdef MROUTING
     1.1    itojun #include <netinet/ip_mroute.h>
     1.1    itojun #endif /* MROUTING */
     1.1    itojun
     1.1    itojun #ifdef INET6
     1.1    itojun #include <netinet/ip6.h>
     1.1    itojun #include <netinet6/ip6_var.h>
    1.51  knakahar #include <netinet6/ip6protosw.h> /* for struct ip6ctlparam */
     1.7    itojun #include <netinet6/in6_var.h>
     1.7    itojun #include <netinet6/in6_pcb.h>
     1.7    itojun #include <netinet/icmp6.h>
     1.1    itojun #endif
     1.1    itojun
     1.1    itojun #include <net/net_osdep.h>
     1.1    itojun
    1.61  knakahar #ifdef NET_MPSAFE
    1.61  knakahar #define ENCAP_MPSAFE	1
    1.61  knakahar #endif
    1.61  knakahar
     1.7    itojun enum direction { INBOUND, OUTBOUND };
     1.7    itojun
     1.7    itojun #ifdef INET
    1.56  knakahar static struct encaptab *encap4_lookup(struct mbuf *, int, int, enum direction,
    1.56  knakahar     struct psref *);
     1.7    itojun #endif
     1.7    itojun #ifdef INET6
    1.56  knakahar static struct encaptab *encap6_lookup(struct mbuf *, int, int, enum direction,
    1.56  knakahar     struct psref *);
     1.7    itojun #endif
    1.22     perry static int encap_add(struct encaptab *);
    1.22     perry static int encap_remove(struct encaptab *);
    1.22     perry static int encap_afcheck(int, const struct sockaddr *, const struct sockaddr *);
    1.55  knakahar #ifdef USE_RADIX
    1.22     perry static struct radix_node_head *encap_rnh(int);
    1.22     perry static int mask_matchlen(const struct sockaddr *);
    1.55  knakahar #else
    1.55  knakahar static int mask_match(const struct encaptab *, const struct sockaddr *,
    1.55  knakahar 		const struct sockaddr *);
    1.55  knakahar #endif
     1.1    itojun
    1.56  knakahar /*
    1.56  knakahar  * In encap[46]_lookup(), ep->func can sleep(e.g. rtalloc1) while walking
    1.56  knakahar  * encap_table. So, it cannot use pserialize_read_enter()
    1.56  knakahar  */
    1.56  knakahar static struct {
    1.56  knakahar 	struct pslist_head	list;
    1.56  knakahar 	pserialize_t		psz;
    1.56  knakahar 	struct psref_class	*elem_class; /* for the element of et_list */
    1.56  knakahar } encaptab  __cacheline_aligned = {
    1.56  knakahar 	.list = PSLIST_INITIALIZER,
    1.56  knakahar };
    1.56  knakahar #define encap_table encaptab.list
     1.1    itojun
    1.59  knakahar static struct {
    1.59  knakahar 	kmutex_t	lock;
    1.59  knakahar 	kcondvar_t	cv;
    1.59  knakahar 	struct lwp	*busy;
    1.59  knakahar } encap_whole __cacheline_aligned;
    1.59  knakahar
    1.55  knakahar #ifdef USE_RADIX
     1.7    itojun struct radix_node_head *encap_head[2];	/* 0 for AF_INET, 1 for AF_INET6 */
    1.57  knakahar static bool encap_head_updating = false;
    1.55  knakahar #endif
     1.7    itojun
    1.63     ozaki static bool encap_initialized = false;
    1.59  knakahar /*
    1.59  knakahar  * must be done before other encap interfaces initialization.
    1.59  knakahar  */
    1.59  knakahar void
    1.59  knakahar encapinit(void)
    1.59  knakahar {
    1.59  knakahar
    1.63     ozaki 	if (encap_initialized)
    1.63     ozaki 		return;
    1.63     ozaki
    1.60  knakahar 	encaptab.psz = pserialize_create();
    1.60  knakahar 	encaptab.elem_class = psref_class_create("encapelem", IPL_SOFTNET);
    1.60  knakahar
    1.59  knakahar 	mutex_init(&encap_whole.lock, MUTEX_DEFAULT, IPL_NONE);
    1.59  knakahar 	cv_init(&encap_whole.cv, "ip_encap cv");
    1.59  knakahar 	encap_whole.busy = NULL;
    1.63     ozaki
    1.63     ozaki 	encap_initialized = true;
    1.59  knakahar }
    1.59  knakahar
     1.1    itojun void
    1.23     perry encap_init(void)
     1.1    itojun {
     1.7    itojun 	static int initialized = 0;
     1.7    itojun
     1.7    itojun 	if (initialized)
     1.7    itojun 		return;
     1.7    itojun 	initialized++;
     1.1    itojun #if 0
     1.1    itojun 	/*
     1.1    itojun 	 * we cannot use LIST_INIT() here, since drivers may want to call
     1.4    itojun 	 * encap_attach(), on driver attach.  encap_init() will be called
     1.1    itojun 	 * on AF_INET{,6} initialization, which happens after driver
     1.1    itojun 	 * initialization - using LIST_INIT() here can nuke encap_attach()
     1.1    itojun 	 * from drivers.
     1.1    itojun 	 */
    1.56  knakahar 	PSLIST_INIT(&encap_table);
     1.1    itojun #endif
     1.7    itojun
    1.55  knakahar #ifdef USE_RADIX
     1.7    itojun 	/*
    1.38     pooka 	 * initialize radix lookup table when the radix subsystem is inited.
