1 /*- 2 * Copyright (c) 1992 Keith Muller. 3 * Copyright (c) 1992, 1993 4 * The Regents of the University of California. All rights reserved. 5 * 6 * This code is derived from software contributed to Berkeley by 7 * Keith Muller of the University of California, San Diego. 8 * 9 * Redistribution and use in source and binary forms, with or without 10 * modification, are permitted provided that the following conditions 11 * are met: 12 * 1. Redistributions of source code must retain the above copyright 13 * notice, this list of conditions and the following disclaimer. 14 * 2. Redistributions in binary form must reproduce the above copyright 15 * notice, this list of conditions and the following disclaimer in the 16 * documentation and/or other materials provided with the distribution. 17 * 4. Neither the name of the University nor the names of its contributors 18 * may be used to endorse or promote products derived from this software 19 * without specific prior written permission. 20 * 21 * THIS SOFTWARE IS PROVIDED BY THE REGENTS AND CONTRIBUTORS ``AS IS'' AND 22 * ANY EXPRESS OR IMPLIED WARRANTIES, INCLUDING, BUT NOT LIMITED TO, THE 23 * IMPLIED WARRANTIES OF MERCHANTABILITY AND FITNESS FOR A PARTICULAR PURPOSE 24 * ARE DISCLAIMED. IN NO EVENT SHALL THE REGENTS OR CONTRIBUTORS BE LIABLE 25 * FOR ANY DIRECT, INDIRECT, INCIDENTAL, SPECIAL, EXEMPLARY, OR CONSEQUENTIAL 26 * DAMAGES (INCLUDING, BUT NOT LIMITED TO, PROCUREMENT OF SUBSTITUTE GOODS 27 * OR SERVICES; LOSS OF USE, DATA, OR PROFITS; OR BUSINESS INTERRUPTION) 28 * HOWEVER CAUSED AND ON ANY THEORY OF LIABILITY, WHETHER IN CONTRACT, STRICT 29 * LIABILITY, OR TORT (INCLUDING NEGLIGENCE OR OTHERWISE) ARISING IN ANY WAY 30 * OUT OF THE USE OF THIS SOFTWARE, EVEN IF ADVISED OF THE POSSIBILITY OF 31 * SUCH DAMAGE. 32 */ 33 34 #ifndef lint 35 #if 0 36 static char sccsid[] = "@(#)ar_io.c 8.2 (Berkeley) 4/18/94"; 37 #endif 38 #endif /* not lint */ 39 #include <sys/cdefs.h> 40 __FBSDID("$FreeBSD$"); 41 42 #include <sys/types.h> 43 #include <sys/ioctl.h> 44 #include <sys/mtio.h> 45 #include <sys/stat.h> 46 #include <sys/wait.h> 47 #include <err.h> 48 #include <errno.h> 49 #include <fcntl.h> 50 #include <signal.h> 51 #include <stdint.h> 52 #include <stdio.h> 53 #include <string.h> 54 #include <stdlib.h> 55 #include <unistd.h> 56 #include "pax.h" 57 #include "options.h" 58 #include "extern.h" 59 60 /* 61 * Routines which deal directly with the archive I/O device/file. 62 */ 63 64 #define DMOD 0666 /* default mode of created archives */ 65 #define EXT_MODE O_RDONLY /* open mode for list/extract */ 66 #define AR_MODE (O_WRONLY | O_CREAT | O_TRUNC) /* mode for archive */ 67 #define APP_MODE O_RDWR /* mode for append */ 68 69 static char none[] = "<NONE>"; /* pseudo name for no file */ 70 static char stdo[] = "<STDOUT>"; /* pseudo name for stdout */ 71 static char stdn[] = "<STDIN>"; /* pseudo name for stdin */ 72 static int arfd = -1; /* archive file descriptor */ 73 static int artyp = ISREG; /* archive type: file/FIFO/tape */ 74 static int arvol = 1; /* archive volume number */ 75 static int lstrval = -1; /* return value from last i/o */ 76 static int io_ok; /* i/o worked on volume after resync */ 77 static int did_io; /* did i/o ever occur on volume? */ 78 static int done; /* set via tty termination */ 79 static struct stat arsb; /* stat of archive device at open */ 80 static int invld_rec; /* tape has out of spec record size */ 81 static int wr_trail = 1; /* trailer was rewritten in append */ 82 static int can_unlnk = 0; /* do we unlink null archives? */ 83 const char *arcname; /* printable name of archive */ 84 const char *gzip_program; /* name of gzip program */ 85 static pid_t zpid = -1; /* pid of child process */ 86 87 static int get_phys(void); 88 extern sigset_t s_mask; 89 static void ar_start_gzip(int, const char *, int); 90 91 /* 92 * ar_open() 93 * Opens the next archive volume. Determines the type of the device and 94 * sets up block sizes as required by the archive device and the format. 