LCOV - code coverage report
Current view: top level - lib/bdev - bdev.c (source / functions) Hit Total Coverage
Test: ut_cov_unit.info Lines: 3650 5179 70.5 %
Date: 2024-12-08 21:46:34 Functions: 364 478 76.2 %

          Line data    Source code
       1             : /*   SPDX-License-Identifier: BSD-3-Clause
       2             :  *   Copyright (C) 2016 Intel Corporation. All rights reserved.
       3             :  *   Copyright (c) 2019 Mellanox Technologies LTD. All rights reserved.
       4             :  *   Copyright (c) 2021-2023 NVIDIA CORPORATION & AFFILIATES. All rights reserved.
       5             :  */
       6             : 
       7             : #include "spdk/stdinc.h"
       8             : 
       9             : #include "spdk/bdev.h"
      10             : 
      11             : #include "spdk/accel.h"
      12             : #include "spdk/config.h"
      13             : #include "spdk/env.h"
      14             : #include "spdk/thread.h"
      15             : #include "spdk/likely.h"
      16             : #include "spdk/queue.h"
      17             : #include "spdk/nvme_spec.h"
      18             : #include "spdk/scsi_spec.h"
      19             : #include "spdk/notify.h"
      20             : #include "spdk/util.h"
      21             : #include "spdk/trace.h"
      22             : #include "spdk/dma.h"
      23             : 
      24             : #include "spdk/bdev_module.h"
      25             : #include "spdk/log.h"
      26             : #include "spdk/string.h"
      27             : 
      28             : #include "bdev_internal.h"
      29             : #include "spdk_internal/trace_defs.h"
      30             : #include "spdk_internal/assert.h"
      31             : 
      32             : #ifdef SPDK_CONFIG_VTUNE
      33             : #include "ittnotify.h"
      34             : #include "ittnotify_types.h"
      35             : int __itt_init_ittlib(const char *, __itt_group_id);
      36             : #endif
      37             : 
      38             : #define SPDK_BDEV_IO_POOL_SIZE                  (64 * 1024 - 1)
      39             : #define SPDK_BDEV_IO_CACHE_SIZE                 256
      40             : #define SPDK_BDEV_AUTO_EXAMINE                  true
      41             : #define BUF_SMALL_CACHE_SIZE                    128
      42             : #define BUF_LARGE_CACHE_SIZE                    16
      43             : #define NOMEM_THRESHOLD_COUNT                   8
      44             : 
      45             : #define SPDK_BDEV_QOS_TIMESLICE_IN_USEC         1000
      46             : #define SPDK_BDEV_QOS_MIN_IO_PER_TIMESLICE      1
      47             : #define SPDK_BDEV_QOS_MIN_BYTE_PER_TIMESLICE    512
      48             : #define SPDK_BDEV_QOS_MIN_IOS_PER_SEC           1000
      49             : #define SPDK_BDEV_QOS_MIN_BYTES_PER_SEC         (1024 * 1024)
      50             : #define SPDK_BDEV_QOS_MAX_MBYTES_PER_SEC        (UINT64_MAX / (1024 * 1024))
      51             : #define SPDK_BDEV_QOS_LIMIT_NOT_DEFINED         UINT64_MAX
      52             : #define SPDK_BDEV_IO_POLL_INTERVAL_IN_MSEC      1000
      53             : 
      54             : /* The maximum number of children requests for a UNMAP or WRITE ZEROES command
      55             :  * when splitting into children requests at a time.
      56             :  */
      57             : #define SPDK_BDEV_MAX_CHILDREN_UNMAP_WRITE_ZEROES_REQS (8)
      58             : #define BDEV_RESET_CHECK_OUTSTANDING_IO_PERIOD 1000000
      59             : 
      60             : /* The maximum number of children requests for a COPY command
      61             :  * when splitting into children requests at a time.
      62             :  */
      63             : #define SPDK_BDEV_MAX_CHILDREN_COPY_REQS (8)
      64             : 
      65             : #define LOG_ALREADY_CLAIMED_ERROR(detail, bdev) \
      66             :         log_already_claimed(SPDK_LOG_ERROR, __LINE__, __func__, detail, bdev)
      67             : #ifdef DEBUG
      68             : #define LOG_ALREADY_CLAIMED_DEBUG(detail, bdev) \
      69             :         log_already_claimed(SPDK_LOG_DEBUG, __LINE__, __func__, detail, bdev)
      70             : #else
      71             : #define LOG_ALREADY_CLAIMED_DEBUG(detail, bdev) do {} while(0)
      72             : #endif
      73             : 
      74             : static void log_already_claimed(enum spdk_log_level level, const int line, const char *func,
      75             :                                 const char *detail, struct spdk_bdev *bdev);
      76             : 
      77             : static const char *qos_rpc_type[] = {"rw_ios_per_sec",
      78             :                                      "rw_mbytes_per_sec", "r_mbytes_per_sec", "w_mbytes_per_sec"
      79             :                                     };
      80             : 
      81             : TAILQ_HEAD(spdk_bdev_list, spdk_bdev);
      82             : 
      83             : RB_HEAD(bdev_name_tree, spdk_bdev_name);
      84             : 
      85             : static int
      86         579 : bdev_name_cmp(struct spdk_bdev_name *name1, struct spdk_bdev_name *name2)
      87             : {
      88         579 :         return strcmp(name1->name, name2->name);
      89             : }
      90             : 
      91        1733 : RB_GENERATE_STATIC(bdev_name_tree, spdk_bdev_name, node, bdev_name_cmp);
      92             : 
      93             : struct spdk_bdev_mgr {
      94             :         struct spdk_mempool *bdev_io_pool;
      95             : 
      96             :         void *zero_buffer;
      97             : 
      98             :         TAILQ_HEAD(bdev_module_list, spdk_bdev_module) bdev_modules;
      99             : 
     100             :         struct spdk_bdev_list bdevs;
     101             :         struct bdev_name_tree bdev_names;
     102             : 
     103             :         bool init_complete;
     104             :         bool module_init_complete;
     105             : 
     106             :         struct spdk_spinlock spinlock;
     107             : 
     108             :         TAILQ_HEAD(, spdk_bdev_open_async_ctx) async_bdev_opens;
     109             : 
     110             : #ifdef SPDK_CONFIG_VTUNE
     111             :         __itt_domain    *domain;
     112             : #endif
     113             : };
     114             : 
     115             : static struct spdk_bdev_mgr g_bdev_mgr = {
     116             :         .bdev_modules = TAILQ_HEAD_INITIALIZER(g_bdev_mgr.bdev_modules),
     117             :         .bdevs = TAILQ_HEAD_INITIALIZER(g_bdev_mgr.bdevs),
     118             :         .bdev_names = RB_INITIALIZER(g_bdev_mgr.bdev_names),
     119             :         .init_complete = false,
     120             :         .module_init_complete = false,
     121             :         .async_bdev_opens = TAILQ_HEAD_INITIALIZER(g_bdev_mgr.async_bdev_opens),
     122             : };
     123             : 
     124             : static void
     125             : __attribute__((constructor))
     126           3 : _bdev_init(void)
     127             : {
     128           3 :         spdk_spin_init(&g_bdev_mgr.spinlock);
     129           3 : }
     130             : 
     131             : typedef void (*lock_range_cb)(struct lba_range *range, void *ctx, int status);
     132             : 
     133             : typedef void (*bdev_copy_bounce_buffer_cpl)(void *ctx, int rc);
     134             : 
     135             : struct lba_range {
     136             :         struct spdk_bdev                *bdev;
     137             :         uint64_t                        offset;
     138             :         uint64_t                        length;
     139             :         bool                            quiesce;
     140             :         void                            *locked_ctx;
     141             :         struct spdk_thread              *owner_thread;
     142             :         struct spdk_bdev_channel        *owner_ch;
     143             :         TAILQ_ENTRY(lba_range)          tailq;
     144             :         TAILQ_ENTRY(lba_range)          tailq_module;
     145             : };
     146             : 
     147             : static struct spdk_bdev_opts    g_bdev_opts = {
     148             :         .bdev_io_pool_size = SPDK_BDEV_IO_POOL_SIZE,
     149             :         .bdev_io_cache_size = SPDK_BDEV_IO_CACHE_SIZE,
     150             :         .bdev_auto_examine = SPDK_BDEV_AUTO_EXAMINE,
     151             :         .iobuf_small_cache_size = BUF_SMALL_CACHE_SIZE,
     152             :         .iobuf_large_cache_size = BUF_LARGE_CACHE_SIZE,
     153             : };
     154             : 
     155             : static spdk_bdev_init_cb        g_init_cb_fn = NULL;
     156             : static void                     *g_init_cb_arg = NULL;
     157             : 
     158             : static spdk_bdev_fini_cb        g_fini_cb_fn = NULL;
     159             : static void                     *g_fini_cb_arg = NULL;
     160             : static struct spdk_thread       *g_fini_thread = NULL;
     161             : 
     162             : struct spdk_bdev_qos_limit {
     163             :         /** IOs or bytes allowed per second (i.e., 1s). */
     164             :         uint64_t limit;
     165             : 
     166             :         /** Remaining IOs or bytes allowed in current timeslice (e.g., 1ms).
     167             :          *  For remaining bytes, allowed to run negative if an I/O is submitted when
     168             :          *  some bytes are remaining, but the I/O is bigger than that amount. The
     169             :          *  excess will be deducted from the next timeslice.
     170             :          */
     171             :         int64_t remaining_this_timeslice;
     172             : 
     173             :         /** Minimum allowed IOs or bytes to be issued in one timeslice (e.g., 1ms). */
     174             :         uint32_t min_per_timeslice;
     175             : 
     176             :         /** Maximum allowed IOs or bytes to be issued in one timeslice (e.g., 1ms). */
     177             :         uint32_t max_per_timeslice;
     178             : 
     179             :         /** Function to check whether to queue the IO.
     180             :          * If The IO is allowed to pass, the quota will be reduced correspondingly.
     181             :          */
     182             :         bool (*queue_io)(struct spdk_bdev_qos_limit *limit, struct spdk_bdev_io *io);
     183             : 
     184             :         /** Function to rewind the quota once the IO was allowed to be sent by this
     185             :          * limit but queued due to one of the further limits.
     186             :          */
     187             :         void (*rewind_quota)(struct spdk_bdev_qos_limit *limit, struct spdk_bdev_io *io);
     188             : };
     189             : 
     190             : struct spdk_bdev_qos {
     191             :         /** Types of structure of rate limits. */
     192             :         struct spdk_bdev_qos_limit rate_limits[SPDK_BDEV_QOS_NUM_RATE_LIMIT_TYPES];
     193             : 
     194             :         /** The channel that all I/O are funneled through. */
     195             :         struct spdk_bdev_channel *ch;
     196             : 
     197             :         /** The thread on which the poller is running. */
     198             :         struct spdk_thread *thread;
     199             : 
     200             :         /** Size of a timeslice in tsc ticks. */
     201             :         uint64_t timeslice_size;
     202             : 
     203             :         /** Timestamp of start of last timeslice. */
     204             :         uint64_t last_timeslice;
     205             : 
     206             :         /** Poller that processes queued I/O commands each time slice. */
     207             :         struct spdk_poller *poller;
     208             : };
     209             : 
     210             : struct spdk_bdev_mgmt_channel {
     211             :         /*
     212             :          * Each thread keeps a cache of bdev_io - this allows
     213             :          *  bdev threads which are *not* DPDK threads to still
     214             :          *  benefit from a per-thread bdev_io cache.  Without
     215             :          *  this, non-DPDK threads fetching from the mempool
     216             :          *  incur a cmpxchg on get and put.
     217             :          */
     218             :         bdev_io_stailq_t per_thread_cache;
     219             :         uint32_t        per_thread_cache_count;
     220             :         uint32_t        bdev_io_cache_size;
     221             : 
     222             :         struct spdk_iobuf_channel iobuf;
     223             : 
     224             :         TAILQ_HEAD(, spdk_bdev_shared_resource) shared_resources;
     225             :         TAILQ_HEAD(, spdk_bdev_io_wait_entry)   io_wait_queue;
     226             : };
     227             : 
     228             : /*
     229             :  * Per-module (or per-io_device) data. Multiple bdevs built on the same io_device
     230             :  * will queue here their IO that awaits retry. It makes it possible to retry sending
     231             :  * IO to one bdev after IO from other bdev completes.
     232             :  */
     233             : struct spdk_bdev_shared_resource {
     234             :         /* The bdev management channel */
     235             :         struct spdk_bdev_mgmt_channel *mgmt_ch;
     236             : 
     237             :         /*
     238             :          * Count of I/O submitted to bdev module and waiting for completion.
     239             :          * Incremented before submit_request() is called on an spdk_bdev_io.
     240             :          */
     241             :         uint64_t                io_outstanding;
     242             : 
     243             :         /*
     244             :          * Queue of IO awaiting retry because of a previous NOMEM status returned
     245             :          *  on this channel.
     246             :          */
     247             :         bdev_io_tailq_t         nomem_io;
     248             : 
     249             :         /*
     250             :          * Threshold which io_outstanding must drop to before retrying nomem_io.
     251             :          */
     252             :         uint64_t                nomem_threshold;
     253             : 
     254             :         /* I/O channel allocated by a bdev module */
     255             :         struct spdk_io_channel  *shared_ch;
     256             : 
     257             :         struct spdk_poller      *nomem_poller;
     258             : 
     259             :         /* Refcount of bdev channels using this resource */
     260             :         uint32_t                ref;
     261             : 
     262             :         TAILQ_ENTRY(spdk_bdev_shared_resource) link;
     263             : };
     264             : 
     265             : #define BDEV_CH_RESET_IN_PROGRESS       (1 << 0)
     266             : #define BDEV_CH_QOS_ENABLED             (1 << 1)
     267             : 
     268             : struct spdk_bdev_channel {
     269             :         struct spdk_bdev        *bdev;
     270             : 
     271             :         /* The channel for the underlying device */
     272             :         struct spdk_io_channel  *channel;
     273             : 
     274             :         /* Accel channel */
     275             :         struct spdk_io_channel  *accel_channel;
     276             : 
     277             :         /* Per io_device per thread data */
     278             :         struct spdk_bdev_shared_resource *shared_resource;
     279             : 
     280             :         struct spdk_bdev_io_stat *stat;
     281             : 
     282             :         /*
     283             :          * Count of I/O submitted to the underlying dev module through this channel
     284             :          * and waiting for completion.
     285             :          */
     286             :         uint64_t                io_outstanding;
     287             : 
     288             :         /*
     289             :          * List of all submitted I/Os including I/O that are generated via splitting.
     290             :          */
     291             :         bdev_io_tailq_t         io_submitted;
     292             : 
     293             :         /*
     294             :          * List of spdk_bdev_io that are currently queued because they write to a locked
     295             :          * LBA range.
     296             :          */
     297             :         bdev_io_tailq_t         io_locked;
     298             : 
     299             :         /* List of I/Os with accel sequence being currently executed */
     300             :         bdev_io_tailq_t         io_accel_exec;
     301             : 
     302             :         /* List of I/Os doing memory domain pull/push */
     303             :         bdev_io_tailq_t         io_memory_domain;
     304             : 
     305             :         uint32_t                flags;
     306             : 
     307             :         /* Counts number of bdev_io in the io_submitted TAILQ */
     308             :         uint16_t                queue_depth;
     309             : 
     310             :         uint16_t                trace_id;
     311             : 
     312             :         struct spdk_histogram_data *histogram;
     313             : 
     314             : #ifdef SPDK_CONFIG_VTUNE
     315             :         uint64_t                start_tsc;
     316             :         uint64_t                interval_tsc;
     317             :         __itt_string_handle     *handle;
     318             :         struct spdk_bdev_io_stat *prev_stat;
     319             : #endif
     320             : 
     321             :         lba_range_tailq_t       locked_ranges;
     322             : 
     323             :         /** List of I/Os queued by QoS. */
     324             :         bdev_io_tailq_t         qos_queued_io;
     325             : };
     326             : 
     327             : struct media_event_entry {
     328             :         struct spdk_bdev_media_event    event;
     329             :         TAILQ_ENTRY(media_event_entry)  tailq;
     330             : };
     331             : 
     332             : #define MEDIA_EVENT_POOL_SIZE 64
     333             : 
     334             : struct spdk_bdev_desc {
     335             :         struct spdk_bdev                *bdev;
     336             :         bool                            write;
     337             :         bool                            memory_domains_supported;
     338             :         bool                            accel_sequence_supported[SPDK_BDEV_NUM_IO_TYPES];
     339             :         struct spdk_bdev_open_opts      opts;
     340             :         struct spdk_thread              *thread;
     341             :         struct {
     342             :                 spdk_bdev_event_cb_t event_fn;
     343             :                 void *ctx;
     344             :         }                               callback;
     345             :         bool                            closed;
     346             :         struct spdk_spinlock            spinlock;
     347             :         uint32_t                        refs;
     348             :         TAILQ_HEAD(, media_event_entry) pending_media_events;
     349             :         TAILQ_HEAD(, media_event_entry) free_media_events;
     350             :         struct media_event_entry        *media_events_buffer;
     351             :         TAILQ_ENTRY(spdk_bdev_desc)     link;
     352             : 
     353             :         uint64_t                timeout_in_sec;
     354             :         spdk_bdev_io_timeout_cb cb_fn;
     355             :         void                    *cb_arg;
     356             :         struct spdk_poller      *io_timeout_poller;
     357             :         struct spdk_bdev_module_claim   *claim;
     358             : };
     359             : 
     360             : struct spdk_bdev_iostat_ctx {
     361             :         struct spdk_bdev_io_stat *stat;
     362             :         enum spdk_bdev_reset_stat_mode reset_mode;
     363             :         spdk_bdev_get_device_stat_cb cb;
     364             :         void *cb_arg;
     365             : };
     366             : 
     367             : struct set_qos_limit_ctx {
     368             :         void (*cb_fn)(void *cb_arg, int status);
     369             :         void *cb_arg;
     370             :         struct spdk_bdev *bdev;
     371             : };
     372             : 
     373             : struct spdk_bdev_channel_iter {
     374             :         spdk_bdev_for_each_channel_msg fn;
     375             :         spdk_bdev_for_each_channel_done cpl;
     376             :         struct spdk_io_channel_iter *i;
     377             :         void *ctx;
     378             : };
     379             : 
     380             : struct spdk_bdev_io_error_stat {
     381             :         uint32_t error_status[-SPDK_MIN_BDEV_IO_STATUS];
     382             : };
     383             : 
     384             : enum bdev_io_retry_state {
     385             :         BDEV_IO_RETRY_STATE_INVALID,
     386             :         BDEV_IO_RETRY_STATE_PULL,
     387             :         BDEV_IO_RETRY_STATE_PULL_MD,
     388             :         BDEV_IO_RETRY_STATE_SUBMIT,
     389             :         BDEV_IO_RETRY_STATE_PUSH,
     390             :         BDEV_IO_RETRY_STATE_PUSH_MD,
     391             :         BDEV_IO_RETRY_STATE_GET_ACCEL_BUF,
     392             : };
     393             : 
     394             : #define __bdev_to_io_dev(bdev)          (((char *)bdev) + 1)
     395             : #define __bdev_from_io_dev(io_dev)      ((struct spdk_bdev *)(((char *)io_dev) - 1))
     396             : #define __io_ch_to_bdev_ch(io_ch)       ((struct spdk_bdev_channel *)spdk_io_channel_get_ctx(io_ch))
     397             : #define __io_ch_to_bdev_mgmt_ch(io_ch)  ((struct spdk_bdev_mgmt_channel *)spdk_io_channel_get_ctx(io_ch))
     398             : 
     399             : static inline void bdev_io_complete(void *ctx);
     400             : static inline void bdev_io_complete_unsubmitted(struct spdk_bdev_io *bdev_io);
     401             : static void bdev_io_push_bounce_md_buf(struct spdk_bdev_io *bdev_io);
     402             : static void bdev_io_push_bounce_data(struct spdk_bdev_io *bdev_io);
     403             : static void _bdev_io_get_accel_buf(struct spdk_bdev_io *bdev_io);
     404             : 
     405             : static void bdev_write_zero_buffer_done(struct spdk_bdev_io *bdev_io, bool success, void *cb_arg);
     406             : static int bdev_write_zero_buffer(struct spdk_bdev_io *bdev_io);
     407             : 
     408             : static void bdev_enable_qos_msg(struct spdk_bdev_channel_iter *i, struct spdk_bdev *bdev,
     409             :                                 struct spdk_io_channel *ch, void *_ctx);
     410             : static void bdev_enable_qos_done(struct spdk_bdev *bdev, void *_ctx, int status);
     411             : 
     412             : static int bdev_readv_blocks_with_md(struct spdk_bdev_desc *desc, struct spdk_io_channel *ch,
     413             :                                      struct iovec *iov, int iovcnt, void *md_buf, uint64_t offset_blocks,
     414             :                                      uint64_t num_blocks,
     415             :                                      struct spdk_memory_domain *domain, void *domain_ctx,
     416             :                                      struct spdk_accel_sequence *seq, uint32_t dif_check_flags,
     417             :                                      spdk_bdev_io_completion_cb cb, void *cb_arg);
     418             : static int bdev_writev_blocks_with_md(struct spdk_bdev_desc *desc, struct spdk_io_channel *ch,
     419             :                                       struct iovec *iov, int iovcnt, void *md_buf,
     420             :                                       uint64_t offset_blocks, uint64_t num_blocks,
     421             :                                       struct spdk_memory_domain *domain, void *domain_ctx,
     422             :                                       struct spdk_accel_sequence *seq, uint32_t dif_check_flags,
     423             :                                       uint32_t nvme_cdw12_raw, uint32_t nvme_cdw13_raw,
     424             :                                       spdk_bdev_io_completion_cb cb, void *cb_arg);
     425             : 
     426             : static int bdev_lock_lba_range(struct spdk_bdev_desc *desc, struct spdk_io_channel *_ch,
     427             :                                uint64_t offset, uint64_t length,
     428             :                                lock_range_cb cb_fn, void *cb_arg);
     429             : 
     430             : static int bdev_unlock_lba_range(struct spdk_bdev_desc *desc, struct spdk_io_channel *_ch,
     431             :                                  uint64_t offset, uint64_t length,
     432             :                                  lock_range_cb cb_fn, void *cb_arg);
     433             : 
     434             : static bool bdev_abort_queued_io(bdev_io_tailq_t *queue, struct spdk_bdev_io *bio_to_abort);
     435             : static bool bdev_abort_buf_io(struct spdk_bdev_mgmt_channel *ch, struct spdk_bdev_io *bio_to_abort);
     436             : 
     437             : static bool claim_type_is_v2(enum spdk_bdev_claim_type type);
     438             : static void bdev_desc_release_claims(struct spdk_bdev_desc *desc);
     439             : static void claim_reset(struct spdk_bdev *bdev);
     440             : 
     441             : static void bdev_ch_retry_io(struct spdk_bdev_channel *bdev_ch);
     442             : 
     443             : static bool bdev_io_should_split(struct spdk_bdev_io *bdev_io);
     444             : 
     445             : #define bdev_get_ext_io_opt(opts, field, defval) \
     446             :         ((opts) != NULL ? SPDK_GET_FIELD(opts, field, defval) : (defval))
     447             : 
     448             : static inline void
     449         671 : bdev_ch_add_to_io_submitted(struct spdk_bdev_io *bdev_io)
     450             : {
     451         671 :         TAILQ_INSERT_TAIL(&bdev_io->internal.ch->io_submitted, bdev_io, internal.ch_link);
     452         671 :         bdev_io->internal.ch->queue_depth++;
     453         671 : }
     454             : 
     455             : static inline void
     456         671 : bdev_ch_remove_from_io_submitted(struct spdk_bdev_io *bdev_io)
     457             : {
     458         671 :         TAILQ_REMOVE(&bdev_io->internal.ch->io_submitted, bdev_io, internal.ch_link);
     459         671 :         bdev_io->internal.ch->queue_depth--;
     460         671 : }
     461             : 
     462             : void
     463          16 : spdk_bdev_get_opts(struct spdk_bdev_opts *opts, size_t opts_size)
     464             : {
     465          16 :         if (!opts) {
     466           0 :                 SPDK_ERRLOG("opts should not be NULL\n");
     467           0 :                 return;
     468             :         }
     469             : 
     470          16 :         if (!opts_size) {
     471           0 :                 SPDK_ERRLOG("opts_size should not be zero value\n");
     472           0 :                 return;
     473             :         }
     474             : 
     475          16 :         opts->opts_size = opts_size;
     476             : 
     477             : #define SET_FIELD(field) \
     478             :         if (offsetof(struct spdk_bdev_opts, field) + sizeof(opts->field) <= opts_size) { \
     479             :                 opts->field = g_bdev_opts.field; \
     480             :         } \
     481             : 
     482          16 :         SET_FIELD(bdev_io_pool_size);
     483          16 :         SET_FIELD(bdev_io_cache_size);
     484          16 :         SET_FIELD(bdev_auto_examine);
     485          16 :         SET_FIELD(iobuf_small_cache_size);
     486          16 :         SET_FIELD(iobuf_large_cache_size);
     487             : 
     488             :         /* Do not remove this statement, you should always update this statement when you adding a new field,
     489             :          * and do not forget to add the SET_FIELD statement for your added field. */
     490             :         SPDK_STATIC_ASSERT(sizeof(struct spdk_bdev_opts) == 32, "Incorrect size");
     491             : 
     492             : #undef SET_FIELD
     493             : }
     494             : 
     495             : int
     496          17 : spdk_bdev_set_opts(struct spdk_bdev_opts *opts)
     497             : {
     498             :         uint32_t min_pool_size;
     499             : 
     500          17 :         if (!opts) {
     501           0 :                 SPDK_ERRLOG("opts cannot be NULL\n");
     502           0 :                 return -1;
     503             :         }
     504             : 
     505          17 :         if (!opts->opts_size) {
     506           1 :                 SPDK_ERRLOG("opts_size inside opts cannot be zero value\n");
     507           1 :                 return -1;
     508             :         }
     509             : 
     510             :         /*
     511             :          * Add 1 to the thread count to account for the extra mgmt_ch that gets created during subsystem
     512             :          *  initialization.  A second mgmt_ch will be created on the same thread when the application starts
     513             :          *  but before the deferred put_io_channel event is executed for the first mgmt_ch.
     514             :          */
     515          16 :         min_pool_size = opts->bdev_io_cache_size * (spdk_thread_get_count() + 1);
     516          16 :         if (opts->bdev_io_pool_size < min_pool_size) {
     517           0 :                 SPDK_ERRLOG("bdev_io_pool_size %" PRIu32 " is not compatible with bdev_io_cache_size %" PRIu32
     518             :                             " and %" PRIu32 " threads\n", opts->bdev_io_pool_size, opts->bdev_io_cache_size,
     519             :                             spdk_thread_get_count());
     520           0 :                 SPDK_ERRLOG("bdev_io_pool_size must be at least %" PRIu32 "\n", min_pool_size);
     521           0 :                 return -1;
     522             :         }
     523             : 
     524             : #define SET_FIELD(field) \
     525             :         if (offsetof(struct spdk_bdev_opts, field) + sizeof(opts->field) <= opts->opts_size) { \
     526             :                 g_bdev_opts.field = opts->field; \
     527             :         } \
     528             : 
     529          16 :         SET_FIELD(bdev_io_pool_size);
     530          16 :         SET_FIELD(bdev_io_cache_size);
     531          16 :         SET_FIELD(bdev_auto_examine);
     532          16 :         SET_FIELD(iobuf_small_cache_size);
     533          16 :         SET_FIELD(iobuf_large_cache_size);
     534             : 
     535          16 :         g_bdev_opts.opts_size = opts->opts_size;
     536             : 
     537             : #undef SET_FIELD
     538             : 
     539          16 :         return 0;
     540             : }
     541             : 
     542             : static struct spdk_bdev *
     543         155 : bdev_get_by_name(const char *bdev_name)
     544             : {
     545         155 :         struct spdk_bdev_name find;
     546             :         struct spdk_bdev_name *res;
     547             : 
     548         155 :         find.name = (char *)bdev_name;
     549         155 :         res = RB_FIND(bdev_name_tree, &g_bdev_mgr.bdev_names, &find);
     550         155 :         if (res != NULL) {
     551         148 :                 return res->bdev;
     552             :         }
     553             : 
     554           7 :         return NULL;
     555             : }
     556             : 
     557             : struct spdk_bdev *
     558          19 : spdk_bdev_get_by_name(const char *bdev_name)
     559             : {
     560             :         struct spdk_bdev *bdev;
     561             : 
     562          19 :         spdk_spin_lock(&g_bdev_mgr.spinlock);
     563          19 :         bdev = bdev_get_by_name(bdev_name);
     564          19 :         spdk_spin_unlock(&g_bdev_mgr.spinlock);
     565             : 
     566          19 :         return bdev;
     567             : }
     568             : 
     569             : struct bdev_io_status_string {
     570             :         enum spdk_bdev_io_status status;
     571             :         const char *str;
     572             : };
     573             : 
     574             : static const struct bdev_io_status_string bdev_io_status_strings[] = {
     575             :         { SPDK_BDEV_IO_STATUS_AIO_ERROR, "aio_error" },
     576             :         { SPDK_BDEV_IO_STATUS_ABORTED, "aborted" },
     577             :         { SPDK_BDEV_IO_STATUS_FIRST_FUSED_FAILED, "first_fused_failed" },
     578             :         { SPDK_BDEV_IO_STATUS_MISCOMPARE, "miscompare" },
     579             :         { SPDK_BDEV_IO_STATUS_NOMEM, "nomem" },
     580             :         { SPDK_BDEV_IO_STATUS_SCSI_ERROR, "scsi_error" },
     581             :         { SPDK_BDEV_IO_STATUS_NVME_ERROR, "nvme_error" },
     582             :         { SPDK_BDEV_IO_STATUS_FAILED, "failed" },
     583             :         { SPDK_BDEV_IO_STATUS_PENDING, "pending" },
     584             :         { SPDK_BDEV_IO_STATUS_SUCCESS, "success" },
     585             : };
     586             : 
     587             : static const char *
     588           0 : bdev_io_status_get_string(enum spdk_bdev_io_status status)
     589             : {
     590             :         uint32_t i;
     591             : 
     592           0 :         for (i = 0; i < SPDK_COUNTOF(bdev_io_status_strings); i++) {
     593           0 :                 if (bdev_io_status_strings[i].status == status) {
     594           0 :                         return bdev_io_status_strings[i].str;
     595             :                 }
     596             :         }
     597             : 
     598           0 :         return "reserved";
     599             : }
     600             : 
     601             : struct spdk_bdev_wait_for_examine_ctx {
     602             :         struct spdk_poller              *poller;
     603             :         spdk_bdev_wait_for_examine_cb   cb_fn;
     604             :         void                            *cb_arg;
     605             : };
     606             : 
     607             : static bool bdev_module_all_actions_completed(void);
     608             : 
     609             : static int
     610         203 : bdev_wait_for_examine_cb(void *arg)
     611             : {
     612         203 :         struct spdk_bdev_wait_for_examine_ctx *ctx = arg;
     613             : 
     614         203 :         if (!bdev_module_all_actions_completed()) {
     615           0 :                 return SPDK_POLLER_IDLE;
     616             :         }
     617             : 
     618         203 :         spdk_poller_unregister(&ctx->poller);
     619         203 :         ctx->cb_fn(ctx->cb_arg);
     620         203 :         free(ctx);
     621             : 
     622         203 :         return SPDK_POLLER_BUSY;
     623             : }
     624             : 
     625             : int
     626         203 : spdk_bdev_wait_for_examine(spdk_bdev_wait_for_examine_cb cb_fn, void *cb_arg)
     627             : {
     628             :         struct spdk_bdev_wait_for_examine_ctx *ctx;
     629             : 
     630         203 :         ctx = calloc(1, sizeof(*ctx));
     631         203 :         if (ctx == NULL) {
     632           0 :                 return -ENOMEM;
     633             :         }
     634         203 :         ctx->cb_fn = cb_fn;
     635         203 :         ctx->cb_arg = cb_arg;
     636         203 :         ctx->poller = SPDK_POLLER_REGISTER(bdev_wait_for_examine_cb, ctx, 0);
     637             : 
     638         203 :         return 0;
     639             : }
     640             : 
     641             : struct spdk_bdev_examine_item {
     642             :         char *name;
     643             :         TAILQ_ENTRY(spdk_bdev_examine_item) link;
     644             : };
     645             : 
     646             : TAILQ_HEAD(spdk_bdev_examine_allowlist, spdk_bdev_examine_item);
     647             : 
     648             : struct spdk_bdev_examine_allowlist g_bdev_examine_allowlist = TAILQ_HEAD_INITIALIZER(
     649             :                         g_bdev_examine_allowlist);
     650             : 
     651             : static inline bool
     652          24 : bdev_examine_allowlist_check(const char *name)
     653             : {
     654             :         struct spdk_bdev_examine_item *item;
     655          24 :         TAILQ_FOREACH(item, &g_bdev_examine_allowlist, link) {
     656           3 :                 if (strcmp(name, item->name) == 0) {
     657           3 :                         return true;
     658             :                 }
     659             :         }
     660          21 :         return false;
     661             : }
     662             : 
     663             : static inline void
     664         258 : bdev_examine_allowlist_remove(const char *name)
     665             : {
     666             :         struct spdk_bdev_examine_item *item;
     667         258 :         TAILQ_FOREACH(item, &g_bdev_examine_allowlist, link) {
     668           3 :                 if (strcmp(name, item->name) == 0) {
     669           3 :                         TAILQ_REMOVE(&g_bdev_examine_allowlist, item, link);
     670           3 :                         free(item->name);
     671           3 :                         free(item);
     672           3 :                         break;
     673             :                 }
     674             :         }
     675         258 : }
     676             : 
     677             : static inline void
     678          68 : bdev_examine_allowlist_free(void)
     679             : {
     680             :         struct spdk_bdev_examine_item *item;
     681          68 :         while (!TAILQ_EMPTY(&g_bdev_examine_allowlist)) {
     682           0 :                 item = TAILQ_FIRST(&g_bdev_examine_allowlist);
     683           0 :                 TAILQ_REMOVE(&g_bdev_examine_allowlist, item, link);
     684           0 :                 free(item->name);
     685           0 :                 free(item);
     686             :         }
     687          68 : }
     688             : 
     689             : static inline bool
     690          12 : bdev_in_examine_allowlist(struct spdk_bdev *bdev)
     691             : {
     692             :         struct spdk_bdev_alias *tmp;
     693          12 :         if (bdev_examine_allowlist_check(bdev->name)) {
     694           3 :                 return true;
     695             :         }
     696          18 :         TAILQ_FOREACH(tmp, &bdev->aliases, tailq) {
     697           9 :                 if (bdev_examine_allowlist_check(tmp->alias.name)) {
     698           0 :                         return true;
     699             :                 }
     700             :         }
     701           9 :         return false;
     702             : }
     703             : 
     704             : static inline bool
     705         133 : bdev_ok_to_examine(struct spdk_bdev *bdev)
     706             : {
     707             :         /* Some bdevs may not support the READ command.
     708             :          * Do not try to examine them.
     709             :          */
     710         133 :         if (!spdk_bdev_io_type_supported(bdev, SPDK_BDEV_IO_TYPE_READ)) {
     711           0 :                 return false;
     712             :         }
     713             : 
     714         133 :         if (g_bdev_opts.bdev_auto_examine) {
     715         121 :                 return true;
     716             :         } else {
     717          12 :                 return bdev_in_examine_allowlist(bdev);
     718             :         }
     719             : }
     720             : 
     721             : static void
     722         133 : bdev_examine(struct spdk_bdev *bdev)
     723             : {
     724             :         struct spdk_bdev_module *module;
     725             :         struct spdk_bdev_module_claim *claim, *tmpclaim;
     726             :         uint32_t action;
     727             : 
     728         133 :         if (!bdev_ok_to_examine(bdev)) {
     729           9 :                 return;
     730             :         }
     731             : 
     732         506 :         TAILQ_FOREACH(module, &g_bdev_mgr.bdev_modules, internal.tailq) {
     733         382 :                 if (module->examine_config) {
     734         258 :                         spdk_spin_lock(&module->internal.spinlock);
     735         258 :                         action = module->internal.action_in_progress;
     736         258 :                         module->internal.action_in_progress++;
     737         258 :                         spdk_spin_unlock(&module->internal.spinlock);
     738         258 :                         module->examine_config(bdev);
     739         258 :                         if (action != module->internal.action_in_progress) {
     740           0 :                                 SPDK_ERRLOG("examine_config for module %s did not call "
     741             :                                             "spdk_bdev_module_examine_done()\n", module->name);
     742             :                         }
     743             :                 }
     744             :         }
     745             : 
     746         124 :         spdk_spin_lock(&bdev->internal.spinlock);
     747             : 
     748         124 :         switch (bdev->internal.claim_type) {
     749         116 :         case SPDK_BDEV_CLAIM_NONE:
     750             :                 /* Examine by all bdev modules */
     751         466 :                 TAILQ_FOREACH(module, &g_bdev_mgr.bdev_modules, internal.tailq) {
     752         350 :                         if (module->examine_disk) {
     753         225 :                                 spdk_spin_lock(&module->internal.spinlock);
     754         225 :                                 module->internal.action_in_progress++;
     755         225 :                                 spdk_spin_unlock(&module->internal.spinlock);
     756         225 :                                 spdk_spin_unlock(&bdev->internal.spinlock);
     757         225 :                                 module->examine_disk(bdev);
     758         225 :                                 spdk_spin_lock(&bdev->internal.spinlock);
     759             :                         }
     760             :                 }
     761         116 :                 break;
     762           1 :         case SPDK_BDEV_CLAIM_EXCL_WRITE:
     763             :                 /* Examine by the one bdev module with a v1 claim */
     764           1 :                 module = bdev->internal.claim.v1.module;
     765           1 :                 if (module->examine_disk) {
     766           1 :                         spdk_spin_lock(&module->internal.spinlock);
     767           1 :                         module->internal.action_in_progress++;
     768           1 :                         spdk_spin_unlock(&module->internal.spinlock);
     769           1 :                         spdk_spin_unlock(&bdev->internal.spinlock);
     770           1 :                         module->examine_disk(bdev);
     771           1 :                         return;
     772             :                 }
     773           0 :                 break;
     774           7 :         default:
     775             :                 /* Examine by all bdev modules with a v2 claim */
     776           7 :                 assert(claim_type_is_v2(bdev->internal.claim_type));
     777             :                 /*
     778             :                  * Removal of tailq nodes while iterating can cause the iteration to jump out of the
     779             :                  * list, perhaps accessing freed memory. Without protection, this could happen
     780             :                  * while the lock is dropped during the examine callback.
     781             :                  */
     782           7 :                 bdev->internal.examine_in_progress++;
     783             : 
     784          16 :                 TAILQ_FOREACH(claim, &bdev->internal.claim.v2.claims, link) {
     785           9 :                         module = claim->module;
     786             : 
     787           9 :                         if (module == NULL) {
     788             :                                 /* This is a vestigial claim, held by examine_count */
     789           0 :                                 continue;
     790             :                         }
     791             : 
     792           9 :                         if (module->examine_disk == NULL) {
     793           0 :                                 continue;
     794             :                         }
     795             : 
     796           9 :                         spdk_spin_lock(&module->internal.spinlock);
     797           9 :                         module->internal.action_in_progress++;
     798           9 :                         spdk_spin_unlock(&module->internal.spinlock);
     799             : 
     800             :                         /* Call examine_disk without holding internal.spinlock. */
     801           9 :                         spdk_spin_unlock(&bdev->internal.spinlock);
     802           9 :                         module->examine_disk(bdev);
     803           9 :                         spdk_spin_lock(&bdev->internal.spinlock);
     804             :                 }
     805             : 
     806           7 :                 assert(bdev->internal.examine_in_progress > 0);
     807           7 :                 bdev->internal.examine_in_progress--;
     808           7 :                 if (bdev->internal.examine_in_progress == 0) {
     809             :                         /* Remove any claims that were released during examine_disk */
     810          16 :                         TAILQ_FOREACH_SAFE(claim, &bdev->internal.claim.v2.claims, link, tmpclaim) {
     811           9 :                                 if (claim->desc != NULL) {
     812           9 :                                         continue;
     813             :                                 }
     814             : 
     815           0 :                                 TAILQ_REMOVE(&bdev->internal.claim.v2.claims, claim, link);
     816           0 :                                 free(claim);
     817             :                         }
     818           7 :                         if (TAILQ_EMPTY(&bdev->internal.claim.v2.claims)) {
     819           0 :                                 claim_reset(bdev);
     820             :                         }
     821             :                 }
     822             :         }
     823             : 
     824         123 :         spdk_spin_unlock(&bdev->internal.spinlock);
     825             : }
     826             : 
     827             : int
     828           4 : spdk_bdev_examine(const char *name)
     829             : {
     830             :         struct spdk_bdev *bdev;
     831             :         struct spdk_bdev_examine_item *item;
     832           4 :         struct spdk_thread *thread = spdk_get_thread();
     833             : 
     834           4 :         if (spdk_unlikely(!spdk_thread_is_app_thread(thread))) {
     835           1 :                 SPDK_ERRLOG("Cannot examine bdev %s on thread %p (%s)\n", name, thread,
     836             :                             thread ? spdk_thread_get_name(thread) : "null");
     837           1 :                 return -EINVAL;
     838             :         }
     839             : 
     840           3 :         if (g_bdev_opts.bdev_auto_examine) {
     841           0 :                 SPDK_ERRLOG("Manual examine is not allowed if auto examine is enabled\n");
     842           0 :                 return -EINVAL;
     843             :         }
     844             : 
     845           3 :         if (bdev_examine_allowlist_check(name)) {
     846           0 :                 SPDK_ERRLOG("Duplicate bdev name for manual examine: %s\n", name);
     847           0 :                 return -EEXIST;
     848             :         }
     849             : 
     850           3 :         item = calloc(1, sizeof(*item));
     851           3 :         if (!item) {
     852           0 :                 return -ENOMEM;
     853             :         }
     854           3 :         item->name = strdup(name);
     855           3 :         if (!item->name) {
     856           0 :                 free(item);
     857           0 :                 return -ENOMEM;
     858             :         }
     859           3 :         TAILQ_INSERT_TAIL(&g_bdev_examine_allowlist, item, link);
     860             : 
     861           3 :         bdev = spdk_bdev_get_by_name(name);
     862           3 :         if (bdev) {
     863           3 :                 bdev_examine(bdev);
     864             :         }
     865           3 :         return 0;
     866             : }
     867             : 
     868             : static inline void
     869           0 : bdev_examine_allowlist_config_json(struct spdk_json_write_ctx *w)
     870             : {
     871             :         struct spdk_bdev_examine_item *item;
     872           0 :         TAILQ_FOREACH(item, &g_bdev_examine_allowlist, link) {
     873           0 :                 spdk_json_write_object_begin(w);
     874           0 :                 spdk_json_write_named_string(w, "method", "bdev_examine");
     875           0 :                 spdk_json_write_named_object_begin(w, "params");
     876           0 :                 spdk_json_write_named_string(w, "name", item->name);
     877           0 :                 spdk_json_write_object_end(w);
     878           0 :                 spdk_json_write_object_end(w);
     879             :         }
     880           0 : }
     881             : 
     882             : struct spdk_bdev *
     883           1 : spdk_bdev_first(void)
     884             : {
     885             :         struct spdk_bdev *bdev;
     886             : 
     887           1 :         bdev = TAILQ_FIRST(&g_bdev_mgr.bdevs);
     888           1 :         if (bdev) {
     889           1 :                 SPDK_DEBUGLOG(bdev, "Starting bdev iteration at %s\n", bdev->name);
     890             :         }
     891             : 
     892           1 :         return bdev;
     893             : }
     894             : 
     895             : struct spdk_bdev *
     896           8 : spdk_bdev_next(struct spdk_bdev *prev)
     897             : {
     898             :         struct spdk_bdev *bdev;
     899             : 
     900           8 :         bdev = TAILQ_NEXT(prev, internal.link);
     901           8 :         if (bdev) {
     902           7 :                 SPDK_DEBUGLOG(bdev, "Continuing bdev iteration at %s\n", bdev->name);
     903             :         }
     904             : 
     905           8 :         return bdev;
     906             : }
     907             : 
     908             : static struct spdk_bdev *
     909           6 : _bdev_next_leaf(struct spdk_bdev *bdev)
     910             : {
     911           9 :         while (bdev != NULL) {
     912           8 :                 if (bdev->internal.claim_type == SPDK_BDEV_CLAIM_NONE) {
     913           5 :                         return bdev;
     914             :                 } else {
     915           3 :                         bdev = TAILQ_NEXT(bdev, internal.link);
     916             :                 }
     917             :         }
     918             : 
     919           1 :         return bdev;
     920             : }
     921             : 
     922             : struct spdk_bdev *
     923           1 : spdk_bdev_first_leaf(void)
     924             : {
     925             :         struct spdk_bdev *bdev;
     926             : 
     927           1 :         bdev = _bdev_next_leaf(TAILQ_FIRST(&g_bdev_mgr.bdevs));
     928             : 
     929           1 :         if (bdev) {
     930           1 :                 SPDK_DEBUGLOG(bdev, "Starting bdev iteration at %s\n", bdev->name);
     931             :         }
     932             : 
     933           1 :         return bdev;
     934             : }
     935             : 
     936             : struct spdk_bdev *
     937           5 : spdk_bdev_next_leaf(struct spdk_bdev *prev)
     938             : {
     939             :         struct spdk_bdev *bdev;
     940             : 
     941           5 :         bdev = _bdev_next_leaf(TAILQ_NEXT(prev, internal.link));
     942             : 
     943           5 :         if (bdev) {
     944           4 :                 SPDK_DEBUGLOG(bdev, "Continuing bdev iteration at %s\n", bdev->name);
     945             :         }
     946             : 
     947           5 :         return bdev;
     948             : }
     949             : 
     950             : static inline bool
     951         820 : bdev_io_use_memory_domain(struct spdk_bdev_io *bdev_io)
     952             : {
     953         820 :         return bdev_io->internal.f.has_memory_domain;
     954             : }
     955             : 
     956             : static inline bool
     957        1551 : bdev_io_use_accel_sequence(struct spdk_bdev_io *bdev_io)
     958             : {
     959        1551 :         return bdev_io->internal.f.has_accel_sequence;
     960             : }
     961             : 
     962             : static inline uint32_t
     963         373 : bdev_desc_get_block_size(struct spdk_bdev_desc *desc)
     964             : {
     965         373 :         struct spdk_bdev *bdev = spdk_bdev_desc_get_bdev(desc);
     966             : 
     967         373 :         if (spdk_unlikely(desc->opts.hide_metadata)) {
     968           0 :                 return bdev->blocklen - bdev->md_len;
     969             :         } else {
     970         373 :                 return bdev->blocklen;
     971             :         }
     972             : }
     973             : 
     974             : static inline uint32_t
     975         110 : bdev_io_get_block_size(struct spdk_bdev_io *bdev_io)
     976             : {
     977         110 :         struct spdk_bdev *bdev = bdev_io->bdev;
     978             : 
     979         110 :         if (bdev_io->u.bdev.dif_check_flags & SPDK_DIF_FLAGS_NVME_PRACT) {
     980           0 :                 if (bdev->md_len == spdk_dif_pi_format_get_size(bdev->dif_pi_format)) {
     981           0 :                         return bdev->blocklen - bdev->md_len;
     982             :                 } else {
     983           0 :                         return bdev->blocklen;
     984             :                 }
     985             :         }
     986             : 
     987         110 :         return bdev_desc_get_block_size(bdev_io->internal.desc);
     988             : }
     989             : 
     990             : static inline void
     991           7 : bdev_queue_nomem_io_head(struct spdk_bdev_shared_resource *shared_resource,
     992             :                          struct spdk_bdev_io *bdev_io, enum bdev_io_retry_state state)
     993             : {
     994             :         /* Wait for some of the outstanding I/O to complete before we retry any of the nomem_io.
     995             :          * Normally we will wait for NOMEM_THRESHOLD_COUNT I/O to complete but for low queue depth
     996             :          * channels we will instead wait for half to complete.
     997             :          */
     998           7 :         shared_resource->nomem_threshold = spdk_max((int64_t)shared_resource->io_outstanding / 2,
     999             :                                            (int64_t)shared_resource->io_outstanding - NOMEM_THRESHOLD_COUNT);
    1000             : 
    1001           7 :         assert(state != BDEV_IO_RETRY_STATE_INVALID);
    1002           7 :         bdev_io->internal.retry_state = state;
    1003           7 :         TAILQ_INSERT_HEAD(&shared_resource->nomem_io, bdev_io, internal.link);
    1004           7 : }
    1005             : 
    1006             : static inline void
    1007          43 : bdev_queue_nomem_io_tail(struct spdk_bdev_shared_resource *shared_resource,
    1008             :                          struct spdk_bdev_io *bdev_io, enum bdev_io_retry_state state)
    1009             : {
    1010             :         /* We only queue IOs at the end of the nomem_io queue if they're submitted by the user while
    1011             :          * the queue isn't empty, so we don't need to update the nomem_threshold here */
    1012          43 :         assert(!TAILQ_EMPTY(&shared_resource->nomem_io));
    1013             : 
    1014          43 :         assert(state != BDEV_IO_RETRY_STATE_INVALID);
    1015          43 :         bdev_io->internal.retry_state = state;
    1016          43 :         TAILQ_INSERT_TAIL(&shared_resource->nomem_io, bdev_io, internal.link);
    1017          43 : }
    1018             : 
    1019             : void
    1020          16 : spdk_bdev_io_set_buf(struct spdk_bdev_io *bdev_io, void *buf, size_t len)
    1021             : {
    1022             :         struct iovec *iovs;
    1023             : 
    1024          16 :         if (bdev_io->u.bdev.iovs == NULL) {
    1025           3 :                 bdev_io->u.bdev.iovs = &bdev_io->iov;
    1026           3 :                 bdev_io->u.bdev.iovcnt = 1;
    1027             :         }
    1028             : 
    1029          16 :         iovs = bdev_io->u.bdev.iovs;
    1030             : 
    1031          16 :         assert(iovs != NULL);
    1032          16 :         assert(bdev_io->u.bdev.iovcnt >= 1);
    1033             : 
    1034          16 :         iovs[0].iov_base = buf;
    1035          16 :         iovs[0].iov_len = len;
    1036          16 : }
    1037             : 
    1038             : void
    1039           3 : spdk_bdev_io_set_md_buf(struct spdk_bdev_io *bdev_io, void *md_buf, size_t len)
    1040             : {
    1041           3 :         assert((len / spdk_bdev_get_md_size(bdev_io->bdev)) >= bdev_io->u.bdev.num_blocks);
    1042           3 :         bdev_io->u.bdev.md_buf = md_buf;
    1043           3 : }
    1044             : 
    1045             : static bool
    1046         167 : _is_buf_allocated(const struct iovec *iovs)
    1047             : {
    1048         167 :         if (iovs == NULL) {
    1049           6 :                 return false;
    1050             :         }
    1051             : 
    1052         161 :         return iovs[0].iov_base != NULL;
    1053             : }
    1054             : 
    1055             : static bool
    1056          50 : _are_iovs_aligned(struct iovec *iovs, int iovcnt, uint32_t alignment)
    1057             : {
    1058             :         int i;
    1059             :         uintptr_t iov_base;
    1060             : 
    1061          50 :         if (spdk_likely(alignment == 1)) {
    1062          21 :                 return true;
    1063             :         }
    1064             : 
    1065          36 :         for (i = 0; i < iovcnt; i++) {
    1066          29 :                 iov_base = (uintptr_t)iovs[i].iov_base;
    1067          29 :                 if ((iov_base & (alignment - 1)) != 0) {
    1068          22 :                         return false;
    1069             :                 }
    1070             :         }
    1071             : 
    1072           7 :         return true;
    1073             : }
    1074             : 
    1075             : static inline bool
    1076         895 : bdev_io_needs_metadata(struct spdk_bdev_desc *desc, struct spdk_bdev_io *bdev_io)
    1077             : {
    1078        1048 :         return (bdev_io->bdev->md_len != 0) &&
    1079         153 :                (desc->opts.hide_metadata ||
    1080         153 :                 (bdev_io->u.bdev.dif_check_flags & SPDK_DIF_FLAGS_NVME_PRACT));
    1081             : }
    1082             : 
    1083             : static inline bool
    1084         852 : bdev_io_needs_sequence_exec(struct spdk_bdev_desc *desc, struct spdk_bdev_io *bdev_io)
    1085             : {
    1086         852 :         if (!bdev_io_use_accel_sequence(bdev_io)) {
    1087         852 :                 return false;
    1088             :         }
    1089             : 
    1090             :         /* For now, we don't allow splitting IOs with an accel sequence and will treat them as if
    1091             :          * bdev module didn't support accel sequences */
    1092           0 :         return !desc->accel_sequence_supported[bdev_io->type] || bdev_io->internal.f.split;
    1093             : }
    1094             : 
    1095             : static inline void
    1096         592 : bdev_io_increment_outstanding(struct spdk_bdev_channel *bdev_ch,
    1097             :                               struct spdk_bdev_shared_resource *shared_resource)
    1098             : {
    1099         592 :         bdev_ch->io_outstanding++;
    1100         592 :         shared_resource->io_outstanding++;
    1101         592 : }
    1102             : 
    1103             : static inline void
    1104         592 : bdev_io_decrement_outstanding(struct spdk_bdev_channel *bdev_ch,
    1105             :                               struct spdk_bdev_shared_resource *shared_resource)
    1106             : {
    1107         592 :         assert(bdev_ch->io_outstanding > 0);
    1108         592 :         assert(shared_resource->io_outstanding > 0);
    1109         592 :         bdev_ch->io_outstanding--;
    1110         592 :         shared_resource->io_outstanding--;
    1111         592 : }
    1112             : 
    1113             : static void
    1114           0 : bdev_io_submit_sequence_cb(void *ctx, int status)
    1115             : {
    1116           0 :         struct spdk_bdev_io *bdev_io = ctx;
    1117             : 
    1118           0 :         assert(bdev_io_use_accel_sequence(bdev_io));
    1119             : 
    1120           0 :         bdev_io->u.bdev.accel_sequence = NULL;
    1121           0 :         bdev_io->internal.f.has_accel_sequence = false;
    1122             : 
    1123           0 :         if (spdk_unlikely(status != 0)) {
    1124           0 :                 SPDK_ERRLOG("Failed to execute accel sequence, status=%d\n", status);
    1125           0 :                 bdev_io->internal.status = SPDK_BDEV_IO_STATUS_FAILED;
    1126           0 :                 bdev_io_complete_unsubmitted(bdev_io);
    1127           0 :                 return;
    1128             :         }
    1129             : 
    1130           0 :         bdev_io_submit(bdev_io);
    1131             : }
    1132             : 
    1133             : static void
    1134           0 : bdev_io_exec_sequence_cb(void *ctx, int status)
    1135             : {
    1136           0 :         struct spdk_bdev_io *bdev_io = ctx;
    1137           0 :         struct spdk_bdev_channel *ch = bdev_io->internal.ch;
    1138             : 
    1139           0 :         TAILQ_REMOVE(&bdev_io->internal.ch->io_accel_exec, bdev_io, internal.link);
    1140           0 :         bdev_io_decrement_outstanding(ch, ch->shared_resource);
    1141             : 
    1142           0 :         if (spdk_unlikely(!TAILQ_EMPTY(&ch->shared_resource->nomem_io))) {
    1143           0 :                 bdev_ch_retry_io(ch);
    1144             :         }
    1145             : 
    1146           0 :         bdev_io->internal.data_transfer_cpl(bdev_io, status);
    1147           0 : }
    1148             : 
    1149             : static void
    1150           0 : bdev_io_exec_sequence(struct spdk_bdev_io *bdev_io, void (*cb_fn)(void *ctx, int status))
    1151             : {
    1152           0 :         struct spdk_bdev_channel *ch = bdev_io->internal.ch;
    1153             : 
    1154           0 :         assert(bdev_io_needs_sequence_exec(bdev_io->internal.desc, bdev_io));
    1155           0 :         assert(bdev_io->type == SPDK_BDEV_IO_TYPE_WRITE || bdev_io->type == SPDK_BDEV_IO_TYPE_READ);
    1156           0 :         assert(bdev_io_use_accel_sequence(bdev_io));
    1157             : 
    1158             :         /* Since the operations are appended during submission, they're in the opposite order than
    1159             :          * how we want to execute them for reads (i.e. we need to execute the most recently added
    1160             :          * operation first), so reverse the sequence before executing it.
    1161             :          */
    1162           0 :         if (bdev_io->type == SPDK_BDEV_IO_TYPE_READ) {
    1163           0 :                 spdk_accel_sequence_reverse(bdev_io->internal.accel_sequence);
    1164             :         }
    1165             : 
    1166           0 :         TAILQ_INSERT_TAIL(&bdev_io->internal.ch->io_accel_exec, bdev_io, internal.link);
    1167           0 :         bdev_io_increment_outstanding(ch, ch->shared_resource);
    1168           0 :         bdev_io->internal.data_transfer_cpl = cb_fn;
    1169             : 
    1170           0 :         spdk_accel_sequence_finish(bdev_io->internal.accel_sequence,
    1171             :                                    bdev_io_exec_sequence_cb, bdev_io);
    1172           0 : }
    1173             : 
    1174             : static void
    1175          42 : bdev_io_get_buf_complete(struct spdk_bdev_io *bdev_io, bool status)
    1176             : {
    1177          42 :         struct spdk_io_channel *ch = spdk_bdev_io_get_io_channel(bdev_io);
    1178             :         void *buf;
    1179             : 
    1180          42 :         if (spdk_unlikely(bdev_io->internal.get_aux_buf_cb != NULL)) {
    1181           0 :                 buf = bdev_io->internal.buf.ptr;
    1182           0 :                 bdev_io->internal.buf.ptr = NULL;
    1183           0 :                 bdev_io->internal.f.has_buf = false;
    1184           0 :                 bdev_io->internal.get_aux_buf_cb(ch, bdev_io, buf);
    1185           0 :                 bdev_io->internal.get_aux_buf_cb = NULL;
    1186             :         } else {
    1187          42 :                 assert(bdev_io->internal.get_buf_cb != NULL);
    1188          42 :                 bdev_io->internal.get_buf_cb(ch, bdev_io, status);
    1189          42 :                 bdev_io->internal.get_buf_cb = NULL;
    1190             :         }
    1191          42 : }
    1192             : 
    1193             : static void
    1194           4 : _bdev_io_pull_buffer_cpl(void *ctx, int rc)
    1195             : {
    1196           4 :         struct spdk_bdev_io *bdev_io = ctx;
    1197             : 
    1198           4 :         if (rc) {
    1199           0 :                 SPDK_ERRLOG("Set bounce buffer failed with rc %d\n", rc);
    1200           0 :                 bdev_io->internal.status = SPDK_BDEV_IO_STATUS_FAILED;
    1201             :         }
    1202           4 :         bdev_io_get_buf_complete(bdev_io, !rc);
    1203           4 : }
    1204             : 
    1205             : static void
    1206           2 : bdev_io_pull_md_buf_done(void *ctx, int status)
    1207             : {
    1208           2 :         struct spdk_bdev_io *bdev_io = ctx;
    1209           2 :         struct spdk_bdev_channel *ch = bdev_io->internal.ch;
    1210             : 
    1211           2 :         TAILQ_REMOVE(&ch->io_memory_domain, bdev_io, internal.link);
    1212           2 :         bdev_io_decrement_outstanding(ch, ch->shared_resource);
    1213             : 
    1214           2 :         if (spdk_unlikely(!TAILQ_EMPTY(&ch->shared_resource->nomem_io))) {
    1215           0 :                 bdev_ch_retry_io(ch);
    1216             :         }
    1217             : 
    1218           2 :         assert(bdev_io->internal.data_transfer_cpl);
    1219           2 :         bdev_io->internal.data_transfer_cpl(bdev_io, status);
    1220           2 : }
    1221             : 
    1222             : static void
    1223           4 : bdev_io_pull_md_buf(struct spdk_bdev_io *bdev_io)
    1224             : {
    1225           4 :         struct spdk_bdev_channel *ch = bdev_io->internal.ch;
    1226           4 :         int rc = 0;
    1227             : 
    1228           4 :         if (bdev_io->type == SPDK_BDEV_IO_TYPE_WRITE) {
    1229           2 :                 assert(bdev_io->internal.f.has_bounce_buf);
    1230           2 :                 if (bdev_io_use_memory_domain(bdev_io)) {
    1231           2 :                         TAILQ_INSERT_TAIL(&ch->io_memory_domain, bdev_io, internal.link);
    1232           2 :                         bdev_io_increment_outstanding(ch, ch->shared_resource);
    1233           2 :                         rc = spdk_memory_domain_pull_data(bdev_io->internal.memory_domain,
    1234             :                                                           bdev_io->internal.memory_domain_ctx,
    1235             :                                                           &bdev_io->internal.bounce_buf.orig_md_iov, 1,
    1236             :                                                           &bdev_io->internal.bounce_buf.md_iov, 1,
    1237             :                                                           bdev_io_pull_md_buf_done, bdev_io);
    1238           2 :                         if (rc == 0) {
    1239             :                                 /* Continue to submit IO in completion callback */
    1240           2 :                                 return;
    1241             :                         }
    1242           0 :                         bdev_io_decrement_outstanding(ch, ch->shared_resource);
    1243           0 :                         TAILQ_REMOVE(&ch->io_memory_domain, bdev_io, internal.link);
    1244           0 :                         if (rc != -ENOMEM) {
    1245           0 :                                 SPDK_ERRLOG("Failed to pull data from memory domain %s, rc %d\n",
    1246             :                                             spdk_memory_domain_get_dma_device_id(
    1247             :                                                     bdev_io->internal.memory_domain), rc);
    1248             :                         }
    1249             :                 } else {
    1250           0 :                         memcpy(bdev_io->internal.bounce_buf.md_iov.iov_base,
    1251           0 :                                bdev_io->internal.bounce_buf.orig_md_iov.iov_base,
    1252             :                                bdev_io->internal.bounce_buf.orig_md_iov.iov_len);
    1253             :                 }
    1254             :         }
    1255             : 
    1256           2 :         if (spdk_unlikely(rc == -ENOMEM)) {
    1257           0 :                 bdev_queue_nomem_io_head(ch->shared_resource, bdev_io, BDEV_IO_RETRY_STATE_PULL_MD);
    1258             :         } else {
    1259           2 :                 assert(bdev_io->internal.data_transfer_cpl);
    1260           2 :                 bdev_io->internal.data_transfer_cpl(bdev_io, rc);
    1261             :         }
    1262             : }
    1263             : 
    1264             : static void
    1265           4 : _bdev_io_pull_bounce_md_buf(struct spdk_bdev_io *bdev_io, void *md_buf, size_t len)
    1266             : {
    1267           4 :         assert(bdev_io->internal.f.has_bounce_buf);
    1268             : 
    1269             :         /* save original md_buf */
    1270           4 :         bdev_io->internal.bounce_buf.orig_md_iov.iov_base = bdev_io->u.bdev.md_buf;
    1271           4 :         bdev_io->internal.bounce_buf.orig_md_iov.iov_len = len;
    1272           4 :         bdev_io->internal.bounce_buf.md_iov.iov_base = md_buf;
    1273           4 :         bdev_io->internal.bounce_buf.md_iov.iov_len = len;
    1274             :         /* set bounce md_buf */
    1275           4 :         bdev_io->u.bdev.md_buf = md_buf;
    1276             : 
    1277           4 :         bdev_io_pull_md_buf(bdev_io);
    1278           4 : }
    1279             : 
    1280             : static void
    1281          42 : _bdev_io_set_md_buf(struct spdk_bdev_io *bdev_io)
    1282             : {
    1283          42 :         struct spdk_bdev *bdev = bdev_io->bdev;
    1284             :         uint64_t md_len;
    1285             :         void *buf;
    1286             : 
    1287          42 :         if (spdk_bdev_is_md_separate(bdev)) {
    1288           7 :                 assert(!bdev_io_use_accel_sequence(bdev_io));
    1289             : 
    1290           7 :                 buf = (char *)bdev_io->u.bdev.iovs[0].iov_base + bdev_io->u.bdev.iovs[0].iov_len;
    1291           7 :                 md_len = bdev_io->u.bdev.num_blocks * bdev->md_len;
    1292             : 
    1293           7 :                 assert(((uintptr_t)buf & (spdk_bdev_get_buf_align(bdev) - 1)) == 0);
    1294             : 
    1295           7 :                 if (bdev_io->u.bdev.md_buf != NULL) {
    1296           4 :                         _bdev_io_pull_bounce_md_buf(bdev_io, buf, md_len);
    1297           4 :                         return;
    1298             :                 } else {
    1299           3 :                         spdk_bdev_io_set_md_buf(bdev_io, buf, md_len);
    1300             :                 }
    1301             :         }
    1302             : 
    1303          38 :         bdev_io_get_buf_complete(bdev_io, true);
    1304             : }
    1305             : 
    1306             : static inline void
    1307          26 : bdev_io_pull_data_done(struct spdk_bdev_io *bdev_io, int rc)
    1308             : {
    1309          26 :         if (rc) {
    1310           0 :                 SPDK_ERRLOG("Failed to get data buffer\n");
    1311           0 :                 assert(bdev_io->internal.data_transfer_cpl);
    1312           0 :                 bdev_io->internal.data_transfer_cpl(bdev_io, rc);
    1313           0 :                 return;
    1314             :         }
    1315             : 
    1316          26 :         _bdev_io_set_md_buf(bdev_io);
    1317             : }
    1318             : 
    1319             : static void
    1320           2 : bdev_io_pull_data_done_and_track(void *ctx, int status)
    1321             : {
    1322           2 :         struct spdk_bdev_io *bdev_io = ctx;
    1323           2 :         struct spdk_bdev_channel *ch = bdev_io->internal.ch;
    1324             : 
    1325           2 :         TAILQ_REMOVE(&ch->io_memory_domain, bdev_io, internal.link);
    1326           2 :         bdev_io_decrement_outstanding(ch, ch->shared_resource);
    1327             : 
    1328           2 :         if (spdk_unlikely(!TAILQ_EMPTY(&ch->shared_resource->nomem_io))) {
    1329           0 :                 bdev_ch_retry_io(ch);
    1330             :         }
    1331             : 
    1332           2 :         bdev_io_pull_data_done(bdev_io, status);
    1333           2 : }
    1334             : 
    1335             : static void
    1336          27 : bdev_io_pull_data(struct spdk_bdev_io *bdev_io)
    1337             : {
    1338          27 :         struct spdk_bdev_channel *ch = bdev_io->internal.ch;
    1339          27 :         struct spdk_bdev_desc *desc = bdev_io->internal.desc;
    1340          27 :         int rc = 0;
    1341             : 
    1342          27 :         assert(bdev_io->internal.f.has_bounce_buf);
    1343             : 
    1344          27 :         if (bdev_io_needs_metadata(desc, bdev_io)) {
    1345           0 :                 assert(bdev_io->bdev->md_interleave);
    1346             : 
    1347           0 :                 bdev_io->u.bdev.dif_check_flags &= ~SPDK_DIF_FLAGS_NVME_PRACT;
    1348             : 
    1349           0 :                 if (!bdev_io_use_accel_sequence(bdev_io)) {
    1350           0 :                         bdev_io->internal.accel_sequence = NULL;
    1351             :                 }
    1352             : 
    1353           0 :                 if (bdev_io->type == SPDK_BDEV_IO_TYPE_WRITE) {
    1354           0 :                         rc = spdk_accel_append_dif_generate_copy(&bdev_io->internal.accel_sequence, ch->accel_channel,
    1355           0 :                                         bdev_io->u.bdev.iovs, bdev_io->u.bdev.iovcnt,
    1356             :                                         bdev_io->u.bdev.memory_domain,
    1357             :                                         bdev_io->u.bdev.memory_domain_ctx,
    1358             :                                         bdev_io->internal.bounce_buf.orig_iovs,
    1359           0 :                                         bdev_io->internal.bounce_buf.orig_iovcnt,
    1360           0 :                                         bdev_io_use_memory_domain(bdev_io) ? bdev_io->internal.memory_domain : NULL,
    1361           0 :                                         bdev_io_use_memory_domain(bdev_io) ? bdev_io->internal.memory_domain_ctx : NULL,
    1362           0 :                                         bdev_io->u.bdev.num_blocks,
    1363           0 :                                         &bdev_io->u.bdev.dif_ctx,
    1364             :                                         NULL, NULL);
    1365             :                 } else {
    1366           0 :                         assert(bdev_io->type == SPDK_BDEV_IO_TYPE_READ);
    1367           0 :                         rc = spdk_accel_append_dif_verify_copy(&bdev_io->internal.accel_sequence, ch->accel_channel,
    1368             :                                                                bdev_io->internal.bounce_buf.orig_iovs,
    1369           0 :                                                                bdev_io->internal.bounce_buf.orig_iovcnt,
    1370           0 :                                                                bdev_io_use_memory_domain(bdev_io) ? bdev_io->internal.memory_domain : NULL,
    1371           0 :                                                                bdev_io_use_memory_domain(bdev_io) ? bdev_io->internal.memory_domain_ctx : NULL,
    1372           0 :                                                                bdev_io->u.bdev.iovs, bdev_io->u.bdev.iovcnt,
    1373             :                                                                bdev_io->u.bdev.memory_domain,
    1374             :                                                                bdev_io->u.bdev.memory_domain_ctx,
    1375           0 :                                                                bdev_io->u.bdev.num_blocks,
    1376           0 :                                                                &bdev_io->u.bdev.dif_ctx,
    1377             :                                                                &bdev_io->u.bdev.dif_err,
    1378             :                                                                NULL, NULL);
    1379             :                 }
    1380             : 
    1381           0 :                 if (spdk_likely(rc == 0)) {
    1382           0 :                         bdev_io->internal.f.has_accel_sequence = true;
    1383           0 :                         bdev_io->u.bdev.accel_sequence = bdev_io->internal.accel_sequence;
    1384           0 :                 } else if (rc != -ENOMEM) {
    1385           0 :                         SPDK_ERRLOG("Failed to append generate/verify_copy to accel sequence: %p\n",
    1386             :                                     bdev_io->internal.accel_sequence);
    1387             :                 }
    1388          54 :         } else if (bdev_io_needs_sequence_exec(desc, bdev_io) ||
    1389          27 :                    (bdev_io_use_accel_sequence(bdev_io) && bdev_io_use_memory_domain(bdev_io))) {
    1390             :                 /* If we need to exec an accel sequence or the IO uses a memory domain buffer and has a
    1391             :                  * sequence, append a copy operation making accel change the src/dst buffers of the previous
    1392             :                  * operation */
    1393           0 :                 assert(bdev_io_use_accel_sequence(bdev_io));
    1394           0 :                 if (bdev_io->type == SPDK_BDEV_IO_TYPE_WRITE) {
    1395           0 :                         rc = spdk_accel_append_copy(&bdev_io->internal.accel_sequence, ch->accel_channel,
    1396           0 :                                                     bdev_io->u.bdev.iovs, bdev_io->u.bdev.iovcnt,
    1397             :                                                     NULL, NULL,
    1398             :                                                     bdev_io->internal.bounce_buf.orig_iovs,
    1399           0 :                                                     bdev_io->internal.bounce_buf.orig_iovcnt,
    1400           0 :                                                     bdev_io_use_memory_domain(bdev_io) ? bdev_io->internal.memory_domain : NULL,
    1401           0 :                                                     bdev_io_use_memory_domain(bdev_io) ? bdev_io->internal.memory_domain_ctx : NULL,
    1402             :                                                     NULL, NULL);
    1403             :                 } else {
    1404             :                         /* We need to reverse the src/dst for reads */
    1405           0 :                         assert(bdev_io->type == SPDK_BDEV_IO_TYPE_READ);
    1406           0 :                         rc = spdk_accel_append_copy(&bdev_io->internal.accel_sequence, ch->accel_channel,
    1407             :                                                     bdev_io->internal.bounce_buf.orig_iovs,
    1408           0 :                                                     bdev_io->internal.bounce_buf.orig_iovcnt,
    1409           0 :                                                     bdev_io_use_memory_domain(bdev_io) ? bdev_io->internal.memory_domain : NULL,
    1410           0 :                                                     bdev_io_use_memory_domain(bdev_io) ? bdev_io->internal.memory_domain_ctx : NULL,
    1411           0 :                                                     bdev_io->u.bdev.iovs, bdev_io->u.bdev.iovcnt,
    1412             :                                                     NULL, NULL, NULL, NULL);
    1413             :                 }
    1414             : 
    1415           0 :                 if (spdk_unlikely(rc != 0 && rc != -ENOMEM)) {
    1416           0 :                         SPDK_ERRLOG("Failed to append copy to accel sequence: %p\n",
    1417             :                                     bdev_io->internal.accel_sequence);
    1418             :                 }
    1419          27 :         } else if (bdev_io->type == SPDK_BDEV_IO_TYPE_WRITE) {
    1420             :                 /* if this is write path, copy data from original buffer to bounce buffer */
    1421          17 :                 if (bdev_io_use_memory_domain(bdev_io)) {
    1422           3 :                         TAILQ_INSERT_TAIL(&ch->io_memory_domain, bdev_io, internal.link);
    1423           3 :                         bdev_io_increment_outstanding(ch, ch->shared_resource);
    1424           6 :                         rc = spdk_memory_domain_pull_data(bdev_io->internal.memory_domain,
    1425             :                                                           bdev_io->internal.memory_domain_ctx,
    1426             :                                                           bdev_io->internal.bounce_buf.orig_iovs,
    1427           3 :                                                           (uint32_t)bdev_io->internal.bounce_buf.orig_iovcnt,
    1428             :                                                           bdev_io->u.bdev.iovs, 1,
    1429             :                                                           bdev_io_pull_data_done_and_track,
    1430             :                                                           bdev_io);
    1431           3 :                         if (rc == 0) {
    1432             :                                 /* Continue to submit IO in completion callback */
    1433           2 :                                 return;
    1434             :                         }
    1435           1 :                         TAILQ_REMOVE(&ch->io_memory_domain, bdev_io, internal.link);
    1436           1 :                         bdev_io_decrement_outstanding(ch, ch->shared_resource);
    1437           1 :                         if (rc != -ENOMEM) {
    1438           0 :                                 SPDK_ERRLOG("Failed to pull data from memory domain %s\n",
    1439             :                                             spdk_memory_domain_get_dma_device_id(
    1440             :                                                     bdev_io->internal.memory_domain));
    1441             :                         }
    1442             :                 } else {
    1443          14 :                         assert(bdev_io->u.bdev.iovcnt == 1);
    1444          28 :                         spdk_copy_iovs_to_buf(bdev_io->u.bdev.iovs[0].iov_base,
    1445          14 :                                               bdev_io->u.bdev.iovs[0].iov_len,
    1446             :                                               bdev_io->internal.bounce_buf.orig_iovs,
    1447             :                                               bdev_io->internal.bounce_buf.orig_iovcnt);
    1448             :                 }
    1449             :         }
    1450             : 
    1451          25 :         if (spdk_unlikely(rc == -ENOMEM)) {
    1452           1 :                 bdev_queue_nomem_io_head(ch->shared_resource, bdev_io, BDEV_IO_RETRY_STATE_PULL);
    1453             :         } else {
    1454          24 :                 bdev_io_pull_data_done(bdev_io, rc);
    1455             :         }
    1456             : }
    1457             : 
    1458             : static void
    1459          26 : _bdev_io_pull_bounce_data_buf(struct spdk_bdev_io *bdev_io, void *buf, size_t len,
    1460             :                               bdev_copy_bounce_buffer_cpl cpl_cb)
    1461             : {
    1462          26 :         struct spdk_bdev_shared_resource *shared_resource = bdev_io->internal.ch->shared_resource;
    1463             : 
    1464          26 :         assert(bdev_io->internal.f.has_bounce_buf == false);
    1465             : 
    1466          26 :         bdev_io->internal.data_transfer_cpl = cpl_cb;
    1467          26 :         bdev_io->internal.f.has_bounce_buf = true;
    1468             :         /* save original iovec */
    1469          26 :         bdev_io->internal.bounce_buf.orig_iovs = bdev_io->u.bdev.iovs;
    1470          26 :         bdev_io->internal.bounce_buf.orig_iovcnt = bdev_io->u.bdev.iovcnt;
    1471             :         /* zero the other data members */
    1472          26 :         bdev_io->internal.bounce_buf.iov.iov_base = NULL;
    1473          26 :         bdev_io->internal.bounce_buf.md_iov.iov_base = NULL;
    1474          26 :         bdev_io->internal.bounce_buf.orig_md_iov.iov_base = NULL;
    1475             :         /* set bounce iov */
    1476          26 :         bdev_io->u.bdev.iovs = &bdev_io->internal.bounce_buf.iov;
    1477          26 :         bdev_io->u.bdev.iovcnt = 1;
    1478             :         /* set bounce buffer for this operation */
    1479          26 :         bdev_io->u.bdev.iovs[0].iov_base = buf;
    1480          26 :         bdev_io->u.bdev.iovs[0].iov_len = len;
    1481             :         /* Now we use 1 iov, the split condition could have been changed */
    1482          26 :         bdev_io->internal.f.split = bdev_io_should_split(bdev_io);
    1483             : 
    1484          26 :         if (spdk_unlikely(!TAILQ_EMPTY(&shared_resource->nomem_io))) {
    1485           0 :                 bdev_queue_nomem_io_tail(shared_resource, bdev_io, BDEV_IO_RETRY_STATE_PULL);
    1486             :         } else {
    1487          26 :                 bdev_io_pull_data(bdev_io);
    1488             :         }
    1489          26 : }
    1490             : 
    1491             : static void
    1492          42 : _bdev_io_set_buf(struct spdk_bdev_io *bdev_io, void *buf, uint64_t len)
    1493             : {
    1494          42 :         struct spdk_bdev *bdev = bdev_io->bdev;
    1495             :         bool buf_allocated;
    1496             :         uint64_t alignment;
    1497             :         void *aligned_buf;
    1498             : 
    1499          42 :         bdev_io->internal.buf.ptr = buf;
    1500          42 :         bdev_io->internal.f.has_buf = true;
    1501             : 
    1502          42 :         if (spdk_unlikely(bdev_io->internal.get_aux_buf_cb != NULL)) {
    1503           0 :                 bdev_io_get_buf_complete(bdev_io, true);
    1504           0 :                 return;
    1505             :         }
    1506             : 
    1507          42 :         alignment = spdk_bdev_get_buf_align(bdev);
    1508          42 :         buf_allocated = _is_buf_allocated(bdev_io->u.bdev.iovs);
    1509          42 :         aligned_buf = (void *)(((uintptr_t)buf + (alignment - 1)) & ~(alignment - 1));
    1510             : 
    1511          42 :         if (buf_allocated) {
    1512          26 :                 _bdev_io_pull_bounce_data_buf(bdev_io, aligned_buf, len, _bdev_io_pull_buffer_cpl);
    1513             :                 /* Continue in completion callback */
    1514          26 :                 return;
    1515             :         } else {
    1516          16 :                 spdk_bdev_io_set_buf(bdev_io, aligned_buf, len);
    1517             :         }
    1518             : 
    1519          16 :         _bdev_io_set_md_buf(bdev_io);
    1520             : }
    1521             : 
    1522             : static inline uint64_t
    1523          42 : bdev_io_get_max_buf_len(struct spdk_bdev_io *bdev_io, uint64_t len)
    1524             : {
    1525          42 :         struct spdk_bdev *bdev = bdev_io->bdev;
    1526             :         uint64_t md_len, alignment;
    1527             : 
    1528          42 :         md_len = spdk_bdev_is_md_separate(bdev) ? bdev_io->u.bdev.num_blocks * bdev->md_len : 0;
    1529             : 
    1530             :         /* 1 byte alignment needs 0 byte of extra space, 64 bytes alignment needs 63 bytes of extra space, etc. */
    1531          42 :         alignment = spdk_bdev_get_buf_align(bdev) - 1;
    1532             : 
    1533          42 :         return len + alignment + md_len;
    1534             : }
    1535             : 
    1536             : static void
    1537          42 : bdev_io_put_accel_buf(struct spdk_bdev_io *bdev_io)
    1538             : {
    1539          42 :         struct spdk_bdev_channel *ch = bdev_io->internal.ch;
    1540             : 
    1541          42 :         spdk_accel_put_buf(ch->accel_channel,
    1542             :                            bdev_io->internal.buf.ptr,
    1543             :                            bdev_io->u.bdev.memory_domain,
    1544             :                            bdev_io->u.bdev.memory_domain_ctx);
    1545          42 : }
    1546             : 
    1547             : static void
    1548           0 : _bdev_io_put_buf(struct spdk_bdev_io *bdev_io, void *buf, uint64_t buf_len)
    1549             : {
    1550             :         struct spdk_bdev_mgmt_channel *ch;
    1551             : 
    1552           0 :         ch = bdev_io->internal.ch->shared_resource->mgmt_ch;
    1553           0 :         spdk_iobuf_put(&ch->iobuf, buf, bdev_io_get_max_buf_len(bdev_io, buf_len));
    1554           0 : }
    1555             : 
    1556             : static void
    1557          42 : bdev_io_put_buf(struct spdk_bdev_io *bdev_io)
    1558             : {
    1559          42 :         assert(bdev_io->internal.f.has_buf);
    1560             : 
    1561          42 :         if (bdev_io->u.bdev.memory_domain == spdk_accel_get_memory_domain()) {
    1562          42 :                 bdev_io_put_accel_buf(bdev_io);
    1563             :         } else {
    1564           0 :                 assert(bdev_io->u.bdev.memory_domain == NULL);
    1565           0 :                 _bdev_io_put_buf(bdev_io, bdev_io->internal.buf.ptr,
    1566             :                                  bdev_io->internal.buf.len);
    1567             :         }
    1568          42 :         bdev_io->internal.buf.ptr = NULL;
    1569          42 :         bdev_io->internal.f.has_buf = false;
    1570          42 : }
    1571             : 
    1572           3 : SPDK_LOG_DEPRECATION_REGISTER(spdk_bdev_io_put_aux_buf,
    1573             :                               "spdk_bdev_io_put_aux_buf is deprecated", "v25.01", 0);
    1574             : 
    1575             : void
    1576           0 : spdk_bdev_io_put_aux_buf(struct spdk_bdev_io *bdev_io, void *buf)
    1577             : {
    1578           0 :         uint64_t len = bdev_io->u.bdev.num_blocks * bdev_io->bdev->blocklen;
    1579             : 
    1580           0 :         SPDK_LOG_DEPRECATED(spdk_bdev_io_put_aux_buf);
    1581             : 
    1582           0 :         assert(buf != NULL);
    1583           0 :         _bdev_io_put_buf(bdev_io, buf, len);
    1584           0 : }
    1585             : 
    1586             : static inline void
    1587         549 : bdev_submit_request(struct spdk_bdev *bdev, struct spdk_io_channel *ioch,
    1588             :                     struct spdk_bdev_io *bdev_io)
    1589             : {
    1590             :         /* After a request is submitted to a bdev module, the ownership of an accel sequence
    1591             :          * associated with that bdev_io is transferred to the bdev module. So, clear the internal
    1592             :          * sequence pointer to make sure we won't touch it anymore. */
    1593         549 :         if ((bdev_io->type == SPDK_BDEV_IO_TYPE_WRITE ||
    1594         549 :              bdev_io->type == SPDK_BDEV_IO_TYPE_READ) && bdev_io->u.bdev.accel_sequence != NULL) {
    1595           0 :                 assert(!bdev_io_needs_sequence_exec(bdev_io->internal.desc, bdev_io));
    1596           0 :                 bdev_io->internal.f.has_accel_sequence = false;
    1597             :         }
    1598             : 
    1599             :         /* The generic bdev layer should not pass an I/O with a dif_check_flags set that
    1600             :          * the underlying bdev does not support. Add an assert to check this.
