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dpdk-fm10k/app/test/test_event_crypto_adapter.c
Bruce Richardson a9de470cc7 test: move to app directory 
Since all other apps have been moved to the "app" folder, the autotest app
remains alone in the test folder. Rather than having an entire top-level
folder for this, we can move it back to where it all started in early
versions of DPDK - the "app/" folder.

This move has a couple of advantages:
* This reduces clutter at the top level of the project, due to one less
  folder.
* It eliminates the separate build task necessary for building the
  autotests using make "make test-build" which means that developers are
  less likely to miss something in their own compilation tests
* It re-aligns the final location of the test binary in the app folder when
  building with make with it's location in the source tree.

For meson builds, the autotest app is different from the other apps in that
it needs a series of different test cases defined for it for use by "meson
test". Therefore, it does not get built as part of the main loop in the
app folder, but gets built separately at the end.

Signed-off-by: Bruce Richardson <bruce.richardson@intel.com>
2019-02-26 15:29:27 +01:00

942 lines
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/* SPDX-License-Identifier: BSD-3-Clause
* Copyright(c) 2018 Intel Corporation.
* All rights reserved.
*/
#include <string.h>
#include <rte_common.h>
#include <rte_mempool.h>
#include <rte_mbuf.h>
#include <rte_cryptodev.h>
#include <rte_eventdev.h>
#include <rte_bus_vdev.h>
#include <rte_service.h>
#include <rte_event_crypto_adapter.h>
#include "test.h"
#define PKT_TRACE 0
#define NUM 1
#define DEFAULT_NUM_XFORMS (2)
#define NUM_MBUFS (8191)
#define MBUF_CACHE_SIZE (256)
#define MAXIMUM_IV_LENGTH (16)
#define DEFAULT_NUM_OPS_INFLIGHT (128)
#define MAX_NB_SESSIONS 4
#define TEST_APP_PORT_ID 0
#define TEST_APP_EV_QUEUE_ID 0
#define TEST_APP_EV_PRIORITY 0
#define TEST_APP_EV_FLOWID 0xAABB
#define TEST_CRYPTO_EV_QUEUE_ID 1
#define TEST_ADAPTER_ID 0
#define TEST_CDEV_ID 0
#define TEST_CDEV_QP_ID 0
#define PACKET_LENGTH 64
#define NB_TEST_PORTS 1
#define NB_TEST_QUEUES 2
#define NUM_CORES 1
#define CRYPTODEV_NAME_NULL_PMD crypto_null
#define MBUF_SIZE (sizeof(struct rte_mbuf) + \
RTE_PKTMBUF_HEADROOM + PACKET_LENGTH)
#define IV_OFFSET (sizeof(struct rte_crypto_op) + \
sizeof(struct rte_crypto_sym_op) + \
DEFAULT_NUM_XFORMS * \
sizeof(struct rte_crypto_sym_xform))
/* Handle log statements in same manner as test macros */
#define LOG_DBG(...) RTE_LOG(DEBUG, EAL, __VA_ARGS__)
static const uint8_t text_64B[] = {
0x05, 0x15, 0x77, 0x32, 0xc9, 0x66, 0x91, 0x50,
0x93, 0x9f, 0xbb, 0x4e, 0x2e, 0x5a, 0x02, 0xd0,
0x2d, 0x9d, 0x31, 0x5d, 0xc8, 0x9e, 0x86, 0x36,
0x54, 0x5c, 0x50, 0xe8, 0x75, 0x54, 0x74, 0x5e,
0xd5, 0xa2, 0x84, 0x21, 0x2d, 0xc5, 0xf8, 0x1c,
0x55, 0x1a, 0xba, 0x91, 0xce, 0xb5, 0xa3, 0x1e,
0x31, 0xbf, 0xe9, 0xa1, 0x97, 0x5c, 0x2b, 0xd6,
0x57, 0xa5, 0x9f, 0xab, 0xbd, 0xb0, 0x9b, 0x9c
};
struct event_crypto_adapter_test_params {
struct rte_mempool *mbuf_pool;
struct rte_mempool *op_mpool;
struct rte_mempool *session_mpool;
struct rte_mempool *session_priv_mpool;
struct rte_cryptodev_config *config;
uint8_t crypto_event_port_id;
};
struct rte_event response_info = {
.queue_id = TEST_APP_EV_QUEUE_ID,
