/* SPDX-License-Identifier: BSD-3-Clause * Copyright (C) 2020 Intel Corporation. * All rights reserved. */ #include "spdk/stdinc.h" #include "spdk_cunit.h" #include "common/lib/test_env.c" #include "event/reactor.c" #include "spdk/thread.h" #include "spdk_internal/thread.h" #include "event/scheduler_static.c" #include "../module/scheduler/dynamic/scheduler_dynamic.c" static void test_create_reactor(void) { struct spdk_reactor reactor = {}; g_reactors = &reactor; g_reactor_count = 1; reactor_construct(&reactor, 0); CU_ASSERT(spdk_reactor_get(0) == &reactor); spdk_ring_free(reactor.events); reactor_interrupt_fini(&reactor); g_reactors = NULL; } static void test_init_reactors(void) { uint32_t core; MOCK_SET(spdk_env_get_current_core, 0); allocate_cores(3); CU_ASSERT(spdk_reactors_init(SPDK_DEFAULT_MSG_MEMPOOL_SIZE) == 0); CU_ASSERT(g_reactor_state == SPDK_REACTOR_STATE_INITIALIZED); for (core = 0; core < 3; core++) { CU_ASSERT(spdk_reactor_get(core) != NULL); } spdk_reactors_fini(); free_cores(); MOCK_CLEAR(spdk_env_get_current_core); } static void ut_event_fn(void *arg1, void *arg2) { uint8_t *test1 = arg1; uint8_t *test2 = arg2; *test1 = 1; *test2 = 0xFF; } static void test_event_call(void) { uint8_t test1 = 0, test2 = 0; struct spdk_event *evt; struct spdk_reactor *reactor; MOCK_SET(spdk_env_get_current_core, 0); allocate_cores(1); CU_ASSERT(spdk_reactors_init(SPDK_DEFAULT_MSG_MEMPOOL_SIZE) == 0); evt = spdk_event_allocate(0, ut_event_fn, &test1, &test2); CU_ASSERT(evt != NULL); MOCK_SET(spdk_env_get_current_core, 0); spdk_event_call(evt); reactor = spdk_reactor_get(0); CU_ASSERT(reactor != NULL); CU_ASSERT(event_queue_run_batch(reactor) == 1); CU_ASSERT(test1 == 1); CU_ASSERT(test2 == 0xFF); MOCK_CLEAR(spdk_env_get_current_core); spdk_reactors_fini(); free_cores(); MOCK_CLEAR(spdk_env_get_current_core); } static void test_schedule_thread(void) { struct spdk_cpuset cpuset = {}; struct spdk_thread *thread; struct spdk_reactor *reactor; struct spdk_lw_thread *lw_thread; MOCK_SET(spdk_env_get_current_core, 0); allocate_cores(5); CU_ASSERT(spdk_reactors_init(SPDK_DEFAULT_MSG_MEMPOOL_SIZE) == 0); spdk_cpuset_set_cpu(&cpuset, 3, true); g_next_core = 4; MOCK_SET(spdk_env_get_current_core, 3); /* _reactor_schedule_thread() will be called in spdk_thread_create() * at its end because it is passed to SPDK thread library by * spdk_thread_lib_init(). */ thread = spdk_thread_create(NULL, &cpuset); CU_ASSERT(thread != NULL); reactor = spdk_reactor_get(3); CU_ASSERT(reactor != NULL); CU_ASSERT(event_queue_run_batch(reactor) == 1); MOCK_CLEAR(spdk_env_get_current_core); lw_thread = TAILQ_FIRST(&reactor->threads); CU_ASSERT(lw_thread != NULL); CU_ASSERT(spdk_thread_get_from_ctx(lw_thread) == thread); TAILQ_REMOVE(&reactor->threads, lw_thread, link); reactor->thread_count--; spdk_set_thread(thread); spdk_thread_exit(thread); while (!spdk_thread_is_exited(thread)) { spdk_thread_poll(thread, 