ip_encap.c revision 1.63
1 1.63 ozaki /* $NetBSD: ip_encap.c,v 1.63 2017/04/07 03:31:50 ozaki-r Exp $ */ 2 1.7 itojun /* $KAME: ip_encap.c,v 1.73 2001/10/02 08:30:58 itojun Exp $ */ 3 1.1 itojun 4 1.1 itojun /* 5 1.1 itojun * Copyright (C) 1995, 1996, 1997, and 1998 WIDE Project. 6 1.1 itojun * All rights reserved. 7 1.1 itojun * 8 1.1 itojun * Redistribution and use in source and binary forms, with or without 9 1.1 itojun * modification, are permitted provided that the following conditions 10 1.1 itojun * are met: 11 1.1 itojun * 1. Redistributions of source code must retain the above copyright 12 1.1 itojun * notice, this list of conditions and the following disclaimer. 13 1.1 itojun * 2. Redistributions in binary form must reproduce the above copyright 14 1.1 itojun * notice, this list of conditions and the following disclaimer in the 15 1.1 itojun * documentation and/or other materials provided with the distribution. 16 1.1 itojun * 3. Neither the name of the project nor the names of its contributors 17 1.1 itojun * may be used to endorse or promote products derived from this software 18 1.1 itojun * without specific prior written permission. 19 1.1 itojun * 20 1.1 itojun * THIS SOFTWARE IS PROVIDED BY THE PROJECT AND CONTRIBUTORS ``AS IS'' AND 21 1.1 itojun * ANY EXPRESS OR IMPLIED WARRANTIES, INCLUDING, BUT NOT LIMITED TO, THE 22 1.1 itojun * IMPLIED WARRANTIES OF MERCHANTABILITY AND FITNESS FOR A PARTICULAR PURPOSE 23 1.1 itojun * ARE DISCLAIMED. IN NO EVENT SHALL THE PROJECT OR CONTRIBUTORS BE LIABLE 24 1.1 itojun * FOR ANY DIRECT, INDIRECT, INCIDENTAL, SPECIAL, EXEMPLARY, OR CONSEQUENTIAL 25 1.1 itojun * DAMAGES (INCLUDING, BUT NOT LIMITED TO, PROCUREMENT OF SUBSTITUTE GOODS 26 1.1 itojun * OR SERVICES; LOSS OF USE, DATA, OR PROFITS; OR BUSINESS INTERRUPTION) 27 1.1 itojun * HOWEVER CAUSED AND ON ANY THEORY OF LIABILITY, WHETHER IN CONTRACT, STRICT 28 1.1 itojun * LIABILITY, OR TORT (INCLUDING NEGLIGENCE OR OTHERWISE) ARISING IN ANY WAY 29 1.1 itojun * OUT OF THE USE OF THIS SOFTWARE, EVEN IF ADVISED OF THE POSSIBILITY OF 30 1.1 itojun * SUCH DAMAGE. 31 1.1 itojun */ 32 1.1 itojun /* 33 1.1 itojun * My grandfather said that there's a devil inside tunnelling technology... 34 1.1 itojun * 35 1.1 itojun * We have surprisingly many protocols that want packets with IP protocol 36 1.1 itojun * #4 or #41. Here's a list of protocols that want protocol #41: 37 1.1 itojun * RFC1933 configured tunnel 38 1.1 itojun * RFC1933 automatic tunnel 39 1.1 itojun * RFC2401 IPsec tunnel 40 1.1 itojun * RFC2473 IPv6 generic packet tunnelling 41 1.1 itojun * RFC2529 6over4 tunnel 42 1.7 itojun * RFC3056 6to4 tunnel 43 1.7 itojun * isatap tunnel 44 1.1 itojun * mobile-ip6 (uses RFC2473) 45 1.1 itojun * Here's a list of protocol that want protocol #4: 46 1.1 itojun * RFC1853 IPv4-in-IPv4 tunnelling 47 1.1 itojun * RFC2003 IPv4 encapsulation within IPv4 48 1.1 itojun * RFC2344 reverse tunnelling for mobile-ip4 49 1.1 itojun * RFC2401 IPsec tunnel 50 1.1 itojun * Well, what can I say. They impose different en/decapsulation mechanism 51 1.1 itojun * from each other, so they need separate protocol handler. The only one 52 1.1 itojun * we can easily determine by protocol # is IPsec, which always has 53 1.1 itojun * AH/ESP/IPComp header right after outer IP header. 54 1.1 itojun * 55 1.1 itojun * So, clearly good old protosw does not work for protocol #4 and #41. 56 1.1 itojun * The code will let you match protocol via src/dst address pair. 57 1.1 itojun */ 58 1.1 itojun /* XXX is M_NETADDR correct? */ 59 1.6 lukem 60 1.7 itojun /* 61 1.55 knakahar * With USE_RADIX the code will use radix table for tunnel lookup, for 62 1.7 itojun * tunnels registered with encap_attach() with a addr/mask pair. 63 1.7 itojun * Faster on machines with thousands of tunnel registerations (= interfaces). 64 1.7 itojun * 65 1.7 itojun * The code assumes that radix table code can handle non-continuous netmask, 66 1.7 itojun * as it will pass radix table memory region with (src + dst) sockaddr pair. 67 1.7 itojun */ 68 1.55 knakahar #define USE_RADIX 69 1.7 itojun 70 1.6 lukem #include <sys/cdefs.h> 71 1.63 ozaki __KERNEL_RCSID(0, "$NetBSD: ip_encap.c,v 1.63 2017/04/07 03:31:50 ozaki-r Exp $"); 72 1.1 itojun 73 1.46 pooka #ifdef _KERNEL_OPT 74 1.4 itojun #include "opt_mrouting.h" 75 1.4 itojun #include "opt_inet.h" 76 1.61 knakahar #include "opt_net_mpsafe.h" 77 1.46 pooka #endif 78 1.1 itojun 79 1.1 itojun #include <sys/param.h> 80 1.1 itojun #include <sys/systm.h> 81 1.1 itojun #include <sys/socket.h> 82 1.1 itojun #include <sys/sockio.h> 83 1.1 itojun #include <sys/mbuf.h> 84 1.1 itojun #include <sys/errno.h> 85 1.4 itojun #include <sys/queue.h> 86 1.47 knakahar #include <sys/kmem.h> 87 1.56 knakahar #include <sys/mutex.h> 88 1.59 knakahar #include <sys/condvar.h> 89 1.56 knakahar #include <sys/psref.h> 90 1.56 knakahar #include <sys/pslist.h> 91 1.1 itojun 92 1.1 itojun #include <net/if.h> 93 1.1 itojun 94 1.1 itojun #include <netinet/in.h> 95 1.1 itojun #include <netinet/in_systm.h> 96 1.1 itojun #include <netinet/ip.h> 97 1.1 itojun #include <netinet/ip_var.h> 98 1.1 itojun #include <netinet/ip_encap.h> 99 1.1 itojun #ifdef MROUTING 100 1.1 itojun #include <netinet/ip_mroute.h> 101 1.1 itojun #endif /* MROUTING */ 102 1.1 itojun 103 1.1 itojun #ifdef INET6 104 1.1 itojun #include <netinet/ip6.h> 105 1.1 itojun #include <netinet6/ip6_var.h> 106 1.51 knakahar #include <netinet6/ip6protosw.h> /* for struct ip6ctlparam */ 107 1.7 itojun #include <netinet6/in6_var.h> 108 1.7 itojun #include <netinet6/in6_pcb.h> 109 1.7 itojun #include <netinet/icmp6.h> 110 1.1 itojun #endif 111 1.1 itojun 112 1.1 itojun #include <net/net_osdep.h> 113 1.1 itojun 114 1.61 knakahar #ifdef NET_MPSAFE 115 1.61 knakahar #define ENCAP_MPSAFE 1 116 1.61 knakahar #endif 117 1.61 knakahar 118 1.7 itojun enum direction { INBOUND, OUTBOUND }; 119 1.7 itojun 120 1.7 itojun #ifdef INET 121 1.56 knakahar static struct encaptab *encap4_lookup(struct mbuf *, int, int, enum direction, 122 1.56 knakahar struct psref *); 123 1.7 itojun #endif 124 1.7 itojun #ifdef INET6 125 1.56 knakahar static struct encaptab *encap6_lookup(struct mbuf *, int, int, enum direction, 126 1.56 knakahar struct psref *); 127 1.7 itojun #endif 128 1.22 perry static int encap_add(struct encaptab *); 129 1.22 perry static int encap_remove(struct encaptab *); 130 1.22 perry static int encap_afcheck(int, const struct sockaddr *, const struct sockaddr *); 131 1.55 knakahar #ifdef USE_RADIX 132 1.22 perry static struct radix_node_head *encap_rnh(int); 133 1.22 perry static int mask_matchlen(const struct sockaddr *); 134 1.55 knakahar #else 135 1.55 knakahar static int mask_match(const struct encaptab *, const struct sockaddr *, 136 1.55 knakahar const struct sockaddr *); 137 1.55 knakahar #endif 138 1.22 perry static void encap_fillarg(struct mbuf *, const struct encaptab *); 139 1.1 itojun 140 1.56 knakahar /* 141 1.56 knakahar * In encap[46]_lookup(), ep->func can sleep(e.g. rtalloc1) while walking 142 1.56 knakahar * encap_table. So, it cannot use pserialize_read_enter() 143 1.56 knakahar */ 144 1.56 knakahar static struct { 145 1.56 knakahar struct pslist_head list; 146 1.56 knakahar pserialize_t psz; 147 1.56 knakahar struct psref_class *elem_class; /* for the element of et_list */ 148 1.56 knakahar } encaptab __cacheline_aligned = { 149 1.56 knakahar .list = PSLIST_INITIALIZER, 150 1.56 knakahar }; 151 1.56 knakahar #define encap_table encaptab.list 152 1.1 itojun 153 1.59 knakahar static struct { 154 1.59 knakahar kmutex_t lock; 155 1.59 knakahar kcondvar_t cv; 156 1.59 knakahar struct lwp *busy; 157 1.59 knakahar } encap_whole __cacheline_aligned; 158 1.59 knakahar 159 1.55 knakahar #ifdef USE_RADIX 160 1.7 itojun struct radix_node_head *encap_head[2]; /* 0 for AF_INET, 1 for AF_INET6 */ 161 1.57 knakahar static bool encap_head_updating = false; 162 1.55 knakahar #endif 163 1.7 itojun 164 1.63 ozaki static bool encap_initialized = false; 165 1.59 knakahar /* 166 1.59 knakahar * must be done before other encap interfaces initialization. 167 1.59 knakahar */ 168 1.59 knakahar void 169 1.59 knakahar encapinit(void) 170 1.59 knakahar { 171 1.59 knakahar 172 1.63 ozaki if (encap_initialized) 173 1.63 ozaki return; 174 1.63 ozaki 175 1.60 knakahar encaptab.psz = pserialize_create(); 176 1.60 knakahar encaptab.elem_class = psref_class_create("encapelem", IPL_SOFTNET); 177 1.60 knakahar if (encaptab.elem_class == NULL) 178 1.60 knakahar panic("encaptab.elem_class cannot be allocated.\n"); 179 1.60 knakahar 180 1.59 knakahar mutex_init(&encap_whole.lock, MUTEX_DEFAULT, IPL_NONE); 181 1.59 knakahar cv_init(&encap_whole.cv, "ip_encap cv"); 182 1.59 knakahar encap_whole.busy = NULL; 183 1.63 ozaki 184 1.63 ozaki encap_initialized = true; 185 1.59 knakahar } 186 1.59 knakahar 187 1.1 itojun void 188 1.23 perry encap_init(void) 189 1.1 itojun { 190 1.7 itojun static int initialized = 0; 191 1.7 itojun 192 1.7 itojun if (initialized) 193 1.7 itojun return; 194 1.7 itojun initialized++; 195 1.1 itojun #if 0 196 1.1 itojun /* 197 1.1 itojun * we cannot use LIST_INIT() here, since drivers may want to call 198 1.4 itojun * encap_attach(), on driver attach. encap_init() will be called 199 1.1 itojun * on AF_INET{,6} initialization, which happens after driver 200 1.1 itojun * initialization - using LIST_INIT() here can nuke encap_attach() 201 1.1 itojun * from drivers. 202 1.1 itojun */ 203 1.56 knakahar PSLIST_INIT(&encap_table); 204 1.1 itojun #endif 205 1.7 itojun 206 1.55 knakahar #ifdef USE_RADIX 207 1.7 itojun /* 208 1.38 pooka * initialize radix lookup table when the radix subsystem is inited. 209 1.7 itojun */ 210 1.38 pooka rn_delayedinit((void *)&encap_head[0], 211 1.38 pooka sizeof(struct sockaddr_pack) << 3); 212 1.7 itojun #ifdef INET6 213 1.38 pooka rn_delayedinit((void *)&encap_head[1], 214 1.38 pooka sizeof(struct sockaddr_pack) << 3); 215 1.7 itojun #endif 216 1.55 knakahar #endif 217 1.1 itojun } 218 1.1 itojun 219 1.4 itojun #ifdef INET 220 1.7 itojun static struct encaptab * 221 1.56 knakahar encap4_lookup(struct mbuf *m, int off, int proto, enum direction dir, 222 1.56 knakahar struct psref *match_psref) 223 1.1 itojun { 224 1.1 itojun struct ip *ip; 225 1.33 pooka struct ip_pack4 pack; 226 1.1 itojun struct encaptab *ep, *match; 227 1.1 itojun int prio, matchprio; 228 1.56 knakahar int s; 229 1.55 knakahar #ifdef USE_RADIX 230 1.7 itojun struct radix_node_head *rnh = encap_rnh(AF_INET); 231 1.7 itojun struct radix_node *rn; 232 1.55 knakahar #endif 233 1.1 itojun 234 1.41 ozaki KASSERT(m->m_len >= sizeof(*ip)); 235 1.41 ozaki 236 1.1 itojun ip = mtod(m, struct ip *); 237 1.1 itojun 238 1.35 cegger memset(&pack, 0, sizeof(pack)); 239 1.7 itojun pack.p.sp_len = sizeof(pack); 240 1.7 itojun pack.mine.sin_family = pack.yours.sin_family = AF_INET; 241 1.7 itojun pack.mine.sin_len = pack.yours.sin_len = sizeof(struct sockaddr_in); 242 1.7 itojun if (dir == INBOUND) { 243 1.7 itojun pack.mine.sin_addr = ip->ip_dst; 244 1.7 itojun pack.yours.sin_addr = ip->ip_src; 245 1.7 itojun } else { 246 1.7 itojun pack.mine.sin_addr = ip->ip_src; 247 1.7 itojun pack.yours.sin_addr = ip->ip_dst; 248 1.7 itojun } 249 1.1 itojun 250 1.1 itojun match = NULL; 251 1.1 itojun matchprio = 0; 252 1.7 itojun 253 1.56 knakahar s = pserialize_read_enter(); 254 1.55 knakahar #ifdef USE_RADIX 255 1.57 knakahar if (encap_head_updating) { 256 1.57 knakahar /* 257 1.57 knakahar * Update in progress. Do nothing. 