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[qemu.git] / block / vhdx-log.c
blob47ae4b1351c84f20014beb32f7d71caa8a09827f
1 /*
2 * Block driver for Hyper-V VHDX Images
4 * Copyright (c) 2013 Red Hat, Inc.,
6 * Authors:
7 * Jeff Cody <jcody@redhat.com>
9 * This is based on the "VHDX Format Specification v1.00", published 8/25/2012
10 * by Microsoft:
11 * https://www.microsoft.com/en-us/download/details.aspx?id=34750
13 * This file covers the functionality of the metadata log writing, parsing, and
14 * replay.
16 * This work is licensed under the terms of the GNU LGPL, version 2 or later.
17 * See the COPYING.LIB file in the top-level directory.
20 #include "qemu-common.h"
21 #include "block/block_int.h"
22 #include "qemu/error-report.h"
23 #include "qemu/module.h"
24 #include "block/vhdx.h"
27 typedef struct VHDXLogSequence {
28 bool valid;
29 uint32_t count;
30 VHDXLogEntries log;
31 VHDXLogEntryHeader hdr;
32 } VHDXLogSequence;
34 typedef struct VHDXLogDescEntries {
35 VHDXLogEntryHeader hdr;
36 VHDXLogDescriptor desc[];
37 } VHDXLogDescEntries;
39 static const MSGUID zero_guid = { 0 };
41 /* The log located on the disk is circular buffer containing
42 * sectors of 4096 bytes each.
44 * It is assumed for the read/write functions below that the
45 * circular buffer scheme uses a 'one sector open' to indicate
46 * the buffer is full. Given the validation methods used for each
47 * sector, this method should be compatible with other methods that
48 * do not waste a sector.
52 /* Allow peeking at the hdr entry at the beginning of the current
53 * read index, without advancing the read index */
54 static int vhdx_log_peek_hdr(BlockDriverState *bs, VHDXLogEntries *log,
55 VHDXLogEntryHeader *hdr)
57 int ret = 0;
58 uint64_t offset;
59 uint32_t read;
61 assert(hdr != NULL);
63 /* peek is only supported on sector boundaries */
64 if (log->read % VHDX_LOG_SECTOR_SIZE) {
65 ret = -EFAULT;
66 goto exit;
69 read = log->read;
70 /* we are guaranteed that a) log sectors are 4096 bytes,
71 * and b) the log length is a multiple of 1MB. So, there
72 * is always a round number of sectors in the buffer */
73 if ((read + sizeof(VHDXLogEntryHeader)) > log->length) {
74 read = 0;
77 if (read == log->write) {
78 ret = -EINVAL;
79 goto exit;
82 offset = log->offset + read;
84 ret = bdrv_pread(bs->file->bs, offset, hdr, sizeof(VHDXLogEntryHeader));
85 if (ret < 0) {
86 goto exit;
88 vhdx_log_entry_hdr_le_import(hdr);
90 exit:
91 return ret;
94 /* Index increment for log, based on sector boundaries */
95 static int vhdx_log_inc_idx(uint32_t idx, uint64_t length)
97 idx += VHDX_LOG_SECTOR_SIZE;
98 /* we are guaranteed that a) log sectors are 4096 bytes,
99 * and b) the log length is a multiple of 1MB. So, there
100 * is always a round number of sectors in the buffer */
101 return idx >= length ? 0 : idx;
105 /* Reset the log to empty */
106 static void vhdx_log_reset(BlockDriverState *bs, BDRVVHDXState *s)
108 MSGUID guid = { 0 };
109 s->log.read = s->log.write = 0;
110 /* a log guid of 0 indicates an empty log to any parser of v0
111 * VHDX logs */
112 vhdx_update_headers(bs, s, false, &guid);
115 /* Reads num_sectors from the log (all log sectors are 4096 bytes),
116 * into buffer 'buffer'. Upon return, *sectors_read will contain
117 * the number of sectors successfully read.
119 * It is assumed that 'buffer' is already allocated, and of sufficient
120 * size (i.e. >= 4096*num_sectors).
122 * If 'peek' is true, then the tail (read) pointer for the circular buffer is
123 * not modified.