0, 0); } spdk_thread_destroy(thread); spdk_set_thread(NULL); spdk_reactors_fini(); free_cores(); } static void test_reschedule_thread(void) { struct spdk_cpuset cpuset = {}; struct spdk_thread *thread; struct spdk_reactor *reactor; struct spdk_lw_thread *lw_thread; MOCK_SET(spdk_env_get_current_core, 0); allocate_cores(3); CU_ASSERT(spdk_reactors_init(SPDK_DEFAULT_MSG_MEMPOOL_SIZE) == 0); spdk_cpuset_set_cpu(&g_reactor_core_mask, 0, true); spdk_cpuset_set_cpu(&g_reactor_core_mask, 1, true); spdk_cpuset_set_cpu(&g_reactor_core_mask, 2, true); g_next_core = 0; MOCK_SET(spdk_env_get_current_core, 1); /* Create and schedule the thread to core 1. */ spdk_cpuset_set_cpu(&cpuset, 1, true); thread = spdk_thread_create(NULL, &cpuset); CU_ASSERT(thread != NULL); lw_thread = spdk_thread_get_ctx(thread); reactor = spdk_reactor_get(1); CU_ASSERT(reactor != NULL); CU_ASSERT(event_queue_run_batch(reactor) == 1); CU_ASSERT(TAILQ_FIRST(&reactor->threads) == lw_thread); spdk_set_thread(thread); /* Call spdk_thread_set_cpumask() twice with different cpumask values. * The cpumask of the 2nd call will be used in reschedule operation. */ spdk_cpuset_zero(&cpuset); spdk_cpuset_set_cpu(&cpuset, 0, true); CU_ASSERT(spdk_thread_set_cpumask(&cpuset) == 0); spdk_cpuset_zero(&cpuset); spdk_cpuset_set_cpu(&cpuset, 2, true); CU_ASSERT(spdk_thread_set_cpumask(&cpuset) == 0); CU_ASSERT(lw_thread->resched == true); reactor_run(reactor); CU_ASSERT(lw_thread->resched == false); CU_ASSERT(TAILQ_EMPTY(&reactor->threads)); reactor = spdk_reactor_get(0); CU_ASSERT(reactor != NULL); MOCK_SET(spdk_env_get_current_core, 0); CU_ASSERT(event_queue_run_batch(reactor) == 0); reactor = spdk_reactor_get(2); CU_ASSERT(reactor != NULL); MOCK_SET(spdk_env_get_current_core, 2); CU_ASSERT(event_queue_run_batch(reactor) == 1); CU_ASSERT(TAILQ_FIRST(&reactor->threads) == lw_thread); MOCK_CLEAR(spdk_env_get_current_core); TAILQ_REMOVE(&reactor->threads, lw_thread, link); reactor->thread_count--; spdk_set_thread(thread); spdk_thread_exit(thread); while (!spdk_thread_is_exited(thread)) { spdk_thread_poll(thread, 0, 0); } spdk_thread_destroy(thread); spdk_set_thread(NULL); spdk_reactors_fini(); free_cores(); } static void for_each_reactor_done(void *arg1, void *arg2) { uint32_t *count = arg1; bool *done = arg2; (*count)++; *done = true; } static void for_each_reactor_cb(void *arg1, void *arg2) { uint32_t *count = arg1; (*count)++; } static void test_for_each_reactor(void) { uint32_t count = 0, i; bool done = false; struct spdk_reactor *reactor; MOCK_SET(spdk_env_get_current_core, 0); allocate_cores(5); CU_ASSERT(spdk_reactors_init(SPDK_DEFAULT_MSG_MEMPOOL_SIZE) == 0); spdk_for_each_reactor(for_each_reactor_cb, &count, &done, for_each_reactor_done); MOCK_CLEAR(spdk_env_get_current_core); /* We have not processed any event yet, so count and done should be 0 and false, * respectively. */ CU_ASSERT(count == 0); /* Poll each