    1601             :          */
    1602         549 :         assert((bdev_io->type != SPDK_BDEV_IO_TYPE_WRITE &&
    1603             :                 bdev_io->type != SPDK_BDEV_IO_TYPE_READ) ||
    1604             :                ((bdev_io->u.bdev.dif_check_flags & bdev->dif_check_flags) ==
    1605             :                 bdev_io->u.bdev.dif_check_flags));
    1606             : 
    1607         549 :         bdev->fn_table->submit_request(ioch, bdev_io);
    1608         549 : }
    1609             : 
    1610             : static inline void
    1611          10 : bdev_ch_resubmit_io(struct spdk_bdev_shared_resource *shared_resource, struct spdk_bdev_io *bdev_io)
    1612             : {
    1613          10 :         struct spdk_bdev *bdev = bdev_io->bdev;
    1614             : 
    1615          10 :         bdev_io_increment_outstanding(bdev_io->internal.ch, shared_resource);
    1616          10 :         bdev_io->internal.error.nvme.cdw0 = 0;
    1617          10 :         bdev_io->num_retries++;
    1618          10 :         bdev_submit_request(bdev, spdk_bdev_io_get_io_channel(bdev_io), bdev_io);
    1619          10 : }
    1620             : 
    1621             : static void
    1622          63 : bdev_shared_ch_retry_io(struct spdk_bdev_shared_resource *shared_resource)
    1623             : {
    1624             :         struct spdk_bdev_io *bdev_io;
    1625             : 
    1626          63 :         if (shared_resource->io_outstanding > shared_resource->nomem_threshold) {
    1627             :                 /*
    1628             :                  * Allow some more I/O to complete before retrying the nomem_io queue.
    1629             :                  *  Some drivers (such as nvme) cannot immediately take a new I/O in
    1630             :                  *  the context of a completion, because the resources for the I/O are
    1631             :                  *  not released until control returns to the bdev poller.  Also, we
    1632             :                  *  may require several small I/O to complete before a larger I/O
    1633             :                  *  (that requires splitting) can be submitted.
    1634             :                  */
    1635          58 :                 return;
    1636             :         }
    1637             : 
    1638          16 :         while (!TAILQ_EMPTY(&shared_resource->nomem_io)) {
    1639          12 :                 bdev_io = TAILQ_FIRST(&shared_resource->nomem_io);
    1640          12 :                 TAILQ_REMOVE(&shared_resource->nomem_io, bdev_io, internal.link);
    1641             : 
    1642          12 :                 switch (bdev_io->internal.retry_state) {
    1643          10 :                 case BDEV_IO_RETRY_STATE_SUBMIT:
    1644          10 :                         bdev_ch_resubmit_io(shared_resource, bdev_io);
    1645          10 :                         break;
    1646           1 :                 case BDEV_IO_RETRY_STATE_PULL:
    1647           1 :                         bdev_io_pull_data(bdev_io);
    1648           1 :                         break;
    1649           0 :                 case BDEV_IO_RETRY_STATE_PULL_MD:
    1650           0 :                         bdev_io_pull_md_buf(bdev_io);
    1651           0 :                         break;
    1652           1 :                 case BDEV_IO_RETRY_STATE_PUSH:
    1653           1 :                         bdev_io_push_bounce_data(bdev_io);
    1654           1 :                         break;
    1655           0 :                 case BDEV_IO_RETRY_STATE_PUSH_MD:
    1656           0 :                         bdev_io_push_bounce_md_buf(bdev_io);
    1657           0 :                         break;
    1658           0 :                 case BDEV_IO_RETRY_STATE_GET_ACCEL_BUF:
    1659           0 :                         _bdev_io_get_accel_buf(bdev_io);
    1660           0 :                         break;
    1661           0 :                 default:
    1662           0 :                         assert(0 && "invalid retry state");
    1663             :                         break;
    1664             :                 }
    1665             : 
    1666          12 :                 if (bdev_io == TAILQ_FIRST(&shared_resource->nomem_io)) {
    1667             :                         /* This IO completed again with NOMEM status, so break the loop and
    1668             :                          * don't try anymore.  Note that a bdev_io that fails with NOMEM
    1669             :                          * always gets requeued at the front of the list, to maintain
    1670             :                          * ordering.
    1671             :                          */
    1672           1 :                         break;
    1673             :                 }
    1674             :         }
    1675             : }
    1676             : 
    1677             : static void
    1678          63 : bdev_ch_retry_io(struct spdk_bdev_channel *bdev_ch)
    1679             : {
    1680          63 :         bdev_shared_ch_retry_io(bdev_ch->shared_resource);
    1681          63 : }
    1682             : 
    1683             : static int
    1684           0 : bdev_no_mem_poller(void *ctx)
    1685             : {
    1686           0 :         struct spdk_bdev_shared_resource *shared_resource = ctx;
    1687             : 
    1688           0 :         spdk_poller_unregister(&shared_resource->nomem_poller);
    1689             : 
    1690           0 :         if (!TAILQ_EMPTY(&shared_resource->nomem_io)) {
    1691           0 :                 bdev_shared_ch_retry_io(shared_resource);
    1692             :         }
    1693             :         /* the retry cb may re-register the poller so double check */
    1694           0 :         if (!TAILQ_EMPTY(&shared_resource->nomem_io) &&
    1695           0 :             shared_resource->io_outstanding == 0 && shared_resource->nomem_poller == NULL) {
    1696             :                 /* No IOs were submitted, try again */
    1697           0 :                 shared_resource->nomem_poller = SPDK_POLLER_REGISTER(bdev_no_mem_poller, shared_resource,
    1698             :                                                 SPDK_BDEV_IO_POLL_INTERVAL_IN_MSEC * 10);
    1699             :         }
    1700             : 
    1701           0 :         return SPDK_POLLER_BUSY;
    1702             : }
    1703             : 
    1704             : static inline bool
    1705         556 : _bdev_io_handle_no_mem(struct spdk_bdev_io *bdev_io, enum bdev_io_retry_state state)
    1706             : {
    1707         556 :         struct spdk_bdev_channel *bdev_ch = bdev_io->internal.ch;
    1708         556 :         struct spdk_bdev_shared_resource *shared_resource = bdev_ch->shared_resource;
    1709             : 
    1710         556 :         if (spdk_unlikely(bdev_io->internal.status == SPDK_BDEV_IO_STATUS_NOMEM)) {
    1711           5 :                 bdev_io->internal.status = SPDK_BDEV_IO_STATUS_PENDING;
    1712           5 :                 bdev_queue_nomem_io_head(shared_resource, bdev_io, state);
    1713             : 
    1714           5 :                 if (shared_resource->io_outstanding == 0 && !shared_resource->nomem_poller) {
    1715             :                         /* Special case when we have nomem IOs and no outstanding IOs which completions
    1716             :                          * could trigger retry of queued IOs
    1717             :                          * Any IOs submitted may trigger retry of queued IOs. This poller handles a case when no
    1718             :                          * new IOs submitted, e.g. qd==1 */
    1719           0 :                         shared_resource->nomem_poller = SPDK_POLLER_REGISTER(bdev_no_mem_poller, shared_resource,
    1720             :                                                         SPDK_BDEV_IO_POLL_INTERVAL_IN_MSEC * 10);
    1721             :                 }
    1722             :                 /* If bdev module completed an I/O that has an accel sequence with NOMEM status, the
    1723             :                  * ownership of that sequence is transferred back to the bdev layer, so we need to
    1724             :                  * restore internal.accel_sequence to make sure that the sequence is handled
    1725             :                  * correctly in case the I/O is later aborted. */
    1726           5 :                 if ((bdev_io->type == SPDK_BDEV_IO_TYPE_READ ||
    1727           5 :                      bdev_io->type == SPDK_BDEV_IO_TYPE_WRITE) && bdev_io->u.bdev.accel_sequence) {
    1728           0 :                         assert(!bdev_io_use_accel_sequence(bdev_io));
    1729           0 :                         bdev_io->internal.f.has_accel_sequence = true;
    1730           0 :                         bdev_io->internal.accel_sequence = bdev_io->u.bdev.accel_sequence;
    1731             :                 }
    1732             : 
    1733           5 :                 return true;
    1734             :         }
    1735             : 
    1736         551 :         if (spdk_unlikely(!TAILQ_EMPTY(&shared_resource->nomem_io))) {
    1737          63 :                 bdev_ch_retry_io(bdev_ch);
    1738             :         }
    1739             : 
    1740         551 :         return false;
    1741             : }
    1742             : 
    1743             : static void
    1744          26 : _bdev_io_complete_push_bounce_done(void *ctx, int rc)
    1745             : {
    1746          26 :         struct spdk_bdev_io *bdev_io = ctx;
    1747          26 :         struct spdk_bdev_channel *ch = bdev_io->internal.ch;
    1748             : 
    1749          26 :         if (rc) {
    1750           0 :                 bdev_io->internal.status = SPDK_BDEV_IO_STATUS_FAILED;
    1751             :         }
    1752             :         /* We want to free the bounce buffer here since we know we're done with it (as opposed
    1753             :          * to waiting for the conditional free of internal.buf.ptr in spdk_bdev_free_io()).
    1754             :          */
    1755          26 :         bdev_io_put_buf(bdev_io);
    1756             : 
    1757          26 :         if (spdk_unlikely(!TAILQ_EMPTY(&ch->shared_resource->nomem_io))) {
    1758           0 :                 bdev_ch_retry_io(ch);
    1759             :         }
    1760             : 
    1761             :         /* Continue with IO completion flow */
    1762          26 :         bdev_io_complete(bdev_io);
    1763          26 : }
    1764             : 
    1765             : static void
    1766           2 : bdev_io_push_bounce_md_buf_done(void *ctx, int rc)
    1767             : {
    1768           2 :         struct spdk_bdev_io *bdev_io = ctx;
    1769           2 :         struct spdk_bdev_channel *ch = bdev_io->internal.ch;
    1770             : 
    1771           2 :         TAILQ_REMOVE(&ch->io_memory_domain, bdev_io, internal.link);
    1772           2 :         bdev_io_decrement_outstanding(ch, ch->shared_resource);
    1773           2 :         bdev_io->internal.f.has_bounce_buf = false;
    1774             : 
    1775           2 :         if (spdk_unlikely(!TAILQ_EMPTY(&ch->shared_resource->nomem_io))) {
    1776           0 :                 bdev_ch_retry_io(ch);
    1777             :         }
    1778             : 
    1779           2 :         bdev_io->internal.data_transfer_cpl(bdev_io, rc);
    1780           2 : }
    1781             : 
    1782             : static inline void
    1783          26 : bdev_io_push_bounce_md_buf(struct spdk_bdev_io *bdev_io)
    1784             : {
    1785          26 :         struct spdk_bdev_channel *ch = bdev_io->internal.ch;
    1786          26 :         int rc = 0;
    1787             : 
    1788          26 :         assert(bdev_io->internal.status == SPDK_BDEV_IO_STATUS_SUCCESS);
    1789          26 :         assert(bdev_io->internal.f.has_bounce_buf);
    1790             : 
    1791             :         /* do the same for metadata buffer */
    1792          26 :         if (spdk_unlikely(bdev_io->internal.bounce_buf.orig_md_iov.iov_base != NULL)) {
    1793           4 :                 assert(spdk_bdev_is_md_separate(bdev_io->bdev));
    1794             : 
    1795           4 :                 if (bdev_io->type == SPDK_BDEV_IO_TYPE_READ) {
    1796           2 :                         if (bdev_io_use_memory_domain(bdev_io)) {
    1797           2 :                                 TAILQ_INSERT_TAIL(&ch->io_memory_domain, bdev_io, internal.link);
    1798           2 :                                 bdev_io_increment_outstanding(ch, ch->shared_resource);
    1799             :                                 /* If memory domain is used then we need to call async push function */
    1800           4 :                                 rc = spdk_memory_domain_push_data(bdev_io->internal.memory_domain,
    1801             :                                                                   bdev_io->internal.memory_domain_ctx,
    1802             :                                                                   &bdev_io->internal.bounce_buf.orig_md_iov,
    1803           2 :                                                                   (uint32_t)bdev_io->internal.bounce_buf.orig_iovcnt,
    1804             :                                                                   &bdev_io->internal.bounce_buf.md_iov, 1,
    1805             :                                                                   bdev_io_push_bounce_md_buf_done,
    1806             :                                                                   bdev_io);
    1807           2 :                                 if (rc == 0) {
    1808             :                                         /* Continue IO completion in async callback */
    1809           2 :                                         return;
    1810             :                                 }
    1811           0 :                                 TAILQ_REMOVE(&ch->io_memory_domain, bdev_io, internal.link);
    1812           0 :                                 bdev_io_decrement_outstanding(ch, ch->shared_resource);
    1813           0 :                                 if (rc != -ENOMEM) {
    1814           0 :                                         SPDK_ERRLOG("Failed to push md to memory domain %s\n",
    1815             :                                                     spdk_memory_domain_get_dma_device_id(
    1816             :                                                             bdev_io->internal.memory_domain));
    1817             :                                 }
    1818             :                         } else {
    1819           0 :                                 memcpy(bdev_io->internal.bounce_buf.orig_md_iov.iov_base, bdev_io->u.bdev.md_buf,
    1820             :                                        bdev_io->internal.bounce_buf.orig_md_iov.iov_len);
    1821             :                         }
    1822             :                 }
    1823             :         }
    1824             : 
    1825          24 :         if (spdk_unlikely(rc == -ENOMEM)) {
    1826           0 :                 bdev_queue_nomem_io_head(ch->shared_resource, bdev_io, BDEV_IO_RETRY_STATE_PUSH_MD);
    1827             :         } else {
    1828          24 :                 assert(bdev_io->internal.data_transfer_cpl);
    1829          24 :                 bdev_io->internal.f.has_bounce_buf = false;
    1830          24 :                 bdev_io->internal.data_transfer_cpl(bdev_io, rc);
    1831             :         }
    1832             : }
    1833             : 
    1834             : static inline void
    1835          26 : bdev_io_push_bounce_data_done(struct spdk_bdev_io *bdev_io, int rc)
    1836             : {
    1837          26 :         assert(bdev_io->internal.data_transfer_cpl);
    1838          26 :         if (rc) {
    1839           0 :                 bdev_io->internal.data_transfer_cpl(bdev_io, rc);
    1840           0 :                 return;
    1841             :         }
    1842             : 
    1843             :         /* set original buffer for this io */
    1844          26 :         bdev_io->u.bdev.iovcnt = bdev_io->internal.bounce_buf.orig_iovcnt;
    1845          26 :         bdev_io->u.bdev.iovs = bdev_io->internal.bounce_buf.orig_iovs;
    1846             : 
    1847             :         /* We don't set bdev_io->internal.f.has_bounce_buf to false here because
    1848             :          * we still need to clear the md buf */
    1849             : 
    1850          26 :         bdev_io_push_bounce_md_buf(bdev_io);
    1851             : }
    1852             : 
    1853             : static void
    1854           2 : bdev_io_push_bounce_data_done_and_track(void *ctx, int status)
    1855             : {
    1856           2 :         struct spdk_bdev_io *bdev_io = ctx;
    1857           2 :         struct spdk_bdev_channel *ch = bdev_io->internal.ch;
    1858             : 
    1859           2 :         TAILQ_REMOVE(&ch->io_memory_domain, bdev_io, internal.link);
    1860           2 :         bdev_io_decrement_outstanding(ch, ch->shared_resource);
    1861             : 
    1862           2 :         if (spdk_unlikely(!TAILQ_EMPTY(&ch->shared_resource->nomem_io))) {
    1863           0 :                 bdev_ch_retry_io(ch);
    1864             :         }
    1865             : 
    1866           2 :         bdev_io_push_bounce_data_done(bdev_io, status);
    1867           2 : }
    1868             : 
    1869             : static inline void
    1870          27 : bdev_io_push_bounce_data(struct spdk_bdev_io *bdev_io)
    1871             : {
    1872          27 :         struct spdk_bdev_channel *ch = bdev_io->internal.ch;
    1873          27 :         int rc = 0;
    1874             : 
    1875          27 :         assert(bdev_io->internal.status == SPDK_BDEV_IO_STATUS_SUCCESS);
    1876          27 :         assert(!bdev_io_use_accel_sequence(bdev_io));
    1877          27 :         assert(bdev_io->internal.f.has_bounce_buf);
    1878             : 
    1879             :         /* if this is read path, copy data from bounce buffer to original buffer */
    1880          27 :         if (bdev_io->type == SPDK_BDEV_IO_TYPE_READ) {
    1881          11 :                 if (bdev_io_use_memory_domain(bdev_io)) {
    1882           3 :                         TAILQ_INSERT_TAIL(&ch->io_memory_domain, bdev_io, internal.link);
    1883           3 :                         bdev_io_increment_outstanding(ch, ch->shared_resource);
    1884             :                         /* If memory domain is used then we need to call async push function */
    1885           6 :                         rc = spdk_memory_domain_push_data(bdev_io->internal.memory_domain,
    1886             :                                                           bdev_io->internal.memory_domain_ctx,
    1887             :                                                           bdev_io->internal.bounce_buf.orig_iovs,
    1888           3 :                                                           (uint32_t)bdev_io->internal.bounce_buf.orig_iovcnt,
    1889             :                                                           &bdev_io->internal.bounce_buf.iov, 1,
    1890             :                                                           bdev_io_push_bounce_data_done_and_track,
    1891             :                                                           bdev_io);
    1892           3 :                         if (rc == 0) {
    1893             :                                 /* Continue IO completion in async callback */
    1894           2 :                                 return;
    1895             :                         }
    1896             : 
    1897           1 :                         TAILQ_REMOVE(&ch->io_memory_domain, bdev_io, internal.link);
    1898           1 :                         bdev_io_decrement_outstanding(ch, ch->shared_resource);
    1899           1 :                         if (rc != -ENOMEM) {
    1900           0 :                                 SPDK_ERRLOG("Failed to push data to memory domain %s\n",
    1901             :                                             spdk_memory_domain_get_dma_device_id(
    1902             :                                                     bdev_io->internal.memory_domain));
    1903             :                         }
    1904             :                 } else {
    1905           8 :                         spdk_copy_buf_to_iovs(bdev_io->internal.bounce_buf.orig_iovs,
    1906             :                                               bdev_io->internal.bounce_buf.orig_iovcnt,
    1907             :                                               bdev_io->internal.bounce_buf.iov.iov_base,
    1908             :                                               bdev_io->internal.bounce_buf.iov.iov_len);
    1909             :                 }
    1910             :         }
    1911             : 
    1912          25 :         if (spdk_unlikely(rc == -ENOMEM)) {
    1913           1 :                 bdev_queue_nomem_io_head(ch->shared_resource, bdev_io, BDEV_IO_RETRY_STATE_PUSH);
    1914             :         } else {
    1915          24 :                 bdev_io_push_bounce_data_done(bdev_io, rc);
    1916             :         }
    1917             : }
    1918             : 
    1919             : static inline void
    1920          26 : _bdev_io_push_bounce_data_buffer(struct spdk_bdev_io *bdev_io, bdev_copy_bounce_buffer_cpl cpl_cb)
    1921             : {
    1922          26 :         bdev_io->internal.data_transfer_cpl = cpl_cb;
    1923          26 :         bdev_io_push_bounce_data(bdev_io);
    1924          26 : }
    1925             : 
    1926             : static void
    1927           0 : bdev_io_get_iobuf_cb(struct spdk_iobuf_entry *iobuf, void *buf)
    1928             : {
    1929             :         struct spdk_bdev_io *bdev_io;
    1930             : 
    1931           0 :         bdev_io = SPDK_CONTAINEROF(iobuf, struct spdk_bdev_io, internal.iobuf);
    1932           0 :         _bdev_io_set_buf(bdev_io, buf, bdev_io->internal.buf.len);
    1933           0 : }
    1934             : 
    1935             : static void
    1936          42 : bdev_io_get_buf(struct spdk_bdev_io *bdev_io, uint64_t len)
    1937             : {
    1938             :         struct spdk_bdev_mgmt_channel *mgmt_ch;
    1939             :         uint64_t max_len;
    1940             :         void *buf;
    1941             : 
    1942          42 :         assert(spdk_bdev_io_get_thread(bdev_io) == spdk_get_thread());
    1943          42 :         mgmt_ch = bdev_io->internal.ch->shared_resource->mgmt_ch;
    1944          42 :         max_len = bdev_io_get_max_buf_len(bdev_io, len);
    1945             : 
    1946          42 :         if (spdk_unlikely(max_len > mgmt_ch->iobuf.cache[0].large.bufsize)) {
    1947           0 :                 SPDK_ERRLOG("Length %" PRIu64 " is larger than allowed\n", max_len);
    1948           0 :                 bdev_io_get_buf_complete(bdev_io, false);
    1949           0 :                 return;
    1950             :         }
    1951             : 
    1952          42 :         bdev_io->internal.buf.len = len;
    1953          42 :         buf = spdk_iobuf_get(&mgmt_ch->iobuf, max_len, &bdev_io->internal.iobuf,
    1954             :                              bdev_io_get_iobuf_cb);
    1955          42 :         if (buf != NULL) {
    1956          42 :                 _bdev_io_set_buf(bdev_io, buf, len);
    1957             :         }
    1958             : }
    1959             : 
    1960             : void
    1961          56 : spdk_bdev_io_get_buf(struct spdk_bdev_io *bdev_io, spdk_bdev_io_get_buf_cb cb, uint64_t len)
    1962             : {
    1963          56 :         struct spdk_bdev *bdev = bdev_io->bdev;
    1964             :         uint64_t alignment;
    1965             : 
    1966          56 :         assert(cb != NULL);
    1967          56 :         bdev_io->internal.get_buf_cb = cb;
    1968             : 
    1969          56 :         alignment = spdk_bdev_get_buf_align(bdev);
    1970             : 
    1971          96 :         if (_is_buf_allocated(bdev_io->u.bdev.iovs) &&
    1972          40 :             _are_iovs_aligned(bdev_io->u.bdev.iovs, bdev_io->u.bdev.iovcnt, alignment)) {
    1973             :                 /* Buffer already present and aligned */
    1974          18 :                 cb(spdk_bdev_io_get_io_channel(bdev_io), bdev_io, true);
    1975          18 :                 return;
    1976             :         }
    1977             : 
    1978          38 :         bdev_io_get_buf(bdev_io, len);
    1979             : }
    1980             : 
    1981             : static void
    1982           4 : _bdev_io_get_bounce_buf(struct spdk_bdev_io *bdev_io, spdk_bdev_io_get_buf_cb cb,
    1983             :                         uint64_t len)
    1984             : {
    1985           4 :         assert(cb != NULL);
    1986           4 :         bdev_io->internal.get_buf_cb = cb;
    1987             : 
    1988           4 :         bdev_io_get_buf(bdev_io, len);
    1989           4 : }
    1990             : 
    1991             : static void
    1992           0 : _bdev_io_get_accel_buf(struct spdk_bdev_io *bdev_io)
    1993             : {
    1994           0 :         struct spdk_bdev_channel *ch = bdev_io->internal.ch;
    1995           0 :         void *buf;
    1996             :         int rc;
    1997             : 
    1998           0 :         rc = spdk_accel_get_buf(ch->accel_channel,
    1999             :                                 bdev_io->internal.buf.len,
    2000             :                                 &buf,
    2001             :                                 &bdev_io->u.bdev.memory_domain,
    2002             :                                 &bdev_io->u.bdev.memory_domain_ctx);
    2003           0 :         if (rc != 0) {
    2004           0 :                 bdev_queue_nomem_io_tail(ch->shared_resource, bdev_io,
    2005             :                                          BDEV_IO_RETRY_STATE_GET_ACCEL_BUF);
    2006           0 :                 return;
    2007             :         }
    2008             : 
    2009           0 :         _bdev_io_set_buf(bdev_io, buf, bdev_io->internal.buf.len);
    2010             : }
    2011             : 
    2012             : static inline void
    2013           0 : bdev_io_get_accel_buf(struct spdk_bdev_io *bdev_io, spdk_bdev_io_get_buf_cb cb,
    2014             :                       uint64_t len)
    2015             : {
    2016           0 :         bdev_io->internal.buf.len = len;
    2017           0 :         bdev_io->internal.get_buf_cb = cb;
    2018             : 
    2019           0 :         _bdev_io_get_accel_buf(bdev_io);
    2020           0 : }
    2021             : 
    2022           3 : SPDK_LOG_DEPRECATION_REGISTER(spdk_bdev_io_get_aux_buf,
    2023             :                               "spdk_bdev_io_get_aux_buf is deprecated", "v25.01", 0);
    2024             : 
    2025             : void
    2026           0 : spdk_bdev_io_get_aux_buf(struct spdk_bdev_io *bdev_io, spdk_bdev_io_get_aux_buf_cb cb)
    2027             : {
    2028           0 :         uint64_t len = bdev_io->u.bdev.num_blocks * bdev_io->bdev->blocklen;
    2029             : 
    2030           0 :         SPDK_LOG_DEPRECATED(spdk_bdev_io_get_aux_buf);
    2031             : 
    2032           0 :         assert(cb != NULL);
    2033           0 :         assert(bdev_io->internal.get_aux_buf_cb == NULL);
    2034           0 :         bdev_io->internal.get_aux_buf_cb = cb;
    2035           0 :         bdev_io_get_buf(bdev_io, len);
    2036           0 : }
    2037             : 
    2038             : static int
    2039          68 : bdev_module_get_max_ctx_size(void)
    2040             : {
    2041             :         struct spdk_bdev_module *bdev_module;
    2042          68 :         int max_bdev_module_size = 0;
    2043             : 
    2044         266 :         TAILQ_FOREACH(bdev_module, &g_bdev_mgr.bdev_modules, internal.tailq) {
    2045         198 :                 if (bdev_module->get_ctx_size && bdev_module->get_ctx_size() > max_bdev_module_size) {
    2046          67 :                         max_bdev_module_size = bdev_module->get_ctx_size();
    2047             :                 }
    2048             :         }
    2049             : 
    2050          68 :         return max_bdev_module_size;
    2051             : }
    2052             : 
    2053             : static void
    2054           0 : bdev_enable_histogram_config_json(struct spdk_bdev *bdev, struct spdk_json_write_ctx *w)
    2055             : {
    2056           0 :         if (!bdev->internal.histogram_enabled) {
    2057           0 :                 return;
    2058             :         }
    2059             : 
    2060           0 :         spdk_json_write_object_begin(w);
    2061           0 :         spdk_json_write_named_string(w, "method", "bdev_enable_histogram");
    2062             : 
    2063           0 :         spdk_json_write_named_object_begin(w, "params");
    2064           0 :         spdk_json_write_named_string(w, "name", bdev->name);
    2065             : 
    2066           0 :         spdk_json_write_named_bool(w, "enable", bdev->internal.histogram_enabled);
    2067             : 
    2068           0 :         if (bdev->internal.histogram_io_type) {
    2069           0 :                 spdk_json_write_named_string(w, "opc",
    2070           0 :                                              spdk_bdev_get_io_type_name(bdev->internal.histogram_io_type));
    2071             :         }
    2072             : 
    2073           0 :         spdk_json_write_object_end(w);
    2074             : 
    2075           0 :         spdk_json_write_object_end(w);
    2076             : }
    2077             : 
    2078             : static void
    2079           0 : bdev_qos_config_json(struct spdk_bdev *bdev, struct spdk_json_write_ctx *w)
    2080             : {
    2081             :         int i;
    2082           0 :         struct spdk_bdev_qos *qos = bdev->internal.qos;
    2083           0 :         uint64_t limits[SPDK_BDEV_QOS_NUM_RATE_LIMIT_TYPES];
    2084             : 
    2085           0 :         if (!qos) {
    2086           0 :                 return;
    2087             :         }
    2088             : 
    2089           0 :         spdk_bdev_get_qos_rate_limits(bdev, limits);
    2090             : 
    2091           0 :         spdk_json_write_object_begin(w);
    2092           0 :         spdk_json_write_named_string(w, "method", "bdev_set_qos_limit");
    2093             : 
    2094           0 :         spdk_json_write_named_object_begin(w, "params");
    2095           0 :         spdk_json_write_named_string(w, "name", bdev->name);
    2096           0 :         for (i = 0; i < SPDK_BDEV_QOS_NUM_RATE_LIMIT_TYPES; i++) {
    2097           0 :                 if (limits[i] > 0) {
    2098           0 :                         spdk_json_write_named_uint64(w, qos_rpc_type[i], limits[i]);
    2099             :                 }
    2100             :         }
    2101           0 :         spdk_json_write_object_end(w);
    2102             : 
    2103           0 :         spdk_json_write_object_end(w);
    2104             : }
    2105             : 
    2106             : void
    2107           0 : spdk_bdev_subsystem_config_json(struct spdk_json_write_ctx *w)
    2108             : {
    2109             :         struct spdk_bdev_module *bdev_module;
    2110             :         struct spdk_bdev *bdev;
    2111             : 
    2112           0 :         assert(w != NULL);
    2113             : 
    2114           0 :         spdk_json_write_array_begin(w);
    2115             : 
    2116           0 :         spdk_json_write_object_begin(w);
    2117           0 :         spdk_json_write_named_string(w, "method", "bdev_set_options");
    2118           0 :         spdk_json_write_named_object_begin(w, "params");
    2119           0 :         spdk_json_write_named_uint32(w, "bdev_io_pool_size", g_bdev_opts.bdev_io_pool_size);
    2120           0 :         spdk_json_write_named_uint32(w, "bdev_io_cache_size", g_bdev_opts.bdev_io_cache_size);
    2121           0 :         spdk_json_write_named_bool(w, "bdev_auto_examine", g_bdev_opts.bdev_auto_examine);
    2122           0 :         spdk_json_write_named_uint32(w, "iobuf_small_cache_size", g_bdev_opts.iobuf_small_cache_size);
    2123           0 :         spdk_json_write_named_uint32(w, "iobuf_large_cache_size", g_bdev_opts.iobuf_large_cache_size);
    2124           0 :         spdk_json_write_object_end(w);
    2125           0 :         spdk_json_write_object_end(w);
    2126             : 
    2127           0 :         bdev_examine_allowlist_config_json(w);
    2128             : 
    2129           0 :         TAILQ_FOREACH(bdev_module, &g_bdev_mgr.bdev_modules, internal.tailq) {
    2130           0 :                 if (bdev_module->config_json) {
    2131           0 :                         bdev_module->config_json(w);
    2132             :                 }
    2133             :         }
    2134             : 
    2135           0 :         spdk_spin_lock(&g_bdev_mgr.spinlock);
    2136             : 
    2137           0 :         TAILQ_FOREACH(bdev, &g_bdev_mgr.bdevs, internal.link) {
    2138           0 :                 if (bdev->fn_table->write_config_json) {
    2139           0 :                         bdev->fn_table->write_config_json(bdev, w);
    2140             :                 }
    2141             : 
    2142           0 :                 bdev_qos_config_json(bdev, w);
    2143           0 :                 bdev_enable_histogram_config_json(bdev, w);
    2144             :         }
    2145             : 
    2146           0 :         spdk_spin_unlock(&g_bdev_mgr.spinlock);
    2147             : 
    2148             :         /* This has to be last RPC in array to make sure all bdevs finished examine */
    2149           0 :         spdk_json_write_object_begin(w);
    2150           0 :         spdk_json_write_named_string(w, "method", "bdev_wait_for_examine");
    2151           0 :         spdk_json_write_object_end(w);
    2152             : 
    2153           0 :         spdk_json_write_array_end(w);
    2154           0 : }
    2155             : 
    2156             : static void
    2157          72 : bdev_mgmt_channel_destroy(void *io_device, void *ctx_buf)
    2158             : {
    2159          72 :         struct spdk_bdev_mgmt_channel *ch = ctx_buf;
    2160             :         struct spdk_bdev_io *bdev_io;
    2161             : 
    2162          72 :         spdk_iobuf_channel_fini(&ch->iobuf);
    2163             : 
    2164       10226 :         while (!STAILQ_EMPTY(&ch->per_thread_cache)) {
    2165       10154 :                 bdev_io = STAILQ_FIRST(&ch->per_thread_cache);
    2166       10154 :                 STAILQ_REMOVE_HEAD(&ch->per_thread_cache, internal.buf_link);
    2167       10154 :                 ch->per_thread_cache_count--;
    2168       10154 :                 spdk_mempool_put(g_bdev_mgr.bdev_io_pool, (void *)bdev_io);
    2169             :         }
    2170             : 
    2171          72 :         assert(ch->per_thread_cache_count == 0);
    2172          72 : }
    2173             : 
    2174             : static int
    2175          72 : bdev_mgmt_channel_create(void *io_device, void *ctx_buf)
    2176             : {
    2177          72 :         struct spdk_bdev_mgmt_channel *ch = ctx_buf;
    2178             :         struct spdk_bdev_io *bdev_io;
    2179             :         uint32_t i;
    2180             :         int rc;
    2181             : 
    2182          72 :         rc = spdk_iobuf_channel_init(&ch->iobuf, "bdev",
    2183             :                                      g_bdev_opts.iobuf_small_cache_size,
    2184             :                                      g_bdev_opts.iobuf_large_cache_size);
    2185          72 :         if (rc != 0) {
    2186           0 :                 SPDK_ERRLOG("Failed to create iobuf channel: %s\n", spdk_strerror(-rc));
    2187           0 :                 return -1;
    2188             :         }
    2189             : 
    2190          72 :         STAILQ_INIT(&ch->per_thread_cache);
    2191          72 :         ch->bdev_io_cache_size = g_bdev_opts.bdev_io_cache_size;
    2192             : 
    2193             :         /* Pre-populate bdev_io cache to ensure this thread cannot be starved. */
    2194          72 :         ch->per_thread_cache_count = 0;
    2195       10226 :         for (i = 0; i < ch->bdev_io_cache_size; i++) {
    2196       10154 :                 bdev_io = spdk_mempool_get(g_bdev_mgr.bdev_io_pool);
    2197       10154 :                 if (bdev_io == NULL) {
    2198           0 :                         SPDK_ERRLOG("You need to increase bdev_io_pool_size using bdev_set_options RPC.\n");
    2199           0 :                         assert(false);
    2200             :                         bdev_mgmt_channel_destroy(io_device, ctx_buf);
    2201             :                         return -1;
    2202             :                 }
    2203       10154 :                 ch->per_thread_cache_count++;
    2204       10154 :                 STAILQ_INSERT_HEAD(&ch->per_thread_cache, bdev_io, internal.buf_link);
    2205             :         }
    2206             : 
    2207          72 :         TAILQ_INIT(&ch->shared_resources);
    2208          72 :         TAILQ_INIT(&ch->io_wait_queue);
    2209             : 
    2210          72 :         return 0;
    2211             : }
    2212             : 
    2213             : static void
    2214          68 : bdev_init_complete(int rc)
    2215             : {
    2216          68 :         spdk_bdev_init_cb cb_fn = g_init_cb_fn;
    2217          68 :         void *cb_arg = g_init_cb_arg;
    2218             :         struct spdk_bdev_module *m;
    2219             : 
    2220          68 :         g_bdev_mgr.init_complete = true;
    2221          68 :         g_init_cb_fn = NULL;
    2222          68 :         g_init_cb_arg = NULL;
    2223             : 
    2224             :         /*
    2225             :          * For modules that need to know when subsystem init is complete,
    2226             :          * inform them now.
    2227             :          */
    2228          68 :         if (rc == 0) {
    2229         266 :                 TAILQ_FOREACH(m, &g_bdev_mgr.bdev_modules, internal.tailq) {
    2230         198 :                         if (m->init_complete) {
    2231          24 :                                 m->init_complete();
    2232             :                         }
    2233             :                 }
    2234             :         }
    2235             : 
    2236          68 :         cb_fn(cb_arg, rc);
    2237          68 : }
    2238             : 
    2239             : static bool
    2240         271 : bdev_module_all_actions_completed(void)
    2241             : {
    2242             :         struct spdk_bdev_module *m;
    2243             : 
    2244        1078 :         TAILQ_FOREACH(m, &g_bdev_mgr.bdev_modules, internal.tailq) {
    2245         807 :                 if (m->internal.action_in_progress > 0) {
    2246           0 :                         return false;
    2247             :                 }
    2248             :         }
    2249         271 :         return true;
    2250             : }
    2251             : 
    2252             : static void
    2253         629 : bdev_module_action_complete(void)
    2254             : {
    2255             :         /*
    2256             :          * Don't finish bdev subsystem initialization if
    2257             :          * module pre-initialization is still in progress, or
    2258             :          * the subsystem been already initialized.
    2259             :          */
    2260         629 :         if (!g_bdev_mgr.module_init_complete || g_bdev_mgr.init_complete) {
    2261         561 :                 return;
    2262             :         }
    2263             : 
    2264             :         /*
    2265             :          * Check all bdev modules for inits/examinations in progress. If any
    2266             :          * exist, return immediately since we cannot finish bdev subsystem
    2267             :          * initialization until all are completed.
    2268             :          */
    2269          68 :         if (!bdev_module_all_actions_completed()) {
    2270           0 :                 return;
    2271             :         }
    2272             : 
    2273             :         /*
    2274             :          * Modules already finished initialization - now that all
    2275             :          * the bdev modules have finished their asynchronous I/O
    2276             :          * processing, the entire bdev layer can be marked as complete.
    2277             :          */
    2278          68 :         bdev_init_complete(0);
    2279             : }
    2280             : 
    2281             : static void
    2282         561 : bdev_module_action_done(struct spdk_bdev_module *module)
    2283             : {
    2284         561 :         spdk_spin_lock(&module->internal.spinlock);
    2285         561 :         assert(module->internal.action_in_progress > 0);
    2286         561 :         module->internal.action_in_progress--;
    2287         561 :         spdk_spin_unlock(&module->internal.spinlock);
    2288         561 :         bdev_module_action_complete();
    2289         561 : }
    2290             : 
    2291             : void
    2292          68 : spdk_bdev_module_init_done(struct spdk_bdev_module *module)
    2293             : {
    2294          68 :         assert(module->async_init);
    2295          68 :         bdev_module_action_done(module);
    2296          68 : }
    2297             : 
    2298             : void
    2299         493 : spdk_bdev_module_examine_done(struct spdk_bdev_module *module)
    2300             : {
    2301         493 :         bdev_module_action_done(module);
    2302         493 : }
    2303             : 
    2304             : /** The last initialized bdev module */
    2305             : static struct spdk_bdev_module *g_resume_bdev_module = NULL;
    2306             : 
    2307             : static void
    2308           0 : bdev_init_failed(void *cb_arg)
    2309             : {
    2310           0 :         struct spdk_bdev_module *module = cb_arg;
    2311             : 
    2312           0 :         spdk_spin_lock(&module->internal.spinlock);
    2313           0 :         assert(module->internal.action_in_progress > 0);
    2314           0 :         module->internal.action_in_progress--;
    2315           0 :         spdk_spin_unlock(&module->internal.spinlock);
    2316           0 :         bdev_init_complete(-1);
    2317           0 : }
    2318             : 
    2319             : static int
    2320          68 : bdev_modules_init(void)
    2321             : {
    2322             :         struct spdk_bdev_module *module;
    2323          68 :         int rc = 0;
    2324             : 
    2325         266 :         TAILQ_FOREACH(module, &g_bdev_mgr.bdev_modules, internal.tailq) {
    2326         198 :                 g_resume_bdev_module = module;
    2327         198 :                 if (module->async_init) {
    2328          68 :                         spdk_spin_lock(&module->internal.spinlock);
    2329          68 :                         module->internal.action_in_progress = 1;
    2330          68 :                         spdk_spin_unlock(&module->internal.spinlock);
    2331             :                 }
    2332         198 :                 rc = module->module_init();
    2333         198 :                 if (rc != 0) {
    2334             :                         /* Bump action_in_progress to prevent other modules from completion of modules_init
    2335             :                          * Send message to defer application shutdown until resources are cleaned up */
    2336           0 :                         spdk_spin_lock(&module->internal.spinlock);
    2337           0 :                         module->internal.action_in_progress = 1;
    2338           0 :                         spdk_spin_unlock(&module->internal.spinlock);
    2339           0 :                         spdk_thread_send_msg(spdk_get_thread(), bdev_init_failed, module);
    2340           0 :                         return rc;
    2341             :                 }
    2342             :         }
    2343             : 
    2344          68 :         g_resume_bdev_module = NULL;
    2345          68 :         return 0;
    2346             : }
    2347             : 
    2348             : void
    2349          68 : spdk_bdev_initialize(spdk_bdev_init_cb cb_fn, void *cb_arg)
    2350             : {
    2351          68 :         int rc = 0;
    2352          68 :         char mempool_name[32];
    2353             : 
    2354          68 :         assert(cb_fn != NULL);
    2355             : 
    2356          68 :         g_init_cb_fn = cb_fn;
    2357          68 :         g_init_cb_arg = cb_arg;
    2358             : 
    2359          68 :         spdk_notify_type_register("bdev_register");
    2360          68 :         spdk_notify_type_register("bdev_unregister");
    2361             : 
    2362          68 :         snprintf(mempool_name, sizeof(mempool_name), "bdev_io_%d", getpid());
    2363             : 
    2364          68 :         rc = spdk_iobuf_register_module("bdev");
    2365          68 :         if (rc != 0) {
    2366           0 :                 SPDK_ERRLOG("could not register bdev iobuf module: %s\n", spdk_strerror(-rc));
    2367           0 :                 bdev_init_complete(-1);
    2368           0 :                 return;
    2369             :         }
    2370             : 
    2371         136 :         g_bdev_mgr.bdev_io_pool = spdk_mempool_create(mempool_name,
    2372          68 :                                   g_bdev_opts.bdev_io_pool_size,
    2373             :                                   sizeof(struct spdk_bdev_io) +
    2374          68 :                                   bdev_module_get_max_ctx_size(),
    2375             :                                   0,
    2376             :                                   SPDK_ENV_NUMA_ID_ANY);
    2377             : 
    2378          68 :         if (g_bdev_mgr.bdev_io_pool == NULL) {
    2379           0 :                 SPDK_ERRLOG("could not allocate spdk_bdev_io pool\n");
    2380           0 :                 bdev_init_complete(-1);
    2381           0 :                 return;
    2382             :         }
    2383             : 
    2384          68 :         g_bdev_mgr.zero_buffer = spdk_zmalloc(ZERO_BUFFER_SIZE, ZERO_BUFFER_SIZE,
    2385             :                                               NULL, SPDK_ENV_LCORE_ID_ANY, SPDK_MALLOC_DMA);
    2386          68 :         if (!g_bdev_mgr.zero_buffer) {
    2387           0 :                 SPDK_ERRLOG("create bdev zero buffer failed\n");
    2388           0 :                 bdev_init_complete(-1);
    2389           0 :                 return;
    2390             :         }
    2391             : 
    2392             : #ifdef SPDK_CONFIG_VTUNE
    2393             :         g_bdev_mgr.domain = __itt_domain_create("spdk_bdev");
    2394             : #endif
    2395             : 
    2396          68 :         spdk_io_device_register(&g_bdev_mgr, bdev_mgmt_channel_create,
    2397             :                                 bdev_mgmt_channel_destroy,
    2398             :                                 sizeof(struct spdk_bdev_mgmt_channel),
    2399             :                                 "bdev_mgr");
    2400             : 
    2401          68 :         rc = bdev_modules_init();
    2402          68 :         g_bdev_mgr.module_init_complete = true;
    2403          68 :         if (rc != 0) {
    2404           0 :                 SPDK_ERRLOG("bdev modules init failed\n");
    2405           0 :                 return;
    2406             :         }
    2407             : 
    2408          68 :         bdev_module_action_complete();
    2409             : }
    2410             : 
    2411             : static void
    2412          68 : bdev_mgr_unregister_cb(void *io_device)
    2413             : {
    2414          68 :         spdk_bdev_fini_cb cb_fn = g_fini_cb_fn;
    2415             : 
    2416          68 :         if (g_bdev_mgr.bdev_io_pool) {
    2417          68 :                 if (spdk_mempool_count(g_bdev_mgr.bdev_io_pool) != g_bdev_opts.bdev_io_pool_size) {
    2418           0 :                         SPDK_ERRLOG("bdev IO pool count is %zu but should be %u\n",
    2419             :                                     spdk_mempool_count(g_bdev_mgr.bdev_io_pool),
    2420             :                                     g_bdev_opts.bdev_io_pool_size);
    2421             :                 }
    2422             : 
    2423          68 :                 spdk_mempool_free(g_bdev_mgr.bdev_io_pool);
    2424             :         }
    2425             : 
    2426          68 :         spdk_free(g_bdev_mgr.zero_buffer);
    2427             : 
    2428          68 :         bdev_examine_allowlist_free();
    2429             : 
    2430          68 :         cb_fn(g_fini_cb_arg);
    2431          68 :         g_fini_cb_fn = NULL;
    2432          68 :         g_fini_cb_arg = NULL;
    2433          68 :         g_bdev_mgr.init_complete = false;
    2434          68 :         g_bdev_mgr.module_init_complete = false;
    2435          68 : }
    2436             : 
    2437             : static void
    2438          68 : bdev_module_fini_iter(void *arg)
    2439             : {
    2440             :         struct spdk_bdev_module *bdev_module;
    2441             : 
    2442             :         /* FIXME: Handling initialization failures is broken now,
    2443             :          * so we won't even try cleaning up after successfully
    2444             :          * initialized modules. if module_init_complete is false,
    2445             :          * just call spdk_bdev_mgr_unregister_cb
    2446             :          */
    2447          68 :         if (!g_bdev_mgr.module_init_complete) {
    2448           0 :                 bdev_mgr_unregister_cb(NULL);
    2449           0 :                 return;
    2450             :         }
    2451             : 
    2452             :         /* Start iterating from the last touched module */
    2453          68 :         if (!g_resume_bdev_module) {
    2454          68 :                 bdev_module = TAILQ_LAST(&g_bdev_mgr.bdev_modules, bdev_module_list);
    2455             :         } else {
    2456           0 :                 bdev_module = TAILQ_PREV(g_resume_bdev_module, bdev_module_list,
    2457             :                                          internal.tailq);
    2458             :         }
    2459             : 
    2460         266 :         while (bdev_module) {
    2461         198 :                 if (bdev_module->async_fini) {
    2462             :                         /* Save our place so we can resume later. We must
    2463             :                          * save the variable here, before calling module_fini()
    2464             :                          * below, because in some cases the module may immediately
    2465             :                          * call spdk_bdev_module_fini_done() and re-enter
    2466             :                          * this function to continue iterating. */
    2467           0 :                         g_resume_bdev_module = bdev_module;
    2468             :                 }
    2469             : 
    2470         198 :                 if (bdev_module->module_fini) {
    2471         198 :                         bdev_module->module_fini();
    2472             :                 }
    2473             : 
    2474         198 :                 if (bdev_module->async_fini) {
    2475           0 :                         return;
    2476             :                 }
    2477             : 
    2478         198 :                 bdev_module = TAILQ_PREV(bdev_module, bdev_module_list,
    2479             :                                          internal.tailq);
    2480             :         }
    2481             : 
    2482          68 :         g_resume_bdev_module = NULL;
    2483          68 :         spdk_io_device_unregister(&g_bdev_mgr, bdev_mgr_unregister_cb);
    2484             : }
    2485             : 
    2486             : void
    2487           0 : spdk_bdev_module_fini_done(void)
    2488             : {
    2489           0 :         if (spdk_get_thread() != g_fini_thread) {
    2490           0 :                 spdk_thread_send_msg(g_fini_thread, bdev_module_fini_iter, NULL);
    2491             :         } else {
    2492           0 :                 bdev_module_fini_iter(NULL);
    2493             :         }
    2494           0 : }
    2495             : 
    2496             : static void
    2497          68 : bdev_finish_unregister_bdevs_iter(void *cb_arg, int bdeverrno)
    2498             : {
    2499          68 :         struct spdk_bdev *bdev = cb_arg;
    2500             : 
    2501          68 :         if (bdeverrno && bdev) {
    2502           0 :                 SPDK_WARNLOG("Unable to unregister bdev '%s' during spdk_bdev_finish()\n",
    2503             :                              bdev->name);
    2504             : 
    2505             :                 /*
    2506             :                  * Since the call to spdk_bdev_unregister() failed, we have no way to free this
    2507             :                  *  bdev; try to continue by manually removing this bdev from the list and continue
    2508             :                  *  with the next bdev in the list.
    2509             :                  */
    2510           0 :                 TAILQ_REMOVE(&g_bdev_mgr.bdevs, bdev, internal.link);
    2511             :         }
    2512             : 
    2513          68 :         if (TAILQ_EMPTY(&g_bdev_mgr.bdevs)) {
    2514          68 :                 SPDK_DEBUGLOG(bdev, "Done unregistering bdevs\n");
    2515             :                 /*
    2516             :                  * Bdev module finish need to be deferred as we might be in the middle of some context
    2517             :                  * (like bdev part free) that will use this bdev (or private bdev driver ctx data)
    2518             :                  * after returning.
    2519             :                  */
    2520          68 :                 spdk_thread_send_msg(spdk_get_thread(), bdev_module_fini_iter, NULL);
    2521          68 :                 return;
    2522             :         }
    2523             : 
    2524             :         /*
    2525             :          * Unregister last unclaimed bdev in the list, to ensure that bdev subsystem
    2526             :          * shutdown proceeds top-down. The goal is to give virtual bdevs an opportunity
    2527             :          * to detect clean shutdown as opposed to run-time hot removal of the underlying
    2528             :          * base bdevs.
    2529             :          *
    2530             :          * Also, walk the list in the reverse order.
    2531             :          */
    2532           0 :         for (bdev = TAILQ_LAST(&g_bdev_mgr.bdevs, spdk_bdev_list);
    2533           0 :              bdev; bdev = TAILQ_PREV(bdev, spdk_bdev_list, internal.link)) {
    2534           0 :                 spdk_spin_lock(&bdev->internal.spinlock);
    2535           0 :                 if (bdev->internal.claim_type != SPDK_BDEV_CLAIM_NONE) {
    2536           0 :                         LOG_ALREADY_CLAIMED_DEBUG("claimed, skipping", bdev);
    2537           0 :                         spdk_spin_unlock(&bdev->internal.spinlock);
    2538           0 :                         continue;
    2539             :                 }
    2540           0 :                 spdk_spin_unlock(&bdev->internal.spinlock);
    2541             : 
    2542           0 :                 SPDK_DEBUGLOG(bdev, "Unregistering bdev '%s'\n", bdev->name);
    2543           0 :                 spdk_bdev_unregister(bdev, bdev_finish_unregister_bdevs_iter, bdev);
    2544           0 :                 return;
    2545             :         }
    2546             : 
    2547             :         /*
    2548             :          * If any bdev fails to unclaim underlying bdev properly, we may face the
    2549             :          * case of bdev list consisting of claimed bdevs only (if claims are managed
    2550             :          * correctly, this would mean there's a loop in the claims graph which is
    2551             :          * clearly impossible). Warn and unregister last bdev on the list then.
    2552             :          */
    2553           0 :         for (bdev = TAILQ_LAST(&g_bdev_mgr.bdevs, spdk_bdev_list);
    2554           0 :              bdev; bdev = TAILQ_PREV(bdev, spdk_bdev_list, internal.link)) {
    2555           0 :                 SPDK_WARNLOG("Unregistering claimed bdev '%s'!\n", bdev->name);
    2556           0 :                 spdk_bdev_unregister(bdev, bdev_finish_unregister_bdevs_iter, bdev);
    2557           0 :                 return;
    2558             :         }
    2559             : }
    2560             : 
    2561             : static void
    2562          68 : bdev_module_fini_start_iter(void *arg)
    2563             : {
    2564             :         struct spdk_bdev_module *bdev_module;
    2565             : 
    2566          68 :         if (!g_resume_bdev_module) {
    2567          68 :                 bdev_module = TAILQ_LAST(&g_bdev_mgr.bdev_modules, bdev_module_list);
    2568             :         } else {
    2569           0 :                 bdev_module = TAILQ_PREV(g_resume_bdev_module, bdev_module_list, internal.tailq);
    2570             :         }
    2571             : 
    2572         266 :         while (bdev_module) {
    2573         198 :                 if (bdev_module->async_fini_start) {
    2574             :                         /* Save our place so we can resume later. We must
    2575             :                          * save the variable here, before calling fini_start()
    2576             :                          * below, because in some cases the module may immediately
    2577             :                          * call spdk_bdev_module_fini_start_done() and re-enter
    2578             :                          * this function to continue iterating. */
    2579           0 :                         g_resume_bdev_module = bdev_module;
    2580             :                 }
    2581             : 
    2582         198 :                 if (bdev_module->fini_start) {
    2583          24 :                         bdev_module->fini_start();
    2584             :                 }
    2585             : 
    2586         198 :                 if (bdev_module->async_fini_start) {
    2587           0 :                         return;
    2588             :                 }
    2589             : 
    2590         198 :                 bdev_module = TAILQ_PREV(bdev_module, bdev_module_list, internal.tailq);
    2591             :         }
    2592             : 
    2593          68 :         g_resume_bdev_module = NULL;
    2594             : 
    2595          68 :         bdev_finish_unregister_bdevs_iter(NULL, 0);
    2596             : }
    2597             : 
    2598             : void
    2599           0 : spdk_bdev_module_fini_start_done(void)
    2600             : {
    2601           0 :         if (spdk_get_thread() != g_fini_thread) {
    2602           0 :                 spdk_thread_send_msg(g_fini_thread, bdev_module_fini_start_iter, NULL);
    2603             :         } else {
    2604           0 :                 bdev_module_fini_start_iter(NULL);
    2605             :         }
    2606           0 : }
    2607             : 
    2608             : static void
    2609          68 : bdev_finish_wait_for_examine_done(void *cb_arg)
    2610             : {
    2611          68 :         bdev_module_fini_start_iter(NULL);
    2612          68 : }
    2613             : 
    2614             : static void bdev_open_async_fini(void);
    2615             : 
    2616             : void
    2617          68 : spdk_bdev_finish(spdk_bdev_fini_cb cb_fn, void *cb_arg)
    2618             : {
    2619             :         int rc;
    2620             : 
    2621          68 :         assert(cb_fn != NULL);
    2622             : 
    2623          68 :         g_fini_thread = spdk_get_thread();
    2624             : 
    2625          68 :         g_fini_cb_fn = cb_fn;
    2626          68 :         g_fini_cb_arg = cb_arg;
    2627             : 
    2628          68 :         bdev_open_async_fini();
    2629             : 
    2630          68 :         rc = spdk_bdev_wait_for_examine(bdev_finish_wait_for_examine_done, NULL);
    2631          68 :         if (rc != 0) {
    2632           0 :                 SPDK_ERRLOG("wait_for_examine failed: %s\n", spdk_strerror(-rc));
    2633           0 :                 bdev_finish_wait_for_examine_done(NULL);
    2634             :         }
    2635          68 : }
    2636             : 
    2637             : struct spdk_bdev_io *
    2638         699 : bdev_channel_get_io(struct spdk_bdev_channel *channel)
    2639             : {
    2640         699 :         struct spdk_bdev_mgmt_channel *ch = channel->shared_resource->mgmt_ch;
    2641             :         struct spdk_bdev_io *bdev_io;
    2642             : 
    2643         699 :         if (ch->per_thread_cache_count > 0) {
    2644         639 :                 bdev_io = STAILQ_FIRST(&ch->per_thread_cache);
    2645         639 :                 STAILQ_REMOVE_HEAD(&ch->per_thread_cache, internal.buf_link);
    2646         639 :                 ch->per_thread_cache_count--;
    2647          60 :         } else if (spdk_unlikely(!TAILQ_EMPTY(&ch->io_wait_queue))) {
    2648             :                 /*
    2649             :                  * Don't try to look for bdev_ios in the global pool if there are
    2650             :                  * waiters on bdev_ios - we don't want this caller to jump the line.
    2651             :                  */
    2652           0 :                 bdev_io = NULL;
    2653             :         } else {
    2654          60 :                 bdev_io = spdk_mempool_get(g_bdev_mgr.bdev_io_pool);
    2655             :         }
    2656             : 
    2657         699 :         return bdev_io;
    2658             : }
    2659             : 
    2660             : void
    2661         693 : spdk_bdev_free_io(struct spdk_bdev_io *bdev_io)
    2662             : {
    2663             :         struct spdk_bdev_mgmt_channel *ch;
    2664             : 
    2665         693 :         assert(bdev_io != NULL);
    2666         693 :         assert(bdev_io->internal.status != SPDK_BDEV_IO_STATUS_PENDING);
    2667             : 
    2668         693 :         ch = bdev_io->internal.ch->shared_resource->mgmt_ch;
    2669             : 
    2670         693 :         if (bdev_io->internal.f.has_buf) {
    2671          16 :                 bdev_io_put_buf(bdev_io);
    2672             :         }
    2673             : 
    2674         693 :         if (ch->per_thread_cache_count < ch->bdev_io_cache_size) {
    2675         639 :                 ch->per_thread_cache_count++;
    2676         639 :                 STAILQ_INSERT_HEAD(&ch->per_thread_cache, bdev_io, internal.buf_link);
    2677         643 :                 while (ch->per_thread_cache_count > 0 && !TAILQ_EMPTY(&ch->io_wait_queue)) {
    2678             :                         struct spdk_bdev_io_wait_entry *entry;
    2679             : 
    2680           4 :                         entry = TAILQ_FIRST(&ch->io_wait_queue);
    2681           4 :                         TAILQ_REMOVE(&ch->io_wait_queue, entry, link);
    2682           4 :                         entry->cb_fn(entry->cb_arg);
    2683             :                 }
    2684             :         } else {
    2685             :                 /* We should never have a full cache with entries on the io wait queue. */
    2686          54 :                 assert(TAILQ_EMPTY(&ch->io_wait_queue));
    2687          54 :                 spdk_mempool_put(g_bdev_mgr.bdev_io_pool, (void *)bdev_io);
    2688             :         }
    2689         693 : }
    2690             : 
    2691             : static bool
    2692          72 : bdev_qos_is_iops_rate_limit(enum spdk_bdev_qos_rate_limit_type limit)
    2693             : {
    2694          72 :         assert(limit != SPDK_BDEV_QOS_NUM_RATE_LIMIT_TYPES);
    2695             : 
    2696          72 :         switch (limit) {
    2697          18 :         case SPDK_BDEV_QOS_RW_IOPS_RATE_LIMIT:
    2698          18 :                 return true;
    2699          54 :         case SPDK_BDEV_QOS_RW_BPS_RATE_LIMIT:
    2700             :         case SPDK_BDEV_QOS_R_BPS_RATE_LIMIT:
    2701             :         case SPDK_BDEV_QOS_W_BPS_RATE_LIMIT:
    2702          54 :                 return false;
    2703           0 :         case SPDK_BDEV_QOS_NUM_RATE_LIMIT_TYPES:
    2704             :         default:
    2705           0 :                 return false;
    2706             :         }
    2707             : }
    2708             : 
    2709             : static bool
    2710          25 : bdev_qos_io_to_limit(struct spdk_bdev_io *bdev_io)
    2711             : {
    2712          25 :         switch (bdev_io->type) {
    2713          23 :         case SPDK_BDEV_IO_TYPE_NVME_IO:
    2714             :         case SPDK_BDEV_IO_TYPE_NVME_IO_MD:
    2715             :         case SPDK_BDEV_IO_TYPE_READ:
    2716             :         case SPDK_BDEV_IO_TYPE_WRITE:
    2717          23 :                 return true;
    2718           0 :         case SPDK_BDEV_IO_TYPE_ZCOPY:
    2719           0 :                 if (bdev_io->u.bdev.zcopy.start) {
    2720           0 :                         return true;
    2721             :                 } else {
    2722           0 :                         return false;
    2723             :                 }
    2724           2 :         default:
    2725           2 :                 return false;
    2726             :         }
    2727             : }
    2728             : 
    2729             : static bool
    2730          33 : bdev_is_read_io(struct spdk_bdev_io *bdev_io)
    2731             : {
    2732          33 :         switch (bdev_io->type) {
    2733           0 :         case SPDK_BDEV_IO_TYPE_NVME_IO:
    2734             :         case SPDK_BDEV_IO_TYPE_NVME_IO_MD:
    2735             :                 /* Bit 1 (0x2) set for read operation */
    2736           0 :                 if (bdev_io->u.nvme_passthru.cmd.opc & SPDK_NVME_OPC_READ) {
    2737           0 :                         return true;
    2738             :                 } else {
    2739           0 :                         return false;
    2740             :                 }
    2741          30 :         case SPDK_BDEV_IO_TYPE_READ:
    2742          30 :                 return true;
    2743           0 :         case SPDK_BDEV_IO_TYPE_ZCOPY:
    2744             :                 /* Populate to read from disk */
    2745           0 :                 if (bdev_io->u.bdev.zcopy.populate) {
    2746           0 :                         return true;
    2747             :                 } else {
    2748           0 :                         return false;
    2749             :                 }
    2750           3 :         default:
    2751           3 :                 return false;
    2752             :         }
    2753             : }
    2754             : 
    2755             : static uint64_t
    2756          43 : bdev_get_io_size_in_byte(struct spdk_bdev_io *bdev_io)
    2757             : {
    2758          43 :         uint32_t blocklen = bdev_io_get_block_size(bdev_io);
    2759             : 
    2760          43 :         switch (bdev_io->type) {
    2761           0 :         case SPDK_BDEV_IO_TYPE_NVME_IO:
    2762             :         case SPDK_BDEV_IO_TYPE_NVME_IO_MD:
    2763           0 :                 return bdev_io->u.nvme_passthru.nbytes;
    2764          43 :         case SPDK_BDEV_IO_TYPE_READ:
    2765             :         case SPDK_BDEV_IO_TYPE_WRITE:
    2766          43 :                 return bdev_io->u.bdev.num_blocks * blocklen;
    2767           0 :         case SPDK_BDEV_IO_TYPE_ZCOPY:
    2768             :                 /* Track the data in the start phase only */
    2769           0 :                 if (bdev_io->u.bdev.zcopy.start) {
    2770           0 :                         return bdev_io->u.bdev.num_blocks * blocklen;
    2771             :                 } else {
    2772           0 :                         return 0;
    2773             :                 }
    2774           0 :         default:
    2775           0 :                 return 0;
    2776             :         }
    2777             : }
    2778             : 
    2779             : static inline bool
    2780          64 : bdev_qos_rw_queue_io(struct spdk_bdev_qos_limit *limit, struct spdk_bdev_io *io, uint64_t delta)
    2781             : {
    2782             :         int64_t remaining_this_timeslice;
    2783             : 
    2784          64 :         if (!limit->max_per_timeslice) {
    2785             :                 /* The QoS is disabled */
    2786           0 :                 return false;
    2787             :         }
    2788             : 
    2789          64 :         remaining_this_timeslice = __atomic_sub_fetch(&limit->remaining_this_timeslice, delta,
    2790             :                                    __ATOMIC_RELAXED);
    2791          64 :         if (remaining_this_timeslice + (int64_t)delta > 0) {
    2792             :                 /* There was still a quota for this delta -> the IO shouldn't be queued
    2793             :                  *
    2794             :                  * We allow a slight quota overrun here so an IO bigger than the per-timeslice
    2795             :                  * quota can be allowed once a while. Such overrun then taken into account in
    2796             :                  * the QoS poller, where the next timeslice quota is calculated.