95 * Note: we may be called with name == NULL on the first open only. 96 * Return: 97 * -1 on failure, 0 otherwise 98 */ 99 100 int 101 ar_open(const char *name) 102 { 103 struct mtget mb; 104 105 if (arfd != -1) 106 (void)close(arfd); 107 arfd = -1; 108 can_unlnk = did_io = io_ok = invld_rec = 0; 109 artyp = ISREG; 110 flcnt = 0; 111 112 /* 113 * open based on overall operation mode 114 */ 115 switch (act) { 116 case LIST: 117 case EXTRACT: 118 if (name == NULL) { 119 arfd = STDIN_FILENO; 120 arcname = stdn; 121 } else if ((arfd = open(name, EXT_MODE, DMOD)) < 0) 122 syswarn(0, errno, "Failed open to read on %s", name); 123 if (arfd != -1 && gzip_program != NULL) 124 ar_start_gzip(arfd, gzip_program, 0); 125 break; 126 case ARCHIVE: 127 if (name == NULL) { 128 arfd = STDOUT_FILENO; 129 arcname = stdo; 130 } else if ((arfd = open(name, AR_MODE, DMOD)) < 0) 131 syswarn(0, errno, "Failed open to write on %s", name); 132 else 133 can_unlnk = 1; 134 if (arfd != -1 && gzip_program != NULL) 135 ar_start_gzip(arfd, gzip_program, 1); 136 break; 137 case APPND: 138 if (name == NULL) { 139 arfd = STDOUT_FILENO; 140 arcname = stdo; 141 } else if ((arfd = open(name, APP_MODE, DMOD)) < 0) 142 syswarn(0, errno, "Failed open to read/write on %s", 143 name); 144 break; 145 case COPY: 146 /* 147 * arfd not used in COPY mode 148 */ 149 arcname = none; 150 lstrval = 1; 151 return(0); 152 } 153 if (arfd < 0) 154 return(-1); 155 156 if (chdname != NULL) 157 if (chdir(chdname) != 0) { 158 syswarn(1, errno, "Failed chdir to %s", chdname); 159 return(-1); 160 } 161 /* 162 * set up is based on device type 163 */ 164 if (fstat(arfd, &arsb) < 0) { 165 syswarn(0, errno, "Failed stat on %s", arcname); 166 (void)close(arfd); 167 arfd = -1; 168 can_unlnk = 0; 169 return(-1); 170 } 171 if (S_ISDIR(arsb.st_mode)) { 172 paxwarn(0, "Cannot write an archive on top of a directory %s", 173 arcname); 174 (void)close(arfd); 175 arfd = -1; 176 can_unlnk = 0; 177 return(-1); 178 } 179 180 if (S_ISCHR(arsb.st_mode)) 181 artyp = ioctl(arfd, MTIOCGET, &mb) ? ISCHR : ISTAPE; 182 else if (S_ISBLK(arsb.st_mode)) 183 artyp = ISBLK; 184 else if ((lseek(arfd, (off_t)0L, SEEK_CUR) == -1) && (errno == ESPIPE)) 185 artyp = ISPIPE; 186 else 187 artyp = ISREG; 188 189 /* 190 * make sure we beyond any doubt that we only can unlink regular files 191 * we created 192 */ 193 if (artyp != ISREG) 194 can_unlnk = 0; 195 /* 196 * if we are writing, we are done 197 */ 198 if (act == ARCHIVE) { 199 blksz = rdblksz = wrblksz; 200 lstrval = 1; 201 return(0); 202 } 203 204 /* 205 * set default blksz on read. APPNDs writes rdblksz on the last volume 206 * On all new archive volumes, we shift to wrblksz (if the user 207 * specified one, otherwize we will continue to use rdblksz). We 208 * must to set blocksize based on what kind of device the archive is 209 * stored. 210 */ 211 switch(artyp) { 212 case ISTAPE: 213 /* 214 * Tape drives come in at least two flavors. Those that support 215 * variable sized records and those that have fixed sized 216 * records. They must be treated differently. For tape drives 217 * that support variable sized records, we must make large 218 * reads to make sure we get the entire record, otherwise we 219 * will just get the first part of the record (up to size we 220 * asked). Tapes with fixed sized records may or may not return 221 * multiple records in a single read. We really do not care 222 * what the physical record size is UNLESS we are going to 223 * append. (We will need the physical block size to rewrite 224 * the trailer). Only when we are appending do we go to the 225 * effort to figure out the true PHYSICAL record size. 226 */ 227 blksz = rdblksz = MAXBLK; 228 break; 229 case ISPIPE: 230 case ISBLK: 231 case ISCHR: 232 /* 233 * Blocksize is not a major issue with these devices (but must 234 * be kept a multiple of 512). If the user specified a write 235 * block size, we use that to read. Under append, we must 236 * always keep blksz == rdblksz. Otherwise we go ahead and use 237 * the device optimal blocksize as (and if) returned by stat 238 * and if it is within pax specs. 239 */ 240 if ((act == APPND) && wrblksz) { 241 blksz = rdblksz = wrblksz; 242 break; 243 } 244 245 if ((arsb.st_blksize > 0) && (arsb.st_blksize < MAXBLK) && 246 ((arsb.st_blksize % BLKMULT) == 0)) 247 rdblksz = arsb.st_blksize; 248 else 249 rdblksz = DEVBLK; 250 /* 251 * For performance go for large reads when we can without harm 252 */ 253 if ((act == APPND) || (artyp == ISCHR)) 254 blksz = rdblksz; 255 else 256 blksz = MAXBLK; 257 break; 258 case ISREG: 259 /* 260 * if the user specified wrblksz works, use it. Under appends 261 * we must always keep blksz == rdblksz 262 */ 263 if ((act == APPND) && wrblksz && ((arsb.st_size%wrblksz)==0)){ 264 blksz = rdblksz = wrblksz; 265 break; 266 } 267 /* 268 * See if we can find the blocking factor from the file size 269 */ 270 for (rdblksz = MAXBLK; rdblksz > 0; rdblksz -= BLKMULT) 271 if ((arsb.st_size % rdblksz) == 0) 272 break; 273 /* 274 * When we cannot find a match, we may have a flawed archive. 