3 * block.c -- tape block handling functions
5 * Kern Sibbald, March MMI
6 * added BB02 format October MMII
12 Copyright (C) 2000-2003 Kern Sibbald and John Walker
14 This program is free software; you can redistribute it and/or
15 modify it under the terms of the GNU General Public License as
16 published by the Free Software Foundation; either version 2 of
17 the License, or (at your option) any later version.
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 GNU
22 General Public License for more details.
24 You should have received a copy of the GNU General Public
25 License along with this program; if not, write to the Free
26 Software Foundation, Inc., 59 Temple Place - Suite 330, Boston,
35 extern int debug_level;
38 * Dump the block header, then walk through
39 * the block printing out the record headers.
41 void dump_block(DEV_BLOCK *b, char *msg)
45 char Id[BLKHDR_ID_LENGTH+1];
46 uint32_t CheckSum, BlockCheckSum;
49 uint32_t VolSessionId, VolSessionTime, data_len;
54 unser_begin(b->buf, BLKHDR1_LENGTH);
55 unser_uint32(CheckSum);
56 unser_uint32(block_len);
57 unser_uint32(BlockNumber);
58 unser_bytes(Id, BLKHDR_ID_LENGTH);
59 ASSERT(unser_length(b->buf) == BLKHDR1_LENGTH);
60 Id[BLKHDR_ID_LENGTH] = 0;
62 unser_uint32(VolSessionId);
63 unser_uint32(VolSessionTime);
67 VolSessionId = VolSessionTime = 0;
72 if (block_len > 100000) {
73 Dmsg3(20, "Dump block %s 0x%x blocksize too big %u\n", msg, b, block_len);
77 BlockCheckSum = bcrc32((uint8_t *)b->buf+BLKHDR_CS_LENGTH,
78 block_len-BLKHDR_CS_LENGTH);
79 Pmsg6(000, "Dump block %s %x: size=%d BlkNum=%d\n\
80 Hdrcksum=%x cksum=%x\n",
81 msg, b, block_len, BlockNumber, CheckSum, BlockCheckSum);
83 while (p < (b->buf + block_len+WRITE_RECHDR_LENGTH)) {
84 unser_begin(p, WRITE_RECHDR_LENGTH);
85 if (rhl == RECHDR1_LENGTH) {
86 unser_uint32(VolSessionId);
87 unser_uint32(VolSessionTime);
89 unser_int32(FileIndex);
91 unser_uint32(data_len);
92 Pmsg6(000, " Rec: VId=%u VT=%u FI=%s Strm=%s len=%d p=%x\n",
93 VolSessionId, VolSessionTime, FI_to_ascii(FileIndex),
94 stream_to_ascii(Stream, FileIndex), data_len, p);
100 * Create a new block structure.
101 * We pass device so that the block can inherit the
102 * min and max block sizes.
104 DEV_BLOCK *new_block(DEVICE *dev)
106 DEV_BLOCK *block = (DEV_BLOCK *)get_memory(sizeof(DEV_BLOCK));
108 memset(block, 0, sizeof(DEV_BLOCK));
110 /* If the user has specified a max_block_size, use it as the default */
111 if (dev->max_block_size == 0) {
112 block->buf_len = DEFAULT_BLOCK_SIZE;
114 block->buf_len = dev->max_block_size;
117 block->block_len = block->buf_len; /* default block size */
118 block->buf = get_memory(block->buf_len);
119 if (block->buf == NULL) {
120 Mmsg0(&dev->errmsg, _("Unable to malloc block buffer.\n"));
121 Emsg0(M_FATAL, 0, dev->errmsg);
125 block->BlockVer = BLOCK_VER; /* default write version */
126 Dmsg1(90, "Returning new block=%x\n", block);
131 * Only the first block checksum error was reported.
132 * If there are more, report it now.
