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Spdk/test/unit/lib/ftl/ftl_io.c/ftl_io_ut.c
Nick Connolly e49d3c6612 test/unit/lib/ftl: Add unit test stubs 
With some build environments (e.g. clang, see #1613) linking fails with
unresolved references. This is caused by the inclusion of 'unused code'
which is usually discarded by the linker. The 'unused code' contains
references to functions that have not been 'stubbed' out. The failure
can be seen by removing 'LDFLAGS += -Wl,--gc-sections' in
spdk.unittest.mk

Resolved by adding stubs for missing references. These are never called
so return an arbtrary default value.

Added stubs for use when configured with pmem.

Part of a set of independent changes which
Fixes #1613

Signed-off-by: Nick Connolly <nick.connolly@mayadata.io>
Change-Id: I8944b8aaa90f27102ae6b030bfab89898194e5a4
Reviewed-on: https://review.spdk.io/gerrit/c/spdk/spdk/+/5085
Community-CI: Mellanox Build Bot
Tested-by: SPDK CI Jenkins <sys_sgci@intel.com>
Reviewed-by: Jim Harris <james.r.harris@intel.com>
Reviewed-by: Aleksey Marchuk <alexeymar@mellanox.com>
2020-11-19 09:50:13 +00:00

1138 lines
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/*-
* BSD LICENSE
*
* Copyright (c) Intel Corporation.
* All rights reserved.
*
* Redistribution and use in source and binary forms, with or without
* modification, are permitted provided that the following conditions
* are met:
*
* * Redistributions of source code must retain the above copyright
* notice, this list of conditions and the following disclaimer.
* * Redistributions in binary form must reproduce the above copyright
* notice, this list of conditions and the following disclaimer in
* the documentation and/or other materials provided with the
* distribution.
* * Neither the name of Intel Corporation nor the names of its
* contributors may be used to endorse or promote products derived
* from this software without specific prior written permission.
*
* THIS SOFTWARE IS PROVIDED BY THE COPYRIGHT HOLDERS AND CONTRIBUTORS
* "AS IS" AND ANY EXPRESS OR IMPLIED WARRANTIES, INCLUDING, BUT NOT
* LIMITED TO, THE IMPLIED WARRANTIES OF MERCHANTABILITY AND FITNESS FOR
* A PARTICULAR PURPOSE ARE DISCLAIMED. IN NO EVENT SHALL THE COPYRIGHT
* OWNER OR CONTRIBUTORS BE LIABLE FOR ANY DIRECT, INDIRECT, INCIDENTAL,
* SPECIAL, EXEMPLARY, OR CONSEQUENTIAL DAMAGES (INCLUDING, BUT NOT
* LIMITED TO, PROCUREMENT OF SUBSTITUTE GOODS OR SERVICES; LOSS OF USE,
* DATA, OR PROFITS; OR BUSINESS INTERRUPTION) HOWEVER CAUSED AND ON ANY
* THEORY OF LIABILITY, WHETHER IN CONTRACT, STRICT LIABILITY, OR TORT
* (INCLUDING NEGLIGENCE OR OTHERWISE) ARISING IN ANY WAY OUT OF THE USE
* OF THIS SOFTWARE, EVEN IF ADVISED OF THE POSSIBILITY OF SUCH DAMAGE.
*/
#include "spdk/stdinc.h"
#include "spdk_cunit.h"
#include "common/lib/ut_multithread.c"
#include "ftl/ftl_io.c"
#include "ftl/ftl_init.c"
#include "ftl/ftl_core.c"
#include "ftl/ftl_band.c"
DEFINE_STUB(spdk_bdev_io_get_append_location, uint64_t, (struct spdk_bdev_io *bdev_io), 0);
DEFINE_STUB_V(spdk_bdev_close, (struct spdk_bdev_desc *desc));
DEFINE_STUB(spdk_bdev_desc_get_bdev, struct spdk_bdev *, (struct spdk_bdev_desc *desc), NULL);
DEFINE_STUB(spdk_bdev_get_optimal_open_zones, uint32_t, (const struct spdk_bdev *b), 1);
DEFINE_STUB(spdk_bdev_get_by_name, struct spdk_bdev *, (const char *bdev_name), NULL);
DEFINE_STUB(spdk_bdev_is_md_separate, bool, (const struct spdk_bdev *bdev), false);
DEFINE_STUB(spdk_bdev_is_zoned, bool, (const struct spdk_bdev *bdev), false);
DEFINE_STUB(spdk_bdev_zone_appendv, int, (struct spdk_bdev_desc *desc, struct spdk_io_channel *ch,
struct iovec *iov, int iovcnt, uint64_t zone_id, uint64_t num_blocks,
spdk_bdev_io_completion_cb cb, void *cb_arg), 0);
DEFINE_STUB(spdk_bdev_get_zone_size, uint64_t, (const struct spdk_bdev *b), 1024);
DEFINE_STUB(spdk_bdev_zone_management, int, (struct spdk_bdev_desc *desc,
struct spdk_io_channel *ch, uint64_t zone_id, enum spdk_bdev_zone_action action,
spdk_bdev_io_completion_cb cb, void *cb_arg), 0);
DEFINE_STUB_V(spdk_bdev_free_io, (struct spdk_bdev_io *bdev_io));
DEFINE_STUB(spdk_bdev_get_buf_align, size_t, (const struct spdk_bdev *bdev), 64);
DEFINE_STUB(spdk_bdev_get_dif_type, enum spdk_dif_type,
(const struct spdk_bdev *bdev), 0);
DEFINE_STUB(spdk_bdev_get_name, const char *, (const struct spdk_bdev *bdev), "test");
DEFINE_STUB(spdk_bdev_get_write_unit_size, uint32_t,
