3 * block.c -- tape block handling functions
5 * Kern Sibbald, March MMI
6 * added BB02 format October MMII
12 Copyright (C) 2001-2005 Kern Sibbald
14 This program is free software; you can redistribute it and/or
15 modify it under the terms of the GNU General Public License
16 version 2 as ammended with additional clauses defined in the
17 file LICENSE in the main source directory.
19 This program is distributed in the hope that it will be useful,
20 but WITHOUT ANY WARRANTY; without even the implied warranty of
21 MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the
22 the file LICENSE for additional details.
30 extern int debug_level;
31 static bool terminate_writing_volume(DCR *dcr);
32 static bool do_new_file_bookkeeping(DCR *dcr);
33 static bool do_dvd_size_checks(DCR *dcr);
34 static void reread_last_block(DCR *dcr);
37 * Dump the block header, then walk through
38 * the block printing out the record headers.
40 void dump_block(DEV_BLOCK *b, const char *msg)
44 char Id[BLKHDR_ID_LENGTH+1];
45 uint32_t CheckSum, BlockCheckSum;
48 uint32_t VolSessionId, VolSessionTime, data_len;
53 unser_begin(b->buf, BLKHDR1_LENGTH);
54 unser_uint32(CheckSum);
55 unser_uint32(block_len);
56 unser_uint32(BlockNumber);
57 unser_bytes(Id, BLKHDR_ID_LENGTH);
58 ASSERT(unser_length(b->buf) == BLKHDR1_LENGTH);
59 Id[BLKHDR_ID_LENGTH] = 0;
61 unser_uint32(VolSessionId);
62 unser_uint32(VolSessionTime);
66 VolSessionId = VolSessionTime = 0;
71 if (block_len > 100000) {
72 Dmsg3(20, "Dump block %s 0x%x blocksize too big %u\n", msg, b, block_len);
76 BlockCheckSum = bcrc32((uint8_t *)b->buf+BLKHDR_CS_LENGTH,
77 block_len-BLKHDR_CS_LENGTH);
78 Pmsg6(000, "Dump block %s %x: size=%d BlkNum=%d\n"
79 " Hdrcksum=%x cksum=%x\n",
80 msg, b, block_len, BlockNumber, CheckSum, BlockCheckSum);
82 while (p < (b->buf + block_len+WRITE_RECHDR_LENGTH)) {
83 unser_begin(p, WRITE_RECHDR_LENGTH);
84 if (rhl == RECHDR1_LENGTH) {
85 unser_uint32(VolSessionId);
86 unser_uint32(VolSessionTime);
88 unser_int32(FileIndex);
90 unser_uint32(data_len);
91 Pmsg6(000, " Rec: VId=%u VT=%u FI=%s Strm=%s len=%d p=%x\n",
92 VolSessionId, VolSessionTime, FI_to_ascii(FileIndex),
93 stream_to_ascii(Stream, FileIndex), data_len, p);
99 * Create a new block structure.
100 * We pass device so that the block can inherit the
101 * min and max block sizes.
103 DEV_BLOCK *new_block(DEVICE *dev)
105 DEV_BLOCK *block = (DEV_BLOCK *)get_memory(sizeof(DEV_BLOCK));
107 memset(block, 0, sizeof(DEV_BLOCK));
109 /* If the user has specified a max_block_size, use it as the default */
110 if (dev->max_block_size == 0) {
111 block->buf_len = DEFAULT_BLOCK_SIZE;
113 block->buf_len = dev->max_block_size;
116 block->block_len = block->buf_len; /* default block size */
117 block->buf = get_memory(block->buf_len);
119 block->BlockVer = BLOCK_VER; /* default write version */
120 Dmsg1(350, "Returning new block=%x\n", block);
126 * Duplicate an existing block (eblock)
128 DEV_BLOCK *dup_block(DEV_BLOCK *eblock)
130 DEV_BLOCK *block = (DEV_BLOCK *)get_memory(sizeof(DEV_BLOCK));
131 int buf_len = sizeof_pool_memory(eblock->buf);
133 memcpy(block, eblock, sizeof(DEV_BLOCK));
134 block->buf = get_memory(buf_len);
135 memcpy(block->buf, eblock->buf, buf_len);
141 * Only the first block checksum error was reported.
142 * If there are more, report it now.