275 */ 276 if (rdblksz <= 0) 277 rdblksz = FILEBLK; 278 /* 279 * for performance go for large reads when we can 280 */ 281 if (act == APPND) 282 blksz = rdblksz; 283 else 284 blksz = MAXBLK; 285 break; 286 default: 287 /* 288 * should never happen, worse case, slow... 289 */ 290 blksz = rdblksz = BLKMULT; 291 break; 292 } 293 lstrval = 1; 294 return(0); 295 } 296 297 /* 298 * ar_close() 299 * closes archive device, increments volume number, and prints i/o summary 300 */ 301 void 302 ar_close(void) 303 { 304 int status; 305 306 if (arfd < 0) { 307 did_io = io_ok = flcnt = 0; 308 return; 309 } 310 311 /* 312 * Close archive file. This may take a LONG while on tapes (we may be 313 * forced to wait for the rewind to complete) so tell the user what is 314 * going on (this avoids the user hitting control-c thinking pax is 315 * broken). 316 */ 317 if (vflag && (artyp == ISTAPE)) { 318 if (vfpart) 319 (void)putc('\n', listf); 320 (void)fprintf(listf, 321 "%s: Waiting for tape drive close to complete...", 322 argv0); 323 (void)fflush(listf); 324 } 325 326 /* 327 * if nothing was written to the archive (and we created it), we remove 328 * it 329 */ 330 if (can_unlnk && (fstat(arfd, &arsb) == 0) && (S_ISREG(arsb.st_mode)) && 331 (arsb.st_size == 0)) { 332 (void)unlink(arcname); 333 can_unlnk = 0; 334 } 335 336 /* 337 * for a quick extract/list, pax frequently exits before the child 338 * process is done 339 */ 340 if ((act == LIST || act == EXTRACT) && nflag && zpid > 0) 341 kill(zpid, SIGINT); 342 343 (void)close(arfd); 344 345 /* Do not exit before child to ensure data integrity */ 346 if (zpid > 0) 347 waitpid(zpid, &status, 0); 348 349 if (vflag && (artyp == ISTAPE)) { 350 (void)fputs("done.\n", listf); 351 vfpart = 0; 352 (void)fflush(listf); 353 } 354 arfd = -1; 355 356 if (!io_ok && !did_io) { 357 flcnt = 0; 358 return; 359 } 360 did_io = io_ok = 0; 361 362 /* 363 * The volume number is only increased when the last device has data 364 * and we have already determined the archive format. 365 */ 366 if (frmt != NULL) 367 ++arvol; 368 369 if (!vflag) { 370 flcnt = 0; 371 return; 372 } 373 374 /* 375 * Print out a summary of I/O for this archive volume. 376 */ 377 if (vfpart) { 378 (void)putc('\n', listf); 379 vfpart = 0; 380 } 381 382 /* 383 * If we have not determined the format yet, we just say how many bytes 384 * we have skipped over looking for a header to id. there is no way we 385 * could have written anything yet. 386 */ 387 if (frmt == NULL) { 388 # ifdef NET2_STAT 389 (void)fprintf(listf, "%s: unknown format, %lu bytes skipped.\n", 390 argv0, rdcnt); 391 # else 392 (void)fprintf(listf, "%s: unknown format, %ju bytes skipped.\n", 393 argv0, (uintmax_t)rdcnt); 394 # endif 395 (void)fflush(listf); 396 flcnt = 0; 397 return; 398 } 399 400 if (strcmp(NM_CPIO, argv0) == 0) 401 (void)fprintf(listf, "%llu blocks\n", 402 (unsigned long long)((rdcnt ? rdcnt : wrcnt) / 5120)); 403 else if (strcmp(NM_TAR, argv0) != 0) 404 (void)fprintf(listf, 405 # ifdef NET2_STAT 406 "%s: %s vol %d, %lu files, %lu bytes read, %lu bytes written.\n", 407 argv0, frmt->name, arvol-1, flcnt, rdcnt, wrcnt); 408 # else 409 "%s: %s vol %d, %ju files, %ju bytes read, %ju bytes written.\n", 410 argv0, frmt->name, arvol-1, (uintmax_t)flcnt, 411 (uintmax_t)rdcnt, (uintmax_t)wrcnt); 412 # endif 413 (void)fflush(listf); 414 flcnt = 0; 415 } 416 417 /* 418 * ar_drain() 419 * drain any archive format independent padding from an archive read 420 * from a socket or a pipe. This is to prevent the process on the 421 * other side of the pipe from getting a SIGPIPE (pax will stop 422 * reading an archive once a format dependent trailer is detected). 423 */ 424 void 425 ar_drain(void) 426 { 427 int res; 428 char drbuf[MAXBLK]; 429 430 /* 431 * we only drain from a pipe/socket. Other devices can be closed 432 * without reading up to end of file. We sure hope that pipe is closed 433 * on the other side so we will get an EOF. 434 */ 435 if ((artyp != ISPIPE) || (lstrval <= 0)) 436 return; 437 438 /* 439 * keep reading until pipe is drained 440 */ 441 while ((res = read(arfd, drbuf, sizeof(drbuf))) > 0) 442 ; 443 lstrval = res; 444 } 445 446 /* 447 * ar_set_wr() 448 * Set up device right before switching from read to write in an append. 