npf_inet.c revision 1.6
1 1.6 rmind /* $NetBSD: npf_inet.c,v 1.6 2011/01/18 20:33:45 rmind Exp $ */ 2 1.1 rmind 3 1.1 rmind /*- 4 1.6 rmind * Copyright (c) 2009-2011 The NetBSD Foundation, Inc. 5 1.1 rmind * All rights reserved. 6 1.1 rmind * 7 1.1 rmind * This material is based upon work partially supported by The 8 1.1 rmind * NetBSD Foundation under a contract with Mindaugas Rasiukevicius. 9 1.1 rmind * 10 1.1 rmind * Redistribution and use in source and binary forms, with or without 11 1.1 rmind * modification, are permitted provided that the following conditions 12 1.1 rmind * are met: 13 1.1 rmind * 1. Redistributions of source code must retain the above copyright 14 1.1 rmind * notice, this list of conditions and the following disclaimer. 15 1.1 rmind * 2. Redistributions in binary form must reproduce the above copyright 16 1.1 rmind * notice, this list of conditions and the following disclaimer in the 17 1.1 rmind * documentation and/or other materials provided with the distribution. 18 1.1 rmind * 19 1.1 rmind * THIS SOFTWARE IS PROVIDED BY THE NETBSD FOUNDATION, INC. AND CONTRIBUTORS 20 1.1 rmind * ``AS IS'' AND ANY EXPRESS OR IMPLIED WARRANTIES, INCLUDING, BUT NOT LIMITED 21 1.1 rmind * TO, THE IMPLIED WARRANTIES OF MERCHANTABILITY AND FITNESS FOR A PARTICULAR 22 1.1 rmind * PURPOSE ARE DISCLAIMED. IN NO EVENT SHALL THE FOUNDATION OR CONTRIBUTORS 23 1.1 rmind * BE LIABLE FOR ANY DIRECT, INDIRECT, INCIDENTAL, SPECIAL, EXEMPLARY, OR 24 1.1 rmind * CONSEQUENTIAL DAMAGES (INCLUDING, BUT NOT LIMITED TO, PROCUREMENT OF 25 1.1 rmind * SUBSTITUTE GOODS OR SERVICES; LOSS OF USE, DATA, OR PROFITS; OR BUSINESS 26 1.1 rmind * INTERRUPTION) HOWEVER CAUSED AND ON ANY THEORY OF LIABILITY, WHETHER IN 27 1.1 rmind * CONTRACT, STRICT LIABILITY, OR TORT (INCLUDING NEGLIGENCE OR OTHERWISE) 28 1.1 rmind * ARISING IN ANY WAY OUT OF THE USE OF THIS SOFTWARE, EVEN IF ADVISED OF THE 29 1.1 rmind * POSSIBILITY OF SUCH DAMAGE. 30 1.1 rmind */ 31 1.1 rmind 32 1.1 rmind /* 33 1.1 rmind * Various procotol related helper routines. 34 1.1 rmind */ 35 1.1 rmind 36 1.1 rmind #include <sys/cdefs.h> 37 1.6 rmind __KERNEL_RCSID(0, "$NetBSD: npf_inet.c,v 1.6 2011/01/18 20:33:45 rmind Exp $"); 38 1.1 rmind 39 1.1 rmind #include <sys/param.h> 40 1.1 rmind #include <sys/kernel.h> 41 1.1 rmind 42 1.4 rmind #include <net/pfil.h> 43 1.4 rmind #include <net/if.h> 44 1.4 rmind #include <net/ethertypes.h> 45 1.4 rmind #include <net/if_ether.h> 46 1.4 rmind 47 1.1 rmind #include <netinet/in_systm.h> 48 1.1 rmind #include <netinet/in.h> 49 1.4 rmind #include <netinet/in_var.h> 50 1.1 rmind #include <netinet/ip.h> 51 1.4 rmind #include <netinet/ip6.h> 52 1.1 rmind #include <netinet/tcp.h> 53 1.1 rmind #include <netinet/udp.h> 54 1.1 rmind #include <netinet/ip_icmp.h> 55 1.1 rmind 56 1.1 rmind #include "npf_impl.h" 57 1.1 rmind 58 1.1 rmind /* 59 1.1 rmind * npf_fixup{16,32}_cksum: update IPv4 checksum. 