npfctl.c revision 1.6.2.3 1 1.6.2.3 yamt /* $NetBSD: npfctl.c,v 1.6.2.3 2012/10/30 19:00:45 yamt Exp $ */
2 1.1 rmind
3 1.1 rmind /*-
4 1.6.2.2 yamt * Copyright (c) 2009-2012 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 1.6.2.3 yamt __RCSID("$NetBSD: npfctl.c,v 1.6.2.3 2012/10/30 19:00:45 yamt 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 1.1 rmind
39 1.1 rmind #include <stdio.h>
40 1.1 rmind #include <stdlib.h>
41 1.1 rmind #include <string.h>
42 1.1 rmind #include <err.h>
43 1.1 rmind #include <fcntl.h>
44 1.1 rmind #include <unistd.h>
45 1.6.2.3 yamt #include <errno.h>
46 1.6.2.3 yamt
47 1.6.2.3 yamt #include <util.h>
48 1.1 rmind
49 1.1 rmind #include "npfctl.h"
50 1.1 rmind
51 1.6.2.2 yamt extern int yylineno, yycolumn;
52 1.6.2.2 yamt extern const char * yyfilename;
53 1.6.2.2 yamt extern int yyparse(void);
54 1.6.2.2 yamt extern void yyrestart(FILE *);
55 1.6.2.2 yamt
56 1.6.2.3 yamt enum {
57 1.6.2.3 yamt NPFCTL_START,
58 1.6.2.3 yamt NPFCTL_STOP,
59 1.6.2.3 yamt NPFCTL_RELOAD,
60 1.6.2.3 yamt NPFCTL_SHOWCONF,
61 1.6.2.3 yamt NPFCTL_FLUSH,
62 1.6.2.3 yamt NPFCTL_TABLE,
63 1.6.2.3 yamt NPFCTL_STATS,
64 1.6.2.3 yamt NPFCTL_SESSIONS_SAVE,
65 1.6.2.3 yamt NPFCTL_SESSIONS_LOAD,
66 1.6.2.3 yamt };
67 1.1 rmind
68 1.6.2.3 yamt 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 1.3 rmind { "start", NPFCTL_START },
74 1.3 rmind { "stop", NPFCTL_STOP },
75 1.3 rmind { "reload", NPFCTL_RELOAD },
76 1.6.2.3 yamt { "show", NPFCTL_SHOWCONF, },
77 1.3 rmind { "flush", NPFCTL_FLUSH },
78 1.1 rmind /* Table */
79 1.3 rmind { "table", NPFCTL_TABLE },
80 1.3 rmind /* Stats */
81 1.3 rmind { "stats", NPFCTL_STATS },
82 1.3 rmind /* Sessions */
83 1.3 rmind { "sess-save", NPFCTL_SESSIONS_SAVE },
84 1.3 rmind { "sess-load", NPFCTL_SESSIONS_LOAD },
85 1.1 rmind /* --- */
86 1.3 rmind { NULL, 0 }
87 1.1 rmind };
88 1.1 rmind
89 1.1 rmind void *
90 1.1 rmind zalloc(size_t sz)
91 1.1 rmind {
92 1.6.2.2 yamt void *p = malloc(sz);
93 1.1 rmind
94 1.1 rmind if (p == NULL) {
95 1.4 rmind err(EXIT_FAILURE, "zalloc");
96 1.1 rmind }
97 1.1 rmind memset(p, 0, sz);
98 1.1 rmind return p;
99 1.1 rmind }
100 1.1 rmind
101 1.6.2.2 yamt void *
102 1.6.2.2 yamt xrealloc(void *ptr, size_t size)
103 1.6.2.2 yamt {
104 1.6.2.2 yamt void *p = realloc(ptr, size);
105 1.6.2.2 yamt
106 1.6.2.2 yamt if (p == NULL) {
107 1.6.2.2 yamt err(EXIT_FAILURE, "xrealloc");
108 1.6.2.2 yamt }
109 1.6.2.2 yamt return p;
110 1.6.2.2 yamt }
111 1.6.2.2 yamt
112 1.1 rmind char *
113 1.1 rmind xstrdup(const char *s)
114 1.1 rmind {
115 1.6.2.2 yamt char *p = strdup(s);
116 1.1 rmind
117 1.1 rmind if (p == NULL) {
118 1.4 rmind err(EXIT_FAILURE, "xstrdup");
119 1.1 rmind }
120 1.1 rmind return p;
121 1.1 rmind }
122 1.1 rmind
