New upstream version 18.02

[deb_dpdk.git] / drivers / raw / skeleton_rawdev / skeleton_rawdev_test.c

/* SPDX-License-Identifier: BSD-3-Clause
 * Copyright 2017 NXP
 */

#include <rte_common.h>
#include <rte_mbuf.h>
#include <rte_malloc.h>
#include <rte_memcpy.h>
#include <rte_dev.h>
#include <rte_rawdev.h>
#include <rte_bus_vdev.h>
#include <rte_test.h>

/* Using relative path as skeleton_rawdev is not part of exported headers */
#include "skeleton_rawdev.h"

#define TEST_DEV_ID   0
#define TEST_DEV_NAME "rawdev_skeleton"

#define SKELDEV_LOGS(level, fmt, args...) \
        rte_log(RTE_LOG_ ## level, skeleton_pmd_logtype, fmt "\n", \
                ##args)

#define SKELDEV_TEST_INFO(fmt, args...) \
        SKELDEV_LOGS(INFO, fmt, ## args)
#define SKELDEV_TEST_DEBUG(fmt, args...) \
        SKELDEV_LOGS(DEBUG, fmt, ## args)

#define SKELDEV_TEST_RUN(setup, teardown, test) \
        skeldev_test_run(setup, teardown, test, #test)

#define TEST_SUCCESS 0
#define TEST_FAILED  -1

static int total;
static int passed;
static int failed;
static int unsupported;

static int
testsuite_setup(void)
{
        uint8_t count;
        count = rte_rawdev_count();
        if (!count) {
                SKELDEV_TEST_INFO("\tNo existing rawdev; "
                                  "Creating 'skeldev_rawdev'");
                return rte_vdev_init(TEST_DEV_NAME, NULL);
        }

        return TEST_SUCCESS;
}

static void local_teardown(void);

static void
testsuite_teardown(void)
{
        local_teardown();
}

static void
local_teardown(void)
{
        rte_vdev_uninit(TEST_DEV_NAME);
}

static int
test_rawdev_count(void)
{
        uint8_t count;
        count = rte_rawdev_count();
        RTE_TEST_ASSERT(count > 0, "Invalid rawdev count %" PRIu8, count);
        return TEST_SUCCESS;
}

static int
test_rawdev_get_dev_id(void)
{
        int ret;
        ret = rte_rawdev_get_dev_id("invalid_rawdev_device");
        RTE_TEST_ASSERT_FAIL(ret, "Expected <0 for invalid dev name ret=%d",
                             ret);
        return TEST_SUCCESS;
}

static int
test_rawdev_socket_id(void)
{
        int socket_id;
        socket_id = rte_rawdev_socket_id(TEST_DEV_ID);
        RTE_TEST_ASSERT(socket_id != -EINVAL,
                        "Failed to get socket_id %d", socket_id);
        socket_id = rte_rawdev_socket_id(RTE_RAWDEV_MAX_DEVS);
        RTE_TEST_ASSERT(socket_id == -EINVAL,
                        "Expected -EINVAL %d", socket_id);

        return TEST_SUCCESS;
}

static int
test_rawdev_info_get(void)
{
        int ret;
        struct rte_rawdev_info rdev_info = {0};
        struct skeleton_rawdev_conf skel_conf = {0};

        ret = rte_rawdev_info_get(TEST_DEV_ID, NULL);
        RTE_TEST_ASSERT(ret == -EINVAL, "Expected -EINVAL, %d", ret);

        rdev_info.dev_private = &skel_conf;

        ret = rte_rawdev_info_get(TEST_DEV_ID, &rdev_info);
        RTE_TEST_ASSERT_SUCCESS(ret, "Failed to get raw dev info");

        return TEST_SUCCESS;
}

static int
test_rawdev_configure(void)
{
        int ret;
        struct rte_rawdev_info rdev_info = {0};
        struct skeleton_rawdev_conf rdev_conf_set = {0};
        struct skeleton_rawdev_conf rdev_conf_get = {0};

        /* Check invalid configuration */
        ret = rte_rawdev_configure(TEST_DEV_ID, NULL);
        RTE_TEST_ASSERT(ret == -EINVAL,
                        "Null configure; Expected -EINVAL, got %d", ret);

