ivampiresp/Spdk
1
0
Fork 0
Code Issues Pull Requests Actions Packages Projects Releases Wiki Activity
6f227249fa
Spdk/test/unit/lib/blob/blob.c/blob_ut.c
Tomasz Zawadzki 3735f2d08e blobstore: verify options passed to spdk_bs_init 
Three checks are added to options passed to spdk_bs_init,
with appropriate errors returned:
- whether any of the options is set to 0
- device size has to be bigger than cluster size
- pages reserved for metadata exceed total number of clusters

Signed-off-by: Tomasz Zawadzki <tomasz.zawadzki@intel.com>
Change-Id: Idee3c194b653e737ec7c7a768f1973ff72452c5b
Reviewed-on: https://review.gerrithub.io/379676
Reviewed-by: Daniel Verkamp <daniel.verkamp@intel.com>
Reviewed-by: Jim Harris <james.r.harris@intel.com>
Reviewed-by: Paul Luse <paul.e.luse@intel.com>
Tested-by: SPDK Automated Test System <sys_sgsw@intel.com>
2017-09-27 13:18:18 -04:00

1327 lines
35 KiB
C
Raw Blame History

/*-
* 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_cunit.h"
#include "spdk/blob.h"
#include "lib/test_env.c"
#include "../bs_dev_common.c"
#include "blobstore.c"
#include "request.c"
struct spdk_blob_store *g_bs;
spdk_blob_id g_blobid;
struct spdk_blob *g_blob;
int g_bserrno;
struct spdk_xattr_names *g_names;
int g_done;
bool g_scheduler_delay = false;
struct scheduled_ops {
spdk_thread_fn fn;
void *ctx;
TAILQ_ENTRY(scheduled_ops) ops_queue;
};
static TAILQ_HEAD(, scheduled_ops) g_scheduled_ops = TAILQ_HEAD_INITIALIZER(g_scheduled_ops);
static void
_bs_send_msg(spdk_thread_fn fn, void *ctx, void *thread_ctx)
{
if (g_scheduler_delay) {
struct scheduled_ops *ops = calloc(1, sizeof(*ops));
SPDK_CU_ASSERT_FATAL(ops != NULL);
ops->fn = fn;
ops->ctx = ctx;
TAILQ_INSERT_TAIL(&g_scheduled_ops, ops, ops_queue);
} else {
fn(ctx);
}
}
static void
_bs_flush_scheduler(void)
{
struct scheduled_ops *ops, *tmp;
TAILQ_FOREACH_SAFE(ops, &g_scheduled_ops, ops_queue, tmp) {
ops->fn(ops->ctx);
TAILQ_REMOVE(&g_scheduled_ops, ops, ops_queue);
free(ops);
}
}
static void
bs_op_complete(void *cb_arg, int bserrno)
{
g_bserrno = bserrno;
}
static void
bs_op_with_handle_complete(void *cb_arg, struct spdk_blob_store *bs,
int bserrno)
{
g_bs = bs;
g_bserrno = bserrno;
}
static void
blob_op_complete(void *cb_arg, int bserrno)
{
g_bserrno = bserrno;
}
static void
blob_op_with_id_complete(void *cb_arg, spdk_blob_id blobid, int bserrno)
{
g_blobid = blobid;
g_bserrno = bserrno;
}
static void
blob_op_with_handle_complete(void *cb_arg, struct spdk_blob *blb, int bserrno)
{
g_blob = blb;
g_bserrno = bserrno;
}
static void
blob_init(void)
{
struct spdk_bs_dev *dev;
dev = init_dev();
/* should fail for an unsupported blocklen */
dev->blocklen = 500;
spdk_bs_init(dev, NULL, bs_op_with_handle_complete, NULL);
CU_ASSERT(g_bserrno == -EINVAL);
dev = init_dev();
spdk_bs_init(dev, NULL, bs_op_with_handle_complete, NULL);
CU_ASSERT(g_bserrno == 0);
SPDK_CU_ASSERT_FATAL(g_bs != NULL);
spdk_bs_unload(g_bs, bs_op_complete, NULL);
CU_ASSERT(g_bserrno == 0);
g_bs = NULL;
}
static void
blob_super(void)
{
struct spdk_blob_store *bs;
struct spdk_bs_dev *dev;
spdk_blob_id blobid;
dev = init_dev();
spdk_bs_init(dev, NULL, bs_op_with_handle_complete, NULL);
CU_ASSERT(g_bserrno == 0);
SPDK_CU_ASSERT_FATAL(g_bs != NULL);
bs = g_bs;
/* Get the super blob without having set one */
spdk_bs_get_super(bs, blob_op_with_id_complete, NULL);
CU_ASSERT(g_bserrno == -ENOENT);
CU_ASSERT(g_blobid == SPDK_BLOBID_INVALID);
/* Create a blob */
spdk_bs_md_create_blob(bs,
blob_op_with_id_complete, NULL);
CU_ASSERT(g_bserrno == 0);
CU_ASSERT(g_blobid != SPDK_BLOBID_INVALID);
blobid = g_blobid;
/* Set the blob as the super blob */
spdk_bs_set_super(bs, blobid, blob_op_complete, NULL);
CU_ASSERT(g_bserrno == 0);
/* Get the super blob */
spdk_bs_get_super(bs, blob_op_with_id_complete, NULL);
CU_ASSERT(g_bserrno == 0);
CU_ASSERT(blobid == g_blobid);
spdk_bs_unload(g_bs, bs_op_complete, NULL);
CU_ASSERT(g_bserrno == 0);
g_bs = NULL;
}
static void
blob_open(void)
{
struct spdk_blob_store *bs;
struct spdk_bs_dev *dev;
struct spdk_blob *blob;
spdk_blob_id blobid, blobid2;
dev = init_dev();
spdk_bs_init(dev, NULL, bs_op_with_handle_complete, NULL);
CU_ASSERT(g_bserrno == 0);
SPDK_CU_ASSERT_FATAL(g_bs != NULL);
bs = g_bs;
spdk_bs_md_create_blob(bs, blob_op_with_id_complete, NULL);
CU_ASSERT(g_bserrno == 0);
CU_ASSERT(g_blobid != SPDK_BLOBID_INVALID);
blobid = g_blobid;
spdk_bs_md_open_blob(bs, blobid, blob_op_with_handle_complete, NULL);
CU_ASSERT(g_bserrno == 0);
CU_ASSERT(g_blob != NULL);
blob = g_blob;
blobid2 = spdk_blob_get_id(blob);
CU_ASSERT(blobid == blobid2);
/* Try to open file again. It should return success. */
spdk_bs_md_open_blob(bs, blobid, blob_op_with_handle_complete, NULL);
CU_ASSERT(g_bserrno == 0);
CU_ASSERT(blob == g_blob);
spdk_bs_md_close_blob(&blob, blob_op_complete, NULL);
CU_ASSERT(g_bserrno == 0);
CU_ASSERT(blob == NULL);
/*
* Close the file a second time, releasing the second reference. This
* should succeed.
