2 Bacula® - The Network Backup Solution
4 Copyright (C) 2001-2007 Free Software Foundation Europe e.V.
6 The main author of Bacula is Kern Sibbald, with contributions from
7 many others, a complete list can be found in the file AUTHORS.
8 This program is Free Software; you can redistribute it and/or
9 modify it under the terms of version two of the GNU General Public
10 License as published by the Free Software Foundation and included
13 This program is distributed in the hope that it will be useful, but
14 WITHOUT ANY WARRANTY; without even the implied warranty of
15 MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the GNU
16 General Public License for more details.
18 You should have received a copy of the GNU General Public License
19 along with this program; if not, write to the Free Software
20 Foundation, Inc., 51 Franklin Street, Fifth Floor, Boston, MA
23 Bacula® is a registered trademark of John Walker.
24 The licensor of Bacula is the Free Software Foundation Europe
25 (FSFE), Fiduciary Program, Sumatrastrasse 25, 8006 Zürich,
26 Switzerland, email:ftf@fsfeurope.org.
30 * block.c -- tape block handling functions
32 * Kern Sibbald, March MMI
33 * added BB02 format October MMII
43 static bool terminate_writing_volume(DCR *dcr);
44 static bool do_new_file_bookkeeping(DCR *dcr);
45 static bool do_dvd_size_checks(DCR *dcr);
46 static void reread_last_block(DCR *dcr);
49 * Dump the block header, then walk through
50 * the block printing out the record headers.
52 void dump_block(DEV_BLOCK *b, const char *msg)
56 char Id[BLKHDR_ID_LENGTH+1];
57 uint32_t CheckSum, BlockCheckSum;
60 uint32_t VolSessionId, VolSessionTime, data_len;
64 char buf1[100], buf2[100];
66 unser_begin(b->buf, BLKHDR1_LENGTH);
67 unser_uint32(CheckSum);
68 unser_uint32(block_len);
69 unser_uint32(BlockNumber);
70 unser_bytes(Id, BLKHDR_ID_LENGTH);
71 ASSERT(unser_length(b->buf) == BLKHDR1_LENGTH);
72 Id[BLKHDR_ID_LENGTH] = 0;
74 unser_uint32(VolSessionId);
75 unser_uint32(VolSessionTime);
79 VolSessionId = VolSessionTime = 0;
84 if (block_len > 100000) {
85 Dmsg3(20, "Dump block %s 0x%x blocksize too big %u\n", msg, b, block_len);
89 BlockCheckSum = bcrc32((uint8_t *)b->buf+BLKHDR_CS_LENGTH,
90 block_len-BLKHDR_CS_LENGTH);
91 Pmsg6(000, _("Dump block %s %x: size=%d BlkNum=%d\n"
92 " Hdrcksum=%x cksum=%x\n"),
93 msg, b, block_len, BlockNumber, CheckSum, BlockCheckSum);
95 while (p < (b->buf + block_len+WRITE_RECHDR_LENGTH)) {
96 unser_begin(p, WRITE_RECHDR_LENGTH);
97 if (rhl == RECHDR1_LENGTH) {
98 unser_uint32(VolSessionId);
99 unser_uint32(VolSessionTime);
101 unser_int32(FileIndex);
103 unser_uint32(data_len);
104 Pmsg6(000, _(" Rec: VId=%u VT=%u FI=%s Strm=%s len=%d p=%x\n"),
105 VolSessionId, VolSessionTime, FI_to_ascii(buf1, FileIndex),
106 stream_to_ascii(buf2, Stream, FileIndex), data_len, p);
112 * Create a new block structure.
113 * We pass device so that the block can inherit the
114 * min and max block sizes.
116 DEV_BLOCK *new_block(DEVICE *dev)
118 DEV_BLOCK *block = (DEV_BLOCK *)get_memory(sizeof(DEV_BLOCK));
120 memset(block, 0, sizeof(DEV_BLOCK));
122 /* If the user has specified a max_block_size, use it as the default */
123 if (dev->max_block_size == 0) {
124 block->buf_len = DEFAULT_BLOCK_SIZE;
126 block->buf_len = dev->max_block_size;
129 block->block_len = block->buf_len; /* default block size */
130 block->buf = get_memory(block->buf_len);
132 block->BlockVer = BLOCK_VER; /* default write version */
133 Dmsg1(650, "Returning new block=%x\n", block);
139 * Duplicate an existing block (eblock)
141 DEV_BLOCK *dup_block(DEV_BLOCK *eblock)
143 DEV_BLOCK *block = (DEV_BLOCK *)get_memory(sizeof(DEV_BLOCK));
144 int buf_len = sizeof_pool_memory(eblock->buf);
146 memcpy(block, eblock, sizeof(DEV_BLOCK));
147 block->buf = get_memory(buf_len);
148 memcpy(block->buf, eblock->buf, buf_len);
154 * Only the first block checksum error was reported.
155 * If there are more, report it now.
