projects / qemu.git / blame
| Commit | Line | Data |
|---|---|---|
| 75411d23 SH |
1 | /* |
| 2 | * QEMU Enhanced Disk Format | |
| 3 | * | |
| 4 | * Copyright IBM, Corp. 2010 | |
| 5 | * | |
| 6 | * Authors: | |
| 7 | * Stefan Hajnoczi <[email protected]> | |
| 8 | * Anthony Liguori <[email protected]> | |
| 9 | * | |
| 10 | * This work is licensed under the terms of the GNU LGPL, version 2 or later. | |
| 11 | * See the COPYING.LIB file in the top-level directory. | |
| 12 | * | |
| 13 | */ | |
| 14 | ||
| 1de7afc9 | 15 | #include "qemu/timer.h" |
| eabba580 | 16 | #include "trace.h" |
| 75411d23 | 17 | #include "qed.h" |
| 7b1b5d19 | 18 | #include "qapi/qmp/qerror.h" |
| caf71f86 | 19 | #include "migration/migration.h" |
| 75411d23 | 20 | |
| eabba580 SH |
21 | static void qed_aio_cancel(BlockDriverAIOCB *blockacb) |
| 22 | { | |
| 23 | QEDAIOCB *acb = (QEDAIOCB *)blockacb; | |
| 24 | bool finished = false; | |
| 25 | ||
| 26 | /* Wait for the request to finish */ | |
| 27 | acb->finished = &finished; | |
| 28 | while (!finished) { | |
| 29 | qemu_aio_wait(); | |
| 30 | } | |
| 31 | } | |
| 32 | ||
| d7331bed | 33 | static const AIOCBInfo qed_aiocb_info = { |
| eabba580 SH |
34 | .aiocb_size = sizeof(QEDAIOCB), |
| 35 | .cancel = qed_aio_cancel, | |
| 36 | }; | |
| 37 | ||
| 75411d23 SH |
38 | static int bdrv_qed_probe(const uint8_t *buf, int buf_size, |
| 39 | const char *filename) | |
| 40 | { | |
| 41 | const QEDHeader *header = (const QEDHeader *)buf; | |
| 42 | ||
| 43 | if (buf_size < sizeof(*header)) { | |
| 44 | return 0; | |
| 45 | } | |
| 46 | if (le32_to_cpu(header->magic) != QED_MAGIC) { | |
| 47 | return 0; | |
| 48 | } | |
| 49 | return 100; | |
| 50 | } | |
| 51 | ||
| 52 | /** | |
| 53 | * Check whether an image format is raw | |
| 54 | * | |
| 55 | * @fmt: Backing file format, may be NULL | |
| 56 | */ | |
| 57 | static bool qed_fmt_is_raw(const char *fmt) | |
| 58 | { | |
| 59 | return fmt && strcmp(fmt, "raw") == 0; | |
| 60 | } | |
| 61 | ||
| 62 | static void qed_header_le_to_cpu(const QEDHeader *le, QEDHeader *cpu) | |
| 63 | { | |
| 64 | cpu->magic = le32_to_cpu(le->magic); | |
| 65 | cpu->cluster_size = le32_to_cpu(le->cluster_size); | |
| 66 | cpu->table_size = le32_to_cpu(le->table_size); | |
| 67 | cpu->header_size = le32_to_cpu(le->header_size); | |
| 68 | cpu->features = le64_to_cpu(le->features); | |
| 69 | cpu->compat_features = le64_to_cpu(le->compat_features); | |
| 70 | cpu->autoclear_features = le64_to_cpu(le->autoclear_features); | |
| 71 | cpu->l1_table_offset = le64_to_cpu(le->l1_table_offset); | |
| 72 | cpu->image_size = le64_to_cpu(le->image_size); | |
| 73 | cpu->backing_filename_offset = le32_to_cpu(le->backing_filename_offset); | |
| 74 | cpu->backing_filename_size = le32_to_cpu(le->backing_filename_size); | |
| 75 | } | |
| 76 | ||
| 77 | static void qed_header_cpu_to_le(const QEDHeader *cpu, QEDHeader *le) | |
| 78 | { | |
| 79 | le->magic = cpu_to_le32(cpu->magic); | |
| 80 | le->cluster_size = cpu_to_le32(cpu->cluster_size); | |
| 81 | le->table_size = cpu_to_le32(cpu->table_size); | |
| 82 | le->header_size = cpu_to_le32(cpu->header_size); | |
| 83 | le->features = cpu_to_le64(cpu->features); | |
| 84 | le->compat_features = cpu_to_le64(cpu->compat_features); | |
| 85 | le->autoclear_features = cpu_to_le64(cpu->autoclear_features); | |
| 86 | le->l1_table_offset = cpu_to_le64(cpu->l1_table_offset); | |
| 87 | le->image_size = cpu_to_le64(cpu->image_size); | |
| 88 | le->backing_filename_offset = cpu_to_le32(cpu->backing_filename_offset); | |
| 89 | le->backing_filename_size = cpu_to_le32(cpu->backing_filename_size); | |
| 90 | } | |
| 91 | ||
| b10170ac | 92 | int qed_write_header_sync(BDRVQEDState *s) |
| 75411d23 SH |
93 | { |
| 94 | QEDHeader le; | |
| 95 | int ret; | |
| 96 | ||
| 97 | qed_header_cpu_to_le(&s->header, &le); | |
| 98 | ret = bdrv_pwrite(s->bs->file, 0, &le, sizeof(le)); | |
| 99 | if (ret != sizeof(le)) { | |
| 100 | return ret; | |
| 101 | } | |
| 102 | return 0; | |
| 103 | } | |
| 104 | ||
| 01979a98 SH |
105 | typedef struct { |
| 106 | GenericCB gencb; | |
| 107 | BDRVQEDState *s; | |
| 108 | struct iovec iov; | |
| 109 | QEMUIOVector qiov; | |
| 110 | int nsectors; | |
| 111 | uint8_t *buf; | |
| 112 | } QEDWriteHeaderCB; | |
| 113 | ||
| 114 | static void qed_write_header_cb(void *opaque, int ret) | |
| 115 | { | |
| 116 | QEDWriteHeaderCB *write_header_cb = opaque; | |
| 117 | ||
| 118 | qemu_vfree(write_header_cb->buf); | |
| 119 | gencb_complete(write_header_cb, ret); | |
| 120 | } | |
| 121 | ||
| 122 | static void qed_write_header_read_cb(void *opaque, int ret) | |
| 123 | { | |
| 124 | QEDWriteHeaderCB *write_header_cb = opaque; | |
| 125 | BDRVQEDState *s = write_header_cb->s; | |
| 01979a98 SH |
126 | |
| 127 | if (ret) { | |
| 128 | qed_write_header_cb(write_header_cb, ret); | |
| 129 | return; | |
| 130 | } | |
| 131 | ||
| 132 | /* Update header */ | |
| 133 | qed_header_cpu_to_le(&s->header, (QEDHeader *)write_header_cb->buf); | |
| 134 | ||
| ad54ae80 PB |
135 | bdrv_aio_writev(s->bs->file, 0, &write_header_cb->qiov, |
| 136 | write_header_cb->nsectors, qed_write_header_cb, | |
| 137 | write_header_cb); | |
| 01979a98 SH |
138 | } |
| 139 | ||
| 140 | /** | |
| 141 | * Update header in-place (does not rewrite backing filename or other strings) | |
| 142 | * | |
| 143 | * This function only updates known header fields in-place and does not affect | |
| 144 | * extra data after the QED header. | |
| 145 | */ | |
| 146 | static void qed_write_header(BDRVQEDState *s, BlockDriverCompletionFunc cb, | |
| 147 | void *opaque) | |
| 148 | { | |
| 149 | /* We must write full sectors for O_DIRECT but cannot necessarily generate | |
| 150 | * the data following the header if an unrecognized compat feature is | |
| 151 | * active. Therefore, first read the sectors containing the header, update | |
| 152 | * them, and write back. | |
| 153 | */ | |
| 154 | ||
| 01979a98 SH |
155 | int nsectors = (sizeof(QEDHeader) + BDRV_SECTOR_SIZE - 1) / |
| 156 | BDRV_SECTOR_SIZE; | |
| 157 | size_t len = nsectors * BDRV_SECTOR_SIZE; | |
| 158 | QEDWriteHeaderCB *write_header_cb = gencb_alloc(sizeof(*write_header_cb), | |
| 159 | cb, opaque); | |
| 160 | ||
| 161 | write_header_cb->s = s; | |
| 162 | write_header_cb->nsectors = nsectors; | |
| 163 | write_header_cb->buf = qemu_blockalign(s->bs, len); | |
| 164 | write_header_cb->iov.iov_base = write_header_cb->buf; | |
| 165 | write_header_cb->iov.iov_len = len; | |
| 166 | qemu_iovec_init_external(&write_header_cb->qiov, &write_header_cb->iov, 1); | |
| 167 | ||
| ad54ae80 PB |
168 | bdrv_aio_readv(s->bs->file, 0, &write_header_cb->qiov, nsectors, |
| 169 | qed_write_header_read_cb, write_header_cb); | |
| 01979a98 SH |
170 | } |
| 171 | ||
| 75411d23 SH |
172 | static uint64_t qed_max_image_size(uint32_t cluster_size, uint32_t table_size) |
| 173 | { | |
| 174 | uint64_t table_entries; | |
| 175 | uint64_t l2_size; | |
| 176 | ||
| 177 | table_entries = (table_size * cluster_size) / sizeof(uint64_t); | |
| 178 | l2_size = table_entries * cluster_size; | |
| 179 | ||
| 180 | return l2_size * table_entries; | |
| 181 | } | |
| 182 | ||
| 183 | static bool qed_is_cluster_size_valid(uint32_t cluster_size) | |
| 184 | { | |
| 185 | if (cluster_size < QED_MIN_CLUSTER_SIZE || | |
| 186 | cluster_size > QED_MAX_CLUSTER_SIZE) { | |
| 187 | return false; | |
| 188 | } | |
| 189 | if (cluster_size & (cluster_size - 1)) { | |
| 190 | return false; /* not power of 2 */ | |
| 191 | } | |
| 192 | return true; | |
| 193 | } | |
| 194 | ||
| 195 | static bool qed_is_table_size_valid(uint32_t table_size) | |
| 196 | { | |
| 197 | if (table_size < QED_MIN_TABLE_SIZE || | |
