/*- * 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_cunit.h" #include "common/lib/test_env.c" #include "unit/lib/json_mock.c" /* HACK: disable VTune integration so the unit test doesn't need VTune headers and libs to build */ #undef SPDK_CONFIG_VTUNE #include "bdev/bdev.c" DEFINE_STUB(spdk_conf_find_section, struct spdk_conf_section *, (struct spdk_conf *cp, const char *name), NULL); DEFINE_STUB(spdk_conf_section_get_nmval, char *, (struct spdk_conf_section *sp, const char *key, int idx1, int idx2), NULL); DEFINE_STUB(spdk_conf_section_get_intval, int, (struct spdk_conf_section *sp, const char *key), -1); static void _bdev_send_msg(spdk_thread_fn fn, void *ctx, void *thread_ctx) { fn(ctx); } void spdk_scsi_nvme_translate(const struct spdk_bdev_io *bdev_io, int *sc, int *sk, int *asc, int *ascq) { } static int null_init(void) { return 0; } static int null_clean(void) { return 0; } static int stub_destruct(void *ctx) { return 0; } struct bdev_ut_channel { TAILQ_HEAD(, spdk_bdev_io) outstanding_io; uint32_t outstanding_io_count; }; static uint32_t g_bdev_ut_io_device; static struct bdev_ut_channel *g_bdev_ut_channel; static void stub_submit_request(struct spdk_io_channel *_ch, struct spdk_bdev_io *bdev_io) { struct bdev_ut_channel *ch = spdk_io_channel_get_ctx(_ch); TAILQ_INSERT_TAIL(&ch->outstanding_io, bdev_io, module_link); ch->outstanding_io_count++; } static uint32_t stub_complete_io(uint32_t num_to_complete) { struct bdev_ut_channel *ch = g_bdev_ut_channel; struct spdk_bdev_io *bdev_io; uint32_t num_completed = 0; while (num_completed < num_to_complete) { if (TAILQ_EMPTY(&ch->outstanding_io)) { break; } bdev_io = TAILQ_FIRST(&ch->outstanding_io); TAILQ_REMOVE(&ch->outstanding_io, bdev_io, module_link); ch->outstanding_io_count--; spdk_bdev_io_complete(bdev_io, SPDK_BDEV_IO_STATUS_SUCCESS); num_completed++; } return num_completed; } static struct spdk_io_channel * bdev_ut_get_io_channel(void *ctx) { return spdk_get_io_channel(&g_bdev_ut_io_device); } static struct spdk_bdev_fn_table fn_table = { .destruct = stub_destruct, .submit_request = stub_submit_request, .get_io_channel = bdev_ut_get_io_channel, }; static int bdev_ut_create_ch(void *io_device, void *ctx_buf) { struct bdev_ut_channel *ch = ctx_buf; CU_ASSERT(g_bdev_ut_channel == NULL); g_bdev_ut_channel = ch; TAILQ_INIT(&ch->outstanding_io); ch->outstanding_io_count = 0; return 0; } static void bdev_ut_destroy_ch(void *io_device, void *ctx_buf) { CU_ASSERT(g_bdev_ut_channel != NULL); g_bdev_ut_channel = NULL; } static int bdev_ut_module_init(void) { spdk_io_device_register(&g_bdev_ut_io_device, bdev_ut_create_ch, bdev_ut_destroy_ch, sizeof(struct bdev_ut_channel)); return 0; } static void bdev_ut_module_fini(void) { } struct spdk_bdev_module bdev_ut_if = { .name = "bdev_ut", .module_init = bdev_ut_module_init, .module_fini = bdev_ut_module_fini, }; static void vbdev_ut_examine(struct spdk_bdev *bdev); static int vbdev_ut_module_init(void) { return 0; } static void vbdev_ut_module_fini(void) { } struct spdk_bdev_module