numam-spdk/lib/blob/blobstore.c
Tomasz Zawadzki 887531f6a6 lib/blob: provide better log on blob_load failures
Added blobid and metadata page number to the log.
Previously only number within particular blobs md chain
was displayed.

Signed-off-by: Tomasz Zawadzki <tomasz.zawadzki@intel.com>
Change-Id: I8e881c5824c9d2eadca9f3ac8ee2ac9ffc0e5cae
Reviewed-on: https://review.spdk.io/gerrit/c/spdk/spdk/+/2058
Community-CI: Mellanox Build Bot
Tested-by: SPDK CI Jenkins <sys_sgci@intel.com>
Reviewed-by: Ben Walker <benjamin.walker@intel.com>
Reviewed-by: Jim Harris <james.r.harris@intel.com>
2020-05-13 07:46:43 +00:00

7415 lines
199 KiB
C

/*-
* 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/blob.h"
#include "spdk/crc32.h"
#include "spdk/env.h"
#include "spdk/queue.h"
#include "spdk/thread.h"
#include "spdk/bit_array.h"
#include "spdk/likely.h"
#include "spdk/util.h"
#include "spdk/string.h"
#include "spdk_internal/assert.h"
#include "spdk_internal/log.h"
#include "blobstore.h"
#define BLOB_CRC32C_INITIAL 0xffffffffUL
static int spdk_bs_register_md_thread(struct spdk_blob_store *bs);
static int spdk_bs_unregister_md_thread(struct spdk_blob_store *bs);
static void _spdk_blob_close_cpl(spdk_bs_sequence_t *seq, void *cb_arg, int bserrno);
static void _spdk_blob_insert_cluster_on_md_thread(struct spdk_blob *blob, uint32_t cluster_num,
uint64_t cluster, uint32_t extent, spdk_blob_op_complete cb_fn, void *cb_arg);
static int _spdk_blob_set_xattr(struct spdk_blob *blob, const char *name, const void *value,
uint16_t value_len, bool internal);
static int _spdk_blob_get_xattr_value(struct spdk_blob *blob, const char *name,
const void **value, size_t *value_len, bool internal);
static int _spdk_blob_remove_xattr(struct spdk_blob *blob, const char *name, bool internal);
static void _spdk_blob_insert_extent(struct spdk_blob *blob, uint32_t extent, uint64_t cluster_num,
spdk_blob_op_complete cb_fn, void *cb_arg);
static void
_spdk_blob_verify_md_op(struct spdk_blob *blob)
{
assert(blob != NULL);
assert(spdk_get_thread() == blob->bs->md_thread);
assert(blob->state != SPDK_BLOB_STATE_LOADING);
}
static struct spdk_blob_list *
_spdk_bs_get_snapshot_entry(struct spdk_blob_store *bs, spdk_blob_id blobid)
{
struct spdk_blob_list *snapshot_entry = NULL;
TAILQ_FOREACH(snapshot_entry, &bs->snapshots, link) {
if (snapshot_entry->id == blobid) {
break;
}
}
return snapshot_entry;
}
static void
_spdk_bs_claim_md_page(struct spdk_blob_store *bs, uint32_t page)
{
assert(page < spdk_bit_array_capacity(bs->used_md_pages));
assert(spdk_bit_array_get(bs->used_md_pages, page) == false);
spdk_bit_array_set(bs->used_md_pages, page);
}
static void
_spdk_bs_release_md_page(struct spdk_blob_store *bs, uint32_t page)
{
assert(page < spdk_bit_array_capacity(bs->used_md_pages));
assert(spdk_bit_array_get(bs->used_md_pages, page) == true);
spdk_bit_array_clear(bs->used_md_pages, page);
}
static void
_spdk_bs_claim_cluster(struct spdk_blob_store *bs, uint32_t cluster_num)
{
assert(cluster_num < spdk_bit_array_capacity(bs->used_clusters));
assert(spdk_bit_array_get(bs->used_clusters, cluster_num) == false);
assert(bs->num_free_clusters > 0);
SPDK_DEBUGLOG(SPDK_LOG_BLOB, "Claiming cluster %u\n", cluster_num);
spdk_bit_array_set(bs->used_clusters, cluster_num);
bs->num_free_clusters--;
}
static int
_spdk_blob_insert_cluster(struct spdk_blob *blob, uint32_t cluster_num, uint64_t cluster)
{
uint64_t *cluster_lba = &blob->active.clusters[cluster_num];
_spdk_blob_verify_md_op(blob);
if (*cluster_lba != 0) {
return -EEXIST;
}
*cluster_lba = _spdk_bs_cluster_to_lba(blob->bs, cluster);
return 0;
}
static int
_spdk_bs_allocate_cluster(struct spdk_blob *blob, uint32_t cluster_num,
uint64_t *lowest_free_cluster, uint32_t *lowest_free_md_page, bool update_map)
{
uint32_t *extent_page = 0;
pthread_mutex_lock(&blob->bs->used_clusters_mutex);
*lowest_free_cluster = spdk_bit_array_find_first_clear(blob->bs->used_clusters,
*lowest_free_cluster);
if (*lowest_free_cluster == UINT32_MAX) {
/* No more free clusters. Cannot satisfy the request */
pthread_mutex_unlock(&blob->bs->used_clusters_mutex);
return -ENOSPC;
}
if (blob->use_extent_table) {
extent_page = _spdk_bs_cluster_to_extent_page(blob, cluster_num);
if (*extent_page == 0) {
/* No extent_page is allocated for the cluster */
*lowest_free_md_page = spdk_bit_array_find_first_clear(blob->bs->used_md_pages,
*lowest_free_md_page);
if (*lowest_free_md_page == UINT32_MAX) {
/* No more free md pages. Cannot satisfy the request */
pthread_mutex_unlock(&blob->bs->used_clusters_mutex);
return -ENOSPC;
}
_spdk_bs_claim_md_page(blob->bs, *lowest_free_md_page);
}
}
SPDK_DEBUGLOG(SPDK_LOG_BLOB, "Claiming cluster %lu for blob %lu\n", *lowest_free_cluster, blob->id);
_spdk_bs_claim_cluster(blob->bs, *lowest_free_cluster);
pthread_mutex_unlock(&blob->bs->used_clusters_mutex);
if (update_map) {
_spdk_blob_insert_cluster(blob, cluster_num, *lowest_free_cluster);
if (blob->use_extent_table && *extent_page == 0) {
*extent_page = *lowest_free_md_page;
}
}
return 0;
}
static void
_spdk_bs_release_cluster(struct spdk_blob_store *bs, uint32_t cluster_num)
{
assert(cluster_num < spdk_bit_array_capacity(bs->used_clusters));
assert(spdk_bit_array_get(bs->used_clusters, cluster_num) == true);
assert(bs->num_free_clusters < bs->total_clusters);
SPDK_DEBUGLOG(SPDK_LOG_BLOB, "Releasing cluster %u\n", cluster_num);
pthread_mutex_lock(&bs->used_clusters_mutex);
spdk_bit_array_clear(bs->used_clusters, cluster_num);
bs->num_free_clusters++;
pthread_mutex_unlock(&bs->used_clusters_mutex);
}
static void
_spdk_blob_xattrs_init(struct spdk_blob_xattr_opts *xattrs)
{
xattrs->count = 0;
xattrs->names = NULL;
xattrs->ctx = NULL;
xattrs->get_value = NULL;
}
void
spdk_blob_opts_init(struct spdk_blob_opts *opts)
{
opts->num_clusters = 0;
opts->thin_provision = false;
opts->clear_method = BLOB_CLEAR_WITH_DEFAULT;
_spdk_blob_xattrs_init(&opts->xattrs);
opts->use_extent_table = true;
}
void
spdk_blob_open_opts_init(struct spdk_blob_open_opts *opts)
{
opts->clear_method = BLOB_CLEAR_WITH_DEFAULT;
}
static struct spdk_blob *
_spdk_blob_alloc(struct spdk_blob_store *bs, spdk_blob_id id)
{
struct spdk_blob *blob;
blob = calloc(1, sizeof(*blob));
if (!blob) {
return NULL;
}
blob->id = id;
blob->bs = bs;
blob->parent_id = SPDK_BLOBID_INVALID;
blob->state = SPDK_BLOB_STATE_DIRTY;
blob->extent_rle_found = false;
blob->extent_table_found = false;
blob->active.num_pages = 1;
blob->active.pages = calloc(1, sizeof(*blob->active.pages));
if (!blob->active.pages) {
free(blob);
return NULL;
}
blob->active.pages[0] = _spdk_bs_blobid_to_page(id);
TAILQ_INIT(&blob->xattrs);
TAILQ_INIT(&blob->xattrs_internal);
TAILQ_INIT(&blob->pending_persists);
return blob;
}
static void
_spdk_xattrs_free(struct spdk_xattr_tailq *xattrs)
{
struct spdk_xattr *xattr, *xattr_tmp;
TAILQ_FOREACH_SAFE(xattr, xattrs, link, xattr_tmp) {
TAILQ_REMOVE(xattrs, xattr, link);
free(xattr->name);
free(xattr->value);
free(xattr);
}
}
static void
_spdk_blob_free(struct spdk_blob *blob)
{
assert(blob != NULL);
assert(TAILQ_EMPTY(&blob->pending_persists));
free(blob->active.extent_pages);
free(blob->clean.extent_pages);
free(blob->active.clusters);
free(blob->clean.clusters);
free(blob->active.pages);
free(blob->clean.pages);
_spdk_xattrs_free(&blob->xattrs);
_spdk_xattrs_free(&blob->xattrs_internal);
if (blob->back_bs_dev) {
blob->back_bs_dev->destroy(blob->back_bs_dev);
}
free(blob);
}
struct freeze_io_ctx {
struct spdk_bs_cpl cpl;
struct spdk_blob *blob;
};
static void
_spdk_blob_io_sync(struct spdk_io_channel_iter *i)
{
spdk_for_each_channel_continue(i, 0);
}
static void
_spdk_blob_execute_queued_io(struct spdk_io_channel_iter *i)
{
struct spdk_io_channel *_ch = spdk_io_channel_iter_get_channel(i);
struct spdk_bs_channel *ch = spdk_io_channel_get_ctx(_ch);
struct freeze_io_ctx *ctx = spdk_io_channel_iter_get_ctx(i);
struct spdk_bs_request_set *set;
struct spdk_bs_user_op_args *args;
spdk_bs_user_op_t *op, *tmp;
TAILQ_FOREACH_SAFE(op, &ch->queued_io, link, tmp) {
set = (struct spdk_bs_request_set *)op;
args = &set->u.user_op;
if (args->blob == ctx->blob) {
TAILQ_REMOVE(&ch->queued_io, op, link);
bs_user_op_execute(op);
}
}
spdk_for_each_channel_continue(i, 0);
}
static void
_spdk_blob_io_cpl(struct spdk_io_channel_iter *i, int status)
{
struct freeze_io_ctx *ctx = spdk_io_channel_iter_get_ctx(i);
ctx->cpl.u.blob_basic.cb_fn(ctx->cpl.u.blob_basic.cb_arg, 0);
free(ctx);
}
static void
_spdk_blob_freeze_io(struct spdk_blob *blob, spdk_blob_op_complete cb_fn, void *cb_arg)
{
struct freeze_io_ctx *ctx;
ctx = calloc(1, sizeof(*ctx));
if (!ctx) {
cb_fn(cb_arg, -ENOMEM);
return;
}
ctx->cpl.type = SPDK_BS_CPL_TYPE_BS_BASIC;
ctx->cpl.u.blob_basic.cb_fn = cb_fn;
ctx->cpl.u.blob_basic.cb_arg = cb_arg;
ctx->blob = blob;
/* Freeze I/O on blob */
blob->frozen_refcnt++;
if (blob->frozen_refcnt == 1) {
spdk_for_each_channel(blob->bs, _spdk_blob_io_sync, ctx, _spdk_blob_io_cpl);
} else {
cb_fn(cb_arg, 0);
free(ctx);
}
}
static void
_spdk_blob_unfreeze_io(struct spdk_blob *blob, spdk_blob_op_complete cb_fn, void *cb_arg)
{
struct freeze_io_ctx *ctx;
ctx = calloc(1, sizeof(*ctx));
if (!ctx) {
cb_fn(cb_arg, -ENOMEM);
return;
}
ctx->cpl.type = SPDK_BS_CPL_TYPE_BS_BASIC;
ctx->cpl.u.blob_basic.cb_fn = cb_fn;
ctx->cpl.u.blob_basic.cb_arg = cb_arg;
ctx->blob = blob;
assert(blob->frozen_refcnt > 0);
blob->frozen_refcnt--;
if (blob->frozen_refcnt == 0) {
spdk_for_each_channel(blob->bs, _spdk_blob_execute_queued_io, ctx, _spdk_blob_io_cpl);
} else {
cb_fn(cb_arg, 0);
free(ctx);
}
}
static int
_spdk_blob_mark_clean(struct spdk_blob *blob)
{
uint32_t *extent_pages = NULL;
uint64_t *clusters = NULL;
uint32_t *pages = NULL;
assert(blob != NULL);
if (blob->active.num_extent_pages) {
assert(blob->active.extent_pages);
extent_pages = calloc(blob->active.num_extent_pages, sizeof(*blob->active.extent_pages));
if (!extent_pages) {
return -ENOMEM;
}
memcpy(extent_pages, blob->active.extent_pages,
blob->active.num_extent_pages * sizeof(*extent_pages));
}
if (blob->active.num_clusters) {
assert(blob->active.clusters);
clusters = calloc(blob->active.num_clusters, sizeof(*blob->active.clusters));
if (!clusters) {
free(extent_pages);
return -ENOMEM;
}
memcpy(clusters, blob->active.clusters, blob->active.num_clusters * sizeof(*blob->active.clusters));
}
if (blob->active.num_pages) {
assert(blob->active.pages);
pages = calloc(blob->active.num_pages, sizeof(*blob->active.pages));
if (!pages) {
free(extent_pages);
free(clusters);
return -ENOMEM;
}
memcpy(pages, blob->active.pages, blob->active.num_pages * sizeof(*blob->active.pages));
}
free(blob->clean.extent_pages);
free(blob->clean.clusters);
free(blob->clean.pages);
blob->clean.num_extent_pages = blob->active.num_extent_pages;
blob->clean.extent_pages = blob->active.extent_pages;
blob->clean.num_clusters = blob->active.num_clusters;
blob->clean.clusters = blob->active.clusters;
blob->clean.num_pages = blob->active.num_pages;
blob->clean.pages = blob->active.pages;
blob->active.extent_pages = extent_pages;
blob->active.clusters = clusters;
blob->active.pages = pages;
/* If the metadata was dirtied again while the metadata was being written to disk,
* we do not want to revert the DIRTY state back to CLEAN here.
*/
if (blob->state == SPDK_BLOB_STATE_LOADING) {
blob->state = SPDK_BLOB_STATE_CLEAN;
}
return 0;
}
static int
_spdk_blob_deserialize_xattr(struct spdk_blob *blob,
struct spdk_blob_md_descriptor_xattr *desc_xattr, bool internal)
{
struct spdk_xattr *xattr;
if (desc_xattr->length != sizeof(desc_xattr->name_length) +
sizeof(desc_xattr->value_length) +
desc_xattr->name_length + desc_xattr->value_length) {
return -EINVAL;
}
xattr = calloc(1, sizeof(*xattr));
if (xattr == NULL) {
return -ENOMEM;
}
xattr->name = malloc(desc_xattr->name_length + 1);
if (xattr->name == NULL) {
free(xattr);
return -ENOMEM;
}
memcpy(xattr->name, desc_xattr->name, desc_xattr->name_length);
xattr->name[desc_xattr->name_length] = '\0';
xattr->value = malloc(desc_xattr->value_length);
if (xattr->value == NULL) {
free(xattr->name);
free(xattr);
return -ENOMEM;
}
xattr->value_len = desc_xattr->value_length;
memcpy(xattr->value,
(void *)((uintptr_t)desc_xattr->name + desc_xattr->name_length),
desc_xattr->value_length);
TAILQ_INSERT_TAIL(internal ? &blob->xattrs_internal : &blob->xattrs, xattr, link);
return 0;
}
static int
_spdk_blob_parse_page(const struct spdk_blob_md_page *page, struct spdk_blob *blob)
{
struct spdk_blob_md_descriptor *desc;
size_t cur_desc = 0;
void *tmp;
desc = (struct spdk_blob_md_descriptor *)page->descriptors;
while (cur_desc < sizeof(page->descriptors)) {
if (desc->type == SPDK_MD_DESCRIPTOR_TYPE_PADDING) {
if (desc->length == 0) {
/* If padding and length are 0, this terminates the page */
break;
}
} else if (desc->type == SPDK_MD_DESCRIPTOR_TYPE_FLAGS) {
struct spdk_blob_md_descriptor_flags *desc_flags;
desc_flags = (struct spdk_blob_md_descriptor_flags *)desc;
if (desc_flags->length != sizeof(*desc_flags) - sizeof(*desc)) {
return -EINVAL;
}
if ((desc_flags->invalid_flags | SPDK_BLOB_INVALID_FLAGS_MASK) !=
SPDK_BLOB_INVALID_FLAGS_MASK) {
return -EINVAL;
}
if ((desc_flags->data_ro_flags | SPDK_BLOB_DATA_RO_FLAGS_MASK) !=
SPDK_BLOB_DATA_RO_FLAGS_MASK) {
blob->data_ro = true;
blob->md_ro = true;
}
if ((desc_flags->md_ro_flags | SPDK_BLOB_MD_RO_FLAGS_MASK) !=
SPDK_BLOB_MD_RO_FLAGS_MASK) {
blob->md_ro = true;
}
if ((desc_flags->data_ro_flags & SPDK_BLOB_READ_ONLY)) {
blob->data_ro = true;
blob->md_ro = true;
}
blob->invalid_flags = desc_flags->invalid_flags;
blob->data_ro_flags = desc_flags->data_ro_flags;
blob->md_ro_flags = desc_flags->md_ro_flags;
} else if (desc->type == SPDK_MD_DESCRIPTOR_TYPE_EXTENT_RLE) {
struct spdk_blob_md_descriptor_extent_rle *desc_extent_rle;
unsigned int i, j;
unsigned int cluster_count = blob->active.num_clusters;
if (blob->extent_table_found) {
/* Extent Table already present in the md,
* both descriptors should never be at the same time. */
return -EINVAL;
}
blob->extent_rle_found = true;
desc_extent_rle = (struct spdk_blob_md_descriptor_extent_rle *)desc;
if (desc_extent_rle->length == 0 ||
(desc_extent_rle->length % sizeof(desc_extent_rle->extents[0]) != 0)) {
return -EINVAL;
}
for (i = 0; i < desc_extent_rle->length / sizeof(desc_extent_rle->extents[0]); i++) {
for (j = 0; j < desc_extent_rle->extents[i].length; j++) {
if (desc_extent_rle->extents[i].cluster_idx != 0) {
if (!spdk_bit_array_get(blob->bs->used_clusters,
desc_extent_rle->extents[i].cluster_idx + j)) {
return -EINVAL;
}
}
cluster_count++;
}
}
if (cluster_count == 0) {
return -EINVAL;
}
tmp = realloc(blob->active.clusters, cluster_count * sizeof(*blob->active.clusters));
if (tmp == NULL) {
return -ENOMEM;
}
blob->active.clusters = tmp;
blob->active.cluster_array_size = cluster_count;
for (i = 0; i < desc_extent_rle->length / sizeof(desc_extent_rle->extents[0]); i++) {
for (j = 0; j < desc_extent_rle->extents[i].length; j++) {
if (desc_extent_rle->extents[i].cluster_idx != 0) {
blob->active.clusters[blob->active.num_clusters++] = _spdk_bs_cluster_to_lba(blob->bs,
desc_extent_rle->extents[i].cluster_idx + j);
} else if (spdk_blob_is_thin_provisioned(blob)) {
blob->active.clusters[blob->active.num_clusters++] = 0;
} else {
return -EINVAL;
}
}
}
} else if (desc->type == SPDK_MD_DESCRIPTOR_TYPE_EXTENT_TABLE) {
struct spdk_blob_md_descriptor_extent_table *desc_extent_table;
uint32_t num_extent_pages = blob->active.num_extent_pages;
uint32_t i, j;
size_t extent_pages_length;
desc_extent_table = (struct spdk_blob_md_descriptor_extent_table *)desc;
extent_pages_length = desc_extent_table->length - sizeof(desc_extent_table->num_clusters);
if (blob->extent_rle_found) {
/* This means that Extent RLE is present in MD,
* both should never be at the same time. */
return -EINVAL;
} else if (blob->extent_table_found &&
desc_extent_table->num_clusters != blob->remaining_clusters_in_et) {
/* Number of clusters in this ET does not match number
* from previously read EXTENT_TABLE. */
return -EINVAL;
}
blob->extent_table_found = true;
if (desc_extent_table->length == 0 ||
(extent_pages_length % sizeof(desc_extent_table->extent_page[0]) != 0)) {
return -EINVAL;
}
for (i = 0; i < extent_pages_length / sizeof(desc_extent_table->extent_page[0]); i++) {
num_extent_pages += desc_extent_table->extent_page[i].num_pages;
}
tmp = realloc(blob->active.extent_pages, num_extent_pages * sizeof(uint32_t));
if (tmp == NULL) {
return -ENOMEM;
}
blob->active.extent_pages = tmp;
blob->active.extent_pages_array_size = num_extent_pages;
blob->remaining_clusters_in_et = desc_extent_table->num_clusters;
/* Extent table entries contain md page numbers for extent pages.
* Zeroes represent unallocated extent pages, those are run-length-encoded.
*/
for (i = 0; i < extent_pages_length / sizeof(desc_extent_table->extent_page[0]); i++) {
if (desc_extent_table->extent_page[i].page_idx != 0) {
assert(desc_extent_table->extent_page[i].num_pages == 1);
blob->active.extent_pages[blob->active.num_extent_pages++] =
desc_extent_table->extent_page[i].page_idx;
} else if (spdk_blob_is_thin_provisioned(blob)) {
for (j = 0; j < desc_extent_table->extent_page[i].num_pages; j++) {
blob->active.extent_pages[blob->active.num_extent_pages++] = 0;
}
} else {
return -EINVAL;
}
}
} else if (desc->type == SPDK_MD_DESCRIPTOR_TYPE_EXTENT_PAGE) {
struct spdk_blob_md_descriptor_extent_page *desc_extent;
unsigned int i;
unsigned int cluster_count = 0;
size_t cluster_idx_length;
if (blob->extent_rle_found) {
/* This means that Extent RLE is present in MD,
* both should never be at the same time. */
return -EINVAL;
}
desc_extent = (struct spdk_blob_md_descriptor_extent_page *)desc;
cluster_idx_length = desc_extent->length - sizeof(desc_extent->start_cluster_idx);
if (desc_extent->length <= sizeof(desc_extent->start_cluster_idx) ||
(cluster_idx_length % sizeof(desc_extent->cluster_idx[0]) != 0)) {
return -EINVAL;
}
for (i = 0; i < cluster_idx_length / sizeof(desc_extent->cluster_idx[0]); i++) {
if (desc_extent->cluster_idx[i] != 0) {
if (!spdk_bit_array_get(blob->bs->used_clusters, desc_extent->cluster_idx[i])) {
return -EINVAL;
}
}
cluster_count++;
}
if (cluster_count == 0) {
return -EINVAL;
}
/* When reading extent pages sequentially starting cluster idx should match
* current size of a blob.
* If changed to batch reading, this check shall be removed. */
if (desc_extent->start_cluster_idx != blob->active.num_clusters) {
return -EINVAL;
}
tmp = realloc(blob->active.clusters,
(cluster_count + blob->active.num_clusters) * sizeof(*blob->active.clusters));
if (tmp == NULL) {
return -ENOMEM;
}
blob->active.clusters = tmp;
blob->active.cluster_array_size = (cluster_count + blob->active.num_clusters);
for (i = 0; i < cluster_idx_length / sizeof(desc_extent->cluster_idx[0]); i++) {
if (desc_extent->cluster_idx[i] != 0) {
blob->active.clusters[blob->active.num_clusters++] = _spdk_bs_cluster_to_lba(blob->bs,
desc_extent->cluster_idx[i]);
} else if (spdk_blob_is_thin_provisioned(blob)) {
blob->active.clusters[blob->active.num_clusters++] = 0;
} else {
return -EINVAL;
}
}
assert(desc_extent->start_cluster_idx + cluster_count == blob->active.num_clusters);
assert(blob->remaining_clusters_in_et >= cluster_count);
blob->remaining_clusters_in_et -= cluster_count;
} else if (desc->type == SPDK_MD_DESCRIPTOR_TYPE_XATTR) {
int rc;
rc = _spdk_blob_deserialize_xattr(blob,
(struct spdk_blob_md_descriptor_xattr *) desc, false);
if (rc != 0) {
return rc;
}
} else if (desc->type == SPDK_MD_DESCRIPTOR_TYPE_XATTR_INTERNAL) {
int rc;
rc = _spdk_blob_deserialize_xattr(blob,
(struct spdk_blob_md_descriptor_xattr *) desc, true);
if (rc != 0) {
return rc;
}
} else {
/* Unrecognized descriptor type. Do not fail - just continue to the
* next descriptor. If this descriptor is associated with some feature
* defined in a newer version of blobstore, that version of blobstore
* should create and set an associated feature flag to specify if this
* blob can be loaded or not.
*/
}
/* Advance to the next descriptor */
cur_desc += sizeof(*desc) + desc->length;
if (cur_desc + sizeof(*desc) > sizeof(page->descriptors)) {
break;
}
desc = (struct spdk_blob_md_descriptor *)((uintptr_t)page->descriptors + cur_desc);
}
return 0;
}
static bool _spdk_bs_load_cur_extent_page_valid(struct spdk_blob_md_page *page);
static int
_spdk_blob_parse_extent_page(struct spdk_blob_md_page *extent_page, struct spdk_blob *blob)
{
assert(blob != NULL);
assert(blob->state == SPDK_BLOB_STATE_LOADING);
if (_spdk_bs_load_cur_extent_page_valid(extent_page) == false) {
return -ENOENT;
}
return _spdk_blob_parse_page(extent_page, blob);
}
static int
_spdk_blob_parse(const struct spdk_blob_md_page *pages, uint32_t page_count,
struct spdk_blob *blob)
{
const struct spdk_blob_md_page *page;
uint32_t i;
int rc;
assert(page_count > 0);
assert(pages[0].sequence_num == 0);
assert(blob != NULL);
assert(blob->state == SPDK_BLOB_STATE_LOADING);
assert(blob->active.clusters == NULL);
/* The blobid provided doesn't match what's in the MD, this can
* happen for example if a bogus blobid is passed in through open.
*/
if (blob->id != pages[0].id) {
SPDK_ERRLOG("Blobid (%lu) doesn't match what's in metadata (%lu)\n",
blob->id, pages[0].id);
return -ENOENT;
}
for (i = 0; i < page_count; i++) {
page = &pages[i];
assert(page->id == blob->id);
assert(page->sequence_num == i);
rc = _spdk_blob_parse_page(page, blob);
if (rc != 0) {
return rc;
}
}
return 0;
}
static int
_spdk_blob_serialize_add_page(const struct spdk_blob *blob,
struct spdk_blob_md_page **pages,
uint32_t *page_count,
struct spdk_blob_md_page **last_page)
{
struct spdk_blob_md_page *page;
assert(pages != NULL);
assert(page_count != NULL);
if (*page_count == 0) {
assert(*pages == NULL);
*page_count = 1;
*pages = spdk_malloc(SPDK_BS_PAGE_SIZE, SPDK_BS_PAGE_SIZE,
NULL, SPDK_ENV_SOCKET_ID_ANY, SPDK_MALLOC_DMA);
} else {
assert(*pages != NULL);
(*page_count)++;
*pages = spdk_realloc(*pages,
SPDK_BS_PAGE_SIZE * (*page_count),
SPDK_BS_PAGE_SIZE);
}
if (*pages == NULL) {
*page_count = 0;
*last_page = NULL;
return -ENOMEM;
}
page = &(*pages)[*page_count - 1];
memset(page, 0, sizeof(*page));
page->id = blob->id;
page->sequence_num = *page_count - 1;
page->next = SPDK_INVALID_MD_PAGE;
*last_page = page;
return 0;
}
/* Transform the in-memory representation 'xattr' into an on-disk xattr descriptor.
* Update required_sz on both success and failure.
*
*/
static int
_spdk_blob_serialize_xattr(const struct spdk_xattr *xattr,
uint8_t *buf, size_t buf_sz,
size_t *required_sz, bool internal)
{
struct spdk_blob_md_descriptor_xattr *desc;
*required_sz = sizeof(struct spdk_blob_md_descriptor_xattr) +
strlen(xattr->name) +
xattr->value_len;
if (buf_sz < *required_sz) {
return -1;
}
desc = (struct spdk_blob_md_descriptor_xattr *)buf;
desc->type = internal ? SPDK_MD_DESCRIPTOR_TYPE_XATTR_INTERNAL : SPDK_MD_DESCRIPTOR_TYPE_XATTR;
desc->length = sizeof(desc->name_length) +
sizeof(desc->value_length) +
strlen(xattr->name) +
xattr->value_len;
desc->name_length = strlen(xattr->name);
desc->value_length = xattr->value_len;
memcpy(desc->name, xattr->name, desc->name_length);
memcpy((void *)((uintptr_t)desc->name + desc->name_length),
xattr->value,
desc->value_length);
return 0;
}
static void
_spdk_blob_serialize_extent_table_entry(const struct spdk_blob *blob,
uint64_t start_ep, uint64_t *next_ep,
uint8_t **buf, size_t *remaining_sz)
{
struct spdk_blob_md_descriptor_extent_table *desc;
size_t cur_sz;
uint64_t i, et_idx;
uint32_t extent_page, ep_len;
/* The buffer must have room for at least num_clusters entry */
cur_sz = sizeof(struct spdk_blob_md_descriptor) + sizeof(desc->num_clusters);
if (*remaining_sz < cur_sz) {
*next_ep = start_ep;
return;
}
desc = (struct spdk_blob_md_descriptor_extent_table *)*buf;
desc->type = SPDK_MD_DESCRIPTOR_TYPE_EXTENT_TABLE;
desc->num_clusters = blob->active.num_clusters;
ep_len = 1;
et_idx = 0;
for (i = start_ep; i < blob->active.num_extent_pages; i++) {
if (*remaining_sz < cur_sz + sizeof(desc->extent_page[0])) {
/* If we ran out of buffer space, return */
break;
}
extent_page = blob->active.extent_pages[i];
/* Verify that next extent_page is unallocated */
if (extent_page == 0 &&
(i + 1 < blob->active.num_extent_pages && blob->active.extent_pages[i + 1] == 0)) {
ep_len++;
continue;
}
desc->extent_page[et_idx].page_idx = extent_page;
desc->extent_page[et_idx].num_pages = ep_len;
et_idx++;
ep_len = 1;
cur_sz += sizeof(desc->extent_page[et_idx]);
}
*next_ep = i;
desc->length = sizeof(desc->num_clusters) + sizeof(desc->extent_page[0]) * et_idx;
*remaining_sz -= sizeof(struct spdk_blob_md_descriptor) + desc->length;
*buf += sizeof(struct spdk_blob_md_descriptor) + desc->length;
}
static int
_spdk_blob_serialize_extent_table(const struct spdk_blob *blob,
struct spdk_blob_md_page **pages,
struct spdk_blob_md_page *cur_page,
uint32_t *page_count, uint8_t **buf,
size_t *remaining_sz)
{
uint64_t last_extent_page;
int rc;
last_extent_page = 0;
/* At least single extent table entry has to be always persisted.
