keysock.c revision 1.43.4.5
1 1.43.4.5 skrll /* $NetBSD: keysock.c,v 1.43.4.5 2017/08/28 17:53:13 skrll Exp $ */ 2 1.1 jonathan /* $FreeBSD: src/sys/netipsec/keysock.c,v 1.3.2.1 2003/01/24 05:11:36 sam Exp $ */ 3 1.1 jonathan /* $KAME: keysock.c,v 1.25 2001/08/13 20:07:41 itojun Exp $ */ 4 1.1 jonathan 5 1.1 jonathan /* 6 1.1 jonathan * Copyright (C) 1995, 1996, 1997, and 1998 WIDE Project. 7 1.1 jonathan * All rights reserved. 8 1.1 jonathan * 9 1.1 jonathan * Redistribution and use in source and binary forms, with or without 10 1.1 jonathan * modification, are permitted provided that the following conditions 11 1.1 jonathan * are met: 12 1.1 jonathan * 1. Redistributions of source code must retain the above copyright 13 1.1 jonathan * notice, this list of conditions and the following disclaimer. 14 1.1 jonathan * 2. Redistributions in binary form must reproduce the above copyright 15 1.1 jonathan * notice, this list of conditions and the following disclaimer in the 16 1.1 jonathan * documentation and/or other materials provided with the distribution. 17 1.1 jonathan * 3. Neither the name of the project nor the names of its contributors 18 1.1 jonathan * may be used to endorse or promote products derived from this software 19 1.1 jonathan * without specific prior written permission. 20 1.1 jonathan * 21 1.1 jonathan * THIS SOFTWARE IS PROVIDED BY THE PROJECT AND CONTRIBUTORS ``AS IS'' AND 22 1.1 jonathan * ANY EXPRESS OR IMPLIED WARRANTIES, INCLUDING, BUT NOT LIMITED TO, THE 23 1.1 jonathan * IMPLIED WARRANTIES OF MERCHANTABILITY AND FITNESS FOR A PARTICULAR PURPOSE 24 1.1 jonathan * ARE DISCLAIMED. IN NO EVENT SHALL THE PROJECT OR CONTRIBUTORS BE LIABLE 25 1.1 jonathan * FOR ANY DIRECT, INDIRECT, INCIDENTAL, SPECIAL, EXEMPLARY, OR CONSEQUENTIAL 26 1.1 jonathan * DAMAGES (INCLUDING, BUT NOT LIMITED TO, PROCUREMENT OF SUBSTITUTE GOODS 27 1.1 jonathan * OR SERVICES; LOSS OF USE, DATA, OR PROFITS; OR BUSINESS INTERRUPTION) 28 1.1 jonathan * HOWEVER CAUSED AND ON ANY THEORY OF LIABILITY, WHETHER IN CONTRACT, STRICT 29 1.1 jonathan * LIABILITY, OR TORT (INCLUDING NEGLIGENCE OR OTHERWISE) ARISING IN ANY WAY 30 1.1 jonathan * OUT OF THE USE OF THIS SOFTWARE, EVEN IF ADVISED OF THE POSSIBILITY OF 31 1.1 jonathan * SUCH DAMAGE. 32 1.1 jonathan */ 33 1.1 jonathan 34 1.1 jonathan #include <sys/cdefs.h> 35 1.43.4.5 skrll __KERNEL_RCSID(0, "$NetBSD: keysock.c,v 1.43.4.5 2017/08/28 17:53:13 skrll Exp $"); 36 1.1 jonathan 37 1.1 jonathan /* This code has derived from sys/net/rtsock.c on FreeBSD2.2.5 */ 38 1.1 jonathan 39 1.1 jonathan #include <sys/types.h> 40 1.1 jonathan #include <sys/param.h> 41 1.1 jonathan #include <sys/domain.h> 42 1.1 jonathan #include <sys/errno.h> 43 1.1 jonathan #include <sys/kernel.h> 44 1.23 rmind #include <sys/kmem.h> 45 1.1 jonathan #include <sys/mbuf.h> 46 1.1 jonathan #include <sys/protosw.h> 47 1.1 jonathan #include <sys/signalvar.h> 48 1.1 jonathan #include <sys/socket.h> 49 1.1 jonathan #include <sys/socketvar.h> 50 1.1 jonathan #include <sys/sysctl.h> 51 1.1 jonathan #include <sys/systm.h> 52 1.43.4.5 skrll #include <sys/cpu.h> 53 1.43.4.5 skrll #include <sys/syslog.h> 54 1.1 jonathan 55 1.1 jonathan #include <net/raw_cb.h> 56 1.1 jonathan #include <net/route.h> 57 1.1 jonathan 58 1.1 jonathan #include <net/pfkeyv2.h> 59 1.1 jonathan #include <netipsec/key.h> 60 1.1 jonathan #include <netipsec/keysock.h> 61 1.1 jonathan #include <netipsec/key_debug.h> 62 1.1 jonathan 63 1.15 thorpej #include <netipsec/ipsec_private.h> 64 1.1 jonathan 65 1.1 jonathan struct key_cb { 66 1.1 jonathan int key_count; 67 1.1 jonathan int any_count; 68 1.1 jonathan }; 69 1.1 jonathan static struct key_cb key_cb; 70 1.1 jonathan 71 1.11 christos static struct sockaddr key_dst = { 72 1.11 christos .sa_len = 2, 73 1.11 christos .sa_family = PF_KEY, 74 1.11 christos }; 75 1.11 christos static struct sockaddr key_src = { 76 1.11 christos .sa_len = 2, 77 1.11 christos .sa_family = PF_KEY, 78 1.11 christos }; 79 1.1 jonathan 80 1.43.4.3 skrll static const struct protosw keysw[]; 81 1.5 jonathan 82 1.17 dsl static int key_sendup0(struct rawcb *, struct mbuf *, int, int); 83 1.1 jonathan 84 1.19 joerg int key_registered_sb_max = (2048 * MHLEN); /* XXX arbitrary */ 85 1.5 jonathan 86 1.43.4.5 skrll static kmutex_t *key_so_mtx; 87 1.43.4.5 skrll 88 1.43.4.5 skrll void 89 1.43.4.5 skrll key_init_so(void) 90 1.43.4.5 skrll { 91 1.43.4.5 skrll 92 1.43.4.5 skrll key_so_mtx = mutex_obj_alloc(MUTEX_DEFAULT, IPL_NONE); 93 1.43.4.5 skrll } 94 1.43.4.5 skrll 95 1.1 jonathan /* 96 1.1 jonathan * key_output() 97 1.1 jonathan */ 98 1.43.4.3 skrll static int 99 1.43.4.3 skrll key_output(struct mbuf *m, struct socket *so) 100 1.1 jonathan { 101 1.1 jonathan struct sadb_msg *msg; 102 1.1 jonathan int len, error = 0; 103 1.1 jonathan int s; 104 1.1 jonathan 105 1.43.4.5 skrll KASSERT(m != NULL); 106 1.1 jonathan 107 1.15 thorpej { 108 1.15 thorpej uint64_t *ps = PFKEY_STAT_GETREF(); 109 1.15 thorpej ps[PFKEY_STAT_OUT_TOTAL]++; 110 1.15 thorpej ps[PFKEY_STAT_OUT_BYTES] += m->m_pkthdr.len; 111 1.15 thorpej PFKEY_STAT_PUTREF(); 112 1.15 thorpej } 113 1.1 jonathan 114 1.1 jonathan len = m->m_pkthdr.len; 115 1.1 jonathan if (len < sizeof(struct sadb_msg)) { 116 1.15 thorpej PFKEY_STATINC(PFKEY_STAT_OUT_TOOSHORT); 117 1.1 jonathan error = EINVAL; 118 1.1 jonathan goto end; 119 1.1 jonathan } 120 1.1 jonathan 121 1.1 jonathan if (m->m_len < sizeof(struct sadb_msg)) { 122 1.1 jonathan if ((m = m_pullup(m, sizeof(struct sadb_msg))) == 0) { 123 1.15 thorpej PFKEY_STATINC(PFKEY_STAT_OUT_NOMEM); 124 1.1 jonathan error = ENOBUFS; 125 1.1 jonathan goto end; 126 1.1 jonathan } 127 1.1 jonathan } 128 1.1 jonathan 129 1.43.4.5 skrll KASSERT((m->m_flags & M_PKTHDR) != 0); 130 1.1 jonathan 131 1.43.4.5 skrll if (KEYDEBUG_ON(KEYDEBUG_KEY_DUMP)) 132 1.43.4.5 skrll kdebug_mbuf(m); 133 1.1 jonathan 134 1.1 jonathan msg = mtod(m, struct sadb_msg *); 135 1.15 thorpej PFKEY_STATINC(PFKEY_STAT_OUT_MSGTYPE + msg->sadb_msg_type); 136 1.1 jonathan if (len != PFKEY_UNUNIT64(msg->sadb_msg_len)) { 137 1.15 thorpej PFKEY_STATINC(PFKEY_STAT_OUT_INVLEN); 138 1.1 jonathan error = EINVAL; 139 1.1 jonathan goto end; 140 1.1 jonathan } 141 1.1 jonathan 142 1.1 jonathan /*XXX giant lock*/ 143 1.1 jonathan s = splsoftnet(); 144 1.1 jonathan error = key_parse(m, so); 145 1.1 jonathan m = NULL; 146 1.1 jonathan splx(s); 147 1.1 jonathan end: 148 1.1 jonathan if (m) 149 1.1 jonathan m_freem(m); 150 1.1 jonathan return error; 151 1.1 jonathan } 152 1.1 jonathan 153 1.1 jonathan /* 154 1.1 jonathan * send message to the socket. 