     1.7    itojun 	 */
    1.38     pooka 	rn_delayedinit((void *)&encap_head[0],
    1.38     pooka 	    sizeof(struct sockaddr_pack) << 3);
     1.7    itojun #ifdef INET6
    1.38     pooka 	rn_delayedinit((void *)&encap_head[1],
    1.38     pooka 	    sizeof(struct sockaddr_pack) << 3);
     1.7    itojun #endif
    1.55  knakahar #endif
     1.1    itojun }
     1.1    itojun
     1.4    itojun #ifdef INET
     1.7    itojun static struct encaptab *
    1.56  knakahar encap4_lookup(struct mbuf *m, int off, int proto, enum direction dir,
    1.56  knakahar     struct psref *match_psref)
     1.1    itojun {
     1.1    itojun 	struct ip *ip;
    1.33     pooka 	struct ip_pack4 pack;
     1.1    itojun 	struct encaptab *ep, *match;
     1.1    itojun 	int prio, matchprio;
    1.56  knakahar 	int s;
    1.55  knakahar #ifdef USE_RADIX
     1.7    itojun 	struct radix_node_head *rnh = encap_rnh(AF_INET);
     1.7    itojun 	struct radix_node *rn;
    1.55  knakahar #endif
     1.1    itojun
    1.41     ozaki 	KASSERT(m->m_len >= sizeof(*ip));
    1.41     ozaki
     1.1    itojun 	ip = mtod(m, struct ip *);
     1.1    itojun
    1.35    cegger 	memset(&pack, 0, sizeof(pack));
     1.7    itojun 	pack.p.sp_len = sizeof(pack);
     1.7    itojun 	pack.mine.sin_family = pack.yours.sin_family = AF_INET;
     1.7    itojun 	pack.mine.sin_len = pack.yours.sin_len = sizeof(struct sockaddr_in);
     1.7    itojun 	if (dir == INBOUND) {
     1.7    itojun 		pack.mine.sin_addr = ip->ip_dst;
     1.7    itojun 		pack.yours.sin_addr = ip->ip_src;
     1.7    itojun 	} else {
     1.7    itojun 		pack.mine.sin_addr = ip->ip_src;
     1.7    itojun 		pack.yours.sin_addr = ip->ip_dst;
     1.7    itojun 	}
     1.1    itojun
     1.1    itojun 	match = NULL;
     1.1    itojun 	matchprio = 0;
     1.7    itojun
    1.56  knakahar 	s = pserialize_read_enter();
    1.55  knakahar #ifdef USE_RADIX
    1.57  knakahar 	if (encap_head_updating) {
    1.57  knakahar 		/*
    1.57  knakahar 		 * Update in progress. Do nothing.
    1.57  knakahar 		 */
    1.57  knakahar 		pserialize_read_exit(s);
    1.57  knakahar 		return NULL;
    1.57  knakahar 	}
    1.57  knakahar
    1.30  christos 	rn = rnh->rnh_matchaddr((void *)&pack, rnh);
     1.7    itojun 	if (rn && (rn->rn_flags & RNF_ROOT) == 0) {
    1.56  knakahar 		struct encaptab *encapp = (struct encaptab *)rn;
    1.56  knakahar
    1.56  knakahar 		psref_acquire(match_psref, &encapp->psref,
    1.56  knakahar 		    encaptab.elem_class);
    1.56  knakahar 		match = encapp;
     1.7    itojun 		matchprio = mask_matchlen(match->srcmask) +
     1.7    itojun 		    mask_matchlen(match->dstmask);
     1.7    itojun 	}
    1.55  knakahar #endif
    1.56  knakahar 	PSLIST_READER_FOREACH(ep, &encap_table, struct encaptab, chain) {
    1.56  knakahar 		struct psref elem_psref;
    1.56  knakahar
     1.1    itojun 		if (ep->af != AF_INET)
     1.1    itojun 			continue;
     1.1    itojun 		if (ep->proto >= 0 && ep->proto != proto)
     1.1    itojun 			continue;
    1.56  knakahar
    1.56  knakahar 		psref_acquire(&elem_psref, &ep->psref,
    1.56  knakahar 		    encaptab.elem_class);
    1.56  knakahar 		if (ep->func) {
    1.56  knakahar 			pserialize_read_exit(s);
    1.56  knakahar 			/* ep->func is sleepable. e.g. rtalloc1 */
     1.1    itojun 			prio = (*ep->func)(m, off, proto, ep->arg);
    1.56  knakahar 			s = pserialize_read_enter();
    1.56  knakahar 		} else {
    1.55  knakahar #ifdef USE_RADIX
    1.56  knakahar 			psref_release(&elem_psref, &ep->psref,
    1.56  knakahar 			    encaptab.elem_class);
     1.7    itojun 			continue;
    1.55  knakahar #else
    1.55  knakahar 			prio = mask_match(ep, (struct sockaddr *)&pack.mine,
    1.55  knakahar 			    (struct sockaddr *)&pack.yours);
    1.55  knakahar #endif
    1.55  knakahar 		}
     1.1    itojun
     1.1    itojun 		/*
     1.1    itojun 		 * We prioritize the matches by using bit length of the
     1.1    itojun 		 * matches.  mask_match() and user-supplied matching function
     1.1    itojun 		 * should return the bit length of the matches (for example,
     1.1    itojun 		 * if both src/dst are matched for IPv4, 64 should be returned).
     1.1    itojun 		 * 0 or negative return value means "it did not match".
     1.1    itojun 		 *
     1.1    itojun 		 * The question is, since we have two "mask" portion, we
     1.1    itojun 		 * cannot really define total order between entries.
     1.1    itojun 		 * For example, which of these should be preferred?
     1.1    itojun 		 * mask_match() returns 48 (32 + 16) for both of them.
     1.1    itojun 		 *	src=3ffe::/16, dst=3ffe:501::/32
     1.1    itojun 		 *	src=3ffe:501::/32, dst=3ffe::/16
     1.1    itojun 		 *
     1.1    itojun 		 * We need to loop through all the possible candidates
     1.1    itojun 		 * to get the best match - the search takes O(n) for
     1.1    itojun 		 * n attachments (i.e. interfaces).
     1.7    itojun 		 *
     1.7    itojun 		 * For radix-based lookup, I guess source takes precedence.
     1.7    itojun 		 * See rn_{refines,lexobetter} for the correct answer.
     1.1    itojun 		 */
    1.56  knakahar 		if (prio <= 0) {
    1.56  knakahar 			psref_release(&elem_psref, &ep->psref,
    1.56  knakahar 			    encaptab.elem_class);
     1.1    itojun 			continue;
    1.56  knakahar 		}
     1.1    itojun 		if (prio > matchprio) {
    1.56  knakahar 			/* release last matched ep */
    1.56  knakahar 			if (match != NULL)
    1.56  knakahar 				psref_release(match_psref, &match->psref,
    1.56  knakahar 				    encaptab.elem_class);
    1.56  knakahar
    1.56  knakahar 			psref_copy(match_psref, &elem_psref,
    1.56  knakahar 			    encaptab.elem_class);
     1.1    itojun 			matchprio = prio;
     1.1    itojun 			match = ep;
     1.1    itojun 		}
    1.56  knakahar 		KASSERTMSG((match == NULL) || psref_held(&match->psref,
    1.56  knakahar 			encaptab.elem_class),
    1.56  knakahar 		    "current match = %p, but not hold its psref", match);
    1.56  knakahar
    1.56  knakahar 		psref_release(&elem_psref, &ep->psref,
    1.56  knakahar 		    encaptab.elem_class);
     1.1    itojun 	}
    1.56  knakahar 	pserialize_read_exit(s);
     1.1    itojun
     1.7    itojun 	return match;
     1.7    itojun }
     1.7    itojun
     1.7    itojun void
     1.7    itojun encap4_input(struct mbuf *m, ...)
