pppoectl.c revision 1.6.2.1
1 1.6.2.1 lukem /* $NetBSD: pppoectl.c,v 1.6.2.1 2002/06/21 08:11:20 lukem Exp $ */ 2 1.1 martin 3 1.1 martin /* 4 1.1 martin * Copyright (c) 1997 Joerg Wunsch 5 1.1 martin * 6 1.1 martin * All rights reserved. 7 1.1 martin * 8 1.1 martin * Redistribution and use in source and binary forms, with or without 9 1.1 martin * modification, are permitted provided that the following conditions 10 1.1 martin * are met: 11 1.1 martin * 1. Redistributions of source code must retain the above copyright 12 1.1 martin * notice, this list of conditions and the following disclaimer. 13 1.1 martin * 2. Redistributions in binary form must reproduce the above copyright 14 1.1 martin * notice, this list of conditions and the following disclaimer in the 15 1.1 martin * documentation and/or other materials provided with the distribution. 16 1.1 martin * 17 1.1 martin * THIS SOFTWARE IS PROVIDED BY THE DEVELOPERS ``AS IS'' AND ANY EXPRESS OR 18 1.1 martin * IMPLIED WARRANTIES, INCLUDING, BUT NOT LIMITED TO, THE IMPLIED WARRANTIES 19 1.1 martin * OF MERCHANTABILITY AND FITNESS FOR A PARTICULAR PURPOSE ARE DISCLAIMED. 20 1.1 martin * IN NO EVENT SHALL THE DEVELOPERS BE LIABLE FOR ANY DIRECT, INDIRECT, 21 1.1 martin * INCIDENTAL, SPECIAL, EXEMPLARY, OR CONSEQUENTIAL DAMAGES (INCLUDING, BUT 22 1.1 martin * NOT LIMITED TO, PROCUREMENT OF SUBSTITUTE GOODS OR SERVICES; LOSS OF USE, 23 1.1 martin * DATA, OR PROFITS; OR BUSINESS INTERRUPTION) HOWEVER CAUSED AND ON ANY 24 1.1 martin * THEORY OF LIABILITY, WHETHER IN CONTRACT, STRICT LIABILITY, OR TORT 25 1.1 martin * (INCLUDING NEGLIGENCE OR OTHERWISE) ARISING IN ANY WAY OUT OF THE USE OF 26 1.1 martin * THIS SOFTWARE, EVEN IF ADVISED OF THE POSSIBILITY OF SUCH DAMAGE. 27 1.1 martin * 28 1.1 martin * From: spppcontrol.c,v 1.3 1998/01/07 07:55:26 charnier Exp 29 1.1 martin * From: ispppcontrol 30 1.1 martin */ 31 1.1 martin 32 1.1 martin #include <sys/param.h> 33 1.1 martin #include <sys/callout.h> 34 1.1 martin #include <sys/ioctl.h> 35 1.1 martin #include <sys/mbuf.h> 36 1.1 martin #include <sys/socket.h> 37 1.1 martin #include <sys/time.h> 38 1.1 martin #include <sys/sysctl.h> 39 1.1 martin #include <net/if.h> 40 1.1 martin #include <net/if_sppp.h> 41 1.1 martin #include <net/if_pppoe.h> 42 1.1 martin #include <err.h> 43 1.1 martin #include <stdio.h> 44 1.1 martin #include <stdlib.h> 45 1.1 martin #include <string.h> 46 1.1 martin #include <sysexits.h> 47 1.1 martin #include <unistd.h> 48 1.1 martin 49 1.1 martin static void usage(void); 50 1.2 martin static void print_error(const char *ifname, int error, const char * str); 51 1.4 martin static void print_vals(const char *ifname, int phase, struct spppauthcfg *sp, 52 1.4 martin int lcp_timeout, time_t idle_timeout, int authfailures, 53 1.4 martin int max_auth_failures); 54 1.2 martin const char *phase_name(int phase); 55 1.2 martin const char *proto_name(int proto); 56 1.2 martin const char *authflags(int flags); 57 1.1 martin 58 1.1 martin int hz = 0; 59 1.1 martin 60 1.1 martin int 61 1.1 martin