60 1.1 rmind */ 61 1.1 rmind 62 1.1 rmind uint16_t 63 1.1 rmind npf_fixup16_cksum(uint16_t cksum, uint16_t odatum, uint16_t ndatum) 64 1.1 rmind { 65 1.1 rmind uint32_t sum; 66 1.1 rmind 67 1.1 rmind /* 68 1.1 rmind * RFC 1624: 69 1.1 rmind * HC' = ~(~HC + ~m + m') 70 1.1 rmind */ 71 1.1 rmind sum = ~ntohs(cksum) & 0xffff; 72 1.1 rmind sum += (~ntohs(odatum) & 0xffff) + ntohs(ndatum); 73 1.1 rmind sum = (sum >> 16) + (sum & 0xffff); 74 1.1 rmind sum += (sum >> 16); 75 1.1 rmind 76 1.1 rmind return htons(~sum & 0xffff); 77 1.1 rmind } 78 1.1 rmind 79 1.1 rmind uint16_t 80 1.1 rmind npf_fixup32_cksum(uint16_t cksum, uint32_t odatum, uint32_t ndatum) 81 1.1 rmind { 82 1.1 rmind 83 1.1 rmind cksum = npf_fixup16_cksum(cksum, odatum & 0xffff, ndatum & 0xffff); 84 1.1 rmind cksum = npf_fixup16_cksum(cksum, odatum >> 16, ndatum >> 16); 85 1.1 rmind return cksum; 86 1.1 rmind } 87 1.1 rmind 88 1.1 rmind /* 89 1.4 rmind * npf_addr_cksum: calculate checksum of the address, either IPv4 or IPv6. 90 1.4 rmind */ 91 1.4 rmind uint16_t 92 1.4 rmind npf_addr_cksum(uint16_t cksum, int sz, npf_addr_t *oaddr, npf_addr_t *naddr) 93 1.4 rmind { 94 1.4 rmind uint32_t *oip32 = (uint32_t *)oaddr, *nip32 = (uint32_t *)naddr; 95 1.4 rmind 96 1.4 rmind KASSERT(sz % sizeof(uint32_t) == 0); 97 1.4 rmind do { 98 1.4 rmind cksum = npf_fixup32_cksum(cksum, *oip32++, *nip32++); 99 1.4 rmind sz -= sizeof(uint32_t); 100 1.4 rmind } while (sz); 101 1.4 rmind 102 1.4 rmind return cksum; 103 1.4 rmind } 104 1.4 rmind 105 1.4 rmind /* 106 1.4 rmind * npf_addr_sum: provide IP address as a summed (if needed) 32-bit integer. 107 1.4 rmind * Note: used for hash function. 108 1.1 rmind */ 109 1.4 rmind uint32_t 110 1.4 rmind npf_addr_sum(const int sz, const npf_addr_t *a1, const npf_addr_t *a2) 111 1.1 rmind { 112 1.4 rmind uint32_t mix = 0; 113 1.4 rmind int i; 114 1.1 rmind 115 1.5 rmind KASSERT(sz > 0 && a1 != NULL && a2 != NULL); 116 1.5 rmind 117 1.4 rmind for (i = 0; i < (sz >> 2); i++) { 118 1.4 rmind mix += a1->s6_addr32[i]; 119 1.4 rmind mix += a2->s6_addr32[i]; 120 1.4 rmind } 121 1.4 rmind return mix; 122 1.4 rmind } 123 1.1 rmind 124 1.4 rmind /* 125 1.4 rmind * npf_tcpsaw: helper to fetch SEQ, ACK, WIN and return TCP data length. 126 1.4 rmind * Returns all values in host byte-order. 127 1.4 rmind */ 128 1.4 rmind int 129 1.4 rmind npf_tcpsaw(npf_cache_t *npc, tcp_seq *seq, tcp_seq *ack, uint32_t *win) 130 1.4 rmind { 131 1.4 rmind struct ip *ip = &npc->npc_ip.v4; 132 1.4 rmind struct tcphdr *th = &npc->npc_l4.tcp; 133 1.1 rmind 134 1.4 rmind KASSERT(npf_iscached(npc, NPC_IP46 | NPC_TCP)); 135 1.1 rmind 136 1.4 rmind *seq = ntohl(th->th_seq); 137 1.4 rmind *ack = ntohl(th->th_ack); 138 1.4 rmind *win = (uint32_t)ntohs(th->th_win); 139 1.1 rmind 140 1.4 rmind return ntohs(ip->ip_len) - (ip->ip_hl << 2) - (th->th_off << 2); 141 1.1 rmind } 142 1.1 rmind 143 1.1 rmind /* 144 1.4 rmind * npf_fetch_tcpopts: parse and return TCP options. 