if_vlan.c revision 1.78.2.12
1 1.78.2.12 skrll /* $NetBSD: if_vlan.c,v 1.78.2.12 2017/08/28 17:53:11 skrll Exp $ */ 2 1.1 thorpej 3 1.1 thorpej /*- 4 1.31 thorpej * Copyright (c) 2000, 2001 The NetBSD Foundation, Inc. 5 1.1 thorpej * All rights reserved. 6 1.1 thorpej * 7 1.1 thorpej * This code is derived from software contributed to The NetBSD Foundation 8 1.11 thorpej * by Andrew Doran, and by Jason R. Thorpe of Zembu Labs, Inc. 9 1.1 thorpej * 10 1.1 thorpej * Redistribution and use in source and binary forms, with or without 11 1.1 thorpej * modification, are permitted provided that the following conditions 12 1.1 thorpej * are met: 13 1.1 thorpej * 1. Redistributions of source code must retain the above copyright 14 1.1 thorpej * notice, this list of conditions and the following disclaimer. 15 1.1 thorpej * 2. Redistributions in binary form must reproduce the above copyright 16 1.1 thorpej * notice, this list of conditions and the following disclaimer in the 17 1.1 thorpej * documentation and/or other materials provided with the distribution. 18 1.1 thorpej * 19 1.1 thorpej * THIS SOFTWARE IS PROVIDED BY THE NETBSD FOUNDATION, INC. AND CONTRIBUTORS 20 1.1 thorpej * ``AS IS'' AND ANY EXPRESS OR IMPLIED WARRANTIES, INCLUDING, BUT NOT LIMITED 21 1.1 thorpej * TO, THE IMPLIED WARRANTIES OF MERCHANTABILITY AND FITNESS FOR A PARTICULAR 22 1.1 thorpej * PURPOSE ARE DISCLAIMED. IN NO EVENT SHALL THE FOUNDATION OR CONTRIBUTORS 23 1.1 thorpej * BE LIABLE FOR ANY DIRECT, INDIRECT, INCIDENTAL, SPECIAL, EXEMPLARY, OR 24 1.1 thorpej * CONSEQUENTIAL DAMAGES (INCLUDING, BUT NOT LIMITED TO, PROCUREMENT OF 25 1.1 thorpej * SUBSTITUTE GOODS OR SERVICES; LOSS OF USE, DATA, OR PROFITS; OR BUSINESS 26 1.1 thorpej * INTERRUPTION) HOWEVER CAUSED AND ON ANY THEORY OF LIABILITY, WHETHER IN 27 1.1 thorpej * CONTRACT, STRICT LIABILITY, OR TORT (INCLUDING NEGLIGENCE OR OTHERWISE) 28 1.1 thorpej * ARISING IN ANY WAY OUT OF THE USE OF THIS SOFTWARE, EVEN IF ADVISED OF THE 29 1.1 thorpej * POSSIBILITY OF SUCH DAMAGE. 30 1.1 thorpej */ 31 1.1 thorpej 32 1.1 thorpej /* 33 1.1 thorpej * Copyright 1998 Massachusetts Institute of Technology 34 1.1 thorpej * 35 1.1 thorpej * Permission to use, copy, modify, and distribute this software and 36 1.1 thorpej * its documentation for any purpose and without fee is hereby 37 1.1 thorpej * granted, provided that both the above copyright notice and this 38 1.1 thorpej * permission notice appear in all copies, that both the above 39 1.1 thorpej * copyright notice and this permission notice appear in all 40 1.1 thorpej * supporting documentation, and that the name of M.I.T. not be used 41 1.1 thorpej * in advertising or publicity pertaining to distribution of the 42 1.1 thorpej * software without specific, written prior permission. M.I.T. makes 43 1.1 thorpej * no representations about the suitability of this software for any 44 1.1 thorpej * purpose. It is provided "as is" without express or implied 45 1.1 thorpej * warranty. 46 1.44 perry * 47 1.1 thorpej * THIS SOFTWARE IS PROVIDED BY M.I.T. ``AS IS''. M.I.T. DISCLAIMS 48 1.1 thorpej * ALL EXPRESS OR IMPLIED WARRANTIES WITH REGARD TO THIS SOFTWARE, 49 1.1 thorpej * INCLUDING, BUT NOT LIMITED TO, THE IMPLIED WARRANTIES OF 50 1.1 thorpej * MERCHANTABILITY AND FITNESS FOR A PARTICULAR PURPOSE. IN NO EVENT 51 1.1 thorpej * SHALL M.I.T. BE LIABLE FOR ANY DIRECT, INDIRECT, INCIDENTAL, 52 1.1 thorpej * SPECIAL, EXEMPLARY, OR CONSEQUENTIAL DAMAGES (INCLUDING, BUT NOT 53 1.1 thorpej * LIMITED TO, PROCUREMENT OF SUBSTITUTE GOODS OR SERVICES; LOSS OF 54 1.1 thorpej * USE, DATA, OR PROFITS; OR BUSINESS INTERRUPTION) HOWEVER CAUSED AND 55 1.1 thorpej * ON ANY THEORY OF LIABILITY, WHETHER IN CONTRACT, STRICT LIABILITY, 56 1.1 thorpej * OR TORT (INCLUDING NEGLIGENCE OR OTHERWISE) ARISING IN ANY WAY OUT 57 1.1 thorpej * OF THE USE OF THIS SOFTWARE, EVEN IF ADVISED OF THE POSSIBILITY OF 58 1.1 thorpej * SUCH DAMAGE. 59 1.1 thorpej * 60 1.1 thorpej * from FreeBSD: if_vlan.c,v 1.16 2000/03/26 15:21:40 charnier Exp 61 1.1 thorpej * via OpenBSD: if_vlan.c,v 1.4 2000/05/15 19:15:00 chris Exp 62 1.1 thorpej */ 63 1.1 thorpej 64 1.1 thorpej /* 65 1.1 thorpej * if_vlan.c - pseudo-device driver for IEEE 802.1Q virtual LANs. Might be 66 1.1 thorpej * extended some day to also handle IEEE 802.1P priority tagging. This is 67 1.1 thorpej * sort of sneaky in the implementation, since we need to pretend to be 68 1.1 thorpej * enough of an Ethernet implementation to make ARP work. The way we do 69 1.1 thorpej * this is by telling everyone that we are an Ethernet interface, and then 70 1.1 thorpej * catch the packets that ether_output() left on our output queue when it 71 1.1 thorpej * calls if_start(), rewrite them for use by the real outgoing interface, 72 1.1 thorpej * and ask it to send them. 73 1.1 thorpej * 74 1.1 thorpej * TODO: 75 1.1 thorpej * 76 1.1 thorpej * - Need some way to notify vlan interfaces when the parent 77 1.1 thorpej * interface changes MTU. 78 1.1 thorpej */ 79 1.33 lukem 80 1.33 lukem #include <sys/cdefs.h> 81 1.78.2.12 skrll __KERNEL_RCSID(0, "$NetBSD: if_vlan.c,v 1.78.2.12 2017/08/28 17:53:11 skrll Exp $"); 82 1.1 thorpej 83 1.78.2.1 skrll #ifdef _KERNEL_OPT 84 1.1 thorpej #include "opt_inet.h" 85 1.78.2.1 skrll #include "opt_net_mpsafe.h" 86 1.78.2.1 skrll #endif 87 1.1 thorpej 88 1.1 thorpej #include <sys/param.h> 89 1.78.2.12 skrll #include <sys/systm.h> 90 1.1 thorpej #include <sys/kernel.h> 91 1.1 thorpej #include <sys/mbuf.h> 92 1.1 thorpej #include <sys/queue.h> 93 1.1 thorpej #include <sys/socket.h> 94 1.1 thorpej #include <sys/sockio.h> 95 1.1 thorpej #include <sys/systm.h> 96 1.1 thorpej #include <sys/proc.h> 97 1.48 elad #include <sys/kauth.h> 98 1.76 ozaki #include <sys/mutex.h> 99 1.78.2.12 skrll #include <sys/kmem.h> 100 1.78.2.12 skrll #include <sys/cpu.h> 101 1.78.2.12 skrll #include <sys/pserialize.h> 102 1.78.2.12 skrll #include <sys/psref.h> 103 1.78.2.12 skrll #include <sys/pslist.h> 104 1.78.2.12 skrll #include <sys/atomic.h> 105 1.78.2.9 skrll #include <sys/device.h> 106 1.78.2.9 skrll #include <sys/module.h> 107 1.1 thorpej 108 1.1 thorpej #include <net/bpf.h> 109 1.1 thorpej #include <net/if.h> 110 1.1 thorpej #include <net/if_dl.h> 111 1.1 thorpej #include <net/if_types.h> 112 1.1 thorpej #include <net/if_ether.h> 113 1.1 thorpej #include <net/if_vlanvar.h> 114 1.1 thorpej 115 1.1 thorpej #ifdef INET 116 1.1 thorpej #include <netinet/in.h> 117 1.1 thorpej #include <netinet/if_inarp.h> 118 1.1 thorpej #endif 119 1.74 ozaki #ifdef INET6 120 1.74 ozaki #include <netinet6/in6_ifattach.h> 121 1.78.2.12 skrll #include <netinet6/in6_var.h> 122 1.74 ozaki #endif 123 1.1 thorpej 124 1.78.2.3 skrll #include "ioconf.h" 125 1.78.2.3 skrll 126 1.78.2.12 skrll #ifdef NET_MPSAFE 127 1.78.2.12 skrll #define VLAN_MPSAFE 1 128 1.78.2.12 skrll #endif 129 1.78.2.12 skrll 130 1.10 thorpej struct vlan_mc_entry { 131 1.10 thorpej LIST_ENTRY(vlan_mc_entry) mc_entries; 132 1.10 thorpej /* 133 1.10 thorpej * A key to identify this entry. The mc_addr below can't be 134 1.10 thorpej * used since multiple sockaddr may mapped into the same 135 1.10 thorpej * ether_multi (e.g., AF_UNSPEC). 