449 * device dependent code (if required) to do this should be added here. 450 * For all archive devices we are already positioned at the place we want 451 * to start writing when this routine is called. 452 * Return: 453 * 0 if all ready to write, -1 otherwise 454 */ 455 456 int 457 ar_set_wr(void) 458 { 459 off_t cpos; 460 461 /* 462 * we must make sure the trailer is rewritten on append, ar_next() 463 * will stop us if the archive containing the trailer was not written 464 */ 465 wr_trail = 0; 466 467 /* 468 * Add any device dependent code as required here 469 */ 470 if (artyp != ISREG) 471 return(0); 472 /* 473 * Ok we have an archive in a regular file. If we were rewriting a 474 * file, we must get rid of all the stuff after the current offset 475 * (it was not written by pax). 476 */ 477 if (((cpos = lseek(arfd, (off_t)0L, SEEK_CUR)) < 0) || 478 (ftruncate(arfd, cpos) < 0)) { 479 syswarn(1, errno, "Unable to truncate archive file"); 480 return(-1); 481 } 482 return(0); 483 } 484 485 /* 486 * ar_app_ok() 487 * check if the last volume in the archive allows appends. We cannot check 488 * this until we are ready to write since there is no spec that says all 489 * volumes in a single archive have to be of the same type... 490 * Return: 491 * 0 if we can append, -1 otherwise. 492 */ 493 494 int 495 ar_app_ok(void) 496 { 497 if (artyp == ISPIPE) { 498 paxwarn(1, "Cannot append to an archive obtained from a pipe."); 499 return(-1); 500 } 501 502 if (!invld_rec) 503 return(0); 504 paxwarn(1,"Cannot append, device record size %d does not support %s spec", 505 rdblksz, argv0); 506 return(-1); 507 } 508 509 /* 510 * ar_read() 511 * read up to a specified number of bytes from the archive into the 512 * supplied buffer. When dealing with tapes we may not always be able to 513 * read what we want. 514 * Return: 515 * Number of bytes in buffer. 0 for end of file, -1 for a read error. 516 */ 517 518 int 519 ar_read(char *buf, int cnt) 520 { 521 int res = 0; 522 523 /* 524 * if last i/o was in error, no more reads until reset or new volume 525 */ 526 if (lstrval <= 0) 527 return(lstrval); 528 529 /* 530 * how we read must be based on device type 531 */ 532 switch (artyp) { 533 case ISTAPE: 534 if ((res = read(arfd, buf, cnt)) > 0) { 535 /* 536 * CAUTION: tape systems may not always return the same 537 * sized records so we leave blksz == MAXBLK. The 538 * physical record size that a tape drive supports is 539 * very hard to determine in a uniform and portable 540 * manner. 541 */ 542 io_ok = 1; 543 if (res != rdblksz) { 544 /* 545 * Record size changed. If this is happens on 546 * any record after the first, we probably have 547 * a tape drive which has a fixed record size 548 * we are getting multiple records in a single 549 * read). Watch out for record blocking that 550 * violates pax spec (must be a multiple of 551 * BLKMULT). 552 */ 553 rdblksz = res; 554 if (rdblksz % BLKMULT) 555 invld_rec = 1; 556 } 557 return(res); 558 } 559 break; 560 case ISREG: 561 case ISBLK: 562 case ISCHR: 563 case ISPIPE: 564 default: 565 /* 566 * Files are so easy to deal with. These other things cannot 567 * be trusted at all. So when we are dealing with character 568 * devices and pipes we just take what they have ready for us 569 * and return. Trying to do anything else with them runs the 570 * risk of failure. 571 */ 572 if ((res = read(arfd, buf, cnt)) > 0) { 573 io_ok = 1; 574 return(res); 575 } 576 break; 577 } 578 579 /* 580 * We are in trouble at this point, something is broken... 581 */ 582 lstrval = res; 583 if (res < 0) 584 syswarn(1, errno, "Failed read on archive volume %d", arvol); 585 else 586 paxwarn(0, "End of archive volume %d reached", arvol); 587 return(res); 588 } 589 590 /* 591 * ar_write() 592 * Write a specified number of bytes in supplied buffer to the archive 593 * device so it appears as a single "block". Deals with errors and tries 594 * to recover when faced with short writes. 595 * Return: 596 * Number of bytes written. 0 indicates end of volume reached and with no 597 * flaws (as best that can be detected). A -1 indicates an unrecoverable 598 * error in the archive occured. 599 */ 600 601 int 602 ar_write(char *buf, int bsz) 603 { 604 int res; 605 off_t cpos; 606 607 /* 608 * do not allow pax to create a "bad" archive. Once a write fails on 609 * an archive volume prevent further writes to it. 610 */ 611 if (lstrval <= 0) 612 return(lstrval); 613 614 if ((res = write(arfd, buf, bsz)) == bsz) { 615 wr_trail = 1; 616 io_ok = 1; 617 return(bsz); 618 } 619 /* 620 * write broke, see what we can do with it. We try to send any partial 621 * writes that may violate pax spec to the next archive volume. 