144 void print_block_read_errors(JCR *jcr, DEV_BLOCK *block)
146 if (block->read_errors > 1) {
147 Jmsg(jcr, M_ERROR, 0, _("%d block read errors not printed.\n"),
155 void free_block(DEV_BLOCK *block)
157 Dmsg1(199, "free_block buffer %x\n", block->buf);
158 free_memory(block->buf);
159 Dmsg1(199, "free_block block %x\n", block);
160 free_memory((POOLMEM *)block);
163 /* Empty the block -- for writing */
164 void empty_block(DEV_BLOCK *block)
166 block->binbuf = WRITE_BLKHDR_LENGTH;
167 block->bufp = block->buf + block->binbuf;
169 block->write_failed = false;
170 block->block_read = false;
171 block->FirstIndex = block->LastIndex = 0;
175 * Create block header just before write. The space
176 * in the buffer should have already been reserved by
179 void ser_block_header(DEV_BLOCK *block)
182 uint32_t CheckSum = 0;
183 uint32_t block_len = block->binbuf;
185 Dmsg1(390, "ser_block_header: block_len=%d\n", block_len);
186 ser_begin(block->buf, BLKHDR2_LENGTH);
187 ser_uint32(CheckSum);
188 ser_uint32(block_len);
189 ser_uint32(block->BlockNumber);
190 ser_bytes(WRITE_BLKHDR_ID, BLKHDR_ID_LENGTH);
191 if (BLOCK_VER >= 2) {
192 ser_uint32(block->VolSessionId);
193 ser_uint32(block->VolSessionTime);
196 /* Checksum whole block except for the checksum */
197 CheckSum = bcrc32((uint8_t *)block->buf+BLKHDR_CS_LENGTH,
198 block_len-BLKHDR_CS_LENGTH);
199 Dmsg1(390, "ser_bloc_header: checksum=%x\n", CheckSum);
200 ser_begin(block->buf, BLKHDR2_LENGTH);
201 ser_uint32(CheckSum); /* now add checksum to block header */
205 * Unserialize the block header for reading block.
206 * This includes setting all the buffer pointers correctly.
208 * Returns: false on failure (not a block)
211 static bool unser_block_header(JCR *jcr, DEVICE *dev, DEV_BLOCK *block)
214 char Id[BLKHDR_ID_LENGTH+1];
215 uint32_t CheckSum, BlockCheckSum;
218 uint32_t BlockNumber;
221 unser_begin(block->buf, BLKHDR_LENGTH);
222 unser_uint32(CheckSum);
223 unser_uint32(block_len);
224 unser_uint32(BlockNumber);
225 unser_bytes(Id, BLKHDR_ID_LENGTH);
226 ASSERT(unser_length(block->buf) == BLKHDR1_LENGTH);
228 Id[BLKHDR_ID_LENGTH] = 0;
230 bhl = BLKHDR1_LENGTH;
232 block->bufp = block->buf + bhl;
233 if (strncmp(Id, BLKHDR1_ID, BLKHDR_ID_LENGTH) != 0) {
234 dev->dev_errno = EIO;
235 Mmsg4(dev->errmsg, _("Volume data error at %u:%u! Wanted ID: \"%s\", got \"%s\". Buffer discarded.\n"),
236 dev->file, dev->block_num, BLKHDR1_ID, Id);
237 if (block->read_errors == 0 || verbose >= 2) {
238 Jmsg(jcr, M_ERROR, 0, "%s", dev->errmsg);
240 block->read_errors++;
243 } else if (Id[3] == '2') {
244 unser_uint32(block->VolSessionId);
245 unser_uint32(block->VolSessionTime);
246 bhl = BLKHDR2_LENGTH;
248 block->bufp = block->buf + bhl;
249 if (strncmp(Id, BLKHDR2_ID, BLKHDR_ID_LENGTH) != 0) {
250 dev->dev_errno = EIO;
251 Mmsg4(dev->errmsg, _("Volume data error at %u:%u! Wanted ID: \"%s\", got \"%s\". Buffer discarded.\n"),
252 dev->file, dev->block_num, BLKHDR2_ID, Id);
253 if (block->read_errors == 0 || verbose >= 2) {
254 Jmsg(jcr, M_ERROR, 0, "%s", dev->errmsg);
256 block->read_errors++;
260 dev->dev_errno = EIO;
261 Mmsg4(dev->errmsg, _("Volume data error at %u:%u! Wanted ID: \"%s\", got \"%s\". Buffer discarded.\n"),
262 dev->file, dev->block_num, BLKHDR2_ID, Id);
263 if (block->read_errors == 0 || verbose >= 2) {
264 Jmsg(jcr, M_ERROR, 0, "%s", dev->errmsg);
266 block->read_errors++;
267 unser_uint32(block->VolSessionId);
268 unser_uint32(block->VolSessionTime);
273 if (block_len > MAX_BLOCK_LENGTH) {