155 1.1 jonathan */ 156 1.1 jonathan static int 157 1.11 christos key_sendup0( 158 1.11 christos struct rawcb *rp, 159 1.11 christos struct mbuf *m, 160 1.11 christos int promisc, 161 1.11 christos int sbprio 162 1.11 christos ) 163 1.1 jonathan { 164 1.1 jonathan int error; 165 1.5 jonathan int ok; 166 1.1 jonathan 167 1.1 jonathan if (promisc) { 168 1.1 jonathan struct sadb_msg *pmsg; 169 1.1 jonathan 170 1.1 jonathan M_PREPEND(m, sizeof(struct sadb_msg), M_DONTWAIT); 171 1.1 jonathan if (m && m->m_len < sizeof(struct sadb_msg)) 172 1.1 jonathan m = m_pullup(m, sizeof(struct sadb_msg)); 173 1.1 jonathan if (!m) { 174 1.15 thorpej PFKEY_STATINC(PFKEY_STAT_IN_NOMEM); 175 1.1 jonathan return ENOBUFS; 176 1.1 jonathan } 177 1.1 jonathan m->m_pkthdr.len += sizeof(*pmsg); 178 1.1 jonathan 179 1.1 jonathan pmsg = mtod(m, struct sadb_msg *); 180 1.18 cegger memset(pmsg, 0, sizeof(*pmsg)); 181 1.1 jonathan pmsg->sadb_msg_version = PF_KEY_V2; 182 1.1 jonathan pmsg->sadb_msg_type = SADB_X_PROMISC; 183 1.1 jonathan pmsg->sadb_msg_len = PFKEY_UNIT64(m->m_pkthdr.len); 184 1.1 jonathan /* pid and seq? */ 185 1.1 jonathan 186 1.15 thorpej PFKEY_STATINC(PFKEY_STAT_IN_MSGTYPE + pmsg->sadb_msg_type); 187 1.1 jonathan } 188 1.1 jonathan 189 1.5 jonathan if (sbprio == 0) 190 1.5 jonathan ok = sbappendaddr(&rp->rcb_socket->so_rcv, 191 1.5 jonathan (struct sockaddr *)&key_src, m, NULL); 192 1.5 jonathan else 193 1.5 jonathan ok = sbappendaddrchain(&rp->rcb_socket->so_rcv, 194 1.5 jonathan (struct sockaddr *)&key_src, m, sbprio); 195 1.5 jonathan 196 1.43.4.5 skrll if (!ok) { 197 1.43.4.5 skrll log(LOG_WARNING, 198 1.43.4.5 skrll "%s: couldn't send PF_KEY message to the socket\n", 199 1.43.4.5 skrll __func__); 200 1.15 thorpej PFKEY_STATINC(PFKEY_STAT_IN_NOMEM); 201 1.1 jonathan m_freem(m); 202 1.1 jonathan error = ENOBUFS; 203 1.43.4.5 skrll rp->rcb_socket->so_rcv.sb_overflowed++; 204 1.1 jonathan } else 205 1.1 jonathan error = 0; 206 1.1 jonathan sorwakeup(rp->rcb_socket); 207 1.1 jonathan return error; 208 1.1 jonathan } 209 1.1 jonathan 210 1.1 jonathan /* XXX this interface should be obsoleted. */ 211 1.1 jonathan int 212 1.14 degroote key_sendup(struct socket *so, struct sadb_msg *msg, u_int len, 213 1.14 degroote int target) /*target of the resulting message*/ 214 1.1 jonathan { 215 1.1 jonathan struct mbuf *m, *n, *mprev; 216 1.1 jonathan int tlen; 217 1.1 jonathan 218 1.43.4.5 skrll KASSERT(so != NULL); 219 1.43.4.5 skrll KASSERT(msg != NULL); 220 1.1 jonathan 221 1.43.4.5 skrll if (KEYDEBUG_ON(KEYDEBUG_KEY_DUMP)) { 222 1.1 jonathan printf("key_sendup: \n"); 223 1.43.4.5 skrll kdebug_sadb(msg); 224 1.43.4.5 skrll } 225 1.1 jonathan 226 1.1 jonathan /* 227 1.1 jonathan * we increment statistics here, just in case we have ENOBUFS 228 1.1 jonathan * in this function. 229 1.1 jonathan */ 230 1.15 thorpej { 231 1.15 thorpej uint64_t *ps = PFKEY_STAT_GETREF(); 232 1.15 thorpej ps[PFKEY_STAT_IN_TOTAL]++; 233 1.15 thorpej ps[PFKEY_STAT_IN_BYTES] += len; 234 1.15 thorpej ps[PFKEY_STAT_IN_MSGTYPE + msg->sadb_msg_type]++; 235 1.15 thorpej PFKEY_STAT_PUTREF(); 236 1.15 thorpej } 237 1.1 jonathan 238 1.1 jonathan /* 239 1.1 jonathan * Get mbuf chain whenever possible (not clusters), 240 1.1 jonathan * to save socket buffer. We'll be generating many SADB_ACQUIRE 241 1.1 jonathan * messages to listening key sockets. If we simply allocate clusters, 242 1.1 jonathan * sbappendaddr() will raise ENOBUFS due to too little sbspace(). 243 1.1 jonathan * sbspace() computes # of actual data bytes AND mbuf region. 244 1.1 jonathan * 245 1.1 jonathan * TODO: SADB_ACQUIRE filters should be implemented. 