1*8129437fSbouyer /* $NetBSD: can_pcb.c,v 1.8 2019/07/20 15:34:41 bouyer Exp $ */
26e4cb2b9Sbouyer
36e4cb2b9Sbouyer /*-
46e4cb2b9Sbouyer * Copyright (c) 2003, 2017 The NetBSD Foundation, Inc.
56e4cb2b9Sbouyer * All rights reserved.
66e4cb2b9Sbouyer *
76e4cb2b9Sbouyer * This code is derived from software contributed to The NetBSD Foundation
86e4cb2b9Sbouyer * by Robert Swindells and Manuel Bouyer
96e4cb2b9Sbouyer *
106e4cb2b9Sbouyer * Redistribution and use in source and binary forms, with or without
116e4cb2b9Sbouyer * modification, are permitted provided that the following conditions
126e4cb2b9Sbouyer * are met:
136e4cb2b9Sbouyer * 1. Redistributions of source code must retain the above copyright
146e4cb2b9Sbouyer * notice, this list of conditions and the following disclaimer.
156e4cb2b9Sbouyer * 2. Redistributions in binary form must reproduce the above copyright
166e4cb2b9Sbouyer * notice, this list of conditions and the following disclaimer in the
176e4cb2b9Sbouyer * documentation and/or other materials provided with the distribution.
186e4cb2b9Sbouyer *
196e4cb2b9Sbouyer * THIS SOFTWARE IS PROVIDED BY THE NETBSD FOUNDATION, INC. AND CONTRIBUTORS
206e4cb2b9Sbouyer * ``AS IS'' AND ANY EXPRESS OR IMPLIED WARRANTIES, INCLUDING, BUT NOT LIMITED
216e4cb2b9Sbouyer * TO, THE IMPLIED WARRANTIES OF MERCHANTABILITY AND FITNESS FOR A PARTICULAR
226e4cb2b9Sbouyer * PURPOSE ARE DISCLAIMED. IN NO EVENT SHALL THE FOUNDATION OR CONTRIBUTORS
236e4cb2b9Sbouyer * BE LIABLE FOR ANY DIRECT, INDIRECT, INCIDENTAL, SPECIAL, EXEMPLARY, OR
246e4cb2b9Sbouyer * CONSEQUENTIAL DAMAGES (INCLUDING, BUT NOT LIMITED TO, PROCUREMENT OF
256e4cb2b9Sbouyer * SUBSTITUTE GOODS OR SERVICES; LOSS OF USE, DATA, OR PROFITS; OR BUSINESS
266e4cb2b9Sbouyer * INTERRUPTION) HOWEVER CAUSED AND ON ANY THEORY OF LIABILITY, WHETHER IN
276e4cb2b9Sbouyer * CONTRACT, STRICT LIABILITY, OR TORT (INCLUDING NEGLIGENCE OR OTHERWISE)
286e4cb2b9Sbouyer * ARISING IN ANY WAY OUT OF THE USE OF THIS SOFTWARE, EVEN IF ADVISED OF THE
296e4cb2b9Sbouyer * POSSIBILITY OF SUCH DAMAGE.