258 1.57 knakahar */ 259 1.57 knakahar pserialize_read_exit(s); 260 1.57 knakahar return NULL; 261 1.57 knakahar } 262 1.57 knakahar 263 1.30 christos rn = rnh->rnh_matchaddr((void *)&pack, rnh); 264 1.7 itojun if (rn && (rn->rn_flags & RNF_ROOT) == 0) { 265 1.56 knakahar struct encaptab *encapp = (struct encaptab *)rn; 266 1.56 knakahar 267 1.56 knakahar psref_acquire(match_psref, &encapp->psref, 268 1.56 knakahar encaptab.elem_class); 269 1.56 knakahar match = encapp; 270 1.7 itojun matchprio = mask_matchlen(match->srcmask) + 271 1.7 itojun mask_matchlen(match->dstmask); 272 1.7 itojun } 273 1.55 knakahar #endif 274 1.56 knakahar PSLIST_READER_FOREACH(ep, &encap_table, struct encaptab, chain) { 275 1.56 knakahar struct psref elem_psref; 276 1.56 knakahar 277 1.56 knakahar membar_datadep_consumer(); 278 1.7 itojun 279 1.1 itojun if (ep->af != AF_INET) 280 1.1 itojun continue; 281 1.1 itojun if (ep->proto >= 0 && ep->proto != proto) 282 1.1 itojun continue; 283 1.56 knakahar 284 1.56 knakahar psref_acquire(&elem_psref, &ep->psref, 285 1.56 knakahar encaptab.elem_class); 286 1.56 knakahar if (ep->func) { 287 1.56 knakahar pserialize_read_exit(s); 288 1.56 knakahar /* ep->func is sleepable. e.g. rtalloc1 */ 289 1.1 itojun prio = (*ep->func)(m, off, proto, ep->arg); 290 1.56 knakahar s = pserialize_read_enter(); 291 1.56 knakahar } else { 292 1.55 knakahar #ifdef USE_RADIX 293 1.56 knakahar psref_release(&elem_psref, &ep->psref, 294 1.56 knakahar encaptab.elem_class); 295 1.7 itojun continue; 296 1.55 knakahar #else 297 1.55 knakahar prio = mask_match(ep, (struct sockaddr *)&pack.mine, 298 1.55 knakahar (struct sockaddr *)&pack.yours); 299 1.55 knakahar #endif 300 1.55 knakahar } 301 1.1 itojun 302 1.1 itojun /* 303 1.1 itojun * We prioritize the matches by using bit length of the 304 1.1 itojun * matches. mask_match() and user-supplied matching function 305 1.1 itojun * should return the bit length of the matches (for example, 306 1.1 itojun * if both src/dst are matched for IPv4, 64 should be returned). 307 1.1 itojun * 0 or negative return value means "it did not match". 308 1.1 itojun * 309 1.1 itojun * The question is, since we have two "mask" portion, we 310 1.1 itojun * cannot really define total order between entries. 311 1.1 itojun * For example, which of these should be preferred? 312 1.1 itojun * mask_match() returns 48 (32 + 16) for both of them. 313 1.1 itojun * src=3ffe::/16, dst=3ffe:501::/32 314 1.1 itojun * src=3ffe:501::/32, dst=3ffe::/16 315 1.1 itojun * 316 1.1 itojun * We need to loop through all the possible candidates 317 1.1 itojun * to get the best match - the search takes O(n) for 318 1.1 itojun * n attachments (i.e. interfaces). 319 1.7 itojun * 320 1.7 itojun * For radix-based lookup, I guess source takes precedence. 321 1.7 itojun * See rn_{refines,lexobetter} for the correct answer. 322 1.1 itojun */ 323 1.56 knakahar if (prio <= 0) { 324 1.56 knakahar psref_release(&elem_psref, &ep->psref, 325 1.56 knakahar encaptab.elem_class); 326 1.1 itojun continue; 327 1.56 knakahar } 328 1.1 itojun if (prio > matchprio) { 329 1.56 knakahar /* release last matched ep */ 330 1.56 knakahar if (match != NULL) 331 1.56 knakahar psref_release(match_psref, &match->psref, 332 1.56 knakahar encaptab.elem_class); 333 1.56 knakahar 334 1.56 knakahar psref_copy(match_psref, &elem_psref, 335 1.56 knakahar encaptab.elem_class); 336 1.1 itojun matchprio = prio; 337 1.1 itojun match = ep; 338 1.1 itojun } 339 1.56 knakahar KASSERTMSG((match == NULL) || psref_held(&match->psref, 340 1.56 knakahar encaptab.elem_class), 341 1.56 knakahar "current match = %p, but not hold its psref", match); 342 1.56 knakahar 343 1.56 knakahar psref_release(&elem_psref, &ep->psref, 344 1.56 knakahar encaptab.elem_class); 345 1.1 itojun } 346 1.56 knakahar pserialize_read_exit(s); 347 1.1 itojun 348 1.7 itojun return match; 349 1.7 itojun } 350 1.7 itojun 351 1.7 itojun void 352 1.7 itojun encap4_input(struct mbuf *m, ...) 353 1.7 itojun { 354 1.7 itojun int off, proto; 355 1.7 itojun va_list ap; 356 1.51 knakahar const struct encapsw *esw; 357 1.7 itojun struct encaptab *match; 358 1.56 knakahar struct psref match_psref; 359 1.7 itojun 360 1.7 itojun va_start(ap, m); 361 1.7 itojun off = va_arg(ap, int); 362 1.7 itojun proto = va_arg(ap, int); 363 1.7 itojun va_end(ap); 364 1.7 itojun 365 1.56 knakahar match = encap4_lookup(m, off, proto, INBOUND, &match_psref); 366 1.1 itojun if (match) { 367 1.1 itojun /* found a match, "match" has the best one */ 368 1.51 knakahar esw = match->esw; 369 1.51 knakahar if (esw && esw->encapsw4.pr_input) { 370 1.1 itojun encap_fillarg(m, match); 371 1.51 knakahar (*esw->encapsw4.pr_input)(m, off, proto); 372 1.56 knakahar psref_release(&match_psref, &match->psref, 373 1.56 knakahar encaptab.elem_class); 374 1.54 knakahar } else { 375 1.56 knakahar psref_release(&match_psref, &match->psref, 376 1.56 knakahar encaptab.elem_class); 377 1.1 itojun m_freem(m); 378 1.54 knakahar } 379 1.1 itojun return; 380 1.1 itojun } 381 1.1 itojun 382 