| 198 | table_size > QED_MAX_TABLE_SIZE) { | |
| 199 | return false; | |
| 200 | } | |
| 201 | if (table_size & (table_size - 1)) { | |
| 202 | return false; /* not power of 2 */ | |
| 203 | } | |
| 204 | return true; | |
| 205 | } | |
| 206 | ||
| 207 | static bool qed_is_image_size_valid(uint64_t image_size, uint32_t cluster_size, | |
| 208 | uint32_t table_size) | |
| 209 | { | |
| 210 | if (image_size % BDRV_SECTOR_SIZE != 0) { | |
| 211 | return false; /* not multiple of sector size */ | |
| 212 | } | |
| 213 | if (image_size > qed_max_image_size(cluster_size, table_size)) { | |
| 214 | return false; /* image is too large */ | |
| 215 | } | |
| 216 | return true; | |
| 217 | } | |
| 218 | ||
| 219 | /** | |
| 220 | * Read a string of known length from the image file | |
| 221 | * | |
| 222 | * @file: Image file | |
| 223 | * @offset: File offset to start of string, in bytes | |
| 224 | * @n: String length in bytes | |
| 225 | * @buf: Destination buffer | |
| 226 | * @buflen: Destination buffer length in bytes | |
| 227 | * @ret: 0 on success, -errno on failure | |
| 228 | * | |
| 229 | * The string is NUL-terminated. | |
| 230 | */ | |
| 231 | static int qed_read_string(BlockDriverState *file, uint64_t offset, size_t n, | |
| 232 | char *buf, size_t buflen) | |
| 233 | { | |
| 234 | int ret; | |
| 235 | if (n >= buflen) { | |
| 236 | return -EINVAL; | |
| 237 | } | |
| 238 | ret = bdrv_pread(file, offset, buf, n); | |
| 239 | if (ret < 0) { | |
| 240 | return ret; | |
| 241 | } | |
| 242 | buf[n] = '\0'; | |
| 243 | return 0; | |
| 244 | } | |
| 245 | ||
| eabba580 SH |
246 | /** |
| 247 | * Allocate new clusters | |
| 248 | * | |
| 249 | * @s: QED state | |
| 250 | * @n: Number of contiguous clusters to allocate | |
| 251 | * @ret: Offset of first allocated cluster | |
| 252 | * | |
| 253 | * This function only produces the offset where the new clusters should be | |
| 254 | * written. It updates BDRVQEDState but does not make any changes to the image | |
| 255 | * file. | |
| 256 | */ | |
| 257 | static uint64_t qed_alloc_clusters(BDRVQEDState *s, unsigned int n) | |
| 258 | { | |
| 259 | uint64_t offset = s->file_size; | |
| 260 | s->file_size += n * s->header.cluster_size; | |
| 261 | return offset; | |
| 262 | } | |
| 263 | ||
| 298800ca SH |
264 | QEDTable *qed_alloc_table(BDRVQEDState *s) |
| 265 | { | |
| 266 | /* Honor O_DIRECT memory alignment requirements */ | |
| 267 | return qemu_blockalign(s->bs, | |
| 268 | s->header.cluster_size * s->header.table_size); | |
| 269 | } | |
| 270 | ||
| eabba580 SH |
271 | /** |
| 272 | * Allocate a new zeroed L2 table | |
| 273 | */ | |
| 274 | static CachedL2Table *qed_new_l2_table(BDRVQEDState *s) | |
| 275 | { | |
| 276 | CachedL2Table *l2_table = qed_alloc_l2_cache_entry(&s->l2_cache); | |
| 277 | ||
| 278 | l2_table->table = qed_alloc_table(s); | |
| 279 | l2_table->offset = qed_alloc_clusters(s, s->header.table_size); | |
| 280 | ||
| 281 | memset(l2_table->table->offsets, 0, | |
| 282 | s->header.cluster_size * s->header.table_size); | |
| 283 | return l2_table; | |
| 284 | } | |
| 285 | ||
| 286 | static void qed_aio_next_io(void *opaque, int ret); | |
| 287 | ||
| 6f321e93 SH |
288 | static void qed_plug_allocating_write_reqs(BDRVQEDState *s) |
| 289 | { | |
| 290 | assert(!s->allocating_write_reqs_plugged); | |
| 291 | ||
| 292 | s->allocating_write_reqs_plugged = true; | |
| 293 | } | |
| 294 | ||
| 295 | static void qed_unplug_allocating_write_reqs(BDRVQEDState *s) | |
| 296 | { | |
| 297 | QEDAIOCB *acb; | |
| 298 | ||
| 299 | assert(s->allocating_write_reqs_plugged); | |
| 300 | ||
| 301 | s->allocating_write_reqs_plugged = false; | |
| 302 | ||
| 303 | acb = QSIMPLEQ_FIRST(&s->allocating_write_reqs); | |
| 304 | if (acb) { | |
| 305 | qed_aio_next_io(acb, 0); | |
| 306 | } | |
| 307 | } | |
| 308 | ||
| 309 | static void qed_finish_clear_need_check(void *opaque, int ret) | |
| 310 | { | |
| 311 | /* Do nothing */ | |
| 312 | } | |
| 313 | ||
| 314 | static void qed_flush_after_clear_need_check(void *opaque, int ret) | |
| 315 | { | |
| 316 | BDRVQEDState *s = opaque; | |
| 317 | ||
| 318 | bdrv_aio_flush(s->bs, qed_finish_clear_need_check, s); | |
| 319 | ||
| 320 | /* No need to wait until flush completes */ | |
| 321 | qed_unplug_allocating_write_reqs(s); | |
| 322 | } | |
| 323 | ||
| 324 | static void qed_clear_need_check(void *opaque, int ret) | |
| 325 | { | |
| 326 | BDRVQEDState *s = opaque; | |
| 327 | ||
| 328 | if (ret) { | |
| 329 | qed_unplug_allocating_write_reqs(s); | |
| 330 | return; | |
| 331 | } | |
| 332 | ||
| 333 | s->header.features &= ~QED_F_NEED_CHECK; | |
| 334 | qed_write_header(s, qed_flush_after_clear_need_check, s); | |
| 335 | } | |
| 336 | ||
| 337 | static void qed_need_check_timer_cb(void *opaque) | |
| 338 | { | |
| 339 | BDRVQEDState *s = opaque; | |
| 340 | ||
| 341 | /* The timer should only fire when allocating writes have drained */ | |
| 342 | assert(!QSIMPLEQ_FIRST(&s->allocating_write_reqs)); | |
| 343 | ||
| 344 | trace_qed_need_check_timer_cb(s); | |
| 345 | ||
| 346 | qed_plug_allocating_write_reqs(s); | |
| 347 | ||
| 348 | /* Ensure writes are on disk before clearing flag */ | |
| 349 | bdrv_aio_flush(s->bs, qed_clear_need_check, s); | |
| 350 | } | |
| 351 | ||
| 352 | static void qed_start_need_check_timer(BDRVQEDState *s) | |
| 353 | { | |
| 354 | trace_qed_start_need_check_timer(s); | |
| 355 | ||
| bc72ad67 | 356 | /* Use QEMU_CLOCK_VIRTUAL so we don't alter the image file while suspended for |
| 6f321e93 SH |
357 | * migration. |
| 358 | */ | |
| bc72ad67 | 359 | timer_mod(s->need_check_timer, qemu_clock_get_ns(QEMU_CLOCK_VIRTUAL) + |
| 6f321e93 SH |
360 | get_ticks_per_sec() * QED_NEED_CHECK_TIMEOUT); |
| 361 | } | |
| 362 | ||
| 363 | /* It's okay to call this multiple times or when no timer is started */ | |
| 364 | static void qed_cancel_need_check_timer(BDRVQEDState *s) | |
| 365 | { | |
| 366 | trace_qed_cancel_need_check_timer(s); | |
| bc72ad67 | 367 | timer_del(s->need_check_timer); |
| 6f321e93 SH |
368 | } |
| 369 | ||
| e023b2e2 PB |
370 | static void bdrv_qed_rebind(BlockDriverState *bs) |
| 371 | { | |
| 372 | BDRVQEDState *s = bs->opaque; | |
| 373 | s->bs = bs; | |
| 374 | } | |
| 375 | ||
| 015a1036 HR |
376 | static int bdrv_qed_open(BlockDriverState *bs, QDict *options, int flags, |
| 377 | Error **errp) | |
| 75411d23 SH |
378 | { |
| 379 | BDRVQEDState *s = bs->opaque; | |
| 380 | QEDHeader le_header; | |
| 381 | int64_t file_size; | |
| 382 | int ret; | |
| 383 | ||
| 384 | s->bs = bs; | |
| eabba580 | 385 | QSIMPLEQ_INIT(&s->allocating_write_reqs); |
| 75411d23 SH |
386 | |
| 387 | ret = bdrv_pread(bs->file, 0, &le_header, sizeof(le_header)); | |
| 388 | if (ret < 0) { | |
| 389 | return ret; | |
| 390 | } | |
| 75411d23 SH |
391 | qed_header_le_to_cpu(&le_header, &s->header); |
| 392 | ||
| 393 | if (s->header.magic != QED_MAGIC) { | |
| 15bac0d5 | 394 | return -EMEDIUMTYPE; |
| 75411d23 SH |
395 | } |
| 396 | if (s->header.features & ~QED_FEATURE_MASK) { | |
| 10b758e8 KW |
397 | /* image uses unsupported feature bits */ |
| 398 | char buf[64]; | |
| 399 | snprintf(buf, sizeof(buf), "%" PRIx64, | |
| 400 | s->header.features & ~QED_FEATURE_MASK); | |
| 401 | qerror_report(QERR_UNKNOWN_BLOCK_FORMAT_FEATURE, | |
| 402 | bs->device_name, "QED", buf); | |
| 403 | return -ENOTSUP; | |
| 75411d23 SH |
404 | } |
| 405 | if (!qed_is_cluster_size_valid(s->header.cluster_size)) { | |
| 406 | return -EINVAL; | |
| 407 | } | |
| 408 | ||
| 409 | /* Round down file size to the last cluster */ | |
| 410 | file_size = bdrv_getlength(bs->file); | |
| 411 | if (file_size < 0) { | |
| 412 | return file_size; | |
| 413 | } | |
| 414 | s->file_size = qed_start_of_cluster(s, file_size); | |
