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numam-spdk/lib/blobfs/blobfs.c
Krzysztof Karas c37e776efe trace: move all trace definitions to a separate file 
This is to help with binding trace objects together and
for the convenience (all trace definitions are in one place
instad of being scattered accross multiple files).

Change-Id: Ib15bc9c2eeee9c4d0816bcee509ab69f3f558e19
Signed-off-by: Krzysztof Karas <krzysztof.karas@intel.com>
Reviewed-on: https://review.spdk.io/gerrit/c/spdk/spdk/+/9574
Community-CI: Broadcom CI <spdk-ci.pdl@broadcom.com>
Tested-by: SPDK CI Jenkins <sys_sgci@intel.com>
Reviewed-by: Tomasz Zawadzki <tomasz.zawadzki@intel.com>
Reviewed-by: Jim Harris <james.r.harris@intel.com>
Reviewed-by: Konrad Sztyber <konrad.sztyber@gmail.com>
2021-10-20 07:22:00 +00:00

2963 lines
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/*-
* BSD LICENSE
*
* Copyright (c) Intel Corporation.
* All rights reserved.
*
* Redistribution and use in source and binary forms, with or without
* modification, are permitted provided that the following conditions
* are met:
*
* * Redistributions of source code must retain the above copyright
* notice, this list of conditions and the following disclaimer.
* * Redistributions in binary form must reproduce the above copyright
* notice, this list of conditions and the following disclaimer in
* the documentation and/or other materials provided with the
* distribution.
* * Neither the name of Intel Corporation nor the names of its
* contributors may be used to endorse or promote products derived
* from this software without specific prior written permission.
*
* THIS SOFTWARE IS PROVIDED BY THE COPYRIGHT HOLDERS AND CONTRIBUTORS
* "AS IS" AND ANY EXPRESS OR IMPLIED WARRANTIES, INCLUDING, BUT NOT
* LIMITED TO, THE IMPLIED WARRANTIES OF MERCHANTABILITY AND FITNESS FOR
* A PARTICULAR PURPOSE ARE DISCLAIMED. IN NO EVENT SHALL THE COPYRIGHT
* OWNER OR CONTRIBUTORS BE LIABLE FOR ANY DIRECT, INDIRECT, INCIDENTAL,
* SPECIAL, EXEMPLARY, OR CONSEQUENTIAL DAMAGES (INCLUDING, BUT NOT
* LIMITED TO, PROCUREMENT OF SUBSTITUTE GOODS OR SERVICES; LOSS OF USE,
* DATA, OR PROFITS; OR BUSINESS INTERRUPTION) HOWEVER CAUSED AND ON ANY
* THEORY OF LIABILITY, WHETHER IN CONTRACT, STRICT LIABILITY, OR TORT
* (INCLUDING NEGLIGENCE OR OTHERWISE) ARISING IN ANY WAY OUT OF THE USE
* OF THIS SOFTWARE, EVEN IF ADVISED OF THE POSSIBILITY OF SUCH DAMAGE.
*/
#include "spdk/stdinc.h"
#include "spdk/blobfs.h"
#include "tree.h"
#include "spdk/queue.h"
#include "spdk/thread.h"
#include "spdk/assert.h"
#include "spdk/env.h"
#include "spdk/util.h"
#include "spdk/log.h"
#include "spdk/trace.h"
#include "spdk_internal/trace_defs.h"
#define BLOBFS_TRACE(file, str, args...) \
SPDK_DEBUGLOG(blobfs, "file=%s " str, file->name, ##args)
#define BLOBFS_TRACE_RW(file, str, args...) \
SPDK_DEBUGLOG(blobfs_rw, "file=%s " str, file->name, ##args)
#define BLOBFS_DEFAULT_CACHE_SIZE (4ULL * 1024 * 1024 * 1024)
#define SPDK_BLOBFS_DEFAULT_OPTS_CLUSTER_SZ (1024 * 1024)
#define SPDK_BLOBFS_SIGNATURE "BLOBFS"
static uint64_t g_fs_cache_size = BLOBFS_DEFAULT_CACHE_SIZE;
static struct spdk_mempool *g_cache_pool;
static TAILQ_HEAD(, spdk_file) g_caches = TAILQ_HEAD_INITIALIZER(g_caches);
static struct spdk_poller *g_cache_pool_mgmt_poller;
static struct spdk_thread *g_cache_pool_thread;
#define BLOBFS_CACHE_POOL_POLL_PERIOD_IN_US 1000ULL
static int g_fs_count = 0;
static pthread_mutex_t g_cache_init_lock = PTHREAD_MUTEX_INITIALIZER;
SPDK_TRACE_REGISTER_FN(blobfs_trace, "blobfs", TRACE_GROUP_BLOBFS)
{
struct spdk_trace_tpoint_opts opts[] = {
{
"BLOBFS_XATTR_START", TRACE_BLOBFS_XATTR_START,
OWNER_NONE, OBJECT_NONE, 0,
{{ "file", SPDK_TRACE_ARG_TYPE_STR, 40 }},
},
{
"BLOBFS_XATTR_END", TRACE_BLOBFS_XATTR_END,
OWNER_NONE, OBJECT_NONE, 0,
{{ "file", SPDK_TRACE_ARG_TYPE_STR, 40 }},
},
{
"BLOBFS_OPEN", TRACE_BLOBFS_OPEN,
OWNER_NONE, OBJECT_NONE, 0,
{{ "file", SPDK_TRACE_ARG_TYPE_STR, 40 }},
},
{
"BLOBFS_CLOSE", TRACE_BLOBFS_CLOSE,
OWNER_NONE, OBJECT_NONE, 0,
{{ "file", SPDK_TRACE_ARG_TYPE_STR, 40 }},
},
{
"BLOBFS_DELETE_START", TRACE_BLOBFS_DELETE_START,
OWNER_NONE, OBJECT_NONE, 0,
{{ "file", SPDK_TRACE_ARG_TYPE_STR, 40 }},
},
{
"BLOBFS_DELETE_DONE", TRACE_BLOBFS_DELETE_DONE,
OWNER_NONE, OBJECT_NONE, 0,
{{ "file", SPDK_TRACE_ARG_TYPE_STR, 40 }},
}
};
spdk_trace_register_description_ext(opts, SPDK_COUNTOF(opts));
}
void
cache_buffer_free(struct cache_buffer *cache_buffer)
{
spdk_mempool_put(g_cache_pool, cache_buffer->buf);
free(cache_buffer);
}
#define CACHE_READAHEAD_THRESHOLD (128 * 1024)
struct spdk_file {
struct spdk_filesystem *fs;
struct spdk_blob *blob;
char *name;
uint64_t length;
bool is_deleted;
bool open_for_writing;
uint64_t length_flushed;
uint64_t length_xattr;
uint64_t append_pos;
uint64_t seq_byte_count;
uint64_t next_seq_offset;
uint32_t priority;
TAILQ_ENTRY(spdk_file) tailq;
spdk_blob_id blobid;
uint32_t ref_count;
pthread_spinlock_t lock;
struct cache_buffer *last;
struct cache_tree *tree;
TAILQ_HEAD(open_requests_head, spdk_fs_request) open_requests;
TAILQ_HEAD(sync_requests_head, spdk_fs_request) sync_requests;
TAILQ_ENTRY(spdk_file) cache_tailq;
};
struct spdk_deleted_file {
spdk_blob_id id;
TAILQ_ENTRY(spdk_deleted_file) tailq;
};
struct spdk_filesystem {
struct spdk_blob_store *bs;
TAILQ_HEAD(, spdk_file) files;
struct spdk_bs_opts bs_opts;
struct spdk_bs_dev *bdev;
fs_send_request_fn send_request;
struct {
uint32_t max_ops;
struct spdk_io_channel *sync_io_channel;
struct spdk_fs_channel *sync_fs_channel;
} sync_target;
struct {
uint32_t max_ops;
struct spdk_io_channel *md_io_channel;
struct spdk_fs_channel *md_fs_channel;
} md_target;
struct {
uint32_t max_ops;
} io_target;
};
struct spdk_fs_cb_args {
union {
spdk_fs_op_with_handle_complete fs_op_with_handle;
spdk_fs_op_complete fs_op;
spdk_file_op_with_handle_complete file_op_with_handle;
spdk_file_op_complete file_op;
spdk_file_stat_op_complete stat_op;
} fn;
void *arg;
sem_t *sem;
struct spdk_filesystem *fs;
struct spdk_file *file;
int rc;
int *rwerrno;
struct iovec *iovs;
uint32_t iovcnt;
struct iovec iov;
union {
struct {
TAILQ_HEAD(, spdk_deleted_file) deleted_files;
} fs_load;
struct {
uint64_t length;
} truncate;
struct {
struct spdk_io_channel *channel;
void *pin_buf;
int is_read;
off_t offset;
size_t length;
uint64_t start_lba;
uint64_t num_lba;
uint32_t blocklen;
} rw;
struct {
const char *old_name;
const char *new_name;
} rename;
struct {
struct cache_buffer *cache_buffer;
uint64_t length;
} flush;
struct {
struct cache_buffer *cache_buffer;
uint64_t length;
uint64_t offset;
} readahead;
struct {
/* offset of the file when the sync request was made */
uint64_t offset;
TAILQ_ENTRY(spdk_fs_request) tailq;
bool xattr_in_progress;
/* length written to the xattr for this file - this should
* always be the same as the offset if only one thread is
* writing to the file, but could differ if multiple threads
* are appending
*/
uint64_t length;
} sync;
struct {
uint32_t num_clusters;
} resize;
struct {
const char *name;
uint32_t flags;
TAILQ_ENTRY(spdk_fs_request) tailq;
} open;
struct {
const char *name;
struct spdk_blob *blob;
} create;
struct {
const char *name;
} delete;
struct {
const char *name;
} stat;
} op;
};
static void file_free(struct spdk_file *file);
static void fs_io_device_unregister(struct spdk_filesystem *fs);
static void fs_free_io_channels(struct spdk_filesystem *fs);
void
spdk_fs_opts_init(struct spdk_blobfs_opts *opts)
{
opts->cluster_sz = SPDK_BLOBFS_DEFAULT_OPTS_CLUSTER_SZ;
}
static int _blobfs_cache_pool_reclaim(void *arg);
static bool
blobfs_cache_pool_need_reclaim(void)
{
size_t count;
count = spdk_mempool_count(g_cache_pool);
/* We define a aggressive policy here as the requirements from db_bench are batched, so start the poller
* when the number of available cache buffer is less than 1/5 of total buffers.
