Spdk/test/unit/lib/accel/accel.c/accel_engine_ut.c

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#include "spdk_cunit.h"
#include "spdk_internal/mock.h"
#include "common/lib/test_env.c"

#include "accel/accel_engine.c"

DEFINE_STUB(spdk_json_write_array_begin, int, (struct spdk_json_write_ctx *w), 0);
DEFINE_STUB(spdk_json_write_array_end, int, (struct spdk_json_write_ctx *w), 0);

static void
test_spdk_accel_hw_engine_register(void)
{
	struct spdk_accel_engine accel_engine;

	/* Run once with no engine assigned, assign it. */
	g_hw_accel_engine = NULL;
	spdk_accel_hw_engine_register(&accel_engine);
	CU_ASSERT(g_hw_accel_engine == &accel_engine);

	/* Run with one assigned, should not change. */
	spdk_accel_hw_engine_register(&accel_engine);
	CU_ASSERT(g_hw_accel_engine == &accel_engine);
}

static int
test_accel_sw_register(void)
{
	struct spdk_accel_engine accel_engine;

	/* Run once with no engine assigned, assign it. */
	g_sw_accel_engine = NULL;
	accel_sw_register(&accel_engine);
	CU_ASSERT(g_sw_accel_engine == &accel_engine);

	return 0;
}

static void
test_accel_sw_unregister(void)
{
	struct spdk_accel_engine accel_engine;

	/* Run once engine assigned, make sure it gets unassigned. */
	g_sw_accel_engine = &accel_engine;
	accel_sw_unregister();
	CU_ASSERT(g_sw_accel_engine == NULL);
}

static void
test_is_supported(void)
{
	struct spdk_accel_engine engine;

	engine.capabilities = ACCEL_COPY | ACCEL_DUALCAST | ACCEL_CRC32C;
	CU_ASSERT(_is_supported(&engine, ACCEL_COPY) == true);
	CU_ASSERT(_is_supported(&engine, ACCEL_FILL) == false);
	CU_ASSERT(_is_supported(&engine, ACCEL_DUALCAST) == true);
	CU_ASSERT(_is_supported(&engine, ACCEL_COMPARE) == false);
	CU_ASSERT(_is_supported(&engine, ACCEL_CRC32C) == true);
	CU_ASSERT(_is_supported(&engine, ACCEL_DIF) == false);
}

#define DUMMY_ARG 0xDEADBEEF
static bool g_dummy_cb_called = false;
static void
dummy_cb_fn(void *cb_arg, int status)
{
	CU_ASSERT(*(uint32_t *)cb_arg == DUMMY_ARG);
	CU_ASSERT(status == 0);
	g_dummy_cb_called = true;
}

static bool g_dummy_batch_cb_called = false;
static void
dummy_batch_cb_fn(void *cb_arg, int status)
{
	CU_ASSERT(*(uint32_t *)cb_arg == DUMMY_ARG);
	CU_ASSERT(status == 0);
	g_dummy_batch_cb_called = true;
}

static void
test_spdk_accel_task_complete(void)
{
	struct accel_io_channel accel_ch = {};
	struct spdk_accel_task accel_task = {};
	struct spdk_accel_task *expected_accel_task = NULL;
	struct spdk_accel_batch	batch = {};
	struct spdk_accel_batch	*expected_batch = NULL;
	uint32_t cb_arg = DUMMY_ARG;
	int status = 0;

	accel_task.accel_ch = &accel_ch;
	accel_task.cb_fn = dummy_cb_fn;
	accel_task.cb_arg = &cb_arg;
	TAILQ_INIT(&accel_ch.task_pool);

	/* W/o batch, confirm cb is called and task added to list. */
	spdk_accel_task_complete(&accel_task, status);
	CU_ASSERT(g_dummy_cb_called == true);
	expected_accel_task = TAILQ_FIRST(&accel_ch.task_pool);
	TAILQ_REMOVE(&accel_ch.task_pool, expected_accel_task, link);
	CU_ASSERT(expected_accel_task == &accel_task);