125 * 0 is returned on success, -errno otherwise. */
126 static int vhdx_log_read_sectors(BlockDriverState *bs, VHDXLogEntries *log,
127 uint32_t *sectors_read, void *buffer,
128 uint32_t num_sectors, bool peek)
130 int ret = 0;
131 uint64_t offset;
132 uint32_t read;
134 read = log->read;
136 *sectors_read = 0;
137 while (num_sectors) {
138 if (read == log->write) {
139 /* empty */
140 break;
142 offset = log->offset + read;
144 ret = bdrv_pread(bs->file->bs, offset, buffer, VHDX_LOG_SECTOR_SIZE);
145 if (ret < 0) {
146 goto exit;
148 read = vhdx_log_inc_idx(read, log->length);
150 *sectors_read = *sectors_read + 1;
151 num_sectors--;
154 exit:
155 if (!peek) {
156 log->read = read;
158 return ret;
161 /* Writes num_sectors to the log (all log sectors are 4096 bytes),
162 * from buffer 'buffer'. Upon return, *sectors_written will contain
163 * the number of sectors successfully written.
165 * It is assumed that 'buffer' is at least 4096*num_sectors large.
167 * 0 is returned on success, -errno otherwise */
168 static int vhdx_log_write_sectors(BlockDriverState *bs, VHDXLogEntries *log,
169 uint32_t *sectors_written, void *buffer,
170 uint32_t num_sectors)
172 int ret = 0;
173 uint64_t offset;
174 uint32_t write;
175 void *buffer_tmp;
176 BDRVVHDXState *s = bs->opaque;
178 ret = vhdx_user_visible_write(bs, s);
179 if (ret < 0) {
180 goto exit;
183 write = log->write;
185 buffer_tmp = buffer;
186 while (num_sectors) {
188 offset = log->offset + write;
189 write = vhdx_log_inc_idx(write, log->length);
190 if (write == log->read) {
191 /* full */
192 break;
194 ret = bdrv_pwrite(bs->file->bs, offset, buffer_tmp,
195 VHDX_LOG_SECTOR_SIZE);
196 if (ret < 0) {
197 goto exit;
199 buffer_tmp += VHDX_LOG_SECTOR_SIZE;
201 log->write = write;
202 *sectors_written = *sectors_written + 1;
203 num_sectors--;
206 exit:
207 return ret;
211 /* Validates a log entry header */
212 static bool vhdx_log_hdr_is_valid(VHDXLogEntries *log, VHDXLogEntryHeader *hdr,
213 BDRVVHDXState *s)
215 int valid = false;
217 if (hdr->signature != VHDX_LOG_SIGNATURE) {
218 goto exit;
221 /* if the individual entry length is larger than the whole log
222 * buffer, that is obviously invalid */
223 if (log->length < hdr->entry_length) {
224 goto exit;
227 /* length of entire entry must be in units of 4KB (log sector size) */
228 if (hdr->entry_length % (VHDX_LOG_SECTOR_SIZE)) {
229 goto exit;
232 /* per spec, sequence # must be > 0 */
233 if (hdr->sequence_number == 0) {
234 goto exit;
237 /* log entries are only valid if they match the file-wide log guid
238 * found in the active header */
239 if (!guid_eq(hdr->log_guid, s->headers[s->curr_header]->log_guid)) {
240 goto exit;
243 if (hdr->descriptor_count * sizeof(VHDXLogDescriptor) > hdr->entry_length) {
244 goto exit;
247 valid = true;
249 exit:
250 return valid;
254 * Given a log header, this will validate that the descriptors and the
255 * corresponding data sectors (if applicable)
257 * Validation consists of:
258 * 1. Making sure the sequence numbers matches the entry header
259 * 2. Verifying a valid signature ('zero' or 'desc' for descriptors)
260 * 3. File offset field is a multiple of 4KB
261 * 4. If a data descriptor, the corresponding data sector
262 * has its signature ('data') and matching sequence number
264 * @desc: the data buffer containing the descriptor
265 * @hdr: the log entry header
267 * Returns true if valid
269 static bool vhdx_log_desc_is_valid(VHDXLogDescriptor *desc,
270 VHDXLogEntryHeader *hdr)
272 bool ret = false;
274 if (desc->sequence_number != hdr->sequence_number) {
275 goto exit;
277 if (desc->file_offset % VHDX_LOG_SECTOR_SIZE) {
278 goto exit;
281 if (desc->signature == VHDX_LOG_ZERO_SIGNATURE) {
282 if (desc->zero_length % VHDX_LOG_SECTOR_SIZE == 0) {
283 /* valid */
284 ret = true;
286 } else if (desc->signature == VHDX_LOG_DESC_SIGNATURE) {
287 /* valid */
288 ret = true;
291 exit:
292 return ret;
296 /* Prior to sector data for a log entry, there is the header
297 * and the descriptors referenced in the header:
299 * [] = 4KB sector
301 * [ hdr, desc ][ desc ][ ... ][ data ][ ... ]
303 * The first sector in a log entry has a 64 byte header, and
304 * up to 126 32-byte descriptors. If more descriptors than
305 * 126 are required, then subsequent sectors can have up to 128
306 * descriptors. Each sector is 4KB. Data follows the descriptor
307 * sectors.