145 1.1 rmind */ 146 1.1 rmind bool 147 1.4 rmind npf_fetch_tcpopts(const npf_cache_t *npc, nbuf_t *nbuf, 148 1.4 rmind uint16_t *mss, int *wscale) 149 1.1 rmind { 150 1.4 rmind void *n_ptr = nbuf_dataptr(nbuf); 151 1.4 rmind const struct ip *ip = &npc->npc_ip.v4; 152 1.4 rmind const struct tcphdr *th = &npc->npc_l4.tcp; 153 1.4 rmind int topts_len, step; 154 1.4 rmind uint16_t val16; 155 1.4 rmind uint8_t val; 156 1.4 rmind 157 1.4 rmind KASSERT(npf_iscached(npc, NPC_IP46 | NPC_TCP)); 158 1.4 rmind 159 1.4 rmind /* Determine if there are any TCP options, get their length. */ 160 1.4 rmind topts_len = (th->th_off << 2) - sizeof(struct tcphdr); 161 1.4 rmind if (topts_len <= 0) { 162 1.4 rmind /* No options. */ 163 1.1 rmind return false; 164 1.4 rmind } 165 1.4 rmind KASSERT(topts_len <= MAX_TCPOPTLEN); 166 1.1 rmind 167 1.4 rmind /* First step: IP and TCP header up to options. */ 168 1.4 rmind step = (ip->ip_hl << 2) + sizeof(struct tcphdr); 169 1.4 rmind next: 170 1.4 rmind if (nbuf_advfetch(&nbuf, &n_ptr, step, sizeof(val), &val)) { 171 1.1 rmind return false; 172 1.4 rmind } 173 1.4 rmind switch (val) { 174 1.4 rmind case TCPOPT_EOL: 175 1.4 rmind /* Done. */ 176 1.4 rmind return true; 177 1.4 rmind case TCPOPT_NOP: 178 1.4 rmind topts_len--; 179 1.4 rmind step = 1; 180 1.4 rmind break; 181 1.4 rmind case TCPOPT_MAXSEG: 182 1.4 rmind /* 183 1.4 rmind * XXX: clean this mess. 184 1.4 rmind */ 185 1.4 rmind if (mss && *mss) { 186 1.4 rmind val16 = *mss; 187 1.4 rmind if (nbuf_advstore(&nbuf, &n_ptr, 2, 188 1.4 rmind sizeof(val16), &val16)) 189 1.4 rmind return false; 190 1.4 rmind } else if (nbuf_advfetch(&nbuf, &n_ptr, 2, 191 1.4 rmind sizeof(val16), &val16)) { 192 1.4 rmind return false; 193 1.4 rmind } 194 1.4 rmind if (mss) { 195 1.4 rmind *mss = val16; 196 1.4 rmind } 197 1.4 rmind topts_len -= TCPOLEN_MAXSEG; 198 1.4 rmind step = sizeof(val16); 199 1.4 rmind break; 200 1.4 rmind case TCPOPT_WINDOW: 201 1.4 rmind if (nbuf_advfetch(&nbuf, &n_ptr, 2, sizeof(val), &val)) { 202 1.4 rmind return false; 203 1.4 rmind } 204 1.4 rmind *wscale = (val > TCP_MAX_WINSHIFT) ? TCP_MAX_WINSHIFT : val; 205 1.4 rmind topts_len -= TCPOLEN_WINDOW; 206 1.4 rmind step = sizeof(val); 207 1.4 rmind break; 208 1.4 rmind default: 209 1.4 rmind if (nbuf_advfetch(&nbuf, &n_ptr, 1, sizeof(val), &val)) { 210 1.4 rmind return false; 211 1.4 rmind } 212 1.4 rmind if (val < 2 || val >= topts_len) { 213 1.4 rmind return false; 214 1.4 rmind } 215 1.4 rmind topts_len -= val; 216 1.4 rmind step = val - 1; 217 1.4 rmind } 218 1.6 rmind /* Any options left? */ 219 1.4 rmind if (__predict_true(topts_len > 0)) { 220 1.4 rmind goto next; 221 1.4 rmind } 222 1.6 rmind return true; 223 1.1 rmind } 224 1.1 rmind 225 1.1 rmind /* 226 1.4 rmind * npf_fetch_ip: fetch, check and cache IP header. 