reactor to verify the event is passed to each */ for (i = 0; i < 5; i++) { reactor = spdk_reactor_get(i); CU_ASSERT(reactor != NULL); MOCK_SET(spdk_env_get_current_core, i); event_queue_run_batch(reactor); CU_ASSERT(count == (i + 1)); CU_ASSERT(done == false); MOCK_CLEAR(spdk_env_get_current_core); } MOCK_SET(spdk_env_get_current_core, 0); /* After each reactor is called, the completion calls it one more time. */ reactor = spdk_reactor_get(0); CU_ASSERT(reactor != NULL); event_queue_run_batch(reactor); CU_ASSERT(count == 6); CU_ASSERT(done == true); MOCK_CLEAR(spdk_env_get_current_core); spdk_reactors_fini(); free_cores(); } static int poller_run_idle(void *ctx) { uint64_t delay_us = (uint64_t)ctx; spdk_delay_us(delay_us); return 0; } static int poller_run_busy(void *ctx) { uint64_t delay_us = (uint64_t)ctx; spdk_delay_us(delay_us); return 1; } static void test_reactor_stats(void) { struct spdk_cpuset cpuset = {}; struct spdk_thread *thread1, *thread2; struct spdk_reactor *reactor; struct spdk_poller *busy1, *idle1, *busy2, *idle2; struct spdk_thread_stats stats; int rc __attribute__((unused)); /* Test case is the following: * Create a reactor on CPU core0. * Create thread1 and thread2 simultaneously on reactor0 at TSC = 100. * Reactor runs * - thread1 for 100 with busy * - thread2 for 200 with idle * - thread1 for 300 with idle * - thread2 for 400 with busy. * Then, * - both elapsed TSC of thread1 and thread2 should be 1100 (= 100 + 1000). * - busy TSC of reactor should be 500 (= 100 + 400). * - idle TSC of reactor should be 500 (= 200 + 300). * * After that reactor0 runs with no threads for 900 TSC. * Create thread1 on reactor0 at TSC = 2000. * Reactor runs * - thread1 for 100 with busy * Then, * - elapsed TSC of thread1 should be 2100 (= 2000+ 100). * - busy TSC of reactor should be 600 (= 500 + 100). * - idle TSC of reactor should be 500 (= 500 + 900). */ MOCK_SET(spdk_env_get_current_core, 0); allocate_cores(1); CU_ASSERT(spdk_reactors_init(SPDK_DEFAULT_MSG_MEMPOOL_SIZE) == 0); spdk_cpuset_set_cpu(&cpuset, 0, true); reactor = spdk_reactor_get(0); SPDK_CU_ASSERT_FATAL(reactor != NULL); /* First reactor_run() sets the tsc_last. */ MOCK_SET(spdk_get_ticks, 100); reactor->tsc_last = spdk_get_ticks(); thread1 = spdk_thread_create(NULL, &cpuset); SPDK_CU_ASSERT_FATAL(thread1 != NULL); thread2 = spdk_thread_create(NULL, &cpuset); SPDK_CU_ASSERT_FATAL(thread2 != NULL); spdk_set_thread(thread1); busy1 = spdk_poller_register(poller_run_busy, (void *)100, 0); CU_ASSERT(busy1 != NULL); spdk_set_thread(thread2); idle2 = spdk_poller_register(poller_run_idle, (void *)300, 0); CU_ASSERT(idle2 != NULL); _reactor_run(reactor); spdk_set_thread(thread1); CU_ASSERT(spdk_thread_get_last_tsc(thread1) == 200); CU_ASSERT(spdk_thread_get_stats(&stats) == 0); CU_ASSERT(stats.busy_tsc == 100); CU_ASSERT(stats.idle_tsc == 0); spdk_set_thread(thread2); CU_ASSERT(spdk_thread_get_last_tsc(thread2) == 