1/*- 2 * Copyright (c) 2004 Robert N. M. Watson 3 * All rights reserved. 4 * 5 * Redistribution and use in source and binary forms, with or without 6 * modification, are permitted provided that the following conditions 7 * are met: 8 * 1. Redistributions of source code must retain the above copyright --- 9 unchanged lines hidden (view full) --- 18 * FOR ANY DIRECT, INDIRECT, INCIDENTAL, SPECIAL, EXEMPLARY, OR CONSEQUENTIAL 19 * DAMAGES (INCLUDING, BUT NOT LIMITED TO, PROCUREMENT OF SUBSTITUTE GOODS 20 * OR SERVICES; LOSS OF USE, DATA, OR PROFITS; OR BUSINESS INTERRUPTION) 21 * HOWEVER CAUSED AND ON ANY THEORY OF LIABILITY, WHETHER IN CONTRACT, STRICT 22 * LIABILITY, OR TORT (INCLUDING NEGLIGENCE OR OTHERWISE) ARISING IN ANY WAY 23 * OUT OF THE USE OF THIS SOFTWARE, EVEN IF ADVISED OF THE POSSIBILITY OF 24 * SUCH DAMAGE. 25 * |
26 * $FreeBSD: head/tools/regression/netinet/ipsockopt/ipsockopt.c 136390 2004-10-11 19:03:53Z rwatson $ |
27 */ 28 29#include <sys/types.h> 30#include <sys/socket.h> 31 32#include <netinet/in.h> 33#include <netinet/in_systm.h> 34#include <netinet/ip.h> --- 9 unchanged lines hidden (view full) --- 44 * The test tool exercises IP-level socket options by interrogating the 45 * getsockopt()/setsockopt() APIs. It does not currently test that the 46 * intended semantics of each option are implemented (i.e., that setting IP 47 * options on the socket results in packets with the desired IP options in 48 * it). 49 */ 50 51/* |
52 * get_socket() is a wrapper function that returns a socket of the specified 53 * type, and created with or without restored root privilege (if running 54 * with a real uid of root and an effective uid of some other user). This 55 * us to test whether the same rights are granted using a socket with a 56 * privileged cached credential vs. a socket with a regular credential. 57 */ 58#define PRIV_ASIS 0 59#define PRIV_GETROOT 1 60static int 61get_socket_unpriv(int type) 62{ 63 64 return (socket(PF_INET, type, 0)); 65} 66 67static int 68get_socket_priv(int type) 69{ 70 uid_t olduid; 71 int sock; 72 73 if (getuid() != 0) 74 errx(-1, "get_sock_priv: running without real uid 0"); 75 76 olduid = geteuid(); 77 if (seteuid(0) < 0) 78 err(-1, "get_sock_priv: seteuid(0)"); 79 80 sock = socket(PF_INET, type, 0); 81 82 if (seteuid(olduid) < 0) 83 err(-1, "get_sock_priv: seteuid(%d)", olduid); 84 85 return (sock); 86} 87 88static int 89get_socket(int type, int priv) 90{ 91 92 if (priv) 93 return (get_socket_priv(type)); 94 else 95 return (get_socket_unpriv(type)); 96} 97 98/* |
99 * Exercise the IP_OPTIONS socket option. Confirm the following properties: 100 * 101 * - That there is no initial set of options (length returned is 0). 102 * - That if we set a specific set of options, we can read it back. 103 * - That if we then reset the options, they go away. 104 * 105 * Use a UDP socket for this. 106 */ 107static void |
108test_ip_options(int sock, const char *socktypename) |
109{ 110 u_int32_t new_options, test_options[2]; 111 socklen_t len; |
112 |
113 /* 114 * Start off by confirming the default IP options on a socket are to 115 * have no options set. 116 */ 117 len = sizeof(test_options); 118 if (getsockopt(sock, IPPROTO_IP, IP_OPTIONS, test_options, &len) < 0) |
