/* SPDX-License-Identifier: BSD-3-Clause * Copyright(c) 2010-2014 Intel Corporation */ #include "test.h" #include #include #include #include #include #include #ifdef RTE_EXEC_ENV_WINDOWS static int test_reorder(void) { printf("reorder not supported on Windows, skipping test\n"); return TEST_SKIPPED; } #else #include #include #include #define BURST 32 #define REORDER_BUFFER_SIZE 16384 #define NUM_MBUFS (2*REORDER_BUFFER_SIZE) #define REORDER_BUFFER_SIZE_INVALID 2049 struct reorder_unittest_params { struct rte_mempool *p; struct rte_reorder_buffer *b; }; static struct reorder_unittest_params default_params = { .p = NULL, .b = NULL }; static struct reorder_unittest_params *test_params = &default_params; static int test_reorder_create(void) { struct rte_reorder_buffer *b = NULL; b = rte_reorder_create(NULL, rte_socket_id(), REORDER_BUFFER_SIZE); TEST_ASSERT((b == NULL) && (rte_errno == EINVAL), "No error on create() with NULL name"); b = rte_reorder_create("PKT", rte_socket_id(), REORDER_BUFFER_SIZE_INVALID); TEST_ASSERT((b == NULL) && (rte_errno == EINVAL), "No error on create() with invalid buffer size param."); b = rte_reorder_create("PKT_RO1", rte_socket_id(), REORDER_BUFFER_SIZE); TEST_ASSERT_EQUAL(b, test_params->b, "New reorder instance created with already existing name"); return 0; } static int test_reorder_init(void) { struct rte_reorder_buffer *b = NULL; unsigned int size; /* * The minimum memory area size that should be passed to library is, * sizeof(struct rte_reorder_buffer) + (2 * size * sizeof(struct rte_mbuf *)); * Otherwise error will be thrown */ size = 100; b = rte_reorder_init(b, size, "PKT1", REORDER_BUFFER_SIZE); TEST_ASSERT((b == NULL) && (rte_errno == EINVAL), "No error on init with NULL buffer."); b = rte_malloc(NULL, size, 0); b = rte_reorder_init(b, size, "PKT1", REORDER_BUFFER_SIZE); TEST_ASSERT((b == NULL) && (rte_errno == EINVAL), "No error on init with invalid mem zone size."); rte_free(b); size = 262336; b = rte_malloc(NULL, size, 0); b = rte_reorder_init(b, size, "PKT1", REORDER_BUFFER_SIZE_INVALID); TEST_ASSERT((b == NULL) && (rte_errno == EINVAL), "No error on init with invalid buffer size param."); b = rte_reorder_init(b, size, NULL, REORDER_BUFFER_SIZE); TEST_ASSERT((b == NULL) && (rte_errno == EINVAL), "No error on init with invalid name."); rte_free(b); return 0; } static int test_reorder_find_existing(void) { struct rte_reorder_buffer *b = NULL; /* Try to find existing reorder buffer instance */ b = rte_reorder_find_existing("PKT_RO1"); TEST_ASSERT_EQUAL(b, test_params->b, "existing reorder buffer instance not found"); /* Try to find non existing reorder buffer instance */ b = rte_reorder_find_existing("ro_find_non_existing"); TEST_ASSERT((b == NULL) && (rte_errno == ENOENT), "non existing reorder buffer instance found"); return 0; } static int test_reorder_free(void) { struct rte_reorder_buffer *b1 = NULL, *b2 = NULL; const char *name = "test_free"; b1 = rte_reorder_create(name, rte_socket_id(), 8); TEST_ASSERT_NOT_NULL(b1, "Failed to create reorder buffer."); b2 = rte_reorder_find_existing(name); TEST_ASSERT_EQUAL(b1, b2, "Failed to find existing reorder buffer"); rte_reorder_free(b1); b2 = rte_reorder_find_existing(name); TEST_ASSERT((b2 == NULL) && (rte_errno == ENOENT), "Found previously freed reorder buffer"); return 0; } static int test_reorder_insert(void) { struct rte_reorder_buffer *b = NULL; struct rte_mempool *p = test_params->p; const unsigned int size = 4; const unsigned int num_bufs = 7; struct rte_mbuf *bufs[num_bufs]; int ret = 0; unsigned i; /* This would create a reorder buffer instance consisting of: * reorder_seq = 0 * ready_buf: RB[size] = {NULL, NULL, NULL, NULL} * order_buf: OB[size] = {NULL, NULL, NULL, NULL} */ b = rte_reorder_create("test_insert", rte_socket_id(), size); TEST_ASSERT_NOT_NULL(b, "Failed to create reorder buffer"); for (i = 0; i < num_bufs; i++) { bufs[i] = rte_pktmbuf_alloc(p); TEST_ASSERT_NOT_NULL(bufs[i], "Packet allocation failed\n"); *rte_reorder_seqn(bufs[i]) = i; } /* This should fill up order buffer: * reorder_seq = 0 * RB[] = {NULL, NULL, NULL, NULL} * OB[] = {0, 1, 2, 3} */ for (i = 0; i < size; i++) { ret = rte_reorder_insert(b, bufs[i]); if (ret != 0) { printf("%s:%d: Error inserting packet with seqn less than size\n", __func__, __LINE__); ret = -1; goto exit; } bufs[i] = NULL; } /* early packet - should move mbufs to ready buf and move sequence window * reorder_seq = 4 * RB[] = {0, 1, 2, 3} * OB[] = {4, NULL, NULL, NULL} */ ret = rte_reorder_insert(b, bufs[4]); if (ret != 0) { printf("%s:%d: Error inserting early packet with seqn: size\n", __func__, __LINE__); ret = -1; goto exit; } bufs[4] = NULL; /* early packet from current sequence window - full ready buffer */ *rte_reorder_seqn(bufs[5]) = 2 * size; ret = rte_reorder_insert(b, bufs[5]); if (!((ret == -1) && (rte_errno == ENOSPC))) { printf("%s:%d: No error inserting early packet with full ready buffer\n", __func__, __LINE__); ret = -1; goto exit; } bufs[5] = NULL; /* late packet */ *rte_reorder_seqn(bufs[6]) = 3 * size; ret = rte_reorder_insert(b, bufs[6]); if (!((ret == -1) && (rte_errno == ERANGE))) { printf("%s:%d: No error inserting late packet with seqn:" " 3 * size\n", __func__, __LINE__); ret = -1; goto exit; } bufs[6] = NULL; ret = 0; exit: rte_reorder_free(b); for (i = 0; i < num_bufs; i++) { rte_pktmbuf_free(bufs[i]); } return ret; } static int test_reorder_drain(void) { struct rte_reorder_buffer *b = NULL; struct rte_mempool *p = test_params->p; const unsigned int size = 4; const unsigned int num_bufs = 8; struct rte_mbuf *bufs[num_bufs]; struct rte_mbuf *robufs[num_bufs]; int ret = 0; unsigned i, cnt; /* initialize all robufs to NULL */ for (i = 0; i < num_bufs; i++) robufs[i] = NULL; /* This would create a reorder buffer instance consisting of: * reorder_seq = 0 * ready_buf: RB[size] = {NULL, NULL, NULL, NULL} * order_buf: OB[size] = {NULL, NULL, NULL, NULL} */ b = rte_reorder_create("test_drain", rte_socket_id(), size); TEST_ASSERT_NOT_NULL(b, "Failed to create reorder buffer"); /* Check no drained packets if reorder is empty */ cnt = rte_reorder_drain(b, robufs, 1); if (cnt != 0) { printf("%s:%d: drained packets from empty reorder buffer\n", __func__, __LINE__); ret = -1; goto exit; } for (i = 0; i < num_bufs; i++) { bufs[i] = rte_pktmbuf_alloc(p); TEST_ASSERT_NOT_NULL(bufs[i], "Packet allocation failed\n"); *rte_reorder_seqn(bufs[i]) = i; } /* Insert packet with seqn 1: * reorder_seq = 0 * RB[] = {NULL, NULL, NULL, NULL} * OB[] = {1, NULL, NULL, NULL} */ rte_reorder_insert(b, bufs[1]); bufs[1] = NULL; cnt = rte_reorder_drain(b, robufs, 1); if (cnt != 1) { printf("%s:%d:%d: number of expected packets not drained\n", __func__, __LINE__, cnt); ret = -1; goto exit; } rte_pktmbuf_free(robufs[0]); /* Insert more packets * RB[] = {NULL, NULL, NULL, NULL} * OB[] = {NULL, 2, 3, NULL} */ rte_reorder_insert(b, bufs[2]); rte_reorder_insert(b, bufs[3]); bufs[2] = NULL; bufs[3] = NULL; /* Insert more packets * RB[] = {NULL, NULL, NULL, NULL} * OB[] = {NULL, 2, 3, 4} */ rte_reorder_insert(b, bufs[4]); bufs[4] = NULL; /* Insert more packets * RB[] = {2, 3, 4, NULL} * OB[] = {NULL, NULL, 7, NULL} */ rte_reorder_insert(b, bufs[7]); bufs[7] = NULL; /* drained expected packets */ cnt = rte_reorder_drain(b, robufs, 4); if (cnt != 3) { printf("%s:%d:%d: number of expected packets not drained\n", __func__, __LINE__, cnt); ret = -1; goto exit; } for (i = 0; i < 3; i++) { rte_pktmbuf_free(robufs[i]); } /* * RB[] = {NULL, NULL, NULL, NULL} * OB[] = {NULL, NULL, 7, NULL} */ cnt = rte_reorder_drain(b, robufs, 1); if (cnt != 0) { printf("%s:%d:%d: number of expected packets not drained\n", __func__, __LINE__, cnt); ret = -1; goto exit; } ret = 0; exit: rte_reorder_free(b); for (i = 0; i < num_bufs; i++) { rte_pktmbuf_free(bufs[i]); rte_pktmbuf_free(robufs[i]); } return ret; } static int test_setup(void) { /* reorder buffer instance creation */ if (test_params->b == NULL) { test_params->b = rte_reorder_create("PKT_RO1", rte_socket_id(), REORDER_BUFFER_SIZE); if (test_params->b == NULL) { printf("%s: Error creating reorder buffer instance b\n", __func__); return -1; } } else rte_reorder_reset(test_params->b); /* mempool creation */ if (test_params->p == NULL) { test_params->p = rte_pktmbuf_pool_create("RO_MBUF_POOL", NUM_MBUFS, BURST, 0, RTE_MBUF_DEFAULT_BUF_SIZE, rte_socket_id()); if (test_params->p == NULL) { printf("%s: Error creating mempool\n", __func__); return -1; } } return 0; } static void test_teardown(void) { rte_reorder_free(test_params->b); test_params->b = NULL; rte_mempool_free(test_params->p); test_params->p = NULL; } static struct unit_test_suite reorder_test_suite = { .setup = test_setup, .teardown = test_teardown, .suite_name = "Reorder Unit Test Suite", .unit_test_cases = { TEST_CASE(test_reorder_create), TEST_CASE(test_reorder_init), TEST_CASE(test_reorder_find_existing), TEST_CASE(test_reorder_free), TEST_CASE(test_reorder_insert), TEST_CASE(test_reorder_drain), TEST_CASES_END() } }; static int test_reorder(void) { return unit_test_suite_runner(&reorder_test_suite); } #endif /* !RTE_EXEC_ENV_WINDOWS */ REGISTER_TEST_COMMAND(reorder_autotest, test_reorder);