274 dev->dev_errno = EIO;
275 Mmsg3(dev->errmsg, _("Volume data error at %u:%u! Block length %u is insane (too large), probably due to a bad archive.\n"),
276 dev->file, dev->block_num, block_len);
277 if (block->read_errors == 0 || verbose >= 2) {
278 Jmsg(jcr, M_ERROR, 0, "%s", dev->errmsg);
280 block->read_errors++;
284 Dmsg1(390, "unser_block_header block_len=%d\n", block_len);
285 /* Find end of block or end of buffer whichever is smaller */
286 if (block_len > block->read_len) {
287 block_end = block->read_len;
289 block_end = block_len;
291 block->binbuf = block_end - bhl;
292 block->block_len = block_len;
293 block->BlockNumber = BlockNumber;
294 Dmsg3(390, "Read binbuf = %d %d block_len=%d\n", block->binbuf,
296 if (block_len <= block->read_len) {
297 BlockCheckSum = bcrc32((uint8_t *)block->buf+BLKHDR_CS_LENGTH,
298 block_len-BLKHDR_CS_LENGTH);
299 if (BlockCheckSum != CheckSum) {
300 dev->dev_errno = EIO;
301 Mmsg6(dev->errmsg, _("Volume data error at %u:%u!\n"
302 "Block checksum mismatch in block=%u len=%d: calc=%x blk=%x\n"),
303 dev->file, dev->block_num, (unsigned)BlockNumber,
304 block_len, BlockCheckSum, CheckSum);
305 if (block->read_errors == 0 || verbose >= 2) {
306 Jmsg(jcr, M_ERROR, 0, "%s", dev->errmsg);
308 block->read_errors++;
318 * Write a block to the device, with locking and unlocking
320 * Returns: true on success
324 bool write_block_to_device(DCR *dcr)
327 DEVICE *dev = dcr->dev;
331 stat = write_block_to_spool_file(dcr);
335 if (!dcr->dev_locked) {
340 * If a new volume has been mounted since our last write
341 * Create a JobMedia record for the previous volume written,
342 * and set new parameters to write this volume
343 * The same applies for if we are in a new file.
345 if (dcr->NewVol || dcr->NewFile) {
346 if (job_canceled(jcr)) {
350 /* Create a jobmedia record for this job */
351 if (!dir_create_jobmedia_record(dcr)) {
352 dev->dev_errno = EIO;
353 Jmsg(jcr, M_FATAL, 0, _("Could not create JobMedia record for Volume=\"%s\" Job=%s\n"),
354 dcr->VolCatInfo.VolCatName, jcr->Job);
355 set_new_volume_parameters(dcr);
360 /* Note, setting a new volume also handles any pending new file */
361 set_new_volume_parameters(dcr);
362 dcr->NewFile = false; /* this handled for new file too */
364 set_new_file_parameters(dcr);
368 if (!write_block_to_dev(dcr)) {
369 if (job_canceled(jcr) || jcr->JobType == JT_SYSTEM) {
372 stat = fixup_device_block_write_error(dcr);
377 if (!dcr->dev_locked) {
384 * Write a block to the device
386 * Returns: true on success or EOT
387 * false on hard error
389 bool write_block_to_dev(DCR *dcr)
392 uint32_t wlen; /* length to write */
393 int hit_max1, hit_max2;
395 DEVICE *dev = dcr->dev;
397 DEV_BLOCK *block = dcr->block;
399 #ifdef NO_TAPE_WRITE_TEST
403 ASSERT(block->binbuf == ((uint32_t) (block->bufp - block->buf)));
405 /* dump_block(block, "before write"); */
406 if (dev->state & ST_WEOT) {
407 Dmsg0(100, "return write_block_to_dev with ST_WEOT\n");
408 dev->dev_errno = ENOSPC;
409 Jmsg(jcr, M_FATAL, 0, _("Cannot write block. Device at EOM.\n"));
412 if (!dev->can_append()) {
413 dev->dev_errno = EIO;
414 Jmsg(jcr, M_FATAL, 0, _("Attempt to write on read-only Volume.\n"));
417 wlen = block->binbuf;
418 if (wlen <= WRITE_BLKHDR_LENGTH) { /* Does block have data in it? */
419 Dmsg0(100, "return write_block_to_dev no data to write\n");
423 * Clear to the end of the buffer if it is not full,
424 * and on tape devices, apply min and fixed blocking.
