#include "lib_acl.h" #include #include #include #ifdef WIN32 #define snprintf _snprintf #endif static void binhash_iter(void) { ACL_BINHASH *table = acl_binhash_create(10, 0); ACL_BINHASH_ITER iter; char key[32], *value; int i; for (i = 0; i < 10; i++) { snprintf(key, sizeof(key), "key: %d", i); value = acl_mymalloc(32); snprintf(value, 32, "value: %d", i); assert(acl_binhash_enter(table, key, (int) strlen(key) + 1, value)); } i = 0; printf("\n>>>acl_binhash_foreach:\n"); acl_binhash_foreach(iter, table) { printf("hash i=%d, [%s]=[%s]\n", iter.i, (const char*) acl_binhash_iter_key(iter), (char*) acl_binhash_iter_value(iter)); i++; } printf(">>>total: %d\n", i); i = 0; printf("\n>>>acl_binhash_foreach and break:\n"); acl_binhash_foreach(iter, table) { printf("hash i=%d, [%s]=[%s]\n", iter.i, (const char*) acl_binhash_iter_key(iter), (char*) acl_binhash_iter_value(iter)); i++; if (i == 5) { printf("i = %d, break now\n", i); break; } } printf("\n>>>acl_binhash_foreach_reverse:\n"); acl_binhash_foreach_reverse(iter, table) { printf("hash i=%d, [%s]=[%s]\n", iter.i, (const char*) acl_binhash_iter_key(iter), (char*) acl_binhash_iter_value(iter)); i++; } acl_binhash_free(table, acl_myfree_fn); } static void htable_iter(void) { ACL_SLICE_POOL *slice = acl_slice_pool_create(10, 100, ACL_SLICE_FLAG_GC2 | ACL_SLICE_FLAG_RTGC_OFF); ACL_HTABLE *table = acl_htable_create3(10, 0, slice); ACL_HTABLE_ITER iter; char key[32], *value; int i; for (i = 0; i < 20; i++) { snprintf(key, sizeof(key), "key: %d", i); value = acl_mymalloc(32); snprintf(value, 32, "value: %d", i); assert(acl_htable_enter(table, key, value)); } i = 0; printf("\n>>>acl_htable_foreach:\n"); acl_htable_foreach(iter, table) { printf("hash i=%d, [%s]=[%s]\n", iter.i, acl_htable_iter_key(iter), (char*) acl_htable_iter_value(iter)); i++; } printf(">>>total: %d\n", i); i = 0; acl_htable_foreach(iter, table) { printf("hash i=%d, [%s]=[%s]\n", iter.i, acl_htable_iter_key(iter), (char*) acl_htable_iter_value(iter)); i++; if (i == 5) { printf("i = %d, break now\n", i); break; } } i = 0; printf("\n>>>acl_htable_foreach_reverse:\n"); acl_htable_foreach_reverse(iter, table) { printf("hash i=%d, [%s]=[%s]\n", iter.i, acl_htable_iter_key(iter), (char*) acl_htable_iter_value(iter)); i++; } printf(">>>total: %d\n", i); acl_htable_stat(table); acl_htable_free(table, acl_myfree_fn); acl_slice_pool_destroy(slice); } static void htable_iter2(void) { ACL_HTABLE *table = acl_htable_create(10, 0); ACL_ITER iter; char key[32], *value; int i; for (i = 0; i < 20; i++) { snprintf(key, sizeof(key), "key: %d", i); value = acl_mymalloc(32); snprintf(value, 32, "value: %d", i); assert(acl_htable_enter(table, key, value)); } i = 0; printf("\n>>>acl_foreach for htable:\n"); acl_foreach(iter, table) { printf("hash i=%d, [%s]\n", iter.i, (char*) iter.data); i++; } printf(">>>total: %d\n", i); i = 0; printf("\n>>>acl_foreach_reverse for htable:\n"); acl_foreach_reverse(iter, table) { printf("hash i=%d, [%s]\n", iter.i, (char*) iter.data); i++; } printf(">>>total: %d\n", i); acl_htable_free(table, acl_myfree_fn); } static void binhash_iter2(void) { ACL_BINHASH *table = acl_binhash_create(10, 0); ACL_ITER iter; char key[32], *value; int i; for (i = 0; i < 20; i++) { snprintf(key, sizeof(key), "key: %d", i); value = acl_mymalloc(32); snprintf(value, 32, "value: %d", i); assert(acl_binhash_enter(table, key, (int) strlen(key) + 1, value)); } i = 0; printf("\n>>>acl_foreach for binhash:\n"); acl_foreach(iter, table) { printf("hash i=%d, [%s]\n", iter.i, (char*) iter.data); i++; } printf(">>>total: %d\n", i); i = 0; printf("\n>>>acl_foreach_reverse for binhash:\n"); acl_foreach_reverse(iter, table) { printf("hash i=%d, [%s]\n", iter.i, (char*) iter.data); i++; } printf(">>>total: %d\n", i); acl_binhash_free(table, acl_myfree_fn); } static void fifo_iter(void) { ACL_FIFO fifo, *fifo_ptr = &fifo; ACL_FIFO_ITER iter; ACL_ITER iter2; ACL_FIFO_INFO *info; int i; char *data; acl_fifo_init(&fifo); for (i = 0; i < 10; i++) { data = acl_mymalloc(32); snprintf(data, 32, "data: %d", i); acl_fifo_push(&fifo, data); } printf("\n>>> fifo_iter: foreach\n"); acl_fifo_foreach(iter, fifo_ptr) { printf("%s\n", (char*) iter.ptr->data); } printf("\n>>> fifo_iter: foreach\n"); acl_fifo_foreach(iter, &fifo) { printf("%s\n", (char*) acl_fifo_iter_value(iter)); } printf("\n>>> fifo_iter: foreach_reverse\n"); acl_fifo_foreach_reverse(iter, &fifo) { info = iter.ptr; printf("%s\n", (char*) info->data); } printf("\n>>> acl_foreach for fifo:\n"); acl_foreach(iter2, &fifo) { printf("i: %d, value: %s\n", iter2.i, (char*) iter2.data); } printf("\n>>> acl_foreach_reverse for fifo:\n"); acl_foreach_reverse(iter2, &fifo) { printf("i: %d, value: %s\n", iter2.i, (char*) iter2.data); } while (1) { data = acl_fifo_pop(&fifo); if (data == NULL) break; acl_myfree(data); } } static void fifo_iter2(void) { ACL_FIFO *fifo_ptr = acl_fifo_new(); ACL_ITER iter; char *data; int i; for (i = 0; i < 10; i++) { data = acl_mymalloc(32); snprintf(data, 32, "data: %d", i); acl_fifo_push(fifo_ptr, data); } printf("\n>>> fifo_iter: foreach\n"); acl_foreach(iter, fifo_ptr) { printf("%s\n", (char*) iter.data); } while (1) { data = acl_fifo_pop(fifo_ptr); if (data == NULL) break; acl_myfree(data); } acl_fifo_free(fifo_ptr, NULL); } typedef struct { char name[32]; ACL_RING entry; } DUMMY; static void ring_iter(void) { ACL_RING head; DUMMY *dummy; ACL_RING_ITER iter; int i; acl_ring_init(&head); for (i = 0; i < 10; i++) { dummy = (DUMMY*) acl_mycalloc(1, sizeof(DUMMY)); snprintf(dummy->name, sizeof(dummy->name), "dummy:%d", i); acl_ring_append(&head, &dummy->entry); } printf("\nring_iter:\n"); acl_ring_foreach(iter, &head) { dummy = acl_ring_to_appl(iter.ptr, DUMMY, entry); printf("name: %s\n", dummy->name); } while (1) { iter.ptr = acl_ring_pop_head(&head); if (iter.ptr == NULL) break; dummy = acl_ring_to_appl(iter.ptr, DUMMY, entry); acl_myfree(dummy); } } static void argv_iter(int use_slice) { const char *s = "hello world, you are welcome!"; ACL_DBUF_POOL *dbuf = use_slice ? acl_dbuf_pool_create(8192) : NULL; ACL_ARGV *argv = acl_argv_split3(s, " ,!", dbuf); ACL_ITER iter; printf("\nacl_foreach for ACL_ARGV:\n"); acl_foreach(iter, argv) { printf(">> i: %d, value: %s\n", iter.i, (char*) iter.data); } printf("\nacl_foreach_reverse for ACL_ARGV:\n"); acl_foreach_reverse(iter, argv) { printf(">> i: %d, value: %s\n", iter.i, (char*) iter.data); } if (dbuf == NULL) acl_argv_free(argv); else acl_dbuf_pool_destroy(dbuf); } static void array_iter(void) { ACL_ARRAY *a = acl_array_create(10); ACL_ITER iter; int i; char *ptr; for (i = 0; i < 20; i++) { ptr = (char*) acl_mymalloc(32); snprintf(ptr, 32, "data: %d", i); (void) acl_array_append(a, ptr); } printf("\nacl_foreach for acl_array:\n"); acl_foreach(iter, a) { printf(">> i: %d, value: %s\n", iter.i, (char*) iter.data); } printf("\nacl_foreach_reverse for acl_array:\n"); acl_foreach_reverse(iter, a) { printf(">> i: %d, value: %s\n", iter.i, (char*) iter.data); } acl_array_destroy(a, acl_myfree_fn); } static void dlink_iter(void) { ACL_DLINK *dlink = acl_dlink_create(10); ACL_ITER iter; ACL_DITEM *ditem; printf("\n>>> dlink_iter:\n"); (void) acl_dlink_insert(dlink, 1000, 2000); printf(">>add 1000 -- 2000\n"); (void) acl_dlink_insert(dlink, 1, 1); printf(">>add 1 -- 1\n"); (void) acl_dlink_insert(dlink, 2, 3); printf(">>add 2 -- 3\n"); (void) acl_dlink_insert(dlink, 4, 8); printf(">>add 10 -- 100\n"); (void) acl_dlink_insert(dlink, 10, 100); printf(">>add 99 -- 200\n"); (void) acl_dlink_insert(dlink, 99, 200); printf(">>add 201 -- 300\n"); (void) acl_dlink_insert(dlink, 201, 300); printf(">>add 201 -- 300\n"); (void) acl_dlink_insert(dlink, 300, 400); printf(">>add 300 -- 400\n"); (void) acl_dlink_insert(dlink, 500, 600); printf(">>add 500 -- 600\n"); printf("\n>>>acl_foreach for acl_dlink:\n"); acl_foreach(iter, dlink) { ditem = (ACL_DITEM*) iter.data; printf(">> i: %d, range: %lld -- %lld\n", iter.i, ditem->begin, ditem->end); } acl_dlink_free(dlink); } static void cache_free(const ACL_CACHE_INFO *info acl_unused, void *ptr) { acl_myfree(ptr); } static void cache_iter(void) { ACL_CACHE *cache = acl_cache_create(100, 120, cache_free); char *ptr, key[32]; ACL_ITER iter; int i; for (i = 0; i < 10; i++) { snprintf(key, sizeof(key), "key-%d", i); ptr = (char*) acl_mymalloc(32); snprintf(ptr, 32, "data-%d", i); (void) acl_cache_enter(cache, key, ptr); } printf("\n>>>acl_foreach for acl_cache:\n"); acl_foreach(iter, cache) { printf(">>i: %d, key: %s, value: %s\n", iter.i, iter.key, (char*) iter.data); } printf("\n>>>acl_foreach_reverse for acl_cache:\n"); acl_foreach_reverse(iter, cache) { printf(">>i: %d, key: %s, value: %s\n", iter.i, iter.key, (char*) iter.data); } acl_cache_free(cache); } typedef struct { char name[32]; int i; } TIMER_ITEM; static void timer_iter(void) { ACL_TIMER *timer = acl_timer_new(); TIMER_ITEM *item; ACL_ITER iter; int i; for (i = 0; i < 10; i++) { item = (TIMER_ITEM*) acl_mycalloc(1, sizeof(TIMER_ITEM)); snprintf(item->name, sizeof(item->name), "name-%d", i); item->i = i; acl_timer_request(timer, item, i); } printf("\n>>>acl_foreach for ACL_TIMER:\n"); acl_foreach(iter, