Line data Source code
1 : /* SPDX-License-Identifier: BSD-3-Clause
2 : * Copyright (C) 2018 Intel Corporation.
3 : * All rights reserved.
4 : */
5 :
6 : #ifndef SPDK_BDEV_RAID_INTERNAL_H
7 : #define SPDK_BDEV_RAID_INTERNAL_H
8 :
9 : #include "spdk/bdev_module.h"
10 : #include "spdk/uuid.h"
11 :
12 : #define RAID_BDEV_MIN_DATA_OFFSET_SIZE (1024*1024) /* 1 MiB */
13 :
14 : enum raid_level {
15 : INVALID_RAID_LEVEL = -1,
16 : RAID0 = 0,
17 : RAID1 = 1,
18 : RAID5F = 95, /* 0x5f */
19 : CONCAT = 99,
20 : };
21 :
22 : /*
23 : * Raid state describes the state of the raid. This raid bdev can be either in
24 : * configured list or configuring list
25 : */
26 : enum raid_bdev_state {
27 : /* raid bdev is ready and is seen by upper layers */
28 : RAID_BDEV_STATE_ONLINE,
29 :
30 : /*
31 : * raid bdev is configuring, not all underlying bdevs are present.
32 : * And can't be seen by upper layers.
33 : */
34 : RAID_BDEV_STATE_CONFIGURING,
35 :
36 : /*
37 : * In offline state, raid bdev layer will complete all incoming commands without
38 : * submitting to underlying base nvme bdevs
39 : */
40 : RAID_BDEV_STATE_OFFLINE,
41 :
42 : /* raid bdev state max, new states should be added before this */
43 : RAID_BDEV_STATE_MAX
44 : };
45 :
46 : enum raid_process_type {
47 : RAID_PROCESS_NONE,
48 : RAID_PROCESS_REBUILD,
49 : RAID_PROCESS_MAX
50 : };
51 :
52 : typedef void (*raid_base_bdev_cb)(void *ctx, int status);
53 :
54 : /*
55 : * raid_base_bdev_info contains information for the base bdevs which are part of some
56 : * raid. This structure contains the per base bdev information. Whatever is
57 : * required per base device for raid bdev will be kept here
58 : */
59 : struct raid_base_bdev_info {
60 : /* The raid bdev that this base bdev belongs to */
61 : struct raid_bdev *raid_bdev;
62 :
63 : /* name of the bdev */
64 : char *name;
65 :
66 : /* uuid of the bdev */
67 : struct spdk_uuid uuid;
68 :
69 : /*
70 : * Pointer to base bdev descriptor opened by raid bdev. This is NULL when the bdev for
71 : * this slot is missing.
72 : */
73 : struct spdk_bdev_desc *desc;
74 :
75 : /* offset in blocks from the start of the base bdev to the start of the data region */
76 : uint64_t data_offset;
77 :
78 : /* size in blocks of the base bdev's data region */
79 : uint64_t data_size;
80 :
81 : /*
82 : * When underlying base device calls the hot plug function on drive removal,
83 : * this flag will be set and later after doing some processing, base device
84 : * descriptor will be closed
85 : */
86 : bool remove_scheduled;
87 :
88 : /* callback for base bdev removal */
89 : raid_base_bdev_cb remove_cb;
90 :
91 : /* context of the callback */
92 : void *remove_cb_ctx;
93 :
94 : /* Hold the number of blocks to know how large the base bdev is resized. */
95 : uint64_t blockcnt;
96 :
97 : /* io channel for the app thread */
98 : struct spdk_io_channel *app_thread_ch;
99 :
100 : /* Set to true when base bdev has completed the configuration process */
101 : bool is_configured;
102 :
103 : /* Set to true if this base bdev is the target of a background process */
104 : bool is_process_target;
105 :
106 : /* Set to true to indicate that the base bdev is being removed because of a failure */
107 : bool is_failed;
108 :
109 : /* callback for base bdev configuration */
110 : raid_base_bdev_cb configure_cb;
111 :
112 : /* context of the callback */
113 : void *configure_cb_ctx;
114 : };
115 :
116 : struct raid_bdev_io;
117 : typedef void (*raid_bdev_io_completion_cb)(struct raid_bdev_io *raid_io,