    2797             :                  */
    2798          59 :                 return false;
    2799             :         }
    2800             : 
    2801             :         /* There was no quota for this delta -> the IO should be queued
    2802             :          * The remaining_this_timeslice must be rewinded so it reflects the real
    2803             :          * amount of IOs or bytes allowed.
    2804             :          */
    2805           5 :         __atomic_add_fetch(
    2806           5 :                 &limit->remaining_this_timeslice, delta, __ATOMIC_RELAXED);
    2807           5 :         return true;
    2808             : }
    2809             : 
    2810             : static inline void
    2811           5 : bdev_qos_rw_rewind_io(struct spdk_bdev_qos_limit *limit, struct spdk_bdev_io *io, uint64_t delta)
    2812             : {
    2813           5 :         __atomic_add_fetch(&limit->remaining_this_timeslice, delta, __ATOMIC_RELAXED);
    2814           5 : }
    2815             : 
    2816             : static bool
    2817          23 : bdev_qos_rw_iops_queue(struct spdk_bdev_qos_limit *limit, struct spdk_bdev_io *io)
    2818             : {
    2819          23 :         return bdev_qos_rw_queue_io(limit, io, 1);
    2820             : }
    2821             : 
    2822             : static void
    2823           3 : bdev_qos_rw_iops_rewind_quota(struct spdk_bdev_qos_limit *limit, struct spdk_bdev_io *io)
    2824             : {
    2825           3 :         bdev_qos_rw_rewind_io(limit, io, 1);
    2826           3 : }
    2827             : 
    2828             : static bool
    2829          41 : bdev_qos_rw_bps_queue(struct spdk_bdev_qos_limit *limit, struct spdk_bdev_io *io)
    2830             : {
    2831          41 :         return bdev_qos_rw_queue_io(limit, io, bdev_get_io_size_in_byte(io));
    2832             : }
    2833             : 
    2834             : static void
    2835           2 : bdev_qos_rw_bps_rewind_quota(struct spdk_bdev_qos_limit *limit, struct spdk_bdev_io *io)
    2836             : {
    2837           2 :         bdev_qos_rw_rewind_io(limit, io, bdev_get_io_size_in_byte(io));
    2838           2 : }
    2839             : 
    2840             : static bool
    2841          19 : bdev_qos_r_bps_queue(struct spdk_bdev_qos_limit *limit, struct spdk_bdev_io *io)
    2842             : {
    2843          19 :         if (bdev_is_read_io(io) == false) {
    2844           1 :                 return false;
    2845             :         }
    2846             : 
    2847          18 :         return bdev_qos_rw_bps_queue(limit, io);
    2848             : }
    2849             : 
    2850             : static void
    2851           0 : bdev_qos_r_bps_rewind_quota(struct spdk_bdev_qos_limit *limit, struct spdk_bdev_io *io)
    2852             : {
    2853           0 :         if (bdev_is_read_io(io) != false) {
    2854           0 :                 bdev_qos_rw_rewind_io(limit, io, bdev_get_io_size_in_byte(io));
    2855             :         }
    2856           0 : }
    2857             : 
    2858             : static bool
    2859          14 : bdev_qos_w_bps_queue(struct spdk_bdev_qos_limit *limit, struct spdk_bdev_io *io)
    2860             : {
    2861          14 :         if (bdev_is_read_io(io) == true) {
    2862          12 :                 return false;
    2863             :         }
    2864             : 
    2865           2 :         return bdev_qos_rw_bps_queue(limit, io);
    2866             : }
    2867             : 
    2868             : static void
    2869           0 : bdev_qos_w_bps_rewind_quota(struct spdk_bdev_qos_limit *limit, struct spdk_bdev_io *io)
    2870             : {
    2871           0 :         if (bdev_is_read_io(io) != true) {
    2872           0 :                 bdev_qos_rw_rewind_io(limit, io, bdev_get_io_size_in_byte(io));
    2873             :         }
    2874           0 : }
    2875             : 
    2876             : static void
    2877          10 : bdev_qos_set_ops(struct spdk_bdev_qos *qos)
    2878             : {
    2879             :         int i;
    2880             : 
    2881          50 :         for (i = 0; i < SPDK_BDEV_QOS_NUM_RATE_LIMIT_TYPES; i++) {
    2882          40 :                 if (qos->rate_limits[i].limit == SPDK_BDEV_QOS_LIMIT_NOT_DEFINED) {
    2883          15 :                         qos->rate_limits[i].queue_io = NULL;
    2884          15 :                         continue;
    2885             :                 }
    2886             : 
    2887          25 :                 switch (i) {
    2888           9 :                 case SPDK_BDEV_QOS_RW_IOPS_RATE_LIMIT:
    2889           9 :                         qos->rate_limits[i].queue_io = bdev_qos_rw_iops_queue;
    2890           9 :                         qos->rate_limits[i].rewind_quota = bdev_qos_rw_iops_rewind_quota;
    2891           9 :                         break;
    2892           7 :                 case SPDK_BDEV_QOS_RW_BPS_RATE_LIMIT:
    2893           7 :                         qos->rate_limits[i].queue_io = bdev_qos_rw_bps_queue;
    2894           7 :                         qos->rate_limits[i].rewind_quota = bdev_qos_rw_bps_rewind_quota;
    2895           7 :                         break;
    2896           5 :                 case SPDK_BDEV_QOS_R_BPS_RATE_LIMIT:
    2897           5 :                         qos->rate_limits[i].queue_io = bdev_qos_r_bps_queue;
    2898           5 :                         qos->rate_limits[i].rewind_quota = bdev_qos_r_bps_rewind_quota;
    2899           5 :                         break;
    2900           4 :                 case SPDK_BDEV_QOS_W_BPS_RATE_LIMIT:
    2901           4 :                         qos->rate_limits[i].queue_io = bdev_qos_w_bps_queue;
    2902           4 :                         qos->rate_limits[i].rewind_quota = bdev_qos_w_bps_rewind_quota;
    2903           4 :                         break;
    2904           0 :                 default:
    2905           0 :                         break;
    2906             :                 }
    2907             :         }
    2908          10 : }
    2909             : 
    2910             : static void
    2911           6 : _bdev_io_complete_in_submit(struct spdk_bdev_channel *bdev_ch,
    2912             :                             struct spdk_bdev_io *bdev_io,
    2913             :                             enum spdk_bdev_io_status status)
    2914             : {
    2915           6 :         bdev_io->internal.f.in_submit_request = true;
    2916           6 :         bdev_io_increment_outstanding(bdev_ch, bdev_ch->shared_resource);
    2917           6 :         spdk_bdev_io_complete(bdev_io, status);
    2918           6 :         bdev_io->internal.f.in_submit_request = false;
    2919           6 : }
    2920             : 
    2921             : static inline void
    2922         574 : bdev_io_do_submit(struct spdk_bdev_channel *bdev_ch, struct spdk_bdev_io *bdev_io)
    2923             : {
    2924         574 :         struct spdk_bdev *bdev = bdev_io->bdev;
    2925         574 :         struct spdk_io_channel *ch = bdev_ch->channel;
    2926         574 :         struct spdk_bdev_shared_resource *shared_resource = bdev_ch->shared_resource;
    2927             : 
    2928         574 :         if (spdk_unlikely(bdev_io->type == SPDK_BDEV_IO_TYPE_ABORT)) {
    2929          16 :                 struct spdk_bdev_mgmt_channel *mgmt_channel = shared_resource->mgmt_ch;
    2930          16 :                 struct spdk_bdev_io *bio_to_abort = bdev_io->u.abort.bio_to_abort;
    2931             : 
    2932          32 :                 if (bdev_abort_queued_io(&shared_resource->nomem_io, bio_to_abort) ||
    2933          16 :                     bdev_abort_buf_io(mgmt_channel, bio_to_abort)) {
    2934           0 :                         _bdev_io_complete_in_submit(bdev_ch, bdev_io,
    2935             :                                                     SPDK_BDEV_IO_STATUS_SUCCESS);
    2936           0 :                         return;
    2937             :                 }
    2938             :         }
    2939             : 
    2940         574 :         if (spdk_unlikely(bdev_io->type == SPDK_BDEV_IO_TYPE_WRITE &&
    2941             :                           bdev_io->bdev->split_on_write_unit &&
    2942             :                           bdev_io->u.bdev.num_blocks < bdev_io->bdev->write_unit_size)) {
    2943           4 :                 SPDK_ERRLOG("IO num_blocks %lu does not match the write_unit_size %u\n",
    2944             :                             bdev_io->u.bdev.num_blocks, bdev_io->bdev->write_unit_size);
    2945           4 :                 _bdev_io_complete_in_submit(bdev_ch, bdev_io, SPDK_BDEV_IO_STATUS_FAILED);
    2946           4 :                 return;
    2947             :         }
    2948             : 
    2949         570 :         if (spdk_likely(TAILQ_EMPTY(&shared_resource->nomem_io))) {
    2950         527 :                 bdev_io_increment_outstanding(bdev_ch, shared_resource);
    2951         527 :                 bdev_io->internal.f.in_submit_request = true;
    2952         527 :                 bdev_submit_request(bdev, ch, bdev_io);
    2953         527 :                 bdev_io->internal.f.in_submit_request = false;
    2954             :         } else {
    2955          43 :                 bdev_queue_nomem_io_tail(shared_resource, bdev_io, BDEV_IO_RETRY_STATE_SUBMIT);
    2956          43 :                 if (shared_resource->nomem_threshold == 0 && shared_resource->io_outstanding == 0) {
    2957             :                         /* Special case when we have nomem IOs and no outstanding IOs which completions
    2958             :                          * could trigger retry of queued IOs */
    2959           0 :                         bdev_shared_ch_retry_io(shared_resource);
    2960             :                 }
    2961             :         }
    2962             : }
    2963             : 
    2964             : static bool
    2965          25 : bdev_qos_queue_io(struct spdk_bdev_qos *qos, struct spdk_bdev_io *bdev_io)
    2966             : {
    2967             :         int i;
    2968             : 
    2969          25 :         if (bdev_qos_io_to_limit(bdev_io) == true) {
    2970         100 :                 for (i = 0; i < SPDK_BDEV_QOS_NUM_RATE_LIMIT_TYPES; i++) {
    2971          82 :                         if (!qos->rate_limits[i].queue_io) {
    2972           5 :                                 continue;
    2973             :                         }
    2974             : 
    2975          77 :                         if (qos->rate_limits[i].queue_io(&qos->rate_limits[i],
    2976             :                                                          bdev_io) == true) {
    2977          10 :                                 for (i -= 1; i >= 0 ; i--) {
    2978           5 :                                         if (!qos->rate_limits[i].queue_io) {
    2979           0 :                                                 continue;
    2980             :                                         }
    2981             : 
    2982           5 :                                         qos->rate_limits[i].rewind_quota(&qos->rate_limits[i], bdev_io);
    2983             :                                 }
    2984           5 :                                 return true;
    2985             :                         }
    2986             :                 }
    2987             :         }
    2988             : 
    2989          20 :         return false;
    2990             : }
    2991             : 
    2992             : static int
    2993          27 : bdev_qos_io_submit(struct spdk_bdev_channel *ch, struct spdk_bdev_qos *qos)
    2994             : {
    2995          27 :         struct spdk_bdev_io             *bdev_io = NULL, *tmp = NULL;
    2996          27 :         int                             submitted_ios = 0;
    2997             : 
    2998          52 :         TAILQ_FOREACH_SAFE(bdev_io, &ch->qos_queued_io, internal.link, tmp) {
    2999          25 :                 if (!bdev_qos_queue_io(qos, bdev_io)) {
    3000          20 :                         TAILQ_REMOVE(&ch->qos_queued_io, bdev_io, internal.link);
    3001          20 :                         bdev_io_do_submit(ch, bdev_io);
    3002             : 
    3003          20 :                         submitted_ios++;
    3004             :                 }
    3005             :         }
    3006             : 
    3007          27 :         return submitted_ios;
    3008             : }
    3009             : 
    3010             : static void
    3011           2 : bdev_queue_io_wait_with_cb(struct spdk_bdev_io *bdev_io, spdk_bdev_io_wait_cb cb_fn)
    3012             : {
    3013             :         int rc;
    3014             : 
    3015           2 :         bdev_io->internal.waitq_entry.bdev = bdev_io->bdev;
    3016           2 :         bdev_io->internal.waitq_entry.cb_fn = cb_fn;
    3017           2 :         bdev_io->internal.waitq_entry.cb_arg = bdev_io;
    3018           2 :         rc = spdk_bdev_queue_io_wait(bdev_io->bdev, spdk_io_channel_from_ctx(bdev_io->internal.ch),
    3019             :                                      &bdev_io->internal.waitq_entry);
    3020           2 :         if (rc != 0) {
    3021           0 :                 SPDK_ERRLOG("Queue IO failed, rc=%d\n", rc);
    3022           0 :                 bdev_io->internal.status = SPDK_BDEV_IO_STATUS_FAILED;
    3023           0 :                 bdev_io->internal.cb(bdev_io, false, bdev_io->internal.caller_ctx);
    3024             :         }
    3025           2 : }
    3026             : 
    3027             : static bool
    3028         621 : bdev_rw_should_split(struct spdk_bdev_io *bdev_io)
    3029             : {
    3030             :         uint32_t io_boundary;
    3031         621 :         struct spdk_bdev *bdev = bdev_io->bdev;
    3032         621 :         uint32_t max_segment_size = bdev->max_segment_size;
    3033         621 :         uint32_t max_size = bdev->max_rw_size;
    3034         621 :         int max_segs = bdev->max_num_segments;
    3035             : 
    3036         621 :         if (bdev_io->type == SPDK_BDEV_IO_TYPE_WRITE && bdev->split_on_write_unit) {
    3037          24 :                 io_boundary = bdev->write_unit_size;
    3038         597 :         } else if (bdev->split_on_optimal_io_boundary) {
    3039         168 :                 io_boundary = bdev->optimal_io_boundary;
    3040             :         } else {
    3041         429 :                 io_boundary = 0;
    3042             :         }
    3043             : 
    3044         621 :         if (spdk_likely(!io_boundary && !max_segs && !max_segment_size && !max_size)) {
    3045         243 :                 return false;
    3046             :         }
    3047             : 
    3048         378 :         if (io_boundary) {
    3049             :                 uint64_t start_stripe, end_stripe;
    3050             : 
    3051         192 :                 start_stripe = bdev_io->u.bdev.offset_blocks;
    3052         192 :                 end_stripe = start_stripe + bdev_io->u.bdev.num_blocks - 1;
    3053             :                 /* Avoid expensive div operations if possible.  These spdk_u32 functions are very cheap. */
    3054         192 :                 if (spdk_likely(spdk_u32_is_pow2(io_boundary))) {
    3055         192 :                         start_stripe >>= spdk_u32log2(io_boundary);
    3056         192 :                         end_stripe >>= spdk_u32log2(io_boundary);
    3057             :                 } else {
    3058           0 :                         start_stripe /= io_boundary;
    3059           0 :                         end_stripe /= io_boundary;
    3060             :                 }
    3061             : 
    3062         192 :                 if (start_stripe != end_stripe) {
    3063          75 :                         return true;
    3064             :                 }
    3065             :         }
    3066             : 
    3067         303 :         if (max_segs) {
    3068         150 :                 if (bdev_io->u.bdev.iovcnt > max_segs) {
    3069          15 :                         return true;
    3070             :                 }
    3071             :         }
    3072             : 
    3073         288 :         if (max_segment_size) {
    3074         470 :                 for (int i = 0; i < bdev_io->u.bdev.iovcnt; i++) {
    3075         346 :                         if (bdev_io->u.bdev.iovs[i].iov_len > max_segment_size) {
    3076          12 :                                 return true;
    3077             :                         }
    3078             :                 }
    3079             :         }
    3080             : 
    3081         276 :         if (max_size) {
    3082          52 :                 if (bdev_io->u.bdev.num_blocks > max_size) {
    3083           7 :                         return true;
    3084             :                 }
    3085             :         }
    3086             : 
    3087         269 :         return false;
    3088             : }
    3089             : 
    3090             : static bool
    3091          24 : bdev_unmap_should_split(struct spdk_bdev_io *bdev_io)
    3092             : {
    3093             :         uint32_t num_unmap_segments;
    3094             : 
    3095          24 :         if (!bdev_io->bdev->max_unmap || !bdev_io->bdev->max_unmap_segments) {
    3096           3 :                 return false;
    3097             :         }
    3098          21 :         num_unmap_segments = spdk_divide_round_up(bdev_io->u.bdev.num_blocks, bdev_io->bdev->max_unmap);
    3099          21 :         if (num_unmap_segments > bdev_io->bdev->max_unmap_segments) {
    3100           4 :                 return true;
    3101             :         }
    3102             : 
    3103          17 :         return false;
    3104             : }
    3105             : 
    3106             : static bool
    3107          37 : bdev_write_zeroes_should_split(struct spdk_bdev_io *bdev_io)
    3108             : {
    3109          37 :         if (!bdev_io->bdev->max_write_zeroes) {
    3110           4 :                 return false;
    3111             :         }
    3112             : 
    3113          33 :         if (bdev_io->u.bdev.num_blocks > bdev_io->bdev->max_write_zeroes) {
    3114          10 :                 return true;
    3115             :         }
    3116             : 
    3117          23 :         return false;
    3118             : }
    3119             : 
    3120             : static bool
    3121          30 : bdev_copy_should_split(struct spdk_bdev_io *bdev_io)
    3122             : {
    3123          30 :         if (bdev_io->bdev->max_copy != 0 &&
    3124          25 :             bdev_io->u.bdev.num_blocks > bdev_io->bdev->max_copy) {
    3125           6 :                 return true;
    3126             :         }
    3127             : 
    3128          24 :         return false;
    3129             : }
    3130             : 
    3131             : static bool
    3132         794 : bdev_io_should_split(struct spdk_bdev_io *bdev_io)
    3133             : {
    3134         794 :         switch (bdev_io->type) {
    3135         621 :         case SPDK_BDEV_IO_TYPE_READ:
    3136             :         case SPDK_BDEV_IO_TYPE_WRITE:
    3137         621 :                 return bdev_rw_should_split(bdev_io);
    3138          24 :         case SPDK_BDEV_IO_TYPE_UNMAP:
    3139          24 :                 return bdev_unmap_should_split(bdev_io);
    3140          37 :         case SPDK_BDEV_IO_TYPE_WRITE_ZEROES:
    3141          37 :                 return bdev_write_zeroes_should_split(bdev_io);
    3142          30 :         case SPDK_BDEV_IO_TYPE_COPY:
    3143          30 :                 return bdev_copy_should_split(bdev_io);
    3144          82 :         default:
    3145          82 :                 return false;
    3146             :         }
    3147             : }
    3148             : 
    3149             : static uint32_t
    3150         249 : _to_next_boundary(uint64_t offset, uint32_t boundary)
    3151             : {
    3152         249 :         return (boundary - (offset % boundary));
    3153             : }
    3154             : 
    3155             : static void bdev_io_split_done(struct spdk_bdev_io *bdev_io, bool success, void *cb_arg);
    3156             : 
    3157             : static void _bdev_rw_split(void *_bdev_io);
    3158             : 
    3159             : static void bdev_unmap_split(struct spdk_bdev_io *bdev_io);
    3160             : 
    3161             : static void
    3162           0 : _bdev_unmap_split(void *_bdev_io)
    3163             : {
    3164           0 :         return bdev_unmap_split((struct spdk_bdev_io *)_bdev_io);
    3165             : }
    3166             : 
    3167             : static void bdev_write_zeroes_split(struct spdk_bdev_io *bdev_io);
    3168             : 
    3169             : static void
    3170           0 : _bdev_write_zeroes_split(void *_bdev_io)
    3171             : {
    3172           0 :         return bdev_write_zeroes_split((struct spdk_bdev_io *)_bdev_io);
    3173             : }
    3174             : 
    3175             : static void bdev_copy_split(struct spdk_bdev_io *bdev_io);
    3176             : 
    3177             : static void
    3178           0 : _bdev_copy_split(void *_bdev_io)
    3179             : {
    3180           0 :         return bdev_copy_split((struct spdk_bdev_io *)_bdev_io);
    3181             : }
    3182             : 
    3183             : static int
    3184         305 : bdev_io_split_submit(struct spdk_bdev_io *bdev_io, struct iovec *iov, int iovcnt, void *md_buf,
    3185             :                      uint64_t num_blocks, uint64_t *offset, uint64_t *remaining)
    3186             : {
    3187             :         int rc;
    3188             :         uint64_t current_offset, current_remaining, current_src_offset;
    3189             :         spdk_bdev_io_wait_cb io_wait_fn;
    3190             : 
    3191         305 :         current_offset = *offset;
    3192         305 :         current_remaining = *remaining;
    3193             : 
    3194         305 :         assert(bdev_io->internal.f.split);
    3195             : 
    3196         305 :         bdev_io->internal.split.outstanding++;
    3197             : 
    3198         305 :         io_wait_fn = _bdev_rw_split;
    3199         305 :         switch (bdev_io->type) {
    3200         196 :         case SPDK_BDEV_IO_TYPE_READ:
    3201         196 :                 assert(bdev_io->u.bdev.accel_sequence == NULL);
    3202         784 :                 rc = bdev_readv_blocks_with_md(bdev_io->internal.desc,
    3203         196 :                                                spdk_io_channel_from_ctx(bdev_io->internal.ch),
    3204             :                                                iov, iovcnt, md_buf, current_offset,
    3205             :                                                num_blocks,
    3206         196 :                                                bdev_io_use_memory_domain(bdev_io) ? bdev_io->internal.memory_domain : NULL,
    3207         196 :                                                bdev_io_use_memory_domain(bdev_io) ? bdev_io->internal.memory_domain_ctx : NULL,
    3208             :                                                NULL,
    3209             :                                                bdev_io->u.bdev.dif_check_flags,
    3210             :                                                bdev_io_split_done, bdev_io);
    3211         196 :                 break;
    3212          50 :         case SPDK_BDEV_IO_TYPE_WRITE:
    3213          50 :                 assert(bdev_io->u.bdev.accel_sequence == NULL);
    3214         200 :                 rc = bdev_writev_blocks_with_md(bdev_io->internal.desc,
    3215          50 :                                                 spdk_io_channel_from_ctx(bdev_io->internal.ch),
    3216             :                                                 iov, iovcnt, md_buf, current_offset,
    3217             :                                                 num_blocks,
    3218          50 :                                                 bdev_io_use_memory_domain(bdev_io) ? bdev_io->internal.memory_domain : NULL,
    3219          50 :                                                 bdev_io_use_memory_domain(bdev_io) ? bdev_io->internal.memory_domain_ctx : NULL,
    3220             :                                                 NULL,
    3221             :                                                 bdev_io->u.bdev.dif_check_flags,
    3222             :                                                 bdev_io->u.bdev.nvme_cdw12.raw,
    3223             :                                                 bdev_io->u.bdev.nvme_cdw13.raw,
    3224             :                                                 bdev_io_split_done, bdev_io);
    3225          50 :                 break;
    3226          17 :         case SPDK_BDEV_IO_TYPE_UNMAP:
    3227          17 :                 io_wait_fn = _bdev_unmap_split;
    3228          17 :                 rc = spdk_bdev_unmap_blocks(bdev_io->internal.desc,
    3229          17 :                                             spdk_io_channel_from_ctx(bdev_io->internal.ch),
    3230             :                                             current_offset, num_blocks,
    3231             :                                             bdev_io_split_done, bdev_io);
    3232          17 :                 break;
    3233          23 :         case SPDK_BDEV_IO_TYPE_WRITE_ZEROES:
    3234          23 :                 io_wait_fn = _bdev_write_zeroes_split;
    3235          23 :                 rc = spdk_bdev_write_zeroes_blocks(bdev_io->internal.desc,
    3236          23 :                                                    spdk_io_channel_from_ctx(bdev_io->internal.ch),
    3237             :                                                    current_offset, num_blocks,
    3238             :                                                    bdev_io_split_done, bdev_io);
    3239          23 :                 break;
    3240          19 :         case SPDK_BDEV_IO_TYPE_COPY:
    3241          19 :                 io_wait_fn = _bdev_copy_split;
    3242          19 :                 current_src_offset = bdev_io->u.bdev.copy.src_offset_blocks +
    3243          19 :                                      (current_offset - bdev_io->u.bdev.offset_blocks);
    3244          19 :                 rc = spdk_bdev_copy_blocks(bdev_io->internal.desc,
    3245          19 :                                            spdk_io_channel_from_ctx(bdev_io->internal.ch),
    3246             :                                            current_offset, current_src_offset, num_blocks,
    3247             :                                            bdev_io_split_done, bdev_io);
    3248          19 :                 break;
    3249           0 :         default:
    3250           0 :                 assert(false);
    3251             :                 rc = -EINVAL;
    3252             :                 break;
    3253             :         }
    3254             : 
    3255         305 :         if (rc == 0) {
    3256         301 :                 current_offset += num_blocks;
    3257         301 :                 current_remaining -= num_blocks;
    3258         301 :                 bdev_io->internal.split.current_offset_blocks = current_offset;
    3259         301 :                 bdev_io->internal.split.remaining_num_blocks = current_remaining;
    3260         301 :                 *offset = current_offset;
    3261         301 :                 *remaining = current_remaining;
    3262             :         } else {
    3263           4 :                 bdev_io->internal.split.outstanding--;
    3264           4 :                 if (rc == -ENOMEM) {
    3265           4 :                         if (bdev_io->internal.split.outstanding == 0) {
    3266             :                                 /* No I/O is outstanding. Hence we should wait here. */
    3267           1 :                                 bdev_queue_io_wait_with_cb(bdev_io, io_wait_fn);
    3268             :                         }
    3269             :                 } else {
    3270           0 :                         bdev_io->internal.status = SPDK_BDEV_IO_STATUS_FAILED;
    3271           0 :                         if (bdev_io->internal.split.outstanding == 0) {
    3272           0 :                                 bdev_ch_remove_from_io_submitted(bdev_io);
    3273           0 :                                 spdk_trace_record(TRACE_BDEV_IO_DONE, bdev_io->internal.ch->trace_id,
    3274             :                                                   0, (uintptr_t)bdev_io, bdev_io->internal.caller_ctx,
    3275             :                                                   bdev_io->internal.ch->queue_depth);
    3276           0 :                                 bdev_io->internal.cb(bdev_io, false, bdev_io->internal.caller_ctx);
    3277             :                         }
    3278             :                 }
    3279             :         }
    3280             : 
    3281         305 :         return rc;
    3282             : }
    3283             : 
    3284             : static void
    3285          67 : _bdev_rw_split(void *_bdev_io)
    3286             : {
    3287             :         struct iovec *parent_iov, *iov;
    3288          67 :         struct spdk_bdev_io *bdev_io = _bdev_io;
    3289          67 :         struct spdk_bdev *bdev = bdev_io->bdev;
    3290          67 :         uint64_t parent_offset, current_offset, remaining;
    3291             :         uint32_t parent_iov_offset, parent_iovcnt, parent_iovpos, child_iovcnt;
    3292             :         uint32_t to_next_boundary, to_next_boundary_bytes, to_last_block_bytes;
    3293             :         uint32_t iovcnt, iov_len, child_iovsize;
    3294             :         uint32_t blocklen;
    3295             :         uint32_t io_boundary;
    3296          67 :         uint32_t max_segment_size = bdev->max_segment_size;
    3297          67 :         uint32_t max_child_iovcnt = bdev->max_num_segments;
    3298          67 :         uint32_t max_size = bdev->max_rw_size;
    3299          67 :         void *md_buf = NULL;
    3300             :         int rc;
    3301             : 
    3302          67 :         blocklen = bdev_io_get_block_size(bdev_io);
    3303             : 
    3304          67 :         max_size = max_size ? max_size : UINT32_MAX;
    3305          67 :         max_segment_size = max_segment_size ? max_segment_size : UINT32_MAX;
    3306          67 :         max_child_iovcnt = max_child_iovcnt ? spdk_min(max_child_iovcnt, SPDK_BDEV_IO_NUM_CHILD_IOV) :
    3307             :                            SPDK_BDEV_IO_NUM_CHILD_IOV;
    3308             : 
    3309          67 :         if (bdev_io->type == SPDK_BDEV_IO_TYPE_WRITE && bdev->split_on_write_unit) {
    3310           5 :                 io_boundary = bdev->write_unit_size;
    3311          62 :         } else if (bdev->split_on_optimal_io_boundary) {
    3312          40 :                 io_boundary = bdev->optimal_io_boundary;
    3313             :         } else {
    3314          22 :                 io_boundary = UINT32_MAX;
    3315             :         }
    3316             : 
    3317          67 :         assert(bdev_io->internal.f.split);
    3318             : 
    3319          67 :         remaining = bdev_io->internal.split.remaining_num_blocks;
    3320          67 :         current_offset = bdev_io->internal.split.current_offset_blocks;
    3321          67 :         parent_offset = bdev_io->u.bdev.offset_blocks;
    3322          67 :         parent_iov_offset = (current_offset - parent_offset) * blocklen;
    3323          67 :         parent_iovcnt = bdev_io->u.bdev.iovcnt;
    3324             : 
    3325         420 :         for (parent_iovpos = 0; parent_iovpos < parent_iovcnt; parent_iovpos++) {
    3326         420 :                 parent_iov = &bdev_io->u.bdev.iovs[parent_iovpos];
    3327         420 :                 if (parent_iov_offset < parent_iov->iov_len) {
    3328          67 :                         break;
    3329             :                 }
    3330         353 :                 parent_iov_offset -= parent_iov->iov_len;
    3331             :         }
    3332             : 
    3333          67 :         child_iovcnt = 0;
    3334         309 :         while (remaining > 0 && parent_iovpos < parent_iovcnt &&
    3335             :                child_iovcnt < SPDK_BDEV_IO_NUM_CHILD_IOV) {
    3336         249 :                 to_next_boundary = _to_next_boundary(current_offset, io_boundary);
    3337         249 :                 to_next_boundary = spdk_min(remaining, to_next_boundary);
    3338         249 :                 to_next_boundary = spdk_min(max_size, to_next_boundary);
    3339         249 :                 to_next_boundary_bytes = to_next_boundary * blocklen;
    3340             : 
    3341         249 :                 iov = &bdev_io->child_iov[child_iovcnt];
    3342         249 :                 iovcnt = 0;
    3343             : 
    3344         249 :                 if (bdev_io->u.bdev.md_buf) {
    3345          48 :                         md_buf = (char *)bdev_io->u.bdev.md_buf +
    3346          24 :                                  (current_offset - parent_offset) * spdk_bdev_get_md_size(bdev);
    3347             :                 }
    3348             : 
    3349         249 :                 child_iovsize = spdk_min(SPDK_BDEV_IO_NUM_CHILD_IOV - child_iovcnt, max_child_iovcnt);
    3350         974 :                 while (to_next_boundary_bytes > 0 && parent_iovpos < parent_iovcnt &&
    3351             :                        iovcnt < child_iovsize) {
    3352         725 :                         parent_iov = &bdev_io->u.bdev.iovs[parent_iovpos];
    3353         725 :                         iov_len = parent_iov->iov_len - parent_iov_offset;
    3354             : 
    3355         725 :                         iov_len = spdk_min(iov_len, max_segment_size);
    3356         725 :                         iov_len = spdk_min(iov_len, to_next_boundary_bytes);
    3357         725 :                         to_next_boundary_bytes -= iov_len;
    3358             : 
    3359         725 :                         bdev_io->child_iov[child_iovcnt].iov_base = parent_iov->iov_base + parent_iov_offset;
    3360         725 :                         bdev_io->child_iov[child_iovcnt].iov_len = iov_len;
    3361             : 
    3362         725 :                         if (iov_len < parent_iov->iov_len - parent_iov_offset) {
    3363         183 :                                 parent_iov_offset += iov_len;
    3364             :                         } else {
    3365         542 :                                 parent_iovpos++;
    3366         542 :                                 parent_iov_offset = 0;
    3367             :                         }
    3368         725 :                         child_iovcnt++;
    3369         725 :                         iovcnt++;
    3370             :                 }
    3371             : 
    3372         249 :                 if (to_next_boundary_bytes > 0) {
    3373             :                         /* We had to stop this child I/O early because we ran out of
    3374             :                          * child_iov space or were limited by max_num_segments.
    3375             :                          * Ensure the iovs to be aligned with block size and
    3376             :                          * then adjust to_next_boundary before starting the
    3377             :                          * child I/O.
    3378             :                          */
    3379         111 :                         assert(child_iovcnt == SPDK_BDEV_IO_NUM_CHILD_IOV ||
    3380             :                                iovcnt == child_iovsize);
    3381         111 :                         to_last_block_bytes = to_next_boundary_bytes % blocklen;
    3382         111 :                         if (to_last_block_bytes != 0) {
    3383          24 :                                 uint32_t child_iovpos = child_iovcnt - 1;
    3384             :                                 /* don't decrease child_iovcnt when it equals to SPDK_BDEV_IO_NUM_CHILD_IOV
    3385             :                                  * so the loop will naturally end
    3386             :                                  */
    3387             : 
    3388          24 :                                 to_last_block_bytes = blocklen - to_last_block_bytes;
    3389          24 :                                 to_next_boundary_bytes += to_last_block_bytes;
    3390          53 :                                 while (to_last_block_bytes > 0 && iovcnt > 0) {
    3391          32 :                                         iov_len = spdk_min(to_last_block_bytes,
    3392             :                                                            bdev_io->child_iov[child_iovpos].iov_len);
    3393          32 :                                         bdev_io->child_iov[child_iovpos].iov_len -= iov_len;
    3394          32 :                                         if (bdev_io->child_iov[child_iovpos].iov_len == 0) {
    3395          15 :                                                 child_iovpos--;
    3396          15 :                                                 if (--iovcnt == 0) {
    3397             :                                                         /* If the child IO is less than a block size just return.
    3398             :                                                          * If the first child IO of any split round is less than
    3399             :                                                          * a block size, an error exit.
    3400             :                                                          */
    3401           3 :                                                         if (bdev_io->internal.split.outstanding == 0) {
    3402           1 :                                                                 SPDK_ERRLOG("The first child io was less than a block size\n");
    3403           1 :                                                                 bdev_io->internal.status = SPDK_BDEV_IO_STATUS_FAILED;
    3404           1 :                                                                 bdev_ch_remove_from_io_submitted(bdev_io);
    3405           1 :                                                                 spdk_trace_record(TRACE_BDEV_IO_DONE, bdev_io->internal.ch->trace_id,
    3406             :                                                                                   0, (uintptr_t)bdev_io, bdev_io->internal.caller_ctx,
    3407             :                                                                                   bdev_io->internal.ch->queue_depth);
    3408           1 :                                                                 bdev_io->internal.cb(bdev_io, false, bdev_io->internal.caller_ctx);
    3409             :                                                         }
    3410             : 
    3411           3 :                                                         return;
    3412             :                                                 }
    3413             :                                         }
    3414             : 
    3415          29 :                                         to_last_block_bytes -= iov_len;
    3416             : 
    3417          29 :                                         if (parent_iov_offset == 0) {
    3418          14 :                                                 parent_iovpos--;
    3419          14 :                                                 parent_iov_offset = bdev_io->u.bdev.iovs[parent_iovpos].iov_len;
    3420             :                                         }
    3421          29 :                                         parent_iov_offset -= iov_len;
    3422             :                                 }
    3423             : 
    3424          21 :                                 assert(to_last_block_bytes == 0);
    3425             :                         }
    3426         108 :                         to_next_boundary -= to_next_boundary_bytes / blocklen;
    3427             :                 }
    3428             : 
    3429         246 :                 rc = bdev_io_split_submit(bdev_io, iov, iovcnt, md_buf, to_next_boundary,
    3430             :                                           &current_offset, &remaining);
    3431         246 :                 if (spdk_unlikely(rc)) {
    3432           4 :                         return;
    3433             :                 }
    3434             :         }
    3435             : }
    3436             : 
    3437             : static void
    3438           3 : bdev_unmap_split(struct spdk_bdev_io *bdev_io)
    3439             : {
    3440           3 :         uint64_t offset, unmap_blocks, remaining, max_unmap_blocks;
    3441           3 :         uint32_t num_children_reqs = 0;
    3442             :         int rc;
    3443             : 
    3444           3 :         assert(bdev_io->internal.f.split);
    3445             : 
    3446           3 :         offset = bdev_io->internal.split.current_offset_blocks;
    3447           3 :         remaining = bdev_io->internal.split.remaining_num_blocks;
    3448           3 :         max_unmap_blocks = bdev_io->bdev->max_unmap * bdev_io->bdev->max_unmap_segments;
    3449             : 
    3450          20 :         while (remaining && (num_children_reqs < SPDK_BDEV_MAX_CHILDREN_UNMAP_WRITE_ZEROES_REQS)) {
    3451          17 :                 unmap_blocks = spdk_min(remaining, max_unmap_blocks);
    3452             : 
    3453          17 :                 rc = bdev_io_split_submit(bdev_io, NULL, 0, NULL, unmap_blocks,
    3454             :                                           &offset, &remaining);
    3455          17 :                 if (spdk_likely(rc == 0)) {
    3456          17 :                         num_children_reqs++;
    3457             :                 } else {
    3458           0 :                         return;
    3459             :                 }
    3460             :         }
    3461             : }
    3462             : 
    3463             : static void
    3464           6 : bdev_write_zeroes_split(struct spdk_bdev_io *bdev_io)
    3465             : {
    3466           6 :         uint64_t offset, write_zeroes_blocks, remaining;
    3467           6 :         uint32_t num_children_reqs = 0;
    3468             :         int rc;
    3469             : 
    3470           6 :         assert(bdev_io->internal.f.split);
    3471             : 
    3472           6 :         offset = bdev_io->internal.split.current_offset_blocks;
    3473           6 :         remaining = bdev_io->internal.split.remaining_num_blocks;
    3474             : 
    3475          29 :         while (remaining && (num_children_reqs < SPDK_BDEV_MAX_CHILDREN_UNMAP_WRITE_ZEROES_REQS)) {
    3476          23 :                 write_zeroes_blocks = spdk_min(remaining, bdev_io->bdev->max_write_zeroes);
    3477             : 
    3478          23 :                 rc = bdev_io_split_submit(bdev_io, NULL, 0, NULL, write_zeroes_blocks,
    3479             :                                           &offset, &remaining);
    3480          23 :                 if (spdk_likely(rc == 0)) {
    3481          23 :                         num_children_reqs++;
    3482             :                 } else {
    3483           0 :                         return;
    3484             :                 }
    3485             :         }
    3486             : }
    3487             : 
    3488             : static void
    3489           4 : bdev_copy_split(struct spdk_bdev_io *bdev_io)
    3490             : {
    3491           4 :         uint64_t offset, copy_blocks, remaining;
    3492           4 :         uint32_t num_children_reqs = 0;
    3493             :         int rc;
    3494             : 
    3495           4 :         assert(bdev_io->internal.f.split);
    3496             : 
    3497           4 :         offset = bdev_io->internal.split.current_offset_blocks;
    3498           4 :         remaining = bdev_io->internal.split.remaining_num_blocks;
    3499             : 
    3500           4 :         assert(bdev_io->bdev->max_copy != 0);
    3501          23 :         while (remaining && (num_children_reqs < SPDK_BDEV_MAX_CHILDREN_COPY_REQS)) {
    3502          19 :                 copy_blocks = spdk_min(remaining, bdev_io->bdev->max_copy);
    3503             : 
    3504          19 :                 rc = bdev_io_split_submit(bdev_io, NULL, 0, NULL, copy_blocks,
    3505             :                                           &offset, &remaining);
    3506          19 :                 if (spdk_likely(rc == 0)) {
    3507          19 :                         num_children_reqs++;
    3508             :                 } else {
    3509           0 :                         return;
    3510             :                 }
    3511             :         }
    3512             : }
    3513             : 
    3514             : static void
    3515          58 : parent_bdev_io_complete(void *ctx, int rc)
    3516             : {
    3517          58 :         struct spdk_bdev_io *parent_io = ctx;
    3518             : 
    3519          58 :         if (rc) {
    3520           0 :                 parent_io->internal.status = SPDK_BDEV_IO_STATUS_FAILED;
    3521             :         }
    3522             : 
    3523          58 :         parent_io->internal.cb(parent_io, parent_io->internal.status == SPDK_BDEV_IO_STATUS_SUCCESS,
    3524             :                                parent_io->internal.caller_ctx);
    3525          58 : }
    3526             : 
    3527             : static void
    3528           0 : bdev_io_complete_parent_sequence_cb(void *ctx, int status)
    3529             : {
    3530           0 :         struct spdk_bdev_io *bdev_io = ctx;
    3531             : 
    3532             :         /* u.bdev.accel_sequence should have already been cleared at this point */
    3533           0 :         assert(bdev_io->u.bdev.accel_sequence == NULL);
    3534           0 :         assert(bdev_io->internal.status == SPDK_BDEV_IO_STATUS_SUCCESS);
    3535           0 :         bdev_io->internal.f.has_accel_sequence = false;
    3536             : 
    3537           0 :         if (spdk_unlikely(status != 0)) {
    3538           0 :                 SPDK_ERRLOG("Failed to execute accel sequence, status=%d\n", status);
    3539             :         }
    3540             : 
    3541           0 :         parent_bdev_io_complete(bdev_io, status);
    3542           0 : }
    3543             : 
    3544             : static void
    3545         301 : bdev_io_split_done(struct spdk_bdev_io *bdev_io, bool success, void *cb_arg)
    3546             : {
    3547         301 :         struct spdk_bdev_io *parent_io = cb_arg;
    3548             : 
    3549         301 :         spdk_bdev_free_io(bdev_io);
    3550             : 
    3551         301 :         assert(parent_io->internal.f.split);
    3552             : 
    3553         301 :         if (!success) {
    3554          21 :                 parent_io->internal.status = SPDK_BDEV_IO_STATUS_FAILED;
    3555             :                 /* If any child I/O failed, stop further splitting process. */
    3556          21 :                 parent_io->internal.split.current_offset_blocks += parent_io->internal.split.remaining_num_blocks;
    3557          21 :                 parent_io->internal.split.remaining_num_blocks = 0;
    3558             :         }
    3559         301 :         parent_io->internal.split.outstanding--;
    3560         301 :         if (parent_io->internal.split.outstanding != 0) {
    3561         223 :                 return;
    3562             :         }
    3563             : 
    3564             :         /*
    3565             :          * Parent I/O finishes when all blocks are consumed.
    3566             :          */
    3567          78 :         if (parent_io->internal.split.remaining_num_blocks == 0) {
    3568          58 :                 assert(parent_io->internal.cb != bdev_io_split_done);
    3569          58 :                 bdev_ch_remove_from_io_submitted(parent_io);
    3570          58 :                 spdk_trace_record(TRACE_BDEV_IO_DONE, parent_io->internal.ch->trace_id,
    3571             :                                   0, (uintptr_t)parent_io, bdev_io->internal.caller_ctx,
    3572             :                                   parent_io->internal.ch->queue_depth);
    3573             : 
    3574          58 :                 if (spdk_likely(parent_io->internal.status == SPDK_BDEV_IO_STATUS_SUCCESS)) {
    3575          48 :                         if (bdev_io_needs_sequence_exec(parent_io->internal.desc, parent_io)) {
    3576           0 :                                 bdev_io_exec_sequence(parent_io, bdev_io_complete_parent_sequence_cb);
    3577           0 :                                 return;
    3578          48 :                         } else if (parent_io->internal.f.has_bounce_buf &&
    3579           0 :                                    !bdev_io_use_accel_sequence(bdev_io)) {
    3580             :                                 /* bdev IO will be completed in the callback */
    3581           0 :                                 _bdev_io_push_bounce_data_buffer(parent_io, parent_bdev_io_complete);
    3582           0 :                                 return;
    3583             :                         }
    3584             :                 }
    3585             : 
    3586          58 :                 parent_bdev_io_complete(parent_io, 0);
    3587          58 :                 return;
    3588             :         }
    3589             : 
    3590             :         /*
    3591             :          * Continue with the splitting process.  This function will complete the parent I/O if the
    3592             :          * splitting is done.
    3593             :          */
    3594          20 :         switch (parent_io->type) {
    3595          17 :         case SPDK_BDEV_IO_TYPE_READ:
    3596             :         case SPDK_BDEV_IO_TYPE_WRITE:
    3597          17 :                 _bdev_rw_split(parent_io);
    3598          17 :                 break;
    3599           1 :         case SPDK_BDEV_IO_TYPE_UNMAP:
    3600           1 :                 bdev_unmap_split(parent_io);
    3601           1 :                 break;
    3602           1 :         case SPDK_BDEV_IO_TYPE_WRITE_ZEROES:
    3603           1 :                 bdev_write_zeroes_split(parent_io);
    3604           1 :                 break;
    3605           1 :         case SPDK_BDEV_IO_TYPE_COPY:
    3606           1 :                 bdev_copy_split(parent_io);
    3607           1 :                 break;
    3608           0 :         default:
    3609           0 :                 assert(false);
    3610             :                 break;
    3611             :         }
    3612             : }
    3613             : 
    3614             : static void bdev_rw_split_get_buf_cb(struct spdk_io_channel *ch, struct spdk_bdev_io *bdev_io,
    3615             :                                      bool success);
    3616             : 
    3617             : static void
    3618          59 : bdev_io_split(struct spdk_bdev_io *bdev_io)
    3619             : {
    3620          59 :         assert(bdev_io_should_split(bdev_io));
    3621          59 :         assert(bdev_io->internal.f.split);
    3622             : 
    3623          59 :         bdev_io->internal.split.current_offset_blocks = bdev_io->u.bdev.offset_blocks;
    3624          59 :         bdev_io->internal.split.remaining_num_blocks = bdev_io->u.bdev.num_blocks;
    3625          59 :         bdev_io->internal.split.outstanding = 0;
    3626          59 :         bdev_io->internal.status = SPDK_BDEV_IO_STATUS_SUCCESS;
    3627             : 
    3628          59 :         switch (bdev_io->type) {
    3629          49 :         case SPDK_BDEV_IO_TYPE_READ:
    3630             :         case SPDK_BDEV_IO_TYPE_WRITE:
    3631          49 :                 if (_is_buf_allocated(bdev_io->u.bdev.iovs)) {
    3632          49 :                         _bdev_rw_split(bdev_io);
    3633             :                 } else {
    3634           0 :                         assert(bdev_io->type == SPDK_BDEV_IO_TYPE_READ);
    3635           0 :                         spdk_bdev_io_get_buf(bdev_io, bdev_rw_split_get_buf_cb,
    3636           0 :                                              bdev_io->u.bdev.num_blocks * bdev_io_get_block_size(bdev_io));
    3637             :                 }
    3638          49 :                 break;
    3639           2 :         case SPDK_BDEV_IO_TYPE_UNMAP:
    3640           2 :                 bdev_unmap_split(bdev_io);
    3641           2 :                 break;
    3642           5 :         case SPDK_BDEV_IO_TYPE_WRITE_ZEROES:
    3643           5 :                 bdev_write_zeroes_split(bdev_io);
    3644           5 :                 break;
    3645           3 :         case SPDK_BDEV_IO_TYPE_COPY:
    3646           3 :                 bdev_copy_split(bdev_io);
    3647           3 :                 break;
    3648           0 :         default:
    3649           0 :                 assert(false);
    3650             :                 break;
    3651             :         }
    3652          59 : }
    3653             : 
    3654             : static void
    3655           0 : bdev_rw_split_get_buf_cb(struct spdk_io_channel *ch, struct spdk_bdev_io *bdev_io, bool success)
    3656             : {
    3657           0 :         if (!success) {
    3658           0 :                 spdk_bdev_io_complete(bdev_io, SPDK_BDEV_IO_STATUS_FAILED);
    3659           0 :                 return;
    3660             :         }
    3661             : 
    3662           0 :         _bdev_rw_split(bdev_io);
    3663             : }
    3664             : 
    3665             : static inline void
    3666         579 : _bdev_io_submit(struct spdk_bdev_io *bdev_io)
    3667             : {
    3668         579 :         struct spdk_bdev *bdev = bdev_io->bdev;
    3669         579 :         struct spdk_bdev_channel *bdev_ch = bdev_io->internal.ch;
    3670             : 
    3671         579 :         if (spdk_likely(bdev_ch->flags == 0)) {
    3672         554 :                 bdev_io_do_submit(bdev_ch, bdev_io);
    3673         554 :                 return;
    3674             :         }
    3675             : 
    3676          25 :         if (bdev_ch->flags & BDEV_CH_RESET_IN_PROGRESS) {
    3677           2 :                 _bdev_io_complete_in_submit(bdev_ch, bdev_io, SPDK_BDEV_IO_STATUS_ABORTED);
    3678          23 :         } else if (bdev_ch->flags & BDEV_CH_QOS_ENABLED) {
    3679          25 :                 if (spdk_unlikely(bdev_io->type == SPDK_BDEV_IO_TYPE_ABORT) &&
    3680           2 :                     bdev_abort_queued_io(&bdev_ch->qos_queued_io, bdev_io->u.abort.bio_to_abort)) {
    3681           0 :                         _bdev_io_complete_in_submit(bdev_ch, bdev_io, SPDK_BDEV_IO_STATUS_SUCCESS);
    3682             :                 } else {
    3683          23 :                         TAILQ_INSERT_TAIL(&bdev_ch->qos_queued_io, bdev_io, internal.link);
    3684          23 :                         bdev_qos_io_submit(bdev_ch, bdev->internal.qos);
    3685             :                 }
    3686             :         } else {
    3687           0 :                 SPDK_ERRLOG("unknown bdev_ch flag %x found\n", bdev_ch->flags);
    3688           0 :                 _bdev_io_complete_in_submit(bdev_ch, bdev_io, SPDK_BDEV_IO_STATUS_FAILED);
    3689             :         }
    3690             : }
    3691             : 
    3692             : bool bdev_lba_range_overlapped(struct lba_range *range1, struct lba_range *range2);
    3693             : 
    3694             : bool
    3695          23 : bdev_lba_range_overlapped(struct lba_range *range1, struct lba_range *range2)
    3696             : {
    3697          23 :         if (range1->length == 0 || range2->length == 0) {
    3698           1 :                 return false;
    3699             :         }
    3700             : 
    3701          22 :         if (range1->offset + range1->length <= range2->offset) {
    3702           1 :                 return false;
    3703             :         }
    3704             : 
    3705          21 :         if (range2->offset + range2->length <= range1->offset) {
    3706           3 :                 return false;
    3707             :         }
    3708             : 
    3709          18 :         return true;
    3710             : }
    3711             : 
    3712             : static bool
    3713          11 : bdev_io_range_is_locked(struct spdk_bdev_io *bdev_io, struct lba_range *range)
    3714             : {
    3715          11 :         struct spdk_bdev_channel *ch = bdev_io->internal.ch;
    3716          11 :         struct lba_range r;
    3717             : 
    3718          11 :         switch (bdev_io->type) {
    3719           0 :         case SPDK_BDEV_IO_TYPE_NVME_IO:
    3720             :         case SPDK_BDEV_IO_TYPE_NVME_IO_MD:
    3721             :                 /* Don't try to decode the NVMe command - just assume worst-case and that
    3722             :                  * it overlaps a locked range.
    3723             :                  */
    3724           0 :                 return true;
    3725           6 :         case SPDK_BDEV_IO_TYPE_READ:
    3726           6 :                 if (!range->quiesce) {
    3727           4 :                         return false;
    3728             :                 }
    3729             :         /* fallthrough */
    3730             :         case SPDK_BDEV_IO_TYPE_WRITE:
    3731             :         case SPDK_BDEV_IO_TYPE_UNMAP:
    3732             :         case SPDK_BDEV_IO_TYPE_WRITE_ZEROES:
    3733             :         case SPDK_BDEV_IO_TYPE_ZCOPY:
    3734             :         case SPDK_BDEV_IO_TYPE_COPY:
    3735           7 :                 r.offset = bdev_io->u.bdev.offset_blocks;
    3736           7 :                 r.length = bdev_io->u.bdev.num_blocks;
    3737           7 :                 if (!bdev_lba_range_overlapped(range, &r)) {
    3738             :                         /* This I/O doesn't overlap the specified LBA range. */
    3739           0 :                         return false;
    3740           7 :                 } else if (range->owner_ch == ch && range->locked_ctx == bdev_io->internal.caller_ctx) {
    3741             :                         /* This I/O overlaps, but the I/O is on the same channel that locked this
    3742             :                          * range, and the caller_ctx is the same as the locked_ctx.  This means
    3743             :                          * that this I/O is associated with the lock, and is allowed to execute.
    3744             :                          */
    3745           2 :                         return false;
    3746             :                 } else {
    3747           5 :                         return true;
    3748             :                 }
    3749           0 :         default:
    3750           0 :                 return false;
    3751             :         }
    3752             : }
    3753             : 
    3754             : void
    3755         639 : bdev_io_submit(struct spdk_bdev_io *bdev_io)
    3756             : {
    3757         639 :         struct spdk_bdev_channel *ch = bdev_io->internal.ch;
    3758             : 
    3759         639 :         assert(bdev_io->internal.status == SPDK_BDEV_IO_STATUS_PENDING);
    3760             : 
    3761         639 :         if (!TAILQ_EMPTY(&ch->locked_ranges)) {
    3762             :                 struct lba_range *range;
    3763             : 
    3764          13 :                 TAILQ_FOREACH(range, &ch->locked_ranges, tailq) {
    3765           8 :                         if (bdev_io_range_is_locked(bdev_io, range)) {
    3766           3 :                                 TAILQ_INSERT_TAIL(&ch->io_locked, bdev_io, internal.ch_link);
    3767           3 :                                 return;
    3768             :                         }
    3769             :                 }
    3770             :         }
    3771             : 
    3772         636 :         bdev_ch_add_to_io_submitted(bdev_io);
    3773             : 
    3774         636 :         bdev_io->internal.submit_tsc = spdk_get_ticks();
    3775         636 :         spdk_trace_record_tsc(bdev_io->internal.submit_tsc, TRACE_BDEV_IO_START,
    3776             :                               ch->trace_id, bdev_io->u.bdev.num_blocks,
    3777             :                               (uintptr_t)bdev_io, (uint64_t)bdev_io->type, bdev_io->internal.caller_ctx,
    3778             :                               bdev_io->u.bdev.offset_blocks, ch->queue_depth);
    3779             : 
    3780         636 :         if (bdev_io->internal.f.split) {
    3781          59 :                 bdev_io_split(bdev_io);
    3782          59 :                 return;
    3783             :         }
    3784             : 
    3785         577 :         _bdev_io_submit(bdev_io);
    3786             : }
    3787             : 
    3788             : static inline int
    3789           2 : bdev_io_init_dif_ctx(struct spdk_bdev_io *bdev_io)
    3790             : {
    3791           2 :         struct spdk_bdev *bdev = bdev_io->bdev;
    3792           2 :         struct spdk_dif_ctx_init_ext_opts dif_opts;
    3793             : 
    3794           2 :         memset(&bdev_io->u.bdev.dif_err, 0, sizeof(struct spdk_dif_error));
    3795             : 
    3796           2 :         dif_opts.size = SPDK_SIZEOF(&dif_opts, dif_pi_format);
    3797           2 :         dif_opts.dif_pi_format = bdev->dif_pi_format;
    3798             : 
    3799           4 :         return spdk_dif_ctx_init(&bdev_io->u.bdev.dif_ctx,
    3800             :                                  bdev->blocklen,
    3801             :                                  bdev->md_len,
    3802           2 :                                  bdev->md_interleave,
    3803           2 :                                  bdev->dif_is_head_of_md,
    3804             :                                  bdev->dif_type,
    3805             :                                  bdev_io->u.bdev.dif_check_flags,
    3806           2 :                                  bdev_io->u.bdev.offset_blocks & 0xFFFFFFFF,
    3807             :                                  0xFFFF, 0, 0, 0, &dif_opts);
    3808             : }
    3809             : 
    3810             : static void
    3811           4 : _bdev_memory_domain_get_io_cb(struct spdk_io_channel *ch, struct spdk_bdev_io *bdev_io,
    3812             :                               bool success)
    3813             : {
    3814           4 :         if (!success) {
    3815           0 :                 SPDK_ERRLOG("Failed to get data buffer, completing IO\n");
    3816           0 :                 bdev_io->internal.status = SPDK_BDEV_IO_STATUS_FAILED;
    3817           0 :                 bdev_io_complete_unsubmitted(bdev_io);
    3818           0 :                 return;
    3819             :         }
    3820             : 
    3821           4 :         if (bdev_io_needs_sequence_exec(bdev_io->internal.desc, bdev_io)) {
    3822           0 :                 if (bdev_io->type == SPDK_BDEV_IO_TYPE_WRITE) {
    3823           0 :                         bdev_io_exec_sequence(bdev_io, bdev_io_submit_sequence_cb);
    3824           0 :                         return;
    3825             :                 }
    3826             :                 /* For reads we'll execute the sequence after the data is read, so, for now, only
    3827             :                  * clear out accel_sequence pointer and submit the IO */
    3828           0 :                 assert(bdev_io->type == SPDK_BDEV_IO_TYPE_READ);
    3829           0 :                 bdev_io->u.bdev.accel_sequence = NULL;
    3830             :         }
    3831             : 
    3832           4 :         bdev_io_submit(bdev_io);
    3833             : }
    3834             : 
    3835             : static inline void
    3836           4 : _bdev_io_ext_use_bounce_buffer(struct spdk_bdev_io *bdev_io)
    3837             : {
    3838             :         /* bdev doesn't support memory domains, thereby buffers in this IO request can't
    3839             :          * be accessed directly. It is needed to allocate buffers before issuing IO operation.
    3840             :          * For write operation we need to pull buffers from memory domain before submitting IO.
    3841             :          * Once read operation completes, we need to use memory_domain push functionality to
    3842             :          * update data in original memory domain IO buffer.
    3843             :          *
    3844             :          * If this I/O request is not aware of metadata, buffers in thsi IO request can't be
    3845             :          * accessed directly too. It is needed to allocate buffers before issuing IO operation.
    3846             :          * For write operation we need to insert metadata before submitting IO. Once read
    3847             :          * operation completes, we need to strip metadata in original IO buffer.
    3848             :          *
    3849             :          * This IO request will go through a regular IO flow, so clear memory domains pointers */
    3850           4 :         assert(bdev_io_use_memory_domain(bdev_io) ||
    3851             :                bdev_io_needs_metadata(bdev_io->internal.desc, bdev_io));
    3852             : 
    3853           4 :         bdev_io->u.bdev.memory_domain = NULL;
    3854           4 :         bdev_io->u.bdev.memory_domain_ctx = NULL;
    3855           4 :         _bdev_io_get_bounce_buf(bdev_io, _bdev_memory_domain_get_io_cb,
    3856           4 :                                 bdev_io->u.bdev.num_blocks * bdev_io->bdev->blocklen);
    3857           4 : }
    3858             : 
    3859             : static inline void
    3860           0 : _bdev_io_ext_use_accel_buffer(struct spdk_bdev_io *bdev_io)
    3861             : {
    3862           0 :         assert(bdev_io_use_memory_domain(bdev_io));
    3863           0 :         assert(bdev_io_needs_metadata(bdev_io->internal.desc, bdev_io));
    3864             : 
    3865           0 :         bdev_io->u.bdev.memory_domain = NULL;
    3866           0 :         bdev_io->u.bdev.memory_domain_ctx = NULL;
    3867           0 :         bdev_io_get_accel_buf(bdev_io, _bdev_memory_domain_get_io_cb,
    3868           0 :                               bdev_io->u.bdev.num_blocks * bdev_io->bdev->blocklen);
    3869           0 : }
    3870             : 
    3871             : /* We need to allocate bounce buffer
    3872             :  * - if bdev doesn't support memory domains,
    3873             :  * -  if it does support them, but we need to execute an accel sequence and the data buffer is
    3874             :  *    from accel memory domain (to avoid doing a push/pull from that domain), or
    3875             :  * - if IO is not aware of metadata.
    3876             :  */
    3877             : static inline bool
    3878         292 : bdev_io_needs_bounce_buffer(struct spdk_bdev_desc *desc, struct spdk_bdev_io *bdev_io)
    3879             : {
    3880         292 :         if (bdev_io_use_memory_domain(bdev_io)) {
    3881           4 :                 if (!desc->memory_domains_supported ||
    3882           0 :                     (bdev_io_needs_sequence_exec(desc, bdev_io) &&
    3883           0 :                      (bdev_io->internal.memory_domain == spdk_accel_get_memory_domain() ||
    3884           0 :                       bdev_io_needs_metadata(desc, bdev_io)))) {
    3885           4 :                         return true;
    3886             :                 }
    3887             : 
    3888           0 :                 return false;
    3889             :         }
    3890             : 
    3891         288 :         if (bdev_io_needs_metadata(desc, bdev_io)) {
    3892           0 :                 return true;
    3893             :         }
    3894             : 
    3895         288 :         return false;
    3896             : }
    3897             : 
    3898             : /* We need to allocate fake accel buffer if bdev supports memory domains but IO is not
    3899             :  * aware of metadata.
    3900             :  */
    3901             : static inline bool
    3902         288 : bdev_io_needs_accel_buffer(struct spdk_bdev_desc *desc, struct spdk_bdev_io *bdev_io)
    3903             : {
    3904         288 :         if (bdev_io_needs_metadata(desc, bdev_io)) {
    3905           0 :                 assert(bdev_io_use_memory_domain(bdev_io));
    3906           0 :                 return true;
    3907             :         }
    3908             : 
    3909         288 :         return false;
    3910             : }
    3911             : 
    3912             : static inline void
    3913         292 : _bdev_io_submit_ext(struct spdk_bdev_desc *desc, struct spdk_bdev_io *bdev_io)
    3914             : {
    3915         292 :         struct spdk_bdev_channel *ch = bdev_io->internal.ch;
    3916             :         int rc;
    3917             : 
    3918         292 :         if (spdk_unlikely(ch->flags & BDEV_CH_RESET_IN_PROGRESS)) {
    3919           0 :                 bdev_io->internal.status = SPDK_BDEV_IO_STATUS_ABORTED;
    3920           0 :                 bdev_io_complete_unsubmitted(bdev_io);
    3921           0 :                 return;
    3922             :         }
    3923             : 
    3924         292 :         if (bdev_io_needs_metadata(desc, bdev_io)) {
    3925           0 :                 rc = bdev_io_init_dif_ctx(bdev_io);
    3926           0 :                 if (spdk_unlikely(rc != 0)) {
    3927           0 :                         bdev_io->internal.status = SPDK_BDEV_IO_STATUS_FAILED;
    3928           0 :                         bdev_io_complete_unsubmitted(bdev_io);
    3929           0 :                         return;
    3930             :                 }
    3931             :         }
    3932             : 
    3933         292 :         if (bdev_io_needs_bounce_buffer(desc, bdev_io)) {
    3934           4 :                 _bdev_io_ext_use_bounce_buffer(bdev_io);
    3935           4 :                 return;
    3936             :         }
    3937             : 
    3938         288 :         if (bdev_io_needs_accel_buffer(desc, bdev_io)) {
    3939           0 :                 _bdev_io_ext_use_accel_buffer(bdev_io);
    3940           0 :                 return;
    3941             :         }
    3942             : 
    3943         288 :         if (bdev_io_needs_sequence_exec(desc, bdev_io)) {
    3944           0 :                 if (bdev_io->type == SPDK_BDEV_IO_TYPE_WRITE) {
    3945           0 :                         bdev_io_exec_sequence(bdev_io, bdev_io_submit_sequence_cb);
    3946           0 :                         return;
    3947             :                 }
    3948             :                 /* For reads we'll execute the sequence after the data is read, so, for now, only
    3949             :                  * clear out accel_sequence pointer and submit the IO */
    3950           0 :                 assert(bdev_io->type == SPDK_BDEV_IO_TYPE_READ);
    3951           0 :                 bdev_io->u.bdev.accel_sequence = NULL;
    3952             :         }
    3953             : 
    3954         288 :         bdev_io_submit(bdev_io);
    3955             : }
    3956             : 
    3957             : static void
    3958          12 : bdev_io_submit_reset(struct spdk_bdev_io *bdev_io)
    3959             : {
    3960          12 :         struct spdk_bdev *bdev = bdev_io->bdev;
    3961          12 :         struct spdk_bdev_channel *bdev_ch = bdev_io->internal.ch;
    3962          12 :         struct spdk_io_channel *ch = bdev_ch->channel;
    3963             : 
    3964          12 :         assert(bdev_io->internal.status == SPDK_BDEV_IO_STATUS_PENDING);
    3965             : 
    3966          12 :         bdev_io->internal.f.in_submit_request = true;
    3967          12 :         bdev_submit_request(bdev, ch, bdev_io);
    3968          12 :         bdev_io->internal.f.in_submit_request = false;
    3969          12 : }
    3970             : 
    3971             : void
    3972         693 : bdev_io_init(struct spdk_bdev_io *bdev_io,
    3973             :              struct spdk_bdev *bdev, void *cb_arg,
    3974             :              spdk_bdev_io_completion_cb cb)
    3975             : {
    3976         693 :         bdev_io->bdev = bdev;
    3977         693 :         bdev_io->internal.f.raw = 0;
    3978         693 :         bdev_io->internal.caller_ctx = cb_arg;
    3979         693 :         bdev_io->internal.cb = cb;
    3980         693 :         bdev_io->internal.status = SPDK_BDEV_IO_STATUS_PENDING;
    3981         693 :         bdev_io->internal.f.in_submit_request = false;
    3982         693 :         bdev_io->internal.error.nvme.cdw0 = 0;
    3983         693 :         bdev_io->num_retries = 0;
    3984         693 :         bdev_io->internal.get_buf_cb = NULL;
    3985         693 :         bdev_io->internal.get_aux_buf_cb = NULL;
    3986         693 :         bdev_io->internal.data_transfer_cpl = NULL;
    3987         693 :         bdev_io->internal.f.split = bdev_io_should_split(bdev_io);
    3988         693 : }
    3989             : 
    3990             : static bool
    3991         540 : bdev_io_type_supported(struct spdk_bdev *bdev, enum spdk_bdev_io_type io_type)
    3992             : {
    3993         540 :         return bdev->fn_table->io_type_supported(bdev->ctxt, io_type);
    3994             : }
    3995             : 
    3996             : bool
    3997         178 : spdk_bdev_io_type_supported(struct spdk_bdev *bdev, enum spdk_bdev_io_type io_type)
    3998             : {
    3999             :         bool supported;
    4000             : 
    4001         178 :         supported = bdev_io_type_supported(bdev, io_type);
    4002             : 
    4003         178 :         if (!supported) {
    4004           7 :                 switch (io_type) {
    4005           0 :                 case SPDK_BDEV_IO_TYPE_WRITE_ZEROES:
    4006             :                         /* The bdev layer will emulate write zeroes as long as write is supported. */
    4007           0 :                         supported = bdev_io_type_supported(bdev, SPDK_BDEV_IO_TYPE_WRITE);
    4008           0 :                         break;
    4009           7 :                 default:
    4010           7 :                         break;
    4011             :                 }
    4012             :         }
    4013             : 
    4014         178 :         return supported;
    4015             : }
    4016             : 
    4017             : static const char *g_io_type_strings[] = {
    4018             :         [SPDK_BDEV_IO_TYPE_READ] = "read",
    4019             :         [SPDK_BDEV_IO_TYPE_WRITE] = "write",
    4020             :         [SPDK_BDEV_IO_TYPE_UNMAP] = "unmap",
    4021             :         [SPDK_BDEV_IO_TYPE_FLUSH] = "flush",
    4022             :         [SPDK_BDEV_IO_TYPE_RESET] = "reset",
    4023             :         [SPDK_BDEV_IO_TYPE_NVME_ADMIN] = "nvme_admin",
    4024             :         [SPDK_BDEV_IO_TYPE_NVME_IO] = "nvme_io",
    4025             :         [SPDK_BDEV_IO_TYPE_NVME_IO_MD] = "nvme_io_md",
    4026             :         [SPDK_BDEV_IO_TYPE_WRITE_ZEROES] = "write_zeroes",
    4027             :         [SPDK_BDEV_IO_TYPE_ZCOPY] = "zcopy",
    4028             :         [SPDK_BDEV_IO_TYPE_GET_ZONE_INFO] = "get_zone_info",
    4029             :         [SPDK_BDEV_IO_TYPE_ZONE_MANAGEMENT] = "zone_management",
    4030             :         [SPDK_BDEV_IO_TYPE_ZONE_APPEND] = "zone_append",
    4031             :         [SPDK_BDEV_IO_TYPE_COMPARE] = "compare",
    4032             :         [SPDK_BDEV_IO_TYPE_COMPARE_AND_WRITE] = "compare_and_write",
    4033             :         [SPDK_BDEV_IO_TYPE_ABORT] = "abort",
    4034             :         [SPDK_BDEV_IO_TYPE_SEEK_HOLE] = "seek_hole",
    4035             :         [SPDK_BDEV_IO_TYPE_SEEK_DATA] = "seek_data",
    4036             :         [SPDK_BDEV_IO_TYPE_COPY] = "copy",
    4037             :         [SPDK_BDEV_IO_TYPE_NVME_IOV_MD] = "nvme_iov_md",
    4038             : };
    4039             : 
    4040             : const char *
    4041           0 : spdk_bdev_get_io_type_name(enum spdk_bdev_io_type io_type)
    4042             : {
    4043           0 :         if (io_type <= SPDK_BDEV_IO_TYPE_INVALID || io_type >= SPDK_BDEV_NUM_IO_TYPES) {
    4044           0 :                 return NULL;
    4045             :         }
    4046             : 
    4047           0 :         return g_io_type_strings[io_type];
    4048             : }
    4049             : 
    4050             : int
    4051           0 : spdk_bdev_get_io_type(const char *io_type_string)
    4052             : {
    4053             :         int i;
    4054             : 
    4055           0 :         for (i = SPDK_BDEV_IO_TYPE_READ; i < SPDK_BDEV_NUM_IO_TYPES; ++i) {
    4056           0 :                 if (!strcmp(io_type_string, g_io_type_strings[i])) {
    4057           0 :                         return i;
    4058             :                 }
    4059             :         }
    4060             : 
    4061           0 :         return -1;
    4062             : }
    4063             : 
    4064             : uint64_t
    4065           0 : spdk_bdev_io_get_submit_tsc(struct spdk_bdev_io *bdev_io)
    4066             : {
    4067           0 :         return bdev_io->internal.submit_tsc;
    4068             : }
    4069             : 
    4070             : bool
    4071           0 : spdk_bdev_io_hide_metadata(struct spdk_bdev_io *bdev_io)
    4072             : {
    4073           0 :         return bdev_io->internal.desc->opts.hide_metadata;
    4074             : }
    4075             : 
    4076             : int
    4077           0 : spdk_bdev_dump_info_json(struct spdk_bdev *bdev, struct spdk_json_write_ctx *w)
    4078             : {
    4079           0 :         if (bdev->fn_table->dump_info_json) {
    4080           0 :                 return bdev->fn_table->dump_info_json(bdev->ctxt, w);
    4081             :         }
    4082             : 
    4083           0 :         return 0;
    4084             : }
    4085             : 
    4086             : static void
    4087          10 : bdev_qos_update_max_quota_per_timeslice(struct spdk_bdev_qos *qos)
    4088             : {
    4089          10 :         uint32_t max_per_timeslice = 0;
    4090             :         int i;
    4091             : 
    4092          50 :         for (i = 0; i < SPDK_BDEV_QOS_NUM_RATE_LIMIT_TYPES; i++) {
    4093          40 :                 if (qos->rate_limits[i].limit == SPDK_BDEV_QOS_LIMIT_NOT_DEFINED) {
    4094          15 :                         qos->rate_limits[i].max_per_timeslice = 0;
    4095          15 :                         continue;
    4096             :                 }
    4097             : 
    4098          25 :                 max_per_timeslice = qos->rate_limits[i].limit *
    4099          25 :                                     SPDK_BDEV_QOS_TIMESLICE_IN_USEC / SPDK_SEC_TO_USEC;
    4100             : 
    4101          25 :                 qos->rate_limits[i].max_per_timeslice = spdk_max(max_per_timeslice,
    4102             :                                                         qos->rate_limits[i].min_per_timeslice);
    4103             : 
    4104          25 :                 __atomic_store_n(&qos->rate_limits[i].remaining_this_timeslice,
    4105          25 :                                  qos->rate_limits[i].max_per_timeslice, __ATOMIC_RELEASE);
    4106             :         }
    4107             : 
    4108          10 :         bdev_qos_set_ops(qos);
    4109          10 : }
    4110             : 
    4111             : static void
    4112           4 : bdev_channel_submit_qos_io(struct spdk_bdev_channel_iter *i, struct spdk_bdev *bdev,
    4113             :                            struct spdk_io_channel *io_ch, void *ctx)
    4114             : {
    4115           4 :         struct spdk_bdev_channel *bdev_ch = __io_ch_to_bdev_ch(io_ch);
    4116             :         int status;
    4117             : 
    4118           4 :         bdev_qos_io_submit(bdev_ch, bdev->internal.qos);
    4119             : 
    4120             :         /* if all IOs were sent then continue the iteration, otherwise - stop it */
    4121             :         /* TODO: channels round robing */
    4122           4 :         status = TAILQ_EMPTY(&bdev_ch->qos_queued_io) ? 0 : 1;
    4123             : 
    4124           4 :         spdk_bdev_for_each_channel_continue(i, status);
    4125           4 : }
    4126             : 
    4127             : 
    4128             : static void
    4129           2 : bdev_channel_submit_qos_io_done(struct spdk_bdev *bdev, void *ctx, int status)
    4130             : {
    4131             : 
    4132           2 : }
    4133             : 
    4134             : static int
    4135           3 : bdev_channel_poll_qos(void *arg)
    4136             : {
    4137           3 :         struct spdk_bdev *bdev = arg;
    4138           3 :         struct spdk_bdev_qos *qos = bdev->internal.qos;
    4139           3 :         uint64_t now = spdk_get_ticks();
    4140             :         int i;
    4141             :         int64_t remaining_last_timeslice;
    4142             : 
    4143           3 :         if (spdk_unlikely(qos->thread == NULL)) {
    4144             :                 /* Old QoS was unbound to remove and new QoS is not enabled yet. */
    4145           1 :                 return SPDK_POLLER_IDLE;
    4146             :         }
    4147             : 
    4148           2 :         if (now < (qos->last_timeslice + qos->timeslice_size)) {
    4149             :                 /* We received our callback earlier than expected - return
    4150             :                  *  immediately and wait to do accounting until at least one
    4151             :                  *  timeslice has actually expired.  This should never happen
    4152             :                  *  with a well-behaved timer implementation.