*/
blob = g_blob;
spdk_bs_md_close_blob(&blob, blob_op_complete, NULL);
CU_ASSERT(g_bserrno == 0);
/*
* Try to open file again. It should succeed. This tests the case
* where the file is opened, closed, then re-opened again.
*/
spdk_bs_md_open_blob(bs, blobid, blob_op_with_handle_complete, NULL);
CU_ASSERT(g_bserrno == 0);
CU_ASSERT(g_blob != NULL);
blob = g_blob;
spdk_bs_md_close_blob(&blob, blob_op_complete, NULL);
CU_ASSERT(g_bserrno == 0);
spdk_bs_unload(g_bs, bs_op_complete, NULL);
CU_ASSERT(g_bserrno == 0);
g_bs = NULL;
}
static void
blob_delete(void)
{
struct spdk_blob_store *bs;
struct spdk_bs_dev *dev;
spdk_blob_id blobid;
dev = init_dev();
spdk_bs_init(dev, NULL, bs_op_with_handle_complete, NULL);
CU_ASSERT(g_bserrno == 0);
SPDK_CU_ASSERT_FATAL(g_bs != NULL);
bs = g_bs;
/* Create a blob and then delete it. */
spdk_bs_md_create_blob(bs, blob_op_with_id_complete, NULL);
CU_ASSERT(g_bserrno == 0);
CU_ASSERT(g_blobid > 0);
blobid = g_blobid;
spdk_bs_md_delete_blob(bs, blobid, blob_op_complete, NULL);
CU_ASSERT(g_bserrno == 0);
/* Try to open the blob */
spdk_bs_md_open_blob(bs, blobid, blob_op_with_handle_complete, NULL);
CU_ASSERT(g_bserrno == -ENOENT);
spdk_bs_unload(g_bs, bs_op_complete, NULL);
CU_ASSERT(g_bserrno == 0);
g_bs = NULL;
}
static void
blob_resize(void)
{
struct spdk_blob_store *bs;
struct spdk_bs_dev *dev;
struct spdk_blob *blob;
spdk_blob_id blobid;
uint64_t free_clusters;
int rc;
dev = init_dev();
spdk_bs_init(dev, NULL, bs_op_with_handle_complete, NULL);
CU_ASSERT(g_bserrno == 0);
SPDK_CU_ASSERT_FATAL(g_bs != NULL);
bs = g_bs;
free_clusters = spdk_bs_free_cluster_count(bs);
spdk_bs_md_create_blob(bs, blob_op_with_id_complete, NULL);
CU_ASSERT(g_bserrno == 0);
CU_ASSERT(g_blobid != SPDK_BLOBID_INVALID);
CU_ASSERT(free_clusters == spdk_bs_free_cluster_count(bs));
blobid = g_blobid;
spdk_bs_md_open_blob(bs, blobid, blob_op_with_handle_complete, NULL);
CU_ASSERT(g_bserrno == 0);
CU_ASSERT(g_blob != NULL);
blob = g_blob;
/* The blob started at 0 clusters. Resize it to be 5. */
rc = spdk_bs_md_resize_blob(blob, 5);
CU_ASSERT(rc == 0);
CU_ASSERT((free_clusters - 5) == spdk_bs_free_cluster_count(bs));
/* Shrink the blob to 3 clusters. This will not actually release
* the old clusters until the blob is synced.
*/
rc = spdk_bs_md_resize_blob(blob, 3);
CU_ASSERT(rc == 0);
/* Verify there are still 5 clusters in use */
CU_ASSERT((free_clusters - 5) == spdk_bs_free_cluster_count(bs));
spdk_bs_md_sync_blob(blob, blob_op_complete, NULL);
CU_ASSERT(g_bserrno == 0);
/* Now there are only 3 clusters in use */
CU_ASSERT((free_clusters - 3) == spdk_bs_free_cluster_count(bs));
/* Resize the blob to be 10 clusters. Growth takes effect immediately. */
rc = spdk_bs_md_resize_blob(blob, 10);
CU_ASSERT(rc == 0);
CU_ASSERT((free_clusters - 10) == spdk_bs_free_cluster_count(bs));
spdk_bs_md_close_blob(&blob, blob_op_complete, NULL);
CU_ASSERT(g_bserrno == 0);
spdk_bs_md_delete_blob(bs, blobid, blob_op_complete, NULL);
CU_ASSERT(g_bserrno == 0);
spdk_bs_unload(g_bs, bs_op_complete, NULL);
CU_ASSERT(g_bserrno == 0);
g_bs = NULL;
}
static void
channel_ops(void)
{
struct spdk_blob_store *bs;
struct spdk_bs_dev *dev;
struct spdk_io_channel *channel;
dev = init_dev();
spdk_bs_init(dev, NULL, bs_op_with_handle_complete, NULL);
CU_ASSERT(g_bserrno == 0);
SPDK_CU_ASSERT_FATAL(g_bs != NULL);
bs = g_bs;
channel = spdk_bs_alloc_io_channel(bs);
CU_ASSERT(channel != NULL);
spdk_bs_free_io_channel(channel);
spdk_bs_unload(g_bs, bs_op_complete, NULL);
CU_ASSERT(g_bserrno == 0);
g_bs = NULL;
}
static void
blob_write(void)
{
struct spdk_blob_store *bs;
struct spdk_bs_dev *dev;
struct spdk_blob *blob;
struct spdk_io_channel *channel;
spdk_blob_id blobid;
uint64_t pages_per_cluster;
uint8_t payload[10 * 4096];
int rc;
dev = init_dev();
spdk_bs_init(dev, NULL, bs_op_with_handle_complete, NULL);
CU_ASSERT(g_bserrno == 0);
SPDK_CU_ASSERT_FATAL(g_bs != NULL);
bs = g_bs;
pages_per_cluster = spdk_bs_get_cluster_size(bs) / spdk_bs_get_page_size(bs);
channel = spdk_bs_alloc_io_channel(bs);
CU_ASSERT(channel != NULL);
spdk_bs_md_create_blob(bs, blob_op_with_id_complete, NULL);
CU_ASSERT(g_bserrno == 0);