157 void print_block_read_errors(JCR *jcr, DEV_BLOCK *block)
159 if (block->read_errors > 1) {
160 Jmsg(jcr, M_ERROR, 0, _("%d block read errors not printed.\n"),
168 void free_block(DEV_BLOCK *block)
170 Dmsg1(999, "free_block buffer %x\n", block->buf);
171 free_memory(block->buf);
172 Dmsg1(999, "free_block block %x\n", block);
173 free_memory((POOLMEM *)block);
176 /* Empty the block -- for writing */
177 void empty_block(DEV_BLOCK *block)
179 block->binbuf = WRITE_BLKHDR_LENGTH;
180 block->bufp = block->buf + block->binbuf;
182 block->write_failed = false;
183 block->block_read = false;
184 block->FirstIndex = block->LastIndex = 0;
188 * Create block header just before write. The space
189 * in the buffer should have already been reserved by
192 void ser_block_header(DEV_BLOCK *block)
195 uint32_t CheckSum = 0;
196 uint32_t block_len = block->binbuf;
198 Dmsg1(1390, "ser_block_header: block_len=%d\n", block_len);
199 ser_begin(block->buf, BLKHDR2_LENGTH);
200 ser_uint32(CheckSum);
201 ser_uint32(block_len);
202 ser_uint32(block->BlockNumber);
203 ser_bytes(WRITE_BLKHDR_ID, BLKHDR_ID_LENGTH);
204 if (BLOCK_VER >= 2) {
205 ser_uint32(block->VolSessionId);
206 ser_uint32(block->VolSessionTime);
209 /* Checksum whole block except for the checksum */
210 CheckSum = bcrc32((uint8_t *)block->buf+BLKHDR_CS_LENGTH,
211 block_len-BLKHDR_CS_LENGTH);
212 Dmsg1(1390, "ser_bloc_header: checksum=%x\n", CheckSum);
213 ser_begin(block->buf, BLKHDR2_LENGTH);
214 ser_uint32(CheckSum); /* now add checksum to block header */
218 * Unserialize the block header for reading block.
219 * This includes setting all the buffer pointers correctly.
221 * Returns: false on failure (not a block)
224 static bool unser_block_header(JCR *jcr, DEVICE *dev, DEV_BLOCK *block)
227 char Id[BLKHDR_ID_LENGTH+1];
228 uint32_t CheckSum, BlockCheckSum;
231 uint32_t BlockNumber;
234 unser_begin(block->buf, BLKHDR_LENGTH);
235 unser_uint32(CheckSum);
236 unser_uint32(block_len);
237 unser_uint32(BlockNumber);
238 unser_bytes(Id, BLKHDR_ID_LENGTH);
239 ASSERT(unser_length(block->buf) == BLKHDR1_LENGTH);
241 Id[BLKHDR_ID_LENGTH] = 0;
243 bhl = BLKHDR1_LENGTH;
245 block->bufp = block->buf + bhl;
246 if (strncmp(Id, BLKHDR1_ID, BLKHDR_ID_LENGTH) != 0) {
247 dev->dev_errno = EIO;
248 Mmsg4(dev->errmsg, _("Volume data error at %u:%u! Wanted ID: \"%s\", got \"%s\". Buffer discarded.\n"),
249 dev->file, dev->block_num, BLKHDR1_ID, Id);
250 if (block->read_errors == 0 || verbose >= 2) {
251 Jmsg(jcr, M_ERROR, 0, "%s", dev->errmsg);
253 block->read_errors++;
256 } else if (Id[3] == '2') {
257 unser_uint32(block->VolSessionId);
258 unser_uint32(block->VolSessionTime);
259 bhl = BLKHDR2_LENGTH;
261 block->bufp = block->buf + bhl;
262 if (strncmp(Id, BLKHDR2_ID, BLKHDR_ID_LENGTH) != 0) {
263 dev->dev_errno = EIO;
264 Mmsg4(dev->errmsg, _("Volume data error at %u:%u! Wanted ID: \"%s\", got \"%s\". Buffer discarded.\n"),
265 dev->file, dev->block_num, BLKHDR2_ID, Id);
266 if (block->read_errors == 0 || verbose >= 2) {
267 Jmsg(jcr, M_ERROR, 0, "%s", dev->errmsg);
269 block->read_errors++;
273 dev->dev_errno = EIO;
274 Mmsg4(dev->errmsg, _("Volume data error at %u:%u! Wanted ID: \"%s\", got \"%s\". Buffer discarded.\n"),
275 dev->file, dev->block_num, BLKHDR2_ID, Id);
276 Dmsg1(50, "%s", dev->errmsg);
277 if (block->read_errors == 0 || verbose >= 2) {
278 Jmsg(jcr, M_ERROR, 0, "%s", dev->errmsg);
280 block->read_errors++;
281 unser_uint32(block->VolSessionId);
282 unser_uint32(block->VolSessionTime);
287 if (block_len > MAX_BLOCK_LENGTH) {
288 dev->dev_errno = EIO;
289 Mmsg3(dev->errmsg, _("Volume data error at %u:%u! Block length %u is insane (too large), probably due to a bad archive.\n"),
