#include "../check_includes.h" #include #include #include #define LOG_NAME "check_replacementPolicy.log" #define OBJECT_COUNT 100 #define OP_COUNT 10000000 #define LONG_COUNT 100000000UL #define SHORT_COUNT 10000000UL #define THREAD_COUNT 10 typedef struct tracker { int inCache; pthread_mutex_t mut; } tracker; static pthread_mutex_t cached_count_mutex = PTHREAD_MUTEX_INITIALIZER; static int threaded = 0; static int cachedCount = 0; tracker * t; Page* pages; void randomSetup() { time_t seed = time(0); printf("\nSeed = %ld\n", seed); srandom(seed); cachedCount = 0; t = calloc(OBJECT_COUNT, sizeof(tracker)); pages = calloc(OBJECT_COUNT, sizeof(Page)); for(int i = 0; i < OBJECT_COUNT; i++) { pages[i].id = i; pages[i].pinCount = 1; pages[i].next = 0; } } void randomTeardown() { free(t); free(pages); } void randomTest(replacementPolicy * lru, unsigned long count) { unsigned long progress_indicator = count / 10; for(unsigned long j = 0; j < count /*100000000UL*/; j++) { if(0 == (j % progress_indicator)) { printf("."); fflush(stdout); } int op = myrandom(100); int i = myrandom(OBJECT_COUNT); if(op < 10) { // TOGGLE IN CACHE pthread_mutex_lock(&t[i].mut); if(!t[i].inCache) { lru->insert(lru, &pages[i]); t[i].inCache = 1; pthread_mutex_lock(&cached_count_mutex); cachedCount ++; pthread_mutex_unlock(&cached_count_mutex); } else { Page *p = lru->remove(lru, &pages[i]); assert(p == &pages[i]); t[i].inCache = 0; pthread_mutex_lock(&cached_count_mutex); cachedCount --; pthread_mutex_unlock(&cached_count_mutex); } pthread_mutex_unlock(&t[i].mut); } else if(op < 30) { // Get stale + remove Page *p = lru->getStale(lru); if( p ) { pthread_mutex_lock(&t[p->id].mut); if(t[p->id].inCache) { assert(p == &pages[p->id]); p = lru->remove(lru, p); assert(p == &pages[p->id]); t[p->id].inCache = 0; pthread_mutex_lock(&cached_count_mutex); if(!threaded) assert(cachedCount != 0); cachedCount --; pthread_mutex_unlock(&cached_count_mutex); } pthread_mutex_unlock(&t[p->id].mut); } else { if(!threaded) { assert(cachedCount == 0); } } } else if(op < 50) { // Get stale Page * p = lru->getStale(lru); if(p) { pthread_mutex_lock(&t[p->id].mut); if(!threaded) assert(t[p->id].inCache); assert(p == &pages[p->id]); if(!threaded) assert(cachedCount != 0); pthread_mutex_unlock(&t[p->id].mut); } else { if(!threaded) assert(cachedCount == 0); } } else { // Hit pthread_mutex_lock(&t[i].mut); if(t[i].inCache) lru->hit(lru, &pages[i]); pthread_mutex_unlock(&t[i].mut); } } } void fillThenEmptyTest(replacementPolicy *lru) { for(int i = 0; i < OBJECT_COUNT; i++) { lru->insert(lru, &pages[i]); } int j = 0; while(lru->getStaleAndRemove(lru)) { j++; } assert(0 == lru->getStaleAndRemove(lru)); assert(0 == lru->getStale(lru)); assert(j == OBJECT_COUNT); for(int i = 0; i < OBJECT_COUNT; i++) { lru->insert(lru, &pages[i]); lru->remove(lru, &pages[i]); } j = 0; while(lru->getStaleAndRemove(lru)) { j++; } assert(j == 0); } START_TEST(replacementPolicyLRURandomTest) { replacementPolicy * lru = lruFastInit(); threaded = 0; randomSetup(); randomTest(lru, LONG_COUNT); lru->deinit(lru); randomTeardown(); } END_TEST START_TEST(replacementPolicyLRUFastRandomTest) { replacementPolicy * lru = lruFastInit(); threaded = 0; randomSetup(); randomTest(lru, LONG_COUNT); lru->deinit(lru); randomTeardown(); } END_TEST START_TEST(replacementPolicyThreadsafeRandomTest) { replacementPolicy * lru = lruFastInit(); replacementPolicy * tsLru = replacementPolicyThreadsafeWrapperInit(lru); threaded = 0; randomSetup(); randomTest(tsLru, LONG_COUNT); tsLru->deinit(tsLru); randomTeardown(); } END_TEST START_TEST(replacementPolicyConcurrentRandomTest) { int LRU_COUNT = OBJECT_COUNT / 51; replacementPolicy * lru[LRU_COUNT]; for(int i = 0; i < LRU_COUNT; i++) { lru[i] = lruFastInit(); } threaded = 0; replacementPolicy * cwLru = replacementPolicyConcurrentWrapperInit(lru, LRU_COUNT); randomSetup(); randomTest(cwLru, SHORT_COUNT); cwLru->deinit(cwLru); randomTeardown(); } END_TEST