    4153             :                  */
    4154           0 :                 return SPDK_POLLER_IDLE;
    4155             :         }
    4156             : 
    4157             :         /* Reset for next round of rate limiting */
    4158          10 :         for (i = 0; i < SPDK_BDEV_QOS_NUM_RATE_LIMIT_TYPES; i++) {
    4159             :                 /* We may have allowed the IOs or bytes to slightly overrun in the last
    4160             :                  * timeslice. remaining_this_timeslice is signed, so if it's negative
    4161             :                  * here, we'll account for the overrun so that the next timeslice will
    4162             :                  * be appropriately reduced.
    4163             :                  */
    4164           8 :                 remaining_last_timeslice = __atomic_exchange_n(&qos->rate_limits[i].remaining_this_timeslice,
    4165             :                                            0, __ATOMIC_RELAXED);
    4166           8 :                 if (remaining_last_timeslice < 0) {
    4167             :                         /* There could be a race condition here as both bdev_qos_rw_queue_io() and bdev_channel_poll_qos()
    4168             :                          * potentially use 2 atomic ops each, so they can intertwine.
    4169             :                          * This race can potentially cause the limits to be a little fuzzy but won't cause any real damage.
    4170             :                          */
    4171           0 :                         __atomic_store_n(&qos->rate_limits[i].remaining_this_timeslice,
    4172             :                                          remaining_last_timeslice, __ATOMIC_RELAXED);
    4173             :                 }
    4174             :         }
    4175             : 
    4176           4 :         while (now >= (qos->last_timeslice + qos->timeslice_size)) {
    4177           2 :                 qos->last_timeslice += qos->timeslice_size;
    4178          10 :                 for (i = 0; i < SPDK_BDEV_QOS_NUM_RATE_LIMIT_TYPES; i++) {
    4179           8 :                         __atomic_add_fetch(&qos->rate_limits[i].remaining_this_timeslice,
    4180           8 :                                            qos->rate_limits[i].max_per_timeslice, __ATOMIC_RELAXED);
    4181             :                 }
    4182             :         }
    4183             : 
    4184           2 :         spdk_bdev_for_each_channel(bdev, bdev_channel_submit_qos_io, qos,
    4185             :                                    bdev_channel_submit_qos_io_done);
    4186             : 
    4187           2 :         return SPDK_POLLER_BUSY;
    4188             : }
    4189             : 
    4190             : static void
    4191          75 : bdev_channel_destroy_resource(struct spdk_bdev_channel *ch)
    4192             : {
    4193             :         struct spdk_bdev_shared_resource *shared_resource;
    4194             :         struct lba_range *range;
    4195             : 
    4196          75 :         bdev_free_io_stat(ch->stat);
    4197             : #ifdef SPDK_CONFIG_VTUNE
    4198             :         bdev_free_io_stat(ch->prev_stat);
    4199             : #endif
    4200             : 
    4201          75 :         while (!TAILQ_EMPTY(&ch->locked_ranges)) {
    4202           0 :                 range = TAILQ_FIRST(&ch->locked_ranges);
    4203           0 :                 TAILQ_REMOVE(&ch->locked_ranges, range, tailq);
    4204           0 :                 free(range);
    4205             :         }
    4206             : 
    4207          75 :         spdk_put_io_channel(ch->channel);
    4208          75 :         spdk_put_io_channel(ch->accel_channel);
    4209             : 
    4210          75 :         shared_resource = ch->shared_resource;
    4211             : 
    4212          75 :         assert(TAILQ_EMPTY(&ch->io_locked));
    4213          75 :         assert(TAILQ_EMPTY(&ch->io_submitted));
    4214          75 :         assert(TAILQ_EMPTY(&ch->io_accel_exec));
    4215          75 :         assert(TAILQ_EMPTY(&ch->io_memory_domain));
    4216          75 :         assert(ch->io_outstanding == 0);
    4217          75 :         assert(shared_resource->ref > 0);
    4218          75 :         shared_resource->ref--;
    4219          75 :         if (shared_resource->ref == 0) {
    4220          74 :                 assert(shared_resource->io_outstanding == 0);
    4221          74 :                 TAILQ_REMOVE(&shared_resource->mgmt_ch->shared_resources, shared_resource, link);
    4222          74 :                 spdk_put_io_channel(spdk_io_channel_from_ctx(shared_resource->mgmt_ch));
    4223          74 :                 spdk_poller_unregister(&shared_resource->nomem_poller);
    4224          74 :                 free(shared_resource);
    4225             :         }
    4226          75 : }
    4227             : 
    4228             : static void
    4229          84 : bdev_enable_qos(struct spdk_bdev *bdev, struct spdk_bdev_channel *ch)
    4230             : {
    4231          84 :         struct spdk_bdev_qos    *qos = bdev->internal.qos;
    4232             :         int                     i;
    4233             : 
    4234          84 :         assert(spdk_spin_held(&bdev->internal.spinlock));
    4235             : 
    4236             :         /* Rate limiting on this bdev enabled */
    4237          84 :         if (qos) {
    4238          17 :                 if (qos->ch == NULL) {
    4239             :                         struct spdk_io_channel *io_ch;
    4240             : 
    4241           9 :                         SPDK_DEBUGLOG(bdev, "Selecting channel %p as QoS channel for bdev %s on thread %p\n", ch,
    4242             :                                       bdev->name, spdk_get_thread());
    4243             : 
    4244             :                         /* No qos channel has been selected, so set one up */
    4245             : 
    4246             :                         /* Take another reference to ch */
    4247           9 :                         io_ch = spdk_get_io_channel(__bdev_to_io_dev(bdev));
    4248           9 :                         assert(io_ch != NULL);
    4249           9 :                         qos->ch = ch;
    4250             : 
    4251           9 :                         qos->thread = spdk_io_channel_get_thread(io_ch);
    4252             : 
    4253          45 :                         for (i = 0; i < SPDK_BDEV_QOS_NUM_RATE_LIMIT_TYPES; i++) {
    4254          36 :                                 if (bdev_qos_is_iops_rate_limit(i) == true) {
    4255           9 :                                         qos->rate_limits[i].min_per_timeslice =
    4256             :                                                 SPDK_BDEV_QOS_MIN_IO_PER_TIMESLICE;
    4257             :                                 } else {
    4258          27 :                                         qos->rate_limits[i].min_per_timeslice =
    4259             :                                                 SPDK_BDEV_QOS_MIN_BYTE_PER_TIMESLICE;
    4260             :                                 }
    4261             : 
    4262          36 :                                 if (qos->rate_limits[i].limit == 0) {
    4263           2 :                                         qos->rate_limits[i].limit = SPDK_BDEV_QOS_LIMIT_NOT_DEFINED;
    4264             :                                 }
    4265             :                         }
    4266           9 :                         bdev_qos_update_max_quota_per_timeslice(qos);
    4267           9 :                         qos->timeslice_size =
    4268           9 :                                 SPDK_BDEV_QOS_TIMESLICE_IN_USEC * spdk_get_ticks_hz() / SPDK_SEC_TO_USEC;
    4269           9 :                         qos->last_timeslice = spdk_get_ticks();
    4270           9 :                         qos->poller = SPDK_POLLER_REGISTER(bdev_channel_poll_qos,
    4271             :                                                            bdev,
    4272             :                                                            SPDK_BDEV_QOS_TIMESLICE_IN_USEC);
    4273             :                 }
    4274             : 
    4275          17 :                 ch->flags |= BDEV_CH_QOS_ENABLED;
    4276             :         }
    4277          84 : }
    4278             : 
    4279             : struct poll_timeout_ctx {
    4280             :         struct spdk_bdev_desc   *desc;
    4281             :         uint64_t                timeout_in_sec;
    4282             :         spdk_bdev_io_timeout_cb cb_fn;
    4283             :         void                    *cb_arg;
    4284             : };
    4285             : 
    4286             : static void
    4287         278 : bdev_desc_free(struct spdk_bdev_desc *desc)
    4288             : {
    4289         278 :         spdk_spin_destroy(&desc->spinlock);
    4290         278 :         free(desc->media_events_buffer);
    4291         278 :         free(desc);
    4292         278 : }
    4293             : 
    4294             : static void
    4295           8 : bdev_channel_poll_timeout_io_done(struct spdk_bdev *bdev, void *_ctx, int status)
    4296             : {
    4297           8 :         struct poll_timeout_ctx *ctx  = _ctx;
    4298           8 :         struct spdk_bdev_desc *desc = ctx->desc;
    4299             : 
    4300           8 :         free(ctx);
    4301             : 
    4302           8 :         spdk_spin_lock(&desc->spinlock);
    4303           8 :         desc->refs--;
    4304           8 :         if (desc->closed == true && desc->refs == 0) {
    4305           1 :                 spdk_spin_unlock(&desc->spinlock);
    4306           1 :                 bdev_desc_free(desc);
    4307           1 :                 return;
    4308             :         }
    4309           7 :         spdk_spin_unlock(&desc->spinlock);
    4310             : }
    4311             : 
    4312             : static void
    4313          13 : bdev_channel_poll_timeout_io(struct spdk_bdev_channel_iter *i, struct spdk_bdev *bdev,
    4314             :                              struct spdk_io_channel *io_ch, void *_ctx)
    4315             : {
    4316          13 :         struct poll_timeout_ctx *ctx  = _ctx;
    4317          13 :         struct spdk_bdev_channel *bdev_ch = __io_ch_to_bdev_ch(io_ch);
    4318          13 :         struct spdk_bdev_desc *desc = ctx->desc;
    4319             :         struct spdk_bdev_io *bdev_io;
    4320             :         uint64_t now;
    4321             : 
    4322          13 :         spdk_spin_lock(&desc->spinlock);
    4323          13 :         if (desc->closed == true) {
    4324           1 :                 spdk_spin_unlock(&desc->spinlock);
    4325           1 :                 spdk_bdev_for_each_channel_continue(i, -1);
    4326           1 :                 return;
    4327             :         }
    4328          12 :         spdk_spin_unlock(&desc->spinlock);
    4329             : 
    4330          12 :         now = spdk_get_ticks();
    4331          22 :         TAILQ_FOREACH(bdev_io, &bdev_ch->io_submitted, internal.ch_link) {
    4332             :                 /* Exclude any I/O that are generated via splitting. */
    4333          15 :                 if (bdev_io->internal.cb == bdev_io_split_done) {
    4334           3 :                         continue;
    4335             :                 }
    4336             : 
    4337             :                 /* Once we find an I/O that has not timed out, we can immediately
    4338             :                  * exit the loop.
    4339             :                  */
    4340          12 :                 if (now < (bdev_io->internal.submit_tsc +
    4341          12 :                            ctx->timeout_in_sec * spdk_get_ticks_hz())) {
    4342           5 :                         goto end;
    4343             :                 }
    4344             : 
    4345           7 :                 if (bdev_io->internal.desc == desc) {
    4346           7 :                         ctx->cb_fn(ctx->cb_arg, bdev_io);
    4347             :                 }
    4348             :         }
    4349             : 
    4350           7 : end:
    4351          12 :         spdk_bdev_for_each_channel_continue(i, 0);
    4352             : }
    4353             : 
    4354             : static int
    4355           8 : bdev_poll_timeout_io(void *arg)
    4356             : {
    4357           8 :         struct spdk_bdev_desc *desc = arg;
    4358           8 :         struct spdk_bdev *bdev = spdk_bdev_desc_get_bdev(desc);
    4359             :         struct poll_timeout_ctx *ctx;
    4360             : 
    4361           8 :         ctx = calloc(1, sizeof(struct poll_timeout_ctx));
    4362           8 :         if (!ctx) {
    4363           0 :                 SPDK_ERRLOG("failed to allocate memory\n");
    4364           0 :                 return SPDK_POLLER_BUSY;
    4365             :         }
    4366           8 :         ctx->desc = desc;
    4367           8 :         ctx->cb_arg = desc->cb_arg;
    4368           8 :         ctx->cb_fn = desc->cb_fn;
    4369           8 :         ctx->timeout_in_sec = desc->timeout_in_sec;
    4370             : 
    4371             :         /* Take a ref on the descriptor in case it gets closed while we are checking
    4372             :          * all of the channels.
    4373             :          */
    4374           8 :         spdk_spin_lock(&desc->spinlock);
    4375           8 :         desc->refs++;
    4376           8 :         spdk_spin_unlock(&desc->spinlock);
    4377             : 
    4378           8 :         spdk_bdev_for_each_channel(bdev, bdev_channel_poll_timeout_io, ctx,
    4379             :                                    bdev_channel_poll_timeout_io_done);
    4380             : 
    4381           8 :         return SPDK_POLLER_BUSY;
    4382             : }
    4383             : 
    4384             : int
    4385           5 : spdk_bdev_set_timeout(struct spdk_bdev_desc *desc, uint64_t timeout_in_sec,
    4386             :                       spdk_bdev_io_timeout_cb cb_fn, void *cb_arg)
    4387             : {
    4388           5 :         assert(desc->thread == spdk_get_thread());
    4389             : 
    4390           5 :         spdk_poller_unregister(&desc->io_timeout_poller);
    4391             : 
    4392           5 :         if (timeout_in_sec) {
    4393           4 :                 assert(cb_fn != NULL);
    4394           4 :                 desc->io_timeout_poller = SPDK_POLLER_REGISTER(bdev_poll_timeout_io,
    4395             :                                           desc,
    4396             :                                           SPDK_BDEV_IO_POLL_INTERVAL_IN_MSEC * SPDK_SEC_TO_USEC /
    4397             :                                           1000);
    4398           4 :                 if (desc->io_timeout_poller == NULL) {
    4399           0 :                         SPDK_ERRLOG("can not register the desc timeout IO poller\n");
    4400           0 :                         return -1;
    4401             :                 }
    4402             :         }
    4403             : 
    4404           5 :         desc->cb_fn = cb_fn;
    4405           5 :         desc->cb_arg = cb_arg;
    4406           5 :         desc->timeout_in_sec = timeout_in_sec;
    4407             : 
    4408           5 :         return 0;
    4409             : }
    4410             : 
    4411             : static int
    4412          77 : bdev_channel_create(void *io_device, void *ctx_buf)
    4413             : {
    4414          77 :         struct spdk_bdev                *bdev = __bdev_from_io_dev(io_device);
    4415          77 :         struct spdk_bdev_channel        *ch = ctx_buf;
    4416             :         struct spdk_io_channel          *mgmt_io_ch;
    4417             :         struct spdk_bdev_mgmt_channel   *mgmt_ch;
    4418             :         struct spdk_bdev_shared_resource *shared_resource;
    4419             :         struct lba_range                *range;
    4420             : 
    4421          77 :         ch->bdev = bdev;
    4422          77 :         ch->channel = bdev->fn_table->get_io_channel(bdev->ctxt);
    4423          77 :         if (!ch->channel) {
    4424           2 :                 return -1;
    4425             :         }
    4426             : 
    4427          75 :         ch->accel_channel = spdk_accel_get_io_channel();
    4428          75 :         if (!ch->accel_channel) {
    4429           0 :                 spdk_put_io_channel(ch->channel);
    4430           0 :                 return -1;
    4431             :         }
    4432             : 
    4433          75 :         spdk_trace_record(TRACE_BDEV_IOCH_CREATE, bdev->internal.trace_id, 0, 0,
    4434             :                           spdk_thread_get_id(spdk_io_channel_get_thread(ch->channel)));
    4435             : 
    4436          75 :         assert(ch->histogram == NULL);
    4437          75 :         if (bdev->internal.histogram_enabled) {
    4438           0 :                 ch->histogram = spdk_histogram_data_alloc();
    4439           0 :                 if (ch->histogram == NULL) {
    4440           0 :                         SPDK_ERRLOG("Could not allocate histogram\n");
    4441             :                 }
    4442             :         }
    4443             : 
    4444          75 :         mgmt_io_ch = spdk_get_io_channel(&g_bdev_mgr);
    4445          75 :         if (!mgmt_io_ch) {
    4446           0 :                 spdk_put_io_channel(ch->channel);
    4447           0 :                 spdk_put_io_channel(ch->accel_channel);
    4448           0 :                 return -1;
    4449             :         }
    4450             : 
    4451          75 :         mgmt_ch = __io_ch_to_bdev_mgmt_ch(mgmt_io_ch);
    4452          77 :         TAILQ_FOREACH(shared_resource, &mgmt_ch->shared_resources, link) {
    4453           3 :                 if (shared_resource->shared_ch == ch->channel) {
    4454           1 :                         spdk_put_io_channel(mgmt_io_ch);
    4455           1 :                         shared_resource->ref++;
    4456           1 :                         break;
    4457             :                 }
    4458             :         }
    4459             : 
    4460          75 :         if (shared_resource == NULL) {
    4461          74 :                 shared_resource = calloc(1, sizeof(*shared_resource));
    4462          74 :                 if (shared_resource == NULL) {
    4463           0 :                         spdk_put_io_channel(ch->channel);
    4464           0 :                         spdk_put_io_channel(ch->accel_channel);
    4465           0 :                         spdk_put_io_channel(mgmt_io_ch);
    4466           0 :                         return -1;
    4467             :                 }
    4468             : 
    4469          74 :                 shared_resource->mgmt_ch = mgmt_ch;
    4470          74 :                 shared_resource->io_outstanding = 0;
    4471          74 :                 TAILQ_INIT(&shared_resource->nomem_io);
    4472          74 :                 shared_resource->nomem_threshold = 0;
    4473          74 :                 shared_resource->shared_ch = ch->channel;
    4474          74 :                 shared_resource->ref = 1;
    4475          74 :                 TAILQ_INSERT_TAIL(&mgmt_ch->shared_resources, shared_resource, link);
    4476             :         }
    4477             : 
    4478          75 :         ch->io_outstanding = 0;
    4479          75 :         TAILQ_INIT(&ch->locked_ranges);
    4480          75 :         TAILQ_INIT(&ch->qos_queued_io);
    4481          75 :         ch->flags = 0;
    4482          75 :         ch->trace_id = bdev->internal.trace_id;
    4483          75 :         ch->shared_resource = shared_resource;
    4484             : 
    4485          75 :         TAILQ_INIT(&ch->io_submitted);
    4486          75 :         TAILQ_INIT(&ch->io_locked);
    4487          75 :         TAILQ_INIT(&ch->io_accel_exec);
    4488          75 :         TAILQ_INIT(&ch->io_memory_domain);
    4489             : 
    4490          75 :         ch->stat = bdev_alloc_io_stat(false);
    4491          75 :         if (ch->stat == NULL) {
    4492           0 :                 bdev_channel_destroy_resource(ch);
    4493           0 :                 return -1;
    4494             :         }
    4495             : 
    4496          75 :         ch->stat->ticks_rate = spdk_get_ticks_hz();
    4497             : 
    4498             : #ifdef SPDK_CONFIG_VTUNE
    4499             :         {
    4500             :                 char *name;
    4501             :                 __itt_init_ittlib(NULL, 0);
    4502             :                 name = spdk_sprintf_alloc("spdk_bdev_%s_%p", ch->bdev->name, ch);
    4503             :                 if (!name) {
    4504             :                         bdev_channel_destroy_resource(ch);
    4505             :                         return -1;
    4506             :                 }
    4507             :                 ch->handle = __itt_string_handle_create(name);
    4508             :                 free(name);
    4509             :                 ch->start_tsc = spdk_get_ticks();
    4510             :                 ch->interval_tsc = spdk_get_ticks_hz() / 100;
    4511             :                 ch->prev_stat = bdev_alloc_io_stat(false);
    4512             :                 if (ch->prev_stat == NULL) {
    4513             :                         bdev_channel_destroy_resource(ch);
    4514             :                         return -1;
    4515             :                 }
    4516             :         }
    4517             : #endif
    4518             : 
    4519          75 :         spdk_spin_lock(&bdev->internal.spinlock);
    4520          75 :         bdev_enable_qos(bdev, ch);
    4521             : 
    4522          76 :         TAILQ_FOREACH(range, &bdev->internal.locked_ranges, tailq) {
    4523             :                 struct lba_range *new_range;
    4524             : 
    4525           1 :                 new_range = calloc(1, sizeof(*new_range));
    4526           1 :                 if (new_range == NULL) {
    4527           0 :                         spdk_spin_unlock(&bdev->internal.spinlock);
    4528           0 :                         bdev_channel_destroy_resource(ch);
    4529           0 :                         return -1;
    4530             :                 }
    4531           1 :                 new_range->length = range->length;
    4532           1 :                 new_range->offset = range->offset;
    4533           1 :                 new_range->locked_ctx = range->locked_ctx;
    4534           1 :                 TAILQ_INSERT_TAIL(&ch->locked_ranges, new_range, tailq);
    4535             :         }
    4536             : 
    4537          75 :         spdk_spin_unlock(&bdev->internal.spinlock);
    4538             : 
    4539          75 :         return 0;
    4540             : }
    4541             : 
    4542             : static int
    4543           0 : bdev_abort_all_buf_io_cb(struct spdk_iobuf_channel *ch, struct spdk_iobuf_entry *entry,
    4544             :                          void *cb_ctx)
    4545             : {
    4546           0 :         struct spdk_bdev_channel *bdev_ch = cb_ctx;
    4547             :         struct spdk_bdev_io *bdev_io;
    4548             :         uint64_t buf_len;
    4549             : 
    4550           0 :         bdev_io = SPDK_CONTAINEROF(entry, struct spdk_bdev_io, internal.iobuf);
    4551           0 :         if (bdev_io->internal.ch == bdev_ch) {
    4552           0 :                 buf_len = bdev_io_get_max_buf_len(bdev_io, bdev_io->internal.buf.len);
    4553           0 :                 spdk_iobuf_entry_abort(ch, entry, buf_len);
    4554           0 :                 spdk_bdev_io_complete(bdev_io, SPDK_BDEV_IO_STATUS_ABORTED);
    4555             :         }
    4556             : 
    4557           0 :         return 0;
    4558             : }
    4559             : 
    4560             : /*
    4561             :  * Abort I/O that are waiting on a data buffer.
    4562             :  */
    4563             : static void
    4564          98 : bdev_abort_all_buf_io(struct spdk_bdev_mgmt_channel *mgmt_ch, struct spdk_bdev_channel *ch)
    4565             : {
    4566          98 :         spdk_iobuf_for_each_entry(&mgmt_ch->iobuf, bdev_abort_all_buf_io_cb, ch);
    4567          98 : }
    4568             : 
    4569             : /*
    4570             :  * Abort I/O that are queued waiting for submission.  These types of I/O are
    4571             :  *  linked using the spdk_bdev_io link TAILQ_ENTRY.
    4572             :  */
    4573             : static void
    4574         117 : bdev_abort_all_queued_io(bdev_io_tailq_t *queue, struct spdk_bdev_channel *ch)
    4575             : {
    4576             :         struct spdk_bdev_io *bdev_io, *tmp;
    4577             : 
    4578         156 :         TAILQ_FOREACH_SAFE(bdev_io, queue, internal.link, tmp) {
    4579          39 :                 if (bdev_io->internal.ch == ch) {
    4580          39 :                         TAILQ_REMOVE(queue, bdev_io, internal.link);
    4581             :                         /*
    4582             :                          * spdk_bdev_io_complete() assumes that the completed I/O had
    4583             :                          *  been submitted to the bdev module.  Since in this case it
    4584             :                          *  hadn't, bump io_outstanding to account for the decrement
    4585             :                          *  that spdk_bdev_io_complete() will do.
    4586             :                          */
    4587          39 :                         if (bdev_io->type != SPDK_BDEV_IO_TYPE_RESET) {
    4588          39 :                                 bdev_io_increment_outstanding(ch, ch->shared_resource);
    4589             :                         }
    4590          39 :                         spdk_bdev_io_complete(bdev_io, SPDK_BDEV_IO_STATUS_ABORTED);
    4591             :                 }
    4592             :         }
    4593         117 : }
    4594             : 
    4595             : static bool
    4596          18 : bdev_abort_queued_io(bdev_io_tailq_t *queue, struct spdk_bdev_io *bio_to_abort)
    4597             : {
    4598             :         struct spdk_bdev_io *bdev_io;
    4599             : 
    4600          18 :         TAILQ_FOREACH(bdev_io, queue, internal.link) {
    4601           0 :                 if (bdev_io == bio_to_abort) {
    4602           0 :                         TAILQ_REMOVE(queue, bio_to_abort, internal.link);
    4603           0 :                         spdk_bdev_io_complete(bio_to_abort, SPDK_BDEV_IO_STATUS_ABORTED);
    4604           0 :                         return true;
    4605             :                 }
    4606             :         }
    4607             : 
    4608          18 :         return false;
    4609             : }
    4610             : 
    4611             : static int
    4612           0 : bdev_abort_buf_io_cb(struct spdk_iobuf_channel *ch, struct spdk_iobuf_entry *entry, void *cb_ctx)
    4613             : {
    4614           0 :         struct spdk_bdev_io *bdev_io, *bio_to_abort = cb_ctx;
    4615             :         uint64_t buf_len;
    4616             : 
    4617           0 :         bdev_io = SPDK_CONTAINEROF(entry, struct spdk_bdev_io, internal.iobuf);
    4618           0 :         if (bdev_io == bio_to_abort) {
    4619           0 :                 buf_len = bdev_io_get_max_buf_len(bdev_io, bdev_io->internal.buf.len);
    4620           0 :                 spdk_iobuf_entry_abort(ch, entry, buf_len);
    4621           0 :                 spdk_bdev_io_complete(bio_to_abort, SPDK_BDEV_IO_STATUS_ABORTED);
    4622           0 :                 return 1;
    4623             :         }
    4624             : 
    4625           0 :         return 0;
    4626             : }
    4627             : 
    4628             : static bool
    4629          16 : bdev_abort_buf_io(struct spdk_bdev_mgmt_channel *mgmt_ch, struct spdk_bdev_io *bio_to_abort)
    4630             : {
    4631             :         int rc;
    4632             : 
    4633          16 :         rc = spdk_iobuf_for_each_entry(&mgmt_ch->iobuf, bdev_abort_buf_io_cb, bio_to_abort);
    4634          16 :         return rc == 1;
    4635             : }
    4636             : 
    4637             : static void
    4638           7 : bdev_qos_channel_destroy(void *cb_arg)
    4639             : {
    4640           7 :         struct spdk_bdev_qos *qos = cb_arg;
    4641             : 
    4642           7 :         spdk_put_io_channel(spdk_io_channel_from_ctx(qos->ch));
    4643           7 :         spdk_poller_unregister(&qos->poller);
    4644             : 
    4645           7 :         SPDK_DEBUGLOG(bdev, "Free QoS %p.\n", qos);
    4646             : 
    4647           7 :         free(qos);
    4648           7 : }
    4649             : 
    4650             : static int
    4651           7 : bdev_qos_destroy(struct spdk_bdev *bdev)
    4652             : {
    4653             :         int i;
    4654             : 
    4655             :         /*
    4656             :          * Cleanly shutting down the QoS poller is tricky, because
    4657             :          * during the asynchronous operation the user could open
    4658             :          * a new descriptor and create a new channel, spawning
    4659             :          * a new QoS poller.
    4660             :          *
    4661             :          * The strategy is to create a new QoS structure here and swap it
    4662             :          * in. The shutdown path then continues to refer to the old one
    4663             :          * until it completes and then releases it.
    4664             :          */
    4665             :         struct spdk_bdev_qos *new_qos, *old_qos;
    4666             : 
    4667           7 :         old_qos = bdev->internal.qos;
    4668             : 
    4669           7 :         new_qos = calloc(1, sizeof(*new_qos));
    4670           7 :         if (!new_qos) {
    4671           0 :                 SPDK_ERRLOG("Unable to allocate memory to shut down QoS.\n");
    4672           0 :                 return -ENOMEM;
    4673             :         }
    4674             : 
    4675             :         /* Copy the old QoS data into the newly allocated structure */
    4676           7 :         memcpy(new_qos, old_qos, sizeof(*new_qos));
    4677             : 
    4678             :         /* Zero out the key parts of the QoS structure */
    4679           7 :         new_qos->ch = NULL;
    4680           7 :         new_qos->thread = NULL;
    4681           7 :         new_qos->poller = NULL;
    4682             :         /*
    4683             :          * The limit member of spdk_bdev_qos_limit structure is not zeroed.
    4684             :          * It will be used later for the new QoS structure.
    4685             :          */
    4686          35 :         for (i = 0; i < SPDK_BDEV_QOS_NUM_RATE_LIMIT_TYPES; i++) {
    4687          28 :                 new_qos->rate_limits[i].remaining_this_timeslice = 0;
    4688          28 :                 new_qos->rate_limits[i].min_per_timeslice = 0;
    4689          28 :                 new_qos->rate_limits[i].max_per_timeslice = 0;
    4690             :         }
    4691             : 
    4692           7 :         bdev->internal.qos = new_qos;
    4693             : 
    4694           7 :         if (old_qos->thread == NULL) {
    4695           0 :                 free(old_qos);
    4696             :         } else {
    4697           7 :                 spdk_thread_send_msg(old_qos->thread, bdev_qos_channel_destroy, old_qos);
    4698             :         }
    4699             : 
    4700             :         /* It is safe to continue with destroying the bdev even though the QoS channel hasn't
    4701             :          * been destroyed yet. The destruction path will end up waiting for the final
    4702             :          * channel to be put before it releases resources. */
    4703             : 
    4704           7 :         return 0;
    4705             : }
    4706             : 
    4707             : void
    4708          79 : spdk_bdev_add_io_stat(struct spdk_bdev_io_stat *total, struct spdk_bdev_io_stat *add)
    4709             : {
    4710          79 :         total->bytes_read += add->bytes_read;
    4711          79 :         total->num_read_ops += add->num_read_ops;
    4712          79 :         total->bytes_written += add->bytes_written;
    4713          79 :         total->num_write_ops += add->num_write_ops;
    4714          79 :         total->bytes_unmapped += add->bytes_unmapped;
    4715          79 :         total->num_unmap_ops += add->num_unmap_ops;
    4716          79 :         total->bytes_copied += add->bytes_copied;
    4717          79 :         total->num_copy_ops += add->num_copy_ops;
    4718          79 :         total->read_latency_ticks += add->read_latency_ticks;
    4719          79 :         total->write_latency_ticks += add->write_latency_ticks;
    4720          79 :         total->unmap_latency_ticks += add->unmap_latency_ticks;
    4721          79 :         total->copy_latency_ticks += add->copy_latency_ticks;
    4722          79 :         if (total->max_read_latency_ticks < add->max_read_latency_ticks) {
    4723           7 :                 total->max_read_latency_ticks = add->max_read_latency_ticks;
    4724             :         }
    4725          79 :         if (total->min_read_latency_ticks > add->min_read_latency_ticks) {
    4726          39 :                 total->min_read_latency_ticks = add->min_read_latency_ticks;
    4727             :         }
    4728          79 :         if (total->max_write_latency_ticks < add->max_write_latency_ticks) {
    4729           4 :                 total->max_write_latency_ticks = add->max_write_latency_ticks;
    4730             :         }
    4731          79 :         if (total->min_write_latency_ticks > add->min_write_latency_ticks) {
    4732          24 :                 total->min_write_latency_ticks = add->min_write_latency_ticks;
    4733             :         }
    4734          79 :         if (total->max_unmap_latency_ticks < add->max_unmap_latency_ticks) {
    4735           0 :                 total->max_unmap_latency_ticks = add->max_unmap_latency_ticks;
    4736             :         }
    4737          79 :         if (total->min_unmap_latency_ticks > add->min_unmap_latency_ticks) {
    4738           3 :                 total->min_unmap_latency_ticks = add->min_unmap_latency_ticks;
    4739             :         }
    4740          79 :         if (total->max_copy_latency_ticks < add->max_copy_latency_ticks) {
    4741           0 :                 total->max_copy_latency_ticks = add->max_copy_latency_ticks;
    4742             :         }
    4743          79 :         if (total->min_copy_latency_ticks > add->min_copy_latency_ticks) {
    4744           4 :                 total->min_copy_latency_ticks = add->min_copy_latency_ticks;
    4745             :         }
    4746          79 : }
    4747             : 
    4748             : static void
    4749           5 : bdev_get_io_stat(struct spdk_bdev_io_stat *to_stat, struct spdk_bdev_io_stat *from_stat)
    4750             : {
    4751           5 :         memcpy(to_stat, from_stat, offsetof(struct spdk_bdev_io_stat, io_error));
    4752             : 
    4753           5 :         if (to_stat->io_error != NULL && from_stat->io_error != NULL) {
    4754           0 :                 memcpy(to_stat->io_error, from_stat->io_error,
    4755             :                        sizeof(struct spdk_bdev_io_error_stat));
    4756             :         }
    4757           5 : }
    4758             : 
    4759             : void
    4760         216 : spdk_bdev_reset_io_stat(struct spdk_bdev_io_stat *stat, enum spdk_bdev_reset_stat_mode mode)
    4761             : {
    4762         216 :         if (mode == SPDK_BDEV_RESET_STAT_NONE) {
    4763           5 :                 return;
    4764             :         }
    4765             : 
    4766         211 :         stat->max_read_latency_ticks = 0;
    4767         211 :         stat->min_read_latency_ticks = UINT64_MAX;
    4768         211 :         stat->max_write_latency_ticks = 0;
    4769         211 :         stat->min_write_latency_ticks = UINT64_MAX;
    4770         211 :         stat->max_unmap_latency_ticks = 0;
    4771         211 :         stat->min_unmap_latency_ticks = UINT64_MAX;
    4772         211 :         stat->max_copy_latency_ticks = 0;
    4773         211 :         stat->min_copy_latency_ticks = UINT64_MAX;
    4774             : 
    4775         211 :         if (mode != SPDK_BDEV_RESET_STAT_ALL) {
    4776           2 :                 return;
    4777             :         }
    4778             : 
    4779         209 :         stat->bytes_read = 0;
    4780         209 :         stat->num_read_ops = 0;
    4781         209 :         stat->bytes_written = 0;
    4782         209 :         stat->num_write_ops = 0;
    4783         209 :         stat->bytes_unmapped = 0;
    4784         209 :         stat->num_unmap_ops = 0;
    4785         209 :         stat->bytes_copied = 0;
    4786         209 :         stat->num_copy_ops = 0;
    4787         209 :         stat->read_latency_ticks = 0;
    4788         209 :         stat->write_latency_ticks = 0;
    4789         209 :         stat->unmap_latency_ticks = 0;
    4790         209 :         stat->copy_latency_ticks = 0;
    4791             : 
    4792         209 :         if (stat->io_error != NULL) {
    4793         133 :                 memset(stat->io_error, 0, sizeof(struct spdk_bdev_io_error_stat));
    4794             :         }
    4795             : }
    4796             : 
    4797             : struct spdk_bdev_io_stat *
    4798         207 : bdev_alloc_io_stat(bool io_error_stat)
    4799             : {
    4800             :         struct spdk_bdev_io_stat *stat;
    4801             : 
    4802         207 :         stat = malloc(sizeof(struct spdk_bdev_io_stat));
    4803         207 :         if (stat == NULL) {
    4804           0 :                 return NULL;
    4805             :         }
    4806             : 
    4807         207 :         if (io_error_stat) {
    4808         132 :                 stat->io_error = malloc(sizeof(struct spdk_bdev_io_error_stat));
    4809         132 :                 if (stat->io_error == NULL) {
    4810           0 :                         free(stat);
    4811           0 :                         return NULL;
    4812             :                 }
    4813             :         } else {
    4814          75 :                 stat->io_error = NULL;
    4815             :         }
    4816             : 
    4817         207 :         spdk_bdev_reset_io_stat(stat, SPDK_BDEV_RESET_STAT_ALL);
    4818             : 
    4819         207 :         return stat;
    4820             : }
    4821             : 
    4822             : void
    4823         207 : bdev_free_io_stat(struct spdk_bdev_io_stat *stat)
    4824             : {
    4825         207 :         if (stat != NULL) {
    4826         207 :                 free(stat->io_error);
    4827         207 :                 free(stat);
    4828             :         }
    4829         207 : }
    4830             : 
    4831             : void
    4832           0 : spdk_bdev_dump_io_stat_json(struct spdk_bdev_io_stat *stat, struct spdk_json_write_ctx *w)
    4833             : {
    4834             :         int i;
    4835             : 
    4836           0 :         spdk_json_write_named_uint64(w, "bytes_read", stat->bytes_read);
    4837           0 :         spdk_json_write_named_uint64(w, "num_read_ops", stat->num_read_ops);
    4838           0 :         spdk_json_write_named_uint64(w, "bytes_written", stat->bytes_written);
    4839           0 :         spdk_json_write_named_uint64(w, "num_write_ops", stat->num_write_ops);
    4840           0 :         spdk_json_write_named_uint64(w, "bytes_unmapped", stat->bytes_unmapped);
    4841           0 :         spdk_json_write_named_uint64(w, "num_unmap_ops", stat->num_unmap_ops);
    4842           0 :         spdk_json_write_named_uint64(w, "bytes_copied", stat->bytes_copied);
    4843           0 :         spdk_json_write_named_uint64(w, "num_copy_ops", stat->num_copy_ops);
    4844           0 :         spdk_json_write_named_uint64(w, "read_latency_ticks", stat->read_latency_ticks);
    4845           0 :         spdk_json_write_named_uint64(w, "max_read_latency_ticks", stat->max_read_latency_ticks);
    4846           0 :         spdk_json_write_named_uint64(w, "min_read_latency_ticks",
    4847           0 :                                      stat->min_read_latency_ticks != UINT64_MAX ?
    4848             :                                      stat->min_read_latency_ticks : 0);
    4849           0 :         spdk_json_write_named_uint64(w, "write_latency_ticks", stat->write_latency_ticks);
    4850           0 :         spdk_json_write_named_uint64(w, "max_write_latency_ticks", stat->max_write_latency_ticks);
    4851           0 :         spdk_json_write_named_uint64(w, "min_write_latency_ticks",
    4852           0 :                                      stat->min_write_latency_ticks != UINT64_MAX ?
    4853             :                                      stat->min_write_latency_ticks : 0);
    4854           0 :         spdk_json_write_named_uint64(w, "unmap_latency_ticks", stat->unmap_latency_ticks);
    4855           0 :         spdk_json_write_named_uint64(w, "max_unmap_latency_ticks", stat->max_unmap_latency_ticks);
    4856           0 :         spdk_json_write_named_uint64(w, "min_unmap_latency_ticks",
    4857           0 :                                      stat->min_unmap_latency_ticks != UINT64_MAX ?
    4858             :                                      stat->min_unmap_latency_ticks : 0);
    4859           0 :         spdk_json_write_named_uint64(w, "copy_latency_ticks", stat->copy_latency_ticks);
    4860           0 :         spdk_json_write_named_uint64(w, "max_copy_latency_ticks", stat->max_copy_latency_ticks);
    4861           0 :         spdk_json_write_named_uint64(w, "min_copy_latency_ticks",
    4862           0 :                                      stat->min_copy_latency_ticks != UINT64_MAX ?
    4863             :                                      stat->min_copy_latency_ticks : 0);
    4864             : 
    4865           0 :         if (stat->io_error != NULL) {
    4866           0 :                 spdk_json_write_named_object_begin(w, "io_error");
    4867           0 :                 for (i = 0; i < -SPDK_MIN_BDEV_IO_STATUS; i++) {
    4868           0 :                         if (stat->io_error->error_status[i] != 0) {
    4869           0 :                                 spdk_json_write_named_uint32(w, bdev_io_status_get_string(-(i + 1)),
    4870           0 :                                                              stat->io_error->error_status[i]);
    4871             :                         }
    4872             :                 }
    4873           0 :                 spdk_json_write_object_end(w);
    4874             :         }
    4875           0 : }
    4876             : 
    4877             : static void
    4878          79 : bdev_channel_abort_queued_ios(struct spdk_bdev_channel *ch)
    4879             : {
    4880          79 :         struct spdk_bdev_shared_resource *shared_resource = ch->shared_resource;
    4881          79 :         struct spdk_bdev_mgmt_channel *mgmt_ch = shared_resource->mgmt_ch;
    4882             : 
    4883          79 :         bdev_abort_all_queued_io(&shared_resource->nomem_io, ch);
    4884          79 :         bdev_abort_all_buf_io(mgmt_ch, ch);
    4885          79 : }
    4886             : 
    4887             : static void
    4888          75 : bdev_channel_destroy(void *io_device, void *ctx_buf)
    4889             : {
    4890          75 :         struct spdk_bdev_channel *ch = ctx_buf;
    4891             : 
    4892          75 :         SPDK_DEBUGLOG(bdev, "Destroying channel %p for bdev %s on thread %p\n", ch, ch->bdev->name,
    4893             :                       spdk_get_thread());
    4894             : 
    4895          75 :         spdk_trace_record(TRACE_BDEV_IOCH_DESTROY, ch->bdev->internal.trace_id, 0, 0,
    4896             :                           spdk_thread_get_id(spdk_io_channel_get_thread(ch->channel)));
    4897             : 
    4898             :         /* This channel is going away, so add its statistics into the bdev so that they don't get lost. */
    4899          75 :         spdk_spin_lock(&ch->bdev->internal.spinlock);
    4900          75 :         spdk_bdev_add_io_stat(ch->bdev->internal.stat, ch->stat);
    4901          75 :         spdk_spin_unlock(&ch->bdev->internal.spinlock);
    4902             : 
    4903          75 :         bdev_channel_abort_queued_ios(ch);
    4904             : 
    4905          75 :         if (ch->histogram) {
    4906           0 :                 spdk_histogram_data_free(ch->histogram);
    4907             :         }
    4908             : 
    4909          75 :         bdev_channel_destroy_resource(ch);
    4910          75 : }
    4911             : 
    4912             : /*
    4913             :  * If the name already exists in the global bdev name tree, RB_INSERT() returns a pointer
    4914             :  * to it. Hence we do not have to call bdev_get_by_name() when using this function.
    4915             :  */
    4916             : static int
    4917         267 : bdev_name_add(struct spdk_bdev_name *bdev_name, struct spdk_bdev *bdev, const char *name)
    4918             : {
    4919             :         struct spdk_bdev_name *tmp;
    4920             : 
    4921         267 :         bdev_name->name = strdup(name);
    4922         267 :         if (bdev_name->name == NULL) {
    4923           0 :                 SPDK_ERRLOG("Unable to allocate bdev name\n");
    4924           0 :                 return -ENOMEM;
    4925             :         }
    4926             : 
    4927         267 :         bdev_name->bdev = bdev;
    4928             : 
    4929         267 :         spdk_spin_lock(&g_bdev_mgr.spinlock);
    4930         267 :         tmp = RB_INSERT(bdev_name_tree, &g_bdev_mgr.bdev_names, bdev_name);
    4931         267 :         spdk_spin_unlock(&g_bdev_mgr.spinlock);
    4932             : 
    4933         267 :         if (tmp != NULL) {
    4934           4 :                 SPDK_ERRLOG("Bdev name %s already exists\n", name);
    4935           4 :                 free(bdev_name->name);
    4936           4 :                 return -EEXIST;
    4937             :         }
    4938             : 
    4939         263 :         return 0;
    4940             : }
    4941             : 
    4942             : static void
    4943         263 : bdev_name_del_unsafe(struct spdk_bdev_name *bdev_name)
    4944             : {
    4945         263 :         RB_REMOVE(bdev_name_tree, &g_bdev_mgr.bdev_names, bdev_name);
    4946         263 :         free(bdev_name->name);
    4947         263 : }
    4948             : 
    4949             : static void
    4950           5 : bdev_name_del(struct spdk_bdev_name *bdev_name)
    4951             : {
    4952           5 :         spdk_spin_lock(&g_bdev_mgr.spinlock);
    4953           5 :         bdev_name_del_unsafe(bdev_name);
    4954           5 :         spdk_spin_unlock(&g_bdev_mgr.spinlock);
    4955           5 : }
    4956             : 
    4957             : int
    4958         138 : spdk_bdev_alias_add(struct spdk_bdev *bdev, const char *alias)
    4959             : {
    4960             :         struct spdk_bdev_alias *tmp;
    4961             :         int ret;
    4962             : 
    4963         138 :         if (alias == NULL) {
    4964           1 :                 SPDK_ERRLOG("Empty alias passed\n");
    4965           1 :                 return -EINVAL;
    4966             :         }
    4967             : 
    4968         137 :         tmp = calloc(1, sizeof(*tmp));
    4969         137 :         if (tmp == NULL) {
    4970           0 :                 SPDK_ERRLOG("Unable to allocate alias\n");
    4971           0 :                 return -ENOMEM;
    4972             :         }
    4973             : 
    4974         137 :         ret = bdev_name_add(&tmp->alias, bdev, alias);
    4975         137 :         if (ret != 0) {
    4976           4 :                 free(tmp);
    4977           4 :                 return ret;
    4978             :         }
    4979             : 
    4980         133 :         TAILQ_INSERT_TAIL(&bdev->aliases, tmp, tailq);
    4981             : 
    4982         133 :         return 0;
    4983             : }
    4984             : 
    4985             : static int
    4986         134 : bdev_alias_del(struct spdk_bdev *bdev, const char *alias,
    4987             :                void (*alias_del_fn)(struct spdk_bdev_name *n))
    4988             : {
    4989             :         struct spdk_bdev_alias *tmp;
    4990             : 
    4991         139 :         TAILQ_FOREACH(tmp, &bdev->aliases, tailq) {
    4992         135 :                 if (strcmp(alias, tmp->alias.name) == 0) {
    4993         130 :                         TAILQ_REMOVE(&bdev->aliases, tmp, tailq);
    4994         130 :                         alias_del_fn(&tmp->alias);
    4995         130 :                         free(tmp);
    4996         130 :                         return 0;
    4997             :                 }
    4998             :         }
    4999             : 
    5000           4 :         return -ENOENT;
    5001             : }
    5002             : 
    5003             : int
    5004           4 : spdk_bdev_alias_del(struct spdk_bdev *bdev, const char *alias)
    5005             : {
    5006             :         int rc;
    5007             : 
    5008           4 :         rc = bdev_alias_del(bdev, alias, bdev_name_del);
    5009           4 :         if (rc == -ENOENT) {
    5010           2 :                 SPDK_INFOLOG(bdev, "Alias %s does not exist\n", alias);
    5011             :         }
    5012             : 
    5013           4 :         return rc;
    5014             : }
    5015             : 
    5016             : void
    5017           2 : spdk_bdev_alias_del_all(struct spdk_bdev *bdev)
    5018             : {
    5019             :         struct spdk_bdev_alias *p, *tmp;
    5020             : 
    5021           5 :         TAILQ_FOREACH_SAFE(p, &bdev->aliases, tailq, tmp) {
    5022           3 :                 TAILQ_REMOVE(&bdev->aliases, p, tailq);
    5023           3 :                 bdev_name_del(&p->alias);
    5024           3 :                 free(p);
    5025             :         }
    5026           2 : }
    5027             : 
    5028             : struct spdk_io_channel *
    5029          77 : spdk_bdev_get_io_channel(struct spdk_bdev_desc *desc)
    5030             : {
    5031          77 :         return spdk_get_io_channel(__bdev_to_io_dev(spdk_bdev_desc_get_bdev(desc)));
    5032             : }
    5033             : 
    5034             : void *
    5035           0 : spdk_bdev_get_module_ctx(struct spdk_bdev_desc *desc)
    5036             : {
    5037           0 :         struct spdk_bdev *bdev = spdk_bdev_desc_get_bdev(desc);
    5038           0 :         void *ctx = NULL;
    5039             : 
    5040           0 :         if (bdev->fn_table->get_module_ctx) {
    5041           0 :                 ctx = bdev->fn_table->get_module_ctx(bdev->ctxt);
    5042             :         }
    5043             : 
    5044           0 :         return ctx;
    5045             : }
    5046             : 
    5047             : const char *
    5048           0 : spdk_bdev_get_module_name(const struct spdk_bdev *bdev)
    5049             : {
    5050           0 :         return bdev->module->name;
    5051             : }
    5052             : 
    5053             : const char *
    5054         263 : spdk_bdev_get_name(const struct spdk_bdev *bdev)
    5055             : {
    5056         263 :         return bdev->name;
    5057             : }
    5058             : 
    5059             : const char *
    5060           0 : spdk_bdev_get_product_name(const struct spdk_bdev *bdev)
    5061             : {
    5062           0 :         return bdev->product_name;
    5063             : }
    5064             : 
    5065             : const struct spdk_bdev_aliases_list *
    5066           0 : spdk_bdev_get_aliases(const struct spdk_bdev *bdev)
    5067             : {
    5068           0 :         return &bdev->aliases;
    5069             : }
    5070             : 
    5071             : uint32_t
    5072           5 : spdk_bdev_get_block_size(const struct spdk_bdev *bdev)
    5073             : {
    5074           5 :         return bdev->blocklen;
    5075             : }
    5076             : 
    5077             : uint32_t
    5078           0 : spdk_bdev_get_write_unit_size(const struct spdk_bdev *bdev)
    5079             : {
    5080           0 :         return bdev->write_unit_size;
    5081             : }
    5082             : 
    5083             : uint64_t
    5084           0 : spdk_bdev_get_num_blocks(const struct spdk_bdev *bdev)
    5085             : {
    5086           0 :         return bdev->blockcnt;
    5087             : }
    5088             : 
    5089             : const char *
    5090           0 : spdk_bdev_get_qos_rpc_type(enum spdk_bdev_qos_rate_limit_type type)
    5091             : {
    5092           0 :         return qos_rpc_type[type];
    5093             : }
    5094             : 
    5095             : void
    5096           0 : spdk_bdev_get_qos_rate_limits(struct spdk_bdev *bdev, uint64_t *limits)
    5097             : {
    5098             :         int i;
    5099             : 
    5100           0 :         memset(limits, 0, sizeof(*limits) * SPDK_BDEV_QOS_NUM_RATE_LIMIT_TYPES);
    5101             : 
    5102           0 :         spdk_spin_lock(&bdev->internal.spinlock);
    5103           0 :         if (bdev->internal.qos) {
    5104           0 :                 for (i = 0; i < SPDK_BDEV_QOS_NUM_RATE_LIMIT_TYPES; i++) {
    5105           0 :                         if (bdev->internal.qos->rate_limits[i].limit !=
    5106             :                             SPDK_BDEV_QOS_LIMIT_NOT_DEFINED) {
    5107           0 :                                 limits[i] = bdev->internal.qos->rate_limits[i].limit;
    5108           0 :                                 if (bdev_qos_is_iops_rate_limit(i) == false) {
    5109             :                                         /* Change from Byte to Megabyte which is user visible. */
    5110           0 :                                         limits[i] = limits[i] / 1024 / 1024;
    5111             :                                 }
    5112             :                         }
    5113             :                 }
    5114             :         }
    5115           0 :         spdk_spin_unlock(&bdev->internal.spinlock);
    5116           0 : }
    5117             : 
    5118             : size_t
    5119         280 : spdk_bdev_get_buf_align(const struct spdk_bdev *bdev)
    5120             : {
    5121         280 :         return 1 << bdev->required_alignment;
    5122             : }
    5123             : 
    5124             : uint32_t
    5125           0 : spdk_bdev_get_optimal_io_boundary(const struct spdk_bdev *bdev)
    5126             : {
    5127           0 :         return bdev->optimal_io_boundary;
    5128             : }
    5129             : 
    5130             : bool
    5131           0 : spdk_bdev_has_write_cache(const struct spdk_bdev *bdev)
    5132             : {
    5133           0 :         return bdev->write_cache;
    5134             : }
    5135             : 
    5136             : const struct spdk_uuid *
    5137           0 : spdk_bdev_get_uuid(const struct spdk_bdev *bdev)
    5138             : {
    5139           0 :         return &bdev->uuid;
    5140             : }
    5141             : 
    5142             : uint16_t
    5143           0 : spdk_bdev_get_acwu(const struct spdk_bdev *bdev)
    5144             : {
    5145           0 :         return bdev->acwu;
    5146             : }
    5147             : 
    5148             : uint32_t
    5149          29 : spdk_bdev_get_md_size(const struct spdk_bdev *bdev)
    5150             : {
    5151          29 :         return bdev->md_len;
    5152             : }
    5153             : 
    5154             : bool
    5155         135 : spdk_bdev_is_md_interleaved(const struct spdk_bdev *bdev)
    5156             : {
    5157         135 :         return (bdev->md_len != 0) && bdev->md_interleave;
    5158             : }
    5159             : 
    5160             : bool
    5161         117 : spdk_bdev_is_md_separate(const struct spdk_bdev *bdev)
    5162             : {
    5163         117 :         return (bdev->md_len != 0) && !bdev->md_interleave;
    5164             : }
    5165             : 
    5166             : bool
    5167           0 : spdk_bdev_is_zoned(const struct spdk_bdev *bdev)
    5168             : {
    5169           0 :         return bdev->zoned;
    5170             : }
    5171             : 
    5172             : uint32_t
    5173         126 : spdk_bdev_get_data_block_size(const struct spdk_bdev *bdev)
    5174             : {
    5175         126 :         if (spdk_bdev_is_md_interleaved(bdev)) {
    5176           0 :                 return bdev->blocklen - bdev->md_len;
    5177             :         } else {
    5178         126 :                 return bdev->blocklen;
    5179             :         }
    5180             : }
    5181             : 
    5182             : uint32_t
    5183           0 : spdk_bdev_get_physical_block_size(const struct spdk_bdev *bdev)
    5184             : {
    5185           0 :         return bdev->phys_blocklen;
    5186             : }
    5187             : 
    5188             : static uint32_t
    5189           9 : _bdev_get_block_size_with_md(const struct spdk_bdev *bdev)
    5190             : {
    5191           9 :         if (!spdk_bdev_is_md_interleaved(bdev)) {
    5192           6 :                 return bdev->blocklen + bdev->md_len;
    5193             :         } else {
    5194           3 :                 return bdev->blocklen;
    5195             :         }
    5196             : }
    5197             : 
    5198             : /* We have to use the typedef in the function declaration to appease astyle. */
    5199             : typedef enum spdk_dif_type spdk_dif_type_t;
    5200             : typedef enum spdk_dif_pi_format spdk_dif_pi_format_t;
    5201             : 
    5202             : spdk_dif_type_t
    5203           0 : spdk_bdev_get_dif_type(const struct spdk_bdev *bdev)
    5204             : {
    5205           0 :         if (bdev->md_len != 0) {
    5206           0 :                 return bdev->dif_type;
    5207             :         } else {
    5208           0 :                 return SPDK_DIF_DISABLE;
    5209             :         }
    5210             : }
    5211             : 
    5212             : spdk_dif_pi_format_t
    5213           0 : spdk_bdev_get_dif_pi_format(const struct spdk_bdev *bdev)
    5214             : {
    5215           0 :         return bdev->dif_pi_format;
    5216             : }
    5217             : 
    5218             : bool
    5219           0 : spdk_bdev_is_dif_head_of_md(const struct spdk_bdev *bdev)
    5220             : {
    5221           0 :         if (spdk_bdev_get_dif_type(bdev) != SPDK_DIF_DISABLE) {
    5222           0 :                 return bdev->dif_is_head_of_md;
    5223             :         } else {
    5224           0 :                 return false;
    5225             :         }
    5226             : }
    5227             : 
    5228             : bool
    5229           0 : spdk_bdev_is_dif_check_enabled(const struct spdk_bdev *bdev,
    5230             :                                enum spdk_dif_check_type check_type)
    5231             : {
    5232           0 :         if (spdk_bdev_get_dif_type(bdev) == SPDK_DIF_DISABLE) {
    5233           0 :                 return false;
    5234             :         }
    5235             : 
    5236           0 :         switch (check_type) {
    5237           0 :         case SPDK_DIF_CHECK_TYPE_REFTAG:
    5238           0 :                 return (bdev->dif_check_flags & SPDK_DIF_FLAGS_REFTAG_CHECK) != 0;
    5239           0 :         case SPDK_DIF_CHECK_TYPE_APPTAG:
    5240           0 :                 return (bdev->dif_check_flags & SPDK_DIF_FLAGS_APPTAG_CHECK) != 0;
    5241           0 :         case SPDK_DIF_CHECK_TYPE_GUARD:
    5242           0 :                 return (bdev->dif_check_flags & SPDK_DIF_FLAGS_GUARD_CHECK) != 0;
    5243           0 :         default:
    5244           0 :                 return false;
    5245             :         }
    5246             : }
    5247             : 
    5248             : static uint32_t
    5249           3 : bdev_get_max_write(const struct spdk_bdev *bdev, uint64_t num_bytes)
    5250             : {
    5251             :         uint64_t aligned_length, max_write_blocks;
    5252             : 
    5253           3 :         aligned_length = num_bytes - (spdk_bdev_get_buf_align(bdev) - 1);
    5254           3 :         max_write_blocks = aligned_length / _bdev_get_block_size_with_md(bdev);
    5255           3 :         max_write_blocks -= max_write_blocks % bdev->write_unit_size;
    5256             : 
    5257           3 :         return max_write_blocks;
    5258             : }
    5259             : 
    5260             : uint32_t
    5261           1 : spdk_bdev_get_max_copy(const struct spdk_bdev *bdev)
    5262             : {
    5263           1 :         return bdev->max_copy;
    5264             : }
    5265             : 
    5266             : uint64_t
    5267           0 : spdk_bdev_get_qd(const struct spdk_bdev *bdev)
    5268             : {
    5269           0 :         return bdev->internal.measured_queue_depth;
    5270             : }
    5271             : 
    5272             : uint64_t
    5273           0 : spdk_bdev_get_qd_sampling_period(const struct spdk_bdev *bdev)
    5274             : {
    5275           0 :         return bdev->internal.period;
    5276             : }
    5277             : 
    5278             : uint64_t
    5279           0 : spdk_bdev_get_weighted_io_time(const struct spdk_bdev *bdev)
    5280             : {
    5281           0 :         return bdev->internal.weighted_io_time;
    5282             : }
    5283             : 
    5284             : uint64_t
    5285           0 : spdk_bdev_get_io_time(const struct spdk_bdev *bdev)
    5286             : {
    5287           0 :         return bdev->internal.io_time;
    5288             : }
    5289             : 
    5290           0 : union spdk_bdev_nvme_ctratt spdk_bdev_get_nvme_ctratt(struct spdk_bdev *bdev)
    5291             : {
    5292           0 :         return bdev->ctratt;
    5293             : }
    5294             : 
    5295             : uint32_t
    5296           0 : spdk_bdev_get_nvme_nsid(struct spdk_bdev *bdev)
    5297             : {
    5298           0 :         return bdev->nsid;
    5299             : }
    5300             : 
    5301             : uint32_t
    5302           0 : spdk_bdev_desc_get_block_size(struct spdk_bdev_desc *desc)
    5303             : {
    5304           0 :         struct spdk_bdev *bdev = desc->bdev;
    5305             : 
    5306           0 :         return desc->opts.hide_metadata ? bdev->blocklen - bdev->md_len : bdev->blocklen;
    5307             : }
    5308             : 
    5309             : uint32_t
    5310           0 : spdk_bdev_desc_get_md_size(struct spdk_bdev_desc *desc)
    5311             : {
    5312           0 :         struct spdk_bdev *bdev = desc->bdev;
    5313             : 
    5314           0 :         return desc->opts.hide_metadata ? 0 : bdev->md_len;
    5315             : }
    5316             : 
    5317             : bool
    5318           0 : spdk_bdev_desc_is_md_interleaved(struct spdk_bdev_desc *desc)
    5319             : {
    5320           0 :         struct spdk_bdev *bdev = desc->bdev;
    5321             : 
    5322           0 :         return desc->opts.hide_metadata ? false : spdk_bdev_is_md_interleaved(bdev);
    5323             : }
    5324             : 
    5325             : bool
    5326           0 : spdk_bdev_desc_is_md_separate(struct spdk_bdev_desc *desc)
    5327             : {
    5328           0 :         struct spdk_bdev *bdev = desc->bdev;
    5329             : 
    5330           0 :         return desc->opts.hide_metadata ? false : spdk_bdev_is_md_separate(bdev);
    5331             : }
    5332             : 
    5333             : spdk_dif_type_t
    5334           0 : spdk_bdev_desc_get_dif_type(struct spdk_bdev_desc *desc)
    5335             : {
    5336           0 :         struct spdk_bdev *bdev = desc->bdev;
    5337             : 
    5338           0 :         return desc->opts.hide_metadata ? SPDK_DIF_DISABLE : spdk_bdev_get_dif_type(bdev);
    5339             : }
    5340             : 
    5341             : spdk_dif_pi_format_t
    5342           0 : spdk_bdev_desc_get_dif_pi_format(struct spdk_bdev_desc *desc)
    5343             : {
    5344           0 :         struct spdk_bdev *bdev = desc->bdev;
    5345             : 
    5346           0 :         return desc->opts.hide_metadata ? SPDK_DIF_PI_FORMAT_16 : spdk_bdev_get_dif_pi_format(bdev);
    5347             : }
    5348             : 
    5349             : bool
    5350           0 : spdk_bdev_desc_is_dif_head_of_md(struct spdk_bdev_desc *desc)
    5351             : {
    5352           0 :         struct spdk_bdev *bdev = desc->bdev;
    5353             : 
    5354           0 :         return desc->opts.hide_metadata ? false : spdk_bdev_is_dif_head_of_md(bdev);
    5355             : }
    5356             : 
    5357             : bool
    5358           0 : spdk_bdev_desc_is_dif_check_enabled(struct spdk_bdev_desc *desc,
    5359             :                                     enum spdk_dif_check_type check_type)
    5360             : {
    5361           0 :         struct spdk_bdev *bdev = desc->bdev;
    5362             : 
    5363           0 :         return desc->opts.hide_metadata ? false : spdk_bdev_is_dif_check_enabled(bdev, check_type);
    5364             : }
    5365             : 
    5366             : static void bdev_update_qd_sampling_period(void *ctx);
    5367             : 
    5368             : static void
    5369           1 : _calculate_measured_qd_cpl(struct spdk_bdev *bdev, void *_ctx, int status)
    5370             : {
    5371           1 :         bdev->internal.measured_queue_depth = bdev->internal.temporary_queue_depth;
    5372             : 
    5373           1 :         if (bdev->internal.measured_queue_depth) {
    5374           0 :                 bdev->internal.io_time += bdev->internal.period;
    5375           0 :                 bdev->internal.weighted_io_time += bdev->internal.period * bdev->internal.measured_queue_depth;
    5376             :         }
    5377             : 
    5378           1 :         bdev->internal.qd_poll_in_progress = false;
    5379             : 
    5380           1 :         bdev_update_qd_sampling_period(bdev);
    5381           1 : }
    5382             : 
    5383             : static void
    5384           1 : _calculate_measured_qd(struct spdk_bdev_channel_iter *i, struct spdk_bdev *bdev,
    5385             :                        struct spdk_io_channel *io_ch, void *_ctx)
    5386             : {
    5387           1 :         struct spdk_bdev_channel *ch = __io_ch_to_bdev_ch(io_ch);
    5388             : 
    5389           1 :         bdev->internal.temporary_queue_depth += ch->io_outstanding;
    5390           1 :         spdk_bdev_for_each_channel_continue(i, 0);
    5391           1 : }
    5392             : 
    5393             : static int
    5394           1 : bdev_calculate_measured_queue_depth(void *ctx)
    5395             : {
    5396           1 :         struct spdk_bdev *bdev = ctx;
    5397             : 
    5398           1 :         bdev->internal.qd_poll_in_progress = true;
    5399           1 :         bdev->internal.temporary_queue_depth = 0;
    5400           1 :         spdk_bdev_for_each_channel(bdev, _calculate_measured_qd, bdev, _calculate_measured_qd_cpl);
    5401           1 :         return SPDK_POLLER_BUSY;
    5402             : }
    5403             : 
    5404             : static void
    5405           5 : bdev_update_qd_sampling_period(void *ctx)
    5406             : {
    5407           5 :         struct spdk_bdev *bdev = ctx;
    5408             : 
    5409           5 :         if (bdev->internal.period == bdev->internal.new_period) {
    5410           0 :                 return;
    5411             :         }
    5412             : 
    5413           5 :         if (bdev->internal.qd_poll_in_progress) {
    5414           1 :                 return;
    5415             :         }
    5416             : 
    5417           4 :         bdev->internal.period = bdev->internal.new_period;
    5418             : 
    5419           4 :         spdk_poller_unregister(&bdev->internal.qd_poller);
    5420           4 :         if (bdev->internal.period != 0) {
    5421           2 :                 bdev->internal.qd_poller = SPDK_POLLER_REGISTER(bdev_calculate_measured_queue_depth,
    5422             :                                            bdev, bdev->internal.period);
    5423             :         } else {
    5424           2 :                 spdk_bdev_close(bdev->internal.qd_desc);
    5425           2 :                 bdev->internal.qd_desc = NULL;
    5426             :         }
    5427             : }
    5428             : 
    5429             : static void
    5430           0 : _tmp_bdev_event_cb(enum spdk_bdev_event_type type, struct spdk_bdev *bdev, void *ctx)
    5431             : {
    5432           0 :         SPDK_NOTICELOG("Unexpected event type: %d\n", type);
    5433           0 : }
    5434             : 
    5435             : void
    5436         135 : spdk_bdev_set_qd_sampling_period(struct spdk_bdev *bdev, uint64_t period)
    5437             : {
    5438             :         int rc;
    5439             : 
    5440         135 :         if (bdev->internal.new_period == period) {
    5441         129 :                 return;
    5442             :         }
    5443             : 
    5444           6 :         bdev->internal.new_period = period;
    5445             : 
    5446           6 :         if (bdev->internal.qd_desc != NULL) {
    5447           4 :                 assert(bdev->internal.period != 0);
    5448             : 
    5449           4 :                 spdk_thread_send_msg(bdev->internal.qd_desc->thread,
    5450             :                                      bdev_update_qd_sampling_period, bdev);
    5451           4 :                 return;
    5452             :         }
    5453             : 
    5454           2 :         assert(bdev->internal.period == 0);
    5455             : 
    5456           2 :         rc = spdk_bdev_open_ext(spdk_bdev_get_name(bdev), false, _tmp_bdev_event_cb,
    5457             :                                 NULL, &bdev->internal.qd_desc);
    5458           2 :         if (rc != 0) {
    5459           0 :                 return;
    5460             :         }
    5461             : 
    5462           2 :         bdev->internal.period = period;
    5463           2 :         bdev->internal.qd_poller = SPDK_POLLER_REGISTER(bdev_calculate_measured_queue_depth,
    5464             :                                    bdev, period);
    5465             : }
    5466             : 
    5467             : struct bdev_get_current_qd_ctx {
    5468             :         uint64_t current_qd;
    5469             :         spdk_bdev_get_current_qd_cb cb_fn;
    5470             :         void *cb_arg;
    5471             : };
    5472             : 
    5473             : static void
    5474           0 : bdev_get_current_qd_done(struct spdk_bdev *bdev, void *_ctx, int status)
    5475             : {
    5476           0 :         struct bdev_get_current_qd_ctx *ctx = _ctx;
    5477             : 
    5478           0 :         ctx->cb_fn(bdev, ctx->current_qd, ctx->cb_arg, 0);
    5479             : 
    5480           0 :         free(ctx);
    5481           0 : }
    5482             : 
    5483             : static void
    5484           0 : bdev_get_current_qd(struct spdk_bdev_channel_iter *i, struct spdk_bdev *bdev,
    5485             :                     struct spdk_io_channel *io_ch, void *_ctx)
    5486             : {
    5487           0 :         struct bdev_get_current_qd_ctx *ctx = _ctx;
    5488           0 :         struct spdk_bdev_channel *bdev_ch = __io_ch_to_bdev_ch(io_ch);
    5489             : 
    5490           0 :         ctx->current_qd += bdev_ch->io_outstanding;
    5491             : 
    5492           0 :         spdk_bdev_for_each_channel_continue(i, 0);
    5493           0 : }
    5494             : 
    5495             : void
    5496           0 : spdk_bdev_get_current_qd(struct spdk_bdev *bdev, spdk_bdev_get_current_qd_cb cb_fn,
    5497             :                          void *cb_arg)
    5498             : {
    5499             :         struct bdev_get_current_qd_ctx *ctx;
    5500             : 
    5501           0 :         assert(cb_fn != NULL);
    5502             : 
    5503           0 :         ctx = calloc(1, sizeof(*ctx));
    5504           0 :         if (ctx == NULL) {
    5505           0 :                 cb_fn(bdev, 0, cb_arg, -ENOMEM);
    5506           0 :                 return;
    5507             :         }
    5508             : 
    5509           0 :         ctx->cb_fn = cb_fn;
    5510           0 :         ctx->cb_arg = cb_arg;
    5511             : 
    5512           0 :         spdk_bdev_for_each_channel(bdev, bdev_get_current_qd, ctx, bdev_get_current_qd_done);
    5513             : }
    5514             : 
    5515             : static void
    5516          25 : _event_notify(struct spdk_bdev_desc *desc, enum spdk_bdev_event_type type)
    5517             : {
    5518          25 :         assert(desc->thread == spdk_get_thread());
    5519             : 
    5520          25 :         spdk_spin_lock(&desc->spinlock);
    5521          25 :         desc->refs--;
    5522          25 :         if (!desc->closed) {
    5523          14 :                 spdk_spin_unlock(&desc->spinlock);
    5524          14 :                 desc->callback.event_fn(type,
    5525             :                                         desc->bdev,
    5526             :                                         desc->callback.ctx);
    5527          14 :                 return;
    5528          11 :         } else if (desc->refs == 0) {
    5529             :                 /* This descriptor was closed after this event_notify message was sent.
    5530             :                  * spdk_bdev_close() could not free the descriptor since this message was
    5531             :                  * in flight, so we free it now using bdev_desc_free().
    5532             :                  */
    5533          10 :                 spdk_spin_unlock(&desc->spinlock);
    5534          10 :                 bdev_desc_free(desc);
    5535          10 :                 return;
    5536             :         }
    5537           1 :         spdk_spin_unlock(&desc->spinlock);
    5538             : }
    5539             : 
    5540             : static void
    5541          25 : event_notify(struct spdk_bdev_desc *desc, spdk_msg_fn event_notify_fn)
    5542             : {
    5543          25 :         spdk_spin_lock(&desc->spinlock);
    5544          25 :         desc->refs++;
    5545          25 :         spdk_thread_send_msg(desc->thread, event_notify_fn, desc);
    5546          25 :         spdk_spin_unlock(&desc->spinlock);
    5547          25 : }
    5548             : 
    5549             : static void
    5550           6 : _resize_notify(void *ctx)
    5551             : {
    5552           6 :         struct spdk_bdev_desc *desc = ctx;
    5553             : 
    5554           6 :         _event_notify(desc, SPDK_BDEV_EVENT_RESIZE);
    5555           6 : }
    5556             : 
    5557             : int
    5558          11 : spdk_bdev_notify_blockcnt_change(struct spdk_bdev *bdev, uint64_t size)
    5559             : {
    5560             :         struct spdk_bdev_desc *desc;
    5561             :         int ret;
    5562             : 
    5563          11 :         if (size == bdev->blockcnt) {
    5564           0 :                 return 0;
    5565             :         }
    5566             : 
    5567          11 :         spdk_spin_lock(&bdev->internal.spinlock);
    5568             : 
    5569             :         /* bdev has open descriptors */
    5570          11 :         if (!TAILQ_EMPTY(&bdev->internal.open_descs) &&
    5571           7 :             bdev->blockcnt > size) {
    5572           1 :                 ret = -EBUSY;
    5573             :         } else {
    5574          10 :                 bdev->blockcnt = size;
    5575          16 :                 TAILQ_FOREACH(desc, &bdev->internal.open_descs, link) {
    5576           6 :                         event_notify(desc, _resize_notify);
    5577             :                 }
    5578          10 :                 ret = 0;
    5579             :         }
    5580             : 
    5581          11 :         spdk_spin_unlock(&bdev->internal.spinlock);
    5582             : 
    5583          11 :         return ret;
    5584             : }
    5585             : 
    5586             : /*
    5587             :  * Convert I/O offset and length from bytes to blocks.
    5588             :  *
    5589             :  * Returns zero on success or non-zero if the byte parameters aren't divisible by the block size.