main(int argc, char **argv) 62 1.1 martin { 63 1.1 martin int s, c; 64 1.6 martin int errs = 0, verbose = 0, dump = 0, dns1 = 0, dns2 = 0; 65 1.1 martin size_t off, len; 66 1.1 martin const char *ifname, *cp; 67 1.1 martin const char *eth_if_name, *access_concentrator, *service; 68 1.2 martin struct spppauthcfg spr; 69 1.2 martin struct sppplcpcfg lcp; 70 1.2 martin struct spppstatus status; 71 1.3 martin struct spppidletimeout timeout; 72 1.4 martin struct spppauthfailurestats authfailstats; 73 1.4 martin struct spppauthfailuresettings authfailset; 74 1.6 martin struct spppdnssettings dnssettings; 75 1.1 martin int mib[2]; 76 1.6 martin int set_auth = 0, set_lcp = 0, set_idle_to = 0, set_auth_failure = 0, set_dns = 0; 77 1.1 martin struct clockinfo clockinfo; 78 1.1 martin 79 1.5 martin setprogname(argv[0]); 80 1.5 martin 81 1.1 martin eth_if_name = NULL; 82 1.1 martin access_concentrator = NULL; 83 1.1 martin service = NULL; 84 1.6 martin while ((c = getopt(argc, argv, "vde:s:a:n:")) != -1) 85 1.1 martin switch (c) { 86 1.1 martin case 'v': 87 1.1 martin verbose++; 88 1.1 martin break; 89 1.1 martin 90 1.2 martin case 'd': 91 1.2 martin dump++; 92 1.2 martin break; 93 1.2 martin 94 1.1 martin case 'e': 95 1.1 martin eth_if_name = optarg; 96 1.1 martin break; 97 1.1 martin 98 1.1 martin case 's': 99 1.1 martin service = optarg; 100 1.1 martin break; 101 1.1 martin 102 1.1 martin case 'a': 103 1.1 martin access_concentrator = optarg; 104 1.1 martin break; 105 1.1 martin 106 1.6 martin case 'n': 107 1.6 martin if (strcmp(optarg, "1") == 0) 108 1.6 martin dns1 = 1; 109 1.6 martin else if (strcmp(optarg, "2") == 0) 110 1.6 martin dns2 = 1; 111 1.6 martin else { 112 1.6 martin fprintf(stderr, "bad argument \"%s\" to -n (only 1 or two allowed)\n", 113 1.6 martin optarg); 114 1.6 martin errs++; 115 1.6 martin } 116 1.6 martin break; 117 1.6 martin 118 1.1 martin default: 119 1.1 martin errs++; 120 1.1 martin break; 121 1.1 martin } 122 1.1 martin argv += optind; 123 1.1 martin argc -= optind; 124 1.1 martin 125 1.1 martin if (errs || argc < 1) 126 1.1 martin usage(); 127 1.1 martin 128 1.1 martin ifname = argv[0]; 129 1.1 martin 130 1.1 martin /* use a random AF to create the socket */ 131 1.1 martin if ((s = socket(AF_INET, SOCK_DGRAM, 0)) < 0) 132 1.1 martin err(EX_UNAVAILABLE, "ifconfig: socket"); 133 1.1 martin 134 1.1 martin argc--; 135 1.1 martin argv++; 136 1.1 martin 137 1.1 martin if (eth_if_name) { 138 1.1 martin struct pppoediscparms parms; 139 1.1 martin int e; 140 1.1 martin 141 1.1 martin memset(&parms, 0, sizeof parms); 142 1.1 martin strncpy(parms.ifname, ifname, sizeof(parms.ifname)); 143 1.1 martin strncpy(parms.eth_ifname, eth_if_name, sizeof(parms.eth_ifname)); 144 1.1 martin if (access_concentrator) { 145 1.1 martin parms.ac_name = (char*)access_concentrator; 146 1.1 martin parms.ac_name_len = strlen(access_concentrator); 147 1.1 martin } 148 1.1 martin if (service) { 149 1.1 martin parms.service_name = (char*)service; 150 1.1 martin parms.service_name_len = strlen(service); 