136 1.10 thorpej */ 137 1.10 thorpej union { 138 1.10 thorpej struct ether_multi *mcu_enm; 139 1.10 thorpej } mc_u; 140 1.10 thorpej struct sockaddr_storage mc_addr; 141 1.10 thorpej }; 142 1.10 thorpej 143 1.10 thorpej #define mc_enm mc_u.mcu_enm 144 1.10 thorpej 145 1.78.2.12 skrll 146 1.78.2.12 skrll struct ifvlan_linkmib { 147 1.78.2.12 skrll struct ifvlan *ifvm_ifvlan; 148 1.78.2.12 skrll const struct vlan_multisw *ifvm_msw; 149 1.78.2.12 skrll int ifvm_encaplen; /* encapsulation length */ 150 1.78.2.12 skrll int ifvm_mtufudge; /* MTU fudged by this much */ 151 1.78.2.12 skrll int ifvm_mintu; /* min transmission unit */ 152 1.78.2.12 skrll uint16_t ifvm_proto; /* encapsulation ethertype */ 153 1.78.2.12 skrll uint16_t ifvm_tag; /* tag to apply on packets */ 154 1.78.2.12 skrll struct ifnet *ifvm_p; /* parent interface of this vlan */ 155 1.78.2.12 skrll 156 1.78.2.12 skrll struct psref_target ifvm_psref; 157 1.78.2.12 skrll }; 158 1.78.2.12 skrll 159 1.10 thorpej struct ifvlan { 160 1.10 thorpej union { 161 1.10 thorpej struct ethercom ifvu_ec; 162 1.10 thorpej } ifv_u; 163 1.78.2.12 skrll struct ifvlan_linkmib *ifv_mib; /* 164 1.78.2.12 skrll * reader must use vlan_getref_linkmib() 165 1.78.2.12 skrll * instead of direct dereference 166 1.78.2.12 skrll */ 167 1.78.2.12 skrll kmutex_t ifv_lock; /* writer lock for ifv_mib */ 168 1.78.2.12 skrll 169 1.10 thorpej LIST_HEAD(__vlan_mchead, vlan_mc_entry) ifv_mc_listhead; 170 1.10 thorpej LIST_ENTRY(ifvlan) ifv_list; 171 1.78.2.12 skrll struct pslist_entry ifv_hash; 172 1.17 thorpej int ifv_flags; 173 1.10 thorpej }; 174 1.10 thorpej 175 1.17 thorpej #define IFVF_PROMISC 0x01 /* promiscuous mode enabled */ 176 1.17 thorpej 177 1.10 thorpej #define ifv_ec ifv_u.ifvu_ec 178 1.10 thorpej 179 1.10 thorpej #define ifv_if ifv_ec.ec_if 180 1.10 thorpej 181 1.10 thorpej #define ifv_msw ifv_mib.ifvm_msw 182 1.10 thorpej #define ifv_encaplen ifv_mib.ifvm_encaplen 183 1.10 thorpej #define ifv_mtufudge ifv_mib.ifvm_mtufudge 184 1.10 thorpej #define ifv_mintu ifv_mib.ifvm_mintu 185 1.10 thorpej #define ifv_tag ifv_mib.ifvm_tag 186 1.10 thorpej 187 1.10 thorpej struct vlan_multisw { 188 1.10 thorpej int (*vmsw_addmulti)(struct ifvlan *, struct ifreq *); 189 1.10 thorpej int (*vmsw_delmulti)(struct ifvlan *, struct ifreq *); 190 1.10 thorpej void (*vmsw_purgemulti)(struct ifvlan *); 191 1.10 thorpej }; 192 1.10 thorpej 193 1.10 thorpej static int vlan_ether_addmulti(struct ifvlan *, struct ifreq *); 194 1.10 thorpej static int vlan_ether_delmulti(struct ifvlan *, struct ifreq *); 195 1.10 thorpej static void vlan_ether_purgemulti(struct ifvlan *); 196 1.10 thorpej 197 1.10 thorpej const struct vlan_multisw vlan_ether_multisw = { 198 1.10 thorpej vlan_ether_addmulti, 199 1.10 thorpej vlan_ether_delmulti, 200 1.10 thorpej vlan_ether_purgemulti, 201 1.10 thorpej }; 202 1.10 thorpej 203 1.1 thorpej static int vlan_clone_create(struct if_clone *, int); 204 1.42 peter static int vlan_clone_destroy(struct ifnet *); 205 1.78.2.12 skrll static int vlan_config(struct ifvlan *, struct ifnet *, 206 1.78.2.12 skrll uint16_t); 207 1.53 christos static int vlan_ioctl(struct ifnet *, u_long, void *); 208 1.1 thorpej static void vlan_start(struct ifnet *); 209 1.78.2.12 skrll static int vlan_transmit(struct ifnet *, struct mbuf *); 210 1.11 thorpej static void vlan_unconfig(struct ifnet *); 211 1.78.2.12 skrll static int vlan_unconfig_locked(struct ifvlan *, 212 1.78.2.12 skrll struct ifvlan_linkmib *); 213 1.78.2.12 skrll static void vlan_hash_init(void); 214 1.78.2.12 skrll static int vlan_hash_fini(void); 215 1.78.2.12 skrll static struct ifvlan_linkmib* vlan_getref_linkmib(struct ifvlan *, 216 1.78.2.12 skrll struct psref *); 217 1.78.2.12 skrll static void vlan_putref_linkmib(struct ifvlan_linkmib *, 218 1.78.2.12 skrll struct psref *); 219 1.78.2.12 skrll static void vlan_linkmib_update(struct ifvlan *, 220 1.78.2.12 skrll struct ifvlan_linkmib *); 221 1.78.2.12 skrll static struct ifvlan_linkmib* vlan_lookup_tag_psref(struct ifnet *, 222 1.78.2.12 skrll uint16_t, struct psref *); 223 1.78.2.12 skrll static int tag_hash_func(uint16_t, u_long); 224 1.78.2.12 skrll 225 1.78.2.12 skrll LIST_HEAD(vlan_ifvlist, ifvlan); 226 1.78.2.12 skrll static struct { 227 1.78.2.12 skrll kmutex_t lock; 228 1.78.2.12 skrll struct vlan_ifvlist list; 229 1.78.2.12 skrll } ifv_list __cacheline_aligned; 230 1.10 thorpej 231 1.1 thorpej 232 1.78.2.12 skrll #if !defined(VLAN_TAG_HASH_SIZE) 233 1.78.2.12 skrll #define VLAN_TAG_HASH_SIZE 32 234 1.78.2.12 skrll #endif 235 1.78.2.12 skrll static struct { 236 1.78.2.12 skrll kmutex_t lock; 237 1.78.2.12 skrll struct pslist_head *lists; 238 1.78.2.12 skrll u_long mask; 239 1.78.2.12 skrll } ifv_hash __cacheline_aligned = { 240 1.78.2.12 skrll .lists = NULL, 241 1.78.2.12 skrll .mask = 0, 242 1.78.2.12 skrll }; 243 1.78.2.12 skrll 244 1.78.2.12 skrll pserialize_t vlan_psz __read_mostly; 245 1.78.2.12 skrll static struct psref_class *ifvm_psref_class __read_mostly; 246 1.76 ozaki 247 1.1 thorpej struct if_clone vlan_cloner = 248 1.1 thorpej IF_CLONE_INITIALIZER("vlan", vlan_clone_create, vlan_clone_destroy); 249 1.1 thorpej 250 1.38 scw /* Used to pad ethernet frames with < ETHER_MIN_LEN bytes */ 251 1.38 scw static char vlan_zero_pad_buff[ETHER_MIN_LEN]; 252 1.38 scw 253 1.1 thorpej void 254 1.52 christos vlanattach(int n) 255 1.1 thorpej { 256 1.1 thorpej 257 1.78.2.9 skrll /* 258 1.78.2.9 skrll * Nothing to do here, initialization is handled by the 259 1.78.2.9 skrll * module initialization code in vlaninit() below). 260 1.78.2.9 skrll */ 261 1.78.2.9 skrll } 262 1.78.2.9 skrll 263 1.78.2.9 skrll static void 264 1.78.2.9 skrll vlaninit(void) 265 1.78.2.9 skrll { 266 1.78.2.12 skrll mutex_init(&ifv_list.lock, MUTEX_DEFAULT, IPL_NONE); 267 1.78.2.12 skrll LIST_INIT(&ifv_list.list); 268 1.78.2.9 skrll 269 1.78.2.12 skrll mutex_init(&ifv_hash.lock, MUTEX_DEFAULT, IPL_NONE); 270 1.78.2.12 skrll vlan_psz = pserialize_create(); 271 1.78.2.12 skrll ifvm_psref_class = psref_class_create("vlanlinkmib", IPL_SOFTNET); 272 1.1 thorpej if_clone_attach(&vlan_cloner); 273 1.78.2.12 skrll 274 1.78.2.12 skrll vlan_hash_init(); 275 1.1 thorpej } 276 1.1 thorpej 277 1.78.2.9 skrll static int 278 1.78.2.9 skrll vlandetach(void) 279 1.78.2.9 skrll { 280 1.78.2.9 skrll int error = 0; 281 1.78.2.9 skrll 282 1.78.2.12 skrll mutex_enter(&ifv_list.lock); 283 1.78.2.12 skrll if (!LIST_EMPTY(&ifv_list.list)) { 284 1.78.2.12 skrll mutex_exit(&ifv_list.lock); 285 1.78.2.12 skrll return EBUSY; 286 1.78.2.9 skrll } 287 1.78.2.12 skrll mutex_exit(&ifv_list.lock); 288 1.78.2.9 skrll 289 1.78.2.12 skrll error = vlan_hash_fini(); 290 1.78.2.12 skrll if (error != 0) 291 1.78.2.12 skrll return error; 292 1.78.2.12 skrll 293 1.78.2.12 skrll if_clone_detach(&vlan_cloner); 294 1.78.2.12 skrll psref_class_destroy(ifvm_psref_class); 295 1.78.2.12 skrll pserialize_destroy(vlan_psz); 296 1.78.2.12 skrll mutex_destroy(&ifv_hash.lock); 297 1.78.2.12 skrll mutex_destroy(&ifv_list.lock); 298 1.78.2.12 skrll 299 1.78.2.12 skrll return 0; 300 1.78.2.9 skrll } 301 1.78.2.9 skrll 302 1.30 thorpej static void 303 1.30 thorpej vlan_reset_linkname(struct ifnet *ifp) 304 1.30 thorpej { 305 1.30 thorpej 306 1.30 thorpej /* 307 1.30 thorpej * We start out with a "802.1Q VLAN" type and zero-length 308 1.30 thorpej * addresses. When we attach to a parent interface, we 309 1.30 thorpej * inherit its type, address length, address, and data link 310 1.30 thorpej * type. 311 1.30 thorpej */ 312 1.30 thorpej 313 1.30 thorpej ifp->if_type = IFT_L2VLAN; 314 1.30 thorpej ifp->if_addrlen = 0; 315 1.30 thorpej ifp->if_dlt = DLT_NULL; 316 1.30 thorpej if_alloc_sadl(ifp); 317 1.30 thorpej } 318 1.30 thorpej 319 1.1 thorpej static int 320 1.1 thorpej vlan_clone_create(struct if_clone *ifc, int unit) 321 1.1 thorpej { 322 1.1 thorpej struct ifvlan *ifv; 323 1.1 thorpej struct ifnet *ifp; 324 1.78.2.12 skrll struct ifvlan_linkmib *mib; 325 1.1 thorpej 326 1.59 christos ifv = malloc(sizeof(struct ifvlan), M_DEVBUF, M_WAITOK|M_ZERO); 327 1.78.2.12 skrll mib = kmem_zalloc(sizeof(struct ifvlan_linkmib), KM_SLEEP); 328 1.14 enami ifp = &ifv->ifv_if; 329 1.5 enami LIST_INIT(&ifv->ifv_mc_listhead); 330 1.11 thorpej 331 1.78.2.12 skrll mib->ifvm_ifvlan = ifv; 332 1.78.2.12 skrll mib->ifvm_p = NULL; 333 1.78.2.12 skrll psref_target_init(&mib->ifvm_psref, ifvm_psref_class); 334 1.78.2.12 skrll 335 1.78.2.12 skrll mutex_init(&ifv->ifv_lock, MUTEX_DEFAULT, IPL_NONE); 336 1.78.2.12 skrll ifv->ifv_mib = mib; 337 1.78.2.12 skrll 338 1.78.2.12 skrll mutex_enter(&ifv_list.lock); 339 1.78.2.12 skrll LIST_INSERT_HEAD(&ifv_list.list, ifv, ifv_list); 