	TAILQ_INIT(&accel_ch.task_pool);
	TAILQ_INIT(&accel_ch.batches);
	TAILQ_INIT(&accel_ch.batch_pool);
	batch.count = 2;
	batch.cb_fn = dummy_batch_cb_fn;
	batch.cb_arg = &cb_arg;
	accel_task.batch = &batch;

	/* W/batch, confirm task cb is called and task added to list.
	 * but batch not completed yet. */
	spdk_accel_task_complete(&accel_task, status);
	CU_ASSERT(batch.count == 1);
	CU_ASSERT(false == g_dummy_batch_cb_called);

	expected_accel_task = TAILQ_FIRST(&accel_ch.task_pool);
	TAILQ_REMOVE(&accel_ch.task_pool, expected_accel_task, link);
	CU_ASSERT(expected_accel_task == &accel_task);
	CU_ASSERT(true == TAILQ_EMPTY(&accel_ch.batch_pool));
	CU_ASSERT(true == TAILQ_EMPTY(&accel_ch.batches));

	TAILQ_INIT(&accel_ch.task_pool);
	TAILQ_INSERT_TAIL(&accel_ch.batches, &batch, link);

	/* Call it again and the batch should complete and lists updated accordingly. */
	spdk_accel_task_complete(&accel_task, status);
	CU_ASSERT(batch.count == 0);
	CU_ASSERT(true == g_dummy_batch_cb_called);
	CU_ASSERT(true == TAILQ_EMPTY(&accel_ch.batches));

	expected_accel_task = TAILQ_FIRST(&accel_ch.task_pool);
	TAILQ_REMOVE(&accel_ch.task_pool, expected_accel_task, link);
	CU_ASSERT(expected_accel_task == &accel_task);

	expected_batch = TAILQ_FIRST(&accel_ch.batch_pool);
	TAILQ_REMOVE(&accel_ch.batch_pool, expected_batch, link);
	CU_ASSERT(expected_batch == &batch);
}

static void
test_spdk_accel_get_capabilities(void)
{
	struct spdk_io_channel *ch;
	struct accel_io_channel *accel_ch;
	struct spdk_accel_engine engine;
	uint64_t cap, expected_cap;

	ch = calloc(1, sizeof(struct spdk_io_channel) + sizeof(struct accel_io_channel));
	SPDK_CU_ASSERT_FATAL(ch != NULL);

	/* Setup a few capabilites and make sure they are reported as expected. */
	accel_ch = (struct accel_io_channel *)((char *)ch + sizeof(struct spdk_io_channel));
	accel_ch->engine = &engine;
	expected_cap = ACCEL_COPY | ACCEL_DUALCAST | ACCEL_CRC32C;
	accel_ch->engine->capabilities = expected_cap;

	cap = spdk_accel_get_capabilities(ch);
	CU_ASSERT(cap == expected_cap);

	free(ch);
}

int main(int argc, char **argv)
{
	CU_pSuite	suite = NULL;
	unsigned int	num_failures;

	CU_set_error_action(CUEA_ABORT);
	CU_initialize_registry();

	suite = CU_add_suite("accel", NULL, NULL);

	CU_ADD_TEST(suite, test_spdk_accel_hw_engine_register);
	CU_ADD_TEST(suite, test_accel_sw_register);
	CU_ADD_TEST(suite, test_accel_sw_unregister);
	CU_ADD_TEST(suite, test_is_supported);
	CU_ADD_TEST(suite, test_spdk_accel_task_complete);
	CU_ADD_TEST(suite, test_spdk_accel_get_capabilities);

	CU_basic_set_mode(CU_BRM_VERBOSE);
	CU_basic_run_tests();
	num_failures = CU_get_number_of_failures();
	CU_cleanup_registry();

	return num_failures;
}