119 err(-1, "test_ip_options(%s): initial getsockopt()", 120 socktypename); |
121 122 if (len != 0) |
123 errx(-1, "test_ip_options(%s): initial getsockopt() returned " 124 "%d bytes", socktypename, len); |
125 126#define TEST_MAGIC 0xc34e4212 127#define NEW_OPTIONS htonl(IPOPT_EOL | (IPOPT_NOP << 8) | (IPOPT_NOP << 16) \ 128 | (IPOPT_NOP << 24)) 129 130 /* 131 * Write some new options into the socket. 132 */ 133 new_options = NEW_OPTIONS; 134 if (setsockopt(sock, IPPROTO_IP, IP_OPTIONS, &new_options, 135 sizeof(new_options)) < 0) |
136 err(-1, "test_ip_options(%s): setsockopt(NOP|NOP|NOP|EOL)", 137 socktypename); |
138 139 /* 140 * Store some random cruft in a local variable and retrieve the 141 * options to make sure they set. Note that we pass in an array 142 * of u_int32_t's so that if whatever ended up in the option was 143 * larger than what we put in, we find out about it here. 144 */ 145 test_options[0] = TEST_MAGIC; 146 test_options[1] = TEST_MAGIC; 147 len = sizeof(test_options); 148 if (getsockopt(sock, IPPROTO_IP, IP_OPTIONS, test_options, &len) < 0) |
149 err(-1, "test_ip_options(%s): getsockopt() after set", 150 socktypename); |
151 152 /* 153 * Getting the right amount back is important. 154 */ 155 if (len != sizeof(new_options)) |
156 errx(-1, "test_ip_options(%s): getsockopt() after set " 157 "returned %d bytes of data", socktypename, len); |
158 159 /* 160 * One posible failure mode is that the call succeeds but neglects to 161 * copy out the data. 162 */ 163 if (test_options[0] == TEST_MAGIC) |
164 errx(-1, "test_ip_options(%s): getsockopt() after set didn't " 165 "return data", socktypename); |
166 167 /* 168 * Make sure we get back what we wrote on. 169 */ 170 if (new_options != test_options[0]) |
171 errx(-1, "test_ip_options(%s): getsockopt() after set " 172 "returned wrong options (%08x, %08x)", socktypename, 173 new_options, test_options[0]); |
174 175 /* 176 * Now we reset the value to make sure clearing works. 177 */ 178 if (setsockopt(sock, IPPROTO_IP, IP_OPTIONS, NULL, 0) < 0) |
179 err(-1, "test_ip_options(%s): setsockopt() to reset", 180 socktypename); |
181 182 /* 183 * Make sure it was really cleared. 184 */ 185 test_options[0] = TEST_MAGIC; 186 test_options[1] = TEST_MAGIC; 187 len = sizeof(test_options); 188 if (getsockopt(sock, IPPROTO_IP, IP_OPTIONS, test_options, &len) < 0) |
189 err(-1, "test_ip_options(%s): getsockopt() after reset", 190 socktypename); |
191 192 if (len != 0) |
193 errx(-1, "test_ip_options(%s): getsockopt() after reset " 194 "returned %d bytes", socktypename, len); |
195} 196 197/* 198 * This test checks the behavior of the IP_HDRINCL socket option, which 199 * allows users with privilege to specify the full header on an IP raw 200 * socket. We test that the option can only be used with raw IP sockets, not 201 * with UDP or TCP sockets. We also confirm that the raw socket is only 202 * available to a privileged user (subject to the UID when called). We 203 * confirm that it defaults to off |
204 * 205 * Unlike other tests, doesn't use caller-provided socket. Probably should 206 * be fixed. |