| 415 | ||
| 416 | if (!qed_is_table_size_valid(s->header.table_size)) { | |
| 417 | return -EINVAL; | |
| 418 | } | |
| 419 | if (!qed_is_image_size_valid(s->header.image_size, | |
| 420 | s->header.cluster_size, | |
| 421 | s->header.table_size)) { | |
| 422 | return -EINVAL; | |
| 423 | } | |
| 424 | if (!qed_check_table_offset(s, s->header.l1_table_offset)) { | |
| 425 | return -EINVAL; | |
| 426 | } | |
| 427 | ||
| 428 | s->table_nelems = (s->header.cluster_size * s->header.table_size) / | |
| 429 | sizeof(uint64_t); | |
| 430 | s->l2_shift = ffs(s->header.cluster_size) - 1; | |
| 431 | s->l2_mask = s->table_nelems - 1; | |
| 432 | s->l1_shift = s->l2_shift + ffs(s->table_nelems) - 1; | |
| 433 | ||
| 434 | if ((s->header.features & QED_F_BACKING_FILE)) { | |
| 435 | if ((uint64_t)s->header.backing_filename_offset + | |
| 436 | s->header.backing_filename_size > | |
| 437 | s->header.cluster_size * s->header.header_size) { | |
| 438 | return -EINVAL; | |
| 439 | } | |
| 440 | ||
| 441 | ret = qed_read_string(bs->file, s->header.backing_filename_offset, | |
| 442 | s->header.backing_filename_size, bs->backing_file, | |
| 443 | sizeof(bs->backing_file)); | |
| 444 | if (ret < 0) { | |
| 445 | return ret; | |
| 446 | } | |
| 447 | ||
| 448 | if (s->header.features & QED_F_BACKING_FORMAT_NO_PROBE) { | |
| 449 | pstrcpy(bs->backing_format, sizeof(bs->backing_format), "raw"); | |
| 450 | } | |
| 451 | } | |
| 452 | ||
| 453 | /* Reset unknown autoclear feature bits. This is a backwards | |
| 454 | * compatibility mechanism that allows images to be opened by older | |
| 455 | * programs, which "knock out" unknown feature bits. When an image is | |
| 456 | * opened by a newer program again it can detect that the autoclear | |
| 457 | * feature is no longer valid. | |
| 458 | */ | |
| 459 | if ((s->header.autoclear_features & ~QED_AUTOCLEAR_FEATURE_MASK) != 0 && | |
| 2d1f3c23 | 460 | !bdrv_is_read_only(bs->file) && !(flags & BDRV_O_INCOMING)) { |
| 75411d23 SH |
461 | s->header.autoclear_features &= QED_AUTOCLEAR_FEATURE_MASK; |
| 462 | ||
| 463 | ret = qed_write_header_sync(s); | |
| 464 | if (ret) { | |
| 465 | return ret; | |
| 466 | } | |
| 467 | ||
| 468 | /* From here on only known autoclear feature bits are valid */ | |
| 469 | bdrv_flush(bs->file); | |
| 470 | } | |
| 471 | ||
| 298800ca SH |
472 | s->l1_table = qed_alloc_table(s); |
| 473 | qed_init_l2_cache(&s->l2_cache); | |
| 474 | ||
| 475 | ret = qed_read_l1_table_sync(s); | |
| 01979a98 SH |
476 | if (ret) { |
| 477 | goto out; | |
| 478 | } | |
| 479 | ||
| 480 | /* If image was not closed cleanly, check consistency */ | |
| 058f8f16 | 481 | if (!(flags & BDRV_O_CHECK) && (s->header.features & QED_F_NEED_CHECK)) { |
| 01979a98 SH |
482 | /* Read-only images cannot be fixed. There is no risk of corruption |
| 483 | * since write operations are not possible. Therefore, allow | |
| 484 | * potentially inconsistent images to be opened read-only. This can | |
| 485 | * aid data recovery from an otherwise inconsistent image. | |
| 486 | */ | |
| 2d1f3c23 BC |
487 | if (!bdrv_is_read_only(bs->file) && |
| 488 | !(flags & BDRV_O_INCOMING)) { | |
| 01979a98 SH |
489 | BdrvCheckResult result = {0}; |
| 490 | ||
| 491 | ret = qed_check(s, &result, true); | |
| 6f321e93 SH |
492 | if (ret) { |
| 493 | goto out; | |
| 494 | } | |
| 01979a98 SH |
495 | } |
| 496 | } | |
| 497 | ||
| bc72ad67 | 498 | s->need_check_timer = timer_new_ns(QEMU_CLOCK_VIRTUAL, |
| 6f321e93 SH |
499 | qed_need_check_timer_cb, s); |
| 500 | ||
| 01979a98 | 501 | out: |
| 298800ca SH |
502 | if (ret) { |
| 503 | qed_free_l2_cache(&s->l2_cache); | |
| 504 | qemu_vfree(s->l1_table); | |
| 505 | } | |
| 75411d23 SH |
506 | return ret; |
| 507 | } | |
| 508 | ||
| f9cb20f1 JC |
509 | /* We have nothing to do for QED reopen, stubs just return |
| 510 | * success */ | |
| 511 | static int bdrv_qed_reopen_prepare(BDRVReopenState *state, | |
| 512 | BlockReopenQueue *queue, Error **errp) | |
| 513 | { | |
| 514 | return 0; | |
| 515 | } | |
| 516 | ||
| 75411d23 SH |
517 | static void bdrv_qed_close(BlockDriverState *bs) |
| 518 | { | |
| 298800ca SH |
519 | BDRVQEDState *s = bs->opaque; |
| 520 | ||
| 6f321e93 | 521 | qed_cancel_need_check_timer(s); |
| bc72ad67 | 522 | timer_free(s->need_check_timer); |
| 6f321e93 | 523 | |
| 01979a98 SH |
524 | /* Ensure writes reach stable storage */ |
| 525 | bdrv_flush(bs->file); | |
| 526 | ||
| 527 | /* Clean shutdown, no check required on next open */ | |
| 528 | if (s->header.features & QED_F_NEED_CHECK) { | |
| 529 | s->header.features &= ~QED_F_NEED_CHECK; | |
| 530 | qed_write_header_sync(s); | |
| 531 | } | |
| 532 | ||
| 298800ca SH |
533 | qed_free_l2_cache(&s->l2_cache); |
| 534 | qemu_vfree(s->l1_table); | |
| 75411d23 SH |
535 | } |
| 536 | ||
| 75411d23 SH |
537 | static int qed_create(const char *filename, uint32_t cluster_size, |
| 538 | uint64_t image_size, uint32_t table_size, | |
| 539 | const char *backing_file, const char *backing_fmt) | |
| 540 | { | |
| 541 | QEDHeader header = { | |
| 542 | .magic = QED_MAGIC, | |
| 543 | .cluster_size = cluster_size, | |
| 544 | .table_size = table_size, | |
| 545 | .header_size = 1, | |
| 546 | .features = 0, | |
| 547 | .compat_features = 0, | |
| 548 | .l1_table_offset = cluster_size, | |
| 549 | .image_size = image_size, | |
| 550 | }; | |
| 551 | QEDHeader le_header; | |
| 552 | uint8_t *l1_table = NULL; | |
| 553 | size_t l1_size = header.cluster_size * header.table_size; | |
| 34b5d2c6 | 554 | Error *local_err = NULL; |
| 75411d23 SH |
555 | int ret = 0; |
| 556 | BlockDriverState *bs = NULL; | |
| 557 | ||
| 558 | ret = bdrv_create_file(filename, NULL); | |
| 559 | if (ret < 0) { | |
| 560 | return ret; | |
| 561 | } | |
| 562 | ||
| 34b5d2c6 HR |
563 | ret = bdrv_file_open(&bs, filename, NULL, BDRV_O_RDWR | BDRV_O_CACHE_WB, |
| 564 | &local_err); | |
| 75411d23 | 565 | if (ret < 0) { |
| 34b5d2c6 HR |
566 | qerror_report_err(local_err); |
| 567 | error_free(local_err); | |
| 75411d23 SH |
568 | return ret; |
| 569 | } | |
| 570 | ||
| c743849b SH |
571 | /* File must start empty and grow, check truncate is supported */ |
| 572 | ret = bdrv_truncate(bs, 0); | |
| 573 | if (ret < 0) { | |
| 574 | goto out; | |
| 575 | } | |
| 576 | ||
| 75411d23 SH |
577 | if (backing_file) { |
| 578 | header.features |= QED_F_BACKING_FILE; | |
| 579 | header.backing_filename_offset = sizeof(le_header); | |
| 580 | header.backing_filename_size = strlen(backing_file); | |
| 581 | ||
| 582 | if (qed_fmt_is_raw(backing_fmt)) { | |
| 583 | header.features |= QED_F_BACKING_FORMAT_NO_PROBE; | |
| 584 | } | |
| 585 | } | |
| 586 | ||
| 587 | qed_header_cpu_to_le(&header, &le_header); | |
| 588 | ret = bdrv_pwrite(bs, 0, &le_header, sizeof(le_header)); | |
| 589 | if (ret < 0) { | |
| 590 | goto out; | |
| 591 | } | |
| 592 | ret = bdrv_pwrite(bs, sizeof(le_header), backing_file, | |
| 593 | header.backing_filename_size); | |
| 594 | if (ret < 0) { | |
| 595 | goto out; | |
| 596 | } | |
| 597 | ||
| 7267c094 | 598 | l1_table = g_malloc0(l1_size); |
| 75411d23 SH |
599 | ret = bdrv_pwrite(bs, header.l1_table_offset, l1_table, l1_size); |
| 600 | if (ret < 0) { | |
| 601 | goto out; | |
| 602 | } | |
| 603 | ||
| 604 | ret = 0; /* success */ | |
| 605 | out: | |
| 7267c094 | 606 | g_free(l1_table); |
| 4f6fd349 | 607 | bdrv_unref(bs); |
| 75411d23 SH |
608 | return ret; |
| 609 | } | |
| 610 | ||
| d5124c00 HR |
611 | static int bdrv_qed_create(const char *filename, QEMUOptionParameter *options, |
| 612 | Error **errp) | |
| 75411d23 SH |
613 | { |
| 614 | uint64_t image_size = 0; | |
| 615 | uint32_t cluster_size = QED_DEFAULT_CLUSTER_SIZE; | |