134 void print_block_read_errors(JCR *jcr, DEV_BLOCK *block)
136 if (block->read_errors > 1) {
137 Jmsg(jcr, M_ERROR, 0, _("%d block read errors ignored.\n"),
145 void free_block(DEV_BLOCK *block)
147 Dmsg1(199, "free_block buffer %x\n", block->buf);
148 free_memory(block->buf);
149 Dmsg1(199, "free_block block %x\n", block);
150 free_memory((POOLMEM *)block);
153 /* Empty the block -- for writing */
154 void empty_block(DEV_BLOCK *block)
156 block->binbuf = WRITE_BLKHDR_LENGTH;
157 block->bufp = block->buf + block->binbuf;
159 block->write_failed = false;
160 block->block_read = false;
161 block->FirstIndex = block->LastIndex = 0;
165 * Create block header just before write. The space
166 * in the buffer should have already been reserved by
169 static void ser_block_header(DEV_BLOCK *block)
172 uint32_t CheckSum = 0;
173 uint32_t block_len = block->binbuf;
175 Dmsg1(190, "ser_block_header: block_len=%d\n", block_len);
176 ser_begin(block->buf, BLKHDR2_LENGTH);
177 ser_uint32(CheckSum);
178 ser_uint32(block_len);
179 ser_uint32(block->BlockNumber);
180 ser_bytes(WRITE_BLKHDR_ID, BLKHDR_ID_LENGTH);
181 if (BLOCK_VER >= 2) {
182 ser_uint32(block->VolSessionId);
183 ser_uint32(block->VolSessionTime);
186 /* Checksum whole block except for the checksum */
187 CheckSum = bcrc32((uint8_t *)block->buf+BLKHDR_CS_LENGTH,
188 block_len-BLKHDR_CS_LENGTH);
189 Dmsg1(190, "ser_bloc_header: checksum=%x\n", CheckSum);
190 ser_begin(block->buf, BLKHDR2_LENGTH);
191 ser_uint32(CheckSum); /* now add checksum to block header */
195 * Unserialize the block header for reading block.
196 * This includes setting all the buffer pointers correctly.
198 * Returns: 0 on failure (not a block)
201 static int unser_block_header(JCR *jcr, DEVICE *dev, DEV_BLOCK *block)
204 char Id[BLKHDR_ID_LENGTH+1];
205 uint32_t CheckSum, BlockCheckSum;
208 uint32_t BlockNumber;
211 unser_begin(block->buf, BLKHDR_LENGTH);
212 unser_uint32(CheckSum);
213 unser_uint32(block_len);
214 unser_uint32(BlockNumber);
215 unser_bytes(Id, BLKHDR_ID_LENGTH);
216 ASSERT(unser_length(block->buf) == BLKHDR1_LENGTH);
218 Id[BLKHDR_ID_LENGTH] = 0;
220 bhl = BLKHDR1_LENGTH;
222 block->bufp = block->buf + bhl;
223 if (strncmp(Id, BLKHDR1_ID, BLKHDR_ID_LENGTH) != 0) {
224 Mmsg2(&dev->errmsg, _("Buffer ID error. Wanted: %s, got %s. Buffer discarded.\n"),
226 if (block->read_errors == 0 || verbose >= 2) {
227 Jmsg(jcr, M_ERROR, 0, "%s", dev->errmsg);
229 block->read_errors++;
232 } else if (Id[3] == '2') {
233 unser_uint32(block->VolSessionId);
234 unser_uint32(block->VolSessionTime);
235 bhl = BLKHDR2_LENGTH;
237 block->bufp = block->buf + bhl;
238 if (strncmp(Id, BLKHDR2_ID, BLKHDR_ID_LENGTH) != 0) {
239 Mmsg2(&dev->errmsg, _("Buffer ID error. Wanted: %s, got %s. Buffer discarded.\n"),
241 if (block->read_errors == 0 || verbose >= 2) {
242 Jmsg(jcr, M_ERROR, 0, "%s", dev->errmsg);
244 block->read_errors++;
248 Mmsg1(&dev->errmsg, _("Expected block-id BB01 or BB02, got %s. Buffer discarded.\n"), Id);