*/
if (count > (size_t)g_fs_cache_size / CACHE_BUFFER_SIZE / 5) {
return false;
}
return true;
}
static void
__start_cache_pool_mgmt(void *ctx)
{
assert(g_cache_pool == NULL);
g_cache_pool = spdk_mempool_create("spdk_fs_cache",
g_fs_cache_size / CACHE_BUFFER_SIZE,
CACHE_BUFFER_SIZE,
SPDK_MEMPOOL_DEFAULT_CACHE_SIZE,
SPDK_ENV_SOCKET_ID_ANY);
if (!g_cache_pool) {
SPDK_ERRLOG("Create mempool failed, you may "
"increase the memory and try again\n");
assert(false);
}
assert(g_cache_pool_mgmt_poller == NULL);
g_cache_pool_mgmt_poller = SPDK_POLLER_REGISTER(_blobfs_cache_pool_reclaim, NULL,
BLOBFS_CACHE_POOL_POLL_PERIOD_IN_US);
}
static void
__stop_cache_pool_mgmt(void *ctx)
{
spdk_poller_unregister(&g_cache_pool_mgmt_poller);
assert(g_cache_pool != NULL);
assert(spdk_mempool_count(g_cache_pool) == g_fs_cache_size / CACHE_BUFFER_SIZE);
spdk_mempool_free(g_cache_pool);
g_cache_pool = NULL;
spdk_thread_exit(g_cache_pool_thread);
}
static void
initialize_global_cache(void)
{
pthread_mutex_lock(&g_cache_init_lock);
if (g_fs_count == 0) {
g_cache_pool_thread = spdk_thread_create("cache_pool_mgmt", NULL);
assert(g_cache_pool_thread != NULL);
spdk_thread_send_msg(g_cache_pool_thread, __start_cache_pool_mgmt, NULL);
}
g_fs_count++;
pthread_mutex_unlock(&g_cache_init_lock);
}
static void
free_global_cache(void)
{
pthread_mutex_lock(&g_cache_init_lock);
g_fs_count--;
if (g_fs_count == 0) {
spdk_thread_send_msg(g_cache_pool_thread, __stop_cache_pool_mgmt, NULL);
}
pthread_mutex_unlock(&g_cache_init_lock);
}
static uint64_t
__file_get_blob_size(struct spdk_file *file)
{
uint64_t cluster_sz;
cluster_sz = file->fs->bs_opts.cluster_sz;
return cluster_sz * spdk_blob_get_num_clusters(file->blob);
}
struct spdk_fs_request {
struct spdk_fs_cb_args args;
TAILQ_ENTRY(spdk_fs_request) link;
struct spdk_fs_channel *channel;
};
struct spdk_fs_channel {
struct spdk_fs_request *req_mem;
TAILQ_HEAD(, spdk_fs_request) reqs;
sem_t sem;
struct spdk_filesystem *fs;
struct spdk_io_channel *bs_channel;
fs_send_request_fn send_request;
bool sync;
uint32_t outstanding_reqs;
pthread_spinlock_t lock;
};
/* For now, this is effectively an alias. But eventually we'll shift
* some data members over. */
struct spdk_fs_thread_ctx {
struct spdk_fs_channel ch;
};
static struct spdk_fs_request *
alloc_fs_request_with_iov(struct spdk_fs_channel *channel, uint32_t iovcnt)
{
struct spdk_fs_request *req;
struct iovec *iovs = NULL;
if (iovcnt > 1) {
iovs = calloc(iovcnt, sizeof(struct iovec));
if (!iovs) {
return NULL;
}
}
if (channel->sync) {
pthread_spin_lock(&channel->lock);
}
req = TAILQ_FIRST(&channel->reqs);
if (req) {
channel->outstanding_reqs++;
TAILQ_REMOVE(&channel->reqs, req, link);
}
if (channel->sync) {
pthread_spin_unlock(&channel->lock);
}
if (req == NULL) {
SPDK_ERRLOG("Cannot allocate req on spdk_fs_channel =%p\n", channel);
free(iovs);
return NULL;
}
memset(req, 0, sizeof(*req));
req->channel = channel;
if (iovcnt > 1) {
req->args.iovs = iovs;
} else {
req->args.iovs = &req->args.iov;
}
req->args.iovcnt = iovcnt;
return req;
}
static struct spdk_fs_request *
alloc_fs_request(struct spdk_fs_channel *channel)
{
return alloc_fs_request_with_iov(channel, 0);
}
static void
free_fs_request(struct spdk_fs_request *req)
{
struct spdk_fs_channel *channel = req->channel;
if (req->args.iovcnt > 1) {
free(req->args.iovs);
}
if (channel->sync) {
pthread_spin_lock(&channel->lock);
}
TAILQ_INSERT_HEAD(&req->channel->reqs, req, link);
channel->outstanding_reqs--;
if (channel->sync) {
pthread_spin_unlock(&channel->lock);
}
}
static int
fs_channel_create(struct spdk_filesystem *fs, struct spdk_fs_channel *channel,
uint32_t max_ops)
{
uint32_t i;
channel->req_mem = calloc(max_ops, sizeof(struct spdk_fs_request));
if (!channel->req_mem) {
return -1;
}
channel->outstanding_reqs = 0;
TAILQ_INIT(&channel->reqs);
sem_init(&channel->sem, 0, 0);
for (i = 0; i < max_ops; i++) {
TAILQ_INSERT_TAIL(&channel->reqs, &channel->req_mem[i], link);
}
channel->fs = fs;
return 0;
}
static int
fs_md_channel_create(void *io_device, void *ctx_buf)
{
struct spdk_filesystem *fs;
struct spdk_fs_channel *channel = ctx_buf;
fs = SPDK_CONTAINEROF(io_device, struct spdk_filesystem, md_target);
return fs_channel_create(fs, channel, fs->md_target.max_ops);
}
static int
fs_sync_channel_create(void *io_device, void *ctx_buf)
{
struct spdk_filesystem *fs;
struct spdk_fs_channel *channel = ctx_buf;
fs = SPDK_CONTAINEROF(io_device, struct spdk_filesystem, sync_target);
return fs_channel_create(fs, channel, fs->sync_target.max_ops);
}
static int
fs_io_channel_create(void *io_device, void *ctx_buf)
{
struct spdk_filesystem *fs;
struct spdk_fs_channel *channel = ctx_buf;
fs = SPDK_CONTAINEROF(io_device, struct spdk_filesystem, io_target);
return fs_channel_create(fs, channel, fs->io_target.max_ops);
}
static void
fs_channel_destroy(void *io_device, void *ctx_buf)
{
struct spdk_fs_channel *channel = ctx_buf;
if (channel->outstanding_reqs > 0) {
SPDK_ERRLOG("channel freed with %" PRIu32 " outstanding requests!\n",
channel->outstanding_reqs);
}
free(channel->req_mem);
if (channel->bs_channel != NULL) {
spdk_bs_free_io_channel(channel->bs_channel);
}
}
static void
__send_request_direct(fs_request_fn fn, void *arg)
{
fn(arg);
}
static void
common_fs_bs_init(struct spdk_filesystem *fs, struct spdk_blob_store *bs)
{
fs->bs = bs;
fs->bs_opts.cluster_sz = spdk_bs_get_cluster_size(bs);
fs->md_target.md_fs_channel->bs_channel = spdk_bs_alloc_io_channel(fs->bs);
fs->md_target.md_fs_channel->send_request = __send_request_direct;
fs->sync_target.sync_fs_channel->bs_channel = spdk_bs_alloc_io_channel(fs->bs);
fs->sync_target.sync_fs_channel->send_request = __send_request_direct;
initialize_global_cache();
}
static void
init_cb(void *ctx, struct spdk_blob_store *bs, int bserrno)
{
struct spdk_fs_request *req = ctx;
struct spdk_fs_cb_args *args = &req->args;
struct spdk_filesystem *fs = args->fs;
if (bserrno == 0) {
common_fs_bs_init(fs, bs);
} else {
free(fs);
fs = NULL;
}
args->fn.fs_op_with_handle(args->arg, fs, bserrno);
free_fs_request(req);
}
static struct spdk_filesystem *
fs_alloc(struct spdk_bs_dev *dev, fs_send_request_fn send_request_fn)
{
struct spdk_filesystem *fs;
fs = calloc(1, sizeof(*fs));
if (fs == NULL) {
return NULL;
}
fs->bdev = dev;
fs->send_request = send_request_fn;
TAILQ_INIT(&fs->files);
fs->md_target.max_ops = 512;
spdk_io_device_register(&fs->md_target, fs_md_channel_create, fs_channel_destroy,
sizeof(struct spdk_fs_channel), "blobfs_md");
fs->md_target.md_io_channel = spdk_get_io_channel(&fs->md_target);
fs->md_target.md_fs_channel = spdk_io_channel_get_ctx(fs->md_target.md_io_channel);
fs->sync_target.max_ops = 512;
spdk_io_device_register(&fs->sync_target, fs_sync_channel_create, fs_channel_destroy,
sizeof(struct spdk_fs_channel), "blobfs_sync");
fs->sync_target.sync_io_channel = spdk_get_io_channel(&fs->sync_target);
fs->sync_target.sync_fs_channel = spdk_io_channel_get_ctx(fs->sync_target.sync_io_channel);
fs->io_target.max_ops = 512;
spdk_io_device_register(&fs->io_target, fs_io_channel_create, fs_channel_destroy,
sizeof(struct spdk_fs_channel), "blobfs_io");
return fs;
}
static void
__wake_caller(void *arg, int fserrno)
{
struct spdk_fs_cb_args *args = arg;
if ((args->rwerrno != NULL) && (*(args->rwerrno) == 0) && fserrno) {
*(args->rwerrno) = fserrno;
}
args->rc = fserrno;
sem_post(args->sem);
}
void
spdk_fs_init(struct spdk_bs_dev *dev, struct spdk_blobfs_opts *opt,
fs_send_request_fn send_request_fn,
spdk_fs_op_with_handle_complete cb_fn, void *cb_arg)
{
struct spdk_filesystem *fs;
struct spdk_fs_request *req;
struct spdk_fs_cb_args *args;
struct spdk_bs_opts opts = {};
fs = fs_alloc(dev, send_request_fn);
if (fs == NULL) {
cb_fn(cb_arg, NULL, -ENOMEM);
return;
}
req = alloc_fs_request(fs->md_target.md_fs_channel);
if (req == NULL) {
fs_free_io_channels(fs);
fs_io_device_unregister(fs);
cb_fn(cb_arg, NULL, -ENOMEM);
return;
}
args = &req->args;
args->fn.fs_op_with_handle = cb_fn;
args->arg = cb_arg;
args->fs = fs;
spdk_bs_opts_init(&opts, sizeof(opts));
snprintf(opts.bstype.bstype, sizeof(opts.bstype.bstype), SPDK_BLOBFS_SIGNATURE);
if (opt) {
opts.cluster_sz = opt->cluster_sz;
}
spdk_bs_init(dev, &opts, init_cb, req);
}
static struct spdk_file *
file_alloc(struct spdk_filesystem *fs)
{
struct spdk_file *file;
file = calloc(1, sizeof(*file));
if (file == NULL) {
return NULL;
}
file->tree = calloc(1, sizeof(*file->tree));
if (file->tree == NULL) {
free(file);
return NULL;
}
if (pthread_spin_init(&file->lock, 0)) {
free(file->tree);
free(file);
return NULL;
}
file->fs = fs;
TAILQ_INIT(&file->open_requests);
TAILQ_INIT(&file->sync_requests);
TAILQ_INSERT_TAIL(&fs->files, file, tailq);
file->priority = SPDK_FILE_PRIORITY_LOW;
return file;
}
static void fs_load_done(void *ctx, int bserrno);
static int
_handle_deleted_files(struct spdk_fs_request *req)
{
struct spdk_fs_cb_args *args = &req->args;
struct spdk_filesystem *fs = args->fs;
if (!TAILQ_EMPTY(&args->op.fs_load.deleted_files)) {
struct spdk_deleted_file *deleted_file;
deleted_file = TAILQ_FIRST(&args->op.fs_load.deleted_files);
TAILQ_REMOVE(&args->op.fs_load.deleted_files, deleted_file, tailq);
spdk_bs_delete_blob(fs->bs, deleted_file->id, fs_load_done, req);
free(deleted_file);
return 0;
}
return 1;
}
static void
fs_load_done(void *ctx, int bserrno)
{
struct spdk_fs_request *req = ctx;
struct spdk_fs_cb_args *args = &req->args;
struct spdk_filesystem *fs = args->fs;
/* The filesystem has been loaded. Now check if there are any files that
* were marked for deletion before last unload. Do not complete the
* fs_load callback until all of them have been deleted on disk.