| 616 | uint32_t table_size = QED_DEFAULT_TABLE_SIZE; | |
| 617 | const char *backing_file = NULL; | |
| 618 | const char *backing_fmt = NULL; | |
| 619 | ||
| 620 | while (options && options->name) { | |
| 621 | if (!strcmp(options->name, BLOCK_OPT_SIZE)) { | |
| 622 | image_size = options->value.n; | |
| 623 | } else if (!strcmp(options->name, BLOCK_OPT_BACKING_FILE)) { | |
| 624 | backing_file = options->value.s; | |
| 625 | } else if (!strcmp(options->name, BLOCK_OPT_BACKING_FMT)) { | |
| 626 | backing_fmt = options->value.s; | |
| 627 | } else if (!strcmp(options->name, BLOCK_OPT_CLUSTER_SIZE)) { | |
| 628 | if (options->value.n) { | |
| 629 | cluster_size = options->value.n; | |
| 630 | } | |
| 631 | } else if (!strcmp(options->name, BLOCK_OPT_TABLE_SIZE)) { | |
| 632 | if (options->value.n) { | |
| 633 | table_size = options->value.n; | |
| 634 | } | |
| 635 | } | |
| 636 | options++; | |
| 637 | } | |
| 638 | ||
| 639 | if (!qed_is_cluster_size_valid(cluster_size)) { | |
| 640 | fprintf(stderr, "QED cluster size must be within range [%u, %u] and power of 2\n", | |
| 641 | QED_MIN_CLUSTER_SIZE, QED_MAX_CLUSTER_SIZE); | |
| 642 | return -EINVAL; | |
| 643 | } | |
| 644 | if (!qed_is_table_size_valid(table_size)) { | |
| 645 | fprintf(stderr, "QED table size must be within range [%u, %u] and power of 2\n", | |
| 646 | QED_MIN_TABLE_SIZE, QED_MAX_TABLE_SIZE); | |
| 647 | return -EINVAL; | |
| 648 | } | |
| 649 | if (!qed_is_image_size_valid(image_size, cluster_size, table_size)) { | |
| 650 | fprintf(stderr, "QED image size must be a non-zero multiple of " | |
| 651 | "cluster size and less than %" PRIu64 " bytes\n", | |
| 652 | qed_max_image_size(cluster_size, table_size)); | |
| 653 | return -EINVAL; | |
| 654 | } | |
| 655 | ||
| 656 | return qed_create(filename, cluster_size, image_size, table_size, | |
| 657 | backing_file, backing_fmt); | |
| 658 | } | |
| 659 | ||
| 298800ca | 660 | typedef struct { |
| 4bc74be9 | 661 | BlockDriverState *bs; |
| b7d5a5b8 | 662 | Coroutine *co; |
| 4bc74be9 PB |
663 | uint64_t pos; |
| 664 | int64_t status; | |
| 298800ca SH |
665 | int *pnum; |
| 666 | } QEDIsAllocatedCB; | |
| 667 | ||
| 668 | static void qed_is_allocated_cb(void *opaque, int ret, uint64_t offset, size_t len) | |
| 669 | { | |
| 670 | QEDIsAllocatedCB *cb = opaque; | |
| 4bc74be9 | 671 | BDRVQEDState *s = cb->bs->opaque; |
| 298800ca | 672 | *cb->pnum = len / BDRV_SECTOR_SIZE; |
| 4bc74be9 PB |
673 | switch (ret) { |
| 674 | case QED_CLUSTER_FOUND: | |
| 675 | offset |= qed_offset_into_cluster(s, cb->pos); | |
| 676 | cb->status = BDRV_BLOCK_DATA | BDRV_BLOCK_OFFSET_VALID | offset; | |
| 677 | break; | |
| 678 | case QED_CLUSTER_ZERO: | |
| 679 | cb->status = BDRV_BLOCK_ZERO; | |
| 680 | break; | |
| 681 | case QED_CLUSTER_L2: | |
| 682 | case QED_CLUSTER_L1: | |
| 683 | cb->status = 0; | |
| 684 | break; | |
| 685 | default: | |
| 686 | assert(ret < 0); | |
| 687 | cb->status = ret; | |
| 688 | break; | |
| 689 | } | |
| 690 | ||
| b7d5a5b8 SH |
691 | if (cb->co) { |
| 692 | qemu_coroutine_enter(cb->co, NULL); | |
| 693 | } | |
| 298800ca SH |
694 | } |
| 695 | ||
| b6b8a333 | 696 | static int64_t coroutine_fn bdrv_qed_co_get_block_status(BlockDriverState *bs, |
| b7d5a5b8 SH |
697 | int64_t sector_num, |
| 698 | int nb_sectors, int *pnum) | |
| 75411d23 | 699 | { |
| 298800ca | 700 | BDRVQEDState *s = bs->opaque; |
| 298800ca SH |
701 | size_t len = (size_t)nb_sectors * BDRV_SECTOR_SIZE; |
| 702 | QEDIsAllocatedCB cb = { | |
| 4bc74be9 PB |
703 | .bs = bs, |
| 704 | .pos = (uint64_t)sector_num * BDRV_SECTOR_SIZE, | |
| 705 | .status = BDRV_BLOCK_OFFSET_MASK, | |
| 298800ca SH |
706 | .pnum = pnum, |
| 707 | }; | |
| 708 | QEDRequest request = { .l2_table = NULL }; | |
| 709 | ||
| 4bc74be9 | 710 | qed_find_cluster(s, &request, cb.pos, len, qed_is_allocated_cb, &cb); |
| 298800ca | 711 | |
| b7d5a5b8 | 712 | /* Now sleep if the callback wasn't invoked immediately */ |
| 4bc74be9 | 713 | while (cb.status == BDRV_BLOCK_OFFSET_MASK) { |
| b7d5a5b8 SH |
714 | cb.co = qemu_coroutine_self(); |
| 715 | qemu_coroutine_yield(); | |
| 298800ca SH |
716 | } |
| 717 | ||
| 298800ca SH |
718 | qed_unref_l2_cache_entry(request.l2_table); |
| 719 | ||
| 4bc74be9 | 720 | return cb.status; |
| 75411d23 SH |
721 | } |
| 722 | ||
| 723 | static int bdrv_qed_make_empty(BlockDriverState *bs) | |
| 724 | { | |
| 725 | return -ENOTSUP; | |
| 726 | } | |
| 727 | ||
| eabba580 SH |
728 | static BDRVQEDState *acb_to_s(QEDAIOCB *acb) |
| 729 | { | |
| 730 | return acb->common.bs->opaque; | |
| 731 | } | |
| 732 | ||
| 733 | /** | |
| 734 | * Read from the backing file or zero-fill if no backing file | |
| 735 | * | |
| 736 | * @s: QED state | |
| 737 | * @pos: Byte position in device | |
| 738 | * @qiov: Destination I/O vector | |
| 739 | * @cb: Completion function | |
| 740 | * @opaque: User data for completion function | |
| 741 | * | |
| 742 | * This function reads qiov->size bytes starting at pos from the backing file. | |
| 743 | * If there is no backing file then zeroes are read. | |
| 744 | */ | |
| 745 | static void qed_read_backing_file(BDRVQEDState *s, uint64_t pos, | |
| 746 | QEMUIOVector *qiov, | |
| 747 | BlockDriverCompletionFunc *cb, void *opaque) | |
| 748 | { | |
| eabba580 SH |
749 | uint64_t backing_length = 0; |
| 750 | size_t size; | |
| 751 | ||
| 752 | /* If there is a backing file, get its length. Treat the absence of a | |
| 753 | * backing file like a zero length backing file. | |
| 754 | */ | |
| 755 | if (s->bs->backing_hd) { | |
| 756 | int64_t l = bdrv_getlength(s->bs->backing_hd); | |
| 757 | if (l < 0) { | |
| 758 | cb(opaque, l); | |
| 759 | return; | |
| 760 | } | |
| 761 | backing_length = l; | |
| 762 | } | |
| 763 | ||
| 764 | /* Zero all sectors if reading beyond the end of the backing file */ | |
| 765 | if (pos >= backing_length || | |
| 766 | pos + qiov->size > backing_length) { | |
| 3d9b4925 | 767 | qemu_iovec_memset(qiov, 0, 0, qiov->size); |
| eabba580 SH |
768 | } |
| 769 | ||
| 770 | /* Complete now if there are no backing file sectors to read */ | |
| 771 | if (pos >= backing_length) { | |
| 772 | cb(opaque, 0); | |
| 773 | return; | |
| 774 | } | |
| 775 | ||
| 776 | /* If the read straddles the end of the backing file, shorten it */ | |
| 777 | size = MIN((uint64_t)backing_length - pos, qiov->size); | |
| 778 | ||
| 820100fd | 779 | BLKDBG_EVENT(s->bs->file, BLKDBG_READ_BACKING_AIO); |
| ad54ae80 PB |
780 | bdrv_aio_readv(s->bs->backing_hd, pos / BDRV_SECTOR_SIZE, |
| 781 | qiov, size / BDRV_SECTOR_SIZE, cb, opaque); | |
| eabba580 SH |
782 | } |
| 783 | ||
| 784 | typedef struct { | |
| 785 | GenericCB gencb; | |
| 786 | BDRVQEDState *s; | |
| 787 | QEMUIOVector qiov; | |
| 788 | struct iovec iov; | |
| 789 | uint64_t offset; | |
| 790 | } CopyFromBackingFileCB; | |
| 791 | ||
| 792 | static void qed_copy_from_backing_file_cb(void *opaque, int ret) | |
| 793 | { | |
| 794 | CopyFromBackingFileCB *copy_cb = opaque; | |
| 795 | qemu_vfree(copy_cb->iov.iov_base); | |
| 796 | gencb_complete(©_cb->gencb, ret); | |
| 797 | } | |
| 798 | ||
| 799 | static void qed_copy_from_backing_file_write(void *opaque, int ret) | |
| 800 | { | |
| 801 | CopyFromBackingFileCB *copy_cb = opaque; | |
| 802 | BDRVQEDState *s = copy_cb->s; | |
| eabba580 SH |
803 | |
| 804 | if (ret) { | |
| 805 | qed_copy_from_backing_file_cb(copy_cb, ret); | |
| 806 | return; | |
| 807 | } | |
| 808 | ||
| 809 | BLKDBG_EVENT(s->bs->file, BLKDBG_COW_WRITE); | |
| ad54ae80 PB |
810 | bdrv_aio_writev(s->bs->file, copy_cb->offset / BDRV_SECTOR_SIZE, |
| 811 | ©_cb->qiov, copy_cb->qiov.size / BDRV_SECTOR_SIZE, | |
| 812 | qed_copy_from_backing_file_cb, copy_cb); | |
| eabba580 SH |
813 | } |
| 814 | ||
| 815 | /** | |