207 */ 208static void 209test_ip_hdrincl(void) 210{ 211 int flag[2], sock; 212 socklen_t len; 213 214 /* 215 * Try to receive or set the IP_HDRINCL flag on a TCP socket. 216 */ 217 sock = socket(PF_INET, SOCK_STREAM, 0); |
218 if (sock == -1) 219 err(-1, "test_ip_hdrincl(): socket(SOCK_STREAM)"); |
220 221 flag[0] = -1; 222 len = sizeof(flag[0]); |
223 if (getsockopt(sock, IPPROTO_IP, IP_HDRINCL, flag, &len) == 0) 224 err(-1, "test_ip_hdrincl(): initial getsockopt(IP_HDRINCL)"); |
225 |
226 if (errno != ENOPROTOOPT) 227 errx(-1, "test_ip_hdrincl(): initial getsockopt(IP_HDRINC) " 228 "returned %d (%s) not ENOPROTOOPT", errno, 229 strerror(errno)); |
230 231 flag[0] = 1; 232 if (setsockopt(sock, IPPROTO_IP, IP_HDRINCL, flag, sizeof(flag[0])) |
233 == 0) 234 err(-1,"test_ip_hdrincl(): setsockopt(IP_HDRINCL) on TCP " 235 "succeeded\n"); |
236 |
237 if (errno != ENOPROTOOPT) 238 errx(-1, "test_ip_hdrincl(): setsockopt(IP_HDRINCL) on TCP " 239 "returned %d (%s) not ENOPROTOOPT\n", errno, 240 strerror(errno)); |
241 242 close(sock); 243 244 /* 245 * Try to receive or set the IP_HDRINCL flag on a UDP socket. 246 */ 247 sock = socket(PF_INET, SOCK_DGRAM, 0); |
248 if (sock == -1) 249 err(-1, "test_ip_hdrincl(): socket(SOCK_DGRAM"); |
250 251 flag[0] = -1; 252 len = sizeof(flag[0]); |
253 if (getsockopt(sock, IPPROTO_IP, IP_HDRINCL, flag, &len) == 0) 254 err(-1, "test_ip_hdrincl(): getsockopt(IP_HDRINCL) on UDP " 255 "succeeded\n"); |
256 |
257 if (errno != ENOPROTOOPT) 258 errx(-1, "test_ip_hdrincl(): getsockopt(IP_HDRINCL) on UDP " 259 "returned %d (%s) not ENOPROTOOPT\n", errno, 260 strerror(errno)); |
261 262 if (setsockopt(sock, IPPROTO_IP, IP_HDRINCL, flag, sizeof(flag[0])) |
263 == 0) 264 err(-1, "test_ip_hdrincl(): setsockopt(IP_HDRINCL) on UDP " 265 "succeeded\n"); |
266 |
267 if (errno != ENOPROTOOPT) 268 errx(-1, "test_ip_hdrincl(): setsockopt(IP_HDRINCL) on UDP " 269 "returned %d (%s) not ENOPROTOOPT\n", errno, 270 strerror(errno)); |
271 272 close(sock); 273 274 /* 275 * Now try on a raw socket. Access ontrol should prevent non-root 276 * users from creating the raw socket, so check that here based on 277 * geteuid(). If we're non-root, we just return assuming the socket 278 * create fails since the remainder of the tests apply only on a raw 279 * socket. 280 */ 281 sock = socket(PF_INET, SOCK_RAW, 0); 282 if (geteuid() != 0) { 283 if (sock != -1) 284 errx(-1, "test_ip_hdrincl: created raw socket as " 285 "uid %d", geteuid()); 286 return; 287 } |
288 if (sock == -1) 289 err(-1, "test_ip_hdrincl(): socket(PF_INET, SOCK_RAW)"); |
290 291 /* 292 * Make sure the initial value of the flag is 0 (disabled). 293 */ 294 flag[0] = -1; 295 flag[1] = -1; 296 len = sizeof(flag); |
297 if (getsockopt(sock, IPPROTO_IP, IP_HDRINCL, flag, &len) < 0) 298 err(-1, "test_ip_hdrincl(): getsockopt(IP_HDRINCL) on raw " 299 "socket"); |
300 |
301 if (len != sizeof(flag[0])) 302 errx(-1, "test_ip_hdrincl(): %d bytes returned on " |
303 "initial get\n", len); |
304 |
305 if (flag[0] != 0) 306 errx(-1, "test_ip_hdrincl(): initial flag value of %d\n", |
307 flag[0]); |
308 309 /* 310 * Enable the IP_HDRINCL flag. 311 */ 312 flag[0] = 1; 313 if (setsockopt(sock, IPPROTO_IP, IP_HDRINCL, flag, sizeof(flag[0])) |