118 : enum spdk_bdev_io_status status);
119 :
120 : /*
121 : * raid_bdev_io is the context part of bdev_io. It contains the information
122 : * related to bdev_io for a raid bdev
123 : */
124 : struct raid_bdev_io {
125 : /* The raid bdev associated with this IO */
126 : struct raid_bdev *raid_bdev;
127 :
128 : uint64_t offset_blocks;
129 : uint64_t num_blocks;
130 : struct iovec *iovs;
131 : int iovcnt;
132 : enum spdk_bdev_io_type type;
133 : struct spdk_memory_domain *memory_domain;
134 : void *memory_domain_ctx;
135 : void *md_buf;
136 :
137 : /* WaitQ entry, used only in waitq logic */
138 : struct spdk_bdev_io_wait_entry waitq_entry;
139 :
140 : /* Context of the original channel for this IO */
141 : struct raid_bdev_io_channel *raid_ch;
142 :
143 : /* Used for tracking progress on io requests sent to member disks. */
144 : uint64_t base_bdev_io_remaining;
145 : uint8_t base_bdev_io_submitted;
146 : enum spdk_bdev_io_status base_bdev_io_status;
147 : /* This will be the raid_io completion status unless any base io's status is different. */
148 : enum spdk_bdev_io_status base_bdev_io_status_default;
149 :
150 : /* Private data for the raid module */
151 : void *module_private;
152 :
153 : /* Custom completion callback. Overrides bdev_io completion if set. */
154 : raid_bdev_io_completion_cb completion_cb;
155 :
156 : struct {
157 : uint64_t offset;
158 : struct iovec *iov;
159 : struct iovec iov_copy;
160 : } split;
161 : };
162 :
163 : struct raid_bdev_process_request {
164 : struct raid_bdev_process *process;
165 : struct raid_base_bdev_info *target;
166 : struct spdk_io_channel *target_ch;
167 : uint64_t offset_blocks;
168 : uint32_t num_blocks;
169 : struct iovec iov;
170 : void *md_buf;
171 : /* bdev_io is raid_io's driver_ctx - don't reorder them!
172 : * These are needed for re-using raid module I/O functions for process I/O. */
173 : struct spdk_bdev_io bdev_io;
174 : struct raid_bdev_io raid_io;
175 : TAILQ_ENTRY(raid_bdev_process_request) link;
176 : };
177 :
178 : typedef void (*raid_bdev_configure_cb)(void *cb_ctx, int rc);
179 :
180 : /*
181 : * raid_bdev is the single entity structure which contains SPDK block device
182 : * and the information related to any raid bdev either configured or
183 : * in configuring list. io device is created on this.
184 : */
185 : struct raid_bdev {
186 : /* raid bdev device, this will get registered in bdev layer */
187 : struct spdk_bdev bdev;
188 :
189 : /* the raid bdev descriptor, opened for internal use */
190 : struct spdk_bdev_desc *self_desc;
191 :
192 : /* link of raid bdev to link it to global raid bdev list */
193 : TAILQ_ENTRY(raid_bdev) global_link;
194 :
195 : /* array of base bdev info */
196 : struct raid_base_bdev_info *base_bdev_info;
197 :
198 : /* strip size of raid bdev in blocks */
199 : uint32_t strip_size;
200 :
201 : /* strip size of raid bdev in KB */
202 : uint32_t strip_size_kb;
203 :
204 : /* strip size bit shift for optimized calculation */
205 : uint32_t strip_size_shift;
206 :
207 : /* state of raid bdev */
208 : enum raid_bdev_state state;
209 :
210 : /* number of base bdevs comprising raid bdev */
211 : uint8_t num_base_bdevs;
212 :
213 : /* number of base bdevs discovered */
214 : uint8_t num_base_bdevs_discovered;
215 :
216 : /*
217 : * Number of operational base bdevs, i.e. how many we know/expect to be working. This
218 : * will be less than num_base_bdevs when starting a degraded array.