| 816 | * Copy data from backing file into the image | |
| 817 | * | |
| 818 | * @s: QED state | |
| 819 | * @pos: Byte position in device | |
| 820 | * @len: Number of bytes | |
| 821 | * @offset: Byte offset in image file | |
| 822 | * @cb: Completion function | |
| 823 | * @opaque: User data for completion function | |
| 824 | */ | |
| 825 | static void qed_copy_from_backing_file(BDRVQEDState *s, uint64_t pos, | |
| 826 | uint64_t len, uint64_t offset, | |
| 827 | BlockDriverCompletionFunc *cb, | |
| 828 | void *opaque) | |
| 829 | { | |
| 830 | CopyFromBackingFileCB *copy_cb; | |
| 831 | ||
| 832 | /* Skip copy entirely if there is no work to do */ | |
| 833 | if (len == 0) { | |
| 834 | cb(opaque, 0); | |
| 835 | return; | |
| 836 | } | |
| 837 | ||
| 838 | copy_cb = gencb_alloc(sizeof(*copy_cb), cb, opaque); | |
| 839 | copy_cb->s = s; | |
| 840 | copy_cb->offset = offset; | |
| 841 | copy_cb->iov.iov_base = qemu_blockalign(s->bs, len); | |
| 842 | copy_cb->iov.iov_len = len; | |
| 843 | qemu_iovec_init_external(©_cb->qiov, ©_cb->iov, 1); | |
| 844 | ||
| 845 | qed_read_backing_file(s, pos, ©_cb->qiov, | |
| 846 | qed_copy_from_backing_file_write, copy_cb); | |
| 847 | } | |
| 848 | ||
| 849 | /** | |
| 850 | * Link one or more contiguous clusters into a table | |
| 851 | * | |
| 852 | * @s: QED state | |
| 853 | * @table: L2 table | |
| 854 | * @index: First cluster index | |
| 855 | * @n: Number of contiguous clusters | |
| 21df65b6 AL |
856 | * @cluster: First cluster offset |
| 857 | * | |
| 858 | * The cluster offset may be an allocated byte offset in the image file, the | |
| 859 | * zero cluster marker, or the unallocated cluster marker. | |
| eabba580 SH |
860 | */ |
| 861 | static void qed_update_l2_table(BDRVQEDState *s, QEDTable *table, int index, | |
| 862 | unsigned int n, uint64_t cluster) | |
| 863 | { | |
| 864 | int i; | |
| 865 | for (i = index; i < index + n; i++) { | |
| 866 | table->offsets[i] = cluster; | |
| 21df65b6 AL |
867 | if (!qed_offset_is_unalloc_cluster(cluster) && |
| 868 | !qed_offset_is_zero_cluster(cluster)) { | |
| 869 | cluster += s->header.cluster_size; | |
| 870 | } | |
| eabba580 SH |
871 | } |
| 872 | } | |
| 873 | ||
| 874 | static void qed_aio_complete_bh(void *opaque) | |
| 875 | { | |
| 876 | QEDAIOCB *acb = opaque; | |
| 877 | BlockDriverCompletionFunc *cb = acb->common.cb; | |
| 878 | void *user_opaque = acb->common.opaque; | |
| 879 | int ret = acb->bh_ret; | |
| 880 | bool *finished = acb->finished; | |
| 881 | ||
| 882 | qemu_bh_delete(acb->bh); | |
| 883 | qemu_aio_release(acb); | |
| 884 | ||
| 885 | /* Invoke callback */ | |
| 886 | cb(user_opaque, ret); | |
| 887 | ||
| 888 | /* Signal cancel completion */ | |
| 889 | if (finished) { | |
| 890 | *finished = true; | |
| 891 | } | |
| 892 | } | |
| 893 | ||
| 894 | static void qed_aio_complete(QEDAIOCB *acb, int ret) | |
| 895 | { | |
| 896 | BDRVQEDState *s = acb_to_s(acb); | |
| 897 | ||
| 898 | trace_qed_aio_complete(s, acb, ret); | |
| 899 | ||
| 900 | /* Free resources */ | |
| 901 | qemu_iovec_destroy(&acb->cur_qiov); | |
| 902 | qed_unref_l2_cache_entry(acb->request.l2_table); | |
| 903 | ||
| 0e71be19 SH |
904 | /* Free the buffer we may have allocated for zero writes */ |
| 905 | if (acb->flags & QED_AIOCB_ZERO) { | |
| 906 | qemu_vfree(acb->qiov->iov[0].iov_base); | |
| 907 | acb->qiov->iov[0].iov_base = NULL; | |
| 908 | } | |
| 909 | ||
| eabba580 SH |
910 | /* Arrange for a bh to invoke the completion function */ |
| 911 | acb->bh_ret = ret; | |
| 912 | acb->bh = qemu_bh_new(qed_aio_complete_bh, acb); | |
| 913 | qemu_bh_schedule(acb->bh); | |
| 914 | ||
| 915 | /* Start next allocating write request waiting behind this one. Note that | |
| 916 | * requests enqueue themselves when they first hit an unallocated cluster | |
| 917 | * but they wait until the entire request is finished before waking up the | |
| 918 | * next request in the queue. This ensures that we don't cycle through | |
| 919 | * requests multiple times but rather finish one at a time completely. | |
| 920 | */ | |
| 921 | if (acb == QSIMPLEQ_FIRST(&s->allocating_write_reqs)) { | |
| 922 | QSIMPLEQ_REMOVE_HEAD(&s->allocating_write_reqs, next); | |
| 923 | acb = QSIMPLEQ_FIRST(&s->allocating_write_reqs); | |
| 924 | if (acb) { | |
| 925 | qed_aio_next_io(acb, 0); | |
| 6f321e93 SH |
926 | } else if (s->header.features & QED_F_NEED_CHECK) { |
| 927 | qed_start_need_check_timer(s); | |
| eabba580 SH |
928 | } |
| 929 | } | |
| 930 | } | |
| 931 | ||
| 932 | /** | |
| 933 | * Commit the current L2 table to the cache | |
| 934 | */ | |
| 935 | static void qed_commit_l2_update(void *opaque, int ret) | |
| 936 | { | |
| 937 | QEDAIOCB *acb = opaque; | |
| 938 | BDRVQEDState *s = acb_to_s(acb); | |
| 939 | CachedL2Table *l2_table = acb->request.l2_table; | |
| e4fc8781 | 940 | uint64_t l2_offset = l2_table->offset; |
| eabba580 SH |
941 | |
| 942 | qed_commit_l2_cache_entry(&s->l2_cache, l2_table); | |
| 943 | ||
| 944 | /* This is guaranteed to succeed because we just committed the entry to the | |
| 945 | * cache. | |
| 946 | */ | |
| e4fc8781 | 947 | acb->request.l2_table = qed_find_l2_cache_entry(&s->l2_cache, l2_offset); |
| eabba580 SH |
948 | assert(acb->request.l2_table != NULL); |
| 949 | ||
| 950 | qed_aio_next_io(opaque, ret); | |
| 951 | } | |
| 952 | ||
| 953 | /** | |
| 954 | * Update L1 table with new L2 table offset and write it out | |
| 955 | */ | |
| 956 | static void qed_aio_write_l1_update(void *opaque, int ret) | |
| 957 | { | |
| 958 | QEDAIOCB *acb = opaque; | |
| 959 | BDRVQEDState *s = acb_to_s(acb); | |
| 960 | int index; | |
| 961 | ||
| 962 | if (ret) { | |
| 963 | qed_aio_complete(acb, ret); | |
| 964 | return; | |
| 965 | } | |
| 966 | ||
| 967 | index = qed_l1_index(s, acb->cur_pos); | |
| 968 | s->l1_table->offsets[index] = acb->request.l2_table->offset; | |
| 969 | ||
| 970 | qed_write_l1_table(s, index, 1, qed_commit_l2_update, acb); | |
| 971 | } | |
| 972 | ||
| 973 | /** | |
| 974 | * Update L2 table with new cluster offsets and write them out | |
| 975 | */ | |
| 0e71be19 | 976 | static void qed_aio_write_l2_update(QEDAIOCB *acb, int ret, uint64_t offset) |
| eabba580 | 977 | { |
| eabba580 SH |
978 | BDRVQEDState *s = acb_to_s(acb); |
| 979 | bool need_alloc = acb->find_cluster_ret == QED_CLUSTER_L1; | |
| 980 | int index; | |
| 981 | ||
| 982 | if (ret) { | |
| 983 | goto err; | |
| 984 | } | |
| 985 | ||
| 986 | if (need_alloc) { | |
| 987 | qed_unref_l2_cache_entry(acb->request.l2_table); | |
| 988 | acb->request.l2_table = qed_new_l2_table(s); | |
| 989 | } | |
| 990 | ||
| 991 | index = qed_l2_index(s, acb->cur_pos); | |
| 992 | qed_update_l2_table(s, acb->request.l2_table->table, index, acb->cur_nclusters, | |
| 0e71be19 | 993 | offset); |
| eabba580 SH |
994 | |
| 995 | if (need_alloc) { | |
| 996 | /* Write out the whole new L2 table */ | |
| 997 | qed_write_l2_table(s, &acb->request, 0, s->table_nelems, true, | |
| 998 | qed_aio_write_l1_update, acb); | |
| 999 | } else { | |
| 1000 | /* Write out only the updated part of the L2 table */ | |
| 1001 | qed_write_l2_table(s, &acb->request, index, acb->cur_nclusters, false, | |
| 1002 | qed_aio_next_io, acb); | |
| 1003 | } | |
| 1004 | return; | |
| 1005 | ||
| 1006 | err: | |
| 1007 | qed_aio_complete(acb, ret); | |
| 1008 | } | |
| 1009 | ||
| 0e71be19 SH |
1010 | static void qed_aio_write_l2_update_cb(void *opaque, int ret) |
| 1011 | { | |
| 1012 | QEDAIOCB *acb = opaque; | |
| 1013 | qed_aio_write_l2_update(acb, ret, acb->cur_cluster); | |
| 1014 | } | |
| 1015 | ||
| eabba580 SH |
1016 | /** |
| 1017 | * Flush new data clusters before updating the L2 table | |
| 1018 | * | |
