| blob | 91ec271f095375aed6c774a9acfc264fccb1f4b5 |
1 /* $OpenBSD: ar_io.c,v 1.61 2017/01/23 12:46:13 deraadt Exp $ */
2 /* $NetBSD: ar_io.c,v 1.5 1996/03/26 23:54:13 mrg Exp $ */
4 /*-
5 * Copyright (c) 1992 Keith Muller.
6 * Copyright (c) 1992, 1993
7 * The Regents of the University of California. All rights reserved.
8 *
9 * This code is derived from software contributed to Berkeley by
10 * Keith Muller of the University of California, San Diego.
11 *
12 * Redistribution and use in source and binary forms, with or without
13 * modification, are permitted provided that the following conditions
14 * are met:
15 * 1. Redistributions of source code must retain the above copyright
16 * notice, this list of conditions and the following disclaimer.
17 * 2. Redistributions in binary form must reproduce the above copyright
18 * notice, this list of conditions and the following disclaimer in the
19 * documentation and/or other materials provided with the distribution.
20 * 3. Neither the name of the University nor the names of its contributors
21 * may be used to endorse or promote products derived from this software
22 * without specific prior written permission.
23 *
24 * THIS SOFTWARE IS PROVIDED BY THE REGENTS AND CONTRIBUTORS ``AS IS'' AND
25 * ANY EXPRESS OR IMPLIED WARRANTIES, INCLUDING, BUT NOT LIMITED TO, THE
26 * IMPLIED WARRANTIES OF MERCHANTABILITY AND FITNESS FOR A PARTICULAR PURPOSE
27 * ARE DISCLAIMED. IN NO EVENT SHALL THE REGENTS OR CONTRIBUTORS BE LIABLE
28 * FOR ANY DIRECT, INDIRECT, INCIDENTAL, SPECIAL, EXEMPLARY, OR CONSEQUENTIAL
29 * DAMAGES (INCLUDING, BUT NOT LIMITED TO, PROCUREMENT OF SUBSTITUTE GOODS
30 * OR SERVICES; LOSS OF USE, DATA, OR PROFITS; OR BUSINESS INTERRUPTION)
31 * HOWEVER CAUSED AND ON ANY THEORY OF LIABILITY, WHETHER IN CONTRACT, STRICT
32 * LIABILITY, OR TORT (INCLUDING NEGLIGENCE OR OTHERWISE) ARISING IN ANY WAY
33 * OUT OF THE USE OF THIS SOFTWARE, EVEN IF ADVISED OF THE POSSIBILITY OF
34 * SUCH DAMAGE.
35 */
37 #include <sys/types.h>
38 #include <sys/stat.h>
39 #include <sys/ioctl.h>
40 #include <sys/mtio.h>
41 #include <sys/wait.h>
42 #include <err.h>
43 #include <errno.h>
44 #include <fcntl.h>
45 #include <signal.h>
46 #include <stdio.h>
47 #include <stdlib.h>
48 #include <string.h>
49 #include <unistd.h>
54 /*
55 * Routines which deal directly with the archive I/O device/file.
56 */
84 /*
85 * ar_open()
86 * Opens the next archive volume. Determines the type of the device and
87 * sets up block sizes as required by the archive device and the format.
88 * Note: we may be called with name == NULL on the first open only.
89 * Return:
90 * -1 on failure, 0 otherwise
91 */
93 int
95 {
105 /*
106 * open based on overall operation mode
107 */
125 else
136 name);
139 /*
140 * arfd not used in COPY mode
141 */
145 }
153 }
154 /*
155 * set up is based on device type
156 */
163 }
166 arcname);
171 }
179 else
182 /*
183 * make sure beyond any doubt that we can unlink only regular files
184 * we created
185 */
188 /*
189 * if we are writing, we are done
190 */
195 }
197 /*
198 * set default blksz on read. APPNDs writes rdblksz on the last volume
199 * On all new archive volumes, we shift to wrblksz (if the user
200 * specified one, otherwise we will continue to use rdblksz). We
201 * must set blocksize based on what kind of device the archive is
202 * stored.
203 */
206 /*
207 * Tape drives come in at least two flavors. Those that support
208 * variable sized records and those that have fixed sized
209 * records. They must be treated differently. For tape drives
210 * that support variable sized records, we must make large
211 * reads to make sure we get the entire record, otherwise we
212 * will just get the first part of the record (up to size we
213 * asked). Tapes with fixed sized records may or may not return
214 * multiple records in a single read. We really do not care
215 * what the physical record size is UNLESS we are going to
216 * append. (We will need the physical block size to rewrite
217 * the trailer). Only when we are appending do we go to the
218 * effort to figure out the true PHYSICAL record size.