340 1.78.2.12 skrll mutex_exit(&ifv_list.lock); 341 1.1 thorpej 342 1.59 christos if_initname(ifp, ifc->ifc_name, unit); 343 1.1 thorpej ifp->if_softc = ifv; 344 1.1 thorpej ifp->if_flags = IFF_BROADCAST | IFF_SIMPLEX | IFF_MULTICAST; 345 1.78.2.12 skrll #ifdef VLAN_MPSAFE 346 1.78.2.12 skrll ifp->if_extflags = IFEF_START_MPSAFE; 347 1.78.2.12 skrll #endif 348 1.1 thorpej ifp->if_start = vlan_start; 349 1.78.2.12 skrll ifp->if_transmit = vlan_transmit; 350 1.1 thorpej ifp->if_ioctl = vlan_ioctl; 351 1.31 thorpej IFQ_SET_READY(&ifp->if_snd); 352 1.1 thorpej 353 1.78.2.5 skrll if_initialize(ifp); 354 1.30 thorpej vlan_reset_linkname(ifp); 355 1.78.2.5 skrll if_register(ifp); 356 1.1 thorpej 357 1.1 thorpej return (0); 358 1.1 thorpej } 359 1.1 thorpej 360 1.42 peter static int 361 1.1 thorpej vlan_clone_destroy(struct ifnet *ifp) 362 1.1 thorpej { 363 1.11 thorpej struct ifvlan *ifv = ifp->if_softc; 364 1.1 thorpej 365 1.78.2.12 skrll mutex_enter(&ifv_list.lock); 366 1.1 thorpej LIST_REMOVE(ifv, ifv_list); 367 1.78.2.12 skrll mutex_exit(&ifv_list.lock); 368 1.78.2.12 skrll 369 1.1 thorpej vlan_unconfig(ifp); 370 1.78 ozaki if_detach(ifp); 371 1.1 thorpej 372 1.78.2.12 skrll psref_target_destroy(&ifv->ifv_mib->ifvm_psref, ifvm_psref_class); 373 1.78.2.12 skrll kmem_free(ifv->ifv_mib, sizeof(struct ifvlan_linkmib)); 374 1.78.2.12 skrll mutex_destroy(&ifv->ifv_lock); 375 1.1 thorpej free(ifv, M_DEVBUF); 376 1.42 peter 377 1.42 peter return (0); 378 1.1 thorpej } 379 1.1 thorpej 380 1.11 thorpej /* 381 1.78.2.12 skrll * Configure a VLAN interface. 382 1.11 thorpej */ 383 1.1 thorpej static int 384 1.78.2.12 skrll vlan_config(struct ifvlan *ifv, struct ifnet *p, uint16_t tag) 385 1.1 thorpej { 386 1.10 thorpej struct ifnet *ifp = &ifv->ifv_if; 387 1.78.2.12 skrll struct ifvlan_linkmib *nmib = NULL; 388 1.78.2.12 skrll struct ifvlan_linkmib *omib = NULL; 389 1.78.2.12 skrll struct psref_target *nmib_psref = NULL; 390 1.78.2.12 skrll int error = 0; 391 1.78.2.12 skrll int idx; 392 1.78.2.12 skrll bool omib_cleanup = false; 393 1.78.2.12 skrll 394 1.78.2.12 skrll nmib = kmem_alloc(sizeof(*nmib), KM_SLEEP); 395 1.78.2.12 skrll 396 1.78.2.12 skrll mutex_enter(&ifv->ifv_lock); 397 1.78.2.12 skrll omib = ifv->ifv_mib; 398 1.78.2.12 skrll 399 1.78.2.12 skrll if (omib->ifvm_p != NULL) { 400 1.78.2.12 skrll error = EBUSY; 401 1.78.2.12 skrll goto done; 402 1.78.2.12 skrll } 403 1.1 thorpej 404 1.78.2.12 skrll *nmib = *omib; 405 1.78.2.12 skrll nmib_psref = &nmib->ifvm_psref; 406 1.78.2.12 skrll 407 1.78.2.12 skrll psref_target_init(nmib_psref, ifvm_psref_class); 408 1.10 thorpej 409 1.10 thorpej switch (p->if_type) { 410 1.10 thorpej case IFT_ETHER: 411 1.10 thorpej { 412 1.10 thorpej struct ethercom *ec = (void *) p; 413 1.78.2.12 skrll nmib->ifvm_msw = &vlan_ether_multisw; 414 1.78.2.12 skrll nmib->ifvm_encaplen = ETHER_VLAN_ENCAP_LEN; 415 1.78.2.12 skrll nmib->ifvm_mintu = ETHERMIN; 416 1.10 thorpej 417 1.78.2.11 skrll if (ec->ec_nvlans++ == 0) { 418 1.78.2.4 skrll if ((error = ether_enable_vlan_mtu(p)) >= 0) { 419 1.78.2.11 skrll if (error) { 420 1.78.2.11 skrll ec->ec_nvlans--; 421 1.78.2.12 skrll goto done; 422 1.78.2.11 skrll } 423 1.78.2.12 skrll nmib->ifvm_mtufudge = 0; 424 1.78.2.4 skrll } else { 425 1.78.2.4 skrll /* 426 1.78.2.4 skrll * Fudge the MTU by the encapsulation size. This 427 1.78.2.4 skrll * makes us incompatible with strictly compliant 428 1.78.2.4 skrll * 802.1Q implementations, but allows us to use 429 1.78.2.4 skrll * the feature with other NetBSD 430 1.78.2.4 skrll * implementations, which might still be useful. 431 1.78.2.4 skrll */ 432 1.78.2.12 skrll nmib->ifvm_mtufudge = nmib->ifvm_encaplen; 433 1.10 thorpej } 434 1.78.2.12 skrll error = 0; 435 1.10 thorpej } 436 1.10 thorpej 437 1.10 thorpej /* 438 1.32 thorpej * If the parent interface can do hardware-assisted 439 1.32 thorpej * VLAN encapsulation, then propagate its hardware- 440 1.63 darran * assisted checksumming flags and tcp segmentation 441 1.63 darran * offload. 442 1.32 thorpej */ 443 1.67 sborrill if (ec->ec_capabilities & ETHERCAP_VLAN_HWTAGGING) { 444 1.67 sborrill ec->ec_capenable |= ETHERCAP_VLAN_HWTAGGING; 445 1.32 thorpej ifp->if_capabilities = p->if_capabilities & 446 1.65 darran (IFCAP_TSOv4 | IFCAP_TSOv6 | 447 1.63 darran IFCAP_CSUM_IPv4_Tx|IFCAP_CSUM_IPv4_Rx| 448 1.46 yamt IFCAP_CSUM_TCPv4_Tx|IFCAP_CSUM_TCPv4_Rx| 449 1.46 yamt IFCAP_CSUM_UDPv4_Tx|IFCAP_CSUM_UDPv4_Rx| 450 1.46 yamt IFCAP_CSUM_TCPv6_Tx|IFCAP_CSUM_TCPv6_Rx| 451 1.46 yamt IFCAP_CSUM_UDPv6_Tx|IFCAP_CSUM_UDPv6_Rx); 452 1.67 sborrill } 453 1.32 thorpej /* 454 1.10 thorpej * We inherit the parent's Ethernet address. 455 1.10 thorpej */ 456 1.54 dyoung ether_ifattach(ifp, CLLADDR(p->if_sadl)); 457 1.10 thorpej ifp->if_hdrlen = sizeof(struct ether_vlan_header); /* XXX? */ 458 1.10 thorpej break; 459 1.10 thorpej } 460 1.10 thorpej 461 1.10 thorpej default: 462 1.78.2.12 skrll error = EPROTONOSUPPORT; 463 1.78.2.12 skrll goto done; 464 1.10 thorpej } 465 1.10 thorpej 466 1.78.2.12 skrll nmib->ifvm_p = p; 467 1.78.2.12 skrll nmib->ifvm_tag = tag; 468 1.78.2.12 skrll ifv->ifv_if.if_mtu = p->if_mtu - nmib->ifvm_mtufudge; 469 1.21 bouyer ifv->ifv_if.if_flags = p->if_flags & 470 1.23 bouyer (IFF_UP | IFF_BROADCAST | IFF_SIMPLEX | IFF_MULTICAST); 471 1.1 thorpej 472 1.1 thorpej /* 473 1.10 thorpej * Inherit the if_type from the parent. This allows us 474 1.10 thorpej * to participate in bridges of that type. 475 1.1 thorpej */ 476 1.10 thorpej ifv->ifv_if.if_type = p->if_type; 477 1.10 thorpej 478 1.78.2.12 skrll idx = tag_hash_func(tag, ifv_hash.mask); 479 1.78.2.12 skrll 480 1.78.2.12 skrll mutex_enter(&ifv_hash.lock); 481 1.78.2.12 skrll PSLIST_WRITER_INSERT_HEAD(&ifv_hash.lists[idx], ifv, ifv_hash); 482 1.78.2.12 skrll mutex_exit(&ifv_hash.lock); 483 1.78.2.12 skrll 484 1.78.2.12 skrll vlan_linkmib_update(ifv, nmib); 485 1.78.2.12 skrll nmib = NULL; 486 1.78.2.12 skrll nmib_psref = NULL; 487 1.78.2.12 skrll omib_cleanup = true; 488 1.78.2.12 skrll 489 1.78.2.12 skrll done: 490 1.78.2.12 skrll mutex_exit(&ifv->ifv_lock); 491 1.78.2.12 skrll 492 1.78.2.12 skrll if (nmib_psref) 493 1.78.2.12 skrll psref_target_destroy(nmib_psref, ifvm_psref_class); 494 1.78.2.12 skrll 495 1.78.2.12 skrll if (nmib) 496 1.78.2.12 skrll kmem_free(nmib, sizeof(*nmib)); 497 1.78.2.12 skrll 498 1.78.2.12 skrll if (omib_cleanup) 499 1.78.2.12 skrll kmem_free(omib, sizeof(*omib)); 500 1.78.2.12 skrll 501 1.78.2.12 skrll return error; 502 1.1 thorpej } 503 1.1 thorpej 504 1.11 thorpej /* 505 1.78.2.12 skrll * Unconfigure a VLAN interface. 506 1.11 thorpej */ 507 1.11 thorpej static void 508 1.1 thorpej vlan_unconfig(struct ifnet *ifp) 509 1.1 thorpej { 510 1.10 thorpej struct ifvlan *ifv = ifp->if_softc; 511 1.78.2.12 skrll struct ifvlan_linkmib *nmib = NULL; 512 1.78.2.12 skrll int error; 513 1.78.2.12 skrll 514 1.78.2.12 skrll nmib = kmem_alloc(sizeof(*nmib), KM_SLEEP); 515 1.78.2.12 skrll 516 1.78.2.12 skrll mutex_enter(&ifv->ifv_lock); 517 1.78.2.12 skrll error = vlan_unconfig_locked(ifv, nmib); 518 1.78.2.12 skrll mutex_exit(&ifv->ifv_lock); 519 1.78.2.12 skrll 520 1.78.2.12 skrll if (error) 521 1.78.2.12 skrll kmem_free(nmib, sizeof(*nmib)); 522 1.78.2.12 skrll } 523 1.78.2.12 skrll static int 524 1.78.2.12 skrll vlan_unconfig_locked(struct ifvlan *ifv, struct ifvlan_linkmib *nmib) 525 1.78.2.12 skrll { 526 1.77 ozaki struct ifnet *p; 527 1.78.2.12 skrll struct ifnet *ifp = &ifv->ifv_if; 528 1.78.2.12 skrll struct psref_target *nmib_psref = NULL; 529 1.78.2.12 skrll struct ifvlan_linkmib *omib; 530 1.78.2.12 skrll int error = 0; 531 1.1 thorpej 532 1.78.2.12 skrll KASSERT(mutex_owned(&ifv->ifv_lock)); 533 1.78.2.12 skrll 534 1.78.2.12 skrll omib = ifv->ifv_mib; 535 1.78.2.12 skrll p = omib->ifvm_p; 536 1.76 ozaki 537 1.77 ozaki if (p == NULL) { 538 1.78.2.12 skrll error = -1; 539 1.78.2.12 skrll goto done; 540 1.76 ozaki } 541 1.1 