306e4cb2b9Sbouyer */
316e4cb2b9Sbouyer
326e4cb2b9Sbouyer #include <sys/cdefs.h>
33*8129437fSbouyer __KERNEL_RCSID(0, "$NetBSD: can_pcb.c,v 1.8 2019/07/20 15:34:41 bouyer Exp $");
346e4cb2b9Sbouyer
356e4cb2b9Sbouyer #include <sys/param.h>
366e4cb2b9Sbouyer #include <sys/systm.h>
376e4cb2b9Sbouyer #include <sys/malloc.h>
386e4cb2b9Sbouyer #include <sys/kmem.h>
396e4cb2b9Sbouyer #include <sys/mbuf.h>
406e4cb2b9Sbouyer #include <sys/protosw.h>
416e4cb2b9Sbouyer #include <sys/socket.h>
426e4cb2b9Sbouyer #include <sys/socketvar.h>
436e4cb2b9Sbouyer #include <sys/ioctl.h>
446e4cb2b9Sbouyer #include <sys/errno.h>
456e4cb2b9Sbouyer #include <sys/time.h>
466e4cb2b9Sbouyer #include <sys/pool.h>
476e4cb2b9Sbouyer #include <sys/proc.h>
486e4cb2b9Sbouyer
496e4cb2b9Sbouyer #include <net/if.h>
506e4cb2b9Sbouyer #include <net/route.h>
516e4cb2b9Sbouyer
526e4cb2b9Sbouyer #include <netcan/can.h>
536e4cb2b9Sbouyer #include <netcan/can_var.h>
546e4cb2b9Sbouyer #include <netcan/can_pcb.h>
556e4cb2b9Sbouyer
566e4cb2b9Sbouyer #define CANPCBHASH_BIND(table, ifindex) \
576e4cb2b9Sbouyer &(table)->canpt_bindhashtbl[ \
586e4cb2b9Sbouyer (ifindex) & (table)->canpt_bindhash]
596e4cb2b9Sbouyer #define CANPCBHASH_CONNECT(table, ifindex) \
606e4cb2b9Sbouyer &(table)->canpt_connecthashtbl[ \
616e4cb2b9Sbouyer (ifindex) & (table)->canpt_bindhash]
626e4cb2b9Sbouyer
636e4cb2b9Sbouyer struct pool canpcb_pool;
646e4cb2b9Sbouyer
656e4cb2b9Sbouyer void
can_pcbinit(struct canpcbtable * table,int bindhashsize,int connecthashsize)666e4cb2b9Sbouyer can_pcbinit(struct canpcbtable *table, int bindhashsize, int connecthashsize)
676e4cb2b9Sbouyer {
686e4cb2b9Sbouyer static int canpcb_pool_initialized;
696e4cb2b9Sbouyer
706e4cb2b9Sbouyer if (canpcb_pool_initialized == 0) {
716e4cb2b9Sbouyer pool_init(&canpcb_pool, sizeof(struct canpcb), 0, 0, 0,
726e4cb2b9Sbouyer "canpcbpl", NULL, IPL_SOFTNET);
736e4cb2b9Sbouyer canpcb_pool_initialized = 1;
746e4cb2b9Sbouyer }
756e4cb2b9Sbouyer
766e4cb2b9Sbouyer TAILQ_INIT(&table->canpt_queue);
776e4cb2b9Sbouyer table->canpt_bindhashtbl = hashinit(bindhashsize, HASH_LIST, true,
786e4cb2b9Sbouyer &table->canpt_bindhash);
796e4cb2b9Sbouyer table->canpt_connecthashtbl = hashinit(connecthashsize, HASH_LIST,
806e4cb2b9Sbouyer true, &table->canpt_connecthash);
816e4cb2b9Sbouyer }
826e4cb2b9Sbouyer
836e4cb2b9Sbouyer int
can_pcballoc(struct socket * so,void * v)846e4cb2b9Sbouyer can_pcballoc(struct socket *so, void *v)
856e4cb2b9Sbouyer {
866e4cb2b9Sbouyer struct canpcbtable *table = v;
876e4cb2b9Sbouyer struct canpcb *canp;
886e4cb2b9Sbouyer struct can_filter *can_init_filter;
896e4cb2b9Sbouyer int s;
906e4cb2b9Sbouyer