246 1.1 jonathan */ 247 1.1 jonathan tlen = len; 248 1.1 jonathan m = mprev = NULL; 249 1.1 jonathan while (tlen > 0) { 250 1.43.4.2 skrll int mlen; 251 1.1 jonathan if (tlen == len) { 252 1.1 jonathan MGETHDR(n, M_DONTWAIT, MT_DATA); 253 1.27 christos mlen = MHLEN; 254 1.1 jonathan } else { 255 1.1 jonathan MGET(n, M_DONTWAIT, MT_DATA); 256 1.27 christos mlen = MLEN; 257 1.1 jonathan } 258 1.1 jonathan if (!n) { 259 1.15 thorpej PFKEY_STATINC(PFKEY_STAT_IN_NOMEM); 260 1.1 jonathan return ENOBUFS; 261 1.1 jonathan } 262 1.27 christos n->m_len = mlen; 263 1.1 jonathan if (tlen >= MCLBYTES) { /*XXX better threshold? */ 264 1.1 jonathan MCLGET(n, M_DONTWAIT); 265 1.1 jonathan if ((n->m_flags & M_EXT) == 0) { 266 1.1 jonathan m_free(n); 267 1.1 jonathan m_freem(m); 268 1.15 thorpej PFKEY_STATINC(PFKEY_STAT_IN_NOMEM); 269 1.1 jonathan return ENOBUFS; 270 1.1 jonathan } 271 1.1 jonathan n->m_len = MCLBYTES; 272 1.1 jonathan } 273 1.1 jonathan 274 1.1 jonathan if (tlen < n->m_len) 275 1.1 jonathan n->m_len = tlen; 276 1.1 jonathan n->m_next = NULL; 277 1.1 jonathan if (m == NULL) 278 1.1 jonathan m = mprev = n; 279 1.1 jonathan else { 280 1.1 jonathan mprev->m_next = n; 281 1.1 jonathan mprev = n; 282 1.1 jonathan } 283 1.1 jonathan tlen -= n->m_len; 284 1.1 jonathan n = NULL; 285 1.1 jonathan } 286 1.1 jonathan m->m_pkthdr.len = len; 287 1.43.4.4 skrll m_reset_rcvif(m); 288 1.13 degroote m_copyback(m, 0, len, msg); 289 1.1 jonathan 290 1.1 jonathan /* avoid duplicated statistics */ 291 1.15 thorpej { 292 1.15 thorpej uint64_t *ps = PFKEY_STAT_GETREF(); 293 1.15 thorpej ps[PFKEY_STAT_IN_TOTAL]--; 294 1.15 thorpej ps[PFKEY_STAT_IN_BYTES] -= len; 295 1.15 thorpej ps[PFKEY_STAT_IN_MSGTYPE + msg->sadb_msg_type]--; 296 1.15 thorpej PFKEY_STAT_PUTREF(); 297 1.15 thorpej } 298 1.1 jonathan 299 1.1 jonathan return key_sendup_mbuf(so, m, target); 300 1.1 jonathan } 301 1.1 jonathan 302 1.1 jonathan /* so can be NULL if target != KEY_SENDUP_ONE */ 303 1.43.4.5 skrll static int 304 1.43.4.5 skrll _key_sendup_mbuf(struct socket *so, struct mbuf *m, 305 1.14 degroote int target/*, sbprio */) 306 1.1 jonathan { 307 1.1 jonathan struct mbuf *n; 308 1.1 jonathan struct keycb *kp; 309 1.1 jonathan int sendup; 310 1.1 jonathan struct rawcb *rp; 311 1.1 jonathan int error = 0; 312 1.5 jonathan int sbprio = 0; /* XXX should be a parameter */ 313 1.1 jonathan 314 1.43.4.5 skrll KASSERT(m != NULL); 315 1.43.4.5 skrll KASSERT(so != NULL || target != KEY_SENDUP_ONE); 316 1.7 perry 317 1.5 jonathan /* 318 1.5 jonathan * RFC 2367 says ACQUIRE and other kernel-generated messages 319 1.5 jonathan * are special. We treat all KEY_SENDUP_REGISTERED messages 320 1.5 jonathan * as special, delivering them to all registered sockets 321 1.5 jonathan * even if the socket is at or above its so->so_rcv.sb_max limits. 322 1.5 jonathan * The only constraint is that the so_rcv data fall below 323 1.5 jonathan * key_registered_sb_max. 324 1.5 jonathan * Doing that check here avoids reworking every key_sendup_mbuf() 325 1.5 jonathan * in the short term. . The rework will be done after a technical 326 1.5 jonathan * conensus that this approach is appropriate. 327 1.5 jonathan */ 328 1.5 jonathan if (target == KEY_SENDUP_REGISTERED) { 329 1.5 jonathan sbprio = SB_PRIO_BESTEFFORT; 330 1.5 jonathan } 331 1.1 jonathan 332 1.15 thorpej { 333 1.15 thorpej uint64_t *ps = PFKEY_STAT_GETREF(); 334 1.15 thorpej ps[PFKEY_STAT_IN_TOTAL]++; 335 1.15 thorpej ps[PFKEY_STAT_IN_BYTES] += m->m_pkthdr.len; 336 1.15 thorpej PFKEY_STAT_PUTREF(); 337 1.15 thorpej } 338 1.1 jonathan if (m->m_len < sizeof(struct sadb_msg)) { 339 1.1 jonathan #if 1 340 1.1 jonathan m = m_pullup(m, sizeof(struct sadb_msg)); 