    5590             :  */
    5591             : static uint64_t
    5592          20 : bdev_bytes_to_blocks(struct spdk_bdev_desc *desc, uint64_t offset_bytes,
    5593             :                      uint64_t *offset_blocks, uint64_t num_bytes, uint64_t *num_blocks)
    5594             : {
    5595          20 :         uint32_t block_size = bdev_desc_get_block_size(desc);
    5596             :         uint8_t shift_cnt;
    5597             : 
    5598             :         /* Avoid expensive div operations if possible. These spdk_u32 functions are very cheap. */
    5599          20 :         if (spdk_likely(spdk_u32_is_pow2(block_size))) {
    5600          17 :                 shift_cnt = spdk_u32log2(block_size);
    5601          17 :                 *offset_blocks = offset_bytes >> shift_cnt;
    5602          17 :                 *num_blocks = num_bytes >> shift_cnt;
    5603          17 :                 return (offset_bytes - (*offset_blocks << shift_cnt)) |
    5604          17 :                        (num_bytes - (*num_blocks << shift_cnt));
    5605             :         } else {
    5606           3 :                 *offset_blocks = offset_bytes / block_size;
    5607           3 :                 *num_blocks = num_bytes / block_size;
    5608           3 :                 return (offset_bytes % block_size) | (num_bytes % block_size);
    5609             :         }
    5610             : }
    5611             : 
    5612             : static bool
    5613         689 : bdev_io_valid_blocks(struct spdk_bdev *bdev, uint64_t offset_blocks, uint64_t num_blocks)
    5614             : {
    5615             :         /* Return failure if offset_blocks + num_blocks is less than offset_blocks; indicates there
    5616             :          * has been an overflow and hence the offset has been wrapped around */
    5617         689 :         if (offset_blocks + num_blocks < offset_blocks) {
    5618           1 :                 return false;
    5619             :         }
    5620             : 
    5621             :         /* Return failure if offset_blocks + num_blocks exceeds the size of the bdev */
    5622         688 :         if (offset_blocks + num_blocks > bdev->blockcnt) {
    5623           2 :                 return false;
    5624             :         }
    5625             : 
    5626         686 :         return true;
    5627             : }
    5628             : 
    5629             : static void
    5630           2 : bdev_seek_complete_cb(void *ctx)
    5631             : {
    5632           2 :         struct spdk_bdev_io *bdev_io = ctx;
    5633             : 
    5634           2 :         bdev_io->internal.status = SPDK_BDEV_IO_STATUS_SUCCESS;
    5635           2 :         bdev_io->internal.cb(bdev_io, true, bdev_io->internal.caller_ctx);
    5636           2 : }
    5637             : 
    5638             : static int
    5639           4 : bdev_seek(struct spdk_bdev_desc *desc, struct spdk_io_channel *ch,
    5640             :           uint64_t offset_blocks, enum spdk_bdev_io_type io_type,
    5641             :           spdk_bdev_io_completion_cb cb, void *cb_arg)
    5642             : {
    5643           4 :         struct spdk_bdev *bdev = spdk_bdev_desc_get_bdev(desc);
    5644             :         struct spdk_bdev_io *bdev_io;
    5645           4 :         struct spdk_bdev_channel *channel = __io_ch_to_bdev_ch(ch);
    5646             : 
    5647           4 :         assert(io_type == SPDK_BDEV_IO_TYPE_SEEK_DATA || io_type == SPDK_BDEV_IO_TYPE_SEEK_HOLE);
    5648             : 
    5649             :         /* Check if offset_blocks is valid looking at the validity of one block */
    5650           4 :         if (!bdev_io_valid_blocks(bdev, offset_blocks, 1)) {
    5651           0 :                 return -EINVAL;
    5652             :         }
    5653             : 
    5654           4 :         bdev_io = bdev_channel_get_io(channel);
    5655           4 :         if (!bdev_io) {
    5656           0 :                 return -ENOMEM;
    5657             :         }
    5658             : 
    5659           4 :         bdev_io->internal.ch = channel;
    5660           4 :         bdev_io->internal.desc = desc;
    5661           4 :         bdev_io->type = io_type;
    5662           4 :         bdev_io->u.bdev.offset_blocks = offset_blocks;
    5663           4 :         bdev_io->u.bdev.memory_domain = NULL;
    5664           4 :         bdev_io->u.bdev.memory_domain_ctx = NULL;
    5665           4 :         bdev_io->u.bdev.accel_sequence = NULL;
    5666           4 :         bdev_io_init(bdev_io, bdev, cb_arg, cb);
    5667             : 
    5668           4 :         if (!spdk_bdev_io_type_supported(bdev, io_type)) {
    5669             :                 /* In case bdev doesn't support seek to next data/hole offset,
    5670             :                  * it is assumed that only data and no holes are present */
    5671           2 :                 if (io_type == SPDK_BDEV_IO_TYPE_SEEK_DATA) {
    5672           1 :                         bdev_io->u.bdev.seek.offset = offset_blocks;
    5673             :                 } else {
    5674           1 :                         bdev_io->u.bdev.seek.offset = UINT64_MAX;
    5675             :                 }
    5676             : 
    5677           2 :                 spdk_thread_send_msg(spdk_get_thread(), bdev_seek_complete_cb, bdev_io);
    5678           2 :                 return 0;
    5679             :         }
    5680             : 
    5681           2 :         bdev_io_submit(bdev_io);
    5682           2 :         return 0;
    5683             : }
    5684             : 
    5685             : int
    5686           2 : spdk_bdev_seek_data(struct spdk_bdev_desc *desc, struct spdk_io_channel *ch,
    5687             :                     uint64_t offset_blocks,
    5688             :                     spdk_bdev_io_completion_cb cb, void *cb_arg)
    5689             : {
    5690           2 :         return bdev_seek(desc, ch, offset_blocks, SPDK_BDEV_IO_TYPE_SEEK_DATA, cb, cb_arg);
    5691             : }
    5692             : 
    5693             : int
    5694           2 : spdk_bdev_seek_hole(struct spdk_bdev_desc *desc, struct spdk_io_channel *ch,
    5695             :                     uint64_t offset_blocks,
    5696             :                     spdk_bdev_io_completion_cb cb, void *cb_arg)
    5697             : {
    5698           2 :         return bdev_seek(desc, ch, offset_blocks, SPDK_BDEV_IO_TYPE_SEEK_HOLE, cb, cb_arg);
    5699             : }
    5700             : 
    5701             : uint64_t
    5702           4 : spdk_bdev_io_get_seek_offset(const struct spdk_bdev_io *bdev_io)
    5703             : {
    5704           4 :         return bdev_io->u.bdev.seek.offset;
    5705             : }
    5706             : 
    5707             : static int
    5708         204 : bdev_read_blocks_with_md(struct spdk_bdev_desc *desc, struct spdk_io_channel *ch, void *buf,
    5709             :                          void *md_buf, uint64_t offset_blocks, uint64_t num_blocks,
    5710             :                          spdk_bdev_io_completion_cb cb, void *cb_arg)
    5711             : {
    5712         204 :         struct spdk_bdev *bdev = spdk_bdev_desc_get_bdev(desc);
    5713             :         struct spdk_bdev_io *bdev_io;
    5714         204 :         struct spdk_bdev_channel *channel = __io_ch_to_bdev_ch(ch);
    5715             : 
    5716         204 :         if (!bdev_io_valid_blocks(bdev, offset_blocks, num_blocks)) {
    5717           0 :                 return -EINVAL;
    5718             :         }
    5719             : 
    5720         204 :         bdev_io = bdev_channel_get_io(channel);
    5721         204 :         if (!bdev_io) {
    5722           1 :                 return -ENOMEM;
    5723             :         }
    5724             : 
    5725         203 :         bdev_io->internal.ch = channel;
    5726         203 :         bdev_io->internal.desc = desc;
    5727         203 :         bdev_io->type = SPDK_BDEV_IO_TYPE_READ;
    5728         203 :         bdev_io->u.bdev.iovs = &bdev_io->iov;
    5729         203 :         bdev_io->u.bdev.iovs[0].iov_base = buf;
    5730         203 :         bdev_io->u.bdev.iovs[0].iov_len = num_blocks * bdev_desc_get_block_size(desc);
    5731         203 :         bdev_io->u.bdev.iovcnt = 1;
    5732         203 :         bdev_io->u.bdev.md_buf = md_buf;
    5733         203 :         bdev_io->u.bdev.num_blocks = num_blocks;
    5734         203 :         bdev_io->u.bdev.offset_blocks = offset_blocks;
    5735         203 :         bdev_io->u.bdev.memory_domain = NULL;
    5736         203 :         bdev_io->u.bdev.memory_domain_ctx = NULL;
    5737         203 :         bdev_io->u.bdev.accel_sequence = NULL;
    5738         203 :         bdev_io->u.bdev.dif_check_flags = bdev->dif_check_flags;
    5739         203 :         bdev_io_init(bdev_io, bdev, cb_arg, cb);
    5740             : 
    5741         203 :         bdev_io_submit(bdev_io);
    5742         203 :         return 0;
    5743             : }
    5744             : 
    5745             : int
    5746           3 : spdk_bdev_read(struct spdk_bdev_desc *desc, struct spdk_io_channel *ch,
    5747             :                void *buf, uint64_t offset, uint64_t nbytes,
    5748             :                spdk_bdev_io_completion_cb cb, void *cb_arg)
    5749             : {
    5750           3 :         uint64_t offset_blocks, num_blocks;
    5751             : 
    5752           3 :         if (bdev_bytes_to_blocks(desc, offset, &offset_blocks, nbytes, &num_blocks) != 0) {
    5753           0 :                 return -EINVAL;
    5754             :         }
    5755             : 
    5756           3 :         return spdk_bdev_read_blocks(desc, ch, buf, offset_blocks, num_blocks, cb, cb_arg);
    5757             : }
    5758             : 
    5759             : int
    5760         200 : spdk_bdev_read_blocks(struct spdk_bdev_desc *desc, struct spdk_io_channel *ch,
    5761             :                       void *buf, uint64_t offset_blocks, uint64_t num_blocks,
    5762             :                       spdk_bdev_io_completion_cb cb, void *cb_arg)
    5763             : {
    5764         200 :         return bdev_read_blocks_with_md(desc, ch, buf, NULL, offset_blocks, num_blocks, cb, cb_arg);
    5765             : }
    5766             : 
    5767             : int
    5768           4 : spdk_bdev_read_blocks_with_md(struct spdk_bdev_desc *desc, struct spdk_io_channel *ch,
    5769             :                               void *buf, void *md_buf, uint64_t offset_blocks, uint64_t num_blocks,
    5770             :                               spdk_bdev_io_completion_cb cb, void *cb_arg)
    5771             : {
    5772           4 :         struct iovec iov = {
    5773             :                 .iov_base = buf,
    5774             :         };
    5775             : 
    5776           4 :         if (md_buf && !spdk_bdev_is_md_separate(spdk_bdev_desc_get_bdev(desc))) {
    5777           0 :                 return -EINVAL;
    5778             :         }
    5779             : 
    5780           4 :         if ((md_buf || desc->opts.hide_metadata) && !_is_buf_allocated(&iov)) {
    5781           0 :                 return -EINVAL;
    5782             :         }
    5783             : 
    5784           4 :         return bdev_read_blocks_with_md(desc, ch, buf, md_buf, offset_blocks, num_blocks,
    5785             :                                         cb, cb_arg);
    5786             : }
    5787             : 
    5788             : int
    5789           5 : spdk_bdev_readv(struct spdk_bdev_desc *desc, struct spdk_io_channel *ch,
    5790             :                 struct iovec *iov, int iovcnt,
    5791             :                 uint64_t offset, uint64_t nbytes,
    5792             :                 spdk_bdev_io_completion_cb cb, void *cb_arg)
    5793             : {
    5794           5 :         uint64_t offset_blocks, num_blocks;
    5795             : 
    5796           5 :         if (bdev_bytes_to_blocks(desc, offset, &offset_blocks, nbytes, &num_blocks) != 0) {
    5797           0 :                 return -EINVAL;
    5798             :         }
    5799             : 
    5800           5 :         return spdk_bdev_readv_blocks(desc, ch, iov, iovcnt, offset_blocks, num_blocks, cb, cb_arg);
    5801             : }
    5802             : 
    5803             : static int
    5804         226 : bdev_readv_blocks_with_md(struct spdk_bdev_desc *desc, struct spdk_io_channel *ch,
    5805             :                           struct iovec *iov, int iovcnt, void *md_buf, uint64_t offset_blocks,
    5806             :                           uint64_t num_blocks, struct spdk_memory_domain *domain, void *domain_ctx,
    5807             :                           struct spdk_accel_sequence *seq, uint32_t dif_check_flags,
    5808             :                           spdk_bdev_io_completion_cb cb, void *cb_arg)
    5809             : {
    5810         226 :         struct spdk_bdev *bdev = spdk_bdev_desc_get_bdev(desc);
    5811             :         struct spdk_bdev_io *bdev_io;
    5812         226 :         struct spdk_bdev_channel *channel = __io_ch_to_bdev_ch(ch);
    5813             : 
    5814         226 :         if (spdk_unlikely(!bdev_io_valid_blocks(bdev, offset_blocks, num_blocks))) {
    5815           0 :                 return -EINVAL;
    5816             :         }
    5817             : 
    5818         226 :         bdev_io = bdev_channel_get_io(channel);
    5819         226 :         if (spdk_unlikely(!bdev_io)) {
    5820           2 :                 return -ENOMEM;
    5821             :         }
    5822             : 
    5823         224 :         bdev_io->internal.ch = channel;
    5824         224 :         bdev_io->internal.desc = desc;
    5825         224 :         bdev_io->type = SPDK_BDEV_IO_TYPE_READ;
    5826         224 :         bdev_io->u.bdev.iovs = iov;
    5827         224 :         bdev_io->u.bdev.iovcnt = iovcnt;
    5828         224 :         bdev_io->u.bdev.md_buf = md_buf;
    5829         224 :         bdev_io->u.bdev.num_blocks = num_blocks;
    5830         224 :         bdev_io->u.bdev.offset_blocks = offset_blocks;
    5831         224 :         bdev_io_init(bdev_io, bdev, cb_arg, cb);
    5832             : 
    5833         224 :         if (seq != NULL) {
    5834           0 :                 bdev_io->internal.f.has_accel_sequence = true;
    5835           0 :                 bdev_io->internal.accel_sequence = seq;
    5836             :         }
    5837             : 
    5838         224 :         if (domain != NULL) {
    5839           2 :                 bdev_io->internal.f.has_memory_domain = true;
    5840           2 :                 bdev_io->internal.memory_domain = domain;
    5841           2 :                 bdev_io->internal.memory_domain_ctx = domain_ctx;
    5842             :         }
    5843             : 
    5844         224 :         bdev_io->u.bdev.memory_domain = domain;
    5845         224 :         bdev_io->u.bdev.memory_domain_ctx = domain_ctx;
    5846         224 :         bdev_io->u.bdev.accel_sequence = seq;
    5847         224 :         bdev_io->u.bdev.dif_check_flags = dif_check_flags;
    5848             : 
    5849         224 :         _bdev_io_submit_ext(desc, bdev_io);
    5850             : 
    5851         224 :         return 0;
    5852             : }
    5853             : 
    5854             : int
    5855          21 : spdk_bdev_readv_blocks(struct spdk_bdev_desc *desc, struct spdk_io_channel *ch,
    5856             :                        struct iovec *iov, int iovcnt,
    5857             :                        uint64_t offset_blocks, uint64_t num_blocks,
    5858             :                        spdk_bdev_io_completion_cb cb, void *cb_arg)
    5859             : {
    5860          21 :         struct spdk_bdev *bdev = spdk_bdev_desc_get_bdev(desc);
    5861             : 
    5862          21 :         return bdev_readv_blocks_with_md(desc, ch, iov, iovcnt, NULL, offset_blocks,
    5863             :                                          num_blocks, NULL, NULL, NULL, bdev->dif_check_flags, cb, cb_arg);
    5864             : }
    5865             : 
    5866             : int
    5867           4 : spdk_bdev_readv_blocks_with_md(struct spdk_bdev_desc *desc, struct spdk_io_channel *ch,
    5868             :                                struct iovec *iov, int iovcnt, void *md_buf,
    5869             :                                uint64_t offset_blocks, uint64_t num_blocks,
    5870             :                                spdk_bdev_io_completion_cb cb, void *cb_arg)
    5871             : {
    5872           4 :         struct spdk_bdev *bdev = spdk_bdev_desc_get_bdev(desc);
    5873             : 
    5874           4 :         if (md_buf && !spdk_bdev_is_md_separate(bdev)) {
    5875           0 :                 return -EINVAL;
    5876             :         }
    5877             : 
    5878           4 :         if (md_buf && !_is_buf_allocated(iov)) {
    5879           0 :                 return -EINVAL;
    5880             :         }
    5881             : 
    5882           4 :         return bdev_readv_blocks_with_md(desc, ch, iov, iovcnt, md_buf, offset_blocks,
    5883             :                                          num_blocks, NULL, NULL, NULL, bdev->dif_check_flags, cb, cb_arg);
    5884             : }
    5885             : 
    5886             : static inline bool
    5887          14 : _bdev_io_check_opts(struct spdk_bdev_ext_io_opts *opts, struct iovec *iov)
    5888             : {
    5889             :         /*
    5890             :          * We check if opts size is at least of size when we first introduced
    5891             :          * spdk_bdev_ext_io_opts (ac6f2bdd8d) since access to those members
    5892             :          * are not checked internal.
    5893             :          */
    5894          14 :         return opts->size >= offsetof(struct spdk_bdev_ext_io_opts, metadata) +
    5895          10 :                sizeof(opts->metadata) &&
    5896          22 :                opts->size <= sizeof(*opts) &&
    5897             :                /* When memory domain is used, the user must provide data buffers */
    5898           8 :                (!opts->memory_domain || (iov && iov[0].iov_base));
    5899             : }
    5900             : 
    5901             : int
    5902           8 : spdk_bdev_readv_blocks_ext(struct spdk_bdev_desc *desc, struct spdk_io_channel *ch,
    5903             :                            struct iovec *iov, int iovcnt,
    5904             :                            uint64_t offset_blocks, uint64_t num_blocks,
    5905             :                            spdk_bdev_io_completion_cb cb, void *cb_arg,
    5906             :                            struct spdk_bdev_ext_io_opts *opts)
    5907             : {
    5908           8 :         struct spdk_memory_domain *domain = NULL;
    5909           8 :         struct spdk_accel_sequence *seq = NULL;
    5910           8 :         void *domain_ctx = NULL, *md = NULL;
    5911           8 :         uint32_t dif_check_flags = 0;
    5912             :         uint32_t nvme_cdw12_raw;
    5913           8 :         struct spdk_bdev *bdev = spdk_bdev_desc_get_bdev(desc);
    5914             : 
    5915           8 :         if (opts) {
    5916           7 :                 if (spdk_unlikely(!_bdev_io_check_opts(opts, iov))) {
    5917           3 :                         return -EINVAL;
    5918             :                 }
    5919             : 
    5920           4 :                 md = opts->metadata;
    5921           4 :                 domain = bdev_get_ext_io_opt(opts, memory_domain, NULL);
    5922           4 :                 domain_ctx = bdev_get_ext_io_opt(opts, memory_domain_ctx, NULL);
    5923           4 :                 seq = bdev_get_ext_io_opt(opts, accel_sequence, NULL);
    5924           4 :                 nvme_cdw12_raw = bdev_get_ext_io_opt(opts, nvme_cdw12.raw, 0);
    5925           4 :                 if (md) {
    5926           4 :                         if (spdk_unlikely(!spdk_bdev_is_md_separate(bdev))) {
    5927           0 :                                 return -EINVAL;
    5928             :                         }
    5929             : 
    5930           4 :                         if (spdk_unlikely(!_is_buf_allocated(iov))) {
    5931           0 :                                 return -EINVAL;
    5932             :                         }
    5933             : 
    5934           4 :                         if (spdk_unlikely(seq != NULL)) {
    5935           0 :                                 return -EINVAL;
    5936             :                         }
    5937             : 
    5938           4 :                         if (nvme_cdw12_raw & SPDK_DIF_FLAGS_NVME_PRACT) {
    5939           0 :                                 SPDK_ERRLOG("Separate metadata with NVMe PRACT is not supported.\n");
    5940           0 :                                 return -ENOTSUP;
    5941             :                         }
    5942             :                 }
    5943             : 
    5944           4 :                 if (nvme_cdw12_raw & SPDK_DIF_FLAGS_NVME_PRACT) {
    5945           0 :                         dif_check_flags |= SPDK_DIF_FLAGS_NVME_PRACT;
    5946             :                 }
    5947             :         }
    5948             : 
    5949           5 :         dif_check_flags |= bdev->dif_check_flags &
    5950           5 :                            ~(bdev_get_ext_io_opt(opts, dif_check_flags_exclude_mask, 0));
    5951             : 
    5952           5 :         return bdev_readv_blocks_with_md(desc, ch, iov, iovcnt, md, offset_blocks,
    5953             :                                          num_blocks, domain, domain_ctx, seq, dif_check_flags, cb, cb_arg);
    5954             : }
    5955             : 
    5956             : static int
    5957          36 : bdev_write_blocks_with_md(struct spdk_bdev_desc *desc, struct spdk_io_channel *ch,
    5958             :                           void *buf, void *md_buf, uint64_t offset_blocks, uint64_t num_blocks,
    5959             :                           spdk_bdev_io_completion_cb cb, void *cb_arg)
    5960             : {
    5961          36 :         struct spdk_bdev *bdev = spdk_bdev_desc_get_bdev(desc);
    5962             :         struct spdk_bdev_io *bdev_io;
    5963          36 :         struct spdk_bdev_channel *channel = __io_ch_to_bdev_ch(ch);
    5964             : 
    5965          36 :         if (!desc->write) {
    5966           0 :                 return -EBADF;
    5967             :         }
    5968             : 
    5969          36 :         if (!bdev_io_valid_blocks(bdev, offset_blocks, num_blocks)) {
    5970           0 :                 return -EINVAL;
    5971             :         }
    5972             : 
    5973          36 :         bdev_io = bdev_channel_get_io(channel);
    5974          36 :         if (!bdev_io) {
    5975           0 :                 return -ENOMEM;
    5976             :         }
    5977             : 
    5978          36 :         bdev_io->internal.ch = channel;
    5979          36 :         bdev_io->internal.desc = desc;
    5980          36 :         bdev_io->type = SPDK_BDEV_IO_TYPE_WRITE;
    5981          36 :         bdev_io->u.bdev.iovs = &bdev_io->iov;
    5982          36 :         bdev_io->u.bdev.iovs[0].iov_base = buf;
    5983          36 :         bdev_io->u.bdev.iovs[0].iov_len = num_blocks * bdev_desc_get_block_size(desc);
    5984          36 :         bdev_io->u.bdev.iovcnt = 1;
    5985          36 :         bdev_io->u.bdev.md_buf = md_buf;
    5986          36 :         bdev_io->u.bdev.num_blocks = num_blocks;
    5987          36 :         bdev_io->u.bdev.offset_blocks = offset_blocks;
    5988          36 :         bdev_io->u.bdev.memory_domain = NULL;
    5989          36 :         bdev_io->u.bdev.memory_domain_ctx = NULL;
    5990          36 :         bdev_io->u.bdev.accel_sequence = NULL;
    5991          36 :         bdev_io->u.bdev.dif_check_flags = bdev->dif_check_flags;
    5992          36 :         bdev_io_init(bdev_io, bdev, cb_arg, cb);
    5993             : 
    5994          36 :         bdev_io_submit(bdev_io);
    5995          36 :         return 0;
    5996             : }
    5997             : 
    5998             : int
    5999           3 : spdk_bdev_write(struct spdk_bdev_desc *desc, struct spdk_io_channel *ch,
    6000             :                 void *buf, uint64_t offset, uint64_t nbytes,
    6001             :                 spdk_bdev_io_completion_cb cb, void *cb_arg)
    6002             : {
    6003           3 :         uint64_t offset_blocks, num_blocks;
    6004             : 
    6005           3 :         if (bdev_bytes_to_blocks(desc, offset, &offset_blocks, nbytes, &num_blocks) != 0) {
    6006           0 :                 return -EINVAL;
    6007             :         }
    6008             : 
    6009           3 :         return spdk_bdev_write_blocks(desc, ch, buf, offset_blocks, num_blocks, cb, cb_arg);
    6010             : }
    6011             : 
    6012             : int
    6013          27 : spdk_bdev_write_blocks(struct spdk_bdev_desc *desc, struct spdk_io_channel *ch,
    6014             :                        void *buf, uint64_t offset_blocks, uint64_t num_blocks,
    6015             :                        spdk_bdev_io_completion_cb cb, void *cb_arg)
    6016             : {
    6017          27 :         return bdev_write_blocks_with_md(desc, ch, buf, NULL, offset_blocks, num_blocks,
    6018             :                                          cb, cb_arg);
    6019             : }
    6020             : 
    6021             : int
    6022           3 : spdk_bdev_write_blocks_with_md(struct spdk_bdev_desc *desc, struct spdk_io_channel *ch,
    6023             :                                void *buf, void *md_buf, uint64_t offset_blocks, uint64_t num_blocks,
    6024             :                                spdk_bdev_io_completion_cb cb, void *cb_arg)
    6025             : {
    6026           3 :         struct iovec iov = {
    6027             :                 .iov_base = buf,
    6028             :         };
    6029             : 
    6030           3 :         if (md_buf && !spdk_bdev_is_md_separate(spdk_bdev_desc_get_bdev(desc))) {
    6031           0 :                 return -EINVAL;
    6032             :         }
    6033             : 
    6034           3 :         if (md_buf && !_is_buf_allocated(&iov)) {
    6035           0 :                 return -EINVAL;
    6036             :         }
    6037             : 
    6038           3 :         return bdev_write_blocks_with_md(desc, ch, buf, md_buf, offset_blocks, num_blocks,
    6039             :                                          cb, cb_arg);
    6040             : }
    6041             : 
    6042             : static int
    6043          70 : bdev_writev_blocks_with_md(struct spdk_bdev_desc *desc, struct spdk_io_channel *ch,
    6044             :                            struct iovec *iov, int iovcnt, void *md_buf,
    6045             :                            uint64_t offset_blocks, uint64_t num_blocks,
    6046             :                            struct spdk_memory_domain *domain, void *domain_ctx,
    6047             :                            struct spdk_accel_sequence *seq, uint32_t dif_check_flags,
    6048             :                            uint32_t nvme_cdw12_raw, uint32_t nvme_cdw13_raw,
    6049             :                            spdk_bdev_io_completion_cb cb, void *cb_arg)
    6050             : {
    6051          70 :         struct spdk_bdev *bdev = spdk_bdev_desc_get_bdev(desc);
    6052             :         struct spdk_bdev_io *bdev_io;
    6053          70 :         struct spdk_bdev_channel *channel = __io_ch_to_bdev_ch(ch);
    6054             : 
    6055          70 :         if (spdk_unlikely(!desc->write)) {
    6056           0 :                 return -EBADF;
    6057             :         }
    6058             : 
    6059          70 :         if (spdk_unlikely(!bdev_io_valid_blocks(bdev, offset_blocks, num_blocks))) {
    6060           0 :                 return -EINVAL;
    6061             :         }
    6062             : 
    6063          70 :         bdev_io = bdev_channel_get_io(channel);
    6064          70 :         if (spdk_unlikely(!bdev_io)) {
    6065           2 :                 return -ENOMEM;
    6066             :         }
    6067             : 
    6068          68 :         bdev_io->internal.ch = channel;
    6069          68 :         bdev_io->internal.desc = desc;
    6070          68 :         bdev_io->type = SPDK_BDEV_IO_TYPE_WRITE;
    6071          68 :         bdev_io->u.bdev.iovs = iov;
    6072          68 :         bdev_io->u.bdev.iovcnt = iovcnt;
    6073          68 :         bdev_io->u.bdev.md_buf = md_buf;
    6074          68 :         bdev_io->u.bdev.num_blocks = num_blocks;
    6075          68 :         bdev_io->u.bdev.offset_blocks = offset_blocks;
    6076          68 :         bdev_io_init(bdev_io, bdev, cb_arg, cb);
    6077          68 :         if (seq != NULL) {
    6078           0 :                 bdev_io->internal.f.has_accel_sequence = true;
    6079           0 :                 bdev_io->internal.accel_sequence = seq;
    6080             :         }
    6081             : 
    6082          68 :         if (domain != NULL) {
    6083           2 :                 bdev_io->internal.f.has_memory_domain = true;
    6084           2 :                 bdev_io->internal.memory_domain = domain;
    6085           2 :                 bdev_io->internal.memory_domain_ctx = domain_ctx;
    6086             :         }
    6087             : 
    6088          68 :         bdev_io->u.bdev.memory_domain = domain;
    6089          68 :         bdev_io->u.bdev.memory_domain_ctx = domain_ctx;
    6090          68 :         bdev_io->u.bdev.accel_sequence = seq;
    6091          68 :         bdev_io->u.bdev.dif_check_flags = dif_check_flags;
    6092          68 :         bdev_io->u.bdev.nvme_cdw12.raw = nvme_cdw12_raw;
    6093          68 :         bdev_io->u.bdev.nvme_cdw13.raw = nvme_cdw13_raw;
    6094             : 
    6095          68 :         _bdev_io_submit_ext(desc, bdev_io);
    6096             : 
    6097          68 :         return 0;
    6098             : }
    6099             : 
    6100             : int
    6101           3 : spdk_bdev_writev(struct spdk_bdev_desc *desc, struct spdk_io_channel *ch,
    6102             :                  struct iovec *iov, int iovcnt,
    6103             :                  uint64_t offset, uint64_t len,
    6104             :                  spdk_bdev_io_completion_cb cb, void *cb_arg)
    6105             : {
    6106           3 :         uint64_t offset_blocks, num_blocks;
    6107             : 
    6108           3 :         if (bdev_bytes_to_blocks(desc, offset, &offset_blocks, len, &num_blocks) != 0) {
    6109           0 :                 return -EINVAL;
    6110             :         }
    6111             : 
    6112           3 :         return spdk_bdev_writev_blocks(desc, ch, iov, iovcnt, offset_blocks, num_blocks, cb, cb_arg);
    6113             : }
    6114             : 
    6115             : int
    6116          14 : spdk_bdev_writev_blocks(struct spdk_bdev_desc *desc, struct spdk_io_channel *ch,
    6117             :                         struct iovec *iov, int iovcnt,
    6118             :                         uint64_t offset_blocks, uint64_t num_blocks,
    6119             :                         spdk_bdev_io_completion_cb cb, void *cb_arg)
    6120             : {
    6121          14 :         struct spdk_bdev *bdev = spdk_bdev_desc_get_bdev(desc);
    6122             : 
    6123          14 :         return bdev_writev_blocks_with_md(desc, ch, iov, iovcnt, NULL, offset_blocks,
    6124             :                                           num_blocks, NULL, NULL, NULL, bdev->dif_check_flags, 0, 0,
    6125             :                                           cb, cb_arg);
    6126             : }
    6127             : 
    6128             : int
    6129           1 : spdk_bdev_writev_blocks_with_md(struct spdk_bdev_desc *desc, struct spdk_io_channel *ch,
    6130             :                                 struct iovec *iov, int iovcnt, void *md_buf,
    6131             :                                 uint64_t offset_blocks, uint64_t num_blocks,
    6132             :                                 spdk_bdev_io_completion_cb cb, void *cb_arg)
    6133             : {
    6134           1 :         struct spdk_bdev *bdev = spdk_bdev_desc_get_bdev(desc);
    6135             : 
    6136           1 :         if (md_buf && !spdk_bdev_is_md_separate(bdev)) {
    6137           0 :                 return -EINVAL;
    6138             :         }
    6139             : 
    6140           1 :         if (md_buf && !_is_buf_allocated(iov)) {
    6141           0 :                 return -EINVAL;
    6142             :         }
    6143             : 
    6144           1 :         return bdev_writev_blocks_with_md(desc, ch, iov, iovcnt, md_buf, offset_blocks,
    6145             :                                           num_blocks, NULL, NULL, NULL, bdev->dif_check_flags, 0, 0,
    6146             :                                           cb, cb_arg);
    6147             : }
    6148             : 
    6149             : int
    6150           8 : spdk_bdev_writev_blocks_ext(struct spdk_bdev_desc *desc, struct spdk_io_channel *ch,
    6151             :                             struct iovec *iov, int iovcnt,
    6152             :                             uint64_t offset_blocks, uint64_t num_blocks,
    6153             :                             spdk_bdev_io_completion_cb cb, void *cb_arg,
    6154             :                             struct spdk_bdev_ext_io_opts *opts)
    6155             : {
    6156           8 :         struct spdk_memory_domain *domain = NULL;
    6157           8 :         struct spdk_accel_sequence *seq = NULL;
    6158           8 :         void *domain_ctx = NULL, *md = NULL;
    6159           8 :         uint32_t dif_check_flags = 0;
    6160           8 :         struct spdk_bdev *bdev = spdk_bdev_desc_get_bdev(desc);
    6161           8 :         uint32_t nvme_cdw12_raw = 0;
    6162           8 :         uint32_t nvme_cdw13_raw = 0;
    6163             : 
    6164           8 :         if (opts) {
    6165           7 :                 if (spdk_unlikely(!_bdev_io_check_opts(opts, iov))) {
    6166           3 :                         return -EINVAL;
    6167             :                 }
    6168           4 :                 md = opts->metadata;
    6169           4 :                 domain = bdev_get_ext_io_opt(opts, memory_domain, NULL);
    6170           4 :                 domain_ctx = bdev_get_ext_io_opt(opts, memory_domain_ctx, NULL);
    6171           4 :                 seq = bdev_get_ext_io_opt(opts, accel_sequence, NULL);
    6172           4 :                 nvme_cdw12_raw = bdev_get_ext_io_opt(opts, nvme_cdw12.raw, 0);
    6173           4 :                 nvme_cdw13_raw = bdev_get_ext_io_opt(opts, nvme_cdw13.raw, 0);
    6174           4 :                 if (md) {
    6175           4 :                         if (spdk_unlikely(!spdk_bdev_is_md_separate(bdev))) {
    6176           0 :                                 return -EINVAL;
    6177             :                         }
    6178             : 
    6179           4 :                         if (spdk_unlikely(!_is_buf_allocated(iov))) {
    6180           0 :                                 return -EINVAL;
    6181             :                         }
    6182             : 
    6183           4 :                         if (spdk_unlikely(seq != NULL)) {
    6184           0 :                                 return -EINVAL;
    6185             :                         }
    6186             : 
    6187           4 :                         if (nvme_cdw12_raw & SPDK_DIF_FLAGS_NVME_PRACT) {
    6188           0 :                                 SPDK_ERRLOG("Separate metadata with NVMe PRACT is not supported.\n");
    6189           0 :                                 return -ENOTSUP;
    6190             :                         }
    6191             :                 }
    6192             : 
    6193           4 :                 if (nvme_cdw12_raw & SPDK_DIF_FLAGS_NVME_PRACT) {
    6194           0 :                         dif_check_flags |= SPDK_DIF_FLAGS_NVME_PRACT;
    6195             :                 }
    6196             :         }
    6197             : 
    6198           5 :         dif_check_flags |= bdev->dif_check_flags &
    6199           5 :                            ~(bdev_get_ext_io_opt(opts, dif_check_flags_exclude_mask, 0));
    6200             : 
    6201           5 :         return bdev_writev_blocks_with_md(desc, ch, iov, iovcnt, md, offset_blocks, num_blocks,
    6202             :                                           domain, domain_ctx, seq, dif_check_flags,
    6203             :                                           nvme_cdw12_raw, nvme_cdw13_raw, cb, cb_arg);
    6204             : }
    6205             : 
    6206             : static void
    6207          11 : bdev_compare_do_read_done(struct spdk_bdev_io *bdev_io, bool success, void *cb_arg)
    6208             : {
    6209          11 :         struct spdk_bdev_io *parent_io = cb_arg;
    6210          11 :         struct spdk_bdev *bdev = parent_io->bdev;
    6211          11 :         uint8_t *read_buf = bdev_io->u.bdev.iovs[0].iov_base;
    6212          11 :         int i, rc = 0;
    6213             : 
    6214          11 :         if (!success) {
    6215           0 :                 parent_io->internal.status = SPDK_BDEV_IO_STATUS_FAILED;
    6216           0 :                 parent_io->internal.cb(parent_io, false, parent_io->internal.caller_ctx);
    6217           0 :                 spdk_bdev_free_io(bdev_io);
    6218           0 :                 return;
    6219             :         }
    6220             : 
    6221          17 :         for (i = 0; i < parent_io->u.bdev.iovcnt; i++) {
    6222          22 :                 rc = memcmp(read_buf,
    6223          11 :                             parent_io->u.bdev.iovs[i].iov_base,
    6224          11 :                             parent_io->u.bdev.iovs[i].iov_len);
    6225          11 :                 if (rc) {
    6226           5 :                         break;
    6227             :                 }
    6228           6 :                 read_buf += parent_io->u.bdev.iovs[i].iov_len;
    6229             :         }
    6230             : 
    6231          11 :         if (rc == 0 && parent_io->u.bdev.md_buf && spdk_bdev_is_md_separate(bdev)) {
    6232           2 :                 rc = memcmp(bdev_io->u.bdev.md_buf,
    6233           2 :                             parent_io->u.bdev.md_buf,
    6234           2 :                             spdk_bdev_get_md_size(bdev));
    6235             :         }
    6236             : 
    6237          11 :         spdk_bdev_free_io(bdev_io);
    6238             : 
    6239          11 :         if (rc == 0) {
    6240           5 :                 parent_io->internal.status = SPDK_BDEV_IO_STATUS_SUCCESS;
    6241           5 :                 parent_io->internal.cb(parent_io, true, parent_io->internal.caller_ctx);
    6242             :         } else {
    6243           6 :                 parent_io->internal.status = SPDK_BDEV_IO_STATUS_MISCOMPARE;
    6244           6 :                 parent_io->internal.cb(parent_io, false, parent_io->internal.caller_ctx);
    6245             :         }
    6246             : }
    6247             : 
    6248             : static void
    6249          11 : bdev_compare_do_read(void *_bdev_io)
    6250             : {
    6251          11 :         struct spdk_bdev_io *bdev_io = _bdev_io;
    6252             :         int rc;
    6253             : 
    6254          22 :         rc = spdk_bdev_read_blocks(bdev_io->internal.desc,
    6255          11 :                                    spdk_io_channel_from_ctx(bdev_io->internal.ch), NULL,
    6256             :                                    bdev_io->u.bdev.offset_blocks, bdev_io->u.bdev.num_blocks,
    6257             :                                    bdev_compare_do_read_done, bdev_io);
    6258             : 
    6259          11 :         if (rc == -ENOMEM) {
    6260           0 :                 bdev_queue_io_wait_with_cb(bdev_io, bdev_compare_do_read);
    6261          11 :         } else if (rc != 0) {
    6262           0 :                 bdev_io->internal.status = SPDK_BDEV_IO_STATUS_FAILED;
    6263           0 :                 bdev_io->internal.cb(bdev_io, false, bdev_io->internal.caller_ctx);
    6264             :         }
    6265          11 : }
    6266             : 
    6267             : static int
    6268          16 : bdev_comparev_blocks_with_md(struct spdk_bdev_desc *desc, struct spdk_io_channel *ch,
    6269             :                              struct iovec *iov, int iovcnt, void *md_buf,
    6270             :                              uint64_t offset_blocks, uint64_t num_blocks,
    6271             :                              spdk_bdev_io_completion_cb cb, void *cb_arg)
    6272             : {
    6273          16 :         struct spdk_bdev *bdev = spdk_bdev_desc_get_bdev(desc);
    6274             :         struct spdk_bdev_io *bdev_io;
    6275          16 :         struct spdk_bdev_channel *channel = __io_ch_to_bdev_ch(ch);
    6276             : 
    6277          16 :         if (!bdev_io_valid_blocks(bdev, offset_blocks, num_blocks)) {
    6278           0 :                 return -EINVAL;
    6279             :         }
    6280             : 
    6281          16 :         bdev_io = bdev_channel_get_io(channel);
    6282          16 :         if (!bdev_io) {
    6283           0 :                 return -ENOMEM;
    6284             :         }
    6285             : 
    6286          16 :         bdev_io->internal.ch = channel;
    6287          16 :         bdev_io->internal.desc = desc;
    6288          16 :         bdev_io->type = SPDK_BDEV_IO_TYPE_COMPARE;
    6289          16 :         bdev_io->u.bdev.iovs = iov;
    6290          16 :         bdev_io->u.bdev.iovcnt = iovcnt;
    6291          16 :         bdev_io->u.bdev.md_buf = md_buf;
    6292          16 :         bdev_io->u.bdev.num_blocks = num_blocks;
    6293          16 :         bdev_io->u.bdev.offset_blocks = offset_blocks;
    6294          16 :         bdev_io_init(bdev_io, bdev, cb_arg, cb);
    6295          16 :         bdev_io->u.bdev.memory_domain = NULL;
    6296          16 :         bdev_io->u.bdev.memory_domain_ctx = NULL;
    6297          16 :         bdev_io->u.bdev.accel_sequence = NULL;
    6298             : 
    6299          16 :         if (bdev_io_type_supported(bdev, SPDK_BDEV_IO_TYPE_COMPARE)) {
    6300           7 :                 bdev_io_submit(bdev_io);
    6301           7 :                 return 0;
    6302             :         }
    6303             : 
    6304           9 :         bdev_compare_do_read(bdev_io);
    6305             : 
    6306           9 :         return 0;
    6307             : }
    6308             : 
    6309             : int
    6310          10 : spdk_bdev_comparev_blocks(struct spdk_bdev_desc *desc, struct spdk_io_channel *ch,
    6311             :                           struct iovec *iov, int iovcnt,
    6312             :                           uint64_t offset_blocks, uint64_t num_blocks,
    6313             :                           spdk_bdev_io_completion_cb cb, void *cb_arg)
    6314             : {
    6315          10 :         return bdev_comparev_blocks_with_md(desc, ch, iov, iovcnt, NULL, offset_blocks,
    6316             :                                             num_blocks, cb, cb_arg);
    6317             : }
    6318             : 
    6319             : int
    6320           6 : spdk_bdev_comparev_blocks_with_md(struct spdk_bdev_desc *desc, struct spdk_io_channel *ch,
    6321             :                                   struct iovec *iov, int iovcnt, void *md_buf,
    6322             :                                   uint64_t offset_blocks, uint64_t num_blocks,
    6323             :                                   spdk_bdev_io_completion_cb cb, void *cb_arg)
    6324             : {
    6325           6 :         if (md_buf && !spdk_bdev_is_md_separate(spdk_bdev_desc_get_bdev(desc))) {
    6326           0 :                 return -EINVAL;
    6327             :         }
    6328             : 
    6329           6 :         if (md_buf && !_is_buf_allocated(iov)) {
    6330           0 :                 return -EINVAL;
    6331             :         }
    6332             : 
    6333           6 :         return bdev_comparev_blocks_with_md(desc, ch, iov, iovcnt, md_buf, offset_blocks,
    6334             :                                             num_blocks, cb, cb_arg);
    6335             : }
    6336             : 
    6337             : static int
    6338           4 : bdev_compare_blocks_with_md(struct spdk_bdev_desc *desc, struct spdk_io_channel *ch,
    6339             :                             void *buf, void *md_buf, uint64_t offset_blocks, uint64_t num_blocks,
    6340             :                             spdk_bdev_io_completion_cb cb, void *cb_arg)
    6341             : {
    6342           4 :         struct spdk_bdev *bdev = spdk_bdev_desc_get_bdev(desc);
    6343             :         struct spdk_bdev_io *bdev_io;
    6344           4 :         struct spdk_bdev_channel *channel = __io_ch_to_bdev_ch(ch);
    6345             : 
    6346           4 :         if (!bdev_io_valid_blocks(bdev, offset_blocks, num_blocks)) {
    6347           0 :                 return -EINVAL;
    6348             :         }
    6349             : 
    6350           4 :         bdev_io = bdev_channel_get_io(channel);
    6351           4 :         if (!bdev_io) {
    6352           0 :                 return -ENOMEM;
    6353             :         }
    6354             : 
    6355           4 :         bdev_io->internal.ch = channel;
    6356           4 :         bdev_io->internal.desc = desc;
    6357           4 :         bdev_io->type = SPDK_BDEV_IO_TYPE_COMPARE;
    6358           4 :         bdev_io->u.bdev.iovs = &bdev_io->iov;
    6359           4 :         bdev_io->u.bdev.iovs[0].iov_base = buf;
    6360           4 :         bdev_io->u.bdev.iovs[0].iov_len = num_blocks * bdev_desc_get_block_size(desc);
    6361           4 :         bdev_io->u.bdev.iovcnt = 1;
    6362           4 :         bdev_io->u.bdev.md_buf = md_buf;
    6363           4 :         bdev_io->u.bdev.num_blocks = num_blocks;
    6364           4 :         bdev_io->u.bdev.offset_blocks = offset_blocks;
    6365           4 :         bdev_io_init(bdev_io, bdev, cb_arg, cb);
    6366           4 :         bdev_io->u.bdev.memory_domain = NULL;
    6367           4 :         bdev_io->u.bdev.memory_domain_ctx = NULL;
    6368           4 :         bdev_io->u.bdev.accel_sequence = NULL;
    6369             : 
    6370           4 :         if (bdev_io_type_supported(bdev, SPDK_BDEV_IO_TYPE_COMPARE)) {
    6371           2 :                 bdev_io_submit(bdev_io);
    6372           2 :                 return 0;
    6373             :         }
    6374             : 
    6375           2 :         bdev_compare_do_read(bdev_io);
    6376             : 
    6377           2 :         return 0;
    6378             : }
    6379             : 
    6380             : int
    6381           4 : spdk_bdev_compare_blocks(struct spdk_bdev_desc *desc, struct spdk_io_channel *ch,
    6382             :                          void *buf, uint64_t offset_blocks, uint64_t num_blocks,
    6383             :                          spdk_bdev_io_completion_cb cb, void *cb_arg)
    6384             : {
    6385           4 :         return bdev_compare_blocks_with_md(desc, ch, buf, NULL, offset_blocks, num_blocks,
    6386             :                                            cb, cb_arg);
    6387             : }
    6388             : 
    6389             : int
    6390           0 : spdk_bdev_compare_blocks_with_md(struct spdk_bdev_desc *desc, struct spdk_io_channel *ch,
    6391             :                                  void *buf, void *md_buf, uint64_t offset_blocks, uint64_t num_blocks,
    6392             :                                  spdk_bdev_io_completion_cb cb, void *cb_arg)
    6393             : {
    6394           0 :         struct iovec iov = {
    6395             :                 .iov_base = buf,
    6396             :         };
    6397             : 
    6398           0 :         if (md_buf && !spdk_bdev_is_md_separate(spdk_bdev_desc_get_bdev(desc))) {
    6399           0 :                 return -EINVAL;
    6400             :         }
    6401             : 
    6402           0 :         if (md_buf && !_is_buf_allocated(&iov)) {
    6403           0 :                 return -EINVAL;
    6404             :         }
    6405             : 
    6406           0 :         return bdev_compare_blocks_with_md(desc, ch, buf, md_buf, offset_blocks, num_blocks,
    6407             :                                            cb, cb_arg);
    6408             : }
    6409             : 
    6410             : static void
    6411           2 : bdev_comparev_and_writev_blocks_unlocked(struct lba_range *range, void *ctx, int unlock_status)
    6412             : {
    6413           2 :         struct spdk_bdev_io *bdev_io = ctx;
    6414             : 
    6415           2 :         if (unlock_status) {
    6416           0 :                 SPDK_ERRLOG("LBA range unlock failed\n");
    6417             :         }
    6418             : 
    6419           2 :         bdev_io->internal.cb(bdev_io, bdev_io->internal.status == SPDK_BDEV_IO_STATUS_SUCCESS ? true :
    6420             :                              false, bdev_io->internal.caller_ctx);
    6421           2 : }
    6422             : 
    6423             : static void
    6424           2 : bdev_comparev_and_writev_blocks_unlock(struct spdk_bdev_io *bdev_io, int status)
    6425             : {
    6426           2 :         bdev_io->internal.status = status;
    6427             : 
    6428           2 :         bdev_unlock_lba_range(bdev_io->internal.desc, spdk_io_channel_from_ctx(bdev_io->internal.ch),
    6429             :                               bdev_io->u.bdev.offset_blocks, bdev_io->u.bdev.num_blocks,
    6430             :                               bdev_comparev_and_writev_blocks_unlocked, bdev_io);
    6431           2 : }
    6432             : 
    6433             : static void
    6434           1 : bdev_compare_and_write_do_write_done(struct spdk_bdev_io *bdev_io, bool success, void *cb_arg)
    6435             : {
    6436           1 :         struct spdk_bdev_io *parent_io = cb_arg;
    6437             : 
    6438           1 :         if (!success) {
    6439           0 :                 SPDK_ERRLOG("Compare and write operation failed\n");
    6440             :         }
    6441             : 
    6442           1 :         spdk_bdev_free_io(bdev_io);
    6443             : 
    6444           1 :         bdev_comparev_and_writev_blocks_unlock(parent_io,
    6445             :                                                success ? SPDK_BDEV_IO_STATUS_SUCCESS : SPDK_BDEV_IO_STATUS_FAILED);
    6446           1 : }
    6447             : 
    6448             : static void
    6449           1 : bdev_compare_and_write_do_write(void *_bdev_io)
    6450             : {
    6451           1 :         struct spdk_bdev_io *bdev_io = _bdev_io;
    6452             :         int rc;
    6453             : 
    6454           2 :         rc = spdk_bdev_writev_blocks(bdev_io->internal.desc,
    6455           1 :                                      spdk_io_channel_from_ctx(bdev_io->internal.ch),
    6456             :                                      bdev_io->u.bdev.fused_iovs, bdev_io->u.bdev.fused_iovcnt,
    6457             :                                      bdev_io->u.bdev.offset_blocks, bdev_io->u.bdev.num_blocks,
    6458             :                                      bdev_compare_and_write_do_write_done, bdev_io);
    6459             : 
    6460             : 
    6461           1 :         if (rc == -ENOMEM) {
    6462           0 :                 bdev_queue_io_wait_with_cb(bdev_io, bdev_compare_and_write_do_write);
    6463           1 :         } else if (rc != 0) {
    6464           0 :                 bdev_comparev_and_writev_blocks_unlock(bdev_io, SPDK_BDEV_IO_STATUS_FAILED);
    6465             :         }
    6466           1 : }
    6467             : 
    6468             : static void
    6469           2 : bdev_compare_and_write_do_compare_done(struct spdk_bdev_io *bdev_io, bool success, void *cb_arg)
    6470             : {
    6471           2 :         struct spdk_bdev_io *parent_io = cb_arg;
    6472             : 
    6473           2 :         spdk_bdev_free_io(bdev_io);
    6474             : 
    6475           2 :         if (!success) {
    6476           1 :                 bdev_comparev_and_writev_blocks_unlock(parent_io, SPDK_BDEV_IO_STATUS_MISCOMPARE);
    6477           1 :                 return;
    6478             :         }
    6479             : 
    6480           1 :         bdev_compare_and_write_do_write(parent_io);
    6481             : }
    6482             : 
    6483             : static void
    6484           2 : bdev_compare_and_write_do_compare(void *_bdev_io)
    6485             : {
    6486           2 :         struct spdk_bdev_io *bdev_io = _bdev_io;
    6487             :         int rc;
    6488             : 
    6489           4 :         rc = spdk_bdev_comparev_blocks(bdev_io->internal.desc,
    6490           2 :                                        spdk_io_channel_from_ctx(bdev_io->internal.ch), bdev_io->u.bdev.iovs,
    6491             :                                        bdev_io->u.bdev.iovcnt, bdev_io->u.bdev.offset_blocks, bdev_io->u.bdev.num_blocks,
    6492             :                                        bdev_compare_and_write_do_compare_done, bdev_io);
    6493             : 
    6494           2 :         if (rc == -ENOMEM) {
    6495           0 :                 bdev_queue_io_wait_with_cb(bdev_io, bdev_compare_and_write_do_compare);
    6496           2 :         } else if (rc != 0) {
    6497           0 :                 bdev_comparev_and_writev_blocks_unlock(bdev_io, SPDK_BDEV_IO_STATUS_FIRST_FUSED_FAILED);
    6498             :         }
    6499           2 : }
    6500             : 
    6501             : static void
    6502           2 : bdev_comparev_and_writev_blocks_locked(struct lba_range *range, void *ctx, int status)
    6503             : {
    6504           2 :         struct spdk_bdev_io *bdev_io = ctx;
    6505             : 
    6506           2 :         if (status) {
    6507           0 :                 bdev_io->internal.status = SPDK_BDEV_IO_STATUS_FIRST_FUSED_FAILED;
    6508           0 :                 bdev_io->internal.cb(bdev_io, false, bdev_io->internal.caller_ctx);
    6509           0 :                 return;
    6510             :         }
    6511             : 
    6512           2 :         bdev_compare_and_write_do_compare(bdev_io);
    6513             : }
    6514             : 
    6515             : int
    6516           2 : spdk_bdev_comparev_and_writev_blocks(struct spdk_bdev_desc *desc, struct spdk_io_channel *ch,
    6517             :                                      struct iovec *compare_iov, int compare_iovcnt,
    6518             :                                      struct iovec *write_iov, int write_iovcnt,
    6519             :                                      uint64_t offset_blocks, uint64_t num_blocks,
    6520             :                                      spdk_bdev_io_completion_cb cb, void *cb_arg)
    6521             : {
    6522           2 :         struct spdk_bdev *bdev = spdk_bdev_desc_get_bdev(desc);
    6523             :         struct spdk_bdev_io *bdev_io;
    6524           2 :         struct spdk_bdev_channel *channel = __io_ch_to_bdev_ch(ch);
    6525             : 
    6526           2 :         if (!desc->write) {
    6527           0 :                 return -EBADF;
    6528             :         }
    6529             : 
    6530           2 :         if (!bdev_io_valid_blocks(bdev, offset_blocks, num_blocks)) {
    6531           0 :                 return -EINVAL;
    6532             :         }
    6533             : 
    6534           2 :         if (num_blocks > bdev->acwu) {
    6535           0 :                 return -EINVAL;
    6536             :         }
    6537             : 
    6538           2 :         bdev_io = bdev_channel_get_io(channel);
    6539           2 :         if (!bdev_io) {
    6540           0 :                 return -ENOMEM;
    6541             :         }
    6542             : 
    6543           2 :         bdev_io->internal.ch = channel;
    6544           2 :         bdev_io->internal.desc = desc;
    6545           2 :         bdev_io->type = SPDK_BDEV_IO_TYPE_COMPARE_AND_WRITE;
    6546           2 :         bdev_io->u.bdev.iovs = compare_iov;
    6547           2 :         bdev_io->u.bdev.iovcnt = compare_iovcnt;
    6548           2 :         bdev_io->u.bdev.fused_iovs = write_iov;
    6549           2 :         bdev_io->u.bdev.fused_iovcnt = write_iovcnt;
    6550           2 :         bdev_io->u.bdev.md_buf = NULL;
    6551           2 :         bdev_io->u.bdev.num_blocks = num_blocks;
    6552           2 :         bdev_io->u.bdev.offset_blocks = offset_blocks;
    6553           2 :         bdev_io_init(bdev_io, bdev, cb_arg, cb);
    6554           2 :         bdev_io->u.bdev.memory_domain = NULL;
    6555           2 :         bdev_io->u.bdev.memory_domain_ctx = NULL;
    6556           2 :         bdev_io->u.bdev.accel_sequence = NULL;
    6557             : 
    6558           2 :         if (bdev_io_type_supported(bdev, SPDK_BDEV_IO_TYPE_COMPARE_AND_WRITE)) {
    6559           0 :                 bdev_io_submit(bdev_io);
    6560           0 :                 return 0;
    6561             :         }
    6562             : 
    6563           2 :         return bdev_lock_lba_range(desc, ch, offset_blocks, num_blocks,
    6564             :                                    bdev_comparev_and_writev_blocks_locked, bdev_io);
    6565             : }
    6566             : 
    6567             : int
    6568           2 : spdk_bdev_zcopy_start(struct spdk_bdev_desc *desc, struct spdk_io_channel *ch,
    6569             :                       struct iovec *iov, int iovcnt,
    6570             :                       uint64_t offset_blocks, uint64_t num_blocks,
    6571             :                       bool populate,
    6572             :                       spdk_bdev_io_completion_cb cb, void *cb_arg)
    6573             : {
    6574           2 :         struct spdk_bdev *bdev = spdk_bdev_desc_get_bdev(desc);
    6575             :         struct spdk_bdev_io *bdev_io;
    6576           2 :         struct spdk_bdev_channel *channel = __io_ch_to_bdev_ch(ch);
    6577             : 
    6578           2 :         if (!desc->write) {
    6579           0 :                 return -EBADF;
    6580             :         }
    6581             : 
    6582           2 :         if (!bdev_io_valid_blocks(bdev, offset_blocks, num_blocks)) {
    6583           0 :                 return -EINVAL;
    6584             :         }
    6585             : 
    6586           2 :         if (!spdk_bdev_io_type_supported(bdev, SPDK_BDEV_IO_TYPE_ZCOPY)) {
    6587           0 :                 return -ENOTSUP;
    6588             :         }
    6589             : 
    6590           2 :         bdev_io = bdev_channel_get_io(channel);
    6591           2 :         if (!bdev_io) {
    6592           0 :                 return -ENOMEM;
    6593             :         }
    6594             : 
    6595           2 :         bdev_io->internal.ch = channel;
    6596           2 :         bdev_io->internal.desc = desc;
    6597           2 :         bdev_io->type = SPDK_BDEV_IO_TYPE_ZCOPY;
    6598           2 :         bdev_io->u.bdev.num_blocks = num_blocks;
    6599           2 :         bdev_io->u.bdev.offset_blocks = offset_blocks;
    6600           2 :         bdev_io->u.bdev.iovs = iov;
    6601           2 :         bdev_io->u.bdev.iovcnt = iovcnt;
    6602           2 :         bdev_io->u.bdev.md_buf = NULL;
    6603           2 :         bdev_io->u.bdev.zcopy.populate = populate ? 1 : 0;
    6604           2 :         bdev_io->u.bdev.zcopy.commit = 0;
    6605           2 :         bdev_io->u.bdev.zcopy.start = 1;
    6606           2 :         bdev_io_init(bdev_io, bdev, cb_arg, cb);
    6607           2 :         bdev_io->u.bdev.memory_domain = NULL;
    6608           2 :         bdev_io->u.bdev.memory_domain_ctx = NULL;
    6609           2 :         bdev_io->u.bdev.accel_sequence = NULL;
    6610             : 
    6611           2 :         bdev_io_submit(bdev_io);
    6612             : 
    6613           2 :         return 0;
    6614             : }
    6615             : 
    6616             : int
    6617           2 : spdk_bdev_zcopy_end(struct spdk_bdev_io *bdev_io, bool commit,
    6618             :                     spdk_bdev_io_completion_cb cb, void *cb_arg)
    6619             : {
    6620           2 :         if (bdev_io->type != SPDK_BDEV_IO_TYPE_ZCOPY) {
    6621           0 :                 return -EINVAL;
    6622             :         }
    6623             : 
    6624           2 :         bdev_io->u.bdev.zcopy.commit = commit ? 1 : 0;
    6625           2 :         bdev_io->u.bdev.zcopy.start = 0;
    6626           2 :         bdev_io->internal.caller_ctx = cb_arg;
    6627           2 :         bdev_io->internal.cb = cb;
    6628           2 :         bdev_io->internal.status = SPDK_BDEV_IO_STATUS_PENDING;
    6629             : 
    6630           2 :         bdev_io_submit(bdev_io);
    6631             : 
    6632           2 :         return 0;
    6633             : }
    6634             : 
    6635             : int
    6636           0 : spdk_bdev_write_zeroes(struct spdk_bdev_desc *desc, struct spdk_io_channel *ch,
    6637             :                        uint64_t offset, uint64_t len,
    6638             :                        spdk_bdev_io_completion_cb cb, void *cb_arg)
    6639             : {
    6640           0 :         uint64_t offset_blocks, num_blocks;
    6641             : 
    6642           0 :         if (bdev_bytes_to_blocks(desc, offset, &offset_blocks, len, &num_blocks) != 0) {
    6643           0 :                 return -EINVAL;
    6644             :         }
    6645             : 
    6646           0 :         return spdk_bdev_write_zeroes_blocks(desc, ch, offset_blocks, num_blocks, cb, cb_arg);
    6647             : }
    6648             : 
    6649             : int
    6650          33 : spdk_bdev_write_zeroes_blocks(struct spdk_bdev_desc *desc, struct spdk_io_channel *ch,
    6651             :                               uint64_t offset_blocks, uint64_t num_blocks,
    6652             :                               spdk_bdev_io_completion_cb cb, void *cb_arg)
    6653             : {
    6654          33 :         struct spdk_bdev *bdev = spdk_bdev_desc_get_bdev(desc);
    6655             :         struct spdk_bdev_io *bdev_io;
    6656          33 :         struct spdk_bdev_channel *channel = __io_ch_to_bdev_ch(ch);
    6657             : 
    6658          33 :         if (!desc->write) {
    6659           0 :                 return -EBADF;
    6660             :         }
    6661             : 
    6662          33 :         if (!bdev_io_valid_blocks(bdev, offset_blocks, num_blocks)) {
    6663           0 :                 return -EINVAL;
    6664             :         }
    6665             : 
    6666          33 :         if (!bdev_io_type_supported(bdev, SPDK_BDEV_IO_TYPE_WRITE_ZEROES) &&
    6667          10 :             !bdev_io_type_supported(bdev, SPDK_BDEV_IO_TYPE_WRITE)) {
    6668           1 :                 return -ENOTSUP;
    6669             :         }
    6670             : 
    6671          32 :         bdev_io = bdev_channel_get_io(channel);
    6672             : 
    6673          32 :         if (!bdev_io) {
    6674           0 :                 return -ENOMEM;
    6675             :         }
    6676             : 
    6677          32 :         bdev_io->type = SPDK_BDEV_IO_TYPE_WRITE_ZEROES;
    6678          32 :         bdev_io->internal.ch = channel;
    6679          32 :         bdev_io->internal.desc = desc;
    6680          32 :         bdev_io->u.bdev.offset_blocks = offset_blocks;
    6681          32 :         bdev_io->u.bdev.num_blocks = num_blocks;
    6682          32 :         bdev_io_init(bdev_io, bdev, cb_arg, cb);
    6683          32 :         bdev_io->u.bdev.memory_domain = NULL;
    6684          32 :         bdev_io->u.bdev.memory_domain_ctx = NULL;
    6685          32 :         bdev_io->u.bdev.accel_sequence = NULL;
    6686             : 
    6687             :         /* If the write_zeroes size is large and should be split, use the generic split
    6688             :          * logic regardless of whether SPDK_BDEV_IO_TYPE_WRITE_ZEREOS is supported or not.
    6689             :          *
    6690             :          * Then, send the write_zeroes request if SPDK_BDEV_IO_TYPE_WRITE_ZEROES is supported
    6691             :          * or emulate it using regular write request otherwise.
    6692             :          */
    6693          32 :         if (bdev_io_type_supported(bdev, SPDK_BDEV_IO_TYPE_WRITE_ZEROES) ||
    6694             :             bdev_io->internal.f.split) {
    6695          26 :                 bdev_io_submit(bdev_io);
    6696          26 :                 return 0;
    6697             :         }
    6698             : 
    6699           6 :         assert(_bdev_get_block_size_with_md(bdev) <= ZERO_BUFFER_SIZE);
    6700             : 
    6701           6 :         return bdev_write_zero_buffer(bdev_io);
    6702             : }
    6703             : 
    6704             : int
    6705           0 : spdk_bdev_unmap(struct spdk_bdev_desc *desc, struct spdk_io_channel *ch,
    6706             :                 uint64_t offset, uint64_t nbytes,
    6707             :                 spdk_bdev_io_completion_cb cb, void *cb_arg)
    6708             : {
    6709           0 :         uint64_t offset_blocks, num_blocks;
    6710             : 
    6711           0 :         if (bdev_bytes_to_blocks(desc, offset, &offset_blocks, nbytes, &num_blocks) != 0) {
    6712           0 :                 return -EINVAL;
    6713             :         }
    6714             : 
    6715           0 :         return spdk_bdev_unmap_blocks(desc, ch, offset_blocks, num_blocks, cb, cb_arg);
    6716             : }
    6717             : 
    6718             : static void
    6719           0 : bdev_io_complete_cb(void *ctx)
    6720             : {
    6721           0 :         struct spdk_bdev_io *bdev_io = ctx;
    6722             : 
    6723           0 :         bdev_io->internal.status = SPDK_BDEV_IO_STATUS_SUCCESS;
    6724           0 :         bdev_io->internal.cb(bdev_io, true, bdev_io->internal.caller_ctx);
    6725           0 : }
    6726             : 
    6727             : int
    6728          22 : spdk_bdev_unmap_blocks(struct spdk_bdev_desc *desc, struct spdk_io_channel *ch,
    6729             :                        uint64_t offset_blocks, uint64_t num_blocks,
    6730             :                        spdk_bdev_io_completion_cb cb, void *cb_arg)
    6731             : {
    6732          22 :         struct spdk_bdev *bdev = spdk_bdev_desc_get_bdev(desc);
    6733             :         struct spdk_bdev_io *bdev_io;
    6734          22 :         struct spdk_bdev_channel *channel = __io_ch_to_bdev_ch(ch);
    6735             : 
    6736          22 :         if (!desc->write) {
    6737           0 :                 return -EBADF;
    6738             :         }
    6739             : 
    6740          22 :         if (!bdev_io_valid_blocks(bdev, offset_blocks, num_blocks)) {
    6741           0 :                 return -EINVAL;
    6742             :         }
    6743             : 
    6744          22 :         bdev_io = bdev_channel_get_io(channel);
    6745          22 :         if (!bdev_io) {
    6746           0 :                 return -ENOMEM;
    6747             :         }
    6748             : 
    6749          22 :         bdev_io->internal.ch = channel;
    6750          22 :         bdev_io->internal.desc = desc;
    6751          22 :         bdev_io->type = SPDK_BDEV_IO_TYPE_UNMAP;
    6752             : 
    6753          22 :         bdev_io->u.bdev.iovs = &bdev_io->iov;
    6754          22 :         bdev_io->u.bdev.iovs[0].iov_base = NULL;
    6755          22 :         bdev_io->u.bdev.iovs[0].iov_len = 0;
    6756          22 :         bdev_io->u.bdev.iovcnt = 1;
    6757             : 
    6758          22 :         bdev_io->u.bdev.offset_blocks = offset_blocks;
    6759          22 :         bdev_io->u.bdev.num_blocks = num_blocks;
    6760          22 :         bdev_io_init(bdev_io, bdev, cb_arg, cb);
    6761          22 :         bdev_io->u.bdev.memory_domain = NULL;
    6762          22 :         bdev_io->u.bdev.memory_domain_ctx = NULL;
    6763          22 :         bdev_io->u.bdev.accel_sequence = NULL;
    6764             : 
    6765          22 :         if (num_blocks == 0) {
    6766           0 :                 spdk_thread_send_msg(spdk_get_thread(), bdev_io_complete_cb, bdev_io);
    6767           0 :                 return 0;
    6768             :         }
    6769             : 
    6770          22 :         bdev_io_submit(bdev_io);
    6771          22 :         return 0;
    6772             : }
    6773             : 
    6774             : int
    6775           0 : spdk_bdev_flush(struct spdk_bdev_desc *desc, struct spdk_io_channel *ch,
    6776             :                 uint64_t offset, uint64_t length,
    6777             :                 spdk_bdev_io_completion_cb cb, void *cb_arg)
    6778             : {
    6779           0 :         uint64_t offset_blocks, num_blocks;
    6780             : 
    6781           0 :         if (bdev_bytes_to_blocks(desc, offset, &offset_blocks, length, &num_blocks) != 0) {
    6782           0 :                 return -EINVAL;
    6783             :         }
    6784             : 
    6785           0 :         return spdk_bdev_flush_blocks(desc, ch, offset_blocks, num_blocks, cb, cb_arg);
    6786             : }
    6787             : 
    6788             : int
    6789           2 : spdk_bdev_flush_blocks(struct spdk_bdev_desc *desc, struct spdk_io_channel *ch,
    6790             :                        uint64_t offset_blocks, uint64_t num_blocks,
    6791             :                        spdk_bdev_io_completion_cb cb, void *cb_arg)
    6792             : {
    6793           2 :         struct spdk_bdev *bdev = spdk_bdev_desc_get_bdev(desc);
    6794             :         struct spdk_bdev_io *bdev_io;
    6795           2 :         struct spdk_bdev_channel *channel = __io_ch_to_bdev_ch(ch);
    6796             : 
    6797           2 :         if (!desc->write) {
    6798           0 :                 return -EBADF;
    6799             :         }
    6800             : 
    6801           2 :         if (spdk_unlikely(!bdev_io_type_supported(bdev, SPDK_BDEV_IO_TYPE_FLUSH))) {
    6802           0 :                 return -ENOTSUP;
    6803             :         }
    6804             : 
    6805           2 :         if (!bdev_io_valid_blocks(bdev, offset_blocks, num_blocks)) {
    6806           0 :                 return -EINVAL;
    6807             :         }
    6808             : 
    6809           2 :         bdev_io = bdev_channel_get_io(channel);
    6810           2 :         if (!bdev_io) {
    6811           0 :                 return -ENOMEM;
    6812             :         }
    6813             : 
    6814           2 :         bdev_io->internal.ch = channel;
    6815           2 :         bdev_io->internal.desc = desc;
    6816           2 :         bdev_io->type = SPDK_BDEV_IO_TYPE_FLUSH;
    6817           2 :         bdev_io->u.bdev.iovs = NULL;
    6818           2 :         bdev_io->u.bdev.iovcnt = 0;
    6819           2 :         bdev_io->u.bdev.offset_blocks = offset_blocks;
    6820           2 :         bdev_io->u.bdev.num_blocks = num_blocks;
    6821           2 :         bdev_io->u.bdev.memory_domain = NULL;
    6822           2 :         bdev_io->u.bdev.memory_domain_ctx = NULL;
    6823           2 :         bdev_io->u.bdev.accel_sequence = NULL;
    6824           2 :         bdev_io_init(bdev_io, bdev, cb_arg, cb);
    6825             : 
    6826           2 :         bdev_io_submit(bdev_io);
    6827           2 :         return 0;
    6828             : }
    6829             : 
    6830             : static int bdev_reset_poll_for_outstanding_io(void *ctx);
    6831             : 
    6832             : static void
    6833          13 : bdev_reset_check_outstanding_io_done(struct spdk_bdev *bdev, void *_ctx, int status)
    6834             : {
    6835          13 :         struct spdk_bdev_io *bdev_io = _ctx;
    6836          13 :         struct spdk_bdev_channel *ch = bdev_io->internal.ch;
    6837             : 
    6838          13 :         if (status == -EBUSY) {
    6839           9 :                 if (spdk_get_ticks() < bdev_io->u.reset.wait_poller.stop_time_tsc) {
    6840           8 :                         bdev_io->u.reset.wait_poller.poller = SPDK_POLLER_REGISTER(bdev_reset_poll_for_outstanding_io,
    6841             :                                                               bdev_io, BDEV_RESET_CHECK_OUTSTANDING_IO_PERIOD);
    6842             :                 } else {
    6843           1 :                         if (TAILQ_EMPTY(&ch->io_memory_domain) && TAILQ_EMPTY(&ch->io_accel_exec)) {
    6844             :                                 /* If outstanding IOs are still present and reset_io_drain_timeout
    6845             :                                  * seconds passed, start the reset. */
    6846           1 :                                 bdev_io_submit_reset(bdev_io);
    6847             :                         } else {
    6848             :                                 /* We still have in progress memory domain pull/push or we're
    6849             :                                  * executing accel sequence.  Since we cannot abort either of those
    6850             :                                  * operations, fail the reset request. */
    6851           0 :                                 spdk_bdev_io_complete(bdev_io, SPDK_BDEV_IO_STATUS_FAILED);
    6852             :                         }
    6853             :                 }
    6854             :         } else {
    6855           4 :                 SPDK_DEBUGLOG(bdev,
    6856             :                               "Skipping reset for underlying device of bdev: %s - no outstanding I/O.\n",
    6857             :                               ch->bdev->name);
    6858             :                 /* Mark the completion status as a SUCCESS and complete the reset. */
    6859           4 :                 spdk_bdev_io_complete(bdev_io, SPDK_BDEV_IO_STATUS_SUCCESS);
    6860             :         }
    6861          13 : }
    6862             : 
    6863             : static void
    6864          13 : bdev_reset_check_outstanding_io(struct spdk_bdev_channel_iter *i, struct spdk_bdev *bdev,
    6865             :                                 struct spdk_io_channel *io_ch, void *_ctx)
    6866             : {
    6867          13 :         struct spdk_bdev_channel *cur_ch = __io_ch_to_bdev_ch(io_ch);
    6868          13 :         int status = 0;
    6869             : 
    6870          13 :         if (cur_ch->io_outstanding > 0 ||
    6871           4 :             !TAILQ_EMPTY(&cur_ch->io_memory_domain) ||
    6872           4 :             !TAILQ_EMPTY(&cur_ch->io_accel_exec)) {
    6873             :                 /* If a channel has outstanding IO, set status to -EBUSY code. This will stop
    6874             :                  * further iteration over the rest of the channels and pass non-zero status
    6875             :                  * to the callback function. */
    6876           9 :                 status = -EBUSY;
    6877             :         }
    6878          13 :         spdk_bdev_for_each_channel_continue(i, status);
    6879          13 : }
    6880             : 
    6881             : static int
    6882           8 : bdev_reset_poll_for_outstanding_io(void *ctx)
    6883             : {
    6884           8 :         struct spdk_bdev_io *bdev_io = ctx;
    6885             : 
    6886           8 :         spdk_poller_unregister(&bdev_io->u.reset.wait_poller.poller);
    6887           8 :         spdk_bdev_for_each_channel(bdev_io->bdev, bdev_reset_check_outstanding_io, bdev_io,
    6888             :                                    bdev_reset_check_outstanding_io_done);
    6889             : 
    6890           8 :         return SPDK_POLLER_BUSY;
    6891             : }
    6892             : 
    6893             : static void
    6894          16 : bdev_reset_freeze_channel_done(struct spdk_bdev *bdev, void *_ctx, int status)
    6895             : {
    6896          16 :         struct spdk_bdev_io *bdev_io = _ctx;
    6897             : 
    6898          16 :         if (bdev->reset_io_drain_timeout == 0) {
    6899          11 :                 bdev_io_submit_reset(bdev_io);
    6900          11 :                 return;
    6901             :         }
    6902             : 
    6903          10 :         bdev_io->u.reset.wait_poller.stop_time_tsc = spdk_get_ticks() +
    6904           5 :                         (bdev->reset_io_drain_timeout * spdk_get_ticks_hz());
    6905             : 
    6906             :         /* In case bdev->reset_io_drain_timeout is not equal to zero,
    6907             :          * submit the reset to the underlying module only if outstanding I/O
    6908             :          * remain after reset_io_drain_timeout seconds have passed. */
    6909           5 :         spdk_bdev_for_each_channel(bdev, bdev_reset_check_outstanding_io, bdev_io,
    6910             :                                    bdev_reset_check_outstanding_io_done);
    6911             : }
    6912             : 
    6913             : static void
    6914          19 : bdev_reset_freeze_channel(struct spdk_bdev_channel_iter *i, struct spdk_bdev *bdev,
    6915             :                           struct spdk_io_channel *ch, void *_ctx)
    6916             : {
    6917             :         struct spdk_bdev_channel        *channel;
    6918             :         struct spdk_bdev_mgmt_channel   *mgmt_channel;
    6919             :         struct spdk_bdev_shared_resource *shared_resource;
    6920          19 :         bdev_io_tailq_t                 tmp_queued;
    6921             : 
    6922          19 :         TAILQ_INIT(&tmp_queued);
    6923             : 
    6924          19 :         channel = __io_ch_to_bdev_ch(ch);
    6925          19 :         shared_resource = channel->shared_resource;
    6926          19 :         mgmt_channel = shared_resource->mgmt_ch;
    6927             : 
    6928          19 :         channel->flags |= BDEV_CH_RESET_IN_PROGRESS;
    6929             : 
    6930          19 :         if ((channel->flags & BDEV_CH_QOS_ENABLED) != 0) {
    6931           2 :                 TAILQ_SWAP(&channel->qos_queued_io, &tmp_queued, spdk_bdev_io, internal.link);
    6932             :         }
    6933             : 
    6934          19 :         bdev_abort_all_queued_io(&shared_resource->nomem_io, channel);
    6935          19 :         bdev_abort_all_buf_io(mgmt_channel, channel);
    6936          19 :         bdev_abort_all_queued_io(&tmp_queued, channel);
    6937             : 
    6938          19 :         spdk_bdev_for_each_channel_continue(i, 0);
    6939          19 : }
    6940             : 
    6941             : static void
    6942          18 : bdev_start_reset(struct spdk_bdev_io *bdev_io)
    6943             : {
    6944          18 :         struct spdk_bdev *bdev = bdev_io->bdev;
    6945          18 :         bool freeze_channel = false;
    6946             : 
    6947          18 :         bdev_ch_add_to_io_submitted(bdev_io);
    6948             : 
    6949             :         /**
    6950             :          * Take a channel reference for the target bdev for the life of this
    6951             :          *  reset.  This guards against the channel getting destroyed before
    6952             :          *  the reset is completed.  We will release the reference when this
    6953             :          *  reset is completed.