        /* Valid configuration test */
        rdev_conf_set.num_queues = 1;
        rdev_conf_set.capabilities = SKELETON_CAPA_FW_LOAD |
                                     SKELETON_CAPA_FW_RESET;

        rdev_info.dev_private = &rdev_conf_set;
        ret = rte_rawdev_configure(TEST_DEV_ID,
                                   (rte_rawdev_obj_t)&rdev_info);
        RTE_TEST_ASSERT_SUCCESS(ret, "Failed to configure rawdev (%d)", ret);

        rdev_info.dev_private = &rdev_conf_get;
        ret = rte_rawdev_info_get(TEST_DEV_ID,
                                  (rte_rawdev_obj_t)&rdev_info);
        RTE_TEST_ASSERT_SUCCESS(ret,
                                "Failed to obtain rawdev configuration (%d)",
                                ret);

        RTE_TEST_ASSERT_EQUAL(rdev_conf_set.num_queues,
                              rdev_conf_get.num_queues,
                              "Configuration test failed; num_queues (%d)(%d)",
                              rdev_conf_set.num_queues,
                              rdev_conf_get.num_queues);
        RTE_TEST_ASSERT_EQUAL(rdev_conf_set.capabilities,
                          rdev_conf_get.capabilities,
                          "Configuration test failed; capabilities");

        return TEST_SUCCESS;
}

static int
test_rawdev_queue_default_conf_get(void)
{
        int ret, i;
        struct rte_rawdev_info rdev_info = {0};
        struct skeleton_rawdev_conf rdev_conf_get = {0};
        struct skeleton_rawdev_queue q = {0};

        /* Get the current configuration */
        rdev_info.dev_private = &rdev_conf_get;
        ret = rte_rawdev_info_get(TEST_DEV_ID,
                                  (rte_rawdev_obj_t)&rdev_info);
        RTE_TEST_ASSERT_SUCCESS(ret, "Failed to obtain rawdev configuration (%d)",
                                ret);

        /* call to test_rawdev_configure would have set the num_queues = 1 */
        RTE_TEST_ASSERT_SUCCESS(!(rdev_conf_get.num_queues > 0),
                                "Invalid number of queues (%d). Expected 1",
                                rdev_conf_get.num_queues);
        /* All queues by default should have state = DETACH and
         * depth = DEF_DEPTH
         */
        for (i = 0; i < rdev_conf_get.num_queues; i++) {
                rte_rawdev_queue_conf_get(TEST_DEV_ID, i, &q);
                RTE_TEST_ASSERT_EQUAL(q.depth, SKELETON_QUEUE_DEF_DEPTH,
                                      "Invalid default depth of queue (%d)",
                                      q.depth);
                RTE_TEST_ASSERT_EQUAL(q.state, SKELETON_QUEUE_DETACH,
                                      "Invalid default state of queue (%d)",
                                      q.state);
        }

        return TEST_SUCCESS;
}

static int
test_rawdev_queue_setup(void)
{
        int ret;
        struct rte_rawdev_info rdev_info = {0};
        struct skeleton_rawdev_conf rdev_conf_get = {0};
        struct skeleton_rawdev_queue qset = {0};
        struct skeleton_rawdev_queue qget = {0};

        /* Get the current configuration */
        rdev_info.dev_private = &rdev_conf_get;
        ret = rte_rawdev_info_get(TEST_DEV_ID,
                                  (rte_rawdev_obj_t)&rdev_info);
        RTE_TEST_ASSERT_SUCCESS(ret,
                                "Failed to obtain rawdev configuration (%d)",
                                ret);

        /* call to test_rawdev_configure would have set the num_queues = 1 */
        RTE_TEST_ASSERT_SUCCESS(!(rdev_conf_get.num_queues > 0),
                                "Invalid number of queues (%d). Expected 1",
                                rdev_conf_get.num_queues);

        /* Modify the queue depth for Queue 0 and attach it */
        qset.depth = 15;
        qset.state = SKELETON_QUEUE_ATTACH;
        ret = rte_rawdev_queue_setup(TEST_DEV_ID, 0, &qset);
        RTE_TEST_ASSERT_SUCCESS(ret, "Failed to setup queue (%d)", ret);

        /* Now, fetching the queue 0 should show depth as 15 */
        ret = rte_rawdev_queue_conf_get(TEST_DEV_ID, 0, &qget);
        RTE_TEST_ASSERT_SUCCESS(ret, "Failed to get queue config (%d)", ret);