* Such case occurs with num_extent_pages == 0. */
while (last_extent_page <= blob->active.num_extent_pages) {
_spdk_blob_serialize_extent_table_entry(blob, last_extent_page, &last_extent_page, buf,
remaining_sz);
if (last_extent_page == blob->active.num_extent_pages) {
break;
}
rc = _spdk_blob_serialize_add_page(blob, pages, page_count, &cur_page);
if (rc < 0) {
return rc;
}
*buf = (uint8_t *)cur_page->descriptors;
*remaining_sz = sizeof(cur_page->descriptors);
}
return 0;
}
static void
_spdk_blob_serialize_extent_rle(const struct spdk_blob *blob,
uint64_t start_cluster, uint64_t *next_cluster,
uint8_t **buf, size_t *buf_sz)
{
struct spdk_blob_md_descriptor_extent_rle *desc_extent_rle;
size_t cur_sz;
uint64_t i, extent_idx;
uint64_t lba, lba_per_cluster, lba_count;
/* The buffer must have room for at least one extent */
cur_sz = sizeof(struct spdk_blob_md_descriptor) + sizeof(desc_extent_rle->extents[0]);
if (*buf_sz < cur_sz) {
*next_cluster = start_cluster;
return;
}
desc_extent_rle = (struct spdk_blob_md_descriptor_extent_rle *)*buf;
desc_extent_rle->type = SPDK_MD_DESCRIPTOR_TYPE_EXTENT_RLE;
lba_per_cluster = _spdk_bs_cluster_to_lba(blob->bs, 1);
lba = blob->active.clusters[start_cluster];
lba_count = lba_per_cluster;
extent_idx = 0;
for (i = start_cluster + 1; i < blob->active.num_clusters; i++) {
if ((lba + lba_count) == blob->active.clusters[i] && lba != 0) {
/* Run-length encode sequential non-zero LBA */
lba_count += lba_per_cluster;
continue;
} else if (lba == 0 && blob->active.clusters[i] == 0) {
/* Run-length encode unallocated clusters */
lba_count += lba_per_cluster;
continue;
}
desc_extent_rle->extents[extent_idx].cluster_idx = lba / lba_per_cluster;
desc_extent_rle->extents[extent_idx].length = lba_count / lba_per_cluster;
extent_idx++;
cur_sz += sizeof(desc_extent_rle->extents[extent_idx]);
if (*buf_sz < cur_sz) {
/* If we ran out of buffer space, return */
*next_cluster = i;
break;
}
lba = blob->active.clusters[i];
lba_count = lba_per_cluster;
}
if (*buf_sz >= cur_sz) {
desc_extent_rle->extents[extent_idx].cluster_idx = lba / lba_per_cluster;
desc_extent_rle->extents[extent_idx].length = lba_count / lba_per_cluster;
extent_idx++;
*next_cluster = blob->active.num_clusters;
}
desc_extent_rle->length = sizeof(desc_extent_rle->extents[0]) * extent_idx;
*buf_sz -= sizeof(struct spdk_blob_md_descriptor) + desc_extent_rle->length;
*buf += sizeof(struct spdk_blob_md_descriptor) + desc_extent_rle->length;
}
static int
_spdk_blob_serialize_extents_rle(const struct spdk_blob *blob,
struct spdk_blob_md_page **pages,
struct spdk_blob_md_page *cur_page,
uint32_t *page_count, uint8_t **buf,
size_t *remaining_sz)
{
uint64_t last_cluster;
int rc;
last_cluster = 0;
while (last_cluster < blob->active.num_clusters) {
_spdk_blob_serialize_extent_rle(blob, last_cluster, &last_cluster, buf, remaining_sz);
if (last_cluster == blob->active.num_clusters) {
break;
}
rc = _spdk_blob_serialize_add_page(blob, pages, page_count, &cur_page);
if (rc < 0) {
return rc;
}
*buf = (uint8_t *)cur_page->descriptors;
*remaining_sz = sizeof(cur_page->descriptors);
}
return 0;
}
static void
_spdk_blob_serialize_extent_page(const struct spdk_blob *blob,
uint64_t cluster, struct spdk_blob_md_page *page)
{
struct spdk_blob_md_descriptor_extent_page *desc_extent;
uint64_t i, extent_idx;
uint64_t lba, lba_per_cluster;
uint64_t start_cluster_idx = (cluster / SPDK_EXTENTS_PER_EP) * SPDK_EXTENTS_PER_EP;
desc_extent = (struct spdk_blob_md_descriptor_extent_page *) page->descriptors;
desc_extent->type = SPDK_MD_DESCRIPTOR_TYPE_EXTENT_PAGE;
lba_per_cluster = _spdk_bs_cluster_to_lba(blob->bs, 1);
desc_extent->start_cluster_idx = start_cluster_idx;
extent_idx = 0;
for (i = start_cluster_idx; i < blob->active.num_clusters; i++) {
lba = blob->active.clusters[i];
desc_extent->cluster_idx[extent_idx++] = lba / lba_per_cluster;
if (extent_idx >= SPDK_EXTENTS_PER_EP) {
break;
}
}
desc_extent->length = sizeof(desc_extent->start_cluster_idx) +
sizeof(desc_extent->cluster_idx[0]) * extent_idx;
}
static void
_spdk_blob_serialize_flags(const struct spdk_blob *blob,
uint8_t *buf, size_t *buf_sz)
{
struct spdk_blob_md_descriptor_flags *desc;
/*
* Flags get serialized first, so we should always have room for the flags
* descriptor.
*/
assert(*buf_sz >= sizeof(*desc));
desc = (struct spdk_blob_md_descriptor_flags *)buf;
desc->type = SPDK_MD_DESCRIPTOR_TYPE_FLAGS;
desc->length = sizeof(*desc) - sizeof(struct spdk_blob_md_descriptor);
desc->invalid_flags = blob->invalid_flags;
desc->data_ro_flags = blob->data_ro_flags;
desc->md_ro_flags = blob->md_ro_flags;
*buf_sz -= sizeof(*desc);
}
static int
_spdk_blob_serialize_xattrs(const struct spdk_blob *blob,
const struct spdk_xattr_tailq *xattrs, bool internal,
struct spdk_blob_md_page **pages,
struct spdk_blob_md_page *cur_page,
uint32_t *page_count, uint8_t **buf,
size_t *remaining_sz)
{
const struct spdk_xattr *xattr;
int rc;
TAILQ_FOREACH(xattr, xattrs, link) {
size_t required_sz = 0;
rc = _spdk_blob_serialize_xattr(xattr,
*buf, *remaining_sz,
&required_sz, internal);
if (rc < 0) {
/* Need to add a new page to the chain */
rc = _spdk_blob_serialize_add_page(blob, pages, page_count,
&cur_page);
if (rc < 0) {
spdk_free(*pages);
*pages = NULL;
*page_count = 0;
return rc;
}
*buf = (uint8_t *)cur_page->descriptors;
*remaining_sz = sizeof(cur_page->descriptors);
/* Try again */
required_sz = 0;
rc = _spdk_blob_serialize_xattr(xattr,
*buf, *remaining_sz,
&required_sz, internal);
if (rc < 0) {
spdk_free(*pages);
*pages = NULL;
*page_count = 0;
return rc;
}
}
*remaining_sz -= required_sz;
*buf += required_sz;
}
return 0;
}
static int
_spdk_blob_serialize(const struct spdk_blob *blob, struct spdk_blob_md_page **pages,
uint32_t *page_count)
{
struct spdk_blob_md_page *cur_page;
int rc;
uint8_t *buf;
size_t remaining_sz;
assert(pages != NULL);
assert(page_count != NULL);
assert(blob != NULL);
assert(blob->state == SPDK_BLOB_STATE_DIRTY);
*pages = NULL;
*page_count = 0;
/* A blob always has at least 1 page, even if it has no descriptors */
rc = _spdk_blob_serialize_add_page(blob, pages, page_count, &cur_page);
if (rc < 0) {
return rc;
}
buf = (uint8_t *)cur_page->descriptors;
remaining_sz = sizeof(cur_page->descriptors);
/* Serialize flags */
_spdk_blob_serialize_flags(blob, buf, &remaining_sz);
buf += sizeof(struct spdk_blob_md_descriptor_flags);
/* Serialize xattrs */
rc = _spdk_blob_serialize_xattrs(blob, &blob->xattrs, false,
pages, cur_page, page_count, &buf, &remaining_sz);
if (rc < 0) {
return rc;
}
/* Serialize internal xattrs */
rc = _spdk_blob_serialize_xattrs(blob, &blob->xattrs_internal, true,
pages, cur_page, page_count, &buf, &remaining_sz);
if (rc < 0) {
return rc;
}
if (blob->use_extent_table) {
/* Serialize extent table */
rc = _spdk_blob_serialize_extent_table(blob, pages, cur_page, page_count, &buf, &remaining_sz);
} else {
/* Serialize extents */
rc = _spdk_blob_serialize_extents_rle(blob, pages, cur_page, page_count, &buf, &remaining_sz);
}
return rc;
}
struct spdk_blob_load_ctx {
struct spdk_blob *blob;
struct spdk_blob_md_page *pages;
uint32_t num_pages;
uint32_t next_extent_page;
spdk_bs_sequence_t *seq;
spdk_bs_sequence_cpl cb_fn;
void *cb_arg;
};
static uint32_t
_spdk_blob_md_page_calc_crc(void *page)
{
uint32_t crc;
crc = BLOB_CRC32C_INITIAL;
crc = spdk_crc32c_update(page, SPDK_BS_PAGE_SIZE - 4, crc);
crc ^= BLOB_CRC32C_INITIAL;
return crc;
}
static void
_spdk_blob_load_final(void *cb_arg, int bserrno)
{
struct spdk_blob_load_ctx *ctx = cb_arg;
struct spdk_blob *blob = ctx->blob;
if (bserrno == 0) {
_spdk_blob_mark_clean(blob);
}
ctx->cb_fn(ctx->seq, ctx->cb_arg, bserrno);
/* Free the memory */
spdk_free(ctx->pages);
free(ctx);
}
static void
_spdk_blob_load_snapshot_cpl(void *cb_arg, struct spdk_blob *snapshot, int bserrno)
{
struct spdk_blob_load_ctx *ctx = cb_arg;
struct spdk_blob *blob = ctx->blob;
if (bserrno == 0) {
blob->back_bs_dev = bs_create_blob_bs_dev(snapshot);
if (blob->back_bs_dev == NULL) {
bserrno = -ENOMEM;
}
}
if (bserrno != 0) {
SPDK_ERRLOG("Snapshot fail\n");
}
_spdk_blob_load_final(ctx, bserrno);
}
static void _spdk_blob_update_clear_method(struct spdk_blob *blob);
static void
_spdk_blob_load_backing_dev(void *cb_arg)
{
struct spdk_blob_load_ctx *ctx = cb_arg;
struct spdk_blob *blob = ctx->blob;
const void *value;
size_t len;
int rc;
if (spdk_blob_is_thin_provisioned(blob)) {
rc = _spdk_blob_get_xattr_value(blob, BLOB_SNAPSHOT, &value, &len, true);
if (rc == 0) {
if (len != sizeof(spdk_blob_id)) {
_spdk_blob_load_final(ctx, -EINVAL);
return;
}
/* open snapshot blob and continue in the callback function */
blob->parent_id = *(spdk_blob_id *)value;
spdk_bs_open_blob(blob->bs, blob->parent_id,
_spdk_blob_load_snapshot_cpl, ctx);
return;
} else {
/* add zeroes_dev for thin provisioned blob */
blob->back_bs_dev = bs_create_zeroes_dev();
}
} else {
/* standard blob */
blob->back_bs_dev = NULL;
}
_spdk_blob_load_final(ctx, 0);
}
static void
_spdk_blob_load_cpl_extents_cpl(spdk_bs_sequence_t *seq, void *cb_arg, int bserrno)
{
struct spdk_blob_load_ctx *ctx = cb_arg;
struct spdk_blob *blob = ctx->blob;
struct spdk_blob_md_page *page;
uint64_t i;
uint32_t crc;
uint64_t lba;
void *tmp;
uint64_t sz;
if (bserrno) {
SPDK_ERRLOG("Extent page read failed: %d\n", bserrno);
_spdk_blob_load_final(ctx, bserrno);
return;
}
if (ctx->pages == NULL) {
/* First iteration of this function, allocate buffer for single EXTENT_PAGE */
ctx->pages = spdk_zmalloc(SPDK_BS_PAGE_SIZE, SPDK_BS_PAGE_SIZE, NULL, SPDK_ENV_SOCKET_ID_ANY,
SPDK_MALLOC_DMA);
if (!ctx->pages) {
_spdk_blob_load_final(ctx, -ENOMEM);
return;
}
ctx->num_pages = 1;
ctx->next_extent_page = 0;
} else {
page = &ctx->pages[0];
crc = _spdk_blob_md_page_calc_crc(page);
if (crc != page->crc) {
_spdk_blob_load_final(ctx, -EINVAL);
return;
}
if (page->next != SPDK_INVALID_MD_PAGE) {
_spdk_blob_load_final(ctx, -EINVAL);
return;
}
bserrno = _spdk_blob_parse_extent_page(page, blob);
if (bserrno) {
_spdk_blob_load_final(ctx, bserrno);
return;
}
}
for (i = ctx->next_extent_page; i < blob->active.num_extent_pages; i++) {
if (blob->active.extent_pages[i] != 0) {
/* Extent page was allocated, read and parse it. */
lba = _spdk_bs_md_page_to_lba(blob->bs, blob->active.extent_pages[i]);
ctx->next_extent_page = i + 1;
bs_sequence_read_dev(seq, &ctx->pages[0], lba,
_spdk_bs_byte_to_lba(blob->bs, SPDK_BS_PAGE_SIZE),
_spdk_blob_load_cpl_extents_cpl, ctx);
return;
} else {
/* Thin provisioned blobs can point to unallocated extent pages.
* In this case blob size should be increased by up to the amount left in remaining_clusters_in_et. */
sz = spdk_min(blob->remaining_clusters_in_et, SPDK_EXTENTS_PER_EP);
blob->active.num_clusters += sz;
blob->remaining_clusters_in_et -= sz;
assert(spdk_blob_is_thin_provisioned(blob));
assert(i + 1 < blob->active.num_extent_pages || blob->remaining_clusters_in_et == 0);
tmp = realloc(blob->active.clusters, blob->active.num_clusters * sizeof(*blob->active.clusters));
if (tmp == NULL) {
_spdk_blob_load_final(ctx, -ENOMEM);
return;
}
memset(tmp + blob->active.cluster_array_size, 0,
sizeof(*blob->active.clusters) * (blob->active.num_clusters - blob->active.cluster_array_size));
blob->active.clusters = tmp;
blob->active.cluster_array_size = blob->active.num_clusters;
}
}
_spdk_blob_load_backing_dev(ctx);
}
static void
_spdk_blob_load_cpl(spdk_bs_sequence_t *seq, void *cb_arg, int bserrno)
{
struct spdk_blob_load_ctx *ctx = cb_arg;
struct spdk_blob *blob = ctx->blob;
struct spdk_blob_md_page *page;
int rc;
uint32_t crc;
uint32_t current_page;
if (ctx->num_pages == 1) {
current_page = _spdk_bs_blobid_to_page(blob->id);
} else {
assert(ctx->num_pages != 0);
page = &ctx->pages[ctx->num_pages - 2];
current_page = page->next;
}
if (bserrno) {
SPDK_ERRLOG("Metadata page %d read failed for blobid %lu: %d\n",
current_page, blob->id, bserrno);
_spdk_blob_load_final(ctx, bserrno);
return;
}
page = &ctx->pages[ctx->num_pages - 1];
crc = _spdk_blob_md_page_calc_crc(page);
if (crc != page->crc) {
SPDK_ERRLOG("Metadata page %d crc mismatch for blobid %lu\n",
current_page, blob->id);
_spdk_blob_load_final(ctx, -EINVAL);
return;
}
if (page->next != SPDK_INVALID_MD_PAGE) {
uint32_t next_page = page->next;
uint64_t next_lba = _spdk_bs_md_page_to_lba(blob->bs, next_page);
/* Read the next page */
ctx->num_pages++;
ctx->pages = spdk_realloc(ctx->pages, (sizeof(*page) * ctx->num_pages),
sizeof(*page));
if (ctx->pages == NULL) {
_spdk_blob_load_final(ctx, -ENOMEM);
return;
}
bs_sequence_read_dev(seq, &ctx->pages[ctx->num_pages - 1],
next_lba,
_spdk_bs_byte_to_lba(blob->bs, sizeof(*page)),
_spdk_blob_load_cpl, ctx);
return;
}
/* Parse the pages */
rc = _spdk_blob_parse(ctx->pages, ctx->num_pages, blob);
if (rc) {
_spdk_blob_load_final(ctx, rc);
return;
}
if (blob->extent_table_found == true) {
/* If EXTENT_TABLE was found, that means support for it should be enabled. */
assert(blob->extent_rle_found == false);
blob->use_extent_table = true;
} else {
/* If EXTENT_RLE or no extent_* descriptor was found disable support
* for extent table. No extent_* descriptors means that blob has length of 0
* and no extent_rle descriptors were persisted for it.
* EXTENT_TABLE if used, is always present in metadata regardless of length. */
blob->use_extent_table = false;
}
/* Check the clear_method stored in metadata vs what may have been passed
* via spdk_bs_open_blob_ext() and update accordingly.
*/
_spdk_blob_update_clear_method(blob);
spdk_free(ctx->pages);
ctx->pages = NULL;
if (blob->extent_table_found) {
_spdk_blob_load_cpl_extents_cpl(seq, ctx, 0);
} else {
_spdk_blob_load_backing_dev(ctx);
}
}
/* Load a blob from disk given a blobid */
static void
_spdk_blob_load(spdk_bs_sequence_t *seq, struct spdk_blob *blob,
spdk_bs_sequence_cpl cb_fn, void *cb_arg)
{
struct spdk_blob_load_ctx *ctx;
struct spdk_blob_store *bs;
uint32_t page_num;
uint64_t lba;
_spdk_blob_verify_md_op(blob);
bs = blob->bs;
ctx = calloc(1, sizeof(*ctx));
if (!ctx) {
cb_fn(seq, cb_arg, -ENOMEM);
return;
}
ctx->blob = blob;
ctx->pages = spdk_realloc(ctx->pages, SPDK_BS_PAGE_SIZE, SPDK_BS_PAGE_SIZE);
if (!ctx->pages) {
free(ctx);
cb_fn(seq, cb_arg, -ENOMEM);
return;
}
ctx->num_pages = 1;
ctx->cb_fn = cb_fn;
ctx->cb_arg = cb_arg;
ctx->seq = seq;
page_num = _spdk_bs_blobid_to_page(blob->id);
lba = _spdk_bs_md_page_to_lba(blob->bs, page_num);
blob->state = SPDK_BLOB_STATE_LOADING;
bs_sequence_read_dev(seq, &ctx->pages[0], lba,
_spdk_bs_byte_to_lba(bs, SPDK_BS_PAGE_SIZE),
_spdk_blob_load_cpl, ctx);
}
struct spdk_blob_persist_ctx {
struct spdk_blob *blob;
struct spdk_bs_super_block *super;
struct spdk_blob_md_page *pages;
uint32_t next_extent_page;
struct spdk_blob_md_page *extent_page;
spdk_bs_sequence_t *seq;
spdk_bs_sequence_cpl cb_fn;
void *cb_arg;
TAILQ_ENTRY(spdk_blob_persist_ctx) link;
};
static void
spdk_bs_batch_clear_dev(struct spdk_blob_persist_ctx *ctx, spdk_bs_batch_t *batch, uint64_t lba,
uint32_t lba_count)
{
switch (ctx->blob->clear_method) {
case BLOB_CLEAR_WITH_DEFAULT:
case BLOB_CLEAR_WITH_UNMAP:
bs_batch_unmap_dev(batch, lba, lba_count);
break;
case BLOB_CLEAR_WITH_WRITE_ZEROES:
bs_batch_write_zeroes_dev(batch, lba, lba_count);
break;
case BLOB_CLEAR_WITH_NONE:
default:
break;
}
}
static void _spdk_blob_persist_check_dirty(struct spdk_blob_persist_ctx *ctx);
static void
_spdk_blob_persist_complete(spdk_bs_sequence_t *seq, void *cb_arg, int bserrno)
{
struct spdk_blob_persist_ctx *ctx = cb_arg;
struct spdk_blob_persist_ctx *next_persist;
struct spdk_blob *blob = ctx->blob;
if (bserrno == 0) {
_spdk_blob_mark_clean(blob);
}
assert(ctx == TAILQ_FIRST(&blob->pending_persists));
TAILQ_REMOVE(&blob->pending_persists, ctx, link);
next_persist = TAILQ_FIRST(&blob->pending_persists);
/* Call user callback */
ctx->cb_fn(seq, ctx->cb_arg, bserrno);
/* Free the memory */
spdk_free(ctx->pages);
free(ctx);
if (next_persist != NULL) {
_spdk_blob_persist_check_dirty(next_persist);
}
}
static void
_spdk_blob_persist_clear_clusters_cpl(spdk_bs_sequence_t *seq, void *cb_arg, int bserrno)
{
struct spdk_blob_persist_ctx *ctx = cb_arg;
struct spdk_blob *blob = ctx->blob;
struct spdk_blob_store *bs = blob->bs;
size_t i;
if (bserrno != 0) {
_spdk_blob_persist_complete(seq, ctx, bserrno);
return;
}
/* Release all clusters that were truncated */
for (i = blob->active.num_clusters; i < blob->active.cluster_array_size; i++) {
uint32_t cluster_num = _spdk_bs_lba_to_cluster(bs, blob->active.clusters[i]);
/* Nothing to release if it was not allocated */
if (blob->active.clusters[i] != 0) {
_spdk_bs_release_cluster(bs, cluster_num);
}
}
if (blob->active.num_clusters == 0) {
free(blob->active.clusters);
blob->active.clusters = NULL;
blob->active.cluster_array_size = 0;
} else if (blob->active.num_clusters != blob->active.cluster_array_size) {
#ifndef __clang_analyzer__
void *tmp;
/* scan-build really can't figure reallocs, workaround it */
tmp = realloc(blob->active.clusters, sizeof(*blob->active.clusters) * blob->active.num_clusters);
assert(tmp != NULL);
blob->active.clusters = tmp;
tmp = realloc(blob->active.extent_pages, sizeof(uint32_t) * blob->active.num_extent_pages);
assert(tmp != NULL);
blob->active.extent_pages = tmp;
#endif
blob->active.extent_pages_array_size = blob->active.num_extent_pages;
blob->active.cluster_array_size = blob->active.num_clusters;
}
/* TODO: Add path to persist clear extent pages. */
_spdk_blob_persist_complete(seq, ctx, bserrno);
}
static void
_spdk_blob_persist_clear_clusters(spdk_bs_sequence_t *seq, void *cb_arg, int bserrno)
{
struct spdk_blob_persist_ctx *ctx = cb_arg;
struct spdk_blob *blob = ctx->blob;
struct spdk_blob_store *bs = blob->bs;
spdk_bs_batch_t *batch;
size_t i;
uint64_t lba;
uint32_t lba_count;
if (bserrno != 0) {
_spdk_blob_persist_complete(seq, ctx, bserrno);
return;
}
/* Clusters don't move around in blobs. The list shrinks or grows
* at the end, but no changes ever occur in the middle of the list.
*/
batch = bs_sequence_to_batch(seq, _spdk_blob_persist_clear_clusters_cpl, ctx);
/* Clear all clusters that were truncated */
lba = 0;
lba_count = 0;
for (i = blob->active.num_clusters; i < blob->active.cluster_array_size; i++) {
uint64_t next_lba = blob->active.clusters[i];
uint32_t next_lba_count = _spdk_bs_cluster_to_lba(bs, 1);
if (next_lba > 0 && (lba + lba_count) == next_lba) {
/* This cluster is contiguous with the previous one. */
lba_count += next_lba_count;
continue;
}
/* This cluster is not contiguous with the previous one. */
/* If a run of LBAs previously existing, clear them now */
if (lba_count > 0) {
spdk_bs_batch_clear_dev(ctx, batch, lba, lba_count);
}
/* Start building the next batch */
lba = next_lba;
if (next_lba > 0) {
lba_count = next_lba_count;
} else {
lba_count = 0;
}
}
/* If we ended with a contiguous set of LBAs, clear them now */
if (lba_count > 0) {
spdk_bs_batch_clear_dev(ctx, batch, lba, lba_count);
}
bs_batch_close(batch);
}
static void
_spdk_blob_persist_zero_pages_cpl(spdk_bs_sequence_t *seq, void *cb_arg, int bserrno)
{
struct spdk_blob_persist_ctx *ctx = cb_arg;
struct spdk_blob *blob = ctx->blob;
struct spdk_blob_store *bs = blob->bs;
size_t i;
if (bserrno != 0) {
_spdk_blob_persist_complete(seq, ctx, bserrno);
return;
}
/* This loop starts at 1 because the first page is special and handled
* below. The pages (except the first) are never written in place,
* so any pages in the clean list must be zeroed.
*/
for (i = 1; i < blob->clean.num_pages; i++) {
_spdk_bs_release_md_page(bs, blob->clean.pages[i]);
}
if (blob->active.num_pages == 0) {
uint32_t page_num;
page_num = _spdk_bs_blobid_to_page(blob->id);
_spdk_bs_release_md_page(bs, page_num);
}
/* Move on to clearing clusters */
_spdk_blob_persist_clear_clusters(seq, ctx, 0);
}
static void
_spdk_blob_persist_zero_pages(spdk_bs_sequence_t *seq, void *cb_arg, int bserrno)
{
struct spdk_blob_persist_ctx *ctx = cb_arg;
struct spdk_blob *blob = ctx->blob;
struct spdk_blob_store *bs = blob->bs;
uint64_t lba;
uint32_t lba_count;
spdk_bs_batch_t *batch;
size_t i;
if (bserrno != 0) {
_spdk_blob_persist_complete(seq, ctx, bserrno);
return;
}
batch = bs_sequence_to_batch(seq, _spdk_blob_persist_zero_pages_cpl, ctx);
lba_count = _spdk_bs_byte_to_lba(bs, SPDK_BS_PAGE_SIZE);
/* This loop starts at 1 because the first page is special and handled
* below. The pages (except the first) are never written in place,
* so any pages in the clean list must be zeroed.
*/
for (i = 1; i < blob->clean.num_pages; i++) {
lba = _spdk_bs_md_page_to_lba(bs, blob->clean.pages[i]);
bs_batch_write_zeroes_dev(batch, lba, lba_count);
}
/* The first page will only be zeroed if this is a delete. */
if (blob->active.num_pages == 0) {
uint32_t page_num;
/* The first page in the metadata goes where the blobid indicates */
page_num = _spdk_bs_blobid_to_page(blob->id);
lba = _spdk_bs_md_page_to_lba(bs, page_num);
bs_batch_write_zeroes_dev(batch, lba, lba_count);
}
bs_batch_close(batch);
}
static void
_spdk_blob_persist_write_page_root(spdk_bs_sequence_t *seq, void *cb_arg, int bserrno)
{
struct spdk_blob_persist_ctx *ctx = cb_arg;
struct spdk_blob *blob = ctx->blob;
struct spdk_blob_store *bs = blob->bs;
uint64_t lba;
uint32_t lba_count;
struct spdk_blob_md_page *page;
if (bserrno != 0) {
_spdk_blob_persist_complete(seq, ctx, bserrno);
return;
}
if (blob->active.num_pages == 0) {
/* Move on to the next step */
_spdk_blob_persist_zero_pages(seq, ctx, 0);
return;
}
lba_count = _spdk_bs_byte_to_lba(bs, sizeof(*page));
page = &ctx->pages[0];
/* The first page in the metadata goes where the blobid indicates */
lba = _spdk_bs_md_page_to_lba(bs, _spdk_bs_blobid_to_page(blob->id));
bs_sequence_write_dev(seq, page, lba, lba_count,
_spdk_blob_persist_zero_pages, ctx);
}
static void
_spdk_blob_persist_write_page_chain(spdk_bs_sequence_t *seq, void *cb_arg, int bserrno)
{
struct spdk_blob_persist_ctx *ctx = cb_arg;
struct spdk_blob *blob = ctx->blob;
struct spdk_blob_store *bs = blob->bs;
uint64_t lba;
uint32_t lba_count;
struct spdk_blob_md_page *page;
spdk_bs_batch_t *batch;
size_t i;
if (bserrno != 0) {
_spdk_blob_persist_complete(seq, ctx, bserrno);
return;
}
/* Clusters don't move around in blobs. The list shrinks or grows
* at the end, but no changes ever occur in the middle of the list.
*/
lba_count = _spdk_bs_byte_to_lba(bs, sizeof(*page));
batch = bs_sequence_to_batch(seq, _spdk_blob_persist_write_page_root, ctx);
/* This starts at 1. The root page is not written until
* all of the others are finished
*/
for (i = 1; i < blob->active.num_pages; i++) {
page = &ctx->pages[i];
assert(page->sequence_num == i);
lba = _spdk_bs_md_page_to_lba(bs, blob->active.pages[i]);
bs_batch_write_dev(batch, page, lba, lba_count);
}
bs_batch_close(batch);
}
static int
_spdk_blob_resize(struct spdk_blob *blob, uint64_t sz)
{
uint64_t i;
uint64_t *tmp;
uint64_t lfc; /* lowest free cluster */
uint32_t lfmd; /* lowest free md page */
uint64_t num_clusters;
uint32_t *ep_tmp;
uint64_t new_num_ep = 0, current_num_ep = 0;
struct spdk_blob_store *bs;
bs = blob->bs;
_spdk_blob_verify_md_op(blob);
if (blob->active.num_clusters == sz) {
return 0;
}
if (blob->active.num_clusters < blob->active.cluster_array_size) {
/* If this blob was resized to be larger, then smaller, then
* larger without syncing, then the cluster array already
* contains spare assigned clusters we can use.
*/
num_clusters = spdk_min(blob->active.cluster_array_size,
sz);
} else {
num_clusters = blob->active.num_clusters;
}
if (blob->use_extent_table) {
/* Round up since every cluster beyond current Extent Table size,
* requires new extent page. */
new_num_ep = spdk_divide_round_up(sz, SPDK_EXTENTS_PER_EP);
current_num_ep = spdk_divide_round_up(num_clusters, SPDK_EXTENTS_PER_EP);
}
/* Do two passes - one to verify that we can obtain enough clusters
* and md pages, another to actually claim them.
*/
if (spdk_blob_is_thin_provisioned(blob) == false) {
lfc = 0;
for (i = num_clusters; i < sz; i++) {
lfc = spdk_bit_array_find_first_clear(bs->used_clusters, lfc);
if (lfc == UINT32_MAX) {
/* No more free clusters. Cannot satisfy the request */
return -ENOSPC;
}
lfc++;
}
lfmd = 0;
for (i = current_num_ep; i < new_num_ep ; i++) {
lfmd = spdk_bit_array_find_first_clear(blob->bs->used_md_pages, lfmd);
if (lfmd == UINT32_MAX) {
/* No more free md pages. Cannot satisfy the request */
return -ENOSPC;
}
}
}
if (sz > num_clusters) {
/* Expand the cluster array if necessary.
* We only shrink the array when persisting.
