#include "lib_acl.h" #include #include #include #include #ifdef ACL_MS_WINDOWS #pragma comment(lib,"ws2_32") #endif /* ACL_MS_WINDOWS */ #if 1 #define USE_ACL_MALLOC #endif #ifdef USE_ACL_MALLOC # define MALLOC acl_mymalloc # define FREE acl_myfree #else # define MALLOC malloc # define FREE free #endif #define MEM_TYPE_GROSS ACL_MEM_TYPE_MAX + 1 static ACL_ALLOCATOR *__var_allocator = NULL; static size_t __max_size = 1024 * 1024 * 100; static void init(void) { __var_allocator = acl_allocator_create(__max_size); } static void end_prompt(void) { #ifdef ACL_MS_WINDOWS printf("enter any key to continue.\r\n"); getchar(); #endif } static void usage(const char *procname) { printf("usage: %s -h [help] -c bench|bench2|bench3\r\n", procname); #ifdef ACL_MS_WINDOWS getchar(); #endif } static void mempool_bench_test2(const char *label, int use_pool, int mutex, int loop, int size) { char *buf; time_t begin, end; int i; static int __pool_inited = 0; if (use_pool) { if (__pool_inited == 0) { acl_mempool_open(__max_size, mutex); __pool_inited = 1; } else { acl_mempool_ctl(ACL_MEMPOOL_CTL_MUTEX, mutex, ACL_MEMPOOL_CTL_END); } i = 0; time(&begin); while (i++ < loop) { buf = MALLOC(size); FREE(buf); } time(&end); } else { acl_pthread_mutex_t lock; if (mutex) acl_pthread_mutex_init(&lock, NULL); if (__pool_inited) { acl_mempool_ctl(ACL_MEMPOOL_CTL_DISABLE, 1, ACL_MEMPOOL_CTL_END); } i = 0; time(&begin); while (i++ < loop) { buf = MALLOC(size); FREE(buf); } time(&end); if (mutex) acl_pthread_mutex_destroy(&lock); } if (use_pool) printf("%s: time cost is %ld seconds, count is %d, total pool alloc %d\r\n", label, (long int) end - begin, loop, acl_mempool_total_allocated()); else printf("%s: time cost is %ld seconds, count is %d\r\n", label, (long int) end - begin, loop); } struct MEM_POOL_BENCH2 { char *label; int use_pool; int mutex; int loop; int size; }; #define MAX_LOOP 10000000 static struct MEM_POOL_BENCH2 __pool_bench_tab2[] = { { "alloc 64, pool, mutex", 1, 1, MAX_LOOP, 64 }, { "alloc 64, pool, no mutex", 1, 0, MAX_LOOP, 64 }, { "alloc 64, no pool, no mutex", 0, 0, MAX_LOOP, 64 }, { "alloc 2k, pool, mutex", 1, 1, MAX_LOOP, 1024 * 2 }, { "alloc 2k, pool, no mutex", 1, 0, MAX_LOOP, 1024 * 2 }, { "alloc 2k, no pool, no mutex", 0, 0, MAX_LOOP, 1024 * 2 }, { "alloc 8k, pool, mutex", 1, 1, MAX_LOOP, 1024 * 8 }, { "alloc 8k, pool, no mutex", 1, 0, MAX_LOOP, 1024 * 8 }, { "alloc 8k, no pool, no mutex", 0, 0, MAX_LOOP, 1024 * 8 }, { "alloc 64k, pool, mutex", 1, 1, MAX_LOOP, 1024 * 64 }, { "alloc 64k, pool, no mutex", 1, 0, MAX_LOOP, 1024 * 64 }, { "alloc 64k, no pool, no mutex", 0, 0, MAX_LOOP, 1024 * 64 }, { 0, 0, 0, 0, 0 }, }; static void mem_bench2(void) { int i; for (i = 0; __pool_bench_tab2[i].label != NULL; i++) { if (i % 3 == 0) printf("\r\n"); mempool_bench_test2(__pool_bench_tab2[i].label, __pool_bench_tab2[i].use_pool, __pool_bench_tab2[i].mutex, __pool_bench_tab2[i].loop, __pool_bench_tab2[i].size); } end_prompt(); } static struct MEM_POOL_BENCH2 __pool_bench_tab3[] = { { "alloc 64, pool, mutex", 1, 1, MAX_LOOP, 64 }, { "alloc 64, pool, mutex", 1, 1, MAX_LOOP, 64 }, { "alloc 64, pool, mutex", 1, 1, MAX_LOOP, 64 }, { "alloc 64, pool, mutex", 1, 1, MAX_LOOP, 64 }, { 0, 0, 0, 0, 0 }, }; static void mem_bench3(void) { int i; for (i = 0; __pool_bench_tab3[i].label != NULL; i++) { if (i % 3 == 0) printf("\r\n"); mempool_bench_test2(__pool_bench_tab3[i].label, __pool_bench_tab3[i].use_pool, __pool_bench_tab3[i].mutex, __pool_bench_tab3[i].loop, __pool_bench_tab3[i].size); } end_prompt(); } static void mempool_bench_test(const char *label, int mutex, int loop, acl_mem_type type, int size) { int i = 0; time_t begin = 0, end = 0; void *buf; #ifdef MUTEX_INIT acl_pthread_mutex_t lock; #elif defined(ACL_MS_WINDOWS) acl_pthread_mutex_t lock; #define MUTEX_INIT #else acl_pthread_mutex_t