916e4cb2b9Sbouyer can_init_filter = kmem_alloc(sizeof(struct can_filter), KM_NOSLEEP);
926e4cb2b9Sbouyer if (can_init_filter == NULL)
936e4cb2b9Sbouyer return (ENOBUFS);
946e4cb2b9Sbouyer can_init_filter->can_id = 0;
956e4cb2b9Sbouyer can_init_filter->can_mask = 0; /* accept all by default */
966e4cb2b9Sbouyer
976e4cb2b9Sbouyer s = splnet();
986e4cb2b9Sbouyer canp = pool_get(&canpcb_pool, PR_NOWAIT);
996e4cb2b9Sbouyer splx(s);
1006e4cb2b9Sbouyer if (canp == NULL) {
1016e4cb2b9Sbouyer kmem_free(can_init_filter, sizeof(struct can_filter));
1026e4cb2b9Sbouyer return (ENOBUFS);
1036e4cb2b9Sbouyer }
1046e4cb2b9Sbouyer memset(canp, 0, sizeof(*canp));
1056e4cb2b9Sbouyer canp->canp_table = table;
1066e4cb2b9Sbouyer canp->canp_socket = so;
1076e4cb2b9Sbouyer canp->canp_filters = can_init_filter;
1086e4cb2b9Sbouyer canp->canp_nfilters = 1;
1096e4cb2b9Sbouyer mutex_init(&canp->canp_mtx, MUTEX_DEFAULT, IPL_NET);
1106e4cb2b9Sbouyer canp->canp_refcount = 1;
1116e4cb2b9Sbouyer
1126e4cb2b9Sbouyer so->so_pcb = canp;
1136e4cb2b9Sbouyer mutex_enter(&canp->canp_mtx);
1146e4cb2b9Sbouyer TAILQ_INSERT_HEAD(&table->canpt_queue, canp, canp_queue);
1156e4cb2b9Sbouyer can_pcbstate(canp, CANP_ATTACHED);
1166e4cb2b9Sbouyer mutex_exit(&canp->canp_mtx);
1176e4cb2b9Sbouyer return (0);
1186e4cb2b9Sbouyer }
1196e4cb2b9Sbouyer
1206e4cb2b9Sbouyer int
can_pcbbind(void * v,struct sockaddr_can * scan,struct lwp * l)1216e4cb2b9Sbouyer can_pcbbind(void *v, struct sockaddr_can *scan, struct lwp *l)
1226e4cb2b9Sbouyer {
1236e4cb2b9Sbouyer struct canpcb *canp = v;
1246e4cb2b9Sbouyer
1256e4cb2b9Sbouyer if (scan->can_family != AF_CAN)
1266e4cb2b9Sbouyer return (EAFNOSUPPORT);
127d020c71cSmaxv if (scan->can_len != sizeof(*scan))
128d020c71cSmaxv return EINVAL;
1296e4cb2b9Sbouyer mutex_enter(&canp->canp_mtx);
1306e4cb2b9Sbouyer if (scan->can_ifindex != 0) {
1316e4cb2b9Sbouyer canp->canp_ifp = if_byindex(scan->can_ifindex);
1329a79bbc9Sbouyer if (canp->canp_ifp == NULL ||
1339a79bbc9Sbouyer canp->canp_ifp->if_dlt != DLT_CAN_SOCKETCAN) {
1349a79bbc9Sbouyer canp->canp_ifp = NULL;
1359a79bbc9Sbouyer mutex_exit(&canp->canp_mtx);
1366e4cb2b9Sbouyer return (EADDRNOTAVAIL);
1379a79bbc9Sbouyer }
1386e4cb2b9Sbouyer soisconnected(canp->canp_socket);
1396e4cb2b9Sbouyer } else {
1406e4cb2b9Sbouyer canp->canp_ifp = NULL;
1416e4cb2b9Sbouyer canp->canp_socket->so_state &= ~SS_ISCONNECTED; /* XXX */
1426e4cb2b9Sbouyer }
1436e4cb2b9Sbouyer can_pcbstate(canp, CANP_BOUND);
1446e4cb2b9Sbouyer mutex_exit(&canp->canp_mtx);
1456e4cb2b9Sbouyer return 0;
1466e4cb2b9Sbouyer }
1476e4cb2b9Sbouyer
1486e4cb2b9Sbouyer /*
1496e4cb2b9Sbouyer * Connect from a socket to a specified address.