1.1 itojun /* last resort: inject to raw socket */ 383 1.1 itojun rip_input(m, off, proto); 384 1.1 itojun } 385 1.1 itojun #endif 386 1.1 itojun 387 1.1 itojun #ifdef INET6 388 1.7 itojun static struct encaptab * 389 1.56 knakahar encap6_lookup(struct mbuf *m, int off, int proto, enum direction dir, 390 1.56 knakahar struct psref *match_psref) 391 1.1 itojun { 392 1.1 itojun struct ip6_hdr *ip6; 393 1.33 pooka struct ip_pack6 pack; 394 1.7 itojun int prio, matchprio; 395 1.56 knakahar int s; 396 1.1 itojun struct encaptab *ep, *match; 397 1.55 knakahar #ifdef USE_RADIX 398 1.7 itojun struct radix_node_head *rnh = encap_rnh(AF_INET6); 399 1.7 itojun struct radix_node *rn; 400 1.55 knakahar #endif 401 1.1 itojun 402 1.41 ozaki KASSERT(m->m_len >= sizeof(*ip6)); 403 1.41 ozaki 404 1.1 itojun ip6 = mtod(m, struct ip6_hdr *); 405 1.1 itojun 406 1.35 cegger memset(&pack, 0, sizeof(pack)); 407 1.7 itojun pack.p.sp_len = sizeof(pack); 408 1.7 itojun pack.mine.sin6_family = pack.yours.sin6_family = AF_INET6; 409 1.7 itojun pack.mine.sin6_len = pack.yours.sin6_len = sizeof(struct sockaddr_in6); 410 1.7 itojun if (dir == INBOUND) { 411 1.7 itojun pack.mine.sin6_addr = ip6->ip6_dst; 412 1.7 itojun pack.yours.sin6_addr = ip6->ip6_src; 413 1.7 itojun } else { 414 1.7 itojun pack.mine.sin6_addr = ip6->ip6_src; 415 1.7 itojun pack.yours.sin6_addr = ip6->ip6_dst; 416 1.7 itojun } 417 1.1 itojun 418 1.1 itojun match = NULL; 419 1.1 itojun matchprio = 0; 420 1.7 itojun 421 1.56 knakahar s = pserialize_read_enter(); 422 1.55 knakahar #ifdef USE_RADIX 423 1.57 knakahar if (encap_head_updating) { 424 1.57 knakahar /* 425 1.57 knakahar * Update in progress. Do nothing. 426 1.57 knakahar */ 427 1.57 knakahar pserialize_read_exit(s); 428 1.57 knakahar return NULL; 429 1.57 knakahar } 430 1.57 knakahar 431 1.30 christos rn = rnh->rnh_matchaddr((void *)&pack, rnh); 432 1.7 itojun if (rn && (rn->rn_flags & RNF_ROOT) == 0) { 433 1.56 knakahar struct encaptab *encapp = (struct encaptab *)rn; 434 1.56 knakahar 435 1.56 knakahar psref_acquire(match_psref, &encapp->psref, 436 1.56 knakahar encaptab.elem_class); 437 1.56 knakahar match = encapp; 438 1.7 itojun matchprio = mask_matchlen(match->srcmask) + 439 1.7 itojun mask_matchlen(match->dstmask); 440 1.7 itojun } 441 1.55 knakahar #endif 442 1.56 knakahar PSLIST_READER_FOREACH(ep, &encap_table, struct encaptab, chain) { 443 1.56 knakahar struct psref elem_psref; 444 1.56 knakahar 445 1.56 knakahar membar_datadep_consumer(); 446 1.7 itojun 447 1.1 itojun if (ep->af != AF_INET6) 448 1.1 itojun continue; 449 1.1 itojun if (ep->proto >= 0 && ep->proto != proto) 450 1.1 itojun continue; 451 1.56 knakahar 452 1.56 knakahar psref_acquire(&elem_psref, &ep->psref, 453 1.56 knakahar encaptab.elem_class); 454 1.56 knakahar 455 1.56 knakahar if (ep->func) { 456 1.56 knakahar pserialize_read_exit(s); 457 1.56 knakahar /* ep->func is sleepable. e.g. rtalloc1 */ 458 1.7 itojun prio = (*ep->func)(m, off, proto, ep->arg); 459 1.56 knakahar s = pserialize_read_enter(); 460 1.56 knakahar } else { 461 1.55 knakahar #ifdef USE_RADIX 462 1.56 knakahar psref_release(&elem_psref, &ep->psref, 463 1.56 knakahar encaptab.elem_class); 464 1.7 itojun continue; 465 1.55 knakahar #else 466 1.55 knakahar prio = mask_match(ep, (struct sockaddr *)&pack.mine, 467 1.55 knakahar (struct sockaddr *)&pack.yours); 468 1.55 knakahar #endif 469 1.55 knakahar } 470 1.1 itojun 471 1.7 itojun /* see encap4_lookup() for issues here */ 472 1.56 knakahar if (prio <= 0) { 473 1.56 knakahar psref_release(&elem_psref, &ep->psref, 474 1.56 knakahar encaptab.elem_class); 475 1.1 itojun continue; 476 1.56 knakahar } 477 1.1 itojun if (prio > matchprio) { 478 1.56 knakahar /* release last matched ep */ 479 1.56 knakahar if (match != NULL) 480 1.56 knakahar psref_release(match_psref, &match->psref, 481 1.56 knakahar encaptab.elem_class); 482 1.56 knakahar 483 1.56 knakahar psref_copy(match_psref, &elem_psref, 484 1.56 knakahar encaptab.elem_class); 485 1.1 itojun matchprio = prio; 486 1.1 itojun match = ep; 487 1.1 itojun } 488 1.56 knakahar KASSERTMSG((match == NULL) || psref_held(&match->psref, 489 1.56 knakahar encaptab.elem_class), 490 1.56 knakahar "current match = %p, but not hold its psref", match); 491 1.56 knakahar 492 1.56 knakahar psref_release(&elem_psref, &ep->psref, 493 1.56 knakahar encaptab.elem_class); 494 1.1 itojun } 495 1.56 knakahar pserialize_read_exit(s); 496 1.1 itojun 497 1.7 itojun return match; 498 1.7 itojun } 499 1.7 itojun 500 1.7 itojun int 501 1.23 perry encap6_input(struct mbuf **mp, int *offp, int proto) 502 1.7 itojun { 503 1.7 itojun struct mbuf *m = *mp; 504 1.51 knakahar const struct encapsw *esw; 505 1.7 itojun struct encaptab *match; 506 1.56 knakahar struct psref match_psref; 507 1.7 itojun 508 1.56 knakahar match = encap6_lookup(m, *offp, proto, INBOUND, &match_psref); 509 1.7 itojun 510 1.1 itojun if (match) { 511 1.1 itojun /* found a match */ 512 1.51 knakahar esw = match->esw; 513 1.51 knakahar if (esw && esw->encapsw6.pr_input) { 514 1.56 knakahar int ret; 515 1.1 itojun encap_fillarg(m, match); 516 1.56 knakahar ret = (*esw->encapsw6.pr_input)(mp, offp, proto); 517 1.56 knakahar psref_release(&match_psref, &match->psref, 518 1.56 knakahar encaptab.elem_class); 519 1.56 knakahar return ret; 520 1.1 itojun } else { 521 1.56 knakahar psref_release(&match_psref, &match->psref, 522 1.56 knakahar encaptab.elem_class); 523 1.1 itojun m_freem(m); 524 1.1 itojun return IPPROTO_DONE; 525 1.1 itojun } 526 1.1 itojun } 527 1.1 itojun 528 1.1 itojun /* last resort: inject to raw socket */ 529 1.1 itojun return rip6_input(mp, offp, proto); 530 1.1 itojun } 531 1.1 itojun #endif 532 1.1 itojun 533 1.54 knakahar /* 534 1.54 knakahar * XXX 535 1.54 knakahar * The encaptab list and the rnh radix tree must be manipulated atomically. 