npfctl.c revision 1.44
1 1.44 rmind /* $NetBSD: npfctl.c,v 1.44 2014/12/26 20:44:38 rmind Exp $ */ 2 1.1 rmind 3 1.1 rmind /*- 4 1.41 rmind * Copyright (c) 2009-2014 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 1.2 rmind #include <sys/cdefs.h> 33 1.44 rmind __RCSID("$NetBSD: npfctl.c,v 1.44 2014/12/26 20:44:38 rmind Exp $"); 34 1.2 rmind 35 1.1 rmind #include <sys/ioctl.h> 36 1.1 rmind #include <sys/stat.h> 37 1.1 rmind #include <sys/types.h> 38 1.44 rmind #include <sys/module.h> 39 1.1 rmind 40 1.1 rmind #include <stdio.h> 41 1.1 rmind #include <stdlib.h> 42 1.1 rmind #include <string.h> 43 1.1 rmind #include <err.h> 44 1.1 rmind #include <fcntl.h> 45 1.1 rmind #include <unistd.h> 46 1.15 rmind #include <errno.h> 47 1.1 rmind 48 1.29 rmind #include <openssl/sha.h> 49 1.29 rmind 50 1.1 rmind #include "npfctl.h" 51 1.1 rmind 52 1.29 rmind extern void npf_yyparse_string(const char *); 53 1.8 rmind 54 1.11 rmind enum { 55 1.11 rmind NPFCTL_START, 56 1.11 rmind NPFCTL_STOP, 57 1.11 rmind NPFCTL_RELOAD, 58 1.11 rmind NPFCTL_SHOWCONF, 59 1.11 rmind NPFCTL_FLUSH, 60 1.25 rmind NPFCTL_VALIDATE, 61 1.11 rmind NPFCTL_TABLE, 62 1.29 rmind NPFCTL_RULE, 63 1.11 rmind NPFCTL_STATS, 64 1.41 rmind NPFCTL_SAVE, 65 1.41 rmind NPFCTL_LOAD, 66 1.11 rmind }; 67 1.1 rmind 68 1.15 rmind static const struct operations_s { 69 1.1 rmind const char * cmd; 70 1.1 rmind int action; 71 1.1 rmind } operations[] = { 72 1.1 rmind /* Start, stop, reload */ 73 1.41 rmind { "start", NPFCTL_START }, 74 1.41 rmind { "stop", NPFCTL_STOP }, 75 1.41 rmind { "reload", NPFCTL_RELOAD }, 76 1.41 rmind { "show", NPFCTL_SHOWCONF, }, 77 1.41 rmind { "flush", NPFCTL_FLUSH }, 78 1.41 rmind { "valid", NPFCTL_VALIDATE }, 79 1.1 rmind /* Table */ 80 1.41 rmind { "table", NPFCTL_TABLE }, 81 1.29 rmind /* Rule */ 82 1.41 rmind { "rule", NPFCTL_RULE }, 83 1.3 rmind /* Stats */ 84 1.41 rmind { "stats", NPFCTL_STATS }, 85 1.41 rmind /* Full state save/load */ 86 1.41 rmind { "save", NPFCTL_SAVE }, 87 1.41 rmind { "load", NPFCTL_LOAD }, 88 1.1 rmind /* --- */ 89 1.41 rmind { NULL, 0 } 90 1.1 rmind }; 91 1.1 rmind 92 1.38 rmind bool 93 1.38 rmind join(char *buf, size_t buflen, int count, char **args, const char *sep) 94 1.29 rmind { 95 1.38 rmind const u_int seplen = strlen(sep); 96 1.29 rmind char *s = buf, *p = NULL; 97 1.29 rmind 98 1.29 rmind for (int i = 0; i < count; i++) { 99 1.29 rmind size_t len; 100 1.29 rmind 101 1.29 rmind p = stpncpy(s, args[i], buflen); 102 1.38 rmind len = p - s + seplen; 103 1.29 rmind if (len >= buflen) { 104 1.29 rmind return false; 105 1.29 rmind } 106 1.29 rmind buflen -= len; 107 1.38 rmind strcpy(p, sep); 108 1.38 rmind s = p + seplen; 109 1.29 rmind } 110 1.29 rmind *p = '\0'; 111 1.29 rmind return true; 112 1.29 rmind } 113 1.29 