thorpej 542 1.78.2.12 skrll *nmib = *omib; 543 1.78.2.12 skrll nmib_psref = &nmib->ifvm_psref; 544 1.78.2.12 skrll psref_target_init(nmib_psref, ifvm_psref_class); 545 1.78.2.12 skrll 546 1.1 thorpej /* 547 1.1 thorpej * Since the interface is being unconfigured, we need to empty the 548 1.1 thorpej * list of multicast groups that we may have joined while we were 549 1.1 thorpej * alive and remove them from the parent's list also. 550 1.1 thorpej */ 551 1.78.2.12 skrll (*nmib->ifvm_msw->vmsw_purgemulti)(ifv); 552 1.1 thorpej 553 1.1 thorpej /* Disconnect from parent. */ 554 1.77 ozaki switch (p->if_type) { 555 1.10 thorpej case IFT_ETHER: 556 1.10 thorpej { 557 1.78.2.4 skrll struct ethercom *ec = (void *)p; 558 1.78.2.4 skrll if (--ec->ec_nvlans == 0) 559 1.78.2.4 skrll (void)ether_disable_vlan_mtu(p); 560 1.10 thorpej 561 1.10 thorpej ether_ifdetach(ifp); 562 1.71 ozaki /* Restore vlan_ioctl overwritten by ether_ifdetach */ 563 1.71 ozaki ifp->if_ioctl = vlan_ioctl; 564 1.30 thorpej vlan_reset_linkname(ifp); 565 1.10 thorpej break; 566 1.10 thorpej } 567 1.10 thorpej 568 1.10 thorpej #ifdef DIAGNOSTIC 569 1.10 thorpej default: 570 1.10 thorpej panic("vlan_unconfig: impossible"); 571 1.10 thorpej #endif 572 1.10 thorpej } 573 1.10 thorpej 574 1.78.2.12 skrll nmib->ifvm_p = NULL; 575 1.10 thorpej ifv->ifv_if.if_mtu = 0; 576 1.17 thorpej ifv->ifv_flags = 0; 577 1.1 thorpej 578 1.78.2.12 skrll mutex_enter(&ifv_hash.lock); 579 1.78.2.12 skrll PSLIST_WRITER_REMOVE(ifv, ifv_hash); 580 1.78.2.12 skrll pserialize_perform(vlan_psz); 581 1.78.2.12 skrll mutex_exit(&ifv_hash.lock); 582 1.78.2.12 skrll 583 1.78.2.12 skrll vlan_linkmib_update(ifv, nmib); 584 1.78.2.12 skrll 585 1.78.2.12 skrll mutex_exit(&ifv->ifv_lock); 586 1.78.2.12 skrll 587 1.78.2.12 skrll nmib_psref = NULL; 588 1.78.2.12 skrll kmem_free(omib, sizeof(*omib)); 589 1.78.2.12 skrll 590 1.74 ozaki #ifdef INET6 591 1.74 ozaki /* To delete v6 link local addresses */ 592 1.78.2.12 skrll if (in6_present) 593 1.78.2.12 skrll in6_ifdetach(ifp); 594 1.74 ozaki #endif 595 1.78.2.12 skrll 596 1.73 ozaki if ((ifp->if_flags & IFF_PROMISC) != 0) 597 1.73 ozaki ifpromisc(ifp, 0); 598 1.11 thorpej if_down(ifp); 599 1.11 thorpej ifp->if_flags &= ~(IFF_UP|IFF_RUNNING); 600 1.32 thorpej ifp->if_capabilities = 0; 601 1.78.2.12 skrll mutex_enter(&ifv->ifv_lock); 602 1.78.2.12 skrll done: 603 1.78.2.12 skrll 604 1.78.2.12 skrll if (nmib_psref) 605 1.78.2.12 skrll psref_target_destroy(nmib_psref, ifvm_psref_class); 606 1.76 ozaki 607 1.78.2.12 skrll return error; 608 1.78.2.12 skrll } 609 1.78.2.12 skrll 610 1.78.2.12 skrll static void 611 1.78.2.12 skrll vlan_hash_init(void) 612 1.78.2.12 skrll { 613 1.78.2.12 skrll 614 1.78.2.12 skrll ifv_hash.lists = hashinit(VLAN_TAG_HASH_SIZE, HASH_PSLIST, true, 615 1.78.2.12 skrll &ifv_hash.mask); 616 1.78.2.12 skrll } 617 1.78.2.12 skrll 618 1.78.2.12 skrll static int 619 1.78.2.12 skrll vlan_hash_fini(void) 620 1.78.2.12 skrll { 621 1.78.2.12 skrll int i; 622 1.78.2.12 skrll 623 1.78.2.12 skrll mutex_enter(&ifv_hash.lock); 624 1.78.2.12 skrll 625 1.78.2.12 skrll for (i = 0; i < ifv_hash.mask + 1; i++) { 626 1.78.2.12 skrll if (PSLIST_WRITER_FIRST(&ifv_hash.lists[i], struct ifvlan, 627 1.78.2.12 skrll ifv_hash) != NULL) { 628 1.78.2.12 skrll mutex_exit(&ifv_hash.lock); 629 1.78.2.12 skrll return EBUSY; 630 1.78.2.12 skrll } 631 1.78.2.12 skrll } 632 1.78.2.12 skrll 633 1.78.2.12 skrll for (i = 0; i < ifv_hash.mask + 1; i++) 634 1.78.2.12 skrll PSLIST_DESTROY(&ifv_hash.lists[i]); 635 1.78.2.12 skrll 636 1.78.2.12 skrll mutex_exit(&ifv_hash.lock); 637 1.78.2.12 skrll 638 1.78.2.12 skrll hashdone(ifv_hash.lists, HASH_PSLIST, ifv_hash.mask); 639 1.78.2.12 skrll 640 1.78.2.12 skrll ifv_hash.lists = NULL; 641 1.78.2.12 skrll ifv_hash.mask = 0; 642 1.78.2.12 skrll 643 1.78.2.12 skrll return 0; 644 1.78.2.12 skrll } 645 1.78.2.12 skrll 646 1.78.2.12 skrll static int 647 1.78.2.12 skrll tag_hash_func(uint16_t tag, u_long mask) 648 1.78.2.12 skrll { 649 1.78.2.12 skrll uint32_t hash; 650 1.78.2.12 skrll 651 1.78.2.12 skrll hash = (tag >> 8) ^ tag; 652 1.78.2.12 skrll hash = (hash >> 2) ^ hash; 653 1.78.2.12 skrll 654 1.78.2.12 skrll return hash & mask; 655 1.78.2.12 skrll } 656 1.78.2.12 skrll 657 1.78.2.12 skrll static struct ifvlan_linkmib * 658 1.78.2.12 skrll vlan_getref_linkmib(struct ifvlan *sc, struct psref *psref) 659 1.78.2.12 skrll { 660 1.78.2.12 skrll struct ifvlan_linkmib *mib; 661 1.78.2.12 skrll int s; 662 1.78.2.12 skrll 663 1.78.2.12 skrll s = pserialize_read_enter(); 664 1.78.2.12 skrll mib = sc->ifv_mib; 665 1.78.2.12 skrll if (mib == NULL) { 666 1.78.2.12 skrll pserialize_read_exit(s); 667 1.78.2.12 skrll return NULL; 668 1.78.2.12 skrll } 669 1.78.2.12 skrll membar_datadep_consumer(); 670 1.78.2.12 skrll psref_acquire(psref, &mib->ifvm_psref, ifvm_psref_class); 671 1.78.2.12 skrll pserialize_read_exit(s); 672 1.78.2.12 skrll 673 1.78.2.12 skrll return mib; 674 1.78.2.12 skrll } 675 1.78.2.12 skrll 676 1.78.2.12 skrll static void 677 1.78.2.12 skrll vlan_putref_linkmib(struct ifvlan_linkmib *mib, struct psref *psref) 678 1.78.2.12 skrll { 679 1.78.2.12 skrll if (mib == NULL) 680 1.78.2.12 skrll return; 681 1.78.2.12 skrll psref_release(psref, &mib->ifvm_psref, ifvm_psref_class); 682 1.78.2.12 skrll } 683 1.78.2.12 skrll 684 1.78.2.12 skrll static struct ifvlan_linkmib * 685 1.78.2.12 skrll vlan_lookup_tag_psref(struct ifnet *ifp, uint16_t tag, struct psref *psref) 686 1.78.2.12 skrll { 687 1.78.2.12 skrll int idx; 688 1.78.2.12 skrll int s; 689 1.78.2.12 skrll struct ifvlan *sc; 690 1.78.2.12 skrll 691 1.78.2.12 skrll idx = tag_hash_func(tag, ifv_hash.mask); 692 1.78.2.12 skrll 693 1.78.2.12 skrll s = pserialize_read_enter(); 694 1.78.2.12 skrll PSLIST_READER_FOREACH(sc, &ifv_hash.lists[idx], struct ifvlan, 695 1.78.2.12 skrll ifv_hash) { 696 1.78.2.12 skrll struct ifvlan_linkmib *mib = sc->ifv_mib; 697 1.78.2.12 skrll if (mib == NULL) 698 1.78.2.12 skrll continue; 699 1.78.2.12 skrll if (mib->ifvm_tag != tag) 700 1.78.2.12 skrll continue; 701 1.78.2.12 skrll if (mib->ifvm_p != ifp) 702 1.78.2.12 skrll continue; 703 1.78.2.12 skrll 704 1.78.2.12 skrll psref_acquire(psref, &mib->ifvm_psref, ifvm_psref_class); 705 1.78.2.12 skrll pserialize_read_exit(s); 706 1.78.2.12 skrll return mib; 707 1.78.2.12 skrll } 708 1.78.2.12 skrll pserialize_read_exit(s); 709 1.78.2.12 skrll return NULL; 710 1.78.2.12 skrll } 711 1.78.2.12 skrll 712 1.78.2.12 skrll static void 713 1.78.2.12 skrll vlan_linkmib_update(struct ifvlan *ifv, struct ifvlan_linkmib *nmib) 714 1.78.2.12 skrll { 715 1.78.2.12 skrll struct ifvlan_linkmib *omib = ifv->ifv_mib; 716 1.78.2.12 skrll 717 1.78.2.12 skrll KASSERT(mutex_owned(&ifv->ifv_lock)); 718 1.78.2.12 skrll 719 1.78.2.12 skrll membar_producer(); 720 1.78.2.12 skrll ifv->ifv_mib = nmib; 721 1.78.2.12 skrll 722 1.78.2.12 skrll pserialize_perform(vlan_psz); 723 1.78.2.12 skrll psref_target_destroy(&omib->ifvm_psref, ifvm_psref_class); 724 1.11 thorpej } 725 1.11 thorpej 726 1.11 thorpej /* 727 1.11 thorpej * Called when a parent interface is detaching; destroy any VLAN 728 1.11 thorpej * configuration for the parent interface. 729 1.11 thorpej */ 730 1.11 thorpej void 731 1.11 thorpej vlan_ifdetach(struct ifnet *p) 732 1.11 thorpej { 733 1.11 thorpej struct ifvlan *ifv; 734 1.78.2.12 skrll struct ifvlan_linkmib *mib, **nmibs; 735 1.78.2.12 skrll struct psref psref; 736 1.78.2.12 skrll int error; 737 1.78.2.12 skrll int bound; 738 1.78.2.12 skrll int i, cnt = 0; 739 1.78.2.12 skrll 740 1.78.2.12 skrll bound = curlwp_bind(); 741 1.78.2.12 skrll mutex_enter(&ifv_list.lock); 742 1.78.2.12 skrll LIST_FOREACH(ifv, &ifv_list.list, ifv_list) { 743 1.78.2.12 skrll mib = vlan_getref_linkmib(ifv, &psref); 744 1.78.2.12 skrll if (mib == NULL) 745 1.78.2.12 skrll continue; 746 1.78.2.12 skrll 747 1.78.2.12 skrll if (mib->ifvm_p == p) 748 1.78.2.12 skrll cnt++; 749 1.78.2.12 skrll 750 1.78.2.12 skrll vlan_putref_linkmib(mib, &psref); 751 1.78.2.12 skrll } 752 1.78.2.12 skrll mutex_exit(&ifv_list.lock); 753 1.78.2.12 skrll 754 1.78.2.12 skrll /* 755 1.78.2.12 skrll * The value of "cnt" does not increase while ifv_list.lock 756 1.78.2.12 skrll * and ifv->ifv_lock are released here, because the parent 757 1.78.2.12 skrll * interface is detaching. 