CU_ASSERT(g_blobid != SPDK_BLOBID_INVALID);
blobid = g_blobid;
spdk_bs_md_open_blob(bs, blobid, blob_op_with_handle_complete, NULL);
CU_ASSERT(g_bserrno == 0);
CU_ASSERT(g_blob != NULL);
blob = g_blob;
/* Write to a blob with 0 size */
spdk_bs_io_write_blob(blob, channel, payload, 0, 1, blob_op_complete, NULL);
CU_ASSERT(g_bserrno == -EINVAL);
/* Resize the blob */
rc = spdk_bs_md_resize_blob(blob, 5);
CU_ASSERT(rc == 0);
/* Write to the blob */
spdk_bs_io_write_blob(blob, channel, payload, 0, 1, blob_op_complete, NULL);
CU_ASSERT(g_bserrno == 0);
/* Write starting beyond the end */
spdk_bs_io_write_blob(blob, channel, payload, 5 * pages_per_cluster, 1, blob_op_complete,
NULL);
CU_ASSERT(g_bserrno == -EINVAL);
/* Write starting at a valid location but going off the end */
spdk_bs_io_write_blob(blob, channel, payload, 4 * pages_per_cluster, pages_per_cluster + 1,
blob_op_complete, NULL);
CU_ASSERT(g_bserrno == -EINVAL);
spdk_bs_md_close_blob(&blob, blob_op_complete, NULL);
CU_ASSERT(g_bserrno == 0);
spdk_bs_free_io_channel(channel);
spdk_bs_unload(g_bs, bs_op_complete, NULL);
CU_ASSERT(g_bserrno == 0);
g_bs = NULL;
}
static void
blob_read(void)
{
struct spdk_blob_store *bs;
struct spdk_bs_dev *dev;
struct spdk_blob *blob;
struct spdk_io_channel *channel;
spdk_blob_id blobid;
uint64_t pages_per_cluster;
uint8_t payload[10 * 4096];
int rc;
dev = init_dev();
spdk_bs_init(dev, NULL, bs_op_with_handle_complete, NULL);
CU_ASSERT(g_bserrno == 0);
SPDK_CU_ASSERT_FATAL(g_bs != NULL);
bs = g_bs;
pages_per_cluster = spdk_bs_get_cluster_size(bs) / spdk_bs_get_page_size(bs);
channel = spdk_bs_alloc_io_channel(bs);
CU_ASSERT(channel != NULL);
spdk_bs_md_create_blob(bs, blob_op_with_id_complete, NULL);
CU_ASSERT(g_bserrno == 0);
CU_ASSERT(g_blobid != SPDK_BLOBID_INVALID);
blobid = g_blobid;
spdk_bs_md_open_blob(bs, blobid, blob_op_with_handle_complete, NULL);
CU_ASSERT(g_bserrno == 0);
CU_ASSERT(g_blob != NULL);
blob = g_blob;
/* Read from a blob with 0 size */
spdk_bs_io_read_blob(blob, channel, payload, 0, 1, blob_op_complete, NULL);
CU_ASSERT(g_bserrno == -EINVAL);
/* Resize the blob */
rc = spdk_bs_md_resize_blob(blob, 5);
CU_ASSERT(rc == 0);
/* Read from the blob */
spdk_bs_io_read_blob(blob, channel, payload, 0, 1, blob_op_complete, NULL);
CU_ASSERT(g_bserrno == 0);
/* Read starting beyond the end */
spdk_bs_io_read_blob(blob, channel, payload, 5 * pages_per_cluster, 1, blob_op_complete,
NULL);
CU_ASSERT(g_bserrno == -EINVAL);
/* Read starting at a valid location but going off the end */
spdk_bs_io_read_blob(blob, channel, payload, 4 * pages_per_cluster, pages_per_cluster + 1,
blob_op_complete, NULL);
CU_ASSERT(g_bserrno == -EINVAL);
spdk_bs_md_close_blob(&blob, blob_op_complete, NULL);
CU_ASSERT(g_bserrno == 0);
spdk_bs_free_io_channel(channel);
spdk_bs_unload(g_bs, bs_op_complete, NULL);
CU_ASSERT(g_bserrno == 0);
g_bs = NULL;
}
static void
blob_rw_verify(void)
{
struct spdk_blob_store *bs;
struct spdk_bs_dev *dev;
struct spdk_blob *blob;
struct spdk_io_channel *channel;
spdk_blob_id blobid;
uint8_t payload_read[10 * 4096];
uint8_t payload_write[10 * 4096];
int rc;
dev = init_dev();
spdk_bs_init(dev, NULL, bs_op_with_handle_complete, NULL);
CU_ASSERT(g_bserrno == 0);
SPDK_CU_ASSERT_FATAL(g_bs != NULL);
bs = g_bs;
channel = spdk_bs_alloc_io_channel(bs);
CU_ASSERT(channel != NULL);
spdk_bs_md_create_blob(bs, blob_op_with_id_complete, NULL);
CU_ASSERT(g_bserrno == 0);
CU_ASSERT(g_blobid != SPDK_BLOBID_INVALID);
blobid = g_blobid;
spdk_bs_md_open_blob(bs, blobid, blob_op_with_handle_complete, NULL);
CU_ASSERT(g_bserrno == 0);
CU_ASSERT(g_blob != NULL);
blob = g_blob;
rc = spdk_bs_md_resize_blob(blob, 32);
CU_ASSERT(rc == 0);
memset(payload_write, 0xE5, sizeof(payload_write));
spdk_bs_io_write_blob(blob, channel, payload_write, 4, 10, blob_op_complete, NULL);
CU_ASSERT(g_bserrno == 0);
memset(payload_read, 0x00, sizeof(payload_read));
spdk_bs_io_read_blob(blob, channel, payload_read, 4, 10, blob_op_complete, NULL);
CU_ASSERT(g_bserrno == 0);
CU_ASSERT(memcmp(payload_write, payload_read, 4 * 4096) == 0);
spdk_bs_md_close_blob(&blob, blob_op_complete, NULL);
CU_ASSERT(g_bserrno == 0);
spdk_bs_free_io_channel(channel);