rmind 114 1.6 joerg __dead static void 115 1.1 rmind usage(void) 116 1.1 rmind { 117 1.1 rmind const char *progname = getprogname(); 118 1.1 rmind 119 1.1 rmind fprintf(stderr, 120 1.37 rmind "Usage:\t%s start | stop | flush | show | stats\n", 121 1.33 christos progname); 122 1.33 christos fprintf(stderr, 123 1.33 christos "\t%s validate | reload [<rule-file>]\n", 124 1.3 rmind progname); 125 1.3 rmind fprintf(stderr, 126 1.29 rmind "\t%s rule \"rule-name\" { add | rem } <rule-syntax>\n", 127 1.29 rmind progname); 128 1.29 rmind fprintf(stderr, 129 1.29 rmind "\t%s rule \"rule-name\" rem-id <rule-id>\n", 130 1.1 rmind progname); 131 1.1 rmind fprintf(stderr, 132 1.31 rmind "\t%s rule \"rule-name\" { list | flush }\n", 133 1.31 rmind progname); 134 1.31 rmind fprintf(stderr, 135 1.21 rmind "\t%s table <tid> { add | rem | test } <address/mask>\n", 136 1.1 rmind progname); 137 1.1 rmind fprintf(stderr, 138 1.21 rmind "\t%s table <tid> { list | flush }\n", 139 1.1 rmind progname); 140 1.37 rmind fprintf(stderr, 141 1.41 rmind "\t%s save | load\n", 142 1.37 rmind progname); 143 1.1 rmind exit(EXIT_FAILURE); 144 1.1 rmind } 145 1.1 rmind 146 1.3 rmind static int 147 1.3 rmind npfctl_print_stats(int fd) 148 1.3 rmind { 149 1.17 rmind static const struct stats_s { 150 1.17 rmind /* Note: -1 indicates a new section. */ 151 1.17 rmind int index; 152 1.17 rmind const char * name; 153 1.17 rmind } stats[] = { 154 1.17 rmind { -1, "Packets passed" }, 155 1.17 rmind { NPF_STAT_PASS_DEFAULT, "default pass" }, 156 1.17 rmind { NPF_STAT_PASS_RULESET, "ruleset pass" }, 157 1.41 rmind { NPF_STAT_PASS_CONN, "state pass" }, 158 1.17 rmind 159 1.17 rmind { -1, "Packets blocked" }, 160 1.17 rmind { NPF_STAT_BLOCK_DEFAULT, "default block" }, 161 1.17 rmind { NPF_STAT_BLOCK_RULESET, "ruleset block" }, 162 1.17 rmind 163 1.41 rmind { -1, "State and NAT entries" }, 164 1.41 rmind { NPF_STAT_CONN_CREATE, "state allocations"}, 165 1.41 rmind { NPF_STAT_CONN_DESTROY, "state destructions"}, 166 1.17 rmind { NPF_STAT_NAT_CREATE, "NAT entry allocations" }, 167 1.17 rmind { NPF_STAT_NAT_DESTROY, "NAT entry destructions"}, 168 1.17 rmind 169 1.27 rmind { -1, "Network buffers" }, 170 1.27 rmind { NPF_STAT_NBUF_NONCONTIG, "non-contiguous cases" }, 171 1.27 rmind { NPF_STAT_NBUF_CONTIG_FAIL, "contig alloc failures" }, 172 1.27 rmind 173 1.17 rmind { -1, "Invalid packet state cases" }, 174 1.17 rmind { NPF_STAT_INVALID_STATE, "cases in total" }, 175 1.17 rmind { NPF_STAT_INVALID_STATE_TCP1, "TCP case I" }, 176 1.17 rmind { NPF_STAT_INVALID_STATE_TCP2, "TCP case II" }, 177 1.17 rmind { NPF_STAT_INVALID_STATE_TCP3, "TCP case III" }, 178 1.17 rmind 179 1.17 rmind { -1, "Packet race cases" }, 180 1.17 rmind { NPF_STAT_RACE_NAT, "NAT association race" }, 181 1.41 