*/
tmp = realloc(blob->active.clusters, sizeof(*blob->active.clusters) * sz);
if (sz > 0 && tmp == NULL) {
return -ENOMEM;
}
memset(tmp + blob->active.cluster_array_size, 0,
sizeof(*blob->active.clusters) * (sz - blob->active.cluster_array_size));
blob->active.clusters = tmp;
blob->active.cluster_array_size = sz;
/* Expand the extents table, only if enough clusters were added */
if (new_num_ep > current_num_ep && blob->use_extent_table) {
ep_tmp = realloc(blob->active.extent_pages, sizeof(*blob->active.extent_pages) * new_num_ep);
if (new_num_ep > 0 && ep_tmp == NULL) {
return -ENOMEM;
}
memset(ep_tmp + blob->active.extent_pages_array_size, 0,
sizeof(*blob->active.extent_pages) * (new_num_ep - blob->active.extent_pages_array_size));
blob->active.extent_pages = ep_tmp;
blob->active.extent_pages_array_size = new_num_ep;
}
}
blob->state = SPDK_BLOB_STATE_DIRTY;
if (spdk_blob_is_thin_provisioned(blob) == false) {
lfc = 0;
lfmd = 0;
for (i = num_clusters; i < sz; i++) {
_spdk_bs_allocate_cluster(blob, i, &lfc, &lfmd, true);
lfc++;
lfmd++;
}
}
blob->active.num_clusters = sz;
blob->active.num_extent_pages = new_num_ep;
return 0;
}
static void
_spdk_blob_persist_generate_new_md(struct spdk_blob_persist_ctx *ctx)
{
spdk_bs_sequence_t *seq = ctx->seq;
struct spdk_blob *blob = ctx->blob;
struct spdk_blob_store *bs = blob->bs;
uint64_t i;
uint32_t page_num;
void *tmp;
int rc;
/* Generate the new metadata */
rc = _spdk_blob_serialize(blob, &ctx->pages, &blob->active.num_pages);
if (rc < 0) {
_spdk_blob_persist_complete(seq, ctx, rc);
return;
}
assert(blob->active.num_pages >= 1);
/* Resize the cache of page indices */
tmp = realloc(blob->active.pages, blob->active.num_pages * sizeof(*blob->active.pages));
if (!tmp) {
_spdk_blob_persist_complete(seq, ctx, -ENOMEM);
return;
}
blob->active.pages = tmp;
/* Assign this metadata to pages. This requires two passes -
* one to verify that there are enough pages and a second
* to actually claim them. */
page_num = 0;
/* Note that this loop starts at one. The first page location is fixed by the blobid. */
for (i = 1; i < blob->active.num_pages; i++) {
page_num = spdk_bit_array_find_first_clear(bs->used_md_pages, page_num);
if (page_num == UINT32_MAX) {
_spdk_blob_persist_complete(seq, ctx, -ENOMEM);
return;
}
page_num++;
}
page_num = 0;
blob->active.pages[0] = _spdk_bs_blobid_to_page(blob->id);
for (i = 1; i < blob->active.num_pages; i++) {
page_num = spdk_bit_array_find_first_clear(bs->used_md_pages, page_num);
ctx->pages[i - 1].next = page_num;
/* Now that previous metadata page is complete, calculate the crc for it. */
ctx->pages[i - 1].crc = _spdk_blob_md_page_calc_crc(&ctx->pages[i - 1]);
blob->active.pages[i] = page_num;
_spdk_bs_claim_md_page(bs, page_num);
SPDK_DEBUGLOG(SPDK_LOG_BLOB, "Claiming page %u for blob %lu\n", page_num, blob->id);
page_num++;
}
ctx->pages[i - 1].crc = _spdk_blob_md_page_calc_crc(&ctx->pages[i - 1]);
/* Start writing the metadata from last page to first */
blob->state = SPDK_BLOB_STATE_CLEAN;
_spdk_blob_persist_write_page_chain(seq, ctx, 0);
}
static void
_spdk_blob_persist_write_extent_pages(spdk_bs_sequence_t *seq, void *cb_arg, int bserrno)
{
struct spdk_blob_persist_ctx *ctx = cb_arg;
struct spdk_blob *blob = ctx->blob;
size_t i;
uint32_t extent_page_id;
uint32_t page_count = 0;
int rc;
if (ctx->extent_page != NULL) {
spdk_free(ctx->extent_page);
ctx->extent_page = NULL;
}
if (bserrno != 0) {
_spdk_blob_persist_complete(seq, ctx, bserrno);
return;
}
/* Only write out changed extent pages */
for (i = ctx->next_extent_page; i < blob->active.num_extent_pages; i++) {
extent_page_id = blob->active.extent_pages[i];
if (extent_page_id == 0) {
/* No Extent Page to persist */
assert(spdk_blob_is_thin_provisioned(blob));
continue;
}
/* Writing out new extent page for the first time. Either active extent pages is larger
* than clean extent pages or there was no extent page assigned due to thin provisioning. */
if (i >= blob->clean.extent_pages_array_size || blob->clean.extent_pages[i] == 0) {
blob->state = SPDK_BLOB_STATE_DIRTY;
assert(spdk_bit_array_get(blob->bs->used_md_pages, extent_page_id));
ctx->next_extent_page = i + 1;
rc = _spdk_blob_serialize_add_page(ctx->blob, &ctx->extent_page, &page_count, &ctx->extent_page);
if (rc < 0) {
_spdk_blob_persist_complete(seq, ctx, rc);
return;
}
_spdk_blob_serialize_extent_page(blob, i * SPDK_EXTENTS_PER_EP, ctx->extent_page);
ctx->extent_page->crc = _spdk_blob_md_page_calc_crc(ctx->extent_page);
bs_sequence_write_dev(seq, ctx->extent_page, _spdk_bs_md_page_to_lba(blob->bs, extent_page_id),
_spdk_bs_byte_to_lba(blob->bs, SPDK_BS_PAGE_SIZE),
_spdk_blob_persist_write_extent_pages, ctx);
return;
}
assert(blob->clean.extent_pages[i] != 0);
}
_spdk_blob_persist_generate_new_md(ctx);
}
static void
_spdk_blob_persist_start(struct spdk_blob_persist_ctx *ctx)
{
spdk_bs_sequence_t *seq = ctx->seq;
struct spdk_blob *blob = ctx->blob;
if (blob->active.num_pages == 0) {
/* This is the signal that the blob should be deleted.
* Immediately jump to the clean up routine. */
assert(blob->clean.num_pages > 0);
blob->state = SPDK_BLOB_STATE_CLEAN;
_spdk_blob_persist_zero_pages(seq, ctx, 0);
return;
}
_spdk_blob_persist_write_extent_pages(seq, ctx, 0);
}
static void
_spdk_blob_persist_dirty_cpl(spdk_bs_sequence_t *seq, void *cb_arg, int bserrno)
{
struct spdk_blob_persist_ctx *ctx = cb_arg;
spdk_free(ctx->super);
if (bserrno != 0) {
_spdk_blob_persist_complete(seq, ctx, bserrno);
return;
}
ctx->blob->bs->clean = 0;
_spdk_blob_persist_start(ctx);
}
static void
_spdk_bs_write_super(spdk_bs_sequence_t *seq, struct spdk_blob_store *bs,
struct spdk_bs_super_block *super, spdk_bs_sequence_cpl cb_fn, void *cb_arg);
static void
_spdk_blob_persist_dirty(spdk_bs_sequence_t *seq, void *cb_arg, int bserrno)
{
struct spdk_blob_persist_ctx *ctx = cb_arg;
if (bserrno != 0) {
spdk_free(ctx->super);
_spdk_blob_persist_complete(seq, ctx, bserrno);
return;
}
ctx->super->clean = 0;
if (ctx->super->size == 0) {
ctx->super->size = ctx->blob->bs->dev->blockcnt * ctx->blob->bs->dev->blocklen;
}
_spdk_bs_write_super(seq, ctx->blob->bs, ctx->super, _spdk_blob_persist_dirty_cpl, ctx);
}
static void
_spdk_blob_persist_check_dirty(struct spdk_blob_persist_ctx *ctx)
{
if (ctx->blob->bs->clean) {
ctx->super = spdk_zmalloc(sizeof(*ctx->super), 0x1000, NULL,
SPDK_ENV_SOCKET_ID_ANY, SPDK_MALLOC_DMA);
if (!ctx->super) {
_spdk_blob_persist_complete(ctx->seq, ctx, -ENOMEM);
return;
}
bs_sequence_read_dev(ctx->seq, ctx->super, _spdk_bs_page_to_lba(ctx->blob->bs, 0),
_spdk_bs_byte_to_lba(ctx->blob->bs, sizeof(*ctx->super)),
_spdk_blob_persist_dirty, ctx);
} else {
_spdk_blob_persist_start(ctx);
}
}
/* Write a blob to disk */
static void
_spdk_blob_persist(spdk_bs_sequence_t *seq, struct spdk_blob *blob,
spdk_bs_sequence_cpl cb_fn, void *cb_arg)
{
struct spdk_blob_persist_ctx *ctx;
_spdk_blob_verify_md_op(blob);
if (blob->state == SPDK_BLOB_STATE_CLEAN && TAILQ_EMPTY(&blob->pending_persists)) {
cb_fn(seq, cb_arg, 0);
return;
}
ctx = calloc(1, sizeof(*ctx));
if (!ctx) {
cb_fn(seq, cb_arg, -ENOMEM);
return;
}
ctx->blob = blob;
ctx->seq = seq;
ctx->cb_fn = cb_fn;
ctx->cb_arg = cb_arg;
ctx->next_extent_page = 0;
/* Multiple blob persists can affect one another, via blob->state or
* blob mutable data changes. To prevent it, queue up the persists. */
if (!TAILQ_EMPTY(&blob->pending_persists)) {
TAILQ_INSERT_TAIL(&blob->pending_persists, ctx, link);
return;
}
TAILQ_INSERT_HEAD(&blob->pending_persists, ctx, link);
_spdk_blob_persist_check_dirty(ctx);
}
struct spdk_blob_copy_cluster_ctx {
struct spdk_blob *blob;
uint8_t *buf;
uint64_t page;
uint64_t new_cluster;
uint32_t new_extent_page;
spdk_bs_sequence_t *seq;
};
static void
_spdk_blob_allocate_and_copy_cluster_cpl(void *cb_arg, int bserrno)
{
struct spdk_blob_copy_cluster_ctx *ctx = cb_arg;
struct spdk_bs_request_set *set = (struct spdk_bs_request_set *)ctx->seq;
TAILQ_HEAD(, spdk_bs_request_set) requests;
spdk_bs_user_op_t *op;
TAILQ_INIT(&requests);
TAILQ_SWAP(&set->channel->need_cluster_alloc, &requests, spdk_bs_request_set, link);
while (!TAILQ_EMPTY(&requests)) {
op = TAILQ_FIRST(&requests);
TAILQ_REMOVE(&requests, op, link);
if (bserrno == 0) {
bs_user_op_execute(op);
} else {
bs_user_op_abort(op);
}
}
spdk_free(ctx->buf);
free(ctx);
}
static void
_spdk_blob_insert_cluster_cpl(void *cb_arg, int bserrno)
{
struct spdk_blob_copy_cluster_ctx *ctx = cb_arg;
if (bserrno) {
if (bserrno == -EEXIST) {
/* The metadata insert failed because another thread
* allocated the cluster first. Free our cluster
* but continue without error. */
bserrno = 0;
}
_spdk_bs_release_cluster(ctx->blob->bs, ctx->new_cluster);
if (ctx->new_extent_page != 0) {
_spdk_bs_release_md_page(ctx->blob->bs, ctx->new_extent_page);
}
}
bs_sequence_finish(ctx->seq, bserrno);
}
static void
_spdk_blob_write_copy_cpl(spdk_bs_sequence_t *seq, void *cb_arg, int bserrno)
{
struct spdk_blob_copy_cluster_ctx *ctx = cb_arg;
uint32_t cluster_number;
if (bserrno) {
/* The write failed, so jump to the final completion handler */
bs_sequence_finish(seq, bserrno);
return;
}
cluster_number = _spdk_bs_page_to_cluster(ctx->blob->bs, ctx->page);
_spdk_blob_insert_cluster_on_md_thread(ctx->blob, cluster_number, ctx->new_cluster,
ctx->new_extent_page, _spdk_blob_insert_cluster_cpl, ctx);
}
static void
_spdk_blob_write_copy(spdk_bs_sequence_t *seq, void *cb_arg, int bserrno)
{
struct spdk_blob_copy_cluster_ctx *ctx = cb_arg;
if (bserrno != 0) {
/* The read failed, so jump to the final completion handler */
bs_sequence_finish(seq, bserrno);
return;
}
/* Write whole cluster */
bs_sequence_write_dev(seq, ctx->buf,
_spdk_bs_cluster_to_lba(ctx->blob->bs, ctx->new_cluster),
_spdk_bs_cluster_to_lba(ctx->blob->bs, 1),
_spdk_blob_write_copy_cpl, ctx);
}
static void
_spdk_bs_allocate_and_copy_cluster(struct spdk_blob *blob,
struct spdk_io_channel *_ch,
uint64_t io_unit, spdk_bs_user_op_t *op)
{
struct spdk_bs_cpl cpl;
struct spdk_bs_channel *ch;
struct spdk_blob_copy_cluster_ctx *ctx;
uint32_t cluster_start_page;
uint32_t cluster_number;
int rc;
ch = spdk_io_channel_get_ctx(_ch);
if (!TAILQ_EMPTY(&ch->need_cluster_alloc)) {
/* There are already operations pending. Queue this user op
* and return because it will be re-executed when the outstanding
* cluster allocation completes. */
TAILQ_INSERT_TAIL(&ch->need_cluster_alloc, op, link);
return;
}
/* Round the io_unit offset down to the first page in the cluster */
cluster_start_page = _spdk_bs_io_unit_to_cluster_start(blob, io_unit);
/* Calculate which index in the metadata cluster array the corresponding
* cluster is supposed to be at. */
cluster_number = _spdk_bs_io_unit_to_cluster_number(blob, io_unit);
ctx = calloc(1, sizeof(*ctx));
if (!ctx) {
bs_user_op_abort(op);
return;
}
assert(blob->bs->cluster_sz % blob->back_bs_dev->blocklen == 0);
ctx->blob = blob;
ctx->page = cluster_start_page;
if (blob->parent_id != SPDK_BLOBID_INVALID) {
ctx->buf = spdk_malloc(blob->bs->cluster_sz, blob->back_bs_dev->blocklen,
NULL, SPDK_ENV_SOCKET_ID_ANY, SPDK_MALLOC_DMA);
if (!ctx->buf) {
SPDK_ERRLOG("DMA allocation for cluster of size = %" PRIu32 " failed.\n",
blob->bs->cluster_sz);
free(ctx);
bs_user_op_abort(op);
return;
}
}
rc = _spdk_bs_allocate_cluster(blob, cluster_number, &ctx->new_cluster, &ctx->new_extent_page,
false);
if (rc != 0) {
spdk_free(ctx->buf);
free(ctx);
bs_user_op_abort(op);
return;
}
cpl.type = SPDK_BS_CPL_TYPE_BLOB_BASIC;
cpl.u.blob_basic.cb_fn = _spdk_blob_allocate_and_copy_cluster_cpl;
cpl.u.blob_basic.cb_arg = ctx;
ctx->seq = bs_sequence_start(_ch, &cpl);
if (!ctx->seq) {
_spdk_bs_release_cluster(blob->bs, ctx->new_cluster);
spdk_free(ctx->buf);
free(ctx);
bs_user_op_abort(op);
return;
}
/* Queue the user op to block other incoming operations */
TAILQ_INSERT_TAIL(&ch->need_cluster_alloc, op, link);
if (blob->parent_id != SPDK_BLOBID_INVALID) {
/* Read cluster from backing device */
bs_sequence_read_bs_dev(ctx->seq, blob->back_bs_dev, ctx->buf,
_spdk_bs_dev_page_to_lba(blob->back_bs_dev, cluster_start_page),
_spdk_bs_dev_byte_to_lba(blob->back_bs_dev, blob->bs->cluster_sz),
_spdk_blob_write_copy, ctx);
} else {
_spdk_blob_insert_cluster_on_md_thread(ctx->blob, cluster_number, ctx->new_cluster,
ctx->new_extent_page, _spdk_blob_insert_cluster_cpl, ctx);
}
}
static inline void
_spdk_blob_calculate_lba_and_lba_count(struct spdk_blob *blob, uint64_t io_unit, uint64_t length,
uint64_t *lba, uint32_t *lba_count)
{
*lba_count = length;
if (!_spdk_bs_io_unit_is_allocated(blob, io_unit)) {
assert(blob->back_bs_dev != NULL);
*lba = _spdk_bs_io_unit_to_back_dev_lba(blob, io_unit);
*lba_count = _spdk_bs_io_unit_to_back_dev_lba(blob, *lba_count);
} else {
*lba = _spdk_bs_blob_io_unit_to_lba(blob, io_unit);
}
}
struct op_split_ctx {
struct spdk_blob *blob;
struct spdk_io_channel *channel;
uint64_t io_unit_offset;
uint64_t io_units_remaining;
void *curr_payload;
enum spdk_blob_op_type op_type;
spdk_bs_sequence_t *seq;
};
static void
_spdk_blob_request_submit_op_split_next(void *cb_arg, int bserrno)
{
struct op_split_ctx *ctx = cb_arg;
struct spdk_blob *blob = ctx->blob;
struct spdk_io_channel *ch = ctx->channel;
enum spdk_blob_op_type op_type = ctx->op_type;
uint8_t *buf = ctx->curr_payload;
uint64_t offset = ctx->io_unit_offset;
uint64_t length = ctx->io_units_remaining;
uint64_t op_length;
if (bserrno != 0 || ctx->io_units_remaining == 0) {
bs_sequence_finish(ctx->seq, bserrno);
free(ctx);
return;
}
op_length = spdk_min(length, _spdk_bs_num_io_units_to_cluster_boundary(blob,
offset));
/* Update length and payload for next operation */
ctx->io_units_remaining -= op_length;
ctx->io_unit_offset += op_length;
if (op_type == SPDK_BLOB_WRITE || op_type == SPDK_BLOB_READ) {
ctx->curr_payload += op_length * blob->bs->io_unit_size;
}
switch (op_type) {
case SPDK_BLOB_READ:
spdk_blob_io_read(blob, ch, buf, offset, op_length,
_spdk_blob_request_submit_op_split_next, ctx);
break;
case SPDK_BLOB_WRITE:
spdk_blob_io_write(blob, ch, buf, offset, op_length,
_spdk_blob_request_submit_op_split_next, ctx);
break;
case SPDK_BLOB_UNMAP:
spdk_blob_io_unmap(blob, ch, offset, op_length,
_spdk_blob_request_submit_op_split_next, ctx);
break;
case SPDK_BLOB_WRITE_ZEROES:
spdk_blob_io_write_zeroes(blob, ch, offset, op_length,
_spdk_blob_request_submit_op_split_next, ctx);
break;
case SPDK_BLOB_READV:
case SPDK_BLOB_WRITEV:
SPDK_ERRLOG("readv/write not valid\n");
bs_sequence_finish(ctx->seq, -EINVAL);
free(ctx);
break;
}
}
static void
_spdk_blob_request_submit_op_split(struct spdk_io_channel *ch, struct spdk_blob *blob,
void *payload, uint64_t offset, uint64_t length,
spdk_blob_op_complete cb_fn, void *cb_arg, enum spdk_blob_op_type op_type)
{
struct op_split_ctx *ctx;
spdk_bs_sequence_t *seq;
struct spdk_bs_cpl cpl;
assert(blob != NULL);
ctx = calloc(1, sizeof(struct op_split_ctx));
if (ctx == NULL) {
cb_fn(cb_arg, -ENOMEM);
return;
}
cpl.type = SPDK_BS_CPL_TYPE_BLOB_BASIC;
cpl.u.blob_basic.cb_fn = cb_fn;
cpl.u.blob_basic.cb_arg = cb_arg;
seq = bs_sequence_start(ch, &cpl);
if (!seq) {
free(ctx);
cb_fn(cb_arg, -ENOMEM);
return;
}
ctx->blob = blob;
ctx->channel = ch;
ctx->curr_payload = payload;
ctx->io_unit_offset = offset;
ctx->io_units_remaining = length;
ctx->op_type = op_type;
ctx->seq = seq;
_spdk_blob_request_submit_op_split_next(ctx, 0);
}
static void
_spdk_blob_request_submit_op_single(struct spdk_io_channel *_ch, struct spdk_blob *blob,
void *payload, uint64_t offset, uint64_t length,
spdk_blob_op_complete cb_fn, void *cb_arg, enum spdk_blob_op_type op_type)
{
struct spdk_bs_cpl cpl;
uint64_t lba;
uint32_t lba_count;
assert(blob != NULL);
cpl.type = SPDK_BS_CPL_TYPE_BLOB_BASIC;
cpl.u.blob_basic.cb_fn = cb_fn;
cpl.u.blob_basic.cb_arg = cb_arg;
_spdk_blob_calculate_lba_and_lba_count(blob, offset, length, &lba, &lba_count);
if (blob->frozen_refcnt) {
/* This blob I/O is frozen */
spdk_bs_user_op_t *op;
struct spdk_bs_channel *bs_channel = spdk_io_channel_get_ctx(_ch);
op = bs_user_op_alloc(_ch, &cpl, op_type, blob, payload, 0, offset, length);
if (!op) {
cb_fn(cb_arg, -ENOMEM);
return;
}
TAILQ_INSERT_TAIL(&bs_channel->queued_io, op, link);
return;
}
switch (op_type) {
case SPDK_BLOB_READ: {
spdk_bs_batch_t *batch;
batch = bs_batch_open(_ch, &cpl);
if (!batch) {
cb_fn(cb_arg, -ENOMEM);
return;
}
if (_spdk_bs_io_unit_is_allocated(blob, offset)) {
/* Read from the blob */
bs_batch_read_dev(batch, payload, lba, lba_count);
} else {
/* Read from the backing block device */
spdk_bs_batch_read_bs_dev(batch, blob->back_bs_dev, payload, lba, lba_count);
}
bs_batch_close(batch);
break;
}
case SPDK_BLOB_WRITE:
case SPDK_BLOB_WRITE_ZEROES: {
if (_spdk_bs_io_unit_is_allocated(blob, offset)) {
/* Write to the blob */
spdk_bs_batch_t *batch;
if (lba_count == 0) {
cb_fn(cb_arg, 0);
return;
}
batch = bs_batch_open(_ch, &cpl);
if (!batch) {
cb_fn(cb_arg, -ENOMEM);
return;
}
if (op_type == SPDK_BLOB_WRITE) {
bs_batch_write_dev(batch, payload, lba, lba_count);
} else {
bs_batch_write_zeroes_dev(batch, lba, lba_count);
}
bs_batch_close(batch);
} else {
/* Queue this operation and allocate the cluster */
spdk_bs_user_op_t *op;
op = bs_user_op_alloc(_ch, &cpl, op_type, blob, payload, 0, offset, length);
if (!op) {
cb_fn(cb_arg, -ENOMEM);
return;
}
_spdk_bs_allocate_and_copy_cluster(blob, _ch, offset, op);
}
break;
}
case SPDK_BLOB_UNMAP: {
spdk_bs_batch_t *batch;
batch = bs_batch_open(_ch, &cpl);
if (!batch) {
cb_fn(cb_arg, -ENOMEM);
return;
}
if (_spdk_bs_io_unit_is_allocated(blob, offset)) {
bs_batch_unmap_dev(batch, lba, lba_count);
}
bs_batch_close(batch);
break;
}
case SPDK_BLOB_READV:
case SPDK_BLOB_WRITEV:
SPDK_ERRLOG("readv/write not valid\n");
cb_fn(cb_arg, -EINVAL);
break;
}
}
static void
_spdk_blob_request_submit_op(struct spdk_blob *blob, struct spdk_io_channel *_channel,
void *payload, uint64_t offset, uint64_t length,
spdk_blob_op_complete cb_fn, void *cb_arg, enum spdk_blob_op_type op_type)
{
assert(blob != NULL);
if (blob->data_ro && op_type != SPDK_BLOB_READ) {
cb_fn(cb_arg, -EPERM);
return;
}
if (offset + length > _spdk_bs_cluster_to_lba(blob->bs, blob->active.num_clusters)) {
cb_fn(cb_arg, -EINVAL);
return;
}
if (length <= _spdk_bs_num_io_units_to_cluster_boundary(blob, offset)) {
_spdk_blob_request_submit_op_single(_channel, blob, payload, offset, length,
cb_fn, cb_arg, op_type);
} else {
_spdk_blob_request_submit_op_split(_channel, blob, payload, offset, length,
cb_fn, cb_arg, op_type);
}
}
struct rw_iov_ctx {
struct spdk_blob *blob;
struct spdk_io_channel *channel;
spdk_blob_op_complete cb_fn;
void *cb_arg;
bool read;
int iovcnt;
struct iovec *orig_iov;
uint64_t io_unit_offset;
uint64_t io_units_remaining;
uint64_t io_units_done;
struct iovec iov[0];
};
static void
_spdk_rw_iov_done(spdk_bs_sequence_t *seq, void *cb_arg, int bserrno)
{
assert(cb_arg == NULL);
bs_sequence_finish(seq, bserrno);
}
static void
_spdk_rw_iov_split_next(void *cb_arg, int bserrno)
{
struct rw_iov_ctx *ctx = cb_arg;
struct spdk_blob *blob = ctx->blob;
struct iovec *iov, *orig_iov;
int iovcnt;
size_t orig_iovoff;
uint64_t io_units_count, io_units_to_boundary, io_unit_offset;
uint64_t byte_count;
if (bserrno != 0 || ctx->io_units_remaining == 0) {
ctx->cb_fn(ctx->cb_arg, bserrno);
free(ctx);
return;
}
io_unit_offset = ctx->io_unit_offset;
io_units_to_boundary = _spdk_bs_num_io_units_to_cluster_boundary(blob, io_unit_offset);
io_units_count = spdk_min(ctx->io_units_remaining, io_units_to_boundary);
/*
* Get index and offset into the original iov array for our current position in the I/O sequence.
* byte_count will keep track of how many bytes remaining until orig_iov and orig_iovoff will
* point to the current position in the I/O sequence.
*/
byte_count = ctx->io_units_done * blob->bs->io_unit_size;
orig_iov = &ctx->orig_iov[0];
orig_iovoff = 0;
while (byte_count > 0) {
if (byte_count >= orig_iov->iov_len) {
byte_count -= orig_iov->iov_len;
orig_iov++;
} else {
orig_iovoff = byte_count;
byte_count = 0;
}
}
/*
* Build an iov array for the next I/O in the sequence. byte_count will keep track of how many
* bytes of this next I/O remain to be accounted for in the new iov array.
*/
byte_count = io_units_count * blob->bs->io_unit_size;
iov = &ctx->iov[0];
iovcnt = 0;
while (byte_count > 0) {
assert(iovcnt < ctx->iovcnt);
iov->iov_len = spdk_min(byte_count, orig_iov->iov_len - orig_iovoff);
iov->iov_base = orig_iov->iov_base + orig_iovoff;
byte_count -= iov->iov_len;
orig_iovoff = 0;
orig_iov++;
iov++;
iovcnt++;
}
ctx->io_unit_offset += io_units_count;
ctx->io_units_remaining -= io_units_count;
ctx->io_units_done += io_units_count;
iov = &ctx->iov[0];
if (ctx->read) {
spdk_blob_io_readv(ctx->blob, ctx->channel, iov, iovcnt, io_unit_offset,
io_units_count, _spdk_rw_iov_split_next, ctx);
} else {
spdk_blob_io_writev(ctx->blob, ctx->channel, iov, iovcnt, io_unit_offset,
io_units_count, _spdk_rw_iov_split_next, ctx);
}
}
static void
_spdk_blob_request_submit_rw_iov(struct spdk_blob *blob, struct spdk_io_channel *_channel,
struct iovec *iov, int iovcnt, uint64_t offset, uint64_t length,
spdk_blob_op_complete cb_fn, void *cb_arg, bool read)
{
struct spdk_bs_cpl cpl;
assert(blob != NULL);
if (!read && blob->data_ro) {
cb_fn(cb_arg, -EPERM);
return;
}
if (length == 0) {
cb_fn(cb_arg, 0);
return;
}
if (offset + length > _spdk_bs_cluster_to_lba(blob->bs, blob->active.num_clusters)) {
cb_fn(cb_arg, -EINVAL);
return;
}
/*
* For now, we implement readv/writev using a sequence (instead of a batch) to account for having
* to split a request that spans a cluster boundary. For I/O that do not span a cluster boundary,
* there will be no noticeable difference compared to using a batch. For I/O that do span a cluster
* boundary, the target LBAs (after blob offset to LBA translation) may not be contiguous, so we need
* to allocate a separate iov array and split the I/O such that none of the resulting
* smaller I/O cross a cluster boundary. These smaller I/O will be issued in sequence (not in parallel)
* but since this case happens very infrequently, any performance impact will be negligible.
*
* This could be optimized in the future to allocate a big enough iov array to account for all of the iovs
* for all of the smaller I/Os, pre-build all of the iov arrays for the smaller I/Os, then issue them
* in a batch. That would also require creating an intermediate spdk_bs_cpl that would get called
* when the batch was completed, to allow for freeing the memory for the iov arrays.
*/
if (spdk_likely(length <= _spdk_bs_num_io_units_to_cluster_boundary(blob, offset))) {
uint32_t lba_count;
uint64_t lba;
cpl.type = SPDK_BS_CPL_TYPE_BLOB_BASIC;
cpl.u.blob_basic.cb_fn = cb_fn;
cpl.u.blob_basic.cb_arg = cb_arg;
if (blob->frozen_refcnt) {
/* This blob I/O is frozen */
enum spdk_blob_op_type op_type;
spdk_bs_user_op_t *op;
struct spdk_bs_channel *bs_channel = spdk_io_channel_get_ctx(_channel);
op_type = read ? SPDK_BLOB_READV : SPDK_BLOB_WRITEV;
op = bs_user_op_alloc(_channel, &cpl, op_type, blob, iov, iovcnt, offset, length);
if (!op) {
cb_fn(cb_arg, -ENOMEM);
return;
}
TAILQ_INSERT_TAIL(&bs_channel->queued_io, op, link);
return;
}
_spdk_blob_calculate_lba_and_lba_count(blob, offset, length, &lba, &lba_count);
if (read) {
spdk_bs_sequence_t *seq;
seq = bs_sequence_start(_channel, &cpl);
if (!seq) {
cb_fn(cb_arg, -ENOMEM);
return;
}
if (_spdk_bs_io_unit_is_allocated(blob, offset)) {
bs_sequence_readv_dev(seq, iov, iovcnt, lba, lba_count, _spdk_rw_iov_done, NULL);
} else {
bs_sequence_readv_bs_dev(seq, blob->back_bs_dev, iov, iovcnt, lba, lba_count,
_spdk_rw_iov_done, NULL);
}
} else {
if (_spdk_bs_io_unit_is_allocated(blob, offset)) {
spdk_bs_sequence_t *seq;
seq = bs_sequence_start(_channel, &cpl);
if (!seq) {
cb_fn(cb_arg, -ENOMEM);
return;
}
bs_sequence_writev_dev(seq, iov, iovcnt, lba, lba_count, _spdk_rw_iov_done, NULL);
} else {
/* Queue this operation and allocate the cluster */
spdk_bs_user_op_t *op;
op = bs_user_op_alloc(_channel, &cpl, SPDK_BLOB_WRITEV, blob, iov, iovcnt, offset,
length);
if (!op) {
cb_fn(cb_arg, -ENOMEM);
return;
}
_spdk_bs_allocate_and_copy_cluster(blob, _channel, offset, op);
}
}
} else {
struct rw_iov_ctx *ctx;
ctx = calloc(1, sizeof(struct rw_iov_ctx) + iovcnt * sizeof(struct iovec));
if (ctx == NULL) {
cb_fn(cb_arg, -ENOMEM);
return;
}
ctx->blob = blob;
ctx->channel = _channel;
ctx->cb_fn = cb_fn;
ctx->cb_arg = cb_arg;
ctx->read = read;
ctx->orig_iov = iov;
ctx->iovcnt = iovcnt;
ctx->io_unit_offset = offset;
ctx->io_units_remaining = length;
ctx->io_units_done = 0;
_spdk_rw_iov_split_next(ctx, 0);
}
}
static struct spdk_blob *
_spdk_blob_lookup(struct spdk_blob_store *bs, spdk_blob_id blobid)
{
struct spdk_blob *blob;
TAILQ_FOREACH(blob, &bs->blobs, link) {
if (blob->id == blobid) {
return blob;
}
}
return NULL;
}
static void
_spdk_blob_get_snapshot_and_clone_entries(struct spdk_blob *blob,
struct spdk_blob_list **snapshot_entry, struct spdk_blob_list **clone_entry)
{
assert(blob != NULL);
*snapshot_entry = NULL;
*clone_entry = NULL;
if (blob->parent_id == SPDK_BLOBID_INVALID) {
return;
}
TAILQ_FOREACH(*snapshot_entry, &blob->bs->snapshots, link) {
if ((*snapshot_entry)->id == blob->parent_id) {
break;
}
}
if (*snapshot_entry != NULL) {
TAILQ_FOREACH(*clone_entry, &(*snapshot_entry)->clones, link) {
if ((*clone_entry)->id == blob->id) {
break;
}
}
assert(clone_entry != NULL);
}
}
static int
_spdk_bs_channel_create(void *io_device, void *ctx_buf)
{
struct spdk_blob_store *bs = io_device;
struct spdk_bs_channel *channel = ctx_buf;
struct spdk_bs_dev *dev;
uint32_t max_ops = bs->max_channel_ops;
uint32_t i;
dev = bs->dev;
channel->req_mem = calloc(max_ops, sizeof(struct spdk_bs_request_set));
if (!channel->req_mem) {
return -1;
}
TAILQ_INIT(&channel->reqs);
for (i = 0; i < max_ops; i++) {
TAILQ_INSERT_TAIL(&channel->reqs, &channel->req_mem[i], link);
}
channel->bs = bs;
channel->dev = dev;
channel->dev_channel = dev->create_channel(dev);
if (!channel->dev_channel) {
SPDK_ERRLOG("Failed to create device channel.\n");
free(channel->req_mem);
return -1;
}
TAILQ_INIT(&channel->need_cluster_alloc);
TAILQ_INIT(&channel->queued_io);
return 0;
}
static void
_spdk_bs_channel_destroy(void *io_device, void *ctx_buf)
{
struct spdk_bs_channel *channel = ctx_buf;
spdk_bs_user_op_t *op;
while (!TAILQ_EMPTY(&channel->need_cluster_alloc)) {
op = TAILQ_FIRST(&channel->need_cluster_alloc);
TAILQ_REMOVE(&channel->need_cluster_alloc, op, link);
bs_user_op_abort(op);
}
while (!TAILQ_EMPTY(&channel->queued_io)) {
op = TAILQ_FIRST(&channel->queued_io);
TAILQ_REMOVE(&channel->queued_io, op, link);
bs_user_op_abort(op);
}
free(channel->req_mem);
channel->dev->destroy_channel(channel->dev, channel->dev_channel);
}
static void
_spdk_bs_dev_destroy(void *io_device)
{
struct spdk_blob_store *bs = io_device;
struct spdk_blob *blob, *blob_tmp;
bs->dev->destroy(bs->dev);
TAILQ_FOREACH_SAFE(blob, &bs->blobs, link, blob_tmp) {
TAILQ_REMOVE(&bs->blobs, blob, link);
_spdk_blob_free(blob);
}
pthread_mutex_destroy(&bs->used_clusters_mutex);
spdk_bit_array_free(&bs->used_blobids);
spdk_bit_array_free(&bs->used_md_pages);
spdk_bit_array_free(&bs->used_clusters);
/*
* If this function is called for any reason except a successful unload,
* the unload_cpl type will be NONE and this will be a nop.