219 */
225 /*
226 * Blocksize is not a major issue with these devices (but must
227 * be kept a multiple of 512). If the user specified a write
228 * block size, we use that to read. Under append, we must
229 * always keep blksz == rdblksz. Otherwise we go ahead and use
230 * the device optimal blocksize as (and if) returned by stat
231 * and if it is within pax specs.
232 */
236 }
241 else
243 /*
244 * For performance go for large reads when we can without harm
245 */
248 else
252 /*
253 * if the user specified wrblksz works, use it. Under appends
254 * we must always keep blksz == rdblksz
255 */
259 }
260 /*
261 * See if we can find the blocking factor from the file size
262 */
266 /*
267 * When we cannot find a match, we may have a flawed archive.
268 */
271 /*
272 * for performance go for large reads when we can
273 */
276 else
280 /*
281 * should never happen, worst case, slow...
282 */
285 }
288 }
290 /*
291 * ar_close(int int_sig)
292 * closes archive device, increments volume number, and prints i/o summary
293 * If in_sig is set we're in a signal handler and can't flush stdio.
294 */
295 void
297 {
303 }
307 /*
308 * Close archive file. This may take a LONG while on tapes (we may be
309 * forced to wait for the rewind to complete) so tell the user what is
310 * going on (this avoids the user hitting control-c thinking pax is
311 * broken).
312 */
317 }
319 /*
320 * if nothing was written to the archive (and we created it), we remove
321 * it
322 */
327 }
329 /*
330 * for a quick extract/list, pax frequently exits before the child
331 * process is done
332 */
336 }
340 /* Do not exit before child to ensure data integrity */
345 }
351 }
357 }
360 /*
361 * The volume number is only increased when the last device has data
362 * and we have already determined the archive format.
363 */
370 }
372 /*
373 * Print out a summary of I/O for this archive volume.
374 */
378 }
380 /*
381 * If we have not determined the format yet, we just say how many bytes
382 * we have skipped over looking for a header to id. there is no way we
383 * could have written anything yet.
384 */
390 }
396 #ifndef NOCPIO
402 }
404 /*
405 * ar_drain()
406 * drain any archive format independent padding from an archive read
407 * from a socket or a pipe. This is to prevent the process on the
408 * other side of the pipe from getting a SIGPIPE (pax will stop
409 * reading an archive once a format dependent trailer is detected).
410 */
411 void
413 {
417 /*
418 * we only drain from a pipe/socket. Other devices can be closed
419 * without reading up to end of file. We sure hope that pipe is closed
420 * on the other side so we will get an EOF.
421 */
425 /*
426 * keep reading until pipe is drained
427 */
431 }
433 /*
434 * ar_set_wr()
435 * Set up device right before switching from read to write in an append.
436 * device dependent code (if required) to do this should be added here.
437 * For all archive devices we are already positioned at the place we want
438 * to start writing when this routine is called.
439 * Return:
440 * 0 if all ready to write, -1 otherwise
441 */
443 int
445 {
446 off_t cpos;
448 /*
449 * we must make sure the trailer is rewritten on append, ar_next()
450 * will stop us if the archive containing the trailer was not written
451 */
454 /*
455 * Add any device dependent code as required here
456 */
459 /*
460 * Ok we have an archive in a regular file. If we were rewriting a
461 * file, we must get rid of all the stuff after the current offset
462 * (it was not written by pax).
463 */
468 }
470 }
472 /*
473 * ar_app_ok()
474 * check if the last volume in the archive allows appends. We cannot check
475 * this until we are ready to write since there is no spec that says all
476 * volumes in a single archive have to be of the same type...
477 * Return:
478 * 0 if we can append, -1 otherwise.
479 */
481 int
483 {
487 }
494 }
496 /*
497 * ar_read()
498 * read up to a specified number of bytes from the archive into the
499 * supplied buffer. When dealing with tapes we may not always be able to
500 * read what we want.
501 * Return:
502 * Number of bytes in buffer. 0 for end of file, -1 for a read error.
503 */
505 int
507 {
510 /*
511 * if last i/o was in error, no more reads until reset or new volume
512 */
516 /*
517 * how we read must be based on device type
518 */
522 /*
523 * CAUTION: tape systems may not always return the same
524 * sized records so we leave blksz == MAXBLK. The
525 * physical record size that a tape drive supports is
526 * very hard to determine in a uniform and portable
527 * manner.
528 */
531 /*
532 * Record size changed. If this happens on
533 * any record after the first, we probably have
534 * a tape drive which has a fixed record size
535 * (we are getting multiple records in a single
536 * read). Watch out for record blocking that
537 * violates pax spec (must be a multiple of
538 * BLKMULT).