536 1.54 knakahar */ 537 1.7 itojun static int 538 1.23 perry encap_add(struct encaptab *ep) 539 1.1 itojun { 540 1.55 knakahar #ifdef USE_RADIX 541 1.7 itojun struct radix_node_head *rnh = encap_rnh(ep->af); 542 1.55 knakahar #endif 543 1.1 itojun 544 1.56 knakahar KASSERT(encap_lock_held()); 545 1.54 knakahar 546 1.55 knakahar #ifdef USE_RADIX 547 1.7 itojun if (!ep->func && rnh) { 548 1.57 knakahar /* Disable access to the radix tree for reader. */ 549 1.57 knakahar encap_head_updating = true; 550 1.56 knakahar /* Wait for all readers to drain. */ 551 1.56 knakahar pserialize_perform(encaptab.psz); 552 1.56 knakahar 553 1.30 christos if (!rnh->rnh_addaddr((void *)ep->addrpack, 554 1.30 christos (void *)ep->maskpack, rnh, ep->nodes)) { 555 1.57 knakahar encap_head_updating = false; 556 1.56 knakahar return EEXIST; 557 1.7 itojun } 558 1.57 knakahar 559 1.57 knakahar /* 560 1.57 knakahar * The ep added to the radix tree must be skipped while 561 1.57 knakahar * encap[46]_lookup walks encaptab list. In other words, 562 1.57 knakahar * encap_add() does not need to care whether the ep has 563 1.57 knakahar * been added encaptab list or not yet. 564 1.57 knakahar * So, we can re-enable access to the radix tree for now. 565 1.57 knakahar */ 566 1.57 knakahar encap_head_updating = false; 567 1.7 itojun } 568 1.55 knakahar #endif 569 1.56 knakahar PSLIST_WRITER_INSERT_HEAD(&encap_table, ep, chain); 570 1.7 itojun 571 1.56 knakahar return 0; 572 1.7 itojun } 573 1.7 itojun 574 1.54 knakahar /* 575 1.54 knakahar * XXX 576 1.54 knakahar * The encaptab list and the rnh radix tree must be manipulated atomically. 577 1.54 knakahar */ 578 1.7 itojun static int 579 1.23 perry encap_remove(struct encaptab *ep) 580 1.7 itojun { 581 1.55 knakahar #ifdef USE_RADIX 582 1.7 itojun struct radix_node_head *rnh = encap_rnh(ep->af); 583 1.55 knakahar #endif 584 1.7 itojun int error = 0; 585 1.7 itojun 586 1.56 knakahar KASSERT(encap_lock_held()); 587 1.54 knakahar 588 1.55 knakahar #ifdef USE_RADIX 589 1.7 itojun if (!ep->func && rnh) { 590 1.57 knakahar /* Disable access to the radix tree for reader. */ 591 1.57 knakahar encap_head_updating = true; 592 1.56 knakahar /* Wait for all readers to drain. */ 593 1.56 knakahar pserialize_perform(encaptab.psz); 594 1.56 knakahar 595 1.30 christos if (!rnh->rnh_deladdr((void *)ep->addrpack, 596 1.30 christos (void *)ep->maskpack, rnh)) 597 1.7 itojun error = ESRCH; 598 1.57 knakahar 599 1.57 knakahar /* 600 1.57 knakahar * The ep added to the radix tree must be skipped while 601 1.57 knakahar * encap[46]_lookup walks encaptab list. In other words, 602 1.57 knakahar * encap_add() does not need to care whether the ep has 603 1.57 knakahar * been added encaptab list or not yet. 604 1.57 knakahar * So, we can re-enable access to the radix tree for now. 605 1.57 knakahar */ 606 1.57 knakahar encap_head_updating = false; 607 1.7 itojun } 608 1.55 knakahar #endif 609 1.56 knakahar PSLIST_WRITER_REMOVE(ep, chain); 610 1.56 knakahar 611 1.7 itojun return error; 612 1.7 itojun } 613 1.7 itojun 614 1.7 itojun static int 615 1.23 perry encap_afcheck(int af, const struct sockaddr *sp, const struct sockaddr *dp) 616 1.7 itojun { 617 1.7 itojun if (sp && dp) { 618 1.7 itojun if (sp->sa_len != dp->sa_len) 619 1.7 itojun return EINVAL; 620 1.7 itojun if (af != sp->sa_family || af != dp->sa_family) 621 1.7 itojun return EINVAL; 622 1.7 itojun } else if (!sp && !dp) 623 1.7 itojun ; 624 1.7 itojun else 625 1.7 itojun return EINVAL; 626 1.7 itojun 627 1.7 itojun switch (af) { 628 1.7 itojun case AF_INET: 629 1.7 itojun if (sp && sp->sa_len != sizeof(struct sockaddr_in)) 630 1.7 itojun return EINVAL; 631 1.7 itojun if (dp && dp->sa_len != sizeof(struct sockaddr_in)) 632 1.7 itojun return EINVAL; 633 1.7 itojun break; 634 1.7 itojun #ifdef INET6 635 1.7 itojun case AF_INET6: 636 1.7 itojun if (sp && sp->sa_len != sizeof(struct sockaddr_in6)) 637 1.7 itojun return EINVAL; 638 1.7 itojun if (dp && dp->sa_len != sizeof(struct sockaddr_in6)) 639 1.7 itojun return EINVAL; 640 1.7 itojun break; 641 1.7 itojun #endif 642 1.7 itojun default: 643 1.7 itojun return EAFNOSUPPORT; 644 1.7 itojun } 645 1.7 itojun 646 1.7 itojun return 0; 647 1.1 itojun } 648 1.1 itojun 649 1.1 itojun /* 650 1.1 itojun * sp (src ptr) is always my side, and dp (dst ptr) is always remote side. 651 1.1 itojun * length of mask (sm and dm) is assumed to be same as sp/dp. 652 1.1 itojun * Return value will be necessary as input (cookie) for encap_detach(). 