309 * This will return the number of sectors needed to encompass
310 * the passed number of descriptors in desc_cnt.
312 * This will never return 0, even if desc_cnt is 0.
314 static int vhdx_compute_desc_sectors(uint32_t desc_cnt)
316 uint32_t desc_sectors;
318 desc_cnt += 2; /* account for header in first sector */
319 desc_sectors = desc_cnt / 128;
320 if (desc_cnt % 128) {
321 desc_sectors++;
324 return desc_sectors;
328 /* Reads the log header, and subsequent descriptors (if any). This
329 * will allocate all the space for buffer, which must be NULL when
330 * passed into this function. Each descriptor will also be validated,
331 * and error returned if any are invalid. */
332 static int vhdx_log_read_desc(BlockDriverState *bs, BDRVVHDXState *s,
333 VHDXLogEntries *log, VHDXLogDescEntries **buffer,
334 bool convert_endian)
336 int ret = 0;
337 uint32_t desc_sectors;
338 uint32_t sectors_read;
339 VHDXLogEntryHeader hdr;
340 VHDXLogDescEntries *desc_entries = NULL;
341 VHDXLogDescriptor desc;
342 int i;
344 assert(*buffer == NULL);
346 ret = vhdx_log_peek_hdr(bs, log, &hdr);
347 if (ret < 0) {
348 goto exit;
351 if (vhdx_log_hdr_is_valid(log, &hdr, s) == false) {
352 ret = -EINVAL;
353 goto exit;
356 desc_sectors = vhdx_compute_desc_sectors(hdr.descriptor_count);
357 desc_entries = qemu_try_blockalign(bs->file->bs,
358 desc_sectors * VHDX_LOG_SECTOR_SIZE);
359 if (desc_entries == NULL) {
360 ret = -ENOMEM;
361 goto exit;
364 ret = vhdx_log_read_sectors(bs, log, &sectors_read, desc_entries,
365 desc_sectors, false);
366 if (ret < 0) {
367 goto free_and_exit;
369 if (sectors_read != desc_sectors) {
370 ret = -EINVAL;
371 goto free_and_exit;
374 /* put in proper endianness, and validate each desc */
375 for (i = 0; i < hdr.descriptor_count; i++) {
376 desc = desc_entries->desc[i];
377 vhdx_log_desc_le_import(&desc);
378 if (convert_endian) {
379 desc_entries->desc[i] = desc;
381 if (vhdx_log_desc_is_valid(&desc, &hdr) == false) {
382 ret = -EINVAL;
383 goto free_and_exit;
386 if (convert_endian) {
387 desc_entries->hdr = hdr;
390 *buffer = desc_entries;
391 goto exit;
393 free_and_exit:
394 qemu_vfree(desc_entries);
395 exit:
396 return ret;
400 /* Flushes the descriptor described by desc to the VHDX image file.
401 * If the descriptor is a data descriptor, than 'data' must be non-NULL,
402 * and >= 4096 bytes (VHDX_LOG_SECTOR_SIZE), containing the data to be
403 * written.
