key.c revision 1.4
1 1.4 atatat /* $NetBSD: key.c,v 1.4 2003/12/04 19:38:25 atatat Exp $ */ 2 1.1 jonathan /* $FreeBSD: /usr/local/www/cvsroot/FreeBSD/src/sys/netipsec/key.c,v 1.3.2.2 2003/07/01 01:38:13 sam Exp $ */ 3 1.1 jonathan /* $KAME: key.c,v 1.191 2001/06/27 10:46:49 sakane 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 1.4 atatat __KERNEL_RCSID(0, "$NetBSD: key.c,v 1.4 2003/12/04 19:38:25 atatat Exp $"); 36 1.1 jonathan 37 1.1 jonathan /* 38 1.1 jonathan * This code is referd to RFC 2367 39 1.1 jonathan */ 40 1.1 jonathan 41 1.1 jonathan #include "opt_inet.h" 42 1.2 jonathan #ifdef __FreeBSD__ 43 1.1 jonathan #include "opt_inet6.h" 44 1.2 jonathan #endif 45 1.1 jonathan #include "opt_ipsec.h" 46 1.1 jonathan 47 1.1 jonathan #include <sys/types.h> 48 1.1 jonathan #include <sys/param.h> 49 1.1 jonathan #include <sys/systm.h> 50 1.1 jonathan #include <sys/callout.h> 51 1.1 jonathan #include <sys/kernel.h> 52 1.1 jonathan #include <sys/mbuf.h> 53 1.1 jonathan #include <sys/domain.h> 54 1.1 jonathan #include <sys/protosw.h> 55 1.1 jonathan #include <sys/malloc.h> 56 1.1 jonathan #include <sys/socket.h> 57 1.1 jonathan #include <sys/socketvar.h> 58 1.1 jonathan #include <sys/sysctl.h> 59 1.1 jonathan #include <sys/errno.h> 60 1.1 jonathan #include <sys/proc.h> 61 1.1 jonathan #include <sys/queue.h> 62 1.1 jonathan #include <sys/syslog.h> 63 1.1 jonathan 64 1.1 jonathan #include <net/if.h> 65 1.1 jonathan #include <net/route.h> 66 1.1 jonathan #include <net/raw_cb.h> 67 1.1 jonathan 68 1.1 jonathan #include <netinet/in.h> 69 1.1 jonathan #include <netinet/in_systm.h> 70 1.1 jonathan #include <netinet/ip.h> 71 1.1 jonathan #include <netinet/in_var.h> 72 1.1 jonathan 73 1.1 jonathan #ifdef INET6 74 1.1 jonathan #include <netinet/ip6.h> 75 1.1 jonathan #include <netinet6/in6_var.h> 76 1.1 jonathan #include <netinet6/ip6_var.h> 77 1.1 jonathan #endif /* INET6 */ 78 1.1 jonathan 79 1.1 jonathan #ifdef INET 80 1.1 jonathan #include <netinet/in_pcb.h> 81 1.1 jonathan #endif 82 1.1 jonathan #ifdef INET6 83 1.1 jonathan #include <netinet6/in6_pcb.h> 84 1.1 jonathan #endif /* INET6 */ 85 1.1 jonathan 86 1.1 jonathan #include <net/pfkeyv2.h> 87 1.1 jonathan #include <netipsec/keydb.h> 88 1.1 jonathan #include <netipsec/key.h> 89 1.1 jonathan #include <netipsec/keysock.h> 90 1.1 jonathan #include <netipsec/key_debug.h> 91 1.1 jonathan 92 1.1 jonathan #include <netipsec/ipsec.h> 93 1.1 jonathan #ifdef INET6 94 1.1 jonathan #include <netipsec/ipsec6.h> 95 1.1 jonathan #endif 96 1.1 jonathan 97 1.1 jonathan #include <netipsec/xform.h> 98 1.1 jonathan #include <netipsec/ipsec_osdep.h> 99 1.1 jonathan 100 1.1 jonathan #include <machine/stdarg.h> 101 1.1 jonathan 102 1.1 jonathan 103 1.1 jonathan #include <net/net_osdep.h> 104 1.1 jonathan 105 1.1 jonathan #define FULLMASK 0xff 106 1.1 jonathan #define _BITS(bytes) ((bytes) << 3) 107 1.1 jonathan 108 1.1 jonathan /* 109 1.1 jonathan * Note on SA reference counting: 110 1.1 jonathan * - SAs that are not in DEAD state will have (total external reference + 1) 111 1.1 jonathan * following value in reference count field. they cannot be freed and are 112 1.1 jonathan * referenced from SA header. 113 1.1 jonathan * - SAs that are in DEAD state will have (total external reference) 114 1.1 jonathan * in reference count field. they are ready to be freed. reference from 115 1.1 jonathan * SA header will be removed in key_delsav(), when the reference count 116 1.1 jonathan * field hits 0 (= no external reference other than from SA header. 117 1.1 jonathan */ 118 1.1 jonathan 119 1.1 jonathan u_int32_t key_debug_level = 0; 120 1.1 jonathan static u_int key_spi_trycnt = 1000; 121 1.1 jonathan static u_int32_t key_spi_minval = 0x100; 122 1.1 jonathan static u_int32_t key_spi_maxval = 0x0fffffff; /* XXX */ 123 1.1 jonathan static u_int32_t policy_id = 0; 124 1.1 jonathan static u_int key_int_random = 60; /*interval to initialize randseed,1(m)*/ 125 1.1 jonathan static u_int key_larval_lifetime = 30; /* interval to expire acquiring, 30(s)*/ 126 1.1 jonathan static int key_blockacq_count = 10; /* counter for blocking SADB_ACQUIRE.*/ 127 1.1 jonathan static int key_blockacq_lifetime = 20; /* lifetime for blocking SADB_ACQUIRE.*/ 128 1.1 jonathan static int key_prefered_oldsa = 1; /* prefered old sa rather than new sa.*/ 129 1.1 jonathan 130 1.1 jonathan static u_int32_t acq_seq = 0; 131 1.1 jonathan static int key_tick_init_random = 0; 132 1.1 jonathan 133 1.1 jonathan static LIST_HEAD(_sptree, secpolicy) sptree[IPSEC_DIR_MAX]; /* SPD */ 134 1.1 jonathan static LIST_HEAD(_sahtree, secashead) sahtree; /* SAD */ 135 1.1 jonathan static LIST_HEAD(_regtree, secreg) regtree[SADB_SATYPE_MAX + 1]; 136 1.1 jonathan /* registed list */ 137 1.1 jonathan #ifndef IPSEC_NONBLOCK_ACQUIRE 138 1.1 jonathan static LIST_HEAD(_acqtree, secacq) acqtree; /* acquiring list */ 139 1.1 jonathan #endif 140 1.1 jonathan static LIST_HEAD(_spacqtree, secspacq) spacqtree; /* SP acquiring list */ 141 1.1 jonathan 142 1.1 jonathan /* search order for SAs */ 143 1.1 jonathan static u_int saorder_state_valid[] = { 144 1.1 jonathan SADB_SASTATE_DYING, SADB_SASTATE_MATURE, 145 1.1 jonathan /* 146 1.1 jonathan * This order is important because we must select the oldest SA 147 1.1 jonathan * for outbound processing. For inbound, This is not important. 148 1.1 jonathan */ 149 1.1 jonathan }; 150 1.1 jonathan static u_int saorder_state_alive[] = { 151 1.1 jonathan /* except DEAD */ 152 1.1 jonathan SADB_SASTATE_MATURE, SADB_SASTATE_DYING, SADB_SASTATE_LARVAL 153 1.1 jonathan }; 154 1.1 jonathan static u_int saorder_state_any[] = { 155 1.1 jonathan SADB_SASTATE_MATURE, SADB_SASTATE_DYING, 156 1.1 jonathan SADB_SASTATE_LARVAL, SADB_SASTATE_DEAD 157 1.1 jonathan }; 158 1.1 jonathan 159 1.1 jonathan static const int minsize[] = { 160 1.1 jonathan sizeof(struct sadb_msg), /* SADB_EXT_RESERVED */ 161 1.1 jonathan sizeof(struct sadb_sa), /* SADB_EXT_SA */ 162 1.1 jonathan sizeof(struct sadb_lifetime), /* SADB_EXT_LIFETIME_CURRENT */ 163 1.1 jonathan sizeof(struct sadb_lifetime), /* SADB_EXT_LIFETIME_HARD */ 164 1.1 jonathan sizeof(struct sadb_lifetime), /* SADB_EXT_LIFETIME_SOFT */ 165 1.1 jonathan sizeof(struct sadb_address), /* SADB_EXT_ADDRESS_SRC */ 166 1.1 jonathan sizeof(struct sadb_address), /* SADB_EXT_ADDRESS_DST */ 167 1.1 jonathan sizeof(struct sadb_address), /* SADB_EXT_ADDRESS_PROXY */ 168 1.1 jonathan sizeof(struct sadb_key), /* SADB_EXT_KEY_AUTH */ 169 1.1 jonathan sizeof(struct sadb_key), /* SADB_EXT_KEY_ENCRYPT */ 170 1.1 jonathan sizeof(struct sadb_ident), /* SADB_EXT_IDENTITY_SRC */ 171 1.1 jonathan sizeof(struct sadb_ident), /* SADB_EXT_IDENTITY_DST */ 172 1.1 jonathan sizeof(struct sadb_sens), /* SADB_EXT_SENSITIVITY */ 173 1.1 jonathan sizeof(struct sadb_prop), /* SADB_EXT_PROPOSAL */ 174 1.1 jonathan sizeof(struct sadb_supported), /* SADB_EXT_SUPPORTED_AUTH */ 175 1.1 jonathan sizeof(struct sadb_supported), /* SADB_EXT_SUPPORTED_ENCRYPT */ 176 1.1 jonathan sizeof(struct sadb_spirange), /* SADB_EXT_SPIRANGE */ 177 1.1 jonathan 0, /* SADB_X_EXT_KMPRIVATE */ 178 1.1 jonathan sizeof(struct sadb_x_policy), /* SADB_X_EXT_POLICY */ 179 1.1 jonathan sizeof(struct sadb_x_sa2), /* SADB_X_SA2 */ 180 1.1 jonathan }; 181 1.1 jonathan static const int maxsize[] = { 182 1.1 jonathan sizeof(struct sadb_msg), /* SADB_EXT_RESERVED */ 183 1.1 jonathan sizeof(struct sadb_sa), /* SADB_EXT_SA */ 184 1.1 jonathan sizeof(struct sadb_lifetime), /* SADB_EXT_LIFETIME_CURRENT */ 185 1.1 jonathan sizeof(struct sadb_lifetime), /* SADB_EXT_LIFETIME_HARD */ 186 1.1 jonathan sizeof(struct sadb_lifetime), /* SADB_EXT_LIFETIME_SOFT */ 187 1.1 jonathan 0, /* SADB_EXT_ADDRESS_SRC */ 188 1.1 jonathan 0, /* SADB_EXT_ADDRESS_DST */ 189 1.1 jonathan 0, /* SADB_EXT_ADDRESS_PROXY */ 190 1.1 jonathan 0, /* SADB_EXT_KEY_AUTH */ 191 1.1 jonathan 0, /* SADB_EXT_KEY_ENCRYPT */ 192 1.1 jonathan 0, /* SADB_EXT_IDENTITY_SRC */ 193 1.1 jonathan 0, /* SADB_EXT_IDENTITY_DST */ 194 1.1 jonathan 0, /* SADB_EXT_SENSITIVITY */ 195 1.1 jonathan 0, /* SADB_EXT_PROPOSAL */ 196 1.1 jonathan 0, /* SADB_EXT_SUPPORTED_AUTH */ 197 1.1 jonathan 0, /* SADB_EXT_SUPPORTED_ENCRYPT */ 198 1.1 jonathan sizeof(struct sadb_spirange), /* SADB_EXT_SPIRANGE */ 199 1.1 jonathan 0, /* SADB_X_EXT_KMPRIVATE */ 200 1.1 jonathan 0, /* SADB_X_EXT_POLICY */ 201 1.1 jonathan sizeof(struct sadb_x_sa2), /* SADB_X_SA2 */ 202 1.1 jonathan }; 203 1.1 jonathan 204 1.1 jonathan static int ipsec_esp_keymin = 256; 205 1.1 jonathan static int ipsec_esp_auth = 0; 206 1.1 jonathan static int ipsec_ah_keymin = 128; 207 1.1 jonathan 208 1.1 jonathan #ifdef SYSCTL_DECL 209 1.1 jonathan SYSCTL_DECL(_net_key); 210 1.1 jonathan #endif 211 1.1 jonathan 212 1.1 jonathan #ifdef SYSCTL_INT 213 1.1 jonathan SYSCTL_INT(_net_key, KEYCTL_DEBUG_LEVEL, debug, CTLFLAG_RW, \ 214 1.1 jonathan &key_debug_level, 0, ""); 215 1.1 jonathan 216 1.1 jonathan /* max count of trial for the decision of spi value */ 217 1.1 jonathan SYSCTL_INT(_net_key, KEYCTL_SPI_TRY, spi_trycnt, CTLFLAG_RW, \ 218 1.1 jonathan &key_spi_trycnt, 0, ""); 219 1.1 jonathan 220 1.1 jonathan /* minimum spi value to allocate automatically. */ 221 1.1 jonathan SYSCTL_INT(_net_key, KEYCTL_SPI_MIN_VALUE, spi_minval, CTLFLAG_RW, \ 222 1.1 jonathan &key_spi_minval, 0, ""); 223 1.1 jonathan 224 1.1 jonathan /* maximun spi value to allocate automatically. */ 225 1.1 jonathan SYSCTL_INT(_net_key, KEYCTL_SPI_MAX_VALUE, spi_maxval, CTLFLAG_RW, \ 226 1.1 jonathan &key_spi_maxval, 0, ""); 227 1.1 jonathan 228 1.1 jonathan /* interval to initialize randseed */ 229 1.1 jonathan SYSCTL_INT(_net_key, KEYCTL_RANDOM_INT, int_random, CTLFLAG_RW, \ 230 1.1 jonathan &key_int_random, 0, ""); 231 1.1 jonathan 232 1.1 jonathan /* lifetime for larval SA */ 233 1.1 jonathan SYSCTL_INT(_net_key, KEYCTL_LARVAL_LIFETIME, larval_lifetime, CTLFLAG_RW, \ 234 1.1 jonathan &key_larval_lifetime, 0, ""); 235 1.1 jonathan 236 1.1 jonathan /* counter for blocking to send SADB_ACQUIRE to IKEd */ 237 1.1 jonathan SYSCTL_INT(_net_key, KEYCTL_BLOCKACQ_COUNT, blockacq_count, CTLFLAG_RW, \ 238 1.1 jonathan &key_blockacq_count, 0, ""); 239 1.1 jonathan 240 1.1 jonathan /* lifetime for blocking to send SADB_ACQUIRE to IKEd */ 241 1.1 jonathan SYSCTL_INT(_net_key, KEYCTL_BLOCKACQ_LIFETIME, blockacq_lifetime, CTLFLAG_RW, \ 242 1.1 jonathan &key_blockacq_lifetime, 0, ""); 243 1.1 jonathan 244 1.1 jonathan /* ESP auth */ 245 1.1 jonathan SYSCTL_INT(_net_key, KEYCTL_ESP_AUTH, esp_auth, CTLFLAG_RW, \ 246 1.1 jonathan &ipsec_esp_auth, 0, ""); 247 1.1 jonathan 248 1.1 jonathan /* minimum ESP key length */ 249 1.1 jonathan SYSCTL_INT(_net_key, KEYCTL_ESP_KEYMIN, esp_keymin, CTLFLAG_RW, \ 250 1.1 jonathan &ipsec_esp_keymin, 0, ""); 251 1.1 jonathan 252 1.1 jonathan /* minimum AH key length */ 253 1.1 jonathan SYSCTL_INT(_net_key, KEYCTL_AH_KEYMIN, ah_keymin, CTLFLAG_RW, \ 254 1.1 jonathan &ipsec_ah_keymin, 0, ""); 255 1.1 jonathan 256 1.1 jonathan /* perfered old SA rather than new SA */ 257 1.1 jonathan SYSCTL_INT(_net_key, KEYCTL_PREFERED_OLDSA, prefered_oldsa, CTLFLAG_RW,\ 258 1.1 jonathan &key_prefered_oldsa, 0, ""); 259 1.3 tls #endif /* SYSCTL_INT */ 260 1.1 jonathan 261 1.1 jonathan #ifndef LIST_FOREACH 262 1.1 jonathan #define LIST_FOREACH(elm, head, field) \ 263 1.1 jonathan for (elm = LIST_FIRST(head); elm; elm = LIST_NEXT(elm, field)) 264 1.1 jonathan #endif 265 1.1 jonathan #define __LIST_CHAINED(elm) \ 266 1.1 jonathan (!((elm)->chain.le_next == NULL && (elm)->chain.le_prev == NULL)) 267 1.1 jonathan #define LIST_INSERT_TAIL(head, elm, type, field) \ 268 1.1 jonathan do {\ 269 1.1 jonathan struct type *curelm = LIST_FIRST(head); \ 270 1.1 jonathan if (curelm == NULL) {\ 271 1.1 jonathan LIST_INSERT_HEAD(head, elm, field); \ 272 1.1 jonathan } else { \ 273 1.1 jonathan while (LIST_NEXT(curelm, field)) \ 274 1.1 jonathan curelm = LIST_NEXT(curelm, field);\ 275 1.1 jonathan LIST_INSERT_AFTER(curelm, elm, field);\ 276 1.1 jonathan }\ 277 1.1 jonathan } while (0) 278 1.1 jonathan 279 1.1 jonathan #define KEY_CHKSASTATE(head, sav, name) \ 280 1.1 jonathan do { \ 281 1.1 jonathan if ((head) != (sav)) { \ 282 1.1 jonathan ipseclog((LOG_DEBUG, "%s: state mismatched (TREE=%d SA=%d)\n", \ 283 1.1 jonathan (name), (head), (sav))); \ 284 1.1 jonathan continue; \ 285 1.1 jonathan } \ 286 1.1 jonathan } while (0) 287 1.1 jonathan 288 1.1 jonathan #define KEY_CHKSPDIR(head, sp, name) \ 289 1.1 jonathan do { \ 290 1.1 jonathan if ((head) != (sp)) { \ 291 1.1 jonathan ipseclog((LOG_DEBUG, "%s: direction mismatched (TREE=%d SP=%d), " \ 292 1.1 jonathan "anyway continue.\n", \ 293 1.1 jonathan (name), (head), (sp))); \ 294 1.1 jonathan } \ 295 1.1 jonathan } while (0) 296 1.1 jonathan 297 1.1 jonathan MALLOC_DEFINE(M_SECA, "key mgmt", "security associations, key management"); 298 1.1 jonathan 299 1.1 jonathan #if 1 300 1.1 jonathan #define KMALLOC(p, t, n) \ 301 1.1 jonathan ((p) = (t) malloc((unsigned long)(n), M_SECA, M_NOWAIT)) 302 1.1 jonathan #define KFREE(p) \ 303 1.1 jonathan free((caddr_t)(p), M_SECA) 304 1.1 jonathan #else 305 1.1 jonathan #define KMALLOC(p, t, n) \ 306 1.1 jonathan do { \ 307 1.1 jonathan ((p) = (t)malloc((unsigned long)(n), M_SECA, M_NOWAIT)); \ 308 1.1 jonathan printf("%s %d: %p <- KMALLOC(%s, %d)\n", \ 309 1.1 jonathan __FILE__, __LINE__, (p), #t, n); \ 310 1.1 jonathan } while (0) 311 1.1 jonathan 312 1.1 jonathan #define KFREE(p) \ 313 1.1 jonathan do { \ 314 1.1 jonathan printf("%s %d: %p -> KFREE()\n", __FILE__, __LINE__, (p)); \ 315 1.1 jonathan free((caddr_t)(p), M_SECA); \ 316 1.1 jonathan } while (0) 317 1.1 jonathan #endif 318 1.1 jonathan 319 1.1 jonathan /* 320 1.1 jonathan * set parameters into secpolicyindex buffer. 321 1.1 jonathan * Must allocate secpolicyindex buffer passed to this function. 322 1.1 jonathan */ 323 1.1 jonathan #define KEY_SETSECSPIDX(_dir, s, d, ps, pd, ulp, idx) \ 324 1.1 jonathan do { \ 325 1.1 jonathan bzero((idx), sizeof(struct secpolicyindex)); \ 326 1.1 jonathan (idx)->dir = (_dir); \ 327 1.1 jonathan (idx)->prefs = (ps); \ 328 1.1 jonathan (idx)->prefd = (pd); \ 329 1.1 jonathan (idx)->ul_proto = (ulp); \ 330 1.1 jonathan bcopy((s), &(idx)->src, ((const struct sockaddr *)(s))->sa_len); \ 331 1.1 jonathan bcopy((d), &(idx)->dst, ((const struct sockaddr *)(d))->sa_len); \ 332 1.1 jonathan } while (0) 333 1.1 jonathan 334 1.1 jonathan /* 335 1.1 jonathan * set parameters into secasindex buffer. 336 1.1 jonathan * Must allocate secasindex buffer before calling this function. 337 1.1 jonathan */ 338 1.1 jonathan #define KEY_SETSECASIDX(p, m, r, s, d, idx) \ 339 1.1 jonathan do { \ 340 1.1 jonathan bzero((idx), sizeof(struct secasindex)); \ 341 1.1 jonathan (idx)->proto = (p); \ 342 1.1 jonathan (idx)->mode = (m); \ 343 1.1 jonathan (idx)->reqid = (r); \ 344 1.1 jonathan bcopy((s), &(idx)->src, ((const struct sockaddr *)(s))->sa_len); \ 345 1.1 jonathan bcopy((d), &(idx)->dst, ((const struct sockaddr *)(d))->sa_len); \ 346 1.1 jonathan } while (0) 347 1.1 jonathan 348 1.1 jonathan /* key statistics */ 349 1.1 jonathan struct _keystat { 350 1.1 jonathan u_long getspi_count; /* the avarage of count to try to get new SPI */ 351 1.1 jonathan } keystat; 352 1.1 jonathan 353 1.1 jonathan struct sadb_msghdr { 354 1.1 jonathan struct sadb_msg *msg; 355 1.1 jonathan struct sadb_ext *ext[SADB_EXT_MAX + 1]; 356 1.1 jonathan int extoff[SADB_EXT_MAX + 1]; 357 1.1 jonathan int extlen[SADB_EXT_MAX + 1]; 358 1.1 jonathan }; 359 1.1 jonathan 360 1.1 jonathan static struct secasvar *key_allocsa_policy __P((const struct secasindex *)); 361 1.1 jonathan static void key_freesp_so __P((struct secpolicy **)); 362 1.1 jonathan static struct secasvar *key_do_allocsa_policy __P((struct secashead *, u_int)); 363 1.1 jonathan static void key_delsp __P((struct secpolicy *)); 364 1.1 jonathan static struct secpolicy *key_getsp __P((struct secpolicyindex *)); 365 1.1 jonathan static struct secpolicy *key_getspbyid __P((u_int32_t)); 366 1.1 jonathan static u_int32_t key_newreqid __P((void)); 367 1.1 jonathan static struct mbuf *key_gather_mbuf __P((struct mbuf *, 368 1.1 jonathan const struct sadb_msghdr *, int, int, ...)); 369 1.1 jonathan static int key_spdadd __P((struct socket *, struct mbuf *, 370 1.1 jonathan const struct sadb_msghdr *)); 371 1.1 jonathan static u_int32_t key_getnewspid __P((void)); 372 1.1 jonathan static int key_spddelete __P((struct socket *, struct mbuf *, 373 1.1 jonathan const struct sadb_msghdr *)); 374 1.1 jonathan static int key_spddelete2 __P((struct socket *, struct mbuf *, 375 1.1 jonathan const struct sadb_msghdr *)); 376 1.1 jonathan static int key_spdget __P((struct socket *, struct mbuf *, 377 1.1 jonathan const struct sadb_msghdr *)); 378 1.1 jonathan static int key_spdflush __P((struct socket *, struct mbuf *, 379 1.1 jonathan const struct sadb_msghdr *)); 380 1.1 jonathan static int key_spddump __P((struct socket *, struct mbuf *, 381 1.1 jonathan const struct sadb_msghdr *)); 382 1.1 jonathan static struct mbuf *key_setdumpsp __P((struct secpolicy *, 383 1.1 jonathan u_int8_t, u_int32_t, u_int32_t)); 384 1.1 jonathan static u_int key_getspreqmsglen __P((struct secpolicy *)); 385 1.1 jonathan static int key_spdexpire __P((struct secpolicy *)); 386 1.1 jonathan static struct secashead *key_newsah __P((struct secasindex *)); 387 1.1 jonathan static void key_delsah __P((struct secashead *)); 388 1.1 jonathan static struct secasvar *key_newsav __P((struct mbuf *, 389 1.1 jonathan const struct sadb_msghdr *, struct secashead *, int *, 390 1.1 jonathan const char*, int)); 391 1.1 jonathan #define KEY_NEWSAV(m, sadb, sah, e) \ 392 1.1 jonathan key_newsav(m, sadb, sah, e, __FILE__, __LINE__) 393 1.1 jonathan static void key_delsav __P((struct secasvar *)); 394 1.1 jonathan static struct secashead *key_getsah __P((struct secasindex *)); 395 1.1 jonathan static struct secasvar *key_checkspidup __P((struct secasindex *, u_int32_t)); 396 1.1 jonathan static struct secasvar *key_getsavbyspi __P((struct secashead *, u_int32_t)); 397 1.1 jonathan static int key_setsaval __P((struct secasvar *, struct mbuf *, 398 1.1 jonathan const struct sadb_msghdr *)); 399 1.1 jonathan static int key_mature __P((struct secasvar *)); 400 1.1 jonathan static struct mbuf *key_setdumpsa __P((struct secasvar *, u_int8_t, 401 1.1 jonathan u_int8_t, u_int32_t, u_int32_t)); 402 1.1 jonathan static struct mbuf *key_setsadbmsg __P((u_int8_t, u_int16_t, u_int8_t, 403 1.1 jonathan u_int32_t, pid_t, u_int16_t)); 404 1.1 jonathan static struct mbuf *key_setsadbsa __P((struct secasvar *)); 405 1.1 jonathan static struct mbuf *key_setsadbaddr __P((u_int16_t, 406 1.1 jonathan const struct sockaddr *, u_int8_t, u_int16_t)); 407 1.1 jonathan #if 0 408 1.1 jonathan static struct mbuf *key_setsadbident __P((u_int16_t, u_int16_t, caddr_t, 409 1.1 jonathan int, u_int64_t)); 410 1.1 jonathan #endif 411 1.1 jonathan static struct mbuf *key_setsadbxsa2 __P((u_int8_t, u_int32_t, u_int32_t)); 412 1.1 jonathan static struct mbuf *key_setsadbxpolicy __P((u_int16_t, u_int8_t, 413 1.1 jonathan u_int32_t)); 414 1.1 jonathan static void *key_newbuf __P((const void *, u_int)); 415 1.1 jonathan #ifdef INET6 416 1.1 jonathan static int key_ismyaddr6 __P((struct sockaddr_in6 *)); 417 1.1 jonathan #endif 418 1.1 jonathan 419 1.1 jonathan /* flags for key_cmpsaidx() */ 420 1.1 jonathan #define CMP_HEAD 1 /* protocol, addresses. */ 421 1.1 jonathan #define CMP_MODE_REQID 2 /* additionally HEAD, reqid, mode. */ 422 1.1 jonathan #define CMP_REQID 3 /* additionally HEAD, reaid. */ 423 1.1 jonathan #define CMP_EXACTLY 4 /* all elements. */ 424 1.1 jonathan static int key_cmpsaidx 425 1.1 jonathan __P((const struct secasindex *, const struct secasindex *, int)); 426 1.1 jonathan 427 1.1 jonathan static int key_cmpspidx_exactly 428 1.1 jonathan __P((struct secpolicyindex *, struct secpolicyindex *)); 429 1.1 jonathan static int key_cmpspidx_withmask 430 1.1 jonathan __P((struct secpolicyindex *, struct secpolicyindex *)); 431 1.1 jonathan static int key_sockaddrcmp __P((const struct sockaddr *, const struct sockaddr *, int)); 432 1.1 jonathan static int key_bbcmp __P((const void *, const void *, u_int)); 433 1.1 jonathan static void key_srandom __P((void)); 434 1.1 jonathan static u_int16_t key_satype2proto __P((u_int8_t)); 435 1.1 jonathan static u_int8_t key_proto2satype __P((u_int16_t)); 436 1.1 jonathan 437 1.1 jonathan static int key_getspi __P((struct socket *, struct mbuf *, 438 1.1 jonathan const struct sadb_msghdr *)); 439 1.1 jonathan static u_int32_t key_do_getnewspi __P((struct sadb_spirange *, 440 1.1 jonathan struct secasindex *)); 441 1.1 jonathan static int key_update __P((struct socket *, struct mbuf *, 442 1.1 jonathan const struct sadb_msghdr *)); 443 1.1 jonathan #ifdef IPSEC_DOSEQCHECK 444 1.1 jonathan static struct secasvar *key_getsavbyseq __P((struct secashead *, u_int32_t)); 445 1.1 jonathan #endif 446 1.1 jonathan static int key_add __P((struct socket *, struct mbuf *, 447 1.1 jonathan const struct sadb_msghdr *)); 448 1.1 jonathan static int key_setident __P((struct secashead *, struct mbuf *, 449 1.1 jonathan const struct sadb_msghdr *)); 450 1.1 jonathan static struct mbuf *key_getmsgbuf_x1 __P((struct mbuf *, 451 1.1 jonathan const struct sadb_msghdr *)); 452 1.1 jonathan static int key_delete __P((struct socket *, struct mbuf *, 453 1.1 jonathan const struct sadb_msghdr *)); 454 1.1 jonathan static int key_get __P((struct socket *, struct mbuf *, 455 1.1 jonathan const struct sadb_msghdr *)); 456 1.1 jonathan 457 1.1 jonathan static void key_getcomb_setlifetime __P((struct sadb_comb *)); 458 1.1 jonathan static struct mbuf *key_getcomb_esp __P((void)); 459 1.1 jonathan static struct mbuf *key_getcomb_ah __P((void)); 460 1.1 jonathan static struct mbuf *key_getcomb_ipcomp __P((void)); 461 1.1 jonathan static struct mbuf *key_getprop __P((const struct secasindex *)); 462 1.1 jonathan 463 1.1 jonathan static int key_acquire __P((const struct secasindex *, struct secpolicy *)); 464 1.1 jonathan #ifndef IPSEC_NONBLOCK_ACQUIRE 465 1.1 jonathan static struct secacq *key_newacq __P((const struct secasindex *)); 466 1.1 jonathan static struct secacq *key_getacq __P((const struct secasindex *)); 467 1.1 jonathan static struct secacq *key_getacqbyseq __P((u_int32_t)); 468 1.1 jonathan #endif 469 1.1 jonathan static struct secspacq *key_newspacq __P((struct secpolicyindex *)); 470 1.1 jonathan static struct secspacq *key_getspacq __P((struct secpolicyindex *)); 471 1.1 jonathan static int key_acquire2 __P((struct socket *, struct mbuf *, 472 1.1 jonathan const struct sadb_msghdr *)); 473 1.1 jonathan static int key_register __P((struct socket *, struct mbuf *, 474 1.1 jonathan const struct sadb_msghdr *)); 475 1.1 jonathan static int key_expire __P((struct secasvar *)); 476 1.1 jonathan static int key_flush __P((struct socket *, struct mbuf *, 477 1.1 jonathan const struct sadb_msghdr *)); 478 1.1 jonathan static int key_dump __P((struct socket *, struct mbuf *, 479 1.1 jonathan const struct sadb_msghdr *)); 480 1.1 jonathan static int key_promisc __P((struct socket *, struct mbuf *, 481 1.1 jonathan const struct sadb_msghdr *)); 482 1.1 jonathan static int key_senderror __P((struct socket *, struct mbuf *, int)); 483 1.1 jonathan static int key_validate_ext __P((const struct sadb_ext *, int)); 484 1.1 jonathan static int key_align __P((struct mbuf *, struct sadb_msghdr *)); 485 1.1 jonathan #if 0 486 1.1 jonathan static const char *key_getfqdn __P((void)); 487 1.1 jonathan static const char *key_getuserfqdn __P((void)); 488 1.1 jonathan #endif 489 1.1 jonathan static void key_sa_chgstate __P((struct secasvar *, u_int8_t)); 490 1.1 jonathan static struct mbuf *key_alloc_mbuf __P((int)); 491 1.1 jonathan struct callout key_timehandler_ch; 492 1.1 jonathan 493 1.1 jonathan #define SA_ADDREF(p) do { \ 494 1.1 jonathan (p)->refcnt++; \ 495 1.1 jonathan IPSEC_ASSERT((p)->refcnt != 0, \ 496 1.1 jonathan ("SA refcnt overflow at %s:%u", __FILE__, __LINE__)); \ 497 1.1 jonathan } while (0) 498 1.1 jonathan #define SA_DELREF(p) do { \ 499 1.1 jonathan IPSEC_ASSERT((p)->refcnt > 0, \ 500 1.1 jonathan ("SA refcnt underflow at %s:%u", __FILE__, __LINE__)); \ 501 1.1 jonathan (p)->refcnt--; \ 502 1.1 jonathan } while (0) 503 1.1 jonathan 504 1.1 jonathan #define SP_ADDREF(p) do { \ 505 1.1 jonathan (p)->refcnt++; \ 506 1.1 jonathan IPSEC_ASSERT((p)->refcnt != 0, \ 507 1.1 jonathan ("SP refcnt overflow at %s:%u", __FILE__, __LINE__)); \ 508 1.1 jonathan } while (0) 509 1.1 jonathan #define SP_DELREF(p) do { \ 510 1.1 jonathan IPSEC_ASSERT((p)->refcnt > 0, \ 511 1.1 jonathan ("SP refcnt underflow at %s:%u", __FILE__, __LINE__)); \ 512 1.1 jonathan (p)->refcnt--; \ 513 1.1 jonathan } while (0) 514 1.1 jonathan 515 1.1 jonathan /* 516 1.1 jonathan * Return 0 when there are known to be no SP's for the specified 517 1.1 jonathan * direction. Otherwise return 1. This is used by IPsec code 518 1.1 jonathan * to optimize performance. 519 1.1 jonathan */ 520 1.1 jonathan int 521 1.1 jonathan key_havesp(u_int dir) 522 1.1 jonathan { 523 1.1 jonathan return (dir == IPSEC_DIR_INBOUND || dir == IPSEC_DIR_OUTBOUND ? 524 1.1 jonathan LIST_FIRST(&sptree[dir]) != NULL : 1); 525 1.1 jonathan } 526 1.1 jonathan 527 1.1 jonathan /* %%% IPsec policy management */ 528 1.1 jonathan /* 529 1.1 jonathan * allocating a SP for OUTBOUND or INBOUND packet. 530 1.1 jonathan * Must call key_freesp() later. 531 1.1 jonathan * OUT: NULL: not found 532 1.1 jonathan * others: found and return the pointer. 533 1.1 jonathan */ 534 1.1 jonathan struct secpolicy * 535 1.1 jonathan key_allocsp(struct secpolicyindex *spidx, u_int dir, const char* where, int tag) 536 1.1 jonathan { 537 1.1 jonathan struct secpolicy *sp; 538 1.1 jonathan int s; 539 1.1 jonathan 540 1.1 jonathan IPSEC_ASSERT(spidx != NULL, ("key_allocsp: null spidx")); 541 1.1 jonathan IPSEC_ASSERT(dir == IPSEC_DIR_INBOUND || dir == IPSEC_DIR_OUTBOUND, 542 1.1 jonathan ("key_allocsp: invalid direction %u", dir)); 543 1.1 jonathan 544 1.1 jonathan KEYDEBUG(KEYDEBUG_IPSEC_STAMP, 545 1.1 jonathan printf("DP key_allocsp from %s:%u\n", where, tag)); 546 1.1 jonathan 547 1.1 jonathan /* get a SP entry */ 548 1.1 jonathan s = splsoftnet(); /*called from softclock()*/ 549 1.1 jonathan KEYDEBUG(KEYDEBUG_IPSEC_DATA, 550 1.1 jonathan printf("*** objects\n"); 551 1.1 jonathan kdebug_secpolicyindex(spidx)); 552 1.1 jonathan 553 1.1 jonathan LIST_FOREACH(sp, &sptree[dir], chain) { 554 1.1 jonathan KEYDEBUG(KEYDEBUG_IPSEC_DATA, 555 1.1 jonathan printf("*** in SPD\n"); 556 1.1 jonathan kdebug_secpolicyindex(&sp->spidx)); 557 1.1 jonathan 558 1.1 jonathan if (sp->state == IPSEC_SPSTATE_DEAD) 559 1.1 jonathan continue; 560 1.1 jonathan if (key_cmpspidx_withmask(&sp->spidx, spidx)) 561 1.1 jonathan goto found; 562 1.1 jonathan } 563 1.1 jonathan sp = NULL; 564 1.1 jonathan found: 565 1.1 jonathan if (sp) { 566 1.1 jonathan /* sanity check */ 567 1.1 jonathan KEY_CHKSPDIR(sp->spidx.dir, dir, "key_allocsp"); 568 1.1 jonathan 569 1.1 jonathan /* found a SPD entry */ 570 1.1 jonathan sp->lastused = time_second; 571 1.1 jonathan SP_ADDREF(sp); 572 1.1 jonathan } 573 1.1 jonathan splx(s); 574 1.1 jonathan 575 1.1 jonathan KEYDEBUG(KEYDEBUG_IPSEC_STAMP, 576 1.1 jonathan printf("DP key_allocsp return SP:%p (ID=%u) refcnt %u\n", 577 1.1 jonathan sp, sp ? sp->id : 0, sp ? sp->refcnt : 0)); 578 1.1 jonathan return sp; 579 1.1 jonathan } 580 1.1 jonathan 581 1.1 jonathan /* 582 1.1 jonathan * allocating a SP for OUTBOUND or INBOUND packet. 583 1.1 jonathan * Must call key_freesp() later. 584 1.1 jonathan * OUT: NULL: not found 585 1.1 jonathan * others: found and return the pointer. 586 1.1 jonathan */ 587 1.1 jonathan struct secpolicy * 588 1.1 jonathan key_allocsp2(u_int32_t spi, 589 1.1 jonathan union sockaddr_union *dst, 590 1.1 jonathan u_int8_t proto, 591 1.1 jonathan u_int dir, 592 1.1 jonathan const char* where, int tag) 593 1.1 jonathan { 594 1.1 jonathan struct secpolicy *sp; 595 1.1 jonathan int s; 596 1.1 jonathan 597 1.1 jonathan IPSEC_ASSERT(dst != NULL, ("key_allocsp2: null dst")); 598 1.1 jonathan IPSEC_ASSERT(dir == IPSEC_DIR_INBOUND || dir == IPSEC_DIR_OUTBOUND, 599 1.1 jonathan ("key_allocsp2: invalid direction %u", dir)); 600 1.1 jonathan 601 1.1 jonathan KEYDEBUG(KEYDEBUG_IPSEC_STAMP, 602 1.1 jonathan printf("DP key_allocsp2 from %s:%u\n", where, tag)); 603 1.1 jonathan 604 1.1 jonathan /* get a SP entry */ 605 1.1 jonathan s = splsoftnet(); /*called from softclock()*/ 606 1.1 jonathan KEYDEBUG(KEYDEBUG_IPSEC_DATA, 607 1.1 jonathan printf("*** objects\n"); 608 1.1 jonathan printf("spi %u proto %u dir %u\n", spi, proto, dir); 609 1.1 jonathan kdebug_sockaddr(&dst->sa)); 610 1.1 jonathan 611 1.1 jonathan LIST_FOREACH(sp, &sptree[dir], chain) { 612 1.1 jonathan KEYDEBUG(KEYDEBUG_IPSEC_DATA, 613 1.1 jonathan printf("*** in SPD\n"); 614 1.1 jonathan kdebug_secpolicyindex(&sp->spidx)); 615 1.1 jonathan 616 1.1 jonathan if (sp->state == IPSEC_SPSTATE_DEAD) 617 1.1 jonathan continue; 618 1.1 jonathan /* compare simple values, then dst address */ 619 1.1 jonathan if (sp->spidx.ul_proto != proto) 620 1.1 jonathan continue; 621 1.1 jonathan /* NB: spi's must exist and match */ 622 1.1 jonathan if (!sp->req || !sp->req->sav || sp->req->sav->spi != spi) 623 1.1 jonathan continue; 624 1.1 jonathan if (key_sockaddrcmp(&sp->spidx.dst.sa, &dst->sa, 1) == 0) 625 1.1 jonathan goto found; 626 1.1 jonathan } 627 1.1 jonathan sp = NULL; 628 1.1 jonathan found: 629 1.1 jonathan if (sp) { 630 1.1 jonathan /* sanity check */ 631 1.1 jonathan KEY_CHKSPDIR(sp->spidx.dir, dir, "key_allocsp2"); 632 1.1 jonathan 633 1.1 jonathan /* found a SPD entry */ 634 1.1 jonathan sp->lastused = time_second; 635 1.1 jonathan SP_ADDREF(sp); 636 1.1 jonathan } 637 1.1 jonathan splx(s); 638 1.1 jonathan 639 1.1 jonathan KEYDEBUG(KEYDEBUG_IPSEC_STAMP, 640 1.1 jonathan printf("DP key_allocsp2 return SP:%p (ID=%u) refcnt %u\n", 641 1.1 jonathan sp, sp ? sp->id : 0, sp ? sp->refcnt : 0)); 642 1.1 jonathan return sp; 643 1.1 jonathan } 644 1.1 jonathan 645 1.1 jonathan /* 646 1.1 jonathan * return a policy that matches this particular inbound packet. 647 1.1 jonathan * XXX slow 648 1.1 jonathan */ 649 1.1 jonathan struct secpolicy * 650 1.1 jonathan key_gettunnel(const struct sockaddr *osrc, 651 1.1 jonathan const struct sockaddr *odst, 652 1.1 jonathan const struct sockaddr *isrc, 653 1.1 jonathan const struct sockaddr *idst, 654 1.1 jonathan const char* where, int tag) 655 1.1 jonathan { 656 1.1 jonathan struct secpolicy *sp; 657 1.1 jonathan const int dir = IPSEC_DIR_INBOUND; 658 1.1 jonathan int s; 659 1.1 jonathan struct ipsecrequest *r1, *r2, *p; 660 1.1 jonathan struct secpolicyindex spidx; 661 1.1 jonathan 662 1.1 jonathan KEYDEBUG(KEYDEBUG_IPSEC_STAMP, 663 1.1 jonathan printf("DP key_gettunnel from %s:%u\n", where, tag)); 664 1.1 jonathan 665 1.1 jonathan if (isrc->sa_family != idst->sa_family) { 666 1.1 jonathan ipseclog((LOG_ERR, "protocol family mismatched %d != %d\n.", 667 1.1 jonathan isrc->sa_family, idst->sa_family)); 668 1.1 jonathan sp = NULL; 669 1.1 jonathan goto done; 670 1.1 jonathan } 671 1.1 jonathan 672 1.1 jonathan s = splsoftnet(); /*called from softclock()*/ 673 1.1 jonathan LIST_FOREACH(sp, &sptree[dir], chain) { 674 1.1 jonathan if (sp->state == IPSEC_SPSTATE_DEAD) 675 1.1 jonathan continue; 676 1.1 jonathan 677 1.1 jonathan r1 = r2 = NULL; 678 1.1 jonathan for (p = sp->req; p; p = p->next) { 679 1.1 jonathan if (p->saidx.mode != IPSEC_MODE_TUNNEL) 680 1.1 jonathan continue; 681 1.1 jonathan 682 1.1 jonathan r1 = r2; 683 1.1 jonathan r2 = p; 684 1.1 jonathan 685 1.1 jonathan if (!r1) { 686 1.1 jonathan /* here we look at address matches only */ 687 1.1 jonathan spidx = sp->spidx; 688 1.1 jonathan if (isrc->sa_len > sizeof(spidx.src) || 689 1.1 jonathan idst->sa_len > sizeof(spidx.dst)) 690 1.1 jonathan continue; 691 1.1 jonathan bcopy(isrc, &spidx.src, isrc->sa_len); 692 1.1 jonathan bcopy(idst, &spidx.dst, idst->sa_len); 693 1.1 jonathan if (!key_cmpspidx_withmask(&sp->spidx, &spidx)) 694 1.1 jonathan continue; 695 1.1 jonathan } else { 696 1.1 jonathan if (key_sockaddrcmp(&r1->saidx.src.sa, isrc, 0) || 697 1.1 jonathan key_sockaddrcmp(&r1->saidx.dst.sa, idst, 0)) 698 1.1 jonathan continue; 699 1.1 jonathan } 700 1.1 jonathan 701 1.1 jonathan if (key_sockaddrcmp(&r2->saidx.src.sa, osrc, 0) || 702 1.1 jonathan key_sockaddrcmp(&r2->saidx.dst.sa, odst, 0)) 703 1.1 jonathan continue; 704 1.1 jonathan 705 1.1 jonathan goto found; 706 1.1 jonathan } 707 1.1 jonathan } 708 1.1 jonathan sp = NULL; 709 1.1 jonathan found: 710 1.1 jonathan if (sp) { 711 1.1 jonathan sp->lastused = time_second; 712 1.1 jonathan SP_ADDREF(sp); 713 1.1 jonathan } 714 1.1 jonathan splx(s); 715 1.1 jonathan done: 716 1.1 jonathan KEYDEBUG(KEYDEBUG_IPSEC_STAMP, 717 1.1 jonathan printf("DP key_gettunnel return SP:%p (ID=%u) refcnt %u\n", 718 1.1 jonathan sp, sp ? sp->id : 0, sp ? sp->refcnt : 0)); 719 1.1 jonathan return sp; 720 1.1 jonathan } 721 1.1 jonathan 722 1.1 jonathan /* 723 1.1 jonathan * allocating an SA entry for an *OUTBOUND* packet. 724 1.1 jonathan * checking each request entries in SP, and acquire an SA if need. 725 1.1 jonathan * OUT: 0: there are valid requests. 726 1.1 jonathan * ENOENT: policy may be valid, but SA with REQUIRE is on acquiring. 727 1.1 jonathan */ 728 1.1 jonathan int 729 1.1 jonathan key_checkrequest(struct ipsecrequest *isr, const struct secasindex *saidx) 730 1.1 jonathan { 731 1.1 jonathan u_int level; 732 1.1 jonathan int error; 733 1.1 jonathan 734 1.1 jonathan IPSEC_ASSERT(isr != NULL, ("key_checkrequest: null isr")); 735 1.1 jonathan IPSEC_ASSERT(saidx != NULL, ("key_checkrequest: null saidx")); 736 1.1 jonathan IPSEC_ASSERT(saidx->mode == IPSEC_MODE_TRANSPORT || 737 1.1 jonathan saidx->mode == IPSEC_MODE_TUNNEL, 738 1.1 jonathan ("key_checkrequest: unexpected policy %u", saidx->mode)); 739 1.1 jonathan 740 1.1 jonathan /* get current level */ 741 1.1 jonathan level = ipsec_get_reqlevel(isr); 742 1.1 jonathan 743 1.1 jonathan /* 744 1.1 jonathan * XXX guard against protocol callbacks from the crypto 745 1.1 jonathan * thread as they reference ipsecrequest.sav which we 746 1.1 jonathan * temporarily null out below. Need to rethink how we 747 1.1 jonathan * handle bundled SA's in the callback thread. 748 1.1 jonathan */ 749 1.1 jonathan IPSEC_SPLASSERT_SOFTNET("key_checkrequest"); 750 1.1 jonathan #if 0 751 1.1 jonathan /* 752 1.1 jonathan * We do allocate new SA only if the state of SA in the holder is 753 1.1 jonathan * SADB_SASTATE_DEAD. The SA for outbound must be the oldest. 754 1.1 jonathan */ 755 1.1 jonathan if (isr->sav != NULL) { 756 1.1 jonathan if (isr->sav->sah == NULL) 757 1.1 jonathan panic("key_checkrequest: sah is null.\n"); 758 1.1 jonathan if (isr->sav == (struct secasvar *)LIST_FIRST( 759 1.1 jonathan &isr->sav->sah->savtree[SADB_SASTATE_DEAD])) { 760 1.1 jonathan KEY_FREESAV(&isr->sav); 761 1.1 jonathan isr->sav = NULL; 762 1.1 jonathan } 763 1.1 jonathan } 764 1.1 jonathan #else 765 1.1 jonathan /* 766 1.1 jonathan * we free any SA stashed in the IPsec request because a different 767 1.1 jonathan * SA may be involved each time this request is checked, either 768 1.1 jonathan * because new SAs are being configured, or this request is 769 1.1 jonathan * associated with an unconnected datagram socket, or this request 770 1.1 jonathan * is associated with a system default policy. 771 1.1 jonathan * 772 1.1 jonathan * The operation may have negative impact to performance. We may 773 1.1 jonathan * want to check cached SA carefully, rather than picking new SA 774 1.1 jonathan * every time. 775 1.1 jonathan */ 776 1.1 jonathan if (isr->sav != NULL) { 777 1.1 jonathan KEY_FREESAV(&isr->sav); 778 1.1 jonathan isr->sav = NULL; 779 1.1 jonathan } 780 1.1 jonathan #endif 781 1.1 jonathan 782 1.1 jonathan /* 783 1.1 jonathan * new SA allocation if no SA found. 784 1.1 jonathan * key_allocsa_policy should allocate the oldest SA available. 785 1.1 jonathan * See key_do_allocsa_policy(), and draft-jenkins-ipsec-rekeying-03.txt. 786 1.1 jonathan */ 787 1.1 jonathan if (isr->sav == NULL) 788 1.1 jonathan isr->sav = key_allocsa_policy(saidx); 789 1.1 jonathan 790 1.1 jonathan /* When there is SA. */ 791 1.1 jonathan if (isr->sav != NULL) { 792 1.1 jonathan if (isr->sav->state != SADB_SASTATE_MATURE && 793 1.1 jonathan isr->sav->state != SADB_SASTATE_DYING) 794 1.1 jonathan return EINVAL; 795 1.1 jonathan return 0; 796 1.1 jonathan } 797 1.1 jonathan 798 1.1 jonathan /* there is no SA */ 799 1.1 jonathan error = key_acquire(saidx, isr->sp); 800 1.1 jonathan if (error != 0) { 801 1.1 jonathan /* XXX What should I do ? */ 802 1.1 jonathan ipseclog((LOG_DEBUG, "key_checkrequest: error %d returned " 803 1.1 jonathan "from key_acquire.\n", error)); 804 1.1 jonathan return error; 805 1.1 jonathan } 806 1.1 jonathan 807 1.1 jonathan if (level != IPSEC_LEVEL_REQUIRE) { 808 1.1 jonathan /* XXX sigh, the interface to this routine is botched */ 809 1.1 jonathan IPSEC_ASSERT(isr->sav == NULL, ("key_checkrequest: unexpected SA")); 810 1.1 jonathan return 0; 811 1.1 jonathan } else { 812 1.1 jonathan return ENOENT; 813 1.1 jonathan } 814 1.1 jonathan } 815 1.1 jonathan 816 1.1 jonathan /* 817 1.1 jonathan * allocating a SA for policy entry from SAD. 818 1.1 jonathan * NOTE: searching SAD of aliving state. 