     1.7    itojun {
     1.7    itojun 	int off, proto;
     1.7    itojun 	va_list ap;
    1.51  knakahar 	const struct encapsw *esw;
     1.7    itojun 	struct encaptab *match;
    1.56  knakahar 	struct psref match_psref;
     1.7    itojun
     1.7    itojun 	va_start(ap, m);
     1.7    itojun 	off = va_arg(ap, int);
     1.7    itojun 	proto = va_arg(ap, int);
     1.7    itojun 	va_end(ap);
     1.7    itojun
    1.56  knakahar 	match = encap4_lookup(m, off, proto, INBOUND, &match_psref);
     1.1    itojun 	if (match) {
     1.1    itojun 		/* found a match, "match" has the best one */
    1.51  knakahar 		esw = match->esw;
    1.51  knakahar 		if (esw && esw->encapsw4.pr_input) {
1.65.2.1       snj 			(*esw->encapsw4.pr_input)(m, off, proto, match->arg);
    1.56  knakahar 			psref_release(&match_psref, &match->psref,
    1.56  knakahar 			    encaptab.elem_class);
    1.54  knakahar 		} else {
    1.56  knakahar 			psref_release(&match_psref, &match->psref,
    1.56  knakahar 			    encaptab.elem_class);
     1.1    itojun 			m_freem(m);
    1.54  knakahar 		}
     1.1    itojun 		return;
     1.1    itojun 	}
     1.1    itojun
     1.1    itojun 	/* last resort: inject to raw socket */
1.65.2.3    martin 	SOFTNET_LOCK_IF_NET_MPSAFE();
     1.1    itojun 	rip_input(m, off, proto);
1.65.2.3    martin 	SOFTNET_UNLOCK_IF_NET_MPSAFE();
     1.1    itojun }
     1.1    itojun #endif
     1.1    itojun
     1.1    itojun #ifdef INET6
     1.7    itojun static struct encaptab *
    1.56  knakahar encap6_lookup(struct mbuf *m, int off, int proto, enum direction dir,
    1.56  knakahar     struct psref *match_psref)
     1.1    itojun {
     1.1    itojun 	struct ip6_hdr *ip6;
    1.33     pooka 	struct ip_pack6 pack;
     1.7    itojun 	int prio, matchprio;
    1.56  knakahar 	int s;
     1.1    itojun 	struct encaptab *ep, *match;
    1.55  knakahar #ifdef USE_RADIX
     1.7    itojun 	struct radix_node_head *rnh = encap_rnh(AF_INET6);
     1.7    itojun 	struct radix_node *rn;
    1.55  knakahar #endif
     1.1    itojun
    1.41     ozaki 	KASSERT(m->m_len >= sizeof(*ip6));
    1.41     ozaki
     1.1    itojun 	ip6 = mtod(m, struct ip6_hdr *);
     1.1    itojun
    1.35    cegger 	memset(&pack, 0, sizeof(pack));
     1.7    itojun 	pack.p.sp_len = sizeof(pack);
     1.7    itojun 	pack.mine.sin6_family = pack.yours.sin6_family = AF_INET6;
     1.7    itojun 	pack.mine.sin6_len = pack.yours.sin6_len = sizeof(struct sockaddr_in6);
     1.7    itojun 	if (dir == INBOUND) {
     1.7    itojun 		pack.mine.sin6_addr = ip6->ip6_dst;
     1.7    itojun 		pack.yours.sin6_addr = ip6->ip6_src;
     1.7    itojun 	} else {
     1.7    itojun 		pack.mine.sin6_addr = ip6->ip6_src;
     1.7    itojun 		pack.yours.sin6_addr = ip6->ip6_dst;
     1.7    itojun 	}
     1.1    itojun
     1.1    itojun 	match = NULL;
     1.1    itojun 	matchprio = 0;
     1.7    itojun
    1.56  knakahar 	s = pserialize_read_enter();
    1.55  knakahar #ifdef USE_RADIX
    1.57  knakahar 	if (encap_head_updating) {
    1.57  knakahar 		/*
    1.57  knakahar 		 * Update in progress. Do nothing.
    1.57  knakahar 		 */
    1.57  knakahar 		pserialize_read_exit(s);
    1.57  knakahar 		return NULL;
    1.57  knakahar 	}
    1.57  knakahar
    1.30  christos 	rn = rnh->rnh_matchaddr((void *)&pack, rnh);
     1.7    itojun 	if (rn && (rn->rn_flags & RNF_ROOT) == 0) {
    1.56  knakahar 		struct encaptab *encapp = (struct encaptab *)rn;
    1.56  knakahar
    1.56  knakahar 		psref_acquire(match_psref, &encapp->psref,
    1.56  knakahar 		    encaptab.elem_class);
    1.56  knakahar 		match = encapp;
     1.7    itojun 		matchprio = mask_matchlen(match->srcmask) +
     1.7    itojun 		    mask_matchlen(match->dstmask);
     1.7    itojun 	}
    1.55  knakahar #endif
    1.56  knakahar 	PSLIST_READER_FOREACH(ep, &encap_table, struct encaptab, chain) {
    1.56  knakahar 		struct psref elem_psref;
    1.56  knakahar
     1.1    itojun 		if (ep->af != AF_INET6)
     1.1    itojun 			continue;
     1.1    itojun 		if (ep->proto >= 0 && ep->proto != proto)
     1.1    itojun 			continue;
    1.56  knakahar
    1.56  knakahar 		psref_acquire(&elem_psref, &ep->psref,
    1.56  knakahar 		    encaptab.elem_class);
    1.56  knakahar
    1.56  knakahar 		if (ep->func) {
    1.56  knakahar 			pserialize_read_exit(s);
    1.56  knakahar 			/* ep->func is sleepable. e.g. rtalloc1 */
     1.7    itojun 			prio = (*ep->func)(m, off, proto, ep->arg);
    1.56  knakahar 			s = pserialize_read_enter();
    1.56  knakahar 		} else {
    1.55  knakahar #ifdef USE_RADIX
    1.56  knakahar 			psref_release(&elem_psref, &ep->psref,
    1.56  knakahar 			    encaptab.elem_class);
     1.7    itojun 			continue;
    1.55  knakahar #else
    1.55  knakahar 			prio = mask_match(ep, (struct sockaddr *)&pack.mine,
    1.55  knakahar 			    (struct sockaddr *)&pack.yours);
    1.55  knakahar #endif
    1.55  knakahar 		}
     1.1    itojun
     1.7    itojun 		/* see encap4_lookup() for issues here */
    1.56  knakahar 		if (prio <= 0) {
    1.56  knakahar 			psref_release(&elem_psref, &ep->psref,
    1.56  knakahar 			    encaptab.elem_class);
     1.1    itojun 			continue;
    1.56  knakahar 		}
     1.1    itojun 		if (prio > matchprio) {
    1.56  knakahar 			/* release last matched ep */
    1.56  knakahar 			if (match != NULL)