426 if (wlen != block->buf_len) {
427 uint32_t blen; /* current buffer length */
429 Dmsg2(200, "binbuf=%d buf_len=%d\n", block->binbuf, block->buf_len);
432 /* Adjust write size to min/max for tapes only */
433 if (dev->is_tape()) {
434 /* check for fixed block size */
435 if (dev->min_block_size == dev->max_block_size) {
436 wlen = block->buf_len; /* fixed block size already rounded */
437 /* Check for min block size */
438 } else if (wlen < dev->min_block_size) {
439 wlen = ((dev->min_block_size + TAPE_BSIZE - 1) / TAPE_BSIZE) * TAPE_BSIZE;
440 /* Ensure size is rounded */
442 wlen = ((wlen + TAPE_BSIZE - 1) / TAPE_BSIZE) * TAPE_BSIZE;
446 memset(block->bufp, 0, wlen-blen); /* clear garbage */
450 ser_block_header(block);
452 /* Limit maximum Volume size to value specified by user */
453 hit_max1 = (dev->max_volume_size > 0) &&
454 ((dev->VolCatInfo.VolCatBytes + block->binbuf)) >= dev->max_volume_size;
455 hit_max2 = (dev->VolCatInfo.VolCatMaxBytes > 0) &&
456 ((dev->VolCatInfo.VolCatBytes + block->binbuf)) >= dev->VolCatInfo.VolCatMaxBytes;
457 if (hit_max1 || hit_max2) {
460 Dmsg0(10, "==== Output bytes Triggered medium max capacity.\n");
462 max_cap = dev->max_volume_size;
464 max_cap = dev->VolCatInfo.VolCatMaxBytes;
466 Jmsg(jcr, M_INFO, 0, _("User defined maximum volume capacity %s exceeded on device %s.\n"),
467 edit_uint64_with_commas(max_cap, ed1), dev->dev_name);
468 terminate_writing_volume(dcr);
469 reread_last_block(dcr); /* DEBUG */
470 dev->dev_errno = ENOSPC;
474 /* Limit maximum File size on volume to user specified value */
475 if ((dev->max_file_size > 0) &&
476 (dev->file_size+block->binbuf) >= dev->max_file_size) {
477 dev->file_size = 0; /* reset file size */
479 if (weof_dev(dev, 1) != 0) { /* write eof */
480 Dmsg0(190, "WEOF error in max file size.\n");
481 Jmsg(jcr, M_FATAL, 0, _("Unable to write EOF. ERR=%s\n"),
483 terminate_writing_volume(dcr);
484 dev->dev_errno = ENOSPC;
487 if (!write_ansi_ibm_labels(dcr, ANSI_EOF_LABEL, dev->VolHdr.VolName)) {
491 if (!do_new_file_bookkeeping(dcr)) {
492 /* Error message already sent */
497 if (!do_dvd_size_checks(dcr)) {
498 /* Error message already sent */
502 dev->VolCatInfo.VolCatWrites++;
503 Dmsg1(300, "Write block of %u bytes\n", wlen);
504 #ifdef DEBUG_BLOCK_ZEROING
505 uint32_t *bp = (uint32_t *)block->buf;
506 if (bp[0] == 0 && bp[1] == 0 && bp[2] == 0 && block->buf[12] == 0) {
507 Jmsg0(jcr, M_ABORT, 0, "Write block header zeroed.\n");
514 stat = write(dev->fd, block->buf, (size_t)wlen);
516 #ifdef DEBUG_BLOCK_ZEROING
517 if (bp[0] == 0 && bp[1] == 0 && bp[2] == 0 && block->buf[12] == 0) {
518 Jmsg0(jcr, M_ABORT, 0, "Write block header zeroed.\n");
522 if (stat != (ssize_t)wlen) {
523 /* Some devices simply report EIO when the volume is full.
524 * With a little more thought we may be able to check
525 * capacity and distinguish real errors and EOT
526 * conditions. In any case, we probably want to
527 * simulate an End of Medium.
531 clrerror_dev(dev, -1);
532 if (dev->dev_errno == 0) {
533 dev->dev_errno = ENOSPC; /* out of space */
535 if (dev->dev_errno != ENOSPC) {
536 Jmsg4(jcr, M_ERROR, 0, _("Write error at %u:%u on device %s. ERR=%s.\n"),
537 dev->file, dev->block_num, dev->dev_name, be.strerror());
540 dev->dev_errno = ENOSPC; /* out of space */
542 if (dev->dev_errno == ENOSPC) {
543 Jmsg(jcr, M_INFO, 0, _("End of Volume \"%s\" at %u:%u on device %s. Write of %u bytes got %d.\n"),
544 dev->VolCatInfo.VolCatName,
545 dev->file, dev->block_num, dev->print_name(), wlen, stat);
547 Dmsg6(100, "=== Write error. size=%u rtn=%d dev_blk=%d blk_blk=%d errno=%d: ERR=%s\n",
548 wlen, stat, dev->block_num, block->BlockNumber, dev->dev_errno, strerror(dev->dev_errno));
550 ok = terminate_writing_volume(dcr);
551 if (!ok && !forge_on) {
555 reread_last_block(dcr);
560 /* We successfully wrote the block, now do housekeeping */
562 dev->VolCatInfo.VolCatBytes += block->binbuf;
563 dev->VolCatInfo.VolCatBlocks++;
564 dev->EndBlock = dev->block_num;