405 * Verification is performed to make sure the sequence numbers of a data
406 * descriptor match the sequence number in the desc.
408 * For a zero descriptor, it may describe multiple sectors to fill with zeroes.
409 * In this case, it should be noted that zeroes are written to disk, and the
410 * image file is not extended as a sparse file. */
411 static int vhdx_log_flush_desc(BlockDriverState *bs, VHDXLogDescriptor *desc,
412 VHDXLogDataSector *data)
414 int ret = 0;
415 uint64_t seq, file_offset;
416 uint32_t offset = 0;
417 void *buffer = NULL;
418 uint64_t count = 1;
419 int i;
421 buffer = qemu_blockalign(bs, VHDX_LOG_SECTOR_SIZE);
423 if (desc->signature == VHDX_LOG_DESC_SIGNATURE) {
424 /* data sector */
425 if (data == NULL) {
426 ret = -EFAULT;
427 goto exit;
430 /* The sequence number of the data sector must match that
431 * in the descriptor */
432 seq = data->sequence_high;
433 seq <<= 32;
434 seq |= data->sequence_low & 0xffffffff;
436 if (seq != desc->sequence_number) {
437 ret = -EINVAL;
438 goto exit;
441 /* Each data sector is in total 4096 bytes, however the first
442 * 8 bytes, and last 4 bytes, are located in the descriptor */
443 memcpy(buffer, &desc->leading_bytes, 8);
444 offset += 8;
446 memcpy(buffer+offset, data->data, 4084);
447 offset += 4084;
449 memcpy(buffer+offset, &desc->trailing_bytes, 4);
451 } else if (desc->signature == VHDX_LOG_ZERO_SIGNATURE) {
452 /* write 'count' sectors of sector */
453 memset(buffer, 0, VHDX_LOG_SECTOR_SIZE);
454 count = desc->zero_length / VHDX_LOG_SECTOR_SIZE;
455 } else {
456 error_report("Invalid VHDX log descriptor entry signature 0x%" PRIx32,
457 desc->signature);
458 ret = -EINVAL;
459 goto exit;
462 file_offset = desc->file_offset;
464 /* count is only > 1 if we are writing zeroes */
465 for (i = 0; i < count; i++) {
466 ret = bdrv_pwrite_sync(bs->file->bs, file_offset, buffer,
467 VHDX_LOG_SECTOR_SIZE);
468 if (ret < 0) {
469 goto exit;
471 file_offset += VHDX_LOG_SECTOR_SIZE;
474 exit:
475 qemu_vfree(buffer);
476 return ret;
479 /* Flush the entire log (as described by 'logs') to the VHDX image
480 * file, and then set the log to 'empty' status once complete.
482 * The log entries should be validate prior to flushing */
483 static int vhdx_log_flush(BlockDriverState *bs, BDRVVHDXState *s,
484 VHDXLogSequence *logs)
486 int ret = 0;
487 int i;
488 uint32_t cnt, sectors_read;
489 uint64_t new_file_size;
490 void *data = NULL;
491 VHDXLogDescEntries *desc_entries = NULL;
492 VHDXLogEntryHeader hdr_tmp = { 0 };
494 cnt = logs->count;
496 data = qemu_blockalign(bs, VHDX_LOG_SECTOR_SIZE);
498 ret = vhdx_user_visible_write(bs, s);
499 if (ret < 0) {
500 goto exit;
503 /* each iteration represents one log sequence, which may span multiple
504 * sectors */
505 while (cnt--) {
506 ret = vhdx_log_peek_hdr(bs, &logs->log, &hdr_tmp);
507 if (ret < 0) {
508 goto exit;
510 /* if the log shows a FlushedFileOffset larger than our current file
511 * size, then that means the file has been truncated / corrupted, and
512 * we must refused to open it / use it */
513 if (hdr_tmp.flushed_file_offset > bdrv_getlength(bs->file->bs)) {
514 ret = -EINVAL;
515 goto exit;
518 ret = vhdx_log_read_desc(bs, s, &logs->log, &desc_entries, true);
519 if (ret < 0) {
520 goto exit;