819 1.1 jonathan * OUT: NULL: not found. 820 1.1 jonathan * others: found and return the pointer. 821 1.1 jonathan */ 822 1.1 jonathan static struct secasvar * 823 1.1 jonathan key_allocsa_policy(const struct secasindex *saidx) 824 1.1 jonathan { 825 1.1 jonathan struct secashead *sah; 826 1.1 jonathan struct secasvar *sav; 827 1.1 jonathan u_int stateidx, state; 828 1.1 jonathan 829 1.1 jonathan LIST_FOREACH(sah, &sahtree, chain) { 830 1.1 jonathan if (sah->state == SADB_SASTATE_DEAD) 831 1.1 jonathan continue; 832 1.1 jonathan if (key_cmpsaidx(&sah->saidx, saidx, CMP_MODE_REQID)) 833 1.1 jonathan goto found; 834 1.1 jonathan } 835 1.1 jonathan 836 1.1 jonathan return NULL; 837 1.1 jonathan 838 1.1 jonathan found: 839 1.1 jonathan 840 1.1 jonathan /* search valid state */ 841 1.1 jonathan for (stateidx = 0; 842 1.1 jonathan stateidx < _ARRAYLEN(saorder_state_valid); 843 1.1 jonathan stateidx++) { 844 1.1 jonathan 845 1.1 jonathan state = saorder_state_valid[stateidx]; 846 1.1 jonathan 847 1.1 jonathan sav = key_do_allocsa_policy(sah, state); 848 1.1 jonathan if (sav != NULL) 849 1.1 jonathan return sav; 850 1.1 jonathan } 851 1.1 jonathan 852 1.1 jonathan return NULL; 853 1.1 jonathan } 854 1.1 jonathan 855 1.1 jonathan /* 856 1.1 jonathan * searching SAD with direction, protocol, mode and state. 857 1.1 jonathan * called by key_allocsa_policy(). 858 1.1 jonathan * OUT: 859 1.1 jonathan * NULL : not found 860 1.1 jonathan * others : found, pointer to a SA. 861 1.1 jonathan */ 862 1.1 jonathan static struct secasvar * 863 1.1 jonathan key_do_allocsa_policy(struct secashead *sah, u_int state) 864 1.1 jonathan { 865 1.1 jonathan struct secasvar *sav, *nextsav, *candidate, *d; 866 1.1 jonathan 867 1.1 jonathan /* initilize */ 868 1.1 jonathan candidate = NULL; 869 1.1 jonathan 870 1.1 jonathan for (sav = LIST_FIRST(&sah->savtree[state]); 871 1.1 jonathan sav != NULL; 872 1.1 jonathan sav = nextsav) { 873 1.1 jonathan 874 1.1 jonathan nextsav = LIST_NEXT(sav, chain); 875 1.1 jonathan 876 1.1 jonathan /* sanity check */ 877 1.1 jonathan KEY_CHKSASTATE(sav->state, state, "key_do_allocsa_policy"); 878 1.1 jonathan 879 1.1 jonathan /* initialize */ 880 1.1 jonathan if (candidate == NULL) { 881 1.1 jonathan candidate = sav; 882 1.1 jonathan continue; 883 1.1 jonathan } 884 1.1 jonathan 885 1.1 jonathan /* Which SA is the better ? */ 886 1.1 jonathan 887 1.1 jonathan /* sanity check 2 */ 888 1.1 jonathan if (candidate->lft_c == NULL || sav->lft_c == NULL) 889 1.1 jonathan panic("key_do_allocsa_policy: " 890 1.1 jonathan "lifetime_current is NULL.\n"); 891 1.1 jonathan 892 1.1 jonathan /* What the best method is to compare ? */ 893 1.1 jonathan if (key_prefered_oldsa) { 894 1.1 jonathan if (candidate->lft_c->sadb_lifetime_addtime > 895 1.1 jonathan sav->lft_c->sadb_lifetime_addtime) { 896 1.1 jonathan candidate = sav; 897 1.1 jonathan } 898 1.1 jonathan continue; 899 1.1 jonathan /*NOTREACHED*/ 900 1.1 jonathan } 901 1.1 jonathan 902 1.1 jonathan /* prefered new sa rather than old sa */ 903 1.1 jonathan if (candidate->lft_c->sadb_lifetime_addtime < 904 1.1 jonathan sav->lft_c->sadb_lifetime_addtime) { 905 1.1 jonathan d = candidate; 906 1.1 jonathan candidate = sav; 907 1.1 jonathan } else 908 1.1 jonathan d = sav; 909 1.1 jonathan 910 1.1 jonathan /* 911 1.1 jonathan * prepared to delete the SA when there is more 912 1.1 jonathan * suitable candidate and the lifetime of the SA is not 913 1.1 jonathan * permanent. 914 1.1 jonathan */ 915 1.1 jonathan if (d->lft_c->sadb_lifetime_addtime != 0) { 916 1.1 jonathan struct mbuf *m, *result; 917 1.1 jonathan 918 1.1 jonathan key_sa_chgstate(d, SADB_SASTATE_DEAD); 919 1.1 jonathan 920 1.1 jonathan IPSEC_ASSERT(d->refcnt > 0, 921 1.1 jonathan ("key_do_allocsa_policy: bogus ref count")); 922 1.1 jonathan m = key_setsadbmsg(SADB_DELETE, 0, 923 1.1 jonathan d->sah->saidx.proto, 0, 0, d->refcnt - 1); 924 1.1 jonathan if (!m) 925 1.1 jonathan goto msgfail; 926 1.1 jonathan result = m; 927 1.1 jonathan 928 1.1 jonathan /* set sadb_address for saidx's. */ 929 1.1 jonathan m = key_setsadbaddr(SADB_EXT_ADDRESS_SRC, 930 1.1 jonathan &d->sah->saidx.src.sa, 931 1.1 jonathan d->sah->saidx.src.sa.sa_len << 3, 932 1.1 jonathan IPSEC_ULPROTO_ANY); 933 1.1 jonathan if (!m) 934 1.1 jonathan goto msgfail; 935 1.1 jonathan m_cat(result, m); 936 1.1 jonathan 937 1.1 jonathan /* set sadb_address for saidx's. */ 938 1.1 jonathan m = key_setsadbaddr(SADB_EXT_ADDRESS_DST, 939 1.1 jonathan &d->sah->saidx.src.sa, 940 1.1 jonathan d->sah->saidx.src.sa.sa_len << 3, 941 1.1 jonathan IPSEC_ULPROTO_ANY); 942 1.1 jonathan if (!m) 943 1.1 jonathan goto msgfail; 944 1.1 jonathan m_cat(result, m); 945 1.1 jonathan 946 1.1 jonathan /* create SA extension */ 947 1.1 jonathan m = key_setsadbsa(d); 948 1.1 jonathan if (!m) 949 1.1 jonathan goto msgfail; 950 1.1 jonathan m_cat(result, m); 951 1.1 jonathan 952 1.1 jonathan if (result->m_len < sizeof(struct sadb_msg)) { 953 1.1 jonathan result = m_pullup(result, 954 1.1 jonathan sizeof(struct sadb_msg)); 955 1.1 jonathan if (result == NULL) 956 1.1 jonathan goto msgfail; 957 1.1 jonathan } 958 1.1 jonathan 959 1.1 jonathan result->m_pkthdr.len = 0; 960 1.1 jonathan for (m = result; m; m = m->m_next) 961 1.1 jonathan result->m_pkthdr.len += m->m_len; 962 1.1 jonathan mtod(result, struct sadb_msg *)->sadb_msg_len = 963 1.1 jonathan PFKEY_UNIT64(result->m_pkthdr.len); 964 1.1 jonathan 965 1.1 jonathan if (key_sendup_mbuf(NULL, result, 966 1.1 jonathan KEY_SENDUP_REGISTERED)) 967 1.1 jonathan goto msgfail; 968 1.1 jonathan msgfail: 969 1.1 jonathan KEY_FREESAV(&d); 970 1.1 jonathan } 971 1.1 jonathan } 972 1.1 jonathan 973 1.1 jonathan if (candidate) { 974 1.1 jonathan SA_ADDREF(candidate); 975 1.1 jonathan KEYDEBUG(KEYDEBUG_IPSEC_STAMP, 976 1.1 jonathan printf("DP allocsa_policy cause " 977 1.1 jonathan "refcnt++:%d SA:%p\n", 978 1.1 jonathan candidate->refcnt, candidate)); 979 1.1 jonathan } 980 1.1 jonathan return candidate; 981 1.1 jonathan } 982 1.1 jonathan 983 1.1 jonathan /* 984 1.1 jonathan * allocating a usable SA entry for a *INBOUND* packet. 985 1.1 jonathan * Must call key_freesav() later. 986 1.1 jonathan * OUT: positive: pointer to a usable sav (i.e. MATURE or DYING state). 987 1.1 jonathan * NULL: not found, or error occured. 988 1.1 jonathan * 989 1.1 jonathan * In the comparison, no source address is used--for RFC2401 conformance. 990 1.1 jonathan * To quote, from section 4.1: 991 1.1 jonathan * A security association is uniquely identified by a triple consisting 992 1.1 jonathan * of a Security Parameter Index (SPI), an IP Destination Address, and a 993 1.1 jonathan * security protocol (AH or ESP) identifier. 994 1.1 jonathan * Note that, however, we do need to keep source address in IPsec SA. 995 1.1 jonathan * IKE specification and PF_KEY specification do assume that we 996 1.1 jonathan * keep source address in IPsec SA. We see a tricky situation here. 997 1.1 jonathan */ 998 1.1 jonathan struct secasvar * 999 1.1 jonathan key_allocsa( 1000 1.1 jonathan union sockaddr_union *dst, 1001 1.1 jonathan u_int proto, 1002 1.1 jonathan u_int32_t spi, 1003 1.1 jonathan const char* where, int tag) 1004 1.1 jonathan { 1005 1.1 jonathan struct secashead *sah; 1006 1.1 jonathan struct secasvar *sav; 1007 1.1 jonathan u_int stateidx, state; 1008 1.1 jonathan int s; 1009 1.1 jonathan 1010 1.1 jonathan IPSEC_ASSERT(dst != NULL, ("key_allocsa: null dst address")); 1011 1.1 jonathan 1012 1.1 jonathan KEYDEBUG(KEYDEBUG_IPSEC_STAMP, 1013 1.1 jonathan printf("DP key_allocsa from %s:%u\n", where, tag)); 1014 1.1 jonathan 1015 1.1 jonathan /* 1016 1.1 jonathan * searching SAD. 1017 1.1 jonathan * XXX: to be checked internal IP header somewhere. Also when 1018 1.1 jonathan * IPsec tunnel packet is received. But ESP tunnel mode is 1019 1.1 jonathan * encrypted so we can't check internal IP header. 1020 1.1 jonathan */ 1021 1.1 jonathan s = splsoftnet(); /*called from softclock()*/ 1022 1.1 jonathan LIST_FOREACH(sah, &sahtree, chain) { 1023 1.1 jonathan /* search valid state */ 1024 1.1 jonathan for (stateidx = 0; 1025 1.1 jonathan stateidx < _ARRAYLEN(saorder_state_valid); 1026 1.1 jonathan stateidx++) { 1027 1.1 jonathan state = saorder_state_valid[stateidx]; 1028 1.1 jonathan LIST_FOREACH(sav, &sah->savtree[state], chain) { 1029 1.1 jonathan /* sanity check */ 1030 1.1 jonathan KEY_CHKSASTATE(sav->state, state, "key_allocsav"); 1031 1.1 jonathan /* do not return entries w/ unusable state */ 1032 1.1 jonathan if (sav->state != SADB_SASTATE_MATURE && 1033 1.1 jonathan sav->state != SADB_SASTATE_DYING) 1034 1.1 jonathan continue; 1035 1.1 jonathan if (proto != sav->sah->saidx.proto) 1036 1.1 jonathan continue; 1037 1.1 jonathan if (spi != sav->spi) 1038 1.1 jonathan continue; 1039 1.1 jonathan #if 0 /* don't check src */ 1040 1.1 jonathan /* check src address */ 1041 1.1 jonathan if (key_sockaddrcmp(&src->sa, &sav->sah->saidx.src.sa, 0) != 0) 1042 1.1 jonathan continue; 1043 1.1 jonathan #endif 1044 1.1 jonathan /* check dst address */ 1045 1.1 jonathan if (key_sockaddrcmp(&dst->sa, &sav->sah->saidx.dst.sa, 0) != 0) 1046 1.1 jonathan continue; 1047 1.1 jonathan SA_ADDREF(sav); 1048 1.1 jonathan goto done; 1049 1.1 jonathan } 1050 1.1 jonathan } 1051 1.1 jonathan } 1052 1.1 jonathan sav = NULL; 1053 1.1 jonathan done: 1054 1.1 jonathan splx(s); 1055 1.1 jonathan 1056 1.1 jonathan KEYDEBUG(KEYDEBUG_IPSEC_STAMP, 1057 1.1 jonathan printf("DP key_allocsa return SA:%p; refcnt %u\n", 1058 1.1 jonathan sav, sav ? sav->refcnt : 0)); 1059 1.1 jonathan return sav; 1060 1.1 jonathan } 1061 1.1 jonathan 1062 1.1 jonathan /* 1063 1.1 jonathan * Must be called after calling key_allocsp(). 1064 1.1 jonathan * For both the packet without socket and key_freeso(). 1065 1.1 jonathan */ 1066 1.1 jonathan void 1067 1.1 jonathan _key_freesp(struct secpolicy **spp, const char* where, int tag) 1068 1.1 jonathan { 1069 1.1 jonathan struct secpolicy *sp = *spp; 1070 1.1 jonathan 1071 1.1 jonathan IPSEC_ASSERT(sp != NULL, ("key_freesp: null sp")); 1072 1.1 jonathan 1073 1.1 jonathan SP_DELREF(sp); 1074 1.1 jonathan 1075 1.1 jonathan KEYDEBUG(KEYDEBUG_IPSEC_STAMP, 1076 1.1 jonathan printf("DP key_freesp SP:%p (ID=%u) from %s:%u; refcnt now %u\n", 1077 1.1 jonathan sp, sp->id, where, tag, sp->refcnt)); 1078 1.1 jonathan 1079 1.1 jonathan if (sp->refcnt == 0) { 1080 1.1 jonathan *spp = NULL; 1081 1.1 jonathan key_delsp(sp); 1082 1.1 jonathan } 1083 1.1 jonathan } 1084 1.1 jonathan 1085 1.1 jonathan /* 1086 1.1 jonathan * Must be called after calling key_allocsp(). 1087 1.1 jonathan * For the packet with socket. 1088 1.1 jonathan */ 1089 1.1 jonathan void 1090 1.1 jonathan key_freeso(struct socket *so) 1091 1.1 jonathan { 1092 1.1 jonathan /* sanity check */ 1093 1.1 jonathan IPSEC_ASSERT(so != NULL, ("key_freeso: null so")); 1094 1.1 jonathan 1095 1.1 jonathan switch (so->so_proto->pr_domain->dom_family) { 1096 1.1 jonathan #ifdef INET 1097 1.1 jonathan case PF_INET: 1098 1.1 jonathan { 1099 1.1 jonathan struct inpcb *pcb = sotoinpcb(so); 1100 1.1 jonathan 1101 1.1 jonathan /* Does it have a PCB ? */ 1102 1.1 jonathan if (pcb == NULL) 1103 1.1 jonathan return; 1104 1.1 jonathan key_freesp_so(&pcb->inp_sp->sp_in); 1105 1.1 jonathan key_freesp_so(&pcb->inp_sp->sp_out); 1106 1.1 jonathan } 1107 1.1 jonathan break; 1108 1.1 jonathan #endif 1109 1.1 jonathan #ifdef INET6 1110 1.1 jonathan case PF_INET6: 1111 1.1 jonathan { 1112 1.1 jonathan #ifdef HAVE_NRL_INPCB 1113 1.1 jonathan struct inpcb *pcb = sotoinpcb(so); 1114 1.1 jonathan 1115 1.1 jonathan /* Does it have a PCB ? */ 1116 1.1 jonathan if (pcb == NULL) 1117 1.1 jonathan return; 1118 1.1 jonathan key_freesp_so(&pcb->inp_sp->sp_in); 1119 1.1 jonathan key_freesp_so(&pcb->inp_sp->sp_out); 1120 1.1 jonathan #else 1121 1.1 jonathan struct in6pcb *pcb = sotoin6pcb(so); 1122 1.1 jonathan 1123 1.1 jonathan /* Does it have a PCB ? */ 1124 1.1 jonathan if (pcb == NULL) 1125 1.1 jonathan return; 1126 1.1 jonathan key_freesp_so(&pcb->in6p_sp->sp_in); 1127 1.1 jonathan key_freesp_so(&pcb->in6p_sp->sp_out); 1128 1.1 jonathan #endif 1129 1.1 jonathan } 1130 1.1 jonathan break; 1131 1.1 jonathan #endif /* INET6 */ 1132 1.1 jonathan default: 1133 1.1 jonathan ipseclog((LOG_DEBUG, "key_freeso: unknown address family=%d.\n", 1134 1.1 jonathan so->so_proto->pr_domain->dom_family)); 1135 1.1 jonathan return; 1136 1.1 jonathan } 1137 1.1 jonathan } 1138 1.1 jonathan 1139 1.1 jonathan static void 1140 1.1 jonathan key_freesp_so(struct secpolicy **sp) 1141 1.1 jonathan { 1142 1.1 jonathan IPSEC_ASSERT(sp != NULL && *sp != NULL, ("key_freesp_so: null sp")); 1143 1.1 jonathan 1144 1.1 jonathan if ((*sp)->policy == IPSEC_POLICY_ENTRUST || 1145 1.1 jonathan (*sp)->policy == IPSEC_POLICY_BYPASS) 1146 1.1 jonathan return; 1147 1.1 jonathan 1148 1.1 jonathan IPSEC_ASSERT((*sp)->policy == IPSEC_POLICY_IPSEC, 1149 1.1 jonathan ("key_freesp_so: invalid policy %u", (*sp)->policy)); 1150 1.1 jonathan KEY_FREESP(sp); 1151 1.1 jonathan } 1152 1.1 jonathan 1153 1.1 jonathan /* 1154 1.1 jonathan * Must be called after calling key_allocsa(). 1155 1.1 jonathan * This function is called by key_freesp() to free some SA allocated 1156 1.1 jonathan * for a policy. 1157 1.1 jonathan */ 1158 1.1 jonathan void 1159 1.1 jonathan key_freesav(struct secasvar **psav, const char* where, int tag) 1160 1.1 jonathan { 1161 1.1 jonathan struct secasvar *sav = *psav; 1162 1.1 jonathan 1163 1.1 jonathan IPSEC_ASSERT(sav != NULL, ("key_freesav: null sav")); 1164 1.1 jonathan 1165 1.1 jonathan SA_DELREF(sav); 1166 1.1 jonathan 1167 1.1 jonathan KEYDEBUG(KEYDEBUG_IPSEC_STAMP, 1168 1.1 jonathan printf("DP key_freesav SA:%p (SPI %lu) from %s:%u; refcnt now %u\n", 1169 1.1 jonathan sav, (u_long)ntohl(sav->spi), 1170 1.1 jonathan where, tag, sav->refcnt)); 1171 1.1 jonathan 1172 1.1 jonathan if (sav->refcnt == 0) { 1173 1.1 jonathan *psav = NULL; 1174 1.1 jonathan key_delsav(sav); 1175 1.1 jonathan } 1176 1.1 jonathan } 1177 1.1 jonathan 1178 1.1 jonathan /* %%% SPD management */ 1179 1.1 jonathan /* 1180 1.1 jonathan * free security policy entry. 1181 1.1 jonathan */ 1182 1.1 jonathan static void 1183 1.1 jonathan key_delsp(struct secpolicy *sp) 1184 1.1 jonathan { 1185 1.1 jonathan int s; 1186 1.1 jonathan 1187 1.1 jonathan IPSEC_ASSERT(sp != NULL, ("key_delsp: null sp")); 1188 1.1 jonathan 1189 1.1 jonathan sp->state = IPSEC_SPSTATE_DEAD; 1190 1.1 jonathan 1191 1.1 jonathan IPSEC_ASSERT(sp->refcnt == 0, 1192 1.1 jonathan ("key_delsp: SP with references deleted (refcnt %u)", 1193 1.1 jonathan sp->refcnt)); 1194 1.1 jonathan 1195 1.1 jonathan s = splsoftnet(); /*called from softclock()*/ 1196 1.1 jonathan /* remove from SP index */ 1197 1.1 jonathan if (__LIST_CHAINED(sp)) 1198 1.1 jonathan LIST_REMOVE(sp, chain); 1199 1.1 jonathan 1200 1.1 jonathan { 1201 1.1 jonathan struct ipsecrequest *isr = sp->req, *nextisr; 1202 1.1 jonathan 1203 1.1 jonathan while (isr != NULL) { 1204 1.1 jonathan if (isr->sav != NULL) { 1205 1.1 jonathan KEY_FREESAV(&isr->sav); 1206 1.1 jonathan isr->sav = NULL; 1207 1.1 jonathan } 1208 1.1 jonathan 1209 1.1 jonathan nextisr = isr->next; 1210 1.1 jonathan KFREE(isr); 1211 1.1 jonathan isr = nextisr; 1212 1.1 jonathan } 1213 1.1 jonathan } 1214 1.1 jonathan 1215 1.1 jonathan KFREE(sp); 1216 1.1 jonathan 1217 1.1 jonathan splx(s); 1218 1.1 jonathan } 1219 1.1 jonathan 1220 1.1 jonathan /* 1221 1.1 jonathan * search SPD 1222 1.1 jonathan * OUT: NULL : not found 1223 1.1 jonathan * others : found, pointer to a SP. 1224 1.1 jonathan */ 1225 1.1 jonathan static struct secpolicy * 1226 1.1 jonathan key_getsp(struct secpolicyindex *spidx) 1227 1.1 jonathan { 1228 1.1 jonathan struct secpolicy *sp; 1229 1.1 jonathan 1230 1.1 jonathan IPSEC_ASSERT(spidx != NULL, ("key_getsp: null spidx")); 1231 1.1 jonathan 1232 1.1 jonathan LIST_FOREACH(sp, &sptree[spidx->dir], chain) { 1233 1.1 jonathan if (sp->state == IPSEC_SPSTATE_DEAD) 1234 1.1 jonathan continue; 1235 1.1 jonathan if (key_cmpspidx_exactly(spidx, &sp->spidx)) { 1236 1.1 jonathan SP_ADDREF(sp); 1237 1.1 jonathan return sp; 1238 1.1 jonathan } 1239 1.1 jonathan } 1240 1.1 jonathan 1241 1.1 jonathan return NULL; 1242 1.1 jonathan } 1243 1.1 jonathan 1244 1.1 jonathan /* 1245 1.1 jonathan * get SP by index. 1246 1.1 jonathan * OUT: NULL : not found 1247 1.1 jonathan * others : found, pointer to a SP. 1248 1.1 jonathan */ 1249 1.1 jonathan static struct secpolicy * 1250 1.1 jonathan key_getspbyid(u_int32_t id) 1251 1.1 jonathan { 1252 1.1 jonathan struct secpolicy *sp; 1253 1.1 jonathan 1254 1.1 jonathan LIST_FOREACH(sp, &sptree[IPSEC_DIR_INBOUND], chain) { 1255 1.1 jonathan if (sp->state == IPSEC_SPSTATE_DEAD) 1256 1.1 jonathan continue; 1257 1.1 jonathan if (sp->id == id) { 1258 1.1 jonathan SP_ADDREF(sp); 1259 1.1 jonathan return sp; 1260 1.1 jonathan } 1261 1.1 jonathan } 1262 1.1 jonathan 1263 1.1 jonathan LIST_FOREACH(sp, &sptree[IPSEC_DIR_OUTBOUND], chain) { 1264 1.1 jonathan if (sp->state == IPSEC_SPSTATE_DEAD) 1265 1.1 jonathan continue; 1266 1.1 jonathan if (sp->id == id) { 1267 1.1 jonathan SP_ADDREF(sp); 1268 1.1 jonathan return sp; 1269 1.1 jonathan } 1270 1.1 jonathan } 1271 1.1 jonathan 1272 1.1 jonathan return NULL; 1273 1.1 jonathan } 1274 1.1 jonathan 1275 1.1 jonathan struct secpolicy * 1276 1.1 jonathan key_newsp(const char* where, int tag) 1277 1.1 jonathan { 1278 1.1 jonathan struct secpolicy *newsp = NULL; 1279 1.1 jonathan 1280 1.1 jonathan newsp = (struct secpolicy *) 1281 1.1 jonathan malloc(sizeof(struct secpolicy), M_SECA, M_NOWAIT|M_ZERO); 1282 1.1 jonathan if (newsp) { 1283 1.1 jonathan newsp->refcnt = 1; 1284 1.1 jonathan newsp->req = NULL; 1285 1.1 jonathan } 1286 1.1 jonathan 1287 1.1 jonathan KEYDEBUG(KEYDEBUG_IPSEC_STAMP, 1288 1.1 jonathan printf("DP key_newsp from %s:%u return SP:%p\n", 1289 1.1 jonathan where, tag, newsp)); 1290 1.1 jonathan return newsp; 1291 1.1 jonathan } 1292 1.1 jonathan 1293 1.1 jonathan /* 1294 1.1 jonathan * create secpolicy structure from sadb_x_policy structure. 1295 1.1 jonathan * NOTE: `state', `secpolicyindex' in secpolicy structure are not set, 1296 1.1 jonathan * so must be set properly later. 1297 1.1 jonathan */ 1298 1.1 jonathan struct secpolicy * 1299 1.1 jonathan key_msg2sp(xpl0, len, error) 1300 1.1 jonathan struct sadb_x_policy *xpl0; 1301 1.1 jonathan size_t len; 1302 1.1 jonathan int *error; 1303 1.1 jonathan { 1304 1.1 jonathan struct secpolicy *newsp; 1305 1.1 jonathan 1306 1.1 jonathan /* sanity check */ 1307 1.1 jonathan if (xpl0 == NULL) 1308 1.1 jonathan panic("key_msg2sp: NULL pointer was passed.\n"); 1309 1.1 jonathan if (len < sizeof(*xpl0)) 1310 1.1 jonathan panic("key_msg2sp: invalid length.\n"); 1311 1.1 jonathan if (len != PFKEY_EXTLEN(xpl0)) { 1312 1.1 jonathan ipseclog((LOG_DEBUG, "key_msg2sp: Invalid msg length.\n")); 1313 1.1 jonathan *error = EINVAL; 1314 1.1 jonathan return NULL; 1315 1.1 jonathan } 1316 1.1 jonathan 1317 1.1 jonathan if ((newsp = KEY_NEWSP()) == NULL) { 1318 1.1 jonathan *error = ENOBUFS; 1319 1.1 jonathan return NULL; 1320 1.1 jonathan } 1321 1.1 jonathan 1322 1.1 jonathan newsp->spidx.dir = xpl0->sadb_x_policy_dir; 1323 1.1 jonathan newsp->policy = xpl0->sadb_x_policy_type; 1324 1.1 jonathan 1325 1.1 jonathan /* check policy */ 1326 1.1 jonathan switch (xpl0->sadb_x_policy_type) { 1327 1.1 jonathan case IPSEC_POLICY_DISCARD: 1328 1.1 jonathan case IPSEC_POLICY_NONE: 1329 1.1 jonathan case IPSEC_POLICY_ENTRUST: 1330 1.1 jonathan case IPSEC_POLICY_BYPASS: 1331 1.1 jonathan newsp->req = NULL; 1332 1.1 jonathan break; 1333 1.1 jonathan 1334 1.1 jonathan case IPSEC_POLICY_IPSEC: 1335 1.1 jonathan { 1336 1.1 jonathan int tlen; 1337 1.1 jonathan struct sadb_x_ipsecrequest *xisr; 1338 1.1 jonathan struct ipsecrequest **p_isr = &newsp->req; 1339 1.1 jonathan 1340 1.1 jonathan /* validity check */ 1341 1.1 jonathan if (PFKEY_EXTLEN(xpl0) < sizeof(*xpl0)) { 1342 1.1 jonathan ipseclog((LOG_DEBUG, 1343 1.1 jonathan "key_msg2sp: Invalid msg length.\n")); 1344 1.1 jonathan KEY_FREESP(&newsp); 1345 1.1 jonathan *error = EINVAL; 1346 1.1 jonathan return NULL; 1347 1.1 jonathan } 1348 1.1 jonathan 1349 1.1 jonathan tlen = PFKEY_EXTLEN(xpl0) - sizeof(*xpl0); 1350 1.1 jonathan xisr = (struct sadb_x_ipsecrequest *)(xpl0 + 1); 1351 1.1 jonathan 1352 1.1 jonathan while (tlen > 0) { 1353 1.1 jonathan /* length check */ 1354 1.1 jonathan if (xisr->sadb_x_ipsecrequest_len < sizeof(*xisr)) { 1355 1.1 jonathan ipseclog((LOG_DEBUG, "key_msg2sp: " 1356 1.1 jonathan "invalid ipsecrequest length.\n")); 1357 1.1 jonathan KEY_FREESP(&newsp); 1358 1.1 jonathan *error = EINVAL; 1359 1.1 jonathan return NULL; 1360 1.1 jonathan } 1361 1.1 jonathan 1362 1.1 jonathan /* allocate request buffer */ 1363 1.1 jonathan KMALLOC(*p_isr, struct ipsecrequest *, sizeof(**p_isr)); 1364 1.1 jonathan if ((*p_isr) == NULL) { 1365 1.1 jonathan ipseclog((LOG_DEBUG, 1366 1.1 jonathan "key_msg2sp: No more memory.\n")); 1367 1.1 jonathan KEY_FREESP(&newsp); 1368 1.1 jonathan *error = ENOBUFS; 1369 1.1 jonathan return NULL; 1370 1.1 jonathan } 1371 1.1 jonathan bzero(*p_isr, sizeof(**p_isr)); 1372 1.1 jonathan 1373 1.1 jonathan /* set values */ 1374 1.1 jonathan (*p_isr)->next = NULL; 1375 1.1 jonathan 1376 1.1 jonathan switch (xisr->sadb_x_ipsecrequest_proto) { 1377 1.1 jonathan case IPPROTO_ESP: 1378 1.1 jonathan case IPPROTO_AH: 1379 1.1 jonathan case IPPROTO_IPCOMP: 1380 1.1 jonathan break; 1381 1.1 jonathan default: 1382 1.1 jonathan ipseclog((LOG_DEBUG, 1383 1.1 jonathan "key_msg2sp: invalid proto type=%u\n", 1384 1.1 jonathan xisr->sadb_x_ipsecrequest_proto)); 1385 1.1 jonathan KEY_FREESP(&newsp); 1386 1.1 jonathan *error = EPROTONOSUPPORT; 1387 1.1 jonathan return NULL; 1388 1.1 jonathan } 1389 1.1 jonathan (*p_isr)->saidx.proto = xisr->sadb_x_ipsecrequest_proto; 1390 1.1 jonathan 1391 1.1 jonathan switch (xisr->sadb_x_ipsecrequest_mode) { 1392 1.1 jonathan case IPSEC_MODE_TRANSPORT: 1393 1.1 jonathan case IPSEC_MODE_TUNNEL: 1394 1.1 jonathan break; 1395 1.1 jonathan case IPSEC_MODE_ANY: 1396 1.1 jonathan default: 1397 1.1 jonathan ipseclog((LOG_DEBUG, 1398 1.1 jonathan "key_msg2sp: invalid mode=%u\n", 1399 1.1 jonathan xisr->sadb_x_ipsecrequest_mode)); 1400 1.1 jonathan KEY_FREESP(&newsp); 1401 1.1 jonathan *error = EINVAL; 1402 1.1 jonathan return NULL; 1403 1.1 jonathan } 1404 1.1 jonathan (*p_isr)->saidx.mode = xisr->sadb_x_ipsecrequest_mode; 1405 1.1 jonathan 1406 1.1 jonathan switch (xisr->sadb_x_ipsecrequest_level) { 1407 1.1 jonathan case IPSEC_LEVEL_DEFAULT: 1408 1.1 jonathan case IPSEC_LEVEL_USE: 1409 1.1 jonathan case IPSEC_LEVEL_REQUIRE: 1410 1.1 jonathan break; 1411 1.1 jonathan case IPSEC_LEVEL_UNIQUE: 1412 1.1 jonathan /* validity check */ 1413 1.1 jonathan /* 1414 1.1 jonathan * If range violation of reqid, kernel will 1415 1.1 jonathan * update it, don't refuse it. 1416 1.1 jonathan */ 1417 1.1 jonathan if (xisr->sadb_x_ipsecrequest_reqid 1418 1.1 jonathan > IPSEC_MANUAL_REQID_MAX) { 1419 1.1 jonathan ipseclog((LOG_DEBUG, 1420 1.1 jonathan "key_msg2sp: reqid=%d range " 1421 1.1 jonathan "violation, updated by kernel.\n", 1422 1.1 jonathan xisr->sadb_x_ipsecrequest_reqid)); 1423 1.1 jonathan xisr->sadb_x_ipsecrequest_reqid = 0; 1424 1.1 jonathan } 1425 1.1 jonathan 1426 1.1 jonathan /* allocate new reqid id if reqid is zero. */ 1427 1.1 jonathan if (xisr->sadb_x_ipsecrequest_reqid == 0) { 1428 1.1 jonathan u_int32_t reqid; 1429 1.1 jonathan if ((reqid = key_newreqid()) == 0) { 1430 1.1 jonathan KEY_FREESP(&newsp); 1431 1.1 jonathan *error = ENOBUFS; 1432 1.1 jonathan return NULL; 1433 1.1 jonathan } 1434 1.1 jonathan (*p_isr)->saidx.reqid = reqid; 1435 1.1 jonathan xisr->sadb_x_ipsecrequest_reqid = reqid; 1436 1.1 jonathan } else { 1437 1.1 jonathan /* set it for manual keying. */ 1438 1.1 jonathan (*p_isr)->saidx.reqid = 1439 1.1 jonathan xisr->sadb_x_ipsecrequest_reqid; 1440 1.1 jonathan } 1441 1.1 jonathan break; 1442 1.1 jonathan 1443 1.1 jonathan default: 1444 1.1 jonathan ipseclog((LOG_DEBUG, "key_msg2sp: invalid level=%u\n", 1445 1.1 jonathan xisr->sadb_x_ipsecrequest_level)); 1446 1.1 jonathan KEY_FREESP(&newsp); 1447 1.1 jonathan *error = EINVAL; 1448 1.1 jonathan return NULL; 1449 1.1 jonathan } 1450 1.1 jonathan (*p_isr)->level = xisr->sadb_x_ipsecrequest_level; 1451 1.1 jonathan 1452 1.1 jonathan /* set IP addresses if there */ 1453 1.1 jonathan if (xisr->sadb_x_ipsecrequest_len > sizeof(*xisr)) { 1454 1.1 jonathan struct sockaddr *paddr; 1455 1.1 jonathan 1456 1.1 jonathan paddr = (struct sockaddr *)(xisr + 1); 1457 1.1 jonathan 1458 1.1 jonathan /* validity check */ 1459 1.1 jonathan if (paddr->sa_len 1460 1.1 jonathan > sizeof((*p_isr)->saidx.src)) { 1461 1.1 jonathan ipseclog((LOG_DEBUG, "key_msg2sp: invalid request " 1462 1.1 jonathan "address length.\n")); 1463 1.1 jonathan KEY_FREESP(&newsp); 1464 1.1 jonathan *error = EINVAL; 1465 1.1 jonathan return NULL; 1466 1.1 jonathan } 1467 1.1 jonathan bcopy(paddr, &(*p_isr)->saidx.src, 1468 1.1 jonathan paddr->sa_len); 1469 1.1 jonathan 1470 1.1 jonathan paddr = (struct sockaddr *)((caddr_t)paddr 1471 1.1 jonathan + paddr->sa_len); 1472 1.1 jonathan 1473 1.1 jonathan /* validity check */ 1474 1.1 jonathan if (paddr->sa_len 1475 1.1 jonathan > sizeof((*p_isr)->saidx.dst)) { 1476 1.1 jonathan ipseclog((LOG_DEBUG, "key_msg2sp: invalid request " 1477 1.1 jonathan "address length.\n")); 1478 1.1 jonathan KEY_FREESP(&newsp); 1479 1.1 jonathan *error = EINVAL; 1480 1.1 jonathan return NULL; 1481 1.1 jonathan } 1482 1.1 jonathan bcopy(paddr, &(*p_isr)->saidx.dst, 1483 1.1 jonathan paddr->sa_len); 1484 1.1 jonathan } 1485 1.1 jonathan 1486 1.1 jonathan (*p_isr)->sav = NULL; 1487 1.1 jonathan (*p_isr)->sp = newsp; 1488 1.1 jonathan 1489 1.1 jonathan /* initialization for the next. */ 1490 1.1 jonathan p_isr = &(*p_isr)->next; 1491 1.1 jonathan tlen -= xisr->sadb_x_ipsecrequest_len; 1492 1.1 jonathan 1493 1.1 jonathan /* validity check */ 1494 1.1 jonathan if (tlen < 0) { 1495 1.1 jonathan ipseclog((LOG_DEBUG, "key_msg2sp: becoming tlen < 0.\n")); 1496 1.1 jonathan KEY_FREESP(&newsp); 1497 1.1 jonathan *error = EINVAL; 1498 1.1 jonathan return NULL; 1499 1.1 jonathan } 1500 1.1 jonathan 1501 1.1 jonathan xisr = (struct sadb_x_ipsecrequest *)((caddr_t)xisr 1502 1.1 jonathan + xisr->sadb_x_ipsecrequest_len); 1503 1.1 jonathan } 1504 1.1 jonathan } 1505 1.1 jonathan break; 1506 1.1 jonathan default: 1507 1.1 jonathan ipseclog((LOG_DEBUG, "key_msg2sp: invalid policy type.\n")); 1508 1.1 jonathan KEY_FREESP(&newsp); 1509 1.1 jonathan *error = EINVAL; 1510 1.1 jonathan return NULL; 1511 1.1 jonathan } 1512 1.1 jonathan 1513 1.1 jonathan *error = 0; 1514 1.1 jonathan return newsp; 1515 1.1 jonathan } 1516 1.1 jonathan 1517 1.1 jonathan static u_int32_t 1518 1.1 jonathan key_newreqid() 1519 1.1 jonathan { 1520 1.1 jonathan static u_int32_t auto_reqid = IPSEC_MANUAL_REQID_MAX + 1; 1521 1.1 jonathan 1522 1.1 jonathan auto_reqid = (auto_reqid == ~0 1523 1.1 jonathan ? IPSEC_MANUAL_REQID_MAX + 1 : auto_reqid + 1); 1524 1.1 jonathan 1525 1.1 jonathan /* XXX should be unique check */ 1526 1.1 jonathan 1527 1.1 jonathan return auto_reqid; 1528 1.1 jonathan } 1529 1.1 jonathan 1530 1.1 jonathan /* 1531 1.1 jonathan * copy secpolicy struct to sadb_x_policy structure indicated. 1532 1.1 jonathan */ 1533 1.1 jonathan struct mbuf * 1534 1.1 jonathan key_sp2msg(sp) 1535 1.1 jonathan struct secpolicy *sp; 1536 1.1 jonathan { 1537 1.1 jonathan struct sadb_x_policy *xpl; 1538 1.1 jonathan int tlen; 1539 1.1 jonathan caddr_t p; 1540 1.1 jonathan struct mbuf *m; 1541 1.1 jonathan 1542 1.1 jonathan /* sanity check. */ 1543 1.1 jonathan if (sp == NULL) 1544 1.1 jonathan panic("key_sp2msg: NULL pointer was passed.\n"); 1545 1.1 jonathan 1546 1.1 jonathan tlen = key_getspreqmsglen(sp); 1547 1.1 jonathan 1548 1.1 jonathan m = key_alloc_mbuf(tlen); 1549 1.1 jonathan if (!m || m->m_next) { /*XXX*/ 1550 1.1 jonathan if (m) 1551 1.1 jonathan m_freem(m); 1552 1.1 jonathan return NULL; 1553 1.1 jonathan } 1554 1.1 jonathan 1555 1.1 jonathan m->m_len = tlen; 1556 1.1 jonathan m->m_next = NULL; 1557 1.1 jonathan xpl = mtod(m, struct sadb_x_policy *); 1558 1.1 jonathan bzero(xpl, tlen); 1559 1.1 jonathan 1560 1.1 jonathan xpl->sadb_x_policy_len = PFKEY_UNIT64(tlen); 1561 1.1 jonathan xpl->sadb_x_policy_exttype = SADB_X_EXT_POLICY; 1562 1.1 jonathan xpl->sadb_x_policy_type = sp->policy; 1563 1.1 jonathan xpl->sadb_x_policy_dir = sp->spidx.dir; 1564 1.1 jonathan xpl->sadb_x_policy_id = sp->id; 1565 1.1 jonathan p = (caddr_t)xpl + sizeof(*xpl); 1566 1.1 jonathan 1567 1.1 jonathan /* if is the policy for ipsec ? */ 1568 1.1 jonathan if (sp->policy == IPSEC_POLICY_IPSEC) { 1569 1.1 jonathan struct sadb_x_ipsecrequest *xisr; 1570 1.1 jonathan struct ipsecrequest *isr; 1571 1.1 jonathan 1572 1.1 jonathan for (isr = sp->req; isr != NULL; isr = isr->next) { 1573 1.1 jonathan 1574 1.1 jonathan xisr = (struct sadb_x_ipsecrequest *)p; 1575 1.1 jonathan 1576 1.1 jonathan xisr->sadb_x_ipsecrequest_proto = isr->saidx.proto; 1577 1.1 jonathan xisr->sadb_x_ipsecrequest_mode = isr->saidx.mode; 1578 1.1 jonathan xisr->sadb_x_ipsecrequest_level = isr->level; 1579 1.1 jonathan xisr->sadb_x_ipsecrequest_reqid = isr->saidx.reqid; 1580 1.1 jonathan 1581 1.1 jonathan p += sizeof(*xisr); 1582 1.1 jonathan bcopy(&isr->saidx.src, p, isr->saidx.src.sa.sa_len); 1583 1.1 jonathan p += isr->saidx.src.sa.sa_len; 1584 1.1 jonathan bcopy(&isr->saidx.dst, p, isr->saidx.dst.sa.sa_len); 1585 1.1 jonathan p += isr->saidx.src.sa.sa_len; 1586 1.1 jonathan 1587 1.1 jonathan xisr->sadb_x_ipsecrequest_len = 1588 1.1 jonathan PFKEY_ALIGN8(sizeof(*xisr) 1589 1.1 jonathan + isr->saidx.src.sa.sa_len 1590 1.1 jonathan + isr->saidx.dst.sa.sa_len); 1591 1.1 jonathan } 1592 1.1 jonathan } 1593 1.1 jonathan 1594 1.1 jonathan return m; 1595 1.1 jonathan } 1596 1.1 jonathan 1597 1.1 jonathan /* m will not be freed nor modified */ 1598 1.1 jonathan static struct mbuf * 1599 1.1 jonathan #ifdef __STDC__ 1600 1.1 jonathan key_gather_mbuf(struct mbuf *m, const struct sadb_msghdr *mhp, 1601 1.1 jonathan int ndeep, int nitem, ...) 1602 1.1 jonathan #else 1603 1.1 jonathan key_gather_mbuf(m, mhp, ndeep, nitem, va_alist) 1604 1.1 jonathan struct mbuf *m; 1605 1.1 jonathan const struct sadb_msghdr *mhp; 1606 1.1 jonathan int ndeep; 1607 1.1 jonathan int nitem; 1608 1.1 jonathan va_dcl 1609 1.1 jonathan #endif 1610 1.1 jonathan { 1611 1.1 jonathan va_list ap; 1612 1.1 jonathan int idx; 1613 1.1 jonathan int i; 1614 1.1 jonathan struct mbuf *result = NULL, *n; 1615 1.1 jonathan int len; 1616 1.1 jonathan 1617 1.1 jonathan if (m == NULL || mhp == NULL) 1618 1.1 jonathan panic("null pointer passed to key_gather"); 1619 1.1 jonathan 1620 1.1 jonathan va_start(ap, nitem); 1621 1.1 jonathan for (i = 0; i < nitem; i++) { 1622 1.1 jonathan idx = va_arg(ap, int); 1623 1.1 jonathan if (idx < 0 || idx > SADB_EXT_MAX) 1624 1.1 jonathan goto fail; 1625 1.1 jonathan /* don't attempt to pull empty extension */ 1626 1.1 jonathan if (idx == SADB_EXT_RESERVED && mhp->msg == NULL) 1627 1.1 jonathan continue; 1628 1.1 jonathan if (idx != SADB_EXT_RESERVED && 1629 1.1 jonathan (mhp->ext[idx] == NULL || mhp->extlen[idx] == 0)) 1630 1.1 jonathan continue; 1631 1.1 jonathan 1632 1.1 jonathan if (idx == SADB_EXT_RESERVED) { 1633 1.1 jonathan len = PFKEY_ALIGN8(sizeof(struct sadb_msg)); 1634 1.1 jonathan #ifdef DIAGNOSTIC 1635 1.1 jonathan if (len > MHLEN) 1636 1.1 jonathan panic("assumption failed"); 1637 1.1 jonathan #endif 1638 1.1 jonathan MGETHDR(n, M_DONTWAIT, MT_DATA); 1639 1.1 jonathan if (!n) 1640 1.1 jonathan goto fail; 1641 1.1 jonathan n->m_len = len; 1642 1.1 jonathan n->m_next = NULL; 1643 1.1 jonathan m_copydata(m, 0, sizeof(struct sadb_msg), 1644 1.1 jonathan mtod(n, caddr_t)); 1645 1.1 jonathan } else if (i < ndeep) { 1646 1.1 jonathan len = mhp->extlen[idx]; 1647 1.1 jonathan n = key_alloc_mbuf(len); 1648 1.1 jonathan if (!n || n->m_next) { /*XXX*/ 1649 1.1 jonathan if (n) 1650 1.1 jonathan m_freem(n); 1651 1.1 jonathan goto fail; 1652 1.1 jonathan } 1653 1.1 jonathan m_copydata(m, mhp->extoff[idx], mhp->extlen[idx], 1654 1.1 jonathan mtod(n, caddr_t)); 1655 1.1 jonathan } else { 1656 1.1 jonathan n = m_copym(m, mhp->extoff[idx], mhp->extlen[idx], 1657 1.1 jonathan M_DONTWAIT); 1658 1.1 jonathan } 1659 1.1 jonathan if (n == NULL) 1660 1.1 jonathan goto fail; 1661 1.1 jonathan 1662 1.1 jonathan if (result) 1663 1.1 jonathan m_cat(result, n); 1664 1.1 jonathan else 1665 1.1 jonathan result = n; 1666 1.1 jonathan } 1667 1.1 jonathan va_end(ap); 1668 1.1 jonathan 1669 1.1 jonathan if ((result->m_flags & M_PKTHDR) != 0) { 1670 1.1 jonathan result->m_pkthdr.len = 0; 1671 1.1 jonathan for (n = result; n; n = n->m_next) 1672 1.1 jonathan result->m_pkthdr.len += n->m_len; 1673 1.1 jonathan } 1674 1.1 jonathan 1675 1.1 jonathan return result; 1676 1.1 jonathan 1677 1.1 jonathan fail: 1678 1.1 jonathan m_freem(result); 1679 1.1 jonathan return NULL; 1680 1.1 jonathan } 1681 1.1 jonathan 1682 1.1 jonathan /* 1683 1.1 jonathan * SADB_X_SPDADD, SADB_X_SPDSETIDX or SADB_X_SPDUPDATE processing 1684 1.1 jonathan * add an entry to SP database, when received 1685 1.1 jonathan * <base, address(SD), (lifetime(H),) policy> 1686 1.1 jonathan * from the user(?). 1687 1.1 jonathan * Adding to SP database, 1688 1.1 jonathan * and send 1689 1.1 jonathan * <base, address(SD), (lifetime(H),) policy> 1690 1.1 jonathan * to the socket which was send. 1691 1.1 jonathan * 1692 1.1 jonathan * SPDADD set a unique policy entry. 1693 1.1 jonathan * SPDSETIDX like SPDADD without a part of policy requests. 1694 1.1 jonathan * SPDUPDATE replace a unique policy entry. 1695 1.1 jonathan * 1696 1.1 jonathan * m will always be freed. 1697 1.1 jonathan */ 1698 1.1 jonathan static int 1699 1.1 jonathan key_spdadd(so, m, mhp) 1700 1.1 jonathan struct socket *so; 1701 1.1 jonathan struct mbuf *m; 1702 1.1 jonathan const struct sadb_msghdr *mhp; 1703 1.1 jonathan { 1704 1.1 jonathan struct sadb_address *src0, *dst0; 1705 1.1 jonathan struct sadb_x_policy *xpl0, *xpl; 1706 1.1 jonathan struct sadb_lifetime *lft = NULL; 1707 1.1 jonathan struct secpolicyindex spidx; 1708 1.1 jonathan struct secpolicy *newsp; 1709 1.1 jonathan int error; 1710 1.1 jonathan 1711 1.1 jonathan /* sanity check */ 1712 1.1 jonathan if (so == NULL || m == NULL || mhp == NULL || mhp->msg == NULL) 1713 1.1 jonathan panic("key_spdadd: NULL pointer is passed.\n"); 1714 1.1 jonathan 1715 1.1 jonathan if (mhp->ext[SADB_EXT_ADDRESS_SRC] == NULL || 1716 1.1 jonathan mhp->ext[SADB_EXT_ADDRESS_DST] == NULL || 1717 1.1 jonathan mhp->ext[SADB_X_EXT_POLICY] == NULL) { 1718 1.1 jonathan ipseclog((LOG_DEBUG, "key_spdadd: invalid message is passed.\n")); 1719 1.1 jonathan return key_senderror(so, m, EINVAL); 1720 1.1 jonathan } 1721 1.1 jonathan if (mhp->extlen[SADB_EXT_ADDRESS_SRC] < sizeof(struct sadb_address) || 1722 1.1 jonathan mhp->extlen[SADB_EXT_ADDRESS_DST] < sizeof(struct sadb_address) || 1723 1.1 jonathan mhp->extlen[SADB_X_EXT_POLICY] < sizeof(struct sadb_x_policy)) { 1724 1.1 jonathan ipseclog((LOG_DEBUG, "key_spdadd: invalid message is passed.\n")); 1725 1.1 jonathan return key_senderror(so, m, EINVAL); 1726 1.1 jonathan } 1727 1.1 jonathan if (mhp->ext[SADB_EXT_LIFETIME_HARD] != NULL) { 1728 1.1 jonathan if (mhp->extlen[SADB_EXT_LIFETIME_HARD] 1729 1.1 jonathan < sizeof(struct sadb_lifetime)) { 1730 1.1 jonathan ipseclog((LOG_DEBUG, "key_spdadd: invalid message is passed.\n")); 1731 1.1 jonathan return key_senderror(so, m, EINVAL); 1732 1.1 jonathan } 1733 1.1 jonathan lft = (struct sadb_lifetime *)mhp->ext[SADB_EXT_LIFETIME_HARD]; 1734 1.1 jonathan } 1735 1.1 jonathan 1736 1.1 jonathan src0 = (struct sadb_address *)mhp->ext[SADB_EXT_ADDRESS_SRC]; 1737 1.1 jonathan dst0 = (struct sadb_address *)mhp->ext[SADB_EXT_ADDRESS_DST]; 1738 1.1 jonathan xpl0 = (struct sadb_x_policy *)mhp->ext[SADB_X_EXT_POLICY]; 1739 1.1 jonathan 1740 1.1 jonathan /* make secindex */ 1741 1.1 jonathan /* XXX boundary check against sa_len */ 1742 1.1 jonathan KEY_SETSECSPIDX(xpl0->sadb_x_policy_dir, 1743 1.1 jonathan src0 + 1, 1744 1.1 jonathan dst0 + 1, 1745 1.1 jonathan src0->sadb_address_prefixlen, 1746 1.1 jonathan dst0->sadb_address_prefixlen, 1747 1.1 jonathan src0->sadb_address_proto, 1748 1.1 jonathan &spidx); 1749 1.1 jonathan 1750 1.1 jonathan /* checking the direciton. */ 1751 1.1 jonathan switch (xpl0->sadb_x_policy_dir) { 1752 1.1 jonathan case IPSEC_DIR_INBOUND: 1753 1.1 jonathan case IPSEC_DIR_OUTBOUND: 1754 1.1 jonathan break; 1755 1.1 jonathan default: 1756 1.1 jonathan ipseclog((LOG_DEBUG, "key_spdadd: Invalid SP direction.\n")); 1757 1.1 jonathan mhp->msg->sadb_msg_errno = EINVAL; 1758 1.1 jonathan return 0; 1759 1.1 jonathan } 1760 1.1 jonathan 1761 1.1 jonathan /* check policy */ 1762 1.1 jonathan /* key_spdadd() accepts DISCARD, NONE and IPSEC. */ 1763 1.1 jonathan if (xpl0->sadb_x_policy_type == IPSEC_POLICY_ENTRUST 1764 1.1 jonathan || xpl0->sadb_x_policy_type == IPSEC_POLICY_BYPASS) { 1765 1.1 jonathan ipseclog((LOG_DEBUG, "key_spdadd: Invalid policy type.