1506e4cb2b9Sbouyer */
1516e4cb2b9Sbouyer int
can_pcbconnect(void * v,struct sockaddr_can * scan)1526e4cb2b9Sbouyer can_pcbconnect(void *v, struct sockaddr_can *scan)
1536e4cb2b9Sbouyer {
1546e4cb2b9Sbouyer #if 0
1556e4cb2b9Sbouyer struct canpcb *canp = v;
1566e4cb2b9Sbouyer struct sockaddr_can *ifaddr = NULL;
1576e4cb2b9Sbouyer int error;
1586e4cb2b9Sbouyer #endif
1596e4cb2b9Sbouyer
1606e4cb2b9Sbouyer if (scan->can_family != AF_CAN)
1616e4cb2b9Sbouyer return (EAFNOSUPPORT);
162d020c71cSmaxv if (scan->can_len != sizeof(*scan))
163d020c71cSmaxv return EINVAL;
1646e4cb2b9Sbouyer #if 0
1656e4cb2b9Sbouyer mutex_enter(&canp->canp_mtx);
1666e4cb2b9Sbouyer memcpy(&canp->canp_dst, scan, sizeof(struct sockaddr_can));
1676e4cb2b9Sbouyer can_pcbstate(canp, CANP_CONNECTED);
1686e4cb2b9Sbouyer mutex_exit(&canp->canp_mtx);
1696e4cb2b9Sbouyer return 0;
1706e4cb2b9Sbouyer #endif
1716e4cb2b9Sbouyer return EOPNOTSUPP;
1726e4cb2b9Sbouyer }
1736e4cb2b9Sbouyer
1746e4cb2b9Sbouyer void
can_pcbdisconnect(void * v)1756e4cb2b9Sbouyer can_pcbdisconnect(void *v)
1766e4cb2b9Sbouyer {
1776e4cb2b9Sbouyer struct canpcb *canp = v;
1786e4cb2b9Sbouyer
1796e4cb2b9Sbouyer mutex_enter(&canp->canp_mtx);
1806e4cb2b9Sbouyer can_pcbstate(canp, CANP_DETACHED);
1816e4cb2b9Sbouyer mutex_exit(&canp->canp_mtx);
1826e4cb2b9Sbouyer if (canp->canp_socket->so_state & SS_NOFDREF)
1836e4cb2b9Sbouyer can_pcbdetach(canp);
1846e4cb2b9Sbouyer }
1856e4cb2b9Sbouyer
1866e4cb2b9Sbouyer void
can_pcbdetach(void * v)1876e4cb2b9Sbouyer can_pcbdetach(void *v)
1886e4cb2b9Sbouyer {
1896e4cb2b9Sbouyer struct canpcb *canp = v;
1906e4cb2b9Sbouyer struct socket *so = canp->canp_socket;
1916e4cb2b9Sbouyer
1926e4cb2b9Sbouyer KASSERT(mutex_owned(softnet_lock));
1936e4cb2b9Sbouyer so->so_pcb = NULL;
1946e4cb2b9Sbouyer mutex_enter(&canp->canp_mtx);
1956e4cb2b9Sbouyer can_pcbstate(canp, CANP_DETACHED);
1966e4cb2b9Sbouyer mutex_exit(&canp->canp_mtx);
197*8129437fSbouyer can_pcbsetfilter(canp, NULL, 0);
1986e4cb2b9Sbouyer TAILQ_REMOVE(&canp->canp_table->canpt_queue, canp, canp_queue);
1996e4cb2b9Sbouyer sofree(so); /* sofree drops the softnet_lock */
2006e4cb2b9Sbouyer canp_unref(canp);
2016e4cb2b9Sbouyer mutex_enter(softnet_lock);
2026e4cb2b9Sbouyer }
2036e4cb2b9Sbouyer
2046e4cb2b9Sbouyer void
canp_ref(struct canpcb * canp)2056e4cb2b9Sbouyer canp_ref(struct canpcb *canp)
2066e4cb2b9Sbouyer {
2076e4cb2b9Sbouyer KASSERT(mutex_owned(&canp->canp_mtx));
2086e4cb2b9Sbouyer canp->canp_refcount++;
2096e4cb2b9Sbouyer }
2106e4cb2b9Sbouyer
2116e4cb2b9Sbouyer void
canp_unref(struct canpcb * canp)2126e4cb2b9Sbouyer canp_unref(struct canpcb *canp)
2136e4cb2b9Sbouyer {
2146e4cb2b9Sbouyer mutex_enter(&canp->canp_mtx);
2156e4cb2b9Sbouyer canp->canp_refcount--;
2166e4cb2b9Sbouyer KASSERT(canp->canp_refcount >= 0);
2176e4cb2b9Sbouyer if (canp->canp_refcount > 0) {
2186e4cb2b9Sbouyer mutex_exit(&canp->canp_mtx);
2196e4cb2b9Sbouyer return;
2206e4cb2b9Sbouyer }