151 1.1 martin } 152 1.1 martin 153 1.1 martin e = ioctl(s, PPPOESETPARMS, &parms); 154 1.2 martin if (e) 155 1.2 martin print_error(ifname, e, "PPPOESETPARMS"); 156 1.2 martin return 0; 157 1.2 martin } 158 1.2 martin 159 1.6 martin if (dns1 || dns2) { 160 1.6 martin /* print DNS addresses */ 161 1.6 martin int e; 162 1.6 martin struct spppdnsaddrs addrs; 163 1.6 martin memset(&addrs, 0, sizeof addrs); 164 1.6 martin strncpy(addrs.ifname, ifname, sizeof addrs.ifname); 165 1.6 martin e = ioctl(s, SPPPGETDNSADDRS, &addrs); 166 1.6 martin if (e) 167 1.6 martin print_error(ifname, e, "SPPPGETDNSADDRS"); 168 1.6 martin if (dns1) 169 1.6 martin printf("%d.%d.%d.%d\n", 170 1.6 martin (addrs.dns[0] >> 24) & 0xff, 171 1.6 martin (addrs.dns[0] >> 16) & 0xff, 172 1.6 martin (addrs.dns[0] >> 8) & 0xff, 173 1.6 martin addrs.dns[0] & 0xff); 174 1.6 martin if (dns2) 175 1.6 martin printf("%d.%d.%d.%d\n", 176 1.6 martin (addrs.dns[1] >> 24) & 0xff, 177 1.6 martin (addrs.dns[1] >> 16) & 0xff, 178 1.6 martin (addrs.dns[1] >> 8) & 0xff, 179 1.6 martin addrs.dns[1] & 0xff); 180 1.6 martin } 181 1.6 martin 182 1.2 martin if (dump) { 183 1.2 martin /* dump PPPoE session state */ 184 1.2 martin struct pppoeconnectionstate state; 185 1.2 martin int e; 186 1.2 martin 187 1.2 martin memset(&state, 0, sizeof state); 188 1.2 martin strncpy(state.ifname, ifname, sizeof state.ifname); 189 1.2 martin e = ioctl(s, PPPOEGETSESSION, &state); 190 1.2 martin if (e) 191 1.6 martin print_error(ifname, e, "PPPOEGETSESSION"); 192 1.2 martin 193 1.2 martin printf("%s:\tstate = ", ifname); 194 1.2 martin switch(state.state) { 195 1.2 martin case PPPOE_STATE_INITIAL: 196 1.2 martin printf("initial\n"); break; 197 1.2 martin case PPPOE_STATE_PADI_SENT: 198 1.2 martin printf("PADI sent\n"); break; 199 1.2 martin case PPPOE_STATE_PADR_SENT: 200 1.2 martin printf("PADR sent\n"); break; 201 1.2 martin case PPPOE_STATE_SESSION: 202 1.2 martin printf("session\n"); break; 203 1.2 martin case PPPOE_STATE_CLOSING: 204 1.2 martin printf("closing\n"); break; 205 1.1 martin } 206 1.2 martin printf("\tSession ID: 0x%x\n", state.session_id); 207 1.2 martin printf("\tPADI retries: %d\n", state.padi_retry_no); 208 1.2 martin printf("\tPADR retries: %d\n", state.padr_retry_no); 209 1.2 martin 210 1.1 martin return 0; 211 1.1 martin } 212 1.1 martin 213 1.1 martin 214 1.2 martin memset(&spr, 0, sizeof spr); 215 1.2 martin strncpy(spr.ifname, ifname, sizeof spr.ifname); 216 1.2 martin memset(&lcp, 0, sizeof lcp); 217 1.2 martin strncpy(lcp.ifname, ifname, sizeof lcp.ifname); 218 1.2 martin memset(&status, 0, sizeof status); 219 1.2 martin strncpy(status.ifname, ifname, sizeof status.ifname); 220 1.3 martin memset(&timeout, 0, sizeof timeout); 221 1.3 martin strncpy(timeout.ifname, ifname, sizeof timeout.ifname); 222 1.4 martin memset(&authfailstats, 0, sizeof &authfailstats); 223 1.4 martin strncpy(authfailstats.ifname, ifname, sizeof authfailstats.ifname); 224 1.4 martin memset(&authfailset, 0, sizeof authfailset); 225 1.4 martin strncpy(authfailset.ifname, ifname, sizeof