123 1.6.2.2 yamt char *
124 1.6.2.2 yamt xstrndup(const char *s, size_t len)
125 1.6.2.2 yamt {
126 1.6.2.2 yamt char *p;
127 1.6.2.2 yamt
128 1.6.2.2 yamt p = strndup(s, len);
129 1.6.2.2 yamt if (p == NULL) {
130 1.6.2.2 yamt err(EXIT_FAILURE, "xstrndup");
131 1.6.2.2 yamt }
132 1.6.2.2 yamt return p;
133 1.6.2.2 yamt }
134 1.6.2.2 yamt
135 1.6 joerg __dead static void
136 1.1 rmind usage(void)
137 1.1 rmind {
138 1.1 rmind const char *progname = getprogname();
139 1.1 rmind
140 1.1 rmind fprintf(stderr,
141 1.6.2.3 yamt "usage:\t%s [ start | stop | reload | flush | show | stats ]\n",
142 1.3 rmind progname);
143 1.3 rmind fprintf(stderr,
144 1.6.2.3 yamt "\t%s ( sess-save | sess-load )\n",
145 1.1 rmind progname);
146 1.1 rmind fprintf(stderr,
147 1.6.2.3 yamt "\t%s table <tid> { add | rem | test } <address/mask>\n",
148 1.1 rmind progname);
149 1.1 rmind fprintf(stderr,
150 1.6.2.3 yamt "\t%s table <tid> { list | flush }\n",
151 1.1 rmind progname);
152 1.1 rmind
153 1.1 rmind exit(EXIT_FAILURE);
154 1.1 rmind }
155 1.1 rmind
156 1.1 rmind static void
157 1.1 rmind npfctl_parsecfg(const char *cfg)
158 1.1 rmind {
159 1.1 rmind FILE *fp;
160 1.1 rmind
161 1.1 rmind fp = fopen(cfg, "r");
162 1.1 rmind if (fp == NULL) {
163 1.4 rmind err(EXIT_FAILURE, "open '%s'", cfg);
164 1.1 rmind }
165 1.6.2.2 yamt yyrestart(fp);
166 1.6.2.2 yamt yylineno = 1;
167 1.6.2.2 yamt yycolumn = 0;
168 1.6.2.2 yamt yyfilename = cfg;
169 1.6.2.2 yamt yyparse();
170 1.6.2.2 yamt fclose(fp);
171 1.1 rmind }
172 1.1 rmind
173 1.3 rmind static int
174 1.3 rmind npfctl_print_stats(int fd)
175 1.3 rmind {
176 1.6.2.3 yamt static const struct stats_s {
177 1.6.2.3 yamt /* Note: -1 indicates a new section. */
178 1.6.2.3 yamt int index;
179 1.6.2.3 yamt const char * name;
180 1.6.2.3 yamt } stats[] = {
181 1.6.2.3 yamt { -1, "Packets passed" },
182 1.6.2.3 yamt { NPF_STAT_PASS_DEFAULT, "default pass" },
183 1.6.2.3 yamt { NPF_STAT_PASS_RULESET, "ruleset pass" },
184 1.6.2.3 yamt { NPF_STAT_PASS_SESSION, "session pass" },
185 1.6.2.3 yamt
186 1.6.2.3 yamt { -1, "Packets blocked" },
187 1.6.2.3 yamt { NPF_STAT_BLOCK_DEFAULT, "default block" },
188 1.6.2.3 yamt { NPF_STAT_BLOCK_RULESET, "ruleset block" },
189 1.6.2.3 yamt
190 1.6.2.3 yamt { -1, "Session and NAT entries" },
191 1.6.2.3 yamt { NPF_STAT_SESSION_CREATE, "session allocations" },
192 1.6.2.3 yamt { NPF_STAT_SESSION_DESTROY, "session destructions" },
193 1.6.2.3 yamt { NPF_STAT_NAT_CREATE, "NAT entry allocations" },
194 1.6.2.3 yamt { NPF_STAT_NAT_DESTROY, "NAT entry destructions"},
195 1.6.2.3 yamt
196 1.6.2.3 yamt { -1, "Invalid packet state cases" },
197 1.6.2.3 yamt { NPF_STAT_INVALID_STATE, "cases in total" },
198 1.6.2.3 yamt { NPF_STAT_INVALID_STATE_TCP1, "TCP case I" },