(const struct spdk_bdev *bdev), 0);
DEFINE_STUB(spdk_bdev_io_type_supported, bool, (struct spdk_bdev *bdev,
enum spdk_bdev_io_type io_type), true);
DEFINE_STUB(spdk_bdev_module_claim_bdev, int,
(struct spdk_bdev *bdev, struct spdk_bdev_desc *desc,
struct spdk_bdev_module *module), 0);
DEFINE_STUB(spdk_bdev_open_ext, int,
(const char *bdev_name, bool write, spdk_bdev_event_cb_t event_cb,
void *event_ctx, struct spdk_bdev_desc **desc), 0);
DEFINE_STUB(spdk_bdev_read_blocks, int, (struct spdk_bdev_desc *desc, struct spdk_io_channel *ch,
void *buf, uint64_t offset_blocks, uint64_t num_blocks,
spdk_bdev_io_completion_cb cb, void *cb_arg), 0);
DEFINE_STUB(spdk_bdev_write_blocks, int, (struct spdk_bdev_desc *desc, struct spdk_io_channel *ch,
void *buf, uint64_t offset_blocks, uint64_t num_blocks, spdk_bdev_io_completion_cb cb,
void *cb_arg), 0);
DEFINE_STUB(spdk_bdev_write_blocks_with_md, int, (struct spdk_bdev_desc *desc,
struct spdk_io_channel *ch, void *buf, void *md, uint64_t offset_blocks,
uint64_t num_blocks, spdk_bdev_io_completion_cb cb, void *cb_arg), 0);
DEFINE_STUB(spdk_bdev_writev_blocks, int, (struct spdk_bdev_desc *desc, struct spdk_io_channel *ch,
struct iovec *iov, int iovcnt, uint64_t offset_blocks, uint64_t num_blocks,
spdk_bdev_io_completion_cb cb, void *cb_arg), 0);
DEFINE_STUB(spdk_bdev_get_num_blocks, uint64_t, (const struct spdk_bdev *bdev), 1024);
DEFINE_STUB(spdk_bdev_get_md_size, uint32_t, (const struct spdk_bdev *bdev), 0);
DEFINE_STUB(spdk_bdev_get_block_size, uint32_t, (const struct spdk_bdev *bdev), 4096);
DEFINE_STUB(spdk_bdev_get_media_events, size_t,
(struct spdk_bdev_desc *bdev_desc, struct spdk_bdev_media_event *events,
size_t max_events), 0);
DEFINE_STUB_V(spdk_bdev_module_release_bdev, (struct spdk_bdev *bdev));
DEFINE_STUB(spdk_bdev_write_zeroes_blocks, int,
(struct spdk_bdev_desc *desc, struct spdk_io_channel *ch,
uint64_t offset_blocks, uint64_t num_blocks,
spdk_bdev_io_completion_cb cb, void *cb_arg), 0);
DEFINE_STUB(spdk_bdev_get_zone_info, int,
(struct spdk_bdev_desc *desc, struct spdk_io_channel *ch,
uint64_t zone_id, size_t num_zones, struct spdk_bdev_zone_info *info,
spdk_bdev_io_completion_cb cb, void *cb_arg), 0);
DEFINE_STUB(spdk_mempool_create_ctor, struct spdk_mempool *,
(const char *name, size_t count, size_t ele_size, size_t cache_size,
int socket_id, spdk_mempool_obj_cb_t *obj_init, void *obj_init_arg), NULL);
DEFINE_STUB(spdk_mempool_obj_iter, uint32_t,
(struct spdk_mempool *mp, spdk_mempool_obj_cb_t obj_cb, void *obj_cb_arg), 0);
DEFINE_STUB(ftl_reloc, bool, (struct ftl_reloc *reloc), false);
DEFINE_STUB_V(ftl_reloc_add, (struct ftl_reloc *reloc, struct ftl_band *band, size_t offset,
size_t num_blocks, int prio, bool defrag));
DEFINE_STUB_V(ftl_reloc_free, (struct ftl_reloc *reloc));
DEFINE_STUB_V(ftl_reloc_halt, (struct ftl_reloc *reloc));
DEFINE_STUB(ftl_reloc_init, struct ftl_reloc *, (struct spdk_ftl_dev *dev), NULL);
DEFINE_STUB(ftl_reloc_is_defrag_active, bool, (const struct ftl_reloc *reloc), false);
DEFINE_STUB(ftl_reloc_is_halted, bool, (const struct ftl_reloc *reloc), false);
DEFINE_STUB_V(ftl_reloc_resume, (struct ftl_reloc *reloc));
DEFINE_STUB(ftl_restore_device, int,
(struct ftl_restore *restore, ftl_restore_fn cb, void *cb_arg), 0);
DEFINE_STUB(ftl_restore_md, int,
(struct spdk_ftl_dev *dev, ftl_restore_fn cb, void *cb_arg), 0);
DEFINE_STUB_V(ftl_restore_nv_cache,
(struct ftl_restore *restore, ftl_restore_fn cb, void *cb_arg));
#if defined(FTL_META_DEBUG)
DEFINE_STUB(ftl_band_validate_md, bool, (struct ftl_band *band), true);
#endif
#if defined(DEBUG)
DEFINE_STUB_V(ftl_trace_defrag_band, (struct spdk_ftl_dev *dev, const struct ftl_band *band));
DEFINE_STUB_V(ftl_trace_submission, (struct spdk_ftl_dev *dev, const struct ftl_io *io,
struct ftl_addr addr, size_t addr_cnt));
DEFINE_STUB_V(ftl_trace_lba_io_init, (struct spdk_ftl_dev *dev, const struct ftl_io *io));
DEFINE_STUB_V(ftl_trace_limits, (struct spdk_ftl_dev *dev, int limit, size_t num_free));
DEFINE_STUB(ftl_trace_alloc_id, uint64_t, (struct spdk_ftl_dev *dev), 0);
DEFINE_STUB_V(ftl_trace_completion, (struct spdk_ftl_dev *dev, const struct ftl_io *io,
enum ftl_trace_completion type));
DEFINE_STUB_V(ftl_trace_wbuf_fill, (struct spdk_ftl_dev *dev, const struct ftl_io *io));
DEFINE_STUB_V(ftl_trace_wbuf_pop, (struct spdk_ftl_dev *dev, const struct ftl_wbuf_entry *entry));