219 : */
220 : uint8_t num_base_bdevs_operational;
221 :
222 : /* minimum number of viable base bdevs that are required by array to operate */
223 : uint8_t min_base_bdevs_operational;
224 :
225 : /* Raid Level of this raid bdev */
226 : enum raid_level level;
227 :
228 : /* Set to true if destroy of this raid bdev is started. */
229 : bool destroy_started;
230 :
231 : /* Module for RAID-level specific operations */
232 : struct raid_bdev_module *module;
233 :
234 : /* Private data for the raid module */
235 : void *module_private;
236 :
237 : /* Superblock */
238 : bool superblock_enabled;
239 : struct raid_bdev_superblock *sb;
240 :
241 : /* Superblock buffer used for I/O */
242 : void *sb_io_buf;
243 : uint32_t sb_io_buf_size;
244 :
245 : /* Raid bdev background process, e.g. rebuild */
246 : struct raid_bdev_process *process;
247 :
248 : /* Callback and context for raid_bdev configuration */
249 : raid_bdev_configure_cb configure_cb;
250 : void *configure_cb_ctx;
251 : };
252 :
253 : #define RAID_FOR_EACH_BASE_BDEV(r, i) \
254 : for (i = r->base_bdev_info; i < r->base_bdev_info + r->num_base_bdevs; i++)
255 :
256 : struct raid_bdev_io_channel;
257 :
258 : /* TAIL head for raid bdev list */
259 : TAILQ_HEAD(raid_all_tailq, raid_bdev);
260 :
261 : extern struct raid_all_tailq g_raid_bdev_list;
262 :
263 : typedef void (*raid_bdev_destruct_cb)(void *cb_ctx, int rc);
264 :
265 : int raid_bdev_create(const char *name, uint32_t strip_size, uint8_t num_base_bdevs,
266 : enum raid_level level, bool superblock, const struct spdk_uuid *uuid,
267 : struct raid_bdev **raid_bdev_out);
268 : void raid_bdev_delete(struct raid_bdev *raid_bdev, raid_bdev_destruct_cb cb_fn, void *cb_ctx);
269 : int raid_bdev_add_base_bdev(struct raid_bdev *raid_bdev, const char *name,
270 : raid_base_bdev_cb cb_fn, void *cb_ctx);
271 : struct raid_bdev *raid_bdev_find_by_name(const char *name);
272 : enum raid_level raid_bdev_str_to_level(const char *str);
273 : const char *raid_bdev_level_to_str(enum raid_level level);
274 : enum raid_bdev_state raid_bdev_str_to_state(const char *str);
275 : const char *raid_bdev_state_to_str(enum raid_bdev_state state);
276 : const char *raid_bdev_process_to_str(enum raid_process_type value);
277 : void raid_bdev_write_info_json(struct raid_bdev *raid_bdev, struct spdk_json_write_ctx *w);
278 : int raid_bdev_remove_base_bdev(struct spdk_bdev *base_bdev, raid_base_bdev_cb cb_fn, void *cb_ctx);
279 :
280 : /*
281 : * RAID module descriptor
282 : */
283 : struct raid_bdev_module {
284 : /* RAID level implemented by this module */
285 : enum raid_level level;
286 :
287 : /* Minimum required number of base bdevs. Must be > 0. */
288 : uint8_t base_bdevs_min;
289 :
290 : /*
291 : * RAID constraint. Determines number of base bdevs that can be removed
292 : * without failing the array.
293 : */
294 : struct {
295 : enum {
296 : CONSTRAINT_UNSET = 0,
297 : CONSTRAINT_MAX_BASE_BDEVS_REMOVED,
298 : CONSTRAINT_MIN_BASE_BDEVS_OPERATIONAL,
299 : } type;
300 : uint8_t value;
301 : } base_bdevs_constraint;
302 :
303 : /* Set to true if this module supports memory domains. */
304 : bool memory_domains_supported;
305 :
306 : /* Set to true if this module supports DIF/DIX */
307 : bool dif_supported;
308 :
309 : /*
310 : * Called when the raid is starting, right before changing the state to
311 : * online and registering the bdev. Parameters of the bdev like blockcnt
312 : * should be set here.
313 : *
314 : * Non-zero return value will abort the startup process.
315 : */
316 : int (*start)(struct raid_bdev *raid_bdev);
317 :
318 : /*
319 : * Called when the raid is stopping, right before changing the state to
320 : * offline and unregistering the bdev. Optional.
321 : *
322 : * The function should return false if it is asynchronous. Then, after
323 : * the async operation has completed and the module is fully stopped
324 : * raid_bdev_module_stop_done() must be called.