290 dev->file, dev->block_num, block_len);
291 if (block->read_errors == 0 || verbose >= 2) {
292 Jmsg(jcr, M_ERROR, 0, "%s", dev->errmsg);
294 block->read_errors++;
298 Dmsg1(390, "unser_block_header block_len=%d\n", block_len);
299 /* Find end of block or end of buffer whichever is smaller */
300 if (block_len > block->read_len) {
301 block_end = block->read_len;
303 block_end = block_len;
305 block->binbuf = block_end - bhl;
306 block->block_len = block_len;
307 block->BlockNumber = BlockNumber;
308 Dmsg3(390, "Read binbuf = %d %d block_len=%d\n", block->binbuf,
310 if (block_len <= block->read_len) {
311 BlockCheckSum = bcrc32((uint8_t *)block->buf+BLKHDR_CS_LENGTH,
312 block_len-BLKHDR_CS_LENGTH);
313 if (BlockCheckSum != CheckSum) {
314 dev->dev_errno = EIO;
315 Mmsg6(dev->errmsg, _("Volume data error at %u:%u!\n"
316 "Block checksum mismatch in block=%u len=%d: calc=%x blk=%x\n"),
317 dev->file, dev->block_num, (unsigned)BlockNumber,
318 block_len, BlockCheckSum, CheckSum);
319 if (block->read_errors == 0 || verbose >= 2) {
320 Jmsg(jcr, M_ERROR, 0, "%s", dev->errmsg);
322 block->read_errors++;
332 * Write a block to the device, with locking and unlocking
334 * Returns: true on success
338 bool write_block_to_device(DCR *dcr)
341 DEVICE *dev = dcr->dev;
345 stat = write_block_to_spool_file(dcr);
349 if (!dcr->is_dev_locked()) { /* device already locked? */
350 /* note, do not change this to dcr->r_dlock */
351 dev->r_dlock(); /* no, lock it */
355 * If a new volume has been mounted since our last write
356 * Create a JobMedia record for the previous volume written,
357 * and set new parameters to write this volume
358 * The same applies for if we are in a new file.
360 if (dcr->NewVol || dcr->NewFile) {
361 if (job_canceled(jcr)) {
365 /* Create a jobmedia record for this job */
366 if (!dir_create_jobmedia_record(dcr)) {
367 dev->dev_errno = EIO;
368 Jmsg(jcr, M_FATAL, 0, _("Could not create JobMedia record for Volume=\"%s\" Job=%s\n"),
369 dcr->VolCatInfo.VolCatName, jcr->Job);
370 set_new_volume_parameters(dcr);
375 /* Note, setting a new volume also handles any pending new file */
376 set_new_volume_parameters(dcr);
377 dcr->NewFile = false; /* this handled for new file too */
379 set_new_file_parameters(dcr);
383 if (!write_block_to_dev(dcr)) {
384 if (job_canceled(jcr) || jcr->JobType == JT_SYSTEM) {
387 stat = fixup_device_block_write_error(dcr);
392 if (!dcr->is_dev_locked()) { /* did we lock dev above? */
393 /* note, do not change this to dcr->dunlock */
394 dev->dunlock(); /* unlock it now */
400 * Write a block to the device
402 * Returns: true on success or EOT
403 * false on hard error
405 bool write_block_to_dev(DCR *dcr)
408 uint32_t wlen; /* length to write */
409 int hit_max1, hit_max2;
411 DEVICE *dev = dcr->dev;
413 DEV_BLOCK *block = dcr->block;
415 #ifdef NO_TAPE_WRITE_TEST
419 ASSERT(block->binbuf == ((uint32_t) (block->bufp - block->buf)));
420 ASSERT(dev->is_open());
422 /* dump_block(block, "before write"); */
423 if (dev->at_weot()) {
424 Dmsg0(100, "return write_block_to_dev with ST_WEOT\n");
425 dev->dev_errno = ENOSPC;
426 Jmsg(jcr, M_FATAL, 0, _("Cannot write block. Device at EOM.\n"));
429 if (!dev->can_append()) {
430 dev->dev_errno = EIO;
431 Jmsg(jcr, M_FATAL, 0, _("Attempt to write on read-only Volume.\n"));
434 wlen = block->binbuf;
435 if (wlen <= WRITE_BLKHDR_LENGTH) { /* Does block have data in it? */
436 Dmsg0(100, "return write_block_to_dev no data to write\n");
440 * Clear to the end of the buffer if it is not full,
441 * and on tape devices, apply min and fixed blocking.