DEFINE_STUB_V(ftl_trace_write_band, (struct spdk_ftl_dev *dev, const struct ftl_band *band));
#endif
#if defined(FTL_META_DEBUG)
DEFINE_STUB_V(ftl_dev_dump_bands, (struct spdk_ftl_dev *dev));
#endif
#if defined(FTL_DUMP_STATS)
DEFINE_STUB_V(ftl_dev_dump_stats, (const struct spdk_ftl_dev *dev));
#endif
#ifdef SPDK_CONFIG_PMDK
DEFINE_STUB(pmem_map_file, void *,
(const char *path, size_t len, int flags, mode_t mode,
size_t *mapped_lenp, int *is_pmemp), NULL);
DEFINE_STUB(pmem_unmap, int, (void *addr, size_t len), 0);
DEFINE_STUB(pmem_memset_persist, void *, (void *pmemdest, int c, size_t len), NULL);
#endif
struct spdk_io_channel *
spdk_bdev_get_io_channel(struct spdk_bdev_desc *bdev_desc)
{
return spdk_get_io_channel(bdev_desc);
}
static int
channel_create_cb(void *io_device, void *ctx)
{
return 0;
}
static void
channel_destroy_cb(void *io_device, void *ctx)
{}
static struct spdk_ftl_dev *
setup_device(uint32_t num_threads, uint32_t xfer_size)
{
struct spdk_ftl_dev *dev;
struct _ftl_io_channel *_ioch;
struct ftl_io_channel *ioch;
int rc;
allocate_threads(num_threads);
set_thread(0);
dev = calloc(1, sizeof(*dev));
SPDK_CU_ASSERT_FATAL(dev != NULL);
dev->core_thread = spdk_get_thread();
dev->ioch = calloc(1, sizeof(*_ioch) + sizeof(struct spdk_io_channel));
SPDK_CU_ASSERT_FATAL(dev->ioch != NULL);
_ioch = (struct _ftl_io_channel *)(dev->ioch + 1);
ioch = _ioch->ioch = calloc(1, sizeof(*ioch));
SPDK_CU_ASSERT_FATAL(ioch != NULL);
ioch->elem_size = sizeof(struct ftl_md_io);
ioch->io_pool = spdk_mempool_create("io-pool", 4096, ioch->elem_size, 0, 0);
SPDK_CU_ASSERT_FATAL(ioch->io_pool != NULL);
dev->conf = g_default_conf;
dev->xfer_size = xfer_size;
dev->base_bdev_desc = (struct spdk_bdev_desc *)0xdeadbeef;
spdk_io_device_register(dev->base_bdev_desc, channel_create_cb, channel_destroy_cb, 0, NULL);
rc = ftl_dev_init_io_channel(dev);
CU_ASSERT_EQUAL(rc, 0);
return dev;
}
static void
free_device(struct spdk_ftl_dev *dev)
{
struct ftl_io_channel *ioch;
ioch = ftl_io_channel_get_ctx(dev->ioch);
spdk_mempool_free(ioch->io_pool);
free(ioch);
spdk_io_device_unregister(dev, NULL);
spdk_io_device_unregister(dev->base_bdev_desc, NULL);
free_threads();
free(dev->ioch_array);
free(dev->iov_buf);
free(dev->ioch);
free(dev);
}
static void
setup_io(struct ftl_io *io, struct spdk_ftl_dev *dev, ftl_io_fn cb, void *ctx)
{
io->dev = dev;
io->cb_fn = cb;
io->cb_ctx = ctx;
}
static struct ftl_io *
alloc_io(struct spdk_ftl_dev *dev, ftl_io_fn cb, void *ctx)
{
struct ftl_io *io;
io = ftl_io_alloc(dev->ioch);
SPDK_CU_ASSERT_FATAL(io != NULL);
setup_io(io, dev, cb, ctx);
return io;
}
static void
io_complete_cb(struct ftl_io *io, void *ctx, int status)
{
*(int *)ctx = status;
}
static void
test_completion(void)
{
struct spdk_ftl_dev *dev;
struct ftl_io_channel *ioch;
struct ftl_io *io;
int req, status = 0;
size_t pool_size;
dev = setup_device(1, 16);
ioch = ftl_io_channel_get_ctx(dev->ioch);
pool_size = spdk_mempool_count(ioch->io_pool);
io = alloc_io(dev, io_complete_cb, &status);
io->status = -EIO;
#define NUM_REQUESTS 16
for (req = 0; req < NUM_REQUESTS; ++req) {
ftl_io_inc_req(io);
CU_ASSERT_FALSE(ftl_io_done(io));
}
CU_ASSERT_EQUAL(io->req_cnt, NUM_REQUESTS);
for (req = 0; req < (NUM_REQUESTS - 1); ++req) {
ftl_io_dec_req(io);
CU_ASSERT_FALSE(ftl_io_done(io));
}
CU_ASSERT_EQUAL(io->req_cnt, 1);
ftl_io_dec_req(io);
CU_ASSERT_TRUE(ftl_io_done(io));
ftl_io_complete(io);
CU_ASSERT_EQUAL(status, -EIO);
CU_ASSERT_EQUAL(spdk_mempool_count(ioch->io_pool), pool_size);
free_device(dev);
}
static void
test_alloc_free(void)
{
struct spdk_ftl_dev *dev;
struct ftl_io_channel *ioch;
struct ftl_io *parent, *child;
int parent_status = -1;
size_t pool_size;
dev = setup_device(1, 16);
ioch = ftl_io_channel_get_ctx(dev->ioch);
pool_size = spdk_mempool_count(ioch->io_pool);
parent = alloc_io(dev, io_complete_cb, &parent_status);
SPDK_CU_ASSERT_FATAL(parent != NULL);
child = ftl_io_alloc_child(parent);
SPDK_CU_ASSERT_FATAL(child != NULL);
ftl_io_free(child);
CU_ASSERT_EQUAL(spdk_mempool_count(ioch->io_pool), pool_size - 1);
child = ftl_io_alloc_child(parent);
SPDK_CU_ASSERT_FATAL(child != NULL);
ftl_io_complete(child);
CU_ASSERT_EQUAL(parent_status, -1);
ftl_io_complete(parent);
CU_ASSERT_EQUAL(parent_status, 0);
CU_ASSERT_EQUAL(spdk_mempool_count(ioch->io_pool), pool_size);
parent_status = -1;
parent = alloc_io(dev, io_complete_cb, &parent_status);
SPDK_CU_ASSERT_FATAL(parent != NULL);