rmind { NPF_STAT_RACE_CONN, "duplicate state race" }, 182 1.17 rmind 183 1.17 rmind { -1, "Fragmentation" }, 184 1.17 rmind { NPF_STAT_FRAGMENTS, "fragments" }, 185 1.17 rmind { NPF_STAT_REASSEMBLY, "reassembled" }, 186 1.17 rmind { NPF_STAT_REASSFAIL, "failed reassembly" }, 187 1.17 rmind 188 1.17 rmind { -1, "Other" }, 189 1.17 rmind { NPF_STAT_ERROR, "unexpected errors" }, 190 1.17 rmind }; 191 1.24 rmind uint64_t *st = ecalloc(1, NPF_STATS_SIZE); 192 1.3 rmind 193 1.3 rmind if (ioctl(fd, IOC_NPF_STATS, &st) != 0) { 194 1.3 rmind err(EXIT_FAILURE, "ioctl(IOC_NPF_STATS)"); 195 1.3 rmind } 196 1.3 rmind 197 1.17 rmind for (unsigned i = 0; i < __arraycount(stats); i++) { 198 1.17 rmind const char *sname = stats[i].name; 199 1.17 rmind int sidx = stats[i].index; 200 1.17 rmind 201 1.17 rmind if (sidx == -1) { 202 1.17 rmind printf("%s:\n", sname); 203 1.17 rmind } else { 204 1.17 rmind printf("\t%"PRIu64" %s\n", st[sidx], sname); 205 1.17 rmind } 206 1.17 rmind } 207 1.4 rmind 208 1.3 rmind free(st); 209 1.3 rmind return 0; 210 1.3 rmind } 211 1.3 rmind 212 1.10 rmind void 213 1.10 rmind npfctl_print_error(const nl_error_t *ne) 214 1.10 rmind { 215 1.10 rmind const char *srcfile = ne->ne_source_file; 216 1.10 rmind 217 1.10 rmind if (srcfile) { 218 1.10 rmind warnx("source %s line %d", srcfile, ne->ne_source_line); 219 1.10 rmind } 220 1.10 rmind if (ne->ne_id) { 221 1.10 rmind warnx("object: %d", ne->ne_id); 222 1.10 rmind } 223 1.10 rmind } 224 1.10 rmind 225 1.21 rmind char * 226 1.38 rmind npfctl_print_addrmask(int alen, const npf_addr_t *addr, npf_netmask_t mask) 227 1.21 rmind { 228 1.21 rmind struct sockaddr_storage ss; 229 1.24 rmind char *buf = ecalloc(1, 64); 230 1.21 rmind int len; 231 1.21 rmind 232 1.21 rmind switch (alen) { 233 1.21 rmind case 4: { 234 1.21 rmind struct sockaddr_in *sin = (void *)&ss; 235 1.21 rmind sin->sin_len = sizeof(*sin); 236 1.21 rmind sin->sin_family = AF_INET; 237 1.21 rmind sin->sin_port = 0; 238 1.21 rmind memcpy(&sin->sin_addr, addr, sizeof(sin->sin_addr)); 239 1.21 rmind break; 240 1.21 rmind } 241 1.21 rmind case 16: { 242 1.21 rmind struct sockaddr_in6 *sin6 = (void *)&ss; 243 1.21 rmind sin6->sin6_len = sizeof(*sin6); 244 1.21 rmind sin6->sin6_family = AF_INET6; 245 1.21 rmind sin6->sin6_port = 0; 246 1.28 spz sin6->sin6_scope_id = 0; 247 1.21 rmind memcpy(&sin6->sin6_addr, addr, sizeof(sin6->sin6_addr)); 248 1.21 rmind break; 249 1.21 rmind } 250 1.21 rmind default: 251 1.21 rmind assert(false); 252 1.21 rmind } 253 1.21 rmind len = sockaddr_snprintf(buf, 64, "%a", (struct sockaddr *)&ss); 254 1.38 rmind if (mask && mask != NPF_NO_NETMASK) { 255 1.21 rmind snprintf(&buf[len], 64 - len, "/%u", mask); 256 1.21 rmind } 257 1.21 rmind return buf; 258 1.21 rmind } 259 1.21 rmind 260 