/* * Copyright 2012 Samy Al Bahra. * All rights reserved. * * Redistribution and use in source and binary forms, with or without * modification, are permitted provided that the following conditions * are met: * 1. Redistributions of source code must retain the above copyright * notice, this list of conditions and the following disclaimer. * 2. Redistributions in binary form must reproduce the above copyright * notice, this list of conditions and the following disclaimer in the * documentation and/or other materials provided with the distribution. * * THIS SOFTWARE IS PROVIDED BY THE AUTHOR AND CONTRIBUTORS ``AS IS'' AND * ANY EXPRESS OR IMPLIED WARRANTIES, INCLUDING, BUT NOT LIMITED TO, THE * IMPLIED WARRANTIES OF MERCHANTABILITY AND FITNESS FOR A PARTICULAR PURPOSE * ARE DISCLAIMED. IN NO EVENT SHALL THE AUTHOR OR CONTRIBUTORS BE LIABLE * FOR ANY DIRECT, INDIRECT, INCIDENTAL, SPECIAL, EXEMPLARY, OR CONSEQUENTIAL * DAMAGES (INCLUDING, BUT NOT LIMITED TO, PROCUREMENT OF SUBSTITUTE GOODS * OR SERVICES; LOSS OF USE, DATA, OR PROFITS; OR BUSINESS INTERRUPTION) * HOWEVER CAUSED AND ON ANY THEORY OF LIABILITY, WHETHER IN CONTRACT, STRICT * LIABILITY, OR TORT (INCLUDING NEGLIGENCE OR OTHERWISE) ARISING IN ANY WAY * OUT OF THE USE OF THIS SOFTWARE, EVEN IF ADVISED OF THE POSSIBILITY OF * SUCH DAMAGE. */ #include #ifdef CK_F_HT #include #include #include #include #include #include #include #include #include #include #include #include #include #include "../../common.h" static ck_ht_t ht CK_CC_CACHELINE; static uintptr_t *keys; static size_t keys_length = 0; static ck_epoch_t epoch_ht; static ck_epoch_record_t epoch_wr; static int n_threads; static bool next_stage; enum state { HT_STATE_STOP = 0, HT_STATE_GET, HT_STATE_STRICT_REPLACEMENT, HT_STATE_DELETION, HT_STATE_REPLACEMENT, HT_STATE_COUNT }; static struct affinity affinerator = AFFINITY_INITIALIZER; static uint64_t accumulator[HT_STATE_COUNT]; static int barrier[HT_STATE_COUNT]; static int state; struct ht_epoch { ck_epoch_entry_t epoch_entry; }; static void alarm_handler(int s) { (void)s; next_stage = true; return; } static void ht_destroy(ck_epoch_entry_t *e) { free(e); return; } static void * ht_malloc(size_t r) { ck_epoch_entry_t *b; b = malloc(sizeof(*b) + r); return b + 1; } static void ht_free(void *p, size_t b, bool r) { struct ht_epoch *e = p; (void)b; if (r == true) { /* Destruction requires safe memory reclamation. */ ck_epoch_call(&epoch_ht, &epoch_wr, &(--e)->epoch_entry, ht_destroy); } else { free(--e); } return; } static struct ck_malloc my_allocator = { .malloc = ht_malloc, .free = ht_free }; static void hash_function(ck_ht_hash_t *h, const void *key, size_t key_length, uint64_t seed) { const uintptr_t *value = key; (void)key_length; (void)seed; h->value = *value; return; } static void table_init(void) { ck_epoch_init(&epoch_ht); ck_epoch_register(&epoch_ht, &epoch_wr); srand48((long int)time(NULL)); if (ck_ht_init(&ht, CK_HT_MODE_DIRECT, hash_function, &my_allocator, 8, lrand48()) == false) { perror("ck_ht_init"); exit(EXIT_FAILURE); } return; } static bool table_remove(uintptr_t value) { ck_ht_entry_t entry; ck_ht_hash_t h; ck_ht_hash_direct(&h, &ht, value); ck_ht_entry_key_set_direct(&entry, value); return ck_ht_remove_spmc(&ht, h, &entry); } static bool table_replace(uintptr_t value) { ck_ht_entry_t entry; ck_ht_hash_t h; ck_ht_hash_direct(&h, &ht, value); ck_ht_entry_set_direct(&entry, h, value, 6605241); return ck_ht_set_spmc(&ht, h, &entry); } static uintptr_t table_get(uintptr_t value) { ck_ht_entry_t entry; ck_ht_hash_t h; ck_ht_hash_direct(&h, &ht, value); ck_ht_entry_key_set_direct(&entry, value); if (ck_ht_get_spmc(&ht, h, &entry) == true) return ck_ht_entry_value_direct(&entry); return 0; } static bool table_insert(uintptr_t value) { ck_ht_entry_t entry; ck_ht_hash_t