341 1.1 jonathan if (m == NULL) { 342 1.15 thorpej PFKEY_STATINC(PFKEY_STAT_IN_NOMEM); 343 1.1 jonathan return ENOBUFS; 344 1.1 jonathan } 345 1.1 jonathan #else 346 1.1 jonathan /* don't bother pulling it up just for stats */ 347 1.1 jonathan #endif 348 1.1 jonathan } 349 1.1 jonathan if (m->m_len >= sizeof(struct sadb_msg)) { 350 1.1 jonathan struct sadb_msg *msg; 351 1.1 jonathan msg = mtod(m, struct sadb_msg *); 352 1.15 thorpej PFKEY_STATINC(PFKEY_STAT_IN_MSGTYPE + msg->sadb_msg_type); 353 1.1 jonathan } 354 1.1 jonathan 355 1.43.4.5 skrll LIST_FOREACH(rp, &rawcb, rcb_list) 356 1.1 jonathan { 357 1.5 jonathan struct socket * kso = rp->rcb_socket; 358 1.1 jonathan if (rp->rcb_proto.sp_family != PF_KEY) 359 1.1 jonathan continue; 360 1.1 jonathan if (rp->rcb_proto.sp_protocol 361 1.1 jonathan && rp->rcb_proto.sp_protocol != PF_KEY_V2) { 362 1.1 jonathan continue; 363 1.1 jonathan } 364 1.1 jonathan 365 1.1 jonathan kp = (struct keycb *)rp; 366 1.1 jonathan 367 1.1 jonathan /* 368 1.1 jonathan * If you are in promiscuous mode, and when you get broadcasted 369 1.1 jonathan * reply, you'll get two PF_KEY messages. 370 1.1 jonathan * (based on pf_key (at) inner.net message on 14 Oct 1998) 371 1.1 jonathan */ 372 1.1 jonathan if (((struct keycb *)rp)->kp_promisc) { 373 1.1 jonathan if ((n = m_copy(m, 0, (int)M_COPYALL)) != NULL) { 374 1.5 jonathan (void)key_sendup0(rp, n, 1, 0); 375 1.1 jonathan n = NULL; 376 1.1 jonathan } 377 1.1 jonathan } 378 1.1 jonathan 379 1.1 jonathan /* the exact target will be processed later */ 380 1.1 jonathan if (so && sotorawcb(so) == rp) 381 1.1 jonathan continue; 382 1.1 jonathan 383 1.1 jonathan sendup = 0; 384 1.1 jonathan switch (target) { 385 1.1 jonathan case KEY_SENDUP_ONE: 386 1.1 jonathan /* the statement has no effect */ 387 1.1 jonathan if (so && sotorawcb(so) == rp) 388 1.1 jonathan sendup++; 389 1.1 jonathan break; 390 1.1 jonathan case KEY_SENDUP_ALL: 391 1.1 jonathan sendup++; 392 1.1 jonathan break; 393 1.1 jonathan case KEY_SENDUP_REGISTERED: 394 1.5 jonathan if (kp->kp_registered) { 395 1.5 jonathan if (kso->so_rcv.sb_cc <= key_registered_sb_max) 396 1.5 jonathan sendup++; 397 1.5 jonathan else 398 1.5 jonathan printf("keysock: " 399 1.5 jonathan "registered sendup dropped, " 400 1.5 jonathan "sb_cc %ld max %d\n", 401 1.5 jonathan kso->so_rcv.sb_cc, 402 1.5 jonathan key_registered_sb_max); 403 1.5 jonathan } 404 1.1 jonathan break; 405 1.1 jonathan } 406 1.15 thorpej PFKEY_STATINC(PFKEY_STAT_IN_MSGTARGET + target); 407 1.1 jonathan 408 1.1 jonathan if (!sendup) 409 1.1 jonathan continue; 410 1.1 jonathan 411 1.1 jonathan if ((n = m_copy(m, 0, (int)M_COPYALL)) == NULL) { 412 1.1 jonathan m_freem(m); 413 1.15 thorpej PFKEY_STATINC(PFKEY_STAT_IN_NOMEM); 414 1.1 jonathan return ENOBUFS; 415 1.1 jonathan } 416 1.1 jonathan 417 1.5 jonathan if ((error = key_sendup0(rp, n, 0, 0)) != 0) { 418 1.1 jonathan m_freem(m); 419 1.1 jonathan return error; 420 1.1 jonathan } 421 1.1 jonathan 422 1.1 jonathan n = NULL; 423 1.1 jonathan } 424 1.1 jonathan 425 1.5 jonathan /* The 'later' time for processing the exact target has arrived */ 426 1.1 jonathan if (so) { 427 1.5 jonathan error = key_sendup0(sotorawcb(so), m, 0, sbprio); 428 1.1 jonathan m = NULL; 429 1.1 jonathan } else { 430 1.1 jonathan error = 0; 431 1.1 jonathan m_freem(m); 432 1.1 jonathan } 433 1.1 jonathan return error; 434 1.1 jonathan } 435 1.1 jonathan 436 1.43.4.5 skrll int 437 1.43.4.5 skrll key_sendup_mbuf(struct