static int create_table(unsigned with_data, unsigned table_index) { char name[RTE_HASH_NAMESIZE]; if (with_data) /* Table will store 8-byte data */ sprintf(name, "test_hash%d_data", hashtest_key_lens[table_index]); else sprintf(name, "test_hash%d", hashtest_key_lens[table_index]); ut_params.name = name; ut_params.key_len = hashtest_key_lens[table_index]; ut_params.socket_id = rte_socket_id(); h[table_index] = rte_hash_find_existing(name); if (h[table_index] != NULL) /* * If table was already created, free it to create it again, * so we force it is empty */ rte_hash_free(h[table_index]); h[table_index] = rte_hash_create(&ut_params); if (h[table_index] == NULL) { printf("Error creating table\n"); return -1; } return 0; }
/* * This function is run in the secondary instance to test that creation of * objects fails in a secondary */ static int run_object_creation_tests(void) { const unsigned flags = 0; const unsigned size = 1024; const unsigned elt_size = 64; const unsigned cache_size = 64; const unsigned priv_data_size = 32; printf("### Testing object creation - expect lots of mz reserve errors!\n"); rte_errno = 0; if ((rte_memzone_reserve("test_mz", size, rte_socket_id(), flags) == NULL) && (rte_memzone_lookup("test_mz") == NULL)) { printf("Error: unexpected return value from rte_memzone_reserve\n"); return -1; } printf("# Checked rte_memzone_reserve() OK\n"); rte_errno = 0; if ((rte_ring_create( "test_ring", size, rte_socket_id(), flags) == NULL) && (rte_ring_lookup("test_ring") == NULL)){ printf("Error: unexpected return value from rte_ring_create()\n"); return -1; } printf("# Checked rte_ring_create() OK\n"); rte_errno = 0; if ((rte_mempool_create("test_mp", size, elt_size, cache_size, priv_data_size, NULL, NULL, NULL, NULL, rte_socket_id(), flags) == NULL) && (rte_mempool_lookup("test_mp") == NULL)){ printf("Error: unexpected return value from rte_mempool_create()\n"); return -1; } printf("# Checked rte_mempool_create() OK\n"); #ifdef RTE_LIBRTE_HASH const struct rte_hash_parameters hash_params = { .name = "test_mp_hash" }; rte_errno=0; if ((rte_hash_create(&hash_params) != NULL) && (rte_hash_find_existing(hash_params.name) == NULL)){ printf("Error: unexpected return value from rte_hash_create()\n"); return -1; } printf("# Checked rte_hash_create() OK\n"); const struct rte_fbk_hash_params fbk_params = { .name = "test_fbk_mp_hash" }; rte_errno=0; if ((rte_fbk_hash_create(&fbk_params) != NULL) && (rte_fbk_hash_find_existing(fbk_params.name) == NULL)){ printf("Error: unexpected return value from rte_fbk_hash_create()\n"); return -1; } printf("# Checked rte_fbk_hash_create() OK\n"); #endif #ifdef RTE_LIBRTE_LPM rte_errno=0; struct rte_lpm_config config; config.max_rules = rte_socket_id(); config.number_tbl8s = 256; config.flags = 0; if ((rte_lpm_create("test_lpm", size, &config) != NULL) && (rte_lpm_find_existing("test_lpm") == NULL)){ printf("Error: unexpected return value from rte_lpm_create()\n"); return -1; } printf("# Checked rte_lpm_create() OK\n"); #endif /* Run a test_pci call */ if (test_pci() != 0) { printf("PCI scan failed in secondary\n"); if (getuid() == 0) /* pci scans can fail as non-root */ return -1; } else printf("PCI scan succeeded in secondary\n"); return 0; } /* if called in a primary process, just spawns off a secondary process to * run validation tests - which brings us right back here again... * if called in a secondary process, this runs a series of API tests to check * how things run in a secondary instance. */ int test_mp_secondary(void) { if (rte_eal_process_type() == RTE_PROC_PRIMARY) { if (!test_pci_run) { printf("=== Running pre-requisite test of test_pci\n"); test_pci(); printf("=== Requisite test done\n"); } return run_secondary_instances(); } printf("IN SECONDARY PROCESS\n"); return run_object_creation_tests(); } static struct test_command multiprocess_cmd = { .command = "multiprocess_autotest", .callback = test_mp_secondary, }; REGISTER_TEST_COMMAND(multiprocess_cmd);