758 1.78.2.12 skrll */ 759 1.78.2.12 skrll nmibs = kmem_alloc(sizeof(*nmibs) * cnt, KM_SLEEP); 760 1.78.2.12 skrll for (i=0; i < cnt; i++) { 761 1.78.2.12 skrll nmibs[i] = kmem_alloc(sizeof(*nmibs[i]), KM_SLEEP); 762 1.78.2.12 skrll } 763 1.78.2.12 skrll 764 1.78.2.12 skrll mutex_enter(&ifv_list.lock); 765 1.78.2.12 skrll 766 1.78.2.12 skrll i = 0; 767 1.78.2.12 skrll LIST_FOREACH(ifv, &ifv_list.list, ifv_list) { 768 1.78.2.12 skrll mutex_enter(&ifv->ifv_lock); 769 1.78.2.12 skrll if (ifv->ifv_mib->ifvm_p == p) { 770 1.78.2.12 skrll KASSERTMSG(i < cnt, "no memory for unconfig, parent=%s", 771 1.78.2.12 skrll p->if_xname); 772 1.78.2.12 skrll error = vlan_unconfig_locked(ifv, nmibs[i]); 773 1.78.2.12 skrll if (!error) { 774 1.78.2.12 skrll nmibs[i] = NULL; 775 1.78.2.12 skrll i++; 776 1.78.2.12 skrll } 777 1.11 thorpej 778 1.78.2.12 skrll } 779 1.78.2.12 skrll mutex_exit(&ifv->ifv_lock); 780 1.78.2.12 skrll } 781 1.11 thorpej 782 1.78.2.12 skrll mutex_exit(&ifv_list.lock); 783 1.78.2.12 skrll curlwp_bindx(bound); 784 1.78.2.12 skrll 785 1.78.2.12 skrll for (i=0; i < cnt; i++) { 786 1.78.2.12 skrll if (nmibs[i]) 787 1.78.2.12 skrll kmem_free(nmibs[i], sizeof(*nmibs[i])); 788 1.11 thorpej } 789 1.11 thorpej 790 1.78.2.12 skrll kmem_free(nmibs, sizeof(*nmibs) * cnt); 791 1.78.2.12 skrll 792 1.78.2.12 skrll return; 793 1.1 thorpej } 794 1.1 thorpej 795 1.1 thorpej static int 796 1.17 thorpej vlan_set_promisc(struct ifnet *ifp) 797 1.17 thorpej { 798 1.17 thorpej struct ifvlan *ifv = ifp->if_softc; 799 1.78.2.12 skrll struct ifvlan_linkmib *mib; 800 1.78.2.12 skrll struct psref psref; 801 1.20 enami int error = 0; 802 1.78.2.12 skrll int bound; 803 1.78.2.12 skrll 804 1.78.2.12 skrll bound = curlwp_bind(); 805 1.78.2.12 skrll mib = vlan_getref_linkmib(ifv, &psref); 806 1.78.2.12 skrll if (mib == NULL) { 807 1.78.2.12 skrll curlwp_bindx(bound); 808 1.78.2.12 skrll return EBUSY; 809 1.78.2.12 skrll } 810 1.17 thorpej 811 1.17 thorpej if ((ifp->if_flags & IFF_PROMISC) != 0) { 812 1.17 thorpej if ((ifv->ifv_flags & IFVF_PROMISC) == 0) { 813 1.78.2.12 skrll error = ifpromisc(mib->ifvm_p, 1); 814 1.17 thorpej if (error == 0) 815 1.17 thorpej ifv->ifv_flags |= IFVF_PROMISC; 816 1.17 thorpej } 817 1.17 thorpej } else { 818 1.17 thorpej if ((ifv->ifv_flags & IFVF_PROMISC) != 0) { 819 1.78.2.12 skrll error = ifpromisc(mib->ifvm_p, 0); 820 1.17 thorpej if (error == 0) 821 1.17 thorpej ifv->ifv_flags &= ~IFVF_PROMISC; 822 1.17 thorpej } 823 1.17 thorpej } 824 1.78.2.12 skrll vlan_putref_linkmib(mib, &psref); 825 1.78.2.12 skrll curlwp_bindx(bound); 826 1.17 thorpej 827 1.17 thorpej return (error); 828 1.17 thorpej } 829 1.17 thorpej 830 1.17 thorpej static int 831 1.53 christos vlan_ioctl(struct ifnet *ifp, u_long cmd, void *data) 832 1.1 thorpej { 833 1.49 ad struct lwp *l = curlwp; /* XXX */ 834 1.11 thorpej struct ifvlan *ifv = ifp->if_softc; 835 1.11 thorpej struct ifaddr *ifa = (struct ifaddr *) data; 836 1.11 thorpej struct ifreq *ifr = (struct ifreq *) data; 837 1.1 thorpej struct ifnet *pr; 838 1.60 bouyer struct ifcapreq *ifcr; 839 1.1 thorpej struct vlanreq vlr; 840 1.78.2.12 skrll struct ifvlan_linkmib *mib; 841 1.78.2.12 skrll struct psref psref; 842 1.78.2.12 skrll int error = 0; 843 1.78.2.12 skrll int bound; 844 1.1 thorpej 845 1.1 thorpej switch (cmd) { 846 1.1 thorpej case SIOCSIFMTU: 847 1.78.2.12 skrll bound = curlwp_bind(); 848 1.78.2.12 skrll mib = vlan_getref_linkmib(ifv, &psref); 849 1.78.2.12 skrll if (mib == NULL) { 850 1.78.2.12 skrll curlwp_bindx(bound); 851 1.78.2.12 skrll error = EBUSY; 852 1.78.2.12 skrll break; 853 1.78.2.12 skrll } 854 1.78.2.12 skrll 855 1.78.2.12 skrll if (mib->ifvm_p == NULL) { 856 1.78.2.12 skrll vlan_putref_linkmib(mib, &psref); 857 1.78.2.12 skrll curlwp_bindx(bound); 858 1.56 dyoung error = EINVAL; 859 1.78.2.12 skrll } else if ( 860 1.78.2.12 skrll ifr->ifr_mtu > (mib->ifvm_p->if_mtu - mib->ifvm_mtufudge) || 861 1.78.2.12 skrll ifr->ifr_mtu < (mib->ifvm_mintu - mib->ifvm_mtufudge)) { 862 1.78.2.12 skrll vlan_putref_linkmib(mib, &psref); 863 1.78.2.12 skrll curlwp_bindx(bound); 864 1.1 thorpej error = EINVAL; 865 1.78.2.12 skrll } else { 866 1.78.2.12 skrll vlan_putref_linkmib(mib, &psref); 867 1.78.2.12 skrll curlwp_bindx(bound); 868 1.78.2.12 skrll 869 1.78.2.12 skrll error = ifioctl_common(ifp, cmd, data); 870 1.78.2.12 skrll if (error == ENETRESET) 871 1.78.2.12 skrll error = 0; 872 1.78.2.12 skrll } 873 1.78.2.12 skrll 874 1.1 thorpej break; 875 1.1 thorpej 876 1.1 thorpej case SIOCSETVLAN: 877 1.51 elad if ((error = kauth_authorize_network(l->l_cred, 878 1.51 elad KAUTH_NETWORK_INTERFACE, 879 1.51 elad KAUTH_REQ_NETWORK_INTERFACE_SETPRIV, ifp, (void *)cmd, 880 1.51 elad NULL)) != 0) 881 1.1 thorpej break; 882 1.1 thorpej if ((error = copyin(ifr->ifr_data, &vlr, sizeof(vlr))) != 0) 883 1.1 thorpej break; 884 1.78.2.12 skrll 885 1.1 thorpej if (vlr.vlr_parent[0] == '\0') { 886 1.78.2.12 skrll bound = curlwp_bind(); 887 1.78.2.12 skrll mib = vlan_getref_linkmib(ifv, &psref); 888 1.78.2.12 skrll if (mib == NULL) { 889 1.78.2.12 skrll curlwp_bindx(bound); 890 1.78.2.12 skrll error = EBUSY; 891 1.78.2.12 skrll break; 892 1.78.2.12 skrll } 893 1.78.2.12 skrll 894 1.78.2.12 skrll if (mib->ifvm_p != NULL && 895 1.73 ozaki (ifp->if_flags & IFF_PROMISC) != 0) 896 1.78.2.12 skrll error = ifpromisc(mib->ifvm_p, 0); 897 1.78.2.12 skrll 898 1.78.2.12 skrll vlan_putref_linkmib(mib, &psref); 899 1.78.2.12 skrll curlwp_bindx(bound); 900 1.78.2.12 skrll 901 1.1 thorpej vlan_unconfig(ifp); 902 1.1 thorpej break; 903 1.1 thorpej } 904 1.1 thorpej if (vlr.vlr_tag != EVL_VLANOFTAG(vlr.vlr_tag)) { 905 1.1 thorpej error = EINVAL; /* check for valid tag */ 906 1.1 thorpej break; 907 1.1 thorpej } 908 1.1 thorpej if ((pr = ifunit(vlr.vlr_parent)) == 0) { 909 1.1 thorpej error = ENOENT; 910 1.1 thorpej break; 911 1.1 thorpej } 912 1.78.2.12 skrll error = vlan_config(ifv, pr, vlr.vlr_tag); 913 1.78.2.12 skrll if (error != 0) { 914 1.1 thorpej break; 915 1.78.2.12 skrll } 916 1.1 thorpej ifp->if_flags |= IFF_RUNNING; 917 1.17 thorpej 918 1.17 thorpej /* Update promiscuous mode, if necessary. */ 919 1.17 thorpej vlan_set_promisc(ifp); 920 1.1 thorpej break; 921 1.1 thorpej 922 1.1 thorpej case SIOCGETVLAN: 923 1.1 thorpej memset(&vlr, 0, sizeof(vlr)); 924 1.78.2.12 skrll bound = curlwp_bind(); 925 1.78.2.12 skrll mib = vlan_getref_linkmib(ifv, &psref); 926 1.78.2.12 skrll if (mib == NULL) { 927 1.78.2.12 skrll curlwp_bindx(bound); 928 1.78.2.12 skrll error = EBUSY; 929 1.78.2.12 skrll break; 930 1.78.2.12 skrll } 931 1.78.2.12 skrll if (mib->ifvm_p != NULL) { 932 1.1 thorpej snprintf(vlr.vlr_parent, sizeof(vlr.vlr_parent), "%s", 933 1.78.2.12 skrll mib->ifvm_p->if_xname); 934 1.78.2.12 skrll vlr.vlr_tag = mib->ifvm_tag; 935 1.1 thorpej } 936 1.78.2.12 skrll vlan_putref_linkmib(mib, &psref); 937 1.78.2.12 skrll curlwp_bindx(bound); 938 1.1 thorpej error = copyout(&vlr, ifr->ifr_data, sizeof(vlr)); 939 1.1 thorpej break; 940 1.1 thorpej 941 1.1 thorpej case SIOCSIFFLAGS: 942 1.61 dyoung if ((error = ifioctl_common(ifp, cmd, data)) != 0) 943 1.61 dyoung break; 944 1.1 thorpej /* 945 1.17 thorpej * For promiscuous mode, we enable promiscuous mode on 946 1.17 thorpej * the parent if we need promiscuous on the VLAN interface. 