565 dev->EndFile = dev->file;
567 block->BlockNumber++;
569 /* Update dcr values */
570 if (dev->is_tape()) {
571 dcr->EndBlock = dev->EndBlock;
572 dcr->EndFile = dev->EndFile;
574 /* Save address of start of block just written */
575 dcr->EndBlock = (uint32_t)dev->file_addr;
576 dcr->EndFile = (uint32_t)(dev->file_addr >> 32);
578 if (dcr->VolFirstIndex == 0 && block->FirstIndex > 0) {
579 dcr->VolFirstIndex = block->FirstIndex;
581 if (block->LastIndex > 0) {
582 dcr->VolLastIndex = block->LastIndex;
584 dcr->WroteVol = true;
585 dev->file_addr += wlen; /* update file address */
586 dev->file_size += wlen;
587 dev->part_size += wlen;
589 Dmsg2(300, "write_block: wrote block %d bytes=%d\n", dev->block_num, wlen);
594 static void reread_last_block(DCR *dcr)
596 #define CHECK_LAST_BLOCK
597 #ifdef CHECK_LAST_BLOCK
599 DEVICE *dev = dcr->dev;
601 DEV_BLOCK *block = dcr->block;
603 * If the device is a tape and it supports backspace record,
604 * we backspace over one or two eof marks depending on
605 * how many we just wrote, then over the last record,
606 * then re-read it and verify that the block number is
609 if (dev->is_tape() && dev_cap(dev, CAP_BSR)) {
610 /* Now back up over what we wrote and read the last block */
611 if (!bsf_dev(dev, 1)) {
614 Jmsg(jcr, M_ERROR, 0, _("Backspace file at EOT failed. ERR=%s\n"),
615 be.strerror(dev->dev_errno));
617 if (ok && dev_cap(dev, CAP_TWOEOF) && !bsf_dev(dev, 1)) {
620 Jmsg(jcr, M_ERROR, 0, _("Backspace file at EOT failed. ERR=%s\n"),
621 be.strerror(dev->dev_errno));
623 /* Backspace over record */
624 if (ok && !bsr_dev(dev, 1)) {
627 Jmsg(jcr, M_ERROR, 0, _("Backspace record at EOT failed. ERR=%s\n"),
628 be.strerror(dev->dev_errno));
630 * On FreeBSD systems, if the user got here, it is likely that his/her
631 * tape drive is "frozen". The correct thing to do is a
632 * rewind(), but if we do that, higher levels in cleaning up, will
633 * most likely write the EOS record over the beginning of the
634 * tape. The rewind *is* done later in mount.c when another
635 * tape is requested. Note, the clrerror_dev() call in bsr_dev()
636 * calls ioctl(MTCERRSTAT), which *should* fix the problem.
640 DEV_BLOCK *lblock = new_block(dev);
641 /* Note, this can destroy dev->errmsg */
643 if (!read_block_from_dev(dcr, NO_BLOCK_NUMBER_CHECK)) {
644 Jmsg(jcr, M_ERROR, 0, _("Re-read last block at EOT failed. ERR=%s"),
647 if (lblock->BlockNumber+1 == block->BlockNumber) {
648 Jmsg(jcr, M_INFO, 0, _("Re-read of last block succeeded.\n"));
650 Jmsg(jcr, M_ERROR, 0, _(
651 "Re-read of last block failed. Last block=%u Current block=%u.\n"),
652 lblock->BlockNumber, block->BlockNumber);
662 static bool terminate_writing_volume(DCR *dcr)
664 DEVICE *dev = dcr->dev;
667 /* Create a JobMedia record to indicated end of tape */
668 dev->VolCatInfo.VolCatFiles = dev->file;
669 if (!dir_create_jobmedia_record(dcr)) {
670 Dmsg0(190, "Error from create JobMedia\n");
671 dev->dev_errno = EIO;
672 Jmsg(dcr->jcr, M_FATAL, 0, _("Could not create JobMedia record for Volume=\"%s\" Job=%s\n"),
673 dcr->VolCatInfo.VolCatName, dcr->jcr->Job);
677 dcr->block->write_failed = true;
678 if (weof_dev(dev, 1) != 0) { /* end the tape */
679 dev->VolCatInfo.VolCatErrors++;
680 Jmsg(dcr->jcr, M_ERROR, 0, "Error writing final EOF to tape. This tape may not be readable.\n"
683 Dmsg0(100, "WEOF error.\n");
686 ok = write_ansi_ibm_labels(dcr, ANSI_EOV_LABEL, dev->VolHdr.VolName);
688 bstrncpy(dev->VolCatInfo.VolCatStatus, "Full", sizeof(dev->VolCatInfo.VolCatStatus));
689 dev->VolCatInfo.VolCatFiles = dev->file; /* set number of files */
690 dev->VolCatInfo.VolCatJobs++; /* increment number of jobs */
692 if (dev->is_dvd()) { /* Write the current (and last) part. */
696 if (!dir_update_volume_info(dcr, false)) {
699 Dmsg1(100, "dir_update_volume_info terminate writing -- %s\n", ok?"OK":"ERROR");
702 * Walk through all attached dcrs setting flag to call
703 * set_new_file_parameters() when that dcr is next used.