249 if (block->read_errors == 0 || verbose >= 2) {
250 Jmsg(jcr, M_ERROR, 0, "%s", dev->errmsg);
252 block->read_errors++;
257 if (block_len > MAX_BLOCK_LENGTH) {
258 Mmsg1(&dev->errmsg, _("Block length %u is insane (too large), probably due to a bad archive.\n"),
260 if (block->read_errors == 0 || verbose >= 2) {
261 Jmsg(jcr, M_ERROR, 0, "%s", dev->errmsg);
263 block->read_errors++;
267 Dmsg1(190, "unser_block_header block_len=%d\n", block_len);
268 /* Find end of block or end of buffer whichever is smaller */
269 if (block_len > block->read_len) {
270 block_end = block->read_len;
272 block_end = block_len;
274 block->binbuf = block_end - bhl;
275 block->block_len = block_len;
276 block->BlockNumber = BlockNumber;
277 Dmsg3(190, "Read binbuf = %d %d block_len=%d\n", block->binbuf,
279 if (block_len <= block->read_len) {
280 BlockCheckSum = bcrc32((uint8_t *)block->buf+BLKHDR_CS_LENGTH,
281 block_len-BLKHDR_CS_LENGTH);
282 if (BlockCheckSum != CheckSum) {
283 Mmsg3(&dev->errmsg, _("Block checksum mismatch in block %u: calc=%x blk=%x\n"),
284 (unsigned)BlockNumber, BlockCheckSum, CheckSum);
285 if (block->read_errors == 0 || verbose >= 2) {
286 Jmsg(jcr, M_ERROR, 0, "%s", dev->errmsg);
288 block->read_errors++;
296 * Write a block to the device, with locking and unlocking
298 * Returns: 1 on success
302 int write_block_to_device(JCR *jcr, DEVICE *dev, DEV_BLOCK *block)
308 * If a new volume has been mounted since our last write
309 * Create a JobMedia record for the previous volume written,
310 * and set new parameters to write this volume
311 * The saem applies for if we are in a new file.
313 if (jcr->NewVol || jcr->NewFile) {
314 /* Create a jobmedia record for this job */
315 if (!dir_create_jobmedia_record(jcr)) {
316 Jmsg(jcr, M_ERROR, 0, _("Could not create JobMedia record for Volume=\"%s\" Job=%s\n"),
317 jcr->VolCatInfo.VolCatName, jcr->Job);
318 set_new_volume_parameters(jcr, dev);
323 /* Note, setting a new volume also handles any pending new file */
324 set_new_volume_parameters(jcr, dev);
325 jcr->NewFile = false; /* this handled for new file too */
327 set_new_file_parameters(jcr, dev);
331 if (!write_block_to_dev(jcr, dev, block)) {
332 stat = fixup_device_block_write_error(jcr, dev, block);
340 * Write a block to the device
342 * Returns: 1 on success or EOT
345 int write_block_to_dev(JCR *jcr, DEVICE *dev, DEV_BLOCK *block)
348 uint32_t wlen; /* length to write */
349 int hit_max1, hit_max2;
352 #ifdef NO_TAPE_WRITE_TEST
356 ASSERT(block->binbuf == ((uint32_t) (block->bufp - block->buf)));
358 /* dump_block(block, "before write"); */
359 if (dev->state & ST_WEOT) {
360 Dmsg0(100, "return write_block_to_dev with ST_WEOT\n");
361 Jmsg(jcr, M_FATAL, 0, _("Cannot write block. Device at EOM.\n"));
364 wlen = block->binbuf;
365 if (wlen <= WRITE_BLKHDR_LENGTH) { /* Does block have data in it? */
366 Dmsg0(100, "return write_block_to_dev no data to write\n");
370 * Clear to the end of the buffer if it is not full,
371 * and on tape devices, apply min and fixed blocking.