227 1.1 rmind */ 228 1.1 rmind bool 229 1.4 rmind npf_fetch_ip(npf_cache_t *npc, nbuf_t *nbuf, void *n_ptr) 230 1.1 rmind { 231 1.4 rmind struct ip *ip; 232 1.4 rmind uint8_t ver; 233 1.1 rmind 234 1.4 rmind if (nbuf_fetch_datum(nbuf, n_ptr, sizeof(uint8_t), &ver)) { 235 1.1 rmind return false; 236 1.4 rmind } 237 1.4 rmind switch (ver >> 4) { 238 1.4 rmind case IPVERSION: 239 1.4 rmind /* IPv4 */ 240 1.4 rmind ip = &npc->npc_ip.v4; 241 1.4 rmind /* Fetch the header. */ 242 1.4 rmind if (nbuf_fetch_datum(nbuf, n_ptr, sizeof(struct ip), ip)) { 243 1.4 rmind return false; 244 1.4 rmind } 245 1.4 rmind /* Check header length and fragment offset. */ 246 1.4 rmind if ((ip->ip_hl << 2) < sizeof(struct ip)) { 247 1.4 rmind return false; 248 1.4 rmind } 249 1.4 rmind if (ip->ip_off & ~htons(IP_DF | IP_RF)) { 250 1.4 rmind /* Note fragmentation. */ 251 1.4 rmind npc->npc_info |= NPC_IPFRAG; 252 1.4 rmind } 253 1.4 rmind /* Cache: layer 3 - IPv4. */ 254 1.4 rmind npc->npc_ipsz = sizeof(struct in_addr); 255 1.4 rmind npc->npc_srcip = (npf_addr_t *)&ip->ip_src; 256 1.4 rmind npc->npc_dstip = (npf_addr_t *)&ip->ip_dst; 257 1.4 rmind npc->npc_info |= NPC_IP4; 258 1.4 rmind break; 259 1.4 rmind 260 1.4 rmind case (IPV6_VERSION >> 4): 261 1.4 rmind /* TODO */ 262 1.4 rmind default: 263 1.1 rmind return false; 264 1.4 rmind } 265 1.4 rmind return true; 266 1.4 rmind } 267 1.1 rmind 268 1.4 rmind bool 269 1.4 rmind npf_fetch_tcp(npf_cache_t *npc, nbuf_t *nbuf, void *n_ptr) 270 1.4 rmind { 271 1.4 rmind struct ip *ip = &npc->npc_ip.v4; 272 1.4 rmind struct tcphdr *th; 273 1.4 rmind u_int hlen; 274 1.1 rmind 275 1.4 rmind /* Must have IP header processed for its length and protocol. */ 276 1.4 rmind if (!npf_iscached(npc, NPC_IP46) && !npf_fetch_ip(npc, nbuf, n_ptr)) { 277 1.1 rmind return false; 278 1.4 rmind } 279 1.4 rmind if (ip->ip_p != IPPROTO_TCP) { 280 1.1 rmind return false; 281 1.4 rmind } 282 1.4 rmind hlen = ip->ip_hl << 2; 283 1.4 rmind th = &npc->npc_l4.tcp; 284 1.4 rmind 285 1.4 rmind /* Fetch TCP header. */ 286 1.4 rmind if (nbuf_advfetch(&nbuf, &n_ptr, hlen, sizeof(struct tcphdr), th)) { 287 1.1 rmind return false; 288 1.4 rmind } 289 1.1 rmind 290 1.4 rmind /* Cache: layer 4 - TCP. */ 291 1.4 rmind npc->npc_info |= (NPC_LAYER4 | NPC_TCP); 292 1.1 rmind return true; 293 1.1 rmind } 294 1.1 rmind 295 1.1 rmind bool 296 1.4 rmind npf_fetch_udp(npf_cache_t *npc, nbuf_t *nbuf, void *n_ptr) 297 1.1 rmind { 298 1.4 rmind struct ip *ip = &npc->npc_ip.v4; 299 1.4 rmind struct udphdr *uh; 300 1.4 rmind u_int hlen; 301 1.1 rmind 302 1.4 rmind /* Must have IP header processed for its length and protocol. */ 303 1.4 rmind if (!npf_iscached(npc, NPC_IP46) && !npf_fetch_ip(npc, nbuf, n_ptr)) { 304 1.4 rmind return false; 305 1.4 rmind } 306 1.4 rmind if (ip->ip_p != IPPROTO_UDP) { 307 1.1 rmind return false; 308 1.4 rmind } 309 1.4 rmind hlen = ip->ip_hl << 2; 310 1.4 rmind uh = &npc->npc_l4.udp; 311 1.1 rmind 312 1.4 rmind /* Fetch ICMP header. */ 313 1.4 rmind if (nbuf_advfetch(&nbuf, &n_ptr, hlen, sizeof(struct udphdr), uh)) { 314 1.1 rmind return false; 315 1.4 rmind } 316 1.1 rmind 317 1.4 rmind /* Cache: layer 4 - ICMP. */ 318 1.4 rmind npc->npc_info |= (NPC_LAYER4 | NPC_UDP); 319 1.1 rmind return true; 320 1.1 rmind } 321 1.1 rmind 322 1.2 rmind /* 323 1.4 rmind * npf_fetch_icmp: fetch ICMP code, type and possible query ID. 324 1.4 rmind * 325 1.4 rmind * => Stores both all fetched items into the cache. 