spdk_bs_unload(g_bs, bs_op_complete, NULL);
CU_ASSERT(g_bserrno == 0);
g_bs = NULL;
}
static void
blob_rw_verify_iov(void)
{
struct spdk_blob_store *bs;
struct spdk_bs_dev *dev;
struct spdk_blob *blob;
struct spdk_io_channel *channel;
spdk_blob_id blobid;
uint8_t payload_read[10 * 4096];
uint8_t payload_write[10 * 4096];
struct iovec iov_read[3];
struct iovec iov_write[3];
void *buf;
int rc;
dev = init_dev();
memset(g_dev_buffer, 0, DEV_BUFFER_SIZE);
spdk_bs_init(dev, NULL, bs_op_with_handle_complete, NULL);
CU_ASSERT(g_bserrno == 0);
SPDK_CU_ASSERT_FATAL(g_bs != NULL);
bs = g_bs;
channel = spdk_bs_alloc_io_channel(bs);
CU_ASSERT(channel != NULL);
spdk_bs_md_create_blob(bs, blob_op_with_id_complete, NULL);
CU_ASSERT(g_bserrno == 0);
CU_ASSERT(g_blobid != SPDK_BLOBID_INVALID);
blobid = g_blobid;
spdk_bs_md_open_blob(bs, blobid, blob_op_with_handle_complete, NULL);
CU_ASSERT(g_bserrno == 0);
SPDK_CU_ASSERT_FATAL(g_blob != NULL);
blob = g_blob;
rc = spdk_bs_md_resize_blob(blob, 2);
CU_ASSERT(rc == 0);
/*
* Manually adjust the offset of the blob's second cluster. This allows
* us to make sure that the readv/write code correctly accounts for I/O
* that cross cluster boundaries. Start by asserting that the allocated
* clusters are where we expect before modifying the second cluster.
*/
CU_ASSERT(blob->active.clusters[0] == 1 * 256);
CU_ASSERT(blob->active.clusters[1] == 2 * 256);
blob->active.clusters[1] = 3 * 256;
memset(payload_write, 0xE5, sizeof(payload_write));
iov_write[0].iov_base = payload_write;
iov_write[0].iov_len = 1 * 4096;
iov_write[1].iov_base = payload_write + 1 * 4096;
iov_write[1].iov_len = 5 * 4096;
iov_write[2].iov_base = payload_write + 6 * 4096;
iov_write[2].iov_len = 4 * 4096;
/*
* Choose a page offset just before the cluster boundary. The first 6 pages of payload
* will get written to the first cluster, the last 4 to the second cluster.
*/
spdk_bs_io_writev_blob(blob, channel, iov_write, 3, 250, 10, blob_op_complete, NULL);
CU_ASSERT(g_bserrno == 0);
memset(payload_read, 0xAA, sizeof(payload_read));
iov_read[0].iov_base = payload_read;
iov_read[0].iov_len = 3 * 4096;
iov_read[1].iov_base = payload_read + 3 * 4096;
iov_read[1].iov_len = 4 * 4096;
iov_read[2].iov_base = payload_read + 7 * 4096;
iov_read[2].iov_len = 3 * 4096;
spdk_bs_io_readv_blob(blob, channel, iov_read, 3, 250, 10, blob_op_complete, NULL);
CU_ASSERT(g_bserrno == 0);
CU_ASSERT(memcmp(payload_write, payload_read, 10 * 4096) == 0);
buf = calloc(1, 256 * 4096);
SPDK_CU_ASSERT_FATAL(buf != NULL);
/* Check that cluster 2 on "disk" was not modified. */
CU_ASSERT(memcmp(buf, &g_dev_buffer[512 * 4096], 256 * 4096) == 0);
free(buf);
spdk_bs_md_close_blob(&blob, blob_op_complete, NULL);
CU_ASSERT(g_bserrno == 0);
spdk_bs_free_io_channel(channel);
spdk_bs_unload(g_bs, bs_op_complete, NULL);
CU_ASSERT(g_bserrno == 0);
g_bs = NULL;
}
static uint32_t
bs_channel_get_req_count(struct spdk_io_channel *_channel)
{
struct spdk_bs_channel *channel = spdk_io_channel_get_ctx(_channel);
struct spdk_bs_request_set *set;
uint32_t count = 0;
TAILQ_FOREACH(set, &channel->reqs, link) {
count++;
}
return count;
}
static void
blob_rw_verify_iov_nomem(void)
{
struct spdk_blob_store *bs;
struct spdk_bs_dev *dev;
struct spdk_blob *blob;
struct spdk_io_channel *channel;
spdk_blob_id blobid;
uint8_t payload_write[10 * 4096];
struct iovec iov_write[3];
uint32_t req_count;
int rc;
dev = init_dev();
memset(g_dev_buffer, 0, DEV_BUFFER_SIZE);
spdk_bs_init(dev, NULL, bs_op_with_handle_complete, NULL);
CU_ASSERT(g_bserrno == 0);
SPDK_CU_ASSERT_FATAL(g_bs != NULL);
bs = g_bs;
channel = spdk_bs_alloc_io_channel(bs);
CU_ASSERT(channel != NULL);
spdk_bs_md_create_blob(bs, blob_op_with_id_complete, NULL);
CU_ASSERT(g_bserrno == 0);
CU_ASSERT(g_blobid != SPDK_BLOBID_INVALID);
blobid = g_blobid;
spdk_bs_md_open_blob(bs, blobid, blob_op_with_handle_complete, NULL);
CU_ASSERT(g_bserrno == 0);
CU_ASSERT(g_blob != NULL);
blob = g_blob;
rc = spdk_bs_md_resize_blob(blob, 2);
CU_ASSERT(rc == 0);
/*
* Choose a page offset just before the cluster boundary. The first 6 pages of payload
* will get written to the first cluster, the last 4 to the second cluster.
*/
iov_write[0].iov_base = payload_write;
iov_write[0].iov_len = 1 * 4096;
iov_write[1].iov_base = payload_write + 1 * 4096;
iov_write[1].iov_len = 5 * 4096;
iov_write[2].iov_base = payload_write + 6 * 4096;
iov_write[2].iov_len = 4 * 4096;
MOCK_SET(calloc, void *, NULL);
req_count = bs_channel_get_req_count(channel);
spdk_bs_io_writev_blob(blob, channel, iov_write, 3, 250, 10, blob_op_complete, NULL);
CU_ASSERT(g_bserrno = -ENOMEM);
CU_ASSERT(req_count == bs_channel_get_req_count(channel));
MOCK_SET(calloc, void *, (void *)MOCK_PASS_THRU);
spdk_bs_md_close_blob(&blob, blob_op_complete, NULL);
CU_ASSERT(g_bserrno == 0);
spdk_bs_free_io_channel(channel);
spdk_bs_unload(g_bs, bs_op_complete, NULL);
CU_ASSERT(g_bserrno == 0);
g_bs = NULL;
}
static void
blob_iter(void)
{
struct spdk_blob_store *bs;
struct spdk_bs_dev *dev;
struct spdk_blob *blob;
spdk_blob_id blobid;
dev = init_dev();
spdk_bs_init(dev, NULL, bs_op_with_handle_complete, NULL);
CU_ASSERT(g_bserrno == 0);
SPDK_CU_ASSERT_FATAL(g_bs != NULL);
bs = g_bs;
spdk_bs_md_iter_first(bs, blob_op_with_handle_complete, NULL);
CU_ASSERT(g_blob == NULL);
CU_ASSERT(g_bserrno == -ENOENT);
spdk_bs_md_create_blob(bs, blob_op_with_id_complete, NULL);
CU_ASSERT(g_bserrno == 0);
CU_ASSERT(g_blobid != SPDK_BLOBID_INVALID);
blobid = g_blobid;
spdk_bs_md_iter_first(bs, blob_op_with_handle_complete, NULL);
CU_ASSERT(g_blob != NULL);
CU_ASSERT(g_bserrno == 0);
blob = g_blob;
CU_ASSERT(spdk_blob_get_id(blob) == blobid);
spdk_bs_md_iter_next(bs, &blob, blob_op_with_handle_complete, NULL);
CU_ASSERT(g_blob == NULL);
CU_ASSERT(g_bserrno == -ENOENT);
spdk_bs_unload(g_bs, bs_op_complete, NULL);
CU_ASSERT(g_bserrno == 0);
g_bs = NULL;
}
static void
blob_xattr(void)
{
struct spdk_blob_store *bs;
struct spdk_bs_dev *dev;
struct spdk_blob *blob;
spdk_blob_id blobid;
uint64_t length;
int rc;
const char *name1, *name2;
const void *value;
size_t value_len;
struct spdk_xattr_names *names;
dev = init_dev();
spdk_bs_init(dev, NULL, bs_op_with_handle_complete, NULL);
CU_ASSERT(g_bserrno == 0);
SPDK_CU_ASSERT_FATAL(g_bs != NULL);
bs = g_bs;
spdk_bs_md_create_blob(bs, blob_op_with_id_complete, NULL);
CU_ASSERT(g_bserrno == 0);
CU_ASSERT(g_blobid != SPDK_BLOBID_INVALID);
blobid = g_blobid;
spdk_bs_md_open_blob(bs, blobid, blob_op_with_handle_complete, NULL);
CU_ASSERT(g_bserrno == 0);
CU_ASSERT(g_blob != NULL);
blob = g_blob;
rc = spdk_blob_md_set_xattr(blob, "name", "log.txt", strlen("log.txt") + 1);
CU_ASSERT(rc == 0);
length = 2345;
rc = spdk_blob_md_set_xattr(blob, "length", &length, sizeof(length));
CU_ASSERT(rc == 0);
/* Overwrite "length" xattr. */
length = 3456;
rc = spdk_blob_md_set_xattr(blob, "length", &length, sizeof(length));
CU_ASSERT(rc == 0);
value = NULL;
rc = spdk_bs_md_get_xattr_value(blob, "length", &value, &value_len);
CU_ASSERT(rc == 0);
SPDK_CU_ASSERT_FATAL(value != NULL);
CU_ASSERT(*(uint64_t *)value == length);
CU_ASSERT(value_len == 8);
rc = spdk_bs_md_get_xattr_value(blob, "foobar", &value, &value_len);
CU_ASSERT(rc == -ENOENT);
names = NULL;
rc = spdk_bs_md_get_xattr_names(blob, &names);
CU_ASSERT(rc == 0);
SPDK_CU_ASSERT_FATAL(names != NULL);
CU_ASSERT(spdk_xattr_names_get_count(names) == 2);
name1 = spdk_xattr_names_get_name(names, 0);
SPDK_CU_ASSERT_FATAL(name1 != NULL);
CU_ASSERT(!strcmp(name1, "name") || !strcmp(name1, "length"));
name2 = spdk_xattr_names_get_name(names, 1);
SPDK_CU_ASSERT_FATAL(name2 != NULL);
CU_ASSERT(!strcmp(name2, "name") || !strcmp(name2, "length"));
CU_ASSERT(strcmp(name1, name2));
spdk_xattr_names_free(names);
rc = spdk_blob_md_remove_xattr(blob, "name");
CU_ASSERT(rc == 0);
rc = spdk_blob_md_remove_xattr(blob, "foobar");
CU_ASSERT(rc == -ENOENT);
spdk_bs_md_close_blob(&blob, blob_op_complete, NULL);
spdk_bs_unload(g_bs, bs_op_complete, NULL);
CU_ASSERT(g_bserrno == 0);
g_bs = NULL;
}
static void
bs_load(void)
{
struct spdk_bs_dev *dev;
spdk_blob_id blobid;
struct spdk_blob *blob;
struct spdk_bs_super_block *super_blob;
uint64_t length;
int rc;
const void *value;
size_t value_len;
dev = init_dev();
/* Initialize a new blob store */
spdk_bs_init(dev, NULL, bs_op_with_handle_complete, NULL);
CU_ASSERT(g_bserrno == 0);
SPDK_CU_ASSERT_FATAL(g_bs != NULL);
/* Create a blob */
spdk_bs_md_create_blob(g_bs, blob_op_with_id_complete, NULL);
CU_ASSERT(g_bserrno == 0);
CU_ASSERT(g_blobid != SPDK_BLOBID_INVALID);
blobid = g_blobid;
spdk_bs_md_open_blob(g_bs, blobid, blob_op_with_handle_complete, NULL);
CU_ASSERT(g_bserrno == 0);
CU_ASSERT(g_blob != NULL);
blob = g_blob;
/* Set some xattrs */
rc = spdk_blob_md_set_xattr(blob, "name", "log.txt", strlen("log.txt") + 1);
CU_ASSERT(rc == 0);
length = 2345;
rc = spdk_blob_md_set_xattr(blob, "length", &length, sizeof(length));
CU_ASSERT(rc == 0);
/* Resize the blob */
rc = spdk_bs_md_resize_blob(blob, 10);
CU_ASSERT(rc == 0);
spdk_bs_md_close_blob(&blob, blob_op_complete, NULL);
CU_ASSERT(g_bserrno == 0);
blob = NULL;
g_blob = NULL;
g_blobid = SPDK_BLOBID_INVALID;
/* Unload the blob store */
spdk_bs_unload(g_bs, bs_op_complete, NULL);
CU_ASSERT(g_bserrno == 0);
g_bs = NULL;
g_blob = NULL;
g_blobid = 0;
super_blob = (struct spdk_bs_super_block *)g_dev_buffer;
CU_ASSERT(super_blob->clean == 1);
dev = init_dev();
/* Load an existing blob store */
spdk_bs_load(dev, bs_op_with_handle_complete, NULL);
CU_ASSERT(g_bserrno == 0);
SPDK_CU_ASSERT_FATAL(g_bs != NULL);
super_blob = (struct spdk_bs_super_block *)g_dev_buffer;
CU_ASSERT(super_blob->clean == 0);
spdk_bs_md_open_blob(g_bs, blobid, blob_op_with_handle_complete, NULL);
CU_ASSERT(g_bserrno == 0);
CU_ASSERT(g_blob != NULL);
blob = g_blob;
/* Get the xattrs */
value = NULL;
rc = spdk_bs_md_get_xattr_value(blob, "length", &value, &value_len);
CU_ASSERT(rc == 0);
SPDK_CU_ASSERT_FATAL(value != NULL);
CU_ASSERT(*(uint64_t *)value == length);
CU_ASSERT(value_len == 8);
rc = spdk_bs_md_get_xattr_value(blob, "foobar", &value, &value_len);
CU_ASSERT(rc == -ENOENT);
CU_ASSERT(spdk_blob_get_num_clusters(blob) == 10);
spdk_bs_md_close_blob(&blob, blob_op_complete, NULL);
CU_ASSERT(g_bserrno == 0);
blob = NULL;
g_blob = NULL;
g_blobid = SPDK_BLOBID_INVALID;
spdk_bs_unload(g_bs, bs_op_complete, NULL);
CU_ASSERT(g_bserrno == 0);
g_bs = NULL;
}
/*
* Create a blobstore and then unload it.
*/
static void
bs_unload(void)
{
struct spdk_bs_dev *dev;
dev = init_dev();
spdk_bs_init(dev, NULL, bs_op_with_handle_complete, NULL);
CU_ASSERT(g_bserrno == 0);
SPDK_CU_ASSERT_FATAL(g_bs != NULL);
g_bserrno = -1;
spdk_bs_unload(g_bs, bs_op_complete, NULL);
CU_ASSERT(g_bserrno == 0);
g_bs = NULL;
}
/*
* Create a blobstore with a cluster size different than the default, and ensure it is
* persisted.
*/
static void
bs_cluster_sz(void)
{
struct spdk_bs_dev *dev;
struct spdk_bs_opts opts;
uint32_t cluster_sz;
/* Set cluster size to zero */
dev = init_dev();
spdk_bs_opts_init(&opts);
opts.cluster_sz = 0;
/* Initialize a new blob store */
spdk_bs_init(dev, &opts, bs_op_with_handle_complete, NULL);
CU_ASSERT(g_bserrno == -EINVAL);
SPDK_CU_ASSERT_FATAL(g_bs == NULL);
/*
* Set cluster size to blobstore page size,
* to work it is required to be at least twice the blobstore page size.
*/
dev = init_dev();
spdk_bs_opts_init(&opts);
opts.cluster_sz = SPDK_BS_PAGE_SIZE;
/* Initialize a new blob store */
spdk_bs_init(dev, &opts, bs_op_with_handle_complete, NULL);
CU_ASSERT(g_bserrno == -ENOMEM);
SPDK_CU_ASSERT_FATAL(g_bs == NULL);
/* Set cluster size to twice the default */
dev = init_dev();
spdk_bs_opts_init(&opts);
opts.cluster_sz *= 2;
cluster_sz = opts.cluster_sz;
/* Initialize a new blob store */
spdk_bs_init(dev, &opts, bs_op_with_handle_complete, NULL);
CU_ASSERT(g_bserrno == 0);
SPDK_CU_ASSERT_FATAL(g_bs != NULL);
CU_ASSERT(spdk_bs_get_cluster_size(g_bs) == cluster_sz);
/* Unload the blob store */
spdk_bs_unload(g_bs, bs_op_complete, NULL);
CU_ASSERT(g_bserrno == 0);
g_bs = NULL;
g_blob = NULL;
g_blobid = 0;
dev = init_dev();
/* Load an existing blob store */
spdk_bs_load(dev, bs_op_with_handle_complete, NULL);
CU_ASSERT(g_bserrno == 0);
SPDK_CU_ASSERT_FATAL(g_bs != NULL);
CU_ASSERT(spdk_bs_get_cluster_size(g_bs) == cluster_sz);
spdk_bs_unload(g_bs, bs_op_complete, NULL);
CU_ASSERT(g_bserrno == 0);
g_bs = NULL;
}
/*
* Test resizing of the metadata blob. This requires creating enough blobs
* so that one cluster is not enough to fit the metadata for those blobs.
* To induce this condition to happen more quickly, we reduce the cluster
* size to 16KB, which means only 4 4KB blob metadata pages can fit.
*/
static void
bs_resize_md(void)
{
const int CLUSTER_PAGE_COUNT = 4;
const int NUM_BLOBS = CLUSTER_PAGE_COUNT * 4;
struct spdk_bs_dev *dev;
struct spdk_bs_opts opts;
uint32_t cluster_sz;
spdk_blob_id blobids[NUM_BLOBS];
int i;
dev = init_dev();
spdk_bs_opts_init(&opts);
opts.cluster_sz = CLUSTER_PAGE_COUNT * 4096;
cluster_sz = opts.cluster_sz;
/* Initialize a new blob store */
spdk_bs_init(dev, &opts, bs_op_with_handle_complete, NULL);
CU_ASSERT(g_bserrno == 0);
SPDK_CU_ASSERT_FATAL(g_bs != NULL);
CU_ASSERT(spdk_bs_get_cluster_size(g_bs) == cluster_sz);
for (i = 0; i < NUM_BLOBS; i++) {
g_bserrno = -1;
g_blobid = SPDK_BLOBID_INVALID;
spdk_bs_md_create_blob(g_bs,
blob_op_with_id_complete, NULL);
CU_ASSERT(g_bserrno == 0);
CU_ASSERT(g_blobid != SPDK_BLOBID_INVALID);
blobids[i] = g_blobid;
}
/* Unload the blob store */
g_bserrno = -1;
spdk_bs_unload(g_bs, bs_op_complete, NULL);
CU_ASSERT(g_bserrno == 0);
/* Load an existing blob store */
g_bserrno = -1;
g_bs = NULL;
dev = init_dev();
spdk_bs_load(dev, bs_op_with_handle_complete, NULL);
CU_ASSERT(g_bserrno == 0);
SPDK_CU_ASSERT_FATAL(g_bs != NULL);
CU_ASSERT(spdk_bs_get_cluster_size(g_bs) == cluster_sz);
for (i = 0; i < NUM_BLOBS; i++) {
g_bserrno = -1;
g_blob = NULL;
spdk_bs_md_open_blob(g_bs, blobids[i], blob_op_with_handle_complete, NULL);
CU_ASSERT(g_bserrno == 0);
CU_ASSERT(g_blob != NULL);
g_bserrno = -1;
spdk_bs_md_close_blob(&g_blob, blob_op_complete, NULL);
CU_ASSERT(g_bserrno == 0);
}
spdk_bs_unload(g_bs, bs_op_complete, NULL);
CU_ASSERT(g_bserrno == 0);
g_bs = NULL;
}
/* Try to hit all of the corner cases associated with serializing
* a blob to disk
*/
static void
blob_serialize(void)
{
struct spdk_bs_dev *dev;
struct spdk_bs_opts opts;
struct spdk_blob_store *bs;
spdk_blob_id blobid[2];
struct spdk_blob *blob[2];
uint64_t i;
char *value;
int rc;
dev = init_dev();
/* Initialize a new blobstore with very small clusters */
spdk_bs_opts_init(&opts);
opts.cluster_sz = dev->blocklen * 8;
spdk_bs_init(dev, &opts, bs_op_with_handle_complete, NULL);
CU_ASSERT(g_bserrno == 0);
SPDK_CU_ASSERT_FATAL(g_bs != NULL);
bs = g_bs;
/* Create and open two blobs */
for (i = 0; i < 2; i++) {
spdk_bs_md_create_blob(bs, blob_op_with_id_complete, NULL);
CU_ASSERT(g_bserrno == 0);
CU_ASSERT(g_blobid != SPDK_BLOBID_INVALID);
blobid[i] = g_blobid;
/* Open a blob */
spdk_bs_md_open_blob(bs, blobid[i], blob_op_with_handle_complete, NULL);
CU_ASSERT(g_bserrno == 0);
CU_ASSERT(g_blob != NULL);
blob[i] = g_blob;
/* Set a fairly large xattr on both blobs to eat up
* metadata space
*/
value = calloc(dev->blocklen - 64, sizeof(char));
SPDK_CU_ASSERT_FATAL(value != NULL);
memset(value, i, dev->blocklen / 2);
rc = spdk_blob_md_set_xattr(blob[i], "name", value, dev->blocklen - 64);
CU_ASSERT(rc == 0);
free(value);
}
/* Resize the blobs, alternating 1 cluster at a time.
* This thwarts run length encoding and will cause spill
* over of the extents.