child = ftl_io_alloc_child(parent);
SPDK_CU_ASSERT_FATAL(child != NULL);
ftl_io_free(child);
CU_ASSERT_EQUAL(parent_status, -1);
CU_ASSERT_EQUAL(spdk_mempool_count(ioch->io_pool), pool_size - 1);
ftl_io_complete(parent);
CU_ASSERT_EQUAL(parent_status, 0);
CU_ASSERT_EQUAL(spdk_mempool_count(ioch->io_pool), pool_size);
free_device(dev);
}
static void
test_child_requests(void)
{
struct spdk_ftl_dev *dev;
struct ftl_io_channel *ioch;
#define MAX_CHILDREN 16
struct ftl_io *parent, *child[MAX_CHILDREN];
int status[MAX_CHILDREN + 1], i;
size_t pool_size;
dev = setup_device(1, 16);
ioch = ftl_io_channel_get_ctx(dev->ioch);
pool_size = spdk_mempool_count(ioch->io_pool);
/* Verify correct behaviour when children finish first */
parent = alloc_io(dev, io_complete_cb, &status[0]);
parent->status = 0;
ftl_io_inc_req(parent);
status[0] = -1;
for (i = 0; i < MAX_CHILDREN; ++i) {
status[i + 1] = -1;
child[i] = ftl_io_alloc_child(parent);
SPDK_CU_ASSERT_FATAL(child[i] != NULL);
setup_io(child[i], dev, io_complete_cb, &status[i + 1]);
child[i]->status = 0;
ftl_io_inc_req(child[i]);
}
CU_ASSERT_FALSE(ftl_io_done(parent));
CU_ASSERT_EQUAL(spdk_mempool_count(ioch->io_pool), pool_size - MAX_CHILDREN - 1);
for (i = 0; i < MAX_CHILDREN; ++i) {
CU_ASSERT_FALSE(ftl_io_done(child[i]));
ftl_io_dec_req(child[i]);
CU_ASSERT_TRUE(ftl_io_done(child[i]));
CU_ASSERT_FALSE(ftl_io_done(parent));
ftl_io_complete(child[i]);
CU_ASSERT_FALSE(ftl_io_done(parent));
CU_ASSERT_EQUAL(status[i + 1], 0);
}
CU_ASSERT_EQUAL(status[0], -1);
ftl_io_dec_req(parent);
CU_ASSERT_EQUAL(parent->req_cnt, 0);
CU_ASSERT_TRUE(ftl_io_done(parent));
ftl_io_complete(parent);
CU_ASSERT_EQUAL(status[0], 0);
CU_ASSERT_EQUAL(spdk_mempool_count(ioch->io_pool), pool_size);
/* Verify correct behaviour when parent finishes first */
parent = alloc_io(dev, io_complete_cb, &status[0]);
parent->status = 0;
ftl_io_inc_req(parent);
status[0] = -1;
for (i = 0; i < MAX_CHILDREN; ++i) {
status[i + 1] = -1;
child[i] = ftl_io_alloc_child(parent);
SPDK_CU_ASSERT_FATAL(child[i] != NULL);
setup_io(child[i], dev, io_complete_cb, &status[i + 1]);
child[i]->status = 0;
ftl_io_inc_req(child[i]);
}
CU_ASSERT_FALSE(ftl_io_done(parent));
CU_ASSERT_EQUAL(spdk_mempool_count(ioch->io_pool), pool_size - MAX_CHILDREN - 1);
ftl_io_dec_req(parent);
CU_ASSERT_TRUE(ftl_io_done(parent));
CU_ASSERT_EQUAL(parent->req_cnt, 0);
ftl_io_complete(parent);
CU_ASSERT_EQUAL(status[0], -1);
CU_ASSERT_EQUAL(spdk_mempool_count(ioch->io_pool), pool_size - MAX_CHILDREN - 1);
for (i = 0; i < MAX_CHILDREN; ++i) {
CU_ASSERT_FALSE(ftl_io_done(child[i]));
ftl_io_dec_req(child[i]);
CU_ASSERT_TRUE(ftl_io_done(child[i]));
ftl_io_complete(child[i]);
CU_ASSERT_EQUAL(status[i + 1], 0);
}
CU_ASSERT_EQUAL(status[0], 0);
CU_ASSERT_EQUAL(spdk_mempool_count(ioch->io_pool), pool_size);
free_device(dev);
}
static void
test_child_status(void)
{
struct spdk_ftl_dev *dev;
struct ftl_io_channel *ioch;
struct ftl_io *parent, *child[2];
int parent_status, child_status[2];
size_t pool_size, i;
dev = setup_device(1, 16);
ioch = ftl_io_channel_get_ctx(dev->ioch);
pool_size = spdk_mempool_count(ioch->io_pool);
/* Verify the first error is returned by the parent */
parent = alloc_io(dev, io_complete_cb, &parent_status);
parent->status = 0;
for (i = 0; i < 2; ++i) {
child[i] = ftl_io_alloc_child(parent);
SPDK_CU_ASSERT_FATAL(child[i] != NULL);
setup_io(child[i], dev, io_complete_cb, &child_status[i]);
}
child[0]->status = -3;
child[1]->status = -4;
ftl_io_complete(child[1]);
ftl_io_complete(child[0]);
ftl_io_complete(parent);
CU_ASSERT_EQUAL(child_status[0], -3);
CU_ASSERT_EQUAL(child_status[1], -4);
CU_ASSERT_EQUAL(parent_status, -4);
CU_ASSERT_EQUAL(spdk_mempool_count(ioch->io_pool), pool_size);
/* Verify parent's status is kept if children finish successfully */
parent = alloc_io(dev, io_complete_cb, &parent_status);
parent->status = -1;
for (i = 0; i < 2; ++i) {
child[i] = ftl_io_alloc_child(parent);
SPDK_CU_ASSERT_FATAL(child[i] != NULL);
setup_io(child[i], dev, io_complete_cb, &child_status[i]);
}
child[0]->status = 0;
child[1]->status = 0;
ftl_io_complete(parent);
ftl_io_complete(child[1]);
ftl_io_complete(child[0]);
CU_ASSERT_EQUAL(child_status[0], 0);
CU_ASSERT_EQUAL(child_status[1], 0);
CU_ASSERT_EQUAL(parent_status, -1);
CU_ASSERT_EQUAL(spdk_mempool_count(ioch->io_pool), pool_size);
/* Verify parent's status is kept if children fail too */