443 if (wlen != block->buf_len) {
444 uint32_t blen; /* current buffer length */
446 Dmsg2(250, "binbuf=%d buf_len=%d\n", block->binbuf, block->buf_len);
449 /* Adjust write size to min/max for tapes only */
450 if (dev->is_tape()) {
451 /* check for fixed block size */
452 if (dev->min_block_size == dev->max_block_size) {
453 wlen = block->buf_len; /* fixed block size already rounded */
454 /* Check for min block size */
455 } else if (wlen < dev->min_block_size) {
456 wlen = ((dev->min_block_size + TAPE_BSIZE - 1) / TAPE_BSIZE) * TAPE_BSIZE;
457 /* Ensure size is rounded */
459 wlen = ((wlen + TAPE_BSIZE - 1) / TAPE_BSIZE) * TAPE_BSIZE;
463 memset(block->bufp, 0, wlen-blen); /* clear garbage */
467 ser_block_header(block);
469 /* Limit maximum Volume size to value specified by user */
470 hit_max1 = (dev->max_volume_size > 0) &&
471 ((dev->VolCatInfo.VolCatBytes + block->binbuf)) >= dev->max_volume_size;
472 hit_max2 = (dev->VolCatInfo.VolCatMaxBytes > 0) &&
473 ((dev->VolCatInfo.VolCatBytes + block->binbuf)) >= dev->VolCatInfo.VolCatMaxBytes;
474 if (hit_max1 || hit_max2) {
477 Dmsg0(100, "==== Output bytes Triggered medium max capacity.\n");
479 max_cap = dev->max_volume_size;
481 max_cap = dev->VolCatInfo.VolCatMaxBytes;
483 Jmsg(jcr, M_INFO, 0, _("User defined maximum volume capacity %s exceeded on device %s.\n"),
484 edit_uint64_with_commas(max_cap, ed1), dev->print_name());
485 terminate_writing_volume(dcr);
486 reread_last_block(dcr); /* DEBUG */
487 dev->dev_errno = ENOSPC;
491 /* Limit maximum File size on volume to user specified value */
492 if ((dev->max_file_size > 0) &&
493 (dev->file_size+block->binbuf) >= dev->max_file_size) {
494 dev->file_size = 0; /* reset file size */
496 if (!dev->weof(1)) { /* write eof */
497 Dmsg0(190, "WEOF error in max file size.\n");
498 Jmsg(jcr, M_FATAL, 0, _("Unable to write EOF. ERR=%s\n"),
500 terminate_writing_volume(dcr);
501 dev->dev_errno = ENOSPC;
504 if (!write_ansi_ibm_labels(dcr, ANSI_EOF_LABEL, dev->VolHdr.VolumeName)) {
508 if (!do_new_file_bookkeeping(dcr)) {
509 /* Error message already sent */
514 if (!do_dvd_size_checks(dcr)) {
515 /* Error message already sent */
519 dev->VolCatInfo.VolCatWrites++;
520 Dmsg1(1300, "Write block of %u bytes\n", wlen);
521 #ifdef DEBUG_BLOCK_ZEROING
522 uint32_t *bp = (uint32_t *)block->buf;
523 if (bp[0] == 0 && bp[1] == 0 && bp[2] == 0 && block->buf[12] == 0) {
524 Jmsg0(jcr, M_ABORT, 0, _("Write block header zeroed.\n"));
529 * Do write here, make a somewhat feeble attempt to recover from
530 * I/O errors, or from the OS telling us it is busy.
536 if (retry > 0 && stat == -1 && errno == EBUSY) {
538 Dmsg4(100, "===== write retry=%d stat=%d errno=%d: ERR=%s\n",
539 retry, stat, errno, be.bstrerror());
540 bmicrosleep(5, 0); /* pause a bit if busy or lots of errors */
543 stat = dev->write(block->buf, (size_t)wlen);
545 } while (stat == -1 && (errno == EBUSY || errno == EIO) && retry++ < 3);
547 #ifdef DEBUG_BLOCK_ZEROING
548 if (bp[0] == 0 && bp[1] == 0 && bp[2] == 0 && block->buf[12] == 0) {
549 Jmsg0(jcr, M_ABORT, 0, _("Write block header zeroed.\n"));
553 if (stat != (ssize_t)wlen) {
554 /* Some devices simply report EIO when the volume is full.
555 * With a little more thought we may be able to check
556 * capacity and distinguish real errors and EOT
557 * conditions. In any case, we probably want to
558 * simulate an End of Medium.
563 if (dev->dev_errno == 0) {
564 dev->dev_errno = ENOSPC; /* out of space */
566 if (dev->dev_errno != ENOSPC) {
567 dev->VolCatInfo.VolCatErrors++;
568 Jmsg4(jcr, M_ERROR, 0, _("Write error at %u:%u on device %s. ERR=%s.\n"),
569 dev->file, dev->block_num, dev->print_name(), be.bstrerror());
572 dev->dev_errno = ENOSPC; /* out of space */
574 if (dev->dev_errno == ENOSPC) {
575 Jmsg(jcr, M_INFO, 0, _("End of Volume \"%s\" at %u:%u on device %s. Write of %u bytes got %d.\n"),
576 dev->VolCatInfo.VolCatName,
577 dev->file, dev->block_num, dev->print_name(), wlen, stat);
579 Dmsg7(100, "=== Write error. fd=%d size=%u rtn=%d dev_blk=%d blk_blk=%d errno=%d: ERR=%s\n",
580 dev->fd(), wlen, stat, dev->block_num, block->BlockNumber,
581 dev->dev_errno, strerror(dev->dev_errno));
583 ok = terminate_writing_volume(dcr);
584 if (!ok && !forge_on) {
588 reread_last_block(dcr);
593 /* We successfully wrote the block, now do housekeeping */
594 Dmsg2(1300, "VolCatBytes=%d newVolCatBytes=%d\n", (int)dev->VolCatInfo.VolCatBytes,
595 (int)(dev->VolCatInfo.VolCatBytes+wlen));
596 dev->VolCatInfo.VolCatBytes += wlen;