314 < 0) 315 err(-1, "test_ip_hdrincl(): setsockopt(IP_HDRINCL, 1)"); |
316 317 /* 318 * Check that the IP_HDRINCL flag was set. 319 */ 320 flag[0] = -1; 321 flag[1] = -1; 322 len = sizeof(flag); |
323 if (getsockopt(sock, IPPROTO_IP, IP_HDRINCL, flag, &len) < 0) 324 err(-1, "test_ip_hdrincl(): getsockopt(IP_HDRINCL) after " 325 "set"); |
326 |
327 if (flag[0] == 0) 328 errx(-1, "test_ip_hdrincl(): getsockopt(IP_HDRINCL) " |
329 "after set had flag of %d\n", flag[0]); |
330 331#define HISTORICAL_INP_HDRINCL 8 |
332 if (flag[0] != HISTORICAL_INP_HDRINCL) 333 warnx("test_ip_hdrincl(): WARNING: getsockopt(IP_H" |
334 "DRINCL) after set had non-historical value of %d\n", 335 flag[0]); |
336 337 /* 338 * Reset the IP_HDRINCL flag to 0. 339 */ 340 flag[0] = 0; 341 if (setsockopt(sock, IPPROTO_IP, IP_HDRINCL, flag, sizeof(flag[0])) |
342 < 0) 343 err(-1, "test_ip_hdrincl(): setsockopt(IP_HDRINCL, 0)"); |
344 345 /* 346 * Check that the IP_HDRINCL flag was reset to 0. 347 */ 348 flag[0] = -1; 349 flag[1] = -1; 350 len = sizeof(flag); |
351 if (getsockopt(sock, IPPROTO_IP, IP_HDRINCL, flag, &len) < 0) 352 err(-1, "test_ip_hdrincl(): getsockopt(IP_HDRINCL) after " 353 "reset"); |
354 |
355 if (flag[0] != 0) 356 errx(-1, "test_ip_hdrincl(): getsockopt(IP_HDRINCL) " |
357 "after set had flag of %d\n", flag[0]); |
358 359 close(sock); 360} 361 362/* 363 * As with other non-int or larger sized socket options, the IP_TOS and 364 * IP_TTL fields in kernel is stored as an 8-bit value, reflecting the IP 365 * header fields, but useful I/O to the field occurs using 32-bit integers. --- 11 unchanged lines hidden (view full) --- 377 * bits of data. 378 * - When we set it to a non-zero value expressible with a u_char, we can 379 * read that value back. 380 * - When we reset it back to zero, we can read it as 0. 381 * - When we set it to a value >255, the value is truncated to something less 382 * than 255. 383 */ 384static void |
385test_ip_uchar(int sock, const char *socktypename, int option, 386 const char *optionname, int initial) |
387{ |
388 int val[2]; |
389 socklen_t len; 390 |
391 /* 392 * Check that the initial value is 0, and that the size is one 393 * u_char; 394 */ 395 val[0] = -1; 396 val[1] = -1; 397 len = sizeof(val); 398 if (getsockopt(sock, IPPROTO_IP, option, val, &len) < 0) |
399 err(-1, "test_ip_uchar(%s, %s): initial getsockopt()", 400 socktypename, optionname); |
401 402 if (len != sizeof(val[0])) |
403 errx(-1, "test_ip_uchar(%s, %s): initial getsockopt() " 404 "returned %d bytes", socktypename, optionname, len); |
405 406 if (val[0] == -1) |
407 errx(-1, "test_ip_uchar(%s, %s): initial getsockopt() didn't " 408 "return data", socktypename, optionname); |
409 410 if (val[0] != initial) |
411 errx(-1, "test_ip_uchar(%s, %s): initial getsockopt() " 412 "returned value of %d, not %d", socktypename, optionname, 413 val[0], initial); |
414 415 /* 416 * Set the field to a valid value. 417 */ 418 val[0] = 128; 419 val[1] = -1; 420 if (setsockopt(sock, IPPROTO_IP, option, val, sizeof(val[0])) < 0) |
421 err(-1, "test_ip_uchar(%s, %s): setsockopt(128)", 422 socktypename, optionname); |