.sched_type = RTE_SCHED_TYPE_ATOMIC,
.flow_id = TEST_APP_EV_FLOWID,
.priority = TEST_APP_EV_PRIORITY
};
struct rte_event_crypto_request request_info = {
.cdev_id = TEST_CDEV_ID,
.queue_pair_id = TEST_CDEV_QP_ID
};
static struct event_crypto_adapter_test_params params;
static uint8_t crypto_adapter_setup_done;
static uint32_t slcore_id;
static int evdev;
static struct rte_mbuf *
alloc_fill_mbuf(struct rte_mempool *mpool, const uint8_t *data,
size_t len, uint8_t blocksize)
{
struct rte_mbuf *m = rte_pktmbuf_alloc(mpool);
size_t t_len = len - (blocksize ? (len % blocksize) : 0);
if (m) {
char *dst = rte_pktmbuf_append(m, t_len);
if (!dst) {
rte_pktmbuf_free(m);
return NULL;
}
rte_memcpy(dst, (const void *)data, t_len);
}
return m;
}
static int
send_recv_ev(struct rte_event *ev)
{
struct rte_crypto_op *op;
struct rte_event recv_ev;
int ret;
ret = rte_event_enqueue_burst(evdev, TEST_APP_PORT_ID, ev, NUM);
TEST_ASSERT_EQUAL(ret, NUM,
"Failed to send event to crypto adapter\n");
while (rte_event_dequeue_burst(evdev,
TEST_APP_PORT_ID, &recv_ev, NUM, 0) == 0)
rte_pause();
op = recv_ev.event_ptr;
#if PKT_TRACE
struct rte_mbuf *m = op->sym->m_src;
rte_pktmbuf_dump(stdout, m, rte_pktmbuf_pkt_len(m));
#endif
rte_pktmbuf_free(op->sym->m_src);
rte_crypto_op_free(op);
return TEST_SUCCESS;
}
static int
test_crypto_adapter_stats(void)
{
struct rte_event_crypto_adapter_stats stats;
rte_event_crypto_adapter_stats_get(TEST_ADAPTER_ID, &stats);
printf(" +------------------------------------------------------+\n");
printf(" + Crypto adapter stats for instance %u:\n", TEST_ADAPTER_ID);
printf(" + Event port poll count %" PRIx64 "\n",
stats.event_poll_count);
printf(" + Event dequeue count %" PRIx64 "\n",
stats.event_deq_count);
printf(" + Cryptodev enqueue count %" PRIx64 "\n",
stats.crypto_enq_count);
printf(" + Cryptodev enqueue failed count %" PRIx64 "\n",
stats.crypto_enq_fail);
printf(" + Cryptodev dequeue count %" PRIx64 "\n",
stats.crypto_deq_count);
printf(" + Event enqueue count %" PRIx64 "\n",
stats.event_enq_count);
printf(" + Event enqueue retry count %" PRIx64 "\n",
stats.event_enq_retry_count);
printf(" + Event enqueue fail count %" PRIx64 "\n",
stats.event_enq_fail_count);
printf(" +------------------------------------------------------+\n");
rte_event_crypto_adapter_stats_reset(TEST_ADAPTER_ID);
return TEST_SUCCESS;
}
static int
test_op_forward_mode(uint8_t session_less)
{
struct rte_crypto_sym_xform cipher_xform;
struct rte_cryptodev_sym_session *sess;
union rte_event_crypto_metadata m_data;
struct rte_crypto_sym_op *sym_op;
struct rte_crypto_op *op;
struct rte_mbuf *m;
struct rte_event ev;
uint32_t cap;
int ret;
memset(&m_data, 0, sizeof(m_data));
m = alloc_fill_mbuf(params.mbuf_pool, text_64B, PACKET_LENGTH, 0);
TEST_ASSERT_NOT_NULL(m, "Failed to allocate mbuf!\n");
#if PKT_TRACE
rte_pktmbuf_dump(stdout, m, rte_pktmbuf_pkt_len(m));
#endif
/* Setup Cipher Parameters */
cipher_xform.type = RTE_CRYPTO_SYM_XFORM_CIPHER;
cipher_xform.next = NULL;
cipher_xform.cipher.algo = RTE_CRYPTO_CIPHER_NULL;
cipher_xform.cipher.op = RTE_CRYPTO_CIPHER_OP_ENCRYPT;
op = rte_crypto_op_alloc(params.op_mpool,
RTE_CRYPTO_OP_TYPE_SYMMETRIC);
TEST_ASSERT_NOT_NULL(op,
"Failed to allocate symmetric crypto operation struct\n");
sym_op = op->sym;
if (!session_less) {
sess = rte_cryptodev_sym_session_create(
params.session_mpool);