    1.56  knakahar 				psref_release(match_psref, &match->psref,
    1.56  knakahar 				    encaptab.elem_class);
    1.56  knakahar
    1.56  knakahar 			psref_copy(match_psref, &elem_psref,
    1.56  knakahar 			    encaptab.elem_class);
     1.1    itojun 			matchprio = prio;
     1.1    itojun 			match = ep;
     1.1    itojun 		}
    1.56  knakahar 		KASSERTMSG((match == NULL) || psref_held(&match->psref,
    1.56  knakahar 			encaptab.elem_class),
    1.56  knakahar 		    "current match = %p, but not hold its psref", match);
    1.56  knakahar
    1.56  knakahar 		psref_release(&elem_psref, &ep->psref,
    1.56  knakahar 		    encaptab.elem_class);
     1.1    itojun 	}
    1.56  knakahar 	pserialize_read_exit(s);
     1.1    itojun
     1.7    itojun 	return match;
     1.7    itojun }
     1.7    itojun
     1.7    itojun int
    1.23     perry encap6_input(struct mbuf **mp, int *offp, int proto)
     1.7    itojun {
     1.7    itojun 	struct mbuf *m = *mp;
    1.51  knakahar 	const struct encapsw *esw;
     1.7    itojun 	struct encaptab *match;
    1.56  knakahar 	struct psref match_psref;
1.65.2.3    martin 	int rv;
     1.7    itojun
    1.56  knakahar 	match = encap6_lookup(m, *offp, proto, INBOUND, &match_psref);
     1.7    itojun
     1.1    itojun 	if (match) {
     1.1    itojun 		/* found a match */
    1.51  knakahar 		esw = match->esw;
    1.51  knakahar 		if (esw && esw->encapsw6.pr_input) {
    1.56  knakahar 			int ret;
1.65.2.1       snj 			ret = (*esw->encapsw6.pr_input)(mp, offp, proto,
1.65.2.1       snj 			    match->arg);
    1.56  knakahar 			psref_release(&match_psref, &match->psref,
    1.56  knakahar 			    encaptab.elem_class);
    1.56  knakahar 			return ret;
     1.1    itojun 		} else {
    1.56  knakahar 			psref_release(&match_psref, &match->psref,
    1.56  knakahar 			    encaptab.elem_class);
     1.1    itojun 			m_freem(m);
     1.1    itojun 			return IPPROTO_DONE;
     1.1    itojun 		}
     1.1    itojun 	}
     1.1    itojun
     1.1    itojun 	/* last resort: inject to raw socket */
1.65.2.3    martin 	SOFTNET_LOCK_IF_NET_MPSAFE();
1.65.2.3    martin 	rv = rip6_input(mp, offp, proto);
1.65.2.3    martin 	SOFTNET_UNLOCK_IF_NET_MPSAFE();
1.65.2.3    martin 	return rv;
     1.1    itojun }
     1.1    itojun #endif
     1.1    itojun
    1.54  knakahar /*
    1.54  knakahar  * XXX
    1.54  knakahar  * The encaptab list and the rnh radix tree must be manipulated atomically.
    1.54  knakahar  */
     1.7    itojun static int
    1.23     perry encap_add(struct encaptab *ep)
     1.1    itojun {
    1.55  knakahar #ifdef USE_RADIX
     1.7    itojun 	struct radix_node_head *rnh = encap_rnh(ep->af);
    1.55  knakahar #endif
     1.1    itojun
    1.56  knakahar 	KASSERT(encap_lock_held());
    1.54  knakahar
    1.55  knakahar #ifdef USE_RADIX
     1.7    itojun 	if (!ep->func && rnh) {
    1.57  knakahar 		/* Disable access to the radix tree for reader. */
    1.57  knakahar 		encap_head_updating = true;
    1.56  knakahar 		/* Wait for all readers to drain. */
    1.56  knakahar 		pserialize_perform(encaptab.psz);
    1.56  knakahar
    1.30  christos 		if (!rnh->rnh_addaddr((void *)ep->addrpack,
    1.30  christos 		    (void *)ep->maskpack, rnh, ep->nodes)) {
    1.57  knakahar 			encap_head_updating = false;
    1.56  knakahar 			return EEXIST;
     1.7    itojun 		}
    1.57  knakahar
    1.57  knakahar 		/*
    1.57  knakahar 		 * The ep added to the radix tree must be skipped while
    1.57  knakahar 		 * encap[46]_lookup walks encaptab list. In other words,
    1.57  knakahar 		 * encap_add() does not need to care whether the ep has
    1.57  knakahar 		 * been added encaptab list or not yet.
    1.57  knakahar 		 * So, we can re-enable access to the radix tree for now.
    1.57  knakahar 		 */
    1.57  knakahar 		encap_head_updating = false;
     1.7    itojun 	}
    1.55  knakahar #endif
    1.56  knakahar 	PSLIST_WRITER_INSERT_HEAD(&encap_table, ep, chain);
     1.7    itojun
    1.56  knakahar 	return 0;
     1.7    itojun }
     1.7    itojun
    1.54  knakahar /*
    1.54  knakahar  * XXX
    1.54  knakahar  * The encaptab list and the rnh radix tree must be manipulated atomically.
    1.54  knakahar  */
     1.7    itojun static int
    1.23     perry encap_remove(struct encaptab *ep)
     1.7    itojun {
    1.55  knakahar #ifdef USE_RADIX
     1.7    itojun 	struct radix_node_head *rnh = encap_rnh(ep->af);
    1.55  knakahar #endif
     1.7    itojun 	int error = 0;
     1.7    itojun
    1.56  knakahar 	KASSERT(encap_lock_held());
    1.54  knakahar
    1.55  knakahar #ifdef USE_RADIX
     1.7    itojun 	if (!ep->func && rnh) {
    1.57  knakahar 		/* Disable access to the radix tree for reader. */
    1.57  knakahar 		encap_head_updating = true;
    1.56  knakahar 		/* Wait for all readers to drain. */
    1.56  knakahar 		pserialize_perform(encaptab.psz);
    1.56  knakahar
    1.30  christos 		if (!rnh->rnh_deladdr((void *)ep->addrpack,
    1.30  christos 		    (void *)ep->maskpack, rnh))
     1.7    itojun 			error = ESRCH;
    1.57  knakahar
    1.57  knakahar 		/*
    1.57  knakahar 		 * The ep added to the radix tree must be skipped while
    1.57  knakahar 		 * encap[46]_lookup walks encaptab list. In other words,
    1.57  knakahar 		 * encap_add() does not need to care whether the ep has
    1.57  knakahar 		 * been added encaptab list or not yet.