423 424 /* 425 * Check that when we read back the field, we get the same value. 426 */ 427 val[0] = -1; 428 val[1] = -1; 429 len = sizeof(val); 430 if (getsockopt(sock, IPPROTO_IP, option, val, &len) < 0) |
431 err(-1, "test_ip_uchar(%s, %s): getsockopt() after set to " 432 "128", socktypename, optionname); |
433 434 if (len != sizeof(val[0])) |
435 errx(-1, "test_ip_uchar(%s, %s): getsockopt() after set to " 436 "128 returned %d bytes", socktypename, optionname, len); |
437 438 if (val[0] == -1) |
439 errx(-1, "test_ip_uchar(%s, %s): getsockopt() after set to " 440 "128 didn't return data", socktypename, optionname); |
441 442 if (val[0] != 128) |
443 errx(-1, "test_ip_uchar(%s, %s): getsockopt() after set to " 444 "128 returned %d", socktypename, optionname, val[0]); |
445 446 /* 447 * Reset the value to 0, check that it was reset. 448 */ 449 val[0] = 0; 450 val[1] = 0; 451 if (setsockopt(sock, IPPROTO_IP, option, val, sizeof(val[0])) < 0) |
452 err(-1, "test_ip_uchar(%s, %s): setsockopt() to reset from " 453 "128", socktypename, optionname); |
454 455 if (len != sizeof(val[0])) |
456 errx(-1, "test_ip_uchar(%s, %s): getsockopt() after reset " 457 "from 128 returned %d bytes", socktypename, optionname, 458 len); |
459 460 if (val[0] == -1) |
461 errx(-1, "test_ip_uchar(%s, %s): getsockopt() after reset " 462 "from 128 didn't return data", socktypename, optionname); |
463 464 if (val[0] != 0) |
465 errx(-1, "test_ip_uchar(%s, %s): getsockopt() after reset " 466 "from 128 returned %d", socktypename, optionname, 467 val[0]); |
468 469 /* 470 * Set the value to something out of range and check that it comes 471 * back truncated, or that we get EINVAL back. Traditional u_char 472 * IP socket options truncate, but newer ones (such as multicast 473 * socket options) will return EINVAL. 474 */ 475 val[0] = 32000; 476 val[1] = -1; 477 if (setsockopt(sock, IPPROTO_IP, option, val, sizeof(val[0])) < 0) { 478 /* 479 * EINVAL is a fine outcome, no need to run the truncation 480 * tests. 481 */ |
482 if (errno == EINVAL) |
483 return; |
484 err(-1, "test_ip_uchar(%s, %s): getsockopt(32000)", 485 socktypename, optionname); |
486 } 487 488 val[0] = -1; 489 val[1] = -1; 490 len = sizeof(val); 491 if (getsockopt(sock, IPPROTO_IP, option, val, &len) < 0) |
492 err(-1, "test_ip_uchar(%s, %s): getsockopt() after set to " 493 "32000", socktypename, optionname); |
494 495 if (len != sizeof(val[0])) |
496 errx(-1, "test_ip_uchar(%s, %s): getsockopt() after set to " 497 "32000 returned %d bytes", socktypename, optionname, 498 len); |
499 500 if (val[0] == -1) |
501 errx(-1, "test_ip_uchar(%s, %s): getsockopt() after set to " 502 "32000 didn't return data", socktypename, optionname); |
503 504 if (val[0] == 32000) |
505 errx(-1, "test_ip_uchar(%s, %s): getsockopt() after set to " 506 "32000 returned 32000: failed to truncate", socktypename, 507 optionname); |
508} 509 510/* 511 * Generic test for a boolean socket option. Caller provides the option 512 * number, string name, expected default (initial) value, and whether or not 513 * the option is root-only. For each option, test: 514 * 515 * - That we can read the option. 516 * - That the initial value is as expected. 517 * - That we can modify the value. 518 * - That on modification, the new value can be read back. 519 * - That we can reset the value. 520 * - that on reset, the new value can be read back. |