*/
if (_handle_deleted_files(req) == 0) {
/* We found a file that's been marked for deleting but not actually
* deleted yet. This function will get called again once the delete
* operation is completed.
*/
return;
}
args->fn.fs_op_with_handle(args->arg, fs, 0);
free_fs_request(req);
}
static void
iter_cb(void *ctx, struct spdk_blob *blob, int rc)
{
struct spdk_fs_request *req = ctx;
struct spdk_fs_cb_args *args = &req->args;
struct spdk_filesystem *fs = args->fs;
uint64_t *length;
const char *name;
uint32_t *is_deleted;
size_t value_len;
if (rc < 0) {
args->fn.fs_op_with_handle(args->arg, fs, rc);
free_fs_request(req);
return;
}
rc = spdk_blob_get_xattr_value(blob, "name", (const void **)&name, &value_len);
if (rc < 0) {
args->fn.fs_op_with_handle(args->arg, fs, rc);
free_fs_request(req);
return;
}
rc = spdk_blob_get_xattr_value(blob, "length", (const void **)&length, &value_len);
if (rc < 0) {
args->fn.fs_op_with_handle(args->arg, fs, rc);
free_fs_request(req);
return;
}
assert(value_len == 8);
/* This file could be deleted last time without close it, then app crashed, so we delete it now */
rc = spdk_blob_get_xattr_value(blob, "is_deleted", (const void **)&is_deleted, &value_len);
if (rc < 0) {
struct spdk_file *f;
f = file_alloc(fs);
if (f == NULL) {
SPDK_ERRLOG("Cannot allocate file to handle deleted file on disk\n");
args->fn.fs_op_with_handle(args->arg, fs, -ENOMEM);
free_fs_request(req);
return;
}
f->name = strdup(name);
f->blobid = spdk_blob_get_id(blob);
f->length = *length;
f->length_flushed = *length;
f->length_xattr = *length;
f->append_pos = *length;
SPDK_DEBUGLOG(blobfs, "added file %s length=%ju\n", f->name, f->length);
} else {
struct spdk_deleted_file *deleted_file;
deleted_file = calloc(1, sizeof(*deleted_file));
if (deleted_file == NULL) {
args->fn.fs_op_with_handle(args->arg, fs, -ENOMEM);
free_fs_request(req);
return;
}
deleted_file->id = spdk_blob_get_id(blob);
TAILQ_INSERT_TAIL(&args->op.fs_load.deleted_files, deleted_file, tailq);
}
}
static void
load_cb(void *ctx, struct spdk_blob_store *bs, int bserrno)
{
struct spdk_fs_request *req = ctx;
struct spdk_fs_cb_args *args = &req->args;
struct spdk_filesystem *fs = args->fs;
struct spdk_bs_type bstype;
static const struct spdk_bs_type blobfs_type = {SPDK_BLOBFS_SIGNATURE};
static const struct spdk_bs_type zeros;
if (bserrno != 0) {
args->fn.fs_op_with_handle(args->arg, NULL, bserrno);
free_fs_request(req);
fs_free_io_channels(fs);
fs_io_device_unregister(fs);
return;
}
bstype = spdk_bs_get_bstype(bs);
if (!memcmp(&bstype, &zeros, sizeof(bstype))) {
SPDK_DEBUGLOG(blobfs, "assigning bstype\n");
spdk_bs_set_bstype(bs, blobfs_type);
} else if (memcmp(&bstype, &blobfs_type, sizeof(bstype))) {
SPDK_ERRLOG("not blobfs\n");
SPDK_LOGDUMP(blobfs, "bstype", &bstype, sizeof(bstype));
args->fn.fs_op_with_handle(args->arg, NULL, -EINVAL);
free_fs_request(req);
fs_free_io_channels(fs);
fs_io_device_unregister(fs);
return;
}
common_fs_bs_init(fs, bs);
fs_load_done(req, 0);
}
static void
fs_io_device_unregister(struct spdk_filesystem *fs)
{
assert(fs != NULL);
spdk_io_device_unregister(&fs->md_target, NULL);
spdk_io_device_unregister(&fs->sync_target, NULL);
spdk_io_device_unregister(&fs->io_target, NULL);
free(fs);
}
static void
fs_free_io_channels(struct spdk_filesystem *fs)
{
assert(fs != NULL);
spdk_fs_free_io_channel(fs->md_target.md_io_channel);
spdk_fs_free_io_channel(fs->sync_target.sync_io_channel);
}
void
spdk_fs_load(struct spdk_bs_dev *dev, fs_send_request_fn send_request_fn,
spdk_fs_op_with_handle_complete cb_fn, void *cb_arg)
{
struct spdk_filesystem *fs;
struct spdk_fs_cb_args *args;
struct spdk_fs_request *req;
struct spdk_bs_opts bs_opts;
fs = fs_alloc(dev, send_request_fn);
if (fs == NULL) {
cb_fn(cb_arg, NULL, -ENOMEM);
return;
}
req = alloc_fs_request(fs->md_target.md_fs_channel);
if (req == NULL) {
fs_free_io_channels(fs);
fs_io_device_unregister(fs);
cb_fn(cb_arg, NULL, -ENOMEM);
return;
}
args = &req->args;
args->fn.fs_op_with_handle = cb_fn;
args->arg = cb_arg;
args->fs = fs;
TAILQ_INIT(&args->op.fs_load.deleted_files);
spdk_bs_opts_init(&bs_opts, sizeof(bs_opts));
bs_opts.iter_cb_fn = iter_cb;
bs_opts.iter_cb_arg = req;
spdk_bs_load(dev, &bs_opts, load_cb, req);
}
static void
unload_cb(void *ctx, int bserrno)
{
struct spdk_fs_request *req = ctx;
struct spdk_fs_cb_args *args = &req->args;
struct spdk_filesystem *fs = args->fs;
struct spdk_file *file, *tmp;
TAILQ_FOREACH_SAFE(file, &fs->files, tailq, tmp) {
TAILQ_REMOVE(&fs->files, file, tailq);
file_free(file);
}
free_global_cache();
args->fn.fs_op(args->arg, bserrno);
free(req);
fs_io_device_unregister(fs);
}
void
spdk_fs_unload(struct spdk_filesystem *fs, spdk_fs_op_complete cb_fn, void *cb_arg)
{
struct spdk_fs_request *req;
struct spdk_fs_cb_args *args;
/*
* We must free the md_channel before unloading the blobstore, so just
* allocate this request from the general heap.
*/
req = calloc(1, sizeof(*req));
if (req == NULL) {
cb_fn(cb_arg, -ENOMEM);
return;
}
args = &req->args;
args->fn.fs_op = cb_fn;
args->arg = cb_arg;
args->fs = fs;
fs_free_io_channels(fs);
spdk_bs_unload(fs->bs, unload_cb, req);
}
static struct spdk_file *
fs_find_file(struct spdk_filesystem *fs, const char *name)
{
struct spdk_file *file;
TAILQ_FOREACH(file, &fs->files, tailq) {
if (!strncmp(name, file->name, SPDK_FILE_NAME_MAX)) {
return file;
}
}
return NULL;
}
void
spdk_fs_file_stat_async(struct spdk_filesystem *fs, const char *name,
spdk_file_stat_op_complete cb_fn, void *cb_arg)
{
struct spdk_file_stat stat;
struct spdk_file *f = NULL;
if (strnlen(name, SPDK_FILE_NAME_MAX + 1) == SPDK_FILE_NAME_MAX + 1) {
cb_fn(cb_arg, NULL, -ENAMETOOLONG);
return;
}
f = fs_find_file(fs, name);
if (f != NULL) {
stat.blobid = f->blobid;
stat.size = f->append_pos >= f->length ? f->append_pos : f->length;
cb_fn(cb_arg, &stat, 0);
return;
}
cb_fn(cb_arg, NULL, -ENOENT);
}
static void
__copy_stat(void *arg, struct spdk_file_stat *stat, int fserrno)
{
struct spdk_fs_request *req = arg;
struct spdk_fs_cb_args *args = &req->args;
args->rc = fserrno;
if (fserrno == 0) {
memcpy(args->arg, stat, sizeof(*stat));
}
sem_post(args->sem);
}
static void
__file_stat(void *arg)
{
struct spdk_fs_request *req = arg;
struct spdk_fs_cb_args *args = &req->args;
spdk_fs_file_stat_async(args->fs, args->op.stat.name,
args->fn.stat_op, req);
}
int
spdk_fs_file_stat(struct spdk_filesystem *fs, struct spdk_fs_thread_ctx *ctx,
const char *name, struct spdk_file_stat *stat)
{
struct spdk_fs_channel *channel = (struct spdk_fs_channel *)ctx;
struct spdk_fs_request *req;
int rc;
req = alloc_fs_request(channel);
if (req == NULL) {
SPDK_ERRLOG("Cannot allocate stat req on file=%s\n", name);
return -ENOMEM;
}
req->args.fs = fs;
req->args.op.stat.name = name;
req->args.fn.stat_op = __copy_stat;
req->args.arg = stat;
req->args.sem = &channel->sem;
channel->send_request(__file_stat, req);
sem_wait(&channel->sem);
rc = req->args.rc;
free_fs_request(req);
return rc;
}
static void
fs_create_blob_close_cb(void *ctx, int bserrno)
{
int rc;
struct spdk_fs_request *req = ctx;
struct spdk_fs_cb_args *args = &req->args;
rc = args->rc ? args->rc : bserrno;
args->fn.file_op(args->arg, rc);
free_fs_request(req);
}
static void
fs_create_blob_resize_cb(void *ctx, int bserrno)
{
struct spdk_fs_request *req = ctx;
struct spdk_fs_cb_args *args = &req->args;
struct spdk_file *f = args->file;
struct spdk_blob *blob = args->op.create.blob;
uint64_t length = 0;
args->rc = bserrno;
if (bserrno) {
spdk_blob_close(blob, fs_create_blob_close_cb, args);
return;
}
spdk_blob_set_xattr(blob, "name", f->name, strlen(f->name) + 1);
spdk_blob_set_xattr(blob, "length", &length, sizeof(length));
spdk_blob_close(blob, fs_create_blob_close_cb, args);
}
static void
fs_create_blob_open_cb(void *ctx, struct spdk_blob *blob, int bserrno)
{
struct spdk_fs_request *req = ctx;
struct spdk_fs_cb_args *args = &req->args;
if (bserrno) {
args->fn.file_op(args->arg, bserrno);
free_fs_request(req);
return;
}
args->op.create.blob = blob;
spdk_blob_resize(blob, 1, fs_create_blob_resize_cb, req);
}
static void
fs_create_blob_create_cb(void *ctx, spdk_blob_id blobid, int bserrno)
{
struct spdk_fs_request *req = ctx;