        RTE_TEST_ASSERT_EQUAL(qset.depth, qget.depth,
                              "Failed to set queue depth: Need(%d), has(%d)",
                              qset.depth, qget.depth);

        return TEST_SUCCESS;
}

/* After executing test_rawdev_queue_setup, queue_id=0 would have depth as 15.
 * Releasing should set it back to default. state would set to DETACH
 */
static int
test_rawdev_queue_release(void)
{
        int ret;
        struct skeleton_rawdev_queue qget = {0};

        /* Now, fetching the queue 0 should show depth as 100 */
        ret = rte_rawdev_queue_release(TEST_DEV_ID, 0);
        RTE_TEST_ASSERT_SUCCESS(ret, "Failed to release queue 0; (%d)", ret);

        /* Now, fetching the queue 0 should show depth as default */
        ret = rte_rawdev_queue_conf_get(TEST_DEV_ID, 0, &qget);
        RTE_TEST_ASSERT_SUCCESS(ret, "Failed to get queue config (%d)", ret);

        RTE_TEST_ASSERT_EQUAL(qget.depth, SKELETON_QUEUE_DEF_DEPTH,
                              "Release of Queue 0 failed; (depth)");

        RTE_TEST_ASSERT_EQUAL(qget.state, SKELETON_QUEUE_DETACH,
                              "Release of Queue 0 failed; (state)");

        return TEST_SUCCESS;
}

static int
test_rawdev_attr_set_get(void)
{
        int ret;
        int *dummy_value;
        uint64_t ret_value;

        /* Set an attribute and fetch it */
        ret = rte_rawdev_set_attr(TEST_DEV_ID, "Test1", 100);
        RTE_TEST_ASSERT(!ret, "Unable to set an attribute (Test1)");

        dummy_value = malloc(sizeof(int));
        if (!dummy_value)
                RTE_TEST_ASSERT(1, "Unable to allocate memory (dummy_value)");

        *dummy_value = 200;
        ret = rte_rawdev_set_attr(TEST_DEV_ID, "Test2", (uintptr_t)dummy_value);

        /* Check if attributes have been set */
        ret = rte_rawdev_get_attr(TEST_DEV_ID, "Test1", &ret_value);
        RTE_TEST_ASSERT_EQUAL(ret_value, 100,
                              "Attribute (Test1) not set correctly (%" PRIu64 ")",
                              ret_value);

        ret_value = 0;
        ret = rte_rawdev_get_attr(TEST_DEV_ID, "Test2", &ret_value);
        RTE_TEST_ASSERT_EQUAL(*((int *)(uintptr_t)ret_value), 200,
                              "Attribute (Test2) not set correctly (%" PRIu64 ")",
                              ret_value);

        return TEST_SUCCESS;
}

static int
test_rawdev_start_stop(void)
{
        int ret;
        struct rte_rawdev_info rdev_info = {0};
        struct skeleton_rawdev_conf rdev_conf_get = {0};
        char *dummy_firmware = NULL;

        /* Get the current configuration */
        rdev_info.dev_private = &rdev_conf_get;

        /* Load a firmware using a dummy address area */
        dummy_firmware = rte_zmalloc("RAWDEV SKELETON", sizeof(int) * 10, 0);
        RTE_TEST_ASSERT(dummy_firmware != NULL,
                        "Failed to create firmware memory backing");

        ret = rte_rawdev_firmware_load(TEST_DEV_ID, dummy_firmware);
        RTE_TEST_ASSERT_SUCCESS(ret, "Firmware loading failed (%d)", ret);

        /* Skeleton doesn't do anything with the firmware area - that is dummy
         * and can be removed.
         */
        rte_free(dummy_firmware);
        dummy_firmware = NULL;

        rte_rawdev_start(TEST_DEV_ID);
        ret = rte_rawdev_info_get(TEST_DEV_ID, (rte_rawdev_obj_t)&rdev_info);
        RTE_TEST_ASSERT_SUCCESS(ret,
                                "Failed to obtain rawdev configuration (%d)",
                                ret);
        RTE_TEST_ASSERT_EQUAL(rdev_conf_get.device_state, SKELETON_DEV_RUNNING,
                              "Device start failed. State is (%d)",
                              rdev_conf_get.device_state);

        rte_rawdev_stop(TEST_DEV_ID);
        ret = rte_rawdev_info_get(TEST_DEV_ID, (rte_rawdev_obj_t)&rdev_info);
        RTE_TEST_ASSERT_SUCCESS(ret,
                                "Failed to obtain rawdev configuration (%d)",
                                ret);
        RTE_TEST_ASSERT_EQUAL(rdev_conf_get.device_state, SKELETON_DEV_STOPPED,
                              "Device stop failed. State is (%d)",
                              rdev_conf_get.device_state);