\n")); 1766 1.1 jonathan return key_senderror(so, m, EINVAL); 1767 1.1 jonathan } 1768 1.1 jonathan 1769 1.1 jonathan /* policy requests are mandatory when action is ipsec. */ 1770 1.1 jonathan if (mhp->msg->sadb_msg_type != SADB_X_SPDSETIDX 1771 1.1 jonathan && xpl0->sadb_x_policy_type == IPSEC_POLICY_IPSEC 1772 1.1 jonathan && mhp->extlen[SADB_X_EXT_POLICY] <= sizeof(*xpl0)) { 1773 1.1 jonathan ipseclog((LOG_DEBUG, "key_spdadd: some policy requests part required.\n")); 1774 1.1 jonathan return key_senderror(so, m, EINVAL); 1775 1.1 jonathan } 1776 1.1 jonathan 1777 1.1 jonathan /* 1778 1.1 jonathan * checking there is SP already or not. 1779 1.1 jonathan * SPDUPDATE doesn't depend on whether there is a SP or not. 1780 1.1 jonathan * If the type is either SPDADD or SPDSETIDX AND a SP is found, 1781 1.1 jonathan * then error. 1782 1.1 jonathan */ 1783 1.1 jonathan newsp = key_getsp(&spidx); 1784 1.1 jonathan if (mhp->msg->sadb_msg_type == SADB_X_SPDUPDATE) { 1785 1.1 jonathan if (newsp) { 1786 1.1 jonathan newsp->state = IPSEC_SPSTATE_DEAD; 1787 1.1 jonathan KEY_FREESP(&newsp); 1788 1.1 jonathan } 1789 1.1 jonathan } else { 1790 1.1 jonathan if (newsp != NULL) { 1791 1.1 jonathan KEY_FREESP(&newsp); 1792 1.1 jonathan ipseclog((LOG_DEBUG, "key_spdadd: a SP entry exists already.\n")); 1793 1.1 jonathan return key_senderror(so, m, EEXIST); 1794 1.1 jonathan } 1795 1.1 jonathan } 1796 1.1 jonathan 1797 1.1 jonathan /* allocation new SP entry */ 1798 1.1 jonathan if ((newsp = key_msg2sp(xpl0, PFKEY_EXTLEN(xpl0), &error)) == NULL) { 1799 1.1 jonathan return key_senderror(so, m, error); 1800 1.1 jonathan } 1801 1.1 jonathan 1802 1.1 jonathan if ((newsp->id = key_getnewspid()) == 0) { 1803 1.1 jonathan KFREE(newsp); 1804 1.1 jonathan return key_senderror(so, m, ENOBUFS); 1805 1.1 jonathan } 1806 1.1 jonathan 1807 1.1 jonathan /* XXX boundary check against sa_len */ 1808 1.1 jonathan KEY_SETSECSPIDX(xpl0->sadb_x_policy_dir, 1809 1.1 jonathan src0 + 1, 1810 1.1 jonathan dst0 + 1, 1811 1.1 jonathan src0->sadb_address_prefixlen, 1812 1.1 jonathan dst0->sadb_address_prefixlen, 1813 1.1 jonathan src0->sadb_address_proto, 1814 1.1 jonathan &newsp->spidx); 1815 1.1 jonathan 1816 1.1 jonathan /* sanity check on addr pair */ 1817 1.1 jonathan if (((struct sockaddr *)(src0 + 1))->sa_family != 1818 1.1 jonathan ((struct sockaddr *)(dst0+ 1))->sa_family) { 1819 1.1 jonathan KFREE(newsp); 1820 1.1 jonathan return key_senderror(so, m, EINVAL); 1821 1.1 jonathan } 1822 1.1 jonathan if (((struct sockaddr *)(src0 + 1))->sa_len != 1823 1.1 jonathan ((struct sockaddr *)(dst0+ 1))->sa_len) { 1824 1.1 jonathan KFREE(newsp); 1825 1.1 jonathan return key_senderror(so, m, EINVAL); 1826 1.1 jonathan } 1827 1.1 jonathan #if 1 1828 1.1 jonathan if (newsp->req && newsp->req->saidx.src.sa.sa_family) { 1829 1.1 jonathan struct sockaddr *sa; 1830 1.1 jonathan sa = (struct sockaddr *)(src0 + 1); 1831 1.1 jonathan if (sa->sa_family != newsp->req->saidx.src.sa.sa_family) { 1832 1.1 jonathan KFREE(newsp); 1833 1.1 jonathan return key_senderror(so, m, EINVAL); 1834 1.1 jonathan } 1835 1.1 jonathan } 1836 1.1 jonathan if (newsp->req && newsp->req->saidx.dst.sa.sa_family) { 1837 1.1 jonathan struct sockaddr *sa; 1838 1.1 jonathan sa = (struct sockaddr *)(dst0 + 1); 1839 1.1 jonathan if (sa->sa_family != newsp->req->saidx.dst.sa.sa_family) { 1840 1.1 jonathan KFREE(newsp); 1841 1.1 jonathan return key_senderror(so, m, EINVAL); 1842 1.1 jonathan } 1843 1.1 jonathan } 1844 1.1 jonathan #endif 1845 1.1 jonathan 1846 1.1 jonathan newsp->created = time_second; 1847 1.1 jonathan newsp->lastused = newsp->created; 1848 1.1 jonathan newsp->lifetime = lft ? lft->sadb_lifetime_addtime : 0; 1849 1.1 jonathan newsp->validtime = lft ? lft->sadb_lifetime_usetime : 0; 1850 1.1 jonathan 1851 1.1 jonathan newsp->refcnt = 1; /* do not reclaim until I say I do */ 1852 1.1 jonathan newsp->state = IPSEC_SPSTATE_ALIVE; 1853 1.1 jonathan LIST_INSERT_TAIL(&sptree[newsp->spidx.dir], newsp, secpolicy, chain); 1854 1.1 jonathan 1855 1.1 jonathan /* delete the entry in spacqtree */ 1856 1.1 jonathan if (mhp->msg->sadb_msg_type == SADB_X_SPDUPDATE) { 1857 1.1 jonathan struct secspacq *spacq; 1858 1.1 jonathan if ((spacq = key_getspacq(&spidx)) != NULL) { 1859 1.1 jonathan /* reset counter in order to deletion by timehandler. */ 1860 1.1 jonathan spacq->created = time_second; 1861 1.1 jonathan spacq->count = 0; 1862 1.1 jonathan } 1863 1.1 jonathan } 1864 1.1 jonathan 1865 1.1 jonathan { 1866 1.1 jonathan struct mbuf *n, *mpolicy; 1867 1.1 jonathan struct sadb_msg *newmsg; 1868 1.1 jonathan int off; 1869 1.1 jonathan 1870 1.1 jonathan /* create new sadb_msg to reply. */ 1871 1.1 jonathan if (lft) { 1872 1.1 jonathan n = key_gather_mbuf(m, mhp, 2, 5, SADB_EXT_RESERVED, 1873 1.1 jonathan SADB_X_EXT_POLICY, SADB_EXT_LIFETIME_HARD, 1874 1.1 jonathan SADB_EXT_ADDRESS_SRC, SADB_EXT_ADDRESS_DST); 1875 1.1 jonathan } else { 1876 1.1 jonathan n = key_gather_mbuf(m, mhp, 2, 4, SADB_EXT_RESERVED, 1877 1.1 jonathan SADB_X_EXT_POLICY, 1878 1.1 jonathan SADB_EXT_ADDRESS_SRC, SADB_EXT_ADDRESS_DST); 1879 1.1 jonathan } 1880 1.1 jonathan if (!n) 1881 1.1 jonathan return key_senderror(so, m, ENOBUFS); 1882 1.1 jonathan 1883 1.1 jonathan if (n->m_len < sizeof(*newmsg)) { 1884 1.1 jonathan n = m_pullup(n, sizeof(*newmsg)); 1885 1.1 jonathan if (!n) 1886 1.1 jonathan return key_senderror(so, m, ENOBUFS); 1887 1.1 jonathan } 1888 1.1 jonathan newmsg = mtod(n, struct sadb_msg *); 1889 1.1 jonathan newmsg->sadb_msg_errno = 0; 1890 1.1 jonathan newmsg->sadb_msg_len = PFKEY_UNIT64(n->m_pkthdr.len); 1891 1.1 jonathan 1892 1.1 jonathan off = 0; 1893 1.1 jonathan mpolicy = m_pulldown(n, PFKEY_ALIGN8(sizeof(struct sadb_msg)), 1894 1.1 jonathan sizeof(*xpl), &off); 1895 1.1 jonathan if (mpolicy == NULL) { 1896 1.1 jonathan /* n is already freed */ 1897 1.1 jonathan return key_senderror(so, m, ENOBUFS); 1898 1.1 jonathan } 1899 1.1 jonathan xpl = (struct sadb_x_policy *)(mtod(mpolicy, caddr_t) + off); 1900 1.1 jonathan if (xpl->sadb_x_policy_exttype != SADB_X_EXT_POLICY) { 1901 1.1 jonathan m_freem(n); 1902 1.1 jonathan return key_senderror(so, m, EINVAL); 1903 1.1 jonathan } 1904 1.1 jonathan xpl->sadb_x_policy_id = newsp->id; 1905 1.1 jonathan 1906 1.1 jonathan m_freem(m); 1907 1.1 jonathan return key_sendup_mbuf(so, n, KEY_SENDUP_ALL); 1908 1.1 jonathan } 1909 1.1 jonathan } 1910 1.1 jonathan 1911 1.1 jonathan /* 1912 1.1 jonathan * get new policy id. 1913 1.1 jonathan * OUT: 1914 1.1 jonathan * 0: failure. 1915 1.1 jonathan * others: success. 1916 1.1 jonathan */ 1917 1.1 jonathan static u_int32_t 1918 1.1 jonathan key_getnewspid() 1919 1.1 jonathan { 1920 1.1 jonathan u_int32_t newid = 0; 1921 1.1 jonathan int count = key_spi_trycnt; /* XXX */ 1922 1.1 jonathan struct secpolicy *sp; 1923 1.1 jonathan 1924 1.1 jonathan /* when requesting to allocate spi ranged */ 1925 1.1 jonathan while (count--) { 1926 1.1 jonathan newid = (policy_id = (policy_id == ~0 ? 1 : policy_id + 1)); 1927 1.1 jonathan 1928 1.1 jonathan if ((sp = key_getspbyid(newid)) == NULL) 1929 1.1 jonathan break; 1930 1.1 jonathan 1931 1.1 jonathan KEY_FREESP(&sp); 1932 1.1 jonathan } 1933 1.1 jonathan 1934 1.1 jonathan if (count == 0 || newid == 0) { 1935 1.1 jonathan ipseclog((LOG_DEBUG, "key_getnewspid: to allocate policy id is failed.\n")); 1936 1.1 jonathan return 0; 1937 1.1 jonathan } 1938 1.1 jonathan 1939 1.1 jonathan return newid; 1940 1.1 jonathan } 1941 1.1 jonathan 1942 1.1 jonathan /* 1943 1.1 jonathan * SADB_SPDDELETE processing 1944 1.1 jonathan * receive 1945 1.1 jonathan * <base, address(SD), policy(*)> 1946 1.1 jonathan * from the user(?), and set SADB_SASTATE_DEAD, 1947 1.1 jonathan * and send, 1948 1.1 jonathan * <base, address(SD), policy(*)> 1949 1.1 jonathan * to the ikmpd. 1950 1.1 jonathan * policy(*) including direction of policy. 1951 1.1 jonathan * 1952 1.1 jonathan * m will always be freed. 1953 1.1 jonathan */ 1954 1.1 jonathan static int 1955 1.1 jonathan key_spddelete(so, m, mhp) 1956 1.1 jonathan struct socket *so; 1957 1.1 jonathan struct mbuf *m; 1958 1.1 jonathan const struct sadb_msghdr *mhp; 1959 1.1 jonathan { 1960 1.1 jonathan struct sadb_address *src0, *dst0; 1961 1.1 jonathan struct sadb_x_policy *xpl0; 1962 1.1 jonathan struct secpolicyindex spidx; 1963 1.1 jonathan struct secpolicy *sp; 1964 1.1 jonathan 1965 1.1 jonathan /* sanity check */ 1966 1.1 jonathan if (so == NULL || m == NULL || mhp == NULL || mhp->msg == NULL) 1967 1.1 jonathan panic("key_spddelete: NULL pointer is passed.\n"); 1968 1.1 jonathan 1969 1.1 jonathan if (mhp->ext[SADB_EXT_ADDRESS_SRC] == NULL || 1970 1.1 jonathan mhp->ext[SADB_EXT_ADDRESS_DST] == NULL || 1971 1.1 jonathan mhp->ext[SADB_X_EXT_POLICY] == NULL) { 1972 1.1 jonathan ipseclog((LOG_DEBUG, "key_spddelete: invalid message is passed.\n")); 1973 1.1 jonathan return key_senderror(so, m, EINVAL); 1974 1.1 jonathan } 1975 1.1 jonathan if (mhp->extlen[SADB_EXT_ADDRESS_SRC] < sizeof(struct sadb_address) || 1976 1.1 jonathan mhp->extlen[SADB_EXT_ADDRESS_DST] < sizeof(struct sadb_address) || 1977 1.1 jonathan mhp->extlen[SADB_X_EXT_POLICY] < sizeof(struct sadb_x_policy)) { 1978 1.1 jonathan ipseclog((LOG_DEBUG, "key_spddelete: invalid message is passed.\n")); 1979 1.1 jonathan return key_senderror(so, m, EINVAL); 1980 1.1 jonathan } 1981 1.1 jonathan 1982 1.1 jonathan src0 = (struct sadb_address *)mhp->ext[SADB_EXT_ADDRESS_SRC]; 1983 1.1 jonathan dst0 = (struct sadb_address *)mhp->ext[SADB_EXT_ADDRESS_DST]; 1984 1.1 jonathan xpl0 = (struct sadb_x_policy *)mhp->ext[SADB_X_EXT_POLICY]; 1985 1.1 jonathan 1986 1.1 jonathan /* make secindex */ 1987 1.1 jonathan /* XXX boundary check against sa_len */ 1988 1.1 jonathan KEY_SETSECSPIDX(xpl0->sadb_x_policy_dir, 1989 1.1 jonathan src0 + 1, 1990 1.1 jonathan dst0 + 1, 1991 1.1 jonathan src0->sadb_address_prefixlen, 1992 1.1 jonathan dst0->sadb_address_prefixlen, 1993 1.1 jonathan src0->sadb_address_proto, 1994 1.1 jonathan &spidx); 1995 1.1 jonathan 1996 1.1 jonathan /* checking the direciton. */ 1997 1.1 jonathan switch (xpl0->sadb_x_policy_dir) { 1998 1.1 jonathan case IPSEC_DIR_INBOUND: 1999 1.1 jonathan case IPSEC_DIR_OUTBOUND: 2000 1.1 jonathan break; 2001 1.1 jonathan default: 2002 1.1 jonathan ipseclog((LOG_DEBUG, "key_spddelete: Invalid SP direction.\n")); 2003 1.1 jonathan return key_senderror(so, m, EINVAL); 2004 1.1 jonathan } 2005 1.1 jonathan 2006 1.1 jonathan /* Is there SP in SPD ? */ 2007 1.1 jonathan if ((sp = key_getsp(&spidx)) == NULL) { 2008 1.1 jonathan ipseclog((LOG_DEBUG, "key_spddelete: no SP found.\n")); 2009 1.1 jonathan return key_senderror(so, m, EINVAL); 2010 1.1 jonathan } 2011 1.1 jonathan 2012 1.1 jonathan /* save policy id to buffer to be returned. */ 2013 1.1 jonathan xpl0->sadb_x_policy_id = sp->id; 2014 1.1 jonathan 2015 1.1 jonathan sp->state = IPSEC_SPSTATE_DEAD; 2016 1.1 jonathan KEY_FREESP(&sp); 2017 1.1 jonathan 2018 1.1 jonathan { 2019 1.1 jonathan struct mbuf *n; 2020 1.1 jonathan struct sadb_msg *newmsg; 2021 1.1 jonathan 2022 1.1 jonathan /* create new sadb_msg to reply. */ 2023 1.1 jonathan n = key_gather_mbuf(m, mhp, 1, 4, SADB_EXT_RESERVED, 2024 1.1 jonathan SADB_X_EXT_POLICY, SADB_EXT_ADDRESS_SRC, SADB_EXT_ADDRESS_DST); 2025 1.1 jonathan if (!n) 2026 1.1 jonathan return key_senderror(so, m, ENOBUFS); 2027 1.1 jonathan 2028 1.1 jonathan newmsg = mtod(n, struct sadb_msg *); 2029 1.1 jonathan newmsg->sadb_msg_errno = 0; 2030 1.1 jonathan newmsg->sadb_msg_len = PFKEY_UNIT64(n->m_pkthdr.len); 2031 1.1 jonathan 2032 1.1 jonathan m_freem(m); 2033 1.1 jonathan return key_sendup_mbuf(so, n, KEY_SENDUP_ALL); 2034 1.1 jonathan } 2035 1.1 jonathan } 2036 1.1 jonathan 2037 1.1 jonathan /* 2038 1.1 jonathan * SADB_SPDDELETE2 processing 2039 1.1 jonathan * receive 2040 1.1 jonathan * <base, policy(*)> 2041 1.1 jonathan * from the user(?), and set SADB_SASTATE_DEAD, 2042 1.1 jonathan * and send, 2043 1.1 jonathan * <base, policy(*)> 2044 1.1 jonathan * to the ikmpd. 2045 1.1 jonathan * policy(*) including direction of policy. 2046 1.1 jonathan * 2047 1.1 jonathan * m will always be freed. 2048 1.1 jonathan */ 2049 1.1 jonathan static int 2050 1.1 jonathan key_spddelete2(so, m, mhp) 2051 1.1 jonathan struct socket *so; 2052 1.1 jonathan struct mbuf *m; 2053 1.1 jonathan const struct sadb_msghdr *mhp; 2054 1.1 jonathan { 2055 1.1 jonathan u_int32_t id; 2056 1.1 jonathan struct secpolicy *sp; 2057 1.1 jonathan 2058 1.1 jonathan /* sanity check */ 2059 1.1 jonathan if (so == NULL || m == NULL || mhp == NULL || mhp->msg == NULL) 2060 1.1 jonathan panic("key_spddelete2: NULL pointer is passed.\n"); 2061 1.1 jonathan 2062 1.1 jonathan if (mhp->ext[SADB_X_EXT_POLICY] == NULL || 2063 1.1 jonathan mhp->extlen[SADB_X_EXT_POLICY] < sizeof(struct sadb_x_policy)) { 2064 1.1 jonathan ipseclog((LOG_DEBUG, "key_spddelete2: invalid message is passed.\n")); 2065 1.1 jonathan key_senderror(so, m, EINVAL); 2066 1.1 jonathan return 0; 2067 1.1 jonathan } 2068 1.1 jonathan 2069 1.1 jonathan id = ((struct sadb_x_policy *)mhp->ext[SADB_X_EXT_POLICY])->sadb_x_policy_id; 2070 1.1 jonathan 2071 1.1 jonathan /* Is there SP in SPD ? */ 2072 1.1 jonathan if ((sp = key_getspbyid(id)) == NULL) { 2073 1.1 jonathan ipseclog((LOG_DEBUG, "key_spddelete2: no SP found id:%u.\n", id)); 2074 1.1 jonathan key_senderror(so, m, EINVAL); 2075 1.1 jonathan } 2076 1.1 jonathan 2077 1.1 jonathan sp->state = IPSEC_SPSTATE_DEAD; 2078 1.1 jonathan KEY_FREESP(&sp); 2079 1.1 jonathan 2080 1.1 jonathan { 2081 1.1 jonathan struct mbuf *n, *nn; 2082 1.1 jonathan struct sadb_msg *newmsg; 2083 1.1 jonathan int off, len; 2084 1.1 jonathan 2085 1.1 jonathan /* create new sadb_msg to reply. */ 2086 1.1 jonathan len = PFKEY_ALIGN8(sizeof(struct sadb_msg)); 2087 1.1 jonathan 2088 1.1 jonathan if (len > MCLBYTES) 2089 1.1 jonathan return key_senderror(so, m, ENOBUFS); 2090 1.1 jonathan MGETHDR(n, M_DONTWAIT, MT_DATA); 2091 1.1 jonathan if (n && len > MHLEN) { 2092 1.1 jonathan MCLGET(n, M_DONTWAIT); 2093 1.1 jonathan if ((n->m_flags & M_EXT) == 0) { 2094 1.1 jonathan m_freem(n); 2095 1.1 jonathan n = NULL; 2096 1.1 jonathan } 2097 1.1 jonathan } 2098 1.1 jonathan if (!n) 2099 1.1 jonathan return key_senderror(so, m, ENOBUFS); 2100 1.1 jonathan 2101 1.1 jonathan n->m_len = len; 2102 1.1 jonathan n->m_next = NULL; 2103 1.1 jonathan off = 0; 2104 1.1 jonathan 2105 1.1 jonathan m_copydata(m, 0, sizeof(struct sadb_msg), mtod(n, caddr_t) + off); 2106 1.1 jonathan off += PFKEY_ALIGN8(sizeof(struct sadb_msg)); 2107 1.1 jonathan 2108 1.1 jonathan #ifdef DIAGNOSTIC 2109 1.1 jonathan if (off != len) 2110 1.1 jonathan panic("length inconsistency in key_spddelete2"); 2111 1.1 jonathan #endif 2112 1.1 jonathan 2113 1.1 jonathan n->m_next = m_copym(m, mhp->extoff[SADB_X_EXT_POLICY], 2114 1.1 jonathan mhp->extlen[SADB_X_EXT_POLICY], M_DONTWAIT); 2115 1.1 jonathan if (!n->m_next) { 2116 1.1 jonathan m_freem(n); 2117 1.1 jonathan return key_senderror(so, m, ENOBUFS); 2118 1.1 jonathan } 2119 1.1 jonathan 2120 1.1 jonathan n->m_pkthdr.len = 0; 2121 1.1 jonathan for (nn = n; nn; nn = nn->m_next) 2122 1.1 jonathan n->m_pkthdr.len += nn->m_len; 2123 1.1 jonathan 2124 1.1 jonathan newmsg = mtod(n, struct sadb_msg *); 2125 1.1 jonathan newmsg->sadb_msg_errno = 0; 2126 1.1 jonathan newmsg->sadb_msg_len = PFKEY_UNIT64(n->m_pkthdr.len); 2127 1.1 jonathan 2128 1.1 jonathan m_freem(m); 2129 1.1 jonathan return key_sendup_mbuf(so, n, KEY_SENDUP_ALL); 2130 1.1 jonathan } 2131 1.1 jonathan } 2132 1.1 jonathan 2133 1.1 jonathan /* 2134 1.1 jonathan * SADB_X_GET processing 2135 1.1 jonathan * receive 2136 1.1 jonathan * <base, policy(*)> 2137 1.1 jonathan * from the user(?), 2138 1.1 jonathan * and send, 2139 1.1 jonathan * <base, address(SD), policy> 2140 1.1 jonathan * to the ikmpd. 2141 1.1 jonathan * policy(*) including direction of policy. 2142 1.1 jonathan * 2143 1.1 jonathan * m will always be freed. 2144 1.1 jonathan */ 2145 1.1 jonathan static int 2146 1.1 jonathan key_spdget(so, m, mhp) 2147 1.1 jonathan struct socket *so; 2148 1.1 jonathan struct mbuf *m; 2149 1.1 jonathan const struct sadb_msghdr *mhp; 2150 1.1 jonathan { 2151 1.1 jonathan u_int32_t id; 2152 1.1 jonathan struct secpolicy *sp; 2153 1.1 jonathan struct mbuf *n; 2154 1.1 jonathan 2155 1.1 jonathan /* sanity check */ 2156 1.1 jonathan if (so == NULL || m == NULL || mhp == NULL || mhp->msg == NULL) 2157 1.1 jonathan panic("key_spdget: NULL pointer is passed.\n"); 2158 1.1 jonathan 2159 1.1 jonathan if (mhp->ext[SADB_X_EXT_POLICY] == NULL || 2160 1.1 jonathan mhp->extlen[SADB_X_EXT_POLICY] < sizeof(struct sadb_x_policy)) { 2161 1.1 jonathan ipseclog((LOG_DEBUG, "key_spdget: invalid message is passed.\n")); 2162 1.1 jonathan return key_senderror(so, m, EINVAL); 2163 1.1 jonathan } 2164 1.1 jonathan 2165 1.1 jonathan id = ((struct sadb_x_policy *)mhp->ext[SADB_X_EXT_POLICY])->sadb_x_policy_id; 2166 1.1 jonathan 2167 1.1 jonathan /* Is there SP in SPD ? */ 2168 1.1 jonathan if ((sp = key_getspbyid(id)) == NULL) { 2169 1.1 jonathan ipseclog((LOG_DEBUG, "key_spdget: no SP found id:%u.\n", id)); 2170 1.1 jonathan return key_senderror(so, m, ENOENT); 2171 1.1 jonathan } 2172 1.1 jonathan 2173 1.1 jonathan n = key_setdumpsp(sp, SADB_X_SPDGET, 0, mhp->msg->sadb_msg_pid); 2174 1.1 jonathan if (n != NULL) { 2175 1.1 jonathan m_freem(m); 2176 1.1 jonathan return key_sendup_mbuf(so, n, KEY_SENDUP_ONE); 2177 1.1 jonathan } else 2178 1.1 jonathan return key_senderror(so, m, ENOBUFS); 2179 1.1 jonathan } 2180 1.1 jonathan 2181 1.1 jonathan /* 2182 1.1 jonathan * SADB_X_SPDACQUIRE processing. 2183 1.1 jonathan * Acquire policy and SA(s) for a *OUTBOUND* packet. 2184 1.1 jonathan * send 2185 1.1 jonathan * <base, policy(*)> 2186 1.1 jonathan * to KMD, and expect to receive 2187 1.1 jonathan * <base> with SADB_X_SPDACQUIRE if error occured, 2188 1.1 jonathan * or 2189 1.1 jonathan * <base, policy> 2190 1.1 jonathan * with SADB_X_SPDUPDATE from KMD by PF_KEY. 2191 1.1 jonathan * policy(*) is without policy requests. 2192 1.1 jonathan * 2193 1.1 jonathan * 0 : succeed 2194 1.1 jonathan * others: error number 2195 1.1 jonathan */ 2196 1.1 jonathan int 2197 1.1 jonathan key_spdacquire(sp) 2198 1.1 jonathan struct secpolicy *sp; 2199 1.1 jonathan { 2200 1.1 jonathan struct mbuf *result = NULL, *m; 2201 1.1 jonathan struct secspacq *newspacq; 2202 1.1 jonathan int error; 2203 1.1 jonathan 2204 1.1 jonathan /* sanity check */ 2205 1.1 jonathan if (sp == NULL) 2206 1.1 jonathan panic("key_spdacquire: NULL pointer is passed.\n"); 2207 1.1 jonathan if (sp->req != NULL) 2208 1.1 jonathan panic("key_spdacquire: called but there is request.\n"); 2209 1.1 jonathan if (sp->policy != IPSEC_POLICY_IPSEC) 2210 1.1 jonathan panic("key_spdacquire: policy mismathed. IPsec is expected.\n"); 2211 1.1 jonathan 2212 1.1 jonathan /* Get an entry to check whether sent message or not. */ 2213 1.1 jonathan if ((newspacq = key_getspacq(&sp->spidx)) != NULL) { 2214 1.1 jonathan if (key_blockacq_count < newspacq->count) { 2215 1.1 jonathan /* reset counter and do send message. */ 2216 1.1 jonathan newspacq->count = 0; 2217 1.1 jonathan } else { 2218 1.1 jonathan /* increment counter and do nothing. */ 2219 1.1 jonathan newspacq->count++; 2220 1.1 jonathan return 0; 2221 1.1 jonathan } 2222 1.1 jonathan } else { 2223 1.1 jonathan /* make new entry for blocking to send SADB_ACQUIRE. */ 2224 1.1 jonathan if ((newspacq = key_newspacq(&sp->spidx)) == NULL) 2225 1.1 jonathan return ENOBUFS; 2226 1.1 jonathan 2227 1.1 jonathan /* add to acqtree */ 2228 1.1 jonathan LIST_INSERT_HEAD(&spacqtree, newspacq, chain); 2229 1.1 jonathan } 2230 1.1 jonathan 2231 1.1 jonathan /* create new sadb_msg to reply. */ 2232 1.1 jonathan m = key_setsadbmsg(SADB_X_SPDACQUIRE, 0, 0, 0, 0, 0); 2233 1.1 jonathan if (!m) { 2234 1.1 jonathan error = ENOBUFS; 2235 1.1 jonathan goto fail; 2236 1.1 jonathan } 2237 1.1 jonathan result = m; 2238 1.1 jonathan 2239 1.1 jonathan result->m_pkthdr.len = 0; 2240 1.1 jonathan for (m = result; m; m = m->m_next) 2241 1.1 jonathan result->m_pkthdr.len += m->m_len; 2242 1.1 jonathan 2243 1.1 jonathan mtod(result, struct sadb_msg *)->sadb_msg_len = 2244 1.1 jonathan PFKEY_UNIT64(result->m_pkthdr.len); 2245 1.1 jonathan 2246 1.1 jonathan return key_sendup_mbuf(NULL, m, KEY_SENDUP_REGISTERED); 2247 1.1 jonathan 2248 1.1 jonathan fail: 2249 1.1 jonathan if (result) 2250 1.1 jonathan m_freem(result); 2251 1.1 jonathan return error; 2252 1.1 jonathan } 2253 1.1 jonathan 2254 1.1 jonathan /* 2255 1.1 jonathan * SADB_SPDFLUSH processing 2256 1.1 jonathan * receive 2257 1.1 jonathan * <base> 2258 1.1 jonathan * from the user, and free all entries in secpctree. 2259 1.1 jonathan * and send, 2260 1.1 jonathan * <base> 2261 1.1 jonathan * to the user. 2262 1.1 jonathan * NOTE: what to do is only marking SADB_SASTATE_DEAD. 2263 1.1 jonathan * 2264 1.1 jonathan * m will always be freed. 2265 1.1 jonathan */ 2266 1.1 jonathan static int 2267 1.1 jonathan key_spdflush(so, m, mhp) 2268 1.1 jonathan struct socket *so; 2269 1.1 jonathan struct mbuf *m; 2270 1.1 jonathan const struct sadb_msghdr *mhp; 2271 1.1 jonathan { 2272 1.1 jonathan struct sadb_msg *newmsg; 2273 1.1 jonathan struct secpolicy *sp; 2274 1.1 jonathan u_int dir; 2275 1.1 jonathan 2276 1.1 jonathan /* sanity check */ 2277 1.1 jonathan if (so == NULL || m == NULL || mhp == NULL || mhp->msg == NULL) 2278 1.1 jonathan panic("key_spdflush: NULL pointer is passed.\n"); 2279 1.1 jonathan 2280 1.1 jonathan if (m->m_len != PFKEY_ALIGN8(sizeof(struct sadb_msg))) 2281 1.1 jonathan return key_senderror(so, m, EINVAL); 2282 1.1 jonathan 2283 1.1 jonathan for (dir = 0; dir < IPSEC_DIR_MAX; dir++) { 2284 1.1 jonathan LIST_FOREACH(sp, &sptree[dir], chain) { 2285 1.1 jonathan sp->state = IPSEC_SPSTATE_DEAD; 2286 1.1 jonathan } 2287 1.1 jonathan } 2288 1.1 jonathan 2289 1.1 jonathan if (sizeof(struct sadb_msg) > m->m_len + M_TRAILINGSPACE(m)) { 2290 1.1 jonathan ipseclog((LOG_DEBUG, "key_spdflush: No more memory.\n")); 2291 1.1 jonathan return key_senderror(so, m, ENOBUFS); 2292 1.1 jonathan } 2293 1.1 jonathan 2294 1.1 jonathan if (m->m_next) 2295 1.1 jonathan m_freem(m->m_next); 2296 1.1 jonathan m->m_next = NULL; 2297 1.1 jonathan m->m_pkthdr.len = m->m_len = PFKEY_ALIGN8(sizeof(struct sadb_msg)); 2298 1.1 jonathan newmsg = mtod(m, struct sadb_msg *); 2299 1.1 jonathan newmsg->sadb_msg_errno = 0; 2300 1.1 jonathan newmsg->sadb_msg_len = PFKEY_UNIT64(m->m_pkthdr.len); 2301 1.1 jonathan 2302 1.1 jonathan return key_sendup_mbuf(so, m, KEY_SENDUP_ALL); 2303 1.1 jonathan } 2304 1.1 jonathan 2305 1.1 jonathan /* 2306 1.1 jonathan * SADB_SPDDUMP processing 2307 1.1 jonathan * receive 2308 1.1 jonathan * <base> 2309 1.1 jonathan * from the user, and dump all SP leaves 2310 1.1 jonathan * and send, 2311 1.1 jonathan * <base> ..... 2312 1.1 jonathan * to the ikmpd. 2313 1.1 jonathan * 2314 1.1 jonathan * m will always be freed. 2315 1.1 jonathan */ 2316 1.1 jonathan static int 2317 1.1 jonathan key_spddump(so, m, mhp) 2318 1.1 jonathan struct socket *so; 2319 1.1 jonathan struct mbuf *m; 2320 1.1 jonathan const struct sadb_msghdr *mhp; 2321 1.1 jonathan { 2322 1.1 jonathan struct secpolicy *sp; 2323 1.1 jonathan int cnt; 2324 1.1 jonathan u_int dir; 2325 1.1 jonathan struct mbuf *n; 2326 1.1 jonathan 2327 1.1 jonathan /* sanity check */ 2328 1.1 jonathan if (so == NULL || m == NULL || mhp == NULL || mhp->msg == NULL) 2329 1.1 jonathan panic("key_spddump: NULL pointer is passed.\n"); 2330 1.1 jonathan 2331 1.1 jonathan /* search SPD entry and get buffer size. */ 2332 1.1 jonathan cnt = 0; 2333 1.1 jonathan for (dir = 0; dir < IPSEC_DIR_MAX; dir++) { 2334 1.1 jonathan LIST_FOREACH(sp, &sptree[dir], chain) { 2335 1.1 jonathan cnt++; 2336 1.1 jonathan } 2337 1.1 jonathan } 2338 1.1 jonathan 2339 1.1 jonathan if (cnt == 0) 2340 1.1 jonathan return key_senderror(so, m, ENOENT); 2341 1.1 jonathan 2342 1.1 jonathan for (dir = 0; dir < IPSEC_DIR_MAX; dir++) { 2343 1.1 jonathan LIST_FOREACH(sp, &sptree[dir], chain) { 2344 1.1 jonathan --cnt; 2345 1.1 jonathan n = key_setdumpsp(sp, SADB_X_SPDDUMP, cnt, 2346 1.1 jonathan mhp->msg->sadb_msg_pid); 2347 1.1 jonathan 2348 1.1 jonathan if (n) 2349 1.1 jonathan key_sendup_mbuf(so, n, KEY_SENDUP_ONE); 2350 1.1 jonathan } 2351 1.1 jonathan } 2352 1.1 jonathan 2353 1.1 jonathan m_freem(m); 2354 1.1 jonathan return 0; 2355 1.1 jonathan } 2356 1.1 jonathan 2357 1.1 jonathan static struct mbuf * 2358 1.1 jonathan key_setdumpsp(sp, type, seq, pid) 2359 1.1 jonathan struct secpolicy *sp; 2360 1.1 jonathan u_int8_t type; 2361 1.1 jonathan u_int32_t seq, pid; 2362 1.1 jonathan { 2363 1.1 jonathan struct mbuf *result = NULL, *m; 2364 1.1 jonathan 2365 1.1 jonathan m = key_setsadbmsg(type, 0, SADB_SATYPE_UNSPEC, seq, pid, sp->refcnt); 2366 1.1 jonathan if (!m) 2367 1.1 jonathan goto fail; 2368 1.1 jonathan result = m; 2369 1.1 jonathan 2370 1.1 jonathan m = key_setsadbaddr(SADB_EXT_ADDRESS_SRC, 2371 1.1 jonathan &sp->spidx.src.sa, sp->spidx.prefs, 2372 1.1 jonathan sp->spidx.ul_proto); 2373 1.1 jonathan if (!m) 2374 1.1 jonathan goto fail; 2375 1.1 jonathan m_cat(result, m); 2376 1.1 jonathan 2377 1.1 jonathan m = key_setsadbaddr(SADB_EXT_ADDRESS_DST, 2378 1.1 jonathan &sp->spidx.dst.sa, sp->spidx.prefd, 2379 1.1 jonathan sp->spidx.ul_proto); 2380 1.1 jonathan if (!m) 2381 1.1 jonathan goto fail; 2382 1.1 jonathan m_cat(result, m); 2383 1.1 jonathan 2384 1.1 jonathan m = key_sp2msg(sp); 2385 1.1 jonathan if (!m) 2386 1.1 jonathan goto fail; 2387 1.1 jonathan m_cat(result, m); 2388 1.1 jonathan 2389 1.1 jonathan if ((result->m_flags & M_PKTHDR) == 0) 2390 1.1 jonathan goto fail; 2391 1.1 jonathan 2392 1.1 jonathan if (result->m_len < sizeof(struct sadb_msg)) { 2393 1.1 jonathan result = m_pullup(result, sizeof(struct sadb_msg)); 2394 1.1 jonathan if (result == NULL) 2395 1.1 jonathan goto fail; 2396 1.1 jonathan } 2397 1.1 jonathan 2398 1.1 jonathan result->m_pkthdr.len = 0; 2399 1.1 jonathan for (m = result; m; m = m->m_next) 2400 1.1 jonathan result->m_pkthdr.len += m->m_len; 2401 1.1 jonathan 2402 1.1 jonathan mtod(result, struct sadb_msg *)->sadb_msg_len = 2403 1.1 jonathan PFKEY_UNIT64(result->m_pkthdr.len); 2404 1.1 jonathan 2405 1.1 jonathan return result; 2406 1.1 jonathan 2407 1.1 jonathan fail: 2408 1.1 jonathan m_freem(result); 2409 1.1 jonathan return NULL; 2410 1.1 jonathan } 2411 1.1 jonathan 2412 1.1 jonathan /* 2413 1.1 jonathan * get PFKEY message length for security policy and request. 2414 1.1 jonathan */ 2415 1.1 jonathan static u_int 2416 1.1 jonathan key_getspreqmsglen(sp) 2417 1.1 jonathan struct secpolicy *sp; 2418 1.1 jonathan { 2419 1.1 jonathan u_int tlen; 2420 1.1 jonathan 2421 1.1 jonathan tlen = sizeof(struct sadb_x_policy); 2422 1.1 jonathan 2423 1.1 jonathan /* if is the policy for ipsec ? */ 2424 1.1 jonathan if (sp->policy != IPSEC_POLICY_IPSEC) 2425 1.1 jonathan return tlen; 2426 1.1 jonathan 2427 1.1 jonathan /* get length of ipsec requests */ 2428 1.1 jonathan { 2429 1.1 jonathan struct ipsecrequest *isr; 2430 1.1 jonathan int len; 2431 1.1 jonathan 2432 1.1 jonathan for (isr = sp->req; isr != NULL; isr = isr->next) { 2433 1.1 jonathan len = sizeof(struct sadb_x_ipsecrequest) 2434 1.1 jonathan + isr->saidx.src.sa.sa_len 2435 1.1 jonathan + isr->saidx.dst.sa.sa_len; 2436 1.1 jonathan 2437 1.1 jonathan tlen += PFKEY_ALIGN8(len); 2438 1.1 jonathan } 2439 1.1 jonathan } 2440 1.1 jonathan 2441 1.1 jonathan return tlen; 2442 1.1 jonathan } 2443 1.1 jonathan 2444 1.1 jonathan /* 2445 1.1 jonathan * SADB_SPDEXPIRE processing 2446 1.1 jonathan * send 2447 1.1 jonathan * <base, address(SD), lifetime(CH), policy> 2448 1.1 jonathan * to KMD by PF_KEY. 2449 1.1 jonathan * 2450 1.1 jonathan * OUT: 0 : succeed 2451 1.1 jonathan * others : error number 2452 1.1 jonathan */ 2453 1.1 jonathan static int 2454 1.1 jonathan key_spdexpire(sp) 2455 1.1 jonathan struct secpolicy *sp; 2456 1.1 jonathan { 2457 1.1 jonathan int s; 2458 1.1 jonathan struct mbuf *result = NULL, *m; 2459 1.1 jonathan int len; 2460 1.1 jonathan int error = -1; 2461 1.1 jonathan struct sadb_lifetime *lt; 2462 1.1 jonathan 2463 1.1 jonathan /* XXX: Why do we lock ? */ 2464 1.1 jonathan s = splsoftnet(); /*called from softclock()*/ 2465 1.1 jonathan 2466 1.1 jonathan /* sanity check */ 2467 1.1 jonathan if (sp == NULL) 2468 1.1 jonathan panic("key_spdexpire: NULL pointer is passed.\n"); 2469 1.1 jonathan 2470 1.1 jonathan /* set msg header */ 2471 1.1 jonathan m = key_setsadbmsg(SADB_X_SPDEXPIRE, 0, 0, 0, 0, 0); 2472 1.1 jonathan if (!m) { 2473 1.1 jonathan error = ENOBUFS; 2474 1.1 jonathan goto fail; 2475 1.1 jonathan } 2476 1.1 jonathan result = m; 2477 1.1 jonathan 2478 1.1 jonathan /* create lifetime extension (current and hard) */ 2479 1.1 jonathan len = PFKEY_ALIGN8(sizeof(*lt)) * 2; 2480 1.1 jonathan m = key_alloc_mbuf(len); 2481 1.1 jonathan if (!m || m->m_next) { /*XXX*/ 2482 1.1 jonathan if (m) 2483 1.1 jonathan m_freem(m); 2484 1.1 jonathan error = ENOBUFS; 2485 1.1 jonathan goto fail; 2486 1.1 jonathan } 2487 1.1 jonathan bzero(mtod(m, caddr_t), len); 2488 1.1 jonathan lt = mtod(m, struct sadb_lifetime *); 2489 1.1 jonathan lt->sadb_lifetime_len = PFKEY_UNIT64(sizeof(struct sadb_lifetime)); 2490 1.1 jonathan lt->sadb_lifetime_exttype = SADB_EXT_LIFETIME_CURRENT; 2491 1.1 jonathan lt->sadb_lifetime_allocations = 0; 2492 1.1 jonathan lt->sadb_lifetime_bytes = 0; 2493 1.1 jonathan lt->sadb_lifetime_addtime = sp->created; 2494 1.1 jonathan lt->sadb_lifetime_usetime = sp->lastused; 2495 1.1 jonathan lt = (struct sadb_lifetime *)(mtod(m, caddr_t) + len / 2); 2496 1.1 jonathan lt->sadb_lifetime_len = PFKEY_UNIT64(sizeof(struct sadb_lifetime)); 2497 1.1 jonathan lt->sadb_lifetime_exttype = SADB_EXT_LIFETIME_HARD; 2498 1.1 jonathan lt->sadb_lifetime_allocations = 0; 2499 1.1 jonathan lt->sadb_lifetime_bytes = 0; 2500 1.1 jonathan lt->sadb_lifetime_addtime = sp->lifetime; 2501 1.1 jonathan lt->sadb_lifetime_usetime = sp->validtime; 2502 1.1 jonathan m_cat(result, m); 2503 1.1 jonathan 2504 1.1 jonathan /* set sadb_address for source */ 2505 1.1 jonathan m = key_setsadbaddr(SADB_EXT_ADDRESS_SRC, 2506 1.1 jonathan &sp->spidx.src.sa, 2507 1.1 jonathan sp->spidx.prefs, sp->spidx.ul_proto); 2508 1.1 jonathan if (!m) { 2509 1.1 jonathan error = ENOBUFS; 2510 1.1 jonathan goto fail; 2511 1.1 jonathan } 2512 1.1 jonathan m_cat(result, m); 2513 1.1 jonathan 2514 1.1 jonathan /* set sadb_address for destination */ 2515 1.1 jonathan m = key_setsadbaddr(SADB_EXT_ADDRESS_DST, 2516 1.1 jonathan &sp->spidx.dst.sa, 2517 1.1 jonathan sp->spidx.prefd, sp->spidx.ul_proto); 2518 1.1 jonathan if (!m) { 2519 1.1 jonathan error = ENOBUFS; 2520 1.1 jonathan goto fail; 2521 1.1 jonathan } 2522 1.1 jonathan m_cat(result, m); 2523 1.1 jonathan 2524 1.1 jonathan /* set secpolicy */ 2525 1.1 jonathan m = key_sp2msg(sp); 2526 1.1 jonathan if (!m) { 2527 1.1 jonathan error = ENOBUFS; 2528 1.1 jonathan goto fail; 2529 1.1 jonathan } 2530 1.1 jonathan m_cat(result, m); 2531 1.1 jonathan 2532 1.1 jonathan if ((result->m_flags & M_PKTHDR) == 0) { 2533 1.1 jonathan error = EINVAL; 2534 1.1 jonathan goto fail; 2535 1.1 jonathan } 2536 1.1 jonathan 2537 1.1 jonathan if (result->m_len < sizeof(struct sadb_msg)) { 2538 1.1 jonathan result = m_pullup(result, sizeof(struct sadb_msg)); 2539 1.1 jonathan if (result == NULL) { 2540 1.1 jonathan error = ENOBUFS; 2541 1.1 jonathan goto fail; 2542 1.1 jonathan } 2543 1.1 jonathan } 2544 1.1 jonathan 2545 1.1 jonathan result->m_pkthdr.len = 0; 2546 1.1 jonathan for (m = result; m; m = m->m_next) 2547 1.1 jonathan result->m_pkthdr.len += m->m_len; 2548 1.1 jonathan 2549 1.1 jonathan mtod(result, struct sadb_msg *)->sadb_msg_len = 2550 1.1 jonathan PFKEY_UNIT64(result->m_pkthdr.len); 2551 1.1 jonathan 2552 1.1 jonathan return key_sendup_mbuf(NULL, result, KEY_SENDUP_REGISTERED); 2553 1.1 jonathan 2554 1.1 jonathan fail: 2555 1.1 jonathan if (result) 2556 1.1 jonathan m_freem(result); 2557 1.1 jonathan splx(s); 2558 1.1 jonathan return error; 2559 1.1 jonathan } 2560 1.1 jonathan 2561 1.1 jonathan /* %%% SAD management */ 2562 1.1 jonathan /* 2563 1.1 jonathan * allocating a memory for new SA head, and copy from the values of mhp. 2564 1.1 jonathan * OUT: NULL : failure due to the lack of memory. 2565 1.1 jonathan * others : pointer to new SA head. 2566 1.1 jonathan */ 2567 1.1 jonathan static struct secashead * 2568 1.1 jonathan key_newsah(saidx) 2569 1.1 jonathan struct secasindex *saidx; 2570 1.1 jonathan { 2571 1.1 jonathan struct secashead *newsah; 2572 1.1 jonathan 2573 1.1 jonathan IPSEC_ASSERT(saidx != NULL, ("key_newsaidx: null saidx")); 2574 1.1 jonathan 2575 1.1 jonathan newsah = (struct secashead *) 2576 1.1 jonathan malloc(sizeof(struct secashead), M_SECA, M_NOWAIT|M_ZERO); 2577 1.1 jonathan if (newsah != NULL) { 2578 1.1 jonathan int i; 2579 1.1 jonathan for (i = 0; i < sizeof(newsah->savtree)/sizeof(newsah->savtree[0]); i++) 2580 1.1 jonathan LIST_INIT(&newsah->savtree[i]); 2581 1.1 jonathan newsah->saidx = *saidx; 2582 1.1 jonathan 2583 1.1 jonathan /* add to saidxtree */ 2584 1.1 jonathan newsah->state = SADB_SASTATE_MATURE; 2585 1.1 jonathan LIST_INSERT_HEAD(&sahtree, newsah, chain); 2586 1.1 jonathan } 2587 1.1 jonathan return(newsah); 2588 1.1 jonathan } 2589 1.1 jonathan 2590 1.1 jonathan /* 2591 1.1 jonathan * delete SA index and all SA registerd. 2592 1.1 jonathan */ 2593 1.1 jonathan static void 2594 1.1 jonathan key_delsah(sah) 2595 1.1 jonathan struct secashead *sah; 2596 1.1 jonathan { 2597 1.1 jonathan struct secasvar *sav, *nextsav; 2598 1.1 jonathan u_int stateidx, state; 2599 1.1 jonathan int s; 2600 1.1 jonathan int zombie = 0; 2601 1.1 jonathan 2602 1.1 jonathan /* sanity check */ 2603 1.1 jonathan if (sah == NULL) 2604 1.1 jonathan panic("key_delsah: NULL pointer is passed.\n"); 2605 1.1 jonathan 2606 1.1 jonathan s = splsoftnet(); /*called from softclock()*/ 2607 1.1 jonathan 2608 1.1 jonathan /* searching all SA registerd in the secindex. */ 2609 1.1 jonathan for (stateidx = 0; 2610 1.1 jonathan stateidx < _ARRAYLEN(saorder_state_any); 2611 1.1 jonathan stateidx++) { 2612 1.1 jonathan 2613 1.1 jonathan state = saorder_state_any[stateidx]; 2614 1.1 jonathan for (sav = (struct secasvar *)LIST_FIRST(&sah->savtree[state]); 2615 1.1 jonathan sav != NULL; 2616 1.1 jonathan sav = nextsav) { 2617 1.1 jonathan 2618 1.1 jonathan nextsav = LIST_NEXT(sav, chain); 2619 1.1 jonathan 2620 1.1 jonathan if (sav->refcnt == 0) { 2621 1.1 jonathan /* sanity check */ 2622 1.1 jonathan KEY_CHKSASTATE(state, sav->state, "key_delsah"); 2623 1.1 jonathan KEY_FREESAV(&sav); 2624 1.1 jonathan } else { 2625 1.1 jonathan /* give up to delete this sa */ 2626 1.1 jonathan zombie++; 2627 1.1 jonathan } 2628 1.1 jonathan } 2629 1.1 jonathan } 2630 1.1 jonathan 2631 1.1 jonathan /* don't delete sah only if there are savs. */ 2632 1.1 jonathan if (zombie) { 2633 1.1 jonathan splx(s); 2634 1.1 jonathan return; 2635 1.1 jonathan } 2636 1.1 jonathan 2637 1.1 jonathan if (sah->sa_route.ro_rt) { 2638 1.1 jonathan RTFREE(sah->sa_route.ro_rt); 2639 1.1 jonathan sah->sa_route.ro_rt = (struct rtentry *)NULL; 2640 1.1 jonathan } 2641 1.1 jonathan 2642 1.1 jonathan /* remove from tree of SA index */ 2643 1.1 jonathan if (__LIST_CHAINED(sah)) 2644 1.1 jonathan LIST_REMOVE(sah, chain); 2645 1.1 jonathan 2646 1.1 jonathan KFREE(sah); 2647 1.1 jonathan 2648 1.1 jonathan splx(s); 2649 1.1 jonathan return; 2650 1.1 jonathan } 2651 1.1 jonathan 2652 1.1 jonathan /* 2653 1.1 jonathan * allocating a new SA with LARVAL state. key_add() and key_getspi() call, 2654 1.1 jonathan * and copy the values of mhp into new buffer. 2655 1.1 jonathan * When SAD message type is GETSPI: 2656 1.1 jonathan * to set sequence number from acq_seq++, 2657 1.1 jonathan * to set zero to SPI. 2658 1.1 jonathan * not to call key_setsava(). 2659 1.1 jonathan * OUT: NULL : fail 2660 1.1 jonathan * others : pointer to new secasvar. 2661 1.1 jonathan * 2662 1.1 jonathan * does not modify mbuf. does not free mbuf on error. 2663 1.1 jonathan */ 2664 1.1 jonathan static struct secasvar * 2665 1.1 jonathan key_newsav(m, mhp, sah, errp, where, tag) 2666 1.1 jonathan struct mbuf *m; 2667 1.1 jonathan const struct sadb_msghdr *mhp; 2668 1.1 jonathan struct secashead *sah; 2669 1.1 jonathan int *errp; 2670 1.1 jonathan const char* where; 2671 1.1 jonathan int tag; 2672 1.1 jonathan { 2673 1.1 jonathan struct secasvar *newsav; 2674 1.1 jonathan const struct sadb_sa *xsa; 2675 1.1 jonathan 2676 1.1 jonathan /* sanity check */ 2677 1.1 jonathan if (m == NULL || mhp == NULL || mhp->msg == NULL || sah == NULL) 2678 1.1 jonathan panic("key_newsa: NULL pointer is passed.\n"); 2679 1.1 jonathan 2680 1.1 jonathan KMALLOC(newsav, struct secasvar *, sizeof(struct secasvar)); 2681 1.1 jonathan if (newsav == NULL) { 2682 1.1 jonathan ipseclog((LOG_DEBUG, "key_newsa: No more memory.\n")); 2683 1.1 jonathan *errp = ENOBUFS; 2684 1.1 jonathan goto done; 2685 1.1 jonathan } 2686 1.1 jonathan bzero((caddr_t)newsav, sizeof(struct secasvar)); 2687 1.1 jonathan 2688 1.1 jonathan switch (mhp->msg->sadb_msg_type) { 2689 1.1 jonathan case SADB_GETSPI: 2690 1.1 jonathan newsav->spi = 0; 2691 1.1 jonathan 2692 1.1 jonathan #ifdef IPSEC_DOSEQCHECK 2693 1.1 jonathan /* sync sequence number */ 2694 1.1 jonathan if (mhp->msg->sadb_msg_seq == 0) 2695 1.1 jonathan newsav->seq = 2696 1.1 jonathan (acq_seq = (acq_seq == ~0 ? 