LCOV - code coverage report
Current view: top level - lib/blobfs - blobfs.c (source / functions) Hit Total Coverage
Test: ut_cov_unit.info Lines: 1088 1468 74.1 %
Date: 2024-12-03 18:31:53 Functions: 114 132 86.4 %

          Line data    Source code
       1             : /*   SPDX-License-Identifier: BSD-3-Clause
       2             :  *   Copyright (C) 2017 Intel Corporation.
       3             :  *   All rights reserved.
       4             :  */
       5             : 
       6             : #include "spdk/stdinc.h"
       7             : 
       8             : #include "spdk/blobfs.h"
       9             : #include "cache_tree.h"
      10             : 
      11             : #include "spdk/queue.h"
      12             : #include "spdk/thread.h"
      13             : #include "spdk/assert.h"
      14             : #include "spdk/env.h"
      15             : #include "spdk/util.h"
      16             : #include "spdk/log.h"
      17             : #include "spdk/trace.h"
      18             : 
      19             : #include "spdk_internal/trace_defs.h"
      20             : 
      21             : #define BLOBFS_TRACE(file, str, args...) \
      22             :         SPDK_DEBUGLOG(blobfs, "file=%s " str, file->name, ##args)
      23             : 
      24             : #define BLOBFS_TRACE_RW(file, str, args...) \
      25             :         SPDK_DEBUGLOG(blobfs_rw, "file=%s " str, file->name, ##args)
      26             : 
      27             : #define BLOBFS_DEFAULT_CACHE_SIZE (4ULL * 1024 * 1024 * 1024)
      28             : #define SPDK_BLOBFS_DEFAULT_OPTS_CLUSTER_SZ (1024 * 1024)
      29             : 
      30             : #define SPDK_BLOBFS_SIGNATURE   "BLOBFS"
      31             : 
      32             : static uint64_t g_fs_cache_size = BLOBFS_DEFAULT_CACHE_SIZE;
      33             : static struct spdk_mempool *g_cache_pool;
      34             : static TAILQ_HEAD(, spdk_file) g_caches = TAILQ_HEAD_INITIALIZER(g_caches);
      35             : static struct spdk_poller *g_cache_pool_mgmt_poller;
      36             : static struct spdk_thread *g_cache_pool_thread;
      37             : #define BLOBFS_CACHE_POOL_POLL_PERIOD_IN_US 1000ULL
      38             : static int g_fs_count = 0;
      39             : static pthread_mutex_t g_cache_init_lock = PTHREAD_MUTEX_INITIALIZER;
      40             : 
      41             : static void
      42           0 : blobfs_trace(void)
      43             : {
      44           0 :         struct spdk_trace_tpoint_opts opts[] = {
      45             :                 {
      46             :                         "BLOBFS_XATTR_START", TRACE_BLOBFS_XATTR_START,
      47             :                         OWNER_TYPE_NONE, OBJECT_NONE, 0,
      48             :                         {{ "file", SPDK_TRACE_ARG_TYPE_STR, 40 }},
      49             :                 },
      50             :                 {
      51             :                         "BLOBFS_XATTR_END", TRACE_BLOBFS_XATTR_END,
      52             :                         OWNER_TYPE_NONE, OBJECT_NONE, 0,
      53             :                         {{ "file", SPDK_TRACE_ARG_TYPE_STR, 40 }},
      54             :                 },
      55             :                 {
      56             :                         "BLOBFS_OPEN", TRACE_BLOBFS_OPEN,
      57             :                         OWNER_TYPE_NONE, OBJECT_NONE, 0,
      58             :                         {{ "file", SPDK_TRACE_ARG_TYPE_STR, 40 }},
      59             :                 },
      60             :                 {
      61             :                         "BLOBFS_CLOSE", TRACE_BLOBFS_CLOSE,
      62             :                         OWNER_TYPE_NONE, OBJECT_NONE, 0,
      63             :                         {{ "file", SPDK_TRACE_ARG_TYPE_STR, 40 }},
      64             :                 },
      65             :                 {
      66             :                         "BLOBFS_DELETE_START", TRACE_BLOBFS_DELETE_START,
      67             :                         OWNER_TYPE_NONE, OBJECT_NONE, 0,
      68             :                         {{ "file", SPDK_TRACE_ARG_TYPE_STR, 40 }},
      69             :                 },
      70             :                 {
      71             :                         "BLOBFS_DELETE_DONE", TRACE_BLOBFS_DELETE_DONE,
      72             :                         OWNER_TYPE_NONE, OBJECT_NONE, 0,
      73             :                         {{ "file", SPDK_TRACE_ARG_TYPE_STR, 40 }},
      74             :                 }
      75             :         };
      76             : 
      77           0 :         spdk_trace_register_description_ext(opts, SPDK_COUNTOF(opts));
      78           0 : }
      79           2 : SPDK_TRACE_REGISTER_FN(blobfs_trace, "blobfs", TRACE_GROUP_BLOBFS)
      80             : 
      81             : void
      82          13 : cache_buffer_free(struct cache_buffer *cache_buffer)
      83             : {
      84          13 :         spdk_mempool_put(g_cache_pool, cache_buffer->buf);
      85          13 :         free(cache_buffer);
      86          13 : }
      87             : 
      88             : #define CACHE_READAHEAD_THRESHOLD       (128 * 1024)
      89             : 
      90             : struct spdk_file {
      91             :         struct spdk_filesystem  *fs;
      92             :         struct spdk_blob        *blob;
      93             :         char                    *name;
      94             :         uint64_t                length;
      95             :         bool                    is_deleted;
      96             :         bool                    open_for_writing;
      97             :         uint64_t                length_flushed;
      98             :         uint64_t                length_xattr;
      99             :         uint64_t                append_pos;
     100             :         uint64_t                seq_byte_count;
     101             :         uint64_t                next_seq_offset;
     102             :         uint32_t                priority;
     103             :         TAILQ_ENTRY(spdk_file)  tailq;
     104             :         spdk_blob_id            blobid;
     105             :         uint32_t                ref_count;
     106             :         pthread_spinlock_t      lock;
     107             :         struct cache_buffer     *last;
     108             :         struct cache_tree       *tree;
     109             :         TAILQ_HEAD(open_requests_head, spdk_fs_request) open_requests;
     110             :         TAILQ_HEAD(sync_requests_head, spdk_fs_request) sync_requests;
     111             :         TAILQ_ENTRY(spdk_file)  cache_tailq;
     112             : };
     113             : 
     114             : struct spdk_deleted_file {
     115             :         spdk_blob_id    id;
     116             :         TAILQ_ENTRY(spdk_deleted_file)  tailq;
     117             : };
     118             : 
     119             : struct spdk_filesystem {
     120             :         struct spdk_blob_store  *bs;
     121             :         TAILQ_HEAD(, spdk_file) files;
     122             :         struct spdk_bs_opts     bs_opts;
     123             :         struct spdk_bs_dev      *bdev;
     124             :         fs_send_request_fn      send_request;
     125             : 
     126             :         struct {
     127             :                 uint32_t                max_ops;
     128             :                 struct spdk_io_channel  *sync_io_channel;
     129             :                 struct spdk_fs_channel  *sync_fs_channel;
     130             :         } sync_target;
     131             : 
     132             :         struct {
     133             :                 uint32_t                max_ops;
     134             :                 struct spdk_io_channel  *md_io_channel;
     135             :                 struct spdk_fs_channel  *md_fs_channel;
     136             :         } md_target;
     137             : 
     138             :         struct {
     139             :                 uint32_t                max_ops;
     140             :         } io_target;
     141             : };
     142             : 
     143             : struct spdk_fs_cb_args {
     144             :         union {
     145             :                 spdk_fs_op_with_handle_complete         fs_op_with_handle;
     146             :                 spdk_fs_op_complete                     fs_op;
     147             :                 spdk_file_op_with_handle_complete       file_op_with_handle;
     148             :                 spdk_file_op_complete                   file_op;
     149             :                 spdk_file_stat_op_complete              stat_op;
     150             :         } fn;
     151             :         void *arg;
     152             :         sem_t *sem;
     153             :         struct spdk_filesystem *fs;
     154             :         struct spdk_file *file;
     155             :         int rc;
     156             :         int *rwerrno;
     157             :         struct iovec *iovs;
     158             :         uint32_t iovcnt;
     159             :         struct iovec iov;
     160             :         union {
     161             :                 struct {
     162             :                         TAILQ_HEAD(, spdk_deleted_file) deleted_files;
     163             :                 } fs_load;
     164             :                 struct {
     165             :                         uint64_t        length;
     166             :                 } truncate;
     167             :                 struct {
     168             :                         struct spdk_io_channel  *channel;
     169             :                         void            *pin_buf;
     170             :                         int             is_read;
     171             :                         off_t           offset;
     172             :                         size_t          length;
     173             :                         uint64_t        start_lba;
     174             :                         uint64_t        num_lba;
     175             :                         uint32_t        blocklen;
     176             :                 } rw;
     177             :                 struct {
     178             :                         const char      *old_name;
     179             :                         const char      *new_name;
     180             :                 } rename;
     181             :                 struct {
     182             :                         struct cache_buffer     *cache_buffer;
     183             :                         uint64_t                length;
     184             :                 } flush;
     185             :                 struct {
     186             :                         struct cache_buffer     *cache_buffer;
     187             :                         uint64_t                length;
     188             :                         uint64_t                offset;
     189             :                 } readahead;
     190             :                 struct {
     191             :                         /* offset of the file when the sync request was made */
     192             :                         uint64_t                        offset;
     193             :                         TAILQ_ENTRY(spdk_fs_request)    tailq;
     194             :                         bool                            xattr_in_progress;
     195             :                         /* length written to the xattr for this file - this should
     196             :                          * always be the same as the offset if only one thread is
     197             :                          * writing to the file, but could differ if multiple threads
     198             :                          * are appending
     199             :                          */
     200             :                         uint64_t                        length;
     201             :                 } sync;
     202             :                 struct {
     203             :                         uint32_t                        num_clusters;
     204             :                 } resize;
     205             :                 struct {
     206             :                         const char      *name;
     207             :                         uint32_t        flags;
     208             :                         TAILQ_ENTRY(spdk_fs_request)    tailq;
     209             :                 } open;
     210             :                 struct {
     211             :                         const char              *name;
     212             :                         struct spdk_blob        *blob;
     213             :                 } create;
     214             :                 struct {
     215             :                         const char      *name;
     216             :                 } delete;
     217             :                 struct {
     218             :                         const char      *name;
     219             :                 } stat;
     220             :         } op;
     221             : };
     222             : 
     223             : static void file_free(struct spdk_file *file);
     224             : static void fs_io_device_unregister(struct spdk_filesystem *fs);
     225             : static void fs_free_io_channels(struct spdk_filesystem *fs);
     226             : 
     227             : void
     228           0 : spdk_fs_opts_init(struct spdk_blobfs_opts *opts)
     229             : {
     230           0 :         opts->cluster_sz = SPDK_BLOBFS_DEFAULT_OPTS_CLUSTER_SZ;
     231           0 : }
     232             : 
     233             : static int _blobfs_cache_pool_reclaim(void *arg);
     234             : 
     235             : static bool
     236           0 : blobfs_cache_pool_need_reclaim(void)
     237             : {
     238             :         size_t count;
     239             : 
     240           0 :         count = spdk_mempool_count(g_cache_pool);
     241             :         /* We define a aggressive policy here as the requirements from db_bench are batched, so start the poller
     242             :          *  when the number of available cache buffer is less than 1/5 of total buffers.
     243             :          */
     244           0 :         if (count > (size_t)g_fs_cache_size / CACHE_BUFFER_SIZE / 5) {
     245           0 :                 return false;
     246             :         }
     247             : 
     248           0 :         return true;
     249             : }
     250             : 
     251             : static void
     252          20 : __start_cache_pool_mgmt(void *ctx)
     253             : {
     254          20 :         assert(g_cache_pool_mgmt_poller == NULL);
     255          20 :         g_cache_pool_mgmt_poller = SPDK_POLLER_REGISTER(_blobfs_cache_pool_reclaim, NULL,
     256             :                                    BLOBFS_CACHE_POOL_POLL_PERIOD_IN_US);
     257          20 : }
     258             : 
     259             : static void
     260          20 : __stop_cache_pool_mgmt(void *ctx)
     261             : {
     262          20 :         spdk_poller_unregister(&g_cache_pool_mgmt_poller);
     263             : 
     264          20 :         assert(g_cache_pool != NULL);
     265          20 :         assert(spdk_mempool_count(g_cache_pool) == g_fs_cache_size / CACHE_BUFFER_SIZE);
     266          20 :         spdk_mempool_free(g_cache_pool);
     267          20 :         g_cache_pool = NULL;
     268             : 
     269          20 :         spdk_thread_exit(g_cache_pool_thread);
     270          20 : }
     271             : 
     272             : static void
     273          20 : allocate_cache_pool(void)
     274             : {
     275          20 :         assert(g_cache_pool == NULL);
     276          20 :         g_cache_pool = spdk_mempool_create("spdk_fs_cache",
     277             :                                            g_fs_cache_size / CACHE_BUFFER_SIZE,
     278             :                                            CACHE_BUFFER_SIZE,
     279             :                                            SPDK_MEMPOOL_DEFAULT_CACHE_SIZE,
     280             :                                            SPDK_ENV_NUMA_ID_ANY);
     281          20 :         if (!g_cache_pool) {
     282           0 :                 if (spdk_mempool_lookup("spdk_fs_cache") != NULL) {
     283           0 :                         SPDK_ERRLOG("Unable to allocate mempool: already exists\n");
     284           0 :                         SPDK_ERRLOG("Probably running in multiprocess environment, which is "
     285             :                                     "unsupported by the blobfs library\n");
     286             :                 } else {
     287           0 :                         SPDK_ERRLOG("Create mempool failed, you may "
     288             :                                     "increase the memory and try again\n");
     289             :                 }
     290           0 :                 assert(false);
     291             :         }
     292          20 : }
     293             : 
     294             : static void
     295          20 : initialize_global_cache(void)
     296             : {
     297          20 :         pthread_mutex_lock(&g_cache_init_lock);
     298          20 :         if (g_fs_count == 0) {
     299          20 :                 allocate_cache_pool();
     300          20 :                 g_cache_pool_thread = spdk_thread_create("cache_pool_mgmt", NULL);
     301          20 :                 assert(g_cache_pool_thread != NULL);
     302          20 :                 spdk_thread_send_msg(g_cache_pool_thread, __start_cache_pool_mgmt, NULL);
     303             :         }
     304          20 :         g_fs_count++;
     305          20 :         pthread_mutex_unlock(&g_cache_init_lock);
     306          20 : }
     307             : 
     308             : static void
     309          20 : free_global_cache(void)
     310             : {
     311          20 :         pthread_mutex_lock(&g_cache_init_lock);
     312          20 :         g_fs_count--;
     313          20 :         if (g_fs_count == 0) {
     314          20 :                 spdk_thread_send_msg(g_cache_pool_thread, __stop_cache_pool_mgmt, NULL);
     315             :         }
     316          20 :         pthread_mutex_unlock(&g_cache_init_lock);
     317          20 : }
     318             : 
     319             : static uint64_t
     320          21 : __file_get_blob_size(struct spdk_file *file)
     321             : {