    6954             :          */
    6955          18 :         bdev_io->u.reset.ch_ref = spdk_get_io_channel(__bdev_to_io_dev(bdev));
    6956             : 
    6957          18 :         spdk_spin_lock(&bdev->internal.spinlock);
    6958          18 :         if (bdev->internal.reset_in_progress == NULL) {
    6959          16 :                 bdev->internal.reset_in_progress = bdev_io;
    6960          16 :                 freeze_channel = true;
    6961             :         } else {
    6962           2 :                 TAILQ_INSERT_TAIL(&bdev->internal.queued_resets, bdev_io, internal.link);
    6963             :         }
    6964          18 :         spdk_spin_unlock(&bdev->internal.spinlock);
    6965             : 
    6966          18 :         if (freeze_channel) {
    6967          16 :                 spdk_bdev_for_each_channel(bdev, bdev_reset_freeze_channel, bdev_io,
    6968             :                                            bdev_reset_freeze_channel_done);
    6969             :         }
    6970          18 : }
    6971             : 
    6972             : int
    6973          18 : spdk_bdev_reset(struct spdk_bdev_desc *desc, struct spdk_io_channel *ch,
    6974             :                 spdk_bdev_io_completion_cb cb, void *cb_arg)
    6975             : {
    6976          18 :         struct spdk_bdev *bdev = spdk_bdev_desc_get_bdev(desc);
    6977             :         struct spdk_bdev_io *bdev_io;
    6978          18 :         struct spdk_bdev_channel *channel = __io_ch_to_bdev_ch(ch);
    6979             : 
    6980          18 :         bdev_io = bdev_channel_get_io(channel);
    6981          18 :         if (!bdev_io) {
    6982           0 :                 return -ENOMEM;
    6983             :         }
    6984             : 
    6985          18 :         bdev_io->internal.ch = channel;
    6986          18 :         bdev_io->internal.desc = desc;
    6987          18 :         bdev_io->internal.submit_tsc = spdk_get_ticks();
    6988          18 :         bdev_io->type = SPDK_BDEV_IO_TYPE_RESET;
    6989          18 :         bdev_io_init(bdev_io, bdev, cb_arg, cb);
    6990             : 
    6991          18 :         bdev_start_reset(bdev_io);
    6992          18 :         return 0;
    6993             : }
    6994             : 
    6995             : void
    6996           0 : spdk_bdev_get_io_stat(struct spdk_bdev *bdev, struct spdk_io_channel *ch,
    6997             :                       struct spdk_bdev_io_stat *stat, enum spdk_bdev_reset_stat_mode reset_mode)
    6998             : {
    6999           0 :         struct spdk_bdev_channel *channel = __io_ch_to_bdev_ch(ch);
    7000             : 
    7001           0 :         bdev_get_io_stat(stat, channel->stat);
    7002           0 :         spdk_bdev_reset_io_stat(channel->stat, reset_mode);
    7003           0 : }
    7004             : 
    7005             : static void
    7006           5 : bdev_get_device_stat_done(struct spdk_bdev *bdev, void *_ctx, int status)
    7007             : {
    7008           5 :         struct spdk_bdev_iostat_ctx *bdev_iostat_ctx = _ctx;
    7009             : 
    7010           5 :         bdev_iostat_ctx->cb(bdev, bdev_iostat_ctx->stat,
    7011             :                             bdev_iostat_ctx->cb_arg, 0);
    7012           5 :         free(bdev_iostat_ctx);
    7013           5 : }
    7014             : 
    7015             : static void
    7016           4 : bdev_get_each_channel_stat(struct spdk_bdev_channel_iter *i, struct spdk_bdev *bdev,
    7017             :                            struct spdk_io_channel *ch, void *_ctx)
    7018             : {
    7019           4 :         struct spdk_bdev_iostat_ctx *bdev_iostat_ctx = _ctx;
    7020           4 :         struct spdk_bdev_channel *channel = __io_ch_to_bdev_ch(ch);
    7021             : 
    7022           4 :         spdk_bdev_add_io_stat(bdev_iostat_ctx->stat, channel->stat);
    7023           4 :         spdk_bdev_reset_io_stat(channel->stat, bdev_iostat_ctx->reset_mode);
    7024           4 :         spdk_bdev_for_each_channel_continue(i, 0);
    7025           4 : }
    7026             : 
    7027             : void
    7028           5 : spdk_bdev_get_device_stat(struct spdk_bdev *bdev, struct spdk_bdev_io_stat *stat,
    7029             :                           enum spdk_bdev_reset_stat_mode reset_mode, spdk_bdev_get_device_stat_cb cb, void *cb_arg)
    7030             : {
    7031             :         struct spdk_bdev_iostat_ctx *bdev_iostat_ctx;
    7032             : 
    7033           5 :         assert(bdev != NULL);
    7034           5 :         assert(stat != NULL);
    7035           5 :         assert(cb != NULL);
    7036             : 
    7037           5 :         bdev_iostat_ctx = calloc(1, sizeof(struct spdk_bdev_iostat_ctx));
    7038           5 :         if (bdev_iostat_ctx == NULL) {
    7039           0 :                 SPDK_ERRLOG("Unable to allocate memory for spdk_bdev_iostat_ctx\n");
    7040           0 :                 cb(bdev, stat, cb_arg, -ENOMEM);
    7041           0 :                 return;
    7042             :         }
    7043             : 
    7044           5 :         bdev_iostat_ctx->stat = stat;
    7045           5 :         bdev_iostat_ctx->cb = cb;
    7046           5 :         bdev_iostat_ctx->cb_arg = cb_arg;
    7047           5 :         bdev_iostat_ctx->reset_mode = reset_mode;
    7048             : 
    7049             :         /* Start with the statistics from previously deleted channels. */
    7050           5 :         spdk_spin_lock(&bdev->internal.spinlock);
    7051           5 :         bdev_get_io_stat(bdev_iostat_ctx->stat, bdev->internal.stat);
    7052           5 :         spdk_bdev_reset_io_stat(bdev->internal.stat, reset_mode);
    7053           5 :         spdk_spin_unlock(&bdev->internal.spinlock);
    7054             : 
    7055             :         /* Then iterate and add the statistics from each existing channel. */
    7056           5 :         spdk_bdev_for_each_channel(bdev, bdev_get_each_channel_stat, bdev_iostat_ctx,
    7057             :                                    bdev_get_device_stat_done);
    7058             : }
    7059             : 
    7060             : struct bdev_iostat_reset_ctx {
    7061             :         enum spdk_bdev_reset_stat_mode mode;
    7062             :         bdev_reset_device_stat_cb cb;
    7063             :         void *cb_arg;
    7064             : };
    7065             : 
    7066             : static void
    7067           0 : bdev_reset_device_stat_done(struct spdk_bdev *bdev, void *_ctx, int status)
    7068             : {
    7069           0 :         struct bdev_iostat_reset_ctx *ctx = _ctx;
    7070             : 
    7071           0 :         ctx->cb(bdev, ctx->cb_arg, 0);
    7072             : 
    7073           0 :         free(ctx);
    7074           0 : }
    7075             : 
    7076             : static void
    7077           0 : bdev_reset_each_channel_stat(struct spdk_bdev_channel_iter *i, struct spdk_bdev *bdev,
    7078             :                              struct spdk_io_channel *ch, void *_ctx)
    7079             : {
    7080           0 :         struct bdev_iostat_reset_ctx *ctx = _ctx;
    7081           0 :         struct spdk_bdev_channel *channel = __io_ch_to_bdev_ch(ch);
    7082             : 
    7083           0 :         spdk_bdev_reset_io_stat(channel->stat, ctx->mode);
    7084             : 
    7085           0 :         spdk_bdev_for_each_channel_continue(i, 0);
    7086           0 : }
    7087             : 
    7088             : void
    7089           0 : bdev_reset_device_stat(struct spdk_bdev *bdev, enum spdk_bdev_reset_stat_mode mode,
    7090             :                        bdev_reset_device_stat_cb cb, void *cb_arg)
    7091             : {
    7092             :         struct bdev_iostat_reset_ctx *ctx;
    7093             : 
    7094           0 :         assert(bdev != NULL);
    7095           0 :         assert(cb != NULL);
    7096             : 
    7097           0 :         ctx = calloc(1, sizeof(*ctx));
    7098           0 :         if (ctx == NULL) {
    7099           0 :                 SPDK_ERRLOG("Unable to allocate bdev_iostat_reset_ctx.\n");
    7100           0 :                 cb(bdev, cb_arg, -ENOMEM);
    7101           0 :                 return;
    7102             :         }
    7103             : 
    7104           0 :         ctx->mode = mode;
    7105           0 :         ctx->cb = cb;
    7106           0 :         ctx->cb_arg = cb_arg;
    7107             : 
    7108           0 :         spdk_spin_lock(&bdev->internal.spinlock);
    7109           0 :         spdk_bdev_reset_io_stat(bdev->internal.stat, mode);
    7110           0 :         spdk_spin_unlock(&bdev->internal.spinlock);
    7111             : 
    7112           0 :         spdk_bdev_for_each_channel(bdev,
    7113             :                                    bdev_reset_each_channel_stat,
    7114             :                                    ctx,
    7115             :                                    bdev_reset_device_stat_done);
    7116             : }
    7117             : 
    7118             : int
    7119           1 : spdk_bdev_nvme_admin_passthru(struct spdk_bdev_desc *desc, struct spdk_io_channel *ch,
    7120             :                               const struct spdk_nvme_cmd *cmd, void *buf, size_t nbytes,
    7121             :                               spdk_bdev_io_completion_cb cb, void *cb_arg)
    7122             : {
    7123           1 :         struct spdk_bdev *bdev = spdk_bdev_desc_get_bdev(desc);
    7124             :         struct spdk_bdev_io *bdev_io;
    7125           1 :         struct spdk_bdev_channel *channel = __io_ch_to_bdev_ch(ch);
    7126             : 
    7127           1 :         if (!desc->write) {
    7128           0 :                 return -EBADF;
    7129             :         }
    7130             : 
    7131           1 :         if (spdk_unlikely(!bdev_io_type_supported(bdev, SPDK_BDEV_IO_TYPE_NVME_ADMIN))) {
    7132           1 :                 return -ENOTSUP;
    7133             :         }
    7134             : 
    7135           0 :         bdev_io = bdev_channel_get_io(channel);
    7136           0 :         if (!bdev_io) {
    7137           0 :                 return -ENOMEM;
    7138             :         }
    7139             : 
    7140           0 :         bdev_io->internal.ch = channel;
    7141           0 :         bdev_io->internal.desc = desc;
    7142           0 :         bdev_io->type = SPDK_BDEV_IO_TYPE_NVME_ADMIN;
    7143           0 :         bdev_io->u.nvme_passthru.cmd = *cmd;
    7144           0 :         bdev_io->u.nvme_passthru.buf = buf;
    7145           0 :         bdev_io->u.nvme_passthru.nbytes = nbytes;
    7146           0 :         bdev_io->u.nvme_passthru.md_buf = NULL;
    7147           0 :         bdev_io->u.nvme_passthru.md_len = 0;
    7148             : 
    7149           0 :         bdev_io_init(bdev_io, bdev, cb_arg, cb);
    7150             : 
    7151           0 :         bdev_io_submit(bdev_io);
    7152           0 :         return 0;
    7153             : }
    7154             : 
    7155             : int
    7156           1 : spdk_bdev_nvme_io_passthru(struct spdk_bdev_desc *desc, struct spdk_io_channel *ch,
    7157             :                            const struct spdk_nvme_cmd *cmd, void *buf, size_t nbytes,
    7158             :                            spdk_bdev_io_completion_cb cb, void *cb_arg)
    7159             : {
    7160           1 :         struct spdk_bdev *bdev = spdk_bdev_desc_get_bdev(desc);
    7161             :         struct spdk_bdev_io *bdev_io;
    7162           1 :         struct spdk_bdev_channel *channel = __io_ch_to_bdev_ch(ch);
    7163             : 
    7164           1 :         if (!desc->write) {
    7165             :                 /*
    7166             :                  * Do not try to parse the NVMe command - we could maybe use bits in the opcode
    7167             :                  *  to easily determine if the command is a read or write, but for now just
    7168             :                  *  do not allow io_passthru with a read-only descriptor.
    7169             :                  */
    7170           0 :                 return -EBADF;
    7171             :         }
    7172             : 
    7173           1 :         if (spdk_unlikely(!bdev_io_type_supported(bdev, SPDK_BDEV_IO_TYPE_NVME_IO))) {
    7174           1 :                 return -ENOTSUP;
    7175             :         }
    7176             : 
    7177           0 :         bdev_io = bdev_channel_get_io(channel);
    7178           0 :         if (!bdev_io) {
    7179           0 :                 return -ENOMEM;
    7180             :         }
    7181             : 
    7182           0 :         bdev_io->internal.ch = channel;
    7183           0 :         bdev_io->internal.desc = desc;
    7184           0 :         bdev_io->type = SPDK_BDEV_IO_TYPE_NVME_IO;
    7185           0 :         bdev_io->u.nvme_passthru.cmd = *cmd;
    7186           0 :         bdev_io->u.nvme_passthru.buf = buf;
    7187           0 :         bdev_io->u.nvme_passthru.nbytes = nbytes;
    7188           0 :         bdev_io->u.nvme_passthru.md_buf = NULL;
    7189           0 :         bdev_io->u.nvme_passthru.md_len = 0;
    7190             : 
    7191           0 :         bdev_io_init(bdev_io, bdev, cb_arg, cb);
    7192             : 
    7193           0 :         bdev_io_submit(bdev_io);
    7194           0 :         return 0;
    7195             : }
    7196             : 
    7197             : int
    7198           1 : spdk_bdev_nvme_io_passthru_md(struct spdk_bdev_desc *desc, struct spdk_io_channel *ch,
    7199             :                               const struct spdk_nvme_cmd *cmd, void *buf, size_t nbytes, void *md_buf, size_t md_len,
    7200             :                               spdk_bdev_io_completion_cb cb, void *cb_arg)
    7201             : {
    7202           1 :         struct spdk_bdev *bdev = spdk_bdev_desc_get_bdev(desc);
    7203             :         struct spdk_bdev_io *bdev_io;
    7204           1 :         struct spdk_bdev_channel *channel = __io_ch_to_bdev_ch(ch);
    7205             : 
    7206           1 :         if (!desc->write) {
    7207             :                 /*
    7208             :                  * Do not try to parse the NVMe command - we could maybe use bits in the opcode
    7209             :                  *  to easily determine if the command is a read or write, but for now just
    7210             :                  *  do not allow io_passthru with a read-only descriptor.
    7211             :                  */
    7212           0 :                 return -EBADF;
    7213             :         }
    7214             : 
    7215           1 :         if (spdk_unlikely(!bdev_io_type_supported(bdev, SPDK_BDEV_IO_TYPE_NVME_IO_MD))) {
    7216           1 :                 return -ENOTSUP;
    7217             :         }
    7218             : 
    7219           0 :         bdev_io = bdev_channel_get_io(channel);
    7220           0 :         if (!bdev_io) {
    7221           0 :                 return -ENOMEM;
    7222             :         }
    7223             : 
    7224           0 :         bdev_io->internal.ch = channel;
    7225           0 :         bdev_io->internal.desc = desc;
    7226           0 :         bdev_io->type = SPDK_BDEV_IO_TYPE_NVME_IO_MD;
    7227           0 :         bdev_io->u.nvme_passthru.cmd = *cmd;
    7228           0 :         bdev_io->u.nvme_passthru.buf = buf;
    7229           0 :         bdev_io->u.nvme_passthru.nbytes = nbytes;
    7230           0 :         bdev_io->u.nvme_passthru.md_buf = md_buf;
    7231           0 :         bdev_io->u.nvme_passthru.md_len = md_len;
    7232             : 
    7233           0 :         bdev_io_init(bdev_io, bdev, cb_arg, cb);
    7234             : 
    7235           0 :         bdev_io_submit(bdev_io);
    7236           0 :         return 0;
    7237             : }
    7238             : 
    7239             : int
    7240           0 : spdk_bdev_nvme_iov_passthru_md(struct spdk_bdev_desc *desc,
    7241             :                                struct spdk_io_channel *ch,
    7242             :                                const struct spdk_nvme_cmd *cmd,
    7243             :                                struct iovec *iov, int iovcnt, size_t nbytes,
    7244             :                                void *md_buf, size_t md_len,
    7245             :                                spdk_bdev_io_completion_cb cb, void *cb_arg)
    7246             : {
    7247           0 :         struct spdk_bdev *bdev = spdk_bdev_desc_get_bdev(desc);
    7248             :         struct spdk_bdev_io *bdev_io;
    7249           0 :         struct spdk_bdev_channel *channel = __io_ch_to_bdev_ch(ch);
    7250             : 
    7251           0 :         if (!desc->write) {
    7252             :                 /*
    7253             :                  * Do not try to parse the NVMe command - we could maybe use bits in the opcode
    7254             :                  * to easily determine if the command is a read or write, but for now just
    7255             :                  * do not allow io_passthru with a read-only descriptor.
    7256             :                  */
    7257           0 :                 return -EBADF;
    7258             :         }
    7259             : 
    7260           0 :         if (md_buf && spdk_unlikely(!bdev_io_type_supported(bdev, SPDK_BDEV_IO_TYPE_NVME_IO_MD))) {
    7261           0 :                 return -ENOTSUP;
    7262           0 :         } else if (spdk_unlikely(!bdev_io_type_supported(bdev, SPDK_BDEV_IO_TYPE_NVME_IO))) {
    7263           0 :                 return -ENOTSUP;
    7264             :         }
    7265             : 
    7266           0 :         bdev_io = bdev_channel_get_io(channel);
    7267           0 :         if (!bdev_io) {
    7268           0 :                 return -ENOMEM;
    7269             :         }
    7270             : 
    7271           0 :         bdev_io->internal.ch = channel;
    7272           0 :         bdev_io->internal.desc = desc;
    7273           0 :         bdev_io->type = SPDK_BDEV_IO_TYPE_NVME_IOV_MD;
    7274           0 :         bdev_io->u.nvme_passthru.cmd = *cmd;
    7275           0 :         bdev_io->u.nvme_passthru.iovs = iov;
    7276           0 :         bdev_io->u.nvme_passthru.iovcnt = iovcnt;
    7277           0 :         bdev_io->u.nvme_passthru.nbytes = nbytes;
    7278           0 :         bdev_io->u.nvme_passthru.md_buf = md_buf;
    7279           0 :         bdev_io->u.nvme_passthru.md_len = md_len;
    7280             : 
    7281           0 :         bdev_io_init(bdev_io, bdev, cb_arg, cb);
    7282             : 
    7283           0 :         bdev_io_submit(bdev_io);
    7284           0 :         return 0;
    7285             : }
    7286             : 
    7287             : static void bdev_abort_retry(void *ctx);
    7288             : static void bdev_abort(struct spdk_bdev_io *parent_io);
    7289             : 
    7290             : static void
    7291          22 : bdev_abort_io_done(struct spdk_bdev_io *bdev_io, bool success, void *cb_arg)
    7292             : {
    7293          22 :         struct spdk_bdev_channel *channel = bdev_io->internal.ch;
    7294          22 :         struct spdk_bdev_io *parent_io = cb_arg;
    7295             :         struct spdk_bdev_io *bio_to_abort, *tmp_io;
    7296             : 
    7297          22 :         bio_to_abort = bdev_io->u.abort.bio_to_abort;
    7298             : 
    7299          22 :         spdk_bdev_free_io(bdev_io);
    7300             : 
    7301          22 :         if (!success) {
    7302             :                 /* Check if the target I/O completed in the meantime. */
    7303           2 :                 TAILQ_FOREACH(tmp_io, &channel->io_submitted, internal.ch_link) {
    7304           1 :                         if (tmp_io == bio_to_abort) {
    7305           0 :                                 break;
    7306             :                         }
    7307             :                 }
    7308             : 
    7309             :                 /* If the target I/O still exists, set the parent to failed. */
    7310           1 :                 if (tmp_io != NULL) {
    7311           0 :                         parent_io->internal.status = SPDK_BDEV_IO_STATUS_FAILED;
    7312             :                 }
    7313             :         }
    7314             : 
    7315          22 :         assert(parent_io->internal.f.split);
    7316             : 
    7317          22 :         parent_io->internal.split.outstanding--;
    7318          22 :         if (parent_io->internal.split.outstanding == 0) {
    7319          16 :                 if (parent_io->internal.status == SPDK_BDEV_IO_STATUS_NOMEM) {
    7320           0 :                         bdev_abort_retry(parent_io);
    7321             :                 } else {
    7322          16 :                         bdev_io_complete(parent_io);
    7323             :                 }
    7324             :         }
    7325          22 : }
    7326             : 
    7327             : static int
    7328          23 : bdev_abort_io(struct spdk_bdev_desc *desc, struct spdk_bdev_channel *channel,
    7329             :               struct spdk_bdev_io *bio_to_abort,
    7330             :               spdk_bdev_io_completion_cb cb, void *cb_arg)
    7331             : {
    7332          23 :         struct spdk_bdev *bdev = spdk_bdev_desc_get_bdev(desc);
    7333             :         struct spdk_bdev_io *bdev_io;
    7334             : 
    7335          23 :         if (bio_to_abort->type == SPDK_BDEV_IO_TYPE_ABORT ||
    7336          23 :             bio_to_abort->type == SPDK_BDEV_IO_TYPE_RESET) {
    7337             :                 /* TODO: Abort reset or abort request. */
    7338           0 :                 return -ENOTSUP;
    7339             :         }
    7340             : 
    7341          23 :         bdev_io = bdev_channel_get_io(channel);
    7342          23 :         if (bdev_io == NULL) {
    7343           1 :                 return -ENOMEM;
    7344             :         }
    7345             : 
    7346          22 :         bdev_io->internal.ch = channel;
    7347          22 :         bdev_io->internal.desc = desc;
    7348          22 :         bdev_io->type = SPDK_BDEV_IO_TYPE_ABORT;
    7349          22 :         bdev_io_init(bdev_io, bdev, cb_arg, cb);
    7350             : 
    7351          22 :         if (bio_to_abort->internal.f.split) {
    7352           6 :                 assert(bdev_io_should_split(bio_to_abort));
    7353           6 :                 bdev_io->u.bdev.abort.bio_cb_arg = bio_to_abort;
    7354             : 
    7355             :                 /* Parent abort request is not submitted directly, but to manage its
    7356             :                  * execution add it to the submitted list here.
    7357             :                  */
    7358           6 :                 bdev_io->internal.submit_tsc = spdk_get_ticks();
    7359           6 :                 bdev_ch_add_to_io_submitted(bdev_io);
    7360             : 
    7361           6 :                 bdev_abort(bdev_io);
    7362             : 
    7363           6 :                 return 0;
    7364             :         }
    7365             : 
    7366          16 :         bdev_io->u.abort.bio_to_abort = bio_to_abort;
    7367             : 
    7368             :         /* Submit the abort request to the underlying bdev module. */
    7369          16 :         bdev_io_submit(bdev_io);
    7370             : 
    7371          16 :         return 0;
    7372             : }
    7373             : 
    7374             : static bool
    7375          46 : bdev_io_on_tailq(struct spdk_bdev_io *bdev_io, bdev_io_tailq_t *tailq)
    7376             : {
    7377             :         struct spdk_bdev_io *iter;
    7378             : 
    7379          46 :         TAILQ_FOREACH(iter, tailq, internal.link) {
    7380           0 :                 if (iter == bdev_io) {
    7381           0 :                         return true;
    7382             :                 }
    7383             :         }
    7384             : 
    7385          46 :         return false;
    7386             : }
    7387             : 
    7388             : static uint32_t
    7389          18 : _bdev_abort(struct spdk_bdev_io *parent_io)
    7390             : {
    7391          18 :         struct spdk_bdev_desc *desc = parent_io->internal.desc;
    7392          18 :         struct spdk_bdev_channel *channel = parent_io->internal.ch;
    7393             :         void *bio_cb_arg;
    7394             :         struct spdk_bdev_io *bio_to_abort;
    7395             :         uint32_t matched_ios;
    7396             :         int rc;
    7397             : 
    7398          18 :         bio_cb_arg = parent_io->u.bdev.abort.bio_cb_arg;
    7399             : 
    7400             :         /* matched_ios is returned and will be kept by the caller.
    7401             :          *
    7402             :          * This function will be used for two cases, 1) the same cb_arg is used for
    7403             :          * multiple I/Os, 2) a single large I/O is split into smaller ones.
    7404             :          * Incrementing split_outstanding directly here may confuse readers especially
    7405             :          * for the 1st case.
    7406             :          *
    7407             :          * Completion of I/O abort is processed after stack unwinding. Hence this trick
    7408             :          * works as expected.
    7409             :          */
    7410          18 :         matched_ios = 0;
    7411          18 :         parent_io->internal.status = SPDK_BDEV_IO_STATUS_SUCCESS;
    7412             : 
    7413         105 :         TAILQ_FOREACH(bio_to_abort, &channel->io_submitted, internal.ch_link) {
    7414          88 :                 if (bio_to_abort->internal.caller_ctx != bio_cb_arg) {
    7415          65 :                         continue;
    7416             :                 }
    7417             : 
    7418          23 :                 if (bio_to_abort->internal.submit_tsc > parent_io->internal.submit_tsc) {
    7419             :                         /* Any I/O which was submitted after this abort command should be excluded. */
    7420           0 :                         continue;
    7421             :                 }
    7422             : 
    7423             :                 /* We can't abort a request that's being pushed/pulled or executed by accel */
    7424          46 :                 if (bdev_io_on_tailq(bio_to_abort, &channel->io_accel_exec) ||
    7425          23 :                     bdev_io_on_tailq(bio_to_abort, &channel->io_memory_domain)) {
    7426           0 :                         parent_io->internal.status = SPDK_BDEV_IO_STATUS_FAILED;
    7427           0 :                         break;
    7428             :                 }
    7429             : 
    7430          23 :                 rc = bdev_abort_io(desc, channel, bio_to_abort, bdev_abort_io_done, parent_io);
    7431          23 :                 if (rc != 0) {
    7432           1 :                         if (rc == -ENOMEM) {
    7433           1 :                                 parent_io->internal.status = SPDK_BDEV_IO_STATUS_NOMEM;
    7434             :                         } else {
    7435           0 :                                 parent_io->internal.status = SPDK_BDEV_IO_STATUS_FAILED;
    7436             :                         }
    7437           1 :                         break;
    7438             :                 }
    7439          22 :                 matched_ios++;
    7440             :         }
    7441             : 
    7442          18 :         return matched_ios;
    7443             : }
    7444             : 
    7445             : static void
    7446           1 : bdev_abort_retry(void *ctx)
    7447             : {
    7448           1 :         struct spdk_bdev_io *parent_io = ctx;
    7449             :         uint32_t matched_ios;
    7450             : 
    7451           1 :         matched_ios = _bdev_abort(parent_io);
    7452             : 
    7453           1 :         if (matched_ios == 0) {
    7454           0 :                 if (parent_io->internal.status == SPDK_BDEV_IO_STATUS_NOMEM) {
    7455           0 :                         bdev_queue_io_wait_with_cb(parent_io, bdev_abort_retry);
    7456             :                 } else {
    7457             :                         /* For retry, the case that no target I/O was found is success
    7458             :                          * because it means target I/Os completed in the meantime.
    7459             :                          */
    7460           0 :                         bdev_io_complete(parent_io);
    7461             :                 }
    7462           0 :                 return;
    7463             :         }
    7464             : 
    7465             :         /* Use split_outstanding to manage the progress of aborting I/Os. */
    7466           1 :         parent_io->internal.f.split = true;
    7467           1 :         parent_io->internal.split.outstanding = matched_ios;
    7468             : }
    7469             : 
    7470             : static void
    7471          17 : bdev_abort(struct spdk_bdev_io *parent_io)
    7472             : {
    7473             :         uint32_t matched_ios;
    7474             : 
    7475          17 :         matched_ios = _bdev_abort(parent_io);
    7476             : 
    7477          17 :         if (matched_ios == 0) {
    7478           2 :                 if (parent_io->internal.status == SPDK_BDEV_IO_STATUS_NOMEM) {
    7479           1 :                         bdev_queue_io_wait_with_cb(parent_io, bdev_abort_retry);
    7480             :                 } else {
    7481             :                         /* The case the no target I/O was found is failure. */
    7482           1 :                         parent_io->internal.status = SPDK_BDEV_IO_STATUS_FAILED;
    7483           1 :                         bdev_io_complete(parent_io);
    7484             :                 }
    7485           2 :                 return;
    7486             :         }
    7487             : 
    7488             :         /* Use split_outstanding to manage the progress of aborting I/Os. */
    7489          15 :         parent_io->internal.f.split = true;
    7490          15 :         parent_io->internal.split.outstanding = matched_ios;
    7491             : }
    7492             : 
    7493             : int
    7494          12 : spdk_bdev_abort(struct spdk_bdev_desc *desc, struct spdk_io_channel *ch,
    7495             :                 void *bio_cb_arg,
    7496             :                 spdk_bdev_io_completion_cb cb, void *cb_arg)
    7497             : {
    7498          12 :         struct spdk_bdev *bdev = spdk_bdev_desc_get_bdev(desc);
    7499          12 :         struct spdk_bdev_channel *channel = __io_ch_to_bdev_ch(ch);
    7500             :         struct spdk_bdev_io *bdev_io;
    7501             : 
    7502          12 :         if (bio_cb_arg == NULL) {
    7503           0 :                 return -EINVAL;
    7504             :         }
    7505             : 
    7506          12 :         if (!spdk_bdev_io_type_supported(bdev, SPDK_BDEV_IO_TYPE_ABORT)) {
    7507           1 :                 return -ENOTSUP;
    7508             :         }
    7509             : 
    7510          11 :         bdev_io = bdev_channel_get_io(channel);
    7511          11 :         if (bdev_io == NULL) {
    7512           0 :                 return -ENOMEM;
    7513             :         }
    7514             : 
    7515          11 :         bdev_io->internal.ch = channel;
    7516          11 :         bdev_io->internal.desc = desc;
    7517          11 :         bdev_io->internal.submit_tsc = spdk_get_ticks();
    7518          11 :         bdev_io->type = SPDK_BDEV_IO_TYPE_ABORT;
    7519          11 :         bdev_io_init(bdev_io, bdev, cb_arg, cb);
    7520             : 
    7521          11 :         bdev_io->u.bdev.abort.bio_cb_arg = bio_cb_arg;
    7522             : 
    7523             :         /* Parent abort request is not submitted directly, but to manage its execution,
    7524             :          * add it to the submitted list here.
    7525             :          */
    7526          11 :         bdev_ch_add_to_io_submitted(bdev_io);
    7527             : 
    7528          11 :         bdev_abort(bdev_io);
    7529             : 
    7530          11 :         return 0;
    7531             : }
    7532             : 
    7533             : int
    7534           4 : spdk_bdev_queue_io_wait(struct spdk_bdev *bdev, struct spdk_io_channel *ch,
    7535             :                         struct spdk_bdev_io_wait_entry *entry)
    7536             : {
    7537           4 :         struct spdk_bdev_channel *channel = __io_ch_to_bdev_ch(ch);
    7538           4 :         struct spdk_bdev_mgmt_channel *mgmt_ch = channel->shared_resource->mgmt_ch;
    7539             : 
    7540           4 :         if (bdev != entry->bdev) {
    7541           0 :                 SPDK_ERRLOG("bdevs do not match\n");
    7542           0 :                 return -EINVAL;
    7543             :         }
    7544             : 
    7545           4 :         if (mgmt_ch->per_thread_cache_count > 0) {
    7546           0 :                 SPDK_ERRLOG("Cannot queue io_wait if spdk_bdev_io available in per-thread cache\n");
    7547           0 :                 return -EINVAL;
    7548             :         }
    7549             : 
    7550           4 :         TAILQ_INSERT_TAIL(&mgmt_ch->io_wait_queue, entry, link);
    7551           4 :         return 0;
    7552             : }
    7553             : 
    7554             : static inline void
    7555         612 : bdev_io_update_io_stat(struct spdk_bdev_io *bdev_io, uint64_t tsc_diff)
    7556             : {
    7557         612 :         enum spdk_bdev_io_status io_status = bdev_io->internal.status;
    7558         612 :         struct spdk_bdev_io_stat *io_stat = bdev_io->internal.ch->stat;
    7559         612 :         uint64_t num_blocks = bdev_io->u.bdev.num_blocks;
    7560         612 :         uint32_t blocklen = bdev_io->bdev->blocklen;
    7561             : 
    7562         612 :         if (spdk_likely(io_status == SPDK_BDEV_IO_STATUS_SUCCESS)) {
    7563         519 :                 switch (bdev_io->type) {
    7564         321 :                 case SPDK_BDEV_IO_TYPE_READ:
    7565         321 :                         io_stat->bytes_read += num_blocks * blocklen;
    7566         321 :                         io_stat->num_read_ops++;
    7567         321 :                         io_stat->read_latency_ticks += tsc_diff;
    7568         321 :                         if (io_stat->max_read_latency_ticks < tsc_diff) {
    7569           7 :                                 io_stat->max_read_latency_ticks = tsc_diff;
    7570             :                         }
    7571         321 :                         if (io_stat->min_read_latency_ticks > tsc_diff) {
    7572          42 :                                 io_stat->min_read_latency_ticks = tsc_diff;
    7573             :                         }
    7574         321 :                         break;
    7575          75 :                 case SPDK_BDEV_IO_TYPE_WRITE:
    7576          75 :                         io_stat->bytes_written += num_blocks * blocklen;
    7577          75 :                         io_stat->num_write_ops++;
    7578          75 :                         io_stat->write_latency_ticks += tsc_diff;
    7579          75 :                         if (io_stat->max_write_latency_ticks < tsc_diff) {
    7580           4 :                                 io_stat->max_write_latency_ticks = tsc_diff;
    7581             :                         }
    7582          75 :                         if (io_stat->min_write_latency_ticks > tsc_diff) {
    7583          25 :                                 io_stat->min_write_latency_ticks = tsc_diff;
    7584             :                         }
    7585          75 :                         break;
    7586          20 :                 case SPDK_BDEV_IO_TYPE_UNMAP:
    7587          20 :                         io_stat->bytes_unmapped += num_blocks * blocklen;
    7588          20 :                         io_stat->num_unmap_ops++;
    7589          20 :                         io_stat->unmap_latency_ticks += tsc_diff;
    7590          20 :                         if (io_stat->max_unmap_latency_ticks < tsc_diff) {
    7591           0 :                                 io_stat->max_unmap_latency_ticks = tsc_diff;
    7592             :                         }
    7593          20 :                         if (io_stat->min_unmap_latency_ticks > tsc_diff) {
    7594           3 :                                 io_stat->min_unmap_latency_ticks = tsc_diff;
    7595             :                         }
    7596          20 :                         break;
    7597           4 :                 case SPDK_BDEV_IO_TYPE_ZCOPY:
    7598             :                         /* Track the data in the start phase only */
    7599           4 :                         if (bdev_io->u.bdev.zcopy.start) {
    7600           2 :                                 if (bdev_io->u.bdev.zcopy.populate) {
    7601           1 :                                         io_stat->bytes_read += num_blocks * blocklen;
    7602           1 :                                         io_stat->num_read_ops++;
    7603           1 :                                         io_stat->read_latency_ticks += tsc_diff;
    7604           1 :                                         if (io_stat->max_read_latency_ticks < tsc_diff) {
    7605           0 :                                                 io_stat->max_read_latency_ticks = tsc_diff;
    7606             :                                         }
    7607           1 :                                         if (io_stat->min_read_latency_ticks > tsc_diff) {
    7608           1 :                                                 io_stat->min_read_latency_ticks = tsc_diff;
    7609             :                                         }
    7610             :                                 } else {
    7611           1 :                                         io_stat->bytes_written += num_blocks * blocklen;
    7612           1 :                                         io_stat->num_write_ops++;
    7613           1 :                                         io_stat->write_latency_ticks += tsc_diff;
    7614           1 :                                         if (io_stat->max_write_latency_ticks < tsc_diff) {
    7615           0 :                                                 io_stat->max_write_latency_ticks = tsc_diff;
    7616             :                                         }
    7617           1 :                                         if (io_stat->min_write_latency_ticks > tsc_diff) {
    7618           1 :                                                 io_stat->min_write_latency_ticks = tsc_diff;
    7619             :                                         }
    7620             :                                 }
    7621             :                         }
    7622           4 :                         break;
    7623          21 :                 case SPDK_BDEV_IO_TYPE_COPY:
    7624          21 :                         io_stat->bytes_copied += num_blocks * blocklen;
    7625          21 :                         io_stat->num_copy_ops++;
    7626          21 :                         bdev_io->internal.ch->stat->copy_latency_ticks += tsc_diff;
    7627          21 :                         if (io_stat->max_copy_latency_ticks < tsc_diff) {
    7628           0 :                                 io_stat->max_copy_latency_ticks = tsc_diff;
    7629             :                         }
    7630          21 :                         if (io_stat->min_copy_latency_ticks > tsc_diff) {
    7631           4 :                                 io_stat->min_copy_latency_ticks = tsc_diff;
    7632             :                         }
    7633          21 :                         break;
    7634          78 :                 default:
    7635          78 :                         break;
    7636             :                 }
    7637          93 :         } else if (io_status <= SPDK_BDEV_IO_STATUS_FAILED && io_status >= SPDK_MIN_BDEV_IO_STATUS) {
    7638          93 :                 io_stat = bdev_io->bdev->internal.stat;
    7639          93 :                 assert(io_stat->io_error != NULL);
    7640             : 
    7641          93 :                 spdk_spin_lock(&bdev_io->bdev->internal.spinlock);
    7642          93 :                 io_stat->io_error->error_status[-io_status - 1]++;
    7643          93 :                 spdk_spin_unlock(&bdev_io->bdev->internal.spinlock);
    7644             :         }
    7645             : 
    7646             : #ifdef SPDK_CONFIG_VTUNE
    7647             :         uint64_t now_tsc = spdk_get_ticks();
    7648             :         if (now_tsc > (bdev_io->internal.ch->start_tsc + bdev_io->internal.ch->interval_tsc)) {
    7649             :                 uint64_t data[5];
    7650             :                 struct spdk_bdev_io_stat *prev_stat = bdev_io->internal.ch->prev_stat;
    7651             : 
    7652             :                 data[0] = io_stat->num_read_ops - prev_stat->num_read_ops;
    7653             :                 data[1] = io_stat->bytes_read - prev_stat->bytes_read;
    7654             :                 data[2] = io_stat->num_write_ops - prev_stat->num_write_ops;
    7655             :                 data[3] = io_stat->bytes_written - prev_stat->bytes_written;
    7656             :                 data[4] = bdev_io->bdev->fn_table->get_spin_time ?
    7657             :                           bdev_io->bdev->fn_table->get_spin_time(spdk_bdev_io_get_io_channel(bdev_io)) : 0;
    7658             : 
    7659             :                 __itt_metadata_add(g_bdev_mgr.domain, __itt_null, bdev_io->internal.ch->handle,
    7660             :                                    __itt_metadata_u64, 5, data);
    7661             : 
    7662             :                 memcpy(prev_stat, io_stat, sizeof(struct spdk_bdev_io_stat));
    7663             :                 bdev_io->internal.ch->start_tsc = now_tsc;
    7664             :         }
    7665             : #endif
    7666         612 : }
    7667             : 
    7668             : static inline void
    7669         612 : _bdev_io_complete(void *ctx)
    7670             : {
    7671         612 :         struct spdk_bdev_io *bdev_io = ctx;
    7672             : 
    7673         612 :         if (spdk_unlikely(bdev_io_use_accel_sequence(bdev_io))) {
    7674           0 :                 assert(bdev_io->internal.status != SPDK_BDEV_IO_STATUS_SUCCESS);
    7675           0 :                 spdk_accel_sequence_abort(bdev_io->internal.accel_sequence);
    7676             :         }
    7677             : 
    7678         612 :         assert(bdev_io->internal.cb != NULL);
    7679         612 :         assert(spdk_get_thread() == spdk_bdev_io_get_thread(bdev_io));
    7680             : 
    7681         612 :         bdev_io->internal.cb(bdev_io, bdev_io->internal.status == SPDK_BDEV_IO_STATUS_SUCCESS,
    7682             :                              bdev_io->internal.caller_ctx);
    7683         612 : }
    7684             : 
    7685             : static inline void
    7686         620 : bdev_io_complete(void *ctx)
    7687             : {
    7688         620 :         struct spdk_bdev_io *bdev_io = ctx;
    7689         620 :         struct spdk_bdev_channel *bdev_ch = bdev_io->internal.ch;
    7690             :         uint64_t tsc, tsc_diff;
    7691             : 
    7692         620 :         if (spdk_unlikely(bdev_io->internal.f.in_submit_request)) {
    7693             :                 /*
    7694             :                  * Defer completion to avoid potential infinite recursion if the
    7695             :                  * user's completion callback issues a new I/O.
    7696             :                  */
    7697           8 :                 spdk_thread_send_msg(spdk_bdev_io_get_thread(bdev_io),
    7698             :                                      bdev_io_complete, bdev_io);
    7699           8 :                 return;
    7700             :         }
    7701             : 
    7702         612 :         tsc = spdk_get_ticks();
    7703         612 :         tsc_diff = tsc - bdev_io->internal.submit_tsc;
    7704             : 
    7705         612 :         bdev_ch_remove_from_io_submitted(bdev_io);
    7706         612 :         spdk_trace_record_tsc(tsc, TRACE_BDEV_IO_DONE, bdev_ch->trace_id, 0, (uintptr_t)bdev_io,
    7707             :                               bdev_io->internal.caller_ctx, bdev_ch->queue_depth);
    7708             : 
    7709         612 :         if (bdev_ch->histogram) {
    7710           4 :                 if (bdev_io->bdev->internal.histogram_io_type == 0 ||
    7711           0 :                     bdev_io->bdev->internal.histogram_io_type == bdev_io->type) {
    7712             :                         /*
    7713             :                          * Tally all I/O types if the histogram_io_type is set to 0.
    7714             :                          */
    7715           4 :                         spdk_histogram_data_tally(bdev_ch->histogram, tsc_diff);
    7716             :                 }
    7717             :         }
    7718             : 
    7719         612 :         bdev_io_update_io_stat(bdev_io, tsc_diff);
    7720         612 :         _bdev_io_complete(bdev_io);
    7721             : }
    7722             : 
    7723             : /* The difference between this function and bdev_io_complete() is that this should be called to
    7724             :  * complete IOs that haven't been submitted via bdev_io_submit(), as they weren't added onto the
    7725             :  * io_submitted list and don't have submit_tsc updated.
    7726             :  */
    7727             : static inline void
    7728           0 : bdev_io_complete_unsubmitted(struct spdk_bdev_io *bdev_io)
    7729             : {
    7730             :         /* Since the IO hasn't been submitted it's bound to be failed */
    7731           0 :         assert(bdev_io->internal.status != SPDK_BDEV_IO_STATUS_SUCCESS);
    7732             : 
    7733             :         /* At this point we don't know if the IO is completed from submission context or not, but,
    7734             :          * since this is an error path, we can always do an spdk_thread_send_msg(). */
    7735           0 :         spdk_thread_send_msg(spdk_bdev_io_get_thread(bdev_io),
    7736             :                              _bdev_io_complete, bdev_io);
    7737           0 : }
    7738             : 
    7739             : static void bdev_destroy_cb(void *io_device);
    7740             : 
    7741             : static inline void
    7742          18 : _bdev_reset_complete(void *ctx)
    7743             : {
    7744          18 :         struct spdk_bdev_io *bdev_io = ctx;
    7745             : 
    7746             :         /* Put the channel reference we got in submission. */
    7747          18 :         assert(bdev_io->u.reset.ch_ref != NULL);
    7748          18 :         spdk_put_io_channel(bdev_io->u.reset.ch_ref);
    7749          18 :         bdev_io->u.reset.ch_ref = NULL;
    7750             : 
    7751          18 :         bdev_io_complete(bdev_io);
    7752          18 : }
    7753             : 
    7754             : static void
    7755          16 : bdev_reset_complete(struct spdk_bdev *bdev, void *_ctx, int status)
    7756             : {
    7757          16 :         struct spdk_bdev_io *bdev_io = _ctx;
    7758          16 :         bdev_io_tailq_t queued_resets;
    7759             :         struct spdk_bdev_io *queued_reset;
    7760             : 
    7761          16 :         assert(bdev_io == bdev->internal.reset_in_progress);
    7762             : 
    7763          16 :         TAILQ_INIT(&queued_resets);
    7764             : 
    7765          16 :         spdk_spin_lock(&bdev->internal.spinlock);
    7766          16 :         TAILQ_SWAP(&bdev->internal.queued_resets, &queued_resets,
    7767             :                    spdk_bdev_io, internal.link);
    7768          16 :         bdev->internal.reset_in_progress = NULL;
    7769          16 :         spdk_spin_unlock(&bdev->internal.spinlock);
    7770             : 
    7771          18 :         while (!TAILQ_EMPTY(&queued_resets)) {
    7772           2 :                 queued_reset = TAILQ_FIRST(&queued_resets);
    7773           2 :                 TAILQ_REMOVE(&queued_resets, queued_reset, internal.link);
    7774           2 :                 queued_reset->internal.status = bdev_io->internal.status;
    7775           2 :                 spdk_thread_send_msg(spdk_bdev_io_get_thread(queued_reset),
    7776             :                                      _bdev_reset_complete, queued_reset);
    7777             :         }
    7778             : 
    7779          16 :         _bdev_reset_complete(bdev_io);
    7780             : 
    7781          16 :         if (bdev->internal.status == SPDK_BDEV_STATUS_REMOVING &&
    7782           1 :             TAILQ_EMPTY(&bdev->internal.open_descs)) {
    7783           1 :                 spdk_io_device_unregister(__bdev_to_io_dev(bdev), bdev_destroy_cb);
    7784             :         }
    7785          16 : }
    7786             : 
    7787             : static void
    7788          20 : bdev_unfreeze_channel(struct spdk_bdev_channel_iter *i, struct spdk_bdev *bdev,
    7789             :                       struct spdk_io_channel *_ch, void *_ctx)
    7790             : {
    7791          20 :         struct spdk_bdev_channel *ch = __io_ch_to_bdev_ch(_ch);
    7792             : 
    7793          20 :         ch->flags &= ~BDEV_CH_RESET_IN_PROGRESS;
    7794             : 
    7795          20 :         spdk_bdev_for_each_channel_continue(i, 0);
    7796          20 : }
    7797             : 
    7798             : static void
    7799           0 : bdev_io_complete_sequence_cb(void *ctx, int status)
    7800             : {
    7801           0 :         struct spdk_bdev_io *bdev_io = ctx;
    7802             : 
    7803             :         /* u.bdev.accel_sequence should have already been cleared at this point */
    7804           0 :         assert(bdev_io->u.bdev.accel_sequence == NULL);
    7805           0 :         assert(bdev_io->internal.status == SPDK_BDEV_IO_STATUS_SUCCESS);
    7806           0 :         bdev_io->internal.f.has_accel_sequence = false;
    7807             : 
    7808           0 :         if (spdk_unlikely(status != 0)) {
    7809           0 :                 SPDK_ERRLOG("Failed to execute accel sequence, status=%d\n", status);
    7810           0 :                 bdev_io->internal.status = SPDK_BDEV_IO_STATUS_FAILED;
    7811             :         }
    7812             : 
    7813           0 :         bdev_io_complete(bdev_io);
    7814           0 : }
    7815             : 
    7816             : void
    7817         598 : spdk_bdev_io_complete(struct spdk_bdev_io *bdev_io, enum spdk_bdev_io_status status)
    7818             : {
    7819         598 :         struct spdk_bdev *bdev = bdev_io->bdev;
    7820         598 :         struct spdk_bdev_channel *bdev_ch = bdev_io->internal.ch;
    7821         598 :         struct spdk_bdev_shared_resource *shared_resource = bdev_ch->shared_resource;
    7822             : 
    7823         598 :         if (spdk_unlikely(bdev_io->internal.status != SPDK_BDEV_IO_STATUS_PENDING)) {
    7824           0 :                 SPDK_ERRLOG("Unexpected completion on IO from %s module, status was %s\n",
    7825             :                             spdk_bdev_get_module_name(bdev),
    7826             :                             bdev_io_status_get_string(bdev_io->internal.status));
    7827           0 :                 assert(false);
    7828             :         }
    7829         598 :         bdev_io->internal.status = status;
    7830             : 
    7831         598 :         if (spdk_unlikely(bdev_io->type == SPDK_BDEV_IO_TYPE_RESET)) {
    7832          16 :                 assert(bdev_io == bdev->internal.reset_in_progress);
    7833          16 :                 spdk_bdev_for_each_channel(bdev, bdev_unfreeze_channel, bdev_io,
    7834             :                                            bdev_reset_complete);
    7835          16 :                 return;
    7836             :         } else {
    7837         582 :                 bdev_io_decrement_outstanding(bdev_ch, shared_resource);
    7838         582 :                 if (spdk_likely(status == SPDK_BDEV_IO_STATUS_SUCCESS)) {
    7839         485 :                         if (bdev_io_needs_sequence_exec(bdev_io->internal.desc, bdev_io)) {
    7840           0 :                                 bdev_io_exec_sequence(bdev_io, bdev_io_complete_sequence_cb);
    7841           0 :                                 return;
    7842         485 :                         } else if (spdk_unlikely(bdev_io->internal.f.has_bounce_buf &&
    7843             :                                                  !bdev_io_use_accel_sequence(bdev_io))) {
    7844          26 :                                 _bdev_io_push_bounce_data_buffer(bdev_io,
    7845             :                                                                  _bdev_io_complete_push_bounce_done);
    7846             :                                 /* bdev IO will be completed in the callback */
    7847          26 :                                 return;
    7848             :                         }
    7849             :                 }
    7850             : 
    7851         556 :                 if (spdk_unlikely(_bdev_io_handle_no_mem(bdev_io, BDEV_IO_RETRY_STATE_SUBMIT))) {
    7852           5 :                         return;
    7853             :                 }
    7854             :         }
    7855             : 
    7856         551 :         bdev_io_complete(bdev_io);
    7857             : }
    7858             : 
    7859             : void
    7860           0 : spdk_bdev_io_complete_scsi_status(struct spdk_bdev_io *bdev_io, enum spdk_scsi_status sc,
    7861             :                                   enum spdk_scsi_sense sk, uint8_t asc, uint8_t ascq)
    7862             : {
    7863             :         enum spdk_bdev_io_status status;
    7864             : 
    7865           0 :         if (sc == SPDK_SCSI_STATUS_GOOD) {
    7866           0 :                 status = SPDK_BDEV_IO_STATUS_SUCCESS;
    7867             :         } else {
    7868           0 :                 status = SPDK_BDEV_IO_STATUS_SCSI_ERROR;
    7869           0 :                 bdev_io->internal.error.scsi.sc = sc;
    7870           0 :                 bdev_io->internal.error.scsi.sk = sk;
    7871           0 :                 bdev_io->internal.error.scsi.asc = asc;
    7872           0 :                 bdev_io->internal.error.scsi.ascq = ascq;
    7873             :         }
    7874             : 
    7875           0 :         spdk_bdev_io_complete(bdev_io, status);
    7876           0 : }
    7877             : 
    7878             : void
    7879           0 : spdk_bdev_io_get_scsi_status(const struct spdk_bdev_io *bdev_io,
    7880             :                              int *sc, int *sk, int *asc, int *ascq)
    7881             : {
    7882           0 :         assert(sc != NULL);
    7883           0 :         assert(sk != NULL);
    7884           0 :         assert(asc != NULL);
    7885           0 :         assert(ascq != NULL);
    7886             : 
    7887           0 :         switch (bdev_io->internal.status) {
    7888           0 :         case SPDK_BDEV_IO_STATUS_SUCCESS:
    7889           0 :                 *sc = SPDK_SCSI_STATUS_GOOD;
    7890           0 :                 *sk = SPDK_SCSI_SENSE_NO_SENSE;
    7891           0 :                 *asc = SPDK_SCSI_ASC_NO_ADDITIONAL_SENSE;
    7892           0 :                 *ascq = SPDK_SCSI_ASCQ_CAUSE_NOT_REPORTABLE;
    7893           0 :                 break;
    7894           0 :         case SPDK_BDEV_IO_STATUS_NVME_ERROR:
    7895           0 :                 spdk_scsi_nvme_translate(bdev_io, sc, sk, asc, ascq);
    7896           0 :                 break;
    7897           0 :         case SPDK_BDEV_IO_STATUS_MISCOMPARE:
    7898           0 :                 *sc = SPDK_SCSI_STATUS_CHECK_CONDITION;
    7899           0 :                 *sk = SPDK_SCSI_SENSE_MISCOMPARE;
    7900           0 :                 *asc = SPDK_SCSI_ASC_MISCOMPARE_DURING_VERIFY_OPERATION;
    7901           0 :                 *ascq = bdev_io->internal.error.scsi.ascq;
    7902           0 :                 break;
    7903           0 :         case SPDK_BDEV_IO_STATUS_SCSI_ERROR:
    7904           0 :                 *sc = bdev_io->internal.error.scsi.sc;
    7905           0 :                 *sk = bdev_io->internal.error.scsi.sk;
    7906           0 :                 *asc = bdev_io->internal.error.scsi.asc;
    7907           0 :                 *ascq = bdev_io->internal.error.scsi.ascq;
    7908           0 :                 break;
    7909           0 :         default:
    7910           0 :                 *sc = SPDK_SCSI_STATUS_CHECK_CONDITION;
    7911           0 :                 *sk = SPDK_SCSI_SENSE_ABORTED_COMMAND;
    7912           0 :                 *asc = SPDK_SCSI_ASC_NO_ADDITIONAL_SENSE;
    7913           0 :                 *ascq = SPDK_SCSI_ASCQ_CAUSE_NOT_REPORTABLE;
    7914           0 :                 break;
    7915             :         }
    7916           0 : }
    7917             : 
    7918             : void
    7919           0 : spdk_bdev_io_complete_aio_status(struct spdk_bdev_io *bdev_io, int aio_result)
    7920             : {
    7921             :         enum spdk_bdev_io_status status;
    7922             : 
    7923           0 :         if (aio_result == 0) {
    7924           0 :                 status = SPDK_BDEV_IO_STATUS_SUCCESS;
    7925             :         } else {
    7926           0 :                 status = SPDK_BDEV_IO_STATUS_AIO_ERROR;
    7927             :         }
    7928             : 
    7929           0 :         bdev_io->internal.error.aio_result = aio_result;
    7930             : 
    7931           0 :         spdk_bdev_io_complete(bdev_io, status);
    7932           0 : }
    7933             : 
    7934             : void
    7935           0 : spdk_bdev_io_get_aio_status(const struct spdk_bdev_io *bdev_io, int *aio_result)
    7936             : {
    7937           0 :         assert(aio_result != NULL);
    7938             : 
    7939           0 :         if (bdev_io->internal.status == SPDK_BDEV_IO_STATUS_AIO_ERROR) {
    7940           0 :                 *aio_result = bdev_io->internal.error.aio_result;
    7941           0 :         } else if (bdev_io->internal.status == SPDK_BDEV_IO_STATUS_SUCCESS) {
    7942           0 :                 *aio_result = 0;
    7943             :         } else {
    7944           0 :                 *aio_result = -EIO;
    7945             :         }
    7946           0 : }
    7947             : 
    7948             : void
    7949           0 : spdk_bdev_io_complete_nvme_status(struct spdk_bdev_io *bdev_io, uint32_t cdw0, int sct, int sc)
    7950             : {
    7951             :         enum spdk_bdev_io_status status;
    7952             : 
    7953           0 :         if (spdk_likely(sct == SPDK_NVME_SCT_GENERIC && sc == SPDK_NVME_SC_SUCCESS)) {
    7954           0 :                 status = SPDK_BDEV_IO_STATUS_SUCCESS;
    7955           0 :         } else if (sct == SPDK_NVME_SCT_GENERIC && sc == SPDK_NVME_SC_ABORTED_BY_REQUEST) {
    7956           0 :                 status = SPDK_BDEV_IO_STATUS_ABORTED;
    7957             :         } else {
    7958           0 :                 status = SPDK_BDEV_IO_STATUS_NVME_ERROR;
    7959             :         }
    7960             : 
    7961           0 :         bdev_io->internal.error.nvme.cdw0 = cdw0;
    7962           0 :         bdev_io->internal.error.nvme.sct = sct;
    7963           0 :         bdev_io->internal.error.nvme.sc = sc;
    7964             : 
    7965           0 :         spdk_bdev_io_complete(bdev_io, status);
    7966           0 : }
    7967             : 
    7968             : void
    7969           0 : spdk_bdev_io_get_nvme_status(const struct spdk_bdev_io *bdev_io, uint32_t *cdw0, int *sct, int *sc)
    7970             : {
    7971           0 :         assert(sct != NULL);
    7972           0 :         assert(sc != NULL);
    7973           0 :         assert(cdw0 != NULL);
    7974             : 
    7975           0 :         if (spdk_unlikely(bdev_io->type == SPDK_BDEV_IO_TYPE_ABORT)) {
    7976           0 :                 *sct = SPDK_NVME_SCT_GENERIC;
    7977           0 :                 *sc = SPDK_NVME_SC_SUCCESS;
    7978           0 :                 if (bdev_io->internal.status == SPDK_BDEV_IO_STATUS_SUCCESS) {
    7979           0 :                         *cdw0 = 0;
    7980             :                 } else {
    7981           0 :                         *cdw0 = 1U;
    7982             :                 }
    7983           0 :                 return;
    7984             :         }
    7985             : 
    7986           0 :         if (spdk_likely(bdev_io->internal.status == SPDK_BDEV_IO_STATUS_SUCCESS)) {
    7987           0 :                 *sct = SPDK_NVME_SCT_GENERIC;
    7988           0 :                 *sc = SPDK_NVME_SC_SUCCESS;
    7989           0 :         } else if (bdev_io->internal.status == SPDK_BDEV_IO_STATUS_NVME_ERROR) {
    7990           0 :                 *sct = bdev_io->internal.error.nvme.sct;
    7991           0 :                 *sc = bdev_io->internal.error.nvme.sc;
    7992           0 :         } else if (bdev_io->internal.status == SPDK_BDEV_IO_STATUS_ABORTED) {
    7993           0 :                 *sct = SPDK_NVME_SCT_GENERIC;
    7994           0 :                 *sc = SPDK_NVME_SC_ABORTED_BY_REQUEST;
    7995             :         } else {
    7996           0 :                 *sct = SPDK_NVME_SCT_GENERIC;
    7997           0 :                 *sc = SPDK_NVME_SC_INTERNAL_DEVICE_ERROR;
    7998             :         }
    7999             : 
    8000           0 :         *cdw0 = bdev_io->internal.error.nvme.cdw0;
    8001             : }
    8002             : 
    8003             : void
    8004           0 : spdk_bdev_io_get_nvme_fused_status(const struct spdk_bdev_io *bdev_io, uint32_t *cdw0,
    8005             :                                    int *first_sct, int *first_sc, int *second_sct, int *second_sc)
    8006             : {
    8007           0 :         assert(first_sct != NULL);
    8008           0 :         assert(first_sc != NULL);
    8009           0 :         assert(second_sct != NULL);
    8010           0 :         assert(second_sc != NULL);
    8011           0 :         assert(cdw0 != NULL);
    8012             : 
    8013           0 :         if (bdev_io->internal.status == SPDK_BDEV_IO_STATUS_NVME_ERROR) {
    8014           0 :                 if (bdev_io->internal.error.nvme.sct == SPDK_NVME_SCT_MEDIA_ERROR &&
    8015           0 :                     bdev_io->internal.error.nvme.sc == SPDK_NVME_SC_COMPARE_FAILURE) {
    8016           0 :                         *first_sct = bdev_io->internal.error.nvme.sct;
    8017           0 :                         *first_sc = bdev_io->internal.error.nvme.sc;
    8018           0 :                         *second_sct = SPDK_NVME_SCT_GENERIC;
    8019           0 :                         *second_sc = SPDK_NVME_SC_ABORTED_FAILED_FUSED;
    8020             :                 } else {
    8021           0 :                         *first_sct = SPDK_NVME_SCT_GENERIC;
    8022           0 :                         *first_sc = SPDK_NVME_SC_SUCCESS;
    8023           0 :                         *second_sct = bdev_io->internal.error.nvme.sct;
    8024           0 :                         *second_sc = bdev_io->internal.error.nvme.sc;
    8025             :                 }
    8026           0 :         } else if (bdev_io->internal.status == SPDK_BDEV_IO_STATUS_ABORTED) {
    8027           0 :                 *first_sct = SPDK_NVME_SCT_GENERIC;
    8028           0 :                 *first_sc = SPDK_NVME_SC_ABORTED_BY_REQUEST;
    8029           0 :                 *second_sct = SPDK_NVME_SCT_GENERIC;
    8030           0 :                 *second_sc = SPDK_NVME_SC_ABORTED_BY_REQUEST;
    8031           0 :         } else if (bdev_io->internal.status == SPDK_BDEV_IO_STATUS_SUCCESS) {
    8032           0 :                 *first_sct = SPDK_NVME_SCT_GENERIC;
    8033           0 :                 *first_sc = SPDK_NVME_SC_SUCCESS;
    8034           0 :                 *second_sct = SPDK_NVME_SCT_GENERIC;
    8035           0 :                 *second_sc = SPDK_NVME_SC_SUCCESS;
    8036           0 :         } else if (bdev_io->internal.status == SPDK_BDEV_IO_STATUS_FIRST_FUSED_FAILED) {
    8037           0 :                 *first_sct = SPDK_NVME_SCT_GENERIC;
    8038           0 :                 *first_sc = SPDK_NVME_SC_INTERNAL_DEVICE_ERROR;
    8039           0 :                 *second_sct = SPDK_NVME_SCT_GENERIC;
    8040           0 :                 *second_sc = SPDK_NVME_SC_ABORTED_FAILED_FUSED;
    8041           0 :         } else if (bdev_io->internal.status == SPDK_BDEV_IO_STATUS_MISCOMPARE) {
    8042           0 :                 *first_sct = SPDK_NVME_SCT_MEDIA_ERROR;
    8043           0 :                 *first_sc = SPDK_NVME_SC_COMPARE_FAILURE;
    8044           0 :                 *second_sct = SPDK_NVME_SCT_GENERIC;
    8045           0 :                 *second_sc = SPDK_NVME_SC_ABORTED_FAILED_FUSED;
    8046             :         } else {
    8047           0 :                 *first_sct = SPDK_NVME_SCT_GENERIC;
    8048           0 :                 *first_sc = SPDK_NVME_SC_INTERNAL_DEVICE_ERROR;
    8049           0 :                 *second_sct = SPDK_NVME_SCT_GENERIC;
    8050           0 :                 *second_sc = SPDK_NVME_SC_INTERNAL_DEVICE_ERROR;
    8051             :         }
    8052             : 
    8053           0 :         *cdw0 = bdev_io->internal.error.nvme.cdw0;
    8054           0 : }
    8055             : 
    8056             : void
    8057           0 : spdk_bdev_io_complete_base_io_status(struct spdk_bdev_io *bdev_io,
    8058             :                                      const struct spdk_bdev_io *base_io)
    8059             : {
    8060           0 :         switch (base_io->internal.status) {
    8061           0 :         case SPDK_BDEV_IO_STATUS_NVME_ERROR:
    8062           0 :                 spdk_bdev_io_complete_nvme_status(bdev_io,
    8063           0 :                                                   base_io->internal.error.nvme.cdw0,
    8064           0 :                                                   base_io->internal.error.nvme.sct,
    8065           0 :                                                   base_io->internal.error.nvme.sc);
    8066           0 :                 break;
    8067           0 :         case SPDK_BDEV_IO_STATUS_SCSI_ERROR:
    8068           0 :                 spdk_bdev_io_complete_scsi_status(bdev_io,
    8069           0 :                                                   base_io->internal.error.scsi.sc,
    8070           0 :                                                   base_io->internal.error.scsi.sk,
    8071           0 :                                                   base_io->internal.error.scsi.asc,
    8072           0 :                                                   base_io->internal.error.scsi.ascq);
    8073           0 :                 break;
    8074           0 :         case SPDK_BDEV_IO_STATUS_AIO_ERROR:
    8075           0 :                 spdk_bdev_io_complete_aio_status(bdev_io, base_io->internal.error.aio_result);
    8076           0 :                 break;
    8077           0 :         default:
    8078           0 :                 spdk_bdev_io_complete(bdev_io, base_io->internal.status);
    8079           0 :                 break;
    8080             :         }
    8081           0 : }
    8082             : 
    8083             : struct spdk_thread *
    8084         664 : spdk_bdev_io_get_thread(struct spdk_bdev_io *bdev_io)
    8085             : {
    8086         664 :         return spdk_io_channel_get_thread(bdev_io->internal.ch->channel);
    8087             : }
    8088             : 
    8089             : struct spdk_io_channel *
    8090          70 : spdk_bdev_io_get_io_channel(struct spdk_bdev_io *bdev_io)
    8091             : {
    8092          70 :         return bdev_io->internal.ch->channel;
    8093             : }
    8094             : 
    8095             : static int
    8096         132 : bdev_register(struct spdk_bdev *bdev)
    8097             : {
    8098             :         char *bdev_name;
    8099         132 :         char uuid[SPDK_UUID_STRING_LEN];
    8100         132 :         struct spdk_iobuf_opts iobuf_opts;
    8101             :         int ret;
    8102             : 
    8103         132 :         assert(bdev->module != NULL);
    8104             : 
    8105         132 :         if (!bdev->name) {
    8106           0 :                 SPDK_ERRLOG("Bdev name is NULL\n");
    8107           0 :                 return -EINVAL;
    8108             :         }
    8109             : 
    8110         132 :         if (!strlen(bdev->name)) {
    8111           0 :                 SPDK_ERRLOG("Bdev name must not be an empty string\n");
    8112           0 :                 return -EINVAL;
    8113             :         }
    8114             : 
    8115             :         /* Users often register their own I/O devices using the bdev name. In
    8116             :          * order to avoid conflicts, prepend bdev_. */
    8117         132 :         bdev_name = spdk_sprintf_alloc("bdev_%s", bdev->name);
    8118         132 :         if (!bdev_name) {
    8119           0 :                 SPDK_ERRLOG("Unable to allocate memory for internal bdev name.\n");
    8120           0 :                 return -ENOMEM;
    8121             :         }
    8122             : 
    8123         132 :         bdev->internal.stat = bdev_alloc_io_stat(true);
    8124         132 :         if (!bdev->internal.stat) {
    8125           0 :                 SPDK_ERRLOG("Unable to allocate I/O statistics structure.\n");
    8126           0 :                 free(bdev_name);
    8127           0 :                 return -ENOMEM;
    8128             :         }
    8129             : 
    8130         132 :         bdev->internal.status = SPDK_BDEV_STATUS_READY;
    8131         132 :         bdev->internal.measured_queue_depth = UINT64_MAX;
    8132         132 :         bdev->internal.claim_type = SPDK_BDEV_CLAIM_NONE;
    8133         132 :         memset(&bdev->internal.claim, 0, sizeof(bdev->internal.claim));
    8134         132 :         bdev->internal.qd_poller = NULL;
    8135         132 :         bdev->internal.qos = NULL;
    8136             : 
    8137         132 :         TAILQ_INIT(&bdev->internal.open_descs);
    8138         132 :         TAILQ_INIT(&bdev->internal.locked_ranges);
    8139         132 :         TAILQ_INIT(&bdev->internal.pending_locked_ranges);
    8140         132 :         TAILQ_INIT(&bdev->internal.queued_resets);
    8141         132 :         TAILQ_INIT(&bdev->aliases);
    8142             : 
    8143             :         /* UUID may be specified by the user or defined by bdev itself.
    8144             :          * Otherwise it will be generated here, so this field will never be empty. */
    8145         132 :         if (spdk_uuid_is_null(&bdev->uuid)) {
    8146          43 :                 spdk_uuid_generate(&bdev->uuid);
    8147             :         }
    8148             : 
    8149             :         /* Add the UUID alias only if it's different than the name */
    8150         132 :         spdk_uuid_fmt_lower(uuid, sizeof(uuid), &bdev->uuid);
    8151         132 :         if (strcmp(bdev->name, uuid) != 0) {
    8152         131 :                 ret = spdk_bdev_alias_add(bdev, uuid);
    8153         131 :                 if (ret != 0) {
    8154           2 :                         SPDK_ERRLOG("Unable to add uuid:%s alias for bdev %s\n", uuid, bdev->name);
    8155           2 :                         bdev_free_io_stat(bdev->internal.stat);
    8156           2 :                         free(bdev_name);
    8157           2 :                         return ret;
    8158             :                 }
    8159             :         }
    8160             : 
    8161         130 :         spdk_iobuf_get_opts(&iobuf_opts, sizeof(iobuf_opts));
    8162         130 :         if (spdk_bdev_get_buf_align(bdev) > 1) {
    8163           0 :                 bdev->max_rw_size = spdk_min(bdev->max_rw_size ? bdev->max_rw_size : UINT32_MAX,
    8164             :                                              iobuf_opts.large_bufsize / bdev->blocklen);
    8165             :         }
    8166             : 
    8167             :         /* If the user didn't specify a write unit size, set it to one. */
    8168         130 :         if (bdev->write_unit_size == 0) {
    8169         126 :                 bdev->write_unit_size = 1;
    8170             :         }
    8171             : 
    8172             :         /* Set ACWU value to the write unit size if bdev module did not set it (does not support it natively) */
    8173         130 :         if (bdev->acwu == 0) {
    8174         126 :                 bdev->acwu = bdev->write_unit_size;
    8175             :         }
    8176             : 
    8177         130 :         if (bdev->phys_blocklen == 0) {
    8178         126 :                 bdev->phys_blocklen = spdk_bdev_get_data_block_size(bdev);
    8179             :         }
    8180             : 
    8181         130 :         if (!bdev_io_type_supported(bdev, SPDK_BDEV_IO_TYPE_COPY)) {
    8182           0 :                 bdev->max_copy = bdev_get_max_write(bdev, iobuf_opts.large_bufsize);
    8183             :         }
    8184             : 
    8185         130 :         if (!bdev_io_type_supported(bdev, SPDK_BDEV_IO_TYPE_WRITE_ZEROES)) {
    8186           0 :                 bdev->max_write_zeroes = bdev_get_max_write(bdev, ZERO_BUFFER_SIZE);
    8187             :         }
    8188             : 
    8189         130 :         bdev->internal.reset_in_progress = NULL;
    8190         130 :         bdev->internal.qd_poll_in_progress = false;
    8191         130 :         bdev->internal.period = 0;
    8192         130 :         bdev->internal.new_period = 0;
    8193         130 :         bdev->internal.trace_id = spdk_trace_register_owner(OWNER_TYPE_BDEV, bdev_name);
    8194             : 
    8195             :         /*
    8196             :          * Initialize spinlock before registering IO device because spinlock is used in
    8197             :          * bdev_channel_create
    8198             :          */
    8199         130 :         spdk_spin_init(&bdev->internal.spinlock);
    8200             : 
    8201         130 :         spdk_io_device_register(__bdev_to_io_dev(bdev),
    8202             :                                 bdev_channel_create, bdev_channel_destroy,
    8203             :                                 sizeof(struct spdk_bdev_channel),
    8204             :                                 bdev_name);
    8205             : 
    8206             :         /*
    8207             :          * Register bdev name only after the bdev object is ready.