1 : ++acq_seq)); 2697 1.1 jonathan else 2698 1.1 jonathan #endif 2699 1.1 jonathan newsav->seq = mhp->msg->sadb_msg_seq; 2700 1.1 jonathan break; 2701 1.1 jonathan 2702 1.1 jonathan case SADB_ADD: 2703 1.1 jonathan /* sanity check */ 2704 1.1 jonathan if (mhp->ext[SADB_EXT_SA] == NULL) { 2705 1.1 jonathan KFREE(newsav), newsav = NULL; 2706 1.1 jonathan ipseclog((LOG_DEBUG, "key_newsa: invalid message is passed.\n")); 2707 1.1 jonathan *errp = EINVAL; 2708 1.1 jonathan goto done; 2709 1.1 jonathan } 2710 1.1 jonathan xsa = (const struct sadb_sa *)mhp->ext[SADB_EXT_SA]; 2711 1.1 jonathan newsav->spi = xsa->sadb_sa_spi; 2712 1.1 jonathan newsav->seq = mhp->msg->sadb_msg_seq; 2713 1.1 jonathan break; 2714 1.1 jonathan default: 2715 1.1 jonathan KFREE(newsav), newsav = NULL; 2716 1.1 jonathan *errp = EINVAL; 2717 1.1 jonathan goto done; 2718 1.1 jonathan } 2719 1.1 jonathan 2720 1.1 jonathan /* copy sav values */ 2721 1.1 jonathan if (mhp->msg->sadb_msg_type != SADB_GETSPI) { 2722 1.1 jonathan *errp = key_setsaval(newsav, m, mhp); 2723 1.1 jonathan if (*errp) { 2724 1.1 jonathan KFREE(newsav), newsav = NULL; 2725 1.1 jonathan goto done; 2726 1.1 jonathan } 2727 1.1 jonathan } 2728 1.1 jonathan 2729 1.1 jonathan /* reset created */ 2730 1.1 jonathan newsav->created = time_second; 2731 1.1 jonathan newsav->pid = mhp->msg->sadb_msg_pid; 2732 1.1 jonathan 2733 1.1 jonathan /* add to satree */ 2734 1.1 jonathan newsav->sah = sah; 2735 1.1 jonathan newsav->refcnt = 1; 2736 1.1 jonathan newsav->state = SADB_SASTATE_LARVAL; 2737 1.1 jonathan LIST_INSERT_TAIL(&sah->savtree[SADB_SASTATE_LARVAL], newsav, 2738 1.1 jonathan secasvar, chain); 2739 1.1 jonathan done: 2740 1.1 jonathan KEYDEBUG(KEYDEBUG_IPSEC_STAMP, 2741 1.1 jonathan printf("DP key_newsav from %s:%u return SP:%p\n", 2742 1.1 jonathan where, tag, newsav)); 2743 1.1 jonathan 2744 1.1 jonathan return newsav; 2745 1.1 jonathan } 2746 1.1 jonathan 2747 1.1 jonathan /* 2748 1.1 jonathan * free() SA variable entry. 2749 1.1 jonathan */ 2750 1.1 jonathan static void 2751 1.1 jonathan key_delsav(sav) 2752 1.1 jonathan struct secasvar *sav; 2753 1.1 jonathan { 2754 1.1 jonathan IPSEC_ASSERT(sav != NULL, ("key_delsav: null sav")); 2755 1.1 jonathan IPSEC_ASSERT(sav->refcnt == 0, 2756 1.1 jonathan ("key_delsav: reference count %u > 0", sav->refcnt)); 2757 1.1 jonathan 2758 1.1 jonathan /* remove from SA header */ 2759 1.1 jonathan if (__LIST_CHAINED(sav)) 2760 1.1 jonathan LIST_REMOVE(sav, chain); 2761 1.1 jonathan 2762 1.1 jonathan /* 2763 1.1 jonathan * Cleanup xform state. Note that zeroize'ing causes the 2764 1.1 jonathan * keys to be cleared; otherwise we must do it ourself. 2765 1.1 jonathan */ 2766 1.1 jonathan if (sav->tdb_xform != NULL) { 2767 1.1 jonathan sav->tdb_xform->xf_zeroize(sav); 2768 1.1 jonathan sav->tdb_xform = NULL; 2769 1.1 jonathan } else { 2770 1.1 jonathan if (sav->key_auth != NULL) 2771 1.1 jonathan bzero(_KEYBUF(sav->key_auth), _KEYLEN(sav->key_auth)); 2772 1.1 jonathan if (sav->key_enc != NULL) 2773 1.1 jonathan bzero(_KEYBUF(sav->key_enc), _KEYLEN(sav->key_enc)); 2774 1.1 jonathan } 2775 1.1 jonathan if (sav->key_auth != NULL) { 2776 1.1 jonathan KFREE(sav->key_auth); 2777 1.1 jonathan sav->key_auth = NULL; 2778 1.1 jonathan } 2779 1.1 jonathan if (sav->key_enc != NULL) { 2780 1.1 jonathan KFREE(sav->key_enc); 2781 1.1 jonathan sav->key_enc = NULL; 2782 1.1 jonathan } 2783 1.1 jonathan if (sav->sched) { 2784 1.1 jonathan bzero(sav->sched, sav->schedlen); 2785 1.1 jonathan KFREE(sav->sched); 2786 1.1 jonathan sav->sched = NULL; 2787 1.1 jonathan } 2788 1.1 jonathan if (sav->replay != NULL) { 2789 1.1 jonathan KFREE(sav->replay); 2790 1.1 jonathan sav->replay = NULL; 2791 1.1 jonathan } 2792 1.1 jonathan if (sav->lft_c != NULL) { 2793 1.1 jonathan KFREE(sav->lft_c); 2794 1.1 jonathan sav->lft_c = NULL; 2795 1.1 jonathan } 2796 1.1 jonathan if (sav->lft_h != NULL) { 2797 1.1 jonathan KFREE(sav->lft_h); 2798 1.1 jonathan sav->lft_h = NULL; 2799 1.1 jonathan } 2800 1.1 jonathan if (sav->lft_s != NULL) { 2801 1.1 jonathan KFREE(sav->lft_s); 2802 1.1 jonathan sav->lft_s = NULL; 2803 1.1 jonathan } 2804 1.1 jonathan if (sav->iv != NULL) { 2805 1.1 jonathan KFREE(sav->iv); 2806 1.1 jonathan sav->iv = NULL; 2807 1.1 jonathan } 2808 1.1 jonathan 2809 1.1 jonathan KFREE(sav); 2810 1.1 jonathan 2811 1.1 jonathan return; 2812 1.1 jonathan } 2813 1.1 jonathan 2814 1.1 jonathan /* 2815 1.1 jonathan * search SAD. 2816 1.1 jonathan * OUT: 2817 1.1 jonathan * NULL : not found 2818 1.1 jonathan * others : found, pointer to a SA. 2819 1.1 jonathan */ 2820 1.1 jonathan static struct secashead * 2821 1.1 jonathan key_getsah(saidx) 2822 1.1 jonathan struct secasindex *saidx; 2823 1.1 jonathan { 2824 1.1 jonathan struct secashead *sah; 2825 1.1 jonathan 2826 1.1 jonathan LIST_FOREACH(sah, &sahtree, chain) { 2827 1.1 jonathan if (sah->state == SADB_SASTATE_DEAD) 2828 1.1 jonathan continue; 2829 1.1 jonathan if (key_cmpsaidx(&sah->saidx, saidx, CMP_REQID)) 2830 1.1 jonathan return sah; 2831 1.1 jonathan } 2832 1.1 jonathan 2833 1.1 jonathan return NULL; 2834 1.1 jonathan } 2835 1.1 jonathan 2836 1.1 jonathan /* 2837 1.1 jonathan * check not to be duplicated SPI. 2838 1.1 jonathan * NOTE: this function is too slow due to searching all SAD. 2839 1.1 jonathan * OUT: 2840 1.1 jonathan * NULL : not found 2841 1.1 jonathan * others : found, pointer to a SA. 2842 1.1 jonathan */ 2843 1.1 jonathan static struct secasvar * 2844 1.1 jonathan key_checkspidup(saidx, spi) 2845 1.1 jonathan struct secasindex *saidx; 2846 1.1 jonathan u_int32_t spi; 2847 1.1 jonathan { 2848 1.1 jonathan struct secashead *sah; 2849 1.1 jonathan struct secasvar *sav; 2850 1.1 jonathan 2851 1.1 jonathan /* check address family */ 2852 1.1 jonathan if (saidx->src.sa.sa_family != saidx->dst.sa.sa_family) { 2853 1.1 jonathan ipseclog((LOG_DEBUG, "key_checkspidup: address family mismatched.\n")); 2854 1.1 jonathan return NULL; 2855 1.1 jonathan } 2856 1.1 jonathan 2857 1.1 jonathan /* check all SAD */ 2858 1.1 jonathan LIST_FOREACH(sah, &sahtree, chain) { 2859 1.1 jonathan if (!key_ismyaddr((struct sockaddr *)&sah->saidx.dst)) 2860 1.1 jonathan continue; 2861 1.1 jonathan sav = key_getsavbyspi(sah, spi); 2862 1.1 jonathan if (sav != NULL) 2863 1.1 jonathan return sav; 2864 1.1 jonathan } 2865 1.1 jonathan 2866 1.1 jonathan return NULL; 2867 1.1 jonathan } 2868 1.1 jonathan 2869 1.1 jonathan /* 2870 1.1 jonathan * search SAD litmited alive SA, protocol, SPI. 2871 1.1 jonathan * OUT: 2872 1.1 jonathan * NULL : not found 2873 1.1 jonathan * others : found, pointer to a SA. 2874 1.1 jonathan */ 2875 1.1 jonathan static struct secasvar * 2876 1.1 jonathan key_getsavbyspi(sah, spi) 2877 1.1 jonathan struct secashead *sah; 2878 1.1 jonathan u_int32_t spi; 2879 1.1 jonathan { 2880 1.1 jonathan struct secasvar *sav; 2881 1.1 jonathan u_int stateidx, state; 2882 1.1 jonathan 2883 1.1 jonathan /* search all status */ 2884 1.1 jonathan for (stateidx = 0; 2885 1.1 jonathan stateidx < _ARRAYLEN(saorder_state_alive); 2886 1.1 jonathan stateidx++) { 2887 1.1 jonathan 2888 1.1 jonathan state = saorder_state_alive[stateidx]; 2889 1.1 jonathan LIST_FOREACH(sav, &sah->savtree[state], chain) { 2890 1.1 jonathan 2891 1.1 jonathan /* sanity check */ 2892 1.1 jonathan if (sav->state != state) { 2893 1.1 jonathan ipseclog((LOG_DEBUG, "key_getsavbyspi: " 2894 1.1 jonathan "invalid sav->state (queue: %d SA: %d)\n", 2895 1.1 jonathan state, sav->state)); 2896 1.1 jonathan continue; 2897 1.1 jonathan } 2898 1.1 jonathan 2899 1.1 jonathan if (sav->spi == spi) 2900 1.1 jonathan return sav; 2901 1.1 jonathan } 2902 1.1 jonathan } 2903 1.1 jonathan 2904 1.1 jonathan return NULL; 2905 1.1 jonathan } 2906 1.1 jonathan 2907 1.1 jonathan /* 2908 1.1 jonathan * copy SA values from PF_KEY message except *SPI, SEQ, PID, STATE and TYPE*. 2909 1.1 jonathan * You must update these if need. 2910 1.1 jonathan * OUT: 0: success. 2911 1.1 jonathan * !0: failure. 2912 1.1 jonathan * 2913 1.1 jonathan * does not modify mbuf. does not free mbuf on error. 2914 1.1 jonathan */ 2915 1.1 jonathan static int 2916 1.1 jonathan key_setsaval(sav, m, mhp) 2917 1.1 jonathan struct secasvar *sav; 2918 1.1 jonathan struct mbuf *m; 2919 1.1 jonathan const struct sadb_msghdr *mhp; 2920 1.1 jonathan { 2921 1.1 jonathan int error = 0; 2922 1.1 jonathan 2923 1.1 jonathan /* sanity check */ 2924 1.1 jonathan if (m == NULL || mhp == NULL || mhp->msg == NULL) 2925 1.1 jonathan panic("key_setsaval: NULL pointer is passed.\n"); 2926 1.1 jonathan 2927 1.1 jonathan /* initialization */ 2928 1.1 jonathan sav->replay = NULL; 2929 1.1 jonathan sav->key_auth = NULL; 2930 1.1 jonathan sav->key_enc = NULL; 2931 1.1 jonathan sav->sched = NULL; 2932 1.1 jonathan sav->schedlen = 0; 2933 1.1 jonathan sav->iv = NULL; 2934 1.1 jonathan sav->lft_c = NULL; 2935 1.1 jonathan sav->lft_h = NULL; 2936 1.1 jonathan sav->lft_s = NULL; 2937 1.1 jonathan sav->tdb_xform = NULL; /* transform */ 2938 1.1 jonathan sav->tdb_encalgxform = NULL; /* encoding algorithm */ 2939 1.1 jonathan sav->tdb_authalgxform = NULL; /* authentication algorithm */ 2940 1.1 jonathan sav->tdb_compalgxform = NULL; /* compression algorithm */ 2941 1.1 jonathan 2942 1.1 jonathan /* SA */ 2943 1.1 jonathan if (mhp->ext[SADB_EXT_SA] != NULL) { 2944 1.1 jonathan const struct sadb_sa *sa0; 2945 1.1 jonathan 2946 1.1 jonathan sa0 = (const struct sadb_sa *)mhp->ext[SADB_EXT_SA]; 2947 1.1 jonathan if (mhp->extlen[SADB_EXT_SA] < sizeof(*sa0)) { 2948 1.1 jonathan error = EINVAL; 2949 1.1 jonathan goto fail; 2950 1.1 jonathan } 2951 1.1 jonathan 2952 1.1 jonathan sav->alg_auth = sa0->sadb_sa_auth; 2953 1.1 jonathan sav->alg_enc = sa0->sadb_sa_encrypt; 2954 1.1 jonathan sav->flags = sa0->sadb_sa_flags; 2955 1.1 jonathan 2956 1.1 jonathan /* replay window */ 2957 1.1 jonathan if ((sa0->sadb_sa_flags & SADB_X_EXT_OLD) == 0) { 2958 1.1 jonathan sav->replay = (struct secreplay *) 2959 1.1 jonathan malloc(sizeof(struct secreplay)+sa0->sadb_sa_replay, M_SECA, M_NOWAIT|M_ZERO); 2960 1.1 jonathan if (sav->replay == NULL) { 2961 1.1 jonathan ipseclog((LOG_DEBUG, "key_setsaval: No more memory.\n")); 2962 1.1 jonathan error = ENOBUFS; 2963 1.1 jonathan goto fail; 2964 1.1 jonathan } 2965 1.1 jonathan if (sa0->sadb_sa_replay != 0) 2966 1.1 jonathan sav->replay->bitmap = (caddr_t)(sav->replay+1); 2967 1.1 jonathan sav->replay->wsize = sa0->sadb_sa_replay; 2968 1.1 jonathan } 2969 1.1 jonathan } 2970 1.1 jonathan 2971 1.1 jonathan /* Authentication keys */ 2972 1.1 jonathan if (mhp->ext[SADB_EXT_KEY_AUTH] != NULL) { 2973 1.1 jonathan const struct sadb_key *key0; 2974 1.1 jonathan int len; 2975 1.1 jonathan 2976 1.1 jonathan key0 = (const struct sadb_key *)mhp->ext[SADB_EXT_KEY_AUTH]; 2977 1.1 jonathan len = mhp->extlen[SADB_EXT_KEY_AUTH]; 2978 1.1 jonathan 2979 1.1 jonathan error = 0; 2980 1.1 jonathan if (len < sizeof(*key0)) { 2981 1.1 jonathan error = EINVAL; 2982 1.1 jonathan goto fail; 2983 1.1 jonathan } 2984 1.1 jonathan switch (mhp->msg->sadb_msg_satype) { 2985 1.1 jonathan case SADB_SATYPE_AH: 2986 1.1 jonathan case SADB_SATYPE_ESP: 2987 1.1 jonathan if (len == PFKEY_ALIGN8(sizeof(struct sadb_key)) && 2988 1.1 jonathan sav->alg_auth != SADB_X_AALG_NULL) 2989 1.1 jonathan error = EINVAL; 2990 1.1 jonathan break; 2991 1.1 jonathan case SADB_X_SATYPE_IPCOMP: 2992 1.1 jonathan default: 2993 1.1 jonathan error = EINVAL; 2994 1.1 jonathan break; 2995 1.1 jonathan } 2996 1.1 jonathan if (error) { 2997 1.1 jonathan ipseclog((LOG_DEBUG, "key_setsaval: invalid key_auth values.\n")); 2998 1.1 jonathan goto fail; 2999 1.1 jonathan } 3000 1.1 jonathan 3001 1.1 jonathan sav->key_auth = (struct sadb_key *)key_newbuf(key0, len); 3002 1.1 jonathan if (sav->key_auth == NULL) { 3003 1.1 jonathan ipseclog((LOG_DEBUG, "key_setsaval: No more memory.\n")); 3004 1.1 jonathan error = ENOBUFS; 3005 1.1 jonathan goto fail; 3006 1.1 jonathan } 3007 1.1 jonathan } 3008 1.1 jonathan 3009 1.1 jonathan /* Encryption key */ 3010 1.1 jonathan if (mhp->ext[SADB_EXT_KEY_ENCRYPT] != NULL) { 3011 1.1 jonathan const struct sadb_key *key0; 3012 1.1 jonathan int len; 3013 1.1 jonathan 3014 1.1 jonathan key0 = (const struct sadb_key *)mhp->ext[SADB_EXT_KEY_ENCRYPT]; 3015 1.1 jonathan len = mhp->extlen[SADB_EXT_KEY_ENCRYPT]; 3016 1.1 jonathan 3017 1.1 jonathan error = 0; 3018 1.1 jonathan if (len < sizeof(*key0)) { 3019 1.1 jonathan error = EINVAL; 3020 1.1 jonathan goto fail; 3021 1.1 jonathan } 3022 1.1 jonathan switch (mhp->msg->sadb_msg_satype) { 3023 1.1 jonathan case SADB_SATYPE_ESP: 3024 1.1 jonathan if (len == PFKEY_ALIGN8(sizeof(struct sadb_key)) && 3025 1.1 jonathan sav->alg_enc != SADB_EALG_NULL) { 3026 1.1 jonathan error = EINVAL; 3027 1.1 jonathan break; 3028 1.1 jonathan } 3029 1.1 jonathan sav->key_enc = (struct sadb_key *)key_newbuf(key0, len); 3030 1.1 jonathan if (sav->key_enc == NULL) { 3031 1.1 jonathan ipseclog((LOG_DEBUG, "key_setsaval: No more memory.\n")); 3032 1.1 jonathan error = ENOBUFS; 3033 1.1 jonathan goto fail; 3034 1.1 jonathan } 3035 1.1 jonathan break; 3036 1.1 jonathan case SADB_X_SATYPE_IPCOMP: 3037 1.1 jonathan if (len != PFKEY_ALIGN8(sizeof(struct sadb_key))) 3038 1.1 jonathan error = EINVAL; 3039 1.1 jonathan sav->key_enc = NULL; /*just in case*/ 3040 1.1 jonathan break; 3041 1.1 jonathan case SADB_SATYPE_AH: 3042 1.1 jonathan default: 3043 1.1 jonathan error = EINVAL; 3044 1.1 jonathan break; 3045 1.1 jonathan } 3046 1.1 jonathan if (error) { 3047 1.1 jonathan ipseclog((LOG_DEBUG, "key_setsatval: invalid key_enc value.\n")); 3048 1.1 jonathan goto fail; 3049 1.1 jonathan } 3050 1.1 jonathan } 3051 1.1 jonathan 3052 1.1 jonathan /* set iv */ 3053 1.1 jonathan sav->ivlen = 0; 3054 1.1 jonathan 3055 1.1 jonathan switch (mhp->msg->sadb_msg_satype) { 3056 1.1 jonathan case SADB_SATYPE_AH: 3057 1.1 jonathan error = xform_init(sav, XF_AH); 3058 1.1 jonathan break; 3059 1.1 jonathan case SADB_SATYPE_ESP: 3060 1.1 jonathan error = xform_init(sav, XF_ESP); 3061 1.1 jonathan break; 3062 1.1 jonathan case SADB_X_SATYPE_IPCOMP: 3063 1.1 jonathan error = xform_init(sav, XF_IPCOMP); 3064 1.1 jonathan break; 3065 1.1 jonathan } 3066 1.1 jonathan if (error) { 3067 1.1 jonathan ipseclog((LOG_DEBUG, 3068 1.1 jonathan "key_setsaval: unable to initialize SA type %u.\n", 3069 1.1 jonathan mhp->msg->sadb_msg_satype)); 3070 1.1 jonathan goto fail; 3071 1.1 jonathan } 3072 1.1 jonathan 3073 1.1 jonathan /* reset created */ 3074 1.1 jonathan sav->created = time_second; 3075 1.1 jonathan 3076 1.1 jonathan /* make lifetime for CURRENT */ 3077 1.1 jonathan KMALLOC(sav->lft_c, struct sadb_lifetime *, 3078 1.1 jonathan sizeof(struct sadb_lifetime)); 3079 1.1 jonathan if (sav->lft_c == NULL) { 3080 1.1 jonathan ipseclog((LOG_DEBUG, "key_setsaval: No more memory.\n")); 3081 1.1 jonathan error = ENOBUFS; 3082 1.1 jonathan goto fail; 3083 1.1 jonathan } 3084 1.1 jonathan 3085 1.1 jonathan sav->lft_c->sadb_lifetime_len = 3086 1.1 jonathan PFKEY_UNIT64(sizeof(struct sadb_lifetime)); 3087 1.1 jonathan sav->lft_c->sadb_lifetime_exttype = SADB_EXT_LIFETIME_CURRENT; 3088 1.1 jonathan sav->lft_c->sadb_lifetime_allocations = 0; 3089 1.1 jonathan sav->lft_c->sadb_lifetime_bytes = 0; 3090 1.1 jonathan sav->lft_c->sadb_lifetime_addtime = time_second; 3091 1.1 jonathan sav->lft_c->sadb_lifetime_usetime = 0; 3092 1.1 jonathan 3093 1.1 jonathan /* lifetimes for HARD and SOFT */ 3094 1.1 jonathan { 3095 1.1 jonathan const struct sadb_lifetime *lft0; 3096 1.1 jonathan 3097 1.1 jonathan lft0 = (struct sadb_lifetime *)mhp->ext[SADB_EXT_LIFETIME_HARD]; 3098 1.1 jonathan if (lft0 != NULL) { 3099 1.1 jonathan if (mhp->extlen[SADB_EXT_LIFETIME_HARD] < sizeof(*lft0)) { 3100 1.1 jonathan error = EINVAL; 3101 1.1 jonathan goto fail; 3102 1.1 jonathan } 3103 1.1 jonathan sav->lft_h = (struct sadb_lifetime *)key_newbuf(lft0, 3104 1.1 jonathan sizeof(*lft0)); 3105 1.1 jonathan if (sav->lft_h == NULL) { 3106 1.1 jonathan ipseclog((LOG_DEBUG, "key_setsaval: No more memory.\n")); 3107 1.1 jonathan error = ENOBUFS; 3108 1.1 jonathan goto fail; 3109 1.1 jonathan } 3110 1.1 jonathan /* to be initialize ? */ 3111 1.1 jonathan } 3112 1.1 jonathan 3113 1.1 jonathan lft0 = (struct sadb_lifetime *)mhp->ext[SADB_EXT_LIFETIME_SOFT]; 3114 1.1 jonathan if (lft0 != NULL) { 3115 1.1 jonathan if (mhp->extlen[SADB_EXT_LIFETIME_SOFT] < sizeof(*lft0)) { 3116 1.1 jonathan error = EINVAL; 3117 1.1 jonathan goto fail; 3118 1.1 jonathan } 3119 1.1 jonathan sav->lft_s = (struct sadb_lifetime *)key_newbuf(lft0, 3120 1.1 jonathan sizeof(*lft0)); 3121 1.1 jonathan if (sav->lft_s == NULL) { 3122 1.1 jonathan ipseclog((LOG_DEBUG, "key_setsaval: No more memory.\n")); 3123 1.1 jonathan error = ENOBUFS; 3124 1.1 jonathan goto fail; 3125 1.1 jonathan } 3126 1.1 jonathan /* to be initialize ? */ 3127 1.1 jonathan } 3128 1.1 jonathan } 3129 1.1 jonathan 3130 1.1 jonathan return 0; 3131 1.1 jonathan 3132 1.1 jonathan fail: 3133 1.1 jonathan /* initialization */ 3134 1.1 jonathan if (sav->replay != NULL) { 3135 1.1 jonathan KFREE(sav->replay); 3136 1.1 jonathan sav->replay = NULL; 3137 1.1 jonathan } 3138 1.1 jonathan if (sav->key_auth != NULL) { 3139 1.1 jonathan KFREE(sav->key_auth); 3140 1.1 jonathan sav->key_auth = NULL; 3141 1.1 jonathan } 3142 1.1 jonathan if (sav->key_enc != NULL) { 3143 1.1 jonathan KFREE(sav->key_enc); 3144 1.1 jonathan sav->key_enc = NULL; 3145 1.1 jonathan } 3146 1.1 jonathan if (sav->sched) { 3147 1.1 jonathan KFREE(sav->sched); 3148 1.1 jonathan sav->sched = NULL; 3149 1.1 jonathan } 3150 1.1 jonathan if (sav->iv != NULL) { 3151 1.1 jonathan KFREE(sav->iv); 3152 1.1 jonathan sav->iv = NULL; 3153 1.1 jonathan } 3154 1.1 jonathan if (sav->lft_c != NULL) { 3155 1.1 jonathan KFREE(sav->lft_c); 3156 1.1 jonathan sav->lft_c = NULL; 3157 1.1 jonathan } 3158 1.1 jonathan if (sav->lft_h != NULL) { 3159 1.1 jonathan KFREE(sav->lft_h); 3160 1.1 jonathan sav->lft_h = NULL; 3161 1.1 jonathan } 3162 1.1 jonathan if (sav->lft_s != NULL) { 3163 1.1 jonathan KFREE(sav->lft_s); 3164 1.1 jonathan sav->lft_s = NULL; 3165 1.1 jonathan } 3166 1.1 jonathan 3167 1.1 jonathan return error; 3168 1.1 jonathan } 3169 1.1 jonathan 3170 1.1 jonathan /* 3171 1.1 jonathan * validation with a secasvar entry, and set SADB_SATYPE_MATURE. 3172 1.1 jonathan * OUT: 0: valid 3173 1.1 jonathan * other: errno 3174 1.1 jonathan */ 3175 1.1 jonathan static int 3176 1.1 jonathan key_mature(sav) 3177 1.1 jonathan struct secasvar *sav; 3178 1.1 jonathan { 3179 1.1 jonathan int error; 3180 1.1 jonathan 3181 1.1 jonathan /* check SPI value */ 3182 1.1 jonathan switch (sav->sah->saidx.proto) { 3183 1.1 jonathan case IPPROTO_ESP: 3184 1.1 jonathan case IPPROTO_AH: 3185 1.1 jonathan if (ntohl(sav->spi) >= 0 && ntohl(sav->spi) <= 255) { 3186 1.1 jonathan ipseclog((LOG_DEBUG, 3187 1.1 jonathan "key_mature: illegal range of SPI %u.\n", 3188 1.1 jonathan (u_int32_t)ntohl(sav->spi))); 3189 1.1 jonathan return EINVAL; 3190 1.1 jonathan } 3191 1.1 jonathan break; 3192 1.1 jonathan } 3193 1.1 jonathan 3194 1.1 jonathan /* check satype */ 3195 1.1 jonathan switch (sav->sah->saidx.proto) { 3196 1.1 jonathan case IPPROTO_ESP: 3197 1.1 jonathan /* check flags */ 3198 1.1 jonathan if ((sav->flags & (SADB_X_EXT_OLD|SADB_X_EXT_DERIV)) == 3199 1.1 jonathan (SADB_X_EXT_OLD|SADB_X_EXT_DERIV)) { 3200 1.1 jonathan ipseclog((LOG_DEBUG, "key_mature: " 3201 1.1 jonathan "invalid flag (derived) given to old-esp.\n")); 3202 1.1 jonathan return EINVAL; 3203 1.1 jonathan } 3204 1.1 jonathan error = xform_init(sav, XF_ESP); 3205 1.1 jonathan break; 3206 1.1 jonathan case IPPROTO_AH: 3207 1.1 jonathan /* check flags */ 3208 1.1 jonathan if (sav->flags & SADB_X_EXT_DERIV) { 3209 1.1 jonathan ipseclog((LOG_DEBUG, "key_mature: " 3210 1.1 jonathan "invalid flag (derived) given to AH SA.\n")); 3211 1.1 jonathan return EINVAL; 3212 1.1 jonathan } 3213 1.1 jonathan if (sav->alg_enc != SADB_EALG_NONE) { 3214 1.1 jonathan ipseclog((LOG_DEBUG, "key_mature: " 3215 1.1 jonathan "protocol and algorithm mismated.\n")); 3216 1.1 jonathan return(EINVAL); 3217 1.1 jonathan } 3218 1.1 jonathan error = xform_init(sav, XF_AH); 3219 1.1 jonathan break; 3220 1.1 jonathan case IPPROTO_IPCOMP: 3221 1.1 jonathan if (sav->alg_auth != SADB_AALG_NONE) { 3222 1.1 jonathan ipseclog((LOG_DEBUG, "key_mature: " 3223 1.1 jonathan "protocol and algorithm mismated.\n")); 3224 1.1 jonathan return(EINVAL); 3225 1.1 jonathan } 3226 1.1 jonathan if ((sav->flags & SADB_X_EXT_RAWCPI) == 0 3227 1.1 jonathan && ntohl(sav->spi) >= 0x10000) { 3228 1.1 jonathan ipseclog((LOG_DEBUG, "key_mature: invalid cpi for IPComp.\n")); 3229 1.1 jonathan return(EINVAL); 3230 1.1 jonathan } 3231 1.1 jonathan error = xform_init(sav, XF_IPCOMP); 3232 1.1 jonathan break; 3233 1.1 jonathan default: 3234 1.1 jonathan ipseclog((LOG_DEBUG, "key_mature: Invalid satype.\n")); 3235 1.1 jonathan error = EPROTONOSUPPORT; 3236 1.1 jonathan break; 3237 1.1 jonathan } 3238 1.1 jonathan if (error == 0) 3239 1.1 jonathan key_sa_chgstate(sav, SADB_SASTATE_MATURE); 3240 1.1 jonathan return (error); 3241 1.1 jonathan } 3242 1.1 jonathan 3243 1.1 jonathan /* 3244 1.1 jonathan * subroutine for SADB_GET and SADB_DUMP. 3245 1.1 jonathan */ 3246 1.1 jonathan static struct mbuf * 3247 1.1 jonathan key_setdumpsa(sav, type, satype, seq, pid) 3248 1.1 jonathan struct secasvar *sav; 3249 1.1 jonathan u_int8_t type, satype; 3250 1.1 jonathan u_int32_t seq, pid; 3251 1.1 jonathan { 3252 1.1 jonathan struct mbuf *result = NULL, *tres = NULL, *m; 3253 1.1 jonathan int l = 0; 3254 1.1 jonathan int i; 3255 1.1 jonathan void *p; 3256 1.1 jonathan int dumporder[] = { 3257 1.1 jonathan SADB_EXT_SA, SADB_X_EXT_SA2, 3258 1.1 jonathan SADB_EXT_LIFETIME_HARD, SADB_EXT_LIFETIME_SOFT, 3259 1.1 jonathan SADB_EXT_LIFETIME_CURRENT, SADB_EXT_ADDRESS_SRC, 3260 1.1 jonathan SADB_EXT_ADDRESS_DST, SADB_EXT_ADDRESS_PROXY, SADB_EXT_KEY_AUTH, 3261 1.1 jonathan SADB_EXT_KEY_ENCRYPT, SADB_EXT_IDENTITY_SRC, 3262 1.1 jonathan SADB_EXT_IDENTITY_DST, SADB_EXT_SENSITIVITY, 3263 1.1 jonathan }; 3264 1.1 jonathan 3265 1.1 jonathan m = key_setsadbmsg(type, 0, satype, seq, pid, sav->refcnt); 3266 1.1 jonathan if (m == NULL) 3267 1.1 jonathan goto fail; 3268 1.1 jonathan result = m; 3269 1.1 jonathan 3270 1.1 jonathan for (i = sizeof(dumporder)/sizeof(dumporder[0]) - 1; i >= 0; i--) { 3271 1.1 jonathan m = NULL; 3272 1.1 jonathan p = NULL; 3273 1.1 jonathan switch (dumporder[i]) { 3274 1.1 jonathan case SADB_EXT_SA: 3275 1.1 jonathan m = key_setsadbsa(sav); 3276 1.1 jonathan if (!m) 3277 1.1 jonathan goto fail; 3278 1.1 jonathan break; 3279 1.1 jonathan 3280 1.1 jonathan case SADB_X_EXT_SA2: 3281 1.1 jonathan m = key_setsadbxsa2(sav->sah->saidx.mode, 3282 1.1 jonathan sav->replay ? sav->replay->count : 0, 3283 1.1 jonathan sav->sah->saidx.reqid); 3284 1.1 jonathan if (!m) 3285 1.1 jonathan goto fail; 3286 1.1 jonathan break; 3287 1.1 jonathan 3288 1.1 jonathan case SADB_EXT_ADDRESS_SRC: 3289 1.1 jonathan m = key_setsadbaddr(SADB_EXT_ADDRESS_SRC, 3290 1.1 jonathan &sav->sah->saidx.src.sa, 3291 1.1 jonathan FULLMASK, IPSEC_ULPROTO_ANY); 3292 1.1 jonathan if (!m) 3293 1.1 jonathan goto fail; 3294 1.1 jonathan break; 3295 1.1 jonathan 3296 1.1 jonathan case SADB_EXT_ADDRESS_DST: 3297 1.1 jonathan m = key_setsadbaddr(SADB_EXT_ADDRESS_DST, 3298 1.1 jonathan &sav->sah->saidx.dst.sa, 3299 1.1 jonathan FULLMASK, IPSEC_ULPROTO_ANY); 3300 1.1 jonathan if (!m) 3301 1.1 jonathan goto fail; 3302 1.1 jonathan break; 3303 1.1 jonathan 3304 1.1 jonathan case SADB_EXT_KEY_AUTH: 3305 1.1 jonathan if (!sav->key_auth) 3306 1.1 jonathan continue; 3307 1.1 jonathan l = PFKEY_UNUNIT64(sav->key_auth->sadb_key_len); 3308 1.1 jonathan p = sav->key_auth; 3309 1.1 jonathan break; 3310 1.1 jonathan 3311 1.1 jonathan case SADB_EXT_KEY_ENCRYPT: 3312 1.1 jonathan if (!sav->key_enc) 3313 1.1 jonathan continue; 3314 1.1 jonathan l = PFKEY_UNUNIT64(sav->key_enc->sadb_key_len); 3315 1.1 jonathan p = sav->key_enc; 3316 1.1 jonathan break; 3317 1.1 jonathan 3318 1.1 jonathan case SADB_EXT_LIFETIME_CURRENT: 3319 1.1 jonathan if (!sav->lft_c) 3320 1.1 jonathan continue; 3321 1.1 jonathan l = PFKEY_UNUNIT64(((struct sadb_ext *)sav->lft_c)->sadb_ext_len); 3322 1.1 jonathan p = sav->lft_c; 3323 1.1 jonathan break; 3324 1.1 jonathan 3325 1.1 jonathan case SADB_EXT_LIFETIME_HARD: 3326 1.1 jonathan if (!sav->lft_h) 3327 1.1 jonathan continue; 3328 1.1 jonathan l = PFKEY_UNUNIT64(((struct sadb_ext *)sav->lft_h)->sadb_ext_len); 3329 1.1 jonathan p = sav->lft_h; 3330 1.1 jonathan break; 3331 1.1 jonathan 3332 1.1 jonathan case SADB_EXT_LIFETIME_SOFT: 3333 1.1 jonathan if (!sav->lft_s) 3334 1.1 jonathan continue; 3335 1.1 jonathan l = PFKEY_UNUNIT64(((struct sadb_ext *)sav->lft_s)->sadb_ext_len); 3336 1.1 jonathan p = sav->lft_s; 3337 1.1 jonathan break; 3338 1.1 jonathan 3339 1.1 jonathan case SADB_EXT_ADDRESS_PROXY: 3340 1.1 jonathan case SADB_EXT_IDENTITY_SRC: 3341 1.1 jonathan case SADB_EXT_IDENTITY_DST: 3342 1.1 jonathan /* XXX: should we brought from SPD ? */ 3343 1.1 jonathan case SADB_EXT_SENSITIVITY: 3344 1.1 jonathan default: 3345 1.1 jonathan continue; 3346 1.1 jonathan } 3347 1.1 jonathan 3348 1.1 jonathan if ((!m && !p) || (m && p)) 3349 1.1 jonathan goto fail; 3350 1.1 jonathan if (p && tres) { 3351 1.1 jonathan M_PREPEND(tres, l, M_DONTWAIT); 3352 1.1 jonathan if (!tres) 3353 1.1 jonathan goto fail; 3354 1.1 jonathan bcopy(p, mtod(tres, caddr_t), l); 3355 1.1 jonathan continue; 3356 1.1 jonathan } 3357 1.1 jonathan if (p) { 3358 1.1 jonathan m = key_alloc_mbuf(l); 3359 1.1 jonathan if (!m) 3360 1.1 jonathan goto fail; 3361 1.1 jonathan m_copyback(m, 0, l, p); 3362 1.1 jonathan } 3363 1.1 jonathan 3364 1.1 jonathan if (tres) 3365 1.1 jonathan m_cat(m, tres); 3366 1.1 jonathan tres = m; 3367 1.1 jonathan } 3368 1.1 jonathan 3369 1.1 jonathan m_cat(result, tres); 3370 1.1 jonathan 3371 1.1 jonathan if (result->m_len < sizeof(struct sadb_msg)) { 3372 1.1 jonathan result = m_pullup(result, sizeof(struct sadb_msg)); 3373 1.1 jonathan if (result == NULL) 3374 1.1 jonathan goto fail; 3375 1.1 jonathan } 3376 1.1 jonathan 3377 1.1 jonathan result->m_pkthdr.len = 0; 3378 1.1 jonathan for (m = result; m; m = m->m_next) 3379 1.1 jonathan result->m_pkthdr.len += m->m_len; 3380 1.1 jonathan 3381 1.1 jonathan mtod(result, struct sadb_msg *)->sadb_msg_len = 3382 1.1 jonathan PFKEY_UNIT64(result->m_pkthdr.len); 3383 1.1 jonathan 3384 1.1 jonathan return result; 3385 1.1 jonathan 3386 1.1 jonathan fail: 3387 1.1 jonathan m_freem(result); 3388 1.1 jonathan m_freem(tres); 3389 1.1 jonathan return NULL; 3390 1.1 jonathan } 3391 1.1 jonathan 3392 1.1 jonathan /* 3393 1.1 jonathan * set data into sadb_msg. 3394 1.1 jonathan */ 3395 1.1 jonathan static struct mbuf * 3396 1.1 jonathan key_setsadbmsg(type, tlen, satype, seq, pid, reserved) 3397 1.1 jonathan u_int8_t type, satype; 3398 1.1 jonathan u_int16_t tlen; 3399 1.1 jonathan u_int32_t seq; 3400 1.1 jonathan pid_t pid; 3401 1.1 jonathan u_int16_t reserved; 3402 1.1 jonathan { 3403 1.1 jonathan struct mbuf *m; 3404 1.1 jonathan struct sadb_msg *p; 3405 1.1 jonathan int len; 3406 1.1 jonathan 3407 1.1 jonathan len = PFKEY_ALIGN8(sizeof(struct sadb_msg)); 3408 1.1 jonathan if (len > MCLBYTES) 3409 1.1 jonathan return NULL; 3410 1.1 jonathan MGETHDR(m, M_DONTWAIT, MT_DATA); 3411 1.1 jonathan if (m && len > MHLEN) { 3412 1.1 jonathan MCLGET(m, M_DONTWAIT); 3413 1.1 jonathan if ((m->m_flags & M_EXT) == 0) { 3414 1.1 jonathan m_freem(m); 3415 1.1 jonathan m = NULL; 3416 1.1 jonathan } 3417 1.1 jonathan } 3418 1.1 jonathan if (!m) 3419 1.1 jonathan return NULL; 3420 1.1 jonathan m->m_pkthdr.len = m->m_len = len; 3421 1.1 jonathan m->m_next = NULL; 3422 1.1 jonathan 3423 1.1 jonathan p = mtod(m, struct sadb_msg *); 3424 1.1 jonathan 3425 1.1 jonathan bzero(p, len); 3426 1.1 jonathan p->sadb_msg_version = PF_KEY_V2; 3427 1.1 jonathan p->sadb_msg_type = type; 3428 1.1 jonathan p->sadb_msg_errno = 0; 3429 1.1 jonathan p->sadb_msg_satype = satype; 3430 1.1 jonathan p->sadb_msg_len = PFKEY_UNIT64(tlen); 3431 1.1 jonathan p->sadb_msg_reserved = reserved; 3432 1.1 jonathan p->sadb_msg_seq = seq; 3433 1.1 jonathan p->sadb_msg_pid = (u_int32_t)pid; 3434 1.1 jonathan 3435 1.1 jonathan return m; 3436 1.1 jonathan } 3437 1.1 jonathan 3438 1.1 jonathan /* 3439 1.1 jonathan * copy secasvar data into sadb_address. 3440 1.1 jonathan */ 3441 1.1 jonathan static struct mbuf * 3442 1.1 jonathan key_setsadbsa(sav) 3443 1.1 jonathan struct secasvar *sav; 3444 1.1 jonathan { 3445 1.1 jonathan struct mbuf *m; 3446 1.1 jonathan struct sadb_sa *p; 3447 1.1 jonathan int len; 3448 1.1 jonathan 3449 1.1 jonathan len = PFKEY_ALIGN8(sizeof(struct sadb_sa)); 3450 1.1 jonathan m = key_alloc_mbuf(len); 3451 1.1 jonathan if (!m || m->m_next) { /*XXX*/ 3452 1.1 jonathan if (m) 3453 1.1 jonathan m_freem(m); 3454 1.1 jonathan return NULL; 3455 1.1 jonathan } 3456 1.1 jonathan 3457 1.1 jonathan p = mtod(m, struct sadb_sa *); 3458 1.1 jonathan 3459 1.1 jonathan bzero(p, len); 3460 1.1 jonathan p->sadb_sa_len = PFKEY_UNIT64(len); 3461 1.1 jonathan p->sadb_sa_exttype = SADB_EXT_SA; 3462 1.1 jonathan p->sadb_sa_spi = sav->spi; 3463 1.1 jonathan p->sadb_sa_replay = (sav->replay != NULL ? sav->replay->wsize : 0); 3464 1.1 jonathan p->sadb_sa_state = sav->state; 3465 1.1 jonathan p->sadb_sa_auth = sav->alg_auth; 3466 1.1 jonathan p->sadb_sa_encrypt = sav->alg_enc; 3467 1.1 jonathan p->sadb_sa_flags = sav->flags; 3468 1.1 jonathan 3469 1.1 jonathan return m; 3470 1.1 jonathan } 3471 1.1 jonathan 3472 1.1 jonathan /* 3473 1.1 jonathan * set data into sadb_address. 3474 1.1 jonathan */ 3475 1.1 jonathan static struct mbuf * 3476 1.1 jonathan key_setsadbaddr(exttype, saddr, prefixlen, ul_proto) 3477 1.1 jonathan u_int16_t exttype; 3478 1.1 jonathan const struct sockaddr *saddr; 3479 1.1 jonathan u_int8_t prefixlen; 3480 1.1 jonathan u_int16_t ul_proto; 3481 1.1 jonathan { 3482 1.1 jonathan struct mbuf *m; 3483 1.1 jonathan struct sadb_address *p; 3484 1.1 jonathan size_t len; 3485 1.1 jonathan 3486 1.1 jonathan len = PFKEY_ALIGN8(sizeof(struct sadb_address)) + 3487 1.1 jonathan PFKEY_ALIGN8(saddr->sa_len); 3488 1.1 jonathan m = key_alloc_mbuf(len); 3489 1.1 jonathan if (!m || m->m_next) { /*XXX*/ 3490 1.1 jonathan if (m) 3491 1.1 jonathan m_freem(m); 3492 1.1 jonathan return NULL; 3493 1.1 jonathan } 3494 1.1 jonathan 3495 1.1 jonathan p = mtod(m, struct sadb_address *); 3496 1.1 jonathan 3497 1.1 jonathan bzero(p, len); 3498 1.1 jonathan p->sadb_address_len = PFKEY_UNIT64(len); 3499 1.1 jonathan p->sadb_address_exttype = exttype; 3500 1.1 jonathan p->sadb_address_proto = ul_proto; 3501 1.1 jonathan if (prefixlen == FULLMASK) { 3502 1.1 jonathan switch (saddr->sa_family) { 3503 1.1 jonathan case AF_INET: 3504 1.1 jonathan prefixlen = sizeof(struct in_addr) << 3; 3505 1.1 jonathan break; 3506 1.1 jonathan case AF_INET6: 3507 1.1 jonathan prefixlen = sizeof(struct in6_addr) << 3; 3508 1.1 jonathan break; 3509 1.1 jonathan default: 3510 1.1 jonathan ; /*XXX*/ 3511 1.1 jonathan } 3512 1.1 jonathan } 3513 1.1 jonathan p->sadb_address_prefixlen = prefixlen; 3514 1.1 jonathan p->sadb_address_reserved = 0; 3515 1.1 jonathan 3516 1.1 jonathan bcopy(saddr, 3517 1.1 jonathan mtod(m, caddr_t) + PFKEY_ALIGN8(sizeof(struct sadb_address)), 3518 1.1 jonathan saddr->sa_len); 3519 1.1 jonathan 3520 1.1 jonathan return m; 3521 1.1 jonathan } 3522 1.1 jonathan 3523 1.1 jonathan #if 0 3524 1.1 jonathan /* 3525 1.1 jonathan * set data into sadb_ident. 3526 1.1 jonathan */ 3527 1.1 jonathan static struct mbuf * 3528 1.1 jonathan key_setsadbident(exttype, idtype, string, stringlen, id) 3529 1.1 jonathan u_int16_t exttype, idtype; 3530 1.1 jonathan caddr_t string; 3531 1.1 jonathan int stringlen; 3532 1.1 jonathan u_int64_t id; 3533 1.1 jonathan { 3534 1.1 jonathan struct mbuf *m; 3535 1.1 jonathan struct sadb_ident *p; 3536 1.1 jonathan size_t len; 3537 1.1 jonathan 3538 1.1 jonathan len = PFKEY_ALIGN8(sizeof(struct sadb_ident)) + PFKEY_ALIGN8(stringlen); 3539 1.1 jonathan m = key_alloc_mbuf(len); 3540 1.1 jonathan if (!m || m->m_next) { /*XXX*/ 3541 1.1 jonathan if (m) 3542 1.1 jonathan m_freem(m); 3543 1.1 jonathan return NULL; 3544 1.1 jonathan } 3545 1.1 jonathan 3546 1.1 jonathan p = mtod(m, struct sadb_ident *); 3547 1.1 jonathan 3548 1.1 jonathan bzero(p, len); 3549 1.1 jonathan p->sadb_ident_len = PFKEY_UNIT64(len); 3550 1.1 jonathan p->sadb_ident_exttype = exttype; 3551 1.1 jonathan p->sadb_ident_type = idtype; 3552 1.1 jonathan p->sadb_ident_reserved = 0; 3553 1.1 jonathan p->sadb_ident_id = id; 3554 1.1 jonathan 3555 1.1 jonathan bcopy(string, 3556 1.1 jonathan mtod(m, caddr_t) + PFKEY_ALIGN8(sizeof(struct sadb_ident)), 3557 1.1 jonathan stringlen); 3558 1.1 jonathan 3559 1.1 jonathan return m; 3560 1.1 jonathan } 3561 1.1 jonathan #endif 3562 1.1 jonathan 3563 1.1 jonathan /* 3564 1.1 jonathan * set data into sadb_x_sa2. 3565 1.1 jonathan */ 3566 1.1 jonathan static struct mbuf * 3567 1.1 jonathan key_setsadbxsa2(mode, seq, reqid) 3568 1.1 jonathan u_int8_t mode; 3569 1.1 jonathan u_int32_t seq, reqid; 3570 1.1 jonathan { 3571 1.1 jonathan struct mbuf *m; 3572 1.1 jonathan struct sadb_x_sa2 *p; 3573 1.1 jonathan size_t len; 3574 1.1 jonathan 3575 1.1 jonathan len = PFKEY_ALIGN8(sizeof(struct sadb_x_sa2)); 3576 1.1 jonathan m = key_alloc_mbuf(len); 3577 1.1 jonathan if (!m || m->m_next) { /*XXX*/ 3578 1.1 jonathan if (m) 3579 1.1 jonathan m_freem(m); 3580 1.1 jonathan return NULL; 3581 1.1 jonathan } 3582 1.1 jonathan 3583 1.1 jonathan p = mtod(m, struct sadb_x_sa2 *); 3584 1.1 jonathan 3585 1.1 jonathan bzero(p, len); 3586 1.1 jonathan p->sadb_x_sa2_len = PFKEY_UNIT64(len); 3587 1.1 jonathan p->sadb_x_sa2_exttype = SADB_X_EXT_SA2; 3588 1.1 jonathan p->sadb_x_sa2_mode = mode; 3589 1.1 jonathan p->sadb_x_sa2_reserved1 = 0; 3590 1.1 jonathan p->sadb_x_sa2_reserved2 = 0; 3591 1.1 jonathan p->sadb_x_sa2_sequence = seq; 3592 1.1 jonathan p->sadb_x_sa2_reqid = reqid; 3593 1.1 jonathan 3594 1.1 jonathan return m; 3595 1.1 jonathan } 3596 1.1 jonathan 3597 1.1 jonathan /* 3598 1.1 jonathan * set data into sadb_x_policy 3599 1.1 jonathan */ 3600 1.1 jonathan static struct mbuf * 3601 1.1 jonathan key_setsadbxpolicy(type, dir, id) 3602 1.1 jonathan u_int16_t type; 3603 1.1 jonathan u_int8_t dir; 3604 1.1 jonathan u_int32_t id; 3605 1.1 jonathan { 3606 1.1 jonathan struct mbuf *m; 3607 1.1 jonathan struct sadb_x_policy *p; 3608 1.1 jonathan size_t len; 3609 1.1 jonathan 3610 1.1 jonathan len = PFKEY_ALIGN8(sizeof(struct sadb_x_policy)); 3611 1.1 jonathan m = key_alloc_mbuf(len); 3612 1.1 jonathan if (!m || m->m_next) { /*XXX*/ 3613 1.1 jonathan if (m) 3614 1.1 jonathan m_freem(m); 3615 1.1 jonathan return NULL; 3616 1.1 jonathan } 3617 1.1 jonathan 3618 1.1 jonathan p = mtod(m, struct sadb_x_policy *); 3619 1.1 jonathan 3620 1.1 jonathan bzero(p, len); 3621 1.1 jonathan p->sadb_x_policy_len = PFKEY_UNIT64(len); 3622 1.1 jonathan p->sadb_x_policy_exttype = SADB_X_EXT_POLICY; 3623 1.1 jonathan p->sadb_x_policy_type = type; 3624 1.1 jonathan p->sadb_x_policy_dir = dir; 3625 1.1 jonathan p->sadb_x_policy_id = id; 3626 1.1 jonathan 3627 1.1 jonathan return m; 3628 1.1 jonathan } 3629 1.1 jonathan 3630 1.1 jonathan /* %%% utilities */ 3631 1.1 jonathan /* 3632 1.1 jonathan * copy a buffer into the new buffer allocated. 3633 1.1 jonathan */ 3634 1.1 jonathan static void * 3635 1.1 jonathan key_newbuf(src, len) 3636 1.1 jonathan const void *src; 3637 1.1 jonathan u_int len; 3638 1.1 jonathan { 3639 1.1 jonathan caddr_t new; 3640 1.1 jonathan 3641 1.1 jonathan KMALLOC(new, caddr_t, len); 3642 1.1 jonathan if (new == NULL) { 3643 1.1 jonathan ipseclog((LOG_DEBUG, "key_newbuf: No more memory.\n")); 3644 1.1 jonathan return NULL; 3645 1.1 jonathan } 3646 1.1 jonathan bcopy(src, new, len); 3647 1.1 jonathan 3648 1.1 jonathan return new; 3649 1.1 jonathan } 3650 1.1 jonathan 3651 1.1 jonathan /* compare my own address 3652 1.1 jonathan * OUT: 1: true, i.e. my address. 3653 1.1 jonathan * 0: false 3654 1.1 jonathan */ 3655 1.1 jonathan int 3656 1.1 jonathan key_ismyaddr(sa) 3657 1.1 jonathan struct sockaddr *sa; 3658 1.1 jonathan { 3659 1.1 jonathan #ifdef INET 3660 1.1 jonathan struct sockaddr_in *sin; 3661 1.1 jonathan struct in_ifaddr *ia; 3662 1.1 jonathan #endif 3663 1.1 jonathan 3664 1.1 jonathan /* sanity check */ 3665 1.1 jonathan if (sa == NULL) 3666 1.1 jonathan panic("key_ismyaddr: NULL pointer is passed.\n"); 3667 1.1 jonathan 3668 1.1 jonathan switch (sa->sa_family) { 3669 1.1 jonathan #ifdef INET 3670 1.1 jonathan case AF_INET: 3671 1.1 jonathan sin = (struct sockaddr_in *)sa; 3672 1.1 jonathan for (ia = in_ifaddrhead.tqh_first; ia; 3673 1.1 jonathan ia = ia->ia_link.tqe_next) 3674 1.1 jonathan { 3675 1.1 jonathan if (sin->sin_family == ia->ia_addr.sin_family && 3676 1.1 jonathan sin->sin_len == ia->ia_addr.sin_len && 3677 1.1 jonathan sin->sin_addr.s_addr == ia->ia_addr.sin_addr.s_addr) 3678 1.1 jonathan { 3679 1.1 jonathan return 1; 3680 1.1 jonathan } 3681 1.1 jonathan } 3682 1.1 jonathan break; 3683 1.1 jonathan #endif 3684 1.1 jonathan #ifdef INET6 3685 1.1 jonathan case AF_INET6: 3686 1.1 jonathan return key_ismyaddr6((struct sockaddr_in6 *)sa); 3687 1.1 jonathan #endif 3688 1.1 jonathan } 3689 1.1 jonathan 3690 1.1 jonathan return 0; 3691 1.1 jonathan } 3692 1.1 jonathan 3693 1.1 jonathan #ifdef INET6 3694 1.1 jonathan /* 3695 1.1 jonathan * compare my own address for IPv6. 