    1.57  knakahar 		 * So, we can re-enable access to the radix tree for now.
    1.57  knakahar 		 */
    1.57  knakahar 		encap_head_updating = false;
     1.7    itojun 	}
    1.55  knakahar #endif
    1.56  knakahar 	PSLIST_WRITER_REMOVE(ep, chain);
    1.56  knakahar
     1.7    itojun 	return error;
     1.7    itojun }
     1.7    itojun
     1.7    itojun static int
    1.23     perry encap_afcheck(int af, const struct sockaddr *sp, const struct sockaddr *dp)
     1.7    itojun {
     1.7    itojun 	if (sp && dp) {
     1.7    itojun 		if (sp->sa_len != dp->sa_len)
     1.7    itojun 			return EINVAL;
     1.7    itojun 		if (af != sp->sa_family || af != dp->sa_family)
     1.7    itojun 			return EINVAL;
     1.7    itojun 	} else if (!sp && !dp)
     1.7    itojun 		;
     1.7    itojun 	else
     1.7    itojun 		return EINVAL;
     1.7    itojun
     1.7    itojun 	switch (af) {
     1.7    itojun 	case AF_INET:
     1.7    itojun 		if (sp && sp->sa_len != sizeof(struct sockaddr_in))
     1.7    itojun 			return EINVAL;
     1.7    itojun 		if (dp && dp->sa_len != sizeof(struct sockaddr_in))
     1.7    itojun 			return EINVAL;
     1.7    itojun 		break;
     1.7    itojun #ifdef INET6
     1.7    itojun 	case AF_INET6:
     1.7    itojun 		if (sp && sp->sa_len != sizeof(struct sockaddr_in6))
     1.7    itojun 			return EINVAL;
     1.7    itojun 		if (dp && dp->sa_len != sizeof(struct sockaddr_in6))
     1.7    itojun 			return EINVAL;
     1.7    itojun 		break;
     1.7    itojun #endif
     1.7    itojun 	default:
     1.7    itojun 		return EAFNOSUPPORT;
     1.7    itojun 	}
     1.7    itojun
     1.7    itojun 	return 0;
     1.1    itojun }
     1.1    itojun
     1.1    itojun /*
     1.1    itojun  * sp (src ptr) is always my side, and dp (dst ptr) is always remote side.
     1.1    itojun  * length of mask (sm and dm) is assumed to be same as sp/dp.
     1.1    itojun  * Return value will be necessary as input (cookie) for encap_detach().
     1.1    itojun  */
     1.1    itojun const struct encaptab *
    1.23     perry encap_attach(int af, int proto,
    1.23     perry     const struct sockaddr *sp, const struct sockaddr *sm,
    1.23     perry     const struct sockaddr *dp, const struct sockaddr *dm,
    1.51  knakahar     const struct encapsw *esw, void *arg)
     1.1    itojun {
     1.1    itojun 	struct encaptab *ep;
     1.1    itojun 	int error;
    1.61  knakahar 	int pss;
     1.7    itojun 	size_t l;
    1.33     pooka 	struct ip_pack4 *pack4;
     1.7    itojun #ifdef INET6
    1.33     pooka 	struct ip_pack6 *pack6;
     1.7    itojun #endif
    1.61  knakahar #ifndef ENCAP_MPSAFE
    1.61  knakahar 	int s;
     1.1    itojun
     1.1    itojun 	s = splsoftnet();
    1.61  knakahar #endif
     1.1    itojun 	/* sanity check on args */
     1.7    itojun 	error = encap_afcheck(af, sp, dp);
     1.7    itojun 	if (error)
     1.1    itojun 		goto fail;
     1.1    itojun
     1.1    itojun 	/* check if anyone have already attached with exactly same config */
    1.56  knakahar 	pss = pserialize_read_enter();
    1.56  knakahar 	PSLIST_READER_FOREACH(ep, &encap_table, struct encaptab, chain) {
     1.1    itojun 		if (ep->af != af)
     1.1    itojun 			continue;
     1.1    itojun 		if (ep->proto != proto)
     1.1    itojun 			continue;
     1.7    itojun 		if (ep->func)
     1.7    itojun 			continue;
    1.41     ozaki
    1.43  riastrad 		KASSERT(ep->src != NULL);
    1.43  riastrad 		KASSERT(ep->dst != NULL);
    1.43  riastrad 		KASSERT(ep->srcmask != NULL);
    1.43  riastrad 		KASSERT(ep->dstmask != NULL);
    1.41     ozaki
     1.7    itojun 		if (ep->src->sa_len != sp->sa_len ||
    1.34    cegger 		    memcmp(ep->src, sp, sp->sa_len) != 0 ||
    1.34    cegger 		    memcmp(ep->srcmask, sm, sp->sa_len) != 0)
     1.7    itojun 			continue;
     1.7    itojun 		if (ep->dst->sa_len != dp->sa_len ||
    1.34    cegger 		    memcmp(ep->dst, dp, dp->sa_len) != 0 ||
    1.34    cegger 		    memcmp(ep->dstmask, dm, dp->sa_len) != 0)
     1.1    itojun 			continue;
     1.1    itojun
     1.1    itojun 		error = EEXIST;
    1.56  knakahar 		pserialize_read_exit(pss);
     1.1    itojun 		goto fail;
     1.1    itojun 	}
    1.56  knakahar 	pserialize_read_exit(pss);
     1.3   thorpej
     1.7    itojun 	switch (af) {
     1.7    itojun 	case AF_INET:
     1.7    itojun 		l = sizeof(*pack4);
     1.7    itojun 		break;
     1.7    itojun #ifdef INET6
     1.7    itojun 	case AF_INET6:
     1.7    itojun 		l = sizeof(*pack6);
     1.7    itojun 		break;
     1.7    itojun #endif
     1.7    itojun 	default:
     1.7    itojun 		goto fail;
     1.7    itojun 	}
     1.7    itojun
    1.20    itojun 	/* M_NETADDR ok? */
    1.47  knakahar 	ep = kmem_zalloc(sizeof(*ep), KM_NOSLEEP);
     1.1    itojun 	if (ep == NULL) {
     1.1    itojun 		error = ENOBUFS;
     1.1    itojun 		goto fail;
     1.1    itojun 	}
    1.47  knakahar 	ep->addrpack = kmem_zalloc(l, KM_NOSLEEP);