653 1.1 itojun */ 654 1.1 itojun const struct encaptab * 655 1.23 perry encap_attach(int af, int proto, 656 1.23 perry const struct sockaddr *sp, const struct sockaddr *sm, 657 1.23 perry const struct sockaddr *dp, const struct sockaddr *dm, 658 1.51 knakahar const struct encapsw *esw, void *arg) 659 1.1 itojun { 660 1.1 itojun struct encaptab *ep; 661 1.1 itojun int error; 662 1.61 knakahar int pss; 663 1.7 itojun size_t l; 664 1.33 pooka struct ip_pack4 *pack4; 665 1.7 itojun #ifdef INET6 666 1.33 pooka struct ip_pack6 *pack6; 667 1.7 itojun #endif 668 1.61 knakahar #ifndef ENCAP_MPSAFE 669 1.61 knakahar int s; 670 1.1 itojun 671 1.1 itojun s = splsoftnet(); 672 1.61 knakahar #endif 673 1.1 itojun /* sanity check on args */ 674 1.7 itojun error = encap_afcheck(af, sp, dp); 675 1.7 itojun if (error) 676 1.1 itojun goto fail; 677 1.1 itojun 678 1.1 itojun /* check if anyone have already attached with exactly same config */ 679 1.56 knakahar pss = pserialize_read_enter(); 680 1.56 knakahar PSLIST_READER_FOREACH(ep, &encap_table, struct encaptab, chain) { 681 1.56 knakahar membar_datadep_consumer(); 682 1.56 knakahar 683 1.1 itojun if (ep->af != af) 684 1.1 itojun continue; 685 1.1 itojun if (ep->proto != proto) 686 1.1 itojun continue; 687 1.7 itojun if (ep->func) 688 1.7 itojun continue; 689 1.41 ozaki 690 1.43 riastrad KASSERT(ep->src != NULL); 691 1.43 riastrad KASSERT(ep->dst != NULL); 692 1.43 riastrad KASSERT(ep->srcmask != NULL); 693 1.43 riastrad KASSERT(ep->dstmask != NULL); 694 1.41 ozaki 695 1.7 itojun if (ep->src->sa_len != sp->sa_len || 696 1.34 cegger memcmp(ep->src, sp, sp->sa_len) != 0 || 697 1.34 cegger memcmp(ep->srcmask, sm, sp->sa_len) != 0) 698 1.7 itojun continue; 699 1.7 itojun if (ep->dst->sa_len != dp->sa_len || 700 1.34 cegger memcmp(ep->dst, dp, dp->sa_len) != 0 || 701 1.34 cegger memcmp(ep->dstmask, dm, dp->sa_len) != 0) 702 1.1 itojun continue; 703 1.1 itojun 704 1.1 itojun error = EEXIST; 705 1.56 knakahar pserialize_read_exit(pss); 706 1.1 itojun goto fail; 707 1.1 itojun } 708 1.56 knakahar pserialize_read_exit(pss); 709 1.3 thorpej 710 1.7 itojun switch (af) { 711 1.7 itojun case AF_INET: 712 1.7 itojun l = sizeof(*pack4); 713 1.7 itojun break; 714 1.7 itojun #ifdef INET6 715 1.7 itojun case AF_INET6: 716 1.7 itojun l = sizeof(*pack6); 717 1.7 itojun break; 718 1.7 itojun #endif 719 1.7 itojun default: 720 1.7 itojun goto fail; 721 1.7 itojun } 722 1.7 itojun 723 1.20 itojun /* M_NETADDR ok? */ 724 1.47 knakahar ep = kmem_zalloc(sizeof(*ep), KM_NOSLEEP); 725 1.1 itojun if (ep == NULL) { 726 1.1 itojun error = ENOBUFS; 727 1.1 itojun goto fail; 728 1.1 itojun } 729 1.47 knakahar ep->addrpack = kmem_zalloc(l, KM_NOSLEEP); 730 1.7 itojun if (ep->addrpack == NULL) { 731 1.7 itojun error = ENOBUFS; 732 1.7 itojun goto gc; 733 1.7 itojun } 734 1.47 knakahar ep->maskpack = kmem_zalloc(l, KM_NOSLEEP); 735 1.7 itojun if (ep->maskpack == NULL) { 736 1.7 itojun error = ENOBUFS; 737 1.7 itojun goto gc; 738 1.7 itojun } 739 1.1 itojun 740 1.1 itojun ep->af = af; 741 1.1 itojun ep->proto = proto; 742 1.7 itojun ep->addrpack->sa_len = l & 0xff; 743 1.7 itojun ep->maskpack->sa_len = l & 0xff; 744 1.7 itojun switch (af) { 745 1.7 itojun case AF_INET: 746 1.33 pooka pack4 = (struct ip_pack4 *)ep->addrpack; 747 1.7 itojun ep->src = (struct sockaddr *)&pack4->mine; 748 1.7 itojun ep->dst = (struct sockaddr *)&pack4->yours; 749 1.33 pooka pack4 = (struct ip_pack4 *)ep->maskpack; 750 1.7 itojun ep->srcmask = (struct sockaddr *)&pack4->mine; 751 1.7 itojun ep->dstmask = (struct sockaddr *)&pack4->yours; 752 1.7 itojun break; 753 1.7 itojun #ifdef INET6 754 1.7 itojun case AF_INET6: 755 1.33 pooka pack6 = (struct ip_pack6 *)ep->addrpack; 756 1.7 itojun ep->src = (struct sockaddr *)&pack6->mine; 757 1.7 itojun ep->dst = (struct sockaddr *)&pack6->yours; 758 1.33 pooka pack6 = (struct ip_pack6 *)ep->maskpack; 759 1.7 itojun ep->srcmask = (struct sockaddr *)&pack6->mine; 760 1.7 itojun ep->dstmask = (struct sockaddr *)&pack6->yours; 761 1.7 itojun break; 762 1.7 itojun #endif 763 1.7 itojun } 764 1.7 itojun 765 1.37 tsutsui memcpy(ep->src, sp, sp->sa_len); 766 1.37 tsutsui memcpy(ep->srcmask, sm, sp->sa_len); 767 1.37 tsutsui memcpy(ep->dst, dp, dp->sa_len); 768 1.37 tsutsui memcpy(ep->dstmask, dm, dp->sa_len); 769 1.51 knakahar ep->esw = esw; 770 1.1 itojun ep->arg = arg; 771 1.56 knakahar psref_target_init(&ep->psref, encaptab.elem_class); 772 1.1 itojun 773 1.7 itojun error = encap_add(ep); 774 1.7 itojun if (error) 775 1.7 itojun goto gc; 776 1.1 itojun 777 1.1 itojun error = 0; 778 1.61 knakahar #ifndef ENCAP_MPSAFE 779 1.1 itojun splx(s); 780 1.61 knakahar #endif 781 1.1 itojun return ep; 782 1.1 itojun 783 1.7 itojun gc: 784 1.7 itojun if (ep->addrpack) 785 1.47 knakahar kmem_free(ep->addrpack, l); 786 1.7 itojun if (ep->maskpack) 787 1.47 knakahar kmem_free(ep->maskpack, l); 788 1.7 itojun if (ep) 789 1.47 knakahar kmem_free(ep, sizeof(*ep)); 790 1.1 itojun fail: 791 1.61 knakahar #ifndef ENCAP_MPSAFE 792 1.1 itojun splx(s); 793 1.61 knakahar #endif 794 1.1 itojun return NULL; 795 1.1 itojun } 796 1.1 itojun 797 1.1 itojun const struct encaptab * 798 1.23 perry encap_attach_func(int af, int proto, 799 1.26 martin int (*func)(struct mbuf *, int, int, void *), 800 1.51 knakahar const struct encapsw *esw, void *arg) 801 1.1 itojun { 802 1.1 itojun struct encaptab *ep; 803 1.1 itojun int error; 804 1.61 knakahar #ifndef ENCAP_MPSAFE 805 1.1 itojun int s; 806 1.1 itojun 807 1.1 itojun s = splsoftnet(); 808 1.61 knakahar #endif 809 1.1 itojun /* sanity check on args */ 810 1.1 itojun if (!func) { 811 1.1 itojun error = EINVAL; 812 1.1 itojun goto fail; 813 1.1 itojun } 814 1.1 itojun 815 1.7 itojun error = encap_afcheck(af, NULL, NULL); 816 1.7 itojun if (error) 817 1.7 itojun goto fail; 818 1.7 itojun 819 1.47 knakahar ep = kmem_alloc(sizeof(*ep), KM_NOSLEEP); /*XXX*/ 820 1.1 itojun if (ep == NULL) { 821 1.1 itojun error = ENOBUFS; 822 1.1 itojun goto fail; 823 1.1 itojun } 824 1.35 cegger memset(ep, 0, sizeof(*ep)); 825 1.1 itojun 826 1.1 itojun ep->af = af; 827 1.1 itojun ep->proto = proto; 828 1.1 itojun ep->func = func; 829 1.51 knakahar ep->esw = esw; 830 1.1 itojun