| 1019 | * This flush is necessary when a backing file is in use. A crash during an | |
| 1020 | * allocating write could result in empty clusters in the image. If the write | |
| 1021 | * only touched a subregion of the cluster, then backing image sectors have | |
| 1022 | * been lost in the untouched region. The solution is to flush after writing a | |
| 1023 | * new data cluster and before updating the L2 table. | |
| 1024 | */ | |
| 1025 | static void qed_aio_write_flush_before_l2_update(void *opaque, int ret) | |
| 1026 | { | |
| 1027 | QEDAIOCB *acb = opaque; | |
| 1028 | BDRVQEDState *s = acb_to_s(acb); | |
| 1029 | ||
| 0e71be19 | 1030 | if (!bdrv_aio_flush(s->bs->file, qed_aio_write_l2_update_cb, opaque)) { |
| eabba580 SH |
1031 | qed_aio_complete(acb, -EIO); |
| 1032 | } | |
| 1033 | } | |
| 1034 | ||
| 1035 | /** | |
| 1036 | * Write data to the image file | |
| 1037 | */ | |
| 1038 | static void qed_aio_write_main(void *opaque, int ret) | |
| 1039 | { | |
| 1040 | QEDAIOCB *acb = opaque; | |
| 1041 | BDRVQEDState *s = acb_to_s(acb); | |
| 1042 | uint64_t offset = acb->cur_cluster + | |
| 1043 | qed_offset_into_cluster(s, acb->cur_pos); | |
| 1044 | BlockDriverCompletionFunc *next_fn; | |
| eabba580 SH |
1045 | |
| 1046 | trace_qed_aio_write_main(s, acb, ret, offset, acb->cur_qiov.size); | |
| 1047 | ||
| 1048 | if (ret) { | |
| 1049 | qed_aio_complete(acb, ret); | |
| 1050 | return; | |
| 1051 | } | |
| 1052 | ||
| 1053 | if (acb->find_cluster_ret == QED_CLUSTER_FOUND) { | |
| 1054 | next_fn = qed_aio_next_io; | |
| 1055 | } else { | |
| 1056 | if (s->bs->backing_hd) { | |
| 1057 | next_fn = qed_aio_write_flush_before_l2_update; | |
| 1058 | } else { | |
| 0e71be19 | 1059 | next_fn = qed_aio_write_l2_update_cb; |
| eabba580 SH |
1060 | } |
| 1061 | } | |
| 1062 | ||
| 1063 | BLKDBG_EVENT(s->bs->file, BLKDBG_WRITE_AIO); | |
| ad54ae80 PB |
1064 | bdrv_aio_writev(s->bs->file, offset / BDRV_SECTOR_SIZE, |
| 1065 | &acb->cur_qiov, acb->cur_qiov.size / BDRV_SECTOR_SIZE, | |
| 1066 | next_fn, acb); | |
| eabba580 SH |
1067 | } |
| 1068 | ||
| 1069 | /** | |
| 1070 | * Populate back untouched region of new data cluster | |
| 1071 | */ | |
| 1072 | static void qed_aio_write_postfill(void *opaque, int ret) | |
| 1073 | { | |
| 1074 | QEDAIOCB *acb = opaque; | |
| 1075 | BDRVQEDState *s = acb_to_s(acb); | |
| 1076 | uint64_t start = acb->cur_pos + acb->cur_qiov.size; | |
| 1077 | uint64_t len = | |
| 1078 | qed_start_of_cluster(s, start + s->header.cluster_size - 1) - start; | |
| 1079 | uint64_t offset = acb->cur_cluster + | |
| 1080 | qed_offset_into_cluster(s, acb->cur_pos) + | |
| 1081 | acb->cur_qiov.size; | |
| 1082 | ||
| 1083 | if (ret) { | |
| 1084 | qed_aio_complete(acb, ret); | |
| 1085 | return; | |
| 1086 | } | |
| 1087 | ||
| 1088 | trace_qed_aio_write_postfill(s, acb, start, len, offset); | |
| 1089 | qed_copy_from_backing_file(s, start, len, offset, | |
| 1090 | qed_aio_write_main, acb); | |
| 1091 | } | |
| 1092 | ||
| 1093 | /** | |
| 1094 | * Populate front untouched region of new data cluster | |
| 1095 | */ | |
| 1096 | static void qed_aio_write_prefill(void *opaque, int ret) | |
| 1097 | { | |
| 1098 | QEDAIOCB *acb = opaque; | |
| 1099 | BDRVQEDState *s = acb_to_s(acb); | |
| 1100 | uint64_t start = qed_start_of_cluster(s, acb->cur_pos); | |
| 1101 | uint64_t len = qed_offset_into_cluster(s, acb->cur_pos); | |
| 1102 | ||
| 1103 | trace_qed_aio_write_prefill(s, acb, start, len, acb->cur_cluster); | |
| 1104 | qed_copy_from_backing_file(s, start, len, acb->cur_cluster, | |
| 1105 | qed_aio_write_postfill, acb); | |
| 1106 | } | |
| 1107 | ||
| 0d09c797 SH |
1108 | /** |
| 1109 | * Check if the QED_F_NEED_CHECK bit should be set during allocating write | |
| 1110 | */ | |
| 1111 | static bool qed_should_set_need_check(BDRVQEDState *s) | |
| 1112 | { | |
| 1113 | /* The flush before L2 update path ensures consistency */ | |
| 1114 | if (s->bs->backing_hd) { | |
| 1115 | return false; | |
| 1116 | } | |
| 1117 | ||
| 1118 | return !(s->header.features & QED_F_NEED_CHECK); | |
| 1119 | } | |
| 1120 | ||
| 0e71be19 SH |
1121 | static void qed_aio_write_zero_cluster(void *opaque, int ret) |
| 1122 | { | |
| 1123 | QEDAIOCB *acb = opaque; | |
| 1124 | ||
| 1125 | if (ret) { | |
| 1126 | qed_aio_complete(acb, ret); | |
| 1127 | return; | |
| 1128 | } | |
| 1129 | ||
| 1130 | qed_aio_write_l2_update(acb, 0, 1); | |
| 1131 | } | |
| 1132 | ||
| eabba580 SH |
1133 | /** |
| 1134 | * Write new data cluster | |
| 1135 | * | |
| 1136 | * @acb: Write request | |
| 1137 | * @len: Length in bytes | |
| 1138 | * | |
| 1139 | * This path is taken when writing to previously unallocated clusters. | |
| 1140 | */ | |
| 1141 | static void qed_aio_write_alloc(QEDAIOCB *acb, size_t len) | |
| 1142 | { | |
| 1143 | BDRVQEDState *s = acb_to_s(acb); | |
| 0e71be19 | 1144 | BlockDriverCompletionFunc *cb; |
| eabba580 | 1145 | |
| 6f321e93 SH |
1146 | /* Cancel timer when the first allocating request comes in */ |
| 1147 | if (QSIMPLEQ_EMPTY(&s->allocating_write_reqs)) { | |
| 1148 | qed_cancel_need_check_timer(s); | |
| 1149 | } | |
| 1150 | ||
| eabba580 SH |
1151 | /* Freeze this request if another allocating write is in progress */ |
| 1152 | if (acb != QSIMPLEQ_FIRST(&s->allocating_write_reqs)) { | |
| 1153 | QSIMPLEQ_INSERT_TAIL(&s->allocating_write_reqs, acb, next); | |
| 1154 | } | |
| 6f321e93 SH |
1155 | if (acb != QSIMPLEQ_FIRST(&s->allocating_write_reqs) || |
| 1156 | s->allocating_write_reqs_plugged) { | |
| eabba580 SH |
1157 | return; /* wait for existing request to finish */ |
| 1158 | } | |
| 1159 | ||
| 1160 | acb->cur_nclusters = qed_bytes_to_clusters(s, | |
| 1161 | qed_offset_into_cluster(s, acb->cur_pos) + len); | |
| 1b093c48 | 1162 | qemu_iovec_concat(&acb->cur_qiov, acb->qiov, acb->qiov_offset, len); |
| eabba580 | 1163 | |
| 0e71be19 SH |
1164 | if (acb->flags & QED_AIOCB_ZERO) { |
| 1165 | /* Skip ahead if the clusters are already zero */ | |
| 1166 | if (acb->find_cluster_ret == QED_CLUSTER_ZERO) { | |
| 1167 | qed_aio_next_io(acb, 0); | |
| 1168 | return; | |
| 1169 | } | |
| 1170 | ||
| 1171 | cb = qed_aio_write_zero_cluster; | |
| 1172 | } else { | |
| 1173 | cb = qed_aio_write_prefill; | |
| 1174 | acb->cur_cluster = qed_alloc_clusters(s, acb->cur_nclusters); | |
| 1175 | } | |
| 1176 | ||
| 0d09c797 SH |
1177 | if (qed_should_set_need_check(s)) { |
| 1178 | s->header.features |= QED_F_NEED_CHECK; | |
| 0e71be19 | 1179 | qed_write_header(s, cb, acb); |
| 0d09c797 | 1180 | } else { |
| 0e71be19 | 1181 | cb(acb, 0); |
| 01979a98 | 1182 | } |
| eabba580 SH |
1183 | } |
| 1184 | ||
| 1185 | /** | |
| 1186 | * Write data cluster in place | |
| 1187 | * | |
| 1188 | * @acb: Write request | |
| 1189 | * @offset: Cluster offset in bytes | |
| 1190 | * @len: Length in bytes | |
| 1191 | * | |
| 1192 | * This path is taken when writing to already allocated clusters. | |
| 1193 | */ | |
| 1194 | static void qed_aio_write_inplace(QEDAIOCB *acb, uint64_t offset, size_t len) | |
| 1195 | { | |
| 0e71be19 SH |
1196 | /* Allocate buffer for zero writes */ |
| 1197 | if (acb->flags & QED_AIOCB_ZERO) { | |
| 1198 | struct iovec *iov = acb->qiov->iov; | |
| 1199 | ||
| 1200 | if (!iov->iov_base) { | |
| 1201 | iov->iov_base = qemu_blockalign(acb->common.bs, iov->iov_len); | |
| 1202 | memset(iov->iov_base, 0, iov->iov_len); | |
| 1203 | } | |
| 1204 | } | |
| 1205 | ||
| eabba580 SH |
1206 | /* Calculate the I/O vector */ |
| 1207 | acb->cur_cluster = offset; | |
| 1b093c48 | 1208 | qemu_iovec_concat(&acb->cur_qiov, acb->qiov, acb->qiov_offset, len); |
| eabba580 SH |
1209 | |
| 1210 | /* Do the actual write */ | |
| 1211 | qed_aio_write_main(acb, 0); | |
| 1212 | } | |
| 1213 | ||
| 1214 | /** | |