1.16 joerg __dead static void 261 1.21 rmind npfctl_table(int fd, int argc, char **argv) 262 1.15 rmind { 263 1.15 rmind static const struct tblops_s { 264 1.15 rmind const char * cmd; 265 1.15 rmind int action; 266 1.15 rmind } tblops[] = { 267 1.29 rmind { "add", NPF_CMD_TABLE_ADD }, 268 1.29 rmind { "rem", NPF_CMD_TABLE_REMOVE }, 269 1.29 rmind { "del", NPF_CMD_TABLE_REMOVE }, 270 1.29 rmind { "test", NPF_CMD_TABLE_LOOKUP }, 271 1.29 rmind { "list", NPF_CMD_TABLE_LIST }, 272 1.37 rmind { "flush", NPF_CMD_TABLE_FLUSH }, 273 1.21 rmind { NULL, 0 } 274 1.15 rmind }; 275 1.15 rmind npf_ioctl_table_t nct; 276 1.15 rmind fam_addr_mask_t fam; 277 1.21 rmind size_t buflen = 512; 278 1.40 rmind char *cmd, *arg; 279 1.15 rmind int n, alen; 280 1.15 rmind 281 1.21 rmind /* Default action is list. */ 282 1.15 rmind memset(&nct, 0, sizeof(npf_ioctl_table_t)); 283 1.40 rmind nct.nct_name = argv[0]; 284 1.21 rmind cmd = argv[1]; 285 1.15 rmind 286 1.15 rmind for (n = 0; tblops[n].cmd != NULL; n++) { 287 1.21 rmind if (strcmp(cmd, tblops[n].cmd) != 0) { 288 1.21 rmind continue; 289 1.21 rmind } 290 1.29 rmind nct.nct_cmd = tblops[n].action; 291 1.21 rmind break; 292 1.21 rmind } 293 1.21 rmind if (tblops[n].cmd == NULL) { 294 1.21 rmind errx(EXIT_FAILURE, "invalid command '%s'", cmd); 295 1.21 rmind } 296 1.37 rmind 297 1.37 rmind switch (nct.nct_cmd) { 298 1.37 rmind case NPF_CMD_TABLE_LIST: 299 1.37 rmind case NPF_CMD_TABLE_FLUSH: 300 1.40 rmind arg = NULL; 301 1.37 rmind break; 302 1.37 rmind default: 303 1.21 rmind if (argc < 3) { 304 1.21 rmind usage(); 305 1.15 rmind } 306 1.21 rmind arg = argv[2]; 307 1.15 rmind } 308 1.37 rmind 309 1.21 rmind again: 310 1.37 rmind switch (nct.nct_cmd) { 311 1.37 rmind case NPF_CMD_TABLE_LIST: 312 1.24 rmind nct.nct_data.buf.buf = ecalloc(1, buflen); 313 1.21 rmind nct.nct_data.buf.len = buflen; 314 1.37 rmind break; 315 1.37 rmind case NPF_CMD_TABLE_FLUSH: 316 1.37 rmind break; 317 1.37 rmind default: 318 1.21 rmind if (!npfctl_parse_cidr(arg, &fam, &alen)) { 319 1.21 rmind errx(EXIT_FAILURE, "invalid CIDR '%s'", arg); 320 1.21 rmind } 321 1.21 rmind nct.nct_data.ent.alen = alen; 322 1.26 rmind memcpy(&nct.nct_data.ent.addr, &fam.fam_addr, alen); 323 1.21 rmind nct.nct_data.ent.mask = fam.fam_mask; 324 1.15 rmind } 325 1.15 rmind 326 1.15 rmind if (ioctl(fd, IOC_NPF_TABLE, &nct) != -1) { 327 1.15 rmind errno = 0; 328 1.15 rmind } 329 1.15 rmind switch (errno) { 330 1.21 rmind case 0: 331 1.21 rmind break; 332 1.15 rmind case EEXIST: 333 1.21 rmind errx(EXIT_FAILURE, "entry already exists or is conflicting"); 334 1.15 rmind case ENOENT: 335 1.21 rmind errx(EXIT_FAILURE, "no matching entry was not found"); 336 1.15 rmind case EINVAL: 337 1.21 rmind errx(EXIT_FAILURE, "invalid address, mask or