parent = alloc_io(dev, io_complete_cb, &parent_status);
parent->status = -1;
for (i = 0; i < 2; ++i) {
child[i] = ftl_io_alloc_child(parent);
SPDK_CU_ASSERT_FATAL(child[i] != NULL);
setup_io(child[i], dev, io_complete_cb, &child_status[i]);
}
child[0]->status = -3;
child[1]->status = -4;
ftl_io_complete(parent);
ftl_io_complete(child[1]);
ftl_io_complete(child[0]);
CU_ASSERT_EQUAL(child_status[0], -3);
CU_ASSERT_EQUAL(child_status[1], -4);
CU_ASSERT_EQUAL(parent_status, -1);
CU_ASSERT_EQUAL(spdk_mempool_count(ioch->io_pool), pool_size);
free_device(dev);
}
static void
test_multi_generation(void)
{
struct spdk_ftl_dev *dev;
struct ftl_io_channel *ioch;
#define MAX_GRAND_CHILDREN 32
struct ftl_io *parent, *child[MAX_CHILDREN], *gchild[MAX_CHILDREN * MAX_GRAND_CHILDREN];
int parent_status, child_status[MAX_CHILDREN], gchild_status[MAX_CHILDREN * MAX_GRAND_CHILDREN];
size_t pool_size;
int i, j;
dev = setup_device(1, 16);
ioch = ftl_io_channel_get_ctx(dev->ioch);
pool_size = spdk_mempool_count(ioch->io_pool);
/* Verify correct behaviour when children finish first */
parent = alloc_io(dev, io_complete_cb, &parent_status);
parent->status = 0;
ftl_io_inc_req(parent);
parent_status = -1;
for (i = 0; i < MAX_CHILDREN; ++i) {
child_status[i] = -1;
child[i] = ftl_io_alloc_child(parent);
SPDK_CU_ASSERT_FATAL(child[i] != NULL);
setup_io(child[i], dev, io_complete_cb, &child_status[i]);
child[i]->status = 0;
for (j = 0; j < MAX_GRAND_CHILDREN; ++j) {
struct ftl_io *io = ftl_io_alloc_child(child[i]);
SPDK_CU_ASSERT_FATAL(io != NULL);
gchild[i * MAX_GRAND_CHILDREN + j] = io;
gchild_status[i * MAX_GRAND_CHILDREN + j] = -1;
setup_io(io, dev, io_complete_cb, &gchild_status[i * MAX_GRAND_CHILDREN + j]);
io->status = 0;
ftl_io_inc_req(io);
}
ftl_io_inc_req(child[i]);
}
for (i = 0; i < MAX_CHILDREN; ++i) {
CU_ASSERT_FALSE(ftl_io_done(child[i]));
ftl_io_dec_req(child[i]);
CU_ASSERT_TRUE(ftl_io_done(child[i]));
ftl_io_complete(child[i]);
CU_ASSERT_FALSE(ftl_io_done(parent));
CU_ASSERT_EQUAL(child_status[i], -1);
for (j = 0; j < MAX_GRAND_CHILDREN; ++j) {
struct ftl_io *io = gchild[i * MAX_GRAND_CHILDREN + j];
CU_ASSERT_FALSE(ftl_io_done(io));
ftl_io_dec_req(io);
CU_ASSERT_TRUE(ftl_io_done(io));
ftl_io_complete(io);
CU_ASSERT_EQUAL(gchild_status[i * MAX_GRAND_CHILDREN + j], 0);
}
CU_ASSERT_EQUAL(child_status[i], 0);
}
ftl_io_dec_req(parent);
CU_ASSERT_TRUE(ftl_io_done(parent));
ftl_io_complete(parent);
CU_ASSERT_EQUAL(parent_status, 0);
CU_ASSERT_EQUAL(spdk_mempool_count(ioch->io_pool), pool_size);
/* Verify correct behaviour when parents finish first */
parent = alloc_io(dev, io_complete_cb, &parent_status);
parent->status = 0;
parent_status = -1;
for (i = 0; i < MAX_CHILDREN; ++i) {
child_status[i] = -1;
child[i] = ftl_io_alloc_child(parent);
SPDK_CU_ASSERT_FATAL(child[i] != NULL);
setup_io(child[i], dev, io_complete_cb, &child_status[i]);
child[i]->status = 0;
for (j = 0; j < MAX_GRAND_CHILDREN; ++j) {
struct ftl_io *io = ftl_io_alloc_child(child[i]);
SPDK_CU_ASSERT_FATAL(io != NULL);
gchild[i * MAX_GRAND_CHILDREN + j] = io;
gchild_status[i * MAX_GRAND_CHILDREN + j] = -1;
setup_io(io, dev, io_complete_cb, &gchild_status[i * MAX_GRAND_CHILDREN + j]);
io->status = 0;
ftl_io_inc_req(io);
}
CU_ASSERT_TRUE(ftl_io_done(child[i]));
ftl_io_complete(child[i]);
CU_ASSERT_EQUAL(child_status[i], -1);
}
CU_ASSERT_TRUE(ftl_io_done(parent));
ftl_io_complete(parent);
CU_ASSERT_EQUAL(parent_status, -1);
for (i = 0; i < MAX_CHILDREN; ++i) {
for (j = 0; j < MAX_GRAND_CHILDREN; ++j) {
struct ftl_io *io = gchild[i * MAX_GRAND_CHILDREN + j];
CU_ASSERT_FALSE(ftl_io_done(io));
ftl_io_dec_req(io);
CU_ASSERT_TRUE(ftl_io_done(io));
ftl_io_complete(io);
CU_ASSERT_EQUAL(gchild_status[i * MAX_GRAND_CHILDREN + j], 0);
}
CU_ASSERT_EQUAL(child_status[i], 0);
}
CU_ASSERT_EQUAL(parent_status, 0);
CU_ASSERT_EQUAL(spdk_mempool_count(ioch->io_pool), pool_size);
free_device(dev);
}
static void
test_io_channel_create(void)
{
struct spdk_ftl_dev *dev;
struct spdk_io_channel *ioch, **ioch_array;
struct ftl_io_channel *ftl_ioch;
uint32_t ioch_idx;
dev = setup_device(g_default_conf.max_io_channels + 1, 16);
ioch = spdk_get_io_channel(dev);
CU_ASSERT(ioch != NULL);
CU_ASSERT_EQUAL(dev->num_io_channels, 1);
spdk_put_io_channel(ioch);
poll_threads();
CU_ASSERT_EQUAL(dev->num_io_channels, 0);
ioch_array = calloc(dev->conf.max_io_channels, sizeof(*ioch_array));
SPDK_CU_ASSERT_FATAL(ioch != NULL);