706 foreach_dlist(mdcr, dev->attached_dcrs) {
707 if (mdcr->jcr->JobId == 0) {
710 mdcr->NewFile = true; /* set reminder to do set_new_file_params */
712 /* Set new file/block parameters for current dcr */
713 set_new_file_parameters(dcr);
715 if (ok && dev_cap(dev, CAP_TWOEOF) && weof_dev(dev, 1) != 0) { /* end the tape */
716 dev->VolCatInfo.VolCatErrors++;
717 /* This may not be fatal since we already wrote an EOF */
718 Jmsg(dcr->jcr, M_ERROR, 0, "%s", dev->errmsg);
721 dev->set_eot(); /* no more writing this tape */
722 Dmsg1(100, "Leave terminate_writing_volume -- %s\n", ok?"OK":"ERROR");
727 * Do bookkeeping when a new file is created on a Volume. This is
728 * also done for disk files to generate the jobmedia records for
731 static bool do_new_file_bookkeeping(DCR *dcr)
733 DEVICE *dev = dcr->dev;
736 /* Create a JobMedia record so restore can seek */
737 if (!dir_create_jobmedia_record(dcr)) {
738 Dmsg0(190, "Error from create_job_media.\n");
739 dev->dev_errno = EIO;
740 Jmsg(jcr, M_FATAL, 0, _("Could not create JobMedia record for Volume=\"%s\" Job=%s\n"),
741 dcr->VolCatInfo.VolCatName, jcr->Job);
742 terminate_writing_volume(dcr);
743 dev->dev_errno = EIO;
746 dev->VolCatInfo.VolCatFiles = dev->file;
747 if (!dir_update_volume_info(dcr, false)) {
748 Dmsg0(190, "Error from update_vol_info.\n");
749 terminate_writing_volume(dcr);
750 dev->dev_errno = EIO;
753 Dmsg0(100, "dir_update_volume_info max file size -- OK\n");
756 * Walk through all attached dcrs setting flag to call
757 * set_new_file_parameters() when that dcr is next used.
760 foreach_dlist(mdcr, dev->attached_dcrs) {
761 if (mdcr->jcr->JobId == 0) {
764 mdcr->NewFile = true; /* set reminder to do set_new_file_params */
766 /* Set new file/block parameters for current dcr */
767 set_new_file_parameters(dcr);
772 * Do all checks for DVD sizes during writing.
774 static bool do_dvd_size_checks(DCR *dcr)
776 DEVICE *dev = dcr->dev;
778 DEV_BLOCK *block = dcr->block;
780 /* Limit maximum part size to value specified by user (not applicable to tapes/fifos) */
781 if (!(dev->state & (ST_TAPE|ST_FIFO)) && dev->max_part_size > 0 &&
782 (dev->part_size + block->binbuf) >= dev->max_part_size) {
783 if (dev->part < dev->num_parts) {
784 Jmsg3(dcr->jcr, M_FATAL, 0, _("Error while writing, current part number is less than the total number of parts (%d/%d, device=%s)\n"),
785 dev->part, dev->num_parts, dev->print_name());
786 dev->dev_errno = EIO;
790 if (open_next_part(dev) < 0) {
791 Jmsg2(dcr->jcr, M_FATAL, 0, _("Unable to open device next part %s: ERR=%s\n"),
792 dev->print_name(), strerror_dev(dev));
793 dev->dev_errno = EIO;
797 dev->VolCatInfo.VolCatParts = dev->num_parts;
799 if (!dir_update_volume_info(dcr, false)) {
800 Dmsg0(190, "Error from update_vol_info.\n");
801 dev->dev_errno = EIO;
806 if (dev->free_space_errno < 0) { /* Error while getting free space */
807 char ed1[50], ed2[50];
808 Dmsg1(10, "Cannot get free space on the device ERR=%s.\n", dev->errmsg);
809 Jmsg(jcr, M_FATAL, 0, _("End of Volume \"%s\" at %u:%u on device %s (part_size=%s, free_space=%s, free_space_errno=%d, errmsg=%s).\n"),
810 dev->VolCatInfo.VolCatName,
811 dev->file, dev->block_num, dev->print_name(),
812 edit_uint64_with_commas(dev->part_size, ed1), edit_uint64_with_commas(dev->free_space, ed2),
813 dev->free_space_errno, dev->errmsg);
814 dev->dev_errno = -dev->free_space_errno;
818 if ((dev->free_space_errno > 0 && (dev->part_size + block->binbuf) >= dev->free_space)) {
819 char ed1[50], ed2[50];
820 Dmsg0(10, "==== Just enough free space on the device to write the current part...\n");
821 Jmsg(jcr, M_INFO, 0, _("End of Volume \"%s\" at %u:%u on device %s (part_size=%s, free_space=%s, free_space_errno=%d).\n"),
822 dev->VolCatInfo.VolCatName,
823 dev->file, dev->block_num, dev->print_name(),
824 edit_uint64_with_commas(dev->part_size, ed1), edit_uint64_with_commas(dev->free_space, ed2),
825 dev->free_space_errno);
826 terminate_writing_volume(dcr);
827 dev->dev_errno = ENOSPC;
835 * Read block with locking
838 bool read_block_from_device(DCR *dcr, bool check_block_numbers)
841 DEVICE *dev = dcr->dev;
842 Dmsg0(200, "Enter read_block_from_device\n");
844 ok = read_block_from_dev(dcr, check_block_numbers);
846 Dmsg0(200, "Leave read_block_from_device\n");
851 * Read the next block into the block structure and unserialize
852 * the block header. For a file, the block may be partially
853 * or completely in the current buffer.