table ID"); 338 1.21 rmind case ENOMEM: 339 1.29 rmind if (nct.nct_cmd == NPF_CMD_TABLE_LIST) { 340 1.21 rmind /* XXX */ 341 1.21 rmind free(nct.nct_data.buf.buf); 342 1.21 rmind buflen <<= 1; 343 1.21 rmind goto again; 344 1.21 rmind } 345 1.21 rmind /* FALLTHROUGH */ 346 1.21 rmind default: 347 1.32 christos err(EXIT_FAILURE, "ioctl(IOC_NPF_TABLE)"); 348 1.21 rmind } 349 1.21 rmind 350 1.29 rmind if (nct.nct_cmd == NPF_CMD_TABLE_LIST) { 351 1.21 rmind npf_ioctl_ent_t *ent = nct.nct_data.buf.buf; 352 1.21 rmind char *buf; 353 1.21 rmind 354 1.21 rmind while (nct.nct_data.buf.len--) { 355 1.21 rmind if (!ent->alen) 356 1.21 rmind break; 357 1.21 rmind buf = npfctl_print_addrmask(ent->alen, 358 1.21 rmind &ent->addr, ent->mask); 359 1.21 rmind puts(buf); 360 1.21 rmind ent++; 361 1.21 rmind } 362 1.21 rmind free(nct.nct_data.buf.buf); 363 1.21 rmind } else { 364 1.21 rmind printf("%s: %s\n", getprogname(), 365 1.29 rmind nct.nct_cmd == NPF_CMD_TABLE_LOOKUP ? 366 1.15 rmind "matching entry found" : "success"); 367 1.15 rmind } 368 1.21 rmind exit(EXIT_SUCCESS); 369 1.15 rmind } 370 1.15 rmind 371 1.29 rmind static nl_rule_t * 372 1.29 rmind npfctl_parse_rule(int argc, char **argv) 373 1.29 rmind { 374 1.29 rmind char rule_string[1024]; 375 1.29 rmind nl_rule_t *rl; 376 1.29 rmind 377 1.29 rmind /* Get the rule string and parse it. */ 378 1.38 rmind if (!join(rule_string, sizeof(rule_string), argc, argv, " ")) { 379 1.29 rmind errx(EXIT_FAILURE, "command too long"); 380 1.29 rmind } 381 1.29 rmind npfctl_parse_string(rule_string); 382 1.29 rmind if ((rl = npfctl_rule_ref()) == NULL) { 383 1.29 rmind errx(EXIT_FAILURE, "could not parse the rule"); 384 1.29 rmind } 385 1.29 rmind return rl; 386 1.29 rmind } 387 1.29 rmind 388 1.29 rmind static void 389 1.29 rmind npfctl_generate_key(nl_rule_t *rl, void *key) 390 1.29 rmind { 391 1.29 rmind void *meta; 392 1.29 rmind size_t len; 393 1.29 rmind 394 1.29 rmind if ((meta = npf_rule_export(rl, &len)) == NULL) { 395 1.29 rmind errx(EXIT_FAILURE, "error generating rule key"); 396 1.29 rmind } 397 1.29 rmind __CTASSERT(NPF_RULE_MAXKEYLEN >= SHA_DIGEST_LENGTH); 398 1.29 rmind memset(key, 0, NPF_RULE_MAXKEYLEN); 399 1.29 rmind SHA1(meta, len, key); 400 1.29 rmind free(meta); 401 1.29 rmind } 402 1.29 rmind 403 1.29 rmind __dead static void 404 1.29 rmind npfctl_rule(int fd, int argc, char **argv) 405 1.29 rmind { 406 1.29 rmind static const struct ruleops_s { 407 1.29 rmind const char * cmd; 408 1.29 rmind int action; 409 1.36 rmind bool extra_arg; 410 1.29 rmind } ruleops[] = { 411 1.36 rmind { "add", NPF_CMD_RULE_ADD, true }, 412 1.36 rmind { "rem", NPF_CMD_RULE_REMKEY, true }, 413 1.36 rmind { "del", NPF_CMD_RULE_REMKEY, true }, 414 1.36 rmind { "rem-id", NPF_CMD_RULE_REMOVE, true }, 