     322             :         uint64_t cluster_sz;
     323             : 
     324          21 :         cluster_sz = file->fs->bs_opts.cluster_sz;
     325          21 :         return cluster_sz * spdk_blob_get_num_clusters(file->blob);
     326             : }
     327             : 
     328             : struct spdk_fs_request {
     329             :         struct spdk_fs_cb_args          args;
     330             :         TAILQ_ENTRY(spdk_fs_request)    link;
     331             :         struct spdk_fs_channel          *channel;
     332             : };
     333             : 
     334             : struct spdk_fs_channel {
     335             :         struct spdk_fs_request          *req_mem;
     336             :         TAILQ_HEAD(, spdk_fs_request)   reqs;
     337             :         sem_t                           sem;
     338             :         struct spdk_filesystem          *fs;
     339             :         struct spdk_io_channel          *bs_channel;
     340             :         fs_send_request_fn              send_request;
     341             :         bool                            sync;
     342             :         uint32_t                        outstanding_reqs;
     343             :         pthread_spinlock_t              lock;
     344             : };
     345             : 
     346             : /* For now, this is effectively an alias. But eventually we'll shift
     347             :  * some data members over. */
     348             : struct spdk_fs_thread_ctx {
     349             :         struct spdk_fs_channel  ch;
     350             : };
     351             : 
     352             : static struct spdk_fs_request *
     353         156 : alloc_fs_request_with_iov(struct spdk_fs_channel *channel, uint32_t iovcnt)
     354             : {
     355             :         struct spdk_fs_request *req;
     356         156 :         struct iovec *iovs = NULL;
     357             : 
     358         156 :         if (iovcnt > 1) {
     359           4 :                 iovs = calloc(iovcnt, sizeof(struct iovec));
     360           4 :                 if (!iovs) {
     361           0 :                         return NULL;
     362             :                 }
     363             :         }
     364             : 
     365         156 :         if (channel->sync) {
     366          66 :                 pthread_spin_lock(&channel->lock);
     367             :         }
     368             : 
     369         156 :         req = TAILQ_FIRST(&channel->reqs);
     370         156 :         if (req) {
     371         156 :                 channel->outstanding_reqs++;
     372         156 :                 TAILQ_REMOVE(&channel->reqs, req, link);
     373             :         }
     374             : 
     375         156 :         if (channel->sync) {
     376          66 :                 pthread_spin_unlock(&channel->lock);
     377             :         }
     378             : 
     379         156 :         if (req == NULL) {
     380           0 :                 SPDK_ERRLOG("Cannot allocate req on spdk_fs_channel =%p\n", channel);
     381           0 :                 free(iovs);
     382           0 :                 return NULL;
     383             :         }
     384         156 :         memset(req, 0, sizeof(*req));
     385         156 :         req->channel = channel;
     386         156 :         if (iovcnt > 1) {
     387           4 :                 req->args.iovs = iovs;
     388             :         } else {
     389         152 :                 req->args.iovs = &req->args.iov;
     390             :         }
     391         156 :         req->args.iovcnt = iovcnt;
     392             : 
     393         156 :         return req;
     394             : }
     395             : 
     396             : static struct spdk_fs_request *
     397         148 : alloc_fs_request(struct spdk_fs_channel *channel)
     398             : {
     399         148 :         return alloc_fs_request_with_iov(channel, 0);
     400             : }
     401             : 
     402             : static void
     403         156 : free_fs_request(struct spdk_fs_request *req)
     404             : {
     405         156 :         struct spdk_fs_channel *channel = req->channel;
     406             : 
     407         156 :         if (req->args.iovcnt > 1) {
     408           4 :                 free(req->args.iovs);
     409             :         }
     410             : 
     411         156 :         if (channel->sync) {
     412          66 :                 pthread_spin_lock(&channel->lock);
     413             :         }
     414             : 
     415         156 :         TAILQ_INSERT_HEAD(&req->channel->reqs, req, link);
     416         156 :         channel->outstanding_reqs--;
     417             : 
     418         156 :         if (channel->sync) {
     419          66 :                 pthread_spin_unlock(&channel->lock);
     420             :         }
     421         156 : }
     422             : 
     423             : static int
     424          53 : fs_channel_create(struct spdk_filesystem *fs, struct spdk_fs_channel *channel,
     425             :                   uint32_t max_ops)
     426             : {
     427             :         uint32_t i;
     428             : 
     429          53 :         channel->req_mem = calloc(max_ops, sizeof(struct spdk_fs_request));
     430          53 :         if (!channel->req_mem) {
     431           0 :                 return -1;
     432             :         }
     433             : 
     434          53 :         channel->outstanding_reqs = 0;
     435          53 :         TAILQ_INIT(&channel->reqs);
     436          53 :         sem_init(&channel->sem, 0, 0);
     437             : 
     438       27189 :         for (i = 0; i < max_ops; i++) {
     439       27136 :                 TAILQ_INSERT_TAIL(&channel->reqs, &channel->req_mem[i], link);
     440             :         }
     441             : 
     442          53 :         channel->fs = fs;
     443             : 
     444          53 :         return 0;
     445             : }
     446             : 
     447             : static int
     448          20 : fs_md_channel_create(void *io_device, void *ctx_buf)
     449             : {
     450             :         struct spdk_filesystem          *fs;
     451          20 :         struct spdk_fs_channel          *channel = ctx_buf;
     452             : 
     453          20 :         fs = SPDK_CONTAINEROF(io_device, struct spdk_filesystem, md_target);
     454             : 
     455          20 :         return fs_channel_create(fs, channel, fs->md_target.max_ops);
     456             : }
     457             : 
     458             : static int
     459          20 : fs_sync_channel_create(void *io_device, void *ctx_buf)
     460             : {
     461             :         struct spdk_filesystem          *fs;
     462          20 :         struct spdk_fs_channel          *channel = ctx_buf;
     463             : 
     464          20 :         fs = SPDK_CONTAINEROF(io_device, struct spdk_filesystem, sync_target);
     465             : 
     466          20 :         return fs_channel_create(fs, channel, fs->sync_target.max_ops);
     467             : }
     468             : 
     469             : static int
     470           1 : fs_io_channel_create(void *io_device, void *ctx_buf)
     471             : {
     472             :         struct spdk_filesystem          *fs;
     473           1 :         struct spdk_fs_channel          *channel = ctx_buf;
     474             : 
     475           1 :         fs = SPDK_CONTAINEROF(io_device, struct spdk_filesystem, io_target);
     476             : 
     477           1 :         return fs_channel_create(fs, channel, fs->io_target.max_ops);
     478             : }
     479             : 
     480             : static void
     481          53 : fs_channel_destroy(void *io_device, void *ctx_buf)
     482             : {
     483          53 :         struct spdk_fs_channel *channel = ctx_buf;
     484             : 
     485          53 :         if (channel->outstanding_reqs > 0) {
     486           0 :                 SPDK_ERRLOG("channel freed with %" PRIu32 " outstanding requests!\n",
     487             :                             channel->outstanding_reqs);
     488             :         }
     489             : 
     490          53 :         free(channel->req_mem);
     491          53 :         if (channel->bs_channel != NULL) {
     492          41 :                 spdk_bs_free_io_channel(channel->bs_channel);
     493             :         }
     494          53 : }
     495             : 
     496             : static void
     497           0 : __send_request_direct(fs_request_fn fn, void *arg)
     498             : {
     499           0 :         fn(arg);
     500           0 : }
     501             : 
     502             : static void
     503          20 : common_fs_bs_init(struct spdk_filesystem *fs, struct spdk_blob_store *bs)
     504             : {
     505          20 :         fs->bs = bs;
     506          20 :         fs->bs_opts.cluster_sz = spdk_bs_get_cluster_size(bs);
     507          20 :         fs->md_target.md_fs_channel->bs_channel = spdk_bs_alloc_io_channel(fs->bs);
     508          20 :         fs->md_target.md_fs_channel->send_request = __send_request_direct;
     509          20 :         fs->sync_target.sync_fs_channel->bs_channel = spdk_bs_alloc_io_channel(fs->bs);
     510          20 :         fs->sync_target.sync_fs_channel->send_request = __send_request_direct;
     511             : 
     512          20 :         initialize_global_cache();
     513          20 : }
     514             : 
     515             : static void
     516          18 : init_cb(void *ctx, struct spdk_blob_store *bs, int bserrno)
     517             : {
     518          18 :         struct spdk_fs_request *req = ctx;
     519          18 :         struct spdk_fs_cb_args *args = &req->args;
     520          18 :         struct spdk_filesystem *fs = args->fs;
     521             : 
     522          18 :         if (bserrno == 0) {
     523          18 :                 common_fs_bs_init(fs, bs);
     524             :         } else {
     525           0 :                 free(fs);
     526           0 :                 fs = NULL;
     527             :         }
     528             : 
     529          18 :         args->fn.fs_op_with_handle(args->arg, fs, bserrno);
     530          18 :         free_fs_request(req);
     531          18 : }
     532             : 
     533             : static struct spdk_filesystem *
     534          20 : fs_alloc(struct spdk_bs_dev *dev, fs_send_request_fn send_request_fn)
     535             : {
     536             :         struct spdk_filesystem *fs;
     537             : 
     538          20 :         fs = calloc(1, sizeof(*fs));
     539          20 :         if (fs == NULL) {
     540           0 :                 return NULL;
     541             :         }
     542             : 
     543          20 :         fs->bdev = dev;
     544          20 :         fs->send_request = send_request_fn;
     545          20 :         TAILQ_INIT(&fs->files);
     546             : 
     547          20 :         fs->md_target.max_ops = 512;
     548          20 :         spdk_io_device_register(&fs->md_target, fs_md_channel_create, fs_channel_destroy,
     549             :                                 sizeof(struct spdk_fs_channel), "blobfs_md");
     550          20 :         fs->md_target.md_io_channel = spdk_get_io_channel(&fs->md_target);
     551          20 :         fs->md_target.md_fs_channel = spdk_io_channel_get_ctx(fs->md_target.md_io_channel);
     552             : 
     553          20 :         fs->sync_target.max_ops = 512;
     554          20 :         spdk_io_device_register(&fs->sync_target, fs_sync_channel_create, fs_channel_destroy,
     555             :                                 sizeof(struct spdk_fs_channel), "blobfs_sync");
     556          20 :         fs->sync_target.sync_io_channel = spdk_get_io_channel(&fs->sync_target);
     557          20 :         fs->sync_target.sync_fs_channel = spdk_io_channel_get_ctx(fs->sync_target.sync_io_channel);
     558             : 
     559          20 :         fs->io_target.max_ops = 512;
     560          20 :         spdk_io_device_register(&fs->io_target, fs_io_channel_create, fs_channel_destroy,
     561             :                                 sizeof(struct spdk_fs_channel), "blobfs_io");
     562             : 
     563          20 :         return fs;
     564             : }
     565             : 
     566             : static void
     567          51 : __wake_caller(void *arg, int fserrno)
     568             : {
     569          51 :         struct spdk_fs_cb_args *args = arg;
     570             : 
     571          51 :         if ((args->rwerrno != NULL) && (*(args->rwerrno) == 0) && fserrno) {
     572           0 :                 *(args->rwerrno) = fserrno;
     573             :         }
     574          51 :         args->rc = fserrno;
     575          51 :         sem_post(args->sem);
     576          51 : }
     577             : 
     578             : void
     579          18 : spdk_fs_init(struct spdk_bs_dev *dev, struct spdk_blobfs_opts *opt,
     580             :              fs_send_request_fn send_request_fn,
     581             :              spdk_fs_op_with_handle_complete cb_fn, void *cb_arg)
     582             : {
     583             :         struct spdk_filesystem *fs;
     584             :         struct spdk_fs_request *req;
     585             :         struct spdk_fs_cb_args *args;
     586          18 :         struct spdk_bs_opts opts = {};
     587             : 
     588          18 :         fs = fs_alloc(dev, send_request_fn);
     589          18 :         if (fs == NULL) {
     590           0 :                 cb_fn(cb_arg, NULL, -ENOMEM);
     591           0 :                 return;
     592             :         }
     593             : 
     594          18 :         req = alloc_fs_request(fs->md_target.md_fs_channel);
     595          18 :         if (req == NULL) {
     596           0 :                 fs_free_io_channels(fs);
     597           0 :                 fs_io_device_unregister(fs);
     598           0 :                 cb_fn(cb_arg, NULL, -ENOMEM);
     599           0 :                 return;
     600             :         }
     601             : 
     602          18 :         args = &req->args;
     603          18 :         args->fn.fs_op_with_handle = cb_fn;
     604          18 :         args->arg = cb_arg;
     605          18 :         args->fs = fs;
     606             : 
     607          18 :         spdk_bs_opts_init(&opts, sizeof(opts));
     608          18 :         snprintf(opts.bstype.bstype, sizeof(opts.bstype.bstype), SPDK_BLOBFS_SIGNATURE);
     609          18 :         if (opt) {
     610           0 :                 opts.cluster_sz = opt->cluster_sz;
     611             :         }
     612          18 :         spdk_bs_init(dev, &opts, init_cb, req);
     613             : }
     614             : 
     615             : static struct spdk_file *
     616          18 : file_alloc(struct spdk_filesystem *fs)
     617             : {
     618             :         struct spdk_file *file;
     619             : 
     620          18 :         file = calloc(1, sizeof(*file));
     621          18 :         if (file == NULL) {
     622           0 :                 return NULL;
     623             :         }
     624             : 
     625          18 :         file->tree = calloc(1, sizeof(*file->tree));
     626          18 :         if (file->tree == NULL) {
     627           0 :                 free(file);
     628           0 :                 return NULL;
     629             :         }
     630             : 
     631          18 :         if (pthread_spin_init(&file->lock, 0)) {
     632           0 :                 free(file->tree);
     633           0 :                 free(file);
     634           0 :                 return NULL;
     635             :         }
     636             : 
     637          18 :         file->fs = fs;
     638          18 :         TAILQ_INIT(&file->open_requests);
     639          18 :         TAILQ_INIT(&file->sync_requests);
     640          18 :         TAILQ_INSERT_TAIL(&fs->files, file, tailq);
     641          18 :         file->priority = SPDK_FILE_PRIORITY_LOW;
     642          18 :         return file;
     643             : }
     644             : 
     645             : static void fs_load_done(void *ctx, int bserrno);
     646             : 
     647             : static int
     648           2 : _handle_deleted_files(struct spdk_fs_request *req)
     649             : {
     650           2 :         struct spdk_fs_cb_args *args = &req->args;
     651           2 :         struct spdk_filesystem *fs = args->fs;
     652             : 
     653           2 :         if (!TAILQ_EMPTY(&args->op.fs_load.deleted_files)) {
     654             :                 struct spdk_deleted_file *deleted_file;
     655             : 
     656           0 :                 deleted_file = TAILQ_FIRST(&args->op.fs_load.deleted_files);
     657           0 :                 TAILQ_REMOVE(&args->op.fs_load.deleted_files, deleted_file, tailq);
     658           0 :                 spdk_bs_delete_blob(fs->bs, deleted_file->id, fs_load_done, req);
     659           0 :                 free(deleted_file);
     660           0 :                 return 0;
     661             :         }
     662             : 
     663           2 :         return 1;
     664             : }
     665             : 
     666             : static void
     667           2 : fs_load_done(void *ctx, int bserrno)
     668             : {
     669           2 :         struct spdk_fs_request *req = ctx;
     670           2 :         struct spdk_fs_cb_args *args = &req->args;
     671           2 :         struct spdk_filesystem *fs = args->fs;
     672             : 
     673             :         /* The filesystem has been loaded.  Now check if there are any files that
     674             :          *  were marked for deletion before last unload.  Do not complete the
     675             :          *  fs_load callback until all of them have been deleted on disk.
     676             :          */
     677           2 :         if (_handle_deleted_files(req) == 0) {
     678             :                 /* We found a file that's been marked for deleting but not actually
     679             :                  *  deleted yet.  This function will get called again once the delete
     680             :                  *  operation is completed.