*/
for (i = 0; i < 6; i++) {
rc = spdk_bs_md_resize_blob(blob[i % 2], (i / 2) + 1);
CU_ASSERT(rc == 0);
}
for (i = 0; i < 2; i++) {
spdk_bs_md_sync_blob(blob[i], blob_op_complete, NULL);
CU_ASSERT(g_bserrno == 0);
}
/* Close the blobs */
for (i = 0; i < 2; i++) {
spdk_bs_md_close_blob(&blob[i], blob_op_complete, NULL);
CU_ASSERT(g_bserrno == 0);
}
/* Unload the blobstore */
spdk_bs_unload(bs, bs_op_complete, NULL);
CU_ASSERT(g_bserrno == 0);
g_bs = NULL;
g_blob = NULL;
g_blobid = 0;
bs = NULL;
dev = init_dev();
/* Load an existing blob store */
spdk_bs_load(dev, bs_op_with_handle_complete, NULL);
CU_ASSERT(g_bserrno == 0);
SPDK_CU_ASSERT_FATAL(g_bs != NULL);
bs = g_bs;
for (i = 0; i < 2; i++) {
blob[i] = NULL;
spdk_bs_md_open_blob(bs, blobid[i], blob_op_with_handle_complete, NULL);
CU_ASSERT(g_bserrno == 0);
CU_ASSERT(g_blob != NULL);
blob[i] = g_blob;
CU_ASSERT(spdk_blob_get_num_clusters(blob[i]) == 3);
spdk_bs_md_close_blob(&blob[i], blob_op_complete, NULL);
CU_ASSERT(g_bserrno == 0);
}
spdk_bs_unload(bs, bs_op_complete, NULL);
CU_ASSERT(g_bserrno == 0);
g_bs = NULL;
}
static void
blob_crc(void)
{
struct spdk_blob_store *bs;
struct spdk_bs_dev *dev;
struct spdk_blob *blob;
spdk_blob_id blobid;
uint32_t page_num;
int index;
struct spdk_blob_md_page *page;
dev = init_dev();
spdk_bs_init(dev, NULL, bs_op_with_handle_complete, NULL);
CU_ASSERT(g_bserrno == 0);
SPDK_CU_ASSERT_FATAL(g_bs != NULL);
bs = g_bs;
spdk_bs_md_create_blob(bs, blob_op_with_id_complete, NULL);
CU_ASSERT(g_bserrno == 0);
CU_ASSERT(g_blobid != SPDK_BLOBID_INVALID);
blobid = g_blobid;
spdk_bs_md_open_blob(bs, blobid, blob_op_with_handle_complete, NULL);
CU_ASSERT(g_bserrno == 0);
CU_ASSERT(g_blob != NULL);
blob = g_blob;
spdk_bs_md_close_blob(&blob, blob_op_complete, NULL);
CU_ASSERT(g_bserrno == 0);
CU_ASSERT(blob == NULL);
page_num = _spdk_bs_blobid_to_page(blobid);
index = DEV_BUFFER_BLOCKLEN * (bs->md_start + page_num);
page = (struct spdk_blob_md_page *)&g_dev_buffer[index];
page->crc = 0;
spdk_bs_md_open_blob(bs, blobid, blob_op_with_handle_complete, NULL);
CU_ASSERT(g_bserrno == -EINVAL);
CU_ASSERT(g_blob == NULL);
g_bserrno = 0;
spdk_bs_md_delete_blob(bs, blobid, blob_op_complete, NULL);
CU_ASSERT(g_bserrno == -EINVAL);
spdk_bs_unload(g_bs, bs_op_complete, NULL);
CU_ASSERT(g_bserrno == 0);
g_bs = NULL;
}
static void
super_block_crc(void)
{
struct spdk_bs_dev *dev;
struct spdk_bs_super_block *super_block;
dev = init_dev();
spdk_bs_init(dev, NULL, bs_op_with_handle_complete, NULL);
CU_ASSERT(g_bserrno == 0);
SPDK_CU_ASSERT_FATAL(g_bs != NULL);
spdk_bs_unload(g_bs, bs_op_complete, NULL);
CU_ASSERT(g_bserrno == 0);
g_bs = NULL;
super_block = (struct spdk_bs_super_block *)g_dev_buffer;
super_block->crc = 0;
dev = init_dev();
g_scheduler_delay = true;
/* Load an existing blob store */
spdk_bs_load(dev, bs_op_with_handle_complete, NULL);
CU_ASSERT(g_bserrno == -EILSEQ);
_bs_flush_scheduler();
CU_ASSERT(TAILQ_EMPTY(&g_scheduled_ops));
g_scheduler_delay = false;
}
int main(int argc, char **argv)
{
CU_pSuite suite = NULL;
unsigned int num_failures;
if (CU_initialize_registry() != CUE_SUCCESS) {
return CU_get_error();
}
suite = CU_add_suite("blob", NULL, NULL);
if (suite == NULL) {
CU_cleanup_registry();
return CU_get_error();
}
if (
CU_add_test(suite, "blob_init", blob_init) == NULL ||
CU_add_test(suite, "blob_open", blob_open) == NULL ||
CU_add_test(suite, "blob_delete", blob_delete) == NULL ||
CU_add_test(suite, "blob_resize", blob_resize) == NULL ||
CU_add_test(suite, "channel_ops", channel_ops) == NULL ||
CU_add_test(suite, "blob_super", blob_super) == NULL ||
CU_add_test(suite, "blob_write", blob_write) == NULL ||
CU_add_test(suite, "blob_read", blob_read) == NULL ||
CU_add_test(suite, "blob_rw_verify", blob_rw_verify) == NULL ||
CU_add_test(suite, "blob_rw_verify_iov", blob_rw_verify_iov) == NULL ||
CU_add_test(suite, "blob_rw_verify_iov_nomem", blob_rw_verify_iov_nomem) == NULL ||
CU_add_test(suite, "blob_iter", blob_iter) == NULL ||
CU_add_test(suite, "blob_xattr", blob_xattr) == NULL ||
CU_add_test(suite, "bs_load", bs_load) == NULL ||
CU_add_test(suite, "bs_unload", bs_unload) == NULL ||
CU_add_test(suite, "bs_cluster_sz", bs_cluster_sz) == NULL ||
CU_add_test(suite, "bs_resize_md", bs_resize_md) == NULL ||
CU_add_test(suite, "blob_serialize", blob_serialize) == NULL ||
CU_add_test(suite, "blob_crc", blob_crc) == NULL ||
CU_add_test(suite, "super_block_crc", super_block_crc) == NULL
) {
CU_cleanup_registry();
return CU_get_error();
}
g_dev_buffer = calloc(1, DEV_BUFFER_SIZE);
spdk_allocate_thread(_bs_send_msg, NULL, "thread0");
CU_basic_set_mode(CU_BRM_VERBOSE);
CU_basic_run_tests();
num_failures = CU_get_number_of_failures();
CU_cleanup_registry();
spdk_free_thread();
free(g_dev_buffer);
return num_failures;
}
Reference in New Issue View Git Blame Copy Permalink