415 1.36 rmind { "list", NPF_CMD_RULE_LIST, false }, 416 1.36 rmind { "flush", NPF_CMD_RULE_FLUSH, false }, 417 1.36 rmind { NULL, 0, 0 } 418 1.29 rmind }; 419 1.29 rmind uint8_t key[NPF_RULE_MAXKEYLEN]; 420 1.29 rmind const char *ruleset_name = argv[0]; 421 1.29 rmind const char *cmd = argv[1]; 422 1.29 rmind int error, action = 0; 423 1.31 rmind uint64_t rule_id; 424 1.36 rmind bool extra_arg; 425 1.29 rmind nl_rule_t *rl; 426 1.29 rmind 427 1.29 rmind for (int n = 0; ruleops[n].cmd != NULL; n++) { 428 1.29 rmind if (strcmp(cmd, ruleops[n].cmd) == 0) { 429 1.29 rmind action = ruleops[n].action; 430 1.36 rmind extra_arg = ruleops[n].extra_arg; 431 1.29 rmind break; 432 1.29 rmind } 433 1.29 rmind } 434 1.36 rmind argc -= 2; 435 1.36 rmind argv += 2; 436 1.29 rmind 437 1.36 rmind if (!action || (extra_arg && argc == 0)) { 438 1.29 rmind usage(); 439 1.29 rmind } 440 1.29 rmind 441 1.29 rmind switch (action) { 442 1.29 rmind case NPF_CMD_RULE_ADD: 443 1.29 rmind rl = npfctl_parse_rule(argc, argv); 444 1.29 rmind npfctl_generate_key(rl, key); 445 1.29 rmind npf_rule_setkey(rl, key, sizeof(key)); 446 1.29 rmind error = npf_ruleset_add(fd, ruleset_name, rl, &rule_id); 447 1.29 rmind break; 448 1.29 rmind case NPF_CMD_RULE_REMKEY: 449 1.29 rmind rl = npfctl_parse_rule(argc, argv); 450 1.29 rmind npfctl_generate_key(rl, key); 451 1.29 rmind error = npf_ruleset_remkey(fd, ruleset_name, key, sizeof(key)); 452 1.29 rmind break; 453 1.29 rmind case NPF_CMD_RULE_REMOVE: 454 1.31 rmind rule_id = strtoull(argv[0], NULL, 16); 455 1.29 rmind error = npf_ruleset_remove(fd, ruleset_name, rule_id); 456 1.29 rmind break; 457 1.30 rmind case NPF_CMD_RULE_LIST: 458 1.30 rmind error = npfctl_ruleset_show(fd, ruleset_name); 459 1.30 rmind break; 460 1.30 rmind case NPF_CMD_RULE_FLUSH: 461 1.30 rmind error = npf_ruleset_flush(fd, ruleset_name); 462 1.30 rmind break; 463 1.29 rmind default: 464 1.29 rmind assert(false); 465 1.29 rmind } 466 1.29 rmind 467 1.29 rmind switch (error) { 468 1.29 rmind case 0: 469 1.29 rmind /* Success. */ 470 1.29 rmind break; 471 1.31 rmind case ESRCH: 472 1.31 rmind errx(EXIT_FAILURE, "ruleset \"%s\" not found", ruleset_name); 473 1.29 rmind case ENOENT: 474 1.31 rmind errx(EXIT_FAILURE, "rule was not found"); 475 1.29 rmind default: 476 1.29 rmind errx(EXIT_FAILURE, "rule operation: %s", strerror(error)); 477 1.29 rmind } 478 1.29 rmind if (action == NPF_CMD_RULE_ADD) { 479 1.31 rmind printf("OK %" PRIx64 "\n", rule_id); 480 1.29 rmind } 481 1.29 rmind exit(EXIT_SUCCESS); 482 1.29 rmind } 483 1.29 rmind 484 1.44 rmind static void 485 1.44 rmind npfctl_preload_bpfjit(void) 486 1.44 rmind { 487 1.44 rmind modctl_load_t args = { 488 1.44 rmind .ml_filename = "bpfjit", 489 1.44 rmind .ml_flags = MODCTL_NO_PROP, 490 