    8208             :          * After bdev_name_add returns, it is possible for other threads to start using the bdev,
    8209             :          * create IO channels...
    8210             :          */
    8211         130 :         ret = bdev_name_add(&bdev->internal.bdev_name, bdev, bdev->name);
    8212         130 :         if (ret != 0) {
    8213           0 :                 spdk_io_device_unregister(__bdev_to_io_dev(bdev), NULL);
    8214           0 :                 bdev_free_io_stat(bdev->internal.stat);
    8215           0 :                 spdk_spin_destroy(&bdev->internal.spinlock);
    8216           0 :                 free(bdev_name);
    8217           0 :                 return ret;
    8218             :         }
    8219             : 
    8220         130 :         free(bdev_name);
    8221             : 
    8222         130 :         SPDK_DEBUGLOG(bdev, "Inserting bdev %s into list\n", bdev->name);
    8223         130 :         TAILQ_INSERT_TAIL(&g_bdev_mgr.bdevs, bdev, internal.link);
    8224             : 
    8225         130 :         return 0;
    8226             : }
    8227             : 
    8228             : static void
    8229         131 : bdev_destroy_cb(void *io_device)
    8230             : {
    8231             :         int                     rc;
    8232             :         struct spdk_bdev        *bdev;
    8233             :         spdk_bdev_unregister_cb cb_fn;
    8234             :         void                    *cb_arg;
    8235             : 
    8236         131 :         bdev = __bdev_from_io_dev(io_device);
    8237             : 
    8238         131 :         if (bdev->internal.unregister_td != spdk_get_thread()) {
    8239           1 :                 spdk_thread_send_msg(bdev->internal.unregister_td, bdev_destroy_cb, io_device);
    8240           1 :                 return;
    8241             :         }
    8242             : 
    8243         130 :         cb_fn = bdev->internal.unregister_cb;
    8244         130 :         cb_arg = bdev->internal.unregister_ctx;
    8245             : 
    8246         130 :         spdk_spin_destroy(&bdev->internal.spinlock);
    8247         130 :         free(bdev->internal.qos);
    8248         130 :         bdev_free_io_stat(bdev->internal.stat);
    8249         130 :         spdk_trace_unregister_owner(bdev->internal.trace_id);
    8250             : 
    8251         130 :         rc = bdev->fn_table->destruct(bdev->ctxt);
    8252         130 :         if (rc < 0) {
    8253           0 :                 SPDK_ERRLOG("destruct failed\n");
    8254             :         }
    8255         130 :         if (rc <= 0 && cb_fn != NULL) {
    8256          10 :                 cb_fn(cb_arg, rc);
    8257             :         }
    8258             : }
    8259             : 
    8260             : void
    8261           2 : spdk_bdev_destruct_done(struct spdk_bdev *bdev, int bdeverrno)
    8262             : {
    8263           2 :         if (bdev->internal.unregister_cb != NULL) {
    8264           0 :                 bdev->internal.unregister_cb(bdev->internal.unregister_ctx, bdeverrno);
    8265             :         }
    8266           2 : }
    8267             : 
    8268             : static void
    8269          19 : _remove_notify(void *arg)
    8270             : {
    8271          19 :         struct spdk_bdev_desc *desc = arg;
    8272             : 
    8273          19 :         _event_notify(desc, SPDK_BDEV_EVENT_REMOVE);
    8274          19 : }
    8275             : 
    8276             : /* returns: 0 - bdev removed and ready to be destructed.
    8277             :  *          -EBUSY - bdev can't be destructed yet.  */
    8278             : static int
    8279         145 : bdev_unregister_unsafe(struct spdk_bdev *bdev)
    8280             : {
    8281             :         struct spdk_bdev_desc   *desc, *tmp;
    8282             :         struct spdk_bdev_alias  *alias;
    8283         145 :         int                     rc = 0;
    8284         145 :         char                    uuid[SPDK_UUID_STRING_LEN];
    8285             : 
    8286         145 :         assert(spdk_spin_held(&g_bdev_mgr.spinlock));
    8287         145 :         assert(spdk_spin_held(&bdev->internal.spinlock));
    8288             : 
    8289             :         /* Notify each descriptor about hotremoval */
    8290         164 :         TAILQ_FOREACH_SAFE(desc, &bdev->internal.open_descs, link, tmp) {
    8291          19 :                 rc = -EBUSY;
    8292             :                 /*
    8293             :                  * Defer invocation of the event_cb to a separate message that will
    8294             :                  *  run later on its thread.  This ensures this context unwinds and
    8295             :                  *  we don't recursively unregister this bdev again if the event_cb
    8296             :                  *  immediately closes its descriptor.
    8297             :                  */
    8298          19 :                 event_notify(desc, _remove_notify);
    8299             :         }
    8300             : 
    8301             :         /* If there are no descriptors, proceed removing the bdev */
    8302         145 :         if (rc == 0) {
    8303         130 :                 bdev_examine_allowlist_remove(bdev->name);
    8304         258 :                 TAILQ_FOREACH(alias, &bdev->aliases, tailq) {
    8305         128 :                         bdev_examine_allowlist_remove(alias->alias.name);
    8306             :                 }
    8307         130 :                 TAILQ_REMOVE(&g_bdev_mgr.bdevs, bdev, internal.link);
    8308         130 :                 SPDK_DEBUGLOG(bdev, "Removing bdev %s from list done\n", bdev->name);
    8309             : 
    8310             :                 /* Delete the name and the UUID alias */
    8311         130 :                 spdk_uuid_fmt_lower(uuid, sizeof(uuid), &bdev->uuid);
    8312         130 :                 bdev_name_del_unsafe(&bdev->internal.bdev_name);
    8313         130 :                 bdev_alias_del(bdev, uuid, bdev_name_del_unsafe);
    8314             : 
    8315         130 :                 spdk_notify_send("bdev_unregister", spdk_bdev_get_name(bdev));
    8316             : 
    8317         130 :                 if (bdev->internal.reset_in_progress != NULL) {
    8318             :                         /* If reset is in progress, let the completion callback for reset
    8319             :                          * unregister the bdev.
    8320             :                          */
    8321           1 :                         rc = -EBUSY;
    8322             :                 }
    8323             :         }
    8324             : 
    8325         145 :         return rc;
    8326             : }
    8327             : 
    8328             : static void
    8329           4 : bdev_unregister_abort_channel(struct spdk_bdev_channel_iter *i, struct spdk_bdev *bdev,
    8330             :                               struct spdk_io_channel *io_ch, void *_ctx)
    8331             : {
    8332           4 :         struct spdk_bdev_channel *bdev_ch = __io_ch_to_bdev_ch(io_ch);
    8333             : 
    8334           4 :         bdev_channel_abort_queued_ios(bdev_ch);
    8335           4 :         spdk_bdev_for_each_channel_continue(i, 0);
    8336           4 : }
    8337             : 
    8338             : static void
    8339         130 : bdev_unregister(struct spdk_bdev *bdev, void *_ctx, int status)
    8340             : {
    8341             :         int rc;
    8342             : 
    8343         130 :         spdk_spin_lock(&g_bdev_mgr.spinlock);
    8344         130 :         spdk_spin_lock(&bdev->internal.spinlock);
    8345             :         /*
    8346             :          * Set the status to REMOVING after completing to abort channels. Otherwise,
    8347             :          * the last spdk_bdev_close() may call spdk_io_device_unregister() while
    8348             :          * spdk_bdev_for_each_channel() is executed and spdk_io_device_unregister()
    8349             :          * may fail.
    8350             :          */
    8351         130 :         bdev->internal.status = SPDK_BDEV_STATUS_REMOVING;
    8352         130 :         rc = bdev_unregister_unsafe(bdev);
    8353         130 :         spdk_spin_unlock(&bdev->internal.spinlock);
    8354         130 :         spdk_spin_unlock(&g_bdev_mgr.spinlock);
    8355             : 
    8356         130 :         if (rc == 0) {
    8357         114 :                 spdk_io_device_unregister(__bdev_to_io_dev(bdev), bdev_destroy_cb);
    8358             :         }
    8359         130 : }
    8360             : 
    8361             : void
    8362         137 : spdk_bdev_unregister(struct spdk_bdev *bdev, spdk_bdev_unregister_cb cb_fn, void *cb_arg)
    8363             : {
    8364             :         struct spdk_thread      *thread;
    8365             : 
    8366         137 :         SPDK_DEBUGLOG(bdev, "Removing bdev %s from list\n", bdev->name);
    8367             : 
    8368         137 :         thread = spdk_get_thread();
    8369         137 :         if (!thread) {
    8370             :                 /* The user called this from a non-SPDK thread. */
    8371           0 :                 if (cb_fn != NULL) {
    8372           0 :                         cb_fn(cb_arg, -ENOTSUP);
    8373             :                 }
    8374           0 :                 return;
    8375             :         }
    8376             : 
    8377         137 :         spdk_spin_lock(&g_bdev_mgr.spinlock);
    8378         137 :         if (bdev->internal.status == SPDK_BDEV_STATUS_UNREGISTERING ||
    8379         137 :             bdev->internal.status == SPDK_BDEV_STATUS_REMOVING) {
    8380           7 :                 spdk_spin_unlock(&g_bdev_mgr.spinlock);
    8381           7 :                 if (cb_fn) {
    8382           0 :                         cb_fn(cb_arg, -EBUSY);
    8383             :                 }
    8384           7 :                 return;
    8385             :         }
    8386             : 
    8387         130 :         spdk_spin_lock(&bdev->internal.spinlock);
    8388         130 :         bdev->internal.status = SPDK_BDEV_STATUS_UNREGISTERING;
    8389         130 :         bdev->internal.unregister_cb = cb_fn;
    8390         130 :         bdev->internal.unregister_ctx = cb_arg;
    8391         130 :         bdev->internal.unregister_td = thread;
    8392         130 :         spdk_spin_unlock(&bdev->internal.spinlock);
    8393         130 :         spdk_spin_unlock(&g_bdev_mgr.spinlock);
    8394             : 
    8395         130 :         spdk_bdev_set_qd_sampling_period(bdev, 0);
    8396             : 
    8397         130 :         spdk_bdev_for_each_channel(bdev, bdev_unregister_abort_channel, bdev,
    8398             :                                    bdev_unregister);
    8399             : }
    8400             : 
    8401             : int
    8402           4 : spdk_bdev_unregister_by_name(const char *bdev_name, struct spdk_bdev_module *module,
    8403             :                              spdk_bdev_unregister_cb cb_fn, void *cb_arg)
    8404             : {
    8405           4 :         struct spdk_bdev_desc *desc;
    8406             :         struct spdk_bdev *bdev;
    8407             :         int rc;
    8408             : 
    8409           4 :         rc = spdk_bdev_open_ext(bdev_name, false, _tmp_bdev_event_cb, NULL, &desc);
    8410           4 :         if (rc != 0) {
    8411           1 :                 SPDK_ERRLOG("Failed to open bdev with name: %s\n", bdev_name);
    8412           1 :                 return rc;
    8413             :         }
    8414             : 
    8415           3 :         bdev = spdk_bdev_desc_get_bdev(desc);
    8416             : 
    8417           3 :         if (bdev->module != module) {
    8418           1 :                 spdk_bdev_close(desc);
    8419           1 :                 SPDK_ERRLOG("Bdev %s was not registered by the specified module.\n",
    8420             :                             bdev_name);
    8421           1 :                 return -ENODEV;
    8422             :         }
    8423             : 
    8424           2 :         spdk_bdev_unregister(bdev, cb_fn, cb_arg);
    8425             : 
    8426           2 :         spdk_bdev_close(desc);
    8427             : 
    8428           2 :         return 0;
    8429             : }
    8430             : 
    8431             : static int
    8432         269 : bdev_start_qos(struct spdk_bdev *bdev)
    8433             : {
    8434             :         struct set_qos_limit_ctx *ctx;
    8435             : 
    8436             :         /* Enable QoS */
    8437         269 :         if (bdev->internal.qos && bdev->internal.qos->thread == NULL) {
    8438           2 :                 ctx = calloc(1, sizeof(*ctx));
    8439           2 :                 if (ctx == NULL) {
    8440           0 :                         SPDK_ERRLOG("Failed to allocate memory for QoS context\n");
    8441           0 :                         return -ENOMEM;
    8442             :                 }
    8443           2 :                 ctx->bdev = bdev;
    8444           2 :                 spdk_bdev_for_each_channel(bdev, bdev_enable_qos_msg, ctx, bdev_enable_qos_done);
    8445             :         }
    8446             : 
    8447         269 :         return 0;
    8448             : }
    8449             : 
    8450             : static void
    8451          25 : log_already_claimed(enum spdk_log_level level, const int line, const char *func, const char *detail,
    8452             :                     struct spdk_bdev *bdev)
    8453             : {
    8454             :         enum spdk_bdev_claim_type type;
    8455             :         const char *typename, *modname;
    8456             :         extern struct spdk_log_flag SPDK_LOG_bdev;
    8457             : 
    8458          25 :         assert(spdk_spin_held(&bdev->internal.spinlock));
    8459             : 
    8460          25 :         if (level >= SPDK_LOG_INFO && !SPDK_LOG_bdev.enabled) {
    8461           0 :                 return;
    8462             :         }
    8463             : 
    8464          25 :         type = bdev->internal.claim_type;
    8465          25 :         typename = spdk_bdev_claim_get_name(type);
    8466             : 
    8467          25 :         if (type == SPDK_BDEV_CLAIM_EXCL_WRITE) {
    8468           6 :                 modname = bdev->internal.claim.v1.module->name;
    8469           6 :                 spdk_log(level, __FILE__, line, func, "bdev %s %s: type %s by module %s\n",
    8470             :                          bdev->name, detail, typename, modname);
    8471           6 :                 return;
    8472             :         }
    8473             : 
    8474          19 :         if (claim_type_is_v2(type)) {
    8475             :                 struct spdk_bdev_module_claim *claim;
    8476             : 
    8477          38 :                 TAILQ_FOREACH(claim, &bdev->internal.claim.v2.claims, link) {
    8478          19 :                         modname = claim->module->name;
    8479          19 :                         spdk_log(level, __FILE__, line, func, "bdev %s %s: type %s by module %s\n",
    8480             :                                  bdev->name, detail, typename, modname);
    8481             :                 }
    8482          19 :                 return;
    8483             :         }
    8484             : 
    8485           0 :         assert(false);
    8486             : }
    8487             : 
    8488             : static int
    8489         278 : bdev_open(struct spdk_bdev *bdev, bool write, struct spdk_bdev_desc *desc)
    8490             : {
    8491             :         struct spdk_thread *thread;
    8492         278 :         int rc = 0;
    8493             : 
    8494         278 :         thread = spdk_get_thread();
    8495         278 :         if (!thread) {
    8496           0 :                 SPDK_ERRLOG("Cannot open bdev from non-SPDK thread.\n");
    8497           0 :                 return -ENOTSUP;
    8498             :         }
    8499             : 
    8500         278 :         SPDK_DEBUGLOG(bdev, "Opening descriptor %p for bdev %s on thread %p\n", desc, bdev->name,
    8501             :                       spdk_get_thread());
    8502             : 
    8503         278 :         desc->bdev = bdev;
    8504         278 :         desc->thread = thread;
    8505         278 :         desc->write = write;
    8506             : 
    8507         278 :         spdk_spin_lock(&bdev->internal.spinlock);
    8508         278 :         if (bdev->internal.status == SPDK_BDEV_STATUS_UNREGISTERING ||
    8509         278 :             bdev->internal.status == SPDK_BDEV_STATUS_REMOVING) {
    8510           3 :                 spdk_spin_unlock(&bdev->internal.spinlock);
    8511           3 :                 return -ENODEV;
    8512             :         }
    8513             : 
    8514         275 :         if (write && bdev->internal.claim_type != SPDK_BDEV_CLAIM_NONE) {
    8515           6 :                 LOG_ALREADY_CLAIMED_ERROR("already claimed", bdev);
    8516           6 :                 spdk_spin_unlock(&bdev->internal.spinlock);
    8517           6 :                 return -EPERM;
    8518             :         }
    8519             : 
    8520         269 :         rc = bdev_start_qos(bdev);
    8521         269 :         if (rc != 0) {
    8522           0 :                 SPDK_ERRLOG("Failed to start QoS on bdev %s\n", bdev->name);
    8523           0 :                 spdk_spin_unlock(&bdev->internal.spinlock);
    8524           0 :                 return rc;
    8525             :         }
    8526             : 
    8527         269 :         TAILQ_INSERT_TAIL(&bdev->internal.open_descs, desc, link);
    8528             : 
    8529         269 :         spdk_spin_unlock(&bdev->internal.spinlock);
    8530             : 
    8531         269 :         return 0;
    8532             : }
    8533             : 
    8534             : static void
    8535         279 : bdev_open_opts_get_defaults(struct spdk_bdev_open_opts *opts, size_t opts_size)
    8536             : {
    8537         279 :         if (!opts) {
    8538           0 :                 SPDK_ERRLOG("opts should not be NULL.\n");
    8539           0 :                 return;
    8540             :         }
    8541             : 
    8542         279 :         if (!opts_size) {
    8543           0 :                 SPDK_ERRLOG("opts_size should not be zero.\n");
    8544           0 :                 return;
    8545             :         }
    8546             : 
    8547         279 :         memset(opts, 0, opts_size);
    8548         279 :         opts->size = opts_size;
    8549             : 
    8550             : #define FIELD_OK(field) \
    8551             :         offsetof(struct spdk_bdev_open_opts, field) + sizeof(opts->field) <= opts_size
    8552             : 
    8553             : #define SET_FIELD(field, value) \
    8554             :         if (FIELD_OK(field)) { \
    8555             :                 opts->field = value; \
    8556             :         } \
    8557             : 
    8558         279 :         SET_FIELD(hide_metadata, false);
    8559             : 
    8560             : #undef FIELD_OK
    8561             : #undef SET_FIELD
    8562             : }
    8563             : 
    8564             : static void
    8565           2 : bdev_open_opts_copy(struct spdk_bdev_open_opts *opts,
    8566             :                     const struct spdk_bdev_open_opts *opts_src, size_t opts_size)
    8567             : {
    8568           2 :         assert(opts);
    8569           2 :         assert(opts_src);
    8570             : 
    8571             : #define SET_FIELD(field) \
    8572             :         if (offsetof(struct spdk_bdev_open_opts, field) + sizeof(opts->field) <= opts_size) { \
    8573             :                 opts->field = opts_src->field; \
    8574             :         } \
    8575             : 
    8576           2 :         SET_FIELD(hide_metadata);
    8577             : 
    8578           2 :         opts->size = opts_src->size;
    8579             : 
    8580             :         /* We should not remove this statement, but need to update the assert statement
    8581             :          * if we add a new field, and also add a corresponding SET_FIELD statement.
    8582             :          */
    8583             :         SPDK_STATIC_ASSERT(sizeof(struct spdk_bdev_open_opts) == 16, "Incorrect size");
    8584             : 
    8585             : #undef SET_FIELD
    8586           2 : }
    8587             : 
    8588             : void
    8589           1 : spdk_bdev_open_opts_init(struct spdk_bdev_open_opts *opts, size_t opts_size)
    8590             : {
    8591           1 :         struct spdk_bdev_open_opts opts_local;
    8592             : 
    8593           1 :         bdev_open_opts_get_defaults(&opts_local, sizeof(opts_local));
    8594           1 :         bdev_open_opts_copy(opts, &opts_local, opts_size);
    8595           1 : }
    8596             : 
    8597             : static int
    8598         278 : bdev_desc_alloc(struct spdk_bdev *bdev, spdk_bdev_event_cb_t event_cb, void *event_ctx,
    8599             :                 struct spdk_bdev_open_opts *user_opts, struct spdk_bdev_desc **_desc)
    8600             : {
    8601             :         struct spdk_bdev_desc *desc;
    8602         278 :         struct spdk_bdev_open_opts opts;
    8603             :         unsigned int i;
    8604             : 
    8605         278 :         bdev_open_opts_get_defaults(&opts, sizeof(opts));
    8606         278 :         if (user_opts != NULL) {
    8607           1 :                 bdev_open_opts_copy(&opts, user_opts, user_opts->size);
    8608             :         }
    8609             : 
    8610         278 :         desc = calloc(1, sizeof(*desc));
    8611         278 :         if (desc == NULL) {
    8612           0 :                 SPDK_ERRLOG("Failed to allocate memory for bdev descriptor\n");
    8613           0 :                 return -ENOMEM;
    8614             :         }
    8615             : 
    8616         278 :         desc->opts = opts;
    8617             : 
    8618         278 :         TAILQ_INIT(&desc->pending_media_events);
    8619         278 :         TAILQ_INIT(&desc->free_media_events);
    8620             : 
    8621         278 :         desc->memory_domains_supported = spdk_bdev_get_memory_domains(bdev, NULL, 0) > 0;
    8622         278 :         desc->callback.event_fn = event_cb;
    8623         278 :         desc->callback.ctx = event_ctx;
    8624         278 :         spdk_spin_init(&desc->spinlock);
    8625             : 
    8626         278 :         if (desc->opts.hide_metadata) {
    8627           1 :                 if (spdk_bdev_is_md_separate(bdev)) {
    8628           0 :                         SPDK_ERRLOG("hide_metadata option is not supported with separate metadata.\n");
    8629           0 :                         bdev_desc_free(desc);
    8630           0 :                         return -EINVAL;
    8631             :                 }
    8632             :         }
    8633             : 
    8634         278 :         if (bdev->media_events) {
    8635           0 :                 desc->media_events_buffer = calloc(MEDIA_EVENT_POOL_SIZE,
    8636             :                                                    sizeof(*desc->media_events_buffer));
    8637           0 :                 if (desc->media_events_buffer == NULL) {
    8638           0 :                         SPDK_ERRLOG("Failed to initialize media event pool\n");
    8639           0 :                         bdev_desc_free(desc);
    8640           0 :                         return -ENOMEM;
    8641             :                 }
    8642             : 
    8643           0 :                 for (i = 0; i < MEDIA_EVENT_POOL_SIZE; ++i) {
    8644           0 :                         TAILQ_INSERT_TAIL(&desc->free_media_events,
    8645             :                                           &desc->media_events_buffer[i], tailq);
    8646             :                 }
    8647             :         }
    8648             : 
    8649         278 :         if (bdev->fn_table->accel_sequence_supported != NULL) {
    8650           0 :                 for (i = 0; i < SPDK_BDEV_NUM_IO_TYPES; ++i) {
    8651           0 :                         desc->accel_sequence_supported[i] =
    8652           0 :                                 bdev->fn_table->accel_sequence_supported(bdev->ctxt,
    8653             :                                                 (enum spdk_bdev_io_type)i);
    8654             :                 }
    8655             :         }
    8656             : 
    8657         278 :         *_desc = desc;
    8658             : 
    8659         278 :         return 0;
    8660             : }
    8661             : 
    8662             : static int
    8663         136 : bdev_open_ext(const char *bdev_name, bool write, spdk_bdev_event_cb_t event_cb,
    8664             :               void *event_ctx, struct spdk_bdev_open_opts *opts,
    8665             :               struct spdk_bdev_desc **_desc)
    8666             : {
    8667         136 :         struct spdk_bdev_desc *desc;
    8668             :         struct spdk_bdev *bdev;
    8669             :         int rc;
    8670             : 
    8671         136 :         bdev = bdev_get_by_name(bdev_name);
    8672             : 
    8673         136 :         if (bdev == NULL) {
    8674           1 :                 SPDK_NOTICELOG("Currently unable to find bdev with name: %s\n", bdev_name);
    8675           1 :                 return -ENODEV;
    8676             :         }
    8677             : 
    8678         135 :         rc = bdev_desc_alloc(bdev, event_cb, event_ctx, opts, &desc);
    8679         135 :         if (rc != 0) {
    8680           0 :                 return rc;
    8681             :         }
    8682             : 
    8683         135 :         rc = bdev_open(bdev, write, desc);
    8684         135 :         if (rc != 0) {
    8685           7 :                 bdev_desc_free(desc);
    8686           7 :                 desc = NULL;
    8687             :         }
    8688             : 
    8689         135 :         *_desc = desc;
    8690             : 
    8691         135 :         return rc;
    8692             : }
    8693             : 
    8694             : int
    8695         138 : spdk_bdev_open_ext_v2(const char *bdev_name, bool write, spdk_bdev_event_cb_t event_cb,
    8696             :                       void *event_ctx, struct spdk_bdev_open_opts *opts,
    8697             :                       struct spdk_bdev_desc **_desc)
    8698             : {
    8699             :         int rc;
    8700             : 
    8701         138 :         if (event_cb == NULL) {
    8702           2 :                 SPDK_ERRLOG("Missing event callback function\n");
    8703           2 :                 return -EINVAL;
    8704             :         }
    8705             : 
    8706         136 :         spdk_spin_lock(&g_bdev_mgr.spinlock);
    8707         136 :         rc = bdev_open_ext(bdev_name, write, event_cb, event_ctx, opts, _desc);
    8708         136 :         spdk_spin_unlock(&g_bdev_mgr.spinlock);
    8709             : 
    8710         136 :         return rc;
    8711             : }
    8712             : 
    8713             : int
    8714         136 : spdk_bdev_open_ext(const char *bdev_name, bool write, spdk_bdev_event_cb_t event_cb,
    8715             :                    void *event_ctx, struct spdk_bdev_desc **_desc)
    8716             : {
    8717         136 :         return spdk_bdev_open_ext_v2(bdev_name, write, event_cb, event_ctx, NULL, _desc);
    8718             : }
    8719             : 
    8720             : struct spdk_bdev_open_async_ctx {
    8721             :         char                                    *bdev_name;
    8722             :         spdk_bdev_event_cb_t                    event_cb;
    8723             :         void                                    *event_ctx;
    8724             :         bool                                    write;
    8725             :         int                                     rc;
    8726             :         spdk_bdev_open_async_cb_t               cb_fn;
    8727             :         void                                    *cb_arg;
    8728             :         struct spdk_bdev_desc                   *desc;
    8729             :         struct spdk_bdev_open_async_opts        opts;
    8730             :         uint64_t                                start_ticks;
    8731             :         struct spdk_thread                      *orig_thread;
    8732             :         struct spdk_poller                      *poller;
    8733             :         TAILQ_ENTRY(spdk_bdev_open_async_ctx)   tailq;
    8734             : };
    8735             : 
    8736             : static void
    8737           0 : bdev_open_async_done(void *arg)
    8738             : {
    8739           0 :         struct spdk_bdev_open_async_ctx *ctx = arg;
    8740             : 
    8741           0 :         ctx->cb_fn(ctx->desc, ctx->rc, ctx->cb_arg);
    8742             : 
    8743           0 :         free(ctx->bdev_name);
    8744           0 :         free(ctx);
    8745           0 : }
    8746             : 
    8747             : static void
    8748           0 : bdev_open_async_cancel(void *arg)
    8749             : {
    8750           0 :         struct spdk_bdev_open_async_ctx *ctx = arg;
    8751             : 
    8752           0 :         assert(ctx->rc == -ESHUTDOWN);
    8753             : 
    8754           0 :         spdk_poller_unregister(&ctx->poller);
    8755             : 
    8756           0 :         bdev_open_async_done(ctx);
    8757           0 : }
    8758             : 
    8759             : /* This is called when the bdev library finishes at shutdown. */
    8760             : static void
    8761          68 : bdev_open_async_fini(void)
    8762             : {
    8763             :         struct spdk_bdev_open_async_ctx *ctx, *tmp_ctx;
    8764             : 
    8765          68 :         spdk_spin_lock(&g_bdev_mgr.spinlock);
    8766          68 :         TAILQ_FOREACH_SAFE(ctx, &g_bdev_mgr.async_bdev_opens, tailq, tmp_ctx) {
    8767           0 :                 TAILQ_REMOVE(&g_bdev_mgr.async_bdev_opens, ctx, tailq);
    8768             :                 /*
    8769             :                  * We have to move to ctx->orig_thread to unregister ctx->poller.
    8770             :                  * However, there is a chance that ctx->poller is executed before
    8771             :                  * message is executed, which could result in bdev_open_async_done()
    8772             :                  * being called twice. To avoid such race condition, set ctx->rc to
    8773             :                  * -ESHUTDOWN.
    8774             :                  */
    8775           0 :                 ctx->rc = -ESHUTDOWN;
    8776           0 :                 spdk_thread_send_msg(ctx->orig_thread, bdev_open_async_cancel, ctx);
    8777             :         }
    8778          68 :         spdk_spin_unlock(&g_bdev_mgr.spinlock);
    8779          68 : }
    8780             : 
    8781             : static int bdev_open_async(void *arg);
    8782             : 
    8783             : static void
    8784           0 : _bdev_open_async(struct spdk_bdev_open_async_ctx *ctx)
    8785             : {
    8786             :         uint64_t timeout_ticks;
    8787             : 
    8788           0 :         if (ctx->rc == -ESHUTDOWN) {
    8789             :                 /* This context is being canceled. Do nothing. */
    8790           0 :                 return;
    8791             :         }
    8792             : 
    8793           0 :         ctx->rc = bdev_open_ext(ctx->bdev_name, ctx->write, ctx->event_cb, ctx->event_ctx,
    8794             :                                 NULL, &ctx->desc);
    8795           0 :         if (ctx->rc == 0 || ctx->opts.timeout_ms == 0) {
    8796           0 :                 goto exit;
    8797             :         }
    8798             : 
    8799           0 :         timeout_ticks = ctx->start_ticks + ctx->opts.timeout_ms * spdk_get_ticks_hz() / 1000ull;
    8800           0 :         if (spdk_get_ticks() >= timeout_ticks) {
    8801           0 :                 SPDK_ERRLOG("Timed out while waiting for bdev '%s' to appear\n", ctx->bdev_name);
    8802           0 :                 ctx->rc = -ETIMEDOUT;
    8803           0 :                 goto exit;
    8804             :         }
    8805             : 
    8806           0 :         return;
    8807             : 
    8808           0 : exit:
    8809           0 :         spdk_poller_unregister(&ctx->poller);
    8810           0 :         TAILQ_REMOVE(&g_bdev_mgr.async_bdev_opens, ctx, tailq);
    8811             : 
    8812             :         /* Completion callback is processed after stack unwinding. */
    8813           0 :         spdk_thread_send_msg(ctx->orig_thread, bdev_open_async_done, ctx);
    8814             : }
    8815             : 
    8816             : static int
    8817           0 : bdev_open_async(void *arg)
    8818             : {
    8819           0 :         struct spdk_bdev_open_async_ctx *ctx = arg;
    8820             : 
    8821           0 :         spdk_spin_lock(&g_bdev_mgr.spinlock);
    8822             : 
    8823           0 :         _bdev_open_async(ctx);
    8824             : 
    8825           0 :         spdk_spin_unlock(&g_bdev_mgr.spinlock);
    8826             : 
    8827           0 :         return SPDK_POLLER_BUSY;
    8828             : }
    8829             : 
    8830             : static void
    8831           0 : bdev_open_async_opts_copy(struct spdk_bdev_open_async_opts *opts,
    8832             :                           struct spdk_bdev_open_async_opts *opts_src,
    8833             :                           size_t size)
    8834             : {
    8835           0 :         assert(opts);
    8836           0 :         assert(opts_src);
    8837             : 
    8838           0 :         opts->size = size;
    8839             : 
    8840             : #define SET_FIELD(field) \
    8841             :         if (offsetof(struct spdk_bdev_open_async_opts, field) + sizeof(opts->field) <= size) { \
    8842             :                 opts->field = opts_src->field; \
    8843             :         } \
    8844             : 
    8845           0 :         SET_FIELD(timeout_ms);
    8846             : 
    8847             :         /* Do not remove this statement, you should always update this statement when you adding a new field,
    8848             :          * and do not forget to add the SET_FIELD statement for your added field. */
    8849             :         SPDK_STATIC_ASSERT(sizeof(struct spdk_bdev_open_async_opts) == 16, "Incorrect size");
    8850             : 
    8851             : #undef SET_FIELD
    8852           0 : }
    8853             : 
    8854             : static void
    8855           0 : bdev_open_async_opts_get_default(struct spdk_bdev_open_async_opts *opts, size_t size)
    8856             : {
    8857           0 :         assert(opts);
    8858             : 
    8859           0 :         opts->size = size;
    8860             : 
    8861             : #define SET_FIELD(field, value) \
    8862             :         if (offsetof(struct spdk_bdev_open_async_opts, field) + sizeof(opts->field) <= size) { \
    8863             :                 opts->field = value; \
    8864             :         } \
    8865             : 
    8866           0 :         SET_FIELD(timeout_ms, 0);
    8867             : 
    8868             : #undef SET_FIELD
    8869           0 : }
    8870             : 
    8871             : int
    8872           0 : spdk_bdev_open_async(const char *bdev_name, bool write, spdk_bdev_event_cb_t event_cb,
    8873             :                      void *event_ctx, struct spdk_bdev_open_async_opts *opts,
    8874             :                      spdk_bdev_open_async_cb_t open_cb, void *open_cb_arg)
    8875             : {
    8876             :         struct spdk_bdev_open_async_ctx *ctx;
    8877             : 
    8878           0 :         if (event_cb == NULL) {
    8879           0 :                 SPDK_ERRLOG("Missing event callback function\n");
    8880           0 :                 return -EINVAL;
    8881             :         }
    8882             : 
    8883           0 :         if (open_cb == NULL) {
    8884           0 :                 SPDK_ERRLOG("Missing open callback function\n");
    8885           0 :                 return -EINVAL;
    8886             :         }
    8887             : 
    8888           0 :         if (opts != NULL && opts->size == 0) {
    8889           0 :                 SPDK_ERRLOG("size in the options structure should not be zero\n");
    8890           0 :                 return -EINVAL;
    8891             :         }
    8892             : 
    8893           0 :         ctx = calloc(1, sizeof(*ctx));
    8894           0 :         if (ctx == NULL) {
    8895           0 :                 SPDK_ERRLOG("Failed to allocate open context\n");
    8896           0 :                 return -ENOMEM;
    8897             :         }
    8898             : 
    8899           0 :         ctx->bdev_name = strdup(bdev_name);
    8900           0 :         if (ctx->bdev_name == NULL) {
    8901           0 :                 SPDK_ERRLOG("Failed to duplicate bdev_name\n");
    8902           0 :                 free(ctx);
    8903           0 :                 return -ENOMEM;
    8904             :         }
    8905             : 
    8906           0 :         ctx->poller = SPDK_POLLER_REGISTER(bdev_open_async, ctx, 100 * 1000);
    8907           0 :         if (ctx->poller == NULL) {
    8908           0 :                 SPDK_ERRLOG("Failed to register bdev_open_async poller\n");
    8909           0 :                 free(ctx->bdev_name);
    8910           0 :                 free(ctx);
    8911           0 :                 return -ENOMEM;
    8912             :         }
    8913             : 
    8914           0 :         ctx->cb_fn = open_cb;
    8915           0 :         ctx->cb_arg = open_cb_arg;
    8916           0 :         ctx->write = write;
    8917           0 :         ctx->event_cb = event_cb;
    8918           0 :         ctx->event_ctx = event_ctx;
    8919           0 :         ctx->orig_thread = spdk_get_thread();
    8920           0 :         ctx->start_ticks = spdk_get_ticks();
    8921             : 
    8922           0 :         bdev_open_async_opts_get_default(&ctx->opts, sizeof(ctx->opts));
    8923           0 :         if (opts != NULL) {
    8924           0 :                 bdev_open_async_opts_copy(&ctx->opts, opts, opts->size);
    8925             :         }
    8926             : 
    8927           0 :         spdk_spin_lock(&g_bdev_mgr.spinlock);
    8928             : 
    8929           0 :         TAILQ_INSERT_TAIL(&g_bdev_mgr.async_bdev_opens, ctx, tailq);
    8930           0 :         _bdev_open_async(ctx);
    8931             : 
    8932           0 :         spdk_spin_unlock(&g_bdev_mgr.spinlock);
    8933             : 
    8934           0 :         return 0;
    8935             : }
    8936             : 
    8937             : static void
    8938         269 : bdev_close(struct spdk_bdev *bdev, struct spdk_bdev_desc *desc)
    8939             : {
    8940             :         int rc;
    8941             : 
    8942         269 :         spdk_spin_lock(&bdev->internal.spinlock);
    8943         269 :         spdk_spin_lock(&desc->spinlock);
    8944             : 
    8945         269 :         TAILQ_REMOVE(&bdev->internal.open_descs, desc, link);
    8946             : 
    8947         269 :         desc->closed = true;
    8948             : 
    8949         269 :         if (desc->claim != NULL) {
    8950          20 :                 bdev_desc_release_claims(desc);
    8951             :         }
    8952             : 
    8953         269 :         if (0 == desc->refs) {
    8954         258 :                 spdk_spin_unlock(&desc->spinlock);
    8955         258 :                 bdev_desc_free(desc);
    8956             :         } else {
    8957          11 :                 spdk_spin_unlock(&desc->spinlock);
    8958             :         }
    8959             : 
    8960             :         /* If no more descriptors, kill QoS channel */
    8961         269 :         if (bdev->internal.qos && TAILQ_EMPTY(&bdev->internal.open_descs)) {
    8962           7 :                 SPDK_DEBUGLOG(bdev, "Closed last descriptor for bdev %s on thread %p. Stopping QoS.\n",
    8963             :                               bdev->name, spdk_get_thread());
    8964             : 
    8965           7 :                 if (bdev_qos_destroy(bdev)) {
    8966             :                         /* There isn't anything we can do to recover here. Just let the
    8967             :                          * old QoS poller keep running. The QoS handling won't change
    8968             :                          * cores when the user allocates a new channel, but it won't break. */
    8969           0 :                         SPDK_ERRLOG("Unable to shut down QoS poller. It will continue running on the current thread.\n");
    8970             :                 }
    8971             :         }
    8972             : 
    8973         269 :         if (bdev->internal.status == SPDK_BDEV_STATUS_REMOVING && TAILQ_EMPTY(&bdev->internal.open_descs)) {
    8974          15 :                 rc = bdev_unregister_unsafe(bdev);
    8975          15 :                 spdk_spin_unlock(&bdev->internal.spinlock);
    8976             : 
    8977          15 :                 if (rc == 0) {
    8978          15 :                         spdk_io_device_unregister(__bdev_to_io_dev(bdev), bdev_destroy_cb);
    8979             :                 }
    8980             :         } else {
    8981         254 :                 spdk_spin_unlock(&bdev->internal.spinlock);
    8982             :         }
    8983         269 : }
    8984             : 
    8985             : void
    8986         128 : spdk_bdev_close(struct spdk_bdev_desc *desc)
    8987             : {
    8988         128 :         struct spdk_bdev *bdev = spdk_bdev_desc_get_bdev(desc);
    8989             : 
    8990         128 :         SPDK_DEBUGLOG(bdev, "Closing descriptor %p for bdev %s on thread %p\n", desc, bdev->name,
    8991             :                       spdk_get_thread());
    8992             : 
    8993         128 :         assert(desc->thread == spdk_get_thread());
    8994             : 
    8995         128 :         spdk_poller_unregister(&desc->io_timeout_poller);
    8996             : 
    8997         128 :         spdk_spin_lock(&g_bdev_mgr.spinlock);
    8998             : 
    8999         128 :         bdev_close(bdev, desc);
    9000             : 
    9001         128 :         spdk_spin_unlock(&g_bdev_mgr.spinlock);
    9002         128 : }
    9003             : 
    9004             : int32_t
    9005           3 : spdk_bdev_get_numa_id(struct spdk_bdev *bdev)
    9006             : {
    9007           3 :         if (bdev->numa.id_valid) {
    9008           2 :                 return bdev->numa.id;
    9009             :         } else {
    9010           1 :                 return SPDK_ENV_NUMA_ID_ANY;
    9011             :         }
    9012             : }
    9013             : 
    9014             : static void
    9015         130 : bdev_register_finished(void *arg)
    9016             : {
    9017         130 :         struct spdk_bdev_desc *desc = arg;
    9018         130 :         struct spdk_bdev *bdev = spdk_bdev_desc_get_bdev(desc);
    9019             : 
    9020         130 :         spdk_notify_send("bdev_register", spdk_bdev_get_name(bdev));
    9021             : 
    9022         130 :         spdk_spin_lock(&g_bdev_mgr.spinlock);
    9023             : 
    9024         130 :         bdev_close(bdev, desc);
    9025             : 
    9026         130 :         spdk_spin_unlock(&g_bdev_mgr.spinlock);
    9027         130 : }
    9028             : 
    9029             : int
    9030         133 : spdk_bdev_register(struct spdk_bdev *bdev)
    9031             : {
    9032         133 :         struct spdk_bdev_desc *desc;
    9033         133 :         struct spdk_thread *thread = spdk_get_thread();
    9034             :         int rc;
    9035             : 
    9036         133 :         if (spdk_unlikely(!spdk_thread_is_app_thread(NULL))) {
    9037           1 :                 SPDK_ERRLOG("Cannot register bdev %s on thread %p (%s)\n", bdev->name, thread,
    9038             :                             thread ? spdk_thread_get_name(thread) : "null");
    9039           1 :                 return -EINVAL;
    9040             :         }
    9041             : 
    9042         132 :         rc = bdev_register(bdev);
    9043         132 :         if (rc != 0) {
    9044           2 :                 return rc;
    9045             :         }
    9046             : 
    9047             :         /* A descriptor is opened to prevent bdev deletion during examination */
    9048         130 :         rc = bdev_desc_alloc(bdev, _tmp_bdev_event_cb, NULL, NULL, &desc);
    9049         130 :         if (rc != 0) {
    9050           0 :                 spdk_bdev_unregister(bdev, NULL, NULL);
    9051           0 :                 return rc;
    9052             :         }
    9053             : 
    9054         130 :         rc = bdev_open(bdev, false, desc);
    9055         130 :         if (rc != 0) {
    9056           0 :                 bdev_desc_free(desc);
    9057           0 :                 spdk_bdev_unregister(bdev, NULL, NULL);
    9058           0 :                 return rc;
    9059             :         }
    9060             : 
    9061             :         /* Examine configuration before initializing I/O */
    9062         130 :         bdev_examine(bdev);
    9063             : 
    9064         130 :         rc = spdk_bdev_wait_for_examine(bdev_register_finished, desc);
    9065         130 :         if (rc != 0) {
    9066           0 :                 bdev_close(bdev, desc);
    9067           0 :                 spdk_bdev_unregister(bdev, NULL, NULL);
    9068             :         }
    9069             : 
    9070         130 :         return rc;
    9071             : }
    9072             : 
    9073             : int
    9074          26 : spdk_bdev_module_claim_bdev(struct spdk_bdev *bdev, struct spdk_bdev_desc *desc,
    9075             :                             struct spdk_bdev_module *module)
    9076             : {
    9077          26 :         spdk_spin_lock(&bdev->internal.spinlock);
    9078             : 
    9079          26 :         if (bdev->internal.claim_type != SPDK_BDEV_CLAIM_NONE) {
    9080           6 :                 LOG_ALREADY_CLAIMED_ERROR("already claimed", bdev);
    9081           6 :                 spdk_spin_unlock(&bdev->internal.spinlock);
    9082           6 :                 return -EPERM;
    9083             :         }
    9084             : 
    9085          20 :         if (desc && !desc->write) {
    9086           5 :                 desc->write = true;
    9087             :         }
    9088             : 
    9089          20 :         bdev->internal.claim_type = SPDK_BDEV_CLAIM_EXCL_WRITE;
    9090          20 :         bdev->internal.claim.v1.module = module;
    9091             : 
    9092          20 :         spdk_spin_unlock(&bdev->internal.spinlock);
    9093          20 :         return 0;
    9094             : }
    9095             : 
    9096             : void
    9097           8 : spdk_bdev_module_release_bdev(struct spdk_bdev *bdev)
    9098             : {
    9099           8 :         spdk_spin_lock(&bdev->internal.spinlock);
    9100             : 
    9101           8 :         assert(bdev->internal.claim.v1.module != NULL);
    9102           8 :         assert(bdev->internal.claim_type == SPDK_BDEV_CLAIM_EXCL_WRITE);
    9103           8 :         bdev->internal.claim_type = SPDK_BDEV_CLAIM_NONE;
    9104           8 :         bdev->internal.claim.v1.module = NULL;
    9105             : 
    9106           8 :         spdk_spin_unlock(&bdev->internal.spinlock);
    9107           8 : }
    9108             : 
    9109             : /*
    9110             :  * Start claims v2
    9111             :  */
    9112             : 
    9113             : const char *
    9114          25 : spdk_bdev_claim_get_name(enum spdk_bdev_claim_type type)
    9115             : {
    9116          25 :         switch (type) {
    9117           0 :         case SPDK_BDEV_CLAIM_NONE:
    9118           0 :                 return "not_claimed";
    9119           6 :         case SPDK_BDEV_CLAIM_EXCL_WRITE:
    9120           6 :                 return "exclusive_write";
    9121           8 :         case SPDK_BDEV_CLAIM_READ_MANY_WRITE_ONE:
    9122           8 :                 return "read_many_write_one";
    9123           5 :         case SPDK_BDEV_CLAIM_READ_MANY_WRITE_NONE:
    9124           5 :                 return "read_many_write_none";
    9125           6 :         case SPDK_BDEV_CLAIM_READ_MANY_WRITE_SHARED:
    9126           6 :                 return "read_many_write_many";
    9127           0 :         default:
    9128           0 :                 break;
    9129             :         }
    9130           0 :         return "invalid_claim";
    9131             : }
    9132             : 
    9133             : static bool
    9134         115 : claim_type_is_v2(enum spdk_bdev_claim_type type)
    9135             : {
    9136         115 :         switch (type) {
    9137         115 :         case SPDK_BDEV_CLAIM_READ_MANY_WRITE_ONE:
    9138             :         case SPDK_BDEV_CLAIM_READ_MANY_WRITE_NONE:
    9139             :         case SPDK_BDEV_CLAIM_READ_MANY_WRITE_SHARED:
    9140         115 :                 return true;
    9141           0 :         default:
    9142           0 :                 break;
    9143             :         }
    9144           0 :         return false;
    9145             : }
    9146             : 
    9147             : /* Returns true if taking a claim with desc->write == false should make the descriptor writable. */
    9148             : static bool
    9149          17 : claim_type_promotes_to_write(enum spdk_bdev_claim_type type)
    9150             : {
    9151          17 :         switch (type) {
    9152           6 :         case SPDK_BDEV_CLAIM_READ_MANY_WRITE_ONE:
    9153             :         case SPDK_BDEV_CLAIM_READ_MANY_WRITE_SHARED:
    9154           6 :                 return true;
    9155          11 :         default:
    9156          11 :                 break;
    9157             :         }
    9158          11 :         return false;
    9159             : }
    9160             : 
    9161             : void
    9162          57 : spdk_bdev_claim_opts_init(struct spdk_bdev_claim_opts *opts, size_t size)
    9163             : {
    9164          57 :         if (opts == NULL) {
    9165           0 :                 SPDK_ERRLOG("opts should not be NULL\n");
    9166           0 :                 assert(opts != NULL);
    9167           0 :                 return;
    9168             :         }
    9169          57 :         if (size == 0) {
    9170           0 :                 SPDK_ERRLOG("size should not be zero\n");
    9171           0 :                 assert(size != 0);
    9172           0 :                 return;
    9173             :         }
    9174             : 
    9175          57 :         memset(opts, 0, size);
    9176          57 :         opts->opts_size = size;
    9177             : 
    9178             : #define FIELD_OK(field) \
    9179             :         offsetof(struct spdk_bdev_claim_opts, field) + sizeof(opts->field) <= size
    9180             : 
    9181             : #define SET_FIELD(field, value) \
    9182             :         if (FIELD_OK(field)) { \
    9183             :                 opts->field = value; \
    9184             :         } \
    9185             : 
    9186          57 :         SET_FIELD(shared_claim_key, 0);
    9187             : 
    9188             : #undef FIELD_OK
    9189             : #undef SET_FIELD
    9190             : }
    9191             : 
    9192             : static int
    9193          22 : claim_opts_copy(struct spdk_bdev_claim_opts *src, struct spdk_bdev_claim_opts *dst)
    9194             : {
    9195          22 :         if (src->opts_size == 0) {
    9196           0 :                 SPDK_ERRLOG("size should not be zero\n");
    9197           0 :                 return -1;
    9198             :         }
    9199             : 
    9200          22 :         memset(dst, 0, sizeof(*dst));
    9201          22 :         dst->opts_size = src->opts_size;
    9202             : 
    9203             : #define FIELD_OK(field) \
    9204             :         offsetof(struct spdk_bdev_claim_opts, field) + sizeof(src->field) <= src->opts_size
    9205             : 
    9206             : #define SET_FIELD(field) \
    9207             :         if (FIELD_OK(field)) { \
    9208             :                 dst->field = src->field; \
    9209             :         } \
    9210             : 
    9211          22 :         if (FIELD_OK(name)) {
    9212          22 :                 snprintf(dst->name, sizeof(dst->name), "%s", src->name);
    9213             :         }
    9214             : 
    9215          22 :         SET_FIELD(shared_claim_key);
    9216             : 
    9217             :         /* You should not remove this statement, but need to update the assert statement
    9218             :          * if you add a new field, and also add a corresponding SET_FIELD statement */
    9219             :         SPDK_STATIC_ASSERT(sizeof(struct spdk_bdev_claim_opts) == 48, "Incorrect size");
    9220             : 
    9221             : #undef FIELD_OK
    9222             : #undef SET_FIELD
    9223          22 :         return 0;
    9224             : }
    9225             : 
    9226             : /* Returns 0 if a read-write-once claim can be taken. */
    9227             : static int
    9228          10 : claim_verify_rwo(struct spdk_bdev_desc *desc, enum spdk_bdev_claim_type type,
    9229             :                  struct spdk_bdev_claim_opts *opts, struct spdk_bdev_module *module)
    9230             : {
    9231          10 :         struct spdk_bdev *bdev = desc->bdev;
    9232             :         struct spdk_bdev_desc *open_desc;
    9233             : 
    9234          10 :         assert(spdk_spin_held(&bdev->internal.spinlock));
    9235          10 :         assert(type == SPDK_BDEV_CLAIM_READ_MANY_WRITE_ONE);
    9236             : 
    9237          10 :         if (opts->shared_claim_key != 0) {
    9238           1 :                 SPDK_ERRLOG("%s: key option not supported with read-write-once claims\n",
    9239             :                             bdev->name);
    9240           1 :                 return -EINVAL;
    9241             :         }
    9242           9 :         if (bdev->internal.claim_type != SPDK_BDEV_CLAIM_NONE) {
    9243           1 :                 LOG_ALREADY_CLAIMED_ERROR("already claimed", bdev);
    9244           1 :                 return -EPERM;
    9245             :         }
    9246           8 :         if (desc->claim != NULL) {
    9247           0 :                 SPDK_NOTICELOG("%s: descriptor already claimed bdev with module %s\n",
    9248             :                                bdev->name, desc->claim->module->name);
    9249           0 :                 return -EPERM;
    9250             :         }
    9251          16 :         TAILQ_FOREACH(open_desc, &bdev->internal.open_descs, link) {
    9252          10 :                 if (desc != open_desc && open_desc->write) {
    9253           2 :                         SPDK_NOTICELOG("%s: Cannot obtain read-write-once claim while "
    9254             :                                        "another descriptor is open for writing\n",
    9255             :                                        bdev->name);
    9256           2 :                         return -EPERM;
    9257             :                 }
    9258             :         }
    9259             : 
    9260           6 :         return 0;
    9261             : }
    9262             : 
    9263             : /* Returns 0 if a read-only-many claim can be taken. */
    9264             : static int
    9265          15 : claim_verify_rom(struct spdk_bdev_desc *desc, enum spdk_bdev_claim_type type,
    9266             :                  struct spdk_bdev_claim_opts *opts, struct spdk_bdev_module *module)
    9267             : {
    9268          15 :         struct spdk_bdev *bdev = desc->bdev;
    9269             :         struct spdk_bdev_desc *open_desc;
    9270             : 
    9271          15 :         assert(spdk_spin_held(&bdev->internal.spinlock));
    9272          15 :         assert(type == SPDK_BDEV_CLAIM_READ_MANY_WRITE_NONE);
    9273          15 :         assert(desc->claim == NULL);
    9274             : 
    9275          15 :         if (desc->write) {
    9276           3 :                 SPDK_ERRLOG("%s: Cannot obtain read-only-many claim with writable descriptor\n",
    9277             :                             bdev->name);
    9278           3 :                 return -EINVAL;
    9279             :         }
    9280          12 :         if (opts->shared_claim_key != 0) {
    9281           1 :                 SPDK_ERRLOG("%s: key option not supported with read-only-may claims\n", bdev->name);
    9282           1 :                 return -EINVAL;
    9283             :         }
    9284          11 :         if (bdev->internal.claim_type == SPDK_BDEV_CLAIM_NONE) {
    9285          19 :                 TAILQ_FOREACH(open_desc, &bdev->internal.open_descs, link) {
    9286          11 :                         if (open_desc->write) {
    9287           0 :                                 SPDK_NOTICELOG("%s: Cannot obtain read-only-many claim while "
    9288             :                                                "another descriptor is open for writing\n",
    9289             :                                                bdev->name);
    9290           0 :                                 return -EPERM;
    9291             :                         }
    9292             :                 }
    9293             :         }
    9294             : 
    9295          11 :         return 0;
    9296             : }
    9297             : 
    9298             : /* Returns 0 if a read-write-many claim can be taken. */
    9299             : static int
    9300           8 : claim_verify_rwm(struct spdk_bdev_desc *desc, enum spdk_bdev_claim_type type,
    9301             :                  struct spdk_bdev_claim_opts *opts, struct spdk_bdev_module *module)
    9302             : {
    9303           8 :         struct spdk_bdev *bdev = desc->bdev;
    9304             :         struct spdk_bdev_desc *open_desc;
    9305             : 
    9306           8 :         assert(spdk_spin_held(&bdev->internal.spinlock));
    9307           8 :         assert(type == SPDK_BDEV_CLAIM_READ_MANY_WRITE_SHARED);
    9308           8 :         assert(desc->claim == NULL);
    9309             : 
    9310           8 :         if (opts->shared_claim_key == 0) {
    9311           2 :                 SPDK_ERRLOG("%s: shared_claim_key option required with read-write-may claims\n",
    9312             :                             bdev->name);
    9313           2 :                 return -EINVAL;
    9314             :         }
    9315           6 :         switch (bdev->internal.claim_type) {
    9316           4 :         case SPDK_BDEV_CLAIM_NONE:
    9317           7 :                 TAILQ_FOREACH(open_desc, &bdev->internal.open_descs, link) {
    9318           5 :                         if (open_desc == desc) {
    9319           3 :                                 continue;
    9320             :                         }
    9321           2 :                         if (open_desc->write) {
    9322           2 :                                 SPDK_NOTICELOG("%s: Cannot obtain read-write-many claim while "
    9323             :                                                "another descriptor is open for writing without a "
    9324             :                                                "claim\n", bdev->name);
    9325           2 :                                 return -EPERM;
    9326             :                         }
    9327             :                 }
    9328           2 :                 break;
    9329           2 :         case SPDK_BDEV_CLAIM_READ_MANY_WRITE_SHARED:
    9330           2 :                 if (opts->shared_claim_key != bdev->internal.claim.v2.key) {
    9331           1 :                         LOG_ALREADY_CLAIMED_ERROR("already claimed with another key", bdev);
    9332           1 :                         return -EPERM;
    9333             :                 }
    9334           1 :                 break;
    9335           0 :         default:
    9336           0 :                 LOG_ALREADY_CLAIMED_ERROR("already claimed", bdev);
    9337           0 :                 return -EBUSY;
    9338             :         }
    9339             : 
    9340           3 :         return 0;
    9341             : }
    9342             : 
    9343             : /* Updates desc and its bdev with a v2 claim. */
    9344             : static int
    9345          20 : claim_bdev(struct spdk_bdev_desc *desc, enum spdk_bdev_claim_type type,
    9346             :            struct spdk_bdev_claim_opts *opts, struct spdk_bdev_module *module)
    9347             : {
    9348          20 :         struct spdk_bdev *bdev = desc->bdev;
    9349             :         struct spdk_bdev_module_claim *claim;
    9350             : 
    9351          20 :         assert(spdk_spin_held(&bdev->internal.spinlock));
    9352          20 :         assert(claim_type_is_v2(type));
    9353          20 :         assert(desc->claim == NULL);
    9354             : 
    9355          20 :         claim = calloc(1, sizeof(*desc->claim));
    9356          20 :         if (claim == NULL) {
    9357           0 :                 SPDK_ERRLOG("%s: out of memory while allocating claim\n", bdev->name);
    9358           0 :                 return -ENOMEM;
    9359             :         }
    9360          20 :         claim->module = module;
    9361          20 :         claim->desc = desc;
    9362             :         SPDK_STATIC_ASSERT(sizeof(claim->name) == sizeof(opts->name), "sizes must match");
    9363          20 :         memcpy(claim->name, opts->name, sizeof(claim->name));
    9364          20 :         desc->claim = claim;
    9365             : 
    9366          20 :         if (bdev->internal.claim_type == SPDK_BDEV_CLAIM_NONE) {
    9367          16 :                 bdev->internal.claim_type = type;
    9368          16 :                 TAILQ_INIT(&bdev->internal.claim.v2.claims);
    9369          16 :                 bdev->internal.claim.v2.key = opts->shared_claim_key;
    9370             :         }
    9371          20 :         assert(type == bdev->internal.claim_type);
    9372             : 
    9373          20 :         TAILQ_INSERT_TAIL(&bdev->internal.claim.v2.claims, claim, link);
    9374             : 
    9375          20 :         if (!desc->write && claim_type_promotes_to_write(type)) {
    9376           6 :                 desc->write = true;
    9377             :         }
    9378             : 
    9379          20 :         return 0;
    9380             : }
    9381             : 
    9382             : int
    9383          44 : spdk_bdev_module_claim_bdev_desc(struct spdk_bdev_desc *desc, enum spdk_bdev_claim_type type,
    9384             :                                  struct spdk_bdev_claim_opts *_opts,
    9385             :                                  struct spdk_bdev_module *module)
    9386             : {
    9387             :         struct spdk_bdev *bdev;
    9388          44 :         struct spdk_bdev_claim_opts opts;
    9389          44 :         int rc = 0;
    9390             : 
    9391          44 :         if (desc == NULL) {
    9392           0 :                 SPDK_ERRLOG("descriptor must not be NULL\n");
    9393           0 :                 return -EINVAL;
    9394             :         }
    9395             : 
    9396          44 :         bdev = desc->bdev;
    9397             : 
    9398          44 :         if (_opts == NULL) {
    9399          22 :                 spdk_bdev_claim_opts_init(&opts, sizeof(opts));
    9400          22 :         } else if (claim_opts_copy(_opts, &opts) != 0) {
    9401           0 :                 return -EINVAL;
    9402             :         }
    9403             : 
    9404          44 :         spdk_spin_lock(&bdev->internal.spinlock);
    9405             : 
    9406          44 :         if (bdev->internal.claim_type != SPDK_BDEV_CLAIM_NONE &&
    9407          17 :             bdev->internal.claim_type != type) {
    9408          11 :                 LOG_ALREADY_CLAIMED_ERROR("already claimed", bdev);
    9409          11 :                 spdk_spin_unlock(&bdev->internal.spinlock);
    9410          11 :                 return -EPERM;
    9411             :         }
    9412             : 
    9413          33 :         if (claim_type_is_v2(type) && desc->claim != NULL) {
    9414           0 :                 SPDK_ERRLOG("%s: descriptor already has %s claim with name '%s'\n",
    9415             :                             bdev->name, spdk_bdev_claim_get_name(type), desc->claim->name);
    9416           0 :                 spdk_spin_unlock(&bdev->internal.spinlock);
    9417           0 :                 return -EPERM;
    9418             :         }
    9419             : 
    9420          33 :         switch (type) {
    9421           0 :         case SPDK_BDEV_CLAIM_EXCL_WRITE:
    9422           0 :                 spdk_spin_unlock(&bdev->internal.spinlock);
    9423           0 :                 return spdk_bdev_module_claim_bdev(bdev, desc, module);
    9424          10 :         case SPDK_BDEV_CLAIM_READ_MANY_WRITE_ONE:
    9425          10 :                 rc = claim_verify_rwo(desc, type, &opts, module);
    9426          10 :                 break;
    9427          15 :         case SPDK_BDEV_CLAIM_READ_MANY_WRITE_NONE:
    9428          15 :                 rc = claim_verify_rom(desc, type, &opts, module);
    9429          15 :                 break;
    9430           8 :         case SPDK_BDEV_CLAIM_READ_MANY_WRITE_SHARED:
    9431           8 :                 rc = claim_verify_rwm(desc, type, &opts, module);
    9432           8 :                 break;
    9433           0 :         default:
    9434           0 :                 SPDK_ERRLOG("%s: claim type %d not supported\n", bdev->name, type);
    9435           0 :                 rc = -ENOTSUP;
    9436             :         }
    9437             : 
    9438          33 :         if (rc == 0) {
    9439          20 :                 rc = claim_bdev(desc, type, &opts, module);
    9440             :         }
    9441             : 
    9442          33 :         spdk_spin_unlock(&bdev->internal.spinlock);
    9443          33 :         return rc;
    9444             : }
    9445             : 
    9446             : static void
    9447          16 : claim_reset(struct spdk_bdev *bdev)
    9448             : {
    9449          16 :         assert(spdk_spin_held(&bdev->internal.spinlock));
    9450          16 :         assert(claim_type_is_v2(bdev->internal.claim_type));
    9451          16 :         assert(TAILQ_EMPTY(&bdev->internal.claim.v2.claims));
    9452             : 
    9453          16 :         memset(&bdev->internal.claim, 0, sizeof(bdev->internal.claim));
    9454          16 :         bdev->internal.claim_type = SPDK_BDEV_CLAIM_NONE;
    9455          16 : }
    9456             : 
    9457             : static void
    9458          20 : bdev_desc_release_claims(struct spdk_bdev_desc *desc)
    9459             : {
    9460          20 :         struct spdk_bdev *bdev = desc->bdev;
    9461             : 
    9462          20 :         assert(spdk_spin_held(&bdev->internal.spinlock));
    9463          20 :         assert(claim_type_is_v2(bdev->internal.claim_type));
    9464             : 
    9465          20 :         if (bdev->internal.examine_in_progress == 0) {
    9466          20 :                 TAILQ_REMOVE(&bdev->internal.claim.v2.claims, desc->claim, link);
    9467          20 :                 free(desc->claim);
    9468          20 :                 if (TAILQ_EMPTY(&bdev->internal.claim.v2.claims)) {
    9469          16 :                         claim_reset(bdev);
    9470             :                 }
    9471             :         } else {
    9472             :                 /* This is a dead claim that will be cleaned up when bdev_examine() is done. */
    9473           0 :                 desc->claim->module = NULL;
    9474           0 :                 desc->claim->desc = NULL;
    9475             :         }
    9476          20 :         desc->claim = NULL;
    9477          20 : }
    9478             : 
    9479             : /*
    9480             :  * End claims v2
    9481             :  */
    9482             : 
    9483             : struct spdk_bdev *
    9484        1554 : spdk_bdev_desc_get_bdev(struct spdk_bdev_desc *desc)
    9485             : {
    9486        1554 :         assert(desc != NULL);
    9487        1554 :         return desc->bdev;
    9488             : }
    9489             : 
    9490             : int
    9491           1 : spdk_for_each_bdev(void *ctx, spdk_for_each_bdev_fn fn)
    9492             : {
    9493             :         struct spdk_bdev *bdev, *tmp;
    9494           1 :         struct spdk_bdev_desc *desc;
    9495           1 :         int rc = 0;
    9496             : 
    9497           1 :         assert(fn != NULL);
    9498             : 
    9499           1 :         spdk_spin_lock(&g_bdev_mgr.spinlock);
    9500           1 :         bdev = spdk_bdev_first();
    9501           9 :         while (bdev != NULL) {
    9502           8 :                 rc = bdev_desc_alloc(bdev, _tmp_bdev_event_cb, NULL, NULL, &desc);
    9503           8 :                 if (rc != 0) {
    9504           0 :                         break;
    9505             :                 }
    9506           8 :                 rc = bdev_open(bdev, false, desc);
    9507           8 :                 if (rc != 0) {
    9508           1 :                         bdev_desc_free(desc);
    9509           1 :                         if (rc == -ENODEV) {
    9510             :                                 /* Ignore the error and move to the next bdev. */
    9511           1 :                                 rc = 0;
    9512           1 :                                 bdev = spdk_bdev_next(bdev);
    9513           1 :                                 continue;
    9514             :                         }
    9515           0 :                         break;
    9516             :                 }
    9517           7 :                 spdk_spin_unlock(&g_bdev_mgr.spinlock);
    9518             : 
    9519           7 :                 rc = fn(ctx, bdev);
    9520             : 
    9521           7 :                 spdk_spin_lock(&g_bdev_mgr.spinlock);
    9522           7 :                 tmp = spdk_bdev_next(bdev);
    9523           7 :                 bdev_close(bdev, desc);
    9524           7 :                 if (rc != 0) {
    9525           0 :                         break;
    9526             :                 }
    9527           7 :                 bdev = tmp;
    9528             :         }
    9529           1 :         spdk_spin_unlock(&g_bdev_mgr.spinlock);
    9530             : 
    9531           1 :         return rc;
    9532             : }
    9533             : 
    9534             : int
    9535           1 : spdk_for_each_bdev_leaf(void *ctx, spdk_for_each_bdev_fn fn)
    9536             : {
    9537             :         struct spdk_bdev *bdev, *tmp;
    9538           1 :         struct spdk_bdev_desc *desc;
    9539           1 :         int rc = 0;
    9540             : 
    9541           1 :         assert(fn != NULL);
    9542             : 
    9543           1 :         spdk_spin_lock(&g_bdev_mgr.spinlock);
    9544           1 :         bdev = spdk_bdev_first_leaf();
    9545           6 :         while (bdev != NULL) {
    9546           5 :                 rc = bdev_desc_alloc(bdev, _tmp_bdev_event_cb, NULL, NULL, &desc);
    9547           5 :                 if (rc != 0) {
    9548           0 :                         break;
    9549             :                 }
    9550           5 :                 rc = bdev_open(bdev, false, desc);
    9551           5 :                 if (rc != 0) {
    9552           1 :                         bdev_desc_free(desc);
    9553           1 :                         if (rc == -ENODEV) {
    9554             :                                 /* Ignore the error and move to the next bdev. */
    9555           1 :                                 rc = 0;
    9556           1 :                                 bdev = spdk_bdev_next_leaf(bdev);
    9557           1 :                                 continue;
    9558             :                         }
    9559           0 :                         break;
    9560             :                 }
    9561           4 :                 spdk_spin_unlock(&g_bdev_mgr.spinlock);
    9562             : 
    9563           4 :                 rc = fn(ctx, bdev);
    9564             : 
    9565           4 :                 spdk_spin_lock(&g_bdev_mgr.spinlock);
    9566           4 :                 tmp = spdk_bdev_next_leaf(bdev);
    9567           4 :                 bdev_close(bdev, desc);
    9568           4 :                 if (rc != 0) {
    9569           0 :                         break;
    9570             :                 }
    9571           4 :                 bdev = tmp;
    9572             :         }
    9573           1 :         spdk_spin_unlock(&g_bdev_mgr.spinlock);
    9574             : 
    9575           1 :         return rc;
    9576             : }
    9577             : 
    9578             : void
    9579           0 : spdk_bdev_io_get_iovec(struct spdk_bdev_io *bdev_io, struct iovec **iovp, int *iovcntp)
    9580             : {
    9581             :         struct iovec *iovs;
    9582             :         int iovcnt;
    9583             : 
    9584           0 :         if (bdev_io == NULL) {
    9585           0 :                 return;
    9586             :         }
    9587             : 
    9588           0 :         switch (bdev_io->type) {
    9589           0 :         case SPDK_BDEV_IO_TYPE_READ:
    9590             :         case SPDK_BDEV_IO_TYPE_WRITE:
    9591             :         case SPDK_BDEV_IO_TYPE_ZCOPY:
    9592           0 :                 iovs = bdev_io->u.bdev.iovs;
    9593           0 :                 iovcnt = bdev_io->u.bdev.iovcnt;
    9594           0 :                 break;
    9595           0 :         default:
    9596           0 :                 iovs = NULL;
    9597           0 :                 iovcnt = 0;
    9598           0 :                 break;
    9599             :         }
    9600             : 
    9601           0 :         if (iovp) {
    9602           0 :                 *iovp = iovs;
    9603             :         }
    9604           0 :         if (iovcntp) {
    9605           0 :                 *iovcntp = iovcnt;
    9606             :         }
    9607             : }
    9608             : 
    9609             : void *
    9610           0 : spdk_bdev_io_get_md_buf(struct spdk_bdev_io *bdev_io)
    9611             : {
    9612           0 :         if (bdev_io == NULL) {
    9613           0 :                 return NULL;
    9614             :         }
    9615             : 
    9616           0 :         if (!spdk_bdev_is_md_separate(bdev_io->bdev)) {
    9617           0 :                 return NULL;
    9618             :         }
    9619             : 
    9620           0 :         if (bdev_io->type == SPDK_BDEV_IO_TYPE_READ ||
    9621           0 :             bdev_io->type == SPDK_BDEV_IO_TYPE_WRITE) {
    9622           0 :                 return bdev_io->u.bdev.md_buf;
    9623             :         }
    9624             : 
    9625           0 :         return NULL;
    9626             : }
    9627             : 
    9628             : void *
    9629           0 : spdk_bdev_io_get_cb_arg(struct spdk_bdev_io *bdev_io)
    9630             : {
    9631           0 :         if (bdev_io == NULL) {
    9632           0 :                 assert(false);
    9633             :                 return NULL;
    9634             :         }
    9635             : 
    9636           0 :         return bdev_io->internal.caller_ctx;
    9637             : }
    9638             : 
    9639             : void
    9640           7 : spdk_bdev_module_list_add(struct spdk_bdev_module *bdev_module)
    9641             : {
    9642             : 
    9643           7 :         if (spdk_bdev_module_list_find(bdev_module->name)) {
    9644           0 :                 SPDK_ERRLOG("ERROR: module '%s' already registered.\n", bdev_module->name);
    9645           0 :                 assert(false);
    9646             :         }
    9647             : 
    9648           7 :         spdk_spin_init(&bdev_module->internal.spinlock);
    9649           7 :         TAILQ_INIT(&bdev_module->internal.quiesced_ranges);
    9650             : 
    9651             :         /*
    9652             :          * Modules with examine callbacks must be initialized first, so they are
    9653             :          *  ready to handle examine callbacks from later modules that will
    9654             :          *  register physical bdevs.