TEST_ASSERT_NOT_NULL(sess, "Session creation failed\n");
/* Create Crypto session*/
rte_cryptodev_sym_session_init(TEST_CDEV_ID, sess,
&cipher_xform, params.session_priv_mpool);
ret = rte_event_crypto_adapter_caps_get(TEST_ADAPTER_ID,
evdev, &cap);
TEST_ASSERT_SUCCESS(ret, "Failed to get adapter capabilities\n");
if (cap & RTE_EVENT_CRYPTO_ADAPTER_CAP_SESSION_PRIVATE_DATA) {
/* Fill in private user data information */
rte_memcpy(&m_data.response_info, &response_info,
sizeof(response_info));
rte_memcpy(&m_data.request_info, &request_info,
sizeof(request_info));
rte_cryptodev_sym_session_set_user_data(sess,
&m_data, sizeof(m_data));
}
rte_crypto_op_attach_sym_session(op, sess);
} else {
struct rte_crypto_sym_xform *first_xform;
rte_crypto_op_sym_xforms_alloc(op, NUM);
op->sess_type = RTE_CRYPTO_OP_SESSIONLESS;
first_xform = &cipher_xform;
sym_op->xform = first_xform;
uint32_t len = IV_OFFSET + MAXIMUM_IV_LENGTH +
(sizeof(struct rte_crypto_sym_xform) * 2);
op->private_data_offset = len;
/* Fill in private data information */
rte_memcpy(&m_data.response_info, &response_info,
sizeof(response_info));
rte_memcpy(&m_data.request_info, &request_info,
sizeof(request_info));
rte_memcpy((uint8_t *)op + len, &m_data, sizeof(m_data));
}
sym_op->m_src = m;
sym_op->cipher.data.offset = 0;
sym_op->cipher.data.length = PACKET_LENGTH;
/* Fill in event info and update event_ptr with rte_crypto_op */
memset(&ev, 0, sizeof(ev));
ev.queue_id = TEST_CRYPTO_EV_QUEUE_ID;
ev.sched_type = RTE_SCHED_TYPE_ATOMIC;
ev.flow_id = 0xAABB;
ev.event_ptr = op;
ret = send_recv_ev(&ev);
TEST_ASSERT_SUCCESS(ret, "Failed to send/receive event to "
"crypto adapter\n");
test_crypto_adapter_stats();
return TEST_SUCCESS;
}
static int
map_adapter_service_core(void)
{
uint32_t adapter_service_id;
int ret;
if (rte_event_crypto_adapter_service_id_get(TEST_ADAPTER_ID,
&adapter_service_id) == 0) {
uint32_t core_list[NUM_CORES];
ret = rte_service_lcore_list(core_list, NUM_CORES);
TEST_ASSERT(ret >= 0, "Failed to get service core list!");
if (core_list[0] != slcore_id) {
TEST_ASSERT_SUCCESS(rte_service_lcore_add(slcore_id),
"Failed to add service core");
TEST_ASSERT_SUCCESS(rte_service_lcore_start(slcore_id),
"Failed to start service core");
}
TEST_ASSERT_SUCCESS(rte_service_map_lcore_set(
adapter_service_id, slcore_id, 1),
"Failed to map adapter service");
}
return TEST_SUCCESS;
}
static int
test_sessionless_with_op_forward_mode(void)
{
uint32_t cap;
int ret;
ret = rte_event_crypto_adapter_caps_get(TEST_ADAPTER_ID, evdev, &cap);
TEST_ASSERT_SUCCESS(ret, "Failed to get adapter capabilities\n");
if (!(cap & RTE_EVENT_CRYPTO_ADAPTER_CAP_INTERNAL_PORT_OP_FWD))
map_adapter_service_core();
TEST_ASSERT_SUCCESS(rte_event_crypto_adapter_start(TEST_ADAPTER_ID),
"Failed to start event crypto adapter");
ret = test_op_forward_mode(1);
TEST_ASSERT_SUCCESS(ret, "Sessionless - FORWARD mode test failed\n");
return TEST_SUCCESS;
}
static int
test_session_with_op_forward_mode(void)
{
uint32_t cap;
int ret;
ret = rte_event_crypto_adapter_caps_get(TEST_ADAPTER_ID, evdev, &cap);
TEST_ASSERT_SUCCESS(ret, "Failed to get adapter capabilities\n");
if (!(cap & RTE_EVENT_CRYPTO_ADAPTER_CAP_INTERNAL_PORT_OP_FWD))
map_adapter_service_core();
TEST_ASSERT_SUCCESS(rte_event_crypto_adapter_start(TEST_ADAPTER_ID
), "Failed to start event crypto adapter");
ret = test_op_forward_mode(0);