500); CU_ASSERT(spdk_thread_get_stats(&stats) == 0); CU_ASSERT(stats.busy_tsc == 0); CU_ASSERT(stats.idle_tsc == 300); CU_ASSERT(reactor->busy_tsc == 100); CU_ASSERT(reactor->idle_tsc == 300); /* 100 + 100 + 300 = 500 ticks elapsed */ CU_ASSERT(reactor->tsc_last == 500); spdk_set_thread(thread1); spdk_poller_unregister(&busy1); idle1 = spdk_poller_register(poller_run_idle, (void *)200, 0); CU_ASSERT(idle1 != NULL); spdk_set_thread(thread2); spdk_poller_unregister(&idle2); busy2 = spdk_poller_register(poller_run_busy, (void *)400, 0); CU_ASSERT(busy2 != NULL); _reactor_run(reactor); spdk_set_thread(thread1); CU_ASSERT(spdk_thread_get_last_tsc(thread1) == 700); CU_ASSERT(spdk_thread_get_stats(&stats) == 0); CU_ASSERT(stats.busy_tsc == 100); CU_ASSERT(stats.idle_tsc == 200); spdk_set_thread(thread2); CU_ASSERT(spdk_thread_get_last_tsc(thread2) == 1100); CU_ASSERT(spdk_thread_get_stats(&stats) == 0); CU_ASSERT(stats.busy_tsc == 400); CU_ASSERT(stats.idle_tsc == 300); CU_ASSERT(reactor->busy_tsc == 500); CU_ASSERT(reactor->idle_tsc == 500); /* 500 + 200 + 400 = 1100 ticks elapsed */ CU_ASSERT(reactor->tsc_last == 1100); spdk_set_thread(thread1); spdk_poller_unregister(&idle1); spdk_thread_exit(thread1); spdk_set_thread(thread2); spdk_poller_unregister(&busy2); spdk_thread_exit(thread2); _reactor_run(reactor); /* After 900 ticks new thread is created. */ /* 1100 + 900 = 2000 ticks elapsed */ MOCK_SET(spdk_get_ticks, 2000); _reactor_run(reactor); CU_ASSERT(reactor->tsc_last == 2000); thread1 = spdk_thread_create(NULL, &cpuset); SPDK_CU_ASSERT_FATAL(thread1 != NULL); spdk_set_thread(thread1); busy1 = spdk_poller_register(poller_run_busy, (void *)100, 0); CU_ASSERT(busy1 != NULL); _reactor_run(reactor); spdk_set_thread(thread1); CU_ASSERT(spdk_thread_get_last_tsc(thread1) == 2100); CU_ASSERT(spdk_thread_get_stats(&stats) == 0); CU_ASSERT(stats.busy_tsc == 100); CU_ASSERT(stats.idle_tsc == 0); CU_ASSERT(reactor->busy_tsc == 600); CU_ASSERT(reactor->idle_tsc == 1400); /* 2000 + 100 = 2100 ticks elapsed */ CU_ASSERT(reactor->tsc_last == 2100); spdk_set_thread(thread1); spdk_poller_unregister(&busy1); spdk_thread_exit(thread1); _reactor_run(reactor); CU_ASSERT(TAILQ_EMPTY(&reactor->threads)); /* No further than 2100 ticks elapsed */ CU_ASSERT(reactor->tsc_last == 2100); spdk_reactors_fini(); free_cores(); MOCK_CLEAR(spdk_env_get_current_core); } static uint32_t _run_events_till_completion(uint32_t reactor_count) { struct spdk_reactor *reactor; struct spdk_thread *app_thread = spdk_thread_get_app_thread(); uint32_t i, events; uint32_t total_events = 0; do { events = 0; for (i = 0; i < reactor_count; i++) { reactor = spdk_reactor_get(i); CU_ASSERT(reactor != NULL); MOCK_SET(spdk_env_get_current_core, i); events += event_queue_run_batch(reactor); /* Some events still require app_thread to run */ MOCK_SET(spdk_env_get_current_core, g_scheduling_reactor->lcore); spdk_thread_poll(app_thread, 