947 1.1 thorpej */ 948 1.78.2.12 skrll bound = curlwp_bind(); 949 1.78.2.12 skrll mib = vlan_getref_linkmib(ifv, &psref); 950 1.78.2.12 skrll if (mib == NULL) { 951 1.78.2.12 skrll curlwp_bindx(bound); 952 1.78.2.12 skrll error = EBUSY; 953 1.78.2.12 skrll break; 954 1.78.2.12 skrll } 955 1.78.2.12 skrll 956 1.78.2.12 skrll if (mib->ifvm_p != NULL) 957 1.17 thorpej error = vlan_set_promisc(ifp); 958 1.78.2.12 skrll vlan_putref_linkmib(mib, &psref); 959 1.78.2.12 skrll curlwp_bindx(bound); 960 1.1 thorpej break; 961 1.1 thorpej 962 1.1 thorpej case SIOCADDMULTI: 963 1.78.2.12 skrll mutex_enter(&ifv->ifv_lock); 964 1.78.2.12 skrll mib = ifv->ifv_mib; 965 1.78.2.12 skrll if (mib == NULL) { 966 1.78.2.12 skrll error = EBUSY; 967 1.78.2.12 skrll mutex_exit(&ifv->ifv_lock); 968 1.78.2.12 skrll break; 969 1.78.2.12 skrll } 970 1.78.2.12 skrll 971 1.78.2.12 skrll error = (mib->ifvm_p != NULL) ? 972 1.78.2.12 skrll (*mib->ifvm_msw->vmsw_addmulti)(ifv, ifr) : EINVAL; 973 1.78.2.12 skrll mib = NULL; 974 1.78.2.12 skrll mutex_exit(&ifv->ifv_lock); 975 1.6 enami break; 976 1.6 enami 977 1.1 thorpej case SIOCDELMULTI: 978 1.78.2.12 skrll mutex_enter(&ifv->ifv_lock); 979 1.78.2.12 skrll mib = ifv->ifv_mib; 980 1.78.2.12 skrll if (mib == NULL) { 981 1.78.2.12 skrll error = EBUSY; 982 1.78.2.12 skrll mutex_exit(&ifv->ifv_lock); 983 1.78.2.12 skrll break; 984 1.78.2.12 skrll } 985 1.78.2.12 skrll error = (mib->ifvm_p != NULL) ? 986 1.78.2.12 skrll (*mib->ifvm_msw->vmsw_delmulti)(ifv, ifr) : EINVAL; 987 1.78.2.12 skrll mib = NULL; 988 1.78.2.12 skrll mutex_exit(&ifv->ifv_lock); 989 1.1 thorpej break; 990 1.1 thorpej 991 1.60 bouyer case SIOCSIFCAP: 992 1.60 bouyer ifcr = data; 993 1.60 bouyer /* make sure caps are enabled on parent */ 994 1.78.2.12 skrll bound = curlwp_bind(); 995 1.78.2.12 skrll mib = vlan_getref_linkmib(ifv, &psref); 996 1.78.2.12 skrll if (mib == NULL) { 997 1.78.2.12 skrll curlwp_bindx(bound); 998 1.78.2.12 skrll error = EBUSY; 999 1.78.2.12 skrll break; 1000 1.78.2.12 skrll } 1001 1.78.2.12 skrll 1002 1.78.2.12 skrll if (mib->ifvm_p == NULL) { 1003 1.78.2.12 skrll vlan_putref_linkmib(mib, &psref); 1004 1.78.2.12 skrll curlwp_bindx(bound); 1005 1.78.2.10 skrll error = EINVAL; 1006 1.78.2.10 skrll break; 1007 1.78.2.10 skrll } 1008 1.78.2.12 skrll if ((mib->ifvm_p->if_capenable & ifcr->ifcr_capenable) != 1009 1.60 bouyer ifcr->ifcr_capenable) { 1010 1.78.2.12 skrll vlan_putref_linkmib(mib, &psref); 1011 1.78.2.12 skrll curlwp_bindx(bound); 1012 1.60 bouyer error = EINVAL; 1013 1.60 bouyer break; 1014 1.60 bouyer } 1015 1.78.2.12 skrll 1016 1.78.2.12 skrll vlan_putref_linkmib(mib, &psref); 1017 1.78.2.12 skrll curlwp_bindx(bound); 1018 1.78.2.12 skrll 1019 1.60 bouyer if ((error = ifioctl_common(ifp, cmd, data)) == ENETRESET) 1020 1.60 bouyer error = 0; 1021 1.60 bouyer break; 1022 1.68 dyoung case SIOCINITIFADDR: 1023 1.78.2.12 skrll bound = curlwp_bind(); 1024 1.78.2.12 skrll mib = vlan_getref_linkmib(ifv, &psref); 1025 1.78.2.12 skrll if (mib == NULL) { 1026 1.78.2.12 skrll curlwp_bindx(bound); 1027 1.78.2.12 skrll error = EBUSY; 1028 1.78.2.12 skrll break; 1029 1.78.2.12 skrll } 1030 1.78.2.12 skrll 1031 1.78.2.12 skrll if (mib->ifvm_p == NULL) { 1032 1.68 dyoung error = EINVAL; 1033 1.78.2.12 skrll vlan_putref_linkmib(mib, &psref); 1034 1.78.2.12 skrll curlwp_bindx(bound); 1035 1.68 dyoung break; 1036 1.68 dyoung } 1037 1.78.2.12 skrll vlan_putref_linkmib(mib, &psref); 1038 1.78.2.12 skrll curlwp_bindx(bound); 1039 1.68 dyoung 1040 1.68 dyoung ifp->if_flags |= IFF_UP; 1041 1.68 dyoung #ifdef INET 1042 1.68 dyoung if (ifa->ifa_addr->sa_family == AF_INET) 1043 1.68 dyoung arp_ifinit(ifp, ifa); 1044 1.68 dyoung #endif 1045 1.68 dyoung break; 1046 1.68 dyoung 1047 1.1 thorpej default: 1048 1.61 dyoung error = ether_ioctl(ifp, cmd, data); 1049 1.1 thorpej } 1050 1.11 thorpej 1051 1.1 thorpej return (error); 1052 1.1 thorpej } 1053 1.1 thorpej 1054 1.1 thorpej static int 1055 1.10 thorpej vlan_ether_addmulti(struct ifvlan *ifv, struct ifreq *ifr) 1056 1.1 thorpej { 1057 1.55 dyoung const struct sockaddr *sa = ifreq_getaddr(SIOCADDMULTI, ifr); 1058 1.1 thorpej struct vlan_mc_entry *mc; 1059 1.57 matt uint8_t addrlo[ETHER_ADDR_LEN], addrhi[ETHER_ADDR_LEN]; 1060 1.78.2.12 skrll struct ifvlan_linkmib *mib; 1061 1.1 thorpej int error; 1062 1.1 thorpej 1063 1.78.2.12 skrll KASSERT(mutex_owned(&ifv->ifv_lock)); 1064 1.78.2.12 skrll 1065 1.55 dyoung if (sa->sa_len > sizeof(struct sockaddr_storage)) 1066 1.5 enami return (EINVAL); 1067 1.5 enami 1068 1.55 dyoung error = ether_addmulti(sa, &ifv->ifv_ec); 1069 1.5 enami if (error != ENETRESET) 1070 1.5 enami return (error); 1071 1.1 thorpej 1072 1.5 enami /* 1073 1.5 enami * This is new multicast address. We have to tell parent 1074 1.5 enami * about it. Also, remember this multicast address so that 1075 1.5 enami * we can delete them on unconfigure. 1076 1.5 enami */ 1077 1.62 cegger mc = malloc(sizeof(struct vlan_mc_entry), M_DEVBUF, M_NOWAIT); 1078 1.5 enami if (mc == NULL) { 1079 1.5 enami error = ENOMEM; 1080 1.5 enami goto alloc_failed; 1081 1.1 thorpej } 1082 1.1 thorpej 1083 1.5 enami /* 1084 1.5 enami * As ether_addmulti() returns ENETRESET, following two 1085 1.5 enami * statement shouldn't fail. 1086 1.5 enami */ 1087 1.55 dyoung (void)ether_multiaddr(sa, addrlo, addrhi); 1088 1.5 enami ETHER_LOOKUP_MULTI(addrlo, addrhi, &ifv->ifv_ec, mc->mc_enm); 1089 1.55 dyoung memcpy(&mc->mc_addr, sa, sa->sa_len); 1090 1.5 enami LIST_INSERT_HEAD(&ifv->ifv_mc_listhead, mc, mc_entries); 1091 1.5 enami 1092 1.78.2.12 skrll mib = ifv->ifv_mib; 1093 1.78.2.12 skrll error = if_mcast_op(mib->ifvm_p, SIOCADDMULTI, sa); 1094 1.78.2.12 skrll 1095 1.5 enami if (error != 0) 1096 1.5 enami goto ioctl_failed; 1097 1.5 enami return (error); 1098 1.5 enami 1099 1.5 enami ioctl_failed: 1100 1.5 enami LIST_REMOVE(mc, mc_entries); 1101 1.62 cegger free(mc, M_DEVBUF); 1102 1.5 enami alloc_failed: 1103 1.55 dyoung (void)ether_delmulti(sa, &ifv->ifv_ec); 1104 1.5 enami return (error); 1105 1.5 enami } 1106 1.5 enami 1107 1.5 enami static int 1108 1.10 thorpej vlan_ether_delmulti(struct ifvlan *ifv, struct ifreq *ifr) 1109 1.5 enami { 1110 1.55 dyoung const struct sockaddr *sa = ifreq_getaddr(SIOCDELMULTI, ifr); 1111 1.5 enami struct ether_multi *enm; 1112 1.5 enami struct vlan_mc_entry *mc; 1113 1.78.2.12 skrll struct ifvlan_linkmib *mib; 1114 1.57 matt uint8_t addrlo[ETHER_ADDR_LEN], addrhi[ETHER_ADDR_LEN]; 1115 1.5 enami int error; 1116 1.5 enami 1117 1.78.2.12 skrll KASSERT(mutex_owned(&ifv->ifv_lock)); 1118 1.78.2.12 skrll 1119 1.5 enami /* 1120 1.5 enami * Find a key to lookup vlan_mc_entry. We have to do this 1121 1.5 enami * before calling ether_delmulti for obvious reason. 1122 1.5 enami */ 1123 1.55 dyoung if ((error = ether_multiaddr(sa, addrlo, addrhi)) != 0) 1124 1.5 enami return (error); 1125 1.5 enami ETHER_LOOKUP_MULTI(addrlo, addrhi, &ifv->ifv_ec, enm); 1126 1.5 enami 1127 1.55 dyoung error = ether_delmulti(sa, &ifv->ifv_ec); 1128 1.5 enami if (error != ENETRESET) 1129 1.5 enami return (error); 1130 1.5 enami 1131 1.5 enami /* We no longer use this multicast address. Tell parent so. */ 1132 1.78.2.12 skrll mib = ifv->ifv_mib; 1133 1.78.2.12 skrll error = if_mcast_op(mib->ifvm_p, SIOCDELMULTI, sa); 1134 1.78.2.12 skrll 1135 1.5 enami if (error == 0) { 1136 1.5 enami /* And forget about this address. */ 1137 1.5 enami for (mc = LIST_FIRST(&ifv->ifv_mc_listhead); mc != NULL; 1138 1.5 enami mc = LIST_NEXT(mc, mc_entries)) { 1139 1.5 enami if (mc->mc_enm == enm) { 1140 1.5 enami LIST_REMOVE(mc, mc_entries); 1141 1.62 cegger free(mc, M_DEVBUF); 1142 1.5 enami break; 1143 1.5 enami } 1144 1.5 enami } 1145 1.5 enami KASSERT(mc != NULL); 1146 1.5 enami } else 1147 1.55 dyoung (void)ether_addmulti(sa, &ifv->ifv_ec); 1148 1.5 enami return (error); 1149 1.5 enami } 1150 1.5 enami 1151 1.5 enami /* 1152 1.34 pooka * Delete any multicast address we have asked to add from parent 1153 1.5 enami * interface. Called when the vlan is being unconfigured. 