/* SPDX-License-Identifier: BSD-3-Clause * Copyright(c) 2018-2019 Arm Limited */ #include #include #include #include #include #include #include #include #include #include #include #include #include #include #include #include "test.h" /* * Ticketlock test * ============= * * - There is a global ticketlock and a table of ticketlocks (one per lcore). * * - The test function takes all of these locks and launches the * ``test_ticketlock_per_core()`` function on each core (except the master). * * - The function takes the global lock, display something, then releases * the global lock. * - The function takes the per-lcore lock, display something, then releases * the per-core lock. * * - The main function unlocks the per-lcore locks sequentially and * waits between each lock. This triggers the display of a message * for each core, in the correct order. The autotest script checks that * this order is correct. * * - A load test is carried out, with all cores attempting to lock a single lock * multiple times */ static rte_ticketlock_t tl, tl_try; static rte_ticketlock_t tl_tab[RTE_MAX_LCORE]; static rte_ticketlock_recursive_t tlr; static unsigned int count; static rte_atomic32_t synchro; static int test_ticketlock_per_core(__attribute__((unused)) void *arg) { rte_ticketlock_lock(&tl); printf("Global lock taken on core %u\n", rte_lcore_id()); rte_ticketlock_unlock(&tl); rte_ticketlock_lock(&tl_tab[rte_lcore_id()]); printf("Hello from core %u !\n", rte_lcore_id()); rte_ticketlock_unlock(&tl_tab[rte_lcore_id()]); return 0; } static int test_ticketlock_recursive_per_core(__attribute__((unused)) void *arg) { unsigned int id = rte_lcore_id(); rte_ticketlock_recursive_lock(&tlr); printf("Global recursive lock taken on core %u - count = %d\n", id, tlr.count); rte_ticketlock_recursive_lock(&tlr); printf("Global recursive lock taken on core %u - count = %d\n", id, tlr.count); rte_ticketlock_recursive_lock(&tlr); printf("Global recursive lock taken on core %u - count = %d\n", id, tlr.count); printf("Hello from within recursive locks from core %u !\n", id); rte_ticketlock_recursive_unlock(&tlr); printf("Global recursive lock released on core %u - count = %d\n", id, tlr.count); rte_ticketlock_recursive_unlock(&tlr); printf("Global recursive lock released on core %u - count = %d\n", id, tlr.count); rte_ticketlock_recursive_unlock(&tlr); printf("Global recursive lock released on core %u - count = %d\n", id, tlr.count); return 0; } static rte_ticketlock_t lk = RTE_TICKETLOCK_INITIALIZER; static uint64_t lcount __rte_cache_aligned; static uint64_t lcore_count[RTE_MAX_LCORE] __rte_cache_aligned; static uint64_t time_cost[RTE_MAX_LCORE]; #define MAX_LOOP 10000 static int load_loop_fn(void *func_param) { uint64_t time_diff = 0, begin; uint64_t hz = rte_get_timer_hz(); const int use_lock = *(int *)func_param; const unsigned int lcore = rte_lcore_id(); /* wait synchro for slaves */ if (lcore != rte_get_master_lcore()) while (rte_atomic32_read(&synchro) == 0) ; begin = rte_rdtsc_precise(); while (lcore_count[lcore] < MAX_LOOP) { if (use_lock) rte_ticketlock_lock(&lk); lcore_count[lcore]++; lcount++; if (use_lock) rte_ticketlock_unlock(&lk); } time_diff = rte_rdtsc_precise() - begin; time_cost[lcore] = time_diff * 1000000 / hz; return 0; } static int test_ticketlock_perf(void) { unsigned int i; uint64_t tcount = 0; uint64_t total_time = 0; int lock = 0; const unsigned int lcore = rte_lcore_id(); printf("\nTest with no lock on single core...\n"); load_loop_fn(&lock); printf("Core [%u] cost time = %"PRIu64" us\n", lcore, time_cost[lcore]); memset(lcore_count, 0, sizeof(lcore_count)); memset(time_cost, 0, sizeof(time_cost)); printf("\nTest with lock on single core...\n"); lock = 1; load_loop_fn(&lock); printf("Core [%u] cost time = %"PRIu64" us\n", lcore, time_cost[lcore]); memset(lcore_count, 0, sizeof(lcore_count)); memset(time_cost, 0, sizeof(time_cost)); lcount = 0; printf("\nTest with lock on %u cores...