*/
bs_call_cpl(&bs->unload_cpl, bs->unload_err);
free(bs);
}
static int
_spdk_bs_blob_list_add(struct spdk_blob *blob)
{
spdk_blob_id snapshot_id;
struct spdk_blob_list *snapshot_entry = NULL;
struct spdk_blob_list *clone_entry = NULL;
assert(blob != NULL);
snapshot_id = blob->parent_id;
if (snapshot_id == SPDK_BLOBID_INVALID) {
return 0;
}
snapshot_entry = _spdk_bs_get_snapshot_entry(blob->bs, snapshot_id);
if (snapshot_entry == NULL) {
/* Snapshot not found */
snapshot_entry = calloc(1, sizeof(struct spdk_blob_list));
if (snapshot_entry == NULL) {
return -ENOMEM;
}
snapshot_entry->id = snapshot_id;
TAILQ_INIT(&snapshot_entry->clones);
TAILQ_INSERT_TAIL(&blob->bs->snapshots, snapshot_entry, link);
} else {
TAILQ_FOREACH(clone_entry, &snapshot_entry->clones, link) {
if (clone_entry->id == blob->id) {
break;
}
}
}
if (clone_entry == NULL) {
/* Clone not found */
clone_entry = calloc(1, sizeof(struct spdk_blob_list));
if (clone_entry == NULL) {
return -ENOMEM;
}
clone_entry->id = blob->id;
TAILQ_INIT(&clone_entry->clones);
TAILQ_INSERT_TAIL(&snapshot_entry->clones, clone_entry, link);
snapshot_entry->clone_count++;
}
return 0;
}
static void
_spdk_bs_blob_list_remove(struct spdk_blob *blob)
{
struct spdk_blob_list *snapshot_entry = NULL;
struct spdk_blob_list *clone_entry = NULL;
_spdk_blob_get_snapshot_and_clone_entries(blob, &snapshot_entry, &clone_entry);
if (snapshot_entry == NULL) {
return;
}
blob->parent_id = SPDK_BLOBID_INVALID;
TAILQ_REMOVE(&snapshot_entry->clones, clone_entry, link);
free(clone_entry);
snapshot_entry->clone_count--;
}
static int
_spdk_bs_blob_list_free(struct spdk_blob_store *bs)
{
struct spdk_blob_list *snapshot_entry;
struct spdk_blob_list *snapshot_entry_tmp;
struct spdk_blob_list *clone_entry;
struct spdk_blob_list *clone_entry_tmp;
TAILQ_FOREACH_SAFE(snapshot_entry, &bs->snapshots, link, snapshot_entry_tmp) {
TAILQ_FOREACH_SAFE(clone_entry, &snapshot_entry->clones, link, clone_entry_tmp) {
TAILQ_REMOVE(&snapshot_entry->clones, clone_entry, link);
free(clone_entry);
}
TAILQ_REMOVE(&bs->snapshots, snapshot_entry, link);
free(snapshot_entry);
}
return 0;
}
static void
_spdk_bs_free(struct spdk_blob_store *bs)
{
_spdk_bs_blob_list_free(bs);
spdk_bs_unregister_md_thread(bs);
spdk_io_device_unregister(bs, _spdk_bs_dev_destroy);
}
void
spdk_bs_opts_init(struct spdk_bs_opts *opts)
{
opts->cluster_sz = SPDK_BLOB_OPTS_CLUSTER_SZ;
opts->num_md_pages = SPDK_BLOB_OPTS_NUM_MD_PAGES;
opts->max_md_ops = SPDK_BLOB_OPTS_MAX_MD_OPS;
opts->max_channel_ops = SPDK_BLOB_OPTS_DEFAULT_CHANNEL_OPS;
opts->clear_method = BS_CLEAR_WITH_UNMAP;
memset(&opts->bstype, 0, sizeof(opts->bstype));
opts->iter_cb_fn = NULL;
opts->iter_cb_arg = NULL;
}
static int
_spdk_bs_opts_verify(struct spdk_bs_opts *opts)
{
if (opts->cluster_sz == 0 || opts->num_md_pages == 0 || opts->max_md_ops == 0 ||
opts->max_channel_ops == 0) {
SPDK_ERRLOG("Blobstore options cannot be set to 0\n");
return -1;
}
return 0;
}
static int
_spdk_bs_alloc(struct spdk_bs_dev *dev, struct spdk_bs_opts *opts, struct spdk_blob_store **_bs)
{
struct spdk_blob_store *bs;
uint64_t dev_size;
int rc;
dev_size = dev->blocklen * dev->blockcnt;
if (dev_size < opts->cluster_sz) {
/* Device size cannot be smaller than cluster size of blobstore */
SPDK_INFOLOG(SPDK_LOG_BLOB, "Device size %" PRIu64 " is smaller than cluster size %" PRIu32 "\n",
dev_size, opts->cluster_sz);
return -ENOSPC;
}
if (opts->cluster_sz < SPDK_BS_PAGE_SIZE) {
/* Cluster size cannot be smaller than page size */
SPDK_ERRLOG("Cluster size %" PRIu32 " is smaller than page size %d\n",
opts->cluster_sz, SPDK_BS_PAGE_SIZE);
return -EINVAL;
}
bs = calloc(1, sizeof(struct spdk_blob_store));
if (!bs) {
return -ENOMEM;
}
TAILQ_INIT(&bs->blobs);
TAILQ_INIT(&bs->snapshots);
bs->dev = dev;
bs->md_thread = spdk_get_thread();
assert(bs->md_thread != NULL);
/*
* Do not use _spdk_bs_lba_to_cluster() here since blockcnt may not be an
* even multiple of the cluster size.
*/
bs->cluster_sz = opts->cluster_sz;
bs->total_clusters = dev->blockcnt / (bs->cluster_sz / dev->blocklen);
bs->pages_per_cluster = bs->cluster_sz / SPDK_BS_PAGE_SIZE;
if (spdk_u32_is_pow2(bs->pages_per_cluster)) {
bs->pages_per_cluster_shift = spdk_u32log2(bs->pages_per_cluster);
}
bs->num_free_clusters = bs->total_clusters;
bs->used_clusters = spdk_bit_array_create(bs->total_clusters);
bs->io_unit_size = dev->blocklen;
if (bs->used_clusters == NULL) {
free(bs);
return -ENOMEM;
}
bs->max_channel_ops = opts->max_channel_ops;
bs->super_blob = SPDK_BLOBID_INVALID;
memcpy(&bs->bstype, &opts->bstype, sizeof(opts->bstype));
/* The metadata is assumed to be at least 1 page */
bs->used_md_pages = spdk_bit_array_create(1);
bs->used_blobids = spdk_bit_array_create(0);
pthread_mutex_init(&bs->used_clusters_mutex, NULL);
spdk_io_device_register(bs, _spdk_bs_channel_create, _spdk_bs_channel_destroy,
sizeof(struct spdk_bs_channel), "blobstore");
rc = spdk_bs_register_md_thread(bs);
if (rc == -1) {
spdk_io_device_unregister(bs, NULL);
pthread_mutex_destroy(&bs->used_clusters_mutex);
spdk_bit_array_free(&bs->used_blobids);
spdk_bit_array_free(&bs->used_md_pages);
spdk_bit_array_free(&bs->used_clusters);
free(bs);
/* FIXME: this is a lie but don't know how to get a proper error code here */
return -ENOMEM;
}
*_bs = bs;
return 0;
}
/* START spdk_bs_load, spdk_bs_load_ctx will used for both load and unload. */
struct spdk_bs_load_ctx {
struct spdk_blob_store *bs;
struct spdk_bs_super_block *super;
struct spdk_bs_md_mask *mask;
bool in_page_chain;
uint32_t page_index;
uint32_t cur_page;
struct spdk_blob_md_page *page;
uint64_t num_extent_pages;
uint32_t *extent_page_num;
struct spdk_blob_md_page *extent_pages;
spdk_bs_sequence_t *seq;
spdk_blob_op_with_handle_complete iter_cb_fn;
void *iter_cb_arg;
struct spdk_blob *blob;
spdk_blob_id blobid;
};
static void
_spdk_bs_load_ctx_fail(struct spdk_bs_load_ctx *ctx, int bserrno)
{
assert(bserrno != 0);
spdk_free(ctx->super);
bs_sequence_finish(ctx->seq, bserrno);
_spdk_bs_free(ctx->bs);
free(ctx);
}
static void
_spdk_bs_set_mask(struct spdk_bit_array *array, struct spdk_bs_md_mask *mask)
{
uint32_t i = 0;
while (true) {
i = spdk_bit_array_find_first_set(array, i);
if (i >= mask->length) {
break;
}
mask->mask[i / 8] |= 1U << (i % 8);
i++;
}
}
static int
_spdk_bs_load_mask(struct spdk_bit_array **array_ptr, struct spdk_bs_md_mask *mask)
{
struct spdk_bit_array *array;
uint32_t i;
if (spdk_bit_array_resize(array_ptr, mask->length) < 0) {
return -ENOMEM;
}
array = *array_ptr;
for (i = 0; i < mask->length; i++) {
if (mask->mask[i / 8] & (1U << (i % 8))) {
spdk_bit_array_set(array, i);
}
}
return 0;
}
static void
_spdk_bs_write_super(spdk_bs_sequence_t *seq, struct spdk_blob_store *bs,
struct spdk_bs_super_block *super, spdk_bs_sequence_cpl cb_fn, void *cb_arg)
{
/* Update the values in the super block */
super->super_blob = bs->super_blob;
memcpy(&super->bstype, &bs->bstype, sizeof(bs->bstype));
super->crc = _spdk_blob_md_page_calc_crc(super);
bs_sequence_write_dev(seq, super, _spdk_bs_page_to_lba(bs, 0),
_spdk_bs_byte_to_lba(bs, sizeof(*super)),
cb_fn, cb_arg);
}
static void
_spdk_bs_write_used_clusters(spdk_bs_sequence_t *seq, void *arg, spdk_bs_sequence_cpl cb_fn)
{
struct spdk_bs_load_ctx *ctx = arg;
uint64_t mask_size, lba, lba_count;
/* Write out the used clusters mask */
mask_size = ctx->super->used_cluster_mask_len * SPDK_BS_PAGE_SIZE;
ctx->mask = spdk_zmalloc(mask_size, 0x1000, NULL,
SPDK_ENV_SOCKET_ID_ANY, SPDK_MALLOC_DMA);
if (!ctx->mask) {
_spdk_bs_load_ctx_fail(ctx, -ENOMEM);
return;
}
ctx->mask->type = SPDK_MD_MASK_TYPE_USED_CLUSTERS;
ctx->mask->length = ctx->bs->total_clusters;
assert(ctx->mask->length == spdk_bit_array_capacity(ctx->bs->used_clusters));
_spdk_bs_set_mask(ctx->bs->used_clusters, ctx->mask);
lba = _spdk_bs_page_to_lba(ctx->bs, ctx->super->used_cluster_mask_start);
lba_count = _spdk_bs_page_to_lba(ctx->bs, ctx->super->used_cluster_mask_len);
bs_sequence_write_dev(seq, ctx->mask, lba, lba_count, cb_fn, arg);
}
static void
_spdk_bs_write_used_md(spdk_bs_sequence_t *seq, void *arg, spdk_bs_sequence_cpl cb_fn)
{
struct spdk_bs_load_ctx *ctx = arg;
uint64_t mask_size, lba, lba_count;
mask_size = ctx->super->used_page_mask_len * SPDK_BS_PAGE_SIZE;
ctx->mask = spdk_zmalloc(mask_size, 0x1000, NULL,
SPDK_ENV_SOCKET_ID_ANY, SPDK_MALLOC_DMA);
if (!ctx->mask) {
_spdk_bs_load_ctx_fail(ctx, -ENOMEM);
return;
}
ctx->mask->type = SPDK_MD_MASK_TYPE_USED_PAGES;
ctx->mask->length = ctx->super->md_len;
assert(ctx->mask->length == spdk_bit_array_capacity(ctx->bs->used_md_pages));
_spdk_bs_set_mask(ctx->bs->used_md_pages, ctx->mask);
lba = _spdk_bs_page_to_lba(ctx->bs, ctx->super->used_page_mask_start);
lba_count = _spdk_bs_page_to_lba(ctx->bs, ctx->super->used_page_mask_len);
bs_sequence_write_dev(seq, ctx->mask, lba, lba_count, cb_fn, arg);
}
static void
_spdk_bs_write_used_blobids(spdk_bs_sequence_t *seq, void *arg, spdk_bs_sequence_cpl cb_fn)
{
struct spdk_bs_load_ctx *ctx = arg;
uint64_t mask_size, lba, lba_count;
if (ctx->super->used_blobid_mask_len == 0) {
/*
* This is a pre-v3 on-disk format where the blobid mask does not get
* written to disk.
*/
cb_fn(seq, arg, 0);
return;
}
mask_size = ctx->super->used_blobid_mask_len * SPDK_BS_PAGE_SIZE;
ctx->mask = spdk_zmalloc(mask_size, 0x1000, NULL, SPDK_ENV_SOCKET_ID_ANY,
SPDK_MALLOC_DMA);
if (!ctx->mask) {
_spdk_bs_load_ctx_fail(ctx, -ENOMEM);
return;
}
ctx->mask->type = SPDK_MD_MASK_TYPE_USED_BLOBIDS;
ctx->mask->length = ctx->super->md_len;
assert(ctx->mask->length == spdk_bit_array_capacity(ctx->bs->used_blobids));
_spdk_bs_set_mask(ctx->bs->used_blobids, ctx->mask);
lba = _spdk_bs_page_to_lba(ctx->bs, ctx->super->used_blobid_mask_start);
lba_count = _spdk_bs_page_to_lba(ctx->bs, ctx->super->used_blobid_mask_len);
bs_sequence_write_dev(seq, ctx->mask, lba, lba_count, cb_fn, arg);
}
static void
_spdk_blob_set_thin_provision(struct spdk_blob *blob)
{
_spdk_blob_verify_md_op(blob);
blob->invalid_flags |= SPDK_BLOB_THIN_PROV;
blob->state = SPDK_BLOB_STATE_DIRTY;
}
static void
_spdk_blob_set_clear_method(struct spdk_blob *blob, enum blob_clear_method clear_method)
{
_spdk_blob_verify_md_op(blob);
blob->clear_method = clear_method;
blob->md_ro_flags |= (clear_method << SPDK_BLOB_CLEAR_METHOD_SHIFT);
blob->state = SPDK_BLOB_STATE_DIRTY;
}
static void _spdk_bs_load_iter(void *arg, struct spdk_blob *blob, int bserrno);
static void
_spdk_bs_delete_corrupted_blob_cpl(void *cb_arg, int bserrno)
{
struct spdk_bs_load_ctx *ctx = cb_arg;
spdk_blob_id id;
int64_t page_num;
/* Iterate to next blob (we can't use spdk_bs_iter_next function as our
* last blob has been removed */
page_num = _spdk_bs_blobid_to_page(ctx->blobid);
page_num++;
page_num = spdk_bit_array_find_first_set(ctx->bs->used_blobids, page_num);
if (page_num >= spdk_bit_array_capacity(ctx->bs->used_blobids)) {
_spdk_bs_load_iter(ctx, NULL, -ENOENT);
return;
}
id = _spdk_bs_page_to_blobid(page_num);
spdk_bs_open_blob(ctx->bs, id, _spdk_bs_load_iter, ctx);
}
static void
_spdk_bs_delete_corrupted_close_cb(void *cb_arg, int bserrno)
{
struct spdk_bs_load_ctx *ctx = cb_arg;
if (bserrno != 0) {
SPDK_ERRLOG("Failed to close corrupted blob\n");
spdk_bs_iter_next(ctx->bs, ctx->blob, _spdk_bs_load_iter, ctx);
return;
}
spdk_bs_delete_blob(ctx->bs, ctx->blobid, _spdk_bs_delete_corrupted_blob_cpl, ctx);
}
static void
_spdk_bs_delete_corrupted_blob(void *cb_arg, int bserrno)
{
struct spdk_bs_load_ctx *ctx = cb_arg;
uint64_t i;
if (bserrno != 0) {
SPDK_ERRLOG("Failed to close clone of a corrupted blob\n");
spdk_bs_iter_next(ctx->bs, ctx->blob, _spdk_bs_load_iter, ctx);
return;
}
/* Snapshot and clone have the same copy of cluster map and extent pages
* at this point. Let's clear both for snpashot now,
* so that it won't be cleared for clone later when we remove snapshot.
* Also set thin provision to pass data corruption check */
for (i = 0; i < ctx->blob->active.num_clusters; i++) {
ctx->blob->active.clusters[i] = 0;
}
for (i = 0; i < ctx->blob->active.num_extent_pages; i++) {
ctx->blob->active.extent_pages[i] = 0;
}
ctx->blob->md_ro = false;
_spdk_blob_set_thin_provision(ctx->blob);
ctx->blobid = ctx->blob->id;
spdk_blob_close(ctx->blob, _spdk_bs_delete_corrupted_close_cb, ctx);
}
static void
_spdk_bs_update_corrupted_blob(void *cb_arg, int bserrno)
{
struct spdk_bs_load_ctx *ctx = cb_arg;
if (bserrno != 0) {
SPDK_ERRLOG("Failed to close clone of a corrupted blob\n");
spdk_bs_iter_next(ctx->bs, ctx->blob, _spdk_bs_load_iter, ctx);
return;
}
ctx->blob->md_ro = false;
_spdk_blob_remove_xattr(ctx->blob, SNAPSHOT_PENDING_REMOVAL, true);
_spdk_blob_remove_xattr(ctx->blob, SNAPSHOT_IN_PROGRESS, true);
spdk_blob_set_read_only(ctx->blob);
if (ctx->iter_cb_fn) {
ctx->iter_cb_fn(ctx->iter_cb_arg, ctx->blob, 0);
}
_spdk_bs_blob_list_add(ctx->blob);
spdk_bs_iter_next(ctx->bs, ctx->blob, _spdk_bs_load_iter, ctx);
}
static void
_spdk_bs_examine_clone(void *cb_arg, struct spdk_blob *blob, int bserrno)
{
struct spdk_bs_load_ctx *ctx = cb_arg;
if (bserrno != 0) {
SPDK_ERRLOG("Failed to open clone of a corrupted blob\n");
spdk_bs_iter_next(ctx->bs, ctx->blob, _spdk_bs_load_iter, ctx);
return;
}
if (blob->parent_id == ctx->blob->id) {
/* Power failure occured before updating clone (snapshot delete case)
* or after updating clone (creating snapshot case) - keep snapshot */
spdk_blob_close(blob, _spdk_bs_update_corrupted_blob, ctx);
} else {
/* Power failure occured after updating clone (snapshot delete case)
* or before updating clone (creating snapshot case) - remove snapshot */
spdk_blob_close(blob, _spdk_bs_delete_corrupted_blob, ctx);
}
}
static void
_spdk_bs_load_iter(void *arg, struct spdk_blob *blob, int bserrno)
{
struct spdk_bs_load_ctx *ctx = arg;
const void *value;
size_t len;
int rc = 0;
if (bserrno == 0) {
/* Examine blob if it is corrupted after power failure. Fix
* the ones that can be fixed and remove any other corrupted
* ones. If it is not corrupted just process it */
rc = _spdk_blob_get_xattr_value(blob, SNAPSHOT_PENDING_REMOVAL, &value, &len, true);
if (rc != 0) {
rc = _spdk_blob_get_xattr_value(blob, SNAPSHOT_IN_PROGRESS, &value, &len, true);
if (rc != 0) {
/* Not corrupted - process it and continue with iterating through blobs */
if (ctx->iter_cb_fn) {
ctx->iter_cb_fn(ctx->iter_cb_arg, blob, 0);
}
_spdk_bs_blob_list_add(blob);
spdk_bs_iter_next(ctx->bs, blob, _spdk_bs_load_iter, ctx);
return;
}
}
assert(len == sizeof(spdk_blob_id));
ctx->blob = blob;
/* Open clone to check if we are able to fix this blob or should we remove it */
spdk_bs_open_blob(ctx->bs, *(spdk_blob_id *)value, _spdk_bs_examine_clone, ctx);
return;
} else if (bserrno == -ENOENT) {
bserrno = 0;
} else {
/*
* This case needs to be looked at further. Same problem
* exists with applications that rely on explicit blob
* iteration. We should just skip the blob that failed
* to load and continue on to the next one.
*/
SPDK_ERRLOG("Error in iterating blobs\n");
}
ctx->iter_cb_fn = NULL;
spdk_free(ctx->super);
spdk_free(ctx->mask);
bs_sequence_finish(ctx->seq, bserrno);
free(ctx);
}
static void
_spdk_bs_load_complete(struct spdk_bs_load_ctx *ctx)
{
spdk_bs_iter_first(ctx->bs, _spdk_bs_load_iter, ctx);
}
static void
_spdk_bs_load_used_blobids_cpl(spdk_bs_sequence_t *seq, void *cb_arg, int bserrno)
{
struct spdk_bs_load_ctx *ctx = cb_arg;
int rc;
/* The type must be correct */
assert(ctx->mask->type == SPDK_MD_MASK_TYPE_USED_BLOBIDS);
/* The length of the mask (in bits) must not be greater than
* the length of the buffer (converted to bits) */
assert(ctx->mask->length <= (ctx->super->used_blobid_mask_len * SPDK_BS_PAGE_SIZE * 8));
/* The length of the mask must be exactly equal to the size
* (in pages) of the metadata region */
assert(ctx->mask->length == ctx->super->md_len);
rc = _spdk_bs_load_mask(&ctx->bs->used_blobids, ctx->mask);
if (rc < 0) {
spdk_free(ctx->mask);
_spdk_bs_load_ctx_fail(ctx, rc);
return;
}
_spdk_bs_load_complete(ctx);
}
static void
_spdk_bs_load_used_clusters_cpl(spdk_bs_sequence_t *seq, void *cb_arg, int bserrno)
{
struct spdk_bs_load_ctx *ctx = cb_arg;
uint64_t lba, lba_count, mask_size;
int rc;
if (bserrno != 0) {
_spdk_bs_load_ctx_fail(ctx, bserrno);
return;
}
/* The type must be correct */
assert(ctx->mask->type == SPDK_MD_MASK_TYPE_USED_CLUSTERS);
/* The length of the mask (in bits) must not be greater than the length of the buffer (converted to bits) */
assert(ctx->mask->length <= (ctx->super->used_cluster_mask_len * sizeof(
struct spdk_blob_md_page) * 8));
/* The length of the mask must be exactly equal to the total number of clusters */
assert(ctx->mask->length == ctx->bs->total_clusters);
rc = _spdk_bs_load_mask(&ctx->bs->used_clusters, ctx->mask);
if (rc < 0) {
spdk_free(ctx->mask);
_spdk_bs_load_ctx_fail(ctx, rc);
return;
}
ctx->bs->num_free_clusters = spdk_bit_array_count_clear(ctx->bs->used_clusters);
assert(ctx->bs->num_free_clusters <= ctx->bs->total_clusters);
spdk_free(ctx->mask);
/* Read the used blobids mask */
mask_size = ctx->super->used_blobid_mask_len * SPDK_BS_PAGE_SIZE;
ctx->mask = spdk_zmalloc(mask_size, 0x1000, NULL, SPDK_ENV_SOCKET_ID_ANY,
SPDK_MALLOC_DMA);
if (!ctx->mask) {
_spdk_bs_load_ctx_fail(ctx, -ENOMEM);
return;
}
lba = _spdk_bs_page_to_lba(ctx->bs, ctx->super->used_blobid_mask_start);
lba_count = _spdk_bs_page_to_lba(ctx->bs, ctx->super->used_blobid_mask_len);
bs_sequence_read_dev(seq, ctx->mask, lba, lba_count,
_spdk_bs_load_used_blobids_cpl, ctx);
}
static void
_spdk_bs_load_used_pages_cpl(spdk_bs_sequence_t *seq, void *cb_arg, int bserrno)
{
struct spdk_bs_load_ctx *ctx = cb_arg;
uint64_t lba, lba_count, mask_size;
int rc;
if (bserrno != 0) {
_spdk_bs_load_ctx_fail(ctx, bserrno);
return;
}
/* The type must be correct */
assert(ctx->mask->type == SPDK_MD_MASK_TYPE_USED_PAGES);
/* The length of the mask (in bits) must not be greater than the length of the buffer (converted to bits) */
assert(ctx->mask->length <= (ctx->super->used_page_mask_len * SPDK_BS_PAGE_SIZE *
8));
/* The length of the mask must be exactly equal to the size (in pages) of the metadata region */
assert(ctx->mask->length == ctx->super->md_len);
rc = _spdk_bs_load_mask(&ctx->bs->used_md_pages, ctx->mask);
if (rc < 0) {
spdk_free(ctx->mask);
_spdk_bs_load_ctx_fail(ctx, rc);
return;
}
spdk_free(ctx->mask);
/* Read the used clusters mask */
mask_size = ctx->super->used_cluster_mask_len * SPDK_BS_PAGE_SIZE;
ctx->mask = spdk_zmalloc(mask_size, 0x1000, NULL, SPDK_ENV_SOCKET_ID_ANY,
SPDK_MALLOC_DMA);
if (!ctx->mask) {
_spdk_bs_load_ctx_fail(ctx, -ENOMEM);
return;
}
lba = _spdk_bs_page_to_lba(ctx->bs, ctx->super->used_cluster_mask_start);
lba_count = _spdk_bs_page_to_lba(ctx->bs, ctx->super->used_cluster_mask_len);
bs_sequence_read_dev(seq, ctx->mask, lba, lba_count,
_spdk_bs_load_used_clusters_cpl, ctx);
}
static void
_spdk_bs_load_read_used_pages(struct spdk_bs_load_ctx *ctx)
{
uint64_t lba, lba_count, mask_size;
/* Read the used pages mask */
mask_size = ctx->super->used_page_mask_len * SPDK_BS_PAGE_SIZE;
ctx->mask = spdk_zmalloc(mask_size, 0x1000, NULL,
SPDK_ENV_SOCKET_ID_ANY, SPDK_MALLOC_DMA);
if (!ctx->mask) {
_spdk_bs_load_ctx_fail(ctx, -ENOMEM);
return;
}
lba = _spdk_bs_page_to_lba(ctx->bs, ctx->super->used_page_mask_start);
lba_count = _spdk_bs_page_to_lba(ctx->bs, ctx->super->used_page_mask_len);
bs_sequence_read_dev(ctx->seq, ctx->mask, lba, lba_count,
_spdk_bs_load_used_pages_cpl, ctx);
}
static int
_spdk_bs_load_replay_md_parse_page(struct spdk_bs_load_ctx *ctx, struct spdk_blob_md_page *page)
{
struct spdk_blob_store *bs = ctx->bs;
struct spdk_blob_md_descriptor *desc;
size_t cur_desc = 0;
desc = (struct spdk_blob_md_descriptor *)page->descriptors;
while (cur_desc < sizeof(page->descriptors)) {
if (desc->type == SPDK_MD_DESCRIPTOR_TYPE_PADDING) {
if (desc->length == 0) {
/* If padding and length are 0, this terminates the page */
break;
}
} else if (desc->type == SPDK_MD_DESCRIPTOR_TYPE_EXTENT_RLE) {
struct spdk_blob_md_descriptor_extent_rle *desc_extent_rle;
unsigned int i, j;
unsigned int cluster_count = 0;
uint32_t cluster_idx;
desc_extent_rle = (struct spdk_blob_md_descriptor_extent_rle *)desc;
for (i = 0; i < desc_extent_rle->length / sizeof(desc_extent_rle->extents[0]); i++) {
for (j = 0; j < desc_extent_rle->extents[i].length; j++) {
cluster_idx = desc_extent_rle->extents[i].cluster_idx;
/*
* cluster_idx = 0 means an unallocated cluster - don't mark that
* in the used cluster map.
*/
if (cluster_idx != 0) {
spdk_bit_array_set(bs->used_clusters, cluster_idx + j);
if (bs->num_free_clusters == 0) {
return -ENOSPC;
}
bs->num_free_clusters--;
}
cluster_count++;
}
}
if (cluster_count == 0) {
return -EINVAL;
}
} else if (desc->type == SPDK_MD_DESCRIPTOR_TYPE_EXTENT_PAGE) {
struct spdk_blob_md_descriptor_extent_page *desc_extent;
uint32_t i;
uint32_t cluster_count = 0;
uint32_t cluster_idx;
size_t cluster_idx_length;
desc_extent = (struct spdk_blob_md_descriptor_extent_page *)desc;
cluster_idx_length = desc_extent->length - sizeof(desc_extent->start_cluster_idx);
if (desc_extent->length <= sizeof(desc_extent->start_cluster_idx) ||
(cluster_idx_length % sizeof(desc_extent->cluster_idx[0]) != 0)) {
return -EINVAL;
}
for (i = 0; i < cluster_idx_length / sizeof(desc_extent->cluster_idx[0]); i++) {
cluster_idx = desc_extent->cluster_idx[i];
/*
* cluster_idx = 0 means an unallocated cluster - don't mark that
* in the used cluster map.