326 1.2 rmind */ 327 1.2 rmind bool 328 1.4 rmind npf_fetch_icmp(npf_cache_t *npc, nbuf_t *nbuf, void *n_ptr) 329 1.1 rmind { 330 1.4 rmind struct ip *ip = &npc->npc_ip.v4; 331 1.4 rmind struct icmp *ic; 332 1.6 rmind u_int hlen, iclen; 333 1.1 rmind 334 1.4 rmind /* Must have IP header processed for its length and protocol. */ 335 1.4 rmind if (!npf_iscached(npc, NPC_IP46) && !npf_fetch_ip(npc, nbuf, n_ptr)) { 336 1.4 rmind return false; 337 1.4 rmind } 338 1.4 rmind if (ip->ip_p != IPPROTO_ICMP) { 339 1.1 rmind return false; 340 1.3 rmind } 341 1.4 rmind hlen = ip->ip_hl << 2; 342 1.4 rmind ic = &npc->npc_l4.icmp; 343 1.4 rmind 344 1.4 rmind /* Fetch basic ICMP header, up to the "data" point. */ 345 1.6 rmind iclen = offsetof(struct icmp, icmp_data); 346 1.6 rmind if (nbuf_advfetch(&nbuf, &n_ptr, hlen, iclen, ic)) { 347 1.4 rmind return false; 348 1.4 rmind } 349 1.4 rmind 350 1.4 rmind /* Cache: layer 4 - ICMP. */ 351 1.4 rmind npc->npc_info |= (NPC_LAYER4 | NPC_ICMP); 352 1.1 rmind return true; 353 1.1 rmind } 354 1.1 rmind 355 1.1 rmind /* 356 1.4 rmind * npf_cache_all: general routine to cache all relevant IP (v4 or v6) 357 1.4 rmind * and TCP, UDP or ICMP data. 358 1.1 rmind */ 359 1.1 rmind bool 360 1.2 rmind npf_cache_all(npf_cache_t *npc, nbuf_t *nbuf) 361 1.1 rmind { 362 1.1 rmind void *n_ptr = nbuf_dataptr(nbuf); 363 1.1 rmind 364 1.4 rmind if (!npf_iscached(npc, NPC_IP46) && !npf_fetch_ip(npc, nbuf, n_ptr)) { 365 1.1 rmind return false; 366 1.1 rmind } 367 1.4 rmind if (npf_iscached(npc, NPC_IPFRAG)) { 368 1.4 rmind return true; 369 1.1 rmind } 370 1.4 rmind switch (npf_cache_ipproto(npc)) { 371 1.1 rmind case IPPROTO_TCP: 372 1.4 rmind return npf_fetch_tcp(npc, nbuf, n_ptr); 373 1.1 rmind case IPPROTO_UDP: 374 1.4 rmind return npf_fetch_udp(npc, nbuf, n_ptr); 375 1.1 rmind case IPPROTO_ICMP: 376 1.1 rmind return npf_fetch_icmp(npc, nbuf, n_ptr); 377 1.1 rmind } 378 1.1 rmind return false; 379 1.1 rmind } 380 1.1 rmind 381 1.1 rmind /* 382 1.4 rmind * npf_rwrip: rewrite required IP address, update the cache. 383 1.4 rmind */ 384 1.4 rmind bool 385 1.4 rmind npf_rwrip(npf_cache_t *npc, nbuf_t *nbuf, void *n_ptr, const int di, 386 1.4 rmind npf_addr_t *addr) 387 1.4 rmind { 388 1.4 rmind npf_addr_t *oaddr; 389 1.4 rmind u_int offby; 390 1.4 rmind 391 1.4 rmind KASSERT(npf_iscached(npc, NPC_IP46)); 392 1.4 rmind 393 1.4 rmind if (di == PFIL_OUT) { 394 1.4 rmind /* Rewrite source address, if outgoing. */ 395 1.4 rmind offby = offsetof(struct ip, ip_src); 396 1.4 rmind oaddr = npc->npc_srcip; 397 1.4 rmind } else { 398 1.4 rmind /* Rewrite destination, if incoming. */ 399 1.4 rmind offby = offsetof(struct ip, ip_dst); 400 1.4 rmind oaddr = npc->npc_dstip; 401 1.4 rmind } 402 1.4 rmind 403 1.4 rmind /* Advance to the address and rewrite it. */ 404 1.4 rmind if (nbuf_advstore(&nbuf, &n_ptr, offby, npc->npc_ipsz, addr)) 405 1.4 rmind return false; 406 1.4 rmind 407 1.4 rmind /* Cache: IP address. */ 408 1.4 rmind memcpy(oaddr, addr, npc->npc_ipsz); 409 1.4 rmind return true; 410 1.4 rmind } 411 1.4 rmind 412 1.4 rmind /* 413 1.4 rmind * npf_rwrport: rewrite required TCP/UDP port, update the cache. 