for (ioch_idx = 0; ioch_idx < dev->conf.max_io_channels; ++ioch_idx) {
set_thread(ioch_idx);
ioch = ioch_array[ioch_idx] = spdk_get_io_channel(dev);
SPDK_CU_ASSERT_FATAL(ioch != NULL);
poll_threads();
ftl_ioch = ftl_io_channel_get_ctx(ioch);
CU_ASSERT_EQUAL(ftl_ioch->index, ioch_idx);
}
CU_ASSERT_EQUAL(dev->num_io_channels, dev->conf.max_io_channels);
set_thread(dev->conf.max_io_channels);
ioch = spdk_get_io_channel(dev);
CU_ASSERT_EQUAL(dev->num_io_channels, dev->conf.max_io_channels);
CU_ASSERT_EQUAL(ioch, NULL);
for (ioch_idx = 0; ioch_idx < dev->conf.max_io_channels; ioch_idx += 2) {
set_thread(ioch_idx);
spdk_put_io_channel(ioch_array[ioch_idx]);
ioch_array[ioch_idx] = NULL;
poll_threads();
}
poll_threads();
CU_ASSERT_EQUAL(dev->num_io_channels, dev->conf.max_io_channels / 2);
for (ioch_idx = 0; ioch_idx < dev->conf.max_io_channels; ioch_idx++) {
set_thread(ioch_idx);
if (ioch_array[ioch_idx] == NULL) {
ioch = ioch_array[ioch_idx] = spdk_get_io_channel(dev);
SPDK_CU_ASSERT_FATAL(ioch != NULL);
poll_threads();
ftl_ioch = ftl_io_channel_get_ctx(ioch);
CU_ASSERT_EQUAL(ftl_ioch->index, ioch_idx);
}
}
for (ioch_idx = 0; ioch_idx < dev->conf.max_io_channels; ioch_idx++) {
set_thread(ioch_idx);
spdk_put_io_channel(ioch_array[ioch_idx]);
}
poll_threads();
CU_ASSERT_EQUAL(dev->num_io_channels, 0);
free(ioch_array);
free_device(dev);
}
static void
test_acquire_entry(void)
{
struct spdk_ftl_dev *dev;
struct spdk_io_channel *ioch, **ioch_array;
struct ftl_io_channel *ftl_ioch;
struct ftl_wbuf_entry *entry, **entries;
uint32_t num_entries, num_io_channels = 2;
uint32_t ioch_idx, entry_idx, tmp_idx;
dev = setup_device(num_io_channels, 16);
num_entries = dev->conf.write_buffer_size / FTL_BLOCK_SIZE;
entries = calloc(num_entries * num_io_channels, sizeof(*entries));
SPDK_CU_ASSERT_FATAL(entries != NULL);
ioch_array = calloc(num_io_channels, sizeof(*ioch_array));
SPDK_CU_ASSERT_FATAL(ioch_array != NULL);
/* Acquire whole buffer of internal entries */
entry_idx = 0;
for (ioch_idx = 0; ioch_idx < num_io_channels; ++ioch_idx) {
set_thread(ioch_idx);
ioch_array[ioch_idx] = spdk_get_io_channel(dev);
SPDK_CU_ASSERT_FATAL(ioch_array[ioch_idx] != NULL);
ftl_ioch = ftl_io_channel_get_ctx(ioch_array[ioch_idx]);
poll_threads();
for (tmp_idx = 0; tmp_idx < num_entries; ++tmp_idx) {
entries[entry_idx++] = ftl_acquire_wbuf_entry(ftl_ioch, FTL_IO_INTERNAL);
CU_ASSERT(entries[entry_idx - 1] != NULL);
}
entry = ftl_acquire_wbuf_entry(ftl_ioch, FTL_IO_INTERNAL);
CU_ASSERT(entry == NULL);
}
for (ioch_idx = 0; ioch_idx < num_io_channels; ++ioch_idx) {
set_thread(ioch_idx);
for (tmp_idx = 0; tmp_idx < num_entries; ++tmp_idx) {
ftl_release_wbuf_entry(entries[ioch_idx * num_entries + tmp_idx]);
entries[ioch_idx * num_entries + tmp_idx] = NULL;
}
spdk_put_io_channel(ioch_array[ioch_idx]);
}
poll_threads();
/* Do the same for user entries */
entry_idx = 0;
for (ioch_idx = 0; ioch_idx < num_io_channels; ++ioch_idx) {
set_thread(ioch_idx);
ioch_array[ioch_idx] = spdk_get_io_channel(dev);
SPDK_CU_ASSERT_FATAL(ioch_array[ioch_idx] != NULL);
ftl_ioch = ftl_io_channel_get_ctx(ioch_array[ioch_idx]);
poll_threads();
for (tmp_idx = 0; tmp_idx < num_entries; ++tmp_idx) {
entries[entry_idx++] = ftl_acquire_wbuf_entry(ftl_ioch, 0);
CU_ASSERT(entries[entry_idx - 1] != NULL);
}
entry = ftl_acquire_wbuf_entry(ftl_ioch, 0);
CU_ASSERT(entry == NULL);
}
for (ioch_idx = 0; ioch_idx < num_io_channels; ++ioch_idx) {
set_thread(ioch_idx);
for (tmp_idx = 0; tmp_idx < num_entries; ++tmp_idx) {
ftl_release_wbuf_entry(entries[ioch_idx * num_entries + tmp_idx]);
entries[ioch_idx * num_entries + tmp_idx] = NULL;
}
spdk_put_io_channel(ioch_array[ioch_idx]);
}
poll_threads();
/* Verify limits */
entry_idx = 0;
for (ioch_idx = 0; ioch_idx < num_io_channels; ++ioch_idx) {
set_thread(ioch_idx);
ioch_array[ioch_idx] = spdk_get_io_channel(dev);
SPDK_CU_ASSERT_FATAL(ioch_array[ioch_idx] != NULL);
ftl_ioch = ftl_io_channel_get_ctx(ioch_array[ioch_idx]);
poll_threads();
ftl_ioch->qdepth_limit = num_entries / 2;
for (tmp_idx = 0; tmp_idx < num_entries / 2; ++tmp_idx) {
entries[entry_idx++] = ftl_acquire_wbuf_entry(ftl_ioch, 0);
CU_ASSERT(entries[entry_idx - 1] != NULL);
}
entry = ftl_acquire_wbuf_entry(ftl_ioch, 0);
CU_ASSERT(entry == NULL);
for (; tmp_idx < num_entries; ++tmp_idx) {
entries[entry_idx++] = ftl_acquire_wbuf_entry(ftl_ioch, FTL_IO_INTERNAL);
CU_ASSERT(entries[entry_idx - 1] != NULL);