597 dev->VolCatInfo.VolCatBlocks++;
598 dev->EndBlock = dev->block_num;
599 dev->EndFile = dev->file;
600 block->BlockNumber++;
602 /* Update dcr values */
603 if (dev->is_tape()) {
604 dcr->EndBlock = dev->EndBlock;
605 dcr->EndFile = dev->EndFile;
608 /* Save address of block just written */
609 uint64_t addr = dev->file_addr + wlen - 1;
610 dcr->EndBlock = (uint32_t)addr;
611 dcr->EndFile = (uint32_t)(addr >> 32);
612 dev->block_num = dcr->EndBlock;
613 dev->file = dcr->EndFile;
615 dcr->VolMediaId = dev->VolCatInfo.VolMediaId;
616 if (dcr->VolFirstIndex == 0 && block->FirstIndex > 0) {
617 dcr->VolFirstIndex = block->FirstIndex;
619 if (block->LastIndex > 0) {
620 dcr->VolLastIndex = block->LastIndex;
622 dcr->WroteVol = true;
623 dev->file_addr += wlen; /* update file address */
624 dev->file_size += wlen;
625 dev->part_size += wlen;
627 Dmsg2(1300, "write_block: wrote block %d bytes=%d\n", dev->block_num, wlen);
632 static void reread_last_block(DCR *dcr)
634 #define CHECK_LAST_BLOCK
635 #ifdef CHECK_LAST_BLOCK
637 DEVICE *dev = dcr->dev;
639 DEV_BLOCK *block = dcr->block;
641 * If the device is a tape and it supports backspace record,
642 * we backspace over one or two eof marks depending on
643 * how many we just wrote, then over the last record,
644 * then re-read it and verify that the block number is
647 if (dev->is_tape() && dev->has_cap(CAP_BSR)) {
648 /* Now back up over what we wrote and read the last block */
652 Jmsg(jcr, M_ERROR, 0, _("Backspace file at EOT failed. ERR=%s\n"),
653 be.bstrerror(dev->dev_errno));
655 if (ok && dev->has_cap(CAP_TWOEOF) && !dev->bsf(1)) {
658 Jmsg(jcr, M_ERROR, 0, _("Backspace file at EOT failed. ERR=%s\n"),
659 be.bstrerror(dev->dev_errno));
661 /* Backspace over record */
662 if (ok && !dev->bsr(1)) {
665 Jmsg(jcr, M_ERROR, 0, _("Backspace record at EOT failed. ERR=%s\n"),
666 be.bstrerror(dev->dev_errno));
668 * On FreeBSD systems, if the user got here, it is likely that his/her
669 * tape drive is "frozen". The correct thing to do is a
670 * rewind(), but if we do that, higher levels in cleaning up, will
671 * most likely write the EOS record over the beginning of the
672 * tape. The rewind *is* done later in mount.c when another
673 * tape is requested. Note, the clrerror() call in bsr()
674 * calls ioctl(MTCERRSTAT), which *should* fix the problem.
678 DEV_BLOCK *lblock = new_block(dev);
679 /* Note, this can destroy dev->errmsg */
681 if (!read_block_from_dev(dcr, NO_BLOCK_NUMBER_CHECK)) {
682 Jmsg(jcr, M_ERROR, 0, _("Re-read last block at EOT failed. ERR=%s"),
686 * If we wrote block and the block numbers don't agree
687 * we have a possible problem.
689 if (lblock->VolSessionId == block->VolSessionId &&
690 lblock->BlockNumber+1 != block->BlockNumber) {
691 Jmsg(jcr, M_ERROR, 0, _(
692 "Re-read of last block OK, but block numbers differ. Last block=%u Current block=%u.\n"),
693 lblock->BlockNumber, block->BlockNumber);
695 Jmsg(jcr, M_INFO, 0, _("Re-read of last block succeeded.\n"));
705 static bool terminate_writing_volume(DCR *dcr)
707 DEVICE *dev = dcr->dev;
710 /* Create a JobMedia record to indicated end of tape */
711 dev->VolCatInfo.VolCatFiles = dev->file;
712 if (!dir_create_jobmedia_record(dcr)) {
713 Dmsg0(190, "Error from create JobMedia\n");
714 dev->dev_errno = EIO;
715 Jmsg(dcr->jcr, M_FATAL, 0, _("Could not create JobMedia record for Volume=\"%s\" Job=%s\n"),
716 dcr->VolCatInfo.VolCatName, dcr->jcr->Job);
720 dcr->block->write_failed = true;
721 if (!dev->weof(1)) { /* end the tape */
722 dev->VolCatInfo.VolCatErrors++;
723 Jmsg(dcr->jcr, M_ERROR, 0, _("Error writing final EOF to tape. This Volume may not be readable.\n"
726 Dmsg0(100, "WEOF error.\n");
729 ok = write_ansi_ibm_labels(dcr, ANSI_EOV_LABEL, dev->VolHdr.VolumeName);
731 bstrncpy(dev->VolCatInfo.VolCatStatus, "Full", sizeof(dev->VolCatInfo.VolCatStatus));
732 dev->VolCatInfo.VolCatFiles = dev->file; /* set number of files */
735 if (!dvd_write_part(dcr)) { /* write last part */
736 dev->VolCatInfo.VolCatErrors++;
737 Jmsg(dcr->jcr, M_FATAL, 0, _("Error writing final part to DVD. "
738 "This Volume may not be readable.\n%s"),
741 Dmsg0(100, "dvd_write_part error.\n");
743 dev->VolCatInfo.VolCatParts = dev->num_dvd_parts;
746 if (!dir_update_volume_info(dcr, false)) {
749 Dmsg1(100, "dir_update_volume_info terminate writing -- %s\n", ok?"OK":"ERROR");
752 * Walk through all attached dcrs setting flag to call
753 * set_new_file_parameters() when that dcr is next used.