414 1.1 rmind */ 415 1.1 rmind bool 416 1.1 rmind npf_rwrport(npf_cache_t *npc, nbuf_t *nbuf, void *n_ptr, const int di, 417 1.4 rmind in_port_t port) 418 1.1 rmind { 419 1.4 rmind const int proto = npf_cache_ipproto(npc); 420 1.4 rmind struct ip *ip = &npc->npc_ip.v4; 421 1.4 rmind u_int offby = ip->ip_hl << 2; 422 1.4 rmind in_port_t *oport; 423 1.1 rmind 424 1.4 rmind KASSERT(npf_iscached(npc, NPC_TCP) || npf_iscached(npc, NPC_UDP)); 425 1.1 rmind KASSERT(proto == IPPROTO_TCP || proto == IPPROTO_UDP); 426 1.1 rmind 427 1.4 rmind /* Offset to the port and pointer in the cache. */ 428 1.4 rmind if (proto == IPPROTO_TCP) { 429 1.4 rmind struct tcphdr *th = &npc->npc_l4.tcp; 430 1.4 rmind if (di == PFIL_OUT) { 431 1.4 rmind CTASSERT(offsetof(struct tcphdr, th_sport) == 0); 432 1.4 rmind oport = &th->th_sport; 433 1.1 rmind } else { 434 1.4 rmind offby += offsetof(struct tcphdr, th_dport); 435 1.4 rmind oport = &th->th_dport; 436 1.1 rmind } 437 1.1 rmind } else { 438 1.4 rmind struct udphdr *uh = &npc->npc_l4.udp; 439 1.4 rmind if (di == PFIL_OUT) { 440 1.4 rmind CTASSERT(offsetof(struct udphdr, uh_sport) == 0); 441 1.4 rmind oport = &uh->uh_sport; 442 1.1 rmind } else { 443 1.4 rmind offby += offsetof(struct udphdr, uh_dport); 444 1.4 rmind oport = &uh->uh_dport; 445 1.1 rmind } 446 1.1 rmind } 447 1.1 rmind 448 1.4 rmind /* Advance and rewrite the port. */ 449 1.4 rmind if (nbuf_advstore(&nbuf, &n_ptr, offby, sizeof(in_port_t), &port)) 450 1.1 rmind return false; 451 1.1 rmind 452 1.4 rmind /* Cache: TCP/UDP port. */ 453 1.4 rmind *oport = port; 454 1.1 rmind return true; 455 1.1 rmind } 456 1.1 rmind 457 1.1 rmind /* 458 1.6 rmind * npf_rwrcksum: rewrite IPv4 and/or TCP/UDP checksum, update the cache. 459 1.1 rmind */ 460 1.1 rmind bool 461 1.4 rmind npf_rwrcksum(npf_cache_t *npc, nbuf_t *nbuf, void *n_ptr, const int di, 462 1.4 rmind npf_addr_t *addr, in_port_t port) 463 1.1 rmind { 464 1.4 rmind const int proto = npf_cache_ipproto(npc); 465 1.4 rmind npf_addr_t *oaddr; 466 1.4 rmind in_port_t *oport; 467 1.4 rmind uint16_t *cksum; 468 1.1 rmind u_int offby; 469 1.1 rmind 470 1.4 rmind /* Checksum update for IPv4 header. */ 471 1.4 rmind if (npf_iscached(npc, NPC_IP4)) { 472 1.4 rmind struct ip *ip = &npc->npc_ip.v4; 473 1.4 rmind uint16_t ipsum; 474 1.4 rmind 475 1.4 rmind oaddr = (di == PFIL_OUT) ? npc->npc_srcip : npc->npc_dstip; 476 1.4 rmind ipsum = npf_addr_cksum(ip->ip_sum, npc->npc_ipsz, oaddr, addr); 477 1.4 rmind 478 1.4 rmind /* Advance to the IPv4 checksum and rewrite it. */ 479 1.4 rmind offby = offsetof(struct ip, ip_sum); 480 1.4 rmind if (nbuf_advstore(&nbuf, &n_ptr, offby, sizeof(ipsum), &ipsum)) 481 1.4 rmind return false; 482 1.4 