1.44 rmind .ml_props = NULL, 491 1.44 rmind .ml_propslen = 0 492 1.44 rmind }; 493 1.44 rmind 494 1.44 rmind if (modctl(MODCTL_LOAD, &args) != 0 && errno != EEXIST) { 495 1.44 rmind fprintf(stderr, "WARNING: bpfjit is not loaded; " 496 1.44 rmind "this may have severe impact on performance."); 497 1.44 rmind } 498 1.44 rmind } 499 1.44 rmind 500 1.41 rmind static int 501 1.41 rmind npfctl_save(int fd) 502 1.41 rmind { 503 1.41 rmind nl_config_t *ncf; 504 1.41 rmind bool active, loaded; 505 1.41 rmind int error; 506 1.41 rmind 507 1.41 rmind ncf = npf_config_retrieve(fd, &active, &loaded); 508 1.41 rmind if (ncf == NULL) { 509 1.41 rmind return errno; 510 1.41 rmind } 511 1.41 rmind error = npf_config_export(ncf, NPF_DB_PATH); 512 1.41 rmind npf_config_destroy(ncf); 513 1.42 htodd return error; 514 1.41 rmind } 515 1.41 rmind 516 1.41 rmind static int 517 1.41 rmind npfctl_load(int fd) 518 1.41 rmind { 519 1.41 rmind nl_config_t *ncf; 520 1.41 rmind int error; 521 1.41 rmind 522 1.41 rmind ncf = npf_config_import(NPF_DB_PATH); 523 1.41 rmind if (ncf == NULL) { 524 1.41 rmind return errno; 525 1.41 rmind } 526 1.43 rmind errno = error = npf_config_submit(ncf, fd); 527 1.43 rmind if (error) { 528 1.43 rmind nl_error_t ne; 529 1.43 rmind _npf_config_error(ncf, &ne); 530 1.43 rmind npfctl_print_error(&ne); 531 1.43 rmind } 532 1.41 rmind npf_config_destroy(ncf); 533 1.41 rmind return error; 534 1.41 rmind } 535 1.41 rmind 536 1.15 rmind static void 537 1.1 rmind npfctl(int action, int argc, char **argv) 538 1.1 rmind { 539 1.29 rmind int fd, ver, boolval, ret = 0; 540 1.1 rmind 541 1.1 rmind fd = open(NPF_DEV_PATH, O_RDONLY); 542 1.1 rmind if (fd == -1) { 543 1.4 rmind err(EXIT_FAILURE, "cannot open '%s'", NPF_DEV_PATH); 544 1.1 rmind } 545 1.29 rmind if (ioctl(fd, IOC_NPF_VERSION, &ver) == -1) { 546 1.32 christos err(EXIT_FAILURE, "ioctl(IOC_NPF_VERSION)"); 547 1.15 rmind } 548 1.1 rmind if (ver != NPF_VERSION) { 549 1.4 rmind errx(EXIT_FAILURE, 550 1.14 rmind "incompatible NPF interface version (%d, kernel %d)\n" 551 1.14 rmind "Hint: update userland?", NPF_VERSION, ver); 552 1.1 rmind } 553 1.29 rmind 554 1.32 christos const char *fun = ""; 555 1.1 rmind switch (action) { 556 1.1 rmind case NPFCTL_START: 557 1.1 rmind boolval = true; 558 1.1 rmind ret = ioctl(fd, IOC_NPF_SWITCH, &boolval); 559 1.32 christos fun = "ioctl(IOC_NPF_SWITCH)"; 560 1.1 rmind break; 561 1.1 rmind case NPFCTL_STOP: 562 1.1 rmind boolval = false; 563 1.1 rmind ret = ioctl(fd, IOC_NPF_SWITCH, &boolval); 564 1.32 christos fun = "ioctl(IOC_NPF_SWITCH)"; 565 1.1 rmind break; 566 1.1 rmind case NPFCTL_RELOAD: 567 1.44 rmind npfctl_preload_bpfjit(); 568 1.8 rmind npfctl_config_init(false); 569 1.29 rmind npfctl_parse_file(argc < 3 ? NPF_CONF_PATH : argv[2]); 