     681             :                  */
     682           0 :                 return;
     683             :         }
     684             : 
     685           2 :         args->fn.fs_op_with_handle(args->arg, fs, 0);
     686           2 :         free_fs_request(req);
     687             : 
     688             : }
     689             : 
     690             : static void
     691           2 : iter_cb(void *ctx, struct spdk_blob *blob, int rc)
     692             : {
     693           2 :         struct spdk_fs_request *req = ctx;
     694           2 :         struct spdk_fs_cb_args *args = &req->args;
     695           2 :         struct spdk_filesystem *fs = args->fs;
     696             :         uint64_t *length;
     697             :         const char *name;
     698             :         uint32_t *is_deleted;
     699             :         size_t value_len;
     700             : 
     701           2 :         if (rc < 0) {
     702           0 :                 args->fn.fs_op_with_handle(args->arg, fs, rc);
     703           0 :                 free_fs_request(req);
     704           0 :                 return;
     705             :         }
     706             : 
     707           2 :         rc = spdk_blob_get_xattr_value(blob, "name", (const void **)&name, &value_len);
     708           2 :         if (rc < 0) {
     709           0 :                 args->fn.fs_op_with_handle(args->arg, fs, rc);
     710           0 :                 free_fs_request(req);
     711           0 :                 return;
     712             :         }
     713             : 
     714           2 :         rc = spdk_blob_get_xattr_value(blob, "length", (const void **)&length, &value_len);
     715           2 :         if (rc < 0) {
     716           0 :                 args->fn.fs_op_with_handle(args->arg, fs, rc);
     717           0 :                 free_fs_request(req);
     718           0 :                 return;
     719             :         }
     720             : 
     721           2 :         assert(value_len == 8);
     722             : 
     723             :         /* This file could be deleted last time without close it, then app crashed, so we delete it now */
     724           2 :         rc = spdk_blob_get_xattr_value(blob, "is_deleted", (const void **)&is_deleted, &value_len);
     725           2 :         if (rc < 0) {
     726             :                 struct spdk_file *f;
     727             : 
     728           2 :                 f = file_alloc(fs);
     729           2 :                 if (f == NULL) {
     730           0 :                         SPDK_ERRLOG("Cannot allocate file to handle deleted file on disk\n");
     731           0 :                         args->fn.fs_op_with_handle(args->arg, fs, -ENOMEM);
     732           0 :                         free_fs_request(req);
     733           0 :                         return;
     734             :                 }
     735             : 
     736           2 :                 f->name = strdup(name);
     737           2 :                 if (!f->name) {
     738           0 :                         SPDK_ERRLOG("Cannot allocate memory for file name\n");
     739           0 :                         args->fn.fs_op_with_handle(args->arg, fs, -ENOMEM);
     740           0 :                         free_fs_request(req);
     741           0 :                         file_free(f);
     742           0 :                         return;
     743             :                 }
     744             : 
     745           2 :                 f->blobid = spdk_blob_get_id(blob);
     746           2 :                 f->length = *length;
     747           2 :                 f->length_flushed = *length;
     748           2 :                 f->length_xattr = *length;
     749           2 :                 f->append_pos = *length;
     750           2 :                 SPDK_DEBUGLOG(blobfs, "added file %s length=%ju\n", f->name, f->length);
     751             :         } else {
     752             :                 struct spdk_deleted_file *deleted_file;
     753             : 
     754           0 :                 deleted_file = calloc(1, sizeof(*deleted_file));
     755           0 :                 if (deleted_file == NULL) {
     756           0 :                         args->fn.fs_op_with_handle(args->arg, fs, -ENOMEM);
     757           0 :                         free_fs_request(req);
     758           0 :                         return;
     759             :                 }
     760           0 :                 deleted_file->id = spdk_blob_get_id(blob);
     761           0 :                 TAILQ_INSERT_TAIL(&args->op.fs_load.deleted_files, deleted_file, tailq);
     762             :         }
     763             : }
     764             : 
     765             : static void
     766           2 : load_cb(void *ctx, struct spdk_blob_store *bs, int bserrno)
     767             : {
     768           2 :         struct spdk_fs_request *req = ctx;
     769           2 :         struct spdk_fs_cb_args *args = &req->args;
     770           2 :         struct spdk_filesystem *fs = args->fs;
     771             :         struct spdk_bs_type bstype;
     772             :         static const struct spdk_bs_type blobfs_type = {SPDK_BLOBFS_SIGNATURE};
     773             :         static const struct spdk_bs_type zeros;
     774             : 
     775           2 :         if (bserrno != 0) {
     776           0 :                 args->fn.fs_op_with_handle(args->arg, NULL, bserrno);
     777           0 :                 free_fs_request(req);
     778           0 :                 fs_free_io_channels(fs);
     779           0 :                 fs_io_device_unregister(fs);
     780           0 :                 return;
     781             :         }
     782             : 
     783           2 :         bstype = spdk_bs_get_bstype(bs);
     784             : 
     785           2 :         if (!memcmp(&bstype, &zeros, sizeof(bstype))) {
     786           0 :                 SPDK_DEBUGLOG(blobfs, "assigning bstype\n");
     787           0 :                 spdk_bs_set_bstype(bs, blobfs_type);
     788           2 :         } else if (memcmp(&bstype, &blobfs_type, sizeof(bstype))) {
     789           0 :                 SPDK_ERRLOG("not blobfs\n");
     790           0 :                 SPDK_LOGDUMP(blobfs, "bstype", &bstype, sizeof(bstype));
     791           0 :                 args->fn.fs_op_with_handle(args->arg, NULL, -EINVAL);
     792           0 :                 free_fs_request(req);
     793           0 :                 fs_free_io_channels(fs);
     794           0 :                 fs_io_device_unregister(fs);
     795           0 :                 return;
     796             :         }
     797             : 
     798           2 :         common_fs_bs_init(fs, bs);
     799           2 :         fs_load_done(req, 0);
     800             : }
     801             : 
     802             : static void
     803          20 : fs_io_device_unregister(struct spdk_filesystem *fs)
     804             : {
     805          20 :         assert(fs != NULL);
     806          20 :         spdk_io_device_unregister(&fs->md_target, NULL);
     807          20 :         spdk_io_device_unregister(&fs->sync_target, NULL);
     808          20 :         spdk_io_device_unregister(&fs->io_target, NULL);
     809          20 :         free(fs);
     810          20 : }
     811             : 
     812             : static void
     813          20 : fs_free_io_channels(struct spdk_filesystem *fs)
     814             : {
     815          20 :         assert(fs != NULL);
     816          20 :         spdk_fs_free_io_channel(fs->md_target.md_io_channel);
     817          20 :         spdk_fs_free_io_channel(fs->sync_target.sync_io_channel);
     818          20 : }
     819             : 
     820             : void
     821           2 : spdk_fs_load(struct spdk_bs_dev *dev, fs_send_request_fn send_request_fn,
     822             :              spdk_fs_op_with_handle_complete cb_fn, void *cb_arg)
     823             : {
     824             :         struct spdk_filesystem *fs;
     825             :         struct spdk_fs_cb_args *args;
     826             :         struct spdk_fs_request *req;
     827             :         struct spdk_bs_opts     bs_opts;
     828             : 
     829           2 :         fs = fs_alloc(dev, send_request_fn);
     830           2 :         if (fs == NULL) {
     831           0 :                 cb_fn(cb_arg, NULL, -ENOMEM);
     832           0 :                 return;
     833             :         }
     834             : 
     835           2 :         req = alloc_fs_request(fs->md_target.md_fs_channel);
     836           2 :         if (req == NULL) {
     837           0 :                 fs_free_io_channels(fs);
     838           0 :                 fs_io_device_unregister(fs);
     839           0 :                 cb_fn(cb_arg, NULL, -ENOMEM);
     840           0 :                 return;
     841             :         }
     842             : 
     843           2 :         args = &req->args;
     844           2 :         args->fn.fs_op_with_handle = cb_fn;
     845           2 :         args->arg = cb_arg;
     846           2 :         args->fs = fs;
     847           2 :         TAILQ_INIT(&args->op.fs_load.deleted_files);
     848           2 :         spdk_bs_opts_init(&bs_opts, sizeof(bs_opts));
     849           2 :         bs_opts.iter_cb_fn = iter_cb;
     850           2 :         bs_opts.iter_cb_arg = req;
     851           2 :         spdk_bs_load(dev, &bs_opts, load_cb, req);
     852             : }
     853             : 
     854             : static void
     855          20 : unload_cb(void *ctx, int bserrno)
     856             : {
     857          20 :         struct spdk_fs_request *req = ctx;
     858          20 :         struct spdk_fs_cb_args *args = &req->args;
     859          20 :         struct spdk_filesystem *fs = args->fs;
     860             :         struct spdk_file *file, *tmp;
     861             : 
     862          26 :         TAILQ_FOREACH_SAFE(file, &fs->files, tailq, tmp) {
     863           6 :                 TAILQ_REMOVE(&fs->files, file, tailq);
     864           6 :                 file_free(file);
     865             :         }
     866             : 
     867          20 :         free_global_cache();
     868             : 
     869          20 :         args->fn.fs_op(args->arg, bserrno);
     870          20 :         free(req);
     871             : 
     872          20 :         fs_io_device_unregister(fs);
     873          20 : }
     874             : 
     875             : void
     876          20 : spdk_fs_unload(struct spdk_filesystem *fs, spdk_fs_op_complete cb_fn, void *cb_arg)
     877             : {
     878             :         struct spdk_fs_request *req;
     879             :         struct spdk_fs_cb_args *args;
     880             : 
     881             :         /*
     882             :          * We must free the md_channel before unloading the blobstore, so just
     883             :          *  allocate this request from the general heap.
     884             :          */
     885          20 :         req = calloc(1, sizeof(*req));
     886          20 :         if (req == NULL) {
     887           0 :                 cb_fn(cb_arg, -ENOMEM);
     888           0 :                 return;
     889             :         }
     890             : 
     891          20 :         args = &req->args;
     892          20 :         args->fn.fs_op = cb_fn;
     893          20 :         args->arg = cb_arg;
     894          20 :         args->fs = fs;
     895             : 
     896          20 :         fs_free_io_channels(fs);
     897          20 :         spdk_bs_unload(fs->bs, unload_cb, req);
     898             : }
     899             : 
     900             : static struct spdk_file *
     901          75 : fs_find_file(struct spdk_filesystem *fs, const char *name)
     902             : {
     903             :         struct spdk_file *file;
     904             : 
     905          82 :         TAILQ_FOREACH(file, &fs->files, tailq) {
     906          48 :                 if (!strncmp(name, file->name, SPDK_FILE_NAME_MAX)) {
     907          41 :                         return file;
     908             :                 }
     909             :         }
     910             : 
     911          34 :         return NULL;
     912             : }
     913             : 
     914             : void
     915           4 : spdk_fs_file_stat_async(struct spdk_filesystem *fs, const char *name,
     916             :                         spdk_file_stat_op_complete cb_fn, void *cb_arg)
     917             : {
     918             :         struct spdk_file_stat stat;
     919           4 :         struct spdk_file *f = NULL;
     920             : 
     921           4 :         if (strnlen(name, SPDK_FILE_NAME_MAX + 1) == SPDK_FILE_NAME_MAX + 1) {
     922           0 :                 cb_fn(cb_arg, NULL, -ENAMETOOLONG);
     923           4 :                 return;
     924             :         }
     925             : 
     926           4 :         f = fs_find_file(fs, name);
     927           4 :         if (f != NULL) {
     928           4 :                 stat.blobid = f->blobid;
     929           4 :                 stat.size = f->append_pos >= f->length ? f->append_pos : f->length;
     930           4 :                 cb_fn(cb_arg, &stat, 0);
     931           4 :                 return;
     932             :         }
     933             : 
     934           0 :         cb_fn(cb_arg, NULL, -ENOENT);
     935             : }
     936             : 
     937             : static void
     938           4 : __copy_stat(void *arg, struct spdk_file_stat *stat, int fserrno)
     939             : {
     940           4 :         struct spdk_fs_request *req = arg;
     941           4 :         struct spdk_fs_cb_args *args = &req->args;
     942             : 
     943           4 :         args->rc = fserrno;
     944           4 :         if (fserrno == 0) {
     945           4 :                 memcpy(args->arg, stat, sizeof(*stat));
     946             :         }
     947           4 :         sem_post(args->sem);
     948           4 : }
     949             : 
     950             : static void
     951           4 : __file_stat(void *arg)
     952             : {
     953           4 :         struct spdk_fs_request *req = arg;
     954           4 :         struct spdk_fs_cb_args *args = &req->args;
     955             : 
     956           4 :         spdk_fs_file_stat_async(args->fs, args->op.stat.name,
     957             :                                 args->fn.stat_op, req);
     958           4 : }
     959             : 
     960             : int
     961           4 : spdk_fs_file_stat(struct spdk_filesystem *fs, struct spdk_fs_thread_ctx *ctx,
     962             :                   const char *name, struct spdk_file_stat *stat)
     963             : {
     964           4 :         struct spdk_fs_channel *channel = (struct spdk_fs_channel *)ctx;
     965             :         struct spdk_fs_request *req;
     966             :         int rc;
     967             : 
     968           4 :         req = alloc_fs_request(channel);
     969           4 :         if (req == NULL) {
     970           0 :                 SPDK_ERRLOG("Cannot allocate stat req on file=%s\n", name);
     971           0 :                 return -ENOMEM;
     972             :         }
     973             : 
     974           4 :         req->args.fs = fs;
     975           4 :         req->args.op.stat.name = name;
     976           4 :         req->args.fn.stat_op = __copy_stat;
     977           4 :         req->args.arg = stat;
     978           4 :         req->args.sem = &channel->sem;
     979           4 :         channel->send_request(__file_stat, req);
     980           4 :         sem_wait(&channel->sem);
     981             : 
     982           4 :         rc = req->args.rc;
     983           4 :         free_fs_request(req);
     984             : 
     985           4 :         return rc;
     986             : }
     987             : 
     988             : static void
     989          16 : fs_create_blob_close_cb(void *ctx, int bserrno)
     990             : {
     991             :         int rc;
     992          16 :         struct spdk_fs_request *req = ctx;
     993          16 :         struct spdk_fs_cb_args *args = &req->args;
     994             : 
     995          16 :         rc = args->rc ? args->rc : bserrno;
     996          16 :         args->fn.file_op(args->arg, rc);
     997          16 :         free_fs_request(req);
     998          16 : }
     999             : 
    1000             : static void
    1001          16 : fs_create_blob_resize_cb(void *ctx, int bserrno)
    1002             : {
    1003          16 :         struct spdk_fs_request *req = ctx;
    1004          16 :         struct spdk_fs_cb_args *args = &req->args;
    1005          16 :         struct spdk_file *f = args->file;
    1006          16 :         struct spdk_blob *blob = args->op.create.blob;
    1007          16 :         uint64_t length = 0;
    1008             : 
    1009          16 :         args->rc = bserrno;
    1010          16 :         if (bserrno) {
    1011           0 :                 spdk_blob_close(blob, fs_create_blob_close_cb, args);
    1012           0 :                 return;
    1013             :         }
    1014             : 
    1015          16 :         spdk_blob_set_xattr(blob, "name", f->name, strlen(f->name) + 1);
    1016          16 :         spdk_blob_set_xattr(blob, "length", &length, sizeof(length));
    1017             : 
    1018          16 :         spdk_blob_close(blob, fs_create_blob_close_cb, args);
    1019             : }
    1020             : 
    1021             : static void
    1022          16 : fs_create_blob_open_cb(void *ctx, struct spdk_blob *blob, int bserrno)
    1023             : {
    1024          16 :         struct spdk_fs_request *req = ctx;
    1025          16 :         struct spdk_fs_cb_args *args = &req->args;
    1026             : 
    1027          16 :         if (bserrno) {
    1028           0 :                 args->fn.file_op(args->arg, bserrno);
    1029           0 :                 free_fs_request(req);
    1030           0 :                 return;
    1031             :         }
    1032             : 
    1033          16 :         args->op.create.blob = blob;
    1034          16 :         spdk_blob_resize(blob, 1, fs_create_blob_resize_cb, req);
    1035             : }
    1036             : 
    1037             : static void
    1038          16 : fs_create_blob_create_cb(void *ctx, spdk_blob_id blobid, int bserrno)
    1039             : {
    1040          16 :         struct spdk_fs_request *req = ctx;
    1041          16 :         struct spdk_fs_cb_args *args = &req->args;
    1042          16 :         struct spdk_file *f = args->file;
    1043             : 
    1044          16 :         if (bserrno) {
    1045           0 :                 args->fn.file_op(args->arg, bserrno);
    1046           0 :                 free_fs_request(req);
    1047           0 :                 return;
    1048             :         }
    1049             : 
    1050          16 :         f->blobid = blobid;
    1051          16 :         spdk_bs_open_blob(f->fs->bs, blobid, fs_create_blob_open_cb, req);
    1052             : }
    1053             : 
    1054             : void
    1055          19 : spdk_fs_create_file_async(struct spdk_filesystem *fs, const char *name,
    1056             :                           spdk_file_op_complete cb_fn, void *cb_arg)
    1057             : {
    1058             :         struct spdk_file *file;
    1059             :         struct spdk_fs_request *req;
    1060             :         struct spdk_fs_cb_args *args;
    1061             : 
    1062          19 :         if (strnlen(name, SPDK_FILE_NAME_MAX + 1) == SPDK_FILE_NAME_MAX + 1) {
    1063           1 :                 cb_fn(cb_arg, -ENAMETOOLONG);
    1064           1 :                 return;
    1065             :         }
    1066             : 
    1067          18 :         file = fs_find_file(fs, name);
    1068          18 :         if (file != NULL) {
    1069           2 :                 cb_fn(cb_arg, -EEXIST);
    1070           2 :                 return;
    1071             :         }
    1072             : 
    1073          16 :         file = file_alloc(fs);
    1074          16 :         if (file == NULL) {
    1075           0 :                 SPDK_ERRLOG("Cannot allocate new file for creation\n");
    1076           0 :                 cb_fn(cb_arg, -ENOMEM);
    1077           0 :                 return;
    1078             :         }
    1079             : 
    1080          16 :         req = alloc_fs_request(fs->md_target.md_fs_channel);
    1081          16 :         if (req == NULL) {
    1082           0 :                 SPDK_ERRLOG("Cannot allocate create async req for file=%s\n", name);
    1083           0 :                 TAILQ_REMOVE(&fs->files, file, tailq);
    1084           0 :                 file_free(file);
    1085           0 :                 cb_fn(cb_arg, -ENOMEM);
    1086           0 :                 return;
    1087             :         }
    1088             : 
    1089          16 :         args = &req->args;
    1090          16 :         args->file = file;
    1091          16 :         args->fn.file_op = cb_fn;
    1092          16 :         args->arg = cb_arg;
    1093             : 
    1094          16 :         file->name = strdup(name);
    1095          16 :         if (!file->name) {
    1096           0 :                 SPDK_ERRLOG("Cannot allocate file->name for file=%s\n", name);
    1097           0 :                 free_fs_request(req);
    1098           0 :                 TAILQ_REMOVE(&fs->files, file, tailq);
    1099           0 :                 file_free(file);
    1100           0 :                 cb_fn(cb_arg, -ENOMEM);
    1101           0 :                 return;
    1102             :         }
    1103          16 :         spdk_bs_create_blob(fs->bs, fs_create_blob_create_cb, args);
    1104             : }
    1105             : 
    1106             : static void
    1107           2 : __fs_create_file_done(void *arg, int fserrno)
    1108             : {
    1109           2 :         struct spdk_fs_request *req = arg;
    1110           2 :         struct spdk_fs_cb_args *args = &req->args;
    1111             : 
    1112           2 :         SPDK_DEBUGLOG(blobfs, "file=%s\n", args->op.create.name);
    1113           2 :         __wake_caller(args, fserrno);
    1114           2 : }
    1115             : 
    1116             : static void
    1117           2 : __fs_create_file(void *arg)
    1118             : {
    1119           2 :         struct spdk_fs_request *req = arg;
    1120           2 :         struct spdk_fs_cb_args *args = &req->args;
    1121             : 
    1122           2 :         SPDK_DEBUGLOG(blobfs, "file=%s\n", args->op.create.name);
    1123           2 :         spdk_fs_create_file_async(args->fs, args->op.create.name, __fs_create_file_done, req);
    1124           2 : }
    1125             : 
    1126             : int
    1127           2 : spdk_fs_create_file(struct spdk_filesystem *fs, struct spdk_fs_thread_ctx *ctx, const char *name)
    1128             : {
    1129           2 :         struct spdk_fs_channel *channel = (struct spdk_fs_channel *)ctx;
    1130             :         struct spdk_fs_request *req;
    1131             :         struct spdk_fs_cb_args *args;
    1132             :         int rc;
    1133             : 
    1134           2 :         SPDK_DEBUGLOG(blobfs, "file=%s\n", name);
    1135             : 
    1136           2 :         req = alloc_fs_request(channel);
    1137           2 :         if (req == NULL) {
    1138           0 :                 SPDK_ERRLOG("Cannot allocate req to create file=%s\n", name);
    1139           0 :                 return -ENOMEM;
    1140             :         }
    1141             : 
    1142           2 :         args = &req->args;
    1143           2 :         args->fs = fs;
    1144           2 :         args->op.create.name = name;
    1145           2 :         args->sem = &channel->sem;
    1146           2 :         fs->send_request(__fs_create_file, req);
    1147           2 :         sem_wait(&channel->sem);
    1148           2 :         rc = args->rc;
    1149           2 :         free_fs_request(req);
    1150             : 
    1151           2 :         return rc;
    1152             : }
    1153             : 
    1154             : static void
    1155          17 : fs_open_blob_done(void *ctx, struct spdk_blob *blob, int bserrno)
    1156             : {
    1157          17 :         struct spdk_fs_request *req = ctx;
    1158          17 :         struct spdk_fs_cb_args *args = &req->args;
    1159          17 :         struct spdk_file *f = args->file;
    1160             : 
    1161          17 :         f->blob = blob;
    1162          34 :         while (!TAILQ_EMPTY(&f->open_requests)) {
    1163          17 :                 req = TAILQ_FIRST(&f->open_requests);
    1164          17 :                 args = &req->args;
    1165          17 :                 TAILQ_REMOVE(&f->open_requests, req, args.op.open.tailq);
    1166          17 :                 spdk_trace_record(TRACE_BLOBFS_OPEN, 0, 0, 0, f->name);
    1167          17 :                 args->fn.file_op_with_handle(args->arg, f, bserrno);
    1168          17 :                 free_fs_request(req);
    1169             :         }
    1170          17 : }
    1171             : 
    1172             : static void
    1173          17 : fs_open_blob_create_cb(void *ctx, int bserrno)
    1174             : {
    1175          17 :         struct spdk_fs_request *req = ctx;
    1176          17 :         struct spdk_fs_cb_args *args = &req->args;
    1177          17 :         struct spdk_file *file = args->file;
    1178          17 :         struct spdk_filesystem *fs = args->fs;
    1179             : 
    1180          17 :         if (file == NULL) {
    1181             :                 /*
    1182             :                  * This is from an open with CREATE flag - the file
    1183             :                  *  is now created so look it up in the file list for this
    1184             :                  *  filesystem.