vbdev_ut_if = { .name = "vbdev_ut", .examine = vbdev_ut_examine, .module_init = vbdev_ut_module_init, .module_fini = vbdev_ut_module_fini, }; SPDK_BDEV_MODULE_REGISTER(&bdev_ut_if) SPDK_BDEV_MODULE_REGISTER(&vbdev_ut_if) static void vbdev_ut_examine(struct spdk_bdev *bdev) { spdk_bdev_module_examine_done(&vbdev_ut_if); } static bool is_vbdev(struct spdk_bdev *base, struct spdk_bdev *vbdev) { size_t i; int found = 0; for (i = 0; i < base->vbdevs_cnt; i++) { found += base->vbdevs[i] == vbdev; } CU_ASSERT(found <= 1); return !!found; } static bool is_base_bdev(struct spdk_bdev *base, struct spdk_bdev *vbdev) { size_t i; int found = 0; for (i = 0; i < vbdev->internal.base_bdevs_cnt; i++) { found += vbdev->internal.base_bdevs[i] == base; } CU_ASSERT(found <= 1); return !!found; } static bool check_base_and_vbdev(struct spdk_bdev *base, struct spdk_bdev *vbdev) { bool _is_vbdev = is_vbdev(base, vbdev); bool _is_base = is_base_bdev(base, vbdev); CU_ASSERT(_is_vbdev == _is_base); return _is_base && _is_vbdev; } static struct spdk_bdev * allocate_bdev(char *name) { struct spdk_bdev *bdev; int rc; bdev = calloc(1, sizeof(*bdev)); SPDK_CU_ASSERT_FATAL(bdev != NULL); bdev->name = name; bdev->fn_table = &fn_table; bdev->module = &bdev_ut_if; bdev->blockcnt = 1; rc = spdk_bdev_register(bdev); CU_ASSERT(rc == 0); CU_ASSERT(bdev->internal.base_bdevs_cnt == 0); CU_ASSERT(bdev->vbdevs_cnt == 0); return bdev; } static struct spdk_bdev * allocate_vbdev(char *name, struct spdk_bdev *base1, struct spdk_bdev *base2) { struct spdk_bdev *bdev; struct spdk_bdev *array[2]; int rc; bdev = calloc(1, sizeof(*bdev)); SPDK_CU_ASSERT_FATAL(bdev != NULL); bdev->name = name; bdev->fn_table = &fn_table; bdev->module = &vbdev_ut_if; /* vbdev must have at least one base bdev */ CU_ASSERT(base1 != NULL); array[0] = base1; array[1] = base2; rc = spdk_vbdev_register(bdev, array, base2 == NULL ? 1 : 2); CU_ASSERT(rc == 0); CU_ASSERT(bdev->internal.base_bdevs_cnt > 0); CU_ASSERT(bdev->vbdevs_cnt == 0); CU_ASSERT(check_base_and_vbdev(base1, bdev) == true); if (base2) { CU_ASSERT(check_base_and_vbdev(base2, bdev) == true); } return bdev; } static void free_bdev(struct spdk_bdev *bdev) { spdk_bdev_unregister(bdev, NULL, NULL); memset(bdev, 0xFF, sizeof(*bdev)); free(bdev); } static void free_vbdev(struct spdk_bdev *bdev) { CU_ASSERT(bdev->internal.base_bdevs_cnt != 0); spdk_bdev_unregister(bdev, NULL, NULL); memset(bdev, 0xFF, sizeof(*bdev)); free(bdev); } static void get_device_stat_cb(struct spdk_bdev *bdev, struct spdk_bdev_io_stat *stat, void *cb_arg, int rc) { const char *bdev_name; CU_ASSERT(bdev != NULL); CU_ASSERT(rc == 0); bdev_name = spdk_bdev_get_name(bdev); CU_ASSERT_STRING_EQUAL(bdev_name, "bdev0"); free(stat); free_bdev(bdev); } static void get_device_stat_test(void) { struct spdk_bdev *bdev; struct spdk_bdev_io_stat *stat; bdev = allocate_bdev("bdev0"); stat = calloc(1, sizeof(struct spdk_bdev_io_stat)); if (stat == NULL) { free_bdev(bdev); return; } spdk_bdev_get_device_stat(bdev, stat, get_device_stat_cb, NULL); } static