521 */ 522#define BOOLEAN_ANYONE 1 523#define BOOLEAN_ROOTONLY 1 524static void |
525test_ip_boolean(int sock, const char *socktypename, int option, 526 char *optionname, int initial, int rootonly) |
527{ |
528 int newvalue, val[2]; |
529 socklen_t len; 530 |
531 /* 532 * The default for a boolean might be true or false. If it's false, 533 * we will try setting it to true (but using a non-1 value of true). 534 * If it's true, we'll set it to false. 535 */ 536 if (initial == 0) 537 newvalue = 0xff; 538 else 539 newvalue = 0; 540 541 val[0] = -1; 542 val[1] = -1; 543 len = sizeof(val); 544 if (getsockopt(sock, IPPROTO_IP, option, val, &len) < 0) 545 err(-1, "test_ip_boolean: initial getsockopt()"); 546 547 if (len != sizeof(val[0])) |
548 errx(-1, "test_ip_boolean(%s, %s): initial getsockopt() " 549 "returned %d bytes", socktypename, optionname, len); |
550 551 if (val[0] == -1) |
552 errx(-1, "test_ip_boolean(%s, %s): initial getsockopt() " 553 "didn't return data", socktypename, optionname); |
554 555 if (val[0] != initial) |
556 errx(-1, "test_ip_boolean(%s, %s): initial getsockopt() " 557 "returned %d (expected %d)", socktypename, optionname, 558 val[0], initial); |
559 560 /* 561 * Set the socket option to a new non-default value. 562 */ 563 if (setsockopt(sock, IPPROTO_IP, option, &newvalue, sizeof(newvalue)) 564 < 0) |
565 err(-1, "test_ip_boolean(%s, %s): setsockopt() to %d", 566 socktypename, optionname, newvalue); |
567 568 /* 569 * Read the value back and see if it is not the default (note: will 570 * not be what we set it to, as we set it to 0xff above). 571 */ 572 val[0] = -1; 573 val[1] = -1; 574 len = sizeof(val); 575 if (getsockopt(sock, IPPROTO_IP, option, val, &len) < 0) |
576 err(-1, "test_ip_boolean(%s, %s): getsockopt() after set to " 577 "%d", socktypename, optionname, newvalue); |
578 579 if (len != sizeof(val[0])) |
580 errx(-1, "test_ip_boolean(%s, %s): getsockopt() after set " 581 "to %d returned %d bytes", socktypename, optionname, 582 newvalue, len); |
583 584 if (val[0] == -1) |
585 errx(-1, "test_ip_boolean(%s, %s): getsockopt() after set " 586 "to %d didn't return data", socktypename, optionname, 587 newvalue); |
588 589 /* 590 * If we set it to true, check for '1', otherwise '0. 591 */ 592 if (val[0] != (newvalue ? 1 : 0)) |
593 errx(-1, "test_ip_boolean(%s, %s): getsockopt() after set " 594 "to %d returned %d", socktypename, optionname, newvalue, 595 val[0]); |
596 597 /* 598 * Reset to initial value. 599 */ 600 newvalue = initial; 601 if (setsockopt(sock, IPPROTO_IP, option, &newvalue, sizeof(newvalue)) 602 < 0) |
603 err(-1, "test_ip_boolean(%s, %s): setsockopt() to reset", 604 socktypename, optionname); |
605 606 /* 607 * Check reset version. 608 */ 609 val[0] = -1; 610 val[1] = -1; 611 len = sizeof(val); 612 if (getsockopt(sock, IPPROTO_IP, option, val, &len) < 0) |
613 err(-1, "test_ip_boolean(%s, %s): getsockopt() after reset", 614 socktypename, optionname); |
615 616 if (len != sizeof(val[0])) |