| 1215 | * Write data cluster | |
| 1216 | * | |
| 1217 | * @opaque: Write request | |
| 1218 | * @ret: QED_CLUSTER_FOUND, QED_CLUSTER_L2, QED_CLUSTER_L1, | |
| 1219 | * or -errno | |
| 1220 | * @offset: Cluster offset in bytes | |
| 1221 | * @len: Length in bytes | |
| 1222 | * | |
| 1223 | * Callback from qed_find_cluster(). | |
| 1224 | */ | |
| 1225 | static void qed_aio_write_data(void *opaque, int ret, | |
| 1226 | uint64_t offset, size_t len) | |
| 1227 | { | |
| 1228 | QEDAIOCB *acb = opaque; | |
| 1229 | ||
| 1230 | trace_qed_aio_write_data(acb_to_s(acb), acb, ret, offset, len); | |
| 1231 | ||
| 1232 | acb->find_cluster_ret = ret; | |
| 1233 | ||
| 1234 | switch (ret) { | |
| 1235 | case QED_CLUSTER_FOUND: | |
| 1236 | qed_aio_write_inplace(acb, offset, len); | |
| 1237 | break; | |
| 1238 | ||
| 1239 | case QED_CLUSTER_L2: | |
| 1240 | case QED_CLUSTER_L1: | |
| 21df65b6 | 1241 | case QED_CLUSTER_ZERO: |
| eabba580 SH |
1242 | qed_aio_write_alloc(acb, len); |
| 1243 | break; | |
| 1244 | ||
| 1245 | default: | |
| 1246 | qed_aio_complete(acb, ret); | |
| 1247 | break; | |
| 1248 | } | |
| 1249 | } | |
| 1250 | ||
| 1251 | /** | |
| 1252 | * Read data cluster | |
| 1253 | * | |
| 1254 | * @opaque: Read request | |
| 1255 | * @ret: QED_CLUSTER_FOUND, QED_CLUSTER_L2, QED_CLUSTER_L1, | |
| 1256 | * or -errno | |
| 1257 | * @offset: Cluster offset in bytes | |
| 1258 | * @len: Length in bytes | |
| 1259 | * | |
| 1260 | * Callback from qed_find_cluster(). | |
| 1261 | */ | |
| 1262 | static void qed_aio_read_data(void *opaque, int ret, | |
| 1263 | uint64_t offset, size_t len) | |
| 1264 | { | |
| 1265 | QEDAIOCB *acb = opaque; | |
| 1266 | BDRVQEDState *s = acb_to_s(acb); | |
| 1267 | BlockDriverState *bs = acb->common.bs; | |
| eabba580 SH |
1268 | |
| 1269 | /* Adjust offset into cluster */ | |
| 1270 | offset += qed_offset_into_cluster(s, acb->cur_pos); | |
| 1271 | ||
| 1272 | trace_qed_aio_read_data(s, acb, ret, offset, len); | |
| 1273 | ||
| 1274 | if (ret < 0) { | |
| 1275 | goto err; | |
| 1276 | } | |
| 1277 | ||
| 1b093c48 | 1278 | qemu_iovec_concat(&acb->cur_qiov, acb->qiov, acb->qiov_offset, len); |
| eabba580 | 1279 | |
| 21df65b6 AL |
1280 | /* Handle zero cluster and backing file reads */ |
| 1281 | if (ret == QED_CLUSTER_ZERO) { | |
| 3d9b4925 | 1282 | qemu_iovec_memset(&acb->cur_qiov, 0, 0, acb->cur_qiov.size); |
| 21df65b6 AL |
1283 | qed_aio_next_io(acb, 0); |
| 1284 | return; | |
| 1285 | } else if (ret != QED_CLUSTER_FOUND) { | |
| eabba580 SH |
1286 | qed_read_backing_file(s, acb->cur_pos, &acb->cur_qiov, |
| 1287 | qed_aio_next_io, acb); | |
| 1288 | return; | |
| 1289 | } | |
| 1290 | ||
| 1291 | BLKDBG_EVENT(bs->file, BLKDBG_READ_AIO); | |
| ad54ae80 PB |
1292 | bdrv_aio_readv(bs->file, offset / BDRV_SECTOR_SIZE, |
| 1293 | &acb->cur_qiov, acb->cur_qiov.size / BDRV_SECTOR_SIZE, | |
| 1294 | qed_aio_next_io, acb); | |
| eabba580 SH |
1295 | return; |
| 1296 | ||
| 1297 | err: | |
| 1298 | qed_aio_complete(acb, ret); | |
| 1299 | } | |
| 1300 | ||
| 1301 | /** | |
| 1302 | * Begin next I/O or complete the request | |
| 1303 | */ | |
| 1304 | static void qed_aio_next_io(void *opaque, int ret) | |
| 1305 | { | |
| 1306 | QEDAIOCB *acb = opaque; | |
| 1307 | BDRVQEDState *s = acb_to_s(acb); | |
| 6e4f59bd SH |
1308 | QEDFindClusterFunc *io_fn = (acb->flags & QED_AIOCB_WRITE) ? |
| 1309 | qed_aio_write_data : qed_aio_read_data; | |
| eabba580 SH |
1310 | |
| 1311 | trace_qed_aio_next_io(s, acb, ret, acb->cur_pos + acb->cur_qiov.size); | |
| 1312 | ||
| 1313 | /* Handle I/O error */ | |
| 1314 | if (ret) { | |
| 1315 | qed_aio_complete(acb, ret); | |
| 1316 | return; | |
| 1317 | } | |
| 1318 | ||
| 1319 | acb->qiov_offset += acb->cur_qiov.size; | |
| 1320 | acb->cur_pos += acb->cur_qiov.size; | |
| 1321 | qemu_iovec_reset(&acb->cur_qiov); | |
| 1322 | ||
| 1323 | /* Complete request */ | |
| 1324 | if (acb->cur_pos >= acb->end_pos) { | |
| 1325 | qed_aio_complete(acb, 0); | |
| 1326 | return; | |
| 1327 | } | |
| 1328 | ||
| 1329 | /* Find next cluster and start I/O */ | |
| 1330 | qed_find_cluster(s, &acb->request, | |
| 1331 | acb->cur_pos, acb->end_pos - acb->cur_pos, | |
| 1332 | io_fn, acb); | |
| 1333 | } | |
| 1334 | ||
| 1335 | static BlockDriverAIOCB *qed_aio_setup(BlockDriverState *bs, | |
| 1336 | int64_t sector_num, | |
| 1337 | QEMUIOVector *qiov, int nb_sectors, | |
| 1338 | BlockDriverCompletionFunc *cb, | |
| 6e4f59bd | 1339 | void *opaque, int flags) |
| eabba580 | 1340 | { |
| d7331bed | 1341 | QEDAIOCB *acb = qemu_aio_get(&qed_aiocb_info, bs, cb, opaque); |
| eabba580 SH |
1342 | |
| 1343 | trace_qed_aio_setup(bs->opaque, acb, sector_num, nb_sectors, | |
| 6e4f59bd | 1344 | opaque, flags); |
| eabba580 | 1345 | |
| 6e4f59bd | 1346 | acb->flags = flags; |
| eabba580 SH |
1347 | acb->finished = NULL; |
| 1348 | acb->qiov = qiov; | |
| 1349 | acb->qiov_offset = 0; | |
| 1350 | acb->cur_pos = (uint64_t)sector_num * BDRV_SECTOR_SIZE; | |
| 1351 | acb->end_pos = acb->cur_pos + nb_sectors * BDRV_SECTOR_SIZE; | |
| 1352 | acb->request.l2_table = NULL; | |
| 1353 | qemu_iovec_init(&acb->cur_qiov, qiov->niov); | |
| 1354 | ||
| 1355 | /* Start request */ | |
| 1356 | qed_aio_next_io(acb, 0); | |
| 1357 | return &acb->common; | |
| 1358 | } | |
| 1359 | ||
| 75411d23 SH |
1360 | static BlockDriverAIOCB *bdrv_qed_aio_readv(BlockDriverState *bs, |
| 1361 | int64_t sector_num, | |
| 1362 | QEMUIOVector *qiov, int nb_sectors, | |
| 1363 | BlockDriverCompletionFunc *cb, | |
| 1364 | void *opaque) | |
| 1365 | { | |
| 6e4f59bd | 1366 | return qed_aio_setup(bs, sector_num, qiov, nb_sectors, cb, opaque, 0); |
| 75411d23 SH |
1367 | } |
| 1368 | ||
| 1369 | static BlockDriverAIOCB *bdrv_qed_aio_writev(BlockDriverState *bs, | |
| 1370 | int64_t sector_num, | |
| 1371 | QEMUIOVector *qiov, int nb_sectors, | |
| 1372 | BlockDriverCompletionFunc *cb, | |
| 1373 | void *opaque) | |
| 1374 | { | |
| 6e4f59bd SH |
1375 | return qed_aio_setup(bs, sector_num, qiov, nb_sectors, cb, |
| 1376 | opaque, QED_AIOCB_WRITE); | |
| 75411d23 SH |
1377 | } |
| 1378 | ||
| 0e71be19 SH |
1379 | typedef struct { |
| 1380 | Coroutine *co; | |
| 1381 | int ret; | |
| 1382 | bool done; | |
| 1383 | } QEDWriteZeroesCB; | |
| 1384 | ||
| 1385 | static void coroutine_fn qed_co_write_zeroes_cb(void *opaque, int ret) | |
| 1386 | { | |
| 1387 | QEDWriteZeroesCB *cb = opaque; | |
| 1388 | ||
| 1389 | cb->done = true; | |
| 1390 | cb->ret = ret; | |
| 1391 | if (cb->co) { | |
| 1392 | qemu_coroutine_enter(cb->co, NULL); | |
| 1393 | } | |
| 1394 | } | |
| 1395 | ||
| 1396 | static int coroutine_fn bdrv_qed_co_write_zeroes(BlockDriverState *bs, | |
| 1397 | int64_t sector_num, | |
| 1398 | int nb_sectors) | |
| 1399 | { | |
| 1400 | BlockDriverAIOCB *blockacb; | |
| ef72f76e | 1401 | BDRVQEDState *s = bs->opaque; |
| 0e71be19 SH |
1402 | QEDWriteZeroesCB cb = { .done = false }; |
| 1403 | QEMUIOVector qiov; | |
| 1404 | struct iovec iov; | |
| 1405 | ||
| ef72f76e SH |
1406 | /* Refuse if there are untouched backing file sectors */ |
| 1407 | if (bs->backing_hd) { | |
| 1408 | if (qed_offset_into_cluster(s, sector_num * BDRV_SECTOR_SIZE) != 0) { | |
| 1409 | return -ENOTSUP; | |
| 1410 | } | |
| 1411 | if (qed_offset_into_cluster(s, nb_sectors * BDRV_SECTOR_SIZE) != 0) { | |
| 1412 | return -ENOTSUP; | |
| 1413 | } | |
| 1414 | } | |
| 1415 | ||
| 0e71be19 SH |
1416 | /* Zero writes start without an I/O buffer. If a buffer becomes necessary |
| 1417 | * then it will be allocated during request processing. | |
| 1418 | */ | |
| 1419 | iov.iov_base = NULL, | |
| 1420 | iov.iov_len = nb_sectors * BDRV_SECTOR_SIZE, | |
| 1421 | ||
| 1422 | qemu_iovec_init_external(&qiov, &iov, 1); | |