START_TEST(replacementPolicyClockRandomTest) { threaded = 0; randomSetup(); replacementPolicy * lru = replacementPolicyClockInit(pages, OBJECT_COUNT); randomTest(lru, LONG_COUNT); lru->deinit(lru); randomTeardown(); } END_TEST replacementPolicy * worker_lru; unsigned long worker_count; void * randomTestWorker(void * arg) { randomTest(worker_lru, worker_count); return 0; } START_TEST(replacementPolicyThreadsafeThreadTest) { replacementPolicy * lru = lruFastInit(); replacementPolicy * tsLru = replacementPolicyThreadsafeWrapperInit(lru); threaded = 1; worker_lru = tsLru; worker_count = LONG_COUNT / THREAD_COUNT; pthread_t threads[THREAD_COUNT]; randomSetup(); for(int i = 0; i < THREAD_COUNT; i++) { pthread_create(&threads[i], 0, randomTestWorker, 0); } for(int i = 0; i < THREAD_COUNT; i++) { pthread_join(threads[i], 0); } tsLru->deinit(tsLru); randomTeardown(); } END_TEST START_TEST(replacementPolicyConcurrentThreadTest) { int LRU_COUNT = OBJECT_COUNT / 51; replacementPolicy * lru[LRU_COUNT]; for(int i = 0; i < LRU_COUNT; i++) { lru[i] = lruFastInit(); } replacementPolicy * cwLru = replacementPolicyConcurrentWrapperInit(lru, LRU_COUNT); threaded = 1; worker_lru = cwLru; worker_count = LONG_COUNT / THREAD_COUNT; pthread_t threads[THREAD_COUNT]; randomSetup(); for(int i = 0; i < THREAD_COUNT; i++) { pthread_create(&threads[i], 0, randomTestWorker, 0); } for(int i = 0; i < THREAD_COUNT; i++) { pthread_join(threads[i], 0); } cwLru->deinit(cwLru); randomTeardown(); } END_TEST START_TEST(replacementPolicyClockThreadTest) { replacementPolicy * clockLru = replacementPolicyClockInit(pages, OBJECT_COUNT); threaded = 1; worker_lru = clockLru; worker_count = LONG_COUNT / THREAD_COUNT; pthread_t threads[THREAD_COUNT]; randomSetup(); for(int i = 0; i < THREAD_COUNT; i++) { pthread_create(&threads[i], 0, randomTestWorker, 0); } for(int i = 0; i < THREAD_COUNT; i++) { pthread_join(threads[i], 0); } clockLru->deinit(clockLru); randomTeardown(); } END_TEST START_TEST(replacementPolicyEmptyFastLRUTest) { randomSetup(); replacementPolicy *rp = lruFastInit(); fillThenEmptyTest(rp); rp->deinit(rp); randomTeardown(); } END_TEST START_TEST(replacementPolicyEmptyThreadsafeTest) { randomSetup(); replacementPolicy *rpA = lruFastInit(); replacementPolicy *rp = replacementPolicyThreadsafeWrapperInit(rpA); fillThenEmptyTest(rp); rp->deinit(rp); randomTeardown(); } END_TEST START_TEST(replacementPolicyEmptyConcurrentTest) { randomSetup(); replacementPolicy *rpA[THREAD_COUNT]; for(int i = 0; i < THREAD_COUNT; i++) { rpA[i] = lruFastInit(); } replacementPolicy *rp = replacementPolicyConcurrentWrapperInit(rpA, THREAD_COUNT); fillThenEmptyTest(rp); rp->deinit(rp); randomTeardown(); } END_TEST START_TEST(replacementPolicyEmptyClockTest) { randomSetup(); replacementPolicy *rp = replacementPolicyClockInit(pages, OBJECT_COUNT); fillThenEmptyTest(rp); rp->deinit(rp); randomTeardown(); } END_TEST Suite * check_suite(void) { Suite *s = suite_create("replacementPolicy"); /* Begin a new test */ TCase *tc = tcase_create("multithreaded"); tcase_set_timeout(tc, 1200); // twenty minute timeout /* Sub tests are added, one per line, here */ tcase_add_test(tc, replacementPolicyEmptyFastLRUTest); tcase_add_test(tc, replacementPolicyEmptyThreadsafeTest); tcase_add_test(tc, replacementPolicyEmptyConcurrentTest); tcase_add_test(tc, replacementPolicyEmptyClockTest); tcase_add_test(tc, replacementPolicyLRURandomTest); tcase_add_test(tc, replacementPolicyLRUFastRandomTest); tcase_add_test(tc, replacementPolicyThreadsafeRandomTest); tcase_add_test(tc, replacementPolicyConcurrentRandomTest); tcase_add_test(tc, replacementPolicyClockRandomTest); tcase_add_test(tc, replacementPolicyThreadsafeThreadTest); tcase_add_test(tc, replacementPolicyConcurrentThreadTest); tcase_add_test(tc, replacementPolicyClockThreadTest); /* --------------------------------------------- */ tcase_add_checked_fixture(tc, setup, teardown); suite_add_tcase(s, tc); return s; } #include "../check_setup.h"