373 if (wlen != block->buf_len) {
374 uint32_t blen; /* current buffer length */
376 Dmsg2(200, "binbuf=%d buf_len=%d\n", block->binbuf, block->buf_len);
379 /* Adjust write size to min/max for tapes only */
380 if (dev->state & ST_TAPE) {
381 if (wlen < dev->min_block_size) {
382 wlen = ((dev->min_block_size + TAPE_BSIZE - 1) / TAPE_BSIZE) * TAPE_BSIZE;
384 /* check for fixed block size */
385 if (dev->min_block_size == dev->max_block_size) {
386 wlen = block->buf_len; /* fixed block size already rounded */
390 memset(block->bufp, 0, wlen-blen); /* clear garbage */
394 ser_block_header(block);
396 /* Limit maximum Volume size to value specified by user */
397 hit_max1 = (dev->max_volume_size > 0) &&
398 ((dev->VolCatInfo.VolCatBytes + block->binbuf)) >= dev->max_volume_size;
399 hit_max2 = (dev->VolCatInfo.VolCatMaxBytes > 0) &&
400 ((dev->VolCatInfo.VolCatBytes + block->binbuf)) >= dev->VolCatInfo.VolCatMaxBytes;
401 if (hit_max1 || hit_max2) {
404 Dmsg0(10, "==== Output bytes Triggered medium max capacity.\n");
406 max_cap = dev->max_volume_size;
408 max_cap = dev->VolCatInfo.VolCatMaxBytes;
410 Jmsg(jcr, M_INFO, 0, _("User defined maximum volume capacity %s exceeded on device %s.\n"),
411 edit_uint64(max_cap, ed1), dev->dev_name);
412 block->write_failed = true;
413 weof_dev(dev, 1); /* end the tape */
414 /* Don't do update after second EOF or file count will be wrong */
415 Dmsg0(100, "dir_update_volume_info\n");
416 dir_update_volume_info(jcr, dev, 0);
418 dev->state |= (ST_EOF | ST_EOT | ST_WEOT);
422 /* Limit maximum File size on volume to user specified value */
423 if (dev_state(dev, ST_TAPE)) {
424 if ((dev->max_file_size > 0) &&
425 (dev->file_addr+block->binbuf) >= dev->max_file_size) {
428 if (weof_dev(dev, 1) != 0) { /* write eof */
429 Jmsg(jcr, M_ERROR, 0, "%s", dev->errmsg);
430 block->write_failed = true;
431 dev->state |= (ST_EOF | ST_EOT | ST_WEOT);
432 Dmsg0(100, "dir_update_volume_info\n");
433 dir_update_volume_info(jcr, dev, 0);
437 /* Do bookkeeping to handle EOF just written */
438 Dmsg0(100, "dir_update_volume_info\n");
439 dir_update_volume_info(jcr, dev, 0);
440 if (!dir_create_jobmedia_record(jcr)) {
441 Jmsg(jcr, M_ERROR, 0, _("Could not create JobMedia record for Volume=\"%s\" Job=%s\n"),
442 jcr->VolCatInfo.VolCatName, jcr->Job);
446 * Walk through all attached jcrs indicating the file has changed
448 Dmsg1(100, "Walk attached jcrs. Volume=%s\n", dev->VolCatInfo.VolCatName);
449 for (JCR *mjcr=NULL; (mjcr=next_attached_jcr(dev, mjcr)); ) {
450 if (mjcr->JobId == 0) {
451 continue; /* ignore console */
453 mjcr->NewFile = true; /* set reminder to do set_new_file_params */
455 set_new_file_parameters(jcr, dev);
459 dev->VolCatInfo.VolCatWrites++;
460 Dmsg1(300, "Write block of %u bytes\n", wlen);
461 stat = write(dev->fd, block->buf, (size_t)wlen);
462 if (stat != (ssize_t)wlen) {
463 /* We should check for errno == ENOSPC, BUT many
464 * devices simply report EIO when the volume is full.