ep->arg = arg; 831 1.56 knakahar psref_target_init(&ep->psref, encaptab.elem_class); 832 1.1 itojun 833 1.7 itojun error = encap_add(ep); 834 1.7 itojun if (error) 835 1.7 itojun goto fail; 836 1.1 itojun 837 1.1 itojun error = 0; 838 1.61 knakahar #ifndef ENCAP_MPSAFE 839 1.1 itojun splx(s); 840 1.61 knakahar #endif 841 1.1 itojun return ep; 842 1.1 itojun 843 1.1 itojun fail: 844 1.61 knakahar #ifndef ENCAP_MPSAFE 845 1.1 itojun splx(s); 846 1.61 knakahar #endif 847 1.1 itojun return NULL; 848 1.1 itojun } 849 1.1 itojun 850 1.7 itojun /* XXX encap4_ctlinput() is necessary if we set DF=1 on outer IPv4 header */ 851 1.7 itojun 852 1.7 itojun #ifdef INET6 853 1.32 ad void * 854 1.29 dyoung encap6_ctlinput(int cmd, const struct sockaddr *sa, void *d0) 855 1.7 itojun { 856 1.7 itojun void *d = d0; 857 1.7 itojun struct ip6_hdr *ip6; 858 1.7 itojun struct mbuf *m; 859 1.7 itojun int off; 860 1.7 itojun struct ip6ctlparam *ip6cp = NULL; 861 1.7 itojun int nxt; 862 1.56 knakahar int s; 863 1.7 itojun struct encaptab *ep; 864 1.51 knakahar const struct encapsw *esw; 865 1.7 itojun 866 1.7 itojun if (sa->sa_family != AF_INET6 || 867 1.7 itojun sa->sa_len != sizeof(struct sockaddr_in6)) 868 1.32 ad return NULL; 869 1.7 itojun 870 1.7 itojun if ((unsigned)cmd >= PRC_NCMDS) 871 1.32 ad return NULL; 872 1.7 itojun if (cmd == PRC_HOSTDEAD) 873 1.7 itojun d = NULL; 874 1.7 itojun else if (cmd == PRC_MSGSIZE) 875 1.7 itojun ; /* special code is present, see below */ 876 1.7 itojun else if (inet6ctlerrmap[cmd] == 0) 877 1.32 ad return NULL; 878 1.7 itojun 879 1.7 itojun /* if the parameter is from icmp6, decode it. */ 880 1.7 itojun if (d != NULL) { 881 1.7 itojun ip6cp = (struct ip6ctlparam *)d; 882 1.7 itojun m = ip6cp->ip6c_m; 883 1.7 itojun ip6 = ip6cp->ip6c_ip6; 884 1.7 itojun off = ip6cp->ip6c_off; 885 1.7 itojun nxt = ip6cp->ip6c_nxt; 886 1.15 mycroft 887 1.15 mycroft if (ip6 && cmd == PRC_MSGSIZE) { 888 1.15 mycroft int valid = 0; 889 1.15 mycroft struct encaptab *match; 890 1.56 knakahar struct psref elem_psref; 891 1.15 mycroft 892 1.15 mycroft /* 893 1.15 mycroft * Check to see if we have a valid encap configuration. 894 1.15 mycroft */ 895 1.56 knakahar match = encap6_lookup(m, off, nxt, OUTBOUND, 896 1.56 knakahar &elem_psref); 897 1.15 mycroft if (match) 898 1.15 mycroft valid++; 899 1.56 knakahar psref_release(&elem_psref, &match->psref, 900 1.56 knakahar encaptab.elem_class); 901 1.15 mycroft 902 1.15 mycroft /* 903 1.15 mycroft * Depending on the value of "valid" and routing table 904 1.15 mycroft * size (mtudisc_{hi,lo}wat), we will: 905 1.15 mycroft * - recalcurate the new MTU and create the 906 1.15 mycroft * corresponding routing entry, or 907 1.15 mycroft * - ignore the MTU change notification. 908 1.15 mycroft */ 909 1.15 mycroft icmp6_mtudisc_update((struct ip6ctlparam *)d, valid); 910 1.15 mycroft } 911 1.7 itojun } else { 912 1.7 itojun m = NULL; 913 1.7 itojun ip6 = NULL; 914 1.7 itojun nxt = -1; 915 1.7 itojun } 916 1.7 itojun 917 1.7 itojun /* inform all listeners */ 918 1.56 knakahar 919 1.56 knakahar s = pserialize_read_enter(); 920 1.56 knakahar PSLIST_READER_FOREACH(ep, &encap_table, struct encaptab, chain) { 921 1.56 knakahar struct psref elem_psref; 922 1.56 knakahar 923 1.56 knakahar membar_datadep_consumer(); 924 1.56 knakahar 925 1.7 itojun if (ep->af != AF_INET6) 926 1.7 itojun continue; 927 1.7 itojun if (ep->proto >= 0 && ep->proto != nxt) 928 1.7 itojun continue; 929 1.7 itojun 930 1.7 itojun /* should optimize by looking at address pairs */ 931 1.7 itojun 932 1.7 itojun /* XXX need to pass ep->arg or ep itself to listeners */ 933 1.56 knakahar psref_acquire(&elem_psref, &ep->psref, 934 1.56 knakahar encaptab.elem_class); 935 1.51 knakahar esw = ep->esw; 936 1.51 knakahar if (esw && esw->encapsw6.pr_ctlinput) { 937 1.56 knakahar pserialize_read_exit(s); 938 1.56 knakahar /* pr_ctlinput is sleepable. e.g. rtcache_free */ 939 1.52 knakahar (*esw->encapsw6.pr_ctlinput)(cmd, sa, d, ep->arg); 940 1.56 knakahar s = pserialize_read_enter(); 941 1.51 knakahar } 942 1.56 knakahar psref_release(&elem_psref, &ep->psref, 943 1.56 knakahar encaptab.elem_class); 944 1.7 itojun } 945 1.56 knakahar pserialize_read_exit(s); 946 1.7 itojun 947 1.7 itojun rip6_ctlinput(cmd, sa, d0); 948 1.32 ad return NULL; 949 1.7 itojun } 950 1.7 itojun #endif 951 1.7 itojun 952 1.1 itojun int 953 1.23 perry encap_detach(const struct encaptab *cookie) 954 1.1 itojun { 955 1.1 itojun const struct encaptab *ep = cookie; 956 1.56 knakahar struct encaptab *p; 957 1.7 itojun int error; 958 1.1 itojun 959 1.56 knakahar KASSERT(encap_lock_held()); 960 1.56 knakahar 961 1.56 knakahar PSLIST_WRITER_FOREACH(p, &encap_table, struct encaptab, chain) { 962 1.56 knakahar membar_datadep_consumer(); 963 1.56 knakahar 964 1.1 itojun if (p == ep) { 965 1.7 itojun error = encap_remove(p); 966 1.7 itojun if (error) 967 1.7 itojun return error; 968 1.56 knakahar else 969 1.56 knakahar break; 970 1.56 knakahar } 971 1.56 knakahar } 972 1.56 knakahar if (p == NULL) 973 1.56 knakahar return ENOENT; 974 1.56 knakahar 975 1.56 knakahar pserialize_perform(encaptab.psz); 976 1.56 knakahar psref_target_destroy(&p->psref, 977 1.56 knakahar encaptab.elem_class); 978 1.56 knakahar if (!ep->func) { 979 1.56 knakahar kmem_free(p->addrpack, ep->addrpack->sa_len); 980 1.56 knakahar kmem_free(p->maskpack, ep->maskpack->sa_len); 981 1.1 itojun } 982 1.56 knakahar kmem_free(p, sizeof(*p)); 983 1.1 itojun 984 1.56 knakahar return 0; 985 1.7 itojun } 986 