    1185             :                  */
    1186          13 :                 file = fs_find_file(fs, args->op.open.name);
    1187          13 :                 assert(file != NULL);
    1188          13 :                 args->file = file;
    1189             :         }
    1190             : 
    1191          17 :         file->ref_count++;
    1192          17 :         TAILQ_INSERT_TAIL(&file->open_requests, req, args.op.open.tailq);
    1193          17 :         if (file->ref_count == 1) {
    1194          17 :                 assert(file->blob == NULL);
    1195          17 :                 spdk_bs_open_blob(fs->bs, file->blobid, fs_open_blob_done, req);
    1196           0 :         } else if (file->blob != NULL) {
    1197           0 :                 fs_open_blob_done(req, file->blob, 0);
    1198             :         } else {
    1199             :                 /*
    1200             :                  * The blob open for this file is in progress due to a previous
    1201             :                  *  open request.  When that open completes, it will invoke the
    1202             :                  *  open callback for this request.
    1203             :                  */
    1204             :         }
    1205          17 : }
    1206             : 
    1207             : void
    1208          21 : spdk_fs_open_file_async(struct spdk_filesystem *fs, const char *name, uint32_t flags,
    1209             :                         spdk_file_op_with_handle_complete cb_fn, void *cb_arg)
    1210             : {
    1211          21 :         struct spdk_file *f = NULL;
    1212             :         struct spdk_fs_request *req;
    1213             :         struct spdk_fs_cb_args *args;
    1214             : 
    1215          21 :         if (strnlen(name, SPDK_FILE_NAME_MAX + 1) == SPDK_FILE_NAME_MAX + 1) {
    1216           1 :                 cb_fn(cb_arg, NULL, -ENAMETOOLONG);
    1217           1 :                 return;
    1218             :         }
    1219             : 
    1220          20 :         f = fs_find_file(fs, name);
    1221          20 :         if (f == NULL && !(flags & SPDK_BLOBFS_OPEN_CREATE)) {
    1222           2 :                 cb_fn(cb_arg, NULL, -ENOENT);
    1223           2 :                 return;
    1224             :         }
    1225             : 
    1226          18 :         if (f != NULL && f->is_deleted == true) {
    1227           1 :                 cb_fn(cb_arg, NULL, -ENOENT);
    1228           1 :                 return;
    1229             :         }
    1230             : 
    1231          17 :         req = alloc_fs_request(fs->md_target.md_fs_channel);
    1232          17 :         if (req == NULL) {
    1233           0 :                 SPDK_ERRLOG("Cannot allocate async open req for file=%s\n", name);
    1234           0 :                 cb_fn(cb_arg, NULL, -ENOMEM);
    1235           0 :                 return;
    1236             :         }
    1237             : 
    1238          17 :         args = &req->args;
    1239          17 :         args->fn.file_op_with_handle = cb_fn;
    1240          17 :         args->arg = cb_arg;
    1241          17 :         args->file = f;
    1242          17 :         args->fs = fs;
    1243          17 :         args->op.open.name = name;
    1244             : 
    1245          17 :         if (f == NULL) {
    1246          13 :                 spdk_fs_create_file_async(fs, name, fs_open_blob_create_cb, req);
    1247             :         } else {
    1248           4 :                 fs_open_blob_create_cb(req, 0);
    1249             :         }
    1250             : }
    1251             : 
    1252             : static void
    1253          13 : __fs_open_file_done(void *arg, struct spdk_file *file, int bserrno)
    1254             : {
    1255          13 :         struct spdk_fs_request *req = arg;
    1256          13 :         struct spdk_fs_cb_args *args = &req->args;
    1257             : 
    1258          13 :         args->file = file;
    1259          13 :         SPDK_DEBUGLOG(blobfs, "file=%s\n", args->op.open.name);
    1260          13 :         __wake_caller(args, bserrno);
    1261          13 : }
    1262             : 
    1263             : static void
    1264          13 : __fs_open_file(void *arg)
    1265             : {
    1266          13 :         struct spdk_fs_request *req = arg;
    1267          13 :         struct spdk_fs_cb_args *args = &req->args;
    1268             : 
    1269          13 :         SPDK_DEBUGLOG(blobfs, "file=%s\n", args->op.open.name);
    1270          13 :         spdk_fs_open_file_async(args->fs, args->op.open.name, args->op.open.flags,
    1271             :                                 __fs_open_file_done, req);
    1272          13 : }
    1273             : 
    1274             : int
    1275          13 : spdk_fs_open_file(struct spdk_filesystem *fs, struct spdk_fs_thread_ctx *ctx,
    1276             :                   const char *name, uint32_t flags, struct spdk_file **file)
    1277             : {
    1278          13 :         struct spdk_fs_channel *channel = (struct spdk_fs_channel *)ctx;
    1279             :         struct spdk_fs_request *req;
    1280             :         struct spdk_fs_cb_args *args;
    1281             :         int rc;
    1282             : 
    1283          13 :         SPDK_DEBUGLOG(blobfs, "file=%s\n", name);
    1284             : 
    1285          13 :         req = alloc_fs_request(channel);
    1286          13 :         if (req == NULL) {
    1287           0 :                 SPDK_ERRLOG("Cannot allocate req for opening file=%s\n", name);
    1288           0 :                 return -ENOMEM;
    1289             :         }
    1290             : 
    1291          13 :         args = &req->args;
    1292          13 :         args->fs = fs;
    1293          13 :         args->op.open.name = name;
    1294          13 :         args->op.open.flags = flags;
    1295          13 :         args->sem = &channel->sem;
    1296          13 :         fs->send_request(__fs_open_file, req);
    1297          13 :         sem_wait(&channel->sem);
    1298          13 :         rc = args->rc;
    1299          13 :         if (rc == 0) {
    1300          11 :                 *file = args->file;
    1301             :         } else {
    1302           2 :                 *file = NULL;
    1303             :         }
    1304          13 :         free_fs_request(req);
    1305             : 
    1306          13 :         return rc;
    1307             : }
    1308             : 
    1309             : static void
    1310           2 : fs_rename_blob_close_cb(void *ctx, int bserrno)
    1311             : {
    1312           2 :         struct spdk_fs_request *req = ctx;
    1313           2 :         struct spdk_fs_cb_args *args = &req->args;
    1314             : 
    1315           2 :         args->fn.fs_op(args->arg, bserrno);
    1316           2 :         free_fs_request(req);
    1317           2 : }
    1318             : 
    1319             : static void
    1320           2 : fs_rename_blob_open_cb(void *ctx, struct spdk_blob *blob, int bserrno)
    1321             : {
    1322           2 :         struct spdk_fs_request *req = ctx;
    1323           2 :         struct spdk_fs_cb_args *args = &req->args;
    1324           2 :         const char *new_name = args->op.rename.new_name;
    1325             : 
    1326           2 :         spdk_blob_set_xattr(blob, "name", new_name, strlen(new_name) + 1);
    1327           2 :         spdk_blob_close(blob, fs_rename_blob_close_cb, req);
    1328           2 : }
    1329             : 
    1330             : static void
    1331           2 : _fs_md_rename_file(struct spdk_fs_request *req)
    1332             : {
    1333           2 :         struct spdk_fs_cb_args *args = &req->args;
    1334             :         struct spdk_file *f;
    1335             : 
    1336           2 :         f = fs_find_file(args->fs, args->op.rename.old_name);
    1337           2 :         if (f == NULL) {
    1338           0 :                 args->fn.fs_op(args->arg, -ENOENT);
    1339           0 :                 free_fs_request(req);
    1340           0 :                 return;
    1341             :         }
    1342             : 
    1343           2 :         free(f->name);
    1344           2 :         f->name = strdup(args->op.rename.new_name);
    1345           2 :         if (!f->name) {
    1346           0 :                 SPDK_ERRLOG("Cannot allocate memory for file name\n");
    1347           0 :                 args->fn.fs_op(args->arg, -ENOMEM);
    1348           0 :                 free_fs_request(req);
    1349           0 :                 return;
    1350             :         }
    1351             : 
    1352           2 :         args->file = f;
    1353           2 :         spdk_bs_open_blob(args->fs->bs, f->blobid, fs_rename_blob_open_cb, req);
    1354             : }
    1355             : 
    1356             : static void
    1357           1 : fs_rename_delete_done(void *arg, int fserrno)
    1358             : {
    1359           1 :         _fs_md_rename_file(arg);
    1360           1 : }
    1361             : 
    1362             : void
    1363           2 : spdk_fs_rename_file_async(struct spdk_filesystem *fs,
    1364             :                           const char *old_name, const char *new_name,
    1365             :                           spdk_file_op_complete cb_fn, void *cb_arg)
    1366             : {
    1367             :         struct spdk_file *f;
    1368             :         struct spdk_fs_request *req;
    1369             :         struct spdk_fs_cb_args *args;
    1370             : 
    1371           2 :         SPDK_DEBUGLOG(blobfs, "old=%s new=%s\n", old_name, new_name);
    1372           2 :         if (strnlen(new_name, SPDK_FILE_NAME_MAX + 1) == SPDK_FILE_NAME_MAX + 1) {
    1373           0 :                 cb_fn(cb_arg, -ENAMETOOLONG);
    1374           0 :                 return;
    1375             :         }
    1376             : 
    1377           2 :         req = alloc_fs_request(fs->md_target.md_fs_channel);
    1378           2 :         if (req == NULL) {
    1379           0 :                 SPDK_ERRLOG("Cannot allocate rename async req for renaming file from %s to %s\n", old_name,
    1380             :                             new_name);
    1381           0 :                 cb_fn(cb_arg, -ENOMEM);
    1382           0 :                 return;
    1383             :         }
    1384             : 
    1385           2 :         args = &req->args;
    1386           2 :         args->fn.fs_op = cb_fn;
    1387           2 :         args->fs = fs;
    1388           2 :         args->arg = cb_arg;
    1389           2 :         args->op.rename.old_name = old_name;
    1390           2 :         args->op.rename.new_name = new_name;
    1391             : 
    1392           2 :         f = fs_find_file(fs, new_name);
    1393           2 :         if (f == NULL) {
    1394           1 :                 _fs_md_rename_file(req);
    1395           1 :                 return;
    1396             :         }
    1397             : 
    1398             :         /*
    1399             :          * The rename overwrites an existing file.  So delete the existing file, then
    1400             :          *  do the actual rename.