}
}
for (ioch_idx = 0; ioch_idx < num_io_channels; ++ioch_idx) {
set_thread(ioch_idx);
for (tmp_idx = 0; tmp_idx < num_entries; ++tmp_idx) {
ftl_release_wbuf_entry(entries[ioch_idx * num_entries + tmp_idx]);
entries[ioch_idx * num_entries + tmp_idx] = NULL;
}
spdk_put_io_channel(ioch_array[ioch_idx]);
}
poll_threads();
/* Verify acquire/release */
set_thread(0);
ioch = spdk_get_io_channel(dev);
SPDK_CU_ASSERT_FATAL(ioch != NULL);
ftl_ioch = ftl_io_channel_get_ctx(ioch);
poll_threads();
for (entry_idx = 0; entry_idx < num_entries; ++entry_idx) {
entries[entry_idx] = ftl_acquire_wbuf_entry(ftl_ioch, 0);
CU_ASSERT(entries[entry_idx] != NULL);
}
entry = ftl_acquire_wbuf_entry(ftl_ioch, 0);
CU_ASSERT(entry == NULL);
for (entry_idx = 0; entry_idx < num_entries / 2; ++entry_idx) {
ftl_release_wbuf_entry(entries[entry_idx]);
entries[entry_idx] = NULL;
}
for (; entry_idx < num_entries; ++entry_idx) {
entries[entry_idx - num_entries / 2] = ftl_acquire_wbuf_entry(ftl_ioch, 0);
CU_ASSERT(entries[entry_idx - num_entries / 2] != NULL);
}
for (entry_idx = 0; entry_idx < num_entries; ++entry_idx) {
ftl_release_wbuf_entry(entries[entry_idx]);
entries[entry_idx] = NULL;
}
spdk_put_io_channel(ioch);
poll_threads();
free(ioch_array);
free(entries);
free_device(dev);
}
static void
test_submit_batch(void)
{
struct spdk_ftl_dev *dev;
struct spdk_io_channel **_ioch_array;
struct ftl_io_channel **ioch_array;
struct ftl_wbuf_entry *entry;
struct ftl_batch *batch, *batch2;
uint32_t num_io_channels = 16;
uint32_t ioch_idx, tmp_idx, entry_idx;
uint64_t ioch_bitmap;
size_t num_entries;
dev = setup_device(num_io_channels, num_io_channels);
_ioch_array = calloc(num_io_channels, sizeof(*_ioch_array));
SPDK_CU_ASSERT_FATAL(_ioch_array != NULL);
ioch_array = calloc(num_io_channels, sizeof(*ioch_array));
SPDK_CU_ASSERT_FATAL(ioch_array != NULL);
for (ioch_idx = 0; ioch_idx < num_io_channels; ++ioch_idx) {
set_thread(ioch_idx);
_ioch_array[ioch_idx] = spdk_get_io_channel(dev);
SPDK_CU_ASSERT_FATAL(_ioch_array[ioch_idx] != NULL);
ioch_array[ioch_idx] = ftl_io_channel_get_ctx(_ioch_array[ioch_idx]);
poll_threads();
}
/* Make sure the IO channels are not starved and entries are popped in RR fashion */
for (ioch_idx = 0; ioch_idx < num_io_channels; ++ioch_idx) {
set_thread(ioch_idx);
for (entry_idx = 0; entry_idx < dev->xfer_size; ++entry_idx) {
entry = ftl_acquire_wbuf_entry(ioch_array[ioch_idx], 0);
SPDK_CU_ASSERT_FATAL(entry != NULL);
num_entries = spdk_ring_enqueue(ioch_array[ioch_idx]->submit_queue,
(void **)&entry, 1, NULL);
CU_ASSERT(num_entries == 1);
}
}
for (ioch_idx = 0; ioch_idx < num_io_channels; ++ioch_idx) {
for (tmp_idx = 0; tmp_idx < ioch_idx; ++tmp_idx) {
set_thread(tmp_idx);
while (spdk_ring_count(ioch_array[tmp_idx]->submit_queue) < dev->xfer_size) {
entry = ftl_acquire_wbuf_entry(ioch_array[tmp_idx], 0);
SPDK_CU_ASSERT_FATAL(entry != NULL);
num_entries = spdk_ring_enqueue(ioch_array[tmp_idx]->submit_queue,
(void **)&entry, 1, NULL);
CU_ASSERT(num_entries == 1);
}
}
set_thread(ioch_idx);
batch = ftl_get_next_batch(dev);
SPDK_CU_ASSERT_FATAL(batch != NULL);
TAILQ_FOREACH(entry, &batch->entries, tailq) {
CU_ASSERT(entry->ioch == ioch_array[ioch_idx]);
}
ftl_release_batch(dev, batch);
CU_ASSERT(spdk_ring_count(ioch_array[ioch_idx]->free_queue) ==
ioch_array[ioch_idx]->num_entries);
}
for (ioch_idx = 0; ioch_idx < num_io_channels - 1; ++ioch_idx) {
batch = ftl_get_next_batch(dev);
SPDK_CU_ASSERT_FATAL(batch != NULL);
ftl_release_batch(dev, batch);
}
/* Make sure the batch can be built from entries from any IO channel */
for (ioch_idx = 0; ioch_idx < num_io_channels; ++ioch_idx) {
set_thread(ioch_idx);
entry = ftl_acquire_wbuf_entry(ioch_array[ioch_idx], 0);
SPDK_CU_ASSERT_FATAL(entry != NULL);
num_entries = spdk_ring_enqueue(ioch_array[ioch_idx]->submit_queue,
(void **)&entry, 1, NULL);
CU_ASSERT(num_entries == 1);
}
batch = ftl_get_next_batch(dev);
SPDK_CU_ASSERT_FATAL(batch != NULL);
ioch_bitmap = 0;
TAILQ_FOREACH(entry, &batch->entries, tailq) {
ioch_bitmap |= 1 << entry->ioch->index;
}
for (ioch_idx = 0; ioch_idx < num_io_channels; ++ioch_idx) {
CU_ASSERT((ioch_bitmap & (1 << ioch_array[ioch_idx]->index)) != 0);
}
ftl_release_batch(dev, batch);
for (ioch_idx = 0; ioch_idx < num_io_channels; ++ioch_idx) {
CU_ASSERT(spdk_ring_count(ioch_array[ioch_idx]->free_queue) ==
ioch_array[ioch_idx]->num_entries);
}
/* Make sure pending batches are prioritized */