authfailset.ifname); 226 1.6 martin memset(&dnssettings, 0, sizeof dnssettings); 227 1.6 martin strncpy(dnssettings.ifname, ifname, sizeof dnssettings.ifname); 228 1.1 martin 229 1.1 martin mib[0] = CTL_KERN; 230 1.1 martin mib[1] = KERN_CLOCKRATE; 231 1.1 martin len = sizeof(clockinfo); 232 1.1 martin if(sysctl(mib, 2, &clockinfo, &len, NULL, 0) == -1) 233 1.1 martin { 234 1.1 martin fprintf(stderr, "error, cannot sysctl kern.clockrate!\n"); 235 1.1 martin exit(1); 236 1.1 martin } 237 1.1 martin 238 1.1 martin hz = clockinfo.hz; 239 1.1 martin 240 1.6 martin if (argc == 0 && !(dns1||dns2)) { 241 1.1 martin /* list only mode */ 242 1.2 martin 243 1.2 martin /* first pass, get name lenghts */ 244 1.2 martin if (ioctl(s, SPPPGETAUTHCFG, &spr) == -1) 245 1.2 martin err(EX_OSERR, "SPPPGETAUTHCFG"); 246 1.2 martin /* now allocate buffers for strings */ 247 1.2 martin if (spr.myname_length) 248 1.2 martin spr.myname = malloc(spr.myname_length); 249 1.2 martin if (spr.hisname_length) 250 1.2 martin spr.hisname = malloc(spr.hisname_length); 251 1.2 martin /* second pass: get names too */ 252 1.2 martin if (ioctl(s, SPPPGETAUTHCFG, &spr) == -1) 253 1.2 martin err(EX_OSERR, "SPPPGETAUTHCFG"); 254 1.2 martin 255 1.2 martin if (ioctl(s, SPPPGETLCPCFG, &lcp) == -1) 256 1.2 martin err(EX_OSERR, "SPPPGETLCPCFG"); 257 1.2 martin if (ioctl(s, SPPPGETSTATUS, &status) == -1) 258 1.2 martin err(EX_OSERR, "SPPPGETSTATUS"); 259 1.3 martin if (ioctl(s, SPPPGETIDLETO, &timeout) == -1) 260 1.3 martin err(EX_OSERR, "SPPPGETIDLETO"); 261 1.4 martin if (ioctl(s, SPPPGETAUTHFAILURES, &authfailstats) == -1) 262 1.4 martin err(EX_OSERR, "SPPPGETAUTHFAILURES"); 263 1.2 martin 264 1.4 martin print_vals(ifname, status.phase, &spr, lcp.lcp_timeout, timeout.idle_seconds, authfailstats.auth_failures, authfailstats.max_failures); 265 1.2 martin 266 1.2 martin if (spr.hisname) free(spr.hisname); 267 1.2 martin if (spr.myname) free(spr.myname); 268 1.1 martin return 0; 269 1.1 martin } 270 1.1 martin 271 1.1 martin #define startswith(s) strncmp(argv[0], s, (off = strlen(s))) == 0 272 1.1 martin 273 1.1 martin while (argc > 0) { 274 1.1 martin if (startswith("authproto=")) { 275 1.1 martin cp = argv[0] + off; 276 1.1 martin if (strcmp(cp, "pap") == 0) 277 1.2 martin spr.myauth = 278 1.2 martin spr.hisauth = SPPP_AUTHPROTO_PAP; 279 1.1 martin else if (strcmp(cp, "chap") == 0) 280 1.2 martin spr.myauth = spr.hisauth = SPPP_AUTHPROTO_CHAP; 281 1.1 martin else if (strcmp(cp, "none") == 0) 282 1.2 martin spr.myauth = spr.hisauth = SPPP_AUTHPROTO_NONE; 283 1.1 martin else 284 1.1 martin errx(EX_DATAERR, "bad auth proto: %s", cp); 285 1.3 martin set_auth = 1; 286 1.1 martin } else if (startswith("myauthproto=")) { 287 1.1 martin cp = argv[0] + off; 288 1.1 martin if (strcmp(cp, "pap") == 0) 289 1.2 martin spr.myauth = SPPP_AUTHPROTO_PAP; 290 1.1 martin else if (strcmp(cp, "chap") == 0) 291 1.2 martin spr.myauth = SPPP_AUTHPROTO_CHAP; 292 1.1 martin else if (strcmp(cp, "none") == 0) 293 1.2 martin spr.myauth = SPPP_AUTHPROTO_NONE; 