TEST_ASSERT_SUCCESS(ret, "Session based - FORWARD mode test failed\n");
return TEST_SUCCESS;
}
static int
send_op_recv_ev(struct rte_crypto_op *op)
{
struct rte_crypto_op *recv_op;
struct rte_event ev;
int ret;
ret = rte_cryptodev_enqueue_burst(TEST_CDEV_ID, TEST_CDEV_QP_ID,
&op, NUM);
TEST_ASSERT_EQUAL(ret, NUM, "Failed to enqueue to cryptodev\n");
memset(&ev, 0, sizeof(ev));
while (rte_event_dequeue_burst(evdev,
TEST_APP_PORT_ID, &ev, NUM, 0) == 0)
rte_pause();
recv_op = ev.event_ptr;
#if PKT_TRACE
struct rte_mbuf *m = recv_op->sym->m_src;
rte_pktmbuf_dump(stdout, m, rte_pktmbuf_pkt_len(m));
#endif
rte_pktmbuf_free(recv_op->sym->m_src);
rte_crypto_op_free(recv_op);
return TEST_SUCCESS;
}
static int
test_op_new_mode(uint8_t session_less)
{
struct rte_crypto_sym_xform cipher_xform;
struct rte_cryptodev_sym_session *sess;
union rte_event_crypto_metadata m_data;
struct rte_crypto_sym_op *sym_op;
struct rte_crypto_op *op;
struct rte_mbuf *m;
uint32_t cap;
int ret;
memset(&m_data, 0, sizeof(m_data));
m = alloc_fill_mbuf(params.mbuf_pool, text_64B, PACKET_LENGTH, 0);
TEST_ASSERT_NOT_NULL(m, "Failed to allocate mbuf!\n");
#if PKT_TRACE
rte_pktmbuf_dump(stdout, m, rte_pktmbuf_pkt_len(m));
#endif
/* Setup Cipher Parameters */
cipher_xform.type = RTE_CRYPTO_SYM_XFORM_CIPHER;
cipher_xform.next = NULL;
cipher_xform.cipher.algo = RTE_CRYPTO_CIPHER_NULL;
cipher_xform.cipher.op = RTE_CRYPTO_CIPHER_OP_ENCRYPT;
op = rte_crypto_op_alloc(params.op_mpool,
RTE_CRYPTO_OP_TYPE_SYMMETRIC);
TEST_ASSERT_NOT_NULL(op, "Failed to allocate crypto_op!\n");
sym_op = op->sym;
if (!session_less) {
sess = rte_cryptodev_sym_session_create(
params.session_mpool);
TEST_ASSERT_NOT_NULL(sess, "Session creation failed\n");
ret = rte_event_crypto_adapter_caps_get(TEST_ADAPTER_ID,
evdev, &cap);
TEST_ASSERT_SUCCESS(ret, "Failed to get adapter capabilities\n");
if (cap & RTE_EVENT_CRYPTO_ADAPTER_CAP_SESSION_PRIVATE_DATA) {
/* Fill in private user data information */
rte_memcpy(&m_data.response_info, &response_info,
sizeof(m_data));
rte_cryptodev_sym_session_set_user_data(sess,
&m_data, sizeof(m_data));
}
rte_cryptodev_sym_session_init(TEST_CDEV_ID, sess,
&cipher_xform, params.session_priv_mpool);
rte_crypto_op_attach_sym_session(op, sess);
} else {
struct rte_crypto_sym_xform *first_xform;
rte_crypto_op_sym_xforms_alloc(op, NUM);
op->sess_type = RTE_CRYPTO_OP_SESSIONLESS;
first_xform = &cipher_xform;
sym_op->xform = first_xform;
uint32_t len = IV_OFFSET + MAXIMUM_IV_LENGTH +
(sizeof(struct rte_crypto_sym_xform) * 2);
op->private_data_offset = len;
/* Fill in private data information */
rte_memcpy(&m_data.response_info, &response_info,
sizeof(m_data));
rte_memcpy((uint8_t *)op + len, &m_data, sizeof(m_data));
}
sym_op->m_src = m;
sym_op->cipher.data.offset = 0;
sym_op->cipher.data.length = PACKET_LENGTH;
ret = send_op_recv_ev(op);
TEST_ASSERT_SUCCESS(ret, "Failed to enqueue op to cryptodev\n");
test_crypto_adapter_stats();
return TEST_SUCCESS;
}
static int
test_sessionless_with_op_new_mode(void)
{
uint32_t cap;
int ret;
ret = rte_event_crypto_adapter_caps_get(TEST_ADAPTER_ID, evdev, &cap);
TEST_ASSERT_SUCCESS(ret, "Failed to get adapter capabilities\n");
if (!(cap & RTE_EVENT_CRYPTO_ADAPTER_CAP_INTERNAL_PORT_OP_FWD) ||
!(cap & RTE_EVENT_CRYPTO_ADAPTER_CAP_INTERNAL_PORT_OP_NEW))
map_adapter_service_core();