void open_write_test(void) { struct spdk_bdev *bdev[9]; struct spdk_bdev_desc *desc[9] = {}; int rc; /* * Create a tree of bdevs to test various open w/ write cases. * * bdev0 through bdev3 are physical block devices, such as NVMe * namespaces or Ceph block devices. * * bdev4 is a virtual bdev with multiple base bdevs. This models * caching or RAID use cases. * * bdev5 through bdev7 are all virtual bdevs with the same base * bdev (except bdev7). This models partitioning or logical volume * use cases. * * bdev7 is a virtual bdev with multiple base bdevs. One of base bdevs * (bdev2) is shared with other virtual bdevs: bdev5 and bdev6. This * models caching, RAID, partitioning or logical volumes use cases. * * bdev8 is a virtual bdev with multiple base bdevs, but these * base bdevs are themselves virtual bdevs. * * bdev8 * | * +----------+ * | | * bdev4 bdev5 bdev6 bdev7 * | | | | * +---+---+ +---+ + +---+---+ * | | \ | / \ * bdev0 bdev1 bdev2 bdev3 */ bdev[0] = allocate_bdev("bdev0"); rc = spdk_bdev_module_claim_bdev(bdev[0], NULL, &bdev_ut_if); CU_ASSERT(rc == 0); bdev[1] = allocate_bdev("bdev1"); rc = spdk_bdev_module_claim_bdev(bdev[1], NULL, &bdev_ut_if); CU_ASSERT(rc == 0); bdev[2] = allocate_bdev("bdev2"); rc = spdk_bdev_module_claim_bdev(bdev[2], NULL, &bdev_ut_if); CU_ASSERT(rc == 0); bdev[3] = allocate_bdev("bdev3"); rc = spdk_bdev_module_claim_bdev(bdev[3], NULL, &bdev_ut_if); CU_ASSERT(rc == 0); bdev[4] = allocate_vbdev("bdev4", bdev[0], bdev[1]); rc = spdk_bdev_module_claim_bdev(bdev[4], NULL, &bdev_ut_if); CU_ASSERT(rc == 0); bdev[5] = allocate_vbdev("bdev5", bdev[2], NULL); rc = spdk_bdev_module_claim_bdev(bdev[5], NULL, &bdev_ut_if); CU_ASSERT(rc == 0); bdev[6] = allocate_vbdev("bdev6", bdev[2], NULL); bdev[7] = allocate_vbdev("bdev7", bdev[2], bdev[3]); bdev[8] = allocate_vbdev("bdev8", bdev[4], bdev[5]); /* Check tree */ CU_ASSERT(check_base_and_vbdev(bdev[0], bdev[4]) == true); CU_ASSERT(check_base_and_vbdev(bdev[0], bdev[5]) == false); CU_ASSERT(check_base_and_vbdev(bdev[0], bdev[6]) == false); CU_ASSERT(check_base_and_vbdev(bdev[0], bdev[7]) == false); CU_ASSERT(check_base_and_vbdev(bdev[0], bdev[8]) == false); CU_ASSERT(check_base_and_vbdev(bdev[1], bdev[4]) == true); CU_ASSERT(check_base_and_vbdev(bdev[1], bdev[5]) == false); CU_ASSERT(check_base_and_vbdev(bdev[1], bdev[6]) == false); CU_ASSERT(check_base_and_vbdev(bdev[1], bdev[7]) == false); CU_ASSERT(check_base_and_vbdev(bdev[1], bdev[8]) == false); CU_ASSERT(check_base_and_vbdev(bdev[2], bdev[4]) == false); CU_ASSERT(check_base_and_vbdev(bdev[2], bdev[5]) == true); CU_ASSERT(check_base_and_vbdev(bdev[2], bdev[6]) == true); CU_ASSERT(check_base_and_vbdev(bdev[2], bdev[7]) == true); CU_ASSERT(check_base_and_vbdev(bdev[2], bdev[8]) == false); CU_ASSERT(check_base_and_vbdev(bdev[3], bdev[4]) == false); CU_ASSERT(check_base_and_vbdev(bdev[3], bdev[5]) == false); CU_ASSERT(check_base_and_vbdev(bdev[3], bdev[6]) == false); CU_ASSERT(check_base_and_vbdev(bdev[3], bdev[7]) == true); CU_ASSERT(check_base_and_vbdev(bdev[3], bdev[8]) == false); /* Open