523 for (i = 0; i < desc_entries->hdr.descriptor_count; i++) {
524 if (desc_entries->desc[i].signature == VHDX_LOG_DESC_SIGNATURE) {
525 /* data sector, so read a sector to flush */
526 ret = vhdx_log_read_sectors(bs, &logs->log, &sectors_read,
527 data, 1, false);
528 if (ret < 0) {
529 goto exit;
531 if (sectors_read != 1) {
532 ret = -EINVAL;
533 goto exit;
535 vhdx_log_data_le_import(data);
538 ret = vhdx_log_flush_desc(bs, &desc_entries->desc[i], data);
539 if (ret < 0) {
540 goto exit;
543 if (bdrv_getlength(bs->file->bs) < desc_entries->hdr.last_file_offset) {
544 new_file_size = desc_entries->hdr.last_file_offset;
545 if (new_file_size % (1024*1024)) {
546 /* round up to nearest 1MB boundary */
547 new_file_size = ((new_file_size >> 20) + 1) << 20;
548 bdrv_truncate(bs->file->bs, new_file_size);
551 qemu_vfree(desc_entries);
552 desc_entries = NULL;
555 bdrv_flush(bs);
556 /* once the log is fully flushed, indicate that we have an empty log
557 * now. This also sets the log guid to 0, to indicate an empty log */
558 vhdx_log_reset(bs, s);
560 exit:
561 qemu_vfree(data);
562 qemu_vfree(desc_entries);
563 return ret;
566 static int vhdx_validate_log_entry(BlockDriverState *bs, BDRVVHDXState *s,
567 VHDXLogEntries *log, uint64_t seq,
568 bool *valid, VHDXLogEntryHeader *entry)
570 int ret = 0;
571 VHDXLogEntryHeader hdr;
572 void *buffer = NULL;
573 uint32_t i, desc_sectors, total_sectors, crc;
574 uint32_t sectors_read = 0;
575 VHDXLogDescEntries *desc_buffer = NULL;
577 *valid = false;
579 ret = vhdx_log_peek_hdr(bs, log, &hdr);
580 if (ret < 0) {
581 goto inc_and_exit;
584 if (vhdx_log_hdr_is_valid(log, &hdr, s) == false) {
585 goto inc_and_exit;
588 if (seq > 0) {
589 if (hdr.sequence_number != seq + 1) {
590 goto inc_and_exit;
594 desc_sectors = vhdx_compute_desc_sectors(hdr.descriptor_count);
596 /* Read all log sectors, and calculate log checksum */
598 total_sectors = hdr.entry_length / VHDX_LOG_SECTOR_SIZE;
601 /* read_desc() will increment the read idx */
602 ret = vhdx_log_read_desc(bs, s, log, &desc_buffer, false);
603 if (ret < 0) {
604 goto free_and_exit;
607 crc = vhdx_checksum_calc(0xffffffff, (void *)desc_buffer,
608 desc_sectors * VHDX_LOG_SECTOR_SIZE, 4);
609 crc ^= 0xffffffff;
611 buffer = qemu_blockalign(bs, VHDX_LOG_SECTOR_SIZE);
612 if (total_sectors > desc_sectors) {
613 for (i = 0; i < total_sectors - desc_sectors; i++) {
614 sectors_read = 0;
615 ret = vhdx_log_read_sectors(bs, log, &sectors_read, buffer,
616 1, false);
617 if (ret < 0 || sectors_read != 1) {
618 goto free_and_exit;
620 crc = vhdx_checksum_calc(crc, buffer, VHDX_LOG_SECTOR_SIZE, -1);
621 crc ^= 0xffffffff;
624 crc ^= 0xffffffff;
625 if (crc != hdr.checksum) {
626 goto free_and_exit;
629 *valid = true;
630 *entry = hdr;
631 goto free_and_exit;
633 inc_and_exit:
634 log->read = vhdx_log_inc_idx(log->read, log->length);
636 free_and_exit:
637 qemu_vfree(buffer);
638 qemu_vfree(desc_buffer);
639 return ret;
642 /* Search through the log circular buffer, and find the valid, active
643 * log sequence, if any exists
644 * */
645 static int vhdx_log_search(BlockDriverState *bs, BDRVVHDXState *s,
646 VHDXLogSequence *logs)
648 int ret = 0;
649 uint32_t tail;
650 bool seq_valid = false;
651 VHDXLogSequence candidate = { 0 };
652 VHDXLogEntryHeader hdr = { 0 };