3696 1.1 jonathan * 1: ours 3697 1.1 jonathan * 0: other 3698 1.1 jonathan * NOTE: derived ip6_input() in KAME. This is necessary to modify more. 3699 1.1 jonathan */ 3700 1.1 jonathan #include <netinet6/in6_var.h> 3701 1.1 jonathan 3702 1.1 jonathan static int 3703 1.1 jonathan key_ismyaddr6(sin6) 3704 1.1 jonathan struct sockaddr_in6 *sin6; 3705 1.1 jonathan { 3706 1.1 jonathan struct in6_ifaddr *ia; 3707 1.1 jonathan struct in6_multi *in6m; 3708 1.1 jonathan 3709 1.1 jonathan for (ia = in6_ifaddr; ia; ia = ia->ia_next) { 3710 1.1 jonathan if (key_sockaddrcmp((struct sockaddr *)&sin6, 3711 1.1 jonathan (struct sockaddr *)&ia->ia_addr, 0) == 0) 3712 1.1 jonathan return 1; 3713 1.1 jonathan 3714 1.1 jonathan /* 3715 1.1 jonathan * XXX Multicast 3716 1.1 jonathan * XXX why do we care about multlicast here while we don't care 3717 1.1 jonathan * about IPv4 multicast?? 3718 1.1 jonathan * XXX scope 3719 1.1 jonathan */ 3720 1.1 jonathan in6m = NULL; 3721 1.1 jonathan IN6_LOOKUP_MULTI(sin6->sin6_addr, ia->ia_ifp, in6m); 3722 1.1 jonathan if (in6m) 3723 1.1 jonathan return 1; 3724 1.1 jonathan } 3725 1.1 jonathan 3726 1.1 jonathan /* loopback, just for safety */ 3727 1.1 jonathan if (IN6_IS_ADDR_LOOPBACK(&sin6->sin6_addr)) 3728 1.1 jonathan return 1; 3729 1.1 jonathan 3730 1.1 jonathan return 0; 3731 1.1 jonathan } 3732 1.1 jonathan #endif /*INET6*/ 3733 1.1 jonathan 3734 1.1 jonathan /* 3735 1.1 jonathan * compare two secasindex structure. 3736 1.1 jonathan * flag can specify to compare 2 saidxes. 3737 1.1 jonathan * compare two secasindex structure without both mode and reqid. 3738 1.1 jonathan * don't compare port. 3739 1.1 jonathan * IN: 3740 1.1 jonathan * saidx0: source, it can be in SAD. 3741 1.1 jonathan * saidx1: object. 3742 1.1 jonathan * OUT: 3743 1.1 jonathan * 1 : equal 3744 1.1 jonathan * 0 : not equal 3745 1.1 jonathan */ 3746 1.1 jonathan static int 3747 1.1 jonathan key_cmpsaidx( 3748 1.1 jonathan const struct secasindex *saidx0, 3749 1.1 jonathan const struct secasindex *saidx1, 3750 1.1 jonathan int flag) 3751 1.1 jonathan { 3752 1.1 jonathan /* sanity */ 3753 1.1 jonathan if (saidx0 == NULL && saidx1 == NULL) 3754 1.1 jonathan return 1; 3755 1.1 jonathan 3756 1.1 jonathan if (saidx0 == NULL || saidx1 == NULL) 3757 1.1 jonathan return 0; 3758 1.1 jonathan 3759 1.1 jonathan if (saidx0->proto != saidx1->proto) 3760 1.1 jonathan return 0; 3761 1.1 jonathan 3762 1.1 jonathan if (flag == CMP_EXACTLY) { 3763 1.1 jonathan if (saidx0->mode != saidx1->mode) 3764 1.1 jonathan return 0; 3765 1.1 jonathan if (saidx0->reqid != saidx1->reqid) 3766 1.1 jonathan return 0; 3767 1.1 jonathan if (bcmp(&saidx0->src, &saidx1->src, saidx0->src.sa.sa_len) != 0 || 3768 1.1 jonathan bcmp(&saidx0->dst, &saidx1->dst, saidx0->dst.sa.sa_len) != 0) 3769 1.1 jonathan return 0; 3770 1.1 jonathan } else { 3771 1.1 jonathan 3772 1.1 jonathan /* CMP_MODE_REQID, CMP_REQID, CMP_HEAD */ 3773 1.1 jonathan if (flag == CMP_MODE_REQID 3774 1.1 jonathan ||flag == CMP_REQID) { 3775 1.1 jonathan /* 3776 1.1 jonathan * If reqid of SPD is non-zero, unique SA is required. 3777 1.1 jonathan * The result must be of same reqid in this case. 3778 1.1 jonathan */ 3779 1.1 jonathan if (saidx1->reqid != 0 && saidx0->reqid != saidx1->reqid) 3780 1.1 jonathan return 0; 3781 1.1 jonathan } 3782 1.1 jonathan 3783 1.1 jonathan if (flag == CMP_MODE_REQID) { 3784 1.1 jonathan if (saidx0->mode != IPSEC_MODE_ANY 3785 1.1 jonathan && saidx0->mode != saidx1->mode) 3786 1.1 jonathan return 0; 3787 1.1 jonathan } 3788 1.1 jonathan 3789 1.1 jonathan if (key_sockaddrcmp(&saidx0->src.sa, &saidx1->src.sa, 0) != 0) { 3790 1.1 jonathan return 0; 3791 1.1 jonathan } 3792 1.1 jonathan if (key_sockaddrcmp(&saidx0->dst.sa, &saidx1->dst.sa, 0) != 0) { 3793 1.1 jonathan return 0; 3794 1.1 jonathan } 3795 1.1 jonathan } 3796 1.1 jonathan 3797 1.1 jonathan return 1; 3798 1.1 jonathan } 3799 1.1 jonathan 3800 1.1 jonathan /* 3801 1.1 jonathan * compare two secindex structure exactly. 3802 1.1 jonathan * IN: 3803 1.1 jonathan * spidx0: source, it is often in SPD. 3804 1.1 jonathan * spidx1: object, it is often from PFKEY message. 3805 1.1 jonathan * OUT: 3806 1.1 jonathan * 1 : equal 3807 1.1 jonathan * 0 : not equal 3808 1.1 jonathan */ 3809 1.1 jonathan static int 3810 1.1 jonathan key_cmpspidx_exactly( 3811 1.1 jonathan struct secpolicyindex *spidx0, 3812 1.1 jonathan struct secpolicyindex *spidx1) 3813 1.1 jonathan { 3814 1.1 jonathan /* sanity */ 3815 1.1 jonathan if (spidx0 == NULL && spidx1 == NULL) 3816 1.1 jonathan return 1; 3817 1.1 jonathan 3818 1.1 jonathan if (spidx0 == NULL || spidx1 == NULL) 3819 1.1 jonathan return 0; 3820 1.1 jonathan 3821 1.1 jonathan if (spidx0->prefs != spidx1->prefs 3822 1.1 jonathan || spidx0->prefd != spidx1->prefd 3823 1.1 jonathan || spidx0->ul_proto != spidx1->ul_proto) 3824 1.1 jonathan return 0; 3825 1.1 jonathan 3826 1.1 jonathan return key_sockaddrcmp(&spidx0->src.sa, &spidx1->src.sa, 1) == 0 && 3827 1.1 jonathan key_sockaddrcmp(&spidx0->dst.sa, &spidx1->dst.sa, 1) == 0; 3828 1.1 jonathan } 3829 1.1 jonathan 3830 1.1 jonathan /* 3831 1.1 jonathan * compare two secindex structure with mask. 3832 1.1 jonathan * IN: 3833 1.1 jonathan * spidx0: source, it is often in SPD. 3834 1.1 jonathan * spidx1: object, it is often from IP header. 3835 1.1 jonathan * OUT: 3836 1.1 jonathan * 1 : equal 3837 1.1 jonathan * 0 : not equal 3838 1.1 jonathan */ 3839 1.1 jonathan static int 3840 1.1 jonathan key_cmpspidx_withmask( 3841 1.1 jonathan struct secpolicyindex *spidx0, 3842 1.1 jonathan struct secpolicyindex *spidx1) 3843 1.1 jonathan { 3844 1.1 jonathan /* sanity */ 3845 1.1 jonathan if (spidx0 == NULL && spidx1 == NULL) 3846 1.1 jonathan return 1; 3847 1.1 jonathan 3848 1.1 jonathan if (spidx0 == NULL || spidx1 == NULL) 3849 1.1 jonathan return 0; 3850 1.1 jonathan 3851 1.1 jonathan if (spidx0->src.sa.sa_family != spidx1->src.sa.sa_family || 3852 1.1 jonathan spidx0->dst.sa.sa_family != spidx1->dst.sa.sa_family || 3853 1.1 jonathan spidx0->src.sa.sa_len != spidx1->src.sa.sa_len || 3854 1.1 jonathan spidx0->dst.sa.sa_len != spidx1->dst.sa.sa_len) 3855 1.1 jonathan return 0; 3856 1.1 jonathan 3857 1.1 jonathan /* if spidx.ul_proto == IPSEC_ULPROTO_ANY, ignore. */ 3858 1.1 jonathan if (spidx0->ul_proto != (u_int16_t)IPSEC_ULPROTO_ANY 3859 1.1 jonathan && spidx0->ul_proto != spidx1->ul_proto) 3860 1.1 jonathan return 0; 3861 1.1 jonathan 3862 1.1 jonathan switch (spidx0->src.sa.sa_family) { 3863 1.1 jonathan case AF_INET: 3864 1.1 jonathan if (spidx0->src.sin.sin_port != IPSEC_PORT_ANY 3865 1.1 jonathan && spidx0->src.sin.sin_port != spidx1->src.sin.sin_port) 3866 1.1 jonathan return 0; 3867 1.1 jonathan if (!key_bbcmp(&spidx0->src.sin.sin_addr, 3868 1.1 jonathan &spidx1->src.sin.sin_addr, spidx0->prefs)) 3869 1.1 jonathan return 0; 3870 1.1 jonathan break; 3871 1.1 jonathan case AF_INET6: 3872 1.1 jonathan if (spidx0->src.sin6.sin6_port != IPSEC_PORT_ANY 3873 1.1 jonathan && spidx0->src.sin6.sin6_port != spidx1->src.sin6.sin6_port) 3874 1.1 jonathan return 0; 3875 1.1 jonathan /* 3876 1.1 jonathan * scope_id check. if sin6_scope_id is 0, we regard it 3877 1.1 jonathan * as a wildcard scope, which matches any scope zone ID. 3878 1.1 jonathan */ 3879 1.1 jonathan if (spidx0->src.sin6.sin6_scope_id && 3880 1.1 jonathan spidx1->src.sin6.sin6_scope_id && 3881 1.1 jonathan spidx0->src.sin6.sin6_scope_id != spidx1->src.sin6.sin6_scope_id) 3882 1.1 jonathan return 0; 3883 1.1 jonathan if (!key_bbcmp(&spidx0->src.sin6.sin6_addr, 3884 1.1 jonathan &spidx1->src.sin6.sin6_addr, spidx0->prefs)) 3885 1.1 jonathan return 0; 3886 1.1 jonathan break; 3887 1.1 jonathan default: 3888 1.1 jonathan /* XXX */ 3889 1.1 jonathan if (bcmp(&spidx0->src, &spidx1->src, spidx0->src.sa.sa_len) != 0) 3890 1.1 jonathan return 0; 3891 1.1 jonathan break; 3892 1.1 jonathan } 3893 1.1 jonathan 3894 1.1 jonathan switch (spidx0->dst.sa.sa_family) { 3895 1.1 jonathan case AF_INET: 3896 1.1 jonathan if (spidx0->dst.sin.sin_port != IPSEC_PORT_ANY 3897 1.1 jonathan && spidx0->dst.sin.sin_port != spidx1->dst.sin.sin_port) 3898 1.1 jonathan return 0; 3899 1.1 jonathan if (!key_bbcmp(&spidx0->dst.sin.sin_addr, 3900 1.1 jonathan &spidx1->dst.sin.sin_addr, spidx0->prefd)) 3901 1.1 jonathan return 0; 3902 1.1 jonathan break; 3903 1.1 jonathan case AF_INET6: 3904 1.1 jonathan if (spidx0->dst.sin6.sin6_port != IPSEC_PORT_ANY 3905 1.1 jonathan && spidx0->dst.sin6.sin6_port != spidx1->dst.sin6.sin6_port) 3906 1.1 jonathan return 0; 3907 1.1 jonathan /* 3908 1.1 jonathan * scope_id check. if sin6_scope_id is 0, we regard it 3909 1.1 jonathan * as a wildcard scope, which matches any scope zone ID. 3910 1.1 jonathan */ 3911 1.1 jonathan if (spidx0->src.sin6.sin6_scope_id && 3912 1.1 jonathan spidx1->src.sin6.sin6_scope_id && 3913 1.1 jonathan spidx0->dst.sin6.sin6_scope_id != spidx1->dst.sin6.sin6_scope_id) 3914 1.1 jonathan return 0; 3915 1.1 jonathan if (!key_bbcmp(&spidx0->dst.sin6.sin6_addr, 3916 1.1 jonathan &spidx1->dst.sin6.sin6_addr, spidx0->prefd)) 3917 1.1 jonathan return 0; 3918 1.1 jonathan break; 3919 1.1 jonathan default: 3920 1.1 jonathan /* XXX */ 3921 1.1 jonathan if (bcmp(&spidx0->dst, &spidx1->dst, spidx0->dst.sa.sa_len) != 0) 3922 1.1 jonathan return 0; 3923 1.1 jonathan break; 3924 1.1 jonathan } 3925 1.1 jonathan 3926 1.1 jonathan /* XXX Do we check other field ? e.g. flowinfo */ 3927 1.1 jonathan 3928 1.1 jonathan return 1; 3929 1.1 jonathan } 3930 1.1 jonathan 3931 1.1 jonathan /* returns 0 on match */ 3932 1.1 jonathan static int 3933 1.1 jonathan key_sockaddrcmp( 3934 1.1 jonathan const struct sockaddr *sa1, 3935 1.1 jonathan const struct sockaddr *sa2, 3936 1.1 jonathan int port) 3937 1.1 jonathan { 3938 1.1 jonathan #ifdef satosin 3939 1.1 jonathan #undef satosin 3940 1.1 jonathan #endif 3941 1.1 jonathan #define satosin(s) ((const struct sockaddr_in *)s) 3942 1.1 jonathan #ifdef satosin6 3943 1.1 jonathan #undef satosin6 3944 1.1 jonathan #endif 3945 1.1 jonathan #define satosin6(s) ((const struct sockaddr_in6 *)s) 3946 1.1 jonathan if (sa1->sa_family != sa2->sa_family || sa1->sa_len != sa2->sa_len) 3947 1.1 jonathan return 1; 3948 1.1 jonathan 3949 1.1 jonathan switch (sa1->sa_family) { 3950 1.1 jonathan case AF_INET: 3951 1.1 jonathan if (sa1->sa_len != sizeof(struct sockaddr_in)) 3952 1.1 jonathan return 1; 3953 1.1 jonathan if (satosin(sa1)->sin_addr.s_addr != 3954 1.1 jonathan satosin(sa2)->sin_addr.s_addr) { 3955 1.1 jonathan return 1; 3956 1.1 jonathan } 3957 1.1 jonathan if (port && satosin(sa1)->sin_port != satosin(sa2)->sin_port) 3958 1.1 jonathan return 1; 3959 1.1 jonathan break; 3960 1.1 jonathan case AF_INET6: 3961 1.1 jonathan if (sa1->sa_len != sizeof(struct sockaddr_in6)) 3962 1.1 jonathan return 1; /*EINVAL*/ 3963 1.1 jonathan if (satosin6(sa1)->sin6_scope_id != 3964 1.1 jonathan satosin6(sa2)->sin6_scope_id) { 3965 1.1 jonathan return 1; 3966 1.1 jonathan } 3967 1.1 jonathan if (!IN6_ARE_ADDR_EQUAL(&satosin6(sa1)->sin6_addr, 3968 1.1 jonathan &satosin6(sa2)->sin6_addr)) { 3969 1.1 jonathan return 1; 3970 1.1 jonathan } 3971 1.1 jonathan if (port && 3972 1.1 jonathan satosin6(sa1)->sin6_port != satosin6(sa2)->sin6_port) { 3973 1.1 jonathan return 1; 3974 1.1 jonathan } 3975 1.1 jonathan default: 3976 1.1 jonathan if (bcmp(sa1, sa2, sa1->sa_len) != 0) 3977 1.1 jonathan return 1; 3978 1.1 jonathan break; 3979 1.1 jonathan } 3980 1.1 jonathan 3981 1.1 jonathan return 0; 3982 1.1 jonathan #undef satosin 3983 1.1 jonathan #undef satosin6 3984 1.1 jonathan } 3985 1.1 jonathan 3986 1.1 jonathan /* 3987 1.1 jonathan * compare two buffers with mask. 3988 1.1 jonathan * IN: 3989 1.1 jonathan * addr1: source 3990 1.1 jonathan * addr2: object 3991 1.1 jonathan * bits: Number of bits to compare 3992 1.1 jonathan * OUT: 3993 1.1 jonathan * 1 : equal 3994 1.1 jonathan * 0 : not equal 3995 1.1 jonathan */ 3996 1.1 jonathan static int 3997 1.1 jonathan key_bbcmp(const void *a1, const void *a2, u_int bits) 3998 1.1 jonathan { 3999 1.1 jonathan const unsigned char *p1 = a1; 4000 1.1 jonathan const unsigned char *p2 = a2; 4001 1.1 jonathan 4002 1.1 jonathan /* XXX: This could be considerably faster if we compare a word 4003 1.1 jonathan * at a time, but it is complicated on LSB Endian machines */ 4004 1.1 jonathan 4005 1.1 jonathan /* Handle null pointers */ 4006 1.1 jonathan if (p1 == NULL || p2 == NULL) 4007 1.1 jonathan return (p1 == p2); 4008 1.1 jonathan 4009 1.1 jonathan while (bits >= 8) { 4010 1.1 jonathan if (*p1++ != *p2++) 4011 1.1 jonathan return 0; 4012 1.1 jonathan bits -= 8; 4013 1.1 jonathan } 4014 1.1 jonathan 4015 1.1 jonathan if (bits > 0) { 4016 1.1 jonathan u_int8_t mask = ~((1<<(8-bits))-1); 4017 1.1 jonathan if ((*p1 & mask) != (*p2 & mask)) 4018 1.1 jonathan return 0; 4019 1.1 jonathan } 4020 1.1 jonathan return 1; /* Match! */ 4021 1.1 jonathan } 4022 1.1 jonathan 4023 1.1 jonathan /* 4024 1.1 jonathan * time handler. 4025 1.1 jonathan * scanning SPD and SAD to check status for each entries, 4026 1.1 jonathan * and do to remove or to expire. 4027 1.1 jonathan * XXX: year 2038 problem may remain. 4028 1.1 jonathan */ 4029 1.1 jonathan void 4030 1.1 jonathan key_timehandler(void* arg) 4031 1.1 jonathan { 4032 1.1 jonathan u_int dir; 4033 1.1 jonathan int s; 4034 1.1 jonathan time_t now = time_second; 4035 1.1 jonathan 4036 1.1 jonathan s = splsoftnet(); /*called from softclock()*/ 4037 1.1 jonathan 4038 1.1 jonathan /* SPD */ 4039 1.1 jonathan { 4040 1.1 jonathan struct secpolicy *sp, *nextsp; 4041 1.1 jonathan 4042 1.1 jonathan for (dir = 0; dir < IPSEC_DIR_MAX; dir++) { 4043 1.1 jonathan for (sp = LIST_FIRST(&sptree[dir]); 4044 1.1 jonathan sp != NULL; 4045 1.1 jonathan sp = nextsp) { 4046 1.1 jonathan 4047 1.1 jonathan nextsp = LIST_NEXT(sp, chain); 4048 1.1 jonathan 4049 1.1 jonathan if (sp->state == IPSEC_SPSTATE_DEAD) { 4050 1.1 jonathan KEY_FREESP(&sp); 4051 1.1 jonathan continue; 4052 1.1 jonathan } 4053 1.1 jonathan 4054 1.1 jonathan if (sp->lifetime == 0 && sp->validtime == 0) 4055 1.1 jonathan continue; 4056 1.1 jonathan 4057 1.1 jonathan /* the deletion will occur next time */ 4058 1.1 jonathan if ((sp->lifetime && now - sp->created > sp->lifetime) 4059 1.1 jonathan || (sp->validtime && now - sp->lastused > sp->validtime)) { 4060 1.1 jonathan sp->state = IPSEC_SPSTATE_DEAD; 4061 1.1 jonathan key_spdexpire(sp); 4062 1.1 jonathan continue; 4063 1.1 jonathan } 4064 1.1 jonathan } 4065 1.1 jonathan } 4066 1.1 jonathan } 4067 1.1 jonathan 4068 1.1 jonathan /* SAD */ 4069 1.1 jonathan { 4070 1.1 jonathan struct secashead *sah, *nextsah; 4071 1.1 jonathan struct secasvar *sav, *nextsav; 4072 1.1 jonathan 4073 1.1 jonathan for (sah = LIST_FIRST(&sahtree); 4074 1.1 jonathan sah != NULL; 4075 1.1 jonathan sah = nextsah) { 4076 1.1 jonathan 4077 1.1 jonathan nextsah = LIST_NEXT(sah, chain); 4078 1.1 jonathan 4079 1.1 jonathan /* if sah has been dead, then delete it and process next sah. */ 4080 1.1 jonathan if (sah->state == SADB_SASTATE_DEAD) { 4081 1.1 jonathan key_delsah(sah); 4082 1.1 jonathan continue; 4083 1.1 jonathan } 4084 1.1 jonathan 4085 1.1 jonathan /* if LARVAL entry doesn't become MATURE, delete it. */ 4086 1.1 jonathan for (sav = LIST_FIRST(&sah->savtree[SADB_SASTATE_LARVAL]); 4087 1.1 jonathan sav != NULL; 4088 1.1 jonathan sav = nextsav) { 4089 1.1 jonathan 4090 1.1 jonathan nextsav = LIST_NEXT(sav, chain); 4091 1.1 jonathan 4092 1.1 jonathan if (now - sav->created > key_larval_lifetime) { 4093 1.1 jonathan KEY_FREESAV(&sav); 4094 1.1 jonathan } 4095 1.1 jonathan } 4096 1.1 jonathan 4097 1.1 jonathan /* 4098 1.1 jonathan * check MATURE entry to start to send expire message 4099 1.1 jonathan * whether or not. 4100 1.1 jonathan */ 4101 1.1 jonathan for (sav = LIST_FIRST(&sah->savtree[SADB_SASTATE_MATURE]); 4102 1.1 jonathan sav != NULL; 4103 1.1 jonathan sav = nextsav) { 4104 1.1 jonathan 4105 1.1 jonathan nextsav = LIST_NEXT(sav, chain); 4106 1.1 jonathan 4107 1.1 jonathan /* we don't need to check. */ 4108 1.1 jonathan if (sav->lft_s == NULL) 4109 1.1 jonathan continue; 4110 1.1 jonathan 4111 1.1 jonathan /* sanity check */ 4112 1.1 jonathan if (sav->lft_c == NULL) { 4113 1.1 jonathan ipseclog((LOG_DEBUG,"key_timehandler: " 4114 1.1 jonathan "There is no CURRENT time, why?\n")); 4115 1.1 jonathan continue; 4116 1.1 jonathan } 4117 1.1 jonathan 4118 1.1 jonathan /* check SOFT lifetime */ 4119 1.1 jonathan if (sav->lft_s->sadb_lifetime_addtime != 0 4120 1.1 jonathan && now - sav->created > sav->lft_s->sadb_lifetime_addtime) { 4121 1.1 jonathan /* 4122 1.1 jonathan * check SA to be used whether or not. 4123 1.1 jonathan * when SA hasn't been used, delete it. 4124 1.1 jonathan */ 4125 1.1 jonathan if (sav->lft_c->sadb_lifetime_usetime == 0) { 4126 1.1 jonathan key_sa_chgstate(sav, SADB_SASTATE_DEAD); 4127 1.1 jonathan KEY_FREESAV(&sav); 4128 1.1 jonathan } else { 4129 1.1 jonathan key_sa_chgstate(sav, SADB_SASTATE_DYING); 4130 1.1 jonathan /* 4131 1.1 jonathan * XXX If we keep to send expire 4132 1.1 jonathan * message in the status of 4133 1.1 jonathan * DYING. Do remove below code. 4134 1.1 jonathan */ 4135 1.1 jonathan key_expire(sav); 4136 1.1 jonathan } 4137 1.1 jonathan } 4138 1.1 jonathan /* check SOFT lifetime by bytes */ 4139 1.1 jonathan /* 4140 1.1 jonathan * XXX I don't know the way to delete this SA 4141 1.1 jonathan * when new SA is installed. Caution when it's 4142 1.1 jonathan * installed too big lifetime by time. 4143 1.1 jonathan */ 4144 1.1 jonathan else if (sav->lft_s->sadb_lifetime_bytes != 0 4145 1.1 jonathan && sav->lft_s->sadb_lifetime_bytes < sav->lft_c->sadb_lifetime_bytes) { 4146 1.1 jonathan 4147 1.1 jonathan key_sa_chgstate(sav, SADB_SASTATE_DYING); 4148 1.1 jonathan /* 4149 1.1 jonathan * XXX If we keep to send expire 4150 1.1 jonathan * message in the status of 4151 1.1 jonathan * DYING. Do remove below code. 4152 1.1 jonathan */ 4153 1.1 jonathan key_expire(sav); 4154 1.1 jonathan } 4155 1.1 jonathan } 4156 1.1 jonathan 4157 1.1 jonathan /* check DYING entry to change status to DEAD. */ 4158 1.1 jonathan for (sav = LIST_FIRST(&sah->savtree[SADB_SASTATE_DYING]); 4159 1.1 jonathan sav != NULL; 4160 1.1 jonathan sav = nextsav) { 4161 1.1 jonathan 4162 1.1 jonathan nextsav = LIST_NEXT(sav, chain); 4163 1.1 jonathan 4164 1.1 jonathan /* we don't need to check. */ 4165 1.1 jonathan if (sav->lft_h == NULL) 4166 1.1 jonathan continue; 4167 1.1 jonathan 4168 1.1 jonathan /* sanity check */ 4169 1.1 jonathan if (sav->lft_c == NULL) { 4170 1.1 jonathan ipseclog((LOG_DEBUG, "key_timehandler: " 4171 1.1 jonathan "There is no CURRENT time, why?\n")); 4172 1.1 jonathan continue; 4173 1.1 jonathan } 4174 1.1 jonathan 4175 1.1 jonathan if (sav->lft_h->sadb_lifetime_addtime != 0 4176 1.1 jonathan && now - sav->created > sav->lft_h->sadb_lifetime_addtime) { 4177 1.1 jonathan key_sa_chgstate(sav, SADB_SASTATE_DEAD); 4178 1.1 jonathan KEY_FREESAV(&sav); 4179 1.1 jonathan } 4180 1.1 jonathan #if 0 /* XXX Should we keep to send expire message until HARD lifetime ? */ 4181 1.1 jonathan else if (sav->lft_s != NULL 4182 1.1 jonathan && sav->lft_s->sadb_lifetime_addtime != 0 4183 1.1 jonathan && now - sav->created > sav->lft_s->sadb_lifetime_addtime) { 4184 1.1 jonathan /* 4185 1.1 jonathan * XXX: should be checked to be 4186 1.1 jonathan * installed the valid SA. 4187 1.1 jonathan */ 4188 1.1 jonathan 4189 1.1 jonathan /* 4190 1.1 jonathan * If there is no SA then sending 4191 1.1 jonathan * expire message. 4192 1.1 jonathan */ 4193 1.1 jonathan key_expire(sav); 4194 1.1 jonathan } 4195 1.1 jonathan #endif 4196 1.1 jonathan /* check HARD lifetime by bytes */ 4197 1.1 jonathan else if (sav->lft_h->sadb_lifetime_bytes != 0 4198 1.1 jonathan && sav->lft_h->sadb_lifetime_bytes < sav->lft_c->sadb_lifetime_bytes) { 4199 1.1 jonathan key_sa_chgstate(sav, SADB_SASTATE_DEAD); 4200 1.1 jonathan KEY_FREESAV(&sav); 4201 1.1 jonathan } 4202 1.1 jonathan } 4203 1.1 jonathan 4204 1.1 jonathan /* delete entry in DEAD */ 4205 1.1 jonathan for (sav = LIST_FIRST(&sah->savtree[SADB_SASTATE_DEAD]); 4206 1.1 jonathan sav != NULL; 4207 1.1 jonathan sav = nextsav) { 4208 1.1 jonathan 4209 1.1 jonathan nextsav = LIST_NEXT(sav, chain); 4210 1.1 jonathan 4211 1.1 jonathan /* sanity check */ 4212 1.1 jonathan if (sav->state != SADB_SASTATE_DEAD) { 4213 1.1 jonathan ipseclog((LOG_DEBUG, "key_timehandler: " 4214 1.1 jonathan "invalid sav->state " 4215 1.1 jonathan "(queue: %d SA: %d): " 4216 1.1 jonathan "kill it anyway\n", 4217 1.1 jonathan SADB_SASTATE_DEAD, sav->state)); 4218 1.1 jonathan } 4219 1.1 jonathan 4220 1.1 jonathan /* 4221 1.1 jonathan * do not call key_freesav() here. 4222 1.1 jonathan * sav should already be freed, and sav->refcnt 4223 1.1 jonathan * shows other references to sav 4224 1.1 jonathan * (such as from SPD). 4225 1.1 jonathan */ 4226 1.1 jonathan } 4227 1.1 jonathan } 4228 1.1 jonathan } 4229 1.1 jonathan 4230 1.1 jonathan #ifndef IPSEC_NONBLOCK_ACQUIRE 4231 1.1 jonathan /* ACQ tree */ 4232 1.1 jonathan { 4233 1.1 jonathan struct secacq *acq, *nextacq; 4234 1.1 jonathan 4235 1.1 jonathan for (acq = LIST_FIRST(&acqtree); 4236 1.1 jonathan acq != NULL; 4237 1.1 jonathan acq = nextacq) { 4238 1.1 jonathan 4239 1.1 jonathan nextacq = LIST_NEXT(acq, chain); 4240 1.1 jonathan 4241 1.1 jonathan if (now - acq->created > key_blockacq_lifetime 4242 1.1 jonathan && __LIST_CHAINED(acq)) { 4243 1.1 jonathan LIST_REMOVE(acq, chain); 4244 1.1 jonathan KFREE(acq); 4245 1.1 jonathan } 4246 1.1 jonathan } 4247 1.1 jonathan } 4248 1.1 jonathan #endif 4249 1.1 jonathan 4250 1.1 jonathan /* SP ACQ tree */ 4251 1.1 jonathan { 4252 1.1 jonathan struct secspacq *acq, *nextacq; 4253 1.1 jonathan 4254 1.1 jonathan for (acq = LIST_FIRST(&spacqtree); 4255 1.1 jonathan acq != NULL; 4256 1.1 jonathan acq = nextacq) { 4257 1.1 jonathan 4258 1.1 jonathan nextacq = LIST_NEXT(acq, chain); 4259 1.1 jonathan 4260 1.1 jonathan if (now - acq->created > key_blockacq_lifetime 4261 1.1 jonathan && __LIST_CHAINED(acq)) { 4262 1.1 jonathan LIST_REMOVE(acq, chain); 4263 1.1 jonathan KFREE(acq); 4264 1.1 jonathan } 4265 1.1 jonathan } 4266 1.1 jonathan } 4267 1.1 jonathan 4268 1.1 jonathan /* initialize random seed */ 4269 1.1 jonathan if (key_tick_init_random++ > key_int_random) { 4270 1.1 jonathan key_tick_init_random = 0; 4271 1.1 jonathan key_srandom(); 4272 1.1 jonathan } 4273 1.1 jonathan 4274 1.1 jonathan #ifndef IPSEC_DEBUG2 4275 1.1 jonathan /* do exchange to tick time !! */ 4276 1.1 jonathan callout_reset(&key_timehandler_ch, hz, key_timehandler, (void *)0); 4277 1.1 jonathan #endif /* IPSEC_DEBUG2 */ 4278 1.1 jonathan 4279 1.1 jonathan splx(s); 4280 1.1 jonathan return; 4281 1.1 jonathan } 4282 1.1 jonathan 4283 1.1 jonathan #ifdef __NetBSD__ 4284 1.1 jonathan void srandom(int arg); 4285 1.1 jonathan void srandom(int arg) {return;} 4286 1.1 jonathan #endif 4287 1.1 jonathan 4288 1.1 jonathan /* 4289 1.1 jonathan * to initialize a seed for random() 4290 1.1 jonathan */ 4291 1.1 jonathan static void 4292 1.1 jonathan key_srandom() 4293 1.1 jonathan { 4294 1.1 jonathan srandom(time_second); 4295 1.1 jonathan } 4296 1.1 jonathan 4297 1.1 jonathan u_long 4298 1.1 jonathan key_random() 4299 1.1 jonathan { 4300 1.1 jonathan u_long value; 4301 1.1 jonathan 4302 1.1 jonathan key_randomfill(&value, sizeof(value)); 4303 1.1 jonathan return value; 4304 1.1 jonathan } 4305 1.1 jonathan 4306 1.1 jonathan void 4307 1.1 jonathan key_randomfill(p, l) 4308 1.1 jonathan void *p; 4309 1.1 jonathan size_t l; 4310 1.1 jonathan { 4311 1.1 jonathan size_t n; 4312 1.1 jonathan u_long v; 4313 1.1 jonathan static int warn = 1; 4314 1.1 jonathan 4315 1.1 jonathan n = 0; 4316 1.1 jonathan n = (size_t)read_random(p, (u_int)l); 4317 1.1 jonathan /* last resort */ 4318 1.1 jonathan while (n < l) { 4319 1.1 jonathan v = random(); 4320 1.1 jonathan bcopy(&v, (u_int8_t *)p + n, 4321 1.1 jonathan l - n < sizeof(v) ? l - n : sizeof(v)); 4322 1.1 jonathan n += sizeof(v); 4323 1.1 jonathan 4324 1.1 jonathan if (warn) { 4325 1.1 jonathan printf("WARNING: pseudo-random number generator " 4326 1.1 jonathan "used for IPsec processing\n"); 4327 1.1 jonathan warn = 0; 4328 1.1 jonathan } 4329 1.1 jonathan } 4330 1.1 jonathan } 4331 1.1 jonathan 4332 1.1 jonathan /* 4333 1.1 jonathan * map SADB_SATYPE_* to IPPROTO_*. 4334 1.1 jonathan * if satype == SADB_SATYPE then satype is mapped to ~0. 4335 1.1 jonathan * OUT: 4336 1.1 jonathan * 0: invalid satype. 4337 1.1 jonathan */ 4338 1.1 jonathan static u_int16_t 4339 1.1 jonathan key_satype2proto(satype) 4340 1.1 jonathan u_int8_t satype; 4341 1.1 jonathan { 4342 1.1 jonathan switch (satype) { 4343 1.1 jonathan case SADB_SATYPE_UNSPEC: 4344 1.1 jonathan return IPSEC_PROTO_ANY; 4345 1.1 jonathan case SADB_SATYPE_AH: 4346 1.1 jonathan return IPPROTO_AH; 4347 1.1 jonathan case SADB_SATYPE_ESP: 4348 1.1 jonathan return IPPROTO_ESP; 4349 1.1 jonathan case SADB_X_SATYPE_IPCOMP: 4350 1.1 jonathan return IPPROTO_IPCOMP; 4351 1.1 jonathan default: 4352 1.1 jonathan return 0; 4353 1.1 jonathan } 4354 1.1 jonathan /* NOTREACHED */ 4355 1.1 jonathan } 4356 1.1 jonathan 4357 1.1 jonathan /* 4358 1.1 jonathan * map IPPROTO_* to SADB_SATYPE_* 4359 1.1 jonathan * OUT: 4360 1.1 jonathan * 0: invalid protocol type. 4361 1.1 jonathan */ 4362 1.1 jonathan static u_int8_t 4363 1.1 jonathan key_proto2satype(proto) 4364 1.1 jonathan u_int16_t proto; 4365 1.1 jonathan { 4366 1.1 jonathan switch (proto) { 4367 1.1 jonathan case IPPROTO_AH: 4368 1.1 jonathan return SADB_SATYPE_AH; 4369 1.1 jonathan case IPPROTO_ESP: 4370 1.1 jonathan return SADB_SATYPE_ESP; 4371 1.1 jonathan case IPPROTO_IPCOMP: 4372 1.1 jonathan return SADB_X_SATYPE_IPCOMP; 4373 1.1 jonathan default: 4374 1.1 jonathan return 0; 4375 1.1 jonathan } 4376 1.1 jonathan /* NOTREACHED */ 4377 1.1 jonathan } 4378 1.1 jonathan 4379 1.1 jonathan /* %%% PF_KEY */ 4380 1.1 jonathan /* 4381 1.1 jonathan * SADB_GETSPI processing is to receive 4382 1.1 jonathan * <base, (SA2), src address, dst address, (SPI range)> 4383 1.1 jonathan * from the IKMPd, to assign a unique spi value, to hang on the INBOUND 4384 1.1 jonathan * tree with the status of LARVAL, and send 4385 1.1 jonathan * <base, SA(*), address(SD)> 4386 1.1 jonathan * to the IKMPd. 4387 1.1 jonathan * 4388 1.1 jonathan * IN: mhp: pointer to the pointer to each header. 4389 1.1 jonathan * OUT: NULL if fail. 4390 1.1 jonathan * other if success, return pointer to the message to send. 4391 1.1 jonathan */ 4392 1.1 jonathan static int 4393 1.1 jonathan key_getspi(so, m, mhp) 4394 1.1 jonathan struct socket *so; 4395 1.1 jonathan struct mbuf *m; 4396 1.1 jonathan const struct sadb_msghdr *mhp; 4397 1.1 jonathan { 4398 1.1 jonathan struct sadb_address *src0, *dst0; 4399 1.1 jonathan struct secasindex saidx; 4400 1.1 jonathan struct secashead *newsah; 4401 1.1 jonathan struct secasvar *newsav; 4402 1.1 jonathan u_int8_t proto; 4403 1.1 jonathan u_int32_t spi; 4404 1.1 jonathan u_int8_t mode; 4405 1.1 jonathan u_int32_t reqid; 4406 1.1 jonathan int error; 4407 1.1 jonathan 4408 1.1 jonathan /* sanity check */ 4409 1.1 jonathan if (so == NULL || m == NULL || mhp == NULL || mhp->msg == NULL) 4410 1.1 jonathan panic("key_getspi: NULL pointer is passed.\n"); 4411 1.1 jonathan 4412 1.1 jonathan if (mhp->ext[SADB_EXT_ADDRESS_SRC] == NULL || 4413 1.1 jonathan mhp->ext[SADB_EXT_ADDRESS_DST] == NULL) { 4414 1.1 jonathan ipseclog((LOG_DEBUG, "key_getspi: invalid message is passed.\n")); 4415 1.1 jonathan return key_senderror(so, m, EINVAL); 4416 1.1 jonathan } 4417 1.1 jonathan if (mhp->extlen[SADB_EXT_ADDRESS_SRC] < sizeof(struct sadb_address) || 4418 1.1 jonathan mhp->extlen[SADB_EXT_ADDRESS_DST] < sizeof(struct sadb_address)) { 4419 1.1 jonathan ipseclog((LOG_DEBUG, "key_getspi: invalid message is passed.\n")); 4420 1.1 jonathan return key_senderror(so, m, EINVAL); 4421 1.1 jonathan } 4422 1.1 jonathan if (mhp->ext[SADB_X_EXT_SA2] != NULL) { 4423 1.1 jonathan mode = ((struct sadb_x_sa2 *)mhp->ext[SADB_X_EXT_SA2])->sadb_x_sa2_mode; 4424 1.1 jonathan reqid = ((struct sadb_x_sa2 *)mhp->ext[SADB_X_EXT_SA2])->sadb_x_sa2_reqid; 4425 1.1 jonathan } else { 4426 1.1 jonathan mode = IPSEC_MODE_ANY; 4427 1.1 jonathan reqid = 0; 4428 1.1 jonathan } 4429 1.1 jonathan 4430 1.1 jonathan src0 = (struct sadb_address *)(mhp->ext[SADB_EXT_ADDRESS_SRC]); 4431 1.1 jonathan dst0 = (struct sadb_address *)(mhp->ext[SADB_EXT_ADDRESS_DST]); 4432 1.1 jonathan 4433 1.1 jonathan /* map satype to proto */ 4434 1.1 jonathan if ((proto = key_satype2proto(mhp->msg->sadb_msg_satype)) == 0) { 4435 1.1 jonathan ipseclog((LOG_DEBUG, "key_getspi: invalid satype is passed.\n")); 4436 1.1 jonathan return key_senderror(so, m, EINVAL); 4437 1.1 jonathan } 4438 1.1 jonathan 4439 1.1 jonathan /* make sure if port number is zero. */ 4440 1.1 jonathan switch (((struct sockaddr *)(src0 + 1))->sa_family) { 4441 1.1 jonathan case AF_INET: 4442 1.1 jonathan if (((struct sockaddr *)(src0 + 1))->sa_len != 4443 1.1 jonathan sizeof(struct sockaddr_in)) 4444 1.1 jonathan return key_senderror(so, m, EINVAL); 4445 1.1 jonathan ((struct sockaddr_in *)(src0 + 1))->sin_port = 0; 4446 1.1 jonathan break; 4447 1.1 jonathan case AF_INET6: 4448 1.1 jonathan if (((struct sockaddr *)(src0 + 1))->sa_len != 4449 1.1 jonathan sizeof(struct sockaddr_in6)) 4450 1.1 jonathan return key_senderror(so, m, EINVAL); 4451 1.1 jonathan ((struct sockaddr_in6 *)(src0 + 1))->sin6_port = 0; 4452 1.1 jonathan break; 4453 1.1 jonathan default: 4454 1.1 jonathan ; /*???*/ 4455 1.1 jonathan } 4456 1.1 jonathan switch (((struct sockaddr *)(dst0 + 1))->sa_family) { 4457 1.1 jonathan case AF_INET: 4458 1.1 jonathan if (((struct sockaddr *)(dst0 + 1))->sa_len != 4459 1.1 jonathan sizeof(struct sockaddr_in)) 4460 1.1 jonathan return key_senderror(so, m, EINVAL); 4461 1.1 jonathan ((struct sockaddr_in *)(dst0 + 1))->sin_port = 0; 4462 1.1 jonathan break; 4463 1.1 jonathan case AF_INET6: 4464 1.1 jonathan if (((struct sockaddr *)(dst0 + 1))->sa_len != 4465 1.1 jonathan sizeof(struct sockaddr_in6)) 4466 1.1 jonathan return key_senderror(so, m, EINVAL); 4467 1.1 jonathan ((struct sockaddr_in6 *)(dst0 + 1))->sin6_port = 0; 4468 1.1 jonathan break; 4469 1.1 jonathan default: 4470 1.1 jonathan ; /*???*/ 4471 1.1 jonathan } 4472 1.1 jonathan 4473 1.1 jonathan /* XXX boundary check against sa_len */ 4474 1.1 jonathan KEY_SETSECASIDX(proto, mode, reqid, src0 + 1, dst0 + 1, &saidx); 4475 1.1 jonathan 4476 1.1 jonathan /* SPI allocation */ 4477 1.1 jonathan spi = key_do_getnewspi((struct sadb_spirange *)mhp->ext[SADB_EXT_SPIRANGE], 4478 1.1 jonathan &saidx); 4479 1.1 jonathan if (spi == 0) 4480 1.1 jonathan return key_senderror(so, m, EINVAL); 4481 1.1 jonathan 4482 1.1 jonathan /* get a SA index */ 4483 1.1 jonathan if ((newsah = key_getsah(&saidx)) == NULL) { 4484 1.1 jonathan /* create a new SA index */ 4485 1.1 jonathan if ((newsah = key_newsah(&saidx)) == NULL) { 4486 1.1 jonathan ipseclog((LOG_DEBUG, "key_getspi: No more memory.\n")); 4487 1.1 jonathan return key_senderror(so, m, ENOBUFS); 4488 1.1 jonathan } 4489 1.1 jonathan } 4490 1.1 jonathan 4491 1.1 jonathan /* get a new SA */ 4492 1.1 jonathan /* XXX rewrite */ 4493 1.1 jonathan newsav = KEY_NEWSAV(m, mhp, newsah, &error); 4494 1.1 jonathan if (newsav == NULL) { 4495 1.1 jonathan /* XXX don't free new SA index allocated in above. */ 4496 1.1 jonathan return key_senderror(so, m, error); 4497 1.1 jonathan } 4498 1.1 jonathan 4499 1.1 jonathan /* set spi */ 4500 1.1 jonathan newsav->spi = htonl(spi); 4501 1.1 jonathan 4502 1.1 jonathan #ifndef IPSEC_NONBLOCK_ACQUIRE 4503 1.1 jonathan /* delete the entry in acqtree */ 4504 1.1 jonathan if (mhp->msg->sadb_msg_seq != 0) { 4505 1.1 jonathan struct secacq *acq; 4506 1.1 jonathan if ((acq = key_getacqbyseq(mhp->msg->sadb_msg_seq)) != NULL) { 4507 1.1 jonathan /* reset counter in order to deletion by timehandler. */ 4508 1.1 jonathan acq->created = time_second; 4509 1.1 jonathan acq->count = 0; 4510 1.1 jonathan } 4511 1.1 jonathan } 4512 1.1 jonathan #endif 4513 1.1 jonathan 4514 1.1 jonathan { 4515 1.1 jonathan struct mbuf *n, *nn; 4516 1.1 jonathan struct sadb_sa *m_sa; 4517 1.1 jonathan struct sadb_msg *newmsg; 4518 1.1 jonathan int off, len; 4519 1.1 jonathan 4520 1.1 jonathan /* create new sadb_msg to reply. */ 4521 1.1 jonathan len = PFKEY_ALIGN8(sizeof(struct sadb_msg)) + 4522 1.1 jonathan PFKEY_ALIGN8(sizeof(struct sadb_sa)); 4523 1.1 jonathan if (len > MCLBYTES) 4524 1.1 jonathan return key_senderror(so, m, ENOBUFS); 4525 1.1 jonathan 4526 1.1 jonathan MGETHDR(n, M_DONTWAIT, MT_DATA); 4527 1.1 jonathan if (len > MHLEN) { 4528 1.1 jonathan MCLGET(n, M_DONTWAIT); 4529 1.1 jonathan if ((n->m_flags & M_EXT) == 0) { 4530 1.1 jonathan m_freem(n); 4531 1.1 jonathan n = NULL; 4532 1.1 jonathan } 4533 1.1 jonathan } 4534 1.1 jonathan if (!n) 4535 1.1 jonathan return key_senderror(so, m, ENOBUFS); 4536 1.1 jonathan 4537 1.1 jonathan n->m_len = len; 4538 1.1 jonathan n->m_next = NULL; 4539 1.1 jonathan off = 0; 4540 1.1 jonathan 4541 1.1 jonathan m_copydata(m, 0, sizeof(struct sadb_msg), mtod(n, caddr_t) + off); 4542 1.1 jonathan off += PFKEY_ALIGN8(sizeof(struct sadb_msg)); 4543 1.1 jonathan 4544 1.1 jonathan m_sa = (struct sadb_sa *)(mtod(n, caddr_t) + off); 4545 1.1 jonathan m_sa->sadb_sa_len = PFKEY_UNIT64(sizeof(struct sadb_sa)); 4546 1.1 jonathan m_sa->sadb_sa_exttype = SADB_EXT_SA; 4547 1.1 jonathan m_sa->sadb_sa_spi = htonl(spi); 4548 1.1 jonathan off += PFKEY_ALIGN8(sizeof(struct sadb_sa)); 4549 1.1 jonathan 4550 1.1 jonathan #ifdef DIAGNOSTIC 4551 1.1 jonathan if (off != len) 4552 1.1 jonathan panic("length inconsistency in key_getspi"); 4553 1.1 jonathan #endif 4554 1.1 jonathan 4555 1.1 jonathan n->m_next = key_gather_mbuf(m, mhp, 0, 2, SADB_EXT_ADDRESS_SRC, 4556 1.1 jonathan SADB_EXT_ADDRESS_DST); 4557 1.1 jonathan if (!n->m_next) { 4558 1.1 jonathan m_freem(n); 4559 1.1 jonathan return key_senderror(so, m, ENOBUFS); 4560 1.1 jonathan } 4561 1.1 jonathan 4562 1.1 jonathan if (n->m_len < sizeof(struct sadb_msg)) { 4563 1.1 jonathan n = m_pullup(n, sizeof(struct sadb_msg)); 4564 1.1 jonathan if (n == NULL) 4565 1.1 jonathan return key_sendup_mbuf(so, m, KEY_SENDUP_ONE); 4566 1.1 jonathan } 4567 1.1 jonathan 4568 1.1 jonathan n->m_pkthdr.len = 0; 4569 1.1 jonathan for (nn = n; nn; nn = nn->m_next) 4570 1.1 jonathan n->m_pkthdr.len += nn->m_len; 4571 1.1 jonathan 4572 1.1 jonathan newmsg = mtod(n, struct sadb_msg *); 4573 1.1 jonathan newmsg->sadb_msg_seq = newsav->seq; 4574 1.1 jonathan newmsg->sadb_msg_errno = 0; 4575 1.1 jonathan newmsg->sadb_msg_len = PFKEY_UNIT64(n->m_pkthdr.len); 4576 1.1 jonathan 4577 1.1 jonathan m_freem(m); 4578 1.1 jonathan return key_sendup_mbuf(so, n, KEY_SENDUP_ONE); 4579 1.1 jonathan } 4580 1.1 jonathan } 4581 1.1 jonathan 4582 1.1 jonathan /* 4583 1.1 jonathan * allocating new SPI 4584 1.1 jonathan * called by key_getspi(). 4585 1.1 jonathan * OUT: 4586 1.1 jonathan * 0: failure. 4587 1.1 jonathan * others: success. 4588 1.1 jonathan */ 4589 1.1 jonathan static u_int32_t 4590 1.1 jonathan key_do_getnewspi(spirange, saidx) 4591 1.1 jonathan struct sadb_spirange *spirange; 4592 1.1 jonathan struct secasindex *saidx; 4593 1.1 jonathan { 4594 1.1 jonathan u_int32_t newspi; 4595 1.1 jonathan u_int32_t min, max; 4596 1.1 jonathan int count = key_spi_trycnt; 4597 1.1 jonathan 4598 1.1 jonathan /* set spi range to allocate */ 4599 1.1 jonathan if (spirange != NULL) { 4600 1.1 jonathan min = spirange->sadb_spirange_min; 4601 1.1 jonathan max = spirange->sadb_spirange_max; 4602 1.1 jonathan } else { 4603 1.1 jonathan min = key_spi_minval; 4604 1.1 jonathan max = key_spi_maxval; 4605 1.1 jonathan } 4606 1.1 jonathan /* IPCOMP needs 2-byte SPI */ 4607 1.1 jonathan if (saidx->proto == IPPROTO_IPCOMP) { 4608 1.1 jonathan u_int32_t t; 4609 1.1 jonathan if (min >= 0x10000) 4610 1.1 jonathan min = 0xffff; 4611 1.1 jonathan if (max >= 0x10000) 4612 1.1 jonathan max = 0xffff; 4613 1.1 jonathan if (min > max) { 4614 1.1 jonathan t = min; min = max; max = t; 4615 1.1 jonathan } 4616 1.1 jonathan } 4617 1.1 jonathan 4618 1.1 jonathan if (min == max) { 4619 1.1 jonathan if (key_checkspidup(saidx, min) != NULL) { 4620 1.1 jonathan ipseclog((LOG_DEBUG, "key_do_getnewspi: SPI %u exists already.\n", min)); 4621 1.1 jonathan return 0; 4622 1.1 jonathan } 4623 1.1 jonathan 4624 1.1 jonathan count--; /* taking one cost. */ 4625 1.1 jonathan newspi = min; 4626 1.1 jonathan 4627 1.1 jonathan } else { 4628 1.1 jonathan 4629 1.1 jonathan /* init SPI */ 4630 1.1 jonathan newspi = 0; 4631 1.1 jonathan 4632 1.1 jonathan /* when requesting to allocate spi ranged */ 4633 1.1 jonathan while (count--) { 4634 1.1 jonathan /* generate pseudo-random SPI value ranged. */ 4635 1.1 jonathan newspi = min + (key_random() % (max - min + 1)); 4636 1.1 jonathan 4637 1.1 jonathan if (key_checkspidup(saidx, newspi) == NULL) 4638 1.1 jonathan break; 4639 1.1 jonathan } 4640 1.1 jonathan 4641 1.1 jonathan if (count == 0 || newspi == 0) { 4642 1.1 jonathan ipseclog((LOG_DEBUG, "key_do_getnewspi: to allocate spi is failed.\n")); 4643 1.1 jonathan return 0; 4644 1.1 jonathan } 4645 1.1 jonathan } 4646 1.1 jonathan 4647 1.1 jonathan /* statistics */ 4648 1.1 jonathan keystat.getspi_count = 4649 1.1 jonathan (keystat.getspi_count + key_spi_trycnt - count) / 2; 4650 1.1 jonathan 4651 1.1 jonathan return newspi; 4652 1.1 jonathan } 4653 1.1 jonathan 4654 1.1 jonathan /* 4655 1.1 jonathan * SADB_UPDATE processing 4656 1.1 jonathan * receive 4657 1.1 jonathan * <base, SA, (SA2), (lifetime(HSC),) address(SD), (address(P),) 4658 1.1 jonathan * key(AE), (identity(SD),) (sensitivity)> 4659 1.1 jonathan * from the ikmpd, and update a secasvar entry whose status is SADB_SASTATE_LARVAL. 