*/
if (cluster_idx != 0) {
if (cluster_idx < desc_extent->start_cluster_idx &&
cluster_idx >= desc_extent->start_cluster_idx + cluster_count) {
return -EINVAL;
}
spdk_bit_array_set(bs->used_clusters, cluster_idx);
if (bs->num_free_clusters == 0) {
return -ENOSPC;
}
bs->num_free_clusters--;
}
cluster_count++;
}
if (cluster_count == 0) {
return -EINVAL;
}
} else if (desc->type == SPDK_MD_DESCRIPTOR_TYPE_XATTR) {
/* Skip this item */
} else if (desc->type == SPDK_MD_DESCRIPTOR_TYPE_XATTR_INTERNAL) {
/* Skip this item */
} else if (desc->type == SPDK_MD_DESCRIPTOR_TYPE_FLAGS) {
/* Skip this item */
} else if (desc->type == SPDK_MD_DESCRIPTOR_TYPE_EXTENT_TABLE) {
struct spdk_blob_md_descriptor_extent_table *desc_extent_table;
uint32_t num_extent_pages = ctx->num_extent_pages;
uint32_t i;
size_t extent_pages_length;
void *tmp;
desc_extent_table = (struct spdk_blob_md_descriptor_extent_table *)desc;
extent_pages_length = desc_extent_table->length - sizeof(desc_extent_table->num_clusters);
if (desc_extent_table->length == 0 ||
(extent_pages_length % sizeof(desc_extent_table->extent_page[0]) != 0)) {
return -EINVAL;
}
for (i = 0; i < extent_pages_length / sizeof(desc_extent_table->extent_page[0]); i++) {
if (desc_extent_table->extent_page[i].page_idx != 0) {
if (desc_extent_table->extent_page[i].num_pages != 1) {
return -EINVAL;
}
num_extent_pages += 1;
}
}
if (num_extent_pages > 0) {
tmp = realloc(ctx->extent_page_num, num_extent_pages * sizeof(uint32_t));
if (tmp == NULL) {
return -ENOMEM;
}
ctx->extent_page_num = tmp;
/* Extent table entries contain md page numbers for extent pages.
* Zeroes represent unallocated extent pages, those are run-length-encoded.
*/
for (i = 0; i < extent_pages_length / sizeof(desc_extent_table->extent_page[0]); i++) {
if (desc_extent_table->extent_page[i].page_idx != 0) {
ctx->extent_page_num[ctx->num_extent_pages] = desc_extent_table->extent_page[i].page_idx;
ctx->num_extent_pages += 1;
}
}
}
} else {
/* Error */
return -EINVAL;
}
/* Advance to the next descriptor */
cur_desc += sizeof(*desc) + desc->length;
if (cur_desc + sizeof(*desc) > sizeof(page->descriptors)) {
break;
}
desc = (struct spdk_blob_md_descriptor *)((uintptr_t)page->descriptors + cur_desc);
}
return 0;
}
static bool _spdk_bs_load_cur_extent_page_valid(struct spdk_blob_md_page *page)
{
uint32_t crc;
struct spdk_blob_md_descriptor *desc = (struct spdk_blob_md_descriptor *)page->descriptors;
size_t desc_len;
crc = _spdk_blob_md_page_calc_crc(page);
if (crc != page->crc) {
return false;
}
/* Extent page should always be of sequence num 0. */
if (page->sequence_num != 0) {
return false;
}
/* Descriptor type must be EXTENT_PAGE. */
if (desc->type != SPDK_MD_DESCRIPTOR_TYPE_EXTENT_PAGE) {
return false;
}
/* Descriptor length cannot exceed the page. */
desc_len = sizeof(*desc) + desc->length;
if (desc_len > sizeof(page->descriptors)) {
return false;
}
/* It has to be the only descriptor in the page. */
if (desc_len + sizeof(*desc) <= sizeof(page->descriptors)) {
desc = (struct spdk_blob_md_descriptor *)((uintptr_t)page->descriptors + desc_len);
if (desc->length != 0) {
return false;
}
}
return true;
}
static bool _spdk_bs_load_cur_md_page_valid(struct spdk_bs_load_ctx *ctx)
{
uint32_t crc;
struct spdk_blob_md_page *page = ctx->page;
crc = _spdk_blob_md_page_calc_crc(page);
if (crc != page->crc) {
return false;
}
/* First page of a sequence should match the blobid. */
if (page->sequence_num == 0 &&
_spdk_bs_page_to_blobid(ctx->cur_page) != page->id) {
return false;
}
assert(_spdk_bs_load_cur_extent_page_valid(page) == false);
return true;
}
static void
_spdk_bs_load_replay_cur_md_page(struct spdk_bs_load_ctx *ctx);
static void
_spdk_bs_load_write_used_clusters_cpl(spdk_bs_sequence_t *seq, void *cb_arg, int bserrno)
{
struct spdk_bs_load_ctx *ctx = cb_arg;
if (bserrno != 0) {
_spdk_bs_load_ctx_fail(ctx, bserrno);
return;
}
_spdk_bs_load_complete(ctx);
}
static void
_spdk_bs_load_write_used_blobids_cpl(spdk_bs_sequence_t *seq, void *cb_arg, int bserrno)
{
struct spdk_bs_load_ctx *ctx = cb_arg;
spdk_free(ctx->mask);
ctx->mask = NULL;
if (bserrno != 0) {
_spdk_bs_load_ctx_fail(ctx, bserrno);
return;
}
_spdk_bs_write_used_clusters(seq, ctx, _spdk_bs_load_write_used_clusters_cpl);
}
static void
_spdk_bs_load_write_used_pages_cpl(spdk_bs_sequence_t *seq, void *cb_arg, int bserrno)
{
struct spdk_bs_load_ctx *ctx = cb_arg;
spdk_free(ctx->mask);
ctx->mask = NULL;
if (bserrno != 0) {
_spdk_bs_load_ctx_fail(ctx, bserrno);
return;
}
_spdk_bs_write_used_blobids(seq, ctx, _spdk_bs_load_write_used_blobids_cpl);
}
static void
_spdk_bs_load_write_used_md(struct spdk_bs_load_ctx *ctx)
{
_spdk_bs_write_used_md(ctx->seq, ctx, _spdk_bs_load_write_used_pages_cpl);
}
static void
_spdk_bs_load_replay_md_chain_cpl(struct spdk_bs_load_ctx *ctx)
{
uint64_t num_md_clusters;
uint64_t i;
ctx->in_page_chain = false;
do {
ctx->page_index++;
} while (spdk_bit_array_get(ctx->bs->used_md_pages, ctx->page_index) == true);
if (ctx->page_index < ctx->super->md_len) {
ctx->cur_page = ctx->page_index;
_spdk_bs_load_replay_cur_md_page(ctx);
} else {
/* Claim all of the clusters used by the metadata */
num_md_clusters = spdk_divide_round_up(ctx->super->md_len, ctx->bs->pages_per_cluster);
for (i = 0; i < num_md_clusters; i++) {
_spdk_bs_claim_cluster(ctx->bs, i);
}
spdk_free(ctx->page);
_spdk_bs_load_write_used_md(ctx);
}
}
static void
_spdk_bs_load_replay_extent_page_cpl(spdk_bs_sequence_t *seq, void *cb_arg, int bserrno)
{
struct spdk_bs_load_ctx *ctx = cb_arg;
uint32_t page_num;
uint64_t i;
if (bserrno != 0) {
spdk_free(ctx->extent_pages);
_spdk_bs_load_ctx_fail(ctx, bserrno);
return;
}
for (i = 0; i < ctx->num_extent_pages; i++) {
/* Extent pages are only read when present within in chain md.
* Integrity of md is not right if that page was not a valid extent page. */
if (_spdk_bs_load_cur_extent_page_valid(&ctx->extent_pages[i]) != true) {
spdk_free(ctx->extent_pages);
_spdk_bs_load_ctx_fail(ctx, -EILSEQ);
return;
}
page_num = ctx->extent_page_num[i];
spdk_bit_array_set(ctx->bs->used_md_pages, page_num);
if (_spdk_bs_load_replay_md_parse_page(ctx, &ctx->extent_pages[i])) {
spdk_free(ctx->extent_pages);
_spdk_bs_load_ctx_fail(ctx, -EILSEQ);
return;
}
}
spdk_free(ctx->extent_pages);
free(ctx->extent_page_num);
ctx->extent_page_num = NULL;
ctx->num_extent_pages = 0;
_spdk_bs_load_replay_md_chain_cpl(ctx);
}
static void
_spdk_bs_load_replay_extent_pages(struct spdk_bs_load_ctx *ctx)
{
spdk_bs_batch_t *batch;
uint32_t page;
uint64_t lba;
uint64_t i;
ctx->extent_pages = spdk_zmalloc(SPDK_BS_PAGE_SIZE * ctx->num_extent_pages, SPDK_BS_PAGE_SIZE,
NULL, SPDK_ENV_SOCKET_ID_ANY, SPDK_MALLOC_DMA);
if (!ctx->extent_pages) {
_spdk_bs_load_ctx_fail(ctx, -ENOMEM);
return;
}
batch = bs_sequence_to_batch(ctx->seq, _spdk_bs_load_replay_extent_page_cpl, ctx);
for (i = 0; i < ctx->num_extent_pages; i++) {
page = ctx->extent_page_num[i];
assert(page < ctx->super->md_len);
lba = _spdk_bs_md_page_to_lba(ctx->bs, page);
bs_batch_read_dev(batch, &ctx->extent_pages[i], lba,
_spdk_bs_byte_to_lba(ctx->bs, SPDK_BS_PAGE_SIZE));
}
bs_batch_close(batch);
}
static void
_spdk_bs_load_replay_md_cpl(spdk_bs_sequence_t *seq, void *cb_arg, int bserrno)
{
struct spdk_bs_load_ctx *ctx = cb_arg;
uint32_t page_num;
struct spdk_blob_md_page *page;
if (bserrno != 0) {
_spdk_bs_load_ctx_fail(ctx, bserrno);
return;
}
page_num = ctx->cur_page;
page = ctx->page;
if (_spdk_bs_load_cur_md_page_valid(ctx) == true) {
if (page->sequence_num == 0 || ctx->in_page_chain == true) {
_spdk_bs_claim_md_page(ctx->bs, page_num);
if (page->sequence_num == 0) {
spdk_bit_array_set(ctx->bs->used_blobids, page_num);
}
if (_spdk_bs_load_replay_md_parse_page(ctx, page)) {
_spdk_bs_load_ctx_fail(ctx, -EILSEQ);
return;
}
if (page->next != SPDK_INVALID_MD_PAGE) {
ctx->in_page_chain = true;
ctx->cur_page = page->next;
_spdk_bs_load_replay_cur_md_page(ctx);
return;
}
if (ctx->num_extent_pages != 0) {
_spdk_bs_load_replay_extent_pages(ctx);
return;
}
}
}
_spdk_bs_load_replay_md_chain_cpl(ctx);
}
static void
_spdk_bs_load_replay_cur_md_page(struct spdk_bs_load_ctx *ctx)
{
uint64_t lba;
assert(ctx->cur_page < ctx->super->md_len);
lba = _spdk_bs_md_page_to_lba(ctx->bs, ctx->cur_page);
bs_sequence_read_dev(ctx->seq, ctx->page, lba,
_spdk_bs_byte_to_lba(ctx->bs, SPDK_BS_PAGE_SIZE),
_spdk_bs_load_replay_md_cpl, ctx);
}
static void
_spdk_bs_load_replay_md(struct spdk_bs_load_ctx *ctx)
{
ctx->page_index = 0;
ctx->cur_page = 0;
ctx->page = spdk_zmalloc(SPDK_BS_PAGE_SIZE, SPDK_BS_PAGE_SIZE,
NULL, SPDK_ENV_SOCKET_ID_ANY, SPDK_MALLOC_DMA);
if (!ctx->page) {
_spdk_bs_load_ctx_fail(ctx, -ENOMEM);
return;
}
_spdk_bs_load_replay_cur_md_page(ctx);
}
static void
_spdk_bs_recover(struct spdk_bs_load_ctx *ctx)
{
int rc;
rc = spdk_bit_array_resize(&ctx->bs->used_md_pages, ctx->super->md_len);
if (rc < 0) {
_spdk_bs_load_ctx_fail(ctx, -ENOMEM);
return;
}
rc = spdk_bit_array_resize(&ctx->bs->used_blobids, ctx->super->md_len);
if (rc < 0) {
_spdk_bs_load_ctx_fail(ctx, -ENOMEM);
return;
}
rc = spdk_bit_array_resize(&ctx->bs->used_clusters, ctx->bs->total_clusters);
if (rc < 0) {
_spdk_bs_load_ctx_fail(ctx, -ENOMEM);
return;
}
ctx->bs->num_free_clusters = ctx->bs->total_clusters;
_spdk_bs_load_replay_md(ctx);
}
static void
_spdk_bs_load_super_cpl(spdk_bs_sequence_t *seq, void *cb_arg, int bserrno)
{
struct spdk_bs_load_ctx *ctx = cb_arg;
uint32_t crc;
int rc;
static const char zeros[SPDK_BLOBSTORE_TYPE_LENGTH];
if (ctx->super->version > SPDK_BS_VERSION ||
ctx->super->version < SPDK_BS_INITIAL_VERSION) {
_spdk_bs_load_ctx_fail(ctx, -EILSEQ);
return;
}
if (memcmp(ctx->super->signature, SPDK_BS_SUPER_BLOCK_SIG,
sizeof(ctx->super->signature)) != 0) {
_spdk_bs_load_ctx_fail(ctx, -EILSEQ);
return;
}
crc = _spdk_blob_md_page_calc_crc(ctx->super);
if (crc != ctx->super->crc) {
_spdk_bs_load_ctx_fail(ctx, -EILSEQ);
return;
}
if (memcmp(&ctx->bs->bstype, &ctx->super->bstype, SPDK_BLOBSTORE_TYPE_LENGTH) == 0) {
SPDK_DEBUGLOG(SPDK_LOG_BLOB, "Bstype matched - loading blobstore\n");
} else if (memcmp(&ctx->bs->bstype, zeros, SPDK_BLOBSTORE_TYPE_LENGTH) == 0) {
SPDK_DEBUGLOG(SPDK_LOG_BLOB, "Bstype wildcard used - loading blobstore regardless bstype\n");
} else {
SPDK_DEBUGLOG(SPDK_LOG_BLOB, "Unexpected bstype\n");
SPDK_LOGDUMP(SPDK_LOG_BLOB, "Expected:", ctx->bs->bstype.bstype, SPDK_BLOBSTORE_TYPE_LENGTH);
SPDK_LOGDUMP(SPDK_LOG_BLOB, "Found:", ctx->super->bstype.bstype, SPDK_BLOBSTORE_TYPE_LENGTH);
_spdk_bs_load_ctx_fail(ctx, -ENXIO);
return;
}
if (ctx->super->size > ctx->bs->dev->blockcnt * ctx->bs->dev->blocklen) {
SPDK_NOTICELOG("Size mismatch, dev size: %lu, blobstore size: %lu\n",
ctx->bs->dev->blockcnt * ctx->bs->dev->blocklen, ctx->super->size);
_spdk_bs_load_ctx_fail(ctx, -EILSEQ);
return;
}
if (ctx->super->size == 0) {
ctx->super->size = ctx->bs->dev->blockcnt * ctx->bs->dev->blocklen;
}
if (ctx->super->io_unit_size == 0) {
ctx->super->io_unit_size = SPDK_BS_PAGE_SIZE;
}
/* Parse the super block */
ctx->bs->clean = 1;
ctx->bs->cluster_sz = ctx->super->cluster_size;
ctx->bs->total_clusters = ctx->super->size / ctx->super->cluster_size;
ctx->bs->pages_per_cluster = ctx->bs->cluster_sz / SPDK_BS_PAGE_SIZE;
if (spdk_u32_is_pow2(ctx->bs->pages_per_cluster)) {
ctx->bs->pages_per_cluster_shift = spdk_u32log2(ctx->bs->pages_per_cluster);
}
ctx->bs->io_unit_size = ctx->super->io_unit_size;
rc = spdk_bit_array_resize(&ctx->bs->used_clusters, ctx->bs->total_clusters);
if (rc < 0) {
_spdk_bs_load_ctx_fail(ctx, -ENOMEM);
return;
}
ctx->bs->md_start = ctx->super->md_start;
ctx->bs->md_len = ctx->super->md_len;
ctx->bs->total_data_clusters = ctx->bs->total_clusters - spdk_divide_round_up(
ctx->bs->md_start + ctx->bs->md_len, ctx->bs->pages_per_cluster);
ctx->bs->super_blob = ctx->super->super_blob;
memcpy(&ctx->bs->bstype, &ctx->super->bstype, sizeof(ctx->super->bstype));
if (ctx->super->used_blobid_mask_len == 0 || ctx->super->clean == 0) {
_spdk_bs_recover(ctx);
} else {
_spdk_bs_load_read_used_pages(ctx);
}
}
void
spdk_bs_load(struct spdk_bs_dev *dev, struct spdk_bs_opts *o,
spdk_bs_op_with_handle_complete cb_fn, void *cb_arg)
{
struct spdk_blob_store *bs;
struct spdk_bs_cpl cpl;
struct spdk_bs_load_ctx *ctx;
struct spdk_bs_opts opts = {};
int err;
SPDK_DEBUGLOG(SPDK_LOG_BLOB, "Loading blobstore from dev %p\n", dev);
if ((SPDK_BS_PAGE_SIZE % dev->blocklen) != 0) {
SPDK_DEBUGLOG(SPDK_LOG_BLOB, "unsupported dev block length of %d\n", dev->blocklen);
dev->destroy(dev);
cb_fn(cb_arg, NULL, -EINVAL);
return;
}
if (o) {
opts = *o;
} else {
spdk_bs_opts_init(&opts);
}
if (opts.max_md_ops == 0 || opts.max_channel_ops == 0) {
dev->destroy(dev);
cb_fn(cb_arg, NULL, -EINVAL);
return;
}
err = _spdk_bs_alloc(dev, &opts, &bs);
if (err) {
dev->destroy(dev);
cb_fn(cb_arg, NULL, err);
return;
}
ctx = calloc(1, sizeof(*ctx));
if (!ctx) {
_spdk_bs_free(bs);
cb_fn(cb_arg, NULL, -ENOMEM);
return;
}
ctx->bs = bs;
ctx->iter_cb_fn = opts.iter_cb_fn;
ctx->iter_cb_arg = opts.iter_cb_arg;
/* Allocate memory for the super block */
ctx->super = spdk_zmalloc(sizeof(*ctx->super), 0x1000, NULL,
SPDK_ENV_SOCKET_ID_ANY, SPDK_MALLOC_DMA);
if (!ctx->super) {
free(ctx);
_spdk_bs_free(bs);
cb_fn(cb_arg, NULL, -ENOMEM);
return;
}
cpl.type = SPDK_BS_CPL_TYPE_BS_HANDLE;
cpl.u.bs_handle.cb_fn = cb_fn;
cpl.u.bs_handle.cb_arg = cb_arg;
cpl.u.bs_handle.bs = bs;
ctx->seq = bs_sequence_start(bs->md_channel, &cpl);
if (!ctx->seq) {
spdk_free(ctx->super);
free(ctx);
_spdk_bs_free(bs);
cb_fn(cb_arg, NULL, -ENOMEM);
return;
}
/* Read the super block */
bs_sequence_read_dev(ctx->seq, ctx->super, _spdk_bs_page_to_lba(bs, 0),
_spdk_bs_byte_to_lba(bs, sizeof(*ctx->super)),
_spdk_bs_load_super_cpl, ctx);
}
/* END spdk_bs_load */
/* START spdk_bs_dump */
struct spdk_bs_dump_ctx {
struct spdk_blob_store *bs;
struct spdk_bs_super_block *super;
uint32_t cur_page;
struct spdk_blob_md_page *page;
spdk_bs_sequence_t *seq;
FILE *fp;
spdk_bs_dump_print_xattr print_xattr_fn;
char xattr_name[4096];
};
static void
_spdk_bs_dump_finish(spdk_bs_sequence_t *seq, struct spdk_bs_dump_ctx *ctx, int bserrno)
{
spdk_free(ctx->super);
/*
* We need to defer calling bs_call_cpl() until after
* dev destruction, so tuck these away for later use.
*/
ctx->bs->unload_err = bserrno;
memcpy(&ctx->bs->unload_cpl, &seq->cpl, sizeof(struct spdk_bs_cpl));
seq->cpl.type = SPDK_BS_CPL_TYPE_NONE;
bs_sequence_finish(seq, 0);
_spdk_bs_free(ctx->bs);
free(ctx);
}
static void _spdk_bs_dump_read_md_page(spdk_bs_sequence_t *seq, void *cb_arg);
static void
_spdk_bs_dump_print_md_page(struct spdk_bs_dump_ctx *ctx)
{
uint32_t page_idx = ctx->cur_page;
struct spdk_blob_md_page *page = ctx->page;
struct spdk_blob_md_descriptor *desc;
size_t cur_desc = 0;
uint32_t crc;
fprintf(ctx->fp, "=========\n");
fprintf(ctx->fp, "Metadata Page Index: %" PRIu32 " (0x%" PRIx32 ")\n", page_idx, page_idx);
fprintf(ctx->fp, "Blob ID: 0x%" PRIx64 "\n", page->id);
crc = _spdk_blob_md_page_calc_crc(page);
fprintf(ctx->fp, "CRC: 0x%" PRIx32 " (%s)\n", page->crc, crc == page->crc ? "OK" : "Mismatch");
desc = (struct spdk_blob_md_descriptor *)page->descriptors;
while (cur_desc < sizeof(page->descriptors)) {
if (desc->type == SPDK_MD_DESCRIPTOR_TYPE_PADDING) {
if (desc->length == 0) {
/* If padding and length are 0, this terminates the page */
break;
}
} else if (desc->type == SPDK_MD_DESCRIPTOR_TYPE_EXTENT_RLE) {
struct spdk_blob_md_descriptor_extent_rle *desc_extent_rle;
unsigned int i;
desc_extent_rle = (struct spdk_blob_md_descriptor_extent_rle *)desc;
for (i = 0; i < desc_extent_rle->length / sizeof(desc_extent_rle->extents[0]); i++) {
if (desc_extent_rle->extents[i].cluster_idx != 0) {
fprintf(ctx->fp, "Allocated Extent - Start: %" PRIu32,
desc_extent_rle->extents[i].cluster_idx);
} else {
fprintf(ctx->fp, "Unallocated Extent - ");
}
fprintf(ctx->fp, " Length: %" PRIu32, desc_extent_rle->extents[i].length);
fprintf(ctx->fp, "\n");
}
} else if (desc->type == SPDK_MD_DESCRIPTOR_TYPE_EXTENT_PAGE) {
struct spdk_blob_md_descriptor_extent_page *desc_extent;
unsigned int i;
desc_extent = (struct spdk_blob_md_descriptor_extent_page *)desc;
for (i = 0; i < desc_extent->length / sizeof(desc_extent->cluster_idx[0]); i++) {
if (desc_extent->cluster_idx[i] != 0) {
fprintf(ctx->fp, "Allocated Extent - Start: %" PRIu32,
desc_extent->cluster_idx[i]);
} else {
fprintf(ctx->fp, "Unallocated Extent");
}
fprintf(ctx->fp, "\n");
}
} else if (desc->type == SPDK_MD_DESCRIPTOR_TYPE_XATTR) {
struct spdk_blob_md_descriptor_xattr *desc_xattr;
uint32_t i;
desc_xattr = (struct spdk_blob_md_descriptor_xattr *)desc;
if (desc_xattr->length !=
sizeof(desc_xattr->name_length) + sizeof(desc_xattr->value_length) +
desc_xattr->name_length + desc_xattr->value_length) {
}
memcpy(ctx->xattr_name, desc_xattr->name, desc_xattr->name_length);
ctx->xattr_name[desc_xattr->name_length] = '\0';
fprintf(ctx->fp, "XATTR: name = \"%s\"\n", ctx->xattr_name);
fprintf(ctx->fp, " value = \"");
ctx->print_xattr_fn(ctx->fp, ctx->super->bstype.bstype, ctx->xattr_name,
(void *)((uintptr_t)desc_xattr->name + desc_xattr->name_length),
desc_xattr->value_length);
fprintf(ctx->fp, "\"\n");
for (i = 0; i < desc_xattr->value_length; i++) {
if (i % 16 == 0) {
fprintf(ctx->fp, " ");
}
fprintf(ctx->fp, "%02" PRIx8 " ", *((uint8_t *)desc_xattr->name + desc_xattr->name_length + i));
if ((i + 1) % 16 == 0) {
fprintf(ctx->fp, "\n");
}
}
if (i % 16 != 0) {
fprintf(ctx->fp, "\n");
}
} else if (desc->type == SPDK_MD_DESCRIPTOR_TYPE_XATTR_INTERNAL) {
/* TODO */
} else if (desc->type == SPDK_MD_DESCRIPTOR_TYPE_FLAGS) {
/* TODO */
} else {
/* Error */
}
/* Advance to the next descriptor */
cur_desc += sizeof(*desc) + desc->length;
if (cur_desc + sizeof(*desc) > sizeof(page->descriptors)) {
break;
}
desc = (struct spdk_blob_md_descriptor *)((uintptr_t)page->descriptors + cur_desc);
}
}
static void
_spdk_bs_dump_read_md_page_cpl(spdk_bs_sequence_t *seq, void *cb_arg, int bserrno)
{
struct spdk_bs_dump_ctx *ctx = cb_arg;
if (bserrno != 0) {
_spdk_bs_dump_finish(seq, ctx, bserrno);
return;
}
if (ctx->page->id != 0) {
_spdk_bs_dump_print_md_page(ctx);
}
ctx->cur_page++;
if (ctx->cur_page < ctx->super->md_len) {
_spdk_bs_dump_read_md_page(seq, ctx);
} else {
spdk_free(ctx->page);
_spdk_bs_dump_finish(seq, ctx, 0);
}
}
static void
_spdk_bs_dump_read_md_page(spdk_bs_sequence_t *seq, void *cb_arg)
{
struct spdk_bs_dump_ctx *ctx = cb_arg;
uint64_t lba;
assert(ctx->cur_page < ctx->super->md_len);
lba = _spdk_bs_page_to_lba(ctx->bs, ctx->super->md_start + ctx->cur_page);
bs_sequence_read_dev(seq, ctx->page, lba,
_spdk_bs_byte_to_lba(ctx->bs, SPDK_BS_PAGE_SIZE),
_spdk_bs_dump_read_md_page_cpl, ctx);
}
static void
_spdk_bs_dump_super_cpl(spdk_bs_sequence_t *seq, void *cb_arg, int bserrno)
{
struct spdk_bs_dump_ctx *ctx = cb_arg;
fprintf(ctx->fp, "Signature: \"%.8s\" ", ctx->super->signature);
if (memcmp(ctx->super->signature, SPDK_BS_SUPER_BLOCK_SIG,
sizeof(ctx->super->signature)) != 0) {
fprintf(ctx->fp, "(Mismatch)\n");
_spdk_bs_dump_finish(seq, ctx, bserrno);
return;
} else {
fprintf(ctx->fp, "(OK)\n");
}
fprintf(ctx->fp, "Version: %" PRIu32 "\n", ctx->super->version);
fprintf(ctx->fp, "CRC: 0x%x (%s)\n", ctx->super->crc,
(ctx->super->crc == _spdk_blob_md_page_calc_crc(ctx->super)) ? "OK" : "Mismatch");
fprintf(ctx->fp, "Blobstore Type: %.*s\n", SPDK_BLOBSTORE_TYPE_LENGTH, ctx->super->bstype.bstype);
fprintf(ctx->fp, "Cluster Size: %" PRIu32 "\n", ctx->super->cluster_size);
fprintf(ctx->fp, "Super Blob ID: ");
if (ctx->super->super_blob == SPDK_BLOBID_INVALID) {
fprintf(ctx->fp, "(None)\n");
} else {
fprintf(ctx->fp, "%" PRIu64 "\n", ctx->super->super_blob);
}
fprintf(ctx->fp, "Clean: %" PRIu32 "\n", ctx->super->clean);
fprintf(ctx->fp, "Used Metadata Page Mask Start: %" PRIu32 "\n", ctx->super->used_page_mask_start);
fprintf(ctx->fp, "Used Metadata Page Mask Length: %" PRIu32 "\n", ctx->super->used_page_mask_len);
fprintf(ctx->fp, "Used Cluster Mask Start: %" PRIu32 "\n", ctx->super->used_cluster_mask_start);
fprintf(ctx->fp, "Used Cluster Mask Length: %" PRIu32 "\n", ctx->super->used_cluster_mask_len);
fprintf(ctx->fp, "Used Blob ID Mask Start: %" PRIu32 "\n", ctx->super->used_blobid_mask_start);
fprintf(ctx->fp, "Used Blob ID Mask Length: %" PRIu32 "\n", ctx->super->used_blobid_mask_len);
fprintf(ctx->fp, "Metadata Start: %" PRIu32 "\n", ctx->super->md_start);
fprintf(ctx->fp, "Metadata Length: %" PRIu32 "\n", ctx->super->md_len);
ctx->cur_page = 0;
ctx->page = spdk_zmalloc(SPDK_BS_PAGE_SIZE, SPDK_BS_PAGE_SIZE,
NULL, SPDK_ENV_SOCKET_ID_ANY, SPDK_MALLOC_DMA);
if (!ctx->page) {
_spdk_bs_dump_finish(seq, ctx, -ENOMEM);
return;
}
_spdk_bs_dump_read_md_page(seq, ctx);
}
void
spdk_bs_dump(struct spdk_bs_dev *dev, FILE *fp, spdk_bs_dump_print_xattr print_xattr_fn,
spdk_bs_op_complete cb_fn, void *cb_arg)
{
struct spdk_blob_store *bs;
struct spdk_bs_cpl cpl;
spdk_bs_sequence_t *seq;
struct spdk_bs_dump_ctx *ctx;
struct spdk_bs_opts opts = {};
int err;
SPDK_DEBUGLOG(SPDK_LOG_BLOB, "Dumping blobstore from dev %p\n", dev);
spdk_bs_opts_init(&opts);
err = _spdk_bs_alloc(dev, &opts, &bs);
if (err) {
dev->destroy(dev);
cb_fn(cb_arg, err);
return;
}
ctx = calloc(1, sizeof(*ctx));
if (!ctx) {
_spdk_bs_free(bs);
cb_fn(cb_arg, -ENOMEM);
return;
}
ctx->bs = bs;
ctx->fp = fp;
ctx->print_xattr_fn = print_xattr_fn;
/* Allocate memory for the super block */
ctx->super = spdk_zmalloc(sizeof(*ctx->super), 0x1000, NULL,
SPDK_ENV_SOCKET_ID_ANY, SPDK_MALLOC_DMA);
if (!ctx->super) {
free(ctx);
_spdk_bs_free(bs);
cb_fn(cb_arg, -ENOMEM);
return;
}
cpl.type = SPDK_BS_CPL_TYPE_BS_BASIC;
cpl.u.bs_basic.cb_fn = cb_fn;
cpl.u.bs_basic.cb_arg = cb_arg;
seq = bs_sequence_start(bs->md_channel, &cpl);
if (!seq) {
spdk_free(ctx->super);
free(ctx);
_spdk_bs_free(bs);
cb_fn(cb_arg, -ENOMEM);
return;
}
/* Read the super block */
bs_sequence_read_dev(seq, ctx->super, _spdk_bs_page_to_lba(bs, 0),
_spdk_bs_byte_to_lba(bs, sizeof(*ctx->super)),
_spdk_bs_dump_super_cpl, ctx);
}
/* END spdk_bs_dump */
/* START spdk_bs_init */
struct spdk_bs_init_ctx {
struct spdk_blob_store *bs;
struct spdk_bs_super_block *super;
};
static void
_spdk_bs_init_persist_super_cpl(spdk_bs_sequence_t *seq, void *cb_arg, int bserrno)
{
struct spdk_bs_init_ctx *ctx = cb_arg;
spdk_free(ctx->super);
free(ctx);
bs_sequence_finish(seq, bserrno);
}
static void
_spdk_bs_init_trim_cpl(spdk_bs_sequence_t *seq, void *cb_arg, int bserrno)
{
struct spdk_bs_init_ctx *ctx = cb_arg;
/* Write super block */
bs_sequence_write_dev(seq, ctx->super, _spdk_bs_page_to_lba(ctx->bs, 0),
_spdk_bs_byte_to_lba(ctx->bs, sizeof(*ctx->super)),
_spdk_bs_init_persist_super_cpl, ctx);
}
void
spdk_bs_init(struct spdk_bs_dev *dev, struct spdk_bs_opts *o,
spdk_bs_op_with_handle_complete cb_fn, void *cb_arg)
{
struct spdk_bs_init_ctx *ctx;
struct spdk_blob_store *bs;
struct spdk_bs_cpl cpl;
spdk_bs_sequence_t *seq;
spdk_bs_batch_t *batch;
uint64_t num_md_lba;
uint64_t num_md_pages;
uint64_t num_md_clusters;
uint32_t i;
struct spdk_bs_opts opts = {};
int rc;
SPDK_DEBUGLOG(SPDK_LOG_BLOB, "Initializing blobstore on dev %p\n", dev);
if ((SPDK_BS_PAGE_SIZE % dev->blocklen) != 0) {
SPDK_ERRLOG("unsupported dev block length of %d\n",
dev->blocklen);
dev->destroy(dev);
cb_fn(cb_arg, NULL, -EINVAL);
return;
}
if (o) {
opts = *o;
} else {
spdk_bs_opts_init(&opts);
}
if (_spdk_bs_opts_verify(&opts) != 0) {
dev->destroy(dev);
cb_fn(cb_arg, NULL, -EINVAL);
return;
}
rc = _spdk_bs_alloc(dev, &opts, &bs);
if (rc) {
dev->destroy(dev);
cb_fn(cb_arg, NULL, rc);
return;
}
if (opts.num_md_pages == SPDK_BLOB_OPTS_NUM_MD_PAGES) {
/* By default, allocate 1 page per cluster.