539 */
543 }
545 }
552 /*
553 * Files are so easy to deal with. These other things cannot
554 * be trusted at all. So when we are dealing with character
555 * devices and pipes we just take what they have ready for us
556 * and return. Trying to do anything else with them runs the
557 * risk of failure.
558 */
562 }
564 }
566 /*
567 * We are in trouble at this point, something is broken...
568 */
572 else
575 }
577 /*
578 * ar_write()
579 * Write a specified number of bytes in supplied buffer to the archive
580 * device so it appears as a single "block". Deals with errors and tries
581 * to recover when faced with short writes.
582 * Return:
583 * Number of bytes written. 0 indicates end of volume reached and with no
584 * flaws (as best that can be detected). A -1 indicates an unrecoverable
585 * error in the archive occurred.
586 */
588 int
590 {
592 off_t cpos;
594 /*
595 * do not allow pax to create a "bad" archive. Once a write fails on
596 * an archive volume prevent further writes to it.
597 */
605 }
606 /*
607 * write broke, see what we can do with it. We try to send any partial
608 * writes that may violate pax spec to the next archive volume.
609 */
612 else
618 /*
619 * try to fix up partial writes which are not BLKMULT
620 * in size by forcing the runt record to next archive
621 * volume
622 */
630 }
633 /*
634 * if file is out of space, handle it like a return of 0
635 */
648 }
649 /*
650 * see if we reached the end of media, if so force a change to
651 * the next volume
652 */
658 /*
659 * we cannot fix errors to these devices
660 */
662 }
664 /*
665 * Better tell the user the bad news...
666 * if this is a block aligned archive format, we may have a bad archive
667 * if the format wants the header to start at a BLKMULT boundary. While
668 * we can deal with the mis-aligned data, it violates spec and other
669 * archive readers will likely fail. if the format is not block
670 * aligned, the user may be lucky (and the archive is ok).
671 */
676 }
678 /*
679 * If we were trying to rewrite the trailer and it didn't work, we
680 * must quit right away.
681 */
685 }
693 else
696 }
698 /*
699 * ar_rdsync()
700 * Try to move past a bad spot on a flawed archive as needed to continue
701 * I/O. Clears error flags to allow I/O to continue.
702 * Return:
703 * 0 when ok to try i/o again, -1 otherwise.
704 */
706 int
708 {
710 off_t cpos;
711 off_t mpos;
714 /*
715 * Fail resync attempts at user request (done) or if this is going to be
716 * an update/append to a existing archive. if last i/o hit media end,
717 * we need to go to the next volume not try a resync
718 */
725 }
731 /*
732 * if the last i/o was a successful data transfer, we assume
733 * the fault is just a bad record on the tape that we are now
734 * past. If we did not get any data since the last resync try
735 * to move the tape forward one PHYSICAL record past any
736 * damaged tape section. Some tape drives are stubborn and need
737 * to be pushed.
738 */
743 }
753 /*
754 * try to step over the bad part of the device.
755 */
768 /*
769 * cannot recover on these archive device types
770 */
773 }
777 }
780 }
782 /*
783 * ar_fow()
784 * Move the I/O position within the archive forward the specified number of
785 * bytes as supported by the device. If we cannot move the requested
786 * number of bytes, return the actual number of bytes moved in skipped.
787 * Return:
788 * 0 if moved the requested distance, -1 on complete failure, 1 on
789 * partial move (the amount moved is in skipped)
790 */
792 int
794 {
795 off_t cpos;
796 off_t mpos;
802 /*
803 * we cannot move forward at EOF or error
804 */
808 /*
809 * Safer to read forward on devices where it is hard to find the end of
810 * the media without reading to it. With tapes we cannot be sure of the
811 * number of physical blocks to skip (we do not know physical block
812 * size at this point), so we must only read forward on tapes!
813 */
817 /*
818 * figure out where we are in the archive
819 */
821 /*
822 * we can be asked to move farther than there are bytes in this
823 * volume, if so, just go to file end and let normal buf_fill()
824 * deal with the end of file (it will go to next volume by
825 * itself)
826 */
834 }
838 }
840 /*
841 * ar_rev()
842 * move the i/o position within the archive backwards the specified byte
843 * count as supported by the device. With tapes drives we RESET rdblksz to
844 * the PHYSICAL blocksize.
845 * NOTE: We should only be called to move backwards so we can rewrite the
846 * last records (the trailer) of an archive (APPEND).