    1401             :          */
    1402           1 :         spdk_fs_delete_file_async(fs, new_name, fs_rename_delete_done, req);
    1403             : }
    1404             : 
    1405             : static void
    1406           1 : __fs_rename_file_done(void *arg, int fserrno)
    1407             : {
    1408           1 :         struct spdk_fs_request *req = arg;
    1409           1 :         struct spdk_fs_cb_args *args = &req->args;
    1410             : 
    1411           1 :         __wake_caller(args, fserrno);
    1412           1 : }
    1413             : 
    1414             : static void
    1415           1 : __fs_rename_file(void *arg)
    1416             : {
    1417           1 :         struct spdk_fs_request *req = arg;
    1418           1 :         struct spdk_fs_cb_args *args = &req->args;
    1419             : 
    1420           1 :         spdk_fs_rename_file_async(args->fs, args->op.rename.old_name, args->op.rename.new_name,
    1421             :                                   __fs_rename_file_done, req);
    1422           1 : }
    1423             : 
    1424             : int
    1425           1 : spdk_fs_rename_file(struct spdk_filesystem *fs, struct spdk_fs_thread_ctx *ctx,
    1426             :                     const char *old_name, const char *new_name)
    1427             : {
    1428           1 :         struct spdk_fs_channel *channel = (struct spdk_fs_channel *)ctx;
    1429             :         struct spdk_fs_request *req;
    1430             :         struct spdk_fs_cb_args *args;
    1431             :         int rc;
    1432             : 
    1433           1 :         req = alloc_fs_request(channel);
    1434           1 :         if (req == NULL) {
    1435           0 :                 SPDK_ERRLOG("Cannot allocate rename req for file=%s\n", old_name);
    1436           0 :                 return -ENOMEM;
    1437             :         }
    1438             : 
    1439           1 :         args = &req->args;
    1440             : 
    1441           1 :         args->fs = fs;
    1442           1 :         args->op.rename.old_name = old_name;
    1443           1 :         args->op.rename.new_name = new_name;
    1444           1 :         args->sem = &channel->sem;
    1445           1 :         fs->send_request(__fs_rename_file, req);
    1446           1 :         sem_wait(&channel->sem);
    1447           1 :         rc = args->rc;
    1448           1 :         free_fs_request(req);
    1449           1 :         return rc;
    1450             : }
    1451             : 
    1452             : static void
    1453          16 : blob_delete_cb(void *ctx, int bserrno)
    1454             : {
    1455          16 :         struct spdk_fs_request *req = ctx;
    1456          16 :         struct spdk_fs_cb_args *args = &req->args;
    1457             : 
    1458          16 :         args->fn.file_op(args->arg, bserrno);
    1459          16 :         free_fs_request(req);
    1460          16 : }
    1461             : 
    1462             : void
    1463          16 : spdk_fs_delete_file_async(struct spdk_filesystem *fs, const char *name,
    1464             :                           spdk_file_op_complete cb_fn, void *cb_arg)
    1465             : {
    1466             :         struct spdk_file *f;
    1467             :         spdk_blob_id blobid;
    1468             :         struct spdk_fs_request *req;
    1469             :         struct spdk_fs_cb_args *args;
    1470             : 
    1471          16 :         SPDK_DEBUGLOG(blobfs, "file=%s\n", name);
    1472             : 
    1473          16 :         if (strnlen(name, SPDK_FILE_NAME_MAX + 1) == SPDK_FILE_NAME_MAX + 1) {
    1474           0 :                 cb_fn(cb_arg, -ENAMETOOLONG);
    1475           0 :                 return;
    1476             :         }
    1477             : 
    1478          16 :         f = fs_find_file(fs, name);
    1479          16 :         if (f == NULL) {
    1480           2 :                 SPDK_ERRLOG("Cannot find the file=%s to deleted\n", name);
    1481           2 :                 cb_fn(cb_arg, -ENOENT);
    1482           2 :                 return;
    1483             :         }
    1484             : 
    1485          14 :         req = alloc_fs_request(fs->md_target.md_fs_channel);
    1486          14 :         if (req == NULL) {
    1487           0 :                 SPDK_ERRLOG("Cannot allocate the req for the file=%s to deleted\n", name);
    1488           0 :                 cb_fn(cb_arg, -ENOMEM);
    1489           0 :                 return;
    1490             :         }
    1491             : 
    1492          14 :         args = &req->args;
    1493          14 :         args->fn.file_op = cb_fn;
    1494          14 :         args->arg = cb_arg;
    1495             : 
    1496          14 :         if (f->ref_count > 0) {
    1497             :                 /* If the ref > 0, we mark the file as deleted and delete it when we close it. */
    1498           2 :                 f->is_deleted = true;
    1499           2 :                 spdk_blob_set_xattr(f->blob, "is_deleted", &f->is_deleted, sizeof(bool));
    1500           2 :                 spdk_blob_sync_md(f->blob, blob_delete_cb, req);
    1501           2 :                 return;
    1502             :         }
    1503             : 
    1504          12 :         blobid = f->blobid;
    1505          12 :         TAILQ_REMOVE(&fs->files, f, tailq);
    1506             : 
    1507          12 :         file_free(f);
    1508             : 
    1509          12 :         spdk_bs_delete_blob(fs->bs, blobid, blob_delete_cb, req);
    1510             : }
    1511             : 
    1512             : static void
    1513           8 : __fs_delete_file_done(void *arg, int fserrno)
    1514             : {
    1515           8 :         struct spdk_fs_request *req = arg;
    1516           8 :         struct spdk_fs_cb_args *args = &req->args;
    1517             : 
    1518           8 :         spdk_trace_record(TRACE_BLOBFS_DELETE_DONE, 0, 0, 0, args->op.delete.name);
    1519           8 :         __wake_caller(args, fserrno);
    1520           8 : }
    1521             : 
    1522             : static void
    1523           8 : __fs_delete_file(void *arg)
    1524             : {
    1525           8 :         struct spdk_fs_request *req = arg;
    1526           8 :         struct spdk_fs_cb_args *args = &req->args;
    1527             : 
    1528           8 :         spdk_trace_record(TRACE_BLOBFS_DELETE_START, 0, 0, 0, args->op.delete.name);
    1529           8 :         spdk_fs_delete_file_async(args->fs, args->op.delete.name, __fs_delete_file_done, req);
    1530           8 : }
    1531             : 
    1532             : int
    1533           8 : spdk_fs_delete_file(struct spdk_filesystem *fs, struct spdk_fs_thread_ctx *ctx,
    1534             :                     const char *name)
    1535             : {
    1536           8 :         struct spdk_fs_channel *channel = (struct spdk_fs_channel *)ctx;
    1537             :         struct spdk_fs_request *req;
    1538             :         struct spdk_fs_cb_args *args;
    1539             :         int rc;
    1540             : 
    1541           8 :         req = alloc_fs_request(channel);
    1542           8 :         if (req == NULL) {
    1543           0 :                 SPDK_DEBUGLOG(blobfs, "Cannot allocate req to delete file=%s\n", name);
    1544           0 :                 return -ENOMEM;
    1545             :         }
    1546             : 
    1547           8 :         args = &req->args;
    1548           8 :         args->fs = fs;
    1549           8 :         args->op.delete.name = name;
    1550           8 :         args->sem = &channel->sem;
    1551           8 :         fs->send_request(__fs_delete_file, req);
    1552           8 :         sem_wait(&channel->sem);
    1553           8 :         rc = args->rc;
    1554           8 :         free_fs_request(req);
    1555             : 
    1556           8 :         return rc;
    1557             : }
    1558             : 
    1559             : spdk_fs_iter
    1560           1 : spdk_fs_iter_first(struct spdk_filesystem *fs)
    1561             : {
    1562             :         struct spdk_file *f;
    1563             : 
    1564           1 :         f = TAILQ_FIRST(&fs->files);
    1565           1 :         return f;
    1566             : }
    1567             : 
    1568             : spdk_fs_iter
    1569           1 : spdk_fs_iter_next(spdk_fs_iter iter)
    1570             : {
    1571           1 :         struct spdk_file *f = iter;
    1572             : 
    1573           1 :         if (f == NULL) {
    1574           0 :                 return NULL;
    1575             :         }
    1576             : 
    1577           1 :         f = TAILQ_NEXT(f, tailq);
    1578           1 :         return f;
    1579             : }
    1580             : 
    1581             : const char *
    1582           2 : spdk_file_get_name(struct spdk_file *file)
    1583             : {
    1584           2 :         return file->name;
    1585             : }
    1586             : 
    1587             : uint64_t
    1588           6 : spdk_file_get_length(struct spdk_file *file)
    1589             : {
    1590             :         uint64_t length;
    1591             : 
    1592           6 :         assert(file != NULL);
    1593             : 
    1594           6 :         length = file->append_pos >= file->length ? file->append_pos : file->length;
    1595           6 :         SPDK_DEBUGLOG(blobfs, "file=%s length=0x%jx\n", file->name, length);
    1596           6 :         return length;
    1597             : }
    1598             : 
    1599             : static void
    1600           8 : fs_truncate_complete_cb(void *ctx, int bserrno)
    1601             : {
    1602           8 :         struct spdk_fs_request *req = ctx;
    1603           8 :         struct spdk_fs_cb_args *args = &req->args;
    1604             : 
    1605           8 :         args->fn.file_op(args->arg, bserrno);
    1606           8 :         free_fs_request(req);
    1607           8 : }
    1608             : 
    1609             : static void
    1610           8 : fs_truncate_resize_cb(void *ctx, int bserrno)
    1611             : {
    1612           8 :         struct spdk_fs_request *req = ctx;
    1613           8 :         struct spdk_fs_cb_args *args = &req->args;
    1614           8 :         struct spdk_file *file = args->file;
    1615           8 :         uint64_t *length = &args->op.truncate.length;
    1616             : 
    1617           8 :         if (bserrno) {
    1618           0 :                 args->fn.file_op(args->arg, bserrno);
    1619           0 :                 free_fs_request(req);
    1620           0 :                 return;
    1621             :         }
    1622             : 
    1623           8 :         spdk_blob_set_xattr(file->blob, "length", length, sizeof(*length));
    1624             : 
    1625           8 :         file->length = *length;
    1626           8 :         if (file->append_pos > file->length) {
    1627           0 :                 file->append_pos = file->length;
    1628             :         }
    1629             : 
    1630           8 :         spdk_blob_sync_md(file->blob, fs_truncate_complete_cb, req);
    1631             : }
    1632             : 
    1633             : static uint64_t
    1634           8 : __bytes_to_clusters(uint64_t length, uint64_t cluster_sz)
    1635             : {
    1636           8 :         return (length + cluster_sz - 1) / cluster_sz;
    1637             : }
    1638             : 
    1639             : void
    1640           9 : spdk_file_truncate_async(struct spdk_file *file, uint64_t length,
    1641             :                          spdk_file_op_complete cb_fn, void *cb_arg)
    1642             : {
    1643             :         struct spdk_filesystem *fs;
    1644             :         size_t num_clusters;
    1645             :         struct spdk_fs_request *req;
    1646             :         struct spdk_fs_cb_args *args;
    1647             : 
    1648           9 :         SPDK_DEBUGLOG(blobfs, "file=%s old=0x%jx new=0x%jx\n", file->name, file->length, length);
    1649           9 :         if (length == file->length) {
    1650           1 :                 cb_fn(cb_arg, 0);
    1651           1 :                 return;
    1652             :         }
    1653             : 
    1654           8 :         req = alloc_fs_request(file->fs->md_target.md_fs_channel);
    1655           8 :         if (req == NULL) {
    1656           0 :                 cb_fn(cb_arg, -ENOMEM);
    1657           0 :                 return;
    1658             :         }
    1659             : 
    1660           8 :         args = &req->args;
    1661           8 :         args->fn.file_op = cb_fn;
    1662           8 :         args->arg = cb_arg;
    1663           8 :         args->file = file;
    1664           8 :         args->op.truncate.length = length;
    1665           8 :         fs = file->fs;
    1666             : 
    1667           8 :         num_clusters = __bytes_to_clusters(length, fs->bs_opts.cluster_sz);
    1668             : 
    1669           8 :         spdk_blob_resize(file->blob, num_clusters, fs_truncate_resize_cb, req);
    1670             : }
    1671             : 
    1672             : static void
    1673           3 : __truncate(void *arg)
    1674             : {
    1675           3 :         struct spdk_fs_request *req = arg;
    1676           3 :         struct spdk_fs_cb_args *args = &req->args;
    1677             : 
    1678           3 :         spdk_file_truncate_async(args->file, args->op.truncate.length,
    1679             :                                  args->fn.file_op, args);
    1680           3 : }
    1681             : 
    1682             : int
    1683           3 : spdk_file_truncate(struct spdk_file *file, struct spdk_fs_thread_ctx *ctx,
    1684             :                    uint64_t length)
    1685             : {
    1686           3 :         struct spdk_fs_channel *channel = (struct spdk_fs_channel *)ctx;
    1687             :         struct spdk_fs_request *req;
    1688             :         struct spdk_fs_cb_args *args;
    1689             :         int rc;
    1690             : 
    1691           3 :         req = alloc_fs_request(channel);
    1692           3 :         if (req == NULL) {
    1693           0 :                 return -ENOMEM;
    1694             :         }
    1695             : 
    1696           3 :         args = &req->args;
    1697             : 
    1698           3 :         args->file = file;
    1699           3 :         args->op.truncate.length = length;
    1700           3 :         args->fn.file_op = __wake_caller;
    1701           3 :         args->sem = &channel->sem;
    1702             : 
    1703           3 :         channel->send_request(__truncate, req);
    1704           3 :         sem_wait(&channel->sem);
    1705           3 :         rc = args->rc;
    1706           3 :         free_fs_request(req);
    1707             : 
    1708           3 :         return rc;
    1709             : }
    1710             : 
    1711             : static void
    1712           7 : __rw_done(void *ctx, int bserrno)
    1713             : {
    1714           7 :         struct spdk_fs_request *req = ctx;
    1715           7 :         struct spdk_fs_cb_args *args = &req->args;
    1716             : 
    1717           7 :         spdk_free(args->op.rw.pin_buf);
    1718           7 :         args->fn.file_op(args->arg, bserrno);
    1719           7 :         free_fs_request(req);
    1720           7 : }
    1721             : 
    1722             : static void
    1723           6 : __read_done(void *ctx, int bserrno)
    1724             : {
    1725           6 :         struct spdk_fs_request *req = ctx;
    1726           6 :         struct spdk_fs_cb_args *args = &req->args;
    1727             :         void *buf;
    1728             : 
    1729           6 :         if (bserrno) {
    1730           0 :                 __rw_done(req, bserrno);
    1731           0 :                 return;
    1732             :         }
    1733             : 
    1734           6 :         assert(req != NULL);
    1735           6 :         buf = (void *)((uintptr_t)args->op.rw.pin_buf + (args->op.rw.offset & (args->op.rw.blocklen - 1)));
    1736           6 :         if (args->op.rw.is_read) {
    1737           3 :                 spdk_copy_buf_to_iovs(args->iovs, args->iovcnt, buf, args->op.rw.length);
    1738           3 :                 __rw_done(req, 0);
    1739             :         } else {
    1740           3 :                 spdk_copy_iovs_to_buf(buf, args->op.rw.length, args->iovs, args->iovcnt);
    1741           3 :                 spdk_blob_io_write(args->file->blob, args->op.rw.channel,
    1742             :                                    args->op.rw.pin_buf,
    1743             :                                    args->op.rw.start_lba, args->op.rw.num_lba,
    1744             :                                    __rw_done, req);
    1745             :         }
    1746             : }
    1747             : 
    1748             : static void
    1749           6 : __do_blob_read(void *ctx, int fserrno)
    1750             : {
    1751           6 :         struct spdk_fs_request *req = ctx;
    1752           6 :         struct spdk_fs_cb_args *args = &req->args;
    1753             : 
    1754           6 :         if (fserrno) {
    1755           0 :                 __rw_done(req, fserrno);
    1756           0 :                 return;
    1757             :         }
    1758           6 :         spdk_blob_io_read(args->file->blob, args->op.rw.channel,
    1759             :                           args->op.rw.pin_buf,
    1760             :                           args->op.rw.start_lba, args->op.rw.num_lba,
    1761             :                           __read_done, req);
    1762             : }
    1763             : 
    1764             : static void
    1765          17 : __get_page_parameters(struct spdk_file *file, uint64_t offset, uint64_t length,
    1766             :                       uint64_t *start_lba, uint32_t *lba_size, uint64_t *num_lba)
    1767             : {
    1768             :         uint64_t end_lba;
    1769             : 
    1770          17 :         *lba_size = spdk_bs_get_io_unit_size(file->fs->bs);
    1771          17 :         *start_lba = offset / *lba_size;
    1772          17 :         end_lba = (offset + length - 1) / *lba_size;
    1773          17 :         *num_lba = (end_lba - *start_lba + 1);
    1774          17 : }
    1775             : 
    1776             : static bool
    1777           1 : __is_lba_aligned(struct spdk_file *file, uint64_t offset, uint64_t length)
    1778             : {
    1779           1 :         uint32_t lba_size = spdk_bs_get_io_unit_size(file->fs->bs);
    1780             : 
    1781           1 :         if ((offset % lba_size == 0) && (length % lba_size == 0)) {
    1782           1 :                 return true;
    1783             :         }
    1784             : 
    1785           0 :         return false;
    1786             : }
    1787             : 
    1788             : static void
    1789           7 : _fs_request_setup_iovs(struct spdk_fs_request *req, struct iovec *iovs, uint32_t iovcnt)
    1790             : {
    1791             :         uint32_t i;
    1792             : 
    1793          18 :         for (i = 0; i < iovcnt; i++) {
    1794          11 :                 req->args.iovs[i].iov_base = iovs[i].iov_base;
    1795          11 :                 req->args.iovs[i].iov_len = iovs[i].iov_len;
    1796             :         }
    1797           7 : }
    1798             : 
    1799             : static void
    1800           7 : __readvwritev(struct spdk_file *file, struct spdk_io_channel *_channel,
    1801             :               struct iovec *iovs, uint32_t iovcnt, uint64_t offset, uint64_t length,
    1802             :               spdk_file_op_complete cb_fn, void *cb_arg, int is_read)
    1803             : {
    1804             :         struct spdk_fs_request *req;
    1805             :         struct spdk_fs_cb_args *args;
    1806           7 :         struct spdk_fs_channel *channel = spdk_io_channel_get_ctx(_channel);
    1807             :         uint64_t start_lba, num_lba, pin_buf_length;
    1808             :         uint32_t lba_size;
    1809             : 
    1810           7 :         if (is_read && offset + length > file->length) {
    1811           0 :                 cb_fn(cb_arg, -EINVAL);
    1812           0 :                 return;
    1813             :         }
    1814             : 
    1815           7 :         req = alloc_fs_request_with_iov(channel, iovcnt);
    1816           7 :         if (req == NULL) {
    1817           0 :                 cb_fn(cb_arg, -ENOMEM);
    1818           0 :                 return;
    1819             :         }
    1820             : 
    1821           7 :         __get_page_parameters(file, offset, length, &start_lba, &lba_size, &num_lba);
    1822             : 
    1823           7 :         args = &req->args;
    1824           7 :         args->fn.file_op = cb_fn;
    1825           7 :         args->arg = cb_arg;
    1826           7 :         args->file = file;
    1827           7 :         args->op.rw.channel = channel->bs_channel;
    1828           7 :         _fs_request_setup_iovs(req, iovs, iovcnt);
    1829           7 :         args->op.rw.is_read = is_read;
    1830           7 :         args->op.rw.offset = offset;
    1831           7 :         args->op.rw.blocklen = lba_size;
    1832             : 
    1833           7 :         pin_buf_length = num_lba * lba_size;
    1834           7 :         args->op.rw.length = pin_buf_length;
    1835           7 :         args->op.rw.pin_buf = spdk_malloc(pin_buf_length, lba_size, NULL,