756 foreach_dlist(mdcr, dev->attached_dcrs) {
757 if (mdcr->jcr->JobId == 0) {
760 mdcr->NewFile = true; /* set reminder to do set_new_file_params */
762 /* Set new file/block parameters for current dcr */
763 set_new_file_parameters(dcr);
765 if (ok && dev->has_cap(CAP_TWOEOF) && !dev->weof(1)) { /* end the tape */
766 dev->VolCatInfo.VolCatErrors++;
767 /* This may not be fatal since we already wrote an EOF */
768 Jmsg(dcr->jcr, M_ERROR, 0, "%s", dev->errmsg);
771 dev->set_ateot(); /* no more writing this tape */
772 Dmsg1(100, "Leave terminate_writing_volume -- %s\n", ok?"OK":"ERROR");
777 * Do bookkeeping when a new file is created on a Volume. This is
778 * also done for disk files to generate the jobmedia records for
781 static bool do_new_file_bookkeeping(DCR *dcr)
783 DEVICE *dev = dcr->dev;
786 /* Create a JobMedia record so restore can seek */
787 if (!dir_create_jobmedia_record(dcr)) {
788 Dmsg0(190, "Error from create_job_media.\n");
789 dev->dev_errno = EIO;
790 Jmsg(jcr, M_FATAL, 0, _("Could not create JobMedia record for Volume=\"%s\" Job=%s\n"),
791 dcr->VolCatInfo.VolCatName, jcr->Job);
792 terminate_writing_volume(dcr);
793 dev->dev_errno = EIO;
796 dev->VolCatInfo.VolCatFiles = dev->file;
797 if (!dir_update_volume_info(dcr, false)) {
798 Dmsg0(190, "Error from update_vol_info.\n");
799 terminate_writing_volume(dcr);
800 dev->dev_errno = EIO;
803 Dmsg0(100, "dir_update_volume_info max file size -- OK\n");
806 * Walk through all attached dcrs setting flag to call
807 * set_new_file_parameters() when that dcr is next used.
810 foreach_dlist(mdcr, dev->attached_dcrs) {
811 if (mdcr->jcr->JobId == 0) {
814 mdcr->NewFile = true; /* set reminder to do set_new_file_params */
816 /* Set new file/block parameters for current dcr */
817 set_new_file_parameters(dcr);
822 * Do all checks for DVD sizes during writing.
824 static bool do_dvd_size_checks(DCR *dcr)
826 DEVICE *dev = dcr->dev;
828 DEV_BLOCK *block = dcr->block;
830 /* Don't go further if the device is not a dvd */
831 if (!dev->is_dvd()) {
835 /* Limit maximum part size to value specified by user
837 if (dev->max_part_size > 0 && ((dev->part_size + block->binbuf) >= dev->max_part_size)) {
838 if (dev->part < dev->num_dvd_parts) {
839 Jmsg3(dcr->jcr, M_FATAL, 0, _("Error while writing, current part number"
840 " is less than the total number of parts (%d/%d, device=%s)\n"),
841 dev->part, dev->num_dvd_parts, dev->print_name());
842 dev->dev_errno = EIO;
846 if (dvd_open_next_part(dcr) < 0) {
847 Jmsg2(dcr->jcr, M_FATAL, 0, _("Unable to open device next part %s: ERR=%s\n"),
848 dev->print_name(), dev->bstrerror());
849 dev->dev_errno = EIO;
853 dev->VolCatInfo.VolCatParts = dev->num_dvd_parts;
855 if (!dir_update_volume_info(dcr, false)) {
856 Dmsg0(190, "Error from update_vol_info.\n");
857 dev->dev_errno = EIO;
862 dev->update_freespace();
864 if (!dev->is_freespace_ok()) { /* Error while getting free space */
865 char ed1[50], ed2[50];
866 Dmsg1(100, "Cannot get free space on the device ERR=%s.\n", dev->errmsg);
867 Jmsg(jcr, M_FATAL, 0, _("End of Volume \"%s\" at %u:%u on device %s "
868 "(part_size=%s, free_space=%s, free_space_errno=%d, errmsg=%s).\n"),
869 dev->VolCatInfo.VolCatName,
870 dev->file, dev->block_num, dev->print_name(),
871 edit_uint64_with_commas(dev->part_size, ed1), edit_uint64_with_commas(dev->free_space, ed2),
872 dev->free_space_errno, dev->errmsg);
873 dev->dev_errno = dev->free_space_errno;
877 if ((dev->is_freespace_ok() && (dev->part_size + block->binbuf) >= dev->free_space)) {
878 char ed1[50], ed2[50];
879 Dmsg0(100, "==== Just enough free space on the device to write the current part...\n");
880 Jmsg(jcr, M_INFO, 0, _("End of Volume \"%s\" at %u:%u on device %s "
881 "(part_size=%s, free_space=%s, free_space_errno=%d).\n"),
882 dev->VolCatInfo.VolCatName,
883 dev->file, dev->block_num, dev->print_name(),
884 edit_uint64_with_commas(dev->part_size, ed1), edit_uint64_with_commas(dev->free_space, ed2),
885 dev->free_space_errno);
886 terminate_writing_volume(dcr);
887 dev->dev_errno = ENOSPC;
895 * Read block with locking
898 bool read_block_from_device(DCR *dcr, bool check_block_numbers)
901 DEVICE *dev = dcr->dev;
902 Dmsg0(250, "Enter read_block_from_device\n");
904 ok = read_block_from_dev(dcr, check_block_numbers);
906 Dmsg0(250, "Leave read_block_from_device\n");
911 * Read the next block into the block structure and unserialize
912 * the block header. For a file, the block may be partially
913 * or completely in the current buffer.