847 * Return:
848 * 0 if moved the requested distance, -1 on complete failure
849 */
851 int
853 {
854 off_t cpos;
858 /*
859 * make sure we do not have try to reverse on a flawed archive
860 */
868 /*
869 * cannot go backwards on these critters
870 */
881 /*
882 * For things other than files, backwards movement has a very
883 * high probability of failure as we really do not know the
884 * true attributes of the device we are talking to (the device
885 * may not even have the ability to lseek() in any direction).
886 * First we figure out where we are in the archive.
887 */
893 }
895 /*
896 * we may try to go backwards past the start when the archive
897 * is only a single record. If this happens and we are on a
898 * multi-volume archive, we need to go to the end of the
899 * previous volume and continue our movement backwards from
900 * there.
901 */
904 /*
905 * this should never happen
906 */
910 }
912 }
917 }
920 /*
921 * Calculate and move the proper number of PHYSICAL tape
922 * blocks. If the sksz is not an even multiple of the physical
923 * tape size, we cannot do the move (this should never happen).
924 * (We also cannot handle trailers spread over two vols.)
925 * get_phys() also makes sure we are in front of the filemark.
926 */
930 }
932 /*
933 * make sure future tape reads only go by physical tape block
934 * size (set rdblksz to the real size).
935 */
938 /*
939 * if no movement is required, just return (we must be after
940 * get_phys() so the physical blocksize is properly set)
941 */
945 /*
946 * ok we have to move. Make sure the tape drive can do it.
947 */
953 }
955 /*
956 * move backwards the requested number of bytes
957 */
965 }
967 }
970 }
972 /*
973 * get_phys()
974 * Determine the physical block size on a tape drive. We need the physical
975 * block size so we know how many bytes we skip over when we move with
976 * mtio commands. We also make sure we are BEFORE THE TAPE FILEMARK when
977 * return.
978 * This is one really SLOW routine...
979 * Return:
980 * physical block size if ok (ok > 0), -1 otherwise
981 */
983 static int
985 {
992 /*
993 * move to the file mark, and then back up one record and read it.
994 * this should tell us the physical record size the tape is using.
995 */
997 /*
998 * we know we are at file mark when we get back a 0 from
999 * read()
1000 */
1006 }
1007 }
1009 /*
1010 * move backwards over the file mark so we are at the end of the
1011 * last record.
1012 */
1018 }
1020 /*
1021 * move backwards so we are in front of the last record and read it to
1022 * get physical tape blocksize.
1023 */
1029 }
1033 }
1035 /*
1036 * read forward to the file mark, then back up in front of the filemark
1037 * (this is a bit paranoid, but should be safe to do).
1038 */
1044 }
1050 }
1052 /*
1053 * set lstrval so we know that the filemark has not been seen
1054 */
1057 /*
1058 * return if there was no padding
1059 */
1063 /*
1064 * make sure we can move backwards over the padding. (this should
1065 * never fail).
1066 */
1070 }
1072 /*
1073 * move backwards over the padding so the head is where it was when
1074 * we were first called (if required).
1075 */
1082 }
1084 }
1086 /*
1087 * ar_next()
1088 * prompts the user for the next volume in this archive. For some devices
1089 * we may allow the media to be changed. Otherwise a new archive is
1090 * prompted for. By pax spec, if there is no controlling tty or an eof is
1091 * read on tty input, we must quit pax.
1092 * Return:
1093 * 0 when ready to continue, -1 when all done
1094 */
1096 int
1098 {
1101 sigset_t o_mask;
1103 /*
1104 * WE MUST CLOSE THE DEVICE. A lot of devices must see last close, (so
1105 * things like writing EOF etc will be done) (Watch out ar_close() can
1106 * also be called via a signal handler, so we must prevent a race.
1107 */
1119 /*
1120 * if i/o is on stdin or stdout, we cannot reopen it (we do not know
1121 * the name), the user will be forced to type it in.
1122 */
1133 }
1137 else
1142 argv0);
1153 }
1158 }
1163 /*
1164 * we are to continue with the same device
1165 */
1169 arcname);
1173 /*
1174 * user wants to open a different device
1175 */
1181 }
1183 }
1187 /*
1188 * have to go to a different archive
1189 */
1200 }
1204 }
1208 }
1212 }
1214 /*
1215 * try to open new archive
1216 */
1221 }
1227 }
1230 }
1233 }
1235 }
1237 /*
1238 * ar_start_gzip()
1239 * starts the gzip compression/decompression process as a child, using magic
1240 * to keep the fd the same in the calling function (parent).
1241 */
1242 void
1244 {
1254 /* parent */
1258 else
1272 }
1276 /* System compressors are more likely to use pledge(2) */
1281 /* NOTREACHED */
1282 }
1283 }