622 */ 623 if (res < 0) 624 lstrval = res; 625 else 626 lstrval = 0; 627 628 switch (artyp) { 629 case ISREG: 630 if ((res > 0) && (res % BLKMULT)) { 631 /* 632 * try to fix up partial writes which are not BLKMULT 633 * in size by forcing the runt record to next archive 634 * volume 635 */ 636 if ((cpos = lseek(arfd, (off_t)0L, SEEK_CUR)) < 0) 637 break; 638 cpos -= (off_t)res; 639 if (ftruncate(arfd, cpos) < 0) 640 break; 641 res = lstrval = 0; 642 break; 643 } 644 if (res >= 0) 645 break; 646 /* 647 * if file is out of space, handle it like a return of 0 648 */ 649 if ((errno == ENOSPC) || (errno == EFBIG) || (errno == EDQUOT)) 650 res = lstrval = 0; 651 break; 652 case ISTAPE: 653 case ISCHR: 654 case ISBLK: 655 if (res >= 0) 656 break; 657 if (errno == EACCES) { 658 paxwarn(0, "Write failed, archive is write protected."); 659 res = lstrval = 0; 660 return(0); 661 } 662 /* 663 * see if we reached the end of media, if so force a change to 664 * the next volume 665 */ 666 if ((errno == ENOSPC) || (errno == EIO) || (errno == ENXIO)) 667 res = lstrval = 0; 668 break; 669 case ISPIPE: 670 default: 671 /* 672 * we cannot fix errors to these devices 673 */ 674 break; 675 } 676 677 /* 678 * Better tell the user the bad news... 679 * if this is a block aligned archive format, we may have a bad archive 680 * if the format wants the header to start at a BLKMULT boundary. While 681 * we can deal with the mis-aligned data, it violates spec and other 682 * archive readers will likely fail. if the format is not block 683 * aligned, the user may be lucky (and the archive is ok). 684 */ 685 if (res >= 0) { 686 if (res > 0) 687 wr_trail = 1; 688 io_ok = 1; 689 } 690 691 /* 692 * If we were trying to rewrite the trailer and it didn't work, we 693 * must quit right away. 694 */ 695 if (!wr_trail && (res <= 0)) { 696 paxwarn(1,"Unable to append, trailer re-write failed. Quitting."); 697 return(res); 698 } 699 700 if (res == 0) 701 paxwarn(0, "End of archive volume %d reached", arvol); 702 else if (res < 0) 703 syswarn(1, errno, "Failed write to archive volume: %d", arvol); 704 else if (!frmt->blkalgn || ((res % frmt->blkalgn) == 0)) 705 paxwarn(0,"WARNING: partial archive write. Archive MAY BE FLAWED"); 706 else 707 paxwarn(1,"WARNING: partial archive write. Archive IS FLAWED"); 708 return(res); 709 } 710 711 /* 712 * ar_rdsync() 713 * Try to move past a bad spot on a flawed archive as needed to continue 714 * I/O. Clears error flags to allow I/O to continue. 715 * Return: 716 * 0 when ok to try i/o again, -1 otherwise. 717 */ 718 719 int 720 ar_rdsync(void) 721 { 722 long fsbz; 723 off_t cpos; 724 off_t mpos; 725 struct mtop mb; 726 727 /* 728 * Fail resync attempts at user request (done) or this is going to be 729 * an update/append to an existing archive. If last i/o hit media end, 730 * we need to go to the next volume not try a resync. 731 */ 732 if ((done > 0) || (lstrval == 0)) 733 return(-1); 734 735 if ((act == APPND) || (act == ARCHIVE)) { 736 paxwarn(1, "Cannot allow updates to an archive with flaws."); 737 return(-1); 738 } 739 if (io_ok) 740 did_io = 1; 741 742 switch(artyp) { 743 case ISTAPE: 744 /* 745 * if the last i/o was a successful data transfer, we assume 746 * the fault is just a bad record on the tape that we are now 747 * past. If we did not get any data since the last resync try 748 * to move the tape forward one PHYSICAL record past any 749 * damaged tape section. Some tape drives are stubborn and need 750 * to be pushed. 751 */ 752 if (io_ok) { 753 io_ok = 0; 754 lstrval = 1; 755 break; 756 } 757 mb.mt_op = MTFSR; 758 mb.mt_count = 1; 759 if (ioctl(arfd, MTIOCTOP, &mb) < 0) 760 break; 761 lstrval = 1; 762 break; 763 case ISREG: 764 case ISCHR: 765 case ISBLK: 766 /* 767 * try to step over the bad part of the device. 768 */ 769 io_ok = 0; 770 if (((fsbz = arsb.st_blksize) <= 0) || (artyp != ISREG)) 771 fsbz = BLKMULT; 772 if ((cpos = lseek(arfd, (off_t)0L, SEEK_CUR)) < 0) 773 break; 774 mpos = fsbz - (cpos % (off_t)fsbz); 775 if (lseek(arfd, mpos, SEEK_CUR) < 0) 776 break; 777 lstrval = 1; 778 break; 779 case ISPIPE: 780 default: 781 /* 782 * cannot recover on these archive device types 783 */ 784 io_ok = 0; 785 break; 786 } 787 if (lstrval <= 0) { 788 paxwarn(1, "Unable to recover from an archive read failure."); 789 return(-1); 790 } 791 paxwarn(0, "Attempting to recover from an archive read failure."); 792 return(0); 793 } 794 795 /* 796 * ar_fow() 797 * Move the I/O position within the archive foward the specified number of 798 * bytes as supported by the device. If we cannot move the requested 799 * number of bytes, return the actual number of bytes moved in skipped. 