199 1.6.2.3 yamt { NPF_STAT_INVALID_STATE_TCP2, "TCP case II" },
200 1.6.2.3 yamt { NPF_STAT_INVALID_STATE_TCP3, "TCP case III" },
201 1.6.2.3 yamt
202 1.6.2.3 yamt { -1, "Packet race cases" },
203 1.6.2.3 yamt { NPF_STAT_RACE_NAT, "NAT association race" },
204 1.6.2.3 yamt { NPF_STAT_RACE_SESSION, "duplicate session race"},
205 1.6.2.3 yamt
206 1.6.2.3 yamt { -1, "Fragmentation" },
207 1.6.2.3 yamt { NPF_STAT_FRAGMENTS, "fragments" },
208 1.6.2.3 yamt { NPF_STAT_REASSEMBLY, "reassembled" },
209 1.6.2.3 yamt { NPF_STAT_REASSFAIL, "failed reassembly" },
210 1.6.2.3 yamt
211 1.6.2.3 yamt { -1, "Other" },
212 1.6.2.3 yamt { NPF_STAT_ERROR, "unexpected errors" },
213 1.6.2.3 yamt };
214 1.6.2.2 yamt uint64_t *st = zalloc(NPF_STATS_SIZE);
215 1.3 rmind
216 1.3 rmind if (ioctl(fd, IOC_NPF_STATS, &st) != 0) {
217 1.3 rmind err(EXIT_FAILURE, "ioctl(IOC_NPF_STATS)");
218 1.3 rmind }
219 1.3 rmind
220 1.6.2.3 yamt for (unsigned i = 0; i < __arraycount(stats); i++) {
221 1.6.2.3 yamt const char *sname = stats[i].name;
222 1.6.2.3 yamt int sidx = stats[i].index;
223 1.4 rmind
224 1.6.2.3 yamt if (sidx == -1) {
225 1.6.2.3 yamt printf("%s:\n", sname);
226 1.6.2.3 yamt } else {
227 1.6.2.3 yamt printf("\t%"PRIu64" %s\n", st[sidx], sname);
228 1.6.2.3 yamt }
229 1.6.2.3 yamt }
230 1.4 rmind
231 1.3 rmind free(st);
232 1.3 rmind return 0;
233 1.3 rmind }
234 1.3 rmind
235 1.6.2.2 yamt void
236 1.6.2.2 yamt npfctl_print_error(const nl_error_t *ne)
237 1.6.2.2 yamt {
238 1.6.2.2 yamt static const char *ncode_errors[] = {
239 1.6.2.2 yamt [-NPF_ERR_OPCODE] = "invalid instruction",
240 1.6.2.2 yamt [-NPF_ERR_JUMP] = "invalid jump",
241 1.6.2.2 yamt [-NPF_ERR_REG] = "invalid register",
242 1.6.2.2 yamt [-NPF_ERR_INVAL] = "invalid argument value",
243 1.6.2.2 yamt [-NPF_ERR_RANGE] = "processing out of range"
244 1.6.2.2 yamt };
245 1.6.2.2 yamt const int nc_err = ne->ne_ncode_error;
246 1.6.2.2 yamt const char *srcfile = ne->ne_source_file;
247 1.6.2.2 yamt
248 1.6.2.2 yamt if (srcfile) {
249 1.6.2.2 yamt warnx("source %s line %d", srcfile, ne->ne_source_line);
250 1.6.2.2 yamt }
251 1.6.2.2 yamt if (nc_err) {
252 1.6.2.2 yamt warnx("n-code error (%d): %s at offset 0x%x",
253 1.6.2.2 yamt nc_err, ncode_errors[-nc_err], ne->ne_ncode_errat);
254 1.6.2.2 yamt }
255 1.6.2.2 yamt if (ne->ne_id) {
256 1.6.2.2 yamt warnx("object: %d", ne->ne_id);
257 1.6.2.2 yamt }
258 1.6.2.2 yamt }
259 1.6.2.2 yamt
260 1.6.2.3 yamt char *
261 1.6.2.3 yamt npfctl_print_addrmask(int alen, npf_addr_t *addr, npf_netmask_t mask)
262 1.6.2.3 yamt {
263 1.6.2.3 yamt struct sockaddr_storage ss;
264 1.6.2.3 yamt char *buf = zalloc(64);
265 1.6.2.3 yamt int len;
266 1.6.2.3 yamt
267 1.6.2.3 yamt switch (alen) {