325 : */
326 : bool (*stop)(struct raid_bdev *raid_bdev);
327 :
328 : /* Handler for R/W requests */
329 : void (*submit_rw_request)(struct raid_bdev_io *raid_io);
330 :
331 : /* Handler for requests without payload (flush, unmap). Optional. */
332 : void (*submit_null_payload_request)(struct raid_bdev_io *raid_io);
333 :
334 : /*
335 : * Called when the bdev's IO channel is created to get the module's private IO channel.
336 : * Optional.
337 : */
338 : struct spdk_io_channel *(*get_io_channel)(struct raid_bdev *raid_bdev);
339 :
340 : /*
341 : * Called when a base_bdev is resized to resize the raid if the condition
342 : * is satisfied. Optional.
343 : *
344 : * Returns true if the resize was performed.
345 : */
346 : bool (*resize)(struct raid_bdev *raid_bdev);
347 :
348 : /* Handler for raid process requests. Required for raid modules with redundancy. */
349 : int (*submit_process_request)(struct raid_bdev_process_request *process_req,
350 : struct raid_bdev_io_channel *raid_ch);
351 :
352 : TAILQ_ENTRY(raid_bdev_module) link;
353 : };
354 :
355 : void raid_bdev_module_list_add(struct raid_bdev_module *raid_module);
356 :
357 : #define __RAID_MODULE_REGISTER(line) __RAID_MODULE_REGISTER_(line)
358 : #define __RAID_MODULE_REGISTER_(line) raid_module_register_##line
359 :
360 : #define RAID_MODULE_REGISTER(_module) \
361 : __attribute__((constructor)) static void \
362 : __RAID_MODULE_REGISTER(__LINE__)(void) \
363 : { \
364 : raid_bdev_module_list_add(_module); \
365 : }
366 :
367 : bool raid_bdev_io_complete_part(struct raid_bdev_io *raid_io, uint64_t completed,
368 : enum spdk_bdev_io_status status);
369 : void raid_bdev_queue_io_wait(struct raid_bdev_io *raid_io, struct spdk_bdev *bdev,
370 : struct spdk_io_channel *ch, spdk_bdev_io_wait_cb cb_fn);
371 : void raid_bdev_io_complete(struct raid_bdev_io *raid_io, enum spdk_bdev_io_status status);
372 : void raid_bdev_module_stop_done(struct raid_bdev *raid_bdev);
373 : struct spdk_io_channel *raid_bdev_channel_get_base_channel(struct raid_bdev_io_channel *raid_ch,
374 : uint8_t idx);
375 : void *raid_bdev_channel_get_module_ctx(struct raid_bdev_io_channel *raid_ch);
376 : struct raid_base_bdev_info *raid_bdev_channel_get_base_info(struct raid_bdev_io_channel *raid_ch,
377 : struct spdk_bdev *base_bdev);
378 : void raid_bdev_process_request_complete(struct raid_bdev_process_request *process_req, int status);
379 : void raid_bdev_io_init(struct raid_bdev_io *raid_io, struct raid_bdev_io_channel *raid_ch,
380 : enum spdk_bdev_io_type type, uint64_t offset_blocks,
381 : uint64_t num_blocks, struct iovec *iovs, int iovcnt, void *md_buf,
382 : struct spdk_memory_domain *memory_domain, void *memory_domain_ctx);
383 : void raid_bdev_fail_base_bdev(struct raid_base_bdev_info *base_info);
384 :
385 : static inline uint8_t
386 167 : raid_bdev_base_bdev_slot(struct raid_base_bdev_info *base_info)
387 : {
388 167 : return base_info - base_info->raid_bdev->base_bdev_info;
389 : }
390 :
391 : static inline void
392 19561 : raid_bdev_io_set_default_status(struct raid_bdev_io *raid_io, enum spdk_bdev_io_status status)
393 : {
394 19561 : assert(raid_io->base_bdev_io_submitted == 0);
395 19561 : raid_io->base_bdev_io_status = status;
396 19561 : raid_io->base_bdev_io_status_default = status;
397 19561 : }
398 :
399 : int raid_bdev_remap_dix_reftag(void *md_buf, uint64_t num_blocks,
400 : struct spdk_bdev *bdev, uint32_t remapped_offset);
401 : int raid_bdev_verify_dix_reftag(struct iovec *iovs, int iovcnt, void *md_buf,
402 : uint64_t num_blocks, struct spdk_bdev *bdev, uint32_t offset_blocks);
403 :
404 : /**
405 : * Raid bdev I/O read/write wrapper for spdk_bdev_readv_blocks_ext function.