/* start the event crypto adapter */
TEST_ASSERT_SUCCESS(rte_event_crypto_adapter_start(TEST_ADAPTER_ID),
"Failed to start event crypto adapter");
ret = test_op_new_mode(1);
TEST_ASSERT_SUCCESS(ret, "Sessionless - NEW mode test failed\n");
return TEST_SUCCESS;
}
static int
test_session_with_op_new_mode(void)
{
uint32_t cap;
int ret;
ret = rte_event_crypto_adapter_caps_get(TEST_ADAPTER_ID, evdev, &cap);
TEST_ASSERT_SUCCESS(ret, "Failed to get adapter capabilities\n");
if (!(cap & RTE_EVENT_CRYPTO_ADAPTER_CAP_INTERNAL_PORT_OP_FWD) ||
!(cap & RTE_EVENT_CRYPTO_ADAPTER_CAP_INTERNAL_PORT_OP_NEW))
map_adapter_service_core();
TEST_ASSERT_SUCCESS(rte_event_crypto_adapter_start(TEST_ADAPTER_ID),
"Failed to start event crypto adapter");
ret = test_op_new_mode(0);
TEST_ASSERT_SUCCESS(ret, "Session based - NEW mode test failed\n");
return TEST_SUCCESS;
}
static int
configure_cryptodev(void)
{
struct rte_cryptodev_qp_conf qp_conf;
struct rte_cryptodev_config conf;
struct rte_cryptodev_info info;
unsigned int session_size;
uint8_t nb_devs;
int ret;
params.mbuf_pool = rte_pktmbuf_pool_create(
"CRYPTO_ADAPTER_MBUFPOOL",
NUM_MBUFS, MBUF_CACHE_SIZE, 0, MBUF_SIZE,
rte_socket_id());
if (params.mbuf_pool == NULL) {
RTE_LOG(ERR, USER1, "Can't create CRYPTO_MBUFPOOL\n");
return TEST_FAILED;
}
params.op_mpool = rte_crypto_op_pool_create(
"EVENT_CRYPTO_SYM_OP_POOL",
RTE_CRYPTO_OP_TYPE_SYMMETRIC,
NUM_MBUFS, MBUF_CACHE_SIZE,
DEFAULT_NUM_XFORMS *
sizeof(struct rte_crypto_sym_xform) +
MAXIMUM_IV_LENGTH,
rte_socket_id());
if (params.op_mpool == NULL) {
RTE_LOG(ERR, USER1, "Can't create CRYPTO_OP_POOL\n");
return TEST_FAILED;
}
/* Create a NULL crypto device */
nb_devs = rte_cryptodev_device_count_by_driver(
rte_cryptodev_driver_id_get(
RTE_STR(CRYPTODEV_NAME_NULL_PMD)));
if (!nb_devs) {
ret = rte_vdev_init(
RTE_STR(CRYPTODEV_NAME_NULL_PMD), NULL);
TEST_ASSERT(ret == 0, "Failed to create pmd:%s instance\n",
RTE_STR(CRYPTODEV_NAME_NULL_PMD));
}
nb_devs = rte_cryptodev_count();
if (!nb_devs) {
RTE_LOG(ERR, USER1, "No crypto devices found!\n");
return TEST_FAILED;
}
/*
* Create mempool with maximum number of sessions * 2,
* to include the session headers & private data
*/
session_size = rte_cryptodev_sym_get_private_session_size(TEST_CDEV_ID);
session_size += sizeof(union rte_event_crypto_metadata);
params.session_mpool = rte_cryptodev_sym_session_pool_create(
"CRYPTO_ADAPTER_SESSION_MP",
MAX_NB_SESSIONS, 0, 0, 0, SOCKET_ID_ANY);
TEST_ASSERT_NOT_NULL(params.session_mpool,
"session mempool allocation failed\n");
params.session_priv_mpool = rte_mempool_create(
"CRYPTO_ADAPTER_SESSION_MP_PRIV",
MAX_NB_SESSIONS,
session_size,
0, 0, NULL, NULL, NULL,
NULL, SOCKET_ID_ANY,
0);
TEST_ASSERT_NOT_NULL(params.session_priv_mpool,
"session mempool allocation failed\n");
rte_cryptodev_info_get(TEST_CDEV_ID, &info);
conf.nb_queue_pairs = info.max_nb_queue_pairs;
conf.socket_id = SOCKET_ID_ANY;
TEST_ASSERT_SUCCESS(rte_cryptodev_configure(TEST_CDEV_ID, &conf),
"Failed to configure cryptodev %u with %u qps\n",
TEST_CDEV_ID, conf.nb_queue_pairs);
qp_conf.nb_descriptors = DEFAULT_NUM_OPS_INFLIGHT;
qp_conf.mp_session = params.session_mpool;
qp_conf.mp_session_private = params.session_priv_mpool;
TEST_ASSERT_SUCCESS(rte_cryptodev_queue_pair_setup(
TEST_CDEV_ID, TEST_CDEV_QP_ID, &qp_conf,
rte_cryptodev_socket_id(TEST_CDEV_ID)),
"Failed to setup queue pair %u on cryptodev %u\n",