617 errx(-1, "test_ip_boolean(%s, %s): getsockopt() after reset " 618 "returned %d bytes", socktypename, optionname, len); |
619 620 if (val[0] == -1) |
621 errx(-1, "test_ip_boolean(%s, %s): getsockopt() after reset " 622 "didn't return data", socktypename, optionname); |
623 624 if (val[0] != newvalue) |
625 errx(-1, "test_ip_boolean(%s, %s): getsockopt() after reset " 626 "returned %d", socktypename, optionname, newvalue); |
627} 628 629/* 630 * XXX: For now, nothing here. 631 */ 632static void |
633test_ip_multicast_if(int sock, const char *socktypename) |
634{ 635 636 /* 637 * It's probably worth trying INADDR_ANY and INADDR_LOOPBACK here 638 * to see what happens. 639 */ 640} 641 642/* 643 * XXX: For now, nothing here. 644 */ 645static void |
646test_ip_multicast_vif(int sock, const char *socktypename) |
647{ 648 649 /* 650 * This requires some knowledge of the number of virtual interfaces, 651 * and what is valid. 652 */ 653} 654 655/* 656 * XXX: For now, nothing here. 657 */ 658static void |
659test_ip_multicast_membership(int sock, const char *socktypename) |
660{ 661 662} 663 664static void |
665testsuite(int priv) |
666{ |
667 const char *socktypenameset[] = {"SOCK_DGRAM", "SOCK_STREAM", 668 "SOCK_RAW"}; 669 int socktypeset[] = {SOCK_DGRAM, SOCK_STREAM, SOCK_RAW}; 670 const char *socktypename; 671 int i, sock, socktype; |
672 |
673 test_ip_hdrincl(); |
674 |
675 for (i = 0; i < sizeof(socktypeset)/sizeof(int); i++) { 676 socktype = socktypeset[i]; 677 socktypename = socktypenameset[i]; |
678 |
679 /* 680 * If we can't acquire root privilege, we can't open raw 681 * sockets, so don't actually try. 682 */ 683 if (getuid() != 0 && socktype == SOCK_RAW) 684 continue; |
685 |
686 /* 687 * XXXRW: On 5.3, this seems not to work for SOCK_RAW. 688 */ 689 sock = get_socket(socktype, priv); 690 if (sock == -1) 691 err(-1, "get_socket(%s, %d) for test_ip_uchar(IP_TOS)", 692 socktypename, priv); 693 test_ip_uchar(sock, socktypename, IP_TOS, "IP_TOS", 0); 694 close(sock); |
695 |
696 sock = get_socket(socktype, priv); 697 if (sock == -1) 698 err(-1, "get_socket(%s %d) for test_ip_uchar(IP_TTL)", 699 socktypename, priv); 700 test_ip_uchar(sock, socktypename, IP_TTL, "IP_TTL", 64); 701 close(sock); |
702 |
703 sock = get_socket(socktype, priv); 704 if (sock == -1) 705 err(-1, "get_socket(%s, %d) for test_ip_boolean" 706 "(IP_RECVOPTS)", socktypename, priv); 707 test_ip_boolean(sock, socktypename, IP_RECVOPTS, 708 "IP_RECVOPTS", 0, BOOLEAN_ANYONE); 709 close(sock); |
710 |
711 sock = get_socket(socktype, priv); 712 if (sock == -1) 713 err(-1, "get_socket(%s, %d) for test_ip_boolean" 714 "(IP_RECVRETOPTS)", socktypename, priv); 715 test_ip_boolean(sock, socktypename, IP_RECVRETOPTS, 716 "IP_RECVRETOPTS", 0, BOOLEAN_ANYONE); 717 close(sock); |
718 |
719 sock = get_socket(socktype, priv); 720 if (sock == -1) 721 err(-1, "get_socket(%s, %d) for test_ip_boolean" 722 "(IP_RECVDSTADDR)", socktypename, priv); 723 test_ip_boolean(sock, socktypename, IP_RECVDSTADDR, 724 "IP_RECVDSTADDR", 0, BOOLEAN_ANYONE); 725 close(sock); |
726 |
727 sock = get_socket(socktype, priv); 728 if (sock == -1) 729 err(-1, "get_socket(%s, %d) for test_ip_boolean" 730 "(IP_RECVTTL)", socktypename, priv); 731 test_ip_boolean(sock, socktypename, IP_RECVTTL, "IP_RECVTTL", 732 0, BOOLEAN_ANYONE); 733 close(sock); |
734 |
735 sock = get_socket(socktype, priv); 736 if (sock == -1) 737 err(-1, "get_socket(%s, %d) for test_ip_boolean" 738 "(IP_RECVIF)", socktypename, priv); 739 test_ip_boolean(sock, socktypename, IP_RECVIF, "IP_RECVIF", 740 0, BOOLEAN_ANYONE); 741 close(sock); |
742 |
743 sock = get_socket(socktype, priv); 744 if (sock == -1) 745 err(-1, "get_socket(%s, %d) for test_ip_boolean" 746 "(IP_FAITH)", socktypename, priv); 747 test_ip_boolean(sock, socktypename, IP_FAITH, "IP_FAITH", 0, 748 BOOLEAN_ANYONE); 749 close(sock); 750 751 sock = get_socket(socktype, priv); 752 if (sock == -1) 753 err(-1, "get_socket(%s, %d) for test_ip_boolean" 754 "(IP_ONESBCAST)", socktypename, priv); 755 test_ip_boolean(sock, socktypename, IP_ONESBCAST, 756 "IP_ONESBCAST", 0, BOOLEAN_ANYONE); 757 close(sock); 758 759 /* 760 * Test the multicast TTL exactly as we would the regular 761 * TTL, only expect a different default. 762 */ 763 sock = get_socket(socktype, priv); 764 if (sock == -1) 765 err(-1, "get_socket(%s, %d) for IP_MULTICAST_TTL", 766 socktypename, priv); 767 test_ip_uchar(sock, socktypename, IP_MULTICAST_TTL, 768 "IP_MULTICAST_TTL", 1); 769 close(sock); 770 771 /* 772 * The multicast loopback flag can be tested using our 773 * boolean tester, but only because the FreeBSD API is a bit 774 * more flexible than earlir APIs and will accept an int as 775 * well as a u_char. Loopback is enabled by default. 776 */ 777 sock = get_socket(socktype, priv); 778 if (sock == -1) 779 err(-1, "get_socket(%s, %d) for IP_MULTICAST_LOOP", 780 socktypename, priv); 781 test_ip_boolean(sock, socktypename, IP_MULTICAST_LOOP, 782 "IP_MULTICAST_LOOP", 1, BOOLEAN_ANYONE); 783 close(sock); 784 785 sock = get_socket(socktype, priv); 786 if (sock == -1) 787 err(-1, "get_socket(%s, %d) for test_ip_options", 788 socktypename, priv); 789 //test_ip_options(sock, socktypename); 790 close(sock); 791 792 test_ip_multicast_if(0, NULL); 793 test_ip_multicast_vif(0, NULL); 794 test_ip_multicast_membership(0, NULL); 795 /* 796 * XXX: Still need to test: 797 * IP_PORTRANGE 798 * IP_IPSEC_POLICY? 799 */ 800 } |
801} 802 803/* 804 * Very simply exercise that we can get and set each option. If we're running 805 * as root, run it also as nobody. If not as root, complain about that. 806 */ 807int 808main(int argc, char *argv[]) 809{ 810 811 if (geteuid() != 0) { |
812 warnx("Not running as root, can't run tests as root"); |
813 fprintf(stderr, "\n"); |
814 fprintf(stderr, 815 "Running tests with uid %d sock uid %d\n", geteuid(), 816 geteuid()); 817 testsuite(PRIV_ASIS); |
818 } else { |
819 fprintf(stderr, 820 "Running tests with ruid %d euid %d sock uid 0\n", 821 getuid(), geteuid()); 822 testsuite(PRIV_ASIS); 823 if (seteuid(65534) != 0) 824 err(-1, "seteuid(65534)"); 825 fprintf(stderr, 826 "Running tests with ruid %d euid %d sock uid 0\n", 827 getuid(), geteuid()); 828 testsuite(PRIV_GETROOT); 829 fprintf(stderr, 830 "Running tests with ruid %d euid %d sock uid 65534\n", 831 getuid(), geteuid()); 832 testsuite(PRIV_ASIS); |
833 } |
834 fprintf(stderr, "PASS\n"); |
835 exit(0); 836} |