#undef G_DISABLE_ASSERT #undef G_LOG_DOMAIN #include #include #define DEBUG_MSG(x) /* #define DEBUG_MSG(args) g_printerr args ; g_printerr ("\n"); */ #define WAIT 5 /* seconds */ #define MAX_THREADS 10 /* if > 0 the test will run continously (since the test ends when * thread count is 0), if -1 it means no limit to unused threads * if 0 then no unused threads are possible */ #define MAX_UNUSED_THREADS -1 G_LOCK_DEFINE_STATIC (thread_counter_pools); static gulong abs_thread_counter = 0; static gulong running_thread_counter = 0; static gulong leftover_task_counter = 0; G_LOCK_DEFINE_STATIC (last_thread); static guint last_thread_id = 0; G_LOCK_DEFINE_STATIC (thread_counter_sort); static gulong sort_thread_counter = 0; static GThreadPool *idle_pool = NULL; static GMainLoop *main_loop = NULL; static void test_thread_functions (void) { gint max_unused_threads; guint max_idle_time; /* This function attempts to call functions which don't need a * threadpool to operate to make sure no uninitialised pointers * accessed and no errors occur. */ max_unused_threads = 3; DEBUG_MSG (("[funcs] Setting max unused threads to %d", max_unused_threads)); g_thread_pool_set_max_unused_threads (max_unused_threads); DEBUG_MSG (("[funcs] Getting max unused threads = %d", g_thread_pool_get_max_unused_threads ())); g_assert (g_thread_pool_get_max_unused_threads() == max_unused_threads); DEBUG_MSG (("[funcs] Getting num unused threads = %d", g_thread_pool_get_num_unused_threads ())); g_assert (g_thread_pool_get_num_unused_threads () == 0); DEBUG_MSG (("[funcs] Stopping unused threads")); g_thread_pool_stop_unused_threads (); max_idle_time = 10 * G_USEC_PER_SEC; DEBUG_MSG (("[funcs] Setting max idle time to %d", max_idle_time)); g_thread_pool_set_max_idle_time (max_idle_time); DEBUG_MSG (("[funcs] Getting max idle time = %d", g_thread_pool_get_max_idle_time ())); g_assert (g_thread_pool_get_max_idle_time () == max_idle_time); DEBUG_MSG (("[funcs] Setting max idle time to 0")); g_thread_pool_set_max_idle_time (0); DEBUG_MSG (("[funcs] Getting max idle time = %d", g_thread_pool_get_max_idle_time ())); g_assert (g_thread_pool_get_max_idle_time () == 0); } static void test_count_threads_foreach (GThread *thread, guint *count) { ++*count; } static guint test_count_threads (void) { guint count = 0; g_thread_foreach ((GFunc) test_count_threads_foreach, &count); /* Exclude main thread */ return count - 1; } static void test_thread_stop_unused (void) { GThreadPool *pool; guint i; guint limit = 100; /* Spawn a few threads. */ g_thread_pool_set_max_unused_threads (-1); pool = g_thread_pool_new ((GFunc) g_usleep, NULL, -1, FALSE, NULL); for (i = 0; i < limit; i++) g_thread_pool_push (pool, GUINT_TO_POINTER (1000), NULL); DEBUG_MSG (("[unused] ===> pushed %d threads onto the idle pool", limit)); /* Wait for the threads to migrate. */ g_usleep (G_USEC_PER_SEC); DEBUG_MSG (("[unused] current threads %d", test_count_threads())); DEBUG_MSG (("[unused] stopping unused threads")); g_thread_pool_stop_unused_threads (); DEBUG_MSG (("[unused] waiting ONE second for threads to die")); /* Some time for threads to die. */ g_usleep (G_USEC_PER_SEC); DEBUG_MSG (("[unused] stopped idle threads, %d remain, %d threads still exist", g_thread_pool_get_num_unused_threads (), test_count_threads ())); g_assert (g_thread_pool_get_num_unused_threads () == test_count_threads ()); g_assert (g_thread_pool_get_num_unused_threads () == 0); g_thread_pool_set_max_unused_threads (MAX_THREADS); DEBUG_MSG (("[unused] cleaning up thread pool")); g_thread_pool_free (pool, FALSE, TRUE); } static