socket *so, struct mbuf *m, 438 1.43.4.5 skrll int target/*, sbprio */) 439 1.43.4.5 skrll { 440 1.43.4.5 skrll int error; 441 1.43.4.5 skrll 442 1.43.4.5 skrll if (so == NULL) 443 1.43.4.5 skrll mutex_enter(key_so_mtx); 444 1.43.4.5 skrll else 445 1.43.4.5 skrll KASSERT(solocked(so)); 446 1.43.4.5 skrll 447 1.43.4.5 skrll error = _key_sendup_mbuf(so, m, target); 448 1.43.4.5 skrll 449 1.43.4.5 skrll if (so == NULL) 450 1.43.4.5 skrll mutex_exit(key_so_mtx); 451 1.43.4.5 skrll return error; 452 1.43.4.5 skrll } 453 1.43.4.5 skrll 454 1.23 rmind static int 455 1.23 rmind key_attach(struct socket *so, int proto) 456 1.23 rmind { 457 1.23 rmind struct keycb *kp; 458 1.23 rmind int s, error; 459 1.23 rmind 460 1.23 rmind KASSERT(sotorawcb(so) == NULL); 461 1.23 rmind kp = kmem_zalloc(sizeof(*kp), KM_SLEEP); 462 1.25 rmind kp->kp_raw.rcb_len = sizeof(*kp); 463 1.23 rmind so->so_pcb = kp; 464 1.23 rmind 465 1.23 rmind s = splsoftnet(); 466 1.43.4.5 skrll 467 1.43.4.5 skrll KASSERT(so->so_lock == NULL); 468 1.43.4.5 skrll mutex_obj_hold(key_so_mtx); 469 1.43.4.5 skrll so->so_lock = key_so_mtx; 470 1.43.4.5 skrll solock(so); 471 1.43.4.5 skrll 472 1.23 rmind error = raw_attach(so, proto); 473 1.23 rmind if (error) { 474 1.23 rmind PFKEY_STATINC(PFKEY_STAT_SOCKERR); 475 1.23 rmind kmem_free(kp, sizeof(*kp)); 476 1.23 rmind so->so_pcb = NULL; 477 1.23 rmind goto out; 478 1.23 rmind } 479 1.23 rmind 480 1.23 rmind kp->kp_promisc = kp->kp_registered = 0; 481 1.23 rmind 482 1.23 rmind if (kp->kp_raw.rcb_proto.sp_protocol == PF_KEY) /* XXX: AF_KEY */ 483 1.23 rmind key_cb.key_count++; 484 1.23 rmind key_cb.any_count++; 485 1.23 rmind kp->kp_raw.rcb_laddr = &key_src; 486 1.23 rmind kp->kp_raw.rcb_faddr = &key_dst; 487 1.23 rmind soisconnected(so); 488 1.23 rmind so->so_options |= SO_USELOOPBACK; 489 1.23 rmind out: 490 1.23 rmind KASSERT(solocked(so)); 491 1.23 rmind splx(s); 492 1.23 rmind return error; 493 1.23 rmind } 494 1.23 rmind 495 1.23 rmind static void 496 1.23 rmind key_detach(struct socket *so) 497 1.23 rmind { 498 1.23 rmind struct keycb *kp = (struct keycb *)sotorawcb(so); 499 1.23 rmind int s; 500 1.23 rmind 501 1.43.4.5 skrll KASSERT(!cpu_softintr_p()); 502 1.23 rmind KASSERT(solocked(so)); 503 1.23 rmind KASSERT(kp != NULL); 504 1.23 rmind 505 1.23 rmind s = splsoftnet(); 506 1.23 rmind if (kp->kp_raw.rcb_proto.sp_protocol == PF_KEY) /* XXX: AF_KEY */ 507 1.23 rmind key_cb.key_count--; 508 1.23 rmind key_cb.any_count--; 509 1.23 rmind key_freereg(so); 510 1.23 rmind raw_detach(so); 511 1.23 rmind splx(s); 512 1.23 rmind } 513 1.23 rmind 514 1.28 rtr static int 515 1.43.4.2 skrll key_accept(struct socket *so, struct sockaddr *nam) 516 1.35 rtr { 517 1.35 rtr KASSERT(solocked(so)); 518 1.35 rtr 519 1.35 rtr panic("key_accept"); 520 1.39 rtr 521 1.35 rtr return EOPNOTSUPP; 522 1.35 rtr } 523 1.35 rtr 524 1.35 rtr static int 525 1.43.4.1 skrll key_bind(struct socket *so, struct sockaddr *nam, struct lwp *l) 526 1.37 rtr { 527 1.37 rtr KASSERT(solocked(so)); 528 1.37 rtr 529 1.37 rtr return EOPNOTSUPP; 530 1.37 rtr } 531 1.37 rtr 532 1.37 rtr static int 533 1.40 rtr key_listen(struct socket *so, struct lwp *l) 534 1.37 rtr { 535 1.37 rtr KASSERT(solocked(so)); 536 1.37 rtr 537 1.37 rtr return EOPNOTSUPP; 538 1.37 rtr } 539 1.37 rtr 540 1.37 rtr static int 541 1.43.4.2 skrll key_connect(struct socket *so, struct sockaddr *nam, struct lwp *l) 542 1.38 rtr { 543 1.38 rtr KASSERT(solocked(so)); 544 1.38 rtr 545 