268 1.6.2.3 yamt case 4: {
269 1.6.2.3 yamt struct sockaddr_in *sin = (void *)&ss;
270 1.6.2.3 yamt sin->sin_len = sizeof(*sin);
271 1.6.2.3 yamt sin->sin_family = AF_INET;
272 1.6.2.3 yamt sin->sin_port = 0;
273 1.6.2.3 yamt memcpy(&sin->sin_addr, addr, sizeof(sin->sin_addr));
274 1.6.2.3 yamt break;
275 1.6.2.3 yamt }
276 1.6.2.3 yamt case 16: {
277 1.6.2.3 yamt struct sockaddr_in6 *sin6 = (void *)&ss;
278 1.6.2.3 yamt sin6->sin6_len = sizeof(*sin6);
279 1.6.2.3 yamt sin6->sin6_family = AF_INET6;
280 1.6.2.3 yamt sin6->sin6_port = 0;
281 1.6.2.3 yamt memcpy(&sin6->sin6_addr, addr, sizeof(sin6->sin6_addr));
282 1.6.2.3 yamt break;
283 1.6.2.3 yamt }
284 1.6.2.3 yamt default:
285 1.6.2.3 yamt assert(false);
286 1.6.2.3 yamt }
287 1.6.2.3 yamt len = sockaddr_snprintf(buf, 64, "%a", (struct sockaddr *)&ss);
288 1.6.2.3 yamt if (mask) {
289 1.6.2.3 yamt snprintf(&buf[len], 64 - len, "/%u", mask);
290 1.6.2.3 yamt }
291 1.6.2.3 yamt return buf;
292 1.6.2.3 yamt }
293 1.6.2.3 yamt
294 1.6.2.3 yamt __dead static void
295 1.6.2.3 yamt npfctl_table(int fd, int argc, char **argv)
296 1.6.2.3 yamt {
297 1.6.2.3 yamt static const struct tblops_s {
298 1.6.2.3 yamt const char * cmd;
299 1.6.2.3 yamt int action;
300 1.6.2.3 yamt } tblops[] = {
301 1.6.2.3 yamt { "add", NPF_IOCTL_TBLENT_ADD },
302 1.6.2.3 yamt { "rem", NPF_IOCTL_TBLENT_REM },
303 1.6.2.3 yamt { "test", NPF_IOCTL_TBLENT_LOOKUP },
304 1.6.2.3 yamt { "list", NPF_IOCTL_TBLENT_LIST },
305 1.6.2.3 yamt { NULL, 0 }
306 1.6.2.3 yamt };
307 1.6.2.3 yamt npf_ioctl_table_t nct;
308 1.6.2.3 yamt fam_addr_mask_t fam;
309 1.6.2.3 yamt size_t buflen = 512;
310 1.6.2.3 yamt char *cmd, *arg;
311 1.6.2.3 yamt int n, alen;
312 1.6.2.3 yamt
313 1.6.2.3 yamt /* Default action is list. */
314 1.6.2.3 yamt memset(&nct, 0, sizeof(npf_ioctl_table_t));
315 1.6.2.3 yamt nct.nct_tid = atoi(argv[0]);
316 1.6.2.3 yamt cmd = argv[1];
317 1.6.2.3 yamt
318 1.6.2.3 yamt for (n = 0; tblops[n].cmd != NULL; n++) {
319 1.6.2.3 yamt if (strcmp(cmd, tblops[n].cmd) != 0) {
320 1.6.2.3 yamt continue;
321 1.6.2.3 yamt }
322 1.6.2.3 yamt nct.nct_action = tblops[n].action;
323 1.6.2.3 yamt break;
324 1.6.2.3 yamt }
325 1.6.2.3 yamt if (tblops[n].cmd == NULL) {
326 1.6.2.3 yamt errx(EXIT_FAILURE, "invalid command '%s'", cmd);
327 1.6.2.3 yamt }
328 1.6.2.3 yamt if (nct.nct_action != NPF_IOCTL_TBLENT_LIST) {
329 1.6.2.3 yamt if (argc < 3) {
330 1.6.2.3 yamt usage();
331 1.6.2.3 yamt }
332 1.6.2.3 yamt arg = argv[2];
333 1.6.2.3 yamt }
334 1.6.2.3 yamt again:
335 1.6.2.3 yamt if (nct.nct_action == NPF_IOCTL_TBLENT_LIST) {
336 1.6.2.3 yamt nct.nct_data.buf.buf = zalloc(buflen);
337 1.6.2.3 yamt nct.nct_data.buf.len = buflen;
338 1.6.2.3 yamt } else {
339 1.6.2.3 yamt if (!npfctl_parse_cidr(arg, &fam, &alen)) {