void test_thread_pools_entry_func (gpointer data, gpointer user_data) { guint id = 0; id = GPOINTER_TO_UINT (data); DEBUG_MSG (("[pool] ---> [%3.3d] entered thread.", id)); G_LOCK (thread_counter_pools); abs_thread_counter++; running_thread_counter++; G_UNLOCK (thread_counter_pools); g_usleep (g_random_int_range (0, 4000)); G_LOCK (thread_counter_pools); running_thread_counter--; leftover_task_counter--; DEBUG_MSG (("[pool] ---> [%3.3d] exiting thread (abs count:%ld, " "running count:%ld, left over:%ld)", id, abs_thread_counter, running_thread_counter, leftover_task_counter)); G_UNLOCK (thread_counter_pools); } static void test_thread_pools (void) { GThreadPool *pool1, *pool2, *pool3; guint runs; guint i; pool1 = g_thread_pool_new ((GFunc)test_thread_pools_entry_func, NULL, 3, FALSE, NULL); pool2 = g_thread_pool_new ((GFunc)test_thread_pools_entry_func, NULL, 5, TRUE, NULL); pool3 = g_thread_pool_new ((GFunc)test_thread_pools_entry_func, NULL, 7, TRUE, NULL); runs = 300; for (i = 0; i < runs; i++) { g_thread_pool_push (pool1, GUINT_TO_POINTER (i + 1), NULL); g_thread_pool_push (pool2, GUINT_TO_POINTER (i + 1), NULL); g_thread_pool_push (pool3, GUINT_TO_POINTER (i + 1), NULL); leftover_task_counter += 3; } g_thread_pool_free (pool1, TRUE, TRUE); g_thread_pool_free (pool2, FALSE, TRUE); g_thread_pool_free (pool3, FALSE, TRUE); g_assert (runs * 3 == abs_thread_counter + leftover_task_counter); g_assert (running_thread_counter == 0); } static gint test_thread_sort_compare_func (gconstpointer a, gconstpointer b, gpointer user_data) { guint32 id1, id2; id1 = GPOINTER_TO_UINT (a); id2 = GPOINTER_TO_UINT (b); return (id1 > id2 ? +1 : id1 == id2 ? 0 : -1); } static void test_thread_sort_entry_func (gpointer data, gpointer user_data) { guint thread_id; gboolean is_sorted; G_LOCK (last_thread); thread_id = GPOINTER_TO_UINT (data); is_sorted = GPOINTER_TO_INT (user_data); DEBUG_MSG (("%s ---> entered thread:%2.2d, last thread:%2.2d", is_sorted ? "[ sorted]" : "[unsorted]", thread_id, last_thread_id)); if (is_sorted) { static gboolean last_failed = FALSE; if (last_thread_id > thread_id) { if (last_failed) { g_assert (last_thread_id <= thread_id); } /* Here we remember one fail and if it concurrently fails, it * can not be sorted. the last thread id might be < this thread * id if something is added to the queue since threads were * created */ last_failed = TRUE; } else { last_failed = FALSE; } last_thread_id = thread_id; } G_UNLOCK (last_thread); g_usleep (WAIT * 1000); } static void test_thread_sort (gboolean sort) { GThreadPool *pool; guint limit; guint max_threads; gint i; limit = MAX_THREADS * 10; if (sort) { max_threads = 1; } else { max_threads = MAX_THREADS; } /* It is important that we only have a maximum of 1 thread for this * test since the results can not be guranteed to be sorted if > 1. * * Threads are scheduled by the operating system and are executed at * random. It cannot be assumed that threads are executed in the * order they are created. This was discussed in bug #334943. */ pool = g_thread_pool_new (test_thread_sort_entry_func, GINT_TO_POINTER (sort), max_threads, FALSE, NULL); g_thread_pool_set_max_unused_threads (MAX_UNUSED_THREADS); if (sort) { g_thread_pool_set_sort_function (pool, test_thread_sort_compare_func, GUINT_TO_POINTER (69)); } for (i = 0; i < limit; i++) { guint id; id = g_random_int_range (1, limit) + 1; g_thread_pool_push (pool, GUINT_TO_POINTER (id), NULL); DEBUG_MSG (("%s ===> pushed new thread with id:%d, number " "of threads:%d, unprocessed:%d", sort ? "[ sorted]" : "[unsorted]", id, g_thread_pool_get_num_threads (pool), g_thread_pool_unprocessed (pool))); } g_assert (g_thread_pool_get_max_threads (pool) == max_threads); g_assert (g_thread_pool_get_num_threads (pool) == g_thread_pool_get_max_threads (pool)); } static void test_thread_idle_time_entry_func (gpointer data, gpointer user_data) { guint thread_id; thread_id = GPOINTER_TO_UINT (data); DEBUG_MSG (("[idle] ---> entered thread:%2.2d", thread_id)); g_usleep (WAIT * 1000); DEBUG_MSG (("[idle] <--- exiting thread:%2.2d", thread_id)); } static gboolean test_thread_idle_timeout (gpointer data) { guint interval; gint i; interval = GPOINTER_TO_UINT (data); for (i = 0; i < 2; i++) { g_thread_pool_push (idle_pool, GUINT_TO_POINTER (100 + i), NULL); DEBUG_MSG (("[idle] ===> pushed new thread with id:%d, number " "of threads:%d, unprocessed:%d", 100 + i, g_thread_pool_get_num_threads (idle_pool), g_thread_pool_unprocessed (idle_pool))); } return FALSE; } static void test_thread_idle_time () { guint limit = 50; guint interval = 10000; gint i; idle_pool = g_thread_pool_new (test_thread_idle_time_entry_func, NULL, MAX_THREADS, FALSE, NULL); g_thread_pool_set_max_unused_threads (MAX_UNUSED_THREADS); g_thread_pool_set_max_idle_time (interval); g_assert (g_thread_pool_get_max_unused_threads () == MAX_UNUSED_THREADS); g_assert (g_thread_pool_get_max_idle_time () == interval); for (i = 0; i < limit; i++) { g_thread_pool_push (idle_pool, GUINT_TO_POINTER (i + 1), NULL); DEBUG_MSG (("[idle] ===> pushed new thread with id:%d, " "number of threads:%d, unprocessed:%d", i, g_thread_pool_get_num_threads (idle_pool), g_thread_pool_unprocessed (idle_pool))); } g_timeout_add ((interval - 1000), test_thread_idle_timeout, GUINT_TO_POINTER (interval)); } static gboolean test_check_start_and_stop (gpointer user_data) { static guint test_number = 0; static gboolean run_next = FALSE; gboolean continue_timeout = TRUE; gboolean quit = TRUE; if (test_number == 0) { run_next = TRUE; DEBUG_MSG (("***** RUNNING TEST %2.2d *****", test_number)); } if (run_next) { test_number++; switch (test_number) { case 1: test_thread_functions (); break; case 2: test_thread_stop_unused (); break; case 3: test_thread_pools (); break; case 4: test_thread_sort (FALSE); break; case 5: test_thread_sort (TRUE); break; case 6: test_thread_idle_time (); break; default: DEBUG_MSG (("***** END OF TESTS *****")); g_main_loop_quit (main_loop); continue_timeout = FALSE; break; } run_next = FALSE; return TRUE; } if (test_number == 3) { G_LOCK (thread_counter_pools); quit &= running_thread_counter <= 0; DEBUG_MSG (("***** POOL RUNNING THREAD COUNT:%ld", running_thread_counter)); G_UNLOCK (thread_counter_pools); } if (test_number == 4 || test_number == 5) { G_LOCK (thread_counter_sort); quit &= sort_thread_counter <= 0; DEBUG_MSG (("***** POOL SORT THREAD COUNT:%ld", sort_thread_counter)); G_UNLOCK (thread_counter_sort); } if (test_number == 6) { guint idle; idle = g_thread_pool_get_num_unused_threads (); quit &= idle < 1; DEBUG_MSG (("***** POOL IDLE THREAD COUNT:%d, UNPROCESSED JOBS:%d", idle, g_thread_pool_unprocessed (idle_pool))); } if (quit) { run_next = TRUE; } return continue_timeout; } int main (int argc, char *argv[]) { /* Only run the test, if threads are enabled and a default thread implementation is available */ #if defined(G_THREADS_ENABLED) && ! defined(G_THREADS_IMPL_NONE) g_thread_init (NULL); DEBUG_MSG (("Starting... (in one second)")); g_timeout_add (1000, test_check_start_and_stop, NULL); main_loop = g_main_loop_new (NULL, FALSE); g_main_loop_run (main_loop); #endif return 0; }