465 * With a little more thought we may be able to check
466 * capacity and distinguish real errors and EOT
467 * conditions. In any case, we probably want to
468 * simulate an End of Medium.
471 /* I have added the ifdefing here because it appears on
472 * FreeBSD where MTIOCERRSTAT is defined, this not only
473 * clears the error but clears the residual unwritten
474 * buffers -> data loss. As a consequence, on those
475 * systems (FreeBSD like), do the clrerror() only after
476 * the weof_dev() call.
478 clrerror_dev(dev, -1);
479 if (dev->dev_errno == 0) {
480 dev->dev_errno = ENOSPC; /* out of space */
482 Jmsg(jcr, M_ERROR, 0, _("Write error on device %s. ERR=%s.\n"),
483 dev->dev_name, strerror(dev->dev_errno));
485 dev->dev_errno = ENOSPC; /* out of space */
486 Jmsg3(jcr, M_INFO, 0, _("End of medium on device %s. Write of %u bytes got %d.\n"),
487 dev->dev_name, wlen, stat);
490 Dmsg6(100, "=== Write error. size=%u rtn=%d dev_blk=%d blk_blk=%d errno=%d: ERR=%s\n",
491 wlen, stat, dev->block_num, block->BlockNumber, dev->dev_errno, strerror(dev->dev_errno));
493 block->write_failed = true;
495 Dmsg0(100, "dir_update_volume_info\n");
496 dir_update_volume_info(jcr, dev, 0);
497 if (weof_dev(dev, 1) != 0) { /* end the tape */
498 Jmsg(jcr, M_ERROR, 0, "%s", dev->errmsg);
500 dev->state |= (ST_EOF | ST_EOT | ST_WEOT);
503 #define CHECK_LAST_BLOCK
504 #ifdef CHECK_LAST_BLOCK
506 * If the device is a tape and it supports backspace record,
507 * we backspace over two eof marks and over the last record,
508 * then re-read it and verify that the block number is
511 if (dev->state & ST_TAPE && dev_cap(dev, CAP_BSR)) {
513 /* Now back up over what we wrote and read the last block */
514 if (!bsf_dev(dev, 1) || !bsf_dev(dev, 1)) {
516 Jmsg(jcr, M_ERROR, 0, _("Backspace file at EOT failed. ERR=%s\n"), strerror(dev->dev_errno));
518 /* Backspace over record */
519 if (ok && !bsr_dev(dev, 1)) {
521 Jmsg(jcr, M_ERROR, 0, _("Backspace record at EOT failed. ERR=%s\n"), strerror(dev->dev_errno));
523 * On FreeBSD systems, if the user got here, it is likely that his/her
524 * tape drive is "frozen". The correct thing to do is a
525 * rewind(), but if we do that, higher levels in cleaning up, will
526 * most likely write the EOS record over the beginning of the
527 * tape. The rewind *is* done later in mount.c when another
528 * tape is requested. Note, the clrerror_dev() call in bsr_dev()
529 * calls ioctl(MTCERRSTAT), which *should* fix the problem.