4660 1.1 jonathan * and send 4661 1.1 jonathan * <base, SA, (SA2), (lifetime(HSC),) address(SD), (address(P),) 4662 1.1 jonathan * (identity(SD),) (sensitivity)> 4663 1.1 jonathan * to the ikmpd. 4664 1.1 jonathan * 4665 1.1 jonathan * m will always be freed. 4666 1.1 jonathan */ 4667 1.1 jonathan static int 4668 1.1 jonathan key_update(so, m, mhp) 4669 1.1 jonathan struct socket *so; 4670 1.1 jonathan struct mbuf *m; 4671 1.1 jonathan const struct sadb_msghdr *mhp; 4672 1.1 jonathan { 4673 1.1 jonathan struct sadb_sa *sa0; 4674 1.1 jonathan struct sadb_address *src0, *dst0; 4675 1.1 jonathan struct secasindex saidx; 4676 1.1 jonathan struct secashead *sah; 4677 1.1 jonathan struct secasvar *sav; 4678 1.1 jonathan u_int16_t proto; 4679 1.1 jonathan u_int8_t mode; 4680 1.1 jonathan u_int32_t reqid; 4681 1.1 jonathan int error; 4682 1.1 jonathan 4683 1.1 jonathan /* sanity check */ 4684 1.1 jonathan if (so == NULL || m == NULL || mhp == NULL || mhp->msg == NULL) 4685 1.1 jonathan panic("key_update: NULL pointer is passed.\n"); 4686 1.1 jonathan 4687 1.1 jonathan /* map satype to proto */ 4688 1.1 jonathan if ((proto = key_satype2proto(mhp->msg->sadb_msg_satype)) == 0) { 4689 1.1 jonathan ipseclog((LOG_DEBUG, "key_update: invalid satype is passed.\n")); 4690 1.1 jonathan return key_senderror(so, m, EINVAL); 4691 1.1 jonathan } 4692 1.1 jonathan 4693 1.1 jonathan if (mhp->ext[SADB_EXT_SA] == NULL || 4694 1.1 jonathan mhp->ext[SADB_EXT_ADDRESS_SRC] == NULL || 4695 1.1 jonathan mhp->ext[SADB_EXT_ADDRESS_DST] == NULL || 4696 1.1 jonathan (mhp->msg->sadb_msg_satype == SADB_SATYPE_ESP && 4697 1.1 jonathan mhp->ext[SADB_EXT_KEY_ENCRYPT] == NULL) || 4698 1.1 jonathan (mhp->msg->sadb_msg_satype == SADB_SATYPE_AH && 4699 1.1 jonathan mhp->ext[SADB_EXT_KEY_AUTH] == NULL) || 4700 1.1 jonathan (mhp->ext[SADB_EXT_LIFETIME_HARD] != NULL && 4701 1.1 jonathan mhp->ext[SADB_EXT_LIFETIME_SOFT] == NULL) || 4702 1.1 jonathan (mhp->ext[SADB_EXT_LIFETIME_HARD] == NULL && 4703 1.1 jonathan mhp->ext[SADB_EXT_LIFETIME_SOFT] != NULL)) { 4704 1.1 jonathan ipseclog((LOG_DEBUG, "key_update: invalid message is passed.\n")); 4705 1.1 jonathan return key_senderror(so, m, EINVAL); 4706 1.1 jonathan } 4707 1.1 jonathan if (mhp->extlen[SADB_EXT_SA] < sizeof(struct sadb_sa) || 4708 1.1 jonathan mhp->extlen[SADB_EXT_ADDRESS_SRC] < sizeof(struct sadb_address) || 4709 1.1 jonathan mhp->extlen[SADB_EXT_ADDRESS_DST] < sizeof(struct sadb_address)) { 4710 1.1 jonathan ipseclog((LOG_DEBUG, "key_update: invalid message is passed.\n")); 4711 1.1 jonathan return key_senderror(so, m, EINVAL); 4712 1.1 jonathan } 4713 1.1 jonathan if (mhp->ext[SADB_X_EXT_SA2] != NULL) { 4714 1.1 jonathan mode = ((struct sadb_x_sa2 *)mhp->ext[SADB_X_EXT_SA2])->sadb_x_sa2_mode; 4715 1.1 jonathan reqid = ((struct sadb_x_sa2 *)mhp->ext[SADB_X_EXT_SA2])->sadb_x_sa2_reqid; 4716 1.1 jonathan } else { 4717 1.1 jonathan mode = IPSEC_MODE_ANY; 4718 1.1 jonathan reqid = 0; 4719 1.1 jonathan } 4720 1.1 jonathan /* XXX boundary checking for other extensions */ 4721 1.1 jonathan 4722 1.1 jonathan sa0 = (struct sadb_sa *)mhp->ext[SADB_EXT_SA]; 4723 1.1 jonathan src0 = (struct sadb_address *)(mhp->ext[SADB_EXT_ADDRESS_SRC]); 4724 1.1 jonathan dst0 = (struct sadb_address *)(mhp->ext[SADB_EXT_ADDRESS_DST]); 4725 1.1 jonathan 4726 1.1 jonathan /* XXX boundary check against sa_len */ 4727 1.1 jonathan KEY_SETSECASIDX(proto, mode, reqid, src0 + 1, dst0 + 1, &saidx); 4728 1.1 jonathan 4729 1.1 jonathan /* get a SA header */ 4730 1.1 jonathan if ((sah = key_getsah(&saidx)) == NULL) { 4731 1.1 jonathan ipseclog((LOG_DEBUG, "key_update: no SA index found.\n")); 4732 1.1 jonathan return key_senderror(so, m, ENOENT); 4733 1.1 jonathan } 4734 1.1 jonathan 4735 1.1 jonathan /* set spidx if there */ 4736 1.1 jonathan /* XXX rewrite */ 4737 1.1 jonathan error = key_setident(sah, m, mhp); 4738 1.1 jonathan if (error) 4739 1.1 jonathan return key_senderror(so, m, error); 4740 1.1 jonathan 4741 1.1 jonathan /* find a SA with sequence number. */ 4742 1.1 jonathan #ifdef IPSEC_DOSEQCHECK 4743 1.1 jonathan if (mhp->msg->sadb_msg_seq != 0 4744 1.1 jonathan && (sav = key_getsavbyseq(sah, mhp->msg->sadb_msg_seq)) == NULL) { 4745 1.1 jonathan ipseclog((LOG_DEBUG, 4746 1.1 jonathan "key_update: no larval SA with sequence %u exists.\n", 4747 1.1 jonathan mhp->msg->sadb_msg_seq)); 4748 1.1 jonathan return key_senderror(so, m, ENOENT); 4749 1.1 jonathan } 4750 1.1 jonathan #else 4751 1.1 jonathan if ((sav = key_getsavbyspi(sah, sa0->sadb_sa_spi)) == NULL) { 4752 1.1 jonathan ipseclog((LOG_DEBUG, 4753 1.1 jonathan "key_update: no such a SA found (spi:%u)\n", 4754 1.1 jonathan (u_int32_t)ntohl(sa0->sadb_sa_spi))); 4755 1.1 jonathan return key_senderror(so, m, EINVAL); 4756 1.1 jonathan } 4757 1.1 jonathan #endif 4758 1.1 jonathan 4759 1.1 jonathan /* validity check */ 4760 1.1 jonathan if (sav->sah->saidx.proto != proto) { 4761 1.1 jonathan ipseclog((LOG_DEBUG, 4762 1.1 jonathan "key_update: protocol mismatched (DB=%u param=%u)\n", 4763 1.1 jonathan sav->sah->saidx.proto, proto)); 4764 1.1 jonathan return key_senderror(so, m, EINVAL); 4765 1.1 jonathan } 4766 1.1 jonathan #ifdef IPSEC_DOSEQCHECK 4767 1.1 jonathan if (sav->spi != sa0->sadb_sa_spi) { 4768 1.1 jonathan ipseclog((LOG_DEBUG, 4769 1.1 jonathan "key_update: SPI mismatched (DB:%u param:%u)\n", 4770 1.1 jonathan (u_int32_t)ntohl(sav->spi), 4771 1.1 jonathan (u_int32_t)ntohl(sa0->sadb_sa_spi))); 4772 1.1 jonathan return key_senderror(so, m, EINVAL); 4773 1.1 jonathan } 4774 1.1 jonathan #endif 4775 1.1 jonathan if (sav->pid != mhp->msg->sadb_msg_pid) { 4776 1.1 jonathan ipseclog((LOG_DEBUG, 4777 1.1 jonathan "key_update: pid mismatched (DB:%u param:%u)\n", 4778 1.1 jonathan sav->pid, mhp->msg->sadb_msg_pid)); 4779 1.1 jonathan return key_senderror(so, m, EINVAL); 4780 1.1 jonathan } 4781 1.1 jonathan 4782 1.1 jonathan /* copy sav values */ 4783 1.1 jonathan error = key_setsaval(sav, m, mhp); 4784 1.1 jonathan if (error) { 4785 1.1 jonathan KEY_FREESAV(&sav); 4786 1.1 jonathan return key_senderror(so, m, error); 4787 1.1 jonathan } 4788 1.1 jonathan 4789 1.1 jonathan /* check SA values to be mature. */ 4790 1.1 jonathan if ((mhp->msg->sadb_msg_errno = key_mature(sav)) != 0) { 4791 1.1 jonathan KEY_FREESAV(&sav); 4792 1.1 jonathan return key_senderror(so, m, 0); 4793 1.1 jonathan } 4794 1.1 jonathan 4795 1.1 jonathan { 4796 1.1 jonathan struct mbuf *n; 4797 1.1 jonathan 4798 1.1 jonathan /* set msg buf from mhp */ 4799 1.1 jonathan n = key_getmsgbuf_x1(m, mhp); 4800 1.1 jonathan if (n == NULL) { 4801 1.1 jonathan ipseclog((LOG_DEBUG, "key_update: No more memory.\n")); 4802 1.1 jonathan return key_senderror(so, m, ENOBUFS); 4803 1.1 jonathan } 4804 1.1 jonathan 4805 1.1 jonathan m_freem(m); 4806 1.1 jonathan return key_sendup_mbuf(so, n, KEY_SENDUP_ALL); 4807 1.1 jonathan } 4808 1.1 jonathan } 4809 1.1 jonathan 4810 1.1 jonathan /* 4811 1.1 jonathan * search SAD with sequence for a SA which state is SADB_SASTATE_LARVAL. 4812 1.1 jonathan * only called by key_update(). 4813 1.1 jonathan * OUT: 4814 1.1 jonathan * NULL : not found 4815 1.1 jonathan * others : found, pointer to a SA. 4816 1.1 jonathan */ 4817 1.1 jonathan #ifdef IPSEC_DOSEQCHECK 4818 1.1 jonathan static struct secasvar * 4819 1.1 jonathan key_getsavbyseq(sah, seq) 4820 1.1 jonathan struct secashead *sah; 4821 1.1 jonathan u_int32_t seq; 4822 1.1 jonathan { 4823 1.1 jonathan struct secasvar *sav; 4824 1.1 jonathan u_int state; 4825 1.1 jonathan 4826 1.1 jonathan state = SADB_SASTATE_LARVAL; 4827 1.1 jonathan 4828 1.1 jonathan /* search SAD with sequence number ? */ 4829 1.1 jonathan LIST_FOREACH(sav, &sah->savtree[state], chain) { 4830 1.1 jonathan 4831 1.1 jonathan KEY_CHKSASTATE(state, sav->state, "key_getsabyseq"); 4832 1.1 jonathan 4833 1.1 jonathan if (sav->seq == seq) { 4834 1.1 jonathan SA_ADDREF(sav); 4835 1.1 jonathan KEYDEBUG(KEYDEBUG_IPSEC_STAMP, 4836 1.1 jonathan printf("DP key_getsavbyseq cause " 4837 1.1 jonathan "refcnt++:%d SA:%p\n", 4838 1.1 jonathan sav->refcnt, sav)); 4839 1.1 jonathan return sav; 4840 1.1 jonathan } 4841 1.1 jonathan } 4842 1.1 jonathan 4843 1.1 jonathan return NULL; 4844 1.1 jonathan } 4845 1.1 jonathan #endif 4846 1.1 jonathan 4847 1.1 jonathan /* 4848 1.1 jonathan * SADB_ADD processing 4849 1.1 jonathan * add an entry to SA database, when received 4850 1.1 jonathan * <base, SA, (SA2), (lifetime(HSC),) address(SD), (address(P),) 4851 1.1 jonathan * key(AE), (identity(SD),) (sensitivity)> 4852 1.1 jonathan * from the ikmpd, 4853 1.1 jonathan * and send 4854 1.1 jonathan * <base, SA, (SA2), (lifetime(HSC),) address(SD), (address(P),) 4855 1.1 jonathan * (identity(SD),) (sensitivity)> 4856 1.1 jonathan * to the ikmpd. 4857 1.1 jonathan * 4858 1.1 jonathan * IGNORE identity and sensitivity messages. 4859 1.1 jonathan * 4860 1.1 jonathan * m will always be freed. 4861 1.1 jonathan */ 4862 1.1 jonathan static int 4863 1.1 jonathan key_add(so, m, mhp) 4864 1.1 jonathan struct socket *so; 4865 1.1 jonathan struct mbuf *m; 4866 1.1 jonathan const struct sadb_msghdr *mhp; 4867 1.1 jonathan { 4868 1.1 jonathan struct sadb_sa *sa0; 4869 1.1 jonathan struct sadb_address *src0, *dst0; 4870 1.1 jonathan struct secasindex saidx; 4871 1.1 jonathan struct secashead *newsah; 4872 1.1 jonathan struct secasvar *newsav; 4873 1.1 jonathan u_int16_t proto; 4874 1.1 jonathan u_int8_t mode; 4875 1.1 jonathan u_int32_t reqid; 4876 1.1 jonathan int error; 4877 1.1 jonathan 4878 1.1 jonathan /* sanity check */ 4879 1.1 jonathan if (so == NULL || m == NULL || mhp == NULL || mhp->msg == NULL) 4880 1.1 jonathan panic("key_add: NULL pointer is passed.\n"); 4881 1.1 jonathan 4882 1.1 jonathan /* map satype to proto */ 4883 1.1 jonathan if ((proto = key_satype2proto(mhp->msg->sadb_msg_satype)) == 0) { 4884 1.1 jonathan ipseclog((LOG_DEBUG, "key_add: invalid satype is passed.\n")); 4885 1.1 jonathan return key_senderror(so, m, EINVAL); 4886 1.1 jonathan } 4887 1.1 jonathan 4888 1.1 jonathan if (mhp->ext[SADB_EXT_SA] == NULL || 4889 1.1 jonathan mhp->ext[SADB_EXT_ADDRESS_SRC] == NULL || 4890 1.1 jonathan mhp->ext[SADB_EXT_ADDRESS_DST] == NULL || 4891 1.1 jonathan (mhp->msg->sadb_msg_satype == SADB_SATYPE_ESP && 4892 1.1 jonathan mhp->ext[SADB_EXT_KEY_ENCRYPT] == NULL) || 4893 1.1 jonathan (mhp->msg->sadb_msg_satype == SADB_SATYPE_AH && 4894 1.1 jonathan mhp->ext[SADB_EXT_KEY_AUTH] == NULL) || 4895 1.1 jonathan (mhp->ext[SADB_EXT_LIFETIME_HARD] != NULL && 4896 1.1 jonathan mhp->ext[SADB_EXT_LIFETIME_SOFT] == NULL) || 4897 1.1 jonathan (mhp->ext[SADB_EXT_LIFETIME_HARD] == NULL && 4898 1.1 jonathan mhp->ext[SADB_EXT_LIFETIME_SOFT] != NULL)) { 4899 1.1 jonathan ipseclog((LOG_DEBUG, "key_add: invalid message is passed.\n")); 4900 1.1 jonathan return key_senderror(so, m, EINVAL); 4901 1.1 jonathan } 4902 1.1 jonathan if (mhp->extlen[SADB_EXT_SA] < sizeof(struct sadb_sa) || 4903 1.1 jonathan mhp->extlen[SADB_EXT_ADDRESS_SRC] < sizeof(struct sadb_address) || 4904 1.1 jonathan mhp->extlen[SADB_EXT_ADDRESS_DST] < sizeof(struct sadb_address)) { 4905 1.1 jonathan /* XXX need more */ 4906 1.1 jonathan ipseclog((LOG_DEBUG, "key_add: invalid message is passed.\n")); 4907 1.1 jonathan return key_senderror(so, m, EINVAL); 4908 1.1 jonathan } 4909 1.1 jonathan if (mhp->ext[SADB_X_EXT_SA2] != NULL) { 4910 1.1 jonathan mode = ((struct sadb_x_sa2 *)mhp->ext[SADB_X_EXT_SA2])->sadb_x_sa2_mode; 4911 1.1 jonathan reqid = ((struct sadb_x_sa2 *)mhp->ext[SADB_X_EXT_SA2])->sadb_x_sa2_reqid; 4912 1.1 jonathan } else { 4913 1.1 jonathan mode = IPSEC_MODE_ANY; 4914 1.1 jonathan reqid = 0; 4915 1.1 jonathan } 4916 1.1 jonathan 4917 1.1 jonathan sa0 = (struct sadb_sa *)mhp->ext[SADB_EXT_SA]; 4918 1.1 jonathan src0 = (struct sadb_address *)mhp->ext[SADB_EXT_ADDRESS_SRC]; 4919 1.1 jonathan dst0 = (struct sadb_address *)mhp->ext[SADB_EXT_ADDRESS_DST]; 4920 1.1 jonathan 4921 1.1 jonathan /* XXX boundary check against sa_len */ 4922 1.1 jonathan KEY_SETSECASIDX(proto, mode, reqid, src0 + 1, dst0 + 1, &saidx); 4923 1.1 jonathan 4924 1.1 jonathan /* get a SA header */ 4925 1.1 jonathan if ((newsah = key_getsah(&saidx)) == NULL) { 4926 1.1 jonathan /* create a new SA header */ 4927 1.1 jonathan if ((newsah = key_newsah(&saidx)) == NULL) { 4928 1.1 jonathan ipseclog((LOG_DEBUG, "key_add: No more memory.\n")); 4929 1.1 jonathan return key_senderror(so, m, ENOBUFS); 4930 1.1 jonathan } 4931 1.1 jonathan } 4932 1.1 jonathan 4933 1.1 jonathan /* set spidx if there */ 4934 1.1 jonathan /* XXX rewrite */ 4935 1.1 jonathan error = key_setident(newsah, m, mhp); 4936 1.1 jonathan if (error) { 4937 1.1 jonathan return key_senderror(so, m, error); 4938 1.1 jonathan } 4939 1.1 jonathan 4940 1.1 jonathan /* create new SA entry. */ 4941 1.1 jonathan /* We can create new SA only if SPI is differenct. */ 4942 1.1 jonathan if (key_getsavbyspi(newsah, sa0->sadb_sa_spi)) { 4943 1.1 jonathan ipseclog((LOG_DEBUG, "key_add: SA already exists.\n")); 4944 1.1 jonathan return key_senderror(so, m, EEXIST); 4945 1.1 jonathan } 4946 1.1 jonathan newsav = KEY_NEWSAV(m, mhp, newsah, &error); 4947 1.1 jonathan if (newsav == NULL) { 4948 1.1 jonathan return key_senderror(so, m, error); 4949 1.1 jonathan } 4950 1.1 jonathan 4951 1.1 jonathan /* check SA values to be mature. */ 4952 1.1 jonathan if ((error = key_mature(newsav)) != 0) { 4953 1.1 jonathan KEY_FREESAV(&newsav); 4954 1.1 jonathan return key_senderror(so, m, error); 4955 1.1 jonathan } 4956 1.1 jonathan 4957 1.1 jonathan /* 4958 1.1 jonathan * don't call key_freesav() here, as we would like to keep the SA 4959 1.1 jonathan * in the database on success. 4960 1.1 jonathan */ 4961 1.1 jonathan 4962 1.1 jonathan { 4963 1.1 jonathan struct mbuf *n; 4964 1.1 jonathan 4965 1.1 jonathan /* set msg buf from mhp */ 4966 1.1 jonathan n = key_getmsgbuf_x1(m, mhp); 4967 1.1 jonathan if (n == NULL) { 4968 1.1 jonathan ipseclog((LOG_DEBUG, "key_update: No more memory.\n")); 4969 1.1 jonathan return key_senderror(so, m, ENOBUFS); 4970 1.1 jonathan } 4971 1.1 jonathan 4972 1.1 jonathan m_freem(m); 4973 1.1 jonathan return key_sendup_mbuf(so, n, KEY_SENDUP_ALL); 4974 1.1 jonathan } 4975 1.1 jonathan } 4976 1.1 jonathan 4977 1.1 jonathan /* m is retained */ 4978 1.1 jonathan static int 4979 1.1 jonathan key_setident(sah, m, mhp) 4980 1.1 jonathan struct secashead *sah; 4981 1.1 jonathan struct mbuf *m; 4982 1.1 jonathan const struct sadb_msghdr *mhp; 4983 1.1 jonathan { 4984 1.1 jonathan const struct sadb_ident *idsrc, *iddst; 4985 1.1 jonathan int idsrclen, iddstlen; 4986 1.1 jonathan 4987 1.1 jonathan /* sanity check */ 4988 1.1 jonathan if (sah == NULL || m == NULL || mhp == NULL || mhp->msg == NULL) 4989 1.1 jonathan panic("key_setident: NULL pointer is passed.\n"); 4990 1.1 jonathan 4991 1.1 jonathan /* don't make buffer if not there */ 4992 1.1 jonathan if (mhp->ext[SADB_EXT_IDENTITY_SRC] == NULL && 4993 1.1 jonathan mhp->ext[SADB_EXT_IDENTITY_DST] == NULL) { 4994 1.1 jonathan sah->idents = NULL; 4995 1.1 jonathan sah->identd = NULL; 4996 1.1 jonathan return 0; 4997 1.1 jonathan } 4998 1.1 jonathan 4999 1.1 jonathan if (mhp->ext[SADB_EXT_IDENTITY_SRC] == NULL || 5000 1.1 jonathan mhp->ext[SADB_EXT_IDENTITY_DST] == NULL) { 5001 1.1 jonathan ipseclog((LOG_DEBUG, "key_setident: invalid identity.\n")); 5002 1.1 jonathan return EINVAL; 5003 1.1 jonathan } 5004 1.1 jonathan 5005 1.1 jonathan idsrc = (const struct sadb_ident *)mhp->ext[SADB_EXT_IDENTITY_SRC]; 5006 1.1 jonathan iddst = (const struct sadb_ident *)mhp->ext[SADB_EXT_IDENTITY_DST]; 5007 1.1 jonathan idsrclen = mhp->extlen[SADB_EXT_IDENTITY_SRC]; 5008 1.1 jonathan iddstlen = mhp->extlen[SADB_EXT_IDENTITY_DST]; 5009 1.1 jonathan 5010 1.1 jonathan /* validity check */ 5011 1.1 jonathan if (idsrc->sadb_ident_type != iddst->sadb_ident_type) { 5012 1.1 jonathan ipseclog((LOG_DEBUG, "key_setident: ident type mismatch.\n")); 5013 1.1 jonathan return EINVAL; 5014 1.1 jonathan } 5015 1.1 jonathan 5016 1.1 jonathan switch (idsrc->sadb_ident_type) { 5017 1.1 jonathan case SADB_IDENTTYPE_PREFIX: 5018 1.1 jonathan case SADB_IDENTTYPE_FQDN: 5019 1.1 jonathan case SADB_IDENTTYPE_USERFQDN: 5020 1.1 jonathan default: 5021 1.1 jonathan /* XXX do nothing */ 5022 1.1 jonathan sah->idents = NULL; 5023 1.1 jonathan sah->identd = NULL; 5024 1.1 jonathan return 0; 5025 1.1 jonathan } 5026 1.1 jonathan 5027 1.1 jonathan /* make structure */ 5028 1.1 jonathan KMALLOC(sah->idents, struct sadb_ident *, idsrclen); 5029 1.1 jonathan if (sah->idents == NULL) { 5030 1.1 jonathan ipseclog((LOG_DEBUG, "key_setident: No more memory.\n")); 5031 1.1 jonathan return ENOBUFS; 5032 1.1 jonathan } 5033 1.1 jonathan KMALLOC(sah->identd, struct sadb_ident *, iddstlen); 5034 1.1 jonathan if (sah->identd == NULL) { 5035 1.1 jonathan KFREE(sah->idents); 5036 1.1 jonathan sah->idents = NULL; 5037 1.1 jonathan ipseclog((LOG_DEBUG, "key_setident: No more memory.\n")); 5038 1.1 jonathan return ENOBUFS; 5039 1.1 jonathan } 5040 1.1 jonathan bcopy(idsrc, sah->idents, idsrclen); 5041 1.1 jonathan bcopy(iddst, sah->identd, iddstlen); 5042 1.1 jonathan 5043 1.1 jonathan return 0; 5044 1.1 jonathan } 5045 1.1 jonathan 5046 1.1 jonathan /* 5047 1.1 jonathan * m will not be freed on return. 5048 1.1 jonathan * it is caller's responsibility to free the result. 5049 1.1 jonathan */ 5050 1.1 jonathan static struct mbuf * 5051 1.1 jonathan key_getmsgbuf_x1(m, mhp) 5052 1.1 jonathan struct mbuf *m; 5053 1.1 jonathan const struct sadb_msghdr *mhp; 5054 1.1 jonathan { 5055 1.1 jonathan struct mbuf *n; 5056 1.1 jonathan 5057 1.1 jonathan /* sanity check */ 5058 1.1 jonathan if (m == NULL || mhp == NULL || mhp->msg == NULL) 5059 1.1 jonathan panic("key_getmsgbuf_x1: NULL pointer is passed.\n"); 5060 1.1 jonathan 5061 1.1 jonathan /* create new sadb_msg to reply. */ 5062 1.1 jonathan n = key_gather_mbuf(m, mhp, 1, 9, SADB_EXT_RESERVED, 5063 1.1 jonathan SADB_EXT_SA, SADB_X_EXT_SA2, 5064 1.1 jonathan SADB_EXT_ADDRESS_SRC, SADB_EXT_ADDRESS_DST, 5065 1.1 jonathan SADB_EXT_LIFETIME_HARD, SADB_EXT_LIFETIME_SOFT, 5066 1.1 jonathan SADB_EXT_IDENTITY_SRC, SADB_EXT_IDENTITY_DST); 5067 1.1 jonathan if (!n) 5068 1.1 jonathan return NULL; 5069 1.1 jonathan 5070 1.1 jonathan if (n->m_len < sizeof(struct sadb_msg)) { 5071 1.1 jonathan n = m_pullup(n, sizeof(struct sadb_msg)); 5072 1.1 jonathan if (n == NULL) 5073 1.1 jonathan return NULL; 5074 1.1 jonathan } 5075 1.1 jonathan mtod(n, struct sadb_msg *)->sadb_msg_errno = 0; 5076 1.1 jonathan mtod(n, struct sadb_msg *)->sadb_msg_len = 5077 1.1 jonathan PFKEY_UNIT64(n->m_pkthdr.len); 5078 1.1 jonathan 5079 1.1 jonathan return n; 5080 1.1 jonathan } 5081 1.1 jonathan 5082 1.1 jonathan static int key_delete_all __P((struct socket *, struct mbuf *, 5083 1.1 jonathan const struct sadb_msghdr *, u_int16_t)); 5084 1.1 jonathan 5085 1.1 jonathan /* 5086 1.1 jonathan * SADB_DELETE processing 5087 1.1 jonathan * receive 5088 1.1 jonathan * <base, SA(*), address(SD)> 5089 1.1 jonathan * from the ikmpd, and set SADB_SASTATE_DEAD, 5090 1.1 jonathan * and send, 5091 1.1 jonathan * <base, SA(*), address(SD)> 5092 1.1 jonathan * to the ikmpd. 5093 1.1 jonathan * 5094 1.1 jonathan * m will always be freed. 5095 1.1 jonathan */ 5096 1.1 jonathan static int 5097 1.1 jonathan key_delete(so, m, mhp) 5098 1.1 jonathan struct socket *so; 5099 1.1 jonathan struct mbuf *m; 5100 1.1 jonathan const struct sadb_msghdr *mhp; 5101 1.1 jonathan { 5102 1.1 jonathan struct sadb_sa *sa0; 5103 1.1 jonathan struct sadb_address *src0, *dst0; 5104 1.1 jonathan struct secasindex saidx; 5105 1.1 jonathan struct secashead *sah; 5106 1.1 jonathan struct secasvar *sav = NULL; 5107 1.1 jonathan u_int16_t proto; 5108 1.1 jonathan 5109 1.1 jonathan /* sanity check */ 5110 1.1 jonathan if (so == NULL || m == NULL || mhp == NULL || mhp->msg == NULL) 5111 1.1 jonathan panic("key_delete: NULL pointer is passed.\n"); 5112 1.1 jonathan 5113 1.1 jonathan /* map satype to proto */ 5114 1.1 jonathan if ((proto = key_satype2proto(mhp->msg->sadb_msg_satype)) == 0) { 5115 1.1 jonathan ipseclog((LOG_DEBUG, "key_delete: invalid satype is passed.\n")); 5116 1.1 jonathan return key_senderror(so, m, EINVAL); 5117 1.1 jonathan } 5118 1.1 jonathan 5119 1.1 jonathan if (mhp->ext[SADB_EXT_ADDRESS_SRC] == NULL || 5120 1.1 jonathan mhp->ext[SADB_EXT_ADDRESS_DST] == NULL) { 5121 1.1 jonathan ipseclog((LOG_DEBUG, "key_delete: invalid message is passed.\n")); 5122 1.1 jonathan return key_senderror(so, m, EINVAL); 5123 1.1 jonathan } 5124 1.1 jonathan 5125 1.1 jonathan if (mhp->extlen[SADB_EXT_ADDRESS_SRC] < sizeof(struct sadb_address) || 5126 1.1 jonathan mhp->extlen[SADB_EXT_ADDRESS_DST] < sizeof(struct sadb_address)) { 5127 1.1 jonathan ipseclog((LOG_DEBUG, "key_delete: invalid message is passed.\n")); 5128 1.1 jonathan return key_senderror(so, m, EINVAL); 5129 1.1 jonathan } 5130 1.1 jonathan 5131 1.1 jonathan if (mhp->ext[SADB_EXT_SA] == NULL) { 5132 1.1 jonathan /* 5133 1.1 jonathan * Caller wants us to delete all non-LARVAL SAs 5134 1.1 jonathan * that match the src/dst. This is used during 5135 1.1 jonathan * IKE INITIAL-CONTACT. 5136 1.1 jonathan */ 5137 1.1 jonathan ipseclog((LOG_DEBUG, "key_delete: doing delete all.\n")); 5138 1.1 jonathan return key_delete_all(so, m, mhp, proto); 5139 1.1 jonathan } else if (mhp->extlen[SADB_EXT_SA] < sizeof(struct sadb_sa)) { 5140 1.1 jonathan ipseclog((LOG_DEBUG, "key_delete: invalid message is passed.\n")); 5141 1.1 jonathan return key_senderror(so, m, EINVAL); 5142 1.1 jonathan } 5143 1.1 jonathan 5144 1.1 jonathan sa0 = (struct sadb_sa *)mhp->ext[SADB_EXT_SA]; 5145 1.1 jonathan src0 = (struct sadb_address *)(mhp->ext[SADB_EXT_ADDRESS_SRC]); 5146 1.1 jonathan dst0 = (struct sadb_address *)(mhp->ext[SADB_EXT_ADDRESS_DST]); 5147 1.1 jonathan 5148 1.1 jonathan /* XXX boundary check against sa_len */ 5149 1.1 jonathan KEY_SETSECASIDX(proto, IPSEC_MODE_ANY, 0, src0 + 1, dst0 + 1, &saidx); 5150 1.1 jonathan 5151 1.1 jonathan /* get a SA header */ 5152 1.1 jonathan LIST_FOREACH(sah, &sahtree, chain) { 5153 1.1 jonathan if (sah->state == SADB_SASTATE_DEAD) 5154 1.1 jonathan continue; 5155 1.1 jonathan if (key_cmpsaidx(&sah->saidx, &saidx, CMP_HEAD) == 0) 5156 1.1 jonathan continue; 5157 1.1 jonathan 5158 1.1 jonathan /* get a SA with SPI. */ 5159 1.1 jonathan sav = key_getsavbyspi(sah, sa0->sadb_sa_spi); 5160 1.1 jonathan if (sav) 5161 1.1 jonathan break; 5162 1.1 jonathan } 5163 1.1 jonathan if (sah == NULL) { 5164 1.1 jonathan ipseclog((LOG_DEBUG, "key_delete: no SA found.\n")); 5165 1.1 jonathan return key_senderror(so, m, ENOENT); 5166 1.1 jonathan } 5167 1.1 jonathan 5168 1.1 jonathan key_sa_chgstate(sav, SADB_SASTATE_DEAD); 5169 1.1 jonathan KEY_FREESAV(&sav); 5170 1.1 jonathan 5171 1.1 jonathan { 5172 1.1 jonathan struct mbuf *n; 5173 1.1 jonathan struct sadb_msg *newmsg; 5174 1.1 jonathan 5175 1.1 jonathan /* create new sadb_msg to reply. */ 5176 1.1 jonathan n = key_gather_mbuf(m, mhp, 1, 4, SADB_EXT_RESERVED, 5177 1.1 jonathan SADB_EXT_SA, SADB_EXT_ADDRESS_SRC, SADB_EXT_ADDRESS_DST); 5178 1.1 jonathan if (!n) 5179 1.1 jonathan return key_senderror(so, m, ENOBUFS); 5180 1.1 jonathan 5181 1.1 jonathan if (n->m_len < sizeof(struct sadb_msg)) { 5182 1.1 jonathan n = m_pullup(n, sizeof(struct sadb_msg)); 5183 1.1 jonathan if (n == NULL) 5184 1.1 jonathan return key_senderror(so, m, ENOBUFS); 5185 1.1 jonathan } 5186 1.1 jonathan newmsg = mtod(n, struct sadb_msg *); 5187 1.1 jonathan newmsg->sadb_msg_errno = 0; 5188 1.1 jonathan newmsg->sadb_msg_len = PFKEY_UNIT64(n->m_pkthdr.len); 5189 1.1 jonathan 5190 1.1 jonathan m_freem(m); 5191 1.1 jonathan return key_sendup_mbuf(so, n, KEY_SENDUP_ALL); 5192 1.1 jonathan } 5193 1.1 jonathan } 5194 1.1 jonathan 5195 1.1 jonathan /* 5196 1.1 jonathan * delete all SAs for src/dst. Called from key_delete(). 5197 1.1 jonathan */ 5198 1.1 jonathan static int 5199 1.1 jonathan key_delete_all(so, m, mhp, proto) 5200 1.1 jonathan struct socket *so; 5201 1.1 jonathan struct mbuf *m; 5202 1.1 jonathan const struct sadb_msghdr *mhp; 5203 1.1 jonathan u_int16_t proto; 5204 1.1 jonathan { 5205 1.1 jonathan struct sadb_address *src0, *dst0; 5206 1.1 jonathan struct secasindex saidx; 5207 1.1 jonathan struct secashead *sah; 5208 1.1 jonathan struct secasvar *sav, *nextsav; 5209 1.1 jonathan u_int stateidx, state; 5210 1.1 jonathan 5211 1.1 jonathan src0 = (struct sadb_address *)(mhp->ext[SADB_EXT_ADDRESS_SRC]); 5212 1.1 jonathan dst0 = (struct sadb_address *)(mhp->ext[SADB_EXT_ADDRESS_DST]); 5213 1.1 jonathan 5214 1.1 jonathan /* XXX boundary check against sa_len */ 5215 1.1 jonathan KEY_SETSECASIDX(proto, IPSEC_MODE_ANY, 0, src0 + 1, dst0 + 1, &saidx); 5216 1.1 jonathan 5217 1.1 jonathan LIST_FOREACH(sah, &sahtree, chain) { 5218 1.1 jonathan if (sah->state == SADB_SASTATE_DEAD) 5219 1.1 jonathan continue; 5220 1.1 jonathan if (key_cmpsaidx(&sah->saidx, &saidx, CMP_HEAD) == 0) 5221 1.1 jonathan continue; 5222 1.1 jonathan 5223 1.1 jonathan /* Delete all non-LARVAL SAs. */ 5224 1.1 jonathan for (stateidx = 0; 5225 1.1 jonathan stateidx < _ARRAYLEN(saorder_state_alive); 5226 1.1 jonathan stateidx++) { 5227 1.1 jonathan state = saorder_state_alive[stateidx]; 5228 1.1 jonathan if (state == SADB_SASTATE_LARVAL) 5229 1.1 jonathan continue; 5230 1.1 jonathan for (sav = LIST_FIRST(&sah->savtree[state]); 5231 1.1 jonathan sav != NULL; sav = nextsav) { 5232 1.1 jonathan nextsav = LIST_NEXT(sav, chain); 5233 1.1 jonathan /* sanity check */ 5234 1.1 jonathan if (sav->state != state) { 5235 1.1 jonathan ipseclog((LOG_DEBUG, "key_delete_all: " 5236 1.1 jonathan "invalid sav->state " 5237 1.1 jonathan "(queue: %d SA: %d)\n", 5238 1.1 jonathan state, sav->state)); 5239 1.1 jonathan continue; 5240 1.1 jonathan } 5241 1.1 jonathan 5242 1.1 jonathan key_sa_chgstate(sav, SADB_SASTATE_DEAD); 5243 1.1 jonathan KEY_FREESAV(&sav); 5244 1.1 jonathan } 5245 1.1 jonathan } 5246 1.1 jonathan } 5247 1.1 jonathan { 5248 1.1 jonathan struct mbuf *n; 5249 1.1 jonathan struct sadb_msg *newmsg; 5250 1.1 jonathan 5251 1.1 jonathan /* create new sadb_msg to reply. */ 5252 1.1 jonathan n = key_gather_mbuf(m, mhp, 1, 3, SADB_EXT_RESERVED, 5253 1.1 jonathan SADB_EXT_ADDRESS_SRC, SADB_EXT_ADDRESS_DST); 5254 1.1 jonathan if (!n) 5255 1.1 jonathan return key_senderror(so, m, ENOBUFS); 5256 1.1 jonathan 5257 1.1 jonathan if (n->m_len < sizeof(struct sadb_msg)) { 5258 1.1 jonathan n = m_pullup(n, sizeof(struct sadb_msg)); 5259 1.1 jonathan if (n == NULL) 5260 1.1 jonathan return key_senderror(so, m, ENOBUFS); 5261 1.1 jonathan } 5262 1.1 jonathan newmsg = mtod(n, struct sadb_msg *); 5263 1.1 jonathan newmsg->sadb_msg_errno = 0; 5264 1.1 jonathan newmsg->sadb_msg_len = PFKEY_UNIT64(n->m_pkthdr.len); 5265 1.1 jonathan 5266 1.1 jonathan m_freem(m); 5267 1.1 jonathan return key_sendup_mbuf(so, n, KEY_SENDUP_ALL); 5268 1.1 jonathan } 5269 1.1 jonathan } 5270 1.1 jonathan 5271 1.1 jonathan /* 5272 1.1 jonathan * SADB_GET processing 5273 1.1 jonathan * receive 5274 1.1 jonathan * <base, SA(*), address(SD)> 5275 1.1 jonathan * from the ikmpd, and get a SP and a SA to respond, 5276 1.1 jonathan * and send, 5277 1.1 jonathan * <base, SA, (lifetime(HSC),) address(SD), (address(P),) key(AE), 5278 1.1 jonathan * (identity(SD),) (sensitivity)> 5279 1.1 jonathan * to the ikmpd. 5280 1.1 jonathan * 5281 1.1 jonathan * m will always be freed. 5282 1.1 jonathan */ 5283 1.1 jonathan static int 5284 1.1 jonathan key_get(so, m, mhp) 5285 1.1 jonathan struct socket *so; 5286 1.1 jonathan struct mbuf *m; 5287 1.1 jonathan const struct sadb_msghdr *mhp; 5288 1.1 jonathan { 5289 1.1 jonathan struct sadb_sa *sa0; 5290 1.1 jonathan struct sadb_address *src0, *dst0; 5291 1.1 jonathan struct secasindex saidx; 5292 1.1 jonathan struct secashead *sah; 5293 1.1 jonathan struct secasvar *sav = NULL; 5294 1.1 jonathan u_int16_t proto; 5295 1.1 jonathan 5296 1.1 jonathan /* sanity check */ 5297 1.1 jonathan if (so == NULL || m == NULL || mhp == NULL || mhp->msg == NULL) 5298 1.1 jonathan panic("key_get: NULL pointer is passed.\n"); 5299 1.1 jonathan 5300 1.1 jonathan /* map satype to proto */ 5301 1.1 jonathan if ((proto = key_satype2proto(mhp->msg->sadb_msg_satype)) == 0) { 5302 1.1 jonathan ipseclog((LOG_DEBUG, "key_get: invalid satype is passed.\n")); 5303 1.1 jonathan return key_senderror(so, m, EINVAL); 5304 1.1 jonathan } 5305 1.1 jonathan 5306 1.1 jonathan if (mhp->ext[SADB_EXT_SA] == NULL || 5307 1.1 jonathan mhp->ext[SADB_EXT_ADDRESS_SRC] == NULL || 5308 1.1 jonathan mhp->ext[SADB_EXT_ADDRESS_DST] == NULL) { 5309 1.1 jonathan ipseclog((LOG_DEBUG, "key_get: invalid message is passed.\n")); 5310 1.1 jonathan return key_senderror(so, m, EINVAL); 5311 1.1 jonathan } 5312 1.1 jonathan if (mhp->extlen[SADB_EXT_SA] < sizeof(struct sadb_sa) || 5313 1.1 jonathan mhp->extlen[SADB_EXT_ADDRESS_SRC] < sizeof(struct sadb_address) || 5314 1.1 jonathan mhp->extlen[SADB_EXT_ADDRESS_DST] < sizeof(struct sadb_address)) { 5315 1.1 jonathan ipseclog((LOG_DEBUG, "key_get: invalid message is passed.\n")); 5316 1.1 jonathan return key_senderror(so, m, EINVAL); 5317 1.1 jonathan } 5318 1.1 jonathan 5319 1.1 jonathan sa0 = (struct sadb_sa *)mhp->ext[SADB_EXT_SA]; 5320 1.1 jonathan src0 = (struct sadb_address *)mhp->ext[SADB_EXT_ADDRESS_SRC]; 5321 1.1 jonathan dst0 = (struct sadb_address *)mhp->ext[SADB_EXT_ADDRESS_DST]; 5322 1.1 jonathan 5323 1.1 jonathan /* XXX boundary check against sa_len */ 5324 1.1 jonathan KEY_SETSECASIDX(proto, IPSEC_MODE_ANY, 0, src0 + 1, dst0 + 1, &saidx); 5325 1.1 jonathan 5326 1.1 jonathan /* get a SA header */ 5327 1.1 jonathan LIST_FOREACH(sah, &sahtree, chain) { 5328 1.1 jonathan if (sah->state == SADB_SASTATE_DEAD) 5329 1.1 jonathan continue; 5330 1.1 jonathan if (key_cmpsaidx(&sah->saidx, &saidx, CMP_HEAD) == 0) 5331 1.1 jonathan continue; 5332 1.1 jonathan 5333 1.1 jonathan /* get a SA with SPI. */ 5334 1.1 jonathan sav = key_getsavbyspi(sah, sa0->sadb_sa_spi); 5335 1.1 jonathan if (sav) 5336 1.1 jonathan break; 5337 1.1 jonathan } 5338 1.1 jonathan if (sah == NULL) { 5339 1.1 jonathan ipseclog((LOG_DEBUG, "key_get: no SA found.\n")); 5340 1.1 jonathan return key_senderror(so, m, ENOENT); 5341 1.1 jonathan } 5342 1.1 jonathan 5343 1.1 jonathan { 5344 1.1 jonathan struct mbuf *n; 5345 1.1 jonathan u_int8_t satype; 5346 1.1 jonathan 5347 1.1 jonathan /* map proto to satype */ 5348 1.1 jonathan if ((satype = key_proto2satype(sah->saidx.proto)) == 0) { 5349 1.1 jonathan ipseclog((LOG_DEBUG, "key_get: there was invalid proto in SAD.\n")); 5350 1.1 jonathan return key_senderror(so, m, EINVAL); 5351 1.1 jonathan } 5352 1.1 jonathan 5353 1.1 jonathan /* create new sadb_msg to reply. */ 5354 1.1 jonathan n = key_setdumpsa(sav, SADB_GET, satype, mhp->msg->sadb_msg_seq, 5355 1.1 jonathan mhp->msg->sadb_msg_pid); 5356 1.1 jonathan if (!n) 5357 1.1 jonathan return key_senderror(so, m, ENOBUFS); 5358 1.1 jonathan 5359 1.1 jonathan m_freem(m); 5360 1.1 jonathan return key_sendup_mbuf(so, n, KEY_SENDUP_ONE); 5361 1.1 jonathan } 5362 1.1 jonathan } 5363 1.1 jonathan 5364 1.1 jonathan /* XXX make it sysctl-configurable? */ 5365 1.1 jonathan static void 5366 1.1 jonathan key_getcomb_setlifetime(comb) 5367 1.1 jonathan struct sadb_comb *comb; 5368 1.1 jonathan { 5369 1.1 jonathan 5370 1.1 jonathan comb->sadb_comb_soft_allocations = 1; 5371 1.1 jonathan comb->sadb_comb_hard_allocations = 1; 5372 1.1 jonathan comb->sadb_comb_soft_bytes = 0; 5373 1.1 jonathan comb->sadb_comb_hard_bytes = 0; 5374 1.1 jonathan comb->sadb_comb_hard_addtime = 86400; /* 1 day */ 5375 1.1 jonathan comb->sadb_comb_soft_addtime = comb->sadb_comb_soft_addtime * 80 / 100; 5376 1.1 jonathan comb->sadb_comb_soft_usetime = 28800; /* 8 hours */ 5377 1.1 jonathan comb->sadb_comb_hard_usetime = comb->sadb_comb_hard_usetime * 80 / 100; 5378 1.1 jonathan } 5379 1.1 jonathan 5380 1.1 jonathan /* 5381 1.1 jonathan * XXX reorder combinations by preference 5382 1.1 jonathan * XXX no idea if the user wants ESP authentication or not 5383 1.1 jonathan */ 5384 1.1 jonathan static struct mbuf * 5385 1.1 jonathan key_getcomb_esp() 5386 1.1 jonathan { 5387 1.1 jonathan struct sadb_comb *comb; 5388 1.1 jonathan struct enc_xform *algo; 5389 1.1 jonathan struct mbuf *result = NULL, *m, *n; 5390 1.1 jonathan int encmin; 5391 1.1 jonathan int i, off, o; 5392 1.1 jonathan int totlen; 5393 1.1 jonathan const int l = PFKEY_ALIGN8(sizeof(struct sadb_comb)); 5394 1.1 jonathan 5395 1.1 jonathan m = NULL; 5396 1.1 jonathan for (i = 1; i <= SADB_EALG_MAX; i++) { 5397 1.1 jonathan algo = esp_algorithm_lookup(i); 5398 1.1 jonathan if (algo == NULL) 5399 1.1 jonathan continue; 5400 1.1 jonathan 5401 1.1 jonathan /* discard algorithms with key size smaller than system min */ 5402 1.1 jonathan if (_BITS(algo->maxkey) < ipsec_esp_keymin) 5403 1.1 jonathan continue; 5404 1.1 jonathan if (_BITS(algo->minkey) < ipsec_esp_keymin) 5405 1.1 jonathan encmin = ipsec_esp_keymin; 5406 1.1 jonathan else 5407 1.1 jonathan encmin = _BITS(algo->minkey); 5408 1.1 jonathan 5409 1.1 jonathan if (ipsec_esp_auth) 5410 1.1 jonathan m = key_getcomb_ah(); 5411 1.1 jonathan else { 5412 1.1 jonathan IPSEC_ASSERT(l <= MLEN, 5413 1.1 jonathan ("key_getcomb_esp: l=%u > MLEN=%lu", 5414 1.1 jonathan l, (u_long) MLEN)); 5415 1.1 jonathan MGET(m, M_DONTWAIT, MT_DATA); 5416 1.1 jonathan if (m) { 5417 1.1 jonathan M_ALIGN(m, l); 5418 1.1 jonathan m->m_len = l; 5419 1.1 jonathan m->m_next = NULL; 5420 1.1 jonathan bzero(mtod(m, caddr_t), m->m_len); 5421 1.1 jonathan } 5422 1.1 jonathan } 5423 1.1 jonathan if (!m) 5424 1.1 jonathan goto fail; 5425 1.1 jonathan 5426 1.1 jonathan totlen = 0; 5427 1.1 jonathan for (n = m; n; n = n->m_next) 5428 1.1 jonathan totlen += n->m_len; 5429 1.1 jonathan IPSEC_ASSERT((totlen % l) == 0, 5430 1.1 jonathan ("key_getcomb_esp: totlen=%u, l=%u", totlen, l)); 5431 1.1 jonathan 5432 1.1 jonathan for (off = 0; off < totlen; off += l) { 5433 1.1 jonathan n = m_pulldown(m, off, l, &o); 5434 1.1 jonathan if (!n) { 5435 1.1 jonathan /* m is already freed */ 5436 1.1 jonathan goto fail; 5437 1.1 jonathan } 5438 1.1 jonathan comb = (struct sadb_comb *)(mtod(n, caddr_t) + o); 5439 1.1 jonathan bzero(comb, sizeof(*comb)); 5440 1.1 jonathan key_getcomb_setlifetime(comb); 5441 1.1 jonathan comb->sadb_comb_encrypt = i; 5442 1.1 jonathan comb->sadb_comb_encrypt_minbits = encmin; 5443 1.1 jonathan comb->sadb_comb_encrypt_maxbits = _BITS(algo->maxkey); 5444 1.1 jonathan } 5445 1.1 jonathan 5446 1.1 jonathan if (!result) 5447 1.1 jonathan result = m; 5448 1.1 jonathan else 5449 1.1 jonathan m_cat(result, m); 5450 1.1 jonathan } 5451 1.1 jonathan 5452 1.1 jonathan return result; 5453 1.1 jonathan 5454 1.1 jonathan fail: 5455 1.1 jonathan if (result) 5456 1.1 jonathan m_freem(result); 5457 1.1 jonathan return NULL; 5458 1.1 jonathan } 5459 1.1 jonathan 5460 1.1 jonathan static void 5461 1.1 jonathan key_getsizes_ah( 5462 1.1 jonathan const struct auth_hash *ah, 5463 1.1 jonathan int alg, 5464 1.1 jonathan u_int16_t* min, 5465 1.1 jonathan u_int16_t* max) 5466 1.1 jonathan { 5467 1.1 jonathan *min = *max = ah->keysize; 5468 1.1 jonathan if (ah->keysize == 0) { 5469 1.1 jonathan /* 5470 1.1 jonathan * Transform takes arbitrary key size but algorithm 5471 1.1 jonathan * key size is restricted. Enforce this here. 5472 1.1 jonathan */ 5473 1.1 jonathan switch (alg) { 5474 1.1 jonathan case SADB_X_AALG_MD5: *min = *max = 16; break; 5475 1.1 jonathan case SADB_X_AALG_SHA: *min = *max = 20; break; 5476 1.1 jonathan case SADB_X_AALG_NULL: *min = 1; *max = 256; break; 5477 1.1 jonathan default: 5478 1.1 jonathan DPRINTF(("key_getsizes_ah: unknown AH algorithm %u\n", 5479 1.1 jonathan alg)); 5480 1.1 jonathan break; 5481 1.1 jonathan } 5482 1.1 jonathan } 5483 1.1 jonathan } 5484 1.1 jonathan 5485 1.1 jonathan /* 5486 1.1 jonathan * XXX reorder combinations by preference 5487 1.1 jonathan */ 5488 1.1 jonathan static struct mbuf * 5489 1.1 jonathan key_getcomb_ah() 5490 1.1 jonathan { 5491 1.1 jonathan struct sadb_comb *comb; 5492 1.1 jonathan struct auth_hash *algo; 5493 1.1 jonathan struct mbuf *m; 5494 1.1 jonathan u_int16_t minkeysize, maxkeysize; 5495 1.1 jonathan int i; 5496 1.1 jonathan const int l = PFKEY_ALIGN8(sizeof(struct sadb_comb)); 5497 1.1 jonathan 5498 1.1 jonathan m = NULL; 5499 1.1 jonathan for (i = 1; i <= SADB_AALG_MAX; i++) { 5500 1.1 jonathan #if 1 5501 1.1 jonathan /* we prefer HMAC algorithms, not old algorithms */ 5502 1.1 jonathan if (i != SADB_AALG_SHA1HMAC && i != SADB_AALG_MD5HMAC) 5503 1.1 jonathan continue; 5504 1.1 jonathan #endif 5505 1.1 jonathan algo = ah_algorithm_lookup(i); 5506 1.1 jonathan if (!algo) 5507 1.1 jonathan continue; 5508 1.1 jonathan key_getsizes_ah(algo, i, &minkeysize, &maxkeysize); 5509 1.1 jonathan /* discard algorithms with key size smaller than system min */ 5510 1.1 jonathan if (_BITS(minkeysize) < ipsec_ah_keymin) 5511 1.1 jonathan continue; 5512 1.1 jonathan 5513 1.1 jonathan if (!m) { 5514 1.1 jonathan IPSEC_ASSERT(l <= MLEN, 5515 1.1 jonathan ("key_getcomb_ah: l=%u > MLEN=%lu", 5516 1.1 jonathan l, (u_long) MLEN)); 5517 1.1 jonathan MGET(m, M_DONTWAIT, MT_DATA); 5518 1.1 jonathan if (m) { 5519 1.1 jonathan M_ALIGN(m, l); 5520 1.1 jonathan m->m_len = l; 5521 1.1 jonathan m->m_next = NULL; 5522 1.1 jonathan } 5523 1.1 jonathan } else 5524 1.1 jonathan M_PREPEND(m, l, M_DONTWAIT); 5525 1.1 jonathan if (!m) 5526 1.1 jonathan return NULL; 5527 1.1 jonathan 5528 1.1 jonathan comb = mtod(m, struct sadb_comb *); 5529 1.1 jonathan bzero(comb, sizeof(*comb)); 5530 1.1 jonathan key_getcomb_setlifetime(comb); 5531 1.1 jonathan comb->sadb_comb_auth = i; 5532 1.1 jonathan comb->sadb_comb_auth_minbits = _BITS(minkeysize); 5533 1.1 jonathan comb->sadb_comb_auth_maxbits = _BITS(maxkeysize); 5534 1.1 jonathan } 5535 1.1 jonathan 5536 1.1 jonathan return m; 5537 1.1 jonathan } 5538 1.1 jonathan 5539 1.1 jonathan /* 5540 1.1 jonathan * not really an official behavior. discussed in pf_key (at) inner.net in Sep2000. 