for (ioch_idx = 0; ioch_idx < num_io_channels; ++ioch_idx) {
set_thread(ioch_idx);
while (spdk_ring_count(ioch_array[ioch_idx]->submit_queue) < dev->xfer_size) {
entry = ftl_acquire_wbuf_entry(ioch_array[ioch_idx], 0);
SPDK_CU_ASSERT_FATAL(entry != NULL);
num_entries = spdk_ring_enqueue(ioch_array[ioch_idx]->submit_queue,
(void **)&entry, 1, NULL);
CU_ASSERT(num_entries == 1);
}
}
batch = ftl_get_next_batch(dev);
SPDK_CU_ASSERT_FATAL(batch != NULL);
TAILQ_INSERT_TAIL(&dev->pending_batches, batch, tailq);
batch2 = ftl_get_next_batch(dev);
SPDK_CU_ASSERT_FATAL(batch2 != NULL);
CU_ASSERT(TAILQ_EMPTY(&dev->pending_batches));
CU_ASSERT(batch == batch2);
batch = ftl_get_next_batch(dev);
SPDK_CU_ASSERT_FATAL(batch != NULL);
ftl_release_batch(dev, batch);
ftl_release_batch(dev, batch2);
for (ioch_idx = 2; ioch_idx < num_io_channels; ++ioch_idx) {
batch = ftl_get_next_batch(dev);
SPDK_CU_ASSERT_FATAL(batch != NULL);
ftl_release_batch(dev, batch);
}
for (ioch_idx = 0; ioch_idx < num_io_channels; ++ioch_idx) {
set_thread(ioch_idx);
spdk_put_io_channel(_ioch_array[ioch_idx]);
}
poll_threads();
free(_ioch_array);
free(ioch_array);
free_device(dev);
}
static void
test_entry_address(void)
{
struct spdk_ftl_dev *dev;
struct spdk_io_channel **ioch_array;
struct ftl_io_channel *ftl_ioch;
struct ftl_wbuf_entry **entry_array;
struct ftl_addr addr;
uint32_t num_entries, num_io_channels = 7;
uint32_t ioch_idx, entry_idx;
dev = setup_device(num_io_channels, num_io_channels);
ioch_array = calloc(num_io_channels, sizeof(*ioch_array));
SPDK_CU_ASSERT_FATAL(ioch_array != NULL);
num_entries = dev->conf.write_buffer_size / FTL_BLOCK_SIZE;
entry_array = calloc(num_entries, sizeof(*entry_array));
SPDK_CU_ASSERT_FATAL(entry_array != NULL);
for (ioch_idx = 0; ioch_idx < num_io_channels; ++ioch_idx) {
set_thread(ioch_idx);
ioch_array[ioch_idx] = spdk_get_io_channel(dev);
SPDK_CU_ASSERT_FATAL(ioch_array[ioch_idx] != NULL);
poll_threads();
}
for (ioch_idx = 0; ioch_idx < num_io_channels; ++ioch_idx) {
set_thread(ioch_idx);
ftl_ioch = ftl_io_channel_get_ctx(ioch_array[ioch_idx]);
for (entry_idx = 0; entry_idx < num_entries; ++entry_idx) {
entry_array[entry_idx] = ftl_acquire_wbuf_entry(ftl_ioch, 0);
SPDK_CU_ASSERT_FATAL(entry_array[entry_idx] != NULL);
addr = ftl_get_addr_from_entry(entry_array[entry_idx]);
CU_ASSERT(addr.cached == 1);
CU_ASSERT((addr.cache_offset >> dev->ioch_shift) == entry_idx);
CU_ASSERT((addr.cache_offset & ((1 << dev->ioch_shift) - 1)) == ioch_idx);
CU_ASSERT(entry_array[entry_idx] == ftl_get_entry_from_addr(dev, addr));
}
for (entry_idx = 0; entry_idx < num_entries; ++entry_idx) {
ftl_release_wbuf_entry(entry_array[entry_idx]);
}
}
for (ioch_idx = 0; ioch_idx < num_io_channels; ioch_idx += 2) {
set_thread(ioch_idx);
spdk_put_io_channel(ioch_array[ioch_idx]);
ioch_array[ioch_idx] = NULL;
}
poll_threads();
for (ioch_idx = 1; ioch_idx < num_io_channels; ioch_idx += 2) {
set_thread(ioch_idx);
ftl_ioch = ftl_io_channel_get_ctx(ioch_array[ioch_idx]);
for (entry_idx = 0; entry_idx < num_entries; ++entry_idx) {
entry_array[entry_idx] = ftl_acquire_wbuf_entry(ftl_ioch, 0);
SPDK_CU_ASSERT_FATAL(entry_array[entry_idx] != NULL);
addr = ftl_get_addr_from_entry(entry_array[entry_idx]);
CU_ASSERT(addr.cached == 1);
CU_ASSERT(entry_array[entry_idx] == ftl_get_entry_from_addr(dev, addr));
}
for (entry_idx = 0; entry_idx < num_entries; ++entry_idx) {
ftl_release_wbuf_entry(entry_array[entry_idx]);
}
}
for (ioch_idx = 1; ioch_idx < num_io_channels; ioch_idx += 2) {
set_thread(ioch_idx);
spdk_put_io_channel(ioch_array[ioch_idx]);
}
poll_threads();
free(entry_array);
free(ioch_array);
free_device(dev);
}
int
main(int argc, char **argv)
{
CU_pSuite suite;
unsigned int num_failures;
CU_set_error_action(CUEA_ABORT);
CU_initialize_registry();
suite = CU_add_suite("ftl_io_suite", NULL, NULL);
CU_ADD_TEST(suite, test_completion);
CU_ADD_TEST(suite, test_alloc_free);
CU_ADD_TEST(suite, test_child_requests);
CU_ADD_TEST(suite, test_child_status);
CU_ADD_TEST(suite, test_multi_generation);
CU_ADD_TEST(suite, test_io_channel_create);
CU_ADD_TEST(suite, test_acquire_entry);
CU_ADD_TEST(suite, test_submit_batch);
CU_ADD_TEST(suite, test_entry_address);
CU_basic_set_mode(CU_BRM_VERBOSE);
CU_basic_run_tests();
num_failures = CU_get_number_of_failures();
CU_cleanup_registry();
return num_failures;
}
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