1.7 itojun 987 1.55 knakahar #ifdef USE_RADIX 988 1.7 itojun static struct radix_node_head * 989 1.23 perry encap_rnh(int af) 990 1.7 itojun { 991 1.7 itojun 992 1.7 itojun switch (af) { 993 1.7 itojun case AF_INET: 994 1.7 itojun return encap_head[0]; 995 1.7 itojun #ifdef INET6 996 1.7 itojun case AF_INET6: 997 1.7 itojun return encap_head[1]; 998 1.7 itojun #endif 999 1.7 itojun default: 1000 1.7 itojun return NULL; 1001 1.7 itojun } 1002 1.7 itojun } 1003 1.7 itojun 1004 1.7 itojun static int 1005 1.23 perry mask_matchlen(const struct sockaddr *sa) 1006 1.7 itojun { 1007 1.7 itojun const char *p, *ep; 1008 1.7 itojun int l; 1009 1.7 itojun 1010 1.7 itojun p = (const char *)sa; 1011 1.7 itojun ep = p + sa->sa_len; 1012 1.7 itojun p += 2; /* sa_len + sa_family */ 1013 1.7 itojun 1014 1.7 itojun l = 0; 1015 1.7 itojun while (p < ep) { 1016 1.7 itojun l += (*p ? 8 : 0); /* estimate */ 1017 1.7 itojun p++; 1018 1.7 itojun } 1019 1.7 itojun return l; 1020 1.1 itojun } 1021 1.55 knakahar #endif 1022 1.55 knakahar 1023 1.55 knakahar #ifndef USE_RADIX 1024 1.55 knakahar static int 1025 1.55 knakahar mask_match(const struct encaptab *ep, 1026 1.55 knakahar const struct sockaddr *sp, 1027 1.55 knakahar const struct sockaddr *dp) 1028 1.55 knakahar { 1029 1.55 knakahar struct sockaddr_storage s; 1030 1.55 knakahar struct sockaddr_storage d; 1031 1.55 knakahar int i; 1032 1.55 knakahar const u_int8_t *p, *q; 1033 1.55 knakahar u_int8_t *r; 1034 1.55 knakahar int matchlen; 1035 1.55 knakahar 1036 1.55 knakahar KASSERTMSG(ep->func == NULL, "wrong encaptab passed to mask_match"); 1037 1.55 knakahar 1038 1.55 knakahar if (sp->sa_len > sizeof(s) || dp->sa_len > sizeof(d)) 1039 1.55 knakahar return 0; 1040 1.55 knakahar if (sp->sa_family != ep->af || dp->sa_family != ep->af) 1041 1.55 knakahar return 0; 1042 1.55 knakahar if (sp->sa_len != ep->src->sa_len || dp->sa_len != ep->dst->sa_len) 1043 1.55 knakahar return 0; 1044 1.55 knakahar 1045 1.55 knakahar matchlen = 0; 1046 1.55 knakahar 1047 1.55 knakahar p = (const u_int8_t *)sp; 1048 1.55 knakahar q = (const u_int8_t *)ep->srcmask; 1049 1.55 knakahar r = (u_int8_t *)&s; 1050 1.55 knakahar for (i = 0 ; i < sp->sa_len; i++) { 1051 1.55 knakahar r[i] = p[i] & q[i]; 1052 1.55 knakahar /* XXX estimate */ 1053 1.55 knakahar matchlen += (q[i] ? 8 : 0); 1054 1.55 knakahar } 1055 1.55 knakahar 1056 1.55 knakahar p = (const u_int8_t *)dp; 1057 1.55 knakahar q = (const u_int8_t *)ep->dstmask; 1058 1.55 knakahar r = (u_int8_t *)&d; 1059 1.55 knakahar for (i = 0 ; i < dp->sa_len; i++) { 1060 1.55 knakahar r[i] = p[i] & q[i]; 1061 1.55 knakahar /* XXX rough estimate */ 1062 1.55 knakahar matchlen += (q[i] ? 8 : 0); 1063 1.55 knakahar } 1064 1.55 knakahar 1065 1.55 knakahar /* need to overwrite len/family portion as we don't compare them */ 1066 1.55 knakahar s.ss_len = sp->sa_len; 1067 1.55 knakahar s.ss_family = sp->sa_family; 1068 1.55 knakahar d.ss_len = dp->sa_len; 1069 1.55 knakahar d.ss_family = dp->sa_family; 1070 1.55 knakahar 1071 1.55 knakahar if (memcmp(&s, ep->src, ep->src->sa_len) == 0 && 1072 1.55 knakahar memcmp(&d, ep->dst, ep->dst->sa_len) == 0) { 1073 1.55 knakahar return matchlen; 1074 1.55 knakahar } else 1075 1.55 knakahar return 0; 1076 1.55 knakahar } 1077 1.55 knakahar #endif 1078 1.1 itojun 1079 1.1 itojun static void 1080 1.23 perry encap_fillarg(struct mbuf *m, const struct encaptab *ep) 1081 1.1 itojun { 1082 1.12 itojun struct m_tag *mtag; 1083 1.1 itojun 1084 1.12 itojun mtag = m_tag_get(PACKET_TAG_ENCAP, sizeof(void *), M_NOWAIT); 1085 1.12 itojun if (mtag) { 1086 1.12 itojun *(void **)(mtag + 1) = ep->arg; 1087 1.12 itojun m_tag_prepend(m, mtag); 1088 1.1 itojun } 1089 1.1 itojun } 1090 1.1 itojun 1091 1.1 itojun void * 1092 1.23 perry encap_getarg(struct mbuf *m) 1093 1.1 itojun { 1094 1.1 itojun void *p; 1095 1.12 itojun struct m_tag *mtag; 1096 1.1 itojun 1097 1.1 itojun p = NULL; 1098 1.12 itojun mtag = m_tag_find(m, PACKET_TAG_ENCAP, NULL); 1099 1.12 itojun if (mtag != NULL) { 1100 1.13 itojun p = *(void **)(mtag + 1); 1101 1.12 itojun m_tag_delete(m, mtag); 1102 1.1 itojun } 1103 1.1 itojun return p; 1104 1.1 itojun } 1105 1.54 knakahar 1106 1.59 knakahar int 1107 1.54 knakahar encap_lock_enter(void) 1108 1.54 knakahar { 1109 1.59 knakahar int error; 1110 1.59 knakahar 1111 1.59 knakahar mutex_enter(&encap_whole.lock); 1112 1.59 knakahar while (encap_whole.busy != NULL) { 1113 1.59 knakahar error = cv_wait_sig(&encap_whole.cv, &encap_whole.lock); 1114 1.59 knakahar if (error) { 1115 1.59 knakahar mutex_exit(&encap_whole.lock); 1116 1.59 knakahar return error; 1117 1.59 knakahar } 1118 1.59 knakahar } 1119 1.59 knakahar KASSERT(encap_whole.busy == NULL); 1120 1.59 knakahar encap_whole.busy = curlwp; 1121 1.59 knakahar mutex_exit(&encap_whole.lock); 1122 1.54 knakahar 1123 1.59 knakahar return 0; 1124 1.54 knakahar } 1125 1.54 knakahar 1126 1.54 knakahar void 1127 1.54 knakahar encap_lock_exit(void) 1128 1.54 knakahar { 1129 1.54 knakahar 1130 1.59 knakahar mutex_enter(&encap_whole.lock); 1131 1.59 knakahar KASSERT(encap_whole.busy == curlwp); 1132 1.59 knakahar encap_whole.busy = NULL; 1133 1.59 knakahar cv_broadcast(&encap_whole.cv); 1134 1.59 knakahar mutex_exit(&encap_whole.lock); 1135 1.54 knakahar } 1136 1.56 knakahar 1137 1.56 knakahar bool 1138 1.56 knakahar encap_lock_held(void) 1139 1.56 knakahar { 1140 1.56 knakahar 1141 1.59 knakahar return (encap_whole.busy == curlwp); 1142 1.56 knakahar } 1143
Indexes created Thu Sep 25 08:09:54 GMT 2025