294 1.1 martin else 295 1.1 martin errx(EX_DATAERR, "bad auth proto: %s", cp); 296 1.3 martin set_auth = 1; 297 1.2 martin } else if (startswith("myauthname=")) { 298 1.2 martin spr.myname = argv[0] + off; 299 1.2 martin spr.myname_length = strlen(spr.myname)+1; 300 1.3 martin set_auth = 1; 301 1.2 martin } else if (startswith("myauthsecret=") || startswith("myauthkey=")) { 302 1.2 martin spr.mysecret = argv[0] + off; 303 1.2 martin spr.mysecret_length = strlen(spr.mysecret)+1; 304 1.3 martin set_auth = 1; 305 1.2 martin } else if (startswith("hisauthproto=")) { 306 1.1 martin cp = argv[0] + off; 307 1.1 martin if (strcmp(cp, "pap") == 0) 308 1.2 martin spr.hisauth = SPPP_AUTHPROTO_PAP; 309 1.1 martin else if (strcmp(cp, "chap") == 0) 310 1.2 martin spr.hisauth = SPPP_AUTHPROTO_CHAP; 311 1.1 martin else if (strcmp(cp, "none") == 0) 312 1.2 martin spr.hisauth = SPPP_AUTHPROTO_NONE; 313 1.1 martin else 314 1.1 martin errx(EX_DATAERR, "bad auth proto: %s", cp); 315 1.3 martin set_auth = 1; 316 1.2 martin } else if (startswith("hisauthname=")) { 317 1.2 martin spr.hisname = argv[0] + off; 318 1.2 martin spr.hisname_length = strlen(spr.hisname)+1; 319 1.3 martin set_auth = 1; 320 1.2 martin } else if (startswith("hisauthsecret=") || startswith("hisauthkey=")) { 321 1.2 martin spr.hissecret = argv[0] + off; 322 1.2 martin spr.hissecret_length = strlen(spr.hissecret)+1; 323 1.3 martin set_auth = 1; 324 1.2 martin } else if (strcmp(argv[0], "callin") == 0) 325 1.2 martin spr.hisauthflags |= SPPP_AUTHFLAG_NOCALLOUT; 326 1.1 martin else if (strcmp(argv[0], "always") == 0) 327 1.2 martin spr.hisauthflags &= ~SPPP_AUTHFLAG_NOCALLOUT; 328 1.1 martin else if (strcmp(argv[0], "norechallenge") == 0) 329 1.2 martin spr.hisauthflags |= SPPP_AUTHFLAG_NORECHALLENGE; 330 1.1 martin else if (strcmp(argv[0], "rechallenge") == 0) 331 1.2 martin spr.hisauthflags &= ~SPPP_AUTHFLAG_NORECHALLENGE; 332 1.1 martin #ifndef __NetBSD__ 333 1.1 martin else if (strcmp(argv[0], "enable-vj") == 0) 334 1.1 martin spr.defs.enable_vj = 1; 335 1.1 martin else if (strcmp(argv[0], "disable-vj") == 0) 336 1.1 martin spr.defs.enable_vj = 0; 337 1.1 martin #endif 338 1.1 martin else if (startswith("lcp-timeout=")) { 339 1.1 martin int timeout_arg = atoi(argv[0]+off); 340 1.1 martin if ((timeout_arg > 20000) || (timeout_arg <= 0)) 341 1.1 martin errx(EX_DATAERR, "bad lcp timeout value: %s", 342 1.1 martin argv[0]+off); 343 1.2 martin lcp.lcp_timeout = timeout_arg * hz / 1000; 344 1.2 martin set_lcp = 1; 345 1.3 martin } else if (startswith("idle-timeout=")) { 346 1.4 martin timeout.idle_seconds = (time_t)atol(argv[0]+off); 347 1.3 martin set_idle_to = 1; 348 1.4 martin } else if (startswith("max-auth-failure=")) { 349 1.4 martin authfailset.max_failures = atoi(argv[0]+off); 350 1.4 martin set_auth_failure = 1; 351 1.6 martin } else if (startswith("query-dns=")) { 352 1.6 martin dnssettings.query_dns = atoi(argv[0]+off); 353 1.6 martin set_dns = 1; 354 1.1 martin } else 355 1.1 martin errx(EX_DATAERR, "bad parameter: \"%s\"", argv[0]); 