0, 0); MOCK_CLEAR(spdk_env_get_current_core); } total_events += events; } while (events > 0); return total_events; } static void test_scheduler(void) { struct spdk_cpuset cpuset = {}; struct spdk_thread *thread[3]; struct spdk_reactor *reactor; struct spdk_poller *busy, *idle; uint64_t reactor_busy_tsc[3], reactor_idle_tsc[3]; uint64_t thread_busy_tsc[3], thread_idle_tsc[3]; uint64_t current_time, end_time, busy_time, idle_time; struct spdk_thread_stats stats; int i; MOCK_SET(spdk_env_get_current_core, 0); allocate_cores(3); CU_ASSERT(spdk_reactors_init(SPDK_DEFAULT_MSG_MEMPOOL_SIZE) == 0); spdk_scheduler_set("dynamic"); for (i = 0; i < 3; i++) { spdk_cpuset_set_cpu(&g_reactor_core_mask, i, true); } g_next_core = 0; /* Create threads. */ for (i = 0; i < 3; i++) { spdk_cpuset_zero(&cpuset); spdk_cpuset_set_cpu(&cpuset, i, true); thread[i] = spdk_thread_create(NULL, &cpuset); CU_ASSERT(thread[i] != NULL); thread_busy_tsc[i] = 0; thread_idle_tsc[i] = 0; } for (i = 0; i < 3; i++) { reactor = spdk_reactor_get(i); CU_ASSERT(reactor != NULL); MOCK_SET(spdk_env_get_current_core, i); event_queue_run_batch(reactor); CU_ASSERT(!TAILQ_EMPTY(&reactor->threads)); reactor_busy_tsc[i] = 0; reactor_idle_tsc[i] = 0; } g_reactor_state = SPDK_REACTOR_STATE_RUNNING; MOCK_SET(spdk_env_get_current_core, 0); /* Init threads stats (low load) */ /* Each reactor starts at 100 tsc, * ends at 100 + 100 = 200 tsc. */ current_time = 100; idle_time = 100; busy_time = 0; end_time = current_time + idle_time + busy_time; for (i = 0; i < 3; i++) { spdk_set_thread(thread[i]); idle = spdk_poller_register(poller_run_idle, (void *)idle_time, 0); reactor = spdk_reactor_get(i); CU_ASSERT(reactor != NULL); MOCK_SET(spdk_get_ticks, current_time); reactor->tsc_last = spdk_get_ticks(); _reactor_run(reactor); CU_ASSERT(reactor->tsc_last == end_time); spdk_poller_unregister(&idle); CU_ASSERT(spdk_thread_get_last_tsc(thread[i]) == end_time); CU_ASSERT(spdk_thread_get_stats(&stats) == 0); CU_ASSERT(stats.busy_tsc == busy_time); thread_busy_tsc[i] = stats.busy_tsc; CU_ASSERT(stats.idle_tsc == idle_time); thread_idle_tsc[i] = stats.idle_tsc; CU_ASSERT(reactor->busy_tsc == busy_time); reactor_busy_tsc[i] = reactor->busy_tsc; CU_ASSERT(reactor->idle_tsc == idle_time); reactor_idle_tsc[i] = reactor->idle_tsc; } CU_ASSERT(spdk_get_ticks() == end_time); current_time = 200; MOCK_SET(spdk_env_get_current_core, 0); _reactors_scheduler_gather_metrics(NULL, NULL); _run_events_till_completion(3); MOCK_SET(spdk_env_get_current_core, 0); /* Threads were idle, so all of them should be placed on core 0. * All reactors start and end at 200 tsc, since for this iteration * the threads have no pollers (so they consume no idle or busy tsc). */ for (i = 0; i < 3; i++) { reactor = spdk_reactor_get(i); CU_ASSERT(reactor != NULL); MOCK_SET(spdk_get_ticks, current_time); _reactor_run(reactor); CU_ASSERT(reactor->tsc_last == current_time); CU_ASSERT(reactor->busy_tsc == reactor_busy_tsc[i]); CU_ASSERT(reactor->idle_tsc == reactor_idle_tsc[i]); spdk_set_thread(thread[i]); CU_ASSERT(spdk_thread_get_last_tsc(thread[i]) == current_time); CU_ASSERT(spdk_thread_get_stats(&stats) == 0); CU_ASSERT(stats.busy_tsc == thread_busy_tsc[i]); CU_ASSERT(stats.idle_tsc == thread_idle_tsc[i]); } CU_ASSERT(spdk_get_ticks() == current_time); /* 2 threads should be scheduled to core 0 */ reactor = spdk_reactor_get(0); CU_ASSERT(reactor != NULL); MOCK_SET(spdk_env_get_current_core, 0); event_queue_run_batch(reactor); reactor = spdk_reactor_get(0); CU_ASSERT(reactor != NULL); CU_ASSERT(!TAILQ_EMPTY(&reactor->threads)); reactor = spdk_reactor_get(1); CU_ASSERT(reactor != NULL); CU_ASSERT(TAILQ_EMPTY(&reactor->threads)); reactor = spdk_reactor_get(2); CU_ASSERT(reactor != NULL); CU_ASSERT(TAILQ_EMPTY(&reactor->threads)); /* Make threads busy */ reactor = spdk_reactor_get(0); CU_ASSERT(reactor != NULL); /* All threads run on single reactor, * reactor 0 starts at 200 tsc, * ending at 200 + (100 * 3) = 500 tsc. */ MOCK_SET(spdk_get_ticks, current_time); busy_time = 100; idle_time = 0; for (i = 0; i < 3; i++) { spdk_set_thread(thread[i]); busy = spdk_poller_register(poller_run_busy, (void *)busy_time, 0); _reactor_run(reactor); spdk_poller_unregister(&busy); current_time += busy_time; CU_ASSERT(reactor->tsc_last == current_time); CU_ASSERT(spdk_thread_get_last_tsc(thread[i]) == current_time); CU_ASSERT(spdk_thread_get_stats(&stats) == 0); CU_ASSERT(stats.busy_tsc == thread_busy_tsc[i] + busy_time); CU_ASSERT(stats.idle_tsc == thread_idle_tsc[i] + idle_time);; } CU_ASSERT(reactor->busy_tsc == reactor_busy_tsc[0] + 3 * busy_time); CU_ASSERT(reactor->idle_tsc == reactor_idle_tsc[0] + 3 * idle_time); CU_ASSERT(spdk_get_ticks() == current_time); /* Run scheduler again, this time all threads are busy */ MOCK_SET(spdk_env_get_current_core, 0); _reactors_scheduler_gather_metrics(NULL, NULL); _run_events_till_completion(3); MOCK_SET(spdk_env_get_current_core, 0); /* Threads were busy, 2 will stay on core 0, 1 will move to core 1 */ for (i = 0; i < 3; i++) { MOCK_SET(spdk_env_get_current_core, i); reactor = spdk_reactor_get(i); CU_ASSERT(reactor != NULL); _reactor_run(reactor); } for (i = 0; i < 3; i++) { reactor = spdk_reactor_get(i); CU_ASSERT(reactor != NULL); CU_ASSERT(!TAILQ_EMPTY(&reactor->threads)); } g_reactor_state = SPDK_REACTOR_STATE_INITIALIZED; /* Destroy threads */ for (i = 0; i < 3; i++) { spdk_set_thread(thread[i]); spdk_thread_exit(thread[i]); } for (i = 0; i < 3; i++) { reactor = spdk_reactor_get(i); CU_ASSERT(reactor != NULL); reactor_run(reactor); } spdk_set_thread(NULL); MOCK_CLEAR(spdk_env_get_current_core); spdk_reactors_fini(); free_cores(); } uint8_t g_curr_freq; static int core_freq_up(uint32_t lcore) { if (g_curr_freq != UINT8_MAX) { g_curr_freq++; } return 0; } static int core_freq_down(uint32_t