struct spdk_fs_cb_args *args = &req->args;
struct spdk_file *f = args->file;
if (bserrno) {
args->fn.file_op(args->arg, bserrno);
free_fs_request(req);
return;
}
f->blobid = blobid;
spdk_bs_open_blob(f->fs->bs, blobid, fs_create_blob_open_cb, req);
}
void
spdk_fs_create_file_async(struct spdk_filesystem *fs, const char *name,
spdk_file_op_complete cb_fn, void *cb_arg)
{
struct spdk_file *file;
struct spdk_fs_request *req;
struct spdk_fs_cb_args *args;
if (strnlen(name, SPDK_FILE_NAME_MAX + 1) == SPDK_FILE_NAME_MAX + 1) {
cb_fn(cb_arg, -ENAMETOOLONG);
return;
}
file = fs_find_file(fs, name);
if (file != NULL) {
cb_fn(cb_arg, -EEXIST);
return;
}
file = file_alloc(fs);
if (file == NULL) {
SPDK_ERRLOG("Cannot allocate new file for creation\n");
cb_fn(cb_arg, -ENOMEM);
return;
}
req = alloc_fs_request(fs->md_target.md_fs_channel);
if (req == NULL) {
SPDK_ERRLOG("Cannot allocate create async req for file=%s\n", name);
TAILQ_REMOVE(&fs->files, file, tailq);
file_free(file);
cb_fn(cb_arg, -ENOMEM);
return;
}
args = &req->args;
args->file = file;
args->fn.file_op = cb_fn;
args->arg = cb_arg;
file->name = strdup(name);
if (!file->name) {
SPDK_ERRLOG("Cannot allocate file->name for file=%s\n", name);
free_fs_request(req);
TAILQ_REMOVE(&fs->files, file, tailq);
file_free(file);
cb_fn(cb_arg, -ENOMEM);
return;
}
spdk_bs_create_blob(fs->bs, fs_create_blob_create_cb, args);
}
static void
__fs_create_file_done(void *arg, int fserrno)
{
struct spdk_fs_request *req = arg;
struct spdk_fs_cb_args *args = &req->args;
__wake_caller(args, fserrno);
SPDK_DEBUGLOG(blobfs, "file=%s\n", args->op.create.name);
}
static void
__fs_create_file(void *arg)
{
struct spdk_fs_request *req = arg;
struct spdk_fs_cb_args *args = &req->args;
SPDK_DEBUGLOG(blobfs, "file=%s\n", args->op.create.name);
spdk_fs_create_file_async(args->fs, args->op.create.name, __fs_create_file_done, req);
}
int
spdk_fs_create_file(struct spdk_filesystem *fs, struct spdk_fs_thread_ctx *ctx, const char *name)
{
struct spdk_fs_channel *channel = (struct spdk_fs_channel *)ctx;
struct spdk_fs_request *req;
struct spdk_fs_cb_args *args;
int rc;
SPDK_DEBUGLOG(blobfs, "file=%s\n", name);
req = alloc_fs_request(channel);
if (req == NULL) {
SPDK_ERRLOG("Cannot allocate req to create file=%s\n", name);
return -ENOMEM;
}
args = &req->args;
args->fs = fs;
args->op.create.name = name;
args->sem = &channel->sem;
fs->send_request(__fs_create_file, req);
sem_wait(&channel->sem);
rc = args->rc;
free_fs_request(req);
return rc;
}
static void
fs_open_blob_done(void *ctx, struct spdk_blob *blob, int bserrno)
{
struct spdk_fs_request *req = ctx;
struct spdk_fs_cb_args *args = &req->args;
struct spdk_file *f = args->file;
f->blob = blob;
while (!TAILQ_EMPTY(&f->open_requests)) {
req = TAILQ_FIRST(&f->open_requests);
args = &req->args;
TAILQ_REMOVE(&f->open_requests, req, args.op.open.tailq);
spdk_trace_record(TRACE_BLOBFS_OPEN, 0, 0, 0, f->name);
args->fn.file_op_with_handle(args->arg, f, bserrno);
free_fs_request(req);
}
}
static void
fs_open_blob_create_cb(void *ctx, int bserrno)
{
struct spdk_fs_request *req = ctx;
struct spdk_fs_cb_args *args = &req->args;
struct spdk_file *file = args->file;
struct spdk_filesystem *fs = args->fs;
if (file == NULL) {
/*
* This is from an open with CREATE flag - the file
* is now created so look it up in the file list for this
* filesystem.
*/
file = fs_find_file(fs, args->op.open.name);
assert(file != NULL);
args->file = file;
}
file->ref_count++;
TAILQ_INSERT_TAIL(&file->open_requests, req, args.op.open.tailq);
if (file->ref_count == 1) {
assert(file->blob == NULL);
spdk_bs_open_blob(fs->bs, file->blobid, fs_open_blob_done, req);
} else if (file->blob != NULL) {
fs_open_blob_done(req, file->blob, 0);
} else {
/*
* The blob open for this file is in progress due to a previous
* open request. When that open completes, it will invoke the
* open callback for this request.
*/
}
}
void
spdk_fs_open_file_async(struct spdk_filesystem *fs, const char *name, uint32_t flags,
spdk_file_op_with_handle_complete cb_fn, void *cb_arg)
{
struct spdk_file *f = NULL;
struct spdk_fs_request *req;
struct spdk_fs_cb_args *args;
if (strnlen(name, SPDK_FILE_NAME_MAX + 1) == SPDK_FILE_NAME_MAX + 1) {
cb_fn(cb_arg, NULL, -ENAMETOOLONG);
return;
}
f = fs_find_file(fs, name);
if (f == NULL && !(flags & SPDK_BLOBFS_OPEN_CREATE)) {
cb_fn(cb_arg, NULL, -ENOENT);
return;
}
if (f != NULL && f->is_deleted == true) {
cb_fn(cb_arg, NULL, -ENOENT);
return;
}
req = alloc_fs_request(fs->md_target.md_fs_channel);
if (req == NULL) {
SPDK_ERRLOG("Cannot allocate async open req for file=%s\n", name);
cb_fn(cb_arg, NULL, -ENOMEM);
return;
}
args = &req->args;
args->fn.file_op_with_handle = cb_fn;
args->arg = cb_arg;
args->file = f;
args->fs = fs;
args->op.open.name = name;
if (f == NULL) {
spdk_fs_create_file_async(fs, name, fs_open_blob_create_cb, req);
} else {
fs_open_blob_create_cb(req, 0);
}
}
static void
__fs_open_file_done(void *arg, struct spdk_file *file, int bserrno)
{
struct spdk_fs_request *req = arg;
struct spdk_fs_cb_args *args = &req->args;
args->file = file;
__wake_caller(args, bserrno);
SPDK_DEBUGLOG(blobfs, "file=%s\n", args->op.open.name);
}
static void
__fs_open_file(void *arg)
{
struct spdk_fs_request *req = arg;
struct spdk_fs_cb_args *args = &req->args;
SPDK_DEBUGLOG(blobfs, "file=%s\n", args->op.open.name);
spdk_fs_open_file_async(args->fs, args->op.open.name, args->op.open.flags,
__fs_open_file_done, req);
}
int
spdk_fs_open_file(struct spdk_filesystem *fs, struct spdk_fs_thread_ctx *ctx,
const char *name, uint32_t flags, struct spdk_file **file)
{
struct spdk_fs_channel *channel = (struct spdk_fs_channel *)ctx;
struct spdk_fs_request *req;
struct spdk_fs_cb_args *args;
int rc;
SPDK_DEBUGLOG(blobfs, "file=%s\n", name);
req = alloc_fs_request(channel);
if (req == NULL) {
SPDK_ERRLOG("Cannot allocate req for opening file=%s\n", name);
return -ENOMEM;
}
args = &req->args;
args->fs = fs;
args->op.open.name = name;
args->op.open.flags = flags;
args->sem = &channel->sem;
fs->send_request(__fs_open_file, req);
sem_wait(&channel->sem);
rc = args->rc;
if (rc == 0) {
*file = args->file;
} else {
*file = NULL;
}
free_fs_request(req);
return rc;
}
static void
fs_rename_blob_close_cb(void *ctx, int bserrno)
{
struct spdk_fs_request *req = ctx;
struct spdk_fs_cb_args *args = &req->args;
args->fn.fs_op(args->arg, bserrno);
free_fs_request(req);
}
static void
fs_rename_blob_open_cb(void *ctx, struct spdk_blob *blob, int bserrno)
{
struct spdk_fs_request *req = ctx;
struct spdk_fs_cb_args *args = &req->args;
const char *new_name = args->op.rename.new_name;
spdk_blob_set_xattr(blob, "name", new_name, strlen(new_name) + 1);
spdk_blob_close(blob, fs_rename_blob_close_cb, req);
}
static void
_fs_md_rename_file(struct spdk_fs_request *req)
{
struct spdk_fs_cb_args *args = &req->args;
struct spdk_file *f;
f = fs_find_file(args->fs, args->op.rename.old_name);
if (f == NULL) {
args->fn.fs_op(args->arg, -ENOENT);
free_fs_request(req);
return;
}
free(f->name);
f->name = strdup(args->op.rename.new_name);
args->file = f;
spdk_bs_open_blob(args->fs->bs, f->blobid, fs_rename_blob_open_cb, req);
}
static void
fs_rename_delete_done(void *arg, int fserrno)
{
_fs_md_rename_file(arg);
}
void
spdk_fs_rename_file_async(struct spdk_filesystem *fs,
const char *old_name, const char *new_name,
spdk_file_op_complete cb_fn, void *cb_arg)
{
struct spdk_file *f;
struct spdk_fs_request *req;
struct spdk_fs_cb_args *args;
SPDK_DEBUGLOG(blobfs, "old=%s new=%s\n", old_name, new_name);
if (strnlen(new_name, SPDK_FILE_NAME_MAX + 1) == SPDK_FILE_NAME_MAX + 1) {
cb_fn(cb_arg, -ENAMETOOLONG);
return;
}
req = alloc_fs_request(fs->md_target.md_fs_channel);
if (req == NULL) {
SPDK_ERRLOG("Cannot allocate rename async req for renaming file from %s to %s\n", old_name,
new_name);
cb_fn(cb_arg, -ENOMEM);
return;
}
args = &req->args;
args->fn.fs_op = cb_fn;
args->fs = fs;
args->arg = cb_arg;
args->op.rename.old_name = old_name;
args->op.rename.new_name = new_name;
f = fs_find_file(fs, new_name);
if (f == NULL) {
_fs_md_rename_file(req);
return;
}
/*
* The rename overwrites an existing file. So delete the existing file, then
* do the actual rename.