356 1.1 martin 357 1.1 martin argv++; 358 1.1 martin argc--; 359 1.1 martin } 360 1.1 martin 361 1.3 martin if (set_auth) { 362 1.3 martin if (ioctl(s, SPPPSETAUTHCFG, &spr) == -1) 363 1.3 martin err(EX_OSERR, "SPPPSETAUTHCFG"); 364 1.3 martin } 365 1.2 martin if (set_lcp) { 366 1.2 martin if (ioctl(s, SPPPSETLCPCFG, &lcp) == -1) 367 1.2 martin err(EX_OSERR, "SPPPSETLCPCFG"); 368 1.2 martin } 369 1.3 martin if (set_idle_to) { 370 1.3 martin if (ioctl(s, SPPPSETIDLETO, &timeout) == -1) 371 1.3 martin err(EX_OSERR, "SPPPSETIDLETO"); 372 1.3 martin } 373 1.4 martin if (set_auth_failure) { 374 1.4 martin if (ioctl(s, SPPPSETAUTHFAILURE, &authfailset) == -1) 375 1.4 martin err(EX_OSERR, "SPPPSETAUTHFAILURE"); 376 1.4 martin } 377 1.6 martin if (set_dns) { 378 1.6 martin if (ioctl(s, SPPPSETDNSOPTS, &dnssettings) == -1) 379 1.6 martin err(EX_OSERR, "SPPPSETDNSOPTS"); 380 1.6 martin } 381 1.1 martin 382 1.4 martin if (verbose) { 383 1.4 martin if (ioctl(s, SPPPGETAUTHFAILURES, &authfailstats) == -1) 384 1.4 martin err(EX_OSERR, "SPPPGETAUTHFAILURES"); 385 1.4 martin print_vals(ifname, status.phase, &spr, lcp.lcp_timeout, timeout.idle_seconds, authfailstats.auth_failures, authfailstats.max_failures); 386 1.4 martin } 387 1.1 martin 388 1.1 martin return 0; 389 1.1 martin } 390 1.1 martin 391 1.1 martin static void 392 1.1 martin usage(void) 393 1.1 martin { 394 1.5 martin const char * prog = getprogname(); 395 1.5 martin fprintf(stderr, 396 1.5 martin "usage:\n" 397 1.5 martin " %s [-v] ifname [{my|his}auth{proto|name|secret}=...] \\\n" 398 1.5 martin " [callin] [always] [{no}rechallenge]\n" 399 1.6 martin " [query-dns=3]\n" 400 1.5 martin " to set authentication names, passwords\n" 401 1.5 martin " and (optional) paramaters\n" 402 1.5 martin " %s [-v] ifname lcp-timeout=ms|idle-timeout=s|max-auth-failure=count\n" 403 1.5 martin " to set general parameters\n" 404 1.5 martin " or\n" 405 1.5 martin " %s -e ethernet-ifname ifname\n" 406 1.5 martin " to connect an ethernet interface for PPPoE\n" 407 1.5 martin " %s [-a access-concentrator-name] [-s service-name] ifname\n" 408 1.5 martin " to specify (optional) data for PPPoE sessions\n" 409 1.5 martin " %s -d ifname\n" 410 1.5 martin " to dump the current PPPoE session state\n" 411 1.6.2.1 lukem " %s -n (1|2) ifname\n" 412 1.6 martin " to print DNS addresses retrieved via query-dns\n" 413 1.6 martin , prog, prog, prog, prog, prog, prog); 414 1.1 martin exit(EX_USAGE); 415 1.1 martin } 416 1.1 martin 417 1.2 martin static void 418 1.4 martin print_vals(const char *ifname, int phase, struct spppauthcfg *sp, int lcp_timeout, 419 1.4 martin time_t idle_timeout, int authfailures, int max_auth_failures) 420 1.1 martin { 421 1.1 martin #ifndef __NetBSD__ 422 1.1 martin time_t send, recv; 423 1.1 martin #endif 424 1.1 martin 425 1.2 martin printf("%s:\tphase=%s\n", ifname, phase_name(phase)); 426 1.2 martin if (sp->myauth) { 427 1.2 martin printf("\tmyauthproto=%s myauthname=\"%s\"\n", 428 1.2 martin proto_name(sp->myauth), 429 1.2 martin sp->myname); 430 1.2 