855 bool read_block_from_dev(DCR *dcr, bool check_block_numbers)
859 uint32_t BlockNumber;
862 DEVICE *dev = dcr->dev;
863 DEV_BLOCK *block = dcr->block;
869 Dmsg1(200, "Full read() in read_block_from_device() len=%d\n",
873 dev->dev_errno = EIO;
874 Mmsg1(dev->errmsg, _("Block buffer size looping problem on device %s\n"),
876 Jmsg(jcr, M_ERROR, 0, "%s", dev->errmsg);
881 /*Dmsg1(200, "dev->file_size=%u\n",(unsigned int)dev->file_size);
882 Dmsg1(200, "lseek=%u\n",(unsigned int)lseek(dev->fd, 0, SEEK_CUR));
883 Dmsg1(200, "dev->part_start=%u\n",(unsigned int)dev->part_start);
884 Dmsg1(200, "dev->file_size-dev->part_start=%u\n",(unsigned int)dev->file_size-dev->part_start);
885 Dmsg1(200, "dev->part_size=%u\n", (unsigned int)dev->part_size);
886 Dmsg1(200, "dev->part=%u\n", (unsigned int)dev->part);
887 Dmsg1(200, "dev->VolCatInfo.VolCatParts=%u\n", (unsigned int)dev->VolCatInfo.VolCatParts);
888 Dmsg3(200, "Tests : %d %d %d\n", (dev->VolCatInfo.VolCatParts > 0), ((dev->file_size-dev->part_start) == dev->part_size), (dev->part <= dev->VolCatInfo.VolCatParts));*/
889 /* Check for part file end */
890 if ((dev->num_parts > 0) &&
891 ((dev->file_size-dev->part_start) == dev->part_size) &&
892 (dev->part < dev->num_parts)) {
893 if (open_next_part(dev) < 0) {
894 Jmsg2(dcr->jcr, M_FATAL, 0, _("Unable to open device next part %s: ERR=%s\n"),
895 dev->print_name(), strerror_dev(dev));
896 dev->dev_errno = EIO;
903 // uint32_t *bp = (uint32_t *)block->buf;
904 // Pmsg3(000, "Read %p %u at %llu\n", block->buf, block->buf_len, lseek(dev->fd, 0, SEEK_CUR));
906 stat = read(dev->fd, block->buf, (size_t)block->buf_len);
908 // Pmsg8(000, "stat=%d Csum=%u blen=%u bnum=%u %c%c%c%c\n",stat, bp[0],bp[1],bp[2],
909 // block->buf[12],block->buf[13],block->buf[14],block->buf[15]);
912 dev->VolCatInfo.VolCatErrors++;
914 } while (stat == -1 && (errno == EINTR || errno == EIO) && retry++ < 11);
917 clrerror_dev(dev, -1);
918 Dmsg1(200, "Read device got: ERR=%s\n", be.strerror());
920 Mmsg4(dev->errmsg, _("Read error at file:blk %u:%u on device %s. ERR=%s.\n"),
921 dev->file, dev->block_num, dev->dev_name, be.strerror());
922 Jmsg(jcr, M_ERROR, 0, "%s", dev->errmsg);
923 if (dev->at_eof()) { /* EOF just seen? */
924 dev->state |= ST_EOT; /* yes, error => EOT */
928 Dmsg3(200, "Read device got %d bytes at %u:%u\n", stat,
929 dev->file, dev->block_num);
930 if (stat == 0) { /* Got EOF ! */
933 Mmsg3(dev->errmsg, _("Read zero bytes at %u:%u on device %s.\n"),
934 dev->file, dev->block_num, dev->dev_name);
935 if (dev->at_eof()) { /* EOF already read? */
936 dev->state |= ST_EOT; /* yes, 2 EOFs => EOT */
940 return false; /* return eof */
942 /* Continue here for successful read */
943 block->read_len = stat; /* save length read */
944 if (block->read_len < BLKHDR2_LENGTH) {
945 dev->dev_errno = EIO;
946 Mmsg4(dev->errmsg, _("Volume data error at %u:%u! Very short block of %d bytes on device %s discarded.\n"),
947 dev->file, dev->block_num, block->read_len, dev->dev_name);
948 Jmsg(jcr, M_ERROR, 0, "%s", dev->errmsg);
949 dev->state |= ST_SHORT; /* set short block */
950 block->read_len = block->binbuf = 0;
951 return false; /* return error */
954 BlockNumber = block->BlockNumber + 1;
955 if (!unser_block_header(jcr, dev, block)) {
957 dev->file_addr += block->read_len;
958 dev->file_size += block->read_len;
965 * If the block is bigger than the buffer, we reposition for
966 * re-reading the block, allocate a buffer of the correct size,