        /* Unloading the firmware once device is stopped */
        ret = rte_rawdev_firmware_unload(TEST_DEV_ID);
        RTE_TEST_ASSERT_SUCCESS(ret, "Failed to unload firmware (%d)", ret);

        return TEST_SUCCESS;
}

static int
test_rawdev_enqdeq(void)
{
        int ret;
        unsigned int count = 1;
        uint16_t queue_id = 0;
        struct rte_rawdev_buf buffers[1];
        struct rte_rawdev_buf *deq_buffers = NULL;

        buffers[0].buf_addr = malloc(strlen(TEST_DEV_NAME) + 3);
        if (!buffers[0].buf_addr)
                goto cleanup;
        snprintf(buffers[0].buf_addr, strlen(TEST_DEV_NAME) + 2, "%s%d",
                 TEST_DEV_NAME, 0);

        ret = rte_rawdev_enqueue_buffers(TEST_DEV_ID,
                                         (struct rte_rawdev_buf **)&buffers,
                                         count, &queue_id);
        RTE_TEST_ASSERT_EQUAL((unsigned int)ret, count,
                              "Unable to enqueue buffers");

        deq_buffers = malloc(sizeof(struct rte_rawdev_buf) * count);
        if (!deq_buffers)
                goto cleanup;

        ret = rte_rawdev_dequeue_buffers(TEST_DEV_ID,
                                        (struct rte_rawdev_buf **)&deq_buffers,
                                        count, &queue_id);
        RTE_TEST_ASSERT_EQUAL((unsigned int)ret, count,
                              "Unable to dequeue buffers");

        if (deq_buffers)
                free(deq_buffers);

        return TEST_SUCCESS;
cleanup:
        if (buffers[0].buf_addr)
                free(buffers[0].buf_addr);
        if (deq_buffers)
                free(deq_buffers);

        return TEST_FAILED;
}

static void skeldev_test_run(int (*setup)(void),
                             void (*teardown)(void),
                             int (*test)(void),
                             const char *name)
{
        int ret = 0;

        if (setup) {
                ret = setup();
                if (ret < 0) {
                        SKELDEV_TEST_INFO("Error setting up test %s", name);
                        unsupported++;
                }
        }

        if (test) {
                ret = test();
                if (ret < 0) {
                        failed++;
                        SKELDEV_TEST_INFO("%s Failed", name);
                } else {
                        passed++;
                        SKELDEV_TEST_DEBUG("%s Passed", name);
                }
        }

        if (teardown)
                teardown();

        total++;
}

int
test_rawdev_skeldev(void)
{
        testsuite_setup();

        SKELDEV_TEST_RUN(NULL, NULL, test_rawdev_count);
        SKELDEV_TEST_RUN(NULL, NULL, test_rawdev_get_dev_id);
        SKELDEV_TEST_RUN(NULL, NULL, test_rawdev_socket_id);
        SKELDEV_TEST_RUN(NULL, NULL, test_rawdev_info_get);
        SKELDEV_TEST_RUN(NULL, NULL, test_rawdev_configure);
        SKELDEV_TEST_RUN(test_rawdev_configure, NULL,
                         test_rawdev_queue_default_conf_get);
        SKELDEV_TEST_RUN(test_rawdev_configure, NULL, test_rawdev_queue_setup);
        SKELDEV_TEST_RUN(test_rawdev_queue_setup, NULL,
                         test_rawdev_queue_release);
        SKELDEV_TEST_RUN(NULL, NULL, test_rawdev_attr_set_get);
        SKELDEV_TEST_RUN(NULL, NULL, test_rawdev_start_stop);
        SKELDEV_TEST_RUN(test_rawdev_queue_setup, NULL, test_rawdev_enqdeq);

        testsuite_teardown();

        SKELDEV_TEST_INFO("Total tests   : %d", total);
        SKELDEV_TEST_INFO("Passed        : %d", passed);
        SKELDEV_TEST_INFO("Failed        : %d", failed);
        SKELDEV_TEST_INFO("Not supported : %d", unsupported);

        if (failed)
                return -1;

        return 0;
};