TEST_CDEV_QP_ID, TEST_CDEV_ID);
return TEST_SUCCESS;
}
static inline void
evdev_set_conf_values(struct rte_event_dev_config *dev_conf,
struct rte_event_dev_info *info)
{
memset(dev_conf, 0, sizeof(struct rte_event_dev_config));
dev_conf->dequeue_timeout_ns = info->min_dequeue_timeout_ns;
dev_conf->nb_event_ports = NB_TEST_PORTS;
dev_conf->nb_event_queues = NB_TEST_QUEUES;
dev_conf->nb_event_queue_flows = info->max_event_queue_flows;
dev_conf->nb_event_port_dequeue_depth =
info->max_event_port_dequeue_depth;
dev_conf->nb_event_port_enqueue_depth =
info->max_event_port_enqueue_depth;
dev_conf->nb_event_port_enqueue_depth =
info->max_event_port_enqueue_depth;
dev_conf->nb_events_limit =
info->max_num_events;
}
static int
configure_eventdev(void)
{
struct rte_event_queue_conf queue_conf;
struct rte_event_dev_config devconf;
struct rte_event_dev_info info;
uint32_t queue_count;
uint32_t port_count;
int ret;
uint8_t qid;
if (!rte_event_dev_count()) {
/* If there is no hardware eventdev, or no software vdev was
* specified on the command line, create an instance of
* event_sw.
*/
LOG_DBG("Failed to find a valid event device... "
"testing with event_sw device\n");
TEST_ASSERT_SUCCESS(rte_vdev_init("event_sw0", NULL),
"Error creating eventdev");
evdev = rte_event_dev_get_dev_id("event_sw0");
}
ret = rte_event_dev_info_get(evdev, &info);
TEST_ASSERT_SUCCESS(ret, "Failed to get event dev info\n");
evdev_set_conf_values(&devconf, &info);
ret = rte_event_dev_configure(evdev, &devconf);
TEST_ASSERT_SUCCESS(ret, "Failed to configure eventdev\n");
/* Set up event queue */
ret = rte_event_dev_attr_get(evdev, RTE_EVENT_DEV_ATTR_QUEUE_COUNT,
&queue_count);
TEST_ASSERT_SUCCESS(ret, "Queue count get failed\n");
TEST_ASSERT_EQUAL(queue_count, 2, "Unexpected queue count\n");
qid = TEST_APP_EV_QUEUE_ID;
ret = rte_event_queue_setup(evdev, qid, NULL);
TEST_ASSERT_SUCCESS(ret, "Failed to setup queue=%d\n", qid);
queue_conf.nb_atomic_flows = info.max_event_queue_flows;
queue_conf.nb_atomic_order_sequences = 32;
queue_conf.schedule_type = RTE_SCHED_TYPE_ATOMIC;
queue_conf.priority = RTE_EVENT_DEV_PRIORITY_HIGHEST;
queue_conf.event_queue_cfg = RTE_EVENT_QUEUE_CFG_SINGLE_LINK;
qid = TEST_CRYPTO_EV_QUEUE_ID;
ret = rte_event_queue_setup(evdev, qid, &queue_conf);
TEST_ASSERT_SUCCESS(ret, "Failed to setup queue=%u\n", qid);
/* Set up event port */
ret = rte_event_dev_attr_get(evdev, RTE_EVENT_DEV_ATTR_PORT_COUNT,
&port_count);
TEST_ASSERT_SUCCESS(ret, "Port count get failed\n");
TEST_ASSERT_EQUAL(port_count, 1, "Unexpected port count\n");
ret = rte_event_port_setup(evdev, TEST_APP_PORT_ID, NULL);
TEST_ASSERT_SUCCESS(ret, "Failed to setup port=%d\n",
TEST_APP_PORT_ID);
qid = TEST_APP_EV_QUEUE_ID;
ret = rte_event_port_link(evdev, TEST_APP_PORT_ID, &qid, NULL, 1);
TEST_ASSERT(ret >= 0, "Failed to link queue port=%d\n",
TEST_APP_PORT_ID);
return TEST_SUCCESS;
}
static void
test_crypto_adapter_free(void)
{
rte_event_crypto_adapter_free(TEST_ADAPTER_ID);
}
static int
test_crypto_adapter_create(void)
{
struct rte_event_port_conf conf = {
.dequeue_depth = 8,
.enqueue_depth = 8,
.new_event_threshold = 1200,
};
int ret;
/* Create adapter with default port creation callback */
ret = rte_event_crypto_adapter_create(TEST_ADAPTER_ID,
TEST_CDEV_ID,
&conf, 0);
TEST_ASSERT_SUCCESS(ret, "Failed to create event crypto adapter\n");