     1.7    itojun 	if (ep->addrpack == NULL) {
     1.7    itojun 		error = ENOBUFS;
     1.7    itojun 		goto gc;
     1.7    itojun 	}
    1.47  knakahar 	ep->maskpack = kmem_zalloc(l, KM_NOSLEEP);
     1.7    itojun 	if (ep->maskpack == NULL) {
     1.7    itojun 		error = ENOBUFS;
     1.7    itojun 		goto gc;
     1.7    itojun 	}
     1.1    itojun
     1.1    itojun 	ep->af = af;
     1.1    itojun 	ep->proto = proto;
     1.7    itojun 	ep->addrpack->sa_len = l & 0xff;
     1.7    itojun 	ep->maskpack->sa_len = l & 0xff;
     1.7    itojun 	switch (af) {
     1.7    itojun 	case AF_INET:
    1.33     pooka 		pack4 = (struct ip_pack4 *)ep->addrpack;
     1.7    itojun 		ep->src = (struct sockaddr *)&pack4->mine;
     1.7    itojun 		ep->dst = (struct sockaddr *)&pack4->yours;
    1.33     pooka 		pack4 = (struct ip_pack4 *)ep->maskpack;
     1.7    itojun 		ep->srcmask = (struct sockaddr *)&pack4->mine;
     1.7    itojun 		ep->dstmask = (struct sockaddr *)&pack4->yours;
     1.7    itojun 		break;
     1.7    itojun #ifdef INET6
     1.7    itojun 	case AF_INET6:
    1.33     pooka 		pack6 = (struct ip_pack6 *)ep->addrpack;
     1.7    itojun 		ep->src = (struct sockaddr *)&pack6->mine;
     1.7    itojun 		ep->dst = (struct sockaddr *)&pack6->yours;
    1.33     pooka 		pack6 = (struct ip_pack6 *)ep->maskpack;
     1.7    itojun 		ep->srcmask = (struct sockaddr *)&pack6->mine;
     1.7    itojun 		ep->dstmask = (struct sockaddr *)&pack6->yours;
     1.7    itojun 		break;
     1.7    itojun #endif
     1.7    itojun 	}
     1.7    itojun
    1.37   tsutsui 	memcpy(ep->src, sp, sp->sa_len);
    1.37   tsutsui 	memcpy(ep->srcmask, sm, sp->sa_len);
    1.37   tsutsui 	memcpy(ep->dst, dp, dp->sa_len);
    1.37   tsutsui 	memcpy(ep->dstmask, dm, dp->sa_len);
    1.51  knakahar 	ep->esw = esw;
     1.1    itojun 	ep->arg = arg;
    1.56  knakahar 	psref_target_init(&ep->psref, encaptab.elem_class);
     1.1    itojun
     1.7    itojun 	error = encap_add(ep);
     1.7    itojun 	if (error)
     1.7    itojun 		goto gc;
     1.1    itojun
     1.1    itojun 	error = 0;
    1.61  knakahar #ifndef ENCAP_MPSAFE
     1.1    itojun 	splx(s);
    1.61  knakahar #endif
     1.1    itojun 	return ep;
     1.1    itojun
     1.7    itojun gc:
     1.7    itojun 	if (ep->addrpack)
    1.47  knakahar 		kmem_free(ep->addrpack, l);
     1.7    itojun 	if (ep->maskpack)
    1.47  knakahar 		kmem_free(ep->maskpack, l);
     1.7    itojun 	if (ep)
    1.47  knakahar 		kmem_free(ep, sizeof(*ep));
     1.1    itojun fail:
    1.61  knakahar #ifndef ENCAP_MPSAFE
     1.1    itojun 	splx(s);
    1.61  knakahar #endif
     1.1    itojun 	return NULL;
     1.1    itojun }
     1.1    itojun
     1.1    itojun const struct encaptab *
    1.23     perry encap_attach_func(int af, int proto,
    1.26    martin     int (*func)(struct mbuf *, int, int, void *),
    1.51  knakahar     const struct encapsw *esw, void *arg)
     1.1    itojun {
     1.1    itojun 	struct encaptab *ep;
     1.1    itojun 	int error;
    1.61  knakahar #ifndef ENCAP_MPSAFE
     1.1    itojun 	int s;
     1.1    itojun
     1.1    itojun 	s = splsoftnet();
    1.61  knakahar #endif
     1.1    itojun 	/* sanity check on args */
     1.1    itojun 	if (!func) {
     1.1    itojun 		error = EINVAL;
     1.1    itojun 		goto fail;
     1.1    itojun 	}
     1.1    itojun
     1.7    itojun 	error = encap_afcheck(af, NULL, NULL);
     1.7    itojun 	if (error)
     1.7    itojun 		goto fail;
     1.7    itojun
    1.47  knakahar 	ep = kmem_alloc(sizeof(*ep), KM_NOSLEEP);	/*XXX*/
     1.1    itojun 	if (ep == NULL) {
     1.1    itojun 		error = ENOBUFS;
     1.1    itojun 		goto fail;
     1.1    itojun 	}
    1.35    cegger 	memset(ep, 0, sizeof(*ep));
     1.1    itojun
     1.1    itojun 	ep->af = af;
     1.1    itojun 	ep->proto = proto;
     1.1    itojun 	ep->func = func;
    1.51  knakahar 	ep->esw = esw;
     1.1    itojun 	ep->arg = arg;
    1.56  knakahar 	psref_target_init(&ep->psref, encaptab.elem_class);
     1.1    itojun
     1.7    itojun 	error = encap_add(ep);
     1.7    itojun 	if (error)
1.65.2.2    martin 		goto gc;
     1.1    itojun
     1.1    itojun 	error = 0;
    1.61  knakahar #ifndef ENCAP_MPSAFE
     1.1    itojun 	splx(s);
    1.61  knakahar #endif
     1.1    itojun 	return ep;
     1.1    itojun
1.65.2.2    martin gc:
1.65.2.2    martin 	kmem_free(ep, sizeof(*ep));
     1.1    itojun fail:
    1.61  knakahar #ifndef ENCAP_MPSAFE
     1.1    itojun 	splx(s);
    1.61  knakahar #endif
     1.1    itojun 	return NULL;
     1.1    itojun }
     1.1    itojun
     1.7    itojun /* XXX encap4_ctlinput() is necessary if we set DF=1 on outer IPv4 header */
     1.7    itojun
     1.7    itojun #ifdef INET6
    1.32        ad void *
    1.29    dyoung encap6_ctlinput(int cmd, const struct sockaddr *sa, void *d0)
     1.7    itojun {
     1.7    itojun 	void *d = d0;