| 1423 | blockacb = qed_aio_setup(bs, sector_num, &qiov, nb_sectors, | |
| 1424 | qed_co_write_zeroes_cb, &cb, | |
| 1425 | QED_AIOCB_WRITE | QED_AIOCB_ZERO); | |
| 1426 | if (!blockacb) { | |
| 1427 | return -EIO; | |
| 1428 | } | |
| 1429 | if (!cb.done) { | |
| 1430 | cb.co = qemu_coroutine_self(); | |
| 1431 | qemu_coroutine_yield(); | |
| 1432 | } | |
| 1433 | assert(cb.done); | |
| 1434 | return cb.ret; | |
| 1435 | } | |
| 1436 | ||
| 75411d23 SH |
1437 | static int bdrv_qed_truncate(BlockDriverState *bs, int64_t offset) |
| 1438 | { | |
| 77a5a000 SH |
1439 | BDRVQEDState *s = bs->opaque; |
| 1440 | uint64_t old_image_size; | |
| 1441 | int ret; | |
| 1442 | ||
| 1443 | if (!qed_is_image_size_valid(offset, s->header.cluster_size, | |
| 1444 | s->header.table_size)) { | |
| 1445 | return -EINVAL; | |
| 1446 | } | |
| 1447 | ||
| 1448 | /* Shrinking is currently not supported */ | |
| 1449 | if ((uint64_t)offset < s->header.image_size) { | |
| 1450 | return -ENOTSUP; | |
| 1451 | } | |
| 1452 | ||
| 1453 | old_image_size = s->header.image_size; | |
| 1454 | s->header.image_size = offset; | |
| 1455 | ret = qed_write_header_sync(s); | |
| 1456 | if (ret < 0) { | |
| 1457 | s->header.image_size = old_image_size; | |
| 1458 | } | |
| 1459 | return ret; | |
| 75411d23 SH |
1460 | } |
| 1461 | ||
| 1462 | static int64_t bdrv_qed_getlength(BlockDriverState *bs) | |
| 1463 | { | |
| 1464 | BDRVQEDState *s = bs->opaque; | |
| 1465 | return s->header.image_size; | |
| 1466 | } | |
| 1467 | ||
| 1468 | static int bdrv_qed_get_info(BlockDriverState *bs, BlockDriverInfo *bdi) | |
| 1469 | { | |
| 1470 | BDRVQEDState *s = bs->opaque; | |
| 1471 | ||
| 1472 | memset(bdi, 0, sizeof(*bdi)); | |
| 1473 | bdi->cluster_size = s->header.cluster_size; | |
| d68dbee8 | 1474 | bdi->is_dirty = s->header.features & QED_F_NEED_CHECK; |
| 75411d23 SH |
1475 | return 0; |
| 1476 | } | |
| 1477 | ||
| 1478 | static int bdrv_qed_change_backing_file(BlockDriverState *bs, | |
| 1479 | const char *backing_file, | |
| 1480 | const char *backing_fmt) | |
| 1481 | { | |
| 1482 | BDRVQEDState *s = bs->opaque; | |
| 1483 | QEDHeader new_header, le_header; | |
| 1484 | void *buffer; | |
| 1485 | size_t buffer_len, backing_file_len; | |
| 1486 | int ret; | |
| 1487 | ||
| 1488 | /* Refuse to set backing filename if unknown compat feature bits are | |
| 1489 | * active. If the image uses an unknown compat feature then we may not | |
| 1490 | * know the layout of data following the header structure and cannot safely | |
| 1491 | * add a new string. | |
| 1492 | */ | |
| 1493 | if (backing_file && (s->header.compat_features & | |
| 1494 | ~QED_COMPAT_FEATURE_MASK)) { | |
| 1495 | return -ENOTSUP; | |
| 1496 | } | |
| 1497 | ||
| 1498 | memcpy(&new_header, &s->header, sizeof(new_header)); | |
| 1499 | ||
| 1500 | new_header.features &= ~(QED_F_BACKING_FILE | | |
| 1501 | QED_F_BACKING_FORMAT_NO_PROBE); | |
| 1502 | ||
| 1503 | /* Adjust feature flags */ | |
| 1504 | if (backing_file) { | |
| 1505 | new_header.features |= QED_F_BACKING_FILE; | |
| 1506 | ||
| 1507 | if (qed_fmt_is_raw(backing_fmt)) { | |
| 1508 | new_header.features |= QED_F_BACKING_FORMAT_NO_PROBE; | |
| 1509 | } | |
| 1510 | } | |
| 1511 | ||
| 1512 | /* Calculate new header size */ | |
| 1513 | backing_file_len = 0; | |
| 1514 | ||
| 1515 | if (backing_file) { | |
| 1516 | backing_file_len = strlen(backing_file); | |
| 1517 | } | |
| 1518 | ||
| 1519 | buffer_len = sizeof(new_header); | |
| 1520 | new_header.backing_filename_offset = buffer_len; | |
| 1521 | new_header.backing_filename_size = backing_file_len; | |
| 1522 | buffer_len += backing_file_len; | |
| 1523 | ||
| 1524 | /* Make sure we can rewrite header without failing */ | |
| 1525 | if (buffer_len > new_header.header_size * new_header.cluster_size) { | |
| 1526 | return -ENOSPC; | |
| 1527 | } | |
| 1528 | ||
| 1529 | /* Prepare new header */ | |
| 7267c094 | 1530 | buffer = g_malloc(buffer_len); |
| 75411d23 SH |
1531 | |
| 1532 | qed_header_cpu_to_le(&new_header, &le_header); | |
| 1533 | memcpy(buffer, &le_header, sizeof(le_header)); | |
| 1534 | buffer_len = sizeof(le_header); | |
| 1535 | ||
| feba23b1 PB |
1536 | if (backing_file) { |
| 1537 | memcpy(buffer + buffer_len, backing_file, backing_file_len); | |
| 1538 | buffer_len += backing_file_len; | |
| 1539 | } | |
| 75411d23 SH |
1540 | |
| 1541 | /* Write new header */ | |
| 1542 | ret = bdrv_pwrite_sync(bs->file, 0, buffer, buffer_len); | |
| 7267c094 | 1543 | g_free(buffer); |
| 75411d23 SH |
1544 | if (ret == 0) { |
| 1545 | memcpy(&s->header, &new_header, sizeof(new_header)); | |
| 1546 | } | |
| 1547 | return ret; | |
| 1548 | } | |
| 1549 | ||
| c82954e5 BC |
1550 | static void bdrv_qed_invalidate_cache(BlockDriverState *bs) |
| 1551 | { | |
| 1552 | BDRVQEDState *s = bs->opaque; | |
| 1553 | ||
| 1554 | bdrv_qed_close(bs); | |
| 1555 | memset(s, 0, sizeof(BDRVQEDState)); | |
| 015a1036 | 1556 | bdrv_qed_open(bs, NULL, bs->open_flags, NULL); |
| c82954e5 BC |
1557 | } |
| 1558 | ||
| 4534ff54 KW |
1559 | static int bdrv_qed_check(BlockDriverState *bs, BdrvCheckResult *result, |
| 1560 | BdrvCheckMode fix) | |
| 75411d23 | 1561 | { |
| 01979a98 SH |
1562 | BDRVQEDState *s = bs->opaque; |
| 1563 | ||
| 4534ff54 | 1564 | return qed_check(s, result, !!fix); |
| 75411d23 SH |
1565 | } |
| 1566 | ||
| 1567 | static QEMUOptionParameter qed_create_options[] = { | |
| 1568 | { | |
| 1569 | .name = BLOCK_OPT_SIZE, | |
| 1570 | .type = OPT_SIZE, | |
| 1571 | .help = "Virtual disk size (in bytes)" | |
| 1572 | }, { | |
| 1573 | .name = BLOCK_OPT_BACKING_FILE, | |
| 1574 | .type = OPT_STRING, | |
| 1575 | .help = "File name of a base image" | |
| 1576 | }, { | |
| 1577 | .name = BLOCK_OPT_BACKING_FMT, | |
| 1578 | .type = OPT_STRING, | |
| 1579 | .help = "Image format of the base image" | |
| 1580 | }, { | |
| 1581 | .name = BLOCK_OPT_CLUSTER_SIZE, | |
| 1582 | .type = OPT_SIZE, | |
| 99cce9fa KW |
1583 | .help = "Cluster size (in bytes)", |
| 1584 | .value = { .n = QED_DEFAULT_CLUSTER_SIZE }, | |
| 75411d23 SH |
1585 | }, { |
| 1586 | .name = BLOCK_OPT_TABLE_SIZE, | |
| 1587 | .type = OPT_SIZE, | |
| 1588 | .help = "L1/L2 table size (in clusters)" | |
| 1589 | }, | |
| 1590 | { /* end of list */ } | |
| 1591 | }; | |
| 1592 | ||
| 1593 | static BlockDriver bdrv_qed = { | |
| 1594 | .format_name = "qed", | |
| 1595 | .instance_size = sizeof(BDRVQEDState), | |
| 1596 | .create_options = qed_create_options, | |
| 1597 | ||
| 1598 | .bdrv_probe = bdrv_qed_probe, | |
| e023b2e2 | 1599 | .bdrv_rebind = bdrv_qed_rebind, |
| 75411d23 SH |
1600 | .bdrv_open = bdrv_qed_open, |
| 1601 | .bdrv_close = bdrv_qed_close, | |
| f9cb20f1 | 1602 | .bdrv_reopen_prepare = bdrv_qed_reopen_prepare, |
| 75411d23 | 1603 | .bdrv_create = bdrv_qed_create, |
| 3ac21627 | 1604 | .bdrv_has_zero_init = bdrv_has_zero_init_1, |
| b6b8a333 | 1605 | .bdrv_co_get_block_status = bdrv_qed_co_get_block_status, |
| 75411d23 SH |
1606 | .bdrv_make_empty = bdrv_qed_make_empty, |
| 1607 | .bdrv_aio_readv = bdrv_qed_aio_readv, | |
| 1608 | .bdrv_aio_writev = bdrv_qed_aio_writev, | |
| 0e71be19 | 1609 | .bdrv_co_write_zeroes = bdrv_qed_co_write_zeroes, |
| 75411d23 SH |
1610 | .bdrv_truncate = bdrv_qed_truncate, |
| 1611 | .bdrv_getlength = bdrv_qed_getlength, | |
| 1612 | .bdrv_get_info = bdrv_qed_get_info, | |
| 1613 | .bdrv_change_backing_file = bdrv_qed_change_backing_file, | |
| c82954e5 | 1614 | .bdrv_invalidate_cache = bdrv_qed_invalidate_cache, |
| 75411d23 SH |
1615 | .bdrv_check = bdrv_qed_check, |
| 1616 | }; | |
| 1617 | ||
| 1618 | static void bdrv_qed_init(void) | |
| 1619 | { | |
| 1620 | bdrv_register(&bdrv_qed); | |
| 1621 | } | |
| 1622 | ||
| 1623 | block_init(bdrv_qed_init); |