* Technically, this over-allocates metadata
* because more metadata will reduce the number
* of usable clusters. This can be addressed with
* more complex math in the future.
*/
bs->md_len = bs->total_clusters;
} else {
bs->md_len = opts.num_md_pages;
}
rc = spdk_bit_array_resize(&bs->used_md_pages, bs->md_len);
if (rc < 0) {
_spdk_bs_free(bs);
cb_fn(cb_arg, NULL, -ENOMEM);
return;
}
rc = spdk_bit_array_resize(&bs->used_blobids, bs->md_len);
if (rc < 0) {
_spdk_bs_free(bs);
cb_fn(cb_arg, NULL, -ENOMEM);
return;
}
ctx = calloc(1, sizeof(*ctx));
if (!ctx) {
_spdk_bs_free(bs);
cb_fn(cb_arg, NULL, -ENOMEM);
return;
}
ctx->bs = bs;
/* Allocate memory for the super block */
ctx->super = spdk_zmalloc(sizeof(*ctx->super), 0x1000, NULL,
SPDK_ENV_SOCKET_ID_ANY, SPDK_MALLOC_DMA);
if (!ctx->super) {
free(ctx);
_spdk_bs_free(bs);
cb_fn(cb_arg, NULL, -ENOMEM);
return;
}
memcpy(ctx->super->signature, SPDK_BS_SUPER_BLOCK_SIG,
sizeof(ctx->super->signature));
ctx->super->version = SPDK_BS_VERSION;
ctx->super->length = sizeof(*ctx->super);
ctx->super->super_blob = bs->super_blob;
ctx->super->clean = 0;
ctx->super->cluster_size = bs->cluster_sz;
ctx->super->io_unit_size = bs->io_unit_size;
memcpy(&ctx->super->bstype, &bs->bstype, sizeof(bs->bstype));
/* Calculate how many pages the metadata consumes at the front
* of the disk.
*/
/* The super block uses 1 page */
num_md_pages = 1;
/* The used_md_pages mask requires 1 bit per metadata page, rounded
* up to the nearest page, plus a header.
*/
ctx->super->used_page_mask_start = num_md_pages;
ctx->super->used_page_mask_len = spdk_divide_round_up(sizeof(struct spdk_bs_md_mask) +
spdk_divide_round_up(bs->md_len, 8),
SPDK_BS_PAGE_SIZE);
num_md_pages += ctx->super->used_page_mask_len;
/* The used_clusters mask requires 1 bit per cluster, rounded
* up to the nearest page, plus a header.
*/
ctx->super->used_cluster_mask_start = num_md_pages;
ctx->super->used_cluster_mask_len = spdk_divide_round_up(sizeof(struct spdk_bs_md_mask) +
spdk_divide_round_up(bs->total_clusters, 8),
SPDK_BS_PAGE_SIZE);
num_md_pages += ctx->super->used_cluster_mask_len;
/* The used_blobids mask requires 1 bit per metadata page, rounded
* up to the nearest page, plus a header.
*/
ctx->super->used_blobid_mask_start = num_md_pages;
ctx->super->used_blobid_mask_len = spdk_divide_round_up(sizeof(struct spdk_bs_md_mask) +
spdk_divide_round_up(bs->md_len, 8),
SPDK_BS_PAGE_SIZE);
num_md_pages += ctx->super->used_blobid_mask_len;
/* The metadata region size was chosen above */
ctx->super->md_start = bs->md_start = num_md_pages;
ctx->super->md_len = bs->md_len;
num_md_pages += bs->md_len;
num_md_lba = _spdk_bs_page_to_lba(bs, num_md_pages);
ctx->super->size = dev->blockcnt * dev->blocklen;
ctx->super->crc = _spdk_blob_md_page_calc_crc(ctx->super);
num_md_clusters = spdk_divide_round_up(num_md_pages, bs->pages_per_cluster);
if (num_md_clusters > bs->total_clusters) {
SPDK_ERRLOG("Blobstore metadata cannot use more clusters than is available, "
"please decrease number of pages reserved for metadata "
"or increase cluster size.\n");
spdk_free(ctx->super);
free(ctx);
_spdk_bs_free(bs);
cb_fn(cb_arg, NULL, -ENOMEM);
return;
}
/* Claim all of the clusters used by the metadata */
for (i = 0; i < num_md_clusters; i++) {
_spdk_bs_claim_cluster(bs, i);
}
bs->total_data_clusters = bs->num_free_clusters;
cpl.type = SPDK_BS_CPL_TYPE_BS_HANDLE;
cpl.u.bs_handle.cb_fn = cb_fn;
cpl.u.bs_handle.cb_arg = cb_arg;
cpl.u.bs_handle.bs = bs;
seq = bs_sequence_start(bs->md_channel, &cpl);
if (!seq) {
spdk_free(ctx->super);
free(ctx);
_spdk_bs_free(bs);
cb_fn(cb_arg, NULL, -ENOMEM);
return;
}
batch = bs_sequence_to_batch(seq, _spdk_bs_init_trim_cpl, ctx);
/* Clear metadata space */
bs_batch_write_zeroes_dev(batch, 0, num_md_lba);
switch (opts.clear_method) {
case BS_CLEAR_WITH_UNMAP:
/* Trim data clusters */
bs_batch_unmap_dev(batch, num_md_lba, ctx->bs->dev->blockcnt - num_md_lba);
break;
case BS_CLEAR_WITH_WRITE_ZEROES:
/* Write_zeroes to data clusters */
bs_batch_write_zeroes_dev(batch, num_md_lba, ctx->bs->dev->blockcnt - num_md_lba);
break;
case BS_CLEAR_WITH_NONE:
default:
break;
}
bs_batch_close(batch);
}
/* END spdk_bs_init */
/* START spdk_bs_destroy */
static void
_spdk_bs_destroy_trim_cpl(spdk_bs_sequence_t *seq, void *cb_arg, int bserrno)
{
struct spdk_bs_init_ctx *ctx = cb_arg;
struct spdk_blob_store *bs = ctx->bs;
/*
* We need to defer calling bs_call_cpl() until after
* dev destruction, so tuck these away for later use.
*/
bs->unload_err = bserrno;
memcpy(&bs->unload_cpl, &seq->cpl, sizeof(struct spdk_bs_cpl));
seq->cpl.type = SPDK_BS_CPL_TYPE_NONE;
bs_sequence_finish(seq, bserrno);
_spdk_bs_free(bs);
free(ctx);
}
void
spdk_bs_destroy(struct spdk_blob_store *bs, spdk_bs_op_complete cb_fn,
void *cb_arg)
{
struct spdk_bs_cpl cpl;
spdk_bs_sequence_t *seq;
struct spdk_bs_init_ctx *ctx;
SPDK_DEBUGLOG(SPDK_LOG_BLOB, "Destroying blobstore\n");
if (!TAILQ_EMPTY(&bs->blobs)) {
SPDK_ERRLOG("Blobstore still has open blobs\n");
cb_fn(cb_arg, -EBUSY);
return;
}
cpl.type = SPDK_BS_CPL_TYPE_BS_BASIC;
cpl.u.bs_basic.cb_fn = cb_fn;
cpl.u.bs_basic.cb_arg = cb_arg;
ctx = calloc(1, sizeof(*ctx));
if (!ctx) {
cb_fn(cb_arg, -ENOMEM);
return;
}
ctx->bs = bs;
seq = bs_sequence_start(bs->md_channel, &cpl);
if (!seq) {
free(ctx);
cb_fn(cb_arg, -ENOMEM);
return;
}
/* Write zeroes to the super block */
bs_sequence_write_zeroes_dev(seq,
_spdk_bs_page_to_lba(bs, 0),
_spdk_bs_byte_to_lba(bs, sizeof(struct spdk_bs_super_block)),
_spdk_bs_destroy_trim_cpl, ctx);
}
/* END spdk_bs_destroy */
/* START spdk_bs_unload */
static void
_spdk_bs_unload_finish(struct spdk_bs_load_ctx *ctx, int bserrno)
{
spdk_bs_sequence_t *seq = ctx->seq;
spdk_free(ctx->super);
/*
* We need to defer calling bs_call_cpl() until after
* dev destruction, so tuck these away for later use.
*/
ctx->bs->unload_err = bserrno;
memcpy(&ctx->bs->unload_cpl, &seq->cpl, sizeof(struct spdk_bs_cpl));
seq->cpl.type = SPDK_BS_CPL_TYPE_NONE;
bs_sequence_finish(seq, bserrno);
_spdk_bs_free(ctx->bs);
free(ctx);
}
static void
_spdk_bs_unload_write_super_cpl(spdk_bs_sequence_t *seq, void *cb_arg, int bserrno)
{
struct spdk_bs_load_ctx *ctx = cb_arg;
_spdk_bs_unload_finish(ctx, bserrno);
}
static void
_spdk_bs_unload_write_used_clusters_cpl(spdk_bs_sequence_t *seq, void *cb_arg, int bserrno)
{
struct spdk_bs_load_ctx *ctx = cb_arg;
spdk_free(ctx->mask);
if (bserrno != 0) {
_spdk_bs_unload_finish(ctx, bserrno);
return;
}
ctx->super->clean = 1;
_spdk_bs_write_super(seq, ctx->bs, ctx->super, _spdk_bs_unload_write_super_cpl, ctx);
}
static void
_spdk_bs_unload_write_used_blobids_cpl(spdk_bs_sequence_t *seq, void *cb_arg, int bserrno)
{
struct spdk_bs_load_ctx *ctx = cb_arg;
spdk_free(ctx->mask);
ctx->mask = NULL;
if (bserrno != 0) {
_spdk_bs_unload_finish(ctx, bserrno);
return;
}
_spdk_bs_write_used_clusters(seq, ctx, _spdk_bs_unload_write_used_clusters_cpl);
}
static void
_spdk_bs_unload_write_used_pages_cpl(spdk_bs_sequence_t *seq, void *cb_arg, int bserrno)
{
struct spdk_bs_load_ctx *ctx = cb_arg;
spdk_free(ctx->mask);
ctx->mask = NULL;
if (bserrno != 0) {
_spdk_bs_unload_finish(ctx, bserrno);
return;
}
_spdk_bs_write_used_blobids(seq, ctx, _spdk_bs_unload_write_used_blobids_cpl);
}
static void
_spdk_bs_unload_read_super_cpl(spdk_bs_sequence_t *seq, void *cb_arg, int bserrno)
{
struct spdk_bs_load_ctx *ctx = cb_arg;
if (bserrno != 0) {
_spdk_bs_unload_finish(ctx, bserrno);
return;
}
_spdk_bs_write_used_md(seq, cb_arg, _spdk_bs_unload_write_used_pages_cpl);
}
void
spdk_bs_unload(struct spdk_blob_store *bs, spdk_bs_op_complete cb_fn, void *cb_arg)
{
struct spdk_bs_cpl cpl;
struct spdk_bs_load_ctx *ctx;
SPDK_DEBUGLOG(SPDK_LOG_BLOB, "Syncing blobstore\n");
if (!TAILQ_EMPTY(&bs->blobs)) {
SPDK_ERRLOG("Blobstore still has open blobs\n");
cb_fn(cb_arg, -EBUSY);
return;
}
ctx = calloc(1, sizeof(*ctx));
if (!ctx) {
cb_fn(cb_arg, -ENOMEM);
return;
}
ctx->bs = bs;
ctx->super = spdk_zmalloc(sizeof(*ctx->super), 0x1000, NULL,
SPDK_ENV_SOCKET_ID_ANY, SPDK_MALLOC_DMA);
if (!ctx->super) {
free(ctx);
cb_fn(cb_arg, -ENOMEM);
return;
}
cpl.type = SPDK_BS_CPL_TYPE_BS_BASIC;
cpl.u.bs_basic.cb_fn = cb_fn;
cpl.u.bs_basic.cb_arg = cb_arg;
ctx->seq = bs_sequence_start(bs->md_channel, &cpl);
if (!ctx->seq) {
spdk_free(ctx->super);
free(ctx);
cb_fn(cb_arg, -ENOMEM);
return;
}
/* Read super block */
bs_sequence_read_dev(ctx->seq, ctx->super, _spdk_bs_page_to_lba(bs, 0),
_spdk_bs_byte_to_lba(bs, sizeof(*ctx->super)),
_spdk_bs_unload_read_super_cpl, ctx);
}
/* END spdk_bs_unload */
/* START spdk_bs_set_super */
struct spdk_bs_set_super_ctx {
struct spdk_blob_store *bs;
struct spdk_bs_super_block *super;
};
static void
_spdk_bs_set_super_write_cpl(spdk_bs_sequence_t *seq, void *cb_arg, int bserrno)
{
struct spdk_bs_set_super_ctx *ctx = cb_arg;
if (bserrno != 0) {
SPDK_ERRLOG("Unable to write to super block of blobstore\n");
}
spdk_free(ctx->super);
bs_sequence_finish(seq, bserrno);
free(ctx);
}
static void
_spdk_bs_set_super_read_cpl(spdk_bs_sequence_t *seq, void *cb_arg, int bserrno)
{
struct spdk_bs_set_super_ctx *ctx = cb_arg;
if (bserrno != 0) {
SPDK_ERRLOG("Unable to read super block of blobstore\n");
spdk_free(ctx->super);
bs_sequence_finish(seq, bserrno);
free(ctx);
return;
}
_spdk_bs_write_super(seq, ctx->bs, ctx->super, _spdk_bs_set_super_write_cpl, ctx);
}
void
spdk_bs_set_super(struct spdk_blob_store *bs, spdk_blob_id blobid,
spdk_bs_op_complete cb_fn, void *cb_arg)
{
struct spdk_bs_cpl cpl;
spdk_bs_sequence_t *seq;
struct spdk_bs_set_super_ctx *ctx;
SPDK_DEBUGLOG(SPDK_LOG_BLOB, "Setting super blob id on blobstore\n");
ctx = calloc(1, sizeof(*ctx));
if (!ctx) {
cb_fn(cb_arg, -ENOMEM);
return;
}
ctx->bs = bs;
ctx->super = spdk_zmalloc(sizeof(*ctx->super), 0x1000, NULL,
SPDK_ENV_SOCKET_ID_ANY, SPDK_MALLOC_DMA);
if (!ctx->super) {
free(ctx);
cb_fn(cb_arg, -ENOMEM);
return;
}
cpl.type = SPDK_BS_CPL_TYPE_BS_BASIC;
cpl.u.bs_basic.cb_fn = cb_fn;
cpl.u.bs_basic.cb_arg = cb_arg;
seq = bs_sequence_start(bs->md_channel, &cpl);
if (!seq) {
spdk_free(ctx->super);
free(ctx);
cb_fn(cb_arg, -ENOMEM);
return;
}
bs->super_blob = blobid;
/* Read super block */
bs_sequence_read_dev(seq, ctx->super, _spdk_bs_page_to_lba(bs, 0),
_spdk_bs_byte_to_lba(bs, sizeof(*ctx->super)),
_spdk_bs_set_super_read_cpl, ctx);
}
/* END spdk_bs_set_super */
void
spdk_bs_get_super(struct spdk_blob_store *bs,
spdk_blob_op_with_id_complete cb_fn, void *cb_arg)
{
if (bs->super_blob == SPDK_BLOBID_INVALID) {
cb_fn(cb_arg, SPDK_BLOBID_INVALID, -ENOENT);
} else {
cb_fn(cb_arg, bs->super_blob, 0);
}
}
uint64_t
spdk_bs_get_cluster_size(struct spdk_blob_store *bs)
{
return bs->cluster_sz;
}
uint64_t
spdk_bs_get_page_size(struct spdk_blob_store *bs)
{
return SPDK_BS_PAGE_SIZE;
}
uint64_t
spdk_bs_get_io_unit_size(struct spdk_blob_store *bs)
{
return bs->io_unit_size;
}
uint64_t
spdk_bs_free_cluster_count(struct spdk_blob_store *bs)
{
return bs->num_free_clusters;
}
uint64_t
spdk_bs_total_data_cluster_count(struct spdk_blob_store *bs)
{
return bs->total_data_clusters;
}
static int
spdk_bs_register_md_thread(struct spdk_blob_store *bs)
{
bs->md_channel = spdk_get_io_channel(bs);
if (!bs->md_channel) {
SPDK_ERRLOG("Failed to get IO channel.\n");
return -1;
}
return 0;
}
static int
spdk_bs_unregister_md_thread(struct spdk_blob_store *bs)
{
spdk_put_io_channel(bs->md_channel);
return 0;
}
spdk_blob_id spdk_blob_get_id(struct spdk_blob *blob)
{
assert(blob != NULL);
return blob->id;
}
uint64_t spdk_blob_get_num_pages(struct spdk_blob *blob)
{
assert(blob != NULL);
return _spdk_bs_cluster_to_page(blob->bs, blob->active.num_clusters);
}
uint64_t spdk_blob_get_num_io_units(struct spdk_blob *blob)
{
assert(blob != NULL);
return spdk_blob_get_num_pages(blob) * _spdk_bs_io_unit_per_page(blob->bs);
}
uint64_t spdk_blob_get_num_clusters(struct spdk_blob *blob)
{
assert(blob != NULL);
return blob->active.num_clusters;
}
/* START spdk_bs_create_blob */
static void
_spdk_bs_create_blob_cpl(spdk_bs_sequence_t *seq, void *cb_arg, int bserrno)
{
struct spdk_blob *blob = cb_arg;
uint32_t page_idx = _spdk_bs_blobid_to_page(blob->id);
if (bserrno != 0) {
spdk_bit_array_clear(blob->bs->used_blobids, page_idx);
_spdk_bs_release_md_page(blob->bs, page_idx);
}
_spdk_blob_free(blob);
bs_sequence_finish(seq, bserrno);
}
static int
_spdk_blob_set_xattrs(struct spdk_blob *blob, const struct spdk_blob_xattr_opts *xattrs,
bool internal)
{
uint64_t i;
size_t value_len = 0;
int rc;
const void *value = NULL;
if (xattrs->count > 0 && xattrs->get_value == NULL) {
return -EINVAL;
}
for (i = 0; i < xattrs->count; i++) {
xattrs->get_value(xattrs->ctx, xattrs->names[i], &value, &value_len);
if (value == NULL || value_len == 0) {
return -EINVAL;
}
rc = _spdk_blob_set_xattr(blob, xattrs->names[i], value, value_len, internal);
if (rc < 0) {
return rc;
}
}
return 0;
}
static void
_spdk_bs_create_blob(struct spdk_blob_store *bs,
const struct spdk_blob_opts *opts,
const struct spdk_blob_xattr_opts *internal_xattrs,
spdk_blob_op_with_id_complete cb_fn, void *cb_arg)
{
struct spdk_blob *blob;
uint32_t page_idx;
struct spdk_bs_cpl cpl;
struct spdk_blob_opts opts_default;
struct spdk_blob_xattr_opts internal_xattrs_default;
spdk_bs_sequence_t *seq;
spdk_blob_id id;
int rc;
assert(spdk_get_thread() == bs->md_thread);
page_idx = spdk_bit_array_find_first_clear(bs->used_md_pages, 0);
if (page_idx == UINT32_MAX) {
cb_fn(cb_arg, 0, -ENOMEM);
return;
}
spdk_bit_array_set(bs->used_blobids, page_idx);
_spdk_bs_claim_md_page(bs, page_idx);
id = _spdk_bs_page_to_blobid(page_idx);
SPDK_DEBUGLOG(SPDK_LOG_BLOB, "Creating blob with id %lu at page %u\n", id, page_idx);
blob = _spdk_blob_alloc(bs, id);
if (!blob) {
spdk_bit_array_clear(bs->used_blobids, page_idx);
_spdk_bs_release_md_page(bs, page_idx);
cb_fn(cb_arg, 0, -ENOMEM);
return;
}
if (!opts) {
spdk_blob_opts_init(&opts_default);
opts = &opts_default;
}
blob->use_extent_table = opts->use_extent_table;
if (blob->use_extent_table) {
blob->invalid_flags |= SPDK_BLOB_EXTENT_TABLE;
}
if (!internal_xattrs) {
_spdk_blob_xattrs_init(&internal_xattrs_default);
internal_xattrs = &internal_xattrs_default;
}
rc = _spdk_blob_set_xattrs(blob, &opts->xattrs, false);
if (rc < 0) {
_spdk_blob_free(blob);
spdk_bit_array_clear(bs->used_blobids, page_idx);
_spdk_bs_release_md_page(bs, page_idx);
cb_fn(cb_arg, 0, rc);
return;
}
rc = _spdk_blob_set_xattrs(blob, internal_xattrs, true);
if (rc < 0) {
_spdk_blob_free(blob);
spdk_bit_array_clear(bs->used_blobids, page_idx);
_spdk_bs_release_md_page(bs, page_idx);
cb_fn(cb_arg, 0, rc);
return;
}
if (opts->thin_provision) {
_spdk_blob_set_thin_provision(blob);
}
_spdk_blob_set_clear_method(blob, opts->clear_method);
rc = _spdk_blob_resize(blob, opts->num_clusters);
if (rc < 0) {
_spdk_blob_free(blob);
spdk_bit_array_clear(bs->used_blobids, page_idx);
_spdk_bs_release_md_page(bs, page_idx);
cb_fn(cb_arg, 0, rc);
return;
}
cpl.type = SPDK_BS_CPL_TYPE_BLOBID;
cpl.u.blobid.cb_fn = cb_fn;
cpl.u.blobid.cb_arg = cb_arg;
cpl.u.blobid.blobid = blob->id;
seq = bs_sequence_start(bs->md_channel, &cpl);
if (!seq) {
_spdk_blob_free(blob);
spdk_bit_array_clear(bs->used_blobids, page_idx);
_spdk_bs_release_md_page(bs, page_idx);
cb_fn(cb_arg, 0, -ENOMEM);
return;
}
_spdk_blob_persist(seq, blob, _spdk_bs_create_blob_cpl, blob);
}
void spdk_bs_create_blob(struct spdk_blob_store *bs,
spdk_blob_op_with_id_complete cb_fn, void *cb_arg)
{
_spdk_bs_create_blob(bs, NULL, NULL, cb_fn, cb_arg);
}
void spdk_bs_create_blob_ext(struct spdk_blob_store *bs, const struct spdk_blob_opts *opts,
spdk_blob_op_with_id_complete cb_fn, void *cb_arg)
{
_spdk_bs_create_blob(bs, opts, NULL, cb_fn, cb_arg);
}
/* END spdk_bs_create_blob */
/* START blob_cleanup */
struct spdk_clone_snapshot_ctx {
struct spdk_bs_cpl cpl;
int bserrno;
bool frozen;
struct spdk_io_channel *channel;
/* Current cluster for inflate operation */
uint64_t cluster;
/* For inflation force allocation of all unallocated clusters and remove
* thin-provisioning. Otherwise only decouple parent and keep clone thin. */
bool allocate_all;
struct {
spdk_blob_id id;
struct spdk_blob *blob;
} original;
struct {
spdk_blob_id id;
struct spdk_blob *blob;
} new;
/* xattrs specified for snapshot/clones only. They have no impact on
* the original blobs xattrs. */
const struct spdk_blob_xattr_opts *xattrs;
};
static void
_spdk_bs_clone_snapshot_cleanup_finish(void *cb_arg, int bserrno)
{
struct spdk_clone_snapshot_ctx *ctx = cb_arg;
struct spdk_bs_cpl *cpl = &ctx->cpl;
if (bserrno != 0) {
if (ctx->bserrno != 0) {
SPDK_ERRLOG("Cleanup error %d\n", bserrno);
} else {
ctx->bserrno = bserrno;
}
}
switch (cpl->type) {
case SPDK_BS_CPL_TYPE_BLOBID:
cpl->u.blobid.cb_fn(cpl->u.blobid.cb_arg, cpl->u.blobid.blobid, ctx->bserrno);
break;
case SPDK_BS_CPL_TYPE_BLOB_BASIC:
cpl->u.blob_basic.cb_fn(cpl->u.blob_basic.cb_arg, ctx->bserrno);
break;
default:
SPDK_UNREACHABLE();
break;
}
free(ctx);
}
static void
_spdk_bs_snapshot_unfreeze_cpl(void *cb_arg, int bserrno)
{
struct spdk_clone_snapshot_ctx *ctx = (struct spdk_clone_snapshot_ctx *)cb_arg;
struct spdk_blob *origblob = ctx->original.blob;
if (bserrno != 0) {
if (ctx->bserrno != 0) {
SPDK_ERRLOG("Unfreeze error %d\n", bserrno);
} else {
ctx->bserrno = bserrno;
}
}
ctx->original.id = origblob->id;
origblob->locked_operation_in_progress = false;
spdk_blob_close(origblob, _spdk_bs_clone_snapshot_cleanup_finish, ctx);
}
static void
_spdk_bs_clone_snapshot_origblob_cleanup(void *cb_arg, int bserrno)
{
struct spdk_clone_snapshot_ctx *ctx = (struct spdk_clone_snapshot_ctx *)cb_arg;
struct spdk_blob *origblob = ctx->original.blob;
if (bserrno != 0) {
if (ctx->bserrno != 0) {
SPDK_ERRLOG("Cleanup error %d\n", bserrno);
} else {
ctx->bserrno = bserrno;
}
}
if (ctx->frozen) {
/* Unfreeze any outstanding I/O */
_spdk_blob_unfreeze_io(origblob, _spdk_bs_snapshot_unfreeze_cpl, ctx);
} else {
_spdk_bs_snapshot_unfreeze_cpl(ctx, 0);
}
}
static void
_spdk_bs_clone_snapshot_newblob_cleanup(void *cb_arg, int bserrno)
{
struct spdk_clone_snapshot_ctx *ctx = (struct spdk_clone_snapshot_ctx *)cb_arg;
struct spdk_blob *newblob = ctx->new.blob;
if (bserrno != 0) {
if (ctx->bserrno != 0) {
SPDK_ERRLOG("Cleanup error %d\n", bserrno);
} else {
ctx->bserrno = bserrno;
}
}
ctx->new.id = newblob->id;
spdk_blob_close(newblob, _spdk_bs_clone_snapshot_origblob_cleanup, ctx);
}
/* END blob_cleanup */
/* START spdk_bs_create_snapshot */
static void
_spdk_bs_snapshot_swap_cluster_maps(struct spdk_blob *blob1, struct spdk_blob *blob2)
{
uint64_t *cluster_temp;
uint32_t *extent_page_temp;
cluster_temp = blob1->active.clusters;
blob1->active.clusters = blob2->active.clusters;
blob2->active.clusters = cluster_temp;
extent_page_temp = blob1->active.extent_pages;
blob1->active.extent_pages = blob2->active.extent_pages;
blob2->active.extent_pages = extent_page_temp;
}
static void
_spdk_bs_snapshot_origblob_sync_cpl(void *cb_arg, int bserrno)
{
struct spdk_clone_snapshot_ctx *ctx = (struct spdk_clone_snapshot_ctx *)cb_arg;
struct spdk_blob *origblob = ctx->original.blob;
struct spdk_blob *newblob = ctx->new.blob;
if (bserrno != 0) {
_spdk_bs_snapshot_swap_cluster_maps(newblob, origblob);
_spdk_bs_clone_snapshot_origblob_cleanup(ctx, bserrno);
return;
}
/* Remove metadata descriptor SNAPSHOT_IN_PROGRESS */
bserrno = _spdk_blob_remove_xattr(newblob, SNAPSHOT_IN_PROGRESS, true);
if (bserrno != 0) {
_spdk_bs_clone_snapshot_origblob_cleanup(ctx, bserrno);
return;
}
_spdk_bs_blob_list_add(ctx->original.blob);
spdk_blob_set_read_only(newblob);
/* sync snapshot metadata */
spdk_blob_sync_md(newblob, _spdk_bs_clone_snapshot_origblob_cleanup, ctx);
}
static void
_spdk_bs_snapshot_newblob_sync_cpl(void *cb_arg, int bserrno)
{
struct spdk_clone_snapshot_ctx *ctx = (struct spdk_clone_snapshot_ctx *)cb_arg;
struct spdk_blob *origblob = ctx->original.blob;
struct spdk_blob *newblob = ctx->new.blob;
if (bserrno != 0) {
/* return cluster map back to original */
_spdk_bs_snapshot_swap_cluster_maps(newblob, origblob);
/* Newblob md sync failed. Valid clusters are only present in origblob.
* Since I/O is frozen on origblob, not changes to zeroed out cluster map should have occured.