    1836             :                                           SPDK_ENV_NUMA_ID_ANY, SPDK_MALLOC_DMA);
    1837           7 :         if (args->op.rw.pin_buf == NULL) {
    1838           0 :                 SPDK_DEBUGLOG(blobfs, "Failed to allocate buf for: file=%s offset=%jx length=%jx\n",
    1839             :                               file->name, offset, length);
    1840           0 :                 free_fs_request(req);
    1841           0 :                 cb_fn(cb_arg, -ENOMEM);
    1842           0 :                 return;
    1843             :         }
    1844             : 
    1845           7 :         args->op.rw.start_lba = start_lba;
    1846           7 :         args->op.rw.num_lba = num_lba;
    1847             : 
    1848           7 :         if (!is_read && file->length < offset + length) {
    1849           3 :                 spdk_file_truncate_async(file, offset + length, __do_blob_read, req);
    1850           4 :         } else if (!is_read && __is_lba_aligned(file, offset, length)) {
    1851           1 :                 spdk_copy_iovs_to_buf(args->op.rw.pin_buf, args->op.rw.length, args->iovs, args->iovcnt);
    1852           1 :                 spdk_blob_io_write(args->file->blob, args->op.rw.channel,
    1853             :                                    args->op.rw.pin_buf,
    1854             :                                    args->op.rw.start_lba, args->op.rw.num_lba,
    1855             :                                    __rw_done, req);
    1856             :         } else {
    1857           3 :                 __do_blob_read(req, 0);
    1858             :         }
    1859             : }
    1860             : 
    1861             : static void
    1862           3 : __readwrite(struct spdk_file *file, struct spdk_io_channel *channel,
    1863             :             void *payload, uint64_t offset, uint64_t length,
    1864             :             spdk_file_op_complete cb_fn, void *cb_arg, int is_read)
    1865             : {
    1866             :         struct iovec iov;
    1867             : 
    1868           3 :         iov.iov_base = payload;
    1869           3 :         iov.iov_len = (size_t)length;
    1870             : 
    1871           3 :         __readvwritev(file, channel, &iov, 1, offset, length, cb_fn, cb_arg, is_read);
    1872           3 : }
    1873             : 
    1874             : void
    1875           2 : spdk_file_write_async(struct spdk_file *file, struct spdk_io_channel *channel,
    1876             :                       void *payload, uint64_t offset, uint64_t length,
    1877             :                       spdk_file_op_complete cb_fn, void *cb_arg)
    1878             : {
    1879           2 :         __readwrite(file, channel, payload, offset, length, cb_fn, cb_arg, 0);
    1880           2 : }
    1881             : 
    1882             : void
    1883           2 : spdk_file_writev_async(struct spdk_file *file, struct spdk_io_channel *channel,
    1884             :                        struct iovec *iovs, uint32_t iovcnt, uint64_t offset, uint64_t length,
    1885             :                        spdk_file_op_complete cb_fn, void *cb_arg)
    1886             : {
    1887           2 :         SPDK_DEBUGLOG(blobfs, "file=%s offset=%jx length=%jx\n",
    1888             :                       file->name, offset, length);
    1889             : 
    1890           2 :         __readvwritev(file, channel, iovs, iovcnt, offset, length, cb_fn, cb_arg, 0);
    1891           2 : }
    1892             : 
    1893             : void
    1894           1 : spdk_file_read_async(struct spdk_file *file, struct spdk_io_channel *channel,
    1895             :                      void *payload, uint64_t offset, uint64_t length,
    1896             :                      spdk_file_op_complete cb_fn, void *cb_arg)
    1897             : {
    1898           1 :         SPDK_DEBUGLOG(blobfs, "file=%s offset=%jx length=%jx\n",
    1899             :                       file->name, offset, length);
    1900             : 
    1901           1 :         __readwrite(file, channel, payload, offset, length, cb_fn, cb_arg, 1);
    1902           1 : }
    1903             : 
    1904             : void
    1905           2 : spdk_file_readv_async(struct spdk_file *file, struct spdk_io_channel *channel,
    1906             :                       struct iovec *iovs, uint32_t iovcnt, uint64_t offset, uint64_t length,
    1907             :                       spdk_file_op_complete cb_fn, void *cb_arg)
    1908             : {
    1909           2 :         SPDK_DEBUGLOG(blobfs, "file=%s offset=%jx length=%jx\n",
    1910             :                       file->name, offset, length);
    1911             : 
    1912           2 :         __readvwritev(file, channel, iovs, iovcnt, offset, length, cb_fn, cb_arg, 1);
    1913           2 : }
    1914             : 
    1915             : struct spdk_io_channel *
    1916           1 : spdk_fs_alloc_io_channel(struct spdk_filesystem *fs)
    1917             : {
    1918             :         struct spdk_io_channel *io_channel;
    1919             :         struct spdk_fs_channel *fs_channel;
    1920             : 
    1921           1 :         io_channel = spdk_get_io_channel(&fs->io_target);
    1922           1 :         fs_channel = spdk_io_channel_get_ctx(io_channel);
    1923           1 :         fs_channel->bs_channel = spdk_bs_alloc_io_channel(fs->bs);
    1924           1 :         fs_channel->send_request = __send_request_direct;
    1925             : 
    1926           1 :         return io_channel;
    1927             : }
    1928             : 
    1929             : void
    1930          41 : spdk_fs_free_io_channel(struct spdk_io_channel *channel)
    1931             : {
    1932          41 :         spdk_put_io_channel(channel);
    1933          41 : }
    1934             : 
    1935             : struct spdk_fs_thread_ctx *
    1936          12 : spdk_fs_alloc_thread_ctx(struct spdk_filesystem *fs)
    1937             : {
    1938             :         struct spdk_fs_thread_ctx *ctx;
    1939             : 
    1940          12 :         ctx = calloc(1, sizeof(*ctx));
    1941          12 :         if (!ctx) {
    1942           0 :                 return NULL;
    1943             :         }
    1944             : 
    1945          12 :         if (pthread_spin_init(&ctx->ch.lock, 0)) {
    1946           0 :                 free(ctx);
    1947           0 :                 return NULL;
    1948             :         }
    1949             : 
    1950          12 :         fs_channel_create(fs, &ctx->ch, 512);
    1951             : 
    1952          12 :         ctx->ch.send_request = fs->send_request;
    1953          12 :         ctx->ch.sync = 1;
    1954             : 
    1955          12 :         return ctx;
    1956             : }
    1957             : 
    1958             : 
    1959             : void
    1960          12 : spdk_fs_free_thread_ctx(struct spdk_fs_thread_ctx *ctx)
    1961             : {
    1962          12 :         assert(ctx->ch.sync == 1);
    1963             : 
    1964             :         while (true) {
    1965          12 :                 pthread_spin_lock(&ctx->ch.lock);
    1966          12 :                 if (ctx->ch.outstanding_reqs == 0) {
    1967          12 :                         pthread_spin_unlock(&ctx->ch.lock);
    1968          12 :                         break;
    1969             :                 }
    1970           0 :                 pthread_spin_unlock(&ctx->ch.lock);
    1971           0 :                 usleep(1000);
    1972             :         }
    1973             : 
    1974          12 :         fs_channel_destroy(NULL, &ctx->ch);
    1975          12 :         free(ctx);
    1976          12 : }
    1977             : 
    1978             : int
    1979           0 : spdk_fs_set_cache_size(uint64_t size_in_mb)
    1980             : {
    1981             :         /* setting g_fs_cache_size is only permitted if cache pool
    1982             :          * is already freed or hasn't been initialized
    1983             :          */
    1984           0 :         if (g_cache_pool != NULL) {
    1985           0 :                 return -EPERM;
    1986             :         }
    1987             : 
    1988           0 :         g_fs_cache_size = size_in_mb * 1024 * 1024;
    1989             : 
    1990           0 :         return 0;
    1991             : }
    1992             : 
    1993             : uint64_t
    1994           0 : spdk_fs_get_cache_size(void)
    1995             : {
    1996           0 :         return g_fs_cache_size / (1024 * 1024);
    1997             : }
    1998             : 
    1999             : static void __file_flush(void *ctx);
    2000             : 
    2001             : /* Try to free some cache buffers from this file.
    2002             :  */
    2003             : static int
    2004           0 : reclaim_cache_buffers(struct spdk_file *file)
    2005             : {
    2006             :         int rc;
    2007             : 
    2008           0 :         BLOBFS_TRACE(file, "free=%s\n", file->name);
    2009             : 
    2010             :         /* The function is safe to be called with any threads, while the file
    2011             :          * lock maybe locked by other thread for now, so try to get the file
    2012             :          * lock here.
    2013             :          */
    2014           0 :         rc = pthread_spin_trylock(&file->lock);
    2015           0 :         if (rc != 0) {
    2016           0 :                 return -1;
    2017             :         }
    2018             : 
    2019           0 :         if (file->tree->present_mask == 0) {
    2020           0 :                 pthread_spin_unlock(&file->lock);
    2021           0 :                 return -1;
    2022             :         }
    2023           0 :         tree_free_buffers(file->tree);
    2024             : 
    2025           0 :         TAILQ_REMOVE(&g_caches, file, cache_tailq);
    2026             :         /* If not freed, put it in the end of the queue */
    2027           0 :         if (file->tree->present_mask != 0) {
    2028           0 :                 TAILQ_INSERT_TAIL(&g_caches, file, cache_tailq);
    2029             :         }
    2030             : 
    2031             :         /* tree_free_buffers() may have freed the buffer pointed to by file->last.
    2032             :          * So check if current append_pos is still in the cache, and if not, clear
    2033             :          * file->last.
    2034             :          */
    2035           0 :         if (tree_find_buffer(file->tree, file->append_pos) == NULL) {
    2036           0 :                 file->last = NULL;
    2037             :         }
    2038             : 
    2039           0 :         pthread_spin_unlock(&file->lock);
    2040             : 
    2041           0 :         return 0;
    2042             : }
    2043             : 
    2044             : static int
    2045           0 : _blobfs_cache_pool_reclaim(void *arg)
    2046             : {
    2047             :         struct spdk_file *file, *tmp;
    2048             :         int rc;
    2049             : 
    2050           0 :         if (!blobfs_cache_pool_need_reclaim()) {
    2051           0 :                 return SPDK_POLLER_IDLE;
    2052             :         }
    2053             : 
    2054           0 :         TAILQ_FOREACH_SAFE(file, &g_caches, cache_tailq, tmp) {
    2055           0 :                 if (!file->open_for_writing &&
    2056           0 :                     file->priority == SPDK_FILE_PRIORITY_LOW) {
    2057           0 :                         rc = reclaim_cache_buffers(file);
    2058           0 :                         if (rc < 0) {
    2059           0 :                                 continue;
    2060             :                         }
    2061           0 :                         if (!blobfs_cache_pool_need_reclaim()) {
    2062           0 :                                 return SPDK_POLLER_BUSY;
    2063             :                         }
    2064           0 :                         break;
    2065             :                 }
    2066             :         }
    2067             : 
    2068           0 :         TAILQ_FOREACH_SAFE(file, &g_caches, cache_tailq, tmp) {
    2069           0 :                 if (!file->open_for_writing) {
    2070           0 :                         rc = reclaim_cache_buffers(file);
    2071           0 :                         if (rc < 0) {
    2072           0 :                                 continue;
    2073             :                         }
    2074           0 :                         if (!blobfs_cache_pool_need_reclaim()) {
    2075           0 :                                 return SPDK_POLLER_BUSY;
    2076             :                         }
    2077           0 :                         break;
    2078             :                 }
    2079             :         }
    2080             : 
    2081           0 :         TAILQ_FOREACH_SAFE(file, &g_caches, cache_tailq, tmp) {
    2082           0 :                 rc = reclaim_cache_buffers(file);
    2083           0 :                 if (rc < 0) {
    2084           0 :                         continue;
    2085             :                 }
    2086           0 :                 break;
    2087             :         }
    2088             : 
    2089           0 :         return SPDK_POLLER_BUSY;
    2090             : }
    2091             : 
    2092             : static void
    2093           5 : _add_file_to_cache_pool(void *ctx)
    2094             : {
    2095           5 :         struct spdk_file *file = ctx;
    2096             : 
    2097           5 :         TAILQ_INSERT_TAIL(&g_caches, file, cache_tailq);
    2098           5 : }
    2099             : 
    2100             : static void
    2101           0 : _remove_file_from_cache_pool(void *ctx)
    2102             : {
    2103           0 :         struct spdk_file *file = ctx;
    2104             : 
    2105           0 :         TAILQ_REMOVE(&g_caches, file, cache_tailq);
    2106           0 : }
    2107             : 
    2108             : static struct cache_buffer *
    2109          10 : cache_insert_buffer(struct spdk_file *file, uint64_t offset)
    2110             : {
    2111             :         struct cache_buffer *buf;
    2112          10 :         int count = 0;
    2113          10 :         bool need_update = false;
    2114             : 
    2115          10 :         buf = calloc(1, sizeof(*buf));
    2116          10 :         if (buf == NULL) {
    2117           0 :                 SPDK_DEBUGLOG(blobfs, "calloc failed\n");
    2118           0 :                 return NULL;
    2119             :         }
    2120             : 
    2121             :         do {
    2122          10 :                 buf->buf = spdk_mempool_get(g_cache_pool);
    2123          10 :                 if (buf->buf) {
    2124          10 :                         break;
    2125             :                 }
    2126           0 :                 if (count++ == 100) {
    2127           0 :                         SPDK_ERRLOG("Could not allocate cache buffer for file=%p on offset=%jx\n",
    2128             :                                     file, offset);
    2129           0 :                         free(buf);
    2130           0 :                         return NULL;
    2131             :                 }
    2132           0 :                 usleep(BLOBFS_CACHE_POOL_POLL_PERIOD_IN_US);
    2133             :         } while (true);
    2134             : 
    2135          10 :         buf->buf_size = CACHE_BUFFER_SIZE;
    2136          10 :         buf->offset = offset;
    2137             : 
    2138          10 :         if (file->tree->present_mask == 0) {
    2139           5 :                 need_update = true;
    2140             :         }
    2141          10 :         file->tree = tree_insert_buffer(file->tree, buf);
    2142             : 
    2143          10 :         if (need_update) {
    2144           5 :                 spdk_thread_send_msg(g_cache_pool_thread, _add_file_to_cache_pool, file);
    2145             :         }
    2146             : 
    2147          10 :         return buf;
    2148             : }
    2149             : 
    2150             : static struct cache_buffer *
    2151          10 : cache_append_buffer(struct spdk_file *file)
    2152             : {
    2153             :         struct cache_buffer *last;
    2154             : 
    2155          10 :         assert(file->last == NULL || file->last->bytes_filled == file->last->buf_size);
    2156          10 :         assert((file->append_pos % CACHE_BUFFER_SIZE) == 0);
    2157             : 
    2158          10 :         last = cache_insert_buffer(file, file->append_pos);
    2159          10 :         if (last == NULL) {
    2160           0 :                 SPDK_DEBUGLOG(blobfs, "cache_insert_buffer failed\n");
    2161           0 :                 return NULL;
    2162             :         }
    2163             : 
    2164          10 :         file->last = last;
    2165             : 
    2166          10 :         return last;
    2167             : }
    2168             : 
    2169             : static void __check_sync_reqs(struct spdk_file *file);
    2170             : 
    2171             : static void
    2172           7 : __file_cache_finish_sync(void *ctx, int bserrno)
    2173             : {
    2174             :         struct spdk_file *file;
    2175           7 :         struct spdk_fs_request *sync_req = ctx;
    2176             :         struct spdk_fs_cb_args *sync_args;
    2177             : 
    2178           7 :         sync_args = &sync_req->args;
    2179           7 :         file = sync_args->file;
    2180           7 :         pthread_spin_lock(&file->lock);
    2181           7 :         file->length_xattr = sync_args->op.sync.length;
    2182           7 :         assert(sync_args->op.sync.offset <= file->length_flushed);
    2183           7 :         spdk_trace_record(TRACE_BLOBFS_XATTR_END, 0, sync_args->op.sync.offset,
    2184             :                           0, file->name);
    2185           7 :         BLOBFS_TRACE(file, "sync done offset=%jx\n", sync_args->op.sync.offset);
    2186           7 :         TAILQ_REMOVE(&file->sync_requests, sync_req, args.op.sync.tailq);
    2187           7 :         pthread_spin_unlock(&file->lock);
    2188             : 
    2189           7 :         sync_args->fn.file_op(sync_args->arg, bserrno);
    2190             : 
    2191           7 :         free_fs_request(sync_req);
    2192           7 :         __check_sync_reqs(file);
    2193           7 : }
    2194             : 
    2195             : static void
    2196          25 : __check_sync_reqs(struct spdk_file *file)
    2197             : {
    2198             :         struct spdk_fs_request *sync_req;
    2199             : 
    2200          25 :         pthread_spin_lock(&file->lock);
    2201             : 
    2202          28 :         TAILQ_FOREACH(sync_req, &file->sync_requests, args.op.sync.tailq) {
    2203          16 :                 if (sync_req->args.op.sync.offset <= file->length_flushed) {
    2204          13 :                         break;
    2205             :                 }
    2206             :         }
    2207             : 
    2208          25 :         if (sync_req != NULL && !sync_req->args.op.sync.xattr_in_progress) {
    2209           7 :                 BLOBFS_TRACE(file, "set xattr length 0x%jx\n", file->length_flushed);
    2210           7 :                 sync_req->args.op.sync.xattr_in_progress = true;
    2211           7 :                 sync_req->args.op.sync.length = file->length_flushed;
    2212           7 :                 spdk_blob_set_xattr(file->blob, "length", &file->length_flushed,
    2213             :                                     sizeof(file->length_flushed));
    2214             : 
    2215           7 :                 pthread_spin_unlock(&file->lock);
    2216           7 :                 spdk_trace_record(TRACE_BLOBFS_XATTR_START, 0, file->length_flushed,
    2217             :                                   0, file->name);
    2218           7 :                 spdk_blob_sync_md(file->blob, __file_cache_finish_sync, sync_req);
    2219             :         } else {
    2220          18 :                 pthread_spin_unlock(&file->lock);
    2221             :         }
    2222          25 : }
    2223             : 
    2224             : static void
    2225          10 : __file_flush_done(void *ctx, int bserrno)
    2226             : {
    2227          10 :         struct spdk_fs_request *req = ctx;
    2228          10 :         struct spdk_fs_cb_args *args = &req->args;
    2229          10 :         struct spdk_file *file = args->file;
    2230          10 :         struct cache_buffer *next = args->op.flush.cache_buffer;
    2231             : 
    2232          10 :         BLOBFS_TRACE(file, "length=%jx\n", args->op.flush.length);
    2233             : 
    2234          10 :         pthread_spin_lock(&file->lock);
    2235          10 :         next->in_progress = false;
    2236          10 :         next->bytes_flushed += args->op.flush.length;
    2237          10 :         file->length_flushed += args->op.flush.length;
    2238          10 :         if (file->length_flushed > file->length) {
    2239           0 :                 file->length = file->length_flushed;
    2240             :         }
    2241          10 :         if (next->bytes_flushed == next->buf_size) {
    2242           5 :                 BLOBFS_TRACE(file, "write buffer fully flushed 0x%jx\n", file->length_flushed);
    2243           5 :                 next = tree_find_buffer(file->tree, file->length_flushed);
    2244             :         }
    2245             : 
    2246             :         /*
    2247             :          * Assert that there is no cached data that extends past the end of the underlying
    2248             :          *  blob.