653 VHDXLogEntries curr_log;
655 memcpy(&curr_log, &s->log, sizeof(VHDXLogEntries));
656 curr_log.write = curr_log.length; /* assume log is full */
657 curr_log.read = 0;
660 /* now we will go through the whole log sector by sector, until
661 * we find a valid, active log sequence, or reach the end of the
662 * log buffer */
663 for (;;) {
664 uint64_t curr_seq = 0;
665 VHDXLogSequence current = { 0 };
667 tail = curr_log.read;
669 ret = vhdx_validate_log_entry(bs, s, &curr_log, curr_seq,
670 &seq_valid, &hdr);
671 if (ret < 0) {
672 goto exit;
675 if (seq_valid) {
676 current.valid = true;
677 current.log = curr_log;
678 current.log.read = tail;
679 current.log.write = curr_log.read;
680 current.count = 1;
681 current.hdr = hdr;
684 for (;;) {
685 ret = vhdx_validate_log_entry(bs, s, &curr_log, curr_seq,
686 &seq_valid, &hdr);
687 if (ret < 0) {
688 goto exit;
690 if (seq_valid == false) {
691 break;
693 current.log.write = curr_log.read;
694 current.count++;
696 curr_seq = hdr.sequence_number;
700 if (current.valid) {
701 if (candidate.valid == false ||
702 current.hdr.sequence_number > candidate.hdr.sequence_number) {
703 candidate = current;
707 if (curr_log.read < tail) {
708 break;
712 *logs = candidate;
714 if (candidate.valid) {
715 /* this is the next sequence number, for writes */
716 s->log.sequence = candidate.hdr.sequence_number + 1;
720 exit:
721 return ret;
724 /* Parse the replay log. Per the VHDX spec, if the log is present
725 * it must be replayed prior to opening the file, even read-only.
727 * If read-only, we must replay the log in RAM (or refuse to open
728 * a dirty VHDX file read-only) */
729 int vhdx_parse_log(BlockDriverState *bs, BDRVVHDXState *s, bool *flushed,
730 Error **errp)
732 int ret = 0;
733 VHDXHeader *hdr;
734 VHDXLogSequence logs = { 0 };
736 hdr = s->headers[s->curr_header];
738 *flushed = false;
740 /* s->log.hdr is freed in vhdx_close() */
741 if (s->log.hdr == NULL) {
742 s->log.hdr = qemu_blockalign(bs, sizeof(VHDXLogEntryHeader));
745 s->log.offset = hdr->log_offset;
746 s->log.length = hdr->log_length;
748 if (s->log.offset < VHDX_LOG_MIN_SIZE ||
749 s->log.offset % VHDX_LOG_MIN_SIZE) {
750 ret = -EINVAL;
751 goto exit;
754 /* per spec, only log version of 0 is supported */
755 if (hdr->log_version != 0) {
756 ret = -EINVAL;
757 goto exit;
760 /* If either the log guid, or log length is zero,
761 * then a replay log is not present */
762 if (guid_eq(hdr->log_guid, zero_guid)) {
763 goto exit;
766 if (hdr->log_length == 0) {
767 goto exit;
770 if (hdr->log_length % VHDX_LOG_MIN_SIZE) {
771 ret = -EINVAL;
772 goto exit;
776 /* The log is present, we need to find if and where there is an active
777 * sequence of valid entries present in the log. */
779 ret = vhdx_log_search(bs, s, &logs);
780 if (ret < 0) {
781 goto exit;
784 if (logs.valid) {
785 if (bs->read_only) {
786 ret = -EPERM;
787 error_setg_errno(errp, EPERM,
788 "VHDX image file '%s' opened read-only, but "
789 "contains a log that needs to be replayed. To "
790 "replay the log, execute:\n qemu-img check -r "
791 "all '%s'",
792 bs->filename, bs->filename);
793 goto exit;
795 /* now flush the log */
796 ret = vhdx_log_flush(bs, s, &logs);
797 if (ret < 0) {
798 goto exit;
800 *flushed = true;
804 exit:
805 return ret;