5541 1.1 jonathan * XXX reorder combinations by preference 5542 1.1 jonathan */ 5543 1.1 jonathan static struct mbuf * 5544 1.1 jonathan key_getcomb_ipcomp() 5545 1.1 jonathan { 5546 1.1 jonathan struct sadb_comb *comb; 5547 1.1 jonathan struct comp_algo *algo; 5548 1.1 jonathan struct mbuf *m; 5549 1.1 jonathan int i; 5550 1.1 jonathan const int l = PFKEY_ALIGN8(sizeof(struct sadb_comb)); 5551 1.1 jonathan 5552 1.1 jonathan m = NULL; 5553 1.1 jonathan for (i = 1; i <= SADB_X_CALG_MAX; i++) { 5554 1.1 jonathan algo = ipcomp_algorithm_lookup(i); 5555 1.1 jonathan if (!algo) 5556 1.1 jonathan continue; 5557 1.1 jonathan 5558 1.1 jonathan if (!m) { 5559 1.1 jonathan IPSEC_ASSERT(l <= MLEN, 5560 1.1 jonathan ("key_getcomb_ipcomp: l=%u > MLEN=%lu", 5561 1.1 jonathan l, (u_long) MLEN)); 5562 1.1 jonathan MGET(m, M_DONTWAIT, MT_DATA); 5563 1.1 jonathan if (m) { 5564 1.1 jonathan M_ALIGN(m, l); 5565 1.1 jonathan m->m_len = l; 5566 1.1 jonathan m->m_next = NULL; 5567 1.1 jonathan } 5568 1.1 jonathan } else 5569 1.1 jonathan M_PREPEND(m, l, M_DONTWAIT); 5570 1.1 jonathan if (!m) 5571 1.1 jonathan return NULL; 5572 1.1 jonathan 5573 1.1 jonathan comb = mtod(m, struct sadb_comb *); 5574 1.1 jonathan bzero(comb, sizeof(*comb)); 5575 1.1 jonathan key_getcomb_setlifetime(comb); 5576 1.1 jonathan comb->sadb_comb_encrypt = i; 5577 1.1 jonathan /* what should we set into sadb_comb_*_{min,max}bits? */ 5578 1.1 jonathan } 5579 1.1 jonathan 5580 1.1 jonathan return m; 5581 1.1 jonathan } 5582 1.1 jonathan 5583 1.1 jonathan /* 5584 1.1 jonathan * XXX no way to pass mode (transport/tunnel) to userland 5585 1.1 jonathan * XXX replay checking? 5586 1.1 jonathan * XXX sysctl interface to ipsec_{ah,esp}_keymin 5587 1.1 jonathan */ 5588 1.1 jonathan static struct mbuf * 5589 1.1 jonathan key_getprop(saidx) 5590 1.1 jonathan const struct secasindex *saidx; 5591 1.1 jonathan { 5592 1.1 jonathan struct sadb_prop *prop; 5593 1.1 jonathan struct mbuf *m, *n; 5594 1.1 jonathan const int l = PFKEY_ALIGN8(sizeof(struct sadb_prop)); 5595 1.1 jonathan int totlen; 5596 1.1 jonathan 5597 1.1 jonathan switch (saidx->proto) { 5598 1.1 jonathan case IPPROTO_ESP: 5599 1.1 jonathan m = key_getcomb_esp(); 5600 1.1 jonathan break; 5601 1.1 jonathan case IPPROTO_AH: 5602 1.1 jonathan m = key_getcomb_ah(); 5603 1.1 jonathan break; 5604 1.1 jonathan case IPPROTO_IPCOMP: 5605 1.1 jonathan m = key_getcomb_ipcomp(); 5606 1.1 jonathan break; 5607 1.1 jonathan default: 5608 1.1 jonathan return NULL; 5609 1.1 jonathan } 5610 1.1 jonathan 5611 1.1 jonathan if (!m) 5612 1.1 jonathan return NULL; 5613 1.1 jonathan M_PREPEND(m, l, M_DONTWAIT); 5614 1.1 jonathan if (!m) 5615 1.1 jonathan return NULL; 5616 1.1 jonathan 5617 1.1 jonathan totlen = 0; 5618 1.1 jonathan for (n = m; n; n = n->m_next) 5619 1.1 jonathan totlen += n->m_len; 5620 1.1 jonathan 5621 1.1 jonathan prop = mtod(m, struct sadb_prop *); 5622 1.1 jonathan bzero(prop, sizeof(*prop)); 5623 1.1 jonathan prop->sadb_prop_len = PFKEY_UNIT64(totlen); 5624 1.1 jonathan prop->sadb_prop_exttype = SADB_EXT_PROPOSAL; 5625 1.1 jonathan prop->sadb_prop_replay = 32; /* XXX */ 5626 1.1 jonathan 5627 1.1 jonathan return m; 5628 1.1 jonathan } 5629 1.1 jonathan 5630 1.1 jonathan /* 5631 1.1 jonathan * SADB_ACQUIRE processing called by key_checkrequest() and key_acquire2(). 5632 1.1 jonathan * send 5633 1.1 jonathan * <base, SA, address(SD), (address(P)), x_policy, 5634 1.1 jonathan * (identity(SD),) (sensitivity,) proposal> 5635 1.1 jonathan * to KMD, and expect to receive 5636 1.1 jonathan * <base> with SADB_ACQUIRE if error occured, 5637 1.1 jonathan * or 5638 1.1 jonathan * <base, src address, dst address, (SPI range)> with SADB_GETSPI 5639 1.1 jonathan * from KMD by PF_KEY. 5640 1.1 jonathan * 5641 1.1 jonathan * XXX x_policy is outside of RFC2367 (KAME extension). 5642 1.1 jonathan * XXX sensitivity is not supported. 5643 1.1 jonathan * XXX for ipcomp, RFC2367 does not define how to fill in proposal. 5644 1.1 jonathan * see comment for key_getcomb_ipcomp(). 5645 1.1 jonathan * 5646 1.1 jonathan * OUT: 5647 1.1 jonathan * 0 : succeed 5648 1.1 jonathan * others: error number 5649 1.1 jonathan */ 5650 1.1 jonathan static int 5651 1.1 jonathan key_acquire(const struct secasindex *saidx, struct secpolicy *sp) 5652 1.1 jonathan { 5653 1.1 jonathan struct mbuf *result = NULL, *m; 5654 1.1 jonathan #ifndef IPSEC_NONBLOCK_ACQUIRE 5655 1.1 jonathan struct secacq *newacq; 5656 1.1 jonathan #endif 5657 1.1 jonathan u_int8_t satype; 5658 1.1 jonathan int error = -1; 5659 1.1 jonathan u_int32_t seq; 5660 1.1 jonathan 5661 1.1 jonathan /* sanity check */ 5662 1.1 jonathan IPSEC_ASSERT(saidx != NULL, ("key_acquire: null saidx")); 5663 1.1 jonathan satype = key_proto2satype(saidx->proto); 5664 1.1 jonathan IPSEC_ASSERT(satype != 0, 5665 1.1 jonathan ("key_acquire: null satype, protocol %u", saidx->proto)); 5666 1.1 jonathan 5667 1.1 jonathan #ifndef IPSEC_NONBLOCK_ACQUIRE 5668 1.1 jonathan /* 5669 1.1 jonathan * We never do anything about acquirng SA. There is anather 5670 1.1 jonathan * solution that kernel blocks to send SADB_ACQUIRE message until 5671 1.1 jonathan * getting something message from IKEd. In later case, to be 5672 1.1 jonathan * managed with ACQUIRING list. 5673 1.1 jonathan */ 5674 1.1 jonathan /* Get an entry to check whether sending message or not. */ 5675 1.1 jonathan if ((newacq = key_getacq(saidx)) != NULL) { 5676 1.1 jonathan if (key_blockacq_count < newacq->count) { 5677 1.1 jonathan /* reset counter and do send message. */ 5678 1.1 jonathan newacq->count = 0; 5679 1.1 jonathan } else { 5680 1.1 jonathan /* increment counter and do nothing. */ 5681 1.1 jonathan newacq->count++; 5682 1.1 jonathan return 0; 5683 1.1 jonathan } 5684 1.1 jonathan } else { 5685 1.1 jonathan /* make new entry for blocking to send SADB_ACQUIRE. */ 5686 1.1 jonathan if ((newacq = key_newacq(saidx)) == NULL) 5687 1.1 jonathan return ENOBUFS; 5688 1.1 jonathan 5689 1.1 jonathan /* add to acqtree */ 5690 1.1 jonathan LIST_INSERT_HEAD(&acqtree, newacq, chain); 5691 1.1 jonathan } 5692 1.1 jonathan #endif 5693 1.1 jonathan 5694 1.1 jonathan 5695 1.1 jonathan #ifndef IPSEC_NONBLOCK_ACQUIRE 5696 1.1 jonathan seq = newacq->seq; 5697 1.1 jonathan #else 5698 1.1 jonathan seq = (acq_seq = (acq_seq == ~0 ? 1 : ++acq_seq)); 5699 1.1 jonathan #endif 5700 1.1 jonathan m = key_setsadbmsg(SADB_ACQUIRE, 0, satype, seq, 0, 0); 5701 1.1 jonathan if (!m) { 5702 1.1 jonathan error = ENOBUFS; 5703 1.1 jonathan goto fail; 5704 1.1 jonathan } 5705 1.1 jonathan result = m; 5706 1.1 jonathan 5707 1.1 jonathan /* set sadb_address for saidx's. */ 5708 1.1 jonathan m = key_setsadbaddr(SADB_EXT_ADDRESS_SRC, 5709 1.1 jonathan &saidx->src.sa, FULLMASK, IPSEC_ULPROTO_ANY); 5710 1.1 jonathan if (!m) { 5711 1.1 jonathan error = ENOBUFS; 5712 1.1 jonathan goto fail; 5713 1.1 jonathan } 5714 1.1 jonathan m_cat(result, m); 5715 1.1 jonathan 5716 1.1 jonathan m = key_setsadbaddr(SADB_EXT_ADDRESS_DST, 5717 1.1 jonathan &saidx->dst.sa, FULLMASK, IPSEC_ULPROTO_ANY); 5718 1.1 jonathan if (!m) { 5719 1.1 jonathan error = ENOBUFS; 5720 1.1 jonathan goto fail; 5721 1.1 jonathan } 5722 1.1 jonathan m_cat(result, m); 5723 1.1 jonathan 5724 1.1 jonathan /* XXX proxy address (optional) */ 5725 1.1 jonathan 5726 1.1 jonathan /* set sadb_x_policy */ 5727 1.1 jonathan if (sp) { 5728 1.1 jonathan m = key_setsadbxpolicy(sp->policy, sp->spidx.dir, sp->id); 5729 1.1 jonathan if (!m) { 5730 1.1 jonathan error = ENOBUFS; 5731 1.1 jonathan goto fail; 5732 1.1 jonathan } 5733 1.1 jonathan m_cat(result, m); 5734 1.1 jonathan } 5735 1.1 jonathan 5736 1.1 jonathan /* XXX identity (optional) */ 5737 1.1 jonathan #if 0 5738 1.1 jonathan if (idexttype && fqdn) { 5739 1.1 jonathan /* create identity extension (FQDN) */ 5740 1.1 jonathan struct sadb_ident *id; 5741 1.1 jonathan int fqdnlen; 5742 1.1 jonathan 5743 1.1 jonathan fqdnlen = strlen(fqdn) + 1; /* +1 for terminating-NUL */ 5744 1.1 jonathan id = (struct sadb_ident *)p; 5745 1.1 jonathan bzero(id, sizeof(*id) + PFKEY_ALIGN8(fqdnlen)); 5746 1.1 jonathan id->sadb_ident_len = PFKEY_UNIT64(sizeof(*id) + PFKEY_ALIGN8(fqdnlen)); 5747 1.1 jonathan id->sadb_ident_exttype = idexttype; 5748 1.1 jonathan id->sadb_ident_type = SADB_IDENTTYPE_FQDN; 5749 1.1 jonathan bcopy(fqdn, id + 1, fqdnlen); 5750 1.1 jonathan p += sizeof(struct sadb_ident) + PFKEY_ALIGN8(fqdnlen); 5751 1.1 jonathan } 5752 1.1 jonathan 5753 1.1 jonathan if (idexttype) { 5754 1.1 jonathan /* create identity extension (USERFQDN) */ 5755 1.1 jonathan struct sadb_ident *id; 5756 1.1 jonathan int userfqdnlen; 5757 1.1 jonathan 5758 1.1 jonathan if (userfqdn) { 5759 1.1 jonathan /* +1 for terminating-NUL */ 5760 1.1 jonathan userfqdnlen = strlen(userfqdn) + 1; 5761 1.1 jonathan } else 5762 1.1 jonathan userfqdnlen = 0; 5763 1.1 jonathan id = (struct sadb_ident *)p; 5764 1.1 jonathan bzero(id, sizeof(*id) + PFKEY_ALIGN8(userfqdnlen)); 5765 1.1 jonathan id->sadb_ident_len = PFKEY_UNIT64(sizeof(*id) + PFKEY_ALIGN8(userfqdnlen)); 5766 1.1 jonathan id->sadb_ident_exttype = idexttype; 5767 1.1 jonathan id->sadb_ident_type = SADB_IDENTTYPE_USERFQDN; 5768 1.1 jonathan /* XXX is it correct? */ 5769 1.1 jonathan if (curproc && curproc->p_cred) 5770 1.1 jonathan id->sadb_ident_id = curproc->p_cred->p_ruid; 5771 1.1 jonathan if (userfqdn && userfqdnlen) 5772 1.1 jonathan bcopy(userfqdn, id + 1, userfqdnlen); 5773 1.1 jonathan p += sizeof(struct sadb_ident) + PFKEY_ALIGN8(userfqdnlen); 5774 1.1 jonathan } 5775 1.1 jonathan #endif 5776 1.1 jonathan 5777 1.1 jonathan /* XXX sensitivity (optional) */ 5778 1.1 jonathan 5779 1.1 jonathan /* create proposal/combination extension */ 5780 1.1 jonathan m = key_getprop(saidx); 5781 1.1 jonathan #if 0 5782 1.1 jonathan /* 5783 1.1 jonathan * spec conformant: always attach proposal/combination extension, 5784 1.1 jonathan * the problem is that we have no way to attach it for ipcomp, 5785 1.1 jonathan * due to the way sadb_comb is declared in RFC2367. 5786 1.1 jonathan */ 5787 1.1 jonathan if (!m) { 5788 1.1 jonathan error = ENOBUFS; 5789 1.1 jonathan goto fail; 5790 1.1 jonathan } 5791 1.1 jonathan m_cat(result, m); 5792 1.1 jonathan #else 5793 1.1 jonathan /* 5794 1.1 jonathan * outside of spec; make proposal/combination extension optional. 5795 1.1 jonathan */ 5796 1.1 jonathan if (m) 5797 1.1 jonathan m_cat(result, m); 5798 1.1 jonathan #endif 5799 1.1 jonathan 5800 1.1 jonathan if ((result->m_flags & M_PKTHDR) == 0) { 5801 1.1 jonathan error = EINVAL; 5802 1.1 jonathan goto fail; 5803 1.1 jonathan } 5804 1.1 jonathan 5805 1.1 jonathan if (result->m_len < sizeof(struct sadb_msg)) { 5806 1.1 jonathan result = m_pullup(result, sizeof(struct sadb_msg)); 5807 1.1 jonathan if (result == NULL) { 5808 1.1 jonathan error = ENOBUFS; 5809 1.1 jonathan goto fail; 5810 1.1 jonathan } 5811 1.1 jonathan } 5812 1.1 jonathan 5813 1.1 jonathan result->m_pkthdr.len = 0; 5814 1.1 jonathan for (m = result; m; m = m->m_next) 5815 1.1 jonathan result->m_pkthdr.len += m->m_len; 5816 1.1 jonathan 5817 1.1 jonathan mtod(result, struct sadb_msg *)->sadb_msg_len = 5818 1.1 jonathan PFKEY_UNIT64(result->m_pkthdr.len); 5819 1.1 jonathan 5820 1.1 jonathan return key_sendup_mbuf(NULL, result, KEY_SENDUP_REGISTERED); 5821 1.1 jonathan 5822 1.1 jonathan fail: 5823 1.1 jonathan if (result) 5824 1.1 jonathan m_freem(result); 5825 1.1 jonathan return error; 5826 1.1 jonathan } 5827 1.1 jonathan 5828 1.1 jonathan #ifndef IPSEC_NONBLOCK_ACQUIRE 5829 1.1 jonathan static struct secacq * 5830 1.1 jonathan key_newacq(const struct secasindex *saidx) 5831 1.1 jonathan { 5832 1.1 jonathan struct secacq *newacq; 5833 1.1 jonathan 5834 1.1 jonathan /* get new entry */ 5835 1.1 jonathan KMALLOC(newacq, struct secacq *, sizeof(struct secacq)); 5836 1.1 jonathan if (newacq == NULL) { 5837 1.1 jonathan ipseclog((LOG_DEBUG, "key_newacq: No more memory.\n")); 5838 1.1 jonathan return NULL; 5839 1.1 jonathan } 5840 1.1 jonathan bzero(newacq, sizeof(*newacq)); 5841 1.1 jonathan 5842 1.1 jonathan /* copy secindex */ 5843 1.1 jonathan bcopy(saidx, &newacq->saidx, sizeof(newacq->saidx)); 5844 1.1 jonathan newacq->seq = (acq_seq == ~0 ? 1 : ++acq_seq); 5845 1.1 jonathan newacq->created = time_second; 5846 1.1 jonathan newacq->count = 0; 5847 1.1 jonathan 5848 1.1 jonathan return newacq; 5849 1.1 jonathan } 5850 1.1 jonathan 5851 1.1 jonathan static struct secacq * 5852 1.1 jonathan key_getacq(const struct secasindex *saidx) 5853 1.1 jonathan { 5854 1.1 jonathan struct secacq *acq; 5855 1.1 jonathan 5856 1.1 jonathan LIST_FOREACH(acq, &acqtree, chain) { 5857 1.1 jonathan if (key_cmpsaidx(saidx, &acq->saidx, CMP_EXACTLY)) 5858 1.1 jonathan return acq; 5859 1.1 jonathan } 5860 1.1 jonathan 5861 1.1 jonathan return NULL; 5862 1.1 jonathan } 5863 1.1 jonathan 5864 1.1 jonathan static struct secacq * 5865 1.1 jonathan key_getacqbyseq(seq) 5866 1.1 jonathan u_int32_t seq; 5867 1.1 jonathan { 5868 1.1 jonathan struct secacq *acq; 5869 1.1 jonathan 5870 1.1 jonathan LIST_FOREACH(acq, &acqtree, chain) { 5871 1.1 jonathan if (acq->seq == seq) 5872 1.1 jonathan return acq; 5873 1.1 jonathan } 5874 1.1 jonathan 5875 1.1 jonathan return NULL; 5876 1.1 jonathan } 5877 1.1 jonathan #endif 5878 1.1 jonathan 5879 1.1 jonathan static struct secspacq * 5880 1.1 jonathan key_newspacq(spidx) 5881 1.1 jonathan struct secpolicyindex *spidx; 5882 1.1 jonathan { 5883 1.1 jonathan struct secspacq *acq; 5884 1.1 jonathan 5885 1.1 jonathan /* get new entry */ 5886 1.1 jonathan KMALLOC(acq, struct secspacq *, sizeof(struct secspacq)); 5887 1.1 jonathan if (acq == NULL) { 5888 1.1 jonathan ipseclog((LOG_DEBUG, "key_newspacq: No more memory.\n")); 5889 1.1 jonathan return NULL; 5890 1.1 jonathan } 5891 1.1 jonathan bzero(acq, sizeof(*acq)); 5892 1.1 jonathan 5893 1.1 jonathan /* copy secindex */ 5894 1.1 jonathan bcopy(spidx, &acq->spidx, sizeof(acq->spidx)); 5895 1.1 jonathan acq->created = time_second; 5896 1.1 jonathan acq->count = 0; 5897 1.1 jonathan 5898 1.1 jonathan return acq; 5899 1.1 jonathan } 5900 1.1 jonathan 5901 1.1 jonathan static struct secspacq * 5902 1.1 jonathan key_getspacq(spidx) 5903 1.1 jonathan struct secpolicyindex *spidx; 5904 1.1 jonathan { 5905 1.1 jonathan struct secspacq *acq; 5906 1.1 jonathan 5907 1.1 jonathan LIST_FOREACH(acq, &spacqtree, chain) { 5908 1.1 jonathan if (key_cmpspidx_exactly(spidx, &acq->spidx)) 5909 1.1 jonathan return acq; 5910 1.1 jonathan } 5911 1.1 jonathan 5912 1.1 jonathan return NULL; 5913 1.1 jonathan } 5914 1.1 jonathan 5915 1.1 jonathan /* 5916 1.1 jonathan * SADB_ACQUIRE processing, 5917 1.1 jonathan * in first situation, is receiving 5918 1.1 jonathan * <base> 5919 1.1 jonathan * from the ikmpd, and clear sequence of its secasvar entry. 5920 1.1 jonathan * 5921 1.1 jonathan * In second situation, is receiving 5922 1.1 jonathan * <base, address(SD), (address(P),) (identity(SD),) (sensitivity,) proposal> 5923 1.1 jonathan * from a user land process, and return 5924 1.1 jonathan * <base, address(SD), (address(P),) (identity(SD),) (sensitivity,) proposal> 5925 1.1 jonathan * to the socket. 5926 1.1 jonathan * 5927 1.1 jonathan * m will always be freed. 5928 1.1 jonathan */ 5929 1.1 jonathan static int 5930 1.1 jonathan key_acquire2(so, m, mhp) 5931 1.1 jonathan struct socket *so; 5932 1.1 jonathan struct mbuf *m; 5933 1.1 jonathan const struct sadb_msghdr *mhp; 5934 1.1 jonathan { 5935 1.1 jonathan const struct sadb_address *src0, *dst0; 5936 1.1 jonathan struct secasindex saidx; 5937 1.1 jonathan struct secashead *sah; 5938 1.1 jonathan u_int16_t proto; 5939 1.1 jonathan int error; 5940 1.1 jonathan 5941 1.1 jonathan /* sanity check */ 5942 1.1 jonathan if (so == NULL || m == NULL || mhp == NULL || mhp->msg == NULL) 5943 1.1 jonathan panic("key_acquire2: NULL pointer is passed.\n"); 5944 1.1 jonathan 5945 1.1 jonathan /* 5946 1.1 jonathan * Error message from KMd. 5947 1.1 jonathan * We assume that if error was occured in IKEd, the length of PFKEY 5948 1.1 jonathan * message is equal to the size of sadb_msg structure. 5949 1.1 jonathan * We do not raise error even if error occured in this function. 5950 1.1 jonathan */ 5951 1.1 jonathan if (mhp->msg->sadb_msg_len == PFKEY_UNIT64(sizeof(struct sadb_msg))) { 5952 1.1 jonathan #ifndef IPSEC_NONBLOCK_ACQUIRE 5953 1.1 jonathan struct secacq *acq; 5954 1.1 jonathan 5955 1.1 jonathan /* check sequence number */ 5956 1.1 jonathan if (mhp->msg->sadb_msg_seq == 0) { 5957 1.1 jonathan ipseclog((LOG_DEBUG, "key_acquire2: must specify sequence number.\n")); 5958 1.1 jonathan m_freem(m); 5959 1.1 jonathan return 0; 5960 1.1 jonathan } 5961 1.1 jonathan 5962 1.1 jonathan if ((acq = key_getacqbyseq(mhp->msg->sadb_msg_seq)) == NULL) { 5963 1.1 jonathan /* 5964 1.1 jonathan * the specified larval SA is already gone, or we got 5965 1.1 jonathan * a bogus sequence number. we can silently ignore it. 5966 1.1 jonathan */ 5967 1.1 jonathan m_freem(m); 5968 1.1 jonathan return 0; 5969 1.1 jonathan } 5970 1.1 jonathan 5971 1.1 jonathan /* reset acq counter in order to deletion by timehander. */ 5972 1.1 jonathan acq->created = time_second; 5973 1.1 jonathan acq->count = 0; 5974 1.1 jonathan #endif 5975 1.1 jonathan m_freem(m); 5976 1.1 jonathan return 0; 5977 1.1 jonathan } 5978 1.1 jonathan 5979 1.1 jonathan /* 5980 1.1 jonathan * This message is from user land. 5981 1.1 jonathan */ 5982 1.1 jonathan 5983 1.1 jonathan /* map satype to proto */ 5984 1.1 jonathan if ((proto = key_satype2proto(mhp->msg->sadb_msg_satype)) == 0) { 5985 1.1 jonathan ipseclog((LOG_DEBUG, "key_acquire2: invalid satype is passed.\n")); 5986 1.1 jonathan return key_senderror(so, m, EINVAL); 5987 1.1 jonathan } 5988 1.1 jonathan 5989 1.1 jonathan if (mhp->ext[SADB_EXT_ADDRESS_SRC] == NULL || 5990 1.1 jonathan mhp->ext[SADB_EXT_ADDRESS_DST] == NULL || 5991 1.1 jonathan mhp->ext[SADB_EXT_PROPOSAL] == NULL) { 5992 1.1 jonathan /* error */ 5993 1.1 jonathan ipseclog((LOG_DEBUG, "key_acquire2: invalid message is passed.\n")); 5994 1.1 jonathan return key_senderror(so, m, EINVAL); 5995 1.1 jonathan } 5996 1.1 jonathan if (mhp->extlen[SADB_EXT_ADDRESS_SRC] < sizeof(struct sadb_address) || 5997 1.1 jonathan mhp->extlen[SADB_EXT_ADDRESS_DST] < sizeof(struct sadb_address) || 5998 1.1 jonathan mhp->extlen[SADB_EXT_PROPOSAL] < sizeof(struct sadb_prop)) { 5999 1.1 jonathan /* error */ 6000 1.1 jonathan ipseclog((LOG_DEBUG, "key_acquire2: invalid message is passed.\n")); 6001 1.1 jonathan return key_senderror(so, m, EINVAL); 6002 1.1 jonathan } 6003 1.1 jonathan 6004 1.1 jonathan src0 = (struct sadb_address *)mhp->ext[SADB_EXT_ADDRESS_SRC]; 6005 1.1 jonathan dst0 = (struct sadb_address *)mhp->ext[SADB_EXT_ADDRESS_DST]; 6006 1.1 jonathan 6007 1.1 jonathan /* XXX boundary check against sa_len */ 6008 1.1 jonathan KEY_SETSECASIDX(proto, IPSEC_MODE_ANY, 0, src0 + 1, dst0 + 1, &saidx); 6009 1.1 jonathan 6010 1.1 jonathan /* get a SA index */ 6011 1.1 jonathan LIST_FOREACH(sah, &sahtree, chain) { 6012 1.1 jonathan if (sah->state == SADB_SASTATE_DEAD) 6013 1.1 jonathan continue; 6014 1.1 jonathan if (key_cmpsaidx(&sah->saidx, &saidx, CMP_MODE_REQID)) 6015 1.1 jonathan break; 6016 1.1 jonathan } 6017 1.1 jonathan if (sah != NULL) { 6018 1.1 jonathan ipseclog((LOG_DEBUG, "key_acquire2: a SA exists already.\n")); 6019 1.1 jonathan return key_senderror(so, m, EEXIST); 6020 1.1 jonathan } 6021 1.1 jonathan 6022 1.1 jonathan error = key_acquire(&saidx, NULL); 6023 1.1 jonathan if (error != 0) { 6024 1.1 jonathan ipseclog((LOG_DEBUG, "key_acquire2: error %d returned " 6025 1.1 jonathan "from key_acquire.\n", mhp->msg->sadb_msg_errno)); 6026 1.1 jonathan return key_senderror(so, m, error); 6027 1.1 jonathan } 6028 1.1 jonathan 6029 1.1 jonathan return key_sendup_mbuf(so, m, KEY_SENDUP_REGISTERED); 6030 1.1 jonathan } 6031 1.1 jonathan 6032 1.1 jonathan /* 6033 1.1 jonathan * SADB_REGISTER processing. 6034 1.1 jonathan * If SATYPE_UNSPEC has been passed as satype, only return sabd_supported. 6035 1.1 jonathan * receive 6036 1.1 jonathan * <base> 6037 1.1 jonathan * from the ikmpd, and register a socket to send PF_KEY messages, 6038 1.1 jonathan * and send 6039 1.1 jonathan * <base, supported> 6040 1.1 jonathan * to KMD by PF_KEY. 6041 1.1 jonathan * If socket is detached, must free from regnode. 6042 1.1 jonathan * 6043 1.1 jonathan * m will always be freed. 6044 1.1 jonathan */ 6045 1.1 jonathan static int 6046 1.1 jonathan key_register(so, m, mhp) 6047 1.1 jonathan struct socket *so; 6048 1.1 jonathan struct mbuf *m; 6049 1.1 jonathan const struct sadb_msghdr *mhp; 6050 1.1 jonathan { 6051 1.1 jonathan struct secreg *reg, *newreg = 0; 6052 1.1 jonathan 6053 1.1 jonathan /* sanity check */ 6054 1.1 jonathan if (so == NULL || m == NULL || mhp == NULL || mhp->msg == NULL) 6055 1.1 jonathan panic("key_register: NULL pointer is passed.\n"); 6056 1.1 jonathan 6057 1.1 jonathan /* check for invalid register message */ 6058 1.1 jonathan if (mhp->msg->sadb_msg_satype >= sizeof(regtree)/sizeof(regtree[0])) 6059 1.1 jonathan return key_senderror(so, m, EINVAL); 6060 1.1 jonathan 6061 1.1 jonathan /* When SATYPE_UNSPEC is specified, only return sabd_supported. */ 6062 1.1 jonathan if (mhp->msg->sadb_msg_satype == SADB_SATYPE_UNSPEC) 6063 1.1 jonathan goto setmsg; 6064 1.1 jonathan 6065 1.1 jonathan /* check whether existing or not */ 6066 1.1 jonathan LIST_FOREACH(reg, ®tree[mhp->msg->sadb_msg_satype], chain) { 6067 1.1 jonathan if (reg->so == so) { 6068 1.1 jonathan ipseclog((LOG_DEBUG, "key_register: socket exists already.\n")); 6069 1.1 jonathan return key_senderror(so, m, EEXIST); 6070 1.1 jonathan } 6071 1.1 jonathan } 6072 1.1 jonathan 6073 1.1 jonathan /* create regnode */ 6074 1.1 jonathan KMALLOC(newreg, struct secreg *, sizeof(*newreg)); 6075 1.1 jonathan if (newreg == NULL) { 6076 1.1 jonathan ipseclog((LOG_DEBUG, "key_register: No more memory.\n")); 6077 1.1 jonathan return key_senderror(so, m, ENOBUFS); 6078 1.1 jonathan } 6079 1.1 jonathan bzero((caddr_t)newreg, sizeof(*newreg)); 6080 1.1 jonathan 6081 1.1 jonathan newreg->so = so; 6082 1.1 jonathan ((struct keycb *)sotorawcb(so))->kp_registered++; 6083 1.1 jonathan 6084 1.1 jonathan /* add regnode to regtree. */ 6085 1.1 jonathan LIST_INSERT_HEAD(®tree[mhp->msg->sadb_msg_satype], newreg, chain); 6086 1.1 jonathan 6087 1.1 jonathan setmsg: 6088 1.1 jonathan { 6089 1.1 jonathan struct mbuf *n; 6090 1.1 jonathan struct sadb_msg *newmsg; 6091 1.1 jonathan struct sadb_supported *sup; 6092 1.1 jonathan u_int len, alen, elen; 6093 1.1 jonathan int off; 6094 1.1 jonathan int i; 6095 1.1 jonathan struct sadb_alg *alg; 6096 1.1 jonathan 6097 1.1 jonathan /* create new sadb_msg to reply. */ 6098 1.1 jonathan alen = 0; 6099 1.1 jonathan for (i = 1; i <= SADB_AALG_MAX; i++) { 6100 1.1 jonathan if (ah_algorithm_lookup(i)) 6101 1.1 jonathan alen += sizeof(struct sadb_alg); 6102 1.1 jonathan } 6103 1.1 jonathan if (alen) 6104 1.1 jonathan alen += sizeof(struct sadb_supported); 6105 1.1 jonathan elen = 0; 6106 1.1 jonathan for (i = 1; i <= SADB_EALG_MAX; i++) { 6107 1.1 jonathan if (esp_algorithm_lookup(i)) 6108 1.1 jonathan elen += sizeof(struct sadb_alg); 6109 1.1 jonathan } 6110 1.1 jonathan if (elen) 6111 1.1 jonathan elen += sizeof(struct sadb_supported); 6112 1.1 jonathan 6113 1.1 jonathan len = sizeof(struct sadb_msg) + alen + elen; 6114 1.1 jonathan 6115 1.1 jonathan if (len > MCLBYTES) 6116 1.1 jonathan return key_senderror(so, m, ENOBUFS); 6117 1.1 jonathan 6118 1.1 jonathan MGETHDR(n, M_DONTWAIT, MT_DATA); 6119 1.1 jonathan if (len > MHLEN) { 6120 1.1 jonathan MCLGET(n, M_DONTWAIT); 6121 1.1 jonathan if ((n->m_flags & M_EXT) == 0) { 6122 1.1 jonathan m_freem(n); 6123 1.1 jonathan n = NULL; 6124 1.1 jonathan } 6125 1.1 jonathan } 6126 1.1 jonathan if (!n) 6127 1.1 jonathan return key_senderror(so, m, ENOBUFS); 6128 1.1 jonathan 6129 1.1 jonathan n->m_pkthdr.len = n->m_len = len; 6130 1.1 jonathan n->m_next = NULL; 6131 1.1 jonathan off = 0; 6132 1.1 jonathan 6133 1.1 jonathan m_copydata(m, 0, sizeof(struct sadb_msg), mtod(n, caddr_t) + off); 6134 1.1 jonathan newmsg = mtod(n, struct sadb_msg *); 6135 1.1 jonathan newmsg->sadb_msg_errno = 0; 6136 1.1 jonathan newmsg->sadb_msg_len = PFKEY_UNIT64(len); 6137 1.1 jonathan off += PFKEY_ALIGN8(sizeof(struct sadb_msg)); 6138 1.1 jonathan 6139 1.1 jonathan /* for authentication algorithm */ 6140 1.1 jonathan if (alen) { 6141 1.1 jonathan sup = (struct sadb_supported *)(mtod(n, caddr_t) + off); 6142 1.1 jonathan sup->sadb_supported_len = PFKEY_UNIT64(alen); 6143 1.1 jonathan sup->sadb_supported_exttype = SADB_EXT_SUPPORTED_AUTH; 6144 1.1 jonathan off += PFKEY_ALIGN8(sizeof(*sup)); 6145 1.1 jonathan 6146 1.1 jonathan for (i = 1; i <= SADB_AALG_MAX; i++) { 6147 1.1 jonathan struct auth_hash *aalgo; 6148 1.1 jonathan u_int16_t minkeysize, maxkeysize; 6149 1.1 jonathan 6150 1.1 jonathan aalgo = ah_algorithm_lookup(i); 6151 1.1 jonathan if (!aalgo) 6152 1.1 jonathan continue; 6153 1.1 jonathan alg = (struct sadb_alg *)(mtod(n, caddr_t) + off); 6154 1.1 jonathan alg->sadb_alg_id = i; 6155 1.1 jonathan alg->sadb_alg_ivlen = 0; 6156 1.1 jonathan key_getsizes_ah(aalgo, i, &minkeysize, &maxkeysize); 6157 1.1 jonathan alg->sadb_alg_minbits = _BITS(minkeysize); 6158 1.1 jonathan alg->sadb_alg_maxbits = _BITS(maxkeysize); 6159 1.1 jonathan off += PFKEY_ALIGN8(sizeof(*alg)); 6160 1.1 jonathan } 6161 1.1 jonathan } 6162 1.1 jonathan 6163 1.1 jonathan /* for encryption algorithm */ 6164 1.1 jonathan if (elen) { 6165 1.1 jonathan sup = (struct sadb_supported *)(mtod(n, caddr_t) + off); 6166 1.1 jonathan sup->sadb_supported_len = PFKEY_UNIT64(elen); 6167 1.1 jonathan sup->sadb_supported_exttype = SADB_EXT_SUPPORTED_ENCRYPT; 6168 1.1 jonathan off += PFKEY_ALIGN8(sizeof(*sup)); 6169 1.1 jonathan 6170 1.1 jonathan for (i = 1; i <= SADB_EALG_MAX; i++) { 6171 1.1 jonathan struct enc_xform *ealgo; 6172 1.1 jonathan 6173 1.1 jonathan ealgo = esp_algorithm_lookup(i); 6174 1.1 jonathan if (!ealgo) 6175 1.1 jonathan continue; 6176 1.1 jonathan alg = (struct sadb_alg *)(mtod(n, caddr_t) + off); 6177 1.1 jonathan alg->sadb_alg_id = i; 6178 1.1 jonathan alg->sadb_alg_ivlen = ealgo->blocksize; 6179 1.1 jonathan alg->sadb_alg_minbits = _BITS(ealgo->minkey); 6180 1.1 jonathan alg->sadb_alg_maxbits = _BITS(ealgo->maxkey); 6181 1.1 jonathan off += PFKEY_ALIGN8(sizeof(struct sadb_alg)); 6182 1.1 jonathan } 6183 1.1 jonathan } 6184 1.1 jonathan 6185 1.1 jonathan #ifdef DIGAGNOSTIC 6186 1.1 jonathan if (off != len) 6187 1.1 jonathan panic("length assumption failed in key_register"); 6188 1.1 jonathan #endif 6189 1.1 jonathan 6190 1.1 jonathan m_freem(m); 6191 1.1 jonathan return key_sendup_mbuf(so, n, KEY_SENDUP_REGISTERED); 6192 1.1 jonathan } 6193 1.1 jonathan } 6194 1.1 jonathan 6195 1.1 jonathan /* 6196 1.1 jonathan * free secreg entry registered. 6197 1.1 jonathan * XXX: I want to do free a socket marked done SADB_RESIGER to socket. 6198 1.1 jonathan */ 6199 1.1 jonathan void 6200 1.1 jonathan key_freereg(so) 6201 1.1 jonathan struct socket *so; 6202 1.1 jonathan { 6203 1.1 jonathan struct secreg *reg; 6204 1.1 jonathan int i; 6205 1.1 jonathan 6206 1.1 jonathan /* sanity check */ 6207 1.1 jonathan if (so == NULL) 6208 1.1 jonathan panic("key_freereg: NULL pointer is passed.\n"); 6209 1.1 jonathan 6210 1.1 jonathan /* 6211 1.1 jonathan * check whether existing or not. 6212 1.1 jonathan * check all type of SA, because there is a potential that 6213 1.1 jonathan * one socket is registered to multiple type of SA. 6214 1.1 jonathan */ 6215 1.1 jonathan for (i = 0; i <= SADB_SATYPE_MAX; i++) { 6216 1.1 jonathan LIST_FOREACH(reg, ®tree[i], chain) { 6217 1.1 jonathan if (reg->so == so 6218 1.1 jonathan && __LIST_CHAINED(reg)) { 6219 1.1 jonathan LIST_REMOVE(reg, chain); 6220 1.1 jonathan KFREE(reg); 6221 1.1 jonathan break; 6222 1.1 jonathan } 6223 1.1 jonathan } 6224 1.1 jonathan } 6225 1.1 jonathan 6226 1.1 jonathan return; 6227 1.1 jonathan } 6228 1.1 jonathan 6229 1.1 jonathan /* 6230 1.1 jonathan * SADB_EXPIRE processing 6231 1.1 jonathan * send 6232 1.1 jonathan * <base, SA, SA2, lifetime(C and one of HS), address(SD)> 6233 1.1 jonathan * to KMD by PF_KEY. 6234 1.1 jonathan * NOTE: We send only soft lifetime extension. 6235 1.1 jonathan * 6236 1.1 jonathan * OUT: 0 : succeed 6237 1.1 jonathan * others : error number 6238 1.1 jonathan */ 6239 1.1 jonathan static int 6240 1.1 jonathan key_expire(sav) 6241 1.1 jonathan struct secasvar *sav; 6242 1.1 jonathan { 6243 1.1 jonathan int s; 6244 1.1 jonathan int satype; 6245 1.1 jonathan struct mbuf *result = NULL, *m; 6246 1.1 jonathan int len; 6247 1.1 jonathan int error = -1; 6248 1.1 jonathan struct sadb_lifetime *lt; 6249 1.1 jonathan 6250 1.1 jonathan /* XXX: Why do we lock ? */ 6251 1.1 jonathan s = splsoftnet(); /*called from softclock()*/ 6252 1.1 jonathan 6253 1.1 jonathan /* sanity check */ 6254 1.1 jonathan if (sav == NULL) 6255 1.1 jonathan panic("key_expire: NULL pointer is passed.\n"); 6256 1.1 jonathan if (sav->sah == NULL) 6257 1.1 jonathan panic("key_expire: Why was SA index in SA NULL.\n"); 6258 1.1 jonathan if ((satype = key_proto2satype(sav->sah->saidx.proto)) == 0) 6259 1.1 jonathan panic("key_expire: invalid proto is passed.\n"); 6260 1.1 jonathan 6261 1.1 jonathan /* set msg header */ 6262 1.1 jonathan m = key_setsadbmsg(SADB_EXPIRE, 0, satype, sav->seq, 0, sav->refcnt); 6263 1.1 jonathan if (!m) { 6264 1.1 jonathan error = ENOBUFS; 6265 1.1 jonathan goto fail; 6266 1.1 jonathan } 6267 1.1 jonathan result = m; 6268 1.1 jonathan 6269 1.1 jonathan /* create SA extension */ 6270 1.1 jonathan m = key_setsadbsa(sav); 6271 1.1 jonathan if (!m) { 6272 1.1 jonathan error = ENOBUFS; 6273 1.1 jonathan goto fail; 6274 1.1 jonathan } 6275 1.1 jonathan m_cat(result, m); 6276 1.1 jonathan 6277 1.1 jonathan /* create SA extension */ 6278 1.1 jonathan m = key_setsadbxsa2(sav->sah->saidx.mode, 6279 1.1 jonathan sav->replay ? sav->replay->count : 0, 6280 1.1 jonathan sav->sah->saidx.reqid); 6281 1.1 jonathan if (!m) { 6282 1.1 jonathan error = ENOBUFS; 6283 1.1 jonathan goto fail; 6284 1.1 jonathan } 6285 1.1 jonathan m_cat(result, m); 6286 1.1 jonathan 6287 1.1 jonathan /* create lifetime extension (current and soft) */ 6288 1.1 jonathan len = PFKEY_ALIGN8(sizeof(*lt)) * 2; 6289 1.1 jonathan m = key_alloc_mbuf(len); 6290 1.1 jonathan if (!m || m->m_next) { /*XXX*/ 6291 1.1 jonathan if (m) 6292 1.1 jonathan m_freem(m); 6293 1.1 jonathan error = ENOBUFS; 6294 1.1 jonathan goto fail; 6295 1.1 jonathan } 6296 1.1 jonathan bzero(mtod(m, caddr_t), len); 6297 1.1 jonathan lt = mtod(m, struct sadb_lifetime *); 6298 1.1 jonathan lt->sadb_lifetime_len = PFKEY_UNIT64(sizeof(struct sadb_lifetime)); 6299 1.1 jonathan lt->sadb_lifetime_exttype = SADB_EXT_LIFETIME_CURRENT; 6300 1.1 jonathan lt->sadb_lifetime_allocations = sav->lft_c->sadb_lifetime_allocations; 6301 1.1 jonathan lt->sadb_lifetime_bytes = sav->lft_c->sadb_lifetime_bytes; 6302 1.1 jonathan lt->sadb_lifetime_addtime = sav->lft_c->sadb_lifetime_addtime; 6303 1.1 jonathan lt->sadb_lifetime_usetime = sav->lft_c->sadb_lifetime_usetime; 6304 1.1 jonathan lt = (struct sadb_lifetime *)(mtod(m, caddr_t) + len / 2); 6305 1.1 jonathan bcopy(sav->lft_s, lt, sizeof(*lt)); 6306 1.1 jonathan m_cat(result, m); 6307 1.1 jonathan 6308 1.1 jonathan /* set sadb_address for source */ 6309 1.1 jonathan m = key_setsadbaddr(SADB_EXT_ADDRESS_SRC, 6310 1.1 jonathan &sav->sah->saidx.src.sa, 6311 1.1 jonathan FULLMASK, IPSEC_ULPROTO_ANY); 6312 1.1 jonathan if (!m) { 6313 1.1 jonathan error = ENOBUFS; 6314 1.1 jonathan goto fail; 6315 1.1 jonathan } 6316 1.1 jonathan m_cat(result, m); 6317 1.1 jonathan 6318 1.1 jonathan /* set sadb_address for destination */ 6319 1.1 jonathan m = key_setsadbaddr(SADB_EXT_ADDRESS_DST, 6320 1.1 jonathan &sav->sah->saidx.dst.sa, 6321 1.1 jonathan FULLMASK, IPSEC_ULPROTO_ANY); 6322 1.1 jonathan if (!m) { 6323 1.1 jonathan error = ENOBUFS; 6324 1.1 jonathan goto fail; 6325 1.1 jonathan } 6326 1.1 jonathan m_cat(result, m); 6327 1.1 jonathan 6328 1.1 jonathan if ((result->m_flags & M_PKTHDR) == 0) { 6329 1.1 jonathan error = EINVAL; 6330 1.1 jonathan goto fail; 6331 1.1 jonathan } 6332 1.1 jonathan 6333 1.1 jonathan if (result->m_len < sizeof(struct sadb_msg)) { 6334 1.1 jonathan result = m_pullup(result, sizeof(struct sadb_msg)); 6335 1.1 jonathan if (result == NULL) { 6336 1.1 jonathan error = ENOBUFS; 6337 1.1 jonathan goto fail; 6338 1.1 jonathan } 6339 1.1 jonathan } 6340 1.1 jonathan 6341 1.1 jonathan result->m_pkthdr.len = 0; 6342 1.1 jonathan for (m = result; m; m = m->m_next) 6343 1.1 jonathan result->m_pkthdr.len += m->m_len; 6344 1.1 jonathan 6345 1.1 jonathan mtod(result, struct sadb_msg *)->sadb_msg_len = 6346 1.1 jonathan PFKEY_UNIT64(result->m_pkthdr.len); 6347 1.1 jonathan 6348 1.1 jonathan splx(s); 6349 1.1 jonathan return key_sendup_mbuf(NULL, result, KEY_SENDUP_REGISTERED); 6350 1.1 jonathan 6351 1.1 jonathan fail: 6352 1.1 jonathan if (result) 6353 1.1 jonathan m_freem(result); 6354 1.1 jonathan splx(s); 6355 1.1 jonathan return error; 6356 1.1 jonathan } 6357 1.1 jonathan 6358 1.1 jonathan /* 6359 1.1 jonathan * SADB_FLUSH processing 6360 1.1 jonathan * receive 6361 1.1 jonathan * <base> 6362 1.1 jonathan * from the ikmpd, and free all entries in secastree. 6363 1.1 jonathan * and send, 6364 1.1 jonathan * <base> 6365 1.1 jonathan * to the ikmpd. 6366 1.1 jonathan * NOTE: to do is only marking SADB_SASTATE_DEAD. 6367 1.1 jonathan * 6368 1.1 jonathan * m will always be freed. 6369 1.1 jonathan */ 6370 1.1 jonathan static int 6371 1.1 jonathan key_flush(so, m, mhp) 6372 1.1 jonathan struct socket *so; 6373 1.1 jonathan struct mbuf *m; 6374 1.1 jonathan const struct sadb_msghdr *mhp; 6375 1.1 jonathan { 6376 1.1 jonathan struct sadb_msg *newmsg; 6377 1.1 jonathan struct secashead *sah, *nextsah; 6378 1.1 jonathan struct secasvar *sav, *nextsav; 6379 1.1 jonathan u_int16_t proto; 6380 1.1 jonathan u_int8_t state; 6381 1.1 jonathan u_int stateidx; 6382 1.1 jonathan 6383 1.1 jonathan /* sanity check */ 6384 1.1 jonathan if (so == NULL || mhp == NULL || mhp->msg == NULL) 6385 1.1 jonathan panic("key_flush: NULL pointer is passed.\n"); 6386 1.1 jonathan 6387 1.1 jonathan /* map satype to proto */ 6388 1.1 jonathan if ((proto = key_satype2proto(mhp->msg->sadb_msg_satype)) == 0) { 6389 1.1 jonathan ipseclog((LOG_DEBUG, "key_flush: invalid satype is passed.\n")); 6390 1.1 jonathan return key_senderror(so, m, EINVAL); 6391 1.1 jonathan } 6392 1.1 jonathan 6393 1.1 jonathan /* no SATYPE specified, i.e. flushing all SA. */ 6394 1.1 jonathan for (sah = LIST_FIRST(&sahtree); 6395 1.1 jonathan sah != NULL; 6396 1.1 jonathan sah = nextsah) { 6397 1.1 jonathan nextsah = LIST_NEXT(sah, chain); 6398 1.1 jonathan 6399 1.1 jonathan if (mhp->msg->sadb_msg_satype != SADB_SATYPE_UNSPEC 6400 1.1 jonathan && proto != sah->saidx.proto) 6401 1.1 jonathan continue; 6402 1.1 jonathan 6403 1.1 jonathan for (stateidx = 0; 6404 1.1 jonathan stateidx < _ARRAYLEN(saorder_state_alive); 6405 1.1 jonathan stateidx++) { 6406 1.1 jonathan state = saorder_state_any[stateidx]; 6407 1.1 jonathan for (sav = LIST_FIRST(&sah->savtree[state]); 6408 1.1 jonathan sav != NULL; 6409 1.1 jonathan sav = nextsav) { 6410 1.1 jonathan 6411 1.1 jonathan nextsav = LIST_NEXT(sav, chain); 6412 1.1 jonathan 6413 1.1 jonathan key_sa_chgstate(sav, SADB_SASTATE_DEAD); 6414 1.1 jonathan KEY_FREESAV(&sav); 6415 1.1 jonathan } 6416 1.1 jonathan } 6417 1.1 jonathan 6418 1.1 jonathan sah->state = SADB_SASTATE_DEAD; 6419 1.1 jonathan } 6420 1.1 jonathan 6421 1.1 jonathan if (m->m_len < sizeof(struct sadb_msg) || 6422 1.1 jonathan sizeof(struct sadb_msg) > m->m_len + M_TRAILINGSPACE(m)) { 6423 1.1 jonathan ipseclog((LOG_DEBUG, "key_flush: No more memory.\n")); 6424 1.1 jonathan return key_senderror(so, m, ENOBUFS); 6425 1.1 jonathan } 6426 1.1 jonathan 6427 1.1 jonathan if (m->m_next) 6428 1.1 jonathan m_freem(m->m_next); 6429 1.1 jonathan m->m_next = NULL; 6430 1.1 jonathan m->m_pkthdr.len = m->m_len = sizeof(struct sadb_msg); 6431 1.1 jonathan newmsg = mtod(m, struct sadb_msg *); 6432 1.1 jonathan newmsg->sadb_msg_errno = 0; 6433 1.1 jonathan newmsg->sadb_msg_len = PFKEY_UNIT64(m->m_pkthdr.len); 6434 1.1 jonathan 6435 1.1 jonathan return key_sendup_mbuf(so, m, KEY_SENDUP_ALL); 6436 1.1 jonathan } 6437 1.1 jonathan 6438 1.1 jonathan /* 6439 1.1 jonathan * SADB_DUMP processing 6440 1.1 jonathan * dump all entries including status of DEAD in SAD. 6441 1.1 jonathan * receive 6442 1.1 jonathan * <base> 6443 1.1 jonathan * from the ikmpd, and dump all secasvar leaves 6444 1.1 jonathan * and send, 6445 1.1 jonathan * <base> ..... 