\n", rte_lcore_count()); /* Clear synchro and start slaves */ rte_atomic32_set(&synchro, 0); rte_eal_mp_remote_launch(load_loop_fn, &lock, SKIP_MASTER); /* start synchro and launch test on master */ rte_atomic32_set(&synchro, 1); load_loop_fn(&lock); rte_eal_mp_wait_lcore(); RTE_LCORE_FOREACH(i) { printf("Core [%u] cost time = %"PRIu64" us\n", i, time_cost[i]); tcount += lcore_count[i]; total_time += time_cost[i]; } if (tcount != lcount) return -1; printf("Total cost time = %"PRIu64" us\n", total_time); return 0; } /* * Use rte_ticketlock_trylock() to trylock a ticketlock object, * If it could not lock the object successfully, it would * return immediately and the variable of "count" would be * increased by one per times. the value of "count" could be * checked as the result later. */ static int test_ticketlock_try(__attribute__((unused)) void *arg) { if (rte_ticketlock_trylock(&tl_try) == 0) { rte_ticketlock_lock(&tl); count++; rte_ticketlock_unlock(&tl); } return 0; } /* * Test rte_eal_get_lcore_state() in addition to ticketlocks * as we have "waiting" then "running" lcores. */ static int test_ticketlock(void) { int ret = 0; int i; /* slave cores should be waiting: print it */ RTE_LCORE_FOREACH_SLAVE(i) { printf("lcore %d state: %d\n", i, (int) rte_eal_get_lcore_state(i)); } rte_ticketlock_init(&tl); rte_ticketlock_init(&tl_try); rte_ticketlock_recursive_init(&tlr); RTE_LCORE_FOREACH_SLAVE(i) { rte_ticketlock_init(&tl_tab[i]); } rte_ticketlock_lock(&tl); RTE_LCORE_FOREACH_SLAVE(i) { rte_ticketlock_lock(&tl_tab[i]); rte_eal_remote_launch(test_ticketlock_per_core, NULL, i); } /* slave cores should be busy: print it */ RTE_LCORE_FOREACH_SLAVE(i) { printf("lcore %d state: %d\n", i, (int) rte_eal_get_lcore_state(i)); } rte_ticketlock_unlock(&tl); RTE_LCORE_FOREACH_SLAVE(i) { rte_ticketlock_unlock(&tl_tab[i]); rte_delay_ms(10); } rte_eal_mp_wait_lcore(); rte_ticketlock_recursive_lock(&tlr); /* * Try to acquire a lock that we already own */ if (!rte_ticketlock_recursive_trylock(&tlr)) { printf("rte_ticketlock_recursive_trylock failed on a lock that " "we already own\n"); ret = -1; } else rte_ticketlock_recursive_unlock(&tlr); RTE_LCORE_FOREACH_SLAVE(i) { rte_eal_remote_launch(test_ticketlock_recursive_per_core, NULL, i); } rte_ticketlock_recursive_unlock(&tlr); rte_eal_mp_wait_lcore(); /* * Test if it could return immediately from try-locking a locked object. * Here it will lock the ticketlock object first, then launch all the * slave lcores to trylock the same ticketlock object. * All the slave lcores should give up try-locking a locked object and * return immediately, and then increase the "count" initialized with * zero by one per times. * We can check if the "count" is finally equal to the number of all * slave lcores to see if the behavior of try-locking a locked * ticketlock object is correct. */ if (rte_ticketlock_trylock(&tl_try) == 0) return -1; count = 0; RTE_LCORE_FOREACH_SLAVE(i) { rte_eal_remote_launch(test_ticketlock_try, NULL, i); } rte_eal_mp_wait_lcore(); rte_ticketlock_unlock(&tl_try); if (rte_ticketlock_is_locked(&tl)) { printf("ticketlock is locked but it should not be\n"); return -1; } rte_ticketlock_lock(&tl); if (count != (rte_lcore_count() - 1)) ret = -1; rte_ticketlock_unlock(&tl); /* * Test if it can trylock recursively. * Use rte_ticketlock_recursive_trylock() to check if it can lock * a ticketlock object recursively. Here it will try to lock a * ticketlock object twice. */ if (rte_ticketlock_recursive_trylock(&tlr) == 0) { printf("It failed to do the first ticketlock_recursive_trylock " "but it should able to do\n"); return -1; } if (rte_ticketlock_recursive_trylock(&tlr) == 0) { printf("It failed to do the second ticketlock_recursive_trylock " "but it should able to do\n"); return -1; } rte_ticketlock_recursive_unlock(&tlr); rte_ticketlock_recursive_unlock(&tlr); if (test_ticketlock_perf() < 0) return -1; return ret; } REGISTER_TEST_COMMAND(ticketlock_autotest, test_ticketlock);