1154 1.5 enami */ 1155 1.5 enami static void 1156 1.10 thorpej vlan_ether_purgemulti(struct ifvlan *ifv) 1157 1.5 enami { 1158 1.5 enami struct vlan_mc_entry *mc; 1159 1.78.2.12 skrll struct ifvlan_linkmib *mib; 1160 1.78.2.12 skrll 1161 1.78.2.12 skrll KASSERT(mutex_owned(&ifv->ifv_lock)); 1162 1.78.2.12 skrll mib = ifv->ifv_mib; 1163 1.78.2.12 skrll if (mib == NULL) { 1164 1.78.2.12 skrll return; 1165 1.78.2.12 skrll } 1166 1.5 enami 1167 1.5 enami while ((mc = LIST_FIRST(&ifv->ifv_mc_listhead)) != NULL) { 1168 1.78.2.12 skrll (void)if_mcast_op(mib->ifvm_p, SIOCDELMULTI, 1169 1.55 dyoung (const struct sockaddr *)&mc->mc_addr); 1170 1.5 enami LIST_REMOVE(mc, mc_entries); 1171 1.62 cegger free(mc, M_DEVBUF); 1172 1.1 thorpej } 1173 1.1 thorpej } 1174 1.1 thorpej 1175 1.1 thorpej static void 1176 1.1 thorpej vlan_start(struct ifnet *ifp) 1177 1.1 thorpej { 1178 1.14 enami struct ifvlan *ifv = ifp->if_softc; 1179 1.78.2.12 skrll struct ifnet *p; 1180 1.78.2.12 skrll struct ethercom *ec; 1181 1.1 thorpej struct mbuf *m; 1182 1.78.2.12 skrll struct ifvlan_linkmib *mib; 1183 1.78.2.12 skrll struct psref psref; 1184 1.31 thorpej int error; 1185 1.1 thorpej 1186 1.75 ozaki #ifndef NET_MPSAFE 1187 1.70 bouyer KASSERT(KERNEL_LOCKED_P()); 1188 1.75 ozaki #endif 1189 1.70 bouyer 1190 1.78.2.12 skrll mib = vlan_getref_linkmib(ifv, &psref); 1191 1.78.2.12 skrll if (mib == NULL) 1192 1.78.2.12 skrll return; 1193 1.78.2.12 skrll p = mib->ifvm_p; 1194 1.78.2.12 skrll ec = (void *)mib->ifvm_p; 1195 1.78.2.12 skrll 1196 1.1 thorpej ifp->if_flags |= IFF_OACTIVE; 1197 1.1 thorpej 1198 1.1 thorpej for (;;) { 1199 1.31 thorpej IFQ_DEQUEUE(&ifp->if_snd, m); 1200 1.1 thorpej if (m == NULL) 1201 1.1 thorpej break; 1202 1.1 thorpej 1203 1.31 thorpej #ifdef ALTQ 1204 1.31 thorpej /* 1205 1.78.2.11 skrll * KERNEL_LOCK is required for ALTQ even if NET_MPSAFE is defined. 1206 1.78.2.8 skrll */ 1207 1.78.2.8 skrll KERNEL_LOCK(1, NULL); 1208 1.78.2.8 skrll /* 1209 1.31 thorpej * If ALTQ is enabled on the parent interface, do 1210 1.31 thorpej * classification; the queueing discipline might 1211 1.31 thorpej * not require classification, but might require 1212 1.31 thorpej * the address family/header pointer in the pktattr. 1213 1.31 thorpej */ 1214 1.31 thorpej if (ALTQ_IS_ENABLED(&p->if_snd)) { 1215 1.31 thorpej switch (p->if_type) { 1216 1.31 thorpej case IFT_ETHER: 1217 1.78.2.6 skrll altq_etherclassify(&p->if_snd, m); 1218 1.31 thorpej break; 1219 1.31 thorpej #ifdef DIAGNOSTIC 1220 1.31 thorpej default: 1221 1.31 thorpej panic("vlan_start: impossible (altq)"); 1222 1.31 thorpej #endif 1223 1.31 thorpej } 1224 1.31 thorpej } 1225 1.78.2.8 skrll KERNEL_UNLOCK_ONE(NULL); 1226 1.31 thorpej #endif /* ALTQ */ 1227 1.31 thorpej 1228 1.66 joerg bpf_mtap(ifp, m); 1229 1.1 thorpej /* 1230 1.24 bouyer * If the parent can insert the tag itself, just mark 1231 1.24 bouyer * the tag in the mbuf header. 1232 1.1 thorpej */ 1233 1.24 bouyer if (ec->ec_capabilities & ETHERCAP_VLAN_HWTAGGING) { 1234 1.35 itojun struct m_tag *mtag; 1235 1.35 itojun 1236 1.35 itojun mtag = m_tag_get(PACKET_TAG_VLAN, sizeof(u_int), 1237 1.35 itojun M_NOWAIT); 1238 1.35 itojun if (mtag == NULL) { 1239 1.24 bouyer ifp->if_oerrors++; 1240 1.24 bouyer m_freem(m); 1241 1.24 bouyer continue; 1242 1.24 bouyer } 1243 1.78.2.12 skrll *(u_int *)(mtag + 1) = mib->ifvm_tag; 1244 1.36 drochner m_tag_prepend(m, mtag); 1245 1.24 bouyer } else { 1246 1.24 bouyer /* 1247 1.34 pooka * insert the tag ourselves 1248 1.24 bouyer */ 1249 1.78.2.12 skrll M_PREPEND(m, mib->ifvm_encaplen, M_DONTWAIT); 1250 1.24 bouyer if (m == NULL) { 1251 1.24 bouyer printf("%s: unable to prepend encap header", 1252 1.78.2.12 skrll p->if_xname); 1253 1.10 thorpej ifp->if_oerrors++; 1254 1.10 thorpej continue; 1255 1.10 thorpej } 1256 1.10 thorpej 1257 1.24 bouyer switch (p->if_type) { 1258 1.24 bouyer case IFT_ETHER: 1259 1.24 bouyer { 1260 1.24 bouyer struct ether_vlan_header *evl; 1261 1.24 bouyer 1262 1.24 bouyer if (m->m_len < sizeof(struct ether_vlan_header)) 1263 1.24 bouyer m = m_pullup(m, 1264 1.24 bouyer sizeof(struct ether_vlan_header)); 1265 1.24 bouyer if (m == NULL) { 1266 1.24 bouyer printf("%s: unable to pullup encap " 1267 1.78.2.12 skrll "header", p->if_xname); 1268 1.24 bouyer ifp->if_oerrors++; 1269 1.24 bouyer continue; 1270 1.24 bouyer } 1271 1.24 bouyer 1272 1.24 bouyer /* 1273 1.24 bouyer * Transform the Ethernet header into an 1274 1.24 bouyer * Ethernet header with 802.1Q encapsulation. 1275 1.24 bouyer */ 1276 1.53 christos memmove(mtod(m, void *), 1277 1.78.2.12 skrll mtod(m, char *) + mib->ifvm_encaplen, 1278 1.24 bouyer sizeof(struct ether_header)); 1279 1.24 bouyer evl = mtod(m, struct ether_vlan_header *); 1280 1.24 bouyer evl->evl_proto = evl->evl_encap_proto; 1281 1.24 bouyer evl->evl_encap_proto = htons(ETHERTYPE_VLAN); 1282 1.78.2.12 skrll evl->evl_tag = htons(mib->ifvm_tag); 1283 1.38 scw 1284 1.38 scw /* 1285 1.38 scw * To cater for VLAN-aware layer 2 ethernet 1286 1.38 scw * switches which may need to strip the tag 1287 1.38 scw * before forwarding the packet, make sure 1288 1.38 scw * the packet+tag is at least 68 bytes long. 1289 1.38 scw * This is necessary because our parent will 1290 1.38 scw * only pad to 64 bytes (ETHER_MIN_LEN) and 1291 1.38 scw * some switches will not pad by themselves 1292 1.38 scw * after deleting a tag. 1293 1.38 scw */ 1294 1.38 scw if (m->m_pkthdr.len < 1295 1.78.2.1 skrll (ETHER_MIN_LEN - ETHER_CRC_LEN + 1296 1.78.2.1 skrll ETHER_VLAN_ENCAP_LEN)) { 1297 1.38 scw m_copyback(m, m->m_pkthdr.len, 1298 1.78.2.1 skrll (ETHER_MIN_LEN - ETHER_CRC_LEN + 1299 1.38 scw ETHER_VLAN_ENCAP_LEN) - 1300 1.38 scw m->m_pkthdr.len, 1301 1.38 scw vlan_zero_pad_buff); 1302 1.38 scw } 1303 1.24 bouyer break; 1304 1.24 bouyer } 1305 1.10 thorpej 1306 1.10 thorpej #ifdef DIAGNOSTIC 1307 1.24 bouyer default: 1308 1.24 bouyer panic("vlan_start: impossible"); 1309 1.10 thorpej #endif 1310 1.24 bouyer } 1311 1.1 thorpej } 1312 1.1 thorpej 1313 1.78.2.12 skrll if ((p->if_flags & IFF_RUNNING) == 0) { 1314 1.78.2.12 skrll m_freem(m); 1315 1.78.2.12 skrll continue; 1316 1.78.2.12 skrll } 1317 1.78.2.12 skrll 1318 1.78.2.12 skrll error = if_transmit_lock(p, m); 1319 1.78.2.12 skrll if (error) { 1320 1.78.2.12 skrll /* mbuf is already freed */ 1321 1.78.2.12 skrll ifp->if_oerrors++; 1322 1.78.2.12 skrll continue; 1323 1.78.2.12 skrll } 1324 1.78.2.12 skrll ifp->if_opackets++; 1325 1.78.2.12 skrll } 1326 1.78.2.12 skrll 1327 1.78.2.12 skrll ifp->if_flags &= ~IFF_OACTIVE; 1328 1.78.2.12 skrll 1329 1.78.2.12 skrll /* Remove reference to mib before release */ 1330 1.78.2.12 skrll p = NULL; 1331 1.78.2.12 skrll ec = NULL; 1332 1.78.2.12 skrll 1333 1.78.2.12 skrll vlan_putref_linkmib(mib, &psref); 1334 1.78.2.12 skrll } 1335 1.78.2.12 skrll 1336 1.78.2.12 skrll static int 1337 1.78.2.12 skrll vlan_transmit(struct ifnet *ifp, struct mbuf *m) 1338 1.78.2.12 skrll { 1339 1.78.2.12 skrll struct ifvlan *ifv = ifp->if_softc; 1340 1.78.2.12 skrll struct ifnet *p; 1341 1.78.2.12 skrll struct ethercom *ec; 1342 1.78.2.12 skrll struct ifvlan_linkmib *mib; 1343 1.78.2.12 skrll struct psref psref; 1344 1.78.2.12 skrll int error; 1345 1.78.2.12 skrll size_t pktlen = m->m_pkthdr.len; 1346 1.78.2.12 skrll bool mcast = (m->m_flags & M_MCAST) != 0; 1347 1.78.2.12 skrll 1348 1.78.2.12 skrll mib = vlan_getref_linkmib(ifv, &psref); 1349 1.78.2.12 skrll if (mib == NULL) { 1350 1.78.2.12 skrll m_freem(m); 1351 1.78.2.12 skrll return ENETDOWN; 1352 1.78.2.12 skrll } 1353 1.78.2.12 skrll 1354 1.78.2.12 skrll p = mib->ifvm_p; 1355 1.78.2.12 skrll ec = (void *)mib->ifvm_p; 1356 1.78.2.12 skrll 1357 1.78.2.12 skrll bpf_mtap(ifp, m); 1358 1.78.2.12 skrll /* 1359 1.78.2.12 skrll * If the parent can insert the tag itself, just mark 1360 1.78.2.12 skrll * the tag in the mbuf header. 