406 : */
407 : static inline int
408 12172 : raid_bdev_readv_blocks_ext(struct raid_base_bdev_info *base_info, struct spdk_io_channel *ch,
409 : struct iovec *iov, int iovcnt, uint64_t offset_blocks,
410 : uint64_t num_blocks, spdk_bdev_io_completion_cb cb, void *cb_arg,
411 : struct spdk_bdev_ext_io_opts *opts)
412 : {
413 24344 : return spdk_bdev_readv_blocks_ext(base_info->desc, ch, iov, iovcnt,
414 12172 : base_info->data_offset + offset_blocks, num_blocks, cb, cb_arg, opts);
415 : }
416 :
417 : /**
418 : * Raid bdev I/O read/write wrapper for spdk_bdev_writev_blocks_ext function.
419 : */
420 : static inline int
421 34137 : raid_bdev_writev_blocks_ext(struct raid_base_bdev_info *base_info, struct spdk_io_channel *ch,
422 : struct iovec *iov, int iovcnt, uint64_t offset_blocks,
423 : uint64_t num_blocks, spdk_bdev_io_completion_cb cb, void *cb_arg,
424 : struct spdk_bdev_ext_io_opts *opts)
425 : {
426 34137 : int rc;
427 34137 : uint64_t remapped_offset_blocks = base_info->data_offset + offset_blocks;
428 :
429 34137 : if (spdk_unlikely(spdk_bdev_get_dif_type(&base_info->raid_bdev->bdev) != SPDK_DIF_DISABLE &&
430 : (base_info->raid_bdev->bdev.dif_check_flags & SPDK_DIF_FLAGS_REFTAG_CHECK))) {
431 3 : rc = raid_bdev_remap_dix_reftag(opts->metadata, num_blocks, &base_info->raid_bdev->bdev,
432 3 : remapped_offset_blocks);
433 3 : if (rc != 0) {
434 0 : return rc;
435 : }
436 3 : }
437 :
438 34137 : return spdk_bdev_writev_blocks_ext(base_info->desc, ch, iov, iovcnt,
439 34137 : remapped_offset_blocks, num_blocks, cb, cb_arg, opts);
440 34137 : }
441 :
442 : /**
443 : * Raid bdev I/O read/write wrapper for spdk_bdev_unmap_blocks function.
444 : */
445 : static inline int
446 35504 : raid_bdev_unmap_blocks(struct raid_base_bdev_info *base_info, struct spdk_io_channel *ch,
447 : uint64_t offset_blocks, uint64_t num_blocks,
448 : spdk_bdev_io_completion_cb cb, void *cb_arg)
449 : {
450 35504 : return spdk_bdev_unmap_blocks(base_info->desc, ch, base_info->data_offset + offset_blocks,
451 35504 : num_blocks, cb, cb_arg);
452 : }
453 :
454 : /**
455 : * Raid bdev I/O read/write wrapper for spdk_bdev_flush_blocks function.