    2249             :          */
    2250          10 :         assert(next == NULL || next->offset < __file_get_blob_size(file) ||
    2251             :                next->bytes_filled == 0);
    2252             : 
    2253          10 :         pthread_spin_unlock(&file->lock);
    2254             : 
    2255          10 :         __check_sync_reqs(file);
    2256             : 
    2257          10 :         __file_flush(req);
    2258          10 : }
    2259             : 
    2260             : static void
    2261          20 : __file_flush(void *ctx)
    2262             : {
    2263          20 :         struct spdk_fs_request *req = ctx;
    2264          20 :         struct spdk_fs_cb_args *args = &req->args;
    2265          20 :         struct spdk_file *file = args->file;
    2266             :         struct cache_buffer *next;
    2267             :         uint64_t offset, length, start_lba, num_lba;
    2268             :         uint32_t lba_size;
    2269             : 
    2270          20 :         pthread_spin_lock(&file->lock);
    2271          20 :         next = tree_find_buffer(file->tree, file->length_flushed);
    2272          20 :         if (next == NULL || next->in_progress ||
    2273          18 :             ((next->bytes_filled < next->buf_size) && TAILQ_EMPTY(&file->sync_requests))) {
    2274             :                 /*
    2275             :                  * There is either no data to flush, a flush I/O is already in
    2276             :                  *  progress, or the next buffer is partially filled but there's no
    2277             :                  *  outstanding request to sync it.
    2278             :                  * So return immediately - if a flush I/O is in progress we will flush
    2279             :                  *  more data after that is completed, or a partial buffer will get flushed
    2280             :                  *  when it is either filled or the file is synced.
    2281             :                  */
    2282           3 :                 free_fs_request(req);
    2283           3 :                 if (next == NULL) {
    2284             :                         /*
    2285             :                          * For cases where a file's cache was evicted, and then the
    2286             :                          *  file was later appended, we will write the data directly
    2287             :                          *  to disk and bypass cache.  So just update length_flushed
    2288             :                          *  here to reflect that all data was already written to disk.
    2289             :                          */
    2290           1 :                         file->length_flushed = file->append_pos;
    2291             :                 }
    2292           3 :                 pthread_spin_unlock(&file->lock);
    2293           3 :                 if (next == NULL) {
    2294             :                         /*
    2295             :                          * There is no data to flush, but we still need to check for any
    2296             :                          *  outstanding sync requests to make sure metadata gets updated.
    2297             :                          */
    2298           1 :                         __check_sync_reqs(file);
    2299             :                 }
    2300          10 :                 return;
    2301             :         }
    2302             : 
    2303          17 :         offset = next->offset + next->bytes_flushed;
    2304          17 :         length = next->bytes_filled - next->bytes_flushed;
    2305          17 :         if (length == 0) {
    2306           7 :                 free_fs_request(req);
    2307           7 :                 pthread_spin_unlock(&file->lock);
    2308             :                 /*
    2309             :                  * There is no data to flush, but we still need to check for any
    2310             :                  *  outstanding sync requests to make sure metadata gets updated.
    2311             :                  */
    2312           7 :                 __check_sync_reqs(file);
    2313           7 :                 return;
    2314             :         }
    2315          10 :         args->op.flush.length = length;
    2316          10 :         args->op.flush.cache_buffer = next;
    2317             : 
    2318          10 :         __get_page_parameters(file, offset, length, &start_lba, &lba_size, &num_lba);
    2319             : 
    2320          10 :         next->in_progress = true;
    2321          10 :         BLOBFS_TRACE(file, "offset=0x%jx length=0x%jx page start=0x%jx num=0x%jx\n",
    2322             :                      offset, length, start_lba, num_lba);
    2323          10 :         pthread_spin_unlock(&file->lock);
    2324          10 :         spdk_blob_io_write(file->blob, file->fs->sync_target.sync_fs_channel->bs_channel,
    2325          10 :                            next->buf + (start_lba * lba_size) - next->offset,
    2326             :                            start_lba, num_lba, __file_flush_done, req);
    2327             : }
    2328             : 
    2329             : static void
    2330           0 : __file_extend_done(void *arg, int bserrno)
    2331             : {
    2332           0 :         struct spdk_fs_cb_args *args = arg;
    2333             : 
    2334           0 :         __wake_caller(args, bserrno);
    2335           0 : }
    2336             : 
    2337             : static void
    2338           0 : __file_extend_resize_cb(void *_args, int bserrno)
    2339             : {
    2340           0 :         struct spdk_fs_cb_args *args = _args;
    2341           0 :         struct spdk_file *file = args->file;
    2342             : 
    2343           0 :         if (bserrno) {
    2344           0 :                 __wake_caller(args, bserrno);
    2345           0 :                 return;
    2346             :         }
    2347             : 
    2348           0 :         spdk_blob_sync_md(file->blob, __file_extend_done, args);
    2349             : }
    2350             : 
    2351             : static void
    2352           0 : __file_extend_blob(void *_args)
    2353             : {
    2354           0 :         struct spdk_fs_cb_args *args = _args;
    2355           0 :         struct spdk_file *file = args->file;
    2356             : 
    2357           0 :         spdk_blob_resize(file->blob, args->op.resize.num_clusters, __file_extend_resize_cb, args);
    2358           0 : }
    2359             : 
    2360             : static void
    2361           1 : __rw_from_file_done(void *ctx, int bserrno)
    2362             : {
    2363           1 :         struct spdk_fs_request *req = ctx;
    2364             : 
    2365           1 :         __wake_caller(&req->args, bserrno);
    2366           1 :         free_fs_request(req);
    2367           1 : }
    2368             : 
    2369             : static void
    2370           1 : __rw_from_file(void *ctx)
    2371             : {
    2372           1 :         struct spdk_fs_request *req = ctx;
    2373           1 :         struct spdk_fs_cb_args *args = &req->args;
    2374           1 :         struct spdk_file *file = args->file;
    2375             : 
    2376           1 :         if (args->op.rw.is_read) {
    2377           0 :                 spdk_file_read_async(file, file->fs->sync_target.sync_io_channel, args->iovs[0].iov_base,
    2378           0 :                                      args->op.rw.offset, (uint64_t)args->iovs[0].iov_len,
    2379             :                                      __rw_from_file_done, req);
    2380             :         } else {
    2381           1 :                 spdk_file_write_async(file, file->fs->sync_target.sync_io_channel, args->iovs[0].iov_base,
    2382           1 :                                       args->op.rw.offset, (uint64_t)args->iovs[0].iov_len,
    2383             :                                       __rw_from_file_done, req);
    2384             :         }
    2385           1 : }
    2386             : 
    2387             : struct rw_from_file_arg {
    2388             :         struct spdk_fs_channel *channel;
    2389             :         int rwerrno;
    2390             : };
    2391             : 
    2392             : static int
    2393           1 : __send_rw_from_file(struct spdk_file *file, void *payload,
    2394             :                     uint64_t offset, uint64_t length, bool is_read,
    2395             :                     struct rw_from_file_arg *arg)
    2396             : {
    2397             :         struct spdk_fs_request *req;
    2398             :         struct spdk_fs_cb_args *args;
    2399             : 
    2400           1 :         req = alloc_fs_request_with_iov(arg->channel, 1);
    2401           1 :         if (req == NULL) {
    2402           0 :                 sem_post(&arg->channel->sem);
    2403           0 :                 return -ENOMEM;
    2404             :         }
    2405             : 
    2406           1 :         args = &req->args;
    2407           1 :         args->file = file;
    2408           1 :         args->sem = &arg->channel->sem;
    2409           1 :         args->iovs[0].iov_base = payload;
    2410           1 :         args->iovs[0].iov_len = (size_t)length;
    2411           1 :         args->op.rw.offset = offset;
    2412           1 :         args->op.rw.is_read = is_read;
    2413           1 :         args->rwerrno = &arg->rwerrno;
    2414           1 :         file->fs->send_request(__rw_from_file, req);
    2415           1 :         return 0;
    2416             : }
    2417             : 
    2418             : int
    2419          11 : spdk_file_write(struct spdk_file *file, struct spdk_fs_thread_ctx *ctx,
    2420             :                 void *payload, uint64_t offset, uint64_t length)
    2421             : {
    2422          11 :         struct spdk_fs_channel *channel = (struct spdk_fs_channel *)ctx;
    2423             :         struct spdk_fs_request *flush_req;
    2424             :         uint64_t rem_length, copy, blob_size, cluster_sz;
    2425          11 :         uint32_t cache_buffers_filled = 0;
    2426             :         uint8_t *cur_payload;
    2427             :         struct cache_buffer *last;
    2428             : 
    2429          11 :         BLOBFS_TRACE_RW(file, "offset=%jx length=%jx\n", offset, length);
    2430             : 
    2431          11 :         if (length == 0) {
    2432           1 :                 return 0;
    2433             :         }
    2434             : 
    2435          10 :         if (offset != file->append_pos) {
    2436           0 :                 BLOBFS_TRACE(file, " error offset=%jx append_pos=%jx\n", offset, file->append_pos);
    2437           0 :                 return -EINVAL;
    2438             :         }
    2439             : 
    2440          10 :         pthread_spin_lock(&file->lock);
    2441          10 :         file->open_for_writing = true;
    2442             : 
    2443             :         do {
    2444          10 :                 if ((file->last == NULL) && (file->append_pos % CACHE_BUFFER_SIZE == 0)) {
    2445           5 :                         cache_append_buffer(file);
    2446             :                 }
    2447             : 
    2448          10 :                 if (file->last == NULL) {
    2449           1 :                         struct rw_from_file_arg arg = {};
    2450             :                         int rc;
    2451             : 
    2452           1 :                         arg.channel = channel;
    2453           1 :                         arg.rwerrno = 0;
    2454           1 :                         file->append_pos += length;
    2455           1 :                         pthread_spin_unlock(&file->lock);
    2456           1 :                         rc = __send_rw_from_file(file, payload, offset, length, false, &arg);
    2457           1 :                         if (rc != 0) {
    2458           0 :                                 return rc;
    2459             :                         }
    2460           1 :                         sem_wait(&channel->sem);
    2461           1 :                         return arg.rwerrno;
    2462             :                 }
    2463             : 
    2464           9 :                 blob_size = __file_get_blob_size(file);
    2465             : 
    2466           9 :                 if ((offset + length) > blob_size) {
    2467           0 :                         struct spdk_fs_cb_args extend_args = {};
    2468             : 
    2469           0 :                         cluster_sz = file->fs->bs_opts.cluster_sz;
    2470           0 :                         extend_args.sem = &channel->sem;
    2471           0 :                         extend_args.op.resize.num_clusters = __bytes_to_clusters((offset + length), cluster_sz);
    2472           0 :                         extend_args.file = file;
    2473           0 :                         BLOBFS_TRACE(file, "start resize to %u clusters\n", extend_args.op.resize.num_clusters);
    2474           0 :                         pthread_spin_unlock(&file->lock);
    2475           0 :                         file->fs->send_request(__file_extend_blob, &extend_args);
    2476           0 :                         sem_wait(&channel->sem);
    2477           0 :                         if (extend_args.rc) {
    2478           0 :                                 return extend_args.rc;
    2479             :                         }
    2480           0 :                         pthread_spin_lock(&file->lock);
    2481             :                 }
    2482           9 :         } while (file->last == NULL);
    2483             : 
    2484           9 :         flush_req = alloc_fs_request(channel);
    2485           9 :         if (flush_req == NULL) {
    2486           0 :                 pthread_spin_unlock(&file->lock);
    2487           0 :                 return -ENOMEM;
    2488             :         }
    2489             : 
    2490           9 :         last = file->last;
    2491           9 :         rem_length = length;
    2492           9 :         cur_payload = payload;
    2493          22 :         while (rem_length > 0) {
    2494          13 :                 copy = last->buf_size - last->bytes_filled;
    2495          13 :                 if (copy > rem_length) {
    2496           8 :                         copy = rem_length;
    2497             :                 }
    2498          13 :                 BLOBFS_TRACE_RW(file, "  fill offset=%jx length=%jx\n", file->append_pos, copy);
    2499          13 :                 memcpy(&last->buf[last->bytes_filled], cur_payload, copy);
    2500          13 :                 file->append_pos += copy;
    2501          13 :                 if (file->length < file->append_pos) {
    2502          12 :                         file->length = file->append_pos;
    2503             :                 }
    2504          13 :                 cur_payload += copy;
    2505          13 :                 last->bytes_filled += copy;
    2506          13 :                 rem_length -= copy;
    2507          13 :                 if (last->bytes_filled == last->buf_size) {
    2508           5 :                         cache_buffers_filled++;
    2509           5 :                         last = cache_append_buffer(file);
    2510           5 :                         if (last == NULL) {
    2511           0 :                                 BLOBFS_TRACE(file, "nomem\n");
    2512           0 :                                 free_fs_request(flush_req);
    2513           0 :                                 pthread_spin_unlock(&file->lock);
    2514           0 :                                 return -ENOMEM;
    2515             :                         }
    2516             :                 }
    2517             :         }
    2518             : 
    2519           9 :         pthread_spin_unlock(&file->lock);
    2520             : 
    2521           9 :         if (cache_buffers_filled == 0) {
    2522           6 :                 free_fs_request(flush_req);
    2523           6 :                 return 0;
    2524             :         }
    2525             : 
    2526           3 :         flush_req->args.file = file;
    2527           3 :         file->fs->send_request(__file_flush, flush_req);
    2528           3 :         return 0;
    2529             : }
    2530             : 
    2531             : static void
    2532           0 : __readahead_done(void *ctx, int bserrno)
    2533             : {
    2534           0 :         struct spdk_fs_request *req = ctx;
    2535           0 :         struct spdk_fs_cb_args *args = &req->args;
    2536           0 :         struct cache_buffer *cache_buffer = args->op.readahead.cache_buffer;
    2537           0 :         struct spdk_file *file = args->file;
    2538             : 
    2539           0 :         BLOBFS_TRACE(file, "offset=%jx\n", cache_buffer->offset);
    2540             : 
    2541           0 :         pthread_spin_lock(&file->lock);
    2542           0 :         cache_buffer->bytes_filled = args->op.readahead.length;
    2543           0 :         cache_buffer->bytes_flushed = args->op.readahead.length;
    2544           0 :         cache_buffer->in_progress = false;
    2545           0 :         pthread_spin_unlock(&file->lock);
    2546             : 
    2547           0 :         free_fs_request(req);
    2548           0 : }
    2549             : 
    2550             : static void
    2551           0 : __readahead(void *ctx)
    2552             : {
    2553           0 :         struct spdk_fs_request *req = ctx;
    2554           0 :         struct spdk_fs_cb_args *args = &req->args;
    2555           0 :         struct spdk_file *file = args->file;
    2556             :         uint64_t offset, length, start_lba, num_lba;
    2557             :         uint32_t lba_size;
    2558             : 
    2559           0 :         offset = args->op.readahead.offset;
    2560           0 :         length = args->op.readahead.length;
    2561           0 :         assert(length > 0);
    2562             : 
    2563           0 :         __get_page_parameters(file, offset, length, &start_lba, &lba_size, &num_lba);
    2564             : 
    2565           0 :         BLOBFS_TRACE(file, "offset=%jx length=%jx page start=%jx num=%jx\n",
    2566             :                      offset, length, start_lba, num_lba);
    2567           0 :         spdk_blob_io_read(file->blob, file->fs->sync_target.sync_fs_channel->bs_channel,
    2568           0 :                           args->op.readahead.cache_buffer->buf,
    2569             :                           start_lba, num_lba, __readahead_done, req);
    2570           0 : }
    2571             : 
    2572             : static uint64_t
    2573           0 : __next_cache_buffer_offset(uint64_t offset)
    2574             : {
    2575           0 :         return (offset + CACHE_BUFFER_SIZE) & ~(CACHE_TREE_LEVEL_MASK(0));
    2576             : }
    2577             : 
    2578             : static void
    2579           0 : check_readahead(struct spdk_file *file, uint64_t offset,
    2580             :                 struct spdk_fs_channel *channel)
    2581             : {
    2582             :         struct spdk_fs_request *req;