return TEST_SUCCESS;
}
static int
test_crypto_adapter_qp_add_del(void)
{
uint32_t cap;
int ret;
ret = rte_event_crypto_adapter_caps_get(TEST_ADAPTER_ID, evdev, &cap);
TEST_ASSERT_SUCCESS(ret, "Failed to get adapter capabilities\n");
if (cap & RTE_EVENT_CRYPTO_ADAPTER_CAP_INTERNAL_PORT_QP_EV_BIND) {
ret = rte_event_crypto_adapter_queue_pair_add(TEST_ADAPTER_ID,
TEST_CDEV_ID, TEST_CDEV_QP_ID, &response_info);
} else
ret = rte_event_crypto_adapter_queue_pair_add(TEST_ADAPTER_ID,
TEST_CDEV_ID, TEST_CDEV_QP_ID, NULL);
TEST_ASSERT_SUCCESS(ret, "Failed to create add queue pair\n");
ret = rte_event_crypto_adapter_queue_pair_del(TEST_ADAPTER_ID,
TEST_CDEV_ID, TEST_CDEV_QP_ID);
TEST_ASSERT_SUCCESS(ret, "Failed to delete add queue pair\n");
return TEST_SUCCESS;
}
static int
configure_event_crypto_adapter(enum rte_event_crypto_adapter_mode mode)
{
struct rte_event_port_conf conf = {
.dequeue_depth = 8,
.enqueue_depth = 8,
.new_event_threshold = 1200,
};
uint32_t cap;
int ret;
/* Create adapter with default port creation callback */
ret = rte_event_crypto_adapter_create(TEST_ADAPTER_ID,
TEST_CDEV_ID,
&conf, mode);
TEST_ASSERT_SUCCESS(ret, "Failed to create event crypto adapter\n");
ret = rte_event_crypto_adapter_caps_get(TEST_ADAPTER_ID, evdev, &cap);
TEST_ASSERT_SUCCESS(ret, "Failed to get adapter capabilities\n");
if (cap & RTE_EVENT_CRYPTO_ADAPTER_CAP_INTERNAL_PORT_QP_EV_BIND) {
ret = rte_event_crypto_adapter_queue_pair_add(TEST_ADAPTER_ID,
TEST_CDEV_ID, TEST_CDEV_QP_ID, &response_info);
} else
ret = rte_event_crypto_adapter_queue_pair_add(TEST_ADAPTER_ID,
TEST_CDEV_ID, TEST_CDEV_QP_ID, NULL);
TEST_ASSERT_SUCCESS(ret, "Failed to add queue pair\n");
ret = rte_event_crypto_adapter_event_port_get(TEST_ADAPTER_ID,
&params.crypto_event_port_id);
TEST_ASSERT_SUCCESS(ret, "Failed to get event port\n");
return TEST_SUCCESS;
}
static void
test_crypto_adapter_stop(void)
{
uint32_t evdev_service_id, adapter_service_id;
/* retrieve service ids & stop services */
if (rte_event_crypto_adapter_service_id_get(TEST_ADAPTER_ID,
&adapter_service_id) == 0) {
rte_service_runstate_set(adapter_service_id, 0);
rte_service_lcore_stop(slcore_id);
rte_service_lcore_del(slcore_id);
rte_event_crypto_adapter_stop(TEST_ADAPTER_ID);
}
if (rte_event_dev_service_id_get(evdev, &evdev_service_id) == 0) {
rte_service_runstate_set(evdev_service_id, 0);
rte_service_lcore_stop(slcore_id);
rte_service_lcore_del(slcore_id);
rte_event_dev_stop(evdev);
}
}
static int
test_crypto_adapter_conf(enum rte_event_crypto_adapter_mode mode)
{
uint32_t evdev_service_id;
uint8_t qid;
int ret;
if (!crypto_adapter_setup_done) {
ret = configure_event_crypto_adapter(mode);
if (!ret) {
qid = TEST_CRYPTO_EV_QUEUE_ID;
ret = rte_event_port_link(evdev,
params.crypto_event_port_id, &qid, NULL, 1);
TEST_ASSERT(ret >= 0, "Failed to link queue %d "
"port=%u\n", qid,
params.crypto_event_port_id);
}
crypto_adapter_setup_done = 1;
}
/* retrieve service ids */
if (rte_event_dev_service_id_get(evdev, &evdev_service_id) == 0) {
/* add a service core and start it */
TEST_ASSERT_SUCCESS(rte_service_lcore_add(slcore_id),
"Failed to add service core");
TEST_ASSERT_SUCCESS(rte_service_lcore_start(slcore_id),
"Failed to start service core");
/* map services to it */
TEST_ASSERT_SUCCESS(rte_service_map_lcore_set(evdev_service_id,
slcore_id, 1), "Failed to map evdev service");