    9655             :          */
    9656           7 :         if (bdev_module->examine_config != NULL || bdev_module->examine_disk != NULL) {
    9657           4 :                 TAILQ_INSERT_HEAD(&g_bdev_mgr.bdev_modules, bdev_module, internal.tailq);
    9658             :         } else {
    9659           3 :                 TAILQ_INSERT_TAIL(&g_bdev_mgr.bdev_modules, bdev_module, internal.tailq);
    9660             :         }
    9661           7 : }
    9662             : 
    9663             : struct spdk_bdev_module *
    9664           7 : spdk_bdev_module_list_find(const char *name)
    9665             : {
    9666             :         struct spdk_bdev_module *bdev_module;
    9667             : 
    9668          14 :         TAILQ_FOREACH(bdev_module, &g_bdev_mgr.bdev_modules, internal.tailq) {
    9669           7 :                 if (strcmp(name, bdev_module->name) == 0) {
    9670           0 :                         break;
    9671             :                 }
    9672             :         }
    9673             : 
    9674           7 :         return bdev_module;
    9675             : }
    9676             : 
    9677             : static int
    9678           6 : bdev_write_zero_buffer(struct spdk_bdev_io *bdev_io)
    9679             : {
    9680             :         uint64_t num_blocks;
    9681           6 :         void *md_buf = NULL;
    9682             : 
    9683           6 :         num_blocks = bdev_io->u.bdev.num_blocks;
    9684             : 
    9685           6 :         if (spdk_bdev_is_md_separate(bdev_io->bdev)) {
    9686           2 :                 md_buf = (char *)g_bdev_mgr.zero_buffer +
    9687           2 :                          spdk_bdev_get_block_size(bdev_io->bdev) * num_blocks;
    9688             :         }
    9689             : 
    9690          12 :         return bdev_write_blocks_with_md(bdev_io->internal.desc,
    9691           6 :                                          spdk_io_channel_from_ctx(bdev_io->internal.ch),
    9692             :                                          g_bdev_mgr.zero_buffer, md_buf,
    9693             :                                          bdev_io->u.bdev.offset_blocks, num_blocks,
    9694             :                                          bdev_write_zero_buffer_done, bdev_io);
    9695             : }
    9696             : 
    9697             : static void
    9698           6 : bdev_write_zero_buffer_done(struct spdk_bdev_io *bdev_io, bool success, void *cb_arg)
    9699             : {
    9700           6 :         struct spdk_bdev_io *parent_io = cb_arg;
    9701             : 
    9702           6 :         spdk_bdev_free_io(bdev_io);
    9703             : 
    9704           6 :         parent_io->internal.status = success ? SPDK_BDEV_IO_STATUS_SUCCESS : SPDK_BDEV_IO_STATUS_FAILED;
    9705           6 :         parent_io->internal.cb(parent_io, success, parent_io->internal.caller_ctx);
    9706           6 : }
    9707             : 
    9708             : static void
    9709          10 : bdev_set_qos_limit_done(struct set_qos_limit_ctx *ctx, int status)
    9710             : {
    9711          10 :         spdk_spin_lock(&ctx->bdev->internal.spinlock);
    9712          10 :         ctx->bdev->internal.qos_mod_in_progress = false;
    9713          10 :         spdk_spin_unlock(&ctx->bdev->internal.spinlock);
    9714             : 
    9715          10 :         if (ctx->cb_fn) {
    9716           8 :                 ctx->cb_fn(ctx->cb_arg, status);
    9717             :         }
    9718          10 :         free(ctx);
    9719          10 : }
    9720             : 
    9721             : static void
    9722           2 : bdev_disable_qos_done(void *cb_arg)
    9723             : {
    9724           2 :         struct set_qos_limit_ctx *ctx = cb_arg;
    9725           2 :         struct spdk_bdev *bdev = ctx->bdev;
    9726             :         struct spdk_bdev_qos *qos;
    9727             : 
    9728           2 :         spdk_spin_lock(&bdev->internal.spinlock);
    9729           2 :         qos = bdev->internal.qos;
    9730           2 :         bdev->internal.qos = NULL;
    9731           2 :         spdk_spin_unlock(&bdev->internal.spinlock);
    9732             : 
    9733           2 :         if (qos->thread != NULL) {
    9734           2 :                 spdk_put_io_channel(spdk_io_channel_from_ctx(qos->ch));
    9735           2 :                 spdk_poller_unregister(&qos->poller);
    9736             :         }
    9737             : 
    9738           2 :         free(qos);
    9739             : 
    9740           2 :         bdev_set_qos_limit_done(ctx, 0);
    9741           2 : }
    9742             : 
    9743             : static void
    9744           2 : bdev_disable_qos_msg_done(struct spdk_bdev *bdev, void *_ctx, int status)
    9745             : {
    9746           2 :         struct set_qos_limit_ctx *ctx = _ctx;
    9747             :         struct spdk_thread *thread;
    9748             : 
    9749           2 :         spdk_spin_lock(&bdev->internal.spinlock);
    9750           2 :         thread = bdev->internal.qos->thread;
    9751           2 :         spdk_spin_unlock(&bdev->internal.spinlock);
    9752             : 
    9753           2 :         if (thread != NULL) {
    9754           2 :                 spdk_thread_send_msg(thread, bdev_disable_qos_done, ctx);
    9755             :         } else {
    9756           0 :                 bdev_disable_qos_done(ctx);
    9757             :         }
    9758           2 : }
    9759             : 
    9760             : static void
    9761           4 : bdev_disable_qos_msg(struct spdk_bdev_channel_iter *i, struct spdk_bdev *bdev,
    9762             :                      struct spdk_io_channel *ch, void *_ctx)
    9763             : {
    9764           4 :         struct spdk_bdev_channel *bdev_ch = __io_ch_to_bdev_ch(ch);
    9765             :         struct spdk_bdev_io *bdev_io;
    9766             : 
    9767           4 :         bdev_ch->flags &= ~BDEV_CH_QOS_ENABLED;
    9768             : 
    9769           6 :         while (!TAILQ_EMPTY(&bdev_ch->qos_queued_io)) {
    9770             :                 /* Re-submit the queued I/O. */
    9771           2 :                 bdev_io = TAILQ_FIRST(&bdev_ch->qos_queued_io);
    9772           2 :                 TAILQ_REMOVE(&bdev_ch->qos_queued_io, bdev_io, internal.link);
    9773           2 :                 _bdev_io_submit(bdev_io);
    9774             :         }
    9775             : 
    9776           4 :         spdk_bdev_for_each_channel_continue(i, 0);
    9777           4 : }
    9778             : 
    9779             : static void
    9780           1 : bdev_update_qos_rate_limit_msg(void *cb_arg)
    9781             : {
    9782           1 :         struct set_qos_limit_ctx *ctx = cb_arg;
    9783           1 :         struct spdk_bdev *bdev = ctx->bdev;
    9784             : 
    9785           1 :         spdk_spin_lock(&bdev->internal.spinlock);
    9786           1 :         bdev_qos_update_max_quota_per_timeslice(bdev->internal.qos);
    9787           1 :         spdk_spin_unlock(&bdev->internal.spinlock);
    9788             : 
    9789           1 :         bdev_set_qos_limit_done(ctx, 0);
    9790           1 : }
    9791             : 
    9792             : static void
    9793           9 : bdev_enable_qos_msg(struct spdk_bdev_channel_iter *i, struct spdk_bdev *bdev,
    9794             :                     struct spdk_io_channel *ch, void *_ctx)
    9795             : {
    9796           9 :         struct spdk_bdev_channel *bdev_ch = __io_ch_to_bdev_ch(ch);
    9797             : 
    9798           9 :         spdk_spin_lock(&bdev->internal.spinlock);
    9799           9 :         bdev_enable_qos(bdev, bdev_ch);
    9800           9 :         spdk_spin_unlock(&bdev->internal.spinlock);
    9801           9 :         spdk_bdev_for_each_channel_continue(i, 0);
    9802           9 : }
    9803             : 
    9804             : static void
    9805           6 : bdev_enable_qos_done(struct spdk_bdev *bdev, void *_ctx, int status)
    9806             : {
    9807           6 :         struct set_qos_limit_ctx *ctx = _ctx;
    9808             : 
    9809           6 :         bdev_set_qos_limit_done(ctx, status);
    9810           6 : }
    9811             : 
    9812             : static void
    9813           7 : bdev_set_qos_rate_limits(struct spdk_bdev *bdev, uint64_t *limits)
    9814             : {
    9815             :         int i;
    9816             : 
    9817           7 :         assert(bdev->internal.qos != NULL);
    9818             : 
    9819          35 :         for (i = 0; i < SPDK_BDEV_QOS_NUM_RATE_LIMIT_TYPES; i++) {
    9820          28 :                 if (limits[i] != SPDK_BDEV_QOS_LIMIT_NOT_DEFINED) {
    9821          28 :                         bdev->internal.qos->rate_limits[i].limit = limits[i];
    9822             : 
    9823          28 :                         if (limits[i] == 0) {
    9824          19 :                                 bdev->internal.qos->rate_limits[i].limit =
    9825             :                                         SPDK_BDEV_QOS_LIMIT_NOT_DEFINED;
    9826             :                         }
    9827             :                 }
    9828             :         }
    9829           7 : }
    9830             : 
    9831             : void
    9832           9 : spdk_bdev_set_qos_rate_limits(struct spdk_bdev *bdev, uint64_t *limits,
    9833             :                               void (*cb_fn)(void *cb_arg, int status), void *cb_arg)
    9834             : {
    9835             :         struct set_qos_limit_ctx        *ctx;
    9836             :         uint32_t                        limit_set_complement;
    9837             :         uint64_t                        min_limit_per_sec;
    9838             :         int                             i;
    9839           9 :         bool                            disable_rate_limit = true;
    9840             : 
    9841          45 :         for (i = 0; i < SPDK_BDEV_QOS_NUM_RATE_LIMIT_TYPES; i++) {
    9842          36 :                 if (limits[i] == SPDK_BDEV_QOS_LIMIT_NOT_DEFINED) {
    9843           0 :                         continue;
    9844             :                 }
    9845             : 
    9846          36 :                 if (limits[i] > 0) {
    9847          10 :                         disable_rate_limit = false;
    9848             :                 }
    9849             : 
    9850          36 :                 if (bdev_qos_is_iops_rate_limit(i) == true) {
    9851           9 :                         min_limit_per_sec = SPDK_BDEV_QOS_MIN_IOS_PER_SEC;
    9852             :                 } else {
    9853          27 :                         if (limits[i] > SPDK_BDEV_QOS_MAX_MBYTES_PER_SEC) {
    9854           0 :                                 SPDK_WARNLOG("Requested rate limit %" PRIu64 " will result in uint64_t overflow, "
    9855             :                                              "reset to %" PRIu64 "\n", limits[i], SPDK_BDEV_QOS_MAX_MBYTES_PER_SEC);
    9856           0 :                                 limits[i] = SPDK_BDEV_QOS_MAX_MBYTES_PER_SEC;
    9857             :                         }
    9858             :                         /* Change from megabyte to byte rate limit */
    9859          27 :                         limits[i] = limits[i] * 1024 * 1024;
    9860          27 :                         min_limit_per_sec = SPDK_BDEV_QOS_MIN_BYTES_PER_SEC;
    9861             :                 }
    9862             : 
    9863          36 :                 limit_set_complement = limits[i] % min_limit_per_sec;
    9864          36 :                 if (limit_set_complement) {
    9865           0 :                         SPDK_ERRLOG("Requested rate limit %" PRIu64 " is not a multiple of %" PRIu64 "\n",
    9866             :                                     limits[i], min_limit_per_sec);
    9867           0 :                         limits[i] += min_limit_per_sec - limit_set_complement;
    9868           0 :                         SPDK_ERRLOG("Round up the rate limit to %" PRIu64 "\n", limits[i]);
    9869             :                 }
    9870             :         }
    9871             : 
    9872           9 :         ctx = calloc(1, sizeof(*ctx));
    9873           9 :         if (ctx == NULL) {
    9874           0 :                 cb_fn(cb_arg, -ENOMEM);
    9875           0 :                 return;
    9876             :         }
    9877             : 
    9878           9 :         ctx->cb_fn = cb_fn;
    9879           9 :         ctx->cb_arg = cb_arg;
    9880           9 :         ctx->bdev = bdev;
    9881             : 
    9882           9 :         spdk_spin_lock(&bdev->internal.spinlock);
    9883           9 :         if (bdev->internal.qos_mod_in_progress) {
    9884           1 :                 spdk_spin_unlock(&bdev->internal.spinlock);
    9885           1 :                 free(ctx);
    9886           1 :                 cb_fn(cb_arg, -EAGAIN);
    9887           1 :                 return;
    9888             :         }
    9889           8 :         bdev->internal.qos_mod_in_progress = true;
    9890             : 
    9891           8 :         if (disable_rate_limit == true && bdev->internal.qos) {
    9892          10 :                 for (i = 0; i < SPDK_BDEV_QOS_NUM_RATE_LIMIT_TYPES; i++) {
    9893           8 :                         if (limits[i] == SPDK_BDEV_QOS_LIMIT_NOT_DEFINED &&
    9894           0 :                             (bdev->internal.qos->rate_limits[i].limit > 0 &&
    9895           0 :                              bdev->internal.qos->rate_limits[i].limit !=
    9896             :                              SPDK_BDEV_QOS_LIMIT_NOT_DEFINED)) {
    9897           0 :                                 disable_rate_limit = false;
    9898           0 :                                 break;
    9899             :                         }
    9900             :                 }
    9901             :         }
    9902             : 
    9903           8 :         if (disable_rate_limit == false) {
    9904           5 :                 if (bdev->internal.qos == NULL) {
    9905           4 :                         bdev->internal.qos = calloc(1, sizeof(*bdev->internal.qos));
    9906           4 :                         if (!bdev->internal.qos) {
    9907           0 :                                 spdk_spin_unlock(&bdev->internal.spinlock);
    9908           0 :                                 SPDK_ERRLOG("Unable to allocate memory for QoS tracking\n");
    9909           0 :                                 bdev_set_qos_limit_done(ctx, -ENOMEM);
    9910           0 :                                 return;
    9911             :                         }
    9912             :                 }
    9913             : 
    9914           5 :                 if (bdev->internal.qos->thread == NULL) {
    9915             :                         /* Enabling */
    9916           4 :                         bdev_set_qos_rate_limits(bdev, limits);
    9917             : 
    9918           4 :                         spdk_bdev_for_each_channel(bdev, bdev_enable_qos_msg, ctx,
    9919             :                                                    bdev_enable_qos_done);
    9920             :                 } else {
    9921             :                         /* Updating */
    9922           1 :                         bdev_set_qos_rate_limits(bdev, limits);
    9923             : 
    9924           1 :                         spdk_thread_send_msg(bdev->internal.qos->thread,
    9925             :                                              bdev_update_qos_rate_limit_msg, ctx);
    9926             :                 }
    9927             :         } else {
    9928           3 :                 if (bdev->internal.qos != NULL) {
    9929           2 :                         bdev_set_qos_rate_limits(bdev, limits);
    9930             : 
    9931             :                         /* Disabling */
    9932           2 :                         spdk_bdev_for_each_channel(bdev, bdev_disable_qos_msg, ctx,
    9933             :                                                    bdev_disable_qos_msg_done);
    9934             :                 } else {
    9935           1 :                         spdk_spin_unlock(&bdev->internal.spinlock);
    9936           1 :                         bdev_set_qos_limit_done(ctx, 0);
    9937           1 :                         return;
    9938             :                 }
    9939             :         }
    9940             : 
    9941           7 :         spdk_spin_unlock(&bdev->internal.spinlock);
    9942             : }
    9943             : 
    9944             : struct spdk_bdev_histogram_ctx {
    9945             :         spdk_bdev_histogram_status_cb cb_fn;
    9946             :         void *cb_arg;
    9947             :         struct spdk_bdev *bdev;
    9948             :         int status;
    9949             : };
    9950             : 
    9951             : static void
    9952           2 : bdev_histogram_disable_channel_cb(struct spdk_bdev *bdev, void *_ctx, int status)
    9953             : {
    9954           2 :         struct spdk_bdev_histogram_ctx *ctx = _ctx;
    9955             : 
    9956           2 :         spdk_spin_lock(&ctx->bdev->internal.spinlock);
    9957           2 :         ctx->bdev->internal.histogram_in_progress = false;
    9958           2 :         spdk_spin_unlock(&ctx->bdev->internal.spinlock);
    9959           2 :         ctx->cb_fn(ctx->cb_arg, ctx->status);
    9960           2 :         free(ctx);
    9961           2 : }
    9962             : 
    9963             : static void
    9964           3 : bdev_histogram_disable_channel(struct spdk_bdev_channel_iter *i, struct spdk_bdev *bdev,
    9965             :                                struct spdk_io_channel *_ch, void *_ctx)
    9966             : {
    9967           3 :         struct spdk_bdev_channel *ch = __io_ch_to_bdev_ch(_ch);
    9968             : 
    9969           3 :         if (ch->histogram != NULL) {
    9970           3 :                 spdk_histogram_data_free(ch->histogram);
    9971           3 :                 ch->histogram = NULL;
    9972             :         }
    9973           3 :         spdk_bdev_for_each_channel_continue(i, 0);
    9974           3 : }
    9975             : 
    9976             : static void
    9977           2 : bdev_histogram_enable_channel_cb(struct spdk_bdev *bdev, void *_ctx, int status)
    9978             : {
    9979           2 :         struct spdk_bdev_histogram_ctx *ctx = _ctx;
    9980             : 
    9981           2 :         if (status != 0) {
    9982           0 :                 ctx->status = status;
    9983           0 :                 ctx->bdev->internal.histogram_enabled = false;
    9984           0 :                 spdk_bdev_for_each_channel(ctx->bdev, bdev_histogram_disable_channel, ctx,
    9985             :                                            bdev_histogram_disable_channel_cb);
    9986             :         } else {
    9987           2 :                 spdk_spin_lock(&ctx->bdev->internal.spinlock);
    9988           2 :                 ctx->bdev->internal.histogram_in_progress = false;
    9989           2 :                 spdk_spin_unlock(&ctx->bdev->internal.spinlock);
    9990           2 :                 ctx->cb_fn(ctx->cb_arg, ctx->status);
    9991           2 :                 free(ctx);
    9992             :         }
    9993           2 : }
    9994             : 
    9995             : static void
    9996           3 : bdev_histogram_enable_channel(struct spdk_bdev_channel_iter *i, struct spdk_bdev *bdev,
    9997             :                               struct spdk_io_channel *_ch, void *_ctx)
    9998             : {
    9999           3 :         struct spdk_bdev_channel *ch = __io_ch_to_bdev_ch(_ch);
   10000           3 :         int status = 0;
   10001             : 
   10002           3 :         if (ch->histogram == NULL) {
   10003           3 :                 ch->histogram = spdk_histogram_data_alloc();
   10004           3 :                 if (ch->histogram == NULL) {
   10005           0 :                         status = -ENOMEM;
   10006             :                 }
   10007             :         }
   10008             : 
   10009           3 :         spdk_bdev_for_each_channel_continue(i, status);
   10010           3 : }
   10011             : 
   10012             : void
   10013           4 : spdk_bdev_histogram_enable_ext(struct spdk_bdev *bdev, spdk_bdev_histogram_status_cb cb_fn,
   10014             :                                void *cb_arg, bool enable, struct spdk_bdev_enable_histogram_opts *opts)
   10015             : {
   10016             :         struct spdk_bdev_histogram_ctx *ctx;
   10017             : 
   10018           4 :         ctx = calloc(1, sizeof(struct spdk_bdev_histogram_ctx));
   10019           4 :         if (ctx == NULL) {
   10020           0 :                 cb_fn(cb_arg, -ENOMEM);
   10021           0 :                 return;
   10022             :         }
   10023             : 
   10024           4 :         ctx->bdev = bdev;
   10025           4 :         ctx->status = 0;
   10026           4 :         ctx->cb_fn = cb_fn;
   10027           4 :         ctx->cb_arg = cb_arg;
   10028             : 
   10029           4 :         spdk_spin_lock(&bdev->internal.spinlock);
   10030           4 :         if (bdev->internal.histogram_in_progress) {
   10031           0 :                 spdk_spin_unlock(&bdev->internal.spinlock);
   10032           0 :                 free(ctx);
   10033           0 :                 cb_fn(cb_arg, -EAGAIN);
   10034           0 :                 return;
   10035             :         }
   10036             : 
   10037           4 :         bdev->internal.histogram_in_progress = true;
   10038           4 :         spdk_spin_unlock(&bdev->internal.spinlock);
   10039             : 
   10040           4 :         bdev->internal.histogram_enabled = enable;
   10041           4 :         bdev->internal.histogram_io_type = opts->io_type;
   10042             : 
   10043           4 :         if (enable) {
   10044             :                 /* Allocate histogram for each channel */
   10045           2 :                 spdk_bdev_for_each_channel(bdev, bdev_histogram_enable_channel, ctx,
   10046             :                                            bdev_histogram_enable_channel_cb);
   10047             :         } else {
   10048           2 :                 spdk_bdev_for_each_channel(bdev, bdev_histogram_disable_channel, ctx,
   10049             :                                            bdev_histogram_disable_channel_cb);
   10050             :         }
   10051             : }
   10052             : 
   10053             : void
   10054           4 : spdk_bdev_enable_histogram_opts_init(struct spdk_bdev_enable_histogram_opts *opts, size_t size)
   10055             : {
   10056           4 :         if (opts == NULL) {
   10057           0 :                 SPDK_ERRLOG("opts should not be NULL\n");
   10058           0 :                 assert(opts != NULL);
   10059           0 :                 return;
   10060             :         }
   10061           4 :         if (size == 0) {
   10062           0 :                 SPDK_ERRLOG("size should not be zero\n");
   10063           0 :                 assert(size != 0);
   10064           0 :                 return;
   10065             :         }
   10066             : 
   10067           4 :         memset(opts, 0, size);
   10068           4 :         opts->size = size;
   10069             : 
   10070             : #define FIELD_OK(field) \
   10071             :         offsetof(struct spdk_bdev_enable_histogram_opts, field) + sizeof(opts->field) <= size
   10072             : 
   10073             : #define SET_FIELD(field, value) \
   10074             :         if (FIELD_OK(field)) { \
   10075             :                 opts->field = value; \
   10076             :         } \
   10077             : 
   10078           4 :         SET_FIELD(io_type, 0);
   10079             : 
   10080             :         /* You should not remove this statement, but need to update the assert statement
   10081             :          * if you add a new field, and also add a corresponding SET_FIELD statement */
   10082             :         SPDK_STATIC_ASSERT(sizeof(struct spdk_bdev_enable_histogram_opts) == 9, "Incorrect size");
   10083             : 
   10084             : #undef FIELD_OK
   10085             : #undef SET_FIELD
   10086             : }
   10087             : 
   10088             : void
   10089           4 : spdk_bdev_histogram_enable(struct spdk_bdev *bdev, spdk_bdev_histogram_status_cb cb_fn,
   10090             :                            void *cb_arg, bool enable)
   10091             : {
   10092           4 :         struct spdk_bdev_enable_histogram_opts opts;
   10093             : 
   10094           4 :         spdk_bdev_enable_histogram_opts_init(&opts, sizeof(opts));
   10095           4 :         spdk_bdev_histogram_enable_ext(bdev, cb_fn, cb_arg, enable, &opts);
   10096           4 : }
   10097             : 
   10098             : struct spdk_bdev_histogram_data_ctx {
   10099             :         spdk_bdev_histogram_data_cb cb_fn;
   10100             :         void *cb_arg;
   10101             :         struct spdk_bdev *bdev;
   10102             :         /** merged histogram data from all channels */
   10103             :         struct spdk_histogram_data      *histogram;
   10104             : };
   10105             : 
   10106             : static void
   10107           5 : bdev_histogram_get_channel_cb(struct spdk_bdev *bdev, void *_ctx, int status)
   10108             : {
   10109           5 :         struct spdk_bdev_histogram_data_ctx *ctx = _ctx;
   10110             : 
   10111           5 :         ctx->cb_fn(ctx->cb_arg, status, ctx->histogram);
   10112           5 :         free(ctx);
   10113           5 : }
   10114             : 
   10115             : static void
   10116           7 : bdev_histogram_get_channel(struct spdk_bdev_channel_iter *i, struct spdk_bdev *bdev,
   10117             :                            struct spdk_io_channel *_ch, void *_ctx)
   10118             : {
   10119           7 :         struct spdk_bdev_channel *ch = __io_ch_to_bdev_ch(_ch);
   10120           7 :         struct spdk_bdev_histogram_data_ctx *ctx = _ctx;
   10121           7 :         int status = 0;
   10122             : 
   10123           7 :         if (ch->histogram == NULL) {
   10124           1 :                 status = -EFAULT;
   10125             :         } else {
   10126           6 :                 spdk_histogram_data_merge(ctx->histogram, ch->histogram);
   10127             :         }
   10128             : 
   10129           7 :         spdk_bdev_for_each_channel_continue(i, status);
   10130           7 : }
   10131             : 
   10132             : void
   10133           5 : spdk_bdev_histogram_get(struct spdk_bdev *bdev, struct spdk_histogram_data *histogram,
   10134             :                         spdk_bdev_histogram_data_cb cb_fn,
   10135             :                         void *cb_arg)
   10136             : {
   10137             :         struct spdk_bdev_histogram_data_ctx *ctx;
   10138             : 
   10139           5 :         ctx = calloc(1, sizeof(struct spdk_bdev_histogram_data_ctx));
   10140           5 :         if (ctx == NULL) {
   10141           0 :                 cb_fn(cb_arg, -ENOMEM, NULL);
   10142           0 :                 return;
   10143             :         }
   10144             : 
   10145           5 :         ctx->bdev = bdev;
   10146           5 :         ctx->cb_fn = cb_fn;
   10147           5 :         ctx->cb_arg = cb_arg;
   10148             : 
   10149           5 :         ctx->histogram = histogram;
   10150             : 
   10151           5 :         spdk_bdev_for_each_channel(bdev, bdev_histogram_get_channel, ctx,
   10152             :                                    bdev_histogram_get_channel_cb);
   10153             : }
   10154             : 
   10155             : void
   10156           2 : spdk_bdev_channel_get_histogram(struct spdk_io_channel *ch, spdk_bdev_histogram_data_cb cb_fn,
   10157             :                                 void *cb_arg)
   10158             : {
   10159           2 :         struct spdk_bdev_channel *bdev_ch = __io_ch_to_bdev_ch(ch);
   10160           2 :         int status = 0;
   10161             : 
   10162           2 :         assert(cb_fn != NULL);
   10163             : 
   10164           2 :         if (bdev_ch->histogram == NULL) {
   10165           1 :                 status = -EFAULT;
   10166             :         }
   10167           2 :         cb_fn(cb_arg, status, bdev_ch->histogram);
   10168           2 : }
   10169             : 
   10170             : size_t
   10171           0 : spdk_bdev_get_media_events(struct spdk_bdev_desc *desc, struct spdk_bdev_media_event *events,
   10172             :                            size_t max_events)
   10173             : {
   10174             :         struct media_event_entry *entry;
   10175           0 :         size_t num_events = 0;
   10176             : 
   10177           0 :         for (; num_events < max_events; ++num_events) {
   10178           0 :                 entry = TAILQ_FIRST(&desc->pending_media_events);
   10179           0 :                 if (entry == NULL) {
   10180           0 :                         break;
   10181             :                 }
   10182             : 
   10183           0 :                 events[num_events] = entry->event;
   10184           0 :                 TAILQ_REMOVE(&desc->pending_media_events, entry, tailq);
   10185           0 :                 TAILQ_INSERT_TAIL(&desc->free_media_events, entry, tailq);
   10186             :         }
   10187             : 
   10188           0 :         return num_events;
   10189             : }
   10190             : 
   10191             : int
   10192           0 : spdk_bdev_push_media_events(struct spdk_bdev *bdev, const struct spdk_bdev_media_event *events,
   10193             :                             size_t num_events)
   10194             : {
   10195             :         struct spdk_bdev_desc *desc;
   10196             :         struct media_event_entry *entry;
   10197             :         size_t event_id;
   10198           0 :         int rc = 0;
   10199             : 
   10200           0 :         assert(bdev->media_events);
   10201             : 
   10202           0 :         spdk_spin_lock(&bdev->internal.spinlock);
   10203           0 :         TAILQ_FOREACH(desc, &bdev->internal.open_descs, link) {
   10204           0 :                 if (desc->write) {
   10205           0 :                         break;
   10206             :                 }
   10207             :         }
   10208             : 
   10209           0 :         if (desc == NULL || desc->media_events_buffer == NULL) {
   10210           0 :                 rc = -ENODEV;
   10211           0 :                 goto out;
   10212             :         }
   10213             : 
   10214           0 :         for (event_id = 0; event_id < num_events; ++event_id) {
   10215           0 :                 entry = TAILQ_FIRST(&desc->free_media_events);
   10216           0 :                 if (entry == NULL) {
   10217           0 :                         break;
   10218             :                 }
   10219             : 
   10220           0 :                 TAILQ_REMOVE(&desc->free_media_events, entry, tailq);
   10221           0 :                 TAILQ_INSERT_TAIL(&desc->pending_media_events, entry, tailq);
   10222           0 :                 entry->event = events[event_id];
   10223             :         }
   10224             : 
   10225           0 :         rc = event_id;
   10226           0 : out:
   10227           0 :         spdk_spin_unlock(&bdev->internal.spinlock);
   10228           0 :         return rc;
   10229             : }
   10230             : 
   10231             : static void
   10232           0 : _media_management_notify(void *arg)
   10233             : {
   10234           0 :         struct spdk_bdev_desc *desc = arg;
   10235             : 
   10236           0 :         _event_notify(desc, SPDK_BDEV_EVENT_MEDIA_MANAGEMENT);
   10237           0 : }
   10238             : 
   10239             : void
   10240           0 : spdk_bdev_notify_media_management(struct spdk_bdev *bdev)
   10241             : {
   10242             :         struct spdk_bdev_desc *desc;
   10243             : 
   10244           0 :         spdk_spin_lock(&bdev->internal.spinlock);
   10245           0 :         TAILQ_FOREACH(desc, &bdev->internal.open_descs, link) {
   10246           0 :                 if (!TAILQ_EMPTY(&desc->pending_media_events)) {
   10247           0 :                         event_notify(desc, _media_management_notify);
   10248             :                 }
   10249             :         }
   10250           0 :         spdk_spin_unlock(&bdev->internal.spinlock);
   10251           0 : }
   10252             : 
   10253             : struct locked_lba_range_ctx {
   10254             :         struct lba_range                range;
   10255             :         struct lba_range                *current_range;
   10256             :         struct lba_range                *owner_range;
   10257             :         struct spdk_poller              *poller;
   10258             :         lock_range_cb                   cb_fn;
   10259             :         void                            *cb_arg;
   10260             : };
   10261             : 
   10262             : static void
   10263           0 : bdev_lock_error_cleanup_cb(struct spdk_bdev *bdev, void *_ctx, int status)
   10264             : {
   10265           0 :         struct locked_lba_range_ctx *ctx = _ctx;
   10266             : 
   10267           0 :         ctx->cb_fn(&ctx->range, ctx->cb_arg, -ENOMEM);
   10268           0 :         free(ctx);
   10269           0 : }
   10270             : 
   10271             : static void bdev_unlock_lba_range_get_channel(struct spdk_bdev_channel_iter *i,
   10272             :                 struct spdk_bdev *bdev, struct spdk_io_channel *ch, void *_ctx);
   10273             : 
   10274             : static void
   10275          14 : bdev_lock_lba_range_cb(struct spdk_bdev *bdev, void *_ctx, int status)
   10276             : {
   10277          14 :         struct locked_lba_range_ctx *ctx = _ctx;
   10278             : 
   10279          14 :         if (status == -ENOMEM) {
   10280             :                 /* One of the channels could not allocate a range object.
   10281             :                  * So we have to go back and clean up any ranges that were
   10282             :                  * allocated successfully before we return error status to
   10283             :                  * the caller.  We can reuse the unlock function to do that
   10284             :                  * clean up.
   10285             :                  */
   10286           0 :                 spdk_bdev_for_each_channel(bdev, bdev_unlock_lba_range_get_channel, ctx,
   10287             :                                            bdev_lock_error_cleanup_cb);
   10288           0 :                 return;
   10289             :         }
   10290             : 
   10291             :         /* All channels have locked this range and no I/O overlapping the range
   10292             :          * are outstanding!  Set the owner_ch for the range object for the
   10293             :          * locking channel, so that this channel will know that it is allowed
   10294             :          * to write to this range.
   10295             :          */
   10296          14 :         if (ctx->owner_range != NULL) {
   10297          10 :                 ctx->owner_range->owner_ch = ctx->range.owner_ch;
   10298             :         }
   10299             : 
   10300          14 :         ctx->cb_fn(&ctx->range, ctx->cb_arg, status);
   10301             : 
   10302             :         /* Don't free the ctx here.  Its range is in the bdev's global list of
   10303             :          * locked ranges still, and will be removed and freed when this range
   10304             :          * is later unlocked.
   10305             :          */
   10306             : }
   10307             : 
   10308             : static int
   10309          17 : bdev_lock_lba_range_check_io(void *_i)
   10310             : {
   10311          17 :         struct spdk_bdev_channel_iter *i = _i;
   10312          17 :         struct spdk_io_channel *_ch = spdk_io_channel_iter_get_channel(i->i);
   10313          17 :         struct spdk_bdev_channel *ch = __io_ch_to_bdev_ch(_ch);
   10314          17 :         struct locked_lba_range_ctx *ctx = i->ctx;
   10315          17 :         struct lba_range *range = ctx->current_range;
   10316             :         struct spdk_bdev_io *bdev_io;
   10317             : 
   10318          17 :         spdk_poller_unregister(&ctx->poller);
   10319             : 
   10320             :         /* The range is now in the locked_ranges, so no new IO can be submitted to this
   10321             :          * range.  But we need to wait until any outstanding IO overlapping with this range
   10322             :          * are completed.
   10323             :          */
   10324          18 :         TAILQ_FOREACH(bdev_io, &ch->io_submitted, internal.ch_link) {
   10325           3 :                 if (bdev_io_range_is_locked(bdev_io, range)) {
   10326           2 :                         ctx->poller = SPDK_POLLER_REGISTER(bdev_lock_lba_range_check_io, i, 100);
   10327           2 :                         return SPDK_POLLER_BUSY;
   10328             :                 }
   10329             :         }
   10330             : 
   10331          15 :         spdk_bdev_for_each_channel_continue(i, 0);
   10332          15 :         return SPDK_POLLER_BUSY;
   10333             : }
   10334             : 
   10335             : static void
   10336          15 : bdev_lock_lba_range_get_channel(struct spdk_bdev_channel_iter *i, struct spdk_bdev *bdev,
   10337             :                                 struct spdk_io_channel *_ch, void *_ctx)
   10338             : {
   10339          15 :         struct spdk_bdev_channel *ch = __io_ch_to_bdev_ch(_ch);
   10340          15 :         struct locked_lba_range_ctx *ctx = _ctx;
   10341             :         struct lba_range *range;
   10342             : 
   10343          16 :         TAILQ_FOREACH(range, &ch->locked_ranges, tailq) {
   10344           1 :                 if (range->length == ctx->range.length &&
   10345           0 :                     range->offset == ctx->range.offset &&
   10346           0 :                     range->locked_ctx == ctx->range.locked_ctx) {
   10347             :                         /* This range already exists on this channel, so don't add
   10348             :                          * it again.  This can happen when a new channel is created
   10349             :                          * while the for_each_channel operation is in progress.
   10350             :                          * Do not check for outstanding I/O in that case, since the
   10351             :                          * range was locked before any I/O could be submitted to the
   10352             :                          * new channel.
   10353             :                          */
   10354           0 :                         spdk_bdev_for_each_channel_continue(i, 0);
   10355           0 :                         return;
   10356             :                 }
   10357             :         }
   10358             : 
   10359          15 :         range = calloc(1, sizeof(*range));
   10360          15 :         if (range == NULL) {
   10361           0 :                 spdk_bdev_for_each_channel_continue(i, -ENOMEM);
   10362           0 :                 return;
   10363             :         }
   10364             : 
   10365          15 :         range->length = ctx->range.length;
   10366          15 :         range->offset = ctx->range.offset;
   10367          15 :         range->locked_ctx = ctx->range.locked_ctx;
   10368          15 :         range->quiesce = ctx->range.quiesce;
   10369          15 :         ctx->current_range = range;
   10370          15 :         if (ctx->range.owner_ch == ch) {
   10371             :                 /* This is the range object for the channel that will hold
   10372             :                  * the lock.  Store it in the ctx object so that we can easily
   10373             :                  * set its owner_ch after the lock is finally acquired.
   10374             :                  */
   10375          10 :                 ctx->owner_range = range;
   10376             :         }
   10377          15 :         TAILQ_INSERT_TAIL(&ch->locked_ranges, range, tailq);
   10378          15 :         bdev_lock_lba_range_check_io(i);
   10379             : }
   10380             : 
   10381             : static void
   10382          14 : bdev_lock_lba_range_ctx(struct spdk_bdev *bdev, struct locked_lba_range_ctx *ctx)
   10383             : {
   10384          14 :         assert(spdk_get_thread() == ctx->range.owner_thread);
   10385          14 :         assert(ctx->range.owner_ch == NULL ||
   10386             :                spdk_io_channel_get_thread(ctx->range.owner_ch->channel) == ctx->range.owner_thread);
   10387             : 
   10388             :         /* We will add a copy of this range to each channel now. */
   10389          14 :         spdk_bdev_for_each_channel(bdev, bdev_lock_lba_range_get_channel, ctx,
   10390             :                                    bdev_lock_lba_range_cb);
   10391          14 : }
   10392             : 
   10393             : static bool
   10394          17 : bdev_lba_range_overlaps_tailq(struct lba_range *range, lba_range_tailq_t *tailq)
   10395             : {
   10396             :         struct lba_range *r;
   10397             : 
   10398          18 :         TAILQ_FOREACH(r, tailq, tailq) {
   10399           4 :                 if (bdev_lba_range_overlapped(range, r)) {
   10400           3 :                         return true;
   10401             :                 }
   10402             :         }
   10403          14 :         return false;
   10404             : }
   10405             : 
   10406             : static void bdev_quiesce_range_locked(struct lba_range *range, void *ctx, int status);
   10407             : 
   10408             : static int
   10409          14 : _bdev_lock_lba_range(struct spdk_bdev *bdev, struct spdk_bdev_channel *ch,
   10410             :                      uint64_t offset, uint64_t length,
   10411             :                      lock_range_cb cb_fn, void *cb_arg)
   10412             : {
   10413             :         struct locked_lba_range_ctx *ctx;
   10414             : 
   10415          14 :         ctx = calloc(1, sizeof(*ctx));
   10416          14 :         if (ctx == NULL) {
   10417           0 :                 return -ENOMEM;
   10418             :         }
   10419             : 
   10420          14 :         ctx->range.offset = offset;
   10421          14 :         ctx->range.length = length;
   10422          14 :         ctx->range.owner_thread = spdk_get_thread();
   10423          14 :         ctx->range.owner_ch = ch;
   10424          14 :         ctx->range.locked_ctx = cb_arg;
   10425          14 :         ctx->range.bdev = bdev;
   10426          14 :         ctx->range.quiesce = (cb_fn == bdev_quiesce_range_locked);
   10427          14 :         ctx->cb_fn = cb_fn;
   10428          14 :         ctx->cb_arg = cb_arg;
   10429             : 
   10430          14 :         spdk_spin_lock(&bdev->internal.spinlock);
   10431          14 :         if (bdev_lba_range_overlaps_tailq(&ctx->range, &bdev->internal.locked_ranges)) {
   10432             :                 /* There is an active lock overlapping with this range.
   10433             :                  * Put it on the pending list until this range no
   10434             :                  * longer overlaps with another.
   10435             :                  */
   10436           2 :                 TAILQ_INSERT_TAIL(&bdev->internal.pending_locked_ranges, &ctx->range, tailq);
   10437             :         } else {
   10438          12 :                 TAILQ_INSERT_TAIL(&bdev->internal.locked_ranges, &ctx->range, tailq);
   10439          12 :                 bdev_lock_lba_range_ctx(bdev, ctx);
   10440             :         }
   10441          14 :         spdk_spin_unlock(&bdev->internal.spinlock);
   10442          14 :         return 0;
   10443             : }
   10444             : 
   10445             : static int
   10446          10 : bdev_lock_lba_range(struct spdk_bdev_desc *desc, struct spdk_io_channel *_ch,
   10447             :                     uint64_t offset, uint64_t length,
   10448             :                     lock_range_cb cb_fn, void *cb_arg)
   10449             : {
   10450          10 :         struct spdk_bdev *bdev = spdk_bdev_desc_get_bdev(desc);
   10451          10 :         struct spdk_bdev_channel *ch = __io_ch_to_bdev_ch(_ch);
   10452             : 
   10453          10 :         if (cb_arg == NULL) {
   10454           0 :                 SPDK_ERRLOG("cb_arg must not be NULL\n");
   10455           0 :                 return -EINVAL;
   10456             :         }
   10457             : 
   10458          10 :         return _bdev_lock_lba_range(bdev, ch, offset, length, cb_fn, cb_arg);
   10459             : }
   10460             : 
   10461             : static void
   10462           2 : bdev_lock_lba_range_ctx_msg(void *_ctx)
   10463             : {
   10464           2 :         struct locked_lba_range_ctx *ctx = _ctx;
   10465             : 
   10466           2 :         bdev_lock_lba_range_ctx(ctx->range.bdev, ctx);
   10467           2 : }
   10468             : 
   10469             : static void
   10470          14 : bdev_unlock_lba_range_cb(struct spdk_bdev *bdev, void *_ctx, int status)
   10471             : {
   10472          14 :         struct locked_lba_range_ctx *ctx = _ctx;
   10473             :         struct locked_lba_range_ctx *pending_ctx;
   10474             :         struct lba_range *range, *tmp;
   10475             : 
   10476          14 :         spdk_spin_lock(&bdev->internal.spinlock);
   10477             :         /* Check if there are any pending locked ranges that overlap with this range
   10478             :          * that was just unlocked.  If there are, check that it doesn't overlap with any
   10479             :          * other locked ranges before calling bdev_lock_lba_range_ctx which will start
   10480             :          * the lock process.
   10481             :          */
   10482          17 :         TAILQ_FOREACH_SAFE(range, &bdev->internal.pending_locked_ranges, tailq, tmp) {
   10483           3 :                 if (bdev_lba_range_overlapped(range, &ctx->range) &&
   10484           3 :                     !bdev_lba_range_overlaps_tailq(range, &bdev->internal.locked_ranges)) {
   10485           2 :                         TAILQ_REMOVE(&bdev->internal.pending_locked_ranges, range, tailq);
   10486           2 :                         pending_ctx = SPDK_CONTAINEROF(range, struct locked_lba_range_ctx, range);
   10487           2 :                         TAILQ_INSERT_TAIL(&bdev->internal.locked_ranges, range, tailq);
   10488           2 :                         spdk_thread_send_msg(pending_ctx->range.owner_thread,
   10489             :                                              bdev_lock_lba_range_ctx_msg, pending_ctx);
   10490             :                 }
   10491             :         }
   10492          14 :         spdk_spin_unlock(&bdev->internal.spinlock);
   10493             : 
   10494          14 :         ctx->cb_fn(&ctx->range, ctx->cb_arg, status);
   10495          14 :         free(ctx);
   10496          14 : }
   10497             : 
   10498             : static void
   10499          16 : bdev_unlock_lba_range_get_channel(struct spdk_bdev_channel_iter *i, struct spdk_bdev *bdev,
   10500             :                                   struct spdk_io_channel *_ch, void *_ctx)
   10501             : {
   10502          16 :         struct spdk_bdev_channel *ch = __io_ch_to_bdev_ch(_ch);
   10503          16 :         struct locked_lba_range_ctx *ctx = _ctx;
   10504          16 :         TAILQ_HEAD(, spdk_bdev_io) io_locked;
   10505             :         struct spdk_bdev_io *bdev_io;
   10506             :         struct lba_range *range;
   10507             : 
   10508          16 :         TAILQ_FOREACH(range, &ch->locked_ranges, tailq) {
   10509          16 :                 if (ctx->range.offset == range->offset &&
   10510          16 :                     ctx->range.length == range->length &&
   10511          16 :                     ctx->range.locked_ctx == range->locked_ctx) {
   10512          16 :                         TAILQ_REMOVE(&ch->locked_ranges, range, tailq);
   10513          16 :                         free(range);
   10514          16 :                         break;
   10515             :                 }
   10516             :         }
   10517             : 
   10518             :         /* Note: we should almost always be able to assert that the range specified
   10519             :          * was found.  But there are some very rare corner cases where a new channel
   10520             :          * gets created simultaneously with a range unlock, where this function
   10521             :          * would execute on that new channel and wouldn't have the range.
   10522             :          * We also use this to clean up range allocations when a later allocation
   10523             :          * fails in the locking path.
   10524             :          * So we can't actually assert() here.
   10525             :          */
   10526             : 
   10527             :         /* Swap the locked IO into a temporary list, and then try to submit them again.
   10528             :          * We could hyper-optimize this to only resubmit locked I/O that overlap
   10529             :          * with the range that was just unlocked, but this isn't a performance path so
   10530             :          * we go for simplicity here.
   10531             :          */
   10532          16 :         TAILQ_INIT(&io_locked);
   10533          16 :         TAILQ_SWAP(&ch->io_locked, &io_locked, spdk_bdev_io, internal.ch_link);
   10534          19 :         while (!TAILQ_EMPTY(&io_locked)) {
   10535           3 :                 bdev_io = TAILQ_FIRST(&io_locked);
   10536           3 :                 TAILQ_REMOVE(&io_locked, bdev_io, internal.ch_link);
   10537           3 :                 bdev_io_submit(bdev_io);
   10538             :         }
   10539             : 
   10540          16 :         spdk_bdev_for_each_channel_continue(i, 0);
   10541          16 : }
   10542             : 
   10543             : static int
   10544          14 : _bdev_unlock_lba_range(struct spdk_bdev *bdev, uint64_t offset, uint64_t length,
   10545             :                        lock_range_cb cb_fn, void *cb_arg)
   10546             : {
   10547             :         struct locked_lba_range_ctx *ctx;
   10548             :         struct lba_range *range;
   10549             : 
   10550          14 :         spdk_spin_lock(&bdev->internal.spinlock);
   10551             :         /* To start the unlock the process, we find the range in the bdev's locked_ranges
   10552             :          * and remove it. This ensures new channels don't inherit the locked range.
   10553             :          * Then we will send a message to each channel to remove the range from its
   10554             :          * per-channel list.
   10555             :          */
   10556          14 :         TAILQ_FOREACH(range, &bdev->internal.locked_ranges, tailq) {
   10557          14 :                 if (range->offset == offset && range->length == length &&
   10558          14 :                     (range->owner_ch == NULL || range->locked_ctx == cb_arg)) {
   10559             :                         break;
   10560             :                 }
   10561             :         }
   10562          14 :         if (range == NULL) {
   10563           0 :                 assert(false);
   10564             :                 spdk_spin_unlock(&bdev->internal.spinlock);
   10565             :                 return -EINVAL;
   10566             :         }
   10567          14 :         TAILQ_REMOVE(&bdev->internal.locked_ranges, range, tailq);
   10568          14 :         ctx = SPDK_CONTAINEROF(range, struct locked_lba_range_ctx, range);
   10569          14 :         spdk_spin_unlock(&bdev->internal.spinlock);
   10570             : 
   10571          14 :         ctx->cb_fn = cb_fn;
   10572          14 :         ctx->cb_arg = cb_arg;
   10573             : 
   10574          14 :         spdk_bdev_for_each_channel(bdev, bdev_unlock_lba_range_get_channel, ctx,
   10575             :                                    bdev_unlock_lba_range_cb);
   10576          14 :         return 0;
   10577             : }
   10578             : 
   10579             : static int
   10580          12 : bdev_unlock_lba_range(struct spdk_bdev_desc *desc, struct spdk_io_channel *_ch,
   10581             :                       uint64_t offset, uint64_t length,
   10582             :                       lock_range_cb cb_fn, void *cb_arg)
   10583             : {
   10584          12 :         struct spdk_bdev *bdev = spdk_bdev_desc_get_bdev(desc);
   10585          12 :         struct spdk_bdev_channel *ch = __io_ch_to_bdev_ch(_ch);
   10586             :         struct lba_range *range;
   10587          12 :         bool range_found = false;
   10588             : 
   10589             :         /* Let's make sure the specified channel actually has a lock on
   10590             :          * the specified range.  Note that the range must match exactly.
   10591             :          */
   10592          14 :         TAILQ_FOREACH(range, &ch->locked_ranges, tailq) {
   10593          12 :                 if (range->offset == offset && range->length == length &&
   10594          11 :                     range->owner_ch == ch && range->locked_ctx == cb_arg) {
   10595          10 :                         range_found = true;
   10596          10 :                         break;
   10597             :                 }
   10598             :         }
   10599             : 
   10600          12 :         if (!range_found) {
   10601           2 :                 return -EINVAL;
   10602             :         }
   10603             : 
   10604          10 :         return _bdev_unlock_lba_range(bdev, offset, length, cb_fn, cb_arg);
   10605             : }
   10606             : 
   10607             : struct bdev_quiesce_ctx {
   10608             :         spdk_bdev_quiesce_cb cb_fn;
   10609             :         void *cb_arg;
   10610             : };
   10611             : 
   10612             : static void
   10613           4 : bdev_unquiesce_range_unlocked(struct lba_range *range, void *ctx, int status)
   10614             : {
   10615           4 :         struct bdev_quiesce_ctx *quiesce_ctx = ctx;
   10616             : 
   10617           4 :         if (quiesce_ctx->cb_fn != NULL) {
   10618           4 :                 quiesce_ctx->cb_fn(quiesce_ctx->cb_arg, status);
   10619             :         }
   10620             : 
   10621           4 :         free(quiesce_ctx);
   10622           4 : }
   10623             : 
   10624             : static void
   10625           4 : bdev_quiesce_range_locked(struct lba_range *range, void *ctx, int status)
   10626             : {
   10627           4 :         struct bdev_quiesce_ctx *quiesce_ctx = ctx;
   10628           4 :         struct spdk_bdev_module *module = range->bdev->module;
   10629             : 
   10630           4 :         if (status != 0) {
   10631           0 :                 if (quiesce_ctx->cb_fn != NULL) {
   10632           0 :                         quiesce_ctx->cb_fn(quiesce_ctx->cb_arg, status);
   10633             :                 }
   10634           0 :                 free(quiesce_ctx);
   10635           0 :                 return;
   10636             :         }
   10637             : 
   10638           4 :         spdk_spin_lock(&module->internal.spinlock);
   10639           4 :         TAILQ_INSERT_TAIL(&module->internal.quiesced_ranges, range, tailq_module);
   10640           4 :         spdk_spin_unlock(&module->internal.spinlock);
   10641             : 
   10642           4 :         if (quiesce_ctx->cb_fn != NULL) {
   10643             :                 /* copy the context in case the range is unlocked by the callback */
   10644           4 :                 struct bdev_quiesce_ctx tmp = *quiesce_ctx;
   10645             : 
   10646           4 :                 quiesce_ctx->cb_fn = NULL;
   10647           4 :                 quiesce_ctx->cb_arg = NULL;
   10648             : 
   10649           4 :                 tmp.cb_fn(tmp.cb_arg, status);
   10650             :         }
   10651             :         /* quiesce_ctx will be freed on unquiesce */
   10652             : }
   10653             : 
   10654             : static int
   10655           9 : _spdk_bdev_quiesce(struct spdk_bdev *bdev, struct spdk_bdev_module *module,
   10656             :                    uint64_t offset, uint64_t length,
   10657             :                    spdk_bdev_quiesce_cb cb_fn, void *cb_arg,
   10658             :                    bool unquiesce)
   10659             : {
   10660             :         struct bdev_quiesce_ctx *quiesce_ctx;
   10661             :         int rc;
   10662             : 
   10663           9 :         if (module != bdev->module) {
   10664           0 :                 SPDK_ERRLOG("Bdev does not belong to specified module.\n");
   10665           0 :                 return -EINVAL;
   10666             :         }
   10667             : 
   10668           9 :         if (!bdev_io_valid_blocks(bdev, offset, length)) {
   10669           0 :                 return -EINVAL;
   10670             :         }
   10671             : 
   10672           9 :         if (unquiesce) {
   10673             :                 struct lba_range *range;
   10674             : 
   10675             :                 /* Make sure the specified range is actually quiesced in the specified module and
   10676             :                  * then remove it from the list. Note that the range must match exactly.
   10677             :                  */
   10678           5 :                 spdk_spin_lock(&module->internal.spinlock);
   10679           6 :                 TAILQ_FOREACH(range, &module->internal.quiesced_ranges, tailq_module) {
   10680           5 :                         if (range->bdev == bdev && range->offset == offset && range->length == length) {
   10681           4 :                                 TAILQ_REMOVE(&module->internal.quiesced_ranges, range, tailq_module);
   10682           4 :                                 break;
   10683             :                         }
   10684             :                 }
   10685           5 :                 spdk_spin_unlock(&module->internal.spinlock);
   10686             : 
   10687           5 :                 if (range == NULL) {
   10688           1 :                         SPDK_ERRLOG("The range to unquiesce was not found.\n");
   10689           1 :                         return -EINVAL;
   10690             :                 }
   10691             : 
   10692           4 :                 quiesce_ctx = range->locked_ctx;
   10693           4 :                 quiesce_ctx->cb_fn = cb_fn;
   10694           4 :                 quiesce_ctx->cb_arg = cb_arg;
   10695             : 
   10696           4 :                 rc = _bdev_unlock_lba_range(bdev, offset, length, bdev_unquiesce_range_unlocked, quiesce_ctx);
   10697             :         } else {
   10698           4 :                 quiesce_ctx = malloc(sizeof(*quiesce_ctx));
   10699           4 :                 if (quiesce_ctx == NULL) {
   10700           0 :                         return -ENOMEM;
   10701             :                 }
   10702             : 
   10703           4 :                 quiesce_ctx->cb_fn = cb_fn;
   10704           4 :                 quiesce_ctx->cb_arg = cb_arg;
   10705             : 
   10706           4 :                 rc = _bdev_lock_lba_range(bdev, NULL, offset, length, bdev_quiesce_range_locked, quiesce_ctx);
   10707           4 :                 if (rc != 0) {
   10708           0 :                         free(quiesce_ctx);
   10709             :                 }
   10710             :         }
   10711             : 
   10712           8 :         return rc;
   10713             : }
   10714             : 
   10715             : int
   10716           3 : spdk_bdev_quiesce(struct spdk_bdev *bdev, struct spdk_bdev_module *module,
   10717             :                   spdk_bdev_quiesce_cb cb_fn, void *cb_arg)
   10718             : {
   10719           3 :         return _spdk_bdev_quiesce(bdev, module, 0, bdev->blockcnt, cb_fn, cb_arg, false);
   10720             : }
   10721             : 
   10722             : int
   10723           3 : spdk_bdev_unquiesce(struct spdk_bdev *bdev, struct spdk_bdev_module *module,
   10724             :                     spdk_bdev_quiesce_cb cb_fn, void *cb_arg)
   10725             : {
   10726           3 :         return _spdk_bdev_quiesce(bdev, module, 0, bdev->blockcnt, cb_fn, cb_arg, true);
   10727             : }
   10728             : 
   10729             : int
   10730           1 : spdk_bdev_quiesce_range(struct spdk_bdev *bdev, struct spdk_bdev_module *module,
   10731             :                         uint64_t offset, uint64_t length,
   10732             :                         spdk_bdev_quiesce_cb cb_fn, void *cb_arg)
   10733             : {
   10734           1 :         return _spdk_bdev_quiesce(bdev, module, offset, length, cb_fn, cb_arg, false);
   10735             : }
   10736             : 
   10737             : int
   10738           2 : spdk_bdev_unquiesce_range(struct spdk_bdev *bdev, struct spdk_bdev_module *module,
   10739             :                           uint64_t offset, uint64_t length,
   10740             :                           spdk_bdev_quiesce_cb cb_fn, void *cb_arg)
   10741             : {
   10742           2 :         return _spdk_bdev_quiesce(bdev, module, offset, length, cb_fn, cb_arg, true);
   10743             : }
   10744             : 
   10745             : int
   10746         283 : spdk_bdev_get_memory_domains(struct spdk_bdev *bdev, struct spdk_memory_domain **domains,
   10747             :                              int array_size)
   10748             : {
   10749         283 :         if (!bdev) {
   10750           1 :                 return -EINVAL;
   10751             :         }
   10752             : 
   10753         282 :         if (bdev->fn_table->get_memory_domains) {
   10754           3 :                 return bdev->fn_table->get_memory_domains(bdev->ctxt, domains, array_size);
   10755             :         }
   10756             : 
   10757         279 :         return 0;
   10758             : }
   10759             : 
   10760             : struct spdk_bdev_for_each_io_ctx {
   10761             :         void *ctx;
   10762             :         spdk_bdev_io_fn fn;
   10763             :         spdk_bdev_for_each_io_cb cb;
   10764             : };
   10765             : 
   10766             : static void
   10767           0 : bdev_channel_for_each_io(struct spdk_bdev_channel_iter *i, struct spdk_bdev *bdev,
   10768             :                          struct spdk_io_channel *io_ch, void *_ctx)
   10769             : {
   10770           0 :         struct spdk_bdev_for_each_io_ctx *ctx = _ctx;
   10771           0 :         struct spdk_bdev_channel *bdev_ch = __io_ch_to_bdev_ch(io_ch);
   10772             :         struct spdk_bdev_io *bdev_io;
   10773           0 :         int rc = 0;
   10774             : 
   10775           0 :         TAILQ_FOREACH(bdev_io, &bdev_ch->io_submitted, internal.ch_link) {
   10776           0 :                 rc = ctx->fn(ctx->ctx, bdev_io);
   10777           0 :                 if (rc != 0) {
   10778           0 :                         break;
   10779             :                 }
   10780             :         }
   10781             : 
   10782           0 :         spdk_bdev_for_each_channel_continue(i, rc);
   10783           0 : }
   10784             : 
   10785             : static void
   10786           0 : bdev_for_each_io_done(struct spdk_bdev *bdev, void *_ctx, int status)
   10787             : {
   10788           0 :         struct spdk_bdev_for_each_io_ctx *ctx = _ctx;
   10789             : 
   10790           0 :         ctx->cb(ctx->ctx, status);
   10791             : 
   10792           0 :         free(ctx);
   10793           0 : }
   10794             : 
   10795             : void
   10796           0 : spdk_bdev_for_each_bdev_io(struct spdk_bdev *bdev, void *_ctx, spdk_bdev_io_fn fn,
   10797             :                            spdk_bdev_for_each_io_cb cb)
   10798             : {
   10799             :         struct spdk_bdev_for_each_io_ctx *ctx;
   10800             : 
   10801           0 :         assert(fn != NULL && cb != NULL);
   10802             : 
   10803           0 :         ctx = calloc(1, sizeof(*ctx));
   10804           0 :         if (ctx == NULL) {
   10805           0 :                 SPDK_ERRLOG("Failed to allocate context.\n");
   10806           0 :                 cb(_ctx, -ENOMEM);
   10807           0 :                 return;
   10808             :         }
   10809             : 
   10810           0 :         ctx->ctx = _ctx;
   10811           0 :         ctx->fn = fn;
   10812           0 :         ctx->cb = cb;
   10813             : 
   10814           0 :         spdk_bdev_for_each_channel(bdev, bdev_channel_for_each_io, ctx,
   10815             :                                    bdev_for_each_io_done);
   10816             : }
   10817             : 
   10818             : void
   10819         135 : spdk_bdev_for_each_channel_continue(struct spdk_bdev_channel_iter *iter, int status)
   10820             : {
   10821         135 :         spdk_for_each_channel_continue(iter->i, status);
   10822         135 : }
   10823             : 
   10824             : static struct spdk_bdev *
   10825         371 : io_channel_iter_get_bdev(struct spdk_io_channel_iter *i)
   10826             : {
   10827         371 :         void *io_device = spdk_io_channel_iter_get_io_device(i);
   10828             : 
   10829         371 :         return __bdev_from_io_dev(io_device);
   10830             : }
   10831             : 
   10832             : static void
   10833         135 : bdev_each_channel_msg(struct spdk_io_channel_iter *i)
   10834             : {
   10835         135 :         struct spdk_bdev_channel_iter *iter = spdk_io_channel_iter_get_ctx(i);
   10836         135 :         struct spdk_bdev *bdev = io_channel_iter_get_bdev(i);
   10837         135 :         struct spdk_io_channel *ch = spdk_io_channel_iter_get_channel(i);
   10838             : 
   10839         135 :         iter->i = i;
   10840         135 :         iter->fn(iter, bdev, ch, iter->ctx);
   10841         135 : }
   10842             : 
   10843             : static void
   10844         236 : bdev_each_channel_cpl(struct spdk_io_channel_iter *i, int status)
   10845             : {
   10846         236 :         struct spdk_bdev_channel_iter *iter = spdk_io_channel_iter_get_ctx(i);
   10847         236 :         struct spdk_bdev *bdev = io_channel_iter_get_bdev(i);
   10848             : 
   10849         236 :         iter->i = i;
   10850         236 :         iter->cpl(bdev, iter->ctx, status);
   10851             : 
   10852         236 :         free(iter);
   10853         236 : }
   10854             : 
   10855             : void
   10856         236 : spdk_bdev_for_each_channel(struct spdk_bdev *bdev, spdk_bdev_for_each_channel_msg fn,
   10857             :                            void *ctx, spdk_bdev_for_each_channel_done cpl)
   10858             : {
   10859             :         struct spdk_bdev_channel_iter *iter;
   10860             : 
   10861         236 :         assert(bdev != NULL && fn != NULL && ctx != NULL);
   10862             : 
   10863         236 :         iter = calloc(1, sizeof(struct spdk_bdev_channel_iter));
   10864         236 :         if (iter == NULL) {
   10865           0 :                 SPDK_ERRLOG("Unable to allocate iterator\n");
   10866           0 :                 assert(false);
   10867             :                 return;
   10868             :         }
   10869             : 
   10870         236 :         iter->fn = fn;
   10871         236 :         iter->cpl = cpl;
   10872         236 :         iter->ctx = ctx;
   10873             : 
   10874         236 :         spdk_for_each_channel(__bdev_to_io_dev(bdev), bdev_each_channel_msg,
   10875             :                               iter, bdev_each_channel_cpl);
   10876             : }
   10877             : 
   10878             : static void
   10879           3 : bdev_copy_do_write_done(struct spdk_bdev_io *bdev_io, bool success, void *cb_arg)
   10880             : {
   10881           3 :         struct spdk_bdev_io *parent_io = cb_arg;
   10882             : 
   10883           3 :         spdk_bdev_free_io(bdev_io);
   10884             : 
   10885             :         /* Check return status of write */
   10886           3 :         parent_io->internal.status = success ? SPDK_BDEV_IO_STATUS_SUCCESS : SPDK_BDEV_IO_STATUS_FAILED;
   10887           3 :         parent_io->internal.cb(parent_io, success, parent_io->internal.caller_ctx);
   10888           3 : }
   10889             : 
   10890             : static void
   10891           3 : bdev_copy_do_write(void *_bdev_io)
   10892             : {
   10893           3 :         struct spdk_bdev_io *bdev_io = _bdev_io;
   10894             :         int rc;
   10895             : 
   10896             :         /* Write blocks */
   10897           6 :         rc = spdk_bdev_write_blocks_with_md(bdev_io->internal.desc,
   10898           3 :                                             spdk_io_channel_from_ctx(bdev_io->internal.ch),
   10899           3 :                                             bdev_io->u.bdev.iovs[0].iov_base,
   10900             :                                             bdev_io->u.bdev.md_buf, bdev_io->u.bdev.offset_blocks,
   10901             :                                             bdev_io->u.bdev.num_blocks, bdev_copy_do_write_done, bdev_io);
   10902             : 
   10903           3 :         if (rc == -ENOMEM) {
   10904           0 :                 bdev_queue_io_wait_with_cb(bdev_io, bdev_copy_do_write);
   10905           3 :         } else if (rc != 0) {
   10906           0 :                 bdev_io->internal.status = SPDK_BDEV_IO_STATUS_FAILED;
   10907           0 :                 bdev_io->internal.cb(bdev_io, false, bdev_io->internal.caller_ctx);
   10908             :         }
   10909           3 : }
   10910             : 
   10911             : static void
   10912           3 : bdev_copy_do_read_done(struct spdk_bdev_io *bdev_io, bool success, void *cb_arg)
   10913             : {
   10914           3 :         struct spdk_bdev_io *parent_io = cb_arg;
   10915             : 
   10916           3 :         spdk_bdev_free_io(bdev_io);
   10917             : 
   10918             :         /* Check return status of read */
   10919           3 :         if (!success) {
   10920           0 :                 parent_io->internal.status = SPDK_BDEV_IO_STATUS_FAILED;
   10921           0 :                 parent_io->internal.cb(parent_io, false, parent_io->internal.caller_ctx);
   10922           0 :                 return;
   10923             :         }
   10924             : 
   10925             :         /* Do write */
   10926           3 :         bdev_copy_do_write(parent_io);
   10927             : }
   10928             : 
   10929             : static void
   10930           3 : bdev_copy_do_read(void *_bdev_io)
   10931             : {
   10932           3 :         struct spdk_bdev_io *bdev_io = _bdev_io;
   10933             :         int rc;
   10934             : 
   10935             :         /* Read blocks */
   10936           6 :         rc = spdk_bdev_read_blocks_with_md(bdev_io->internal.desc,
   10937           3 :                                            spdk_io_channel_from_ctx(bdev_io->internal.ch),
   10938           3 :                                            bdev_io->u.bdev.iovs[0].iov_base,
   10939             :                                            bdev_io->u.bdev.md_buf, bdev_io->u.bdev.copy.src_offset_blocks,
   10940             :                                            bdev_io->u.bdev.num_blocks, bdev_copy_do_read_done, bdev_io);
   10941             : 
   10942           3 :         if (rc == -ENOMEM) {
   10943           0 :                 bdev_queue_io_wait_with_cb(bdev_io, bdev_copy_do_read);
   10944           3 :         } else if (rc != 0) {
   10945           0 :                 bdev_io->internal.status = SPDK_BDEV_IO_STATUS_FAILED;
   10946           0 :                 bdev_io->internal.cb(bdev_io, false, bdev_io->internal.caller_ctx);
   10947             :         }
   10948           3 : }
   10949             : 
   10950             : static void
   10951           3 : bdev_copy_get_buf_cb(struct spdk_io_channel *ch, struct spdk_bdev_io *bdev_io, bool success)
   10952             : {
   10953           3 :         if (!success) {
   10954           0 :                 bdev_io->internal.status = SPDK_BDEV_IO_STATUS_FAILED;
   10955           0 :                 bdev_io->internal.cb(bdev_io, false, bdev_io->internal.caller_ctx);
   10956           0 :                 return;
   10957             :         }
   10958             : 
   10959           3 :         bdev_copy_do_read(bdev_io);
   10960             : }
   10961             : 
   10962             : int
   10963          27 : spdk_bdev_copy_blocks(struct spdk_bdev_desc *desc, struct spdk_io_channel *ch,
   10964             :                       uint64_t dst_offset_blocks, uint64_t src_offset_blocks, uint64_t num_blocks,
   10965             :                       spdk_bdev_io_completion_cb cb, void *cb_arg)
   10966             : {
   10967          27 :         struct spdk_bdev *bdev = spdk_bdev_desc_get_bdev(desc);
   10968             :         struct spdk_bdev_io *bdev_io;
   10969          27 :         struct spdk_bdev_channel *channel = spdk_io_channel_get_ctx(ch);
   10970             : 
   10971          27 :         if (!desc->write) {
   10972           0 :                 return -EBADF;
   10973             :         }
   10974             : 
   10975          27 :         if (!bdev_io_valid_blocks(bdev, dst_offset_blocks, num_blocks) ||
   10976          27 :             !bdev_io_valid_blocks(bdev, src_offset_blocks, num_blocks)) {
   10977           0 :                 SPDK_DEBUGLOG(bdev,
   10978             :                               "Invalid offset or number of blocks: dst %lu, src %lu, count %lu\n",
   10979             :                               dst_offset_blocks, src_offset_blocks, num_blocks);
   10980           0 :                 return -EINVAL;
   10981             :         }
   10982             : 
   10983          27 :         bdev_io = bdev_channel_get_io(channel);
   10984          27 :         if (!bdev_io) {
   10985           0 :                 return -ENOMEM;
   10986             :         }
   10987             : 
   10988          27 :         bdev_io->internal.ch = channel;
   10989          27 :         bdev_io->internal.desc = desc;
   10990          27 :         bdev_io->type = SPDK_BDEV_IO_TYPE_COPY;
   10991             : 
   10992          27 :         bdev_io->u.bdev.offset_blocks = dst_offset_blocks;
   10993          27 :         bdev_io->u.bdev.copy.src_offset_blocks = src_offset_blocks;
   10994          27 :         bdev_io->u.bdev.num_blocks = num_blocks;
   10995          27 :         bdev_io->u.bdev.memory_domain = NULL;
   10996          27 :         bdev_io->u.bdev.memory_domain_ctx = NULL;
   10997          27 :         bdev_io->u.bdev.iovs = NULL;
   10998          27 :         bdev_io->u.bdev.iovcnt = 0;
   10999          27 :         bdev_io->u.bdev.md_buf = NULL;
   11000          27 :         bdev_io->u.bdev.accel_sequence = NULL;
   11001          27 :         bdev_io_init(bdev_io, bdev, cb_arg, cb);
   11002             : 
   11003          27 :         if (dst_offset_blocks == src_offset_blocks || num_blocks == 0) {
   11004           0 :                 spdk_thread_send_msg(spdk_get_thread(), bdev_io_complete_cb, bdev_io);
   11005           0 :                 return 0;
   11006             :         }
   11007             : 
   11008             : 
   11009             :         /* If the copy size is large and should be split, use the generic split logic
   11010             :          * regardless of whether SPDK_BDEV_IO_TYPE_COPY is supported or not.
   11011             :          *
   11012             :          * Then, send the copy request if SPDK_BDEV_IO_TYPE_COPY is supported or
   11013             :          * emulate it using regular read and write requests otherwise.
   11014             :          */
   11015          27 :         if (spdk_bdev_io_type_supported(bdev, SPDK_BDEV_IO_TYPE_COPY) ||
   11016             :             bdev_io->internal.f.split) {
   11017          24 :                 bdev_io_submit(bdev_io);
   11018          24 :                 return 0;
   11019             :         }
   11020             : 
   11021           3 :         spdk_bdev_io_get_buf(bdev_io, bdev_copy_get_buf_cb, num_blocks * spdk_bdev_get_block_size(bdev));
   11022             : 
   11023           3 :         return 0;
   11024             : }
   11025             : 
   11026           3 : SPDK_LOG_REGISTER_COMPONENT(bdev)
   11027             : 
   11028             : static void
   11029           0 : bdev_trace(void)
   11030             : {
   11031           0 :         struct spdk_trace_tpoint_opts opts[] = {
   11032             :                 {
   11033             :                         "BDEV_IO_START", TRACE_BDEV_IO_START,
   11034             :                         OWNER_TYPE_BDEV, OBJECT_BDEV_IO, 1,
   11035             :                         {
   11036             :                                 { "type", SPDK_TRACE_ARG_TYPE_INT, 8 },
   11037             :                                 { "ctx", SPDK_TRACE_ARG_TYPE_PTR, 8 },
   11038             :                                 { "offset", SPDK_TRACE_ARG_TYPE_INT, 8 },
   11039             :                                 { "qd", SPDK_TRACE_ARG_TYPE_INT, 4 }
   11040             :                         }
   11041             :                 },
   11042             :                 {
   11043             :                         "BDEV_IO_DONE", TRACE_BDEV_IO_DONE,
   11044             :                         OWNER_TYPE_BDEV, OBJECT_BDEV_IO, 0,
   11045             :                         {
   11046             :                                 { "ctx", SPDK_TRACE_ARG_TYPE_PTR, 8 },
   11047             :                                 { "qd", SPDK_TRACE_ARG_TYPE_INT, 4 }
   11048             :                         }
   11049             :                 },
   11050             :                 {
   11051             :                         "BDEV_IOCH_CREATE", TRACE_BDEV_IOCH_CREATE,
   11052             :                         OWNER_TYPE_BDEV, OBJECT_NONE, 0,
   11053             :                         {
   11054             :                                 { "tid", SPDK_TRACE_ARG_TYPE_INT, 8 }
   11055             :                         }
   11056             :                 },
   11057             :                 {
   11058             :                         "BDEV_IOCH_DESTROY", TRACE_BDEV_IOCH_DESTROY,
   11059             :                         OWNER_TYPE_BDEV, OBJECT_NONE, 0,
   11060             :                         {
   11061             :                                 { "tid", SPDK_TRACE_ARG_TYPE_INT, 8 }
   11062             :                         }
   11063             :                 },
   11064             :         };
   11065             : 
   11066             : 
   11067           0 :         spdk_trace_register_owner_type(OWNER_TYPE_BDEV, 'b');
   11068           0 :         spdk_trace_register_object(OBJECT_BDEV_IO, 'i');
   11069           0 :         spdk_trace_register_description_ext(opts, SPDK_COUNTOF(opts));
   11070           0 :         spdk_trace_tpoint_register_relation(TRACE_BDEV_NVME_IO_START, OBJECT_BDEV_IO, 0);
   11071           0 :         spdk_trace_tpoint_register_relation(TRACE_BDEV_NVME_IO_DONE, OBJECT_BDEV_IO, 0);
   11072           0 :         spdk_trace_tpoint_register_relation(TRACE_BLOB_REQ_SET_START, OBJECT_BDEV_IO, 0);
   11073           0 :         spdk_trace_tpoint_register_relation(TRACE_BLOB_REQ_SET_COMPLETE, OBJECT_BDEV_IO, 0);
   11074           0 :         spdk_trace_tpoint_register_relation(TRACE_BDEV_RAID_IO_START, OBJECT_BDEV_IO, 0);
   11075           0 :         spdk_trace_tpoint_register_relation(TRACE_BDEV_RAID_IO_DONE, OBJECT_BDEV_IO, 0);
   11076           0 : }
   11077           3 : SPDK_TRACE_REGISTER_FN(bdev_trace, "bdev", TRACE_GROUP_BDEV)

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