800 * Return: 801 * 0 if moved the requested distance, -1 on complete failure, 1 on 802 * partial move (the amount moved is in skipped) 803 */ 804 805 int 806 ar_fow(off_t sksz, off_t *skipped) 807 { 808 off_t cpos; 809 off_t mpos; 810 811 *skipped = 0; 812 if (sksz <= 0) 813 return(0); 814 815 /* 816 * we cannot move foward at EOF or error 817 */ 818 if (lstrval <= 0) 819 return(lstrval); 820 821 /* 822 * Safer to read forward on devices where it is hard to find the end of 823 * the media without reading to it. With tapes we cannot be sure of the 824 * number of physical blocks to skip (we do not know physical block 825 * size at this point), so we must only read foward on tapes! 826 */ 827 if (artyp != ISREG) 828 return(0); 829 830 /* 831 * figure out where we are in the archive 832 */ 833 if ((cpos = lseek(arfd, (off_t)0L, SEEK_CUR)) >= 0) { 834 /* 835 * we can be asked to move farther than there are bytes in this 836 * volume, if so, just go to file end and let normal buf_fill() 837 * deal with the end of file (it will go to next volume by 838 * itself) 839 */ 840 if ((mpos = cpos + sksz) > arsb.st_size) { 841 *skipped = arsb.st_size - cpos; 842 mpos = arsb.st_size; 843 } else 844 *skipped = sksz; 845 if (lseek(arfd, mpos, SEEK_SET) >= 0) 846 return(0); 847 } 848 syswarn(1, errno, "Forward positioning operation on archive failed"); 849 lstrval = -1; 850 return(-1); 851 } 852 853 /* 854 * ar_rev() 855 * move the i/o position within the archive backwards the specified byte 856 * count as supported by the device. With tapes drives we RESET rdblksz to 857 * the PHYSICAL blocksize. 858 * NOTE: We should only be called to move backwards so we can rewrite the 859 * last records (the trailer) of an archive (APPEND). 860 * Return: 861 * 0 if moved the requested distance, -1 on complete failure 862 */ 863 864 int 865 ar_rev(off_t sksz) 866 { 867 off_t cpos; 868 struct mtop mb; 869 int phyblk; 870 871 /* 872 * make sure we do not have try to reverse on a flawed archive 873 */ 874 if (lstrval < 0) 875 return(lstrval); 876 877 switch(artyp) { 878 case ISPIPE: 879 if (sksz <= 0) 880 break; 881 /* 882 * cannot go backwards on these critters 883 */ 884 paxwarn(1, "Reverse positioning on pipes is not supported."); 885 lstrval = -1; 886 return(-1); 887 case ISREG: 888 case ISBLK: 889 case ISCHR: 890 default: 891 if (sksz <= 0) 892 break; 893 894 /* 895 * For things other than files, backwards movement has a very 896 * high probability of failure as we really do not know the 897 * true attributes of the device we are talking to (the device 898 * may not even have the ability to lseek() in any direction). 899 * First we figure out where we are in the archive. 900 */ 901 if ((cpos = lseek(arfd, (off_t)0L, SEEK_CUR)) < 0) { 902 syswarn(1, errno, 903 "Unable to obtain current archive byte offset"); 904 lstrval = -1; 905 return(-1); 906 } 907 908 /* 909 * we may try to go backwards past the start when the archive 910 * is only a single record. If this hapens and we are on a 911 * multi volume archive, we need to go to the end of the 912 * previous volume and continue our movement backwards from 913 * there. 914 */ 915 if ((cpos -= sksz) < (off_t)0L) { 916 if (arvol > 1) { 917 /* 918 * this should never happen 919 */ 920 paxwarn(1,"Reverse position on previous volume."); 921 lstrval = -1; 922 return(-1); 923 } 924 cpos = (off_t)0L; 925 } 926 if (lseek(arfd, cpos, SEEK_SET) < 0) { 927 syswarn(1, errno, "Unable to seek archive backwards"); 928 lstrval = -1; 929 return(-1); 930 } 931 break; 932 case ISTAPE: 933 /* 934 * Calculate and move the proper number of PHYSICAL tape 935 * blocks. If the sksz is not an even multiple of the physical 936 * tape size, we cannot do the move (this should never happen). 937 * (We also cannot handler trailers spread over two vols). 938 * get_phys() also makes sure we are in front of the filemark. 939 */ 940 if ((phyblk = get_phys()) <= 0) { 941 lstrval = -1; 942 return(-1); 943 } 944 945 /* 946 * make sure future tape reads only go by physical tape block 947 * size (set rdblksz to the real size). 