martin } 431 1.2 martin if (sp->hisauth) { 432 1.2 martin printf("\thisauthproto=%s hisauthname=\"%s\"%s\n", 433 1.2 martin proto_name(sp->hisauth), 434 1.2 martin sp->hisname, 435 1.2 martin authflags(sp->hisauthflags)); 436 1.1 martin } 437 1.1 martin #ifndef __NetBSD__ 438 1.1 martin if (sp->defs.pp_phase > PHASE_DEAD) { 439 1.1 martin send = time(NULL) - sp->defs.pp_last_sent; 440 1.1 martin recv = time(NULL) - sp->defs.pp_last_recv; 441 1.1 martin printf("\tidle_time=%ld\n", (send<recv)? send : recv); 442 1.1 martin } 443 1.1 martin #endif 444 1.2 martin 445 1.1 martin printf("\tlcp timeout: %.3f s\n", 446 1.2 martin (double)lcp_timeout / hz); 447 1.3 martin 448 1.3 martin if (idle_timeout != 0) 449 1.3 martin printf("\tidle timeout = %lu s\n", (unsigned long)idle_timeout); 450 1.3 martin else 451 1.3 martin printf("\tidle timeout = disabled\n"); 452 1.2 martin 453 1.4 martin if (authfailures != 0) 454 1.4 martin printf("\tauthentication failures = %d\n", authfailures); 455 1.4 martin printf("\tmax-auth-failure = %d\n", max_auth_failures); 456 1.4 martin 457 1.1 martin #ifndef __NetBSD__ 458 1.1 martin printf("\tenable_vj: %s\n", 459 1.1 martin sp->defs.enable_vj ? "on" : "off"); 460 1.1 martin #endif 461 1.1 martin } 462 1.1 martin 463 1.1 martin const char * 464 1.2 martin phase_name(int phase) 465 1.1 martin { 466 1.1 martin switch (phase) { 467 1.2 martin case SPPP_PHASE_DEAD: return "dead"; 468 1.2 martin case SPPP_PHASE_ESTABLISH: return "establish"; 469 1.2 martin case SPPP_PHASE_TERMINATE: return "terminate"; 470 1.2 martin case SPPP_PHASE_AUTHENTICATE: return "authenticate"; 471 1.2 martin case SPPP_PHASE_NETWORK: return "network"; 472 1.1 martin } 473 1.1 martin return "illegal"; 474 1.1 martin } 475 1.1 martin 476 1.1 martin const char * 477 1.2 martin proto_name(int proto) 478 1.1 martin { 479 1.1 martin static char buf[12]; 480 1.1 martin switch (proto) { 481 1.2 martin case SPPP_AUTHPROTO_PAP: return "pap"; 482 1.2 martin case SPPP_AUTHPROTO_CHAP: return "chap"; 483 1.2 martin case SPPP_AUTHPROTO_NONE: return "none"; 484 1.1 martin } 485 1.1 martin sprintf(buf, "0x%x", (unsigned)proto); 486 1.1 martin return buf; 487 1.1 martin } 488 1.1 martin 489 1.1 martin const char * 490 1.2 martin authflags(int flags) 491 1.1 martin { 492 1.1 martin static char buf[32]; 493 1.1 martin buf[0] = '\0'; 494 1.2 martin if (flags & SPPP_AUTHFLAG_NOCALLOUT) 495 1.1 martin strcat(buf, " callin"); 496 1.2 martin if (flags & SPPP_AUTHFLAG_NORECHALLENGE) 497 1.1 martin strcat(buf, " norechallenge"); 498 1.1 martin return buf; 499 1.1 martin } 500 1.2 martin 501 1.2 martin static void 502 1.2 martin print_error(const char *ifname, int error, const char * str) 503 1.2 martin { 504 1.2 martin if (error == -1) 505 1.2 martin fprintf(stderr, "%s: interface not found\n", ifname); 506 1.2 martin else 507 1.2 martin fprintf(stderr, "%s: %s: %s\n", ifname, str, strerror(error)); 508 1.2 martin exit(EX_DATAERR); 509 1.2 martin } 510 1.2 martin 511 1.2 martin 512
Indexes created Tue Oct 21 05:10:09 GMT 2025