2216e4cb2b9Sbouyer mutex_exit(&canp->canp_mtx);
2226e4cb2b9Sbouyer mutex_destroy(&canp->canp_mtx);
2236e4cb2b9Sbouyer pool_put(&canpcb_pool, canp);
2246e4cb2b9Sbouyer }
2256e4cb2b9Sbouyer
2266e4cb2b9Sbouyer void
can_setsockaddr(struct canpcb * canp,struct sockaddr_can * scan)2276e4cb2b9Sbouyer can_setsockaddr(struct canpcb *canp, struct sockaddr_can *scan)
2286e4cb2b9Sbouyer {
2296e4cb2b9Sbouyer
2306e4cb2b9Sbouyer mutex_enter(&canp->canp_mtx);
2316e4cb2b9Sbouyer memset(scan, 0, sizeof (*scan));
2326e4cb2b9Sbouyer scan->can_family = AF_CAN;
2336e4cb2b9Sbouyer scan->can_len = sizeof(*scan);
23476000be8Sbouyer if (canp->canp_ifp)
2356e4cb2b9Sbouyer scan->can_ifindex = canp->canp_ifp->if_index;
23676000be8Sbouyer else
23776000be8Sbouyer scan->can_ifindex = 0;
2386e4cb2b9Sbouyer mutex_exit(&canp->canp_mtx);
2396e4cb2b9Sbouyer }
2406e4cb2b9Sbouyer
2416e4cb2b9Sbouyer int
can_pcbsetfilter(struct canpcb * canp,struct can_filter * fp,int nfilters)2426e4cb2b9Sbouyer can_pcbsetfilter(struct canpcb *canp, struct can_filter *fp, int nfilters)
2436e4cb2b9Sbouyer {
2446e4cb2b9Sbouyer
2456e4cb2b9Sbouyer struct can_filter *newf;
246*8129437fSbouyer struct can_filter *oldf;
247*8129437fSbouyer int oldnf;
248*8129437fSbouyer int error = 0;
2496e4cb2b9Sbouyer
2506e4cb2b9Sbouyer if (nfilters > 0) {
2516e4cb2b9Sbouyer newf =
2526e4cb2b9Sbouyer kmem_alloc(sizeof(struct can_filter) * nfilters, KM_SLEEP);
2536e4cb2b9Sbouyer memcpy(newf, fp, sizeof(struct can_filter) * nfilters);
2546e4cb2b9Sbouyer } else {
2556e4cb2b9Sbouyer newf = NULL;
2566e4cb2b9Sbouyer }
257*8129437fSbouyer mutex_enter(&canp->canp_mtx);
258*8129437fSbouyer oldf = canp->canp_filters;
259*8129437fSbouyer oldnf = canp->canp_nfilters;
260*8129437fSbouyer if (newf != NULL && canp->canp_state == CANP_DETACHED) {
261*8129437fSbouyer error = ECONNRESET;
262*8129437fSbouyer } else {
2636e4cb2b9Sbouyer canp->canp_filters = newf;
2646e4cb2b9Sbouyer canp->canp_nfilters = nfilters;
265*8129437fSbouyer newf = NULL;
266*8129437fSbouyer }
267*8129437fSbouyer mutex_exit(&canp->canp_mtx);
268*8129437fSbouyer if (oldf != NULL) {
269*8129437fSbouyer kmem_free(oldf, sizeof(struct can_filter) * oldnf);
270*8129437fSbouyer }
271*8129437fSbouyer if (newf != NULL) {
272*8129437fSbouyer kmem_free(newf, sizeof(struct can_filter) * nfilters);
273*8129437fSbouyer }
274*8129437fSbouyer return error;
2756e4cb2b9Sbouyer }
2766e4cb2b9Sbouyer
2776e4cb2b9Sbouyer
2786e4cb2b9Sbouyer
2796e4cb2b9Sbouyer #if 0
2806e4cb2b9Sbouyer /*
2816e4cb2b9Sbouyer * Pass some notification to all connections of a protocol
2826e4cb2b9Sbouyer * associated with address dst. The local address and/or port numbers
2836e4cb2b9Sbouyer * may be specified to limit the search. The "usual action" will be
2846e4cb2b9Sbouyer * taken, depending on the ctlinput cmd. The caller must filter any
2856e4cb2b9Sbouyer * cmds that are uninteresting (e.g., no error in the map).