948 */ 949 rdblksz = phyblk; 950 951 /* 952 * if no movement is required, just return (we must be after 953 * get_phys() so the physical blocksize is properly set) 954 */ 955 if (sksz <= 0) 956 break; 957 958 /* 959 * ok we have to move. Make sure the tape drive can do it. 960 */ 961 if (sksz % phyblk) { 962 paxwarn(1, 963 "Tape drive unable to backspace requested amount"); 964 lstrval = -1; 965 return(-1); 966 } 967 968 /* 969 * move backwards the requested number of bytes 970 */ 971 mb.mt_op = MTBSR; 972 mb.mt_count = sksz/phyblk; 973 if (ioctl(arfd, MTIOCTOP, &mb) < 0) { 974 syswarn(1,errno, "Unable to backspace tape %d blocks.", 975 mb.mt_count); 976 lstrval = -1; 977 return(-1); 978 } 979 break; 980 } 981 lstrval = 1; 982 return(0); 983 } 984 985 /* 986 * get_phys() 987 * Determine the physical block size on a tape drive. We need the physical 988 * block size so we know how many bytes we skip over when we move with 989 * mtio commands. We also make sure we are BEFORE THE TAPE FILEMARK when 990 * return. 991 * This is one really SLOW routine... 992 * Return: 993 * physical block size if ok (ok > 0), -1 otherwise 994 */ 995 996 static int 997 get_phys(void) 998 { 999 int padsz = 0; 1000 int res; 1001 int phyblk; 1002 struct mtop mb; 1003 char scbuf[MAXBLK]; 1004 1005 /* 1006 * move to the file mark, and then back up one record and read it. 1007 * this should tell us the physical record size the tape is using. 1008 */ 1009 if (lstrval == 1) { 1010 /* 1011 * we know we are at file mark when we get back a 0 from 1012 * read() 1013 */ 1014 while ((res = read(arfd, scbuf, sizeof(scbuf))) > 0) 1015 padsz += res; 1016 if (res < 0) { 1017 syswarn(1, errno, "Unable to locate tape filemark."); 1018 return(-1); 1019 } 1020 } 1021 1022 /* 1023 * move backwards over the file mark so we are at the end of the 1024 * last record. 1025 */ 1026 mb.mt_op = MTBSF; 1027 mb.mt_count = 1; 1028 if (ioctl(arfd, MTIOCTOP, &mb) < 0) { 1029 syswarn(1, errno, "Unable to backspace over tape filemark."); 1030 return(-1); 1031 } 1032 1033 /* 1034 * move backwards so we are in front of the last record and read it to 1035 * get physical tape blocksize. 1036 */ 1037 mb.mt_op = MTBSR; 1038 mb.mt_count = 1; 1039 if (ioctl(arfd, MTIOCTOP, &mb) < 0) { 1040 syswarn(1, errno, "Unable to backspace over last tape block."); 1041 return(-1); 1042 } 1043 if ((phyblk = read(arfd, scbuf, sizeof(scbuf))) <= 0) { 1044 syswarn(1, errno, "Cannot determine archive tape blocksize."); 1045 return(-1); 1046 } 1047 1048 /* 1049 * read foward to the file mark, then back up in front of the filemark 1050 * (this is a bit paranoid, but should be safe to do). 1051 */ 1052 while ((res = read(arfd, scbuf, sizeof(scbuf))) > 0) 1053 ; 1054 if (res < 0) { 1055 syswarn(1, errno, "Unable to locate tape filemark."); 1056 return(-1); 1057 } 1058 mb.mt_op = MTBSF; 1059 mb.mt_count = 1; 1060 if (ioctl(arfd, MTIOCTOP, &mb) < 0) { 1061 syswarn(1, errno, "Unable to backspace over tape filemark."); 1062 return(-1); 1063 } 1064 1065 /* 1066 * set lstrval so we know that the filemark has not been seen 1067 */ 1068 lstrval = 1; 1069 1070 /* 1071 * return if there was no padding 1072 */ 1073 if (padsz == 0) 1074 return(phyblk); 1075 1076 /* 1077 * make sure we can move backwards over the padding. (this should 1078 * never fail). 1079 */ 1080 if (padsz % phyblk) { 1081 paxwarn(1, "Tape drive unable to backspace requested amount"); 1082 return(-1); 1083 } 1084 1085 /* 1086 * move backwards over the padding so the head is where it was when 1087 * we were first called (if required). 1088 */ 1089 mb.mt_op = MTBSR; 1090 mb.mt_count = padsz/phyblk; 1091 if (ioctl(arfd, MTIOCTOP, &mb) < 0) { 1092 syswarn(1,errno,"Unable to backspace tape over %d pad blocks", 1093 mb.mt_count); 1094 return(-1); 1095 } 1096 return(phyblk); 1097 } 1098 1099 /* 1100 * ar_next() 1101 * prompts the user for the next volume in this archive. For some devices 1102 * we may allow the media to be changed. Otherwise a new archive is 1103 * prompted for. By pax spec, if there is no controlling tty or an eof is 1104 * read on tty input, we must quit pax. 1105 * Return: 1106 * 0 when ready to continue, -1 when all done 1107 */ 1108 1109 int 1110 ar_next(void) 1111 { 1112 static char *arcbuf; 1113 char buf[PAXPATHLEN+2]; 1114 sigset_t o_mask; 1115 1116 /* 1117 * WE MUST CLOSE THE DEVICE. A lot of devices must see last close, (so 1118 * things like writing EOF etc will be done) (Watch out ar_close() can 1119 * also be called via a signal handler, so we must prevent a race. 1120 */ 1121 if (sigprocmask(SIG_BLOCK, &s_mask, &o_mask) < 0) 1122 syswarn(0, errno, "Unable to set signal mask"); 1123 ar_close(); 1124 if (sigprocmask(SIG_SETMASK, &o_mask, NULL) < 0) 1125 syswarn(0, errno, "Unable to restore signal mask"); 1126 1127 if (done || !wr_trail || strcmp(NM_TAR, argv0) == 0) 1128 return(-1); 1129 1130 tty_prnt("\nATTENTION! %s archive volume change required.