* Newblob needs to be reverted to thin_provisioned state at creation to properly close. */
_spdk_blob_set_thin_provision(newblob);
assert(spdk_mem_all_zero(newblob->active.clusters,
newblob->active.num_clusters * sizeof(*newblob->active.clusters)));
assert(spdk_mem_all_zero(newblob->active.extent_pages,
newblob->active.num_extent_pages * sizeof(*newblob->active.extent_pages)));
_spdk_bs_clone_snapshot_newblob_cleanup(ctx, bserrno);
return;
}
/* Set internal xattr for snapshot id */
bserrno = _spdk_blob_set_xattr(origblob, BLOB_SNAPSHOT, &newblob->id, sizeof(spdk_blob_id), true);
if (bserrno != 0) {
/* return cluster map back to original */
_spdk_bs_snapshot_swap_cluster_maps(newblob, origblob);
_spdk_bs_clone_snapshot_newblob_cleanup(ctx, bserrno);
return;
}
_spdk_bs_blob_list_remove(origblob);
origblob->parent_id = newblob->id;
/* Create new back_bs_dev for snapshot */
origblob->back_bs_dev = bs_create_blob_bs_dev(newblob);
if (origblob->back_bs_dev == NULL) {
/* return cluster map back to original */
_spdk_bs_snapshot_swap_cluster_maps(newblob, origblob);
_spdk_bs_clone_snapshot_newblob_cleanup(ctx, -EINVAL);
return;
}
/* set clone blob as thin provisioned */
_spdk_blob_set_thin_provision(origblob);
_spdk_bs_blob_list_add(newblob);
/* sync clone metadata */
spdk_blob_sync_md(origblob, _spdk_bs_snapshot_origblob_sync_cpl, ctx);
}
static void
_spdk_bs_snapshot_freeze_cpl(void *cb_arg, int rc)
{
struct spdk_clone_snapshot_ctx *ctx = (struct spdk_clone_snapshot_ctx *)cb_arg;
struct spdk_blob *origblob = ctx->original.blob;
struct spdk_blob *newblob = ctx->new.blob;
int bserrno;
if (rc != 0) {
_spdk_bs_clone_snapshot_newblob_cleanup(ctx, rc);
return;
}
ctx->frozen = true;
/* set new back_bs_dev for snapshot */
newblob->back_bs_dev = origblob->back_bs_dev;
/* Set invalid flags from origblob */
newblob->invalid_flags = origblob->invalid_flags;
/* inherit parent from original blob if set */
newblob->parent_id = origblob->parent_id;
if (origblob->parent_id != SPDK_BLOBID_INVALID) {
/* Set internal xattr for snapshot id */
bserrno = _spdk_blob_set_xattr(newblob, BLOB_SNAPSHOT,
&origblob->parent_id, sizeof(spdk_blob_id), true);
if (bserrno != 0) {
_spdk_bs_clone_snapshot_newblob_cleanup(ctx, bserrno);
return;
}
}
/* swap cluster maps */
_spdk_bs_snapshot_swap_cluster_maps(newblob, origblob);
/* Set the clear method on the new blob to match the original. */
_spdk_blob_set_clear_method(newblob, origblob->clear_method);
/* sync snapshot metadata */
spdk_blob_sync_md(newblob, _spdk_bs_snapshot_newblob_sync_cpl, ctx);
}
static void
_spdk_bs_snapshot_newblob_open_cpl(void *cb_arg, struct spdk_blob *_blob, int bserrno)
{
struct spdk_clone_snapshot_ctx *ctx = (struct spdk_clone_snapshot_ctx *)cb_arg;
struct spdk_blob *origblob = ctx->original.blob;
struct spdk_blob *newblob = _blob;
if (bserrno != 0) {
_spdk_bs_clone_snapshot_origblob_cleanup(ctx, bserrno);
return;
}
ctx->new.blob = newblob;
assert(spdk_blob_is_thin_provisioned(newblob));
assert(spdk_mem_all_zero(newblob->active.clusters,
newblob->active.num_clusters * sizeof(*newblob->active.clusters)));
assert(spdk_mem_all_zero(newblob->active.extent_pages,
newblob->active.num_extent_pages * sizeof(*newblob->active.extent_pages)));
_spdk_blob_freeze_io(origblob, _spdk_bs_snapshot_freeze_cpl, ctx);
}
static void
_spdk_bs_snapshot_newblob_create_cpl(void *cb_arg, spdk_blob_id blobid, int bserrno)
{
struct spdk_clone_snapshot_ctx *ctx = (struct spdk_clone_snapshot_ctx *)cb_arg;
struct spdk_blob *origblob = ctx->original.blob;
if (bserrno != 0) {
_spdk_bs_clone_snapshot_origblob_cleanup(ctx, bserrno);
return;
}
ctx->new.id = blobid;
ctx->cpl.u.blobid.blobid = blobid;
spdk_bs_open_blob(origblob->bs, ctx->new.id, _spdk_bs_snapshot_newblob_open_cpl, ctx);
}
static void
_spdk_bs_xattr_snapshot(void *arg, const char *name,
const void **value, size_t *value_len)
{
assert(strncmp(name, SNAPSHOT_IN_PROGRESS, sizeof(SNAPSHOT_IN_PROGRESS)) == 0);
struct spdk_blob *blob = (struct spdk_blob *)arg;
*value = &blob->id;
*value_len = sizeof(blob->id);
}
static void
_spdk_bs_snapshot_origblob_open_cpl(void *cb_arg, struct spdk_blob *_blob, int bserrno)
{
struct spdk_clone_snapshot_ctx *ctx = (struct spdk_clone_snapshot_ctx *)cb_arg;
struct spdk_blob_opts opts;
struct spdk_blob_xattr_opts internal_xattrs;
char *xattrs_names[] = { SNAPSHOT_IN_PROGRESS };
if (bserrno != 0) {
_spdk_bs_clone_snapshot_cleanup_finish(ctx, bserrno);
return;
}
ctx->original.blob = _blob;
if (_blob->data_ro || _blob->md_ro) {
SPDK_DEBUGLOG(SPDK_LOG_BLOB, "Cannot create snapshot from read only blob with id %lu\n",
_blob->id);
ctx->bserrno = -EINVAL;
spdk_blob_close(_blob, _spdk_bs_clone_snapshot_cleanup_finish, ctx);
return;
}
if (_blob->locked_operation_in_progress) {
SPDK_DEBUGLOG(SPDK_LOG_BLOB, "Cannot create snapshot - another operation in progress\n");
ctx->bserrno = -EBUSY;
spdk_blob_close(_blob, _spdk_bs_clone_snapshot_cleanup_finish, ctx);
return;
}
_blob->locked_operation_in_progress = true;
spdk_blob_opts_init(&opts);
_spdk_blob_xattrs_init(&internal_xattrs);
/* Change the size of new blob to the same as in original blob,
* but do not allocate clusters */
opts.thin_provision = true;
opts.num_clusters = spdk_blob_get_num_clusters(_blob);
opts.use_extent_table = _blob->use_extent_table;
/* If there are any xattrs specified for snapshot, set them now */
if (ctx->xattrs) {
memcpy(&opts.xattrs, ctx->xattrs, sizeof(*ctx->xattrs));
}
/* Set internal xattr SNAPSHOT_IN_PROGRESS */
internal_xattrs.count = 1;
internal_xattrs.ctx = _blob;
internal_xattrs.names = xattrs_names;
internal_xattrs.get_value = _spdk_bs_xattr_snapshot;
_spdk_bs_create_blob(_blob->bs, &opts, &internal_xattrs,
_spdk_bs_snapshot_newblob_create_cpl, ctx);
}
void spdk_bs_create_snapshot(struct spdk_blob_store *bs, spdk_blob_id blobid,
const struct spdk_blob_xattr_opts *snapshot_xattrs,
spdk_blob_op_with_id_complete cb_fn, void *cb_arg)
{
struct spdk_clone_snapshot_ctx *ctx = calloc(1, sizeof(*ctx));
if (!ctx) {
cb_fn(cb_arg, SPDK_BLOBID_INVALID, -ENOMEM);
return;
}
ctx->cpl.type = SPDK_BS_CPL_TYPE_BLOBID;
ctx->cpl.u.blobid.cb_fn = cb_fn;
ctx->cpl.u.blobid.cb_arg = cb_arg;
ctx->cpl.u.blobid.blobid = SPDK_BLOBID_INVALID;
ctx->bserrno = 0;
ctx->frozen = false;
ctx->original.id = blobid;
ctx->xattrs = snapshot_xattrs;
spdk_bs_open_blob(bs, ctx->original.id, _spdk_bs_snapshot_origblob_open_cpl, ctx);
}
/* END spdk_bs_create_snapshot */
/* START spdk_bs_create_clone */
static void
_spdk_bs_xattr_clone(void *arg, const char *name,
const void **value, size_t *value_len)
{
assert(strncmp(name, BLOB_SNAPSHOT, sizeof(BLOB_SNAPSHOT)) == 0);
struct spdk_blob *blob = (struct spdk_blob *)arg;
*value = &blob->id;
*value_len = sizeof(blob->id);
}
static void
_spdk_bs_clone_newblob_open_cpl(void *cb_arg, struct spdk_blob *_blob, int bserrno)
{
struct spdk_clone_snapshot_ctx *ctx = (struct spdk_clone_snapshot_ctx *)cb_arg;
struct spdk_blob *clone = _blob;
ctx->new.blob = clone;
_spdk_bs_blob_list_add(clone);
spdk_blob_close(clone, _spdk_bs_clone_snapshot_origblob_cleanup, ctx);
}
static void
_spdk_bs_clone_newblob_create_cpl(void *cb_arg, spdk_blob_id blobid, int bserrno)
{
struct spdk_clone_snapshot_ctx *ctx = (struct spdk_clone_snapshot_ctx *)cb_arg;
ctx->cpl.u.blobid.blobid = blobid;
spdk_bs_open_blob(ctx->original.blob->bs, blobid, _spdk_bs_clone_newblob_open_cpl, ctx);
}
static void
_spdk_bs_clone_origblob_open_cpl(void *cb_arg, struct spdk_blob *_blob, int bserrno)
{
struct spdk_clone_snapshot_ctx *ctx = (struct spdk_clone_snapshot_ctx *)cb_arg;
struct spdk_blob_opts opts;
struct spdk_blob_xattr_opts internal_xattrs;
char *xattr_names[] = { BLOB_SNAPSHOT };
if (bserrno != 0) {
_spdk_bs_clone_snapshot_cleanup_finish(ctx, bserrno);
return;
}
ctx->original.blob = _blob;
if (!_blob->data_ro || !_blob->md_ro) {
SPDK_DEBUGLOG(SPDK_LOG_BLOB, "Clone not from read-only blob\n");
ctx->bserrno = -EINVAL;
spdk_blob_close(_blob, _spdk_bs_clone_snapshot_cleanup_finish, ctx);
return;
}
if (_blob->locked_operation_in_progress) {
SPDK_DEBUGLOG(SPDK_LOG_BLOB, "Cannot create clone - another operation in progress\n");
ctx->bserrno = -EBUSY;
spdk_blob_close(_blob, _spdk_bs_clone_snapshot_cleanup_finish, ctx);
return;
}
_blob->locked_operation_in_progress = true;
spdk_blob_opts_init(&opts);
_spdk_blob_xattrs_init(&internal_xattrs);
opts.thin_provision = true;
opts.num_clusters = spdk_blob_get_num_clusters(_blob);
opts.use_extent_table = _blob->use_extent_table;
if (ctx->xattrs) {
memcpy(&opts.xattrs, ctx->xattrs, sizeof(*ctx->xattrs));
}
/* Set internal xattr BLOB_SNAPSHOT */
internal_xattrs.count = 1;
internal_xattrs.ctx = _blob;
internal_xattrs.names = xattr_names;
internal_xattrs.get_value = _spdk_bs_xattr_clone;
_spdk_bs_create_blob(_blob->bs, &opts, &internal_xattrs,
_spdk_bs_clone_newblob_create_cpl, ctx);
}
void spdk_bs_create_clone(struct spdk_blob_store *bs, spdk_blob_id blobid,
const struct spdk_blob_xattr_opts *clone_xattrs,
spdk_blob_op_with_id_complete cb_fn, void *cb_arg)
{
struct spdk_clone_snapshot_ctx *ctx = calloc(1, sizeof(*ctx));
if (!ctx) {
cb_fn(cb_arg, SPDK_BLOBID_INVALID, -ENOMEM);
return;
}
ctx->cpl.type = SPDK_BS_CPL_TYPE_BLOBID;
ctx->cpl.u.blobid.cb_fn = cb_fn;
ctx->cpl.u.blobid.cb_arg = cb_arg;
ctx->cpl.u.blobid.blobid = SPDK_BLOBID_INVALID;
ctx->bserrno = 0;
ctx->xattrs = clone_xattrs;
ctx->original.id = blobid;
spdk_bs_open_blob(bs, ctx->original.id, _spdk_bs_clone_origblob_open_cpl, ctx);
}
/* END spdk_bs_create_clone */
/* START spdk_bs_inflate_blob */
static void
_spdk_bs_inflate_blob_set_parent_cpl(void *cb_arg, struct spdk_blob *_parent, int bserrno)
{
struct spdk_clone_snapshot_ctx *ctx = (struct spdk_clone_snapshot_ctx *)cb_arg;
struct spdk_blob *_blob = ctx->original.blob;
if (bserrno != 0) {
_spdk_bs_clone_snapshot_origblob_cleanup(ctx, bserrno);
return;
}
assert(_parent != NULL);
_spdk_bs_blob_list_remove(_blob);
_blob->parent_id = _parent->id;
_spdk_blob_set_xattr(_blob, BLOB_SNAPSHOT, &_blob->parent_id,
sizeof(spdk_blob_id), true);
_blob->back_bs_dev->destroy(_blob->back_bs_dev);
_blob->back_bs_dev = bs_create_blob_bs_dev(_parent);
_spdk_bs_blob_list_add(_blob);
spdk_blob_sync_md(_blob, _spdk_bs_clone_snapshot_origblob_cleanup, ctx);
}
static void
_spdk_bs_inflate_blob_done(void *cb_arg, int bserrno)
{
struct spdk_clone_snapshot_ctx *ctx = (struct spdk_clone_snapshot_ctx *)cb_arg;
struct spdk_blob *_blob = ctx->original.blob;
struct spdk_blob *_parent;
if (bserrno != 0) {
_spdk_bs_clone_snapshot_origblob_cleanup(ctx, bserrno);
return;
}
if (ctx->allocate_all) {
/* remove thin provisioning */
_spdk_bs_blob_list_remove(_blob);
_spdk_blob_remove_xattr(_blob, BLOB_SNAPSHOT, true);
_blob->invalid_flags = _blob->invalid_flags & ~SPDK_BLOB_THIN_PROV;
_blob->back_bs_dev->destroy(_blob->back_bs_dev);
_blob->back_bs_dev = NULL;
_blob->parent_id = SPDK_BLOBID_INVALID;
} else {
_parent = ((struct spdk_blob_bs_dev *)(_blob->back_bs_dev))->blob;
if (_parent->parent_id != SPDK_BLOBID_INVALID) {
/* We must change the parent of the inflated blob */
spdk_bs_open_blob(_blob->bs, _parent->parent_id,
_spdk_bs_inflate_blob_set_parent_cpl, ctx);
return;
}
_spdk_bs_blob_list_remove(_blob);
_spdk_blob_remove_xattr(_blob, BLOB_SNAPSHOT, true);
_blob->parent_id = SPDK_BLOBID_INVALID;
_blob->back_bs_dev->destroy(_blob->back_bs_dev);
_blob->back_bs_dev = bs_create_zeroes_dev();
}
_blob->state = SPDK_BLOB_STATE_DIRTY;
spdk_blob_sync_md(_blob, _spdk_bs_clone_snapshot_origblob_cleanup, ctx);
}
/* Check if cluster needs allocation */
static inline bool
_spdk_bs_cluster_needs_allocation(struct spdk_blob *blob, uint64_t cluster, bool allocate_all)
{
struct spdk_blob_bs_dev *b;
assert(blob != NULL);
if (blob->active.clusters[cluster] != 0) {
/* Cluster is already allocated */
return false;
}
if (blob->parent_id == SPDK_BLOBID_INVALID) {
/* Blob have no parent blob */
return allocate_all;
}
b = (struct spdk_blob_bs_dev *)blob->back_bs_dev;
return (allocate_all || b->blob->active.clusters[cluster] != 0);
}
static void
_spdk_bs_inflate_blob_touch_next(void *cb_arg, int bserrno)
{
struct spdk_clone_snapshot_ctx *ctx = (struct spdk_clone_snapshot_ctx *)cb_arg;
struct spdk_blob *_blob = ctx->original.blob;
uint64_t offset;
if (bserrno != 0) {
_spdk_bs_clone_snapshot_origblob_cleanup(ctx, bserrno);
return;
}
for (; ctx->cluster < _blob->active.num_clusters; ctx->cluster++) {
if (_spdk_bs_cluster_needs_allocation(_blob, ctx->cluster, ctx->allocate_all)) {
break;
}
}
if (ctx->cluster < _blob->active.num_clusters) {
offset = _spdk_bs_cluster_to_lba(_blob->bs, ctx->cluster);
/* We may safely increment a cluster before write */
ctx->cluster++;
/* Use zero length write to touch a cluster */
spdk_blob_io_write(_blob, ctx->channel, NULL, offset, 0,
_spdk_bs_inflate_blob_touch_next, ctx);
} else {
_spdk_bs_inflate_blob_done(cb_arg, bserrno);
}
}
static void
_spdk_bs_inflate_blob_open_cpl(void *cb_arg, struct spdk_blob *_blob, int bserrno)
{
struct spdk_clone_snapshot_ctx *ctx = (struct spdk_clone_snapshot_ctx *)cb_arg;
uint64_t lfc; /* lowest free cluster */
uint64_t i;
if (bserrno != 0) {
_spdk_bs_clone_snapshot_cleanup_finish(ctx, bserrno);
return;
}
ctx->original.blob = _blob;
if (_blob->locked_operation_in_progress) {
SPDK_DEBUGLOG(SPDK_LOG_BLOB, "Cannot inflate blob - another operation in progress\n");
ctx->bserrno = -EBUSY;
spdk_blob_close(_blob, _spdk_bs_clone_snapshot_cleanup_finish, ctx);
return;
}
_blob->locked_operation_in_progress = true;
if (!ctx->allocate_all && _blob->parent_id == SPDK_BLOBID_INVALID) {
/* This blob have no parent, so we cannot decouple it. */
SPDK_ERRLOG("Cannot decouple parent of blob with no parent.\n");
_spdk_bs_clone_snapshot_origblob_cleanup(ctx, -EINVAL);
return;
}
if (spdk_blob_is_thin_provisioned(_blob) == false) {
/* This is not thin provisioned blob. No need to inflate. */
_spdk_bs_clone_snapshot_origblob_cleanup(ctx, 0);
return;
}
/* Do two passes - one to verify that we can obtain enough clusters
* and another to actually claim them.
*/
lfc = 0;
for (i = 0; i < _blob->active.num_clusters; i++) {
if (_spdk_bs_cluster_needs_allocation(_blob, i, ctx->allocate_all)) {
lfc = spdk_bit_array_find_first_clear(_blob->bs->used_clusters, lfc);
if (lfc == UINT32_MAX) {
/* No more free clusters. Cannot satisfy the request */
_spdk_bs_clone_snapshot_origblob_cleanup(ctx, -ENOSPC);
return;
}
lfc++;
}
}
ctx->cluster = 0;
_spdk_bs_inflate_blob_touch_next(ctx, 0);
}
static void
_spdk_bs_inflate_blob(struct spdk_blob_store *bs, struct spdk_io_channel *channel,
spdk_blob_id blobid, bool allocate_all, spdk_blob_op_complete cb_fn, void *cb_arg)
{
struct spdk_clone_snapshot_ctx *ctx = calloc(1, sizeof(*ctx));
if (!ctx) {
cb_fn(cb_arg, -ENOMEM);
return;
}
ctx->cpl.type = SPDK_BS_CPL_TYPE_BLOB_BASIC;
ctx->cpl.u.bs_basic.cb_fn = cb_fn;
ctx->cpl.u.bs_basic.cb_arg = cb_arg;
ctx->bserrno = 0;
ctx->original.id = blobid;
ctx->channel = channel;
ctx->allocate_all = allocate_all;
spdk_bs_open_blob(bs, ctx->original.id, _spdk_bs_inflate_blob_open_cpl, ctx);
}
void
spdk_bs_inflate_blob(struct spdk_blob_store *bs, struct spdk_io_channel *channel,
spdk_blob_id blobid, spdk_blob_op_complete cb_fn, void *cb_arg)
{
_spdk_bs_inflate_blob(bs, channel, blobid, true, cb_fn, cb_arg);
}
void
spdk_bs_blob_decouple_parent(struct spdk_blob_store *bs, struct spdk_io_channel *channel,
spdk_blob_id blobid, spdk_blob_op_complete cb_fn, void *cb_arg)
{
_spdk_bs_inflate_blob(bs, channel, blobid, false, cb_fn, cb_arg);
}
/* END spdk_bs_inflate_blob */
/* START spdk_blob_resize */
struct spdk_bs_resize_ctx {
spdk_blob_op_complete cb_fn;
void *cb_arg;
struct spdk_blob *blob;
uint64_t sz;
int rc;
};
static void
_spdk_bs_resize_unfreeze_cpl(void *cb_arg, int rc)
{
struct spdk_bs_resize_ctx *ctx = (struct spdk_bs_resize_ctx *)cb_arg;
if (rc != 0) {
SPDK_ERRLOG("Unfreeze failed, rc=%d\n", rc);
}
if (ctx->rc != 0) {
SPDK_ERRLOG("Unfreeze failed, ctx->rc=%d\n", ctx->rc);
rc = ctx->rc;
}
ctx->blob->locked_operation_in_progress = false;
ctx->cb_fn(ctx->cb_arg, rc);
free(ctx);
}
static void
_spdk_bs_resize_freeze_cpl(void *cb_arg, int rc)
{
struct spdk_bs_resize_ctx *ctx = (struct spdk_bs_resize_ctx *)cb_arg;
if (rc != 0) {
ctx->blob->locked_operation_in_progress = false;
ctx->cb_fn(ctx->cb_arg, rc);
free(ctx);
return;
}
ctx->rc = _spdk_blob_resize(ctx->blob, ctx->sz);
_spdk_blob_unfreeze_io(ctx->blob, _spdk_bs_resize_unfreeze_cpl, ctx);
}
void
spdk_blob_resize(struct spdk_blob *blob, uint64_t sz, spdk_blob_op_complete cb_fn, void *cb_arg)
{
struct spdk_bs_resize_ctx *ctx;
_spdk_blob_verify_md_op(blob);
SPDK_DEBUGLOG(SPDK_LOG_BLOB, "Resizing blob %lu to %lu clusters\n", blob->id, sz);
if (blob->md_ro) {
cb_fn(cb_arg, -EPERM);
return;
}
if (sz == blob->active.num_clusters) {
cb_fn(cb_arg, 0);
return;
}
if (blob->locked_operation_in_progress) {
cb_fn(cb_arg, -EBUSY);
return;
}
ctx = calloc(1, sizeof(*ctx));
if (!ctx) {
cb_fn(cb_arg, -ENOMEM);
return;
}
blob->locked_operation_in_progress = true;
ctx->cb_fn = cb_fn;
ctx->cb_arg = cb_arg;
ctx->blob = blob;
ctx->sz = sz;
_spdk_blob_freeze_io(blob, _spdk_bs_resize_freeze_cpl, ctx);
}
/* END spdk_blob_resize */
/* START spdk_bs_delete_blob */
static void
_spdk_bs_delete_close_cpl(void *cb_arg, int bserrno)
{
spdk_bs_sequence_t *seq = cb_arg;
bs_sequence_finish(seq, bserrno);
}
static void
_spdk_bs_delete_persist_cpl(spdk_bs_sequence_t *seq, void *cb_arg, int bserrno)
{
struct spdk_blob *blob = cb_arg;
if (bserrno != 0) {
/*
* We already removed this blob from the blobstore tailq, so
* we need to free it here since this is the last reference
* to it.
*/
_spdk_blob_free(blob);
_spdk_bs_delete_close_cpl(seq, bserrno);
return;
}
/*
* This will immediately decrement the ref_count and call
* the completion routine since the metadata state is clean.
* By calling spdk_blob_close, we reduce the number of call
* points into code that touches the blob->open_ref count
* and the blobstore's blob list.
*/
spdk_blob_close(blob, _spdk_bs_delete_close_cpl, seq);
}
struct delete_snapshot_ctx {
struct spdk_blob_list *parent_snapshot_entry;
struct spdk_blob *snapshot;
bool snapshot_md_ro;
struct spdk_blob *clone;
bool clone_md_ro;
spdk_blob_op_with_handle_complete cb_fn;
void *cb_arg;
int bserrno;
};
static void
_spdk_delete_blob_cleanup_finish(void *cb_arg, int bserrno)
{
struct delete_snapshot_ctx *ctx = cb_arg;
if (bserrno != 0) {
SPDK_ERRLOG("Snapshot cleanup error %d\n", bserrno);
}
assert(ctx != NULL);
if (bserrno != 0 && ctx->bserrno == 0) {
ctx->bserrno = bserrno;
}
ctx->cb_fn(ctx->cb_arg, ctx->snapshot, ctx->bserrno);
free(ctx);
}
static void
_spdk_delete_snapshot_cleanup_snapshot(void *cb_arg, int bserrno)
{
struct delete_snapshot_ctx *ctx = cb_arg;
if (bserrno != 0) {
ctx->bserrno = bserrno;
SPDK_ERRLOG("Clone cleanup error %d\n", bserrno);
}
if (ctx->bserrno != 0) {
assert(_spdk_blob_lookup(ctx->snapshot->bs, ctx->snapshot->id) == NULL);
TAILQ_INSERT_HEAD(&ctx->snapshot->bs->blobs, ctx->snapshot, link);
}
ctx->snapshot->locked_operation_in_progress = false;
ctx->snapshot->md_ro = ctx->snapshot_md_ro;
spdk_blob_close(ctx->snapshot, _spdk_delete_blob_cleanup_finish, ctx);
}
static void
_spdk_delete_snapshot_cleanup_clone(void *cb_arg, int bserrno)
{
struct delete_snapshot_ctx *ctx = cb_arg;
ctx->clone->locked_operation_in_progress = false;
ctx->clone->md_ro = ctx->clone_md_ro;
spdk_blob_close(ctx->clone, _spdk_delete_snapshot_cleanup_snapshot, ctx);
}
static void
_spdk_delete_snapshot_unfreeze_cpl(void *cb_arg, int bserrno)
{
struct delete_snapshot_ctx *ctx = cb_arg;
if (bserrno) {
ctx->bserrno = bserrno;
_spdk_delete_snapshot_cleanup_clone(ctx, 0);
return;
}
ctx->clone->locked_operation_in_progress = false;
spdk_blob_close(ctx->clone, _spdk_delete_blob_cleanup_finish, ctx);
}
static void
_spdk_delete_snapshot_sync_snapshot_cpl(void *cb_arg, int bserrno)
{
struct delete_snapshot_ctx *ctx = cb_arg;
struct spdk_blob_list *parent_snapshot_entry = NULL;
struct spdk_blob_list *snapshot_entry = NULL;
struct spdk_blob_list *clone_entry = NULL;
struct spdk_blob_list *snapshot_clone_entry = NULL;
if (bserrno) {
SPDK_ERRLOG("Failed to sync MD on blob\n");
ctx->bserrno = bserrno;
_spdk_delete_snapshot_cleanup_clone(ctx, 0);
return;
}
/* Get snapshot entry for the snapshot we want to remove */
snapshot_entry = _spdk_bs_get_snapshot_entry(ctx->snapshot->bs, ctx->snapshot->id);
assert(snapshot_entry != NULL);
/* Remove clone entry in this snapshot (at this point there can be only one clone) */
clone_entry = TAILQ_FIRST(&snapshot_entry->clones);
assert(clone_entry != NULL);
TAILQ_REMOVE(&snapshot_entry->clones, clone_entry, link);
snapshot_entry->clone_count--;
assert(TAILQ_EMPTY(&snapshot_entry->clones));
if (ctx->snapshot->parent_id != SPDK_BLOBID_INVALID) {
/* This snapshot is at the same time a clone of another snapshot - we need to
* update parent snapshot (remove current clone, add new one inherited from
* the snapshot that is being removed) */
/* Get snapshot entry for parent snapshot and clone entry within that snapshot for
* snapshot that we are removing */
_spdk_blob_get_snapshot_and_clone_entries(ctx->snapshot, &parent_snapshot_entry,
&snapshot_clone_entry);
/* Switch clone entry in parent snapshot */
TAILQ_INSERT_TAIL(&parent_snapshot_entry->clones, clone_entry, link);
TAILQ_REMOVE(&parent_snapshot_entry->clones, snapshot_clone_entry, link);
free(snapshot_clone_entry);
} else {
/* No parent snapshot - just remove clone entry */
free(clone_entry);
}
/* Restore md_ro flags */
ctx->clone->md_ro = ctx->clone_md_ro;
ctx->snapshot->md_ro = ctx->snapshot_md_ro;
_spdk_blob_unfreeze_io(ctx->clone, _spdk_delete_snapshot_unfreeze_cpl, ctx);
}
static void
_spdk_delete_snapshot_sync_clone_cpl(void *cb_arg, int bserrno)
{
struct delete_snapshot_ctx *ctx = cb_arg;
uint64_t i;
ctx->snapshot->md_ro = false;
if (bserrno) {
SPDK_ERRLOG("Failed to sync MD on clone\n");
ctx->bserrno = bserrno;
/* Restore snapshot to previous state */
bserrno = _spdk_blob_remove_xattr(ctx->snapshot, SNAPSHOT_PENDING_REMOVAL, true);
if (bserrno != 0) {
_spdk_delete_snapshot_cleanup_clone(ctx, bserrno);
return;
}
spdk_blob_sync_md(ctx->snapshot, _spdk_delete_snapshot_cleanup_clone, ctx);
return;
}
/* Clear cluster map entries for snapshot */
for (i = 0; i < ctx->snapshot->active.num_clusters && i < ctx->clone->active.num_clusters; i++) {
if (ctx->clone->active.clusters[i] == ctx->snapshot->active.clusters[i]) {
ctx->snapshot->active.clusters[i] = 0;
}
}
for (i = 0; i < ctx->snapshot->active.num_extent_pages &&
i < ctx->clone->active.num_extent_pages; i++) {
if (ctx->clone->active.extent_pages[i] == ctx->snapshot->active.extent_pages[i]) {
ctx->snapshot->active.extent_pages[i] = 0;
}
}
_spdk_blob_set_thin_provision(ctx->snapshot);
ctx->snapshot->state = SPDK_BLOB_STATE_DIRTY;
if (ctx->parent_snapshot_entry != NULL) {
ctx->snapshot->back_bs_dev = NULL;
}
spdk_blob_sync_md(ctx->snapshot, _spdk_delete_snapshot_sync_snapshot_cpl, ctx);
}
static void
_spdk_delete_snapshot_sync_snapshot_xattr_cpl(void *cb_arg, int bserrno)
{
struct delete_snapshot_ctx *ctx = cb_arg;
uint64_t i;
/* Temporarily override md_ro flag for clone for MD modification */
ctx->clone_md_ro = ctx->clone->md_ro;
ctx->clone->md_ro = false;
if (bserrno) {
SPDK_ERRLOG("Failed to sync MD with xattr on blob\n");
ctx->bserrno = bserrno;
_spdk_delete_snapshot_cleanup_clone(ctx, 0);
return;
}
/* Copy snapshot map to clone map (only unallocated clusters in clone) */
for (i = 0; i < ctx->snapshot->active.num_clusters && i < ctx->clone->active.num_clusters; i++) {
if (ctx->clone->active.clusters[i] == 0) {
ctx->clone->active.clusters[i] = ctx->snapshot->active.clusters[i];
}
}
for (i = 0; i < ctx->snapshot->active.num_extent_pages &&
i < ctx->clone->active.num_extent_pages; i++) {
if (ctx->clone->active.extent_pages[i] == 0) {
ctx->clone->active.extent_pages[i] = ctx->snapshot->active.extent_pages[i];
}
}
/* Delete old backing bs_dev from clone (related to snapshot that will be removed) */
ctx->clone->back_bs_dev->destroy(ctx->clone->back_bs_dev);
/* Set/remove snapshot xattr and switch parent ID and backing bs_dev on clone... */
if (ctx->parent_snapshot_entry != NULL) {
/* ...to parent snapshot */
ctx->clone->parent_id = ctx->parent_snapshot_entry->id;
ctx->clone->back_bs_dev = ctx->snapshot->back_bs_dev;
_spdk_blob_set_xattr(ctx->clone, BLOB_SNAPSHOT, &ctx->parent_snapshot_entry->id,
sizeof(spdk_blob_id),
true);
} else {
/* ...to blobid invalid and zeroes dev */
ctx->clone->parent_id = SPDK_BLOBID_INVALID;
ctx->clone->back_bs_dev = bs_create_zeroes_dev();
_spdk_blob_remove_xattr(ctx->clone, BLOB_SNAPSHOT, true);
}
spdk_blob_sync_md(ctx->clone, _spdk_delete_snapshot_sync_clone_cpl, ctx);
}
static void
_spdk_delete_snapshot_freeze_io_cb(void *cb_arg, int bserrno)
{
struct delete_snapshot_ctx *ctx = cb_arg;
if (bserrno) {
SPDK_ERRLOG("Failed to freeze I/O on clone\n");
ctx->bserrno = bserrno;
_spdk_delete_snapshot_cleanup_clone(ctx, 0);
return;
}
/* Temporarily override md_ro flag for snapshot for MD modification */
ctx->snapshot_md_ro = ctx->snapshot->md_ro;
ctx->snapshot->md_ro = false;
/* Mark blob as pending for removal for power failure safety, use clone id for recovery */
ctx->bserrno = _spdk_blob_set_xattr(ctx->snapshot, SNAPSHOT_PENDING_REMOVAL, &ctx->clone->id,
sizeof(spdk_blob_id), true);
if (ctx->bserrno != 0) {
_spdk_delete_snapshot_cleanup_clone(ctx, 0);
return;
}
spdk_blob_sync_md(ctx->snapshot, _spdk_delete_snapshot_sync_snapshot_xattr_cpl, ctx);
}
static void
_spdk_delete_snapshot_open_clone_cb(void *cb_arg, struct spdk_blob *clone, int bserrno)
{
struct delete_snapshot_ctx *ctx = cb_arg;
if (bserrno) {
SPDK_ERRLOG("Failed to open clone\n");
ctx->bserrno = bserrno;
_spdk_delete_snapshot_cleanup_snapshot(ctx, 0);
return;
}
ctx->clone = clone;
if (clone->locked_operation_in_progress) {
SPDK_DEBUGLOG(SPDK_LOG_BLOB, "Cannot remove blob - another operation in progress on its clone\n");
ctx->bserrno = -EBUSY;
spdk_blob_close(ctx->clone, _spdk_delete_snapshot_cleanup_snapshot, ctx);
return;
}
clone->locked_operation_in_progress = true;
_spdk_blob_freeze_io(clone, _spdk_delete_snapshot_freeze_io_cb, ctx);
}
static void
_spdk_update_clone_on_snapshot_deletion(struct spdk_blob *snapshot, struct delete_snapshot_ctx *ctx)
{
struct spdk_blob_list *snapshot_entry = NULL;
struct spdk_blob_list *clone_entry = NULL;
struct spdk_blob_list *snapshot_clone_entry = NULL;
/* Get snapshot entry for the snapshot we want to remove */
snapshot_entry = _spdk_bs_get_snapshot_entry(snapshot->bs, snapshot->id);
assert(snapshot_entry != NULL);
/* Get clone of the snapshot (at this point there can be only one clone) */
clone_entry = TAILQ_FIRST(&snapshot_entry->clones);
assert(snapshot_entry->clone_count == 1);
assert(clone_entry != NULL);
/* Get snapshot entry for parent snapshot and clone entry within that snapshot for
* snapshot that we are removing */
_spdk_blob_get_snapshot_and_clone_entries(snapshot, &ctx->parent_snapshot_entry,
&snapshot_clone_entry);
spdk_bs_open_blob(snapshot->bs, clone_entry->id, _spdk_delete_snapshot_open_clone_cb, ctx);
}
static void
_spdk_bs_delete_blob_finish(void *cb_arg, struct spdk_blob *blob, int bserrno)
{
spdk_bs_sequence_t *seq = cb_arg;
struct spdk_blob_list *snapshot_entry = NULL;
uint32_t page_num;
if (bserrno) {
SPDK_ERRLOG("Failed to remove blob\n");
bs_sequence_finish(seq, bserrno);
return;
}
/* Remove snapshot from the list */
snapshot_entry = _spdk_bs_get_snapshot_entry(blob->bs, blob->id);
if (snapshot_entry != NULL) {
TAILQ_REMOVE(&blob->bs->snapshots, snapshot_entry, link);
free(snapshot_entry);
}
page_num = _spdk_bs_blobid_to_page(blob->id);
spdk_bit_array_clear(blob->bs->used_blobids, page_num);
blob->state = SPDK_BLOB_STATE_DIRTY;
blob->active.num_pages = 0;
_spdk_blob_resize(blob, 0);
_spdk_blob_persist(seq, blob, _spdk_bs_delete_persist_cpl, blob);
}
static int
_spdk_bs_is_blob_deletable(struct spdk_blob *blob, bool *update_clone)
{
struct spdk_blob_list *snapshot_entry = NULL;
struct spdk_blob_list *clone_entry = NULL;
struct spdk_blob *clone = NULL;
bool has_one_clone = false;
/* Check if this is a snapshot with clones */
snapshot_entry = _spdk_bs_get_snapshot_entry(blob->bs, blob->id);
if (snapshot_entry != NULL) {
if (snapshot_entry->clone_count > 1) {
SPDK_ERRLOG("Cannot remove snapshot with more than one clone\n");
return -EBUSY;
} else if (snapshot_entry->clone_count == 1) {
has_one_clone = true;
}
}
/* Check if someone has this blob open (besides this delete context):
* - open_ref = 1 - only this context opened blob, so it is ok to remove it
* - open_ref <= 2 && has_one_clone = true - clone is holding snapshot
* and that is ok, because we will update it accordingly */
if (blob->open_ref <= 2 && has_one_clone) {
clone_entry = TAILQ_FIRST(&snapshot_entry->clones);
assert(clone_entry != NULL);
clone = _spdk_blob_lookup(blob->bs, clone_entry->id);
if (blob->open_ref == 2 && clone == NULL) {
/* Clone is closed and someone else opened this blob */
SPDK_ERRLOG("Cannot remove snapshot because it is open\n");
return -EBUSY;
}
*update_clone = true;
return 0;
}
if (blob->open_ref > 1) {
SPDK_ERRLOG("Cannot remove snapshot because it is open\n");
return -EBUSY;
}
assert(has_one_clone == false);
*update_clone = false;
return 0;
}
static void
_spdk_bs_delete_enomem_close_cpl(void *cb_arg, int bserrno)
{
spdk_bs_sequence_t *seq = cb_arg;
bs_sequence_finish(seq, -ENOMEM);
}
static void
_spdk_bs_delete_open_cpl(void *cb_arg, struct spdk_blob *blob, int bserrno)
{
spdk_bs_sequence_t *seq = cb_arg;
struct delete_snapshot_ctx *ctx;
bool update_clone = false;
if (bserrno != 0) {
bs_sequence_finish(seq, bserrno);
return;
}
_spdk_blob_verify_md_op(blob);
ctx = calloc(1, sizeof(*ctx));
if (ctx == NULL) {
spdk_blob_close(blob, _spdk_bs_delete_enomem_close_cpl, seq);
return;
}
ctx->snapshot = blob;
ctx->cb_fn = _spdk_bs_delete_blob_finish;
ctx->cb_arg = seq;
/* Check if blob can be removed and if it is a snapshot with clone on top of it */
ctx->bserrno = _spdk_bs_is_blob_deletable(blob, &update_clone);
if (ctx->bserrno) {
spdk_blob_close(blob, _spdk_delete_blob_cleanup_finish, ctx);
return;
}
if (blob->locked_operation_in_progress) {
SPDK_DEBUGLOG(SPDK_LOG_BLOB, "Cannot remove blob - another operation in progress\n");
ctx->bserrno = -EBUSY;
spdk_blob_close(blob, _spdk_delete_blob_cleanup_finish, ctx);
return;
}
blob->locked_operation_in_progress = true;
/*
* Remove the blob from the blob_store list now, to ensure it does not
* get returned after this point by _spdk_blob_lookup().