1.38 rtr return EOPNOTSUPP; 546 1.38 rtr } 547 1.38 rtr 548 1.38 rtr static int 549 1.43 rtr key_connect2(struct socket *so, struct socket *so2) 550 1.43 rtr { 551 1.43 rtr KASSERT(solocked(so)); 552 1.43 rtr 553 1.43 rtr return EOPNOTSUPP; 554 1.43 rtr } 555 1.43 rtr 556 1.43 rtr static int 557 1.39 rtr key_disconnect(struct socket *so) 558 1.39 rtr { 559 1.39 rtr struct rawcb *rp = sotorawcb(so); 560 1.39 rtr int s; 561 1.43.4.2 skrll 562 1.39 rtr KASSERT(solocked(so)); 563 1.39 rtr KASSERT(rp != NULL); 564 1.39 rtr 565 1.39 rtr s = splsoftnet(); 566 1.39 rtr soisdisconnected(so); 567 1.39 rtr raw_disconnect(rp); 568 1.39 rtr splx(s); 569 1.43.4.2 skrll 570 1.43.4.2 skrll return 0; 571 1.39 rtr } 572 1.39 rtr 573 1.39 rtr static int 574 1.39 rtr key_shutdown(struct socket *so) 575 1.39 rtr { 576 1.39 rtr int s; 577 1.39 rtr 578 1.39 rtr KASSERT(solocked(so)); 579 1.39 rtr 580 1.39 rtr /* 581 1.39 rtr * Mark the connection as being incapable of further input. 582 1.39 rtr */ 583 1.39 rtr s = splsoftnet(); 584 1.39 rtr socantsendmore(so); 585 1.39 rtr splx(s); 586 1.39 rtr 587 1.39 rtr return 0; 588 1.39 rtr } 589 1.39 rtr 590 1.39 rtr static int 591 1.39 rtr key_abort(struct socket *so) 592 1.39 rtr { 593 1.39 rtr KASSERT(solocked(so)); 594 1.39 rtr 595 1.39 rtr panic("key_abort"); 596 1.39 rtr 597 1.39 rtr return EOPNOTSUPP; 598 1.39 rtr } 599 1.39 rtr 600 1.39 rtr static int 601 1.29 rtr key_ioctl(struct socket *so, u_long cmd, void *nam, struct ifnet *ifp) 602 1.28 rtr { 603 1.28 rtr return EOPNOTSUPP; 604 1.28 rtr } 605 1.28 rtr 606 1.30 rtr static int 607 1.30 rtr key_stat(struct socket *so, struct stat *ub) 608 1.30 rtr { 609 1.33 rtr KASSERT(solocked(so)); 610 1.33 rtr 611 1.32 rtr return 0; 612 1.30 rtr } 613 1.30 rtr 614 1.34 rtr static int 615 1.43.4.2 skrll key_peeraddr(struct socket *so, struct sockaddr *nam) 616 1.34 rtr { 617 1.34 rtr struct rawcb *rp = sotorawcb(so); 618 1.34 rtr 619 1.34 rtr KASSERT(solocked(so)); 620 1.34 rtr KASSERT(rp != NULL); 621 1.34 rtr KASSERT(nam != NULL); 622 1.34 rtr 623 1.34 rtr if (rp->rcb_faddr == NULL) 624 1.34 rtr return ENOTCONN; 625 1.34 rtr 626 1.34 rtr raw_setpeeraddr(rp, nam); 627 1.34 rtr return 0; 628 1.34 rtr } 629 1.34 rtr 630 1.34 rtr static int 631 1.43.4.2 skrll key_sockaddr(struct socket *so, struct sockaddr *nam) 632 1.34 rtr { 633 1.34 rtr struct rawcb *rp = sotorawcb(so); 634 1.34 rtr 635 1.34 rtr KASSERT(solocked(so)); 636 1.34 rtr KASSERT(rp != NULL); 637 1.34 rtr KASSERT(nam != NULL); 638 1.34 rtr 639 1.34 rtr if (rp->rcb_faddr == NULL) 640 1.34 rtr return ENOTCONN; 641 1.34 rtr 642 1.34 rtr raw_setsockaddr(rp, nam); 643 1.34 rtr return 0; 644 1.34 rtr } 645 1.34 rtr 646 1.36 rtr static int 647 1.42 rtr key_rcvd(struct socket *so, int flags, struct lwp *l) 648 1.42 rtr { 649 1.42 rtr KASSERT(solocked(so)); 650 1.42 rtr 651 1.42 rtr return EOPNOTSUPP; 652 1.42 rtr } 653 1.42 rtr 654 1.42 rtr static int 655 1.36 rtr key_recvoob(struct socket *so, struct mbuf *m, int flags) 656 1.36 rtr { 657 1.36 rtr KASSERT(solocked(so)); 658 1.36 rtr 659 1.36 rtr return EOPNOTSUPP; 660 1.36 rtr } 661 1.36 rtr 662 1.36 rtr static int 663 1.43.4.2 skrll key_send(struct socket *so, struct mbuf *m, struct sockaddr *nam, 664 1.41 rtr struct mbuf *control, struct lwp *l) 665 1.41 rtr { 666 1.41 rtr int error = 0; 667 1.41 rtr int s; 668 1.41 rtr 669 1.41 rtr KASSERT(solocked(so)); 670 1.43.4.3 skrll KASSERT(so->so_proto == &keysw[0]); 671 1.41 rtr 672 1.41 rtr s = splsoftnet(); 673 1.43.4.3 skrll error = raw_send(so, m, nam, control, l, &key_output); 674 1.41 rtr splx(s); 675 1.41 rtr 676 1.41 rtr return error; 677 1.41 rtr } 678 1.41 rtr 679 1.41 rtr static int 680 1.36 rtr key_sendoob(struct socket *so, struct mbuf *m, struct mbuf *control) 681 1.36 rtr { 682 1.36 rtr KASSERT(solocked(so)); 683 1.36 rtr 684 1.36 rtr m_freem(m); 685 1.36 rtr m_freem(control); 686 1.36 rtr 687 1.36 rtr return EOPNOTSUPP; 688 1.36 rtr } 689 1.36 rtr 690 1.43 rtr static int 691 1.43 rtr key_purgeif(struct socket *so, struct ifnet *ifa) 692 1.43 rtr { 693 1.43 rtr 694 1.43 rtr panic("key_purgeif"); 695 1.43 rtr 696 1.43 rtr return EOPNOTSUPP; 697 1.43 rtr } 698 1.43 rtr 699 1.1 jonathan /* 700 1.1 jonathan * Definitions of protocols supported in the KEY domain. 701 1.1 jonathan */ 702 1.1 jonathan 703 1.6 matt DOMAIN_DEFINE(keydomain); 704 1.1 jonathan 705 1.24 rmind PR_WRAP_USRREQS(key) 706 1.24 rmind #define key_attach key_attach_wrapper 707 1.24 rmind #define key_detach key_detach_wrapper 708 1.35 rtr #define key_accept key_accept_wrapper 709 1.37 rtr #define key_bind key_bind_wrapper 710 1.37 rtr #define key_listen key_listen_wrapper 711 1.38 rtr #define key_connect key_connect_wrapper 712 1.43 rtr #define key_connect2 key_connect2_wrapper 713 1.39 rtr #define key_disconnect key_disconnect_wrapper 714 1.39 rtr #define key_shutdown key_shutdown_wrapper 715 1.39 rtr #define key_abort key_abort_wrapper 716 1.28 rtr #define key_ioctl key_ioctl_wrapper 717 1.30 rtr #define key_stat key_stat_wrapper 718 1.34 rtr #define key_peeraddr key_peeraddr_wrapper 719 1.34 rtr #define key_sockaddr key_sockaddr_wrapper 720 1.42 rtr #define key_rcvd key_rcvd_wrapper 721 1.36 rtr #define key_recvoob key_recvoob_wrapper 722 1.41 rtr #define key_send key_send_wrapper 723 1.36 rtr #define key_sendoob key_sendoob_wrapper 724 1.43 rtr #define key_purgeif key_purgeif_wrapper 725 1.22 rmind 726 1.43.4.3 skrll static const struct pr_usrreqs key_usrreqs = { 727 1.23 rmind .pr_attach = key_attach, 728 1.23 rmind .pr_detach = key_detach, 729 1.35 rtr .pr_accept = key_accept, 730 1.37 rtr .pr_bind = key_bind, 731 1.37 rtr .pr_listen = key_listen, 732 1.38 rtr .pr_connect = key_connect, 733 1.43 rtr .pr_connect2 = key_connect2, 734 1.39 rtr .pr_disconnect = key_disconnect, 735 1.39 rtr .pr_shutdown = key_shutdown, 736 1.39 rtr .pr_abort = key_abort, 737 1.28 rtr .pr_ioctl = key_ioctl, 738 1.30 rtr .pr_stat = key_stat, 739 1.34 rtr .pr_peeraddr = key_peeraddr, 740 1.34 rtr .pr_sockaddr = key_sockaddr, 741 1.42 rtr .pr_rcvd = key_rcvd, 742 1.36 rtr .pr_recvoob = key_recvoob, 743 1.41 rtr .pr_send = key_send, 744 1.36 rtr .pr_sendoob = key_sendoob, 745 1.43 rtr .pr_purgeif = key_purgeif, 746 1.22 rmind }; 747 1.22 rmind 748 1.43.4.3 skrll static const struct protosw keysw[] = { 749 1.10 matt { 750 1.10 matt .pr_type = SOCK_RAW, 751 1.10 matt .pr_domain = &keydomain, 752 1.10 matt .pr_protocol = PF_KEY_V2, 753 1.10 matt .pr_flags = PR_ATOMIC|PR_ADDR, 754 1.10 matt .pr_ctlinput = raw_ctlinput, 755 1.22 rmind .pr_usrreqs = &key_usrreqs, 756 1.10 matt .pr_init = raw_init, 757 1.10 matt } 758 1.1 jonathan }; 759 1.1 jonathan 760 1.10 matt struct domain keydomain = { 761 1.10 matt .dom_family = PF_KEY, 762 1.10 matt .dom_name = "key", 763 1.10 matt .dom_init = key_init, 764 1.10 matt .dom_protosw = keysw, 765 1.10 matt .dom_protoswNPROTOSW = &keysw[__arraycount(keysw)], 766 1.10 matt }; 767
Indexes created Thu Oct 02 01:09:59 GMT 2025