533 DEV_BLOCK *lblock = new_block(dev);
534 /* Note, this can destroy dev->errmsg */
535 if (!read_block_from_dev(jcr, dev, lblock, NO_BLOCK_NUMBER_CHECK)) {
536 Jmsg(jcr, M_ERROR, 0, _("Re-read last block at EOT failed. ERR=%s"), dev->errmsg);
538 if (lblock->BlockNumber+1 == block->BlockNumber) {
539 Jmsg(jcr, M_INFO, 0, _("Re-read of last block succeeded.\n"));
541 Jmsg(jcr, M_ERROR, 0, _(
542 "Re-read of last block failed. Last block=%u Current block=%u.\n"),
543 lblock->BlockNumber, block->BlockNumber);
553 /* We successfully wrote the block, now do housekeeping */
555 dev->VolCatInfo.VolCatBytes += block->binbuf;
556 dev->VolCatInfo.VolCatBlocks++;
557 dev->file_addr += wlen;
558 dev->EndBlock = dev->block_num;
559 dev->EndFile = dev->file;
561 block->BlockNumber++;
563 /* Update jcr values */
564 if (dev_state(dev, ST_TAPE)) {
565 jcr->EndBlock = dev->EndBlock;
566 jcr->EndFile = dev->EndFile;
568 jcr->EndBlock = (uint32_t)dev->file_addr;
569 jcr->EndFile = (uint32_t)(dev->file_addr >> 32);
571 if (jcr->VolFirstIndex == 0 && block->FirstIndex > 0) {
572 jcr->VolFirstIndex = block->FirstIndex;
574 if (block->LastIndex > 0) {
575 jcr->VolLastIndex = block->LastIndex;
577 jcr->WroteVol = true;
579 Dmsg2(190, "write_block: wrote block %d bytes=%d\n", dev->block_num,
586 * Read block with locking
589 int read_block_from_device(JCR *jcr, DEVICE *dev, DEV_BLOCK *block, bool check_block_numbers)
592 Dmsg0(90, "Enter read_block_from_device\n");
594 stat = read_block_from_dev(jcr, dev, block, check_block_numbers);
596 Dmsg0(90, "Leave read_block_from_device\n");
601 * Read the next block into the block structure and unserialize
602 * the block header. For a file, the block may be partially
603 * or completely in the current buffer.
605 int read_block_from_dev(JCR *jcr, DEVICE *dev, DEV_BLOCK *block, bool check_block_numbers)
609 uint32_t BlockNumber;
612 if (dev_state(dev, ST_EOT)) {
616 Dmsg1(100, "Full read() in read_block_from_device() len=%d\n",
620 Mmsg1(&dev->errmsg, _("Block buffer size looping problem on device %s\n"),
622 Jmsg(jcr, M_ERROR, 0, "%s", dev->errmsg);
628 stat = read(dev->fd, block->buf, (size_t)block->buf_len);
630 dev->VolCatInfo.VolCatErrors++;
632 } while (stat == -1 && (errno == EINTR || errno == EIO) && retry++ < 11);
633 // Dmsg1(100, "read stat = %d\n", stat);
635 Dmsg1(90, "Read device got: ERR=%s\n", strerror(errno));
636 clrerror_dev(dev, -1);
638 Mmsg2(&dev->errmsg, _("Read error on device %s. ERR=%s.\n"),
639 dev->dev_name, strerror(dev->dev_errno));
640 Jmsg(jcr, M_ERROR, 0, "%s", dev->errmsg);
641 if (dev->state & ST_EOF) { /* EOF just seen? */
642 dev->state |= ST_EOT; /* yes, error => EOT */
646 Dmsg1(90, "Read device got %d bytes\n", stat);
647 if (stat == 0) { /* Got EOF ! */
648 dev->block_num = block->read_len = 0;
649 Mmsg1(&dev->errmsg, _("Read zero bytes on device %s.\n"), dev->dev_name);
650 if (dev->state & ST_EOF) { /* EOF already read? */
651 dev->state |= ST_EOT; /* yes, 2 EOFs => EOT */
655 dev->file++; /* increment file */
656 dev->state |= ST_EOF; /* set EOF read */
658 return 0; /* return eof */
660 /* Continue here for successful read */
661 block->read_len = stat; /* save length read */
662 if (block->read_len < BLKHDR2_LENGTH) {
663 Mmsg2(&dev->errmsg, _("Very short block of %d bytes on device %s discarded.\n"),
664 block->read_len, dev->dev_name);
665 Jmsg(jcr, M_ERROR, 0, "%s", dev->errmsg);