*/
TAILQ_REMOVE(&blob->bs->blobs, blob, link);
if (update_clone) {
/* This blob is a snapshot with active clone - update clone first */
_spdk_update_clone_on_snapshot_deletion(blob, ctx);
} else {
/* This blob does not have any clones - just remove it */
_spdk_bs_blob_list_remove(blob);
_spdk_bs_delete_blob_finish(seq, blob, 0);
free(ctx);
}
}
void
spdk_bs_delete_blob(struct spdk_blob_store *bs, spdk_blob_id blobid,
spdk_blob_op_complete cb_fn, void *cb_arg)
{
struct spdk_bs_cpl cpl;
spdk_bs_sequence_t *seq;
SPDK_DEBUGLOG(SPDK_LOG_BLOB, "Deleting blob %lu\n", blobid);
assert(spdk_get_thread() == bs->md_thread);
cpl.type = SPDK_BS_CPL_TYPE_BLOB_BASIC;
cpl.u.blob_basic.cb_fn = cb_fn;
cpl.u.blob_basic.cb_arg = cb_arg;
seq = bs_sequence_start(bs->md_channel, &cpl);
if (!seq) {
cb_fn(cb_arg, -ENOMEM);
return;
}
spdk_bs_open_blob(bs, blobid, _spdk_bs_delete_open_cpl, seq);
}
/* END spdk_bs_delete_blob */
/* START spdk_bs_open_blob */
static void
_spdk_bs_open_blob_cpl(spdk_bs_sequence_t *seq, void *cb_arg, int bserrno)
{
struct spdk_blob *blob = cb_arg;
if (bserrno != 0) {
_spdk_blob_free(blob);
seq->cpl.u.blob_handle.blob = NULL;
bs_sequence_finish(seq, bserrno);
return;
}
blob->open_ref++;
TAILQ_INSERT_HEAD(&blob->bs->blobs, blob, link);
bs_sequence_finish(seq, bserrno);
}
static void _spdk_bs_open_blob(struct spdk_blob_store *bs, spdk_blob_id blobid,
struct spdk_blob_open_opts *opts, spdk_blob_op_with_handle_complete cb_fn, void *cb_arg)
{
struct spdk_blob *blob;
struct spdk_bs_cpl cpl;
struct spdk_blob_open_opts opts_default;
spdk_bs_sequence_t *seq;
uint32_t page_num;
SPDK_DEBUGLOG(SPDK_LOG_BLOB, "Opening blob %lu\n", blobid);
assert(spdk_get_thread() == bs->md_thread);
page_num = _spdk_bs_blobid_to_page(blobid);
if (spdk_bit_array_get(bs->used_blobids, page_num) == false) {
/* Invalid blobid */
cb_fn(cb_arg, NULL, -ENOENT);
return;
}
blob = _spdk_blob_lookup(bs, blobid);
if (blob) {
blob->open_ref++;
cb_fn(cb_arg, blob, 0);
return;
}
blob = _spdk_blob_alloc(bs, blobid);
if (!blob) {
cb_fn(cb_arg, NULL, -ENOMEM);
return;
}
if (!opts) {
spdk_blob_open_opts_init(&opts_default);
opts = &opts_default;
}
blob->clear_method = opts->clear_method;
cpl.type = SPDK_BS_CPL_TYPE_BLOB_HANDLE;
cpl.u.blob_handle.cb_fn = cb_fn;
cpl.u.blob_handle.cb_arg = cb_arg;
cpl.u.blob_handle.blob = blob;
seq = bs_sequence_start(bs->md_channel, &cpl);
if (!seq) {
_spdk_blob_free(blob);
cb_fn(cb_arg, NULL, -ENOMEM);
return;
}
_spdk_blob_load(seq, blob, _spdk_bs_open_blob_cpl, blob);
}
void spdk_bs_open_blob(struct spdk_blob_store *bs, spdk_blob_id blobid,
spdk_blob_op_with_handle_complete cb_fn, void *cb_arg)
{
_spdk_bs_open_blob(bs, blobid, NULL, cb_fn, cb_arg);
}
void spdk_bs_open_blob_ext(struct spdk_blob_store *bs, spdk_blob_id blobid,
struct spdk_blob_open_opts *opts, spdk_blob_op_with_handle_complete cb_fn, void *cb_arg)
{
_spdk_bs_open_blob(bs, blobid, opts, cb_fn, cb_arg);
}
/* END spdk_bs_open_blob */
/* START spdk_blob_set_read_only */
int spdk_blob_set_read_only(struct spdk_blob *blob)
{
_spdk_blob_verify_md_op(blob);
blob->data_ro_flags |= SPDK_BLOB_READ_ONLY;
blob->state = SPDK_BLOB_STATE_DIRTY;
return 0;
}
/* END spdk_blob_set_read_only */
/* START spdk_blob_sync_md */
static void
_spdk_blob_sync_md_cpl(spdk_bs_sequence_t *seq, void *cb_arg, int bserrno)
{
struct spdk_blob *blob = cb_arg;
if (bserrno == 0 && (blob->data_ro_flags & SPDK_BLOB_READ_ONLY)) {
blob->data_ro = true;
blob->md_ro = true;
}
bs_sequence_finish(seq, bserrno);
}
static void
_spdk_blob_sync_md(struct spdk_blob *blob, spdk_blob_op_complete cb_fn, void *cb_arg)
{
struct spdk_bs_cpl cpl;
spdk_bs_sequence_t *seq;
cpl.type = SPDK_BS_CPL_TYPE_BLOB_BASIC;
cpl.u.blob_basic.cb_fn = cb_fn;
cpl.u.blob_basic.cb_arg = cb_arg;
seq = bs_sequence_start(blob->bs->md_channel, &cpl);
if (!seq) {
cb_fn(cb_arg, -ENOMEM);
return;
}
_spdk_blob_persist(seq, blob, _spdk_blob_sync_md_cpl, blob);
}
void
spdk_blob_sync_md(struct spdk_blob *blob, spdk_blob_op_complete cb_fn, void *cb_arg)
{
_spdk_blob_verify_md_op(blob);
SPDK_DEBUGLOG(SPDK_LOG_BLOB, "Syncing blob %lu\n", blob->id);
if (blob->md_ro) {
assert(blob->state == SPDK_BLOB_STATE_CLEAN);
cb_fn(cb_arg, 0);
return;
}
_spdk_blob_sync_md(blob, cb_fn, cb_arg);
}
/* END spdk_blob_sync_md */
struct spdk_blob_insert_cluster_ctx {
struct spdk_thread *thread;
struct spdk_blob *blob;
uint32_t cluster_num; /* cluster index in blob */
uint32_t cluster; /* cluster on disk */
uint32_t extent_page; /* extent page on disk */
int rc;
spdk_blob_op_complete cb_fn;
void *cb_arg;
};
static void
_spdk_blob_insert_cluster_msg_cpl(void *arg)
{
struct spdk_blob_insert_cluster_ctx *ctx = arg;
ctx->cb_fn(ctx->cb_arg, ctx->rc);
free(ctx);
}
static void
_spdk_blob_insert_cluster_msg_cb(void *arg, int bserrno)
{
struct spdk_blob_insert_cluster_ctx *ctx = arg;
ctx->rc = bserrno;
spdk_thread_send_msg(ctx->thread, _spdk_blob_insert_cluster_msg_cpl, ctx);
}
static void
_spdk_blob_persist_extent_page_cpl(spdk_bs_sequence_t *seq, void *cb_arg, int bserrno)
{
struct spdk_blob_md_page *page = cb_arg;
bs_sequence_finish(seq, bserrno);
spdk_free(page);
}
static void
_spdk_blob_insert_extent(struct spdk_blob *blob, uint32_t extent, uint64_t cluster_num,
spdk_blob_op_complete cb_fn, void *cb_arg)
{
spdk_bs_sequence_t *seq;
struct spdk_bs_cpl cpl;
struct spdk_blob_md_page *page = NULL;
uint32_t page_count = 0;
int rc;
cpl.type = SPDK_BS_CPL_TYPE_BLOB_BASIC;
cpl.u.blob_basic.cb_fn = cb_fn;
cpl.u.blob_basic.cb_arg = cb_arg;
seq = bs_sequence_start(blob->bs->md_channel, &cpl);
if (!seq) {
cb_fn(cb_arg, -ENOMEM);
return;
}
rc = _spdk_blob_serialize_add_page(blob, &page, &page_count, &page);
if (rc < 0) {
bs_sequence_finish(seq, rc);
return;
}
_spdk_blob_serialize_extent_page(blob, cluster_num, page);
page->crc = _spdk_blob_md_page_calc_crc(page);
assert(spdk_bit_array_get(blob->bs->used_md_pages, extent) == true);
bs_sequence_write_dev(seq, page, _spdk_bs_md_page_to_lba(blob->bs, extent),
_spdk_bs_byte_to_lba(blob->bs, SPDK_BS_PAGE_SIZE),
_spdk_blob_persist_extent_page_cpl, page);
}
static void
_spdk_blob_insert_cluster_msg(void *arg)
{
struct spdk_blob_insert_cluster_ctx *ctx = arg;
uint32_t *extent_page;
ctx->rc = _spdk_blob_insert_cluster(ctx->blob, ctx->cluster_num, ctx->cluster);
if (ctx->rc != 0) {
spdk_thread_send_msg(ctx->thread, _spdk_blob_insert_cluster_msg_cpl, ctx);
return;
}
if (ctx->blob->use_extent_table == false) {
/* Extent table is not used, proceed with sync of md that will only use extents_rle. */
ctx->blob->state = SPDK_BLOB_STATE_DIRTY;
_spdk_blob_sync_md(ctx->blob, _spdk_blob_insert_cluster_msg_cb, ctx);
return;
}
extent_page = _spdk_bs_cluster_to_extent_page(ctx->blob, ctx->cluster_num);
if (*extent_page == 0) {
/* Extent page requires allocation.
* It was already claimed in the used_md_pages map and placed in ctx.
* Blob persist will take care of writing out new extent page on disk. */
assert(ctx->extent_page != 0);
assert(spdk_bit_array_get(ctx->blob->bs->used_md_pages, ctx->extent_page) == true);
*extent_page = ctx->extent_page;
ctx->blob->state = SPDK_BLOB_STATE_DIRTY;
_spdk_blob_sync_md(ctx->blob, _spdk_blob_insert_cluster_msg_cb, ctx);
} else {
/* It is possible for original thread to allocate extent page for
* different cluster in the same extent page. In such case proceed with
* updating the existing extent page, but release the additional one. */
if (ctx->extent_page != 0) {
assert(spdk_bit_array_get(ctx->blob->bs->used_md_pages, ctx->extent_page) == true);
_spdk_bs_release_md_page(ctx->blob->bs, ctx->extent_page);
}
/* Extent page already allocated.
* Every cluster allocation, requires just an update of single extent page. */
_spdk_blob_insert_extent(ctx->blob, *extent_page, ctx->cluster_num,
_spdk_blob_insert_cluster_msg_cb, ctx);
}
}
static void
_spdk_blob_insert_cluster_on_md_thread(struct spdk_blob *blob, uint32_t cluster_num,
uint64_t cluster, uint32_t extent_page, spdk_blob_op_complete cb_fn, void *cb_arg)
{
struct spdk_blob_insert_cluster_ctx *ctx;
ctx = calloc(1, sizeof(*ctx));
if (ctx == NULL) {
cb_fn(cb_arg, -ENOMEM);
return;
}
ctx->thread = spdk_get_thread();
ctx->blob = blob;
ctx->cluster_num = cluster_num;
ctx->cluster = cluster;
ctx->extent_page = extent_page;
ctx->cb_fn = cb_fn;
ctx->cb_arg = cb_arg;
spdk_thread_send_msg(blob->bs->md_thread, _spdk_blob_insert_cluster_msg, ctx);
}
/* START spdk_blob_close */
static void
_spdk_blob_close_cpl(spdk_bs_sequence_t *seq, void *cb_arg, int bserrno)
{
struct spdk_blob *blob = cb_arg;
if (bserrno == 0) {
blob->open_ref--;
if (blob->open_ref == 0) {
/*
* Blobs with active.num_pages == 0 are deleted blobs.
* these blobs are removed from the blob_store list
* when the deletion process starts - so don't try to
* remove them again.
*/
if (blob->active.num_pages > 0) {
TAILQ_REMOVE(&blob->bs->blobs, blob, link);
}
_spdk_blob_free(blob);
}
}
bs_sequence_finish(seq, bserrno);
}
void spdk_blob_close(struct spdk_blob *blob, spdk_blob_op_complete cb_fn, void *cb_arg)
{
struct spdk_bs_cpl cpl;
spdk_bs_sequence_t *seq;
_spdk_blob_verify_md_op(blob);
SPDK_DEBUGLOG(SPDK_LOG_BLOB, "Closing blob %lu\n", blob->id);
if (blob->open_ref == 0) {
cb_fn(cb_arg, -EBADF);
return;
}
cpl.type = SPDK_BS_CPL_TYPE_BLOB_BASIC;
cpl.u.blob_basic.cb_fn = cb_fn;
cpl.u.blob_basic.cb_arg = cb_arg;
seq = bs_sequence_start(blob->bs->md_channel, &cpl);
if (!seq) {
cb_fn(cb_arg, -ENOMEM);
return;
}
/* Sync metadata */
_spdk_blob_persist(seq, blob, _spdk_blob_close_cpl, blob);
}
/* END spdk_blob_close */
struct spdk_io_channel *spdk_bs_alloc_io_channel(struct spdk_blob_store *bs)
{
return spdk_get_io_channel(bs);
}
void spdk_bs_free_io_channel(struct spdk_io_channel *channel)
{
spdk_put_io_channel(channel);
}
void spdk_blob_io_unmap(struct spdk_blob *blob, struct spdk_io_channel *channel,
uint64_t offset, uint64_t length, spdk_blob_op_complete cb_fn, void *cb_arg)
{
_spdk_blob_request_submit_op(blob, channel, NULL, offset, length, cb_fn, cb_arg,
SPDK_BLOB_UNMAP);
}
void spdk_blob_io_write_zeroes(struct spdk_blob *blob, struct spdk_io_channel *channel,
uint64_t offset, uint64_t length, spdk_blob_op_complete cb_fn, void *cb_arg)
{
_spdk_blob_request_submit_op(blob, channel, NULL, offset, length, cb_fn, cb_arg,
SPDK_BLOB_WRITE_ZEROES);
}
void spdk_blob_io_write(struct spdk_blob *blob, struct spdk_io_channel *channel,
void *payload, uint64_t offset, uint64_t length,
spdk_blob_op_complete cb_fn, void *cb_arg)
{
_spdk_blob_request_submit_op(blob, channel, payload, offset, length, cb_fn, cb_arg,
SPDK_BLOB_WRITE);
}
void spdk_blob_io_read(struct spdk_blob *blob, struct spdk_io_channel *channel,
void *payload, uint64_t offset, uint64_t length,
spdk_blob_op_complete cb_fn, void *cb_arg)
{
_spdk_blob_request_submit_op(blob, channel, payload, offset, length, cb_fn, cb_arg,
SPDK_BLOB_READ);
}
void spdk_blob_io_writev(struct spdk_blob *blob, struct spdk_io_channel *channel,
struct iovec *iov, int iovcnt, uint64_t offset, uint64_t length,
spdk_blob_op_complete cb_fn, void *cb_arg)
{
_spdk_blob_request_submit_rw_iov(blob, channel, iov, iovcnt, offset, length, cb_fn, cb_arg, false);
}
void spdk_blob_io_readv(struct spdk_blob *blob, struct spdk_io_channel *channel,
struct iovec *iov, int iovcnt, uint64_t offset, uint64_t length,
spdk_blob_op_complete cb_fn, void *cb_arg)
{
_spdk_blob_request_submit_rw_iov(blob, channel, iov, iovcnt, offset, length, cb_fn, cb_arg, true);
}
struct spdk_bs_iter_ctx {
int64_t page_num;
struct spdk_blob_store *bs;
spdk_blob_op_with_handle_complete cb_fn;
void *cb_arg;
};
static void
_spdk_bs_iter_cpl(void *cb_arg, struct spdk_blob *_blob, int bserrno)
{
struct spdk_bs_iter_ctx *ctx = cb_arg;
struct spdk_blob_store *bs = ctx->bs;
spdk_blob_id id;
if (bserrno == 0) {
ctx->cb_fn(ctx->cb_arg, _blob, bserrno);
free(ctx);
return;
}
ctx->page_num++;
ctx->page_num = spdk_bit_array_find_first_set(bs->used_blobids, ctx->page_num);
if (ctx->page_num >= spdk_bit_array_capacity(bs->used_blobids)) {
ctx->cb_fn(ctx->cb_arg, NULL, -ENOENT);
free(ctx);
return;
}
id = _spdk_bs_page_to_blobid(ctx->page_num);
spdk_bs_open_blob(bs, id, _spdk_bs_iter_cpl, ctx);
}
void
spdk_bs_iter_first(struct spdk_blob_store *bs,
spdk_blob_op_with_handle_complete cb_fn, void *cb_arg)
{
struct spdk_bs_iter_ctx *ctx;
ctx = calloc(1, sizeof(*ctx));
if (!ctx) {
cb_fn(cb_arg, NULL, -ENOMEM);
return;
}
ctx->page_num = -1;
ctx->bs = bs;
ctx->cb_fn = cb_fn;
ctx->cb_arg = cb_arg;
_spdk_bs_iter_cpl(ctx, NULL, -1);
}
static void
_spdk_bs_iter_close_cpl(void *cb_arg, int bserrno)
{
struct spdk_bs_iter_ctx *ctx = cb_arg;
_spdk_bs_iter_cpl(ctx, NULL, -1);
}
void
spdk_bs_iter_next(struct spdk_blob_store *bs, struct spdk_blob *blob,
spdk_blob_op_with_handle_complete cb_fn, void *cb_arg)
{
struct spdk_bs_iter_ctx *ctx;
assert(blob != NULL);
ctx = calloc(1, sizeof(*ctx));
if (!ctx) {
cb_fn(cb_arg, NULL, -ENOMEM);
return;
}
ctx->page_num = _spdk_bs_blobid_to_page(blob->id);
ctx->bs = bs;
ctx->cb_fn = cb_fn;
ctx->cb_arg = cb_arg;
/* Close the existing blob */
spdk_blob_close(blob, _spdk_bs_iter_close_cpl, ctx);
}
static int
_spdk_blob_set_xattr(struct spdk_blob *blob, const char *name, const void *value,
uint16_t value_len, bool internal)
{
struct spdk_xattr_tailq *xattrs;
struct spdk_xattr *xattr;
size_t desc_size;
_spdk_blob_verify_md_op(blob);
if (blob->md_ro) {
return -EPERM;
}
desc_size = sizeof(struct spdk_blob_md_descriptor_xattr) + strlen(name) + value_len;
if (desc_size > SPDK_BS_MAX_DESC_SIZE) {
SPDK_DEBUGLOG(SPDK_LOG_BLOB, "Xattr '%s' of size %ld does not fix into single page %ld\n", name,
desc_size, SPDK_BS_MAX_DESC_SIZE);
return -ENOMEM;
}
if (internal) {
xattrs = &blob->xattrs_internal;
blob->invalid_flags |= SPDK_BLOB_INTERNAL_XATTR;
} else {
xattrs = &blob->xattrs;
}
TAILQ_FOREACH(xattr, xattrs, link) {
if (!strcmp(name, xattr->name)) {
free(xattr->value);
xattr->value_len = value_len;
xattr->value = malloc(value_len);
memcpy(xattr->value, value, value_len);
blob->state = SPDK_BLOB_STATE_DIRTY;
return 0;
}
}
xattr = calloc(1, sizeof(*xattr));
if (!xattr) {
return -ENOMEM;
}
xattr->name = strdup(name);
xattr->value_len = value_len;
xattr->value = malloc(value_len);
memcpy(xattr->value, value, value_len);
TAILQ_INSERT_TAIL(xattrs, xattr, link);
blob->state = SPDK_BLOB_STATE_DIRTY;
return 0;
}
int
spdk_blob_set_xattr(struct spdk_blob *blob, const char *name, const void *value,
uint16_t value_len)
{
return _spdk_blob_set_xattr(blob, name, value, value_len, false);
}
static int
_spdk_blob_remove_xattr(struct spdk_blob *blob, const char *name, bool internal)
{
struct spdk_xattr_tailq *xattrs;
struct spdk_xattr *xattr;
_spdk_blob_verify_md_op(blob);
if (blob->md_ro) {
return -EPERM;
}
xattrs = internal ? &blob->xattrs_internal : &blob->xattrs;
TAILQ_FOREACH(xattr, xattrs, link) {
if (!strcmp(name, xattr->name)) {
TAILQ_REMOVE(xattrs, xattr, link);
free(xattr->value);
free(xattr->name);
free(xattr);
if (internal && TAILQ_EMPTY(&blob->xattrs_internal)) {
blob->invalid_flags &= ~SPDK_BLOB_INTERNAL_XATTR;
}
blob->state = SPDK_BLOB_STATE_DIRTY;
return 0;
}
}
return -ENOENT;
}
int
spdk_blob_remove_xattr(struct spdk_blob *blob, const char *name)
{
return _spdk_blob_remove_xattr(blob, name, false);
}
static int
_spdk_blob_get_xattr_value(struct spdk_blob *blob, const char *name,
const void **value, size_t *value_len, bool internal)
{
struct spdk_xattr *xattr;
struct spdk_xattr_tailq *xattrs;
xattrs = internal ? &blob->xattrs_internal : &blob->xattrs;
TAILQ_FOREACH(xattr, xattrs, link) {
if (!strcmp(name, xattr->name)) {
*value = xattr->value;
*value_len = xattr->value_len;
return 0;
}
}
return -ENOENT;
}
int
spdk_blob_get_xattr_value(struct spdk_blob *blob, const char *name,
const void **value, size_t *value_len)
{
_spdk_blob_verify_md_op(blob);
return _spdk_blob_get_xattr_value(blob, name, value, value_len, false);
}
struct spdk_xattr_names {
uint32_t count;
const char *names[0];
};
static int
_spdk_blob_get_xattr_names(struct spdk_xattr_tailq *xattrs, struct spdk_xattr_names **names)
{
struct spdk_xattr *xattr;
int count = 0;
TAILQ_FOREACH(xattr, xattrs, link) {
count++;
}
*names = calloc(1, sizeof(struct spdk_xattr_names) + count * sizeof(char *));
if (*names == NULL) {
return -ENOMEM;
}
TAILQ_FOREACH(xattr, xattrs, link) {
(*names)->names[(*names)->count++] = xattr->name;
}
return 0;
}
int
spdk_blob_get_xattr_names(struct spdk_blob *blob, struct spdk_xattr_names **names)
{
_spdk_blob_verify_md_op(blob);
return _spdk_blob_get_xattr_names(&blob->xattrs, names);
}
uint32_t
spdk_xattr_names_get_count(struct spdk_xattr_names *names)
{
assert(names != NULL);
return names->count;
}
const char *
spdk_xattr_names_get_name(struct spdk_xattr_names *names, uint32_t index)
{
if (index >= names->count) {
return NULL;
}
return names->names[index];
}
void
spdk_xattr_names_free(struct spdk_xattr_names *names)
{
free(names);
}
struct spdk_bs_type
spdk_bs_get_bstype(struct spdk_blob_store *bs)
{
return bs->bstype;
}
void
spdk_bs_set_bstype(struct spdk_blob_store *bs, struct spdk_bs_type bstype)
{
memcpy(&bs->bstype, &bstype, sizeof(bstype));
}
bool
spdk_blob_is_read_only(struct spdk_blob *blob)
{
assert(blob != NULL);
return (blob->data_ro || blob->md_ro);
}
bool
spdk_blob_is_snapshot(struct spdk_blob *blob)
{
struct spdk_blob_list *snapshot_entry;
assert(blob != NULL);
snapshot_entry = _spdk_bs_get_snapshot_entry(blob->bs, blob->id);
if (snapshot_entry == NULL) {
return false;
}
return true;
}
bool
spdk_blob_is_clone(struct spdk_blob *blob)
{
assert(blob != NULL);
if (blob->parent_id != SPDK_BLOBID_INVALID) {
assert(spdk_blob_is_thin_provisioned(blob));
return true;
}
return false;
}
bool
spdk_blob_is_thin_provisioned(struct spdk_blob *blob)
{
assert(blob != NULL);
return !!(blob->invalid_flags & SPDK_BLOB_THIN_PROV);
}
static void
_spdk_blob_update_clear_method(struct spdk_blob *blob)
{
enum blob_clear_method stored_cm;
assert(blob != NULL);
/* If BLOB_CLEAR_WITH_DEFAULT was passed in, use the setting stored
* in metadata previously. If something other than the default was
* specified, ignore stored value and used what was passed in.
*/
stored_cm = ((blob->md_ro_flags & SPDK_BLOB_CLEAR_METHOD) >> SPDK_BLOB_CLEAR_METHOD_SHIFT);
if (blob->clear_method == BLOB_CLEAR_WITH_DEFAULT) {
blob->clear_method = stored_cm;
} else if (blob->clear_method != stored_cm) {
SPDK_WARNLOG("Using passed in clear method 0x%x instead of stored value of 0x%x\n",
blob->clear_method, stored_cm);
}
}
spdk_blob_id
spdk_blob_get_parent_snapshot(struct spdk_blob_store *bs, spdk_blob_id blob_id)
{
struct spdk_blob_list *snapshot_entry = NULL;
struct spdk_blob_list *clone_entry = NULL;
TAILQ_FOREACH(snapshot_entry, &bs->snapshots, link) {
TAILQ_FOREACH(clone_entry, &snapshot_entry->clones, link) {
if (clone_entry->id == blob_id) {
return snapshot_entry->id;
}
}
}
return SPDK_BLOBID_INVALID;
}
int
spdk_blob_get_clones(struct spdk_blob_store *bs, spdk_blob_id blobid, spdk_blob_id *ids,
size_t *count)
{
struct spdk_blob_list *snapshot_entry, *clone_entry;
size_t n;
snapshot_entry = _spdk_bs_get_snapshot_entry(bs, blobid);
if (snapshot_entry == NULL) {
*count = 0;
return 0;
}
if (ids == NULL || *count < snapshot_entry->clone_count) {
*count = snapshot_entry->clone_count;
return -ENOMEM;
}
*count = snapshot_entry->clone_count;
n = 0;
TAILQ_FOREACH(clone_entry, &snapshot_entry->clones, link) {
ids[n++] = clone_entry->id;
}
return 0;
}
SPDK_LOG_REGISTER_COMPONENT("blob", SPDK_LOG_BLOB)