h; ck_ht_hash_direct(&h, &ht, value); ck_ht_entry_set_direct(&entry, h, value, value); return ck_ht_put_spmc(&ht, h, &entry); } static size_t table_count(void) { return ck_ht_count(&ht); } static bool table_reset(void) { return ck_ht_reset_spmc(&ht); } static void * ht_reader(void *unused) { size_t i; ck_epoch_record_t epoch_record; int state_previous = HT_STATE_STOP; int n_state; uint64_t s, j, a; (void)unused; if (aff_iterate(&affinerator) != 0) perror("WARNING: Failed to affine thread"); s = j = a = 0; ck_epoch_register(&epoch_ht, &epoch_record); for (;;) { j++; ck_epoch_begin(&epoch_ht, &epoch_record); s = rdtsc(); for (i = 0; i < keys_length; i++) { uintptr_t r; r = table_get(keys[i]); if (r == 0) continue; if (r == 6605241) continue; if (r == keys[i]) continue; ck_error("ERROR: Found invalid value: [%ju]\n", (uintmax_t)r); } a += rdtsc() - s; ck_epoch_end(&epoch_ht, &epoch_record); n_state = ck_pr_load_int(&state); if (n_state != state_previous) { ck_pr_add_64(&accumulator[state_previous], a / (j * keys_length)); ck_pr_inc_int(&barrier[state_previous]); while (ck_pr_load_int(&barrier[state_previous]) != n_threads + 1) ck_pr_stall(); state_previous = n_state; s = j = a = 0; } } return NULL; } int main(int argc, char *argv[]) { size_t i, j, r; unsigned int d = 0; uint64_t s, e, a, repeated; pthread_t *readers; double p_r, p_d; r = 20; s = 8; p_d = 0.5; p_r = 0.5; n_threads = CORES - 1; if (argc < 2) { ck_error("Usage: parallel <#entries> [ \n" " ]\n"); } if (argc >= 3) r = atoi(argv[2]); if (argc >= 4) s = (uint64_t)atoi(argv[3]); if (argc >= 5) { n_threads = atoi(argv[4]); if (n_threads < 1) { ck_error("ERROR: Number of readers must be >= 1.\n"); } } if (argc >= 6) { p_r = atof(argv[5]) / 100.00; if (p_r < 0) { ck_error("ERROR: Probability of replacement must be >= 0 and <= 100.\n"); } } if (argc >= 7) { p_d = atof(argv[6]) / 100.00; if (p_d < 0) { ck_error("ERROR: Probability of deletion must be >= 0 and <= 100.\n"); } } affinerator.delta = 1; readers = malloc(sizeof(pthread_t) * n_threads); assert(readers != NULL); keys_length = (size_t)atoi(argv[1]); keys = malloc(sizeof(uintptr_t) * keys_length); assert(keys != NULL); table_init(); for (i = 0; i < keys_length; i++) { keys[i] = (uintptr_t)lrand48(); while (keys[i] == 2) keys[i] = (uintptr_t)lrand48(); } for (i = 0; i < (size_t)n_threads; i++) { if (pthread_create(&readers[i], NULL, ht_reader, NULL) != 0) { ck_error("ERROR: Failed to create thread %zu.\n", i); } } for (i = 0; i < keys_length; i++) d += table_insert(keys[i]) == false; ck_error(" [S] %zu entries stored and %u duplicates.\n\n", table_count(), d); ck_error(" ,- BASIC TEST\n"); ck_error(" | Executing SMR test..."); a = 0; for (j = 0; j < r; j++) { if (table_reset() == false) { ck_error("ERROR: Failed to reset hash table.\n"); } s = rdtsc(); for (i = 0; i < keys_length; i++) d += table_insert(keys[i]) == false; e = rdtsc(); a += e - s; } ck_error("done (%" PRIu64 " ticks)\n", a / (r * keys_length)); ck_error(" | Executing replacement test..."); a = 0; for (j = 0; j < r; j++) { s = rdtsc(); for (i = 0; i < keys_length; i++) table_replace(keys[i]); e = rdtsc(); a += e - s; } ck_error("done (%" PRIu64 " ticks)\n", a / (r * keys_length)); ck_error(" | Executing get test..."); a = 0; for (j = 0; j < r; j++) { s = rdtsc(); for (i = 0; i < keys_length; i++) { if (table_get(keys[i]) == 0) { ck_error("ERROR: Unexpected 0 value.