bdev0 read-only. This should succeed. */ rc = spdk_bdev_open(bdev[0], false, NULL, NULL, &desc[0]); CU_ASSERT(rc == 0); SPDK_CU_ASSERT_FATAL(desc[0] != NULL); spdk_bdev_close(desc[0]); /* * Open bdev1 read/write. This should fail since bdev1 has been claimed * by a vbdev module. */ rc = spdk_bdev_open(bdev[1], true, NULL, NULL, &desc[1]); CU_ASSERT(rc == -EPERM); /* * Open bdev4 read/write. This should fail since bdev3 has been claimed * by a vbdev module. */ rc = spdk_bdev_open(bdev[4], true, NULL, NULL, &desc[4]); CU_ASSERT(rc == -EPERM); /* Open bdev4 read-only. This should succeed. */ rc = spdk_bdev_open(bdev[4], false, NULL, NULL, &desc[4]); CU_ASSERT(rc == 0); SPDK_CU_ASSERT_FATAL(desc[4] != NULL); spdk_bdev_close(desc[4]); /* * Open bdev8 read/write. This should succeed since it is a leaf * bdev. */ rc = spdk_bdev_open(bdev[8], true, NULL, NULL, &desc[8]); CU_ASSERT(rc == 0); SPDK_CU_ASSERT_FATAL(desc[8] != NULL); spdk_bdev_close(desc[8]); /* * Open bdev5 read/write. This should fail since bdev4 has been claimed * by a vbdev module. */ rc = spdk_bdev_open(bdev[5], true, NULL, NULL, &desc[5]); CU_ASSERT(rc == -EPERM); /* Open bdev4 read-only. This should succeed. */ rc = spdk_bdev_open(bdev[5], false, NULL, NULL, &desc[5]); CU_ASSERT(rc == 0); SPDK_CU_ASSERT_FATAL(desc[5] != NULL); spdk_bdev_close(desc[5]); free_vbdev(bdev[8]); free_vbdev(bdev[5]); free_vbdev(bdev[6]); free_vbdev(bdev[7]); free_vbdev(bdev[4]); free_bdev(bdev[0]); free_bdev(bdev[1]); free_bdev(bdev[2]); free_bdev(bdev[3]); } static void bytes_to_blocks_test(void) { struct spdk_bdev bdev; uint64_t offset_blocks, num_blocks; memset(&bdev, 0, sizeof(bdev)); bdev.blocklen = 512; /* All parameters valid */ offset_blocks = 0; num_blocks = 0; CU_ASSERT(spdk_bdev_bytes_to_blocks(&bdev, 512, &offset_blocks, 1024, &num_blocks) == 0); CU_ASSERT(offset_blocks == 1); CU_ASSERT(num_blocks == 2); /* Offset not a block multiple */ CU_ASSERT(spdk_bdev_bytes_to_blocks(&bdev, 3, &offset_blocks, 512, &num_blocks) != 0); /* Length not a block multiple */ CU_ASSERT(spdk_bdev_bytes_to_blocks(&bdev, 512, &offset_blocks, 3, &num_blocks) != 0); } static void num_blocks_test(void) { struct spdk_bdev bdev; struct spdk_bdev_desc *desc = NULL; int rc; memset(&bdev, 0, sizeof(bdev)); bdev.name = "num_blocks"; bdev.fn_table = &fn_table; bdev.module = &bdev_ut_if; spdk_bdev_register(&bdev); spdk_bdev_notify_blockcnt_change(&bdev, 50); /* Growing block number */ CU_ASSERT(spdk_bdev_notify_blockcnt_change(&bdev, 70) == 0); /* Shrinking block number */ CU_ASSERT(spdk_bdev_notify_blockcnt_change(&bdev, 30) == 0); /* In case bdev opened */ rc = spdk_bdev_open(&bdev, false, NULL, NULL, &desc); CU_ASSERT(rc == 0); SPDK_CU_ASSERT_FATAL(desc != NULL); /* Growing block number */ CU_ASSERT(spdk_bdev_notify_blockcnt_change(&bdev, 80) == 0); /* Shrinking block number */ CU_ASSERT(spdk_bdev_notify_blockcnt_change(&bdev, 20) != 0); spdk_bdev_close(desc); spdk_bdev_unregister(&bdev, NULL, NULL); } static