    2583             :         struct spdk_fs_cb_args *args;
    2584             : 
    2585           0 :         offset = __next_cache_buffer_offset(offset);
    2586           0 :         if (tree_find_buffer(file->tree, offset) != NULL || file->length <= offset) {
    2587           0 :                 return;
    2588             :         }
    2589             : 
    2590           0 :         req = alloc_fs_request(channel);
    2591           0 :         if (req == NULL) {
    2592           0 :                 return;
    2593             :         }
    2594           0 :         args = &req->args;
    2595             : 
    2596           0 :         BLOBFS_TRACE(file, "offset=%jx\n", offset);
    2597             : 
    2598           0 :         args->file = file;
    2599           0 :         args->op.readahead.offset = offset;
    2600           0 :         args->op.readahead.cache_buffer = cache_insert_buffer(file, offset);
    2601           0 :         if (!args->op.readahead.cache_buffer) {
    2602           0 :                 BLOBFS_TRACE(file, "Cannot allocate buf for offset=%jx\n", offset);
    2603           0 :                 free_fs_request(req);
    2604           0 :                 return;
    2605             :         }
    2606             : 
    2607           0 :         args->op.readahead.cache_buffer->in_progress = true;
    2608           0 :         if (file->length < (offset + CACHE_BUFFER_SIZE)) {
    2609           0 :                 args->op.readahead.length = file->length & (CACHE_BUFFER_SIZE - 1);
    2610             :         } else {
    2611           0 :                 args->op.readahead.length = CACHE_BUFFER_SIZE;
    2612             :         }
    2613           0 :         file->fs->send_request(__readahead, req);
    2614             : }
    2615             : 
    2616             : int64_t
    2617           1 : spdk_file_read(struct spdk_file *file, struct spdk_fs_thread_ctx *ctx,
    2618             :                void *payload, uint64_t offset, uint64_t length)
    2619             : {
    2620           1 :         struct spdk_fs_channel *channel = (struct spdk_fs_channel *)ctx;
    2621             :         uint64_t final_offset, final_length;
    2622           1 :         uint32_t sub_reads = 0;
    2623             :         struct cache_buffer *buf;
    2624             :         uint64_t read_len;
    2625           1 :         struct rw_from_file_arg arg = {};
    2626             : 
    2627           1 :         pthread_spin_lock(&file->lock);
    2628             : 
    2629           1 :         BLOBFS_TRACE_RW(file, "offset=%ju length=%ju\n", offset, length);
    2630             : 
    2631           1 :         file->open_for_writing = false;
    2632             : 
    2633           1 :         if (length == 0 || offset >= file->append_pos) {
    2634           0 :                 pthread_spin_unlock(&file->lock);
    2635           0 :                 return 0;
    2636             :         }
    2637             : 
    2638           1 :         if (offset + length > file->append_pos) {
    2639           0 :                 length = file->append_pos - offset;
    2640             :         }
    2641             : 
    2642           1 :         if (offset != file->next_seq_offset) {
    2643           0 :                 file->seq_byte_count = 0;
    2644             :         }
    2645           1 :         file->seq_byte_count += length;
    2646           1 :         file->next_seq_offset = offset + length;
    2647           1 :         if (file->seq_byte_count >= CACHE_READAHEAD_THRESHOLD) {
    2648           0 :                 check_readahead(file, offset, channel);
    2649           0 :                 check_readahead(file, offset + CACHE_BUFFER_SIZE, channel);
    2650             :         }
    2651             : 
    2652           1 :         arg.channel = channel;
    2653           1 :         arg.rwerrno = 0;
    2654           1 :         final_length = 0;
    2655           1 :         final_offset = offset + length;
    2656           2 :         while (offset < final_offset) {
    2657           1 :                 int ret = 0;
    2658           1 :                 length = NEXT_CACHE_BUFFER_OFFSET(offset) - offset;
    2659           1 :                 if (length > (final_offset - offset)) {
    2660           1 :                         length = final_offset - offset;
    2661             :                 }
    2662             : 
    2663           1 :                 buf = tree_find_filled_buffer(file->tree, offset);
    2664           1 :                 if (buf == NULL) {
    2665           0 :                         pthread_spin_unlock(&file->lock);
    2666           0 :                         ret = __send_rw_from_file(file, payload, offset, length, true, &arg);
    2667           0 :                         pthread_spin_lock(&file->lock);
    2668           0 :                         if (ret == 0) {
    2669           0 :                                 sub_reads++;
    2670             :                         }
    2671             :                 } else {
    2672           1 :                         read_len = length;
    2673           1 :                         if ((offset + length) > (buf->offset + buf->bytes_filled)) {
    2674           0 :                                 read_len = buf->offset + buf->bytes_filled - offset;
    2675             :                         }
    2676           1 :                         BLOBFS_TRACE(file, "read %p offset=%ju length=%ju\n", payload, offset, read_len);
    2677           1 :                         memcpy(payload, &buf->buf[offset - buf->offset], read_len);
    2678           1 :                         if ((offset + read_len) % CACHE_BUFFER_SIZE == 0) {
    2679           0 :                                 tree_remove_buffer(file->tree, buf);
    2680           0 :                                 if (file->tree->present_mask == 0) {
    2681           0 :                                         spdk_thread_send_msg(g_cache_pool_thread, _remove_file_from_cache_pool, file);
    2682             :                                 }
    2683             :                         }
    2684             :                 }
    2685             : 
    2686           1 :                 if (ret == 0) {
    2687           1 :                         final_length += length;
    2688             :                 } else {
    2689           0 :                         arg.rwerrno = ret;
    2690           0 :                         break;
    2691             :                 }
    2692           1 :                 payload += length;
    2693           1 :                 offset += length;
    2694             :         }
    2695           1 :         pthread_spin_unlock(&file->lock);
    2696           1 :         while (sub_reads > 0) {
    2697           0 :                 sem_wait(&channel->sem);
    2698           0 :                 sub_reads--;
    2699             :         }
    2700           1 :         if (arg.rwerrno == 0) {
    2701           1 :                 return final_length;
    2702             :         } else {
    2703           0 :                 return arg.rwerrno;
    2704             :         }
    2705             : }
    2706             : 
    2707             : static void
    2708          18 : _file_sync(struct spdk_file *file, struct spdk_fs_channel *channel,
    2709             :            spdk_file_op_complete cb_fn, void *cb_arg)
    2710             : {
    2711             :         struct spdk_fs_request *sync_req;
    2712             :         struct spdk_fs_request *flush_req;
    2713             :         struct spdk_fs_cb_args *sync_args;
    2714             :         struct spdk_fs_cb_args *flush_args;
    2715             : 
    2716          18 :         BLOBFS_TRACE(file, "offset=%jx\n", file->append_pos);
    2717             : 
    2718          18 :         pthread_spin_lock(&file->lock);
    2719          18 :         if (file->append_pos <= file->length_xattr) {
    2720          11 :                 BLOBFS_TRACE(file, "done - file already synced\n");
    2721          11 :                 pthread_spin_unlock(&file->lock);
    2722          11 :                 cb_fn(cb_arg, 0);
    2723          11 :                 return;
    2724             :         }
    2725             : 
    2726           7 :         sync_req = alloc_fs_request(channel);
    2727           7 :         if (!sync_req) {
    2728           0 :                 SPDK_ERRLOG("Cannot allocate sync req for file=%s\n", file->name);
    2729           0 :                 pthread_spin_unlock(&file->lock);
    2730           0 :                 cb_fn(cb_arg, -ENOMEM);
    2731           0 :                 return;
    2732             :         }
    2733           7 :         sync_args = &sync_req->args;
    2734             : 
    2735           7 :         flush_req = alloc_fs_request(channel);
    2736           7 :         if (!flush_req) {
    2737           0 :                 SPDK_ERRLOG("Cannot allocate flush req for file=%s\n", file->name);
    2738           0 :                 free_fs_request(sync_req);
    2739           0 :                 pthread_spin_unlock(&file->lock);
    2740           0 :                 cb_fn(cb_arg, -ENOMEM);
    2741           0 :                 return;
    2742             :         }
    2743           7 :         flush_args = &flush_req->args;
    2744             : 
    2745           7 :         sync_args->file = file;
    2746           7 :         sync_args->fn.file_op = cb_fn;
    2747           7 :         sync_args->arg = cb_arg;
    2748           7 :         sync_args->op.sync.offset = file->append_pos;
    2749           7 :         sync_args->op.sync.xattr_in_progress = false;
    2750           7 :         TAILQ_INSERT_TAIL(&file->sync_requests, sync_req, args.op.sync.tailq);
    2751           7 :         pthread_spin_unlock(&file->lock);
    2752             : 
    2753           7 :         flush_args->file = file;
    2754           7 :         channel->send_request(__file_flush, flush_req);
    2755             : }
    2756             : 
    2757             : int
    2758          12 : spdk_file_sync(struct spdk_file *file, struct spdk_fs_thread_ctx *ctx)
    2759             : {
    2760          12 :         struct spdk_fs_channel *channel = (struct spdk_fs_channel *)ctx;
    2761          12 :         struct spdk_fs_cb_args args = {};
    2762             : 
    2763          12 :         args.sem = &channel->sem;
    2764          12 :         _file_sync(file, channel, __wake_caller, &args);
    2765          12 :         sem_wait(&channel->sem);
    2766             : 
    2767          12 :         return args.rc;
    2768             : }
    2769             : 
    2770             : void
    2771           6 : spdk_file_sync_async(struct spdk_file *file, struct spdk_io_channel *_channel,
    2772             :                      spdk_file_op_complete cb_fn, void *cb_arg)
    2773             : {
    2774           6 :         struct spdk_fs_channel *channel = spdk_io_channel_get_ctx(_channel);
    2775             : 
    2776           6 :         _file_sync(file, channel, cb_fn, cb_arg);
    2777           6 : }
    2778             : 
    2779             : void
    2780           0 : spdk_file_set_priority(struct spdk_file *file, uint32_t priority)
    2781             : {
    2782           0 :         BLOBFS_TRACE(file, "priority=%u\n", priority);
    2783           0 :         file->priority = priority;
    2784             : 
    2785           0 : }
    2786             : 
    2787             : /*
    2788             :  * Close routines
    2789             :  */
    2790             : 
    2791             : static void
    2792          17 : __file_close_async_done(void *ctx, int bserrno)
    2793             : {
    2794          17 :         struct spdk_fs_request *req = ctx;
    2795          17 :         struct spdk_fs_cb_args *args = &req->args;
    2796          17 :         struct spdk_file *file = args->file;
    2797             : 
    2798          17 :         spdk_trace_record(TRACE_BLOBFS_CLOSE, 0, 0, 0, file->name);
    2799             : 
    2800          17 :         if (file->is_deleted) {
    2801           2 :                 spdk_fs_delete_file_async(file->fs, file->name, blob_delete_cb, ctx);
    2802           2 :                 return;
    2803             :         }
    2804             : 
    2805          15 :         args->fn.file_op(args->arg, bserrno);
    2806          15 :         free_fs_request(req);
    2807             : }
    2808             : 
    2809             : static void
    2810          17 : __file_close_async(struct spdk_file *file, struct spdk_fs_request *req)
    2811             : {
    2812             :         struct spdk_blob *blob;
    2813             : 
    2814          17 :         pthread_spin_lock(&file->lock);
    2815          17 :         if (file->ref_count == 0) {
    2816           0 :                 pthread_spin_unlock(&file->lock);
    2817           0 :                 __file_close_async_done(req, -EBADF);
    2818           0 :                 return;
    2819             :         }
    2820             : 
    2821          17 :         file->ref_count--;
    2822          17 :         if (file->ref_count > 0) {
    2823           0 :                 pthread_spin_unlock(&file->lock);
    2824           0 :                 req->args.fn.file_op(req->args.arg, 0);
    2825           0 :                 free_fs_request(req);
    2826           0 :                 return;
    2827             :         }
    2828             : 
    2829          17 :         pthread_spin_unlock(&file->lock);
    2830             : 
    2831          17 :         blob = file->blob;
    2832          17 :         file->blob = NULL;
    2833          17 :         spdk_blob_close(blob, __file_close_async_done, req);
    2834             : }
    2835             : 
    2836             : static void
    2837           6 : __file_close_async__sync_done(void *arg, int fserrno)
    2838             : {
    2839           6 :         struct spdk_fs_request *req = arg;
    2840           6 :         struct spdk_fs_cb_args *args = &req->args;
    2841             : 
    2842           6 :         __file_close_async(args->file, req);
    2843           6 : }
    2844             : 
    2845             : void
    2846           6 : spdk_file_close_async(struct spdk_file *file, spdk_file_op_complete cb_fn, void *cb_arg)
    2847             : {
    2848             :         struct spdk_fs_request *req;
    2849             :         struct spdk_fs_cb_args *args;
    2850             : 
    2851           6 :         req = alloc_fs_request(file->fs->md_target.md_fs_channel);
    2852           6 :         if (req == NULL) {
    2853           0 :                 SPDK_ERRLOG("Cannot allocate close async req for file=%s\n", file->name);
    2854           0 :                 cb_fn(cb_arg, -ENOMEM);
    2855           0 :                 return;
    2856             :         }
    2857             : 
    2858           6 :         args = &req->args;
    2859           6 :         args->file = file;
    2860           6 :         args->fn.file_op = cb_fn;
    2861           6 :         args->arg = cb_arg;
    2862             : 
    2863           6 :         spdk_file_sync_async(file, file->fs->md_target.md_io_channel, __file_close_async__sync_done, req);
    2864             : }
    2865             : 
    2866             : static void
    2867          11 : __file_close(void *arg)
    2868             : {
    2869          11 :         struct spdk_fs_request *req = arg;
    2870          11 :         struct spdk_fs_cb_args *args = &req->args;
    2871          11 :         struct spdk_file *file = args->file;
    2872             : 
    2873          11 :         __file_close_async(file, req);
    2874          11 : }
    2875             : 
    2876             : int
    2877          11 : spdk_file_close(struct spdk_file *file, struct spdk_fs_thread_ctx *ctx)
    2878             : {
    2879          11 :         struct spdk_fs_channel *channel = (struct spdk_fs_channel *)ctx;
    2880             :         struct spdk_fs_request *req;
    2881             :         struct spdk_fs_cb_args *args;
    2882             : 
    2883          11 :         req = alloc_fs_request(channel);
    2884          11 :         if (req == NULL) {
    2885           0 :                 SPDK_ERRLOG("Cannot allocate close req for file=%s\n", file->name);
    2886           0 :                 return -ENOMEM;
    2887             :         }
    2888             : 
    2889          11 :         args = &req->args;
    2890             : 
    2891          11 :         spdk_file_sync(file, ctx);
    2892          11 :         BLOBFS_TRACE(file, "name=%s\n", file->name);
    2893          11 :         args->file = file;
    2894          11 :         args->sem = &channel->sem;
    2895          11 :         args->fn.file_op = __wake_caller;
    2896          11 :         args->arg = args;
    2897          11 :         channel->send_request(__file_close, req);
    2898          11 :         sem_wait(&channel->sem);
    2899             : 
    2900          11 :         return args->rc;
    2901             : }
    2902             : 
    2903             : int
    2904           0 : spdk_file_get_id(struct spdk_file *file, void *id, size_t size)
    2905             : {
    2906           0 :         if (size < sizeof(spdk_blob_id)) {
    2907           0 :                 return -EINVAL;
    2908             :         }
    2909             : 
    2910           0 :         memcpy(id, &file->blobid, sizeof(spdk_blob_id));
    2911             : 
    2912           0 :         return sizeof(spdk_blob_id);
    2913             : }
    2914             : 
    2915             : static void
    2916           5 : _file_free(void *ctx)
    2917             : {
    2918           5 :         struct spdk_file *file = ctx;
    2919             : 
    2920           5 :         TAILQ_REMOVE(&g_caches, file, cache_tailq);
    2921             : 
    2922           5 :         free(file->name);
    2923           5 :         free(file->tree);
    2924           5 :         free(file);
    2925           5 : }
    2926             : 
    2927             : static void
    2928          18 : file_free(struct spdk_file *file)
    2929             : {
    2930          18 :         BLOBFS_TRACE(file, "free=%s\n", file->name);
    2931          18 :         pthread_spin_lock(&file->lock);
    2932          18 :         if (file->tree->present_mask == 0) {
    2933          13 :                 pthread_spin_unlock(&file->lock);
    2934          13 :                 free(file->name);
    2935          13 :                 free(file->tree);
    2936          13 :                 free(file);
    2937          13 :                 return;
    2938             :         }
    2939             : 
    2940           5 :         tree_free_buffers(file->tree);
    2941           5 :         assert(file->tree->present_mask == 0);
    2942           5 :         spdk_thread_send_msg(g_cache_pool_thread, _file_free, file);
    2943           5 :         pthread_spin_unlock(&file->lock);
    2944             : }
    2945             : 
    2946           2 : SPDK_LOG_REGISTER_COMPONENT(blobfs)
    2947           2 : SPDK_LOG_REGISTER_COMPONENT(blobfs_rw)

Generated by: LCOV version 1.15