rmind 483 1.4 rmind ip->ip_sum = ipsum; 484 1.4 rmind offby = (ip->ip_hl << 2) - offby; 485 1.4 rmind } else { 486 1.4 rmind /* No checksum for IPv6. */ 487 1.4 rmind KASSERT(npf_iscached(npc, NPC_IP6)); 488 1.4 rmind oaddr = NULL; 489 1.4 rmind offby = 0; 490 1.6 rmind return false; /* XXX: Not yet supported. */ 491 1.4 rmind } 492 1.4 rmind 493 1.4 rmind /* Determine whether TCP/UDP checksum update is needed. */ 494 1.6 rmind if (proto == IPPROTO_ICMP || port == 0) { 495 1.4 rmind return true; 496 1.4 rmind } 497 1.4 rmind KASSERT(npf_iscached(npc, NPC_TCP | NPC_UDP)); 498 1.4 rmind 499 1.4 rmind /* Calculate TCP/UDP checksum. */ 500 1.4 rmind if (proto == IPPROTO_TCP) { 501 1.4 rmind struct tcphdr *th = &npc->npc_l4.tcp; 502 1.4 rmind 503 1.4 rmind cksum = &th->th_sum; 504 1.4 rmind offby += offsetof(struct tcphdr, th_sum); 505 1.4 rmind oport = (di == PFIL_OUT) ? &th->th_sport : &th->th_dport; 506 1.4 rmind } else { 507 1.4 rmind struct udphdr *uh = &npc->npc_l4.udp; 508 1.4 rmind 509 1.4 rmind KASSERT(proto == IPPROTO_UDP); 510 1.4 rmind cksum = &uh->uh_sum; 511 1.4 rmind if (*cksum == 0) { 512 1.4 rmind /* No need to update. */ 513 1.4 rmind return true; 514 1.4 rmind } 515 1.4 rmind offby += offsetof(struct udphdr, uh_sum); 516 1.4 rmind oport = (di == PFIL_OUT) ? &uh->uh_sport : &uh->uh_dport; 517 1.4 rmind } 518 1.4 rmind *cksum = npf_addr_cksum(*cksum, npc->npc_ipsz, oaddr, addr); 519 1.4 rmind *cksum = npf_fixup16_cksum(*cksum, *oport, port); 520 1.1 rmind 521 1.4 rmind /* Advance to TCP/UDP checksum and rewrite it. */ 522 1.4 rmind if (nbuf_advstore(&nbuf, &n_ptr, offby, sizeof(uint16_t), cksum)) { 523 1.1 rmind return false; 524 1.4 rmind } 525 1.4 rmind return true; 526 1.4 rmind } 527 1.4 rmind 528 1.4 rmind static inline bool 529 1.5 rmind npf_normalize_ip4(npf_cache_t *npc, nbuf_t *nbuf, 530 1.5 rmind bool rnd, bool no_df, int minttl) 531 1.4 rmind { 532 1.4 rmind void *n_ptr = nbuf_dataptr(nbuf); 533 1.4 rmind struct ip *ip = &npc->npc_ip.v4; 534 1.4 rmind uint16_t cksum = ip->ip_sum; 535 1.5 rmind uint16_t ip_off = ip->ip_off; 536 1.4 rmind uint8_t ttl = ip->ip_ttl; 537 1.4 rmind u_int offby = 0; 538 1.4 rmind 539 1.5 rmind KASSERT(rnd || minttl || no_df); 540 1.4 rmind 541 1.4 rmind /* Randomize IPv4 ID. */ 542 1.4 rmind if (rnd) { 543 1.4 rmind uint16_t oid = ip->ip_id, nid; 544 1.4 rmind 545 1.4 rmind nid = htons(ip_randomid(ip_ids, 0)); 546 1.4 rmind offby = offsetof(struct ip, ip_id); 547 1.4 rmind if (nbuf_advstore(&nbuf, &n_ptr, offby, sizeof(nid), &nid)) { 548 1.4 rmind return false; 549 1.4 rmind } 550 1.4 rmind cksum = npf_fixup16_cksum(cksum, oid, nid); 551 1.4 rmind ip->ip_id = nid; 552 1.4 rmind } 553 1.1 rmind 554 1.5 rmind /* IP_DF flag cleansing. */ 555 1.5 rmind if (no_df && (ip_off & htons(IP_DF)) != 0) { 556 1.5 rmind uint16_t nip_off = ip_off & ~htons(IP_DF); 557 1.5 rmind 558 1.5 rmind if (nbuf_advstore(&nbuf, &n_ptr, 559 1.5 rmind offsetof(struct ip, ip_off) - offby, 560 1.6 rmind sizeof(uint16_t), &nip_off)) { 