\n"); } } e = rdtsc(); a += e - s; } ck_error("done (%" PRIu64 " ticks)\n", a / (r * keys_length)); a = 0; ck_error(" | Executing removal test..."); for (j = 0; j < r; j++) { s = rdtsc(); for (i = 0; i < keys_length; i++) table_remove(keys[i]); e = rdtsc(); a += e - s; for (i = 0; i < keys_length; i++) table_insert(keys[i]); } ck_error("done (%" PRIu64 " ticks)\n", a / (r * keys_length)); ck_error(" | Executing negative look-up test..."); a = 0; for (j = 0; j < r; j++) { s = rdtsc(); for (i = 0; i < keys_length; i++) { table_get(2); } e = rdtsc(); a += e - s; } ck_error("done (%" PRIu64 " ticks)\n", a / (r * keys_length)); ck_epoch_record_t epoch_temporary = epoch_wr; ck_epoch_synchronize(&epoch_ht, &epoch_wr); ck_error(" '- Summary: %u pending, %u peak, %lu reclamations -> " "%u pending, %u peak, %lu reclamations\n\n", epoch_temporary.n_pending, epoch_temporary.n_peak, epoch_temporary.n_dispatch, epoch_wr.n_pending, epoch_wr.n_peak, epoch_wr.n_dispatch); ck_error(" ,- READER CONCURRENCY\n"); ck_error(" | Executing reader test..."); ck_pr_store_int(&state, HT_STATE_GET); while (ck_pr_load_int(&barrier[HT_STATE_STOP]) != n_threads) ck_pr_stall(); ck_pr_inc_int(&barrier[HT_STATE_STOP]); sleep(r); ck_pr_store_int(&state, HT_STATE_STRICT_REPLACEMENT); while (ck_pr_load_int(&barrier[HT_STATE_GET]) != n_threads) ck_pr_stall(); ck_error("done (reader = %" PRIu64 " ticks)\n", accumulator[HT_STATE_GET] / n_threads); ck_error(" | Executing strict replacement test..."); a = repeated = 0; signal(SIGALRM, alarm_handler); alarm(r); ck_pr_inc_int(&barrier[HT_STATE_GET]); for (;;) { repeated++; s = rdtsc(); for (i = 0; i < keys_length; i++) table_replace(keys[i]); e = rdtsc(); a += e - s; if (next_stage == true) { next_stage = false; break; } } ck_pr_store_int(&state, HT_STATE_DELETION); while (ck_pr_load_int(&barrier[HT_STATE_STRICT_REPLACEMENT]) != n_threads) ck_pr_stall(); table_reset(); ck_epoch_synchronize(&epoch_ht, &epoch_wr); ck_error("done (writer = %" PRIu64 " ticks, reader = %" PRIu64 " ticks)\n", a / (repeated * keys_length), accumulator[HT_STATE_STRICT_REPLACEMENT] / n_threads); signal(SIGALRM, alarm_handler); alarm(r); ck_error(" | Executing deletion test (%.2f)...", p_d * 100); a = repeated = 0; ck_pr_inc_int(&barrier[HT_STATE_STRICT_REPLACEMENT]); for (;;) { double delete; repeated++; s = rdtsc(); for (i = 0; i < keys_length; i++) { table_insert(keys[i]); if (p_d != 0.0) { delete = drand48(); if (delete <= p_d) table_remove(keys[i]); } } e = rdtsc(); a += e - s; if (next_stage == true) { next_stage = false; break; } } ck_pr_store_int(&state, HT_STATE_REPLACEMENT); while (ck_pr_load_int(&barrier[HT_STATE_DELETION]) != n_threads) ck_pr_stall(); table_reset(); ck_epoch_synchronize(&epoch_ht, &epoch_wr); ck_error("done (writer = %" PRIu64 " ticks, reader = %" PRIu64 " ticks)\n", a / (repeated * keys_length), accumulator[HT_STATE_DELETION] / n_threads); signal(SIGALRM, alarm_handler); alarm(r); ck_error(" | Executing replacement test (%.2f)...", p_r * 100); a = repeated = 0; ck_pr_inc_int(&barrier[HT_STATE_DELETION]); for (;;) { double replace, delete; repeated++; s = rdtsc(); for (i = 0; i < keys_length; i++) { table_insert(keys[i]); if (p_d != 0.0) { delete = drand48(); if (delete <= p_d) table_remove(keys[i]); } if (p_r != 0.0) { replace = drand48(); if (replace <= p_r) table_replace(keys[i]); } } e = rdtsc(); a += e - s; if (next_stage == true) { next_stage = false; break; } } ck_pr_store_int(&state, HT_STATE_STOP); while (ck_pr_load_int(&barrier[HT_STATE_REPLACEMENT]) != n_threads) ck_pr_stall(); table_reset(); ck_epoch_synchronize(&epoch_ht, &epoch_wr); ck_error("done (writer = %" PRIu64 " ticks, reader = %" PRIu64 " ticks)\n", a / (repeated * keys_length), accumulator[HT_STATE_REPLACEMENT] / n_threads); ck_pr_inc_int(&barrier[HT_STATE_REPLACEMENT]); epoch_temporary = epoch_wr; ck_epoch_synchronize(&epoch_ht, &epoch_wr); ck_error(" '- Summary: %u pending, %u peak, %lu reclamations -> " "%u pending, %u peak, %lu reclamations\n\n", epoch_temporary.n_pending, epoch_temporary.n_peak, epoch_temporary.n_dispatch, epoch_wr.n_pending, epoch_wr.n_peak, epoch_wr.n_dispatch); return 0; } #else int main(void) { return 0; } #endif /* CK_F_HT */