lock = PTHREAD_MUTEX_INITIALIZER; #endif if (mutex) { #ifdef MUTEX_INIT acl_pthread_mutex_init(&lock, NULL); #endif time(&begin); while (i++ < loop) { acl_pthread_mutex_lock(&lock); acl_pthread_mutex_unlock(&lock); } time(&end); printf("lock and unkock, loop %d, time cost is %ld\r\n", loop, (long int) end - begin); i = 0; if (type > ACL_MEM_TYPE_NONE && type < ACL_MEM_TYPE_MAX) { time(&begin); while (i++ < loop) { acl_pthread_mutex_lock(&lock); buf = acl_allocator_mem_alloc(__var_allocator, type); acl_pthread_mutex_unlock(&lock); acl_pthread_mutex_lock(&lock); acl_allocator_mem_free(__var_allocator, type, buf); acl_pthread_mutex_unlock(&lock); } time(&end); } else if (type == MEM_TYPE_GROSS) { acl_pthread_mutex_lock(&lock); buf = acl_allocator_membuf_alloc(__FILE__, __LINE__, __var_allocator, size); acl_pthread_mutex_unlock(&lock); acl_pthread_mutex_lock(&lock); acl_allocator_membuf_free(__FILE__, __LINE__, __var_allocator, buf); acl_pthread_mutex_unlock(&lock); } else { time(&begin); while (i++ < loop) { acl_pthread_mutex_lock(&lock); buf = MALLOC(size); acl_pthread_mutex_unlock(&lock); acl_pthread_mutex_lock(&lock); FREE(buf); acl_pthread_mutex_unlock(&lock); } time(&end); } #ifdef MUTEX_INIT acl_pthread_mutex_destroy(&lock); #endif } else { if (type > ACL_MEM_TYPE_NONE && type < ACL_MEM_TYPE_MAX) { time(&begin); while (i++ < loop) { buf = acl_allocator_mem_alloc(__var_allocator, type); acl_allocator_mem_free(__var_allocator, type, buf); } time(&end); } else if (type == MEM_TYPE_GROSS) { buf = acl_allocator_membuf_alloc(__FILE__, __LINE__, __var_allocator, size); acl_allocator_membuf_free(__FILE__, __LINE__, __var_allocator, buf); } else { time(&begin); while (i++ < loop) { buf = MALLOC(size); FREE(buf); } time(&end); } } printf("%s: time cost is %ld seconds, count is %d\r\n", label, (long int) end - begin, loop); } struct MEM_POOL_BENCH { char *label; int mutex; int loop; acl_mem_type type; int size; }; #define MAX_LOOP 10000000 static struct MEM_POOL_BENCH __pool_bench_tab[] = { { "alloc vstring, pool, mutex", 1, MAX_LOOP, ACL_MEM_TYPE_VSTRING, 0 }, { "alloc vstring, pool, no mutex", 0, MAX_LOOP, ACL_MEM_TYPE_VSTRING, 0 }, { "alloc vstring, no pool, no mutex", 0, MAX_LOOP, ACL_MEM_TYPE_NONE, 1024 }, { "alloc 64, pool, mutex", 1, MAX_LOOP, ACL_MEM_TYPE_64_BUF, 0 }, { "alloc 64, pool, no mutex", 0, MAX_LOOP, ACL_MEM_TYPE_64_BUF, 0 }, { "alloc 64, no pool, no mutex", 0, MAX_LOOP, ACL_MEM_TYPE_NONE, 64 }, { "alloc 2K, pool, mutex", 1, MAX_LOOP, ACL_MEM_TYPE_2K_BUF, 0 }, { "alloc 2K, pool, no mutex", 0, MAX_LOOP, ACL_MEM_TYPE_2K_BUF, 0 }, { "alloc 2K, no pool, no mutex", 0, MAX_LOOP, ACL_MEM_TYPE_NONE, 1024 * 2 }, { "alloc 8K, pool, mutex", 1, MAX_LOOP, ACL_MEM_TYPE_8K_BUF, 0 }, { "alloc 8K, pool, no mutex", 0, MAX_LOOP, ACL_MEM_TYPE_8K_BUF, 0 }, { "alloc 8K, no pool, no mutex", 0, MAX_LOOP, ACL_MEM_TYPE_NONE, 1024 * 8 }, { "alloc 64K, pool, mutex", 1, MAX_LOOP, ACL_MEM_TYPE_64K_BUF, 0 }, { "alloc 64K, pool, no mutex", 0, MAX_LOOP, ACL_MEM_TYPE_64K_BUF, 0 }, { "alloc 64K, no pool, no mutex", 0, MAX_LOOP, ACL_MEM_TYPE_NONE, 1024 * 64 }, { 0, 0, 0, 0, 0 }, }; static void mem_bench(void) { int i; for (i = 0; __pool_bench_tab[i].label != NULL; i++) { if (i % 3 == 0) printf("\r\n"); mempool_bench_test(__pool_bench_tab[i].label, __pool_bench_tab[i].mutex, __pool_bench_tab[i].loop, __pool_bench_tab[i].type, __pool_bench_tab[i].size); } end_prompt(); } int main(int argc, char *argv[]) { char ch; init(); while ((ch = getopt(argc, argv, "hc:")) > 0) { switch (ch) { case 'h': usage(argv[0]); exit (0); case 'c': if (strcasecmp(optarg, "bench") == 0) mem_bench(); else if (strcasecmp(optarg, "bench2") == 0) mem_bench2(); else if (strcasecmp(optarg, "bench3") == 0) mem_bench3(); else usage(argv[0]); exit (0); default: usage(argv[0]); exit (0); } } usage(argv[0]); exit (0); }