\n", argv0); 1131 1132 /* 1133 * if i/o is on stdin or stdout, we cannot reopen it (we do not know 1134 * the name), the user will be forced to type it in. 1135 */ 1136 if (strcmp(arcname, stdo) && strcmp(arcname, stdn) && (artyp != ISREG) 1137 && (artyp != ISPIPE)) { 1138 if (artyp == ISTAPE) { 1139 tty_prnt("%s ready for archive tape volume: %d\n", 1140 arcname, arvol); 1141 tty_prnt("Load the NEXT TAPE on the tape drive"); 1142 } else { 1143 tty_prnt("%s ready for archive volume: %d\n", 1144 arcname, arvol); 1145 tty_prnt("Load the NEXT STORAGE MEDIA (if required)"); 1146 } 1147 1148 if ((act == ARCHIVE) || (act == APPND)) 1149 tty_prnt(" and make sure it is WRITE ENABLED.\n"); 1150 else 1151 tty_prnt("\n"); 1152 1153 for(;;) { 1154 tty_prnt("Type \"y\" to continue, \".\" to quit %s,", 1155 argv0); 1156 tty_prnt(" or \"s\" to switch to new device.\nIf you"); 1157 tty_prnt(" cannot change storage media, type \"s\"\n"); 1158 tty_prnt("Is the device ready and online? > "); 1159 1160 if ((tty_read(buf,sizeof(buf))<0) || !strcmp(buf,".")){ 1161 done = 1; 1162 lstrval = -1; 1163 tty_prnt("Quitting %s!\n", argv0); 1164 vfpart = 0; 1165 return(-1); 1166 } 1167 1168 if ((buf[0] == '\0') || (buf[1] != '\0')) { 1169 tty_prnt("%s unknown command, try again\n",buf); 1170 continue; 1171 } 1172 1173 switch (buf[0]) { 1174 case 'y': 1175 case 'Y': 1176 /* 1177 * we are to continue with the same device 1178 */ 1179 if (ar_open(arcname) >= 0) 1180 return(0); 1181 tty_prnt("Cannot re-open %s, try again\n", 1182 arcname); 1183 continue; 1184 case 's': 1185 case 'S': 1186 /* 1187 * user wants to open a different device 1188 */ 1189 tty_prnt("Switching to a different archive\n"); 1190 break; 1191 default: 1192 tty_prnt("%s unknown command, try again\n",buf); 1193 continue; 1194 } 1195 break; 1196 } 1197 } else 1198 tty_prnt("Ready for archive volume: %d\n", arvol); 1199 1200 /* 1201 * have to go to a different archive 1202 */ 1203 for (;;) { 1204 tty_prnt("Input archive name or \".\" to quit %s.\n", argv0); 1205 tty_prnt("Archive name > "); 1206 1207 if ((tty_read(buf, sizeof(buf)) < 0) || !strcmp(buf, ".")) { 1208 done = 1; 1209 lstrval = -1; 1210 tty_prnt("Quitting %s!\n", argv0); 1211 vfpart = 0; 1212 return(-1); 1213 } 1214 if (buf[0] == '\0') { 1215 tty_prnt("Empty file name, try again\n"); 1216 continue; 1217 } 1218 if (!strcmp(buf, "..")) { 1219 tty_prnt("Illegal file name: .. try again\n"); 1220 continue; 1221 } 1222 if (strlen(buf) > PAXPATHLEN) { 1223 tty_prnt("File name too long, try again\n"); 1224 continue; 1225 } 1226 1227 /* 1228 * try to open new archive 1229 */ 1230 if (ar_open(buf) >= 0) { 1231 free(arcbuf); 1232 if ((arcbuf = strdup(buf)) == NULL) { 1233 done = 1; 1234 lstrval = -1; 1235 paxwarn(0, "Cannot save archive name."); 1236 return(-1); 1237 } 1238 arcname = arcbuf; 1239 break; 1240 } 1241 tty_prnt("Cannot open %s, try again\n", buf); 1242 continue; 1243 } 1244 return(0); 1245 } 1246 1247 /* 1248 * ar_start_gzip() 1249 * starts the gzip compression/decompression process as a child, using magic 1250 * to keep the fd the same in the calling function (parent). 1251 */ 1252 void 1253 ar_start_gzip(int fd, const char *gzip_prog, int wr) 1254 { 1255 int fds[2]; 1256 const char *gzip_flags; 1257 1258 if (pipe(fds) < 0) 1259 err(1, "could not pipe"); 1260 zpid = fork(); 1261 if (zpid < 0) 1262 err(1, "could not fork"); 1263 1264 /* parent */ 1265 if (zpid) { 1266 if (wr) 1267 dup2(fds[1], fd); 1268 else 1269 dup2(fds[0], fd); 1270 close(fds[0]); 1271 close(fds[1]); 1272 } else { 1273 if (wr) { 1274 dup2(fds[0], STDIN_FILENO); 1275 dup2(fd, STDOUT_FILENO); 1276 gzip_flags = "-c"; 1277 } else { 1278 dup2(fds[1], STDOUT_FILENO); 1279 dup2(fd, STDIN_FILENO); 1280 gzip_flags = "-dc"; 1281 } 1282 close(fds[0]); 1283 close(fds[1]); 1284 if (execlp(gzip_prog, gzip_prog, gzip_flags, 1285 (char *)NULL) < 0) 1286 err(1, "could not exec"); 1287 /* NOTREACHED */ 1288 } 1289 } 1290