*/
spdk_fs_delete_file_async(fs, new_name, fs_rename_delete_done, req);
}
static void
__fs_rename_file_done(void *arg, int fserrno)
{
struct spdk_fs_request *req = arg;
struct spdk_fs_cb_args *args = &req->args;
__wake_caller(args, fserrno);
}
static void
__fs_rename_file(void *arg)
{
struct spdk_fs_request *req = arg;
struct spdk_fs_cb_args *args = &req->args;
spdk_fs_rename_file_async(args->fs, args->op.rename.old_name, args->op.rename.new_name,
__fs_rename_file_done, req);
}
int
spdk_fs_rename_file(struct spdk_filesystem *fs, struct spdk_fs_thread_ctx *ctx,
const char *old_name, const char *new_name)
{
struct spdk_fs_channel *channel = (struct spdk_fs_channel *)ctx;
struct spdk_fs_request *req;
struct spdk_fs_cb_args *args;
int rc;
req = alloc_fs_request(channel);
if (req == NULL) {
SPDK_ERRLOG("Cannot allocate rename req for file=%s\n", old_name);
return -ENOMEM;
}
args = &req->args;
args->fs = fs;
args->op.rename.old_name = old_name;
args->op.rename.new_name = new_name;
args->sem = &channel->sem;
fs->send_request(__fs_rename_file, req);
sem_wait(&channel->sem);
rc = args->rc;
free_fs_request(req);
return rc;
}
static void
blob_delete_cb(void *ctx, int bserrno)
{
struct spdk_fs_request *req = ctx;
struct spdk_fs_cb_args *args = &req->args;
args->fn.file_op(args->arg, bserrno);
free_fs_request(req);
}
void
spdk_fs_delete_file_async(struct spdk_filesystem *fs, const char *name,
spdk_file_op_complete cb_fn, void *cb_arg)
{
struct spdk_file *f;
spdk_blob_id blobid;
struct spdk_fs_request *req;
struct spdk_fs_cb_args *args;
SPDK_DEBUGLOG(blobfs, "file=%s\n", name);
if (strnlen(name, SPDK_FILE_NAME_MAX + 1) == SPDK_FILE_NAME_MAX + 1) {
cb_fn(cb_arg, -ENAMETOOLONG);
return;
}
f = fs_find_file(fs, name);
if (f == NULL) {
SPDK_ERRLOG("Cannot find the file=%s to deleted\n", name);
cb_fn(cb_arg, -ENOENT);
return;
}
req = alloc_fs_request(fs->md_target.md_fs_channel);
if (req == NULL) {
SPDK_ERRLOG("Cannot allocate the req for the file=%s to deleted\n", name);
cb_fn(cb_arg, -ENOMEM);
return;
}
args = &req->args;
args->fn.file_op = cb_fn;
args->arg = cb_arg;
if (f->ref_count > 0) {
/* If the ref > 0, we mark the file as deleted and delete it when we close it. */
f->is_deleted = true;
spdk_blob_set_xattr(f->blob, "is_deleted", &f->is_deleted, sizeof(bool));
spdk_blob_sync_md(f->blob, blob_delete_cb, req);
return;
}
blobid = f->blobid;
TAILQ_REMOVE(&fs->files, f, tailq);
file_free(f);
spdk_bs_delete_blob(fs->bs, blobid, blob_delete_cb, req);
}
static void
__fs_delete_file_done(void *arg, int fserrno)
{
struct spdk_fs_request *req = arg;
struct spdk_fs_cb_args *args = &req->args;
spdk_trace_record(TRACE_BLOBFS_DELETE_DONE, 0, 0, 0, args->op.delete.name);
__wake_caller(args, fserrno);
}
static void
__fs_delete_file(void *arg)
{
struct spdk_fs_request *req = arg;
struct spdk_fs_cb_args *args = &req->args;
spdk_trace_record(TRACE_BLOBFS_DELETE_START, 0, 0, 0, args->op.delete.name);
spdk_fs_delete_file_async(args->fs, args->op.delete.name, __fs_delete_file_done, req);
}
int
spdk_fs_delete_file(struct spdk_filesystem *fs, struct spdk_fs_thread_ctx *ctx,
const char *name)
{
struct spdk_fs_channel *channel = (struct spdk_fs_channel *)ctx;
struct spdk_fs_request *req;
struct spdk_fs_cb_args *args;
int rc;
req = alloc_fs_request(channel);
if (req == NULL) {
SPDK_DEBUGLOG(blobfs, "Cannot allocate req to delete file=%s\n", name);
return -ENOMEM;
}
args = &req->args;
args->fs = fs;
args->op.delete.name = name;
args->sem = &channel->sem;
fs->send_request(__fs_delete_file, req);
sem_wait(&channel->sem);
rc = args->rc;
free_fs_request(req);
return rc;
}
spdk_fs_iter
spdk_fs_iter_first(struct spdk_filesystem *fs)
{
struct spdk_file *f;
f = TAILQ_FIRST(&fs->files);
return f;
}
spdk_fs_iter
spdk_fs_iter_next(spdk_fs_iter iter)
{
struct spdk_file *f = iter;
if (f == NULL) {
return NULL;
}
f = TAILQ_NEXT(f, tailq);
return f;
}
const char *
spdk_file_get_name(struct spdk_file *file)
{
return file->name;
}
uint64_t
spdk_file_get_length(struct spdk_file *file)
{
uint64_t length;
assert(file != NULL);
length = file->append_pos >= file->length ? file->append_pos : file->length;
SPDK_DEBUGLOG(blobfs, "file=%s length=0x%jx\n", file->name, length);
return length;
}
static void
fs_truncate_complete_cb(void *ctx, int bserrno)
{
struct spdk_fs_request *req = ctx;
struct spdk_fs_cb_args *args = &req->args;
args->fn.file_op(args->arg, bserrno);
free_fs_request(req);
}
static void
fs_truncate_resize_cb(void *ctx, int bserrno)
{
struct spdk_fs_request *req = ctx;
struct spdk_fs_cb_args *args = &req->args;
struct spdk_file *file = args->file;
uint64_t *length = &args->op.truncate.length;
if (bserrno) {
args->fn.file_op(args->arg, bserrno);
free_fs_request(req);
return;
}
spdk_blob_set_xattr(file->blob, "length", length, sizeof(*length));
file->length = *length;
if (file->append_pos > file->length) {
file->append_pos = file->length;
}
spdk_blob_sync_md(file->blob, fs_truncate_complete_cb, req);
}
static uint64_t
__bytes_to_clusters(uint64_t length, uint64_t cluster_sz)
{
return (length + cluster_sz - 1) / cluster_sz;
}
void
spdk_file_truncate_async(struct spdk_file *file, uint64_t length,
spdk_file_op_complete cb_fn, void *cb_arg)
{
struct spdk_filesystem *fs;
size_t num_clusters;
struct spdk_fs_request *req;
struct spdk_fs_cb_args *args;
SPDK_DEBUGLOG(blobfs, "file=%s old=0x%jx new=0x%jx\n", file->name, file->length, length);
if (length == file->length) {
cb_fn(cb_arg, 0);
return;
}
req = alloc_fs_request(file->fs->md_target.md_fs_channel);
if (req == NULL) {
cb_fn(cb_arg, -ENOMEM);
return;
}
args = &req->args;
args->fn.file_op = cb_fn;
args->arg = cb_arg;
args->file = file;
args->op.truncate.length = length;
fs = file->fs;
num_clusters = __bytes_to_clusters(length, fs->bs_opts.cluster_sz);
spdk_blob_resize(file->blob, num_clusters, fs_truncate_resize_cb, req);
}
static void
__truncate(void *arg)
{
struct spdk_fs_request *req = arg;
struct spdk_fs_cb_args *args = &req->args;
spdk_file_truncate_async(args->file, args->op.truncate.length,
args->fn.file_op, args);
}
int
spdk_file_truncate(struct spdk_file *file, struct spdk_fs_thread_ctx *ctx,
uint64_t length)
{
struct spdk_fs_channel *channel = (struct spdk_fs_channel *)ctx;
struct spdk_fs_request *req;
struct spdk_fs_cb_args *args;
int rc;
req = alloc_fs_request(channel);
if (req == NULL) {
return -ENOMEM;
}
args = &req->args;
args->file = file;
args->op.truncate.length = length;
args->fn.file_op = __wake_caller;
args->sem = &channel->sem;
channel->send_request(__truncate, req);
sem_wait(&channel->sem);
rc = args->rc;
free_fs_request(req);
return rc;
}
static void
__rw_done(void *ctx, int bserrno)
{
struct spdk_fs_request *req = ctx;
struct spdk_fs_cb_args *args = &req->args;
spdk_free(args->op.rw.pin_buf);
args->fn.file_op(args->arg, bserrno);
free_fs_request(req);
}
static void
_copy_iovs_to_buf(void *buf, size_t buf_len, struct iovec *iovs, int iovcnt)
{
int i;
size_t len;
for (i = 0; i < iovcnt; i++) {
len = spdk_min(iovs[i].iov_len, buf_len);
memcpy(buf, iovs[i].iov_base, len);
buf += len;
assert(buf_len >= len);
buf_len -= len;
}
}
static void
_copy_buf_to_iovs(struct iovec *iovs, int iovcnt, void *buf, size_t buf_len)
{
int i;
size_t len;
for (i = 0; i < iovcnt; i++) {
len = spdk_min(iovs[i].iov_len, buf_len);
memcpy(iovs[i].iov_base, buf, len);
buf += len;
assert(buf_len >= len);
buf_len -= len;
}
}
static void
__read_done(void *ctx, int bserrno)
{
struct spdk_fs_request *req = ctx;
struct spdk_fs_cb_args *args = &req->args;
void *buf;
assert(req != NULL);
buf = (void *)((uintptr_t)args->op.rw.pin_buf + (args->op.rw.offset & (args->op.rw.blocklen - 1)));
if (args->op.rw.is_read) {
_copy_buf_to_iovs(args->iovs, args->iovcnt, buf, args->op.rw.length);
__rw_done(req, 0);
} else {
_copy_iovs_to_buf(buf, args->op.rw.length, args->iovs, args->iovcnt);
spdk_blob_io_write(args->file->blob, args->op.rw.channel,
args->op.rw.pin_buf,
args->op.rw.start_lba, args->op.rw.num_lba,
__rw_done, req);
}
}
static void
__do_blob_read(void *ctx, int fserrno)
{
struct spdk_fs_request *req = ctx;
struct spdk_fs_cb_args *args = &req->args;
if (fserrno) {
__rw_done(req, fserrno);
return;
}
spdk_blob_io_read(args->file->blob, args->op.rw.channel,
args->op.rw.pin_buf,
args->op.rw.start_lba, args->op.rw.num_lba,
__read_done, req);
}
static void
__get_page_parameters(struct spdk_file *file, uint64_t offset, uint64_t length,
uint64_t *start_lba, uint32_t *lba_size, uint64_t *num_lba)
{
uint64_t end_lba;
*lba_size = spdk_bs_get_io_unit_size(file->fs->bs);
*start_lba = offset / *lba_size;
end_lba = (offset + length - 1) / *lba_size;
*num_lba = (end_lba - *start_lba + 1);
}
static bool
__is_lba_aligned(struct spdk_file *file, uint64_t offset, uint64_t length)
{
uint32_t lba_size = spdk_bs_get_io_unit_size(file->fs->bs);
if ((offset % lba_size == 0) && (length % lba_size == 0)) {
return true;
}
return false;
}
static void
_fs_request_setup_iovs(struct spdk_fs_request *req, struct iovec *iovs, uint32_t iovcnt)
{
uint32_t i;
for (i = 0; i < iovcnt; i++) {
req->args.iovs[i].iov_base = iovs[i].iov_base;
req->args.iovs[i].iov_len = iovs[i].iov_len;
}
}
static void
__readvwritev(struct spdk_file *file, struct spdk_io_channel *_channel,
struct iovec *iovs, uint32_t iovcnt, uint64_t offset, uint64_t length,
spdk_file_op_complete cb_fn, void *cb_arg, int is_read)
{
struct spdk_fs_request *req;
struct spdk_fs_cb_args *args;
struct spdk_fs_channel *channel = spdk_io_channel_get_ctx(_channel);
uint64_t start_lba, num_lba, pin_buf_length;
uint32_t lba_size;
if (is_read && offset + length > file->length) {
cb_fn(cb_arg, -EINVAL);
return;
}
req = alloc_fs_request_with_iov(channel, iovcnt);
if (req == NULL) {
cb_fn(cb_arg, -ENOMEM);
return;
}
__get_page_parameters(file, offset, length, &start_lba, &lba_size, &num_lba);
args = &req->args;