810 static void vhdx_log_raw_to_le_sector(VHDXLogDescriptor *desc,
811 VHDXLogDataSector *sector, void *data,
812 uint64_t seq)
814 /* 8 + 4084 + 4 = 4096, 1 log sector */
815 memcpy(&desc->leading_bytes, data, 8);
816 data += 8;
817 cpu_to_le64s(&desc->leading_bytes);
818 memcpy(sector->data, data, 4084);
819 data += 4084;
820 memcpy(&desc->trailing_bytes, data, 4);
821 cpu_to_le32s(&desc->trailing_bytes);
822 data += 4;
824 sector->sequence_high = (uint32_t) (seq >> 32);
825 sector->sequence_low = (uint32_t) (seq & 0xffffffff);
826 sector->data_signature = VHDX_LOG_DATA_SIGNATURE;
828 vhdx_log_desc_le_export(desc);
829 vhdx_log_data_le_export(sector);
833 static int vhdx_log_write(BlockDriverState *bs, BDRVVHDXState *s,
834 void *data, uint32_t length, uint64_t offset)
836 int ret = 0;
837 void *buffer = NULL;
838 void *merged_sector = NULL;
839 void *data_tmp, *sector_write;
840 unsigned int i;
841 int sector_offset;
842 uint32_t desc_sectors, sectors, total_length;
843 uint32_t sectors_written = 0;
844 uint32_t aligned_length;
845 uint32_t leading_length = 0;
846 uint32_t trailing_length = 0;
847 uint32_t partial_sectors = 0;
848 uint32_t bytes_written = 0;
849 uint64_t file_offset;
850 VHDXHeader *header;
851 VHDXLogEntryHeader new_hdr;
852 VHDXLogDescriptor *new_desc = NULL;
853 VHDXLogDataSector *data_sector = NULL;
854 MSGUID new_guid = { 0 };
856 header = s->headers[s->curr_header];
858 /* need to have offset read data, and be on 4096 byte boundary */
860 if (length > header->log_length) {
861 /* no log present. we could create a log here instead of failing */
862 ret = -EINVAL;
863 goto exit;
866 if (guid_eq(header->log_guid, zero_guid)) {
867 vhdx_guid_generate(&new_guid);
868 vhdx_update_headers(bs, s, false, &new_guid);
869 } else {
870 /* currently, we require that the log be flushed after
871 * every write. */
872 ret = -ENOTSUP;
873 goto exit;
876 /* 0 is an invalid sequence number, but may also represent the first
877 * log write (or a wrapped seq) */
878 if (s->log.sequence == 0) {
879 s->log.sequence = 1;
882 sector_offset = offset % VHDX_LOG_SECTOR_SIZE;
883 file_offset = (offset / VHDX_LOG_SECTOR_SIZE) * VHDX_LOG_SECTOR_SIZE;
885 aligned_length = length;
887 /* add in the unaligned head and tail bytes */
888 if (sector_offset) {
889 leading_length = (VHDX_LOG_SECTOR_SIZE - sector_offset);
890 leading_length = leading_length > length ? length : leading_length;
891 aligned_length -= leading_length;
892 partial_sectors++;
895 sectors = aligned_length / VHDX_LOG_SECTOR_SIZE;
896 trailing_length = aligned_length - (sectors * VHDX_LOG_SECTOR_SIZE);
897 if (trailing_length) {
898 partial_sectors++;
901 sectors += partial_sectors;
903 /* sectors is now how many sectors the data itself takes, not
904 * including the header and descriptor metadata */
906 new_hdr = (VHDXLogEntryHeader) {
907 .signature = VHDX_LOG_SIGNATURE,
908 .tail = s->log.tail,
909 .sequence_number = s->log.sequence,
910 .descriptor_count = sectors,
911 .reserved = 0,
912 .flushed_file_offset = bdrv_getlength(bs->file->bs),
913 .last_file_offset = bdrv_getlength(bs->file->bs),
916 new_hdr.log_guid = header->log_guid;
918 desc_sectors = vhdx_compute_desc_sectors(new_hdr.descriptor_count);
920 total_length = (desc_sectors + sectors) * VHDX_LOG_SECTOR_SIZE;