2866e4cb2b9Sbouyer * Call the protocol specific routine (if any) to report
2876e4cb2b9Sbouyer * any errors for each matching socket.
2886e4cb2b9Sbouyer *
2896e4cb2b9Sbouyer * Must be called at splsoftnet.
2906e4cb2b9Sbouyer */
2916e4cb2b9Sbouyer int
2926e4cb2b9Sbouyer can_pcbnotify(struct canpcbtable *table, u_int32_t faddr, u_int32_t laddr,
2936e4cb2b9Sbouyer int errno, void (*notify)(struct canpcb *, int))
2946e4cb2b9Sbouyer {
2956e4cb2b9Sbouyer struct canpcbhead *head;
2966e4cb2b9Sbouyer struct canpcb *canp, *ncanp;
2976e4cb2b9Sbouyer int nmatch;
2986e4cb2b9Sbouyer
2996e4cb2b9Sbouyer if (faddr == 0 || notify == 0)
3006e4cb2b9Sbouyer return (0);
3016e4cb2b9Sbouyer
3026e4cb2b9Sbouyer nmatch = 0;
3036e4cb2b9Sbouyer head = CANPCBHASH_CONNECT(table, faddr, laddr);
3046e4cb2b9Sbouyer for (canp = LIST_FIRST(head); canp != NULL; canp = ncanp) {
3056e4cb2b9Sbouyer ncanp = LIST_NEXT(canp, canp_hash);
3066e4cb2b9Sbouyer if (canp->canp_faddr == faddr &&
3076e4cb2b9Sbouyer canp->canp_laddr == laddr) {
3086e4cb2b9Sbouyer (*notify)(canp, errno);
3096e4cb2b9Sbouyer nmatch++;
3106e4cb2b9Sbouyer }
3116e4cb2b9Sbouyer }
3126e4cb2b9Sbouyer return (nmatch);
3136e4cb2b9Sbouyer }
3146e4cb2b9Sbouyer
3156e4cb2b9Sbouyer void
3166e4cb2b9Sbouyer can_pcbnotifyall(struct canpcbtable *table, u_int32_t faddr, int errno,
3176e4cb2b9Sbouyer void (*notify)(struct canpcb *, int))
3186e4cb2b9Sbouyer {
3196e4cb2b9Sbouyer struct canpcb *canp, *ncanp;
3206e4cb2b9Sbouyer
3216e4cb2b9Sbouyer if (faddr == 0 || notify == 0)
3226e4cb2b9Sbouyer return;
3236e4cb2b9Sbouyer
3246e4cb2b9Sbouyer TAILQ_FOREACH_SAFE(canp, &table->canpt_queue, canp_queue, ncanp) {
3256e4cb2b9Sbouyer if (canp->canp_faddr == faddr)
3266e4cb2b9Sbouyer (*notify)(canp, errno);
3276e4cb2b9Sbouyer }
3286e4cb2b9Sbouyer }
3296e4cb2b9Sbouyer #endif
3306e4cb2b9Sbouyer
3316e4cb2b9Sbouyer #if 0
3326e4cb2b9Sbouyer void
3336e4cb2b9Sbouyer can_pcbpurgeif0(struct canpcbtable *table, struct ifnet *ifp)
3346e4cb2b9Sbouyer {
3356e4cb2b9Sbouyer struct canpcb *canp, *ncanp;
3366e4cb2b9Sbouyer struct ip_moptions *imo;
3376e4cb2b9Sbouyer int i, gap;
3386e4cb2b9Sbouyer
3396e4cb2b9Sbouyer }
3406e4cb2b9Sbouyer
3416e4cb2b9Sbouyer void
3426e4cb2b9Sbouyer can_pcbpurgeif(struct canpcbtable *table, struct ifnet *ifp)
3436e4cb2b9Sbouyer {
3446e4cb2b9Sbouyer struct canpcb *canp, *ncanp;
3456e4cb2b9Sbouyer
