// SPDX-FileCopyrightText: 2009-2012 Mathieu Desnoyers // // SPDX-License-Identifier: GPL-2.0-or-later /* * Userspace RCU library - test program */ #include "test_urcu_hash.h" enum urcu_hash_addremove { AR_RANDOM = 0, AR_ADD = 1, AR_REMOVE = -1, }; /* 1: add, -1 remove, 0: random */ static enum urcu_hash_addremove addremove; /* 1: add, -1 remove, 0: random */ void test_hash_unique_sigusr1_handler(int signo __attribute__((unused))) { switch (addremove) { case AR_ADD: printf("Add/Remove: random.\n"); addremove = AR_RANDOM; break; case AR_RANDOM: printf("Add/Remove: remove only.\n"); addremove = AR_REMOVE; break; case AR_REMOVE: printf("Add/Remove: add only.\n"); addremove = AR_ADD; break; } } void test_hash_unique_sigusr2_handler(int signo __attribute__((unused))) { char msg[1] = { 0x42 }; ssize_t ret; do { ret = write(count_pipe[1], msg, 1); /* wakeup thread */ } while (ret == -1L && errno == EINTR); } void *test_hash_unique_thr_reader(void *_count) { unsigned long long *count = _count; printf_verbose("thread_begin %s, tid %lu\n", "reader", urcu_get_thread_id()); URCU_TLS(rand_lookup) = urcu_get_thread_id() ^ time(NULL); set_affinity(); rcu_register_thread(); wait_until_go(); for (;;) { struct lfht_test_node *node; struct cds_lfht_iter iter; /* * iterate on whole table, ensuring that no duplicate is * found. */ rcu_read_lock(); cds_lfht_for_each_entry(test_ht, &iter, node, node) { struct cds_lfht_iter dup_iter; dup_iter = iter; cds_lfht_next_duplicate(test_ht, test_match, node->key, &dup_iter); if (dup_iter.node != NULL) { printf("[ERROR] Duplicate key %p found\n", node->key); } } rcu_read_unlock(); rcu_debug_yield_read(); if (caa_unlikely(rduration)) loop_sleep(rduration); URCU_TLS(nr_reads)++; if (caa_unlikely(!test_duration_read())) break; if (caa_unlikely((URCU_TLS(nr_reads) & ((1 << 10) - 1)) == 0)) rcu_quiescent_state(); } rcu_unregister_thread(); *count = URCU_TLS(nr_reads); printf_verbose("thread_end %s, tid %lu\n", "reader", urcu_get_thread_id()); printf_verbose("read tid : %lu, lookupfail %lu, lookupok %lu\n", urcu_get_thread_id(), URCU_TLS(lookup_fail), URCU_TLS(lookup_ok)); return ((void*)1); } void *test_hash_unique_thr_writer(void *_count) { struct lfht_test_node *node; struct cds_lfht_node *ret_node; struct cds_lfht_iter iter; struct wr_count *count = _count; int ret; int loc_add_unique; printf_verbose("thread_begin %s, tid %lu\n", "writer", urcu_get_thread_id()); URCU_TLS(rand_lookup) = urcu_get_thread_id() ^ time(NULL); set_affinity(); rcu_register_thread(); wait_until_go(); for (;;) { /* * add unique/add replace with new node key from range. */ if (1 || (addremove == AR_ADD || add_only) || (addremove == AR_RANDOM && rand_r(&URCU_TLS(rand_lookup)) & 1)) { node = malloc(sizeof(struct lfht_test_node)); lfht_test_node_init(node, (void *)(((unsigned long) rand_r(&URCU_TLS(rand_lookup)) % write_pool_size) + write_pool_offset), sizeof(void *)); rcu_read_lock(); loc_add_unique = rand_r(&URCU_TLS(rand_lookup)) & 1; if (loc_add_unique) { ret_node = cds_lfht_add_unique(test_ht, test_hash(node->key, node->key_len, TEST_HASH_SEED), test_match, node->key, &node->node); } else { ret_node = cds_lfht_add_replace(test_ht, test_hash(node->key, node->key_len, TEST_HASH_SEED), test_match, node->key, &node->node); #if 0 //generate an error on purpose cds_lfht_add(test_ht, test_hash(node->key, node->key_len, TEST_HASH_SEED), &node->node); ret_node = NULL; #endif //0 } rcu_read_unlock(); if (loc_add_unique) { if (ret_node != &node->node) { free(node); URCU_TLS(nr_addexist)++; } else { URCU_TLS(nr_add)++; } } else { if (ret_node) { call_rcu(&to_test_node(ret_node)->head, free_node_cb); URCU_TLS(nr_addexist)++; } else { URCU_TLS(nr_add)++; } } } else { /* May delete */ rcu_read_lock(); cds_lfht_test_lookup(test_ht, (void *)(((unsigned long) rand_r(&URCU_TLS(rand_lookup)) % write_pool_size) + write_pool_offset), sizeof(void *), &iter); ret = cds_lfht_del(test_ht, cds_lfht_iter_get_node(&iter)); rcu_read_unlock(); if (ret == 0) { node = cds_lfht_iter_get_test_node(&iter); call_rcu(&node->head, free_node_cb); URCU_TLS(nr_del)++; } else URCU_TLS(nr_delnoent)++; } #if 0 //if (URCU_TLS(nr_writes) % 100000 == 0) { if (URCU_TLS(nr_writes) % 1000 == 0) { rcu_read_lock(); if (rand_r(&URCU_TLS(rand_lookup)) & 1) { ht_resize(test_ht, 1); } else { ht_resize(test_ht, -1); } rcu_read_unlock(); } #endif //0 URCU_TLS(nr_writes)++; if (caa_unlikely(!test_duration_write())) break; if (caa_unlikely(wdelay)) loop_sleep(wdelay); if (caa_unlikely((URCU_TLS(nr_writes) & ((1 << 10) - 1)) == 0)) rcu_quiescent_state(); } rcu_unregister_thread(); printf_verbose("thread_end %s, tid %lu\n", "writer", urcu_get_thread_id()); printf_verbose("info tid %lu: nr_add %lu, nr_addexist %lu, nr_del %lu, " "nr_delnoent %lu\n", urcu_get_thread_id(), URCU_TLS(nr_add), URCU_TLS(nr_addexist), URCU_TLS(nr_del), URCU_TLS(nr_delnoent)); count->update_ops = URCU_TLS(nr_writes); count->add = URCU_TLS(nr_add); count->add_exist = URCU_TLS(nr_addexist); count->remove = URCU_TLS(nr_del); return ((void*)2); } int test_hash_unique_populate_hash(void) { struct lfht_test_node *node; struct cds_lfht_node *ret_node; printf("Starting uniqueness test.\n"); URCU_TLS(rand_lookup) = urcu_get_thread_id() ^ time(NULL); if (!init_populate) return 0; if (init_populate * 10 > init_pool_size) { printf("WARNING: required to populate %lu nodes (-k), but random " "pool is quite small (%lu values) and we are in add_unique (-u) or add_replace (-s) mode. Try with a " "larger random pool (-p option). This may take a while...\n", init_populate, init_pool_size); } while (URCU_TLS(nr_add) < init_populate) { node = malloc(sizeof(struct lfht_test_node)); lfht_test_node_init(node, (void *)(((unsigned long) rand_r(&URCU_TLS(rand_lookup)) % init_pool_size) + init_pool_offset), sizeof(void *)); rcu_read_lock(); ret_node = cds_lfht_add_replace(test_ht, test_hash(node->key, node->key_len, TEST_HASH_SEED), test_match, node->key, &node->node); rcu_read_unlock(); if (ret_node) { call_rcu(&to_test_node(ret_node)->head, free_node_cb); URCU_TLS(nr_addexist)++; } else { URCU_TLS(nr_add)++; } URCU_TLS(nr_writes)++; } return 0; }