     1.7    itojun 	struct ip6_hdr *ip6;
     1.7    itojun 	struct mbuf *m;
     1.7    itojun 	int off;
     1.7    itojun 	struct ip6ctlparam *ip6cp = NULL;
     1.7    itojun 	int nxt;
    1.56  knakahar 	int s;
     1.7    itojun 	struct encaptab *ep;
    1.51  knakahar 	const struct encapsw *esw;
     1.7    itojun
     1.7    itojun 	if (sa->sa_family != AF_INET6 ||
     1.7    itojun 	    sa->sa_len != sizeof(struct sockaddr_in6))
    1.32        ad 		return NULL;
     1.7    itojun
     1.7    itojun 	if ((unsigned)cmd >= PRC_NCMDS)
    1.32        ad 		return NULL;
     1.7    itojun 	if (cmd == PRC_HOSTDEAD)
     1.7    itojun 		d = NULL;
     1.7    itojun 	else if (cmd == PRC_MSGSIZE)
     1.7    itojun 		; /* special code is present, see below */
     1.7    itojun 	else if (inet6ctlerrmap[cmd] == 0)
    1.32        ad 		return NULL;
     1.7    itojun
     1.7    itojun 	/* if the parameter is from icmp6, decode it. */
     1.7    itojun 	if (d != NULL) {
     1.7    itojun 		ip6cp = (struct ip6ctlparam *)d;
     1.7    itojun 		m = ip6cp->ip6c_m;
     1.7    itojun 		ip6 = ip6cp->ip6c_ip6;
     1.7    itojun 		off = ip6cp->ip6c_off;
     1.7    itojun 		nxt = ip6cp->ip6c_nxt;
    1.15   mycroft
    1.15   mycroft 		if (ip6 && cmd == PRC_MSGSIZE) {
    1.15   mycroft 			int valid = 0;
    1.15   mycroft 			struct encaptab *match;
    1.56  knakahar 			struct psref elem_psref;
    1.15   mycroft
    1.15   mycroft 			/*
    1.15   mycroft 		 	* Check to see if we have a valid encap configuration.
    1.15   mycroft 		 	*/
    1.56  knakahar 			match = encap6_lookup(m, off, nxt, OUTBOUND,
    1.56  knakahar 			    &elem_psref);
    1.15   mycroft 			if (match)
    1.15   mycroft 				valid++;
    1.56  knakahar 			psref_release(&elem_psref, &match->psref,
    1.56  knakahar 			    encaptab.elem_class);
    1.15   mycroft
    1.15   mycroft 			/*
    1.15   mycroft 		 	* Depending on the value of "valid" and routing table
    1.15   mycroft 		 	* size (mtudisc_{hi,lo}wat), we will:
    1.15   mycroft 		 	* - recalcurate the new MTU and create the
    1.15   mycroft 		 	*   corresponding routing entry, or
    1.15   mycroft 		 	* - ignore the MTU change notification.
    1.15   mycroft 		 	*/
    1.15   mycroft 			icmp6_mtudisc_update((struct ip6ctlparam *)d, valid);
    1.15   mycroft 		}
     1.7    itojun 	} else {
     1.7    itojun 		m = NULL;
     1.7    itojun 		ip6 = NULL;
     1.7    itojun 		nxt = -1;
     1.7    itojun 	}
     1.7    itojun
     1.7    itojun 	/* inform all listeners */
    1.56  knakahar
    1.56  knakahar 	s = pserialize_read_enter();
    1.56  knakahar 	PSLIST_READER_FOREACH(ep, &encap_table, struct encaptab, chain) {
    1.56  knakahar 		struct psref elem_psref;
    1.56  knakahar
     1.7    itojun 		if (ep->af != AF_INET6)
     1.7    itojun 			continue;
     1.7    itojun 		if (ep->proto >= 0 && ep->proto != nxt)
     1.7    itojun 			continue;
     1.7    itojun
     1.7    itojun 		/* should optimize by looking at address pairs */
     1.7    itojun
     1.7    itojun 		/* XXX need to pass ep->arg or ep itself to listeners */
    1.56  knakahar 		psref_acquire(&elem_psref, &ep->psref,
    1.56  knakahar 		    encaptab.elem_class);
    1.51  knakahar 		esw = ep->esw;
    1.51  knakahar 		if (esw && esw->encapsw6.pr_ctlinput) {
    1.56  knakahar 			pserialize_read_exit(s);
    1.56  knakahar 			/* pr_ctlinput is sleepable. e.g. rtcache_free */
    1.52  knakahar 			(*esw->encapsw6.pr_ctlinput)(cmd, sa, d, ep->arg);
    1.56  knakahar 			s = pserialize_read_enter();
    1.51  knakahar 		}
    1.56  knakahar 		psref_release(&elem_psref, &ep->psref,
    1.56  knakahar 		    encaptab.elem_class);
     1.7    itojun 	}
    1.56  knakahar 	pserialize_read_exit(s);
     1.7    itojun
     1.7    itojun 	rip6_ctlinput(cmd, sa, d0);
    1.32        ad 	return NULL;
     1.7    itojun }
     1.7    itojun #endif
     1.7    itojun
     1.1    itojun int
    1.23     perry encap_detach(const struct encaptab *cookie)
     1.1    itojun {
     1.1    itojun 	const struct encaptab *ep = cookie;
    1.56  knakahar 	struct encaptab *p;
     1.7    itojun 	int error;
     1.1    itojun
    1.56  knakahar 	KASSERT(encap_lock_held());
    1.56  knakahar
    1.56  knakahar 	PSLIST_WRITER_FOREACH(p, &encap_table, struct encaptab, chain) {
     1.1    itojun 		if (p == ep) {
     1.7    itojun 			error = encap_remove(p);
     1.7    itojun 			if (error)
     1.7    itojun 				return error;
    1.56  knakahar 			else
    1.56  knakahar 				break;
    1.56  knakahar 		}
    1.56  knakahar 	}
    1.56  knakahar 	if (p == NULL)
    1.56  knakahar 		return ENOENT;
    1.56  knakahar
    1.56  knakahar 	pserialize_perform(encaptab.psz);
    1.56  knakahar 	psref_target_destroy(&p->psref,
    1.56  knakahar 	    encaptab.elem_class);
    1.56  knakahar 	if (!ep->func) {
    1.56  knakahar 		kmem_free(p->addrpack, ep->addrpack->sa_len);
    1.56  knakahar 		kmem_free(p->maskpack, ep->maskpack->sa_len);