lcore) { if (g_curr_freq != 0) { g_curr_freq--; } return 0; } static int core_freq_max(uint32_t lcore) { g_curr_freq = UINT8_MAX; return 0; } DEFINE_STUB(core_freq_min, int, (uint32_t lcore_id), 0); DEFINE_STUB(core_caps, int, (uint32_t lcore_id, struct spdk_governor_capabilities *capabilities), 0); DEFINE_STUB(governor_init, int, (void), 0); DEFINE_STUB_V(governor_deinit, (void)); static struct spdk_governor governor = { .name = "dpdk_governor", .get_core_curr_freq = NULL, .core_freq_up = core_freq_up, .core_freq_down = core_freq_down, .set_core_freq_max = core_freq_max, .set_core_freq_min = core_freq_min, .get_core_capabilities = core_caps, .init = governor_init, .deinit = governor_deinit, }; static void test_governor(void) { struct spdk_cpuset cpuset = {}; struct spdk_thread *thread[2]; struct spdk_lw_thread *lw_thread; struct spdk_reactor *reactor; struct spdk_poller *busy, *idle; uint8_t last_freq = 100; int i; MOCK_SET(spdk_env_get_current_core, 0); g_curr_freq = last_freq; spdk_governor_register(&governor); allocate_cores(2); CU_ASSERT(spdk_reactors_init(SPDK_DEFAULT_MSG_MEMPOOL_SIZE) == 0); spdk_scheduler_set("dynamic"); spdk_governor_set("dpdk_governor"); for (i = 0; i < 2; i++) { spdk_cpuset_set_cpu(&g_reactor_core_mask, i, true); } /* Create threads. */ for (i = 0; i < 2; i++) { spdk_cpuset_zero(&cpuset); spdk_cpuset_set_cpu(&cpuset, i, true); thread[i] = spdk_thread_create(NULL, &cpuset); CU_ASSERT(thread[i] != NULL); } for (i = 0; i < 2; i++) { reactor = spdk_reactor_get(i); CU_ASSERT(reactor != NULL); MOCK_SET(spdk_env_get_current_core, i); CU_ASSERT(event_queue_run_batch(reactor) == 1); CU_ASSERT(!TAILQ_EMPTY(&reactor->threads)); } reactor = spdk_reactor_get(0); CU_ASSERT(reactor != NULL); MOCK_SET(spdk_env_get_current_core, 0); g_reactor_state = SPDK_REACTOR_STATE_RUNNING; /* TEST 1 */ /* Init thread stats (low load) */ MOCK_SET(spdk_get_ticks, 100); reactor->tsc_last = 100; for (i = 0; i < 2; i++) { spdk_set_thread(thread[i]); idle = spdk_poller_register(poller_run_idle, (void *)200, 0); reactor = spdk_reactor_get(i); CU_ASSERT(reactor != NULL); MOCK_SET(spdk_env_get_current_core, i); _reactor_run(reactor); spdk_poller_unregister(&idle); /* Update last stats so that we don't have to call scheduler twice */ lw_thread = spdk_thread_get_ctx(thread[i]); lw_thread->current_stats.idle_tsc = 1; } MOCK_SET(spdk_env_get_current_core, 0); _reactors_scheduler_gather_metrics(NULL, NULL); CU_ASSERT(_run_events_till_completion(2) == 2); MOCK_SET(spdk_env_get_current_core, 0); /* Threads were idle, so all of them should be placed on core 0 */ for (i = 0; i < 2; i++) { reactor = spdk_reactor_get(i); CU_ASSERT(reactor != NULL); _reactor_run(reactor); } /* 1 thread should be scheduled to core 0 */ reactor = spdk_reactor_get(0); CU_ASSERT(reactor != NULL); MOCK_SET(spdk_env_get_current_core, 0); CU_ASSERT(event_queue_run_batch(reactor) == 1); /* Main core should be busy