570 1.32 christos errno = ret = npfctl_config_send(fd, NULL); 571 1.32 christos fun = "npfctl_config_send"; 572 1.1 rmind break; 573 1.11 rmind case NPFCTL_SHOWCONF: 574 1.11 rmind ret = npfctl_config_show(fd); 575 1.32 christos fun = "npfctl_config_show"; 576 1.11 rmind break; 577 1.1 rmind case NPFCTL_FLUSH: 578 1.9 rmind ret = npf_config_flush(fd); 579 1.32 christos fun = "npf_config_flush"; 580 1.1 rmind break; 581 1.25 rmind case NPFCTL_VALIDATE: 582 1.25 rmind npfctl_config_init(false); 583 1.29 rmind npfctl_parse_file(argc < 3 ? NPF_CONF_PATH : argv[2]); 584 1.25 rmind ret = npfctl_config_show(0); 585 1.32 christos fun = "npfctl_config_show"; 586 1.25 rmind break; 587 1.1 rmind case NPFCTL_TABLE: 588 1.21 rmind if ((argc -= 2) < 2) { 589 1.1 rmind usage(); 590 1.1 rmind } 591 1.21 rmind argv += 2; 592 1.21 rmind npfctl_table(fd, argc, argv); 593 1.1 rmind break; 594 1.29 rmind case NPFCTL_RULE: 595 1.29 rmind if ((argc -= 2) < 2) { 596 1.29 rmind usage(); 597 1.29 rmind } 598 1.29 rmind argv += 2; 599 1.29 rmind npfctl_rule(fd, argc, argv); 600 1.29 rmind break; 601 1.41 rmind case NPFCTL_LOAD: 602 1.44 rmind npfctl_preload_bpfjit(); 603 1.41 rmind ret = npfctl_load(fd); 604 1.41 rmind fun = "npfctl_config_load"; 605 1.41 rmind break; 606 1.41 rmind case NPFCTL_SAVE: 607 1.41 rmind fd = npfctl_save(fd); 608 1.41 rmind fun = "npfctl_config_save"; 609 1.41 rmind break; 610 1.3 rmind case NPFCTL_STATS: 611 1.3 rmind ret = npfctl_print_stats(fd); 612 1.32 christos fun = "npfctl_print_stats"; 613 1.3 rmind break; 614 1.1 rmind } 615 1.7 zoltan if (ret) { 616 1.32 christos err(EXIT_FAILURE, "%s", fun); 617 1.1 rmind } 618 1.1 rmind close(fd); 619 1.1 rmind } 620 1.1 rmind 621 1.1 rmind int 622 1.1 rmind main(int argc, char **argv) 623 1.1 rmind { 624 1.1 rmind char *cmd; 625 1.1 rmind 626 1.1 rmind if (argc < 2) { 627 1.1 rmind usage(); 628 1.1 rmind } 629 1.1 rmind cmd = argv[1]; 630 1.1 rmind 631 1.8 rmind if (strcmp(cmd, "debug") == 0) { 632 1.14 rmind const char *cfg = argc > 2 ? argv[2] : "/etc/npf.conf"; 633 1.18 rmind const char *out = argc > 3 ? argv[3] : "/tmp/npf.plist"; 634 1.18 rmind 635 1.8 rmind npfctl_config_init(true); 636 1.29 rmind npfctl_parse_file(cfg); 637 1.18 rmind npfctl_config_send(0, out); 638 1.8 rmind return EXIT_SUCCESS; 639 1.8 rmind } 640 1.4 rmind 641 1.12 rmind /* Find and call the subroutine. */ 642 1.8 rmind for (int n = 0; operations[n].cmd != NULL; n++) { 643 1.25 rmind const char *opcmd = operations[n].cmd; 644 1.25 rmind if (strncmp(cmd, opcmd, strlen(opcmd)) != 0) 645 1.1 rmind continue; 646 1.1 rmind npfctl(operations[n].action, argc, argv); 647 1.8 rmind return EXIT_SUCCESS; 648 1.1 rmind } 649 1.3 rmind usage(); 650 1.1 rmind } 651
Indexes created Wed Oct 29 01:09:52 GMT 2025