     1.1    itojun 	}
    1.56  knakahar 	kmem_free(p, sizeof(*p));
     1.1    itojun
    1.56  knakahar 	return 0;
     1.7    itojun }
     1.7    itojun
    1.55  knakahar #ifdef USE_RADIX
     1.7    itojun static struct radix_node_head *
    1.23     perry encap_rnh(int af)
     1.7    itojun {
     1.7    itojun
     1.7    itojun 	switch (af) {
     1.7    itojun 	case AF_INET:
     1.7    itojun 		return encap_head[0];
     1.7    itojun #ifdef INET6
     1.7    itojun 	case AF_INET6:
     1.7    itojun 		return encap_head[1];
     1.7    itojun #endif
     1.7    itojun 	default:
     1.7    itojun 		return NULL;
     1.7    itojun 	}
     1.7    itojun }
     1.7    itojun
     1.7    itojun static int
    1.23     perry mask_matchlen(const struct sockaddr *sa)
     1.7    itojun {
     1.7    itojun 	const char *p, *ep;
     1.7    itojun 	int l;
     1.7    itojun
     1.7    itojun 	p = (const char *)sa;
     1.7    itojun 	ep = p + sa->sa_len;
     1.7    itojun 	p += 2;	/* sa_len + sa_family */
     1.7    itojun
     1.7    itojun 	l = 0;
     1.7    itojun 	while (p < ep) {
     1.7    itojun 		l += (*p ? 8 : 0);	/* estimate */
     1.7    itojun 		p++;
     1.7    itojun 	}
     1.7    itojun 	return l;
     1.1    itojun }
    1.55  knakahar #endif
    1.55  knakahar
    1.55  knakahar #ifndef USE_RADIX
    1.55  knakahar static int
    1.55  knakahar mask_match(const struct encaptab *ep,
    1.55  knakahar 	   const struct sockaddr *sp,
    1.55  knakahar 	   const struct sockaddr *dp)
    1.55  knakahar {
    1.55  knakahar 	struct sockaddr_storage s;
    1.55  knakahar 	struct sockaddr_storage d;
    1.55  knakahar 	int i;
    1.55  knakahar 	const u_int8_t *p, *q;
    1.55  knakahar 	u_int8_t *r;
    1.55  knakahar 	int matchlen;
    1.55  knakahar
    1.55  knakahar 	KASSERTMSG(ep->func == NULL, "wrong encaptab passed to mask_match");
    1.55  knakahar
    1.55  knakahar 	if (sp->sa_len > sizeof(s) || dp->sa_len > sizeof(d))
    1.55  knakahar 		return 0;
    1.55  knakahar 	if (sp->sa_family != ep->af || dp->sa_family != ep->af)
    1.55  knakahar 		return 0;
    1.55  knakahar 	if (sp->sa_len != ep->src->sa_len || dp->sa_len != ep->dst->sa_len)
    1.55  knakahar 		return 0;
    1.55  knakahar
    1.55  knakahar 	matchlen = 0;
    1.55  knakahar
    1.55  knakahar 	p = (const u_int8_t *)sp;
    1.55  knakahar 	q = (const u_int8_t *)ep->srcmask;
    1.55  knakahar 	r = (u_int8_t *)&s;
    1.55  knakahar 	for (i = 0 ; i < sp->sa_len; i++) {
    1.55  knakahar 		r[i] = p[i] & q[i];
    1.55  knakahar 		/* XXX estimate */
    1.55  knakahar 		matchlen += (q[i] ? 8 : 0);
    1.55  knakahar 	}
    1.55  knakahar
    1.55  knakahar 	p = (const u_int8_t *)dp;
    1.55  knakahar 	q = (const u_int8_t *)ep->dstmask;
    1.55  knakahar 	r = (u_int8_t *)&d;
    1.55  knakahar 	for (i = 0 ; i < dp->sa_len; i++) {
    1.55  knakahar 		r[i] = p[i] & q[i];
    1.55  knakahar 		/* XXX rough estimate */
    1.55  knakahar 		matchlen += (q[i] ? 8 : 0);
    1.55  knakahar 	}
    1.55  knakahar
    1.55  knakahar 	/* need to overwrite len/family portion as we don't compare them */
    1.55  knakahar 	s.ss_len = sp->sa_len;
    1.55  knakahar 	s.ss_family = sp->sa_family;
    1.55  knakahar 	d.ss_len = dp->sa_len;
    1.55  knakahar 	d.ss_family = dp->sa_family;
    1.55  knakahar
    1.55  knakahar 	if (memcmp(&s, ep->src, ep->src->sa_len) == 0 &&
    1.55  knakahar 	    memcmp(&d, ep->dst, ep->dst->sa_len) == 0) {
    1.55  knakahar 		return matchlen;
    1.55  knakahar 	} else
    1.55  knakahar 		return 0;
    1.55  knakahar }
    1.55  knakahar #endif
     1.1    itojun
    1.59  knakahar int
    1.54  knakahar encap_lock_enter(void)
    1.54  knakahar {
    1.59  knakahar 	int error;
    1.59  knakahar
    1.59  knakahar 	mutex_enter(&encap_whole.lock);
    1.59  knakahar 	while (encap_whole.busy != NULL) {
    1.59  knakahar 		error = cv_wait_sig(&encap_whole.cv, &encap_whole.lock);
    1.59  knakahar 		if (error) {
    1.59  knakahar 			mutex_exit(&encap_whole.lock);
    1.59  knakahar 			return error;
    1.59  knakahar 		}
    1.59  knakahar 	}
    1.59  knakahar 	KASSERT(encap_whole.busy == NULL);
    1.59  knakahar 	encap_whole.busy = curlwp;
    1.59  knakahar 	mutex_exit(&encap_whole.lock);
    1.54  knakahar
    1.59  knakahar 	return 0;
    1.54  knakahar }
    1.54  knakahar
    1.54  knakahar void
    1.54  knakahar encap_lock_exit(void)
    1.54  knakahar {
    1.54  knakahar
    1.59  knakahar 	mutex_enter(&encap_whole.lock);
    1.59  knakahar 	KASSERT(encap_whole.busy == curlwp);
    1.59  knakahar 	encap_whole.busy = NULL;
    1.59  knakahar 	cv_broadcast(&encap_whole.cv);
    1.59  knakahar 	mutex_exit(&encap_whole.lock);
    1.54  knakahar }
    1.56  knakahar
    1.56  knakahar bool
    1.56  knakahar encap_lock_held(void)
    1.56  knakahar {
    1.56  knakahar
    1.59  knakahar 	return (encap_whole.busy == curlwp);
    1.56  knakahar }