969 if (block->block_len > block->buf_len) {
970 dev->dev_errno = EIO;
971 Mmsg2(dev->errmsg, _("Block length %u is greater than buffer %u. Attempting recovery.\n"),
972 block->block_len, block->buf_len);
973 Jmsg(jcr, M_ERROR, 0, "%s", dev->errmsg);
974 Pmsg1(000, "%s", dev->errmsg);
975 /* Attempt to reposition to re-read the block */
976 if (dev->is_tape()) {
977 Dmsg0(200, "BSR for reread; block too big for buffer.\n");
978 if (!bsr_dev(dev, 1)) {
979 Jmsg(jcr, M_ERROR, 0, "%s", strerror_dev(dev));
984 Dmsg0(200, "Seek to beginning of block for reread.\n");
985 off_t pos = lseek_dev(dev, (off_t)0, SEEK_CUR); /* get curr pos */
986 pos -= block->read_len;
987 lseek_dev(dev, pos, SEEK_SET);
988 dev->file_addr = pos;
990 Mmsg1(dev->errmsg, _("Setting block buffer size to %u bytes.\n"), block->block_len);
991 Jmsg(jcr, M_INFO, 0, "%s", dev->errmsg);
992 Pmsg1(000, "%s", dev->errmsg);
993 /* Set new block length */
994 dev->max_block_size = block->block_len;
995 block->buf_len = block->block_len;
996 free_memory(block->buf);
997 block->buf = get_memory(block->buf_len);
1000 goto reread; /* re-read block with correct block size */
1003 if (block->block_len > block->read_len) {
1004 dev->dev_errno = EIO;
1005 Mmsg4(dev->errmsg, _("Volume data error at %u:%u! Short block of %d bytes on device %s discarded.\n"),
1006 dev->file, dev->block_num, block->read_len, dev->dev_name);
1007 Jmsg(jcr, M_ERROR, 0, "%s", dev->errmsg);
1008 dev->state |= ST_SHORT; /* set short block */
1009 block->read_len = block->binbuf = 0;
1010 return false; /* return error */
1013 dev->state &= ~(ST_EOF|ST_SHORT); /* clear EOF and short block */
1014 dev->VolCatInfo.VolCatReads++;
1015 dev->VolCatInfo.VolCatRBytes += block->read_len;
1017 dev->VolCatInfo.VolCatBytes += block->block_len;
1018 dev->VolCatInfo.VolCatBlocks++;
1019 dev->EndBlock = dev->block_num;
1020 dev->EndFile = dev->file;
1023 /* Update dcr values */
1024 if (dev->is_tape()) {
1025 dcr->EndBlock = dev->EndBlock;
1026 dcr->EndFile = dev->EndFile;
1028 dcr->EndBlock = (uint32_t)dev->file_addr;
1029 dcr->EndFile = (uint32_t)(dev->file_addr >> 32);
1030 dev->block_num = dcr->EndBlock;
1031 dev->file = dcr->EndFile;
1033 dev->file_addr += block->block_len;
1034 dev->file_size += block->block_len;
1037 * If we read a short block on disk,
1038 * seek to beginning of next block. This saves us
1039 * from shuffling blocks around in the buffer. Take a
1040 * look at this from an efficiency stand point later, but
1041 * it should only happen once at the end of each job.
1043 * I've been lseek()ing negative relative to SEEK_CUR for 30
1044 * years now. However, it seems that with the new off_t definition,
1045 * it is not possible to seek negative amounts, so we use two
1046 * lseek(). One to get the position, then the second to do an
1047 * absolute positioning -- so much for efficiency. KES Sep 02.
1049 Dmsg0(200, "At end of read block\n");
1050 if (block->read_len > block->block_len && !dev->is_tape()) {
1052 off_t pos = lseek_dev(dev, (off_t)0, SEEK_CUR); /* get curr pos */
1053 pos -= (block->read_len - block->block_len);
1054 lseek_dev(dev, pos, SEEK_SET);
1055 Dmsg3(200, "Did lseek pos=%s blk_size=%d rdlen=%d\n",
1056 edit_uint64(pos, ed1), block->block_len,
1058 dev->file_addr = pos;
1059 dev->file_size = pos;
1061 Dmsg2(200, "Exit read_block read_len=%d block_len=%d\n",
1062 block->read_len, block->block_len);
1063 block->block_read = true;