less than 50% time now - frequency should be lowered */ CU_ASSERT(g_curr_freq == last_freq - 1); last_freq = g_curr_freq; /* TEST 2 */ /* Make first threads busy - both threads will be still on core 0, but frequency will have to be raised */ spdk_set_thread(thread[0]); busy = spdk_poller_register(poller_run_busy, (void *)1000, 0); _reactor_run(reactor); spdk_poller_unregister(&busy); spdk_set_thread(thread[1]); idle = spdk_poller_register(poller_run_idle, (void *)100, 0); _reactor_run(reactor); spdk_poller_unregister(&idle); /* Run scheduler again */ MOCK_SET(spdk_env_get_current_core, 0); _reactors_scheduler_gather_metrics(NULL, NULL); i = _run_events_till_completion(2); /* Six runs when interrupt mode is supported, two if not. */ CU_ASSERT(i == 6 || i == 2); MOCK_SET(spdk_env_get_current_core, 0); /* Main core should be busy more than 50% time now - frequency should be raised */ CU_ASSERT(g_curr_freq == last_freq + 1); /* TEST 3 */ /* Make second thread very busy so that it will be moved to second core */ spdk_set_thread(thread[1]); busy = spdk_poller_register(poller_run_busy, (void *)2000, 0); _reactor_run(reactor); spdk_poller_unregister(&busy); /* Update first thread stats */ spdk_set_thread(thread[0]); idle = spdk_poller_register(poller_run_idle, (void *)100, 0); _reactor_run(reactor); spdk_poller_unregister(&idle); /* Run scheduler again */ MOCK_SET(spdk_env_get_current_core, 0); _reactors_scheduler_gather_metrics(NULL, NULL); i = _run_events_till_completion(2); /* Six runs when interrupt mode is supported, two if not. */ CU_ASSERT(i == 6 || i == 2); MOCK_SET(spdk_env_get_current_core, 0); for (i = 0; i < 2; i++) { reactor = spdk_reactor_get(i); CU_ASSERT(reactor != NULL); _reactor_run(reactor); } /* Main core frequency should be set to max when we have busy threads on other cores */ CU_ASSERT(g_curr_freq == UINT8_MAX); g_reactor_state = SPDK_REACTOR_STATE_INITIALIZED; /* Destroy threads */ for (i = 0; i < 2; i++) { spdk_set_thread(thread[i]); spdk_thread_exit(thread[i]); } for (i = 0; i < 2; i++) { reactor = spdk_reactor_get(i); CU_ASSERT(reactor != NULL); reactor_run(reactor); } spdk_set_thread(NULL); MOCK_CLEAR(spdk_env_get_current_core); spdk_reactors_fini(); free_cores(); } int main(int argc, char **argv) { CU_pSuite suite = NULL; unsigned int num_failures; CU_set_error_action(CUEA_ABORT); CU_initialize_registry(); suite = CU_add_suite("app_suite", NULL, NULL); CU_ADD_TEST(suite, test_create_reactor); CU_ADD_TEST(suite, test_init_reactors); CU_ADD_TEST(suite, test_event_call); CU_ADD_TEST(suite, test_schedule_thread); CU_ADD_TEST(suite, test_reschedule_thread); CU_ADD_TEST(suite, test_for_each_reactor); CU_ADD_TEST(suite, test_reactor_stats); CU_ADD_TEST(suite, test_scheduler); CU_ADD_TEST(suite, test_governor); CU_basic_set_mode(CU_BRM_VERBOSE); CU_basic_run_tests(); num_failures = CU_get_number_of_failures(); CU_cleanup_registry(); return num_failures; }