666 dev->state |= ST_SHORT; /* set short block */
667 block->read_len = block->binbuf = 0;
668 return 0; /* return error */
671 BlockNumber = block->BlockNumber + 1;
672 if (!unser_block_header(jcr, dev, block)) {
678 * If the block is bigger than the buffer, we reposition for
679 * re-reading the block, allocate a buffer of the correct size,
682 if (block->block_len > block->buf_len) {
683 Mmsg2(&dev->errmsg, _("Block length %u is greater than buffer %u. Attempting recovery.\n"),
684 block->block_len, block->buf_len);
685 Jmsg(jcr, M_ERROR, 0, "%s", dev->errmsg);
686 Pmsg1(000, "%s", dev->errmsg);
687 /* Attempt to reposition to re-read the block */
688 if (dev->state & ST_TAPE) {
689 Dmsg0(100, "Backspace record for reread.\n");
690 if (!bsr_dev(dev, 1)) {
691 Jmsg(jcr, M_ERROR, 0, "%s", strerror_dev(dev));
696 Dmsg0(100, "Seek to beginning of block for reread.\n");
697 off_t pos = lseek(dev->fd, (off_t)0, SEEK_CUR); /* get curr pos */
698 pos -= block->read_len;
699 lseek(dev->fd, pos, SEEK_SET);
701 Mmsg1(&dev->errmsg, _("Setting block buffer size to %u bytes.\n"), block->block_len);
702 Jmsg(jcr, M_INFO, 0, "%s", dev->errmsg);
703 Pmsg1(000, "%s", dev->errmsg);
704 /* Set new block length */
705 dev->max_block_size = block->block_len;
706 block->buf_len = block->block_len;
707 free_memory(block->buf);
708 block->buf = get_memory(block->buf_len);
711 goto reread; /* re-read block with correct block size */
714 if (block->block_len > block->read_len) {
715 Mmsg3(&dev->errmsg, _("Short block at %u of %d bytes on device %s discarded.\n"),
716 dev->block_num, block->read_len, dev->dev_name);
717 Jmsg(jcr, M_ERROR, 0, "%s", dev->errmsg);
718 dev->state |= ST_SHORT; /* set short block */
719 block->read_len = block->binbuf = 0;
720 return 0; /* return error */
723 dev->state &= ~(ST_EOF|ST_SHORT); /* clear EOF and short block */
724 dev->VolCatInfo.VolCatReads++;
725 dev->VolCatInfo.VolCatRBytes += block->read_len;
727 dev->VolCatInfo.VolCatBytes += block->block_len;
728 dev->VolCatInfo.VolCatBlocks++;
729 dev->file_addr += block->block_len;
730 dev->EndBlock = dev->block_num;
731 dev->EndFile = dev->file;
734 /* Update jcr values */
735 if (dev->state & ST_TAPE) {
736 jcr->EndBlock = dev->EndBlock;
737 jcr->EndFile = dev->EndFile;
739 jcr->EndBlock = (uint32_t)dev->file_addr;
740 jcr->EndFile = (uint32_t)(dev->file_addr >> 32);
744 * If we read a short block on disk,
745 * seek to beginning of next block. This saves us
746 * from shuffling blocks around in the buffer. Take a
747 * look at this from an efficiency stand point later, but
748 * it should only happen once at the end of each job.
750 * I've been lseek()ing negative relative to SEEK_CUR for 30
751 * years now. However, it seems that with the new off_t definition,
752 * it is not possible to seek negative amounts, so we use two
753 * lseek(). One to get the position, then the second to do an
754 * absolute positioning -- so much for efficiency. KES Sep 02.
756 Dmsg0(200, "At end of read block\n");
757 if (block->read_len > block->block_len && !(dev->state & ST_TAPE)) {
758 off_t pos = lseek(dev->fd, (off_t)0, SEEK_CUR); /* get curr pos */
759 pos -= (block->read_len - block->block_len);
760 lseek(dev->fd, pos, SEEK_SET);
761 Dmsg2(100, "Did lseek blk_size=%d rdlen=%d\n", block->block_len,
764 Dmsg2(200, "Exit read_block read_len=%d block_len=%d\n",
765 block->read_len, block->block_len);
766 block->block_read = true;