void io_valid_test(void) { struct spdk_bdev bdev; memset(&bdev, 0, sizeof(bdev)); bdev.blocklen = 512; spdk_bdev_notify_blockcnt_change(&bdev, 100); /* All parameters valid */ CU_ASSERT(spdk_bdev_io_valid_blocks(&bdev, 1, 2) == true); /* Last valid block */ CU_ASSERT(spdk_bdev_io_valid_blocks(&bdev, 99, 1) == true); /* Offset past end of bdev */ CU_ASSERT(spdk_bdev_io_valid_blocks(&bdev, 100, 1) == false); /* Offset + length past end of bdev */ CU_ASSERT(spdk_bdev_io_valid_blocks(&bdev, 99, 2) == false); /* Offset near end of uint64_t range (2^64 - 1) */ CU_ASSERT(spdk_bdev_io_valid_blocks(&bdev, 18446744073709551615ULL, 1) == false); } static void alias_add_del_test(void) { struct spdk_bdev *bdev[2]; int rc; /* Creating and registering bdevs */ bdev[0] = allocate_bdev("bdev0"); SPDK_CU_ASSERT_FATAL(bdev[0] != 0); bdev[1] = allocate_bdev("bdev1"); SPDK_CU_ASSERT_FATAL(bdev[1] != 0); /* * Trying adding an alias identical to name. * Alias is identical to name, so it can not be added to aliases list */ rc = spdk_bdev_alias_add(bdev[0], bdev[0]->name); CU_ASSERT(rc == -EEXIST); /* * Trying to add empty alias, * this one should fail */ rc = spdk_bdev_alias_add(bdev[0], NULL); CU_ASSERT(rc == -EINVAL); /* Trying adding same alias to two different registered bdevs */ /* Alias is used first time, so this one should pass */ rc = spdk_bdev_alias_add(bdev[0], "proper alias 0"); CU_ASSERT(rc == 0); /* Alias was added to another bdev, so this one should fail */ rc = spdk_bdev_alias_add(bdev[1], "proper alias 0"); CU_ASSERT(rc == -EEXIST); /* Alias is used first time, so this one should pass */ rc = spdk_bdev_alias_add(bdev[1], "proper alias 1"); CU_ASSERT(rc == 0); /* Trying removing an alias from registered bdevs */ /* Alias is not on a bdev aliases list, so this one should fail */ rc = spdk_bdev_alias_del(bdev[0], "not existing"); CU_ASSERT(rc == -ENOENT); /* Alias is present on a bdev aliases list, so this one should pass */ rc = spdk_bdev_alias_del(bdev[0], "proper alias 0"); CU_ASSERT(rc == 0); /* Alias is present on a bdev aliases list, so this one should pass */ rc = spdk_bdev_alias_del(bdev[1], "proper alias 1"); CU_ASSERT(rc == 0); /* Trying to remove name instead of alias, so this one should fail, name cannot be changed or removed */ rc = spdk_bdev_alias_del(bdev[0], bdev[0]->name); CU_ASSERT(rc != 0); /* Unregister and free bdevs */ spdk_bdev_unregister(bdev[0], NULL, NULL); spdk_bdev_unregister(bdev[1], NULL, NULL); free(bdev[0]); free(bdev[1]); } static void io_done(struct spdk_bdev_io *bdev_io, bool success, void *cb_arg) { spdk_bdev_free_io(bdev_io); } static void bdev_init_cb(void *arg, int rc) { CU_ASSERT(rc == 0); } struct bdev_ut_io_wait_entry { struct spdk_bdev_io_wait_entry entry; struct spdk_io_channel *io_ch; struct spdk_bdev_desc *desc; bool submitted; }; static void io_wait_cb(void *arg) { struct bdev_ut_io_wait_entry *entry = arg; int rc; rc = spdk_bdev_read_blocks(entry->desc, entry->io_ch, NULL, 0, 1, io_done, NULL); CU_ASSERT(rc == 0); entry->submitted = true; } static void bdev_io_wait_test(void) { struct spdk_bdev *bdev; struct spdk_bdev_desc *desc; struct spdk_io_channel *io_ch; struct spdk_bdev_opts bdev_opts = { .bdev_io_pool_size = 4, .bdev_io_cache_size = 2, }; struct bdev_ut_io_wait_entry io_wait_entry; struct bdev_ut_io_wait_entry io_wait_entry2; int rc; rc = spdk_bdev_set_opts(&bdev_opts); CU_ASSERT(rc == 0); spdk_bdev_initialize(bdev_init_cb, NULL); bdev = allocate_bdev("bdev0"); rc = spdk_bdev_open(bdev, true, NULL, NULL, &desc); CU_ASSERT(rc == 0); CU_ASSERT(desc != NULL); io_ch = spdk_bdev_get_io_channel(desc); CU_ASSERT(io_ch != NULL); rc = spdk_bdev_read_blocks(desc, io_ch, NULL, 0, 1, io_done, NULL); CU_ASSERT(rc == 0); rc = spdk_bdev_read_blocks(desc, io_ch, NULL, 0, 1, io_done, NULL); CU_ASSERT(rc == 0); rc = spdk_bdev_read_blocks(desc, io_ch, NULL, 0, 1, io_done, NULL); CU_ASSERT(rc == 0); rc = spdk_bdev_read_blocks(desc, io_ch, NULL, 0, 1, io_done, NULL); CU_ASSERT(rc == 0); CU_ASSERT(g_bdev_ut_channel->outstanding_io_count == 4); rc = spdk_bdev_read_blocks(desc, io_ch, NULL, 0, 1, io_done, NULL); CU_ASSERT(rc == -ENOMEM); io_wait_entry.entry.bdev = bdev; io_wait_entry.entry.cb_fn = io_wait_cb; io_wait_entry.entry.cb_arg = &io_wait_entry; io_wait_entry.io_ch = io_ch; io_wait_entry.desc = desc; io_wait_entry.submitted = false; /* Cannot use the same io_wait_entry for two different calls. */ memcpy(&io_wait_entry2, &io_wait_entry, sizeof(io_wait_entry)); io_wait_entry2.entry.cb_arg = &io_wait_entry2; /* Queue two I/O waits. */ rc = spdk_bdev_queue_io_wait(bdev, io_ch, &io_wait_entry.entry); CU_ASSERT(rc == 0); CU_ASSERT(io_wait_entry.submitted == false); rc = spdk_bdev_queue_io_wait(bdev, io_ch, &io_wait_entry2.entry); CU_ASSERT(rc == 0); CU_ASSERT(io_wait_entry2.submitted == false); stub_complete_io(1); CU_ASSERT(g_bdev_ut_channel->outstanding_io_count == 4); CU_ASSERT(io_wait_entry.submitted == true); CU_ASSERT(io_wait_entry2.submitted == false); stub_complete_io(1); CU_ASSERT(g_bdev_ut_channel->outstanding_io_count == 4); CU_ASSERT(io_wait_entry2.submitted == true); stub_complete_io(4); CU_ASSERT(g_bdev_ut_channel->outstanding_io_count == 0); spdk_put_io_channel(io_ch); spdk_bdev_close(desc); free_bdev(bdev); } 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("bdev", null_init, null_clean); if (suite == NULL) { CU_cleanup_registry(); return CU_get_error(); } if ( CU_add_test(suite, "bytes_to_blocks_test", bytes_to_blocks_test) == NULL || CU_add_test(suite, "num_blocks_test", num_blocks_test) == NULL || CU_add_test(suite, "io_valid", io_valid_test) == NULL || CU_add_test(suite, "open_write", open_write_test) == NULL || CU_add_test(suite, "alias_add_del", alias_add_del_test) == NULL || CU_add_test(suite, "get_device_stat", get_device_stat_test) == NULL || CU_add_test(suite, "bdev_io_wait", bdev_io_wait_test) == NULL ) { CU_cleanup_registry(); return CU_get_error(); } spdk_allocate_thread(_bdev_send_msg, NULL, NULL, 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(); return num_failures; }