3466e4cb2b9Sbouyer for (canp = CIRCLEQ_FIRST(&table->canpt_queue);
3476e4cb2b9Sbouyer canp != (void *)&table->canpt_queue;
3486e4cb2b9Sbouyer canp = ncanp) {
3496e4cb2b9Sbouyer ncanp = CIRCLEQ_NEXT(canp, canp_queue);
3506e4cb2b9Sbouyer }
3516e4cb2b9Sbouyer }
3526e4cb2b9Sbouyer #endif
3536e4cb2b9Sbouyer
3546e4cb2b9Sbouyer
3556e4cb2b9Sbouyer
3566e4cb2b9Sbouyer void
can_pcbstate(struct canpcb * canp,int state)3576e4cb2b9Sbouyer can_pcbstate(struct canpcb *canp, int state)
3586e4cb2b9Sbouyer {
3596e4cb2b9Sbouyer int ifindex = canp->canp_ifp ? canp->canp_ifp->if_index : 0;
3606e4cb2b9Sbouyer KASSERT(mutex_owned(&canp->canp_mtx));
3616e4cb2b9Sbouyer
3626e4cb2b9Sbouyer if (canp->canp_state > CANP_ATTACHED)
3636e4cb2b9Sbouyer LIST_REMOVE(canp, canp_hash);
3646e4cb2b9Sbouyer
3656e4cb2b9Sbouyer switch (state) {
3666e4cb2b9Sbouyer case CANP_BOUND:
3676e4cb2b9Sbouyer LIST_INSERT_HEAD(CANPCBHASH_BIND(canp->canp_table,
3686e4cb2b9Sbouyer ifindex), canp, canp_hash);
3696e4cb2b9Sbouyer break;
3706e4cb2b9Sbouyer case CANP_CONNECTED:
3716e4cb2b9Sbouyer LIST_INSERT_HEAD(CANPCBHASH_CONNECT(canp->canp_table,
3726e4cb2b9Sbouyer ifindex), canp, canp_hash);
3736e4cb2b9Sbouyer break;
3746e4cb2b9Sbouyer }
3756e4cb2b9Sbouyer
3766e4cb2b9Sbouyer canp->canp_state = state;
3776e4cb2b9Sbouyer }
3786e4cb2b9Sbouyer
3796e4cb2b9Sbouyer /*
3806e4cb2b9Sbouyer * check mbuf against socket accept filter.
3816e4cb2b9Sbouyer * returns true if mbuf is accepted, false otherwise
3826e4cb2b9Sbouyer */
3836e4cb2b9Sbouyer bool
can_pcbfilter(struct canpcb * canp,struct mbuf * m)3846e4cb2b9Sbouyer can_pcbfilter(struct canpcb *canp, struct mbuf *m)
3856e4cb2b9Sbouyer {
3866e4cb2b9Sbouyer int i;
3876e4cb2b9Sbouyer struct can_frame *fmp;
3886e4cb2b9Sbouyer struct can_filter *fip;
3896e4cb2b9Sbouyer
3906e4cb2b9Sbouyer KASSERT(mutex_owned(&canp->canp_mtx));
3916e4cb2b9Sbouyer KASSERT((m->m_flags & M_PKTHDR) != 0);
3926e4cb2b9Sbouyer KASSERT(m->m_len == m->m_pkthdr.len);
3936e4cb2b9Sbouyer
3946e4cb2b9Sbouyer fmp = mtod(m, struct can_frame *);
3956e4cb2b9Sbouyer for (i = 0; i < canp->canp_nfilters; i++) {
3966e4cb2b9Sbouyer fip = &canp->canp_filters[i];
3976e4cb2b9Sbouyer if ((fmp->can_id & fip->can_mask) == fip->can_id)
3986e4cb2b9Sbouyer return true;
3996e4cb2b9Sbouyer }
4006e4cb2b9Sbouyer /* no match */
4016e4cb2b9Sbouyer return false;
4026e4cb2b9Sbouyer }
403