915 bool read_block_from_dev(DCR *dcr, bool check_block_numbers)
919 uint32_t BlockNumber;
922 DEVICE *dev = dcr->dev;
923 DEV_BLOCK *block = dcr->block;
925 ASSERT(dev->is_open());
931 Dmsg1(250, "Full read in read_block_from_device() len=%d\n",
935 dev->dev_errno = EIO;
936 Mmsg1(dev->errmsg, _("Block buffer size looping problem on device %s\n"),
938 Jmsg(jcr, M_ERROR, 0, "%s", dev->errmsg);
943 // #define lots_of_debug
945 if (dev->at_eof() && dev->is_dvd()) {
946 Dmsg1(100, "file_size=%u\n",(unsigned int)dev->file_size);
947 Dmsg1(100, "file_addr=%u\n",(unsigned int)dev->file_addr);
948 Dmsg1(100, "lseek=%u\n",(unsigned int)lseek(dev->fd(), 0, SEEK_CUR));
949 Dmsg1(100, "part_start=%u\n",(unsigned int)dev->part_start);
950 Dmsg1(100, "part_size=%u\n", (unsigned int)dev->part_size);
951 Dmsg2(100, "part=%u num_dvd_parts=%u\n", dev->part, dev->num_dvd_parts);
952 Dmsg1(100, "VolCatInfo.VolCatParts=%u\n", (unsigned int)dev->VolCatInfo.VolCatParts);
953 Dmsg3(100, "Tests : %d %d %d\n", (dev->VolCatInfo.VolCatParts > 0),
954 ((dev->file_addr-dev->part_start) == dev->part_size),
955 (dev->part <= dev->VolCatInfo.VolCatParts));
959 /* Check for DVD part file end */
960 if (dev->at_eof() && dev->is_dvd() && dev->num_dvd_parts > 0 &&
961 dev->part <= dev->num_dvd_parts) {
962 Dmsg0(400, "Call dvd_open_next_part\n");
963 if (dvd_open_next_part(dcr) < 0) {
964 Jmsg3(dcr->jcr, M_FATAL, 0, _("Unable to open device part=%d %s: ERR=%s\n"),
965 dev->part, dev->print_name(), dev->bstrerror());
966 dev->dev_errno = EIO;
975 if ((retry > 0 && stat == -1 && errno == EBUSY)) {
977 Dmsg4(100, "===== read retry=%d stat=%d errno=%d: ERR=%s\n",
978 retry, stat, errno, be.bstrerror());
979 bmicrosleep(10, 0); /* pause a bit if busy or lots of errors */
982 stat = dev->read(block->buf, (size_t)block->buf_len);
984 } while (stat == -1 && (errno == EBUSY || errno == EINTR || errno == EIO) && retry++ < 3);
988 Dmsg1(250, "Read device got: ERR=%s\n", be.bstrerror());
990 Mmsg5(dev->errmsg, _("Read error on fd=%d at file:blk %u:%u on device %s. ERR=%s.\n"),
991 dev->fd(), dev->file, dev->block_num, dev->print_name(), be.bstrerror());
992 Jmsg(jcr, M_ERROR, 0, "%s", dev->errmsg);
993 if (dev->at_eof()) { /* EOF just seen? */
994 dev->set_eot(); /* yes, error => EOT */
998 Dmsg3(250, "Read device got %d bytes at %u:%u\n", stat,
999 dev->file, dev->block_num);
1000 if (stat == 0) { /* Got EOF ! */
1002 block->read_len = 0;
1003 Mmsg3(dev->errmsg, _("Read zero bytes at %u:%u on device %s.\n"),
1004 dev->file, dev->block_num, dev->print_name());
1005 if (dev->at_eof()) { /* EOF already read? */
1006 dev->set_eot(); /* yes, 2 EOFs => EOT */
1010 return false; /* return eof */
1013 /* Continue here for successful read */
1015 block->read_len = stat; /* save length read */
1016 if (block->read_len == 80 &&
1017 (dcr->VolCatInfo.LabelType != B_BACULA_LABEL ||
1018 dcr->device->label_type != B_BACULA_LABEL)) {
1019 /* ***FIXME*** should check label */
1020 Dmsg2(100, "Ignore 80 byte ANSI label at %u:%u\n", dev->file, dev->block_num);
1022 goto reread; /* skip ANSI/IBM label */
1025 if (block->read_len < BLKHDR2_LENGTH) {
1026 dev->dev_errno = EIO;
1027 Mmsg4(dev->errmsg, _("Volume data error at %u:%u! Very short block of %d bytes on device %s discarded.\n"),
1028 dev->file, dev->block_num, block->read_len, dev->print_name());
1029 Jmsg(jcr, M_ERROR, 0, "%s", dev->errmsg);
1030 dev->set_short_block();
1031 block->read_len = block->binbuf = 0;
1032 return false; /* return error */
1035 BlockNumber = block->BlockNumber + 1;
1036 if (!unser_block_header(jcr, dev, block)) {
1038 dev->file_addr += block->read_len;