args->fn.file_op = cb_fn;
args->arg = cb_arg;
args->file = file;
args->op.rw.channel = channel->bs_channel;
_fs_request_setup_iovs(req, iovs, iovcnt);
args->op.rw.is_read = is_read;
args->op.rw.offset = offset;
args->op.rw.blocklen = lba_size;
pin_buf_length = num_lba * lba_size;
args->op.rw.length = pin_buf_length;
args->op.rw.pin_buf = spdk_malloc(pin_buf_length, lba_size, NULL,
SPDK_ENV_SOCKET_ID_ANY, SPDK_MALLOC_DMA);
if (args->op.rw.pin_buf == NULL) {
SPDK_DEBUGLOG(blobfs, "Failed to allocate buf for: file=%s offset=%jx length=%jx\n",
file->name, offset, length);
free_fs_request(req);
cb_fn(cb_arg, -ENOMEM);
return;
}
args->op.rw.start_lba = start_lba;
args->op.rw.num_lba = num_lba;
if (!is_read && file->length < offset + length) {
spdk_file_truncate_async(file, offset + length, __do_blob_read, req);
} else if (!is_read && __is_lba_aligned(file, offset, length)) {
_copy_iovs_to_buf(args->op.rw.pin_buf, args->op.rw.length, args->iovs, args->iovcnt);
spdk_blob_io_write(args->file->blob, args->op.rw.channel,
args->op.rw.pin_buf,
args->op.rw.start_lba, args->op.rw.num_lba,
__rw_done, req);
} else {
__do_blob_read(req, 0);
}
}
static void
__readwrite(struct spdk_file *file, struct spdk_io_channel *channel,
void *payload, uint64_t offset, uint64_t length,
spdk_file_op_complete cb_fn, void *cb_arg, int is_read)
{
struct iovec iov;
iov.iov_base = payload;
iov.iov_len = (size_t)length;
__readvwritev(file, channel, &iov, 1, offset, length, cb_fn, cb_arg, is_read);
}
void
spdk_file_write_async(struct spdk_file *file, struct spdk_io_channel *channel,
void *payload, uint64_t offset, uint64_t length,
spdk_file_op_complete cb_fn, void *cb_arg)
{
__readwrite(file, channel, payload, offset, length, cb_fn, cb_arg, 0);
}
void
spdk_file_writev_async(struct spdk_file *file, struct spdk_io_channel *channel,
struct iovec *iovs, uint32_t iovcnt, uint64_t offset, uint64_t length,
spdk_file_op_complete cb_fn, void *cb_arg)
{
SPDK_DEBUGLOG(blobfs, "file=%s offset=%jx length=%jx\n",
file->name, offset, length);
__readvwritev(file, channel, iovs, iovcnt, offset, length, cb_fn, cb_arg, 0);
}
void
spdk_file_read_async(struct spdk_file *file, struct spdk_io_channel *channel,
void *payload, uint64_t offset, uint64_t length,
spdk_file_op_complete cb_fn, void *cb_arg)
{
SPDK_DEBUGLOG(blobfs, "file=%s offset=%jx length=%jx\n",
file->name, offset, length);
__readwrite(file, channel, payload, offset, length, cb_fn, cb_arg, 1);
}
void
spdk_file_readv_async(struct spdk_file *file, struct spdk_io_channel *channel,
struct iovec *iovs, uint32_t iovcnt, uint64_t offset, uint64_t length,
spdk_file_op_complete cb_fn, void *cb_arg)
{
SPDK_DEBUGLOG(blobfs, "file=%s offset=%jx length=%jx\n",
file->name, offset, length);
__readvwritev(file, channel, iovs, iovcnt, offset, length, cb_fn, cb_arg, 1);
}
struct spdk_io_channel *
spdk_fs_alloc_io_channel(struct spdk_filesystem *fs)
{
struct spdk_io_channel *io_channel;
struct spdk_fs_channel *fs_channel;
io_channel = spdk_get_io_channel(&fs->io_target);
fs_channel = spdk_io_channel_get_ctx(io_channel);
fs_channel->bs_channel = spdk_bs_alloc_io_channel(fs->bs);
fs_channel->send_request = __send_request_direct;
return io_channel;
}
void
spdk_fs_free_io_channel(struct spdk_io_channel *channel)
{
spdk_put_io_channel(channel);
}
struct spdk_fs_thread_ctx *
spdk_fs_alloc_thread_ctx(struct spdk_filesystem *fs)
{
struct spdk_fs_thread_ctx *ctx;
ctx = calloc(1, sizeof(*ctx));
if (!ctx) {
return NULL;
}
if (pthread_spin_init(&ctx->ch.lock, 0)) {
free(ctx);
return NULL;
}
fs_channel_create(fs, &ctx->ch, 512);
ctx->ch.send_request = fs->send_request;
ctx->ch.sync = 1;
return ctx;
}
void
spdk_fs_free_thread_ctx(struct spdk_fs_thread_ctx *ctx)
{
assert(ctx->ch.sync == 1);
while (true) {
pthread_spin_lock(&ctx->ch.lock);
if (ctx->ch.outstanding_reqs == 0) {
pthread_spin_unlock(&ctx->ch.lock);
break;
}
pthread_spin_unlock(&ctx->ch.lock);
usleep(1000);
}
fs_channel_destroy(NULL, &ctx->ch);
free(ctx);
}
int
spdk_fs_set_cache_size(uint64_t size_in_mb)
{
/* setting g_fs_cache_size is only permitted if cache pool
* is already freed or hasn't been initialized
*/
if (g_cache_pool != NULL) {
return -EPERM;
}
g_fs_cache_size = size_in_mb * 1024 * 1024;
return 0;
}
uint64_t
spdk_fs_get_cache_size(void)
{
return g_fs_cache_size / (1024 * 1024);
}
static void __file_flush(void *ctx);
/* Try to free some cache buffers from this file.
*/
static int
reclaim_cache_buffers(struct spdk_file *file)
{
int rc;
BLOBFS_TRACE(file, "free=%s\n", file->name);
/* The function is safe to be called with any threads, while the file
* lock maybe locked by other thread for now, so try to get the file
* lock here.
*/
rc = pthread_spin_trylock(&file->lock);
if (rc != 0) {
return -1;
}
if (file->tree->present_mask == 0) {
pthread_spin_unlock(&file->lock);
return -1;
}
tree_free_buffers(file->tree);
TAILQ_REMOVE(&g_caches, file, cache_tailq);
/* If not freed, put it in the end of the queue */
if (file->tree->present_mask != 0) {
TAILQ_INSERT_TAIL(&g_caches, file, cache_tailq);
} else {
file->last = NULL;
}
pthread_spin_unlock(&file->lock);
return 0;
}
static int
_blobfs_cache_pool_reclaim(void *arg)
{
struct spdk_file *file, *tmp;
int rc;
if (!blobfs_cache_pool_need_reclaim()) {
return SPDK_POLLER_IDLE;
}
TAILQ_FOREACH_SAFE(file, &g_caches, cache_tailq, tmp) {
if (!file->open_for_writing &&
file->priority == SPDK_FILE_PRIORITY_LOW) {
rc = reclaim_cache_buffers(file);
if (rc < 0) {
continue;
}
if (!blobfs_cache_pool_need_reclaim()) {
return SPDK_POLLER_BUSY;
}
break;
}
}
TAILQ_FOREACH_SAFE(file, &g_caches, cache_tailq, tmp) {
if (!file->open_for_writing) {
rc = reclaim_cache_buffers(file);
if (rc < 0) {
continue;
}
if (!blobfs_cache_pool_need_reclaim()) {
return SPDK_POLLER_BUSY;
}
break;
}
}
TAILQ_FOREACH_SAFE(file, &g_caches, cache_tailq, tmp) {
rc = reclaim_cache_buffers(file);
if (rc < 0) {
continue;
}
break;
}
return SPDK_POLLER_BUSY;
}
static void
_add_file_to_cache_pool(void *ctx)
{
struct spdk_file *file = ctx;
TAILQ_INSERT_TAIL(&g_caches, file, cache_tailq);
}
static void
_remove_file_from_cache_pool(void *ctx)
{
struct spdk_file *file = ctx;
TAILQ_REMOVE(&g_caches, file, cache_tailq);
}
static struct cache_buffer *
cache_insert_buffer(struct spdk_file *file, uint64_t offset)
{
struct cache_buffer *buf;
int count = 0;
bool need_update = false;
buf = calloc(1, sizeof(*buf));
if (buf == NULL) {
SPDK_DEBUGLOG(blobfs, "calloc failed\n");
return NULL;
}
do {
buf->buf = spdk_mempool_get(g_cache_pool);
if (buf->buf) {
break;
}
if (count++ == 100) {
SPDK_ERRLOG("Could not allocate cache buffer for file=%p on offset=%jx\n",
file, offset);
free(buf);
return NULL;
}
usleep(BLOBFS_CACHE_POOL_POLL_PERIOD_IN_US);
} while (true);
buf->buf_size = CACHE_BUFFER_SIZE;
buf->offset = offset;
if (file->tree->present_mask == 0) {
need_update = true;
}
file->tree = tree_insert_buffer(file->tree, buf);
if (need_update) {
spdk_thread_send_msg(g_cache_pool_thread, _add_file_to_cache_pool, file);
}
return buf;
}
static struct cache_buffer *
cache_append_buffer(struct spdk_file *file)
{
struct cache_buffer *last;
assert(file->last == NULL || file->last->bytes_filled == file->last->buf_size);
assert((file->append_pos % CACHE_BUFFER_SIZE) == 0);
last = cache_insert_buffer(file, file->append_pos);
if (last == NULL) {
SPDK_DEBUGLOG(blobfs, "cache_insert_buffer failed\n");
return NULL;
}
file->last = last;
return last;
}
static void __check_sync_reqs(struct spdk_file *file);
static void
__file_cache_finish_sync(void *ctx, int bserrno)
{
struct spdk_file *file;
struct spdk_fs_request *sync_req = ctx;
struct spdk_fs_cb_args *sync_args;
sync_args = &sync_req->args;
file = sync_args->file;
pthread_spin_lock(&file->lock);
file->length_xattr = sync_args->op.sync.length;
assert(sync_args->op.sync.offset <= file->length_flushed);
spdk_trace_record(TRACE_BLOBFS_XATTR_END, 0, sync_args->op.sync.offset,
0, file->name);
BLOBFS_TRACE(file, "sync done offset=%jx\n", sync_args->op.sync.offset);
TAILQ_REMOVE(&file->sync_requests, sync_req, args.op.sync.tailq);
pthread_spin_unlock(&file->lock);
sync_args->fn.file_op(sync_args->arg, bserrno);
free_fs_request(sync_req);
__check_sync_reqs(file);
}
static void
__check_sync_reqs(struct spdk_file *file)
{
struct spdk_fs_request *sync_req;
pthread_spin_lock(&file->lock);
TAILQ_FOREACH(sync_req, &file->sync_requests, args.op.sync.tailq) {
if (sync_req->args.op.sync.offset <= file->length_flushed) {
break;
}
}
if (sync_req != NULL && !sync_req->args.op.sync.xattr_in_progress) {
BLOBFS_TRACE(file, "set xattr length 0x%jx\n", file->length_flushed);
sync_req->args.op.sync.xattr_in_progress = true;
sync_req->args.op.sync.length = file->length_flushed;
spdk_blob_set_xattr(file->blob, "length", &file->length_flushed,
sizeof(file->length_flushed));
pthread_spin_unlock(&file->lock);
spdk_trace_record(TRACE_BLOBFS_XATTR_START, 0, file->length_flushed,
0, file->name);
spdk_blob_sync_md(file->blob, __file_cache_finish_sync, sync_req);
} else {
pthread_spin_unlock(&file->lock);
}
}
static void
__file_flush_done(void *ctx, int bserrno)
{
struct spdk_fs_request *req = ctx;
struct spdk_fs_cb_args *args = &req->args;
struct spdk_file *file = args->file;
struct cache_buffer *next = args->op.flush.cache_buffer;
BLOBFS_TRACE(file, "length=%jx\n", args->op.flush.length);
pthread_spin_lock(&file->lock);
next->in_progress = false;
next->bytes_flushed += args->op.flush.length;
file->length_flushed += args->op.flush.length;
if (file->length_flushed > file->length) {
file->length = file->length_flushed;
}
if (next->bytes_flushed == next->buf_size) {
BLOBFS_TRACE(file, "write buffer fully flushed 0x%jx\n", file->length_flushed);
next = tree_find_buffer(file->tree, file->length_flushed);
}
/*
* Assert that there is no cached data that extends past the end of the underlying
* blob.