921 new_hdr.entry_length = total_length;
923 vhdx_log_entry_hdr_le_export(&new_hdr);
925 buffer = qemu_blockalign(bs, total_length);
926 memcpy(buffer, &new_hdr, sizeof(new_hdr));
928 new_desc = buffer + sizeof(new_hdr);
929 data_sector = buffer + (desc_sectors * VHDX_LOG_SECTOR_SIZE);
930 data_tmp = data;
932 /* All log sectors are 4KB, so for any partial sectors we must
933 * merge the data with preexisting data from the final file
934 * destination */
935 merged_sector = qemu_blockalign(bs, VHDX_LOG_SECTOR_SIZE);
937 for (i = 0; i < sectors; i++) {
938 new_desc->signature = VHDX_LOG_DESC_SIGNATURE;
939 new_desc->sequence_number = s->log.sequence;
940 new_desc->file_offset = file_offset;
942 if (i == 0 && leading_length) {
943 /* partial sector at the front of the buffer */
944 ret = bdrv_pread(bs->file->bs, file_offset, merged_sector,
945 VHDX_LOG_SECTOR_SIZE);
946 if (ret < 0) {
947 goto exit;
949 memcpy(merged_sector + sector_offset, data_tmp, leading_length);
950 bytes_written = leading_length;
951 sector_write = merged_sector;
952 } else if (i == sectors - 1 && trailing_length) {
953 /* partial sector at the end of the buffer */
954 ret = bdrv_pread(bs->file->bs,
955 file_offset,
956 merged_sector + trailing_length,
957 VHDX_LOG_SECTOR_SIZE - trailing_length);
958 if (ret < 0) {
959 goto exit;
961 memcpy(merged_sector, data_tmp, trailing_length);
962 bytes_written = trailing_length;
963 sector_write = merged_sector;
964 } else {
965 bytes_written = VHDX_LOG_SECTOR_SIZE;
966 sector_write = data_tmp;
969 /* populate the raw sector data into the proper structures,
970 * as well as update the descriptor, and convert to proper
971 * endianness */
972 vhdx_log_raw_to_le_sector(new_desc, data_sector, sector_write,
973 s->log.sequence);
975 data_tmp += bytes_written;
976 data_sector++;
977 new_desc++;
978 file_offset += VHDX_LOG_SECTOR_SIZE;
981 /* checksum covers entire entry, from the log header through the
982 * last data sector */
983 vhdx_update_checksum(buffer, total_length,
984 offsetof(VHDXLogEntryHeader, checksum));
986 /* now write to the log */
987 ret = vhdx_log_write_sectors(bs, &s->log, &sectors_written, buffer,
988 desc_sectors + sectors);
989 if (ret < 0) {
990 goto exit;
993 if (sectors_written != desc_sectors + sectors) {
994 /* instead of failing, we could flush the log here */
995 ret = -EINVAL;
996 goto exit;
999 s->log.sequence++;
1000 /* write new tail */
1001 s->log.tail = s->log.write;
1003 exit:
1004 qemu_vfree(buffer);
1005 qemu_vfree(merged_sector);
1006 return ret;
1009 /* Perform a log write, and then immediately flush the entire log */
1010 int vhdx_log_write_and_flush(BlockDriverState *bs, BDRVVHDXState *s,
1011 void *data, uint32_t length, uint64_t offset)
1013 int ret = 0;
1014 VHDXLogSequence logs = { .valid = true,
1015 .count = 1,
1016 .hdr = { 0 } };
1019 /* Make sure data written (new and/or changed blocks) is stable
1020 * on disk, before creating log entry */
1021 bdrv_flush(bs);
1022 ret = vhdx_log_write(bs, s, data, length, offset);
1023 if (ret < 0) {
1024 goto exit;
1026 logs.log = s->log;
1028 /* Make sure log is stable on disk */
1029 bdrv_flush(bs);
1030 ret = vhdx_log_flush(bs, s, &logs);
1031 if (ret < 0) {
1032 goto exit;
1035 s->log = logs.log;
1037 exit:
1038 return ret;