1361 1.78.2.12 skrll */ 1362 1.78.2.12 skrll if (ec->ec_capabilities & ETHERCAP_VLAN_HWTAGGING) { 1363 1.78.2.12 skrll struct m_tag *mtag; 1364 1.78.2.12 skrll 1365 1.78.2.12 skrll mtag = m_tag_get(PACKET_TAG_VLAN, sizeof(u_int), 1366 1.78.2.12 skrll M_NOWAIT); 1367 1.78.2.12 skrll if (mtag == NULL) { 1368 1.78.2.12 skrll ifp->if_oerrors++; 1369 1.78.2.12 skrll m_freem(m); 1370 1.78.2.12 skrll error = ENOBUFS; 1371 1.78.2.12 skrll goto out; 1372 1.78.2.12 skrll } 1373 1.78.2.12 skrll *(u_int *)(mtag + 1) = mib->ifvm_tag; 1374 1.78.2.12 skrll m_tag_prepend(m, mtag); 1375 1.78.2.12 skrll } else { 1376 1.1 thorpej /* 1377 1.78.2.12 skrll * insert the tag ourselves 1378 1.1 thorpej */ 1379 1.78.2.12 skrll M_PREPEND(m, mib->ifvm_encaplen, M_DONTWAIT); 1380 1.78.2.12 skrll if (m == NULL) { 1381 1.78.2.12 skrll printf("%s: unable to prepend encap header", 1382 1.78.2.12 skrll p->if_xname); 1383 1.78.2.12 skrll ifp->if_oerrors++; 1384 1.78.2.12 skrll error = ENOBUFS; 1385 1.78.2.12 skrll goto out; 1386 1.78.2.12 skrll } 1387 1.78.2.12 skrll 1388 1.78.2.12 skrll switch (p->if_type) { 1389 1.78.2.12 skrll case IFT_ETHER: 1390 1.78.2.12 skrll { 1391 1.78.2.12 skrll struct ether_vlan_header *evl; 1392 1.78.2.12 skrll 1393 1.78.2.12 skrll if (m->m_len < sizeof(struct ether_vlan_header)) 1394 1.78.2.12 skrll m = m_pullup(m, 1395 1.78.2.12 skrll sizeof(struct ether_vlan_header)); 1396 1.78.2.12 skrll if (m == NULL) { 1397 1.78.2.12 skrll printf("%s: unable to pullup encap " 1398 1.78.2.12 skrll "header", p->if_xname); 1399 1.78.2.7 skrll ifp->if_oerrors++; 1400 1.78.2.12 skrll error = ENOBUFS; 1401 1.78.2.12 skrll goto out; 1402 1.78.2.7 skrll } 1403 1.78.2.12 skrll 1404 1.78.2.12 skrll /* 1405 1.78.2.12 skrll * Transform the Ethernet header into an 1406 1.78.2.12 skrll * Ethernet header with 802.1Q encapsulation. 1407 1.78.2.12 skrll */ 1408 1.78.2.12 skrll memmove(mtod(m, void *), 1409 1.78.2.12 skrll mtod(m, char *) + mib->ifvm_encaplen, 1410 1.78.2.12 skrll sizeof(struct ether_header)); 1411 1.78.2.12 skrll evl = mtod(m, struct ether_vlan_header *); 1412 1.78.2.12 skrll evl->evl_proto = evl->evl_encap_proto; 1413 1.78.2.12 skrll evl->evl_encap_proto = htons(ETHERTYPE_VLAN); 1414 1.78.2.12 skrll evl->evl_tag = htons(mib->ifvm_tag); 1415 1.78.2.12 skrll 1416 1.78.2.12 skrll /* 1417 1.78.2.12 skrll * To cater for VLAN-aware layer 2 ethernet 1418 1.78.2.12 skrll * switches which may need to strip the tag 1419 1.78.2.12 skrll * before forwarding the packet, make sure 1420 1.78.2.12 skrll * the packet+tag is at least 68 bytes long. 1421 1.78.2.12 skrll * This is necessary because our parent will 1422 1.78.2.12 skrll * only pad to 64 bytes (ETHER_MIN_LEN) and 1423 1.78.2.12 skrll * some switches will not pad by themselves 1424 1.78.2.12 skrll * after deleting a tag. 1425 1.78.2.12 skrll */ 1426 1.78.2.12 skrll if (m->m_pkthdr.len < 1427 1.78.2.12 skrll (ETHER_MIN_LEN - ETHER_CRC_LEN + 1428 1.78.2.12 skrll ETHER_VLAN_ENCAP_LEN)) { 1429 1.78.2.12 skrll m_copyback(m, m->m_pkthdr.len, 1430 1.78.2.12 skrll (ETHER_MIN_LEN - ETHER_CRC_LEN + 1431 1.78.2.12 skrll ETHER_VLAN_ENCAP_LEN) - 1432 1.78.2.12 skrll m->m_pkthdr.len, 1433 1.78.2.12 skrll vlan_zero_pad_buff); 1434 1.78.2.12 skrll } 1435 1.78.2.12 skrll break; 1436 1.78.2.12 skrll } 1437 1.78.2.12 skrll 1438 1.78.2.12 skrll #ifdef DIAGNOSTIC 1439 1.78.2.12 skrll default: 1440 1.78.2.12 skrll panic("vlan_transmit: impossible"); 1441 1.78.2.12 skrll #endif 1442 1.1 thorpej } 1443 1.78.2.12 skrll } 1444 1.78.2.12 skrll 1445 1.78.2.12 skrll if ((p->if_flags & IFF_RUNNING) == 0) { 1446 1.78.2.12 skrll m_freem(m); 1447 1.78.2.12 skrll error = ENETDOWN; 1448 1.78.2.12 skrll goto out; 1449 1.78.2.12 skrll } 1450 1.78.2.12 skrll 1451 1.78.2.12 skrll error = if_transmit_lock(p, m); 1452 1.78.2.12 skrll if (error) { 1453 1.78.2.12 skrll /* mbuf is already freed */ 1454 1.78.2.12 skrll ifp->if_oerrors++; 1455 1.78.2.12 skrll } else { 1456 1.31 thorpej 1457 1.23 bouyer ifp->if_opackets++; 1458 1.78.2.12 skrll ifp->if_obytes += pktlen; 1459 1.78.2.12 skrll if (mcast) 1460 1.78.2.12 skrll ifp->if_omcasts++; 1461 1.1 thorpej } 1462 1.1 thorpej 1463 1.78.2.12 skrll out: 1464 1.78.2.12 skrll /* Remove reference to mib before release */ 1465 1.78.2.12 skrll p = NULL; 1466 1.78.2.12 skrll ec = NULL; 1467 1.78.2.12 skrll 1468 1.78.2.12 skrll vlan_putref_linkmib(mib, &psref); 1469 1.78.2.12 skrll return error; 1470 1.1 thorpej } 1471 1.1 thorpej 1472 1.1 thorpej /* 1473 1.1 thorpej * Given an Ethernet frame, find a valid vlan interface corresponding to the 1474 1.44 perry * given source interface and tag, then run the real packet through the 1475 1.40 simonb * parent's input routine. 1476 1.1 thorpej */ 1477 1.1 thorpej void 1478 1.1 thorpej vlan_input(struct ifnet *ifp, struct mbuf *m) 1479 1.1 thorpej { 1480 1.1 thorpej struct ifvlan *ifv; 1481 1.1 thorpej u_int tag; 1482 1.35 itojun struct m_tag *mtag; 1483 1.78.2.12 skrll struct ifvlan_linkmib *mib; 1484 1.78.2.12 skrll struct psref psref; 1485 1.24 bouyer 1486 1.35 itojun mtag = m_tag_find(m, PACKET_TAG_VLAN, NULL); 1487 1.35 itojun if (mtag != NULL) { 1488 1.35 itojun /* m contains a normal ethernet frame, the tag is in mtag */ 1489 1.45 yamt tag = EVL_VLANOFTAG(*(u_int *)(mtag + 1)); 1490 1.35 itojun m_tag_delete(m, mtag); 1491 1.24 bouyer } else { 1492 1.24 bouyer switch (ifp->if_type) { 1493 1.24 bouyer case IFT_ETHER: 1494 1.24 bouyer { 1495 1.24 bouyer struct ether_vlan_header *evl; 1496 1.24 bouyer 1497 1.24 bouyer if (m->m_len < sizeof(struct ether_vlan_header) && 1498 1.24 bouyer (m = m_pullup(m, 1499 1.24 bouyer sizeof(struct ether_vlan_header))) == NULL) { 1500 1.24 bouyer printf("%s: no memory for VLAN header, " 1501 1.24 bouyer "dropping packet.\n", ifp->if_xname); 1502 1.24 bouyer return; 1503 1.24 bouyer } 1504 1.24 bouyer evl = mtod(m, struct ether_vlan_header *); 1505 1.24 bouyer KASSERT(ntohs(evl->evl_encap_proto) == ETHERTYPE_VLAN); 1506 1.24 bouyer 1507 1.24 bouyer tag = EVL_VLANOFTAG(ntohs(evl->evl_tag)); 1508 1.1 thorpej 1509 1.24 bouyer /* 1510 1.24 bouyer * Restore the original ethertype. We'll remove 1511 1.24 bouyer * the encapsulation after we've found the vlan 1512 1.24 bouyer * interface corresponding to the tag. 1513 1.24 bouyer */ 1514 1.24 bouyer evl->evl_encap_proto = evl->evl_proto; 1515 1.24 bouyer break; 1516 1.24 bouyer } 1517 1.10 thorpej 1518 1.24 bouyer default: 1519 1.24 bouyer tag = (u_int) -1; /* XXX GCC */ 1520 1.24 bouyer #ifdef DIAGNOSTIC 1521 1.24 bouyer panic("vlan_input: impossible"); 1522 1.24 bouyer #endif 1523 1.10 thorpej } 1524 1.43 christos } 1525 1.10 thorpej 1526 1.78.2.12 skrll mib = vlan_lookup_tag_psref(ifp, tag, &psref); 1527 1.78.2.12 skrll if (mib == NULL) { 1528 1.37 itojun m_freem(m); 1529 1.14 enami ifp->if_noproto++; 1530 1.1 thorpej return; 1531 1.1 thorpej } 1532 1.43 christos 1533 1.78.2.12 skrll ifv = mib->ifvm_ifvlan; 1534 1.78.2.12 skrll if ((ifv->ifv_if.if_flags & (IFF_UP|IFF_RUNNING)) != 1535 1.78.2.12 skrll (IFF_UP|IFF_RUNNING)) { 1536 1.78.2.12 skrll m_freem(m); 1537 1.78.2.12 skrll ifp->if_noproto++; 1538 1.78.2.12 skrll goto out; 1539 1.78.2.12 skrll } 1540 1.78.2.12 skrll 1541 1.43 christos /* 1542 1.43 christos * Now, remove the encapsulation header. The original 1543 1.43 christos * header has already been fixed up above. 1544 1.43 christos */ 1545 1.43 christos if (mtag == NULL) { 1546 1.78.2.12 skrll memmove(mtod(m, char *) + mib->ifvm_encaplen, 1547 1.53 christos mtod(m, void *), sizeof(struct ether_header)); 1548 1.78.2.12 skrll m_adj(m, mib->ifvm_encaplen); 1549 1.43 christos } 1550 1.43 christos 1551 1.78.2.8 skrll m_set_rcvif(m, &ifv->ifv_if); 1552 1.1 thorpej ifv->ifv_if.if_ipackets++; 1553 1.1 thorpej 1554 1.72 ozaki m->m_flags &= ~M_PROMISC; 1555 1.78.2.5 skrll if_input(&ifv->ifv_if, m); 1556 1.78.2.12 skrll out: 1557 1.78.2.12 skrll vlan_putref_linkmib(mib, &psref); 1558 1.1 thorpej } 1559 1.78.2.9 skrll 1560 1.78.2.9 skrll /* 1561 1.78.2.9 skrll * Module infrastructure 1562 1.78.2.9 skrll */ 1563 1.78.2.9 skrll #include "if_module.h" 1564 1.78.2.9 skrll 1565 1.78.2.9 skrll IF_MODULE(MODULE_CLASS_DRIVER, vlan, "") 1566
Indexes created Tue Oct 14 00:09:49 GMT 2025