*/
assert(next == NULL || next->offset < __file_get_blob_size(file) ||
next->bytes_filled == 0);
pthread_spin_unlock(&file->lock);
__check_sync_reqs(file);
__file_flush(req);
}
static void
__file_flush(void *ctx)
{
struct spdk_fs_request *req = ctx;
struct spdk_fs_cb_args *args = &req->args;
struct spdk_file *file = args->file;
struct cache_buffer *next;
uint64_t offset, length, start_lba, num_lba;
uint32_t lba_size;
pthread_spin_lock(&file->lock);
next = tree_find_buffer(file->tree, file->length_flushed);
if (next == NULL || next->in_progress ||
((next->bytes_filled < next->buf_size) && TAILQ_EMPTY(&file->sync_requests))) {
/*
* There is either no data to flush, a flush I/O is already in
* progress, or the next buffer is partially filled but there's no
* outstanding request to sync it.
* So return immediately - if a flush I/O is in progress we will flush
* more data after that is completed, or a partial buffer will get flushed
* when it is either filled or the file is synced.
*/
free_fs_request(req);
if (next == NULL) {
/*
* For cases where a file's cache was evicted, and then the
* file was later appended, we will write the data directly
* to disk and bypass cache. So just update length_flushed
* here to reflect that all data was already written to disk.
*/
file->length_flushed = file->append_pos;
}
pthread_spin_unlock(&file->lock);
if (next == NULL) {
/*
* There is no data to flush, but we still need to check for any
* outstanding sync requests to make sure metadata gets updated.
*/
__check_sync_reqs(file);
}
return;
}
offset = next->offset + next->bytes_flushed;
length = next->bytes_filled - next->bytes_flushed;
if (length == 0) {
free_fs_request(req);
pthread_spin_unlock(&file->lock);
/*
* There is no data to flush, but we still need to check for any
* outstanding sync requests to make sure metadata gets updated.
*/
__check_sync_reqs(file);
return;
}
args->op.flush.length = length;
args->op.flush.cache_buffer = next;
__get_page_parameters(file, offset, length, &start_lba, &lba_size, &num_lba);
next->in_progress = true;
BLOBFS_TRACE(file, "offset=0x%jx length=0x%jx page start=0x%jx num=0x%jx\n",
offset, length, start_lba, num_lba);
pthread_spin_unlock(&file->lock);
spdk_blob_io_write(file->blob, file->fs->sync_target.sync_fs_channel->bs_channel,
next->buf + (start_lba * lba_size) - next->offset,
start_lba, num_lba, __file_flush_done, req);
}
static void
__file_extend_done(void *arg, int bserrno)
{
struct spdk_fs_cb_args *args = arg;
__wake_caller(args, bserrno);
}
static void
__file_extend_resize_cb(void *_args, int bserrno)
{
struct spdk_fs_cb_args *args = _args;
struct spdk_file *file = args->file;
if (bserrno) {
__wake_caller(args, bserrno);
return;
}
spdk_blob_sync_md(file->blob, __file_extend_done, args);
}
static void
__file_extend_blob(void *_args)
{
struct spdk_fs_cb_args *args = _args;
struct spdk_file *file = args->file;
spdk_blob_resize(file->blob, args->op.resize.num_clusters, __file_extend_resize_cb, args);
}
static void
__rw_from_file_done(void *ctx, int bserrno)
{
struct spdk_fs_request *req = ctx;
__wake_caller(&req->args, bserrno);
free_fs_request(req);
}
static void
__rw_from_file(void *ctx)
{
struct spdk_fs_request *req = ctx;
struct spdk_fs_cb_args *args = &req->args;
struct spdk_file *file = args->file;
if (args->op.rw.is_read) {
spdk_file_read_async(file, file->fs->sync_target.sync_io_channel, args->iovs[0].iov_base,
args->op.rw.offset, (uint64_t)args->iovs[0].iov_len,
__rw_from_file_done, req);
} else {
spdk_file_write_async(file, file->fs->sync_target.sync_io_channel, args->iovs[0].iov_base,
args->op.rw.offset, (uint64_t)args->iovs[0].iov_len,
__rw_from_file_done, req);
}
}
struct rw_from_file_arg {
struct spdk_fs_channel *channel;
int rwerrno;
};
static int
__send_rw_from_file(struct spdk_file *file, void *payload,
uint64_t offset, uint64_t length, bool is_read,
struct rw_from_file_arg *arg)
{
struct spdk_fs_request *req;
struct spdk_fs_cb_args *args;
req = alloc_fs_request_with_iov(arg->channel, 1);
if (req == NULL) {
sem_post(&arg->channel->sem);
return -ENOMEM;
}
args = &req->args;
args->file = file;
args->sem = &arg->channel->sem;
args->iovs[0].iov_base = payload;
args->iovs[0].iov_len = (size_t)length;
args->op.rw.offset = offset;
args->op.rw.is_read = is_read;
args->rwerrno = &arg->rwerrno;
file->fs->send_request(__rw_from_file, req);
return 0;
}
int
spdk_file_write(struct spdk_file *file, struct spdk_fs_thread_ctx *ctx,
void *payload, uint64_t offset, uint64_t length)
{
struct spdk_fs_channel *channel = (struct spdk_fs_channel *)ctx;
struct spdk_fs_request *flush_req;
uint64_t rem_length, copy, blob_size, cluster_sz;
uint32_t cache_buffers_filled = 0;
uint8_t *cur_payload;
struct cache_buffer *last;
BLOBFS_TRACE_RW(file, "offset=%jx length=%jx\n", offset, length);
if (length == 0) {
return 0;
}
if (offset != file->append_pos) {
BLOBFS_TRACE(file, " error offset=%jx append_pos=%jx\n", offset, file->append_pos);
return -EINVAL;
}
pthread_spin_lock(&file->lock);
file->open_for_writing = true;
if ((file->last == NULL) && (file->append_pos % CACHE_BUFFER_SIZE == 0)) {
cache_append_buffer(file);
}
if (file->last == NULL) {
struct rw_from_file_arg arg = {};
int rc;
arg.channel = channel;
arg.rwerrno = 0;
file->append_pos += length;
pthread_spin_unlock(&file->lock);
rc = __send_rw_from_file(file, payload, offset, length, false, &arg);
if (rc != 0) {
return rc;
}
sem_wait(&channel->sem);
return arg.rwerrno;
}
blob_size = __file_get_blob_size(file);
if ((offset + length) > blob_size) {
struct spdk_fs_cb_args extend_args = {};
cluster_sz = file->fs->bs_opts.cluster_sz;
extend_args.sem = &channel->sem;
extend_args.op.resize.num_clusters = __bytes_to_clusters((offset + length), cluster_sz);
extend_args.file = file;
BLOBFS_TRACE(file, "start resize to %u clusters\n", extend_args.op.resize.num_clusters);
pthread_spin_unlock(&file->lock);
file->fs->send_request(__file_extend_blob, &extend_args);
sem_wait(&channel->sem);
if (extend_args.rc) {
return extend_args.rc;
}
}
flush_req = alloc_fs_request(channel);
if (flush_req == NULL) {
pthread_spin_unlock(&file->lock);
return -ENOMEM;
}
last = file->last;
rem_length = length;
cur_payload = payload;
while (rem_length > 0) {
copy = last->buf_size - last->bytes_filled;
if (copy > rem_length) {
copy = rem_length;
}
BLOBFS_TRACE_RW(file, " fill offset=%jx length=%jx\n", file->append_pos, copy);
memcpy(&last->buf[last->bytes_filled], cur_payload, copy);
file->append_pos += copy;
if (file->length < file->append_pos) {
file->length = file->append_pos;
}
cur_payload += copy;
last->bytes_filled += copy;
rem_length -= copy;
if (last->bytes_filled == last->buf_size) {
cache_buffers_filled++;
last = cache_append_buffer(file);
if (last == NULL) {
BLOBFS_TRACE(file, "nomem\n");
free_fs_request(flush_req);
pthread_spin_unlock(&file->lock);
return -ENOMEM;
}
}
}
pthread_spin_unlock(&file->lock);
if (cache_buffers_filled == 0) {
free_fs_request(flush_req);
return 0;
}
flush_req->args.file = file;
file->fs->send_request(__file_flush, flush_req);
return 0;
}
static void
__readahead_done(void *ctx, int bserrno)
{
struct spdk_fs_request *req = ctx;
struct spdk_fs_cb_args *args = &req->args;
struct cache_buffer *cache_buffer = args->op.readahead.cache_buffer;
struct spdk_file *file = args->file;
BLOBFS_TRACE(file, "offset=%jx\n", cache_buffer->offset);
pthread_spin_lock(&file->lock);
cache_buffer->bytes_filled = args->op.readahead.length;
cache_buffer->bytes_flushed = args->op.readahead.length;
cache_buffer->in_progress = false;
pthread_spin_unlock(&file->lock);
free_fs_request(req);
}
static void
__readahead(void *ctx)
{
struct spdk_fs_request *req = ctx;
struct spdk_fs_cb_args *args = &req->args;
struct spdk_file *file = args->file;
uint64_t offset, length, start_lba, num_lba;
uint32_t lba_size;
offset = args->op.readahead.offset;
length = args->op.readahead.length;
assert(length > 0);
__get_page_parameters(file, offset, length, &start_lba, &lba_size, &num_lba);
BLOBFS_TRACE(file, "offset=%jx length=%jx page start=%jx num=%jx\n",
offset, length, start_lba, num_lba);
spdk_blob_io_read(file->blob, file->fs->sync_target.sync_fs_channel->bs_channel,
args->op.readahead.cache_buffer->buf,
start_lba, num_lba, __readahead_done, req);
}
static uint64_t
__next_cache_buffer_offset(uint64_t offset)
{
return (offset + CACHE_BUFFER_SIZE) & ~(CACHE_TREE_LEVEL_MASK(0));
}
static void
check_readahead(struct spdk_file *file, uint64_t offset,
struct spdk_fs_channel *channel)
{