/* set services to running */
TEST_ASSERT_SUCCESS(rte_service_runstate_set(evdev_service_id,
1), "Failed to start evdev service");
}
/* start the eventdev */
TEST_ASSERT_SUCCESS(rte_event_dev_start(evdev),
"Failed to start event device");
return TEST_SUCCESS;
}
static int
test_crypto_adapter_conf_op_forward_mode(void)
{
enum rte_event_crypto_adapter_mode mode;
mode = RTE_EVENT_CRYPTO_ADAPTER_OP_FORWARD;
test_crypto_adapter_conf(mode);
return TEST_SUCCESS;
}
static int
test_crypto_adapter_conf_op_new_mode(void)
{
enum rte_event_crypto_adapter_mode mode;
mode = RTE_EVENT_CRYPTO_ADAPTER_OP_NEW;
test_crypto_adapter_conf(mode);
return TEST_SUCCESS;
}
static int
testsuite_setup(void)
{
int ret;
slcore_id = rte_get_next_lcore(-1, 1, 0);
TEST_ASSERT_NOT_EQUAL(slcore_id, RTE_MAX_LCORE, "At least 2 lcores "
"are required to run this autotest\n");
/* Setup and start event device. */
ret = configure_eventdev();
TEST_ASSERT_SUCCESS(ret, "Failed to setup eventdev\n");
/* Setup and start crypto device. */
ret = configure_cryptodev();
TEST_ASSERT_SUCCESS(ret, "cryptodev initialization failed\n");
return TEST_SUCCESS;
}
static void
crypto_teardown(void)
{
/* Free mbuf mempool */
if (params.mbuf_pool != NULL) {
RTE_LOG(DEBUG, USER1, "CRYPTO_ADAPTER_MBUFPOOL count %u\n",
rte_mempool_avail_count(params.mbuf_pool));
rte_mempool_free(params.mbuf_pool);
params.mbuf_pool = NULL;
}
/* Free session mempool */
if (params.session_mpool != NULL) {
RTE_LOG(DEBUG, USER1, "CRYPTO_ADAPTER_SESSION_MP count %u\n",
rte_mempool_avail_count(params.session_mpool));
rte_mempool_free(params.session_mpool);
params.session_mpool = NULL;
}
if (params.session_priv_mpool != NULL) {
rte_mempool_free(params.session_priv_mpool);
params.session_priv_mpool = NULL;
}
/* Free ops mempool */
if (params.op_mpool != NULL) {
RTE_LOG(DEBUG, USER1, "EVENT_CRYPTO_SYM_OP_POOL count %u\n",
rte_mempool_avail_count(params.op_mpool));
rte_mempool_free(params.op_mpool);
params.op_mpool = NULL;
}
}
static void
eventdev_teardown(void)
{
rte_event_dev_stop(evdev);
}
static void
testsuite_teardown(void)
{
crypto_teardown();
eventdev_teardown();
}
static struct unit_test_suite functional_testsuite = {
.suite_name = "Event crypto adapter test suite",
.setup = testsuite_setup,
.teardown = testsuite_teardown,
.unit_test_cases = {
TEST_CASE_ST(NULL, test_crypto_adapter_free,
test_crypto_adapter_create),
TEST_CASE_ST(test_crypto_adapter_create,
test_crypto_adapter_free,
test_crypto_adapter_qp_add_del),
TEST_CASE_ST(test_crypto_adapter_create,
test_crypto_adapter_free,
test_crypto_adapter_stats),
TEST_CASE_ST(test_crypto_adapter_conf_op_forward_mode,
test_crypto_adapter_stop,
test_session_with_op_forward_mode),
TEST_CASE_ST(test_crypto_adapter_conf_op_forward_mode,
test_crypto_adapter_stop,
test_sessionless_with_op_forward_mode),
TEST_CASE_ST(test_crypto_adapter_conf_op_new_mode,
test_crypto_adapter_stop,
test_session_with_op_new_mode),
TEST_CASE_ST(test_crypto_adapter_conf_op_new_mode,
test_crypto_adapter_stop,
test_sessionless_with_op_new_mode),
TEST_CASES_END() /**< NULL terminate unit test array */
}
};
static int
test_event_crypto_adapter(void)
{
return unit_test_suite_runner(&functional_testsuite);
}
REGISTER_TEST_COMMAND(event_crypto_adapter_autotest,
test_event_crypto_adapter);
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