6446 1.1 jonathan * to the ikmpd. 6447 1.1 jonathan * 6448 1.1 jonathan * m will always be freed. 6449 1.1 jonathan */ 6450 1.1 jonathan static int 6451 1.1 jonathan key_dump(so, m, mhp) 6452 1.1 jonathan struct socket *so; 6453 1.1 jonathan struct mbuf *m; 6454 1.1 jonathan const struct sadb_msghdr *mhp; 6455 1.1 jonathan { 6456 1.1 jonathan struct secashead *sah; 6457 1.1 jonathan struct secasvar *sav; 6458 1.1 jonathan u_int16_t proto; 6459 1.1 jonathan u_int stateidx; 6460 1.1 jonathan u_int8_t satype; 6461 1.1 jonathan u_int8_t state; 6462 1.1 jonathan int cnt; 6463 1.1 jonathan struct sadb_msg *newmsg; 6464 1.1 jonathan struct mbuf *n; 6465 1.1 jonathan 6466 1.1 jonathan /* sanity check */ 6467 1.1 jonathan if (so == NULL || m == NULL || mhp == NULL || mhp->msg == NULL) 6468 1.1 jonathan panic("key_dump: NULL pointer is passed.\n"); 6469 1.1 jonathan 6470 1.1 jonathan /* map satype to proto */ 6471 1.1 jonathan if ((proto = key_satype2proto(mhp->msg->sadb_msg_satype)) == 0) { 6472 1.1 jonathan ipseclog((LOG_DEBUG, "key_dump: invalid satype is passed.\n")); 6473 1.1 jonathan return key_senderror(so, m, EINVAL); 6474 1.1 jonathan } 6475 1.1 jonathan 6476 1.1 jonathan /* count sav entries to be sent to the userland. */ 6477 1.1 jonathan cnt = 0; 6478 1.1 jonathan LIST_FOREACH(sah, &sahtree, chain) { 6479 1.1 jonathan if (mhp->msg->sadb_msg_satype != SADB_SATYPE_UNSPEC 6480 1.1 jonathan && proto != sah->saidx.proto) 6481 1.1 jonathan continue; 6482 1.1 jonathan 6483 1.1 jonathan for (stateidx = 0; 6484 1.1 jonathan stateidx < _ARRAYLEN(saorder_state_any); 6485 1.1 jonathan stateidx++) { 6486 1.1 jonathan state = saorder_state_any[stateidx]; 6487 1.1 jonathan LIST_FOREACH(sav, &sah->savtree[state], chain) { 6488 1.1 jonathan cnt++; 6489 1.1 jonathan } 6490 1.1 jonathan } 6491 1.1 jonathan } 6492 1.1 jonathan 6493 1.1 jonathan if (cnt == 0) 6494 1.1 jonathan return key_senderror(so, m, ENOENT); 6495 1.1 jonathan 6496 1.1 jonathan /* send this to the userland, one at a time. */ 6497 1.1 jonathan newmsg = NULL; 6498 1.1 jonathan LIST_FOREACH(sah, &sahtree, chain) { 6499 1.1 jonathan if (mhp->msg->sadb_msg_satype != SADB_SATYPE_UNSPEC 6500 1.1 jonathan && proto != sah->saidx.proto) 6501 1.1 jonathan continue; 6502 1.1 jonathan 6503 1.1 jonathan /* map proto to satype */ 6504 1.1 jonathan if ((satype = key_proto2satype(sah->saidx.proto)) == 0) { 6505 1.1 jonathan ipseclog((LOG_DEBUG, "key_dump: there was invalid proto in SAD.\n")); 6506 1.1 jonathan return key_senderror(so, m, EINVAL); 6507 1.1 jonathan } 6508 1.1 jonathan 6509 1.1 jonathan for (stateidx = 0; 6510 1.1 jonathan stateidx < _ARRAYLEN(saorder_state_any); 6511 1.1 jonathan stateidx++) { 6512 1.1 jonathan state = saorder_state_any[stateidx]; 6513 1.1 jonathan LIST_FOREACH(sav, &sah->savtree[state], chain) { 6514 1.1 jonathan n = key_setdumpsa(sav, SADB_DUMP, satype, 6515 1.1 jonathan --cnt, mhp->msg->sadb_msg_pid); 6516 1.1 jonathan if (!n) 6517 1.1 jonathan return key_senderror(so, m, ENOBUFS); 6518 1.1 jonathan 6519 1.1 jonathan key_sendup_mbuf(so, n, KEY_SENDUP_ONE); 6520 1.1 jonathan } 6521 1.1 jonathan } 6522 1.1 jonathan } 6523 1.1 jonathan 6524 1.1 jonathan m_freem(m); 6525 1.1 jonathan return 0; 6526 1.1 jonathan } 6527 1.1 jonathan 6528 1.1 jonathan /* 6529 1.1 jonathan * SADB_X_PROMISC processing 6530 1.1 jonathan * 6531 1.1 jonathan * m will always be freed. 6532 1.1 jonathan */ 6533 1.1 jonathan static int 6534 1.1 jonathan key_promisc(so, m, mhp) 6535 1.1 jonathan struct socket *so; 6536 1.1 jonathan struct mbuf *m; 6537 1.1 jonathan const struct sadb_msghdr *mhp; 6538 1.1 jonathan { 6539 1.1 jonathan int olen; 6540 1.1 jonathan 6541 1.1 jonathan /* sanity check */ 6542 1.1 jonathan if (so == NULL || m == NULL || mhp == NULL || mhp->msg == NULL) 6543 1.1 jonathan panic("key_promisc: NULL pointer is passed.\n"); 6544 1.1 jonathan 6545 1.1 jonathan olen = PFKEY_UNUNIT64(mhp->msg->sadb_msg_len); 6546 1.1 jonathan 6547 1.1 jonathan if (olen < sizeof(struct sadb_msg)) { 6548 1.1 jonathan #if 1 6549 1.1 jonathan return key_senderror(so, m, EINVAL); 6550 1.1 jonathan #else 6551 1.1 jonathan m_freem(m); 6552 1.1 jonathan return 0; 6553 1.1 jonathan #endif 6554 1.1 jonathan } else if (olen == sizeof(struct sadb_msg)) { 6555 1.1 jonathan /* enable/disable promisc mode */ 6556 1.1 jonathan struct keycb *kp; 6557 1.1 jonathan 6558 1.1 jonathan if ((kp = (struct keycb *)sotorawcb(so)) == NULL) 6559 1.1 jonathan return key_senderror(so, m, EINVAL); 6560 1.1 jonathan mhp->msg->sadb_msg_errno = 0; 6561 1.1 jonathan switch (mhp->msg->sadb_msg_satype) { 6562 1.1 jonathan case 0: 6563 1.1 jonathan case 1: 6564 1.1 jonathan kp->kp_promisc = mhp->msg->sadb_msg_satype; 6565 1.1 jonathan break; 6566 1.1 jonathan default: 6567 1.1 jonathan return key_senderror(so, m, EINVAL); 6568 1.1 jonathan } 6569 1.1 jonathan 6570 1.1 jonathan /* send the original message back to everyone */ 6571 1.1 jonathan mhp->msg->sadb_msg_errno = 0; 6572 1.1 jonathan return key_sendup_mbuf(so, m, KEY_SENDUP_ALL); 6573 1.1 jonathan } else { 6574 1.1 jonathan /* send packet as is */ 6575 1.1 jonathan 6576 1.1 jonathan m_adj(m, PFKEY_ALIGN8(sizeof(struct sadb_msg))); 6577 1.1 jonathan 6578 1.1 jonathan /* TODO: if sadb_msg_seq is specified, send to specific pid */ 6579 1.1 jonathan return key_sendup_mbuf(so, m, KEY_SENDUP_ALL); 6580 1.1 jonathan } 6581 1.1 jonathan } 6582 1.1 jonathan 6583 1.1 jonathan static int (*key_typesw[]) __P((struct socket *, struct mbuf *, 6584 1.1 jonathan const struct sadb_msghdr *)) = { 6585 1.1 jonathan NULL, /* SADB_RESERVED */ 6586 1.1 jonathan key_getspi, /* SADB_GETSPI */ 6587 1.1 jonathan key_update, /* SADB_UPDATE */ 6588 1.1 jonathan key_add, /* SADB_ADD */ 6589 1.1 jonathan key_delete, /* SADB_DELETE */ 6590 1.1 jonathan key_get, /* SADB_GET */ 6591 1.1 jonathan key_acquire2, /* SADB_ACQUIRE */ 6592 1.1 jonathan key_register, /* SADB_REGISTER */ 6593 1.1 jonathan NULL, /* SADB_EXPIRE */ 6594 1.1 jonathan key_flush, /* SADB_FLUSH */ 6595 1.1 jonathan key_dump, /* SADB_DUMP */ 6596 1.1 jonathan key_promisc, /* SADB_X_PROMISC */ 6597 1.1 jonathan NULL, /* SADB_X_PCHANGE */ 6598 1.1 jonathan key_spdadd, /* SADB_X_SPDUPDATE */ 6599 1.1 jonathan key_spdadd, /* SADB_X_SPDADD */ 6600 1.1 jonathan key_spddelete, /* SADB_X_SPDDELETE */ 6601 1.1 jonathan key_spdget, /* SADB_X_SPDGET */ 6602 1.1 jonathan NULL, /* SADB_X_SPDACQUIRE */ 6603 1.1 jonathan key_spddump, /* SADB_X_SPDDUMP */ 6604 1.1 jonathan key_spdflush, /* SADB_X_SPDFLUSH */ 6605 1.1 jonathan key_spdadd, /* SADB_X_SPDSETIDX */ 6606 1.1 jonathan NULL, /* SADB_X_SPDEXPIRE */ 6607 1.1 jonathan key_spddelete2, /* SADB_X_SPDDELETE2 */ 6608 1.1 jonathan }; 6609 1.1 jonathan 6610 1.1 jonathan /* 6611 1.1 jonathan * parse sadb_msg buffer to process PFKEYv2, 6612 1.1 jonathan * and create a data to response if needed. 6613 1.1 jonathan * I think to be dealed with mbuf directly. 6614 1.1 jonathan * IN: 6615 1.1 jonathan * msgp : pointer to pointer to a received buffer pulluped. 6616 1.1 jonathan * This is rewrited to response. 6617 1.1 jonathan * so : pointer to socket. 6618 1.1 jonathan * OUT: 6619 1.1 jonathan * length for buffer to send to user process. 6620 1.1 jonathan */ 6621 1.1 jonathan int 6622 1.1 jonathan key_parse(m, so) 6623 1.1 jonathan struct mbuf *m; 6624 1.1 jonathan struct socket *so; 6625 1.1 jonathan { 6626 1.1 jonathan struct sadb_msg *msg; 6627 1.1 jonathan struct sadb_msghdr mh; 6628 1.1 jonathan u_int orglen; 6629 1.1 jonathan int error; 6630 1.1 jonathan int target; 6631 1.1 jonathan 6632 1.1 jonathan /* sanity check */ 6633 1.1 jonathan if (m == NULL || so == NULL) 6634 1.1 jonathan panic("key_parse: NULL pointer is passed.\n"); 6635 1.1 jonathan 6636 1.1 jonathan #if 0 /*kdebug_sadb assumes msg in linear buffer*/ 6637 1.1 jonathan KEYDEBUG(KEYDEBUG_KEY_DUMP, 6638 1.1 jonathan ipseclog((LOG_DEBUG, "key_parse: passed sadb_msg\n")); 6639 1.1 jonathan kdebug_sadb(msg)); 6640 1.1 jonathan #endif 6641 1.1 jonathan 6642 1.1 jonathan if (m->m_len < sizeof(struct sadb_msg)) { 6643 1.1 jonathan m = m_pullup(m, sizeof(struct sadb_msg)); 6644 1.1 jonathan if (!m) 6645 1.1 jonathan return ENOBUFS; 6646 1.1 jonathan } 6647 1.1 jonathan msg = mtod(m, struct sadb_msg *); 6648 1.1 jonathan orglen = PFKEY_UNUNIT64(msg->sadb_msg_len); 6649 1.1 jonathan target = KEY_SENDUP_ONE; 6650 1.1 jonathan 6651 1.1 jonathan if ((m->m_flags & M_PKTHDR) == 0 || 6652 1.1 jonathan m->m_pkthdr.len != m->m_pkthdr.len) { 6653 1.1 jonathan ipseclog((LOG_DEBUG, "key_parse: invalid message length.\n")); 6654 1.1 jonathan pfkeystat.out_invlen++; 6655 1.1 jonathan error = EINVAL; 6656 1.1 jonathan goto senderror; 6657 1.1 jonathan } 6658 1.1 jonathan 6659 1.1 jonathan if (msg->sadb_msg_version != PF_KEY_V2) { 6660 1.1 jonathan ipseclog((LOG_DEBUG, 6661 1.1 jonathan "key_parse: PF_KEY version %u is mismatched.\n", 6662 1.1 jonathan msg->sadb_msg_version)); 6663 1.1 jonathan pfkeystat.out_invver++; 6664 1.1 jonathan error = EINVAL; 6665 1.1 jonathan goto senderror; 6666 1.1 jonathan } 6667 1.1 jonathan 6668 1.1 jonathan if (msg->sadb_msg_type > SADB_MAX) { 6669 1.1 jonathan ipseclog((LOG_DEBUG, "key_parse: invalid type %u is passed.\n", 6670 1.1 jonathan msg->sadb_msg_type)); 6671 1.1 jonathan pfkeystat.out_invmsgtype++; 6672 1.1 jonathan error = EINVAL; 6673 1.1 jonathan goto senderror; 6674 1.1 jonathan } 6675 1.1 jonathan 6676 1.1 jonathan /* for old-fashioned code - should be nuked */ 6677 1.1 jonathan if (m->m_pkthdr.len > MCLBYTES) { 6678 1.1 jonathan m_freem(m); 6679 1.1 jonathan return ENOBUFS; 6680 1.1 jonathan } 6681 1.1 jonathan if (m->m_next) { 6682 1.1 jonathan struct mbuf *n; 6683 1.1 jonathan 6684 1.1 jonathan MGETHDR(n, M_DONTWAIT, MT_DATA); 6685 1.1 jonathan if (n && m->m_pkthdr.len > MHLEN) { 6686 1.1 jonathan MCLGET(n, M_DONTWAIT); 6687 1.1 jonathan if ((n->m_flags & M_EXT) == 0) { 6688 1.1 jonathan m_free(n); 6689 1.1 jonathan n = NULL; 6690 1.1 jonathan } 6691 1.1 jonathan } 6692 1.1 jonathan if (!n) { 6693 1.1 jonathan m_freem(m); 6694 1.1 jonathan return ENOBUFS; 6695 1.1 jonathan } 6696 1.1 jonathan m_copydata(m, 0, m->m_pkthdr.len, mtod(n, caddr_t)); 6697 1.1 jonathan n->m_pkthdr.len = n->m_len = m->m_pkthdr.len; 6698 1.1 jonathan n->m_next = NULL; 6699 1.1 jonathan m_freem(m); 6700 1.1 jonathan m = n; 6701 1.1 jonathan } 6702 1.1 jonathan 6703 1.1 jonathan /* align the mbuf chain so that extensions are in contiguous region. */ 6704 1.1 jonathan error = key_align(m, &mh); 6705 1.1 jonathan if (error) 6706 1.1 jonathan return error; 6707 1.1 jonathan 6708 1.1 jonathan if (m->m_next) { /*XXX*/ 6709 1.1 jonathan m_freem(m); 6710 1.1 jonathan return ENOBUFS; 6711 1.1 jonathan } 6712 1.1 jonathan 6713 1.1 jonathan msg = mh.msg; 6714 1.1 jonathan 6715 1.1 jonathan /* check SA type */ 6716 1.1 jonathan switch (msg->sadb_msg_satype) { 6717 1.1 jonathan case SADB_SATYPE_UNSPEC: 6718 1.1 jonathan switch (msg->sadb_msg_type) { 6719 1.1 jonathan case SADB_GETSPI: 6720 1.1 jonathan case SADB_UPDATE: 6721 1.1 jonathan case SADB_ADD: 6722 1.1 jonathan case SADB_DELETE: 6723 1.1 jonathan case SADB_GET: 6724 1.1 jonathan case SADB_ACQUIRE: 6725 1.1 jonathan case SADB_EXPIRE: 6726 1.1 jonathan ipseclog((LOG_DEBUG, "key_parse: must specify satype " 6727 1.1 jonathan "when msg type=%u.\n", msg->sadb_msg_type)); 6728 1.1 jonathan pfkeystat.out_invsatype++; 6729 1.1 jonathan error = EINVAL; 6730 1.1 jonathan goto senderror; 6731 1.1 jonathan } 6732 1.1 jonathan break; 6733 1.1 jonathan case SADB_SATYPE_AH: 6734 1.1 jonathan case SADB_SATYPE_ESP: 6735 1.1 jonathan case SADB_X_SATYPE_IPCOMP: 6736 1.1 jonathan switch (msg->sadb_msg_type) { 6737 1.1 jonathan case SADB_X_SPDADD: 6738 1.1 jonathan case SADB_X_SPDDELETE: 6739 1.1 jonathan case SADB_X_SPDGET: 6740 1.1 jonathan case SADB_X_SPDDUMP: 6741 1.1 jonathan case SADB_X_SPDFLUSH: 6742 1.1 jonathan case SADB_X_SPDSETIDX: 6743 1.1 jonathan case SADB_X_SPDUPDATE: 6744 1.1 jonathan case SADB_X_SPDDELETE2: 6745 1.1 jonathan ipseclog((LOG_DEBUG, "key_parse: illegal satype=%u\n", 6746 1.1 jonathan msg->sadb_msg_type)); 6747 1.1 jonathan pfkeystat.out_invsatype++; 6748 1.1 jonathan error = EINVAL; 6749 1.1 jonathan goto senderror; 6750 1.1 jonathan } 6751 1.1 jonathan break; 6752 1.1 jonathan case SADB_SATYPE_RSVP: 6753 1.1 jonathan case SADB_SATYPE_OSPFV2: 6754 1.1 jonathan case SADB_SATYPE_RIPV2: 6755 1.1 jonathan case SADB_SATYPE_MIP: 6756 1.1 jonathan ipseclog((LOG_DEBUG, "key_parse: type %u isn't supported.\n", 6757 1.1 jonathan msg->sadb_msg_satype)); 6758 1.1 jonathan pfkeystat.out_invsatype++; 6759 1.1 jonathan error = EOPNOTSUPP; 6760 1.1 jonathan goto senderror; 6761 1.1 jonathan case 1: /* XXX: What does it do? */ 6762 1.1 jonathan if (msg->sadb_msg_type == SADB_X_PROMISC) 6763 1.1 jonathan break; 6764 1.1 jonathan /*FALLTHROUGH*/ 6765 1.1 jonathan default: 6766 1.1 jonathan ipseclog((LOG_DEBUG, "key_parse: invalid type %u is passed.\n", 6767 1.1 jonathan msg->sadb_msg_satype)); 6768 1.1 jonathan pfkeystat.out_invsatype++; 6769 1.1 jonathan error = EINVAL; 6770 1.1 jonathan goto senderror; 6771 1.1 jonathan } 6772 1.1 jonathan 6773 1.1 jonathan /* check field of upper layer protocol and address family */ 6774 1.1 jonathan if (mh.ext[SADB_EXT_ADDRESS_SRC] != NULL 6775 1.1 jonathan && mh.ext[SADB_EXT_ADDRESS_DST] != NULL) { 6776 1.1 jonathan struct sadb_address *src0, *dst0; 6777 1.1 jonathan u_int plen; 6778 1.1 jonathan 6779 1.1 jonathan src0 = (struct sadb_address *)(mh.ext[SADB_EXT_ADDRESS_SRC]); 6780 1.1 jonathan dst0 = (struct sadb_address *)(mh.ext[SADB_EXT_ADDRESS_DST]); 6781 1.1 jonathan 6782 1.1 jonathan /* check upper layer protocol */ 6783 1.1 jonathan if (src0->sadb_address_proto != dst0->sadb_address_proto) { 6784 1.1 jonathan ipseclog((LOG_DEBUG, "key_parse: upper layer protocol mismatched.\n")); 6785 1.1 jonathan pfkeystat.out_invaddr++; 6786 1.1 jonathan error = EINVAL; 6787 1.1 jonathan goto senderror; 6788 1.1 jonathan } 6789 1.1 jonathan 6790 1.1 jonathan /* check family */ 6791 1.1 jonathan if (PFKEY_ADDR_SADDR(src0)->sa_family != 6792 1.1 jonathan PFKEY_ADDR_SADDR(dst0)->sa_family) { 6793 1.1 jonathan ipseclog((LOG_DEBUG, "key_parse: address family mismatched.\n")); 6794 1.1 jonathan pfkeystat.out_invaddr++; 6795 1.1 jonathan error = EINVAL; 6796 1.1 jonathan goto senderror; 6797 1.1 jonathan } 6798 1.1 jonathan if (PFKEY_ADDR_SADDR(src0)->sa_len != 6799 1.1 jonathan PFKEY_ADDR_SADDR(dst0)->sa_len) { 6800 1.1 jonathan ipseclog((LOG_DEBUG, 6801 1.1 jonathan "key_parse: address struct size mismatched.\n")); 6802 1.1 jonathan pfkeystat.out_invaddr++; 6803 1.1 jonathan error = EINVAL; 6804 1.1 jonathan goto senderror; 6805 1.1 jonathan } 6806 1.1 jonathan 6807 1.1 jonathan switch (PFKEY_ADDR_SADDR(src0)->sa_family) { 6808 1.1 jonathan case AF_INET: 6809 1.1 jonathan if (PFKEY_ADDR_SADDR(src0)->sa_len != 6810 1.1 jonathan sizeof(struct sockaddr_in)) { 6811 1.1 jonathan pfkeystat.out_invaddr++; 6812 1.1 jonathan error = EINVAL; 6813 1.1 jonathan goto senderror; 6814 1.1 jonathan } 6815 1.1 jonathan break; 6816 1.1 jonathan case AF_INET6: 6817 1.1 jonathan if (PFKEY_ADDR_SADDR(src0)->sa_len != 6818 1.1 jonathan sizeof(struct sockaddr_in6)) { 6819 1.1 jonathan pfkeystat.out_invaddr++; 6820 1.1 jonathan error = EINVAL; 6821 1.1 jonathan goto senderror; 6822 1.1 jonathan } 6823 1.1 jonathan break; 6824 1.1 jonathan default: 6825 1.1 jonathan ipseclog((LOG_DEBUG, 6826 1.1 jonathan "key_parse: unsupported address family.\n")); 6827 1.1 jonathan pfkeystat.out_invaddr++; 6828 1.1 jonathan error = EAFNOSUPPORT; 6829 1.1 jonathan goto senderror; 6830 1.1 jonathan } 6831 1.1 jonathan 6832 1.1 jonathan switch (PFKEY_ADDR_SADDR(src0)->sa_family) { 6833 1.1 jonathan case AF_INET: 6834 1.1 jonathan plen = sizeof(struct in_addr) << 3; 6835 1.1 jonathan break; 6836 1.1 jonathan case AF_INET6: 6837 1.1 jonathan plen = sizeof(struct in6_addr) << 3; 6838 1.1 jonathan break; 6839 1.1 jonathan default: 6840 1.1 jonathan plen = 0; /*fool gcc*/ 6841 1.1 jonathan break; 6842 1.1 jonathan } 6843 1.1 jonathan 6844 1.1 jonathan /* check max prefix length */ 6845 1.1 jonathan if (src0->sadb_address_prefixlen > plen || 6846 1.1 jonathan dst0->sadb_address_prefixlen > plen) { 6847 1.1 jonathan ipseclog((LOG_DEBUG, 6848 1.1 jonathan "key_parse: illegal prefixlen.\n")); 6849 1.1 jonathan pfkeystat.out_invaddr++; 6850 1.1 jonathan error = EINVAL; 6851 1.1 jonathan goto senderror; 6852 1.1 jonathan } 6853 1.1 jonathan 6854 1.1 jonathan /* 6855 1.1 jonathan * prefixlen == 0 is valid because there can be a case when 6856 1.1 jonathan * all addresses are matched. 6857 1.1 jonathan */ 6858 1.1 jonathan } 6859 1.1 jonathan 6860 1.1 jonathan if (msg->sadb_msg_type >= sizeof(key_typesw)/sizeof(key_typesw[0]) || 6861 1.1 jonathan key_typesw[msg->sadb_msg_type] == NULL) { 6862 1.1 jonathan pfkeystat.out_invmsgtype++; 6863 1.1 jonathan error = EINVAL; 6864 1.1 jonathan goto senderror; 6865 1.1 jonathan } 6866 1.1 jonathan 6867 1.1 jonathan return (*key_typesw[msg->sadb_msg_type])(so, m, &mh); 6868 1.1 jonathan 6869 1.1 jonathan senderror: 6870 1.1 jonathan msg->sadb_msg_errno = error; 6871 1.1 jonathan return key_sendup_mbuf(so, m, target); 6872 1.1 jonathan } 6873 1.1 jonathan 6874 1.1 jonathan static int 6875 1.1 jonathan key_senderror(so, m, code) 6876 1.1 jonathan struct socket *so; 6877 1.1 jonathan struct mbuf *m; 6878 1.1 jonathan int code; 6879 1.1 jonathan { 6880 1.1 jonathan struct sadb_msg *msg; 6881 1.1 jonathan 6882 1.1 jonathan if (m->m_len < sizeof(struct sadb_msg)) 6883 1.1 jonathan panic("invalid mbuf passed to key_senderror"); 6884 1.1 jonathan 6885 1.1 jonathan msg = mtod(m, struct sadb_msg *); 6886 1.1 jonathan msg->sadb_msg_errno = code; 6887 1.1 jonathan return key_sendup_mbuf(so, m, KEY_SENDUP_ONE); 6888 1.1 jonathan } 6889 1.1 jonathan 6890 1.1 jonathan /* 6891 1.1 jonathan * set the pointer to each header into message buffer. 6892 1.1 jonathan * m will be freed on error. 6893 1.1 jonathan * XXX larger-than-MCLBYTES extension? 6894 1.1 jonathan */ 6895 1.1 jonathan static int 6896 1.1 jonathan key_align(m, mhp) 6897 1.1 jonathan struct mbuf *m; 6898 1.1 jonathan struct sadb_msghdr *mhp; 6899 1.1 jonathan { 6900 1.1 jonathan struct mbuf *n; 6901 1.1 jonathan struct sadb_ext *ext; 6902 1.1 jonathan size_t off, end; 6903 1.1 jonathan int extlen; 6904 1.1 jonathan int toff; 6905 1.1 jonathan 6906 1.1 jonathan /* sanity check */ 6907 1.1 jonathan if (m == NULL || mhp == NULL) 6908 1.1 jonathan panic("key_align: NULL pointer is passed.\n"); 6909 1.1 jonathan if (m->m_len < sizeof(struct sadb_msg)) 6910 1.1 jonathan panic("invalid mbuf passed to key_align"); 6911 1.1 jonathan 6912 1.1 jonathan /* initialize */ 6913 1.1 jonathan bzero(mhp, sizeof(*mhp)); 6914 1.1 jonathan 6915 1.1 jonathan mhp->msg = mtod(m, struct sadb_msg *); 6916 1.1 jonathan mhp->ext[0] = (struct sadb_ext *)mhp->msg; /*XXX backward compat */ 6917 1.1 jonathan 6918 1.1 jonathan end = PFKEY_UNUNIT64(mhp->msg->sadb_msg_len); 6919 1.1 jonathan extlen = end; /*just in case extlen is not updated*/ 6920 1.1 jonathan for (off = sizeof(struct sadb_msg); off < end; off += extlen) { 6921 1.1 jonathan n = m_pulldown(m, off, sizeof(struct sadb_ext), &toff); 6922 1.1 jonathan if (!n) { 6923 1.1 jonathan /* m is already freed */ 6924 1.1 jonathan return ENOBUFS; 6925 1.1 jonathan } 6926 1.1 jonathan ext = (struct sadb_ext *)(mtod(n, caddr_t) + toff); 6927 1.1 jonathan 6928 1.1 jonathan /* set pointer */ 6929 1.1 jonathan switch (ext->sadb_ext_type) { 6930 1.1 jonathan case SADB_EXT_SA: 6931 1.1 jonathan case SADB_EXT_ADDRESS_SRC: 6932 1.1 jonathan case SADB_EXT_ADDRESS_DST: 6933 1.1 jonathan case SADB_EXT_ADDRESS_PROXY: 6934 1.1 jonathan case SADB_EXT_LIFETIME_CURRENT: 6935 1.1 jonathan case SADB_EXT_LIFETIME_HARD: 6936 1.1 jonathan case SADB_EXT_LIFETIME_SOFT: 6937 1.1 jonathan case SADB_EXT_KEY_AUTH: 6938 1.1 jonathan case SADB_EXT_KEY_ENCRYPT: 6939 1.1 jonathan case SADB_EXT_IDENTITY_SRC: 6940 1.1 jonathan case SADB_EXT_IDENTITY_DST: 6941 1.1 jonathan case SADB_EXT_SENSITIVITY: 6942 1.1 jonathan case SADB_EXT_PROPOSAL: 6943 1.1 jonathan case SADB_EXT_SUPPORTED_AUTH: 6944 1.1 jonathan case SADB_EXT_SUPPORTED_ENCRYPT: 6945 1.1 jonathan case SADB_EXT_SPIRANGE: 6946 1.1 jonathan case SADB_X_EXT_POLICY: 6947 1.1 jonathan case SADB_X_EXT_SA2: 6948 1.1 jonathan /* duplicate check */ 6949 1.1 jonathan /* 6950 1.1 jonathan * XXX Are there duplication payloads of either 6951 1.1 jonathan * KEY_AUTH or KEY_ENCRYPT ? 6952 1.1 jonathan */ 6953 1.1 jonathan if (mhp->ext[ext->sadb_ext_type] != NULL) { 6954 1.1 jonathan ipseclog((LOG_DEBUG, 6955 1.1 jonathan "key_align: duplicate ext_type %u " 6956 1.1 jonathan "is passed.\n", ext->sadb_ext_type)); 6957 1.1 jonathan m_freem(m); 6958 1.1 jonathan pfkeystat.out_dupext++; 6959 1.1 jonathan return EINVAL; 6960 1.1 jonathan } 6961 1.1 jonathan break; 6962 1.1 jonathan default: 6963 1.1 jonathan ipseclog((LOG_DEBUG, 6964 1.1 jonathan "key_align: invalid ext_type %u is passed.\n", 6965 1.1 jonathan ext->sadb_ext_type)); 6966 1.1 jonathan m_freem(m); 6967 1.1 jonathan pfkeystat.out_invexttype++; 6968 1.1 jonathan return EINVAL; 6969 1.1 jonathan } 6970 1.1 jonathan 6971 1.1 jonathan extlen = PFKEY_UNUNIT64(ext->sadb_ext_len); 6972 1.1 jonathan 6973 1.1 jonathan if (key_validate_ext(ext, extlen)) { 6974 1.1 jonathan m_freem(m); 6975 1.1 jonathan pfkeystat.out_invlen++; 6976 1.1 jonathan return EINVAL; 6977 1.1 jonathan } 6978 1.1 jonathan 6979 1.1 jonathan n = m_pulldown(m, off, extlen, &toff); 6980 1.1 jonathan if (!n) { 6981 1.1 jonathan /* m is already freed */ 6982 1.1 jonathan return ENOBUFS; 6983 1.1 jonathan } 6984 1.1 jonathan ext = (struct sadb_ext *)(mtod(n, caddr_t) + toff); 6985 1.1 jonathan 6986 1.1 jonathan mhp->ext[ext->sadb_ext_type] = ext; 6987 1.1 jonathan mhp->extoff[ext->sadb_ext_type] = off; 6988 1.1 jonathan mhp->extlen[ext->sadb_ext_type] = extlen; 6989 1.1 jonathan } 6990 1.1 jonathan 6991 1.1 jonathan if (off != end) { 6992 1.1 jonathan m_freem(m); 6993 1.1 jonathan pfkeystat.out_invlen++; 6994 1.1 jonathan return EINVAL; 6995 1.1 jonathan } 6996 1.1 jonathan 6997 1.1 jonathan return 0; 6998 1.1 jonathan } 6999 1.1 jonathan 7000 1.1 jonathan static int 7001 1.1 jonathan key_validate_ext(ext, len) 7002 1.1 jonathan const struct sadb_ext *ext; 7003 1.1 jonathan int len; 7004 1.1 jonathan { 7005 1.1 jonathan const struct sockaddr *sa; 7006 1.1 jonathan enum { NONE, ADDR } checktype = NONE; 7007 1.1 jonathan int baselen = 0; 7008 1.1 jonathan const int sal = offsetof(struct sockaddr, sa_len) + sizeof(sa->sa_len); 7009 1.1 jonathan 7010 1.1 jonathan if (len != PFKEY_UNUNIT64(ext->sadb_ext_len)) 7011 1.1 jonathan return EINVAL; 7012 1.1 jonathan 7013 1.1 jonathan /* if it does not match minimum/maximum length, bail */ 7014 1.1 jonathan if (ext->sadb_ext_type >= sizeof(minsize) / sizeof(minsize[0]) || 7015 1.1 jonathan ext->sadb_ext_type >= sizeof(maxsize) / sizeof(maxsize[0])) 7016 1.1 jonathan return EINVAL; 7017 1.1 jonathan if (!minsize[ext->sadb_ext_type] || len < minsize[ext->sadb_ext_type]) 7018 1.1 jonathan return EINVAL; 7019 1.1 jonathan if (maxsize[ext->sadb_ext_type] && len > maxsize[ext->sadb_ext_type]) 7020 1.1 jonathan return EINVAL; 7021 1.1 jonathan 7022 1.1 jonathan /* more checks based on sadb_ext_type XXX need more */ 7023 1.1 jonathan switch (ext->sadb_ext_type) { 7024 1.1 jonathan case SADB_EXT_ADDRESS_SRC: 7025 1.1 jonathan case SADB_EXT_ADDRESS_DST: 7026 1.1 jonathan case SADB_EXT_ADDRESS_PROXY: 7027 1.1 jonathan baselen = PFKEY_ALIGN8(sizeof(struct sadb_address)); 7028 1.1 jonathan checktype = ADDR; 7029 1.1 jonathan break; 7030 1.1 jonathan case SADB_EXT_IDENTITY_SRC: 7031 1.1 jonathan case SADB_EXT_IDENTITY_DST: 7032 1.1 jonathan if (((const struct sadb_ident *)ext)->sadb_ident_type == 7033 1.1 jonathan SADB_X_IDENTTYPE_ADDR) { 7034 1.1 jonathan baselen = PFKEY_ALIGN8(sizeof(struct sadb_ident)); 7035 1.1 jonathan checktype = ADDR; 7036 1.1 jonathan } else 7037 1.1 jonathan checktype = NONE; 7038 1.1 jonathan break; 7039 1.1 jonathan default: 7040 1.1 jonathan checktype = NONE; 7041 1.1 jonathan break; 7042 1.1 jonathan } 7043 1.1 jonathan 7044 1.1 jonathan switch (checktype) { 7045 1.1 jonathan case NONE: 7046 1.1 jonathan break; 7047 1.1 jonathan case ADDR: 7048 1.1 jonathan sa = (const struct sockaddr *)(((const u_int8_t*)ext)+baselen); 7049 1.1 jonathan if (len < baselen + sal) 7050 1.1 jonathan return EINVAL; 7051 1.1 jonathan if (baselen + PFKEY_ALIGN8(sa->sa_len) != len) 7052 1.1 jonathan return EINVAL; 7053 1.1 jonathan break; 7054 1.1 jonathan } 7055 1.1 jonathan 7056 1.1 jonathan return 0; 7057 1.1 jonathan } 7058 1.1 jonathan 7059 1.1 jonathan void 7060 1.1 jonathan key_init() 7061 1.1 jonathan { 7062 1.1 jonathan int i; 7063 1.1 jonathan 7064 1.1 jonathan callout_init(&key_timehandler_ch); 7065 1.1 jonathan 7066 1.1 jonathan for (i = 0; i < IPSEC_DIR_MAX; i++) { 7067 1.1 jonathan LIST_INIT(&sptree[i]); 7068 1.1 jonathan } 7069 1.1 jonathan 7070 1.1 jonathan LIST_INIT(&sahtree); 7071 1.1 jonathan 7072 1.1 jonathan for (i = 0; i <= SADB_SATYPE_MAX; i++) { 7073 1.1 jonathan LIST_INIT(®tree[i]); 7074 1.1 jonathan } 7075 1.1 jonathan 7076 1.1 jonathan #ifndef IPSEC_NONBLOCK_ACQUIRE 7077 1.1 jonathan LIST_INIT(&acqtree); 7078 1.1 jonathan #endif 7079 1.1 jonathan LIST_INIT(&spacqtree); 7080 1.1 jonathan 7081 1.1 jonathan /* system default */ 7082 1.1 jonathan ip4_def_policy.policy = IPSEC_POLICY_NONE; 7083 1.1 jonathan ip4_def_policy.refcnt++; /*never reclaim this*/ 7084 1.1 jonathan 7085 1.1 jonathan 7086 1.1 jonathan #ifndef IPSEC_DEBUG2 7087 1.1 jonathan callout_reset(&key_timehandler_ch, hz, key_timehandler, (void *)0); 7088 1.1 jonathan #endif /*IPSEC_DEBUG2*/ 7089 1.1 jonathan 7090 1.1 jonathan /* initialize key statistics */ 7091 1.1 jonathan keystat.getspi_count = 1; 7092 1.1 jonathan 7093 1.1 jonathan printf("IPsec: Initialized Security Association Processing.\n"); 7094 1.1 jonathan 7095 1.1 jonathan return; 7096 1.1 jonathan } 7097 1.1 jonathan 7098 1.1 jonathan /* 7099 1.1 jonathan * XXX: maybe This function is called after INBOUND IPsec processing. 7100 1.1 jonathan * 7101 1.1 jonathan * Special check for tunnel-mode packets. 7102 1.1 jonathan * We must make some checks for consistency between inner and outer IP header. 7103 1.1 jonathan * 7104 1.1 jonathan * xxx more checks to be provided 7105 1.1 jonathan */ 7106 1.1 jonathan int 7107 1.1 jonathan key_checktunnelsanity(sav, family, src, dst) 7108 1.1 jonathan struct secasvar *sav; 7109 1.1 jonathan u_int family; 7110 1.1 jonathan caddr_t src; 7111 1.1 jonathan caddr_t dst; 7112 1.1 jonathan { 7113 1.1 jonathan /* sanity check */ 7114 1.1 jonathan if (sav->sah == NULL) 7115 1.1 jonathan panic("sav->sah == NULL at key_checktunnelsanity"); 7116 1.1 jonathan 7117 1.1 jonathan /* XXX: check inner IP header */ 7118 1.1 jonathan 7119 1.1 jonathan return 1; 7120 1.1 jonathan } 7121 1.1 jonathan 7122 1.1 jonathan #if 0 7123 1.1 jonathan #define hostnamelen strlen(hostname) 7124 1.1 jonathan 7125 1.1 jonathan /* 7126 1.1 jonathan * Get FQDN for the host. 7127 1.1 jonathan * If the administrator configured hostname (by hostname(1)) without 7128 1.1 jonathan * domain name, returns nothing. 7129 1.1 jonathan */ 7130 1.1 jonathan static const char * 7131 1.1 jonathan key_getfqdn() 7132 1.1 jonathan { 7133 1.1 jonathan int i; 7134 1.1 jonathan int hasdot; 7135 1.1 jonathan static char fqdn[MAXHOSTNAMELEN + 1]; 7136 1.1 jonathan 7137 1.1 jonathan if (!hostnamelen) 7138 1.1 jonathan return NULL; 7139 1.1 jonathan 7140 1.1 jonathan /* check if it comes with domain name. */ 7141 1.1 jonathan hasdot = 0; 7142 1.1 jonathan for (i = 0; i < hostnamelen; i++) { 7143 1.1 jonathan if (hostname[i] == '.') 7144 1.1 jonathan hasdot++; 7145 1.1 jonathan } 7146 1.1 jonathan if (!hasdot) 7147 1.1 jonathan return NULL; 7148 1.1 jonathan 7149 1.1 jonathan /* NOTE: hostname may not be NUL-terminated. */ 7150 1.1 jonathan bzero(fqdn, sizeof(fqdn)); 7151 1.1 jonathan bcopy(hostname, fqdn, hostnamelen); 7152 1.1 jonathan fqdn[hostnamelen] = '\0'; 7153 1.1 jonathan return fqdn; 7154 1.1 jonathan } 7155 1.1 jonathan 7156 1.1 jonathan /* 7157 1.1 jonathan * get username@FQDN for the host/user. 7158 1.1 jonathan */ 7159 1.1 jonathan static const char * 7160 1.1 jonathan key_getuserfqdn() 7161 1.1 jonathan { 7162 1.1 jonathan const char *host; 7163 1.1 jonathan static char userfqdn[MAXHOSTNAMELEN + MAXLOGNAME + 2]; 7164 1.1 jonathan struct proc *p = curproc; 7165 1.1 jonathan char *q; 7166 1.1 jonathan 7167 1.1 jonathan if (!p || !p->p_pgrp || !p->p_pgrp->pg_session) 7168 1.1 jonathan return NULL; 7169 1.1 jonathan if (!(host = key_getfqdn())) 7170 1.1 jonathan return NULL; 7171 1.1 jonathan 7172 1.1 jonathan /* NOTE: s_login may not be-NUL terminated. */ 7173 1.1 jonathan bzero(userfqdn, sizeof(userfqdn)); 7174 1.1 jonathan bcopy(p->p_pgrp->pg_session->s_login, userfqdn, MAXLOGNAME); 7175 1.1 jonathan userfqdn[MAXLOGNAME] = '\0'; /* safeguard */ 7176 1.1 jonathan q = userfqdn + strlen(userfqdn); 7177 1.1 jonathan *q++ = '@'; 7178 1.1 jonathan bcopy(host, q, strlen(host)); 7179 1.1 jonathan q += strlen(host); 7180 1.1 jonathan *q++ = '\0'; 7181 1.1 jonathan 7182 1.1 jonathan return userfqdn; 7183 1.1 jonathan } 7184 1.1 jonathan #endif 7185 1.1 jonathan 7186 1.1 jonathan /* record data transfer on SA, and update timestamps */ 7187 1.1 jonathan void 7188 1.1 jonathan key_sa_recordxfer(sav, m) 7189 1.1 jonathan struct secasvar *sav; 7190 1.1 jonathan struct mbuf *m; 7191 1.1 jonathan { 7192 1.1 jonathan IPSEC_ASSERT(sav != NULL, ("key_sa_recordxfer: Null secasvar")); 7193 1.1 jonathan IPSEC_ASSERT(m != NULL, ("key_sa_recordxfer: Null mbuf")); 7194 1.1 jonathan if (!sav->lft_c) 7195 1.1 jonathan return; 7196 1.1 jonathan 7197 1.1 jonathan /* 7198 1.1 jonathan * XXX Currently, there is a difference of bytes size 7199 1.1 jonathan * between inbound and outbound processing. 7200 1.1 jonathan */ 7201 1.1 jonathan sav->lft_c->sadb_lifetime_bytes += m->m_pkthdr.len; 7202 1.1 jonathan /* to check bytes lifetime is done in key_timehandler(). */ 7203 1.1 jonathan 7204 1.1 jonathan /* 7205 1.1 jonathan * We use the number of packets as the unit of 7206 1.1 jonathan * sadb_lifetime_allocations. We increment the variable 7207 1.1 jonathan * whenever {esp,ah}_{in,out}put is called. 7208 1.1 jonathan */ 7209 1.1 jonathan sav->lft_c->sadb_lifetime_allocations++; 7210 1.1 jonathan /* XXX check for expires? */ 7211 1.1 jonathan 7212 1.1 jonathan /* 7213 1.1 jonathan * NOTE: We record CURRENT sadb_lifetime_usetime by using wall clock, 7214 1.1 jonathan * in seconds. HARD and SOFT lifetime are measured by the time 7215 1.1 jonathan * difference (again in seconds) from sadb_lifetime_usetime. 7216 1.1 jonathan * 7217 1.1 jonathan * usetime 7218 1.1 jonathan * v expire expire 7219 1.1 jonathan * -----+-----+--------+---> t 7220 1.1 jonathan * <--------------> HARD 7221 1.1 jonathan * <-----> SOFT 7222 1.1 jonathan */ 7223 1.1 jonathan sav->lft_c->sadb_lifetime_usetime = time_second; 7224 1.1 jonathan /* XXX check for expires? */ 7225 1.1 jonathan 7226 1.1 jonathan return; 7227 1.1 jonathan } 7228 1.1 jonathan 7229 1.1 jonathan /* dumb version */ 7230 1.1 jonathan void 7231 1.1 jonathan key_sa_routechange(dst) 7232 1.1 jonathan struct sockaddr *dst; 7233 1.1 jonathan { 7234 1.1 jonathan struct secashead *sah; 7235 1.1 jonathan struct route *ro; 7236 1.1 jonathan 7237 1.1 jonathan LIST_FOREACH(sah, &sahtree, chain) { 7238 1.1 jonathan ro = &sah->sa_route; 7239 1.1 jonathan if (ro->ro_rt && dst->sa_len == ro->ro_dst.sa_len 7240 1.1 jonathan && bcmp(dst, &ro->ro_dst, dst->sa_len) == 0) { 7241 1.1 jonathan RTFREE(ro->ro_rt); 7242 1.1 jonathan ro->ro_rt = (struct rtentry *)NULL; 7243 1.1 jonathan } 7244 1.1 jonathan } 7245 1.1 jonathan 7246 1.1 jonathan return; 7247 1.1 jonathan } 7248 1.1 jonathan 7249 1.1 jonathan static void 7250 1.1 jonathan key_sa_chgstate(sav, state) 7251 1.1 jonathan struct secasvar *sav; 7252 1.1 jonathan u_int8_t state; 7253 1.1 jonathan { 7254 1.1 jonathan if (sav == NULL) 7255 1.1 jonathan panic("key_sa_chgstate called with sav == NULL"); 7256 1.1 jonathan 7257 1.1 jonathan if (sav->state == state) 7258 1.1 jonathan return; 7259 1.1 jonathan 7260 1.1 jonathan if (__LIST_CHAINED(sav)) 7261 1.1 jonathan LIST_REMOVE(sav, chain); 7262 1.1 jonathan 7263 1.1 jonathan sav->state = state; 7264 1.1 jonathan LIST_INSERT_HEAD(&sav->sah->savtree[state], sav, chain); 7265 1.1 jonathan } 7266 1.1 jonathan 7267 1.1 jonathan void 7268 1.1 jonathan key_sa_stir_iv(sav) 7269 1.1 jonathan struct secasvar *sav; 7270 1.1 jonathan { 7271 1.1 jonathan 7272 1.1 jonathan if (!sav->iv) 7273 1.1 jonathan panic("key_sa_stir_iv called with sav == NULL"); 7274 1.1 jonathan key_randomfill(sav->iv, sav->ivlen); 7275 1.1 jonathan } 7276 1.1 jonathan 7277 1.1 jonathan /* XXX too much? */ 7278 1.1 jonathan static struct mbuf * 7279 1.1 jonathan key_alloc_mbuf(l) 7280 1.1 jonathan int l; 7281 1.1 jonathan { 7282 1.1 jonathan struct mbuf *m = NULL, *n; 7283 1.1 jonathan int len, t; 7284 1.1 jonathan 7285 1.1 jonathan len = l; 7286 1.1 jonathan while (len > 0) { 7287 1.1 jonathan MGET(n, M_DONTWAIT, MT_DATA); 7288 1.1 jonathan if (n && len > MLEN) 7289 1.1 jonathan MCLGET(n, M_DONTWAIT); 7290 1.1 jonathan if (!n) { 7291 1.1 jonathan m_freem(m); 7292 1.1 jonathan return NULL; 7293 1.1 jonathan } 7294 1.1 jonathan 7295 1.1 jonathan n->m_next = NULL; 7296 1.1 jonathan n->m_len = 0; 7297 1.1 jonathan n->m_len = M_TRAILINGSPACE(n); 7298 1.1 jonathan /* use the bottom of mbuf, hoping we can prepend afterwards */ 7299 1.1 jonathan if (n->m_len > len) { 7300 1.1 jonathan t = (n->m_len - len) & ~(sizeof(long) - 1); 7301 1.1 jonathan n->m_data += t; 7302 1.1 jonathan n->m_len = len; 7303 1.1 jonathan } 7304 1.1 jonathan 7305 1.1 jonathan len -= n->m_len; 7306 1.1 jonathan 7307 1.1 jonathan if (m) 7308 1.1 jonathan m_cat(m, n); 7309 1.1 jonathan else 7310 1.1 jonathan m = n; 7311 1.1 jonathan } 7312 1.1 jonathan 7313 1.1 jonathan return m; 7314 1.1 jonathan } 7315 1.1 jonathan 7316 1.1 jonathan #ifdef __NetBSD__ 7317 1.4 atatat SYSCTL_SETUP(sysctl_net_keyv2_setup, "sysctl net.keyv2 subtree setup") 7318 1.4 atatat { 7319 1.4 atatat 7320 1.4 atatat sysctl_createv(SYSCTL_PERMANENT, 7321 1.4 atatat CTLTYPE_NODE, "net", NULL, 7322 1.4 atatat NULL, 0, NULL, 0, 7323 1.4 atatat CTL_NET, CTL_EOL); 7324 1.4 atatat sysctl_createv(SYSCTL_PERMANENT, 7325 1.4 atatat CTLTYPE_NODE, "keyv2", NULL, 7326 1.4 atatat NULL, 0, NULL, 0, 7327 1.4 atatat CTL_NET, PF_KEY_V2, CTL_EOL); 7328 1.4 atatat 7329 1.4 atatat sysctl_createv(SYSCTL_PERMANENT|SYSCTL_READWRITE, 7330 1.4 atatat CTLTYPE_INT, "debug", NULL, 7331 1.4 atatat NULL, 0, &key_debug_level, 0, 7332 1.4 atatat CTL_NET, PF_KEY_V2, KEYCTL_DEBUG_LEVEL, CTL_EOL); 7333 1.4 atatat sysctl_createv(SYSCTL_PERMANENT|SYSCTL_READWRITE, 7334 1.4 atatat CTLTYPE_INT, "spi_try", NULL, 7335 1.4 atatat NULL, 0, &key_spi_trycnt, 0, 7336 1.4 atatat CTL_NET, PF_KEY_V2, KEYCTL_SPI_TRY, CTL_EOL); 7337 1.4 atatat sysctl_createv(SYSCTL_PERMANENT|SYSCTL_READWRITE, 7338 1.4 atatat CTLTYPE_INT, "spi_min_value", NULL, 7339 1.4 atatat NULL, 0, &key_spi_minval, 0, 7340 1.4 atatat CTL_NET, PF_KEY_V2, KEYCTL_SPI_MIN_VALUE, CTL_EOL); 7341 1.4 atatat sysctl_createv(SYSCTL_PERMANENT|SYSCTL_READWRITE, 7342 1.4 atatat CTLTYPE_INT, "spi_max_value", NULL, 7343 1.4 atatat NULL, 0, &key_spi_maxval, 0, 7344 1.4 atatat CTL_NET, PF_KEY_V2, KEYCTL_SPI_MAX_VALUE, CTL_EOL); 7345 1.4 atatat sysctl_createv(SYSCTL_PERMANENT|SYSCTL_READWRITE, 7346 1.4 atatat CTLTYPE_INT, "random_int", NULL, 7347 1.4 atatat NULL, 0, &key_int_random, 0, 7348 1.4 atatat CTL_NET, PF_KEY_V2, KEYCTL_RANDOM_INT, CTL_EOL); 7349 1.4 atatat sysctl_createv(SYSCTL_PERMANENT|SYSCTL_READWRITE, 7350 1.4 atatat CTLTYPE_INT, "larval_lifetime", NULL, 7351 1.4 atatat NULL, 0, &key_larval_lifetime, 0, 7352 1.4 atatat CTL_NET, PF_KEY_V2, KEYCTL_LARVAL_LIFETIME, CTL_EOL); 7353 1.4 atatat sysctl_createv(SYSCTL_PERMANENT|SYSCTL_READWRITE, 7354 1.4 atatat CTLTYPE_INT, "blockacq_count", NULL, 7355 1.4 atatat NULL, 0, &key_blockacq_count, 0, 7356 1.4 atatat CTL_NET, PF_KEY_V2, KEYCTL_BLOCKACQ_COUNT, CTL_EOL); 7357 1.4 atatat sysctl_createv(SYSCTL_PERMANENT|SYSCTL_READWRITE, 7358 1.4 atatat CTLTYPE_INT, "blockacq_lifetime", NULL, 7359 1.4 atatat NULL, 0, &key_blockacq_lifetime, 0, 7360 1.4 atatat CTL_NET, PF_KEY_V2, KEYCTL_BLOCKACQ_LIFETIME, CTL_EOL); 7361 1.4 atatat sysctl_createv(SYSCTL_PERMANENT|SYSCTL_READWRITE, 7362 1.4 atatat CTLTYPE_INT, "esp_keymin", NULL, 7363 1.4 atatat NULL, 0, &ipsec_esp_keymin, 0, 7364 1.4 atatat CTL_NET, PF_KEY_V2, KEYCTL_ESP_KEYMIN, CTL_EOL); 7365 1.4 atatat sysctl_createv(SYSCTL_PERMANENT|SYSCTL_READWRITE, 7366 1.4 atatat CTLTYPE_INT, "esp_auth", NULL, 7367 1.4 atatat NULL, 0, &ipsec_esp_auth, 0, 7368 1.4 atatat CTL_NET, PF_KEY_V2, KEYCTL_ESP_AUTH, CTL_EOL); 7369 1.4 atatat sysctl_createv(SYSCTL_PERMANENT|SYSCTL_READWRITE, 7370 1.4 atatat CTLTYPE_INT, "ah_keymin", NULL, 7371 1.4 atatat NULL, 0, &ipsec_ah_keymin, 0, 7372 1.4 atatat CTL_NET, PF_KEY_V2, KEYCTL_AH_KEYMIN, CTL_EOL); 7373 1.4 atatat 7374 1.4 atatat /* 7375 1.4 atatat * @@@ no KEYCTL_DUMPSA or KEYCTL_DUMPSP here?! 7376 1.4 atatat */ 7377 1.1 jonathan } 7378 1.1 jonathan #endif /*__NetBSD__*/ 7379
Indexes created Sun Sep 21 20:09:37 GMT 2025