1039 dev->file_size += block->read_len;
1046 * If the block is bigger than the buffer, we reposition for
1047 * re-reading the block, allocate a buffer of the correct size,
1050 if (block->block_len > block->buf_len) {
1051 dev->dev_errno = EIO;
1052 Mmsg2(dev->errmsg, _("Block length %u is greater than buffer %u. Attempting recovery.\n"),
1053 block->block_len, block->buf_len);
1054 Jmsg(jcr, M_ERROR, 0, "%s", dev->errmsg);
1055 Pmsg1(000, "%s", dev->errmsg);
1056 /* Attempt to reposition to re-read the block */
1057 if (dev->is_tape()) {
1058 Dmsg0(250, "BSR for reread; block too big for buffer.\n");
1060 Jmsg(jcr, M_ERROR, 0, "%s", dev->bstrerror());
1061 block->read_len = 0;
1065 Dmsg0(250, "Seek to beginning of block for reread.\n");
1066 boffset_t pos = dev->lseek(dcr, (boffset_t)0, SEEK_CUR); /* get curr pos */
1067 pos -= block->read_len;
1068 dev->lseek(dcr, pos, SEEK_SET);
1069 dev->file_addr = pos;
1071 Mmsg1(dev->errmsg, _("Setting block buffer size to %u bytes.\n"), block->block_len);
1072 Jmsg(jcr, M_INFO, 0, "%s", dev->errmsg);
1073 Pmsg1(000, "%s", dev->errmsg);
1074 /* Set new block length */
1075 dev->max_block_size = block->block_len;
1076 block->buf_len = block->block_len;
1077 free_memory(block->buf);
1078 block->buf = get_memory(block->buf_len);
1081 goto reread; /* re-read block with correct block size */
1084 if (block->block_len > block->read_len) {
1085 dev->dev_errno = EIO;
1086 Mmsg4(dev->errmsg, _("Volume data error at %u:%u! Short block of %d bytes on device %s discarded.\n"),
1087 dev->file, dev->block_num, block->read_len, dev->print_name());
1088 Jmsg(jcr, M_ERROR, 0, "%s", dev->errmsg);
1089 dev->set_short_block();
1090 block->read_len = block->binbuf = 0;
1091 return false; /* return error */
1094 dev->clear_short_block();
1096 dev->VolCatInfo.VolCatReads++;
1097 dev->VolCatInfo.VolCatRBytes += block->read_len;
1099 dev->EndBlock = dev->block_num;
1100 dev->EndFile = dev->file;
1103 /* Update dcr values */
1104 if (dev->is_tape()) {
1105 dcr->EndBlock = dev->EndBlock;
1106 dcr->EndFile = dev->EndFile;
1108 uint64_t addr = dev->file_addr + block->read_len - 1;
1109 dcr->EndBlock = (uint32_t)addr;
1110 dcr->EndFile = (uint32_t)(addr >> 32);
1111 dev->block_num = dcr->EndBlock;
1112 dev->file = dcr->EndFile;
1114 dcr->VolMediaId = dev->VolCatInfo.VolMediaId;
1115 dev->file_addr += block->read_len;
1116 dev->file_size += block->read_len;
1119 * If we read a short block on disk,
1120 * seek to beginning of next block. This saves us
1121 * from shuffling blocks around in the buffer. Take a
1122 * look at this from an efficiency stand point later, but
1123 * it should only happen once at the end of each job.
1125 * I've been lseek()ing negative relative to SEEK_CUR for 30
1126 * years now. However, it seems that with the new off_t definition,
1127 * it is not possible to seek negative amounts, so we use two
1128 * lseek(). One to get the position, then the second to do an
1129 * absolute positioning -- so much for efficiency. KES Sep 02.
1131 Dmsg0(250, "At end of read block\n");
1132 if (block->read_len > block->block_len && !dev->is_tape()) {
1134 boffset_t pos = dev->lseek(dcr, (boffset_t)0, SEEK_CUR); /* get curr pos */
1135 Dmsg1(250, "Current lseek pos=%s\n", edit_int64(pos, ed1));
1136 pos -= (block->read_len - block->block_len);
1137 dev->lseek(dcr, pos, SEEK_SET);
1138 Dmsg3(250, "Did lseek pos=%s blk_size=%d rdlen=%d\n",
1139 edit_int64(pos, ed1), block->block_len,
1141 dev->file_addr = pos;
1142 dev->file_size = pos;
1144 Dmsg2(250, "Exit read_block read_len=%d block_len=%d\n",
1145 block->read_len, block->block_len);
1146 block->block_read = true;