561 1.5 rmind return false; 562 1.5 rmind } 563 1.5 rmind cksum = npf_fixup16_cksum(cksum, ip_off, nip_off); 564 1.5 rmind ip->ip_off = nip_off; 565 1.5 rmind offby = offsetof(struct ip, ip_off); 566 1.5 rmind } 567 1.5 rmind 568 1.4 rmind /* Enforce minimum TTL. */ 569 1.4 rmind if (minttl && ttl < minttl) { 570 1.4 rmind if (nbuf_advstore(&nbuf, &n_ptr, 571 1.4 rmind offsetof(struct ip, ip_ttl) - offby, 572 1.4 rmind sizeof(uint8_t), &minttl)) { 573 1.4 rmind return false; 574 1.4 rmind } 575 1.4 rmind cksum = npf_fixup16_cksum(cksum, ttl, minttl); 576 1.4 rmind ip->ip_ttl = minttl; 577 1.4 rmind offby = offsetof(struct ip, ip_ttl); 578 1.1 rmind } 579 1.1 rmind 580 1.4 rmind /* Update IP checksum. */ 581 1.4 rmind offby = offsetof(struct ip, ip_sum) - offby; 582 1.4 rmind if (nbuf_advstore(&nbuf, &n_ptr, offby, sizeof(cksum), &cksum)) { 583 1.1 rmind return false; 584 1.4 rmind } 585 1.4 rmind ip->ip_sum = cksum; 586 1.4 rmind return true; 587 1.4 rmind } 588 1.4 rmind 589 1.4 rmind bool 590 1.4 rmind npf_normalize(npf_cache_t *npc, nbuf_t *nbuf, 591 1.5 rmind bool no_df, bool rnd, u_int minttl, u_int maxmss) 592 1.4 rmind { 593 1.4 rmind void *n_ptr = nbuf_dataptr(nbuf); 594 1.4 rmind struct ip *ip = &npc->npc_ip.v4; 595 1.4 rmind struct tcphdr *th = &npc->npc_l4.tcp; 596 1.4 rmind uint16_t cksum, mss; 597 1.4 rmind int offby, wscale; 598 1.4 rmind 599 1.4 rmind /* Normalize IPv4. */ 600 1.4 rmind if (npf_iscached(npc, NPC_IP4) && (rnd || minttl)) { 601 1.5 rmind if (!npf_normalize_ip4(npc, nbuf, rnd, no_df, minttl)) { 602 1.4 rmind return false; 603 1.4 rmind } 604 1.6 rmind } else if (!npf_iscached(npc, NPC_IP4)) { 605 1.6 rmind /* XXX: no IPv6 */ 606 1.6 rmind return false; 607 1.4 rmind } 608 1.1 rmind 609 1.4 rmind /* 610 1.4 rmind * TCP Maximum Segment Size (MSS) "clamping". Only if SYN packet. 611 1.6 rmind * Fetch MSS and check whether rewrite to lower is needed. 612 1.4 rmind */ 613 1.4 rmind if (maxmss == 0 || !npf_iscached(npc, NPC_TCP) || 614 1.4 rmind (th->th_flags & TH_SYN) == 0) { 615 1.4 rmind /* Not required; done. */ 616 1.4 rmind return true; 617 1.4 rmind } 618 1.4 rmind mss = 0; 619 1.4 rmind if (!npf_fetch_tcpopts(npc, nbuf, &mss, &wscale)) { 620 1.4 rmind return false; 621 1.4 rmind } 622 1.4 rmind if (ntohs(mss) <= maxmss) { 623 1.4 rmind return true; 624 1.4 rmind } 625 1.4 rmind 626 1.6 rmind /* Calculate TCP checksum, then rewrite MSS and the checksum. */ 627 1.4 rmind maxmss = htons(maxmss); 628 1.4 rmind cksum = npf_fixup16_cksum(th->th_sum, mss, maxmss); 629 1.4 rmind th->th_sum = cksum; 630 1.4 rmind mss = maxmss; 631 1.4 rmind if (!npf_fetch_tcpopts(npc, nbuf, &mss, &wscale)) { 632 1.1 rmind return false; 633 1.4 rmind } 634 1.6 rmind offby = (ip->ip_hl << 2) + offsetof(struct tcphdr, th_sum); 635 1.4 rmind if (nbuf_advstore(&nbuf, &n_ptr, offby, sizeof(cksum), &cksum)) { 636 1.4 rmind return false; 637 1.4 rmind } 638 1.1 rmind return true; 639 1.1 rmind } 640
Indexes created Mon Sep 22 13:09:51 GMT 2025