340 1.6.2.3 yamt errx(EXIT_FAILURE, "invalid CIDR '%s'", arg);
341 1.6.2.3 yamt }
342 1.6.2.3 yamt nct.nct_data.ent.alen = alen;
343 1.6.2.3 yamt memcpy(&nct.nct_data.ent.addr, &fam.fam_addr, sizeof(npf_addr_t));
344 1.6.2.3 yamt nct.nct_data.ent.mask = fam.fam_mask;
345 1.6.2.3 yamt }
346 1.6.2.3 yamt
347 1.6.2.3 yamt if (ioctl(fd, IOC_NPF_TABLE, &nct) != -1) {
348 1.6.2.3 yamt errno = 0;
349 1.6.2.3 yamt }
350 1.6.2.3 yamt switch (errno) {
351 1.6.2.3 yamt case 0:
352 1.6.2.3 yamt break;
353 1.6.2.3 yamt case EEXIST:
354 1.6.2.3 yamt errx(EXIT_FAILURE, "entry already exists or is conflicting");
355 1.6.2.3 yamt case ENOENT:
356 1.6.2.3 yamt errx(EXIT_FAILURE, "no matching entry was not found");
357 1.6.2.3 yamt case EINVAL:
358 1.6.2.3 yamt errx(EXIT_FAILURE, "invalid address, mask or table ID");
359 1.6.2.3 yamt case ENOMEM:
360 1.6.2.3 yamt if (nct.nct_action == NPF_IOCTL_TBLENT_LIST) {
361 1.6.2.3 yamt /* XXX */
362 1.6.2.3 yamt free(nct.nct_data.buf.buf);
363 1.6.2.3 yamt buflen <<= 1;
364 1.6.2.3 yamt goto again;
365 1.6.2.3 yamt }
366 1.6.2.3 yamt /* FALLTHROUGH */
367 1.6.2.3 yamt default:
368 1.6.2.3 yamt err(EXIT_FAILURE, "ioctl");
369 1.6.2.3 yamt }
370 1.6.2.3 yamt
371 1.6.2.3 yamt if (nct.nct_action == NPF_IOCTL_TBLENT_LIST) {
372 1.6.2.3 yamt npf_ioctl_ent_t *ent = nct.nct_data.buf.buf;
373 1.6.2.3 yamt char *buf;
374 1.6.2.3 yamt
375 1.6.2.3 yamt while (nct.nct_data.buf.len--) {
376 1.6.2.3 yamt if (!ent->alen)
377 1.6.2.3 yamt break;
378 1.6.2.3 yamt buf = npfctl_print_addrmask(ent->alen,
379 1.6.2.3 yamt &ent->addr, ent->mask);
380 1.6.2.3 yamt puts(buf);
381 1.6.2.3 yamt ent++;
382 1.6.2.3 yamt }
383 1.6.2.3 yamt free(nct.nct_data.buf.buf);
384 1.6.2.3 yamt } else {
385 1.6.2.3 yamt printf("%s: %s\n", getprogname(),
386 1.6.2.3 yamt nct.nct_action == NPF_IOCTL_TBLENT_LOOKUP ?
387 1.6.2.3 yamt "matching entry found" : "success");
388 1.6.2.3 yamt }
389 1.6.2.3 yamt exit(EXIT_SUCCESS);
390 1.6.2.3 yamt }
391 1.6.2.3 yamt
392 1.1 rmind static void
393 1.1 rmind npfctl(int action, int argc, char **argv)
394 1.1 rmind {
395 1.1 rmind int fd, ret, ver, boolval;
396 1.1 rmind
397 1.1 rmind fd = open(NPF_DEV_PATH, O_RDONLY);
398 1.1 rmind if (fd == -1) {
399 1.4 rmind err(EXIT_FAILURE, "cannot open '%s'", NPF_DEV_PATH);
400 1.1 rmind }
401 1.1 rmind ret = ioctl(fd, IOC_NPF_VERSION, &ver);
402 1.6.2.3 yamt if (ret == -1) {
403 1.6.2.3 yamt err(EXIT_FAILURE, "ioctl");
404 1.6.2.3 yamt }
405 1.1 rmind if (ver != NPF_VERSION) {
406 1.4 rmind errx(EXIT_FAILURE,
407 1.6.2.3 yamt "incompatible NPF interface version (%d, kernel %d)\n"
408 1.6.2.3 yamt "Hint: update userland?", NPF_VERSION, ver);
409 1.1 rmind }
410 1.1 rmind switch (action) {
411 1.1 rmind case NPFCTL_START:
412 1.1 rmind boolval = true;
413 1.1 rmind ret = ioctl(fd, IOC_NPF_SWITCH, &boolval);
414 1.1 rmind break;
415 1.1 rmind case NPFCTL_STOP:
416 1.1 rmind boolval = false;
417 1.1 rmind ret = ioctl(fd, IOC_NPF_SWITCH, &boolval);
418 1.1 rmind break;
419 1.1 rmind case NPFCTL_RELOAD:
420 1.6.2.2 yamt npfctl_config_init(false);
421 1.1 rmind npfctl_parsecfg(argc < 3 ? NPF_CONF_PATH : argv[2]);
422 1.6.2.3 yamt ret = npfctl_config_send(fd, NULL);
423 1.6.2.3 yamt if (ret) {
424 1.6.2.3 yamt errx(EXIT_FAILURE, "ioctl: %s", strerror(ret));
425 1.6.2.3 yamt }
426 1.6.2.3 yamt break;
427 1.6.2.3 yamt case NPFCTL_SHOWCONF:
428 1.6.2.3 yamt ret = npfctl_config_show(fd);
429 1.1 rmind break;
430 1.1 rmind case NPFCTL_FLUSH:
431 1.6.2.2 yamt ret = npf_config_flush(fd);
432 1.1 rmind break;
433 1.1 rmind case NPFCTL_TABLE:
434 1.6.2.3 yamt if ((argc -= 2) < 2) {
435 1.1 rmind usage();
436 1.1 rmind }
437 1.6.2.3 yamt argv += 2;
438 1.6.2.3 yamt npfctl_table(fd, argc, argv);
439 1.1 rmind break;
440 1.3 rmind case NPFCTL_STATS:
441 1.3 rmind ret = npfctl_print_stats(fd);
442 1.3 rmind break;
443 1.3 rmind case NPFCTL_SESSIONS_SAVE:
444 1.6.2.3 yamt if (npf_sessions_recv(fd, NPF_SESSDB_PATH) != 0) {
445 1.5 rmind errx(EXIT_FAILURE, "could not save sessions to '%s'",
446 1.5 rmind NPF_SESSDB_PATH);
447 1.5 rmind }
448 1.3 rmind break;
449 1.3 rmind case NPFCTL_SESSIONS_LOAD:
450 1.6.2.3 yamt if (npf_sessions_send(fd, NPF_SESSDB_PATH) != 0) {
451 1.5 rmind errx(EXIT_FAILURE, "no sessions loaded from '%s'",
452 1.5 rmind NPF_SESSDB_PATH);
453 1.5 rmind }
454 1.3 rmind break;
455 1.1 rmind }
456 1.6.2.1 yamt if (ret) {
457 1.1 rmind err(EXIT_FAILURE, "ioctl");
458 1.1 rmind }
459 1.1 rmind close(fd);
460 1.1 rmind }
461 1.1 rmind
462 1.1 rmind int
463 1.1 rmind main(int argc, char **argv)
464 1.1 rmind {
465 1.1 rmind char *cmd;
466 1.1 rmind
467 1.1 rmind if (argc < 2) {
468 1.1 rmind usage();
469 1.1 rmind }
470 1.1 rmind cmd = argv[1];
471 1.1 rmind
472 1.6.2.2 yamt if (strcmp(cmd, "debug") == 0) {
473 1.6.2.3 yamt const char *cfg = argc > 2 ? argv[2] : "/etc/npf.conf";
474 1.6.2.3 yamt const char *out = argc > 3 ? argv[3] : "/tmp/npf.plist";
475 1.6.2.3 yamt
476 1.6.2.2 yamt npfctl_config_init(true);
477 1.6.2.2 yamt npfctl_parsecfg(cfg);
478 1.6.2.3 yamt npfctl_config_send(0, out);
479 1.6.2.2 yamt return EXIT_SUCCESS;
480 1.6.2.2 yamt }
481 1.4 rmind
482 1.6.2.3 yamt /* Find and call the subroutine. */
483 1.6.2.2 yamt for (int n = 0; operations[n].cmd != NULL; n++) {
484 1.1 rmind if (strcmp(cmd, operations[n].cmd) != 0)
485 1.1 rmind continue;
486 1.1 rmind npfctl(operations[n].action, argc, argv);
487 1.6.2.2 yamt return EXIT_SUCCESS;
488 1.1 rmind }
489 1.3 rmind usage();
490 1.1 rmind }
491