struct spdk_fs_request *req;
struct spdk_fs_cb_args *args;
offset = __next_cache_buffer_offset(offset);
if (tree_find_buffer(file->tree, offset) != NULL || file->length <= offset) {
return;
}
req = alloc_fs_request(channel);
if (req == NULL) {
return;
}
args = &req->args;
BLOBFS_TRACE(file, "offset=%jx\n", offset);
args->file = file;
args->op.readahead.offset = offset;
args->op.readahead.cache_buffer = cache_insert_buffer(file, offset);
if (!args->op.readahead.cache_buffer) {
BLOBFS_TRACE(file, "Cannot allocate buf for offset=%jx\n", offset);
free_fs_request(req);
return;
}
args->op.readahead.cache_buffer->in_progress = true;
if (file->length < (offset + CACHE_BUFFER_SIZE)) {
args->op.readahead.length = file->length & (CACHE_BUFFER_SIZE - 1);
} else {
args->op.readahead.length = CACHE_BUFFER_SIZE;
}
file->fs->send_request(__readahead, req);
}
int64_t
spdk_file_read(struct spdk_file *file, struct spdk_fs_thread_ctx *ctx,
void *payload, uint64_t offset, uint64_t length)
{
struct spdk_fs_channel *channel = (struct spdk_fs_channel *)ctx;
uint64_t final_offset, final_length;
uint32_t sub_reads = 0;
struct cache_buffer *buf;
uint64_t read_len;
struct rw_from_file_arg arg = {};
pthread_spin_lock(&file->lock);
BLOBFS_TRACE_RW(file, "offset=%ju length=%ju\n", offset, length);
file->open_for_writing = false;
if (length == 0 || offset >= file->append_pos) {
pthread_spin_unlock(&file->lock);
return 0;
}
if (offset + length > file->append_pos) {
length = file->append_pos - offset;
}
if (offset != file->next_seq_offset) {
file->seq_byte_count = 0;
}
file->seq_byte_count += length;
file->next_seq_offset = offset + length;
if (file->seq_byte_count >= CACHE_READAHEAD_THRESHOLD) {
check_readahead(file, offset, channel);
check_readahead(file, offset + CACHE_BUFFER_SIZE, channel);
}
arg.channel = channel;
arg.rwerrno = 0;
final_length = 0;
final_offset = offset + length;
while (offset < final_offset) {
int ret = 0;
length = NEXT_CACHE_BUFFER_OFFSET(offset) - offset;
if (length > (final_offset - offset)) {
length = final_offset - offset;
}
buf = tree_find_filled_buffer(file->tree, offset);
if (buf == NULL) {
pthread_spin_unlock(&file->lock);
ret = __send_rw_from_file(file, payload, offset, length, true, &arg);
pthread_spin_lock(&file->lock);
if (ret == 0) {
sub_reads++;
}
} else {
read_len = length;
if ((offset + length) > (buf->offset + buf->bytes_filled)) {
read_len = buf->offset + buf->bytes_filled - offset;
}
BLOBFS_TRACE(file, "read %p offset=%ju length=%ju\n", payload, offset, read_len);
memcpy(payload, &buf->buf[offset - buf->offset], read_len);
if ((offset + read_len) % CACHE_BUFFER_SIZE == 0) {
tree_remove_buffer(file->tree, buf);
if (file->tree->present_mask == 0) {
spdk_thread_send_msg(g_cache_pool_thread, _remove_file_from_cache_pool, file);
}
}
}
if (ret == 0) {
final_length += length;
} else {
arg.rwerrno = ret;
break;
}
payload += length;
offset += length;
}
pthread_spin_unlock(&file->lock);
while (sub_reads > 0) {
sem_wait(&channel->sem);
sub_reads--;
}
if (arg.rwerrno == 0) {
return final_length;
} else {
return arg.rwerrno;
}
}
static void
_file_sync(struct spdk_file *file, struct spdk_fs_channel *channel,
spdk_file_op_complete cb_fn, void *cb_arg)
{
struct spdk_fs_request *sync_req;
struct spdk_fs_request *flush_req;
struct spdk_fs_cb_args *sync_args;
struct spdk_fs_cb_args *flush_args;
BLOBFS_TRACE(file, "offset=%jx\n", file->append_pos);
pthread_spin_lock(&file->lock);
if (file->append_pos <= file->length_xattr) {
BLOBFS_TRACE(file, "done - file already synced\n");
pthread_spin_unlock(&file->lock);
cb_fn(cb_arg, 0);
return;
}
sync_req = alloc_fs_request(channel);
if (!sync_req) {
SPDK_ERRLOG("Cannot allocate sync req for file=%s\n", file->name);
pthread_spin_unlock(&file->lock);
cb_fn(cb_arg, -ENOMEM);
return;
}
sync_args = &sync_req->args;
flush_req = alloc_fs_request(channel);
if (!flush_req) {
SPDK_ERRLOG("Cannot allocate flush req for file=%s\n", file->name);
free_fs_request(sync_req);
pthread_spin_unlock(&file->lock);
cb_fn(cb_arg, -ENOMEM);
return;
}
flush_args = &flush_req->args;
sync_args->file = file;
sync_args->fn.file_op = cb_fn;
sync_args->arg = cb_arg;
sync_args->op.sync.offset = file->append_pos;
sync_args->op.sync.xattr_in_progress = false;
TAILQ_INSERT_TAIL(&file->sync_requests, sync_req, args.op.sync.tailq);
pthread_spin_unlock(&file->lock);
flush_args->file = file;
channel->send_request(__file_flush, flush_req);
}
int
spdk_file_sync(struct spdk_file *file, struct spdk_fs_thread_ctx *ctx)
{
struct spdk_fs_channel *channel = (struct spdk_fs_channel *)ctx;
struct spdk_fs_cb_args args = {};
args.sem = &channel->sem;
_file_sync(file, channel, __wake_caller, &args);
sem_wait(&channel->sem);
return args.rc;
}
void
spdk_file_sync_async(struct spdk_file *file, struct spdk_io_channel *_channel,
spdk_file_op_complete cb_fn, void *cb_arg)
{
struct spdk_fs_channel *channel = spdk_io_channel_get_ctx(_channel);
_file_sync(file, channel, cb_fn, cb_arg);
}
void
spdk_file_set_priority(struct spdk_file *file, uint32_t priority)
{
BLOBFS_TRACE(file, "priority=%u\n", priority);
file->priority = priority;
}
/*
* Close routines
*/
static void
__file_close_async_done(void *ctx, int bserrno)
{
struct spdk_fs_request *req = ctx;
struct spdk_fs_cb_args *args = &req->args;
struct spdk_file *file = args->file;
spdk_trace_record(TRACE_BLOBFS_CLOSE, 0, 0, 0, file->name);
if (file->is_deleted) {
spdk_fs_delete_file_async(file->fs, file->name, blob_delete_cb, ctx);
return;
}
args->fn.file_op(args->arg, bserrno);
free_fs_request(req);
}
static void
__file_close_async(struct spdk_file *file, struct spdk_fs_request *req)
{
struct spdk_blob *blob;
pthread_spin_lock(&file->lock);
if (file->ref_count == 0) {
pthread_spin_unlock(&file->lock);
__file_close_async_done(req, -EBADF);
return;
}
file->ref_count--;
if (file->ref_count > 0) {
pthread_spin_unlock(&file->lock);
req->args.fn.file_op(req->args.arg, 0);
free_fs_request(req);
return;
}
pthread_spin_unlock(&file->lock);
blob = file->blob;
file->blob = NULL;
spdk_blob_close(blob, __file_close_async_done, req);
}
static void
__file_close_async__sync_done(void *arg, int fserrno)
{
struct spdk_fs_request *req = arg;
struct spdk_fs_cb_args *args = &req->args;
__file_close_async(args->file, req);
}
void
spdk_file_close_async(struct spdk_file *file, spdk_file_op_complete cb_fn, void *cb_arg)
{
struct spdk_fs_request *req;
struct spdk_fs_cb_args *args;
req = alloc_fs_request(file->fs->md_target.md_fs_channel);
if (req == NULL) {
SPDK_ERRLOG("Cannot allocate close async req for file=%s\n", file->name);
cb_fn(cb_arg, -ENOMEM);
return;
}
args = &req->args;
args->file = file;
args->fn.file_op = cb_fn;
args->arg = cb_arg;
spdk_file_sync_async(file, file->fs->md_target.md_io_channel, __file_close_async__sync_done, req);
}
static void
__file_close(void *arg)
{
struct spdk_fs_request *req = arg;
struct spdk_fs_cb_args *args = &req->args;
struct spdk_file *file = args->file;
__file_close_async(file, req);
}
int
spdk_file_close(struct spdk_file *file, struct spdk_fs_thread_ctx *ctx)
{
struct spdk_fs_channel *channel = (struct spdk_fs_channel *)ctx;
struct spdk_fs_request *req;
struct spdk_fs_cb_args *args;
req = alloc_fs_request(channel);
if (req == NULL) {
SPDK_ERRLOG("Cannot allocate close req for file=%s\n", file->name);
return -ENOMEM;
}
args = &req->args;
spdk_file_sync(file, ctx);
BLOBFS_TRACE(file, "name=%s\n", file->name);
args->file = file;
args->sem = &channel->sem;
args->fn.file_op = __wake_caller;
args->arg = args;
channel->send_request(__file_close, req);
sem_wait(&channel->sem);
return args->rc;
}
int
spdk_file_get_id(struct spdk_file *file, void *id, size_t size)
{
if (size < sizeof(spdk_blob_id)) {
return -EINVAL;
}
memcpy(id, &file->blobid, sizeof(spdk_blob_id));
return sizeof(spdk_blob_id);
}
static void
_file_free(void *ctx)
{
struct spdk_file *file = ctx;
TAILQ_REMOVE(&g_caches, file, cache_tailq);
free(file->name);
free(file->tree);
free(file);
}
static void
file_free(struct spdk_file *file)
{
BLOBFS_TRACE(file, "free=%s\n", file->name);
pthread_spin_lock(&file->lock);
if (file->tree->present_mask == 0) {
pthread_spin_unlock(&file->lock);
free(file->name);
free(file->tree);
free(file);
return;
}
tree_free_buffers(file->tree);
assert(file->tree->present_mask == 0);
spdk_thread_send_msg(g_cache_pool_thread, _file_free, file);
pthread_spin_unlock(&file->lock);
}
SPDK_LOG_REGISTER_COMPONENT(blobfs)
SPDK_LOG_REGISTER_COMPONENT(blobfs_rw)
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