456 : */
457 : static inline int
458 98 : raid_bdev_flush_blocks(struct raid_base_bdev_info *base_info, struct spdk_io_channel *ch,
459 : uint64_t offset_blocks, uint64_t num_blocks,
460 : spdk_bdev_io_completion_cb cb, void *cb_arg)
461 : {
462 98 : return spdk_bdev_flush_blocks(base_info->desc, ch, base_info->data_offset + offset_blocks,
463 98 : num_blocks, cb, cb_arg);
464 : }
465 :
466 : /*
467 : * Definitions related to raid bdev superblock
468 : */
469 :
470 : #define RAID_BDEV_SB_VERSION_MAJOR 1
471 : #define RAID_BDEV_SB_VERSION_MINOR 0
472 :
473 : #define RAID_BDEV_SB_NAME_SIZE 64
474 :
475 : enum raid_bdev_sb_base_bdev_state {
476 : RAID_SB_BASE_BDEV_MISSING = 0,
477 : RAID_SB_BASE_BDEV_CONFIGURED = 1,
478 : RAID_SB_BASE_BDEV_FAILED = 2,
479 : RAID_SB_BASE_BDEV_SPARE = 3,
480 : };
481 :
482 : struct raid_bdev_sb_base_bdev {
483 : /* uuid of the base bdev */
484 : struct spdk_uuid uuid;
485 : /* offset in blocks from base device start to the start of raid data area */
486 : uint64_t data_offset;
487 : /* size in blocks of the base device raid data area */
488 : uint64_t data_size;
489 : /* state of the base bdev */
490 : uint32_t state;
491 : /* feature/status flags */
492 : uint32_t flags;
493 : /* slot number of this base bdev in the raid */
494 : uint8_t slot;
495 :
496 : uint8_t reserved[23];
497 : };
498 : SPDK_STATIC_ASSERT(sizeof(struct raid_bdev_sb_base_bdev) == 64, "incorrect size");
499 :
500 : struct raid_bdev_superblock {
501 : #define RAID_BDEV_SB_SIG "SPDKRAID"
502 : uint8_t signature[8];
503 : struct {
504 : /* incremented when a breaking change in the superblock structure is made */
505 : uint16_t major;
506 : /* incremented for changes in the superblock that are backward compatible */
507 : uint16_t minor;
508 : } version;
509 : /* length in bytes of the entire superblock */
510 : uint32_t length;
511 : /* crc32c checksum of the entire superblock */
512 : uint32_t crc;
513 : /* feature/status flags */
514 : uint32_t flags;
515 : /* unique id of the raid bdev */
516 : struct spdk_uuid uuid;
517 : /* name of the raid bdev */
518 : uint8_t name[RAID_BDEV_SB_NAME_SIZE];
519 : /* size of the raid bdev in blocks */
520 : uint64_t raid_size;
521 : /* the raid bdev block size - must be the same for all base bdevs */
522 : uint32_t block_size;
523 : /* the raid level */
524 : uint32_t level;
525 : /* strip (chunk) size in blocks */
526 : uint32_t strip_size;
527 : /* state of the raid */
528 : uint32_t state;
529 : /* sequence number, incremented on every superblock update */
530 : uint64_t seq_number;
531 : /* number of raid base devices */
532 : uint8_t num_base_bdevs;
533 :
534 : uint8_t reserved[118];
535 :
536 : /* size of the base bdevs array */
537 : uint8_t base_bdevs_size;
538 : /* array of base bdev descriptors */
539 : struct raid_bdev_sb_base_bdev base_bdevs[];
540 : };
541 : SPDK_STATIC_ASSERT(sizeof(struct raid_bdev_superblock) == 256, "incorrect size");
542 :
543 : #define RAID_BDEV_SB_MAX_LENGTH (sizeof(struct raid_bdev_superblock) + UINT8_MAX * sizeof(struct raid_bdev_sb_base_bdev))
544 :
545 : SPDK_STATIC_ASSERT(RAID_BDEV_SB_MAX_LENGTH < RAID_BDEV_MIN_DATA_OFFSET_SIZE,
546 : "Incorrect min data offset");
547 :
548 : typedef void (*raid_bdev_write_sb_cb)(int status, struct raid_bdev *raid_bdev, void *ctx);
549 : typedef void (*raid_bdev_load_sb_cb)(const struct raid_bdev_superblock *sb, int status, void *ctx);
550 :
551 : int raid_bdev_alloc_superblock(struct raid_bdev *raid_bdev, uint32_t block_size);
552 : void raid_bdev_free_superblock(struct raid_bdev *raid_bdev);
553 : void raid_bdev_init_superblock(struct raid_bdev *raid_bdev);
554 : void raid_bdev_write_superblock(struct raid_bdev *raid_bdev, raid_bdev_write_sb_cb cb,
555 : void *cb_ctx);
556 : int raid_bdev_load_base_bdev_superblock(struct spdk_bdev_desc *desc, struct spdk_io_channel *ch,
557 : raid_bdev_load_sb_cb cb, void *cb_ctx);
558 :
559 : struct spdk_raid_bdev_opts {
560 : /* Size of the background process window in KiB */
561 : uint32_t process_window_size_kb;
562 : /* Maximum bandwidth in MiB to process per second */
563 : uint32_t process_max_bandwidth_mb_sec;
564 : };
565 :
566 : void raid_bdev_get_opts(struct spdk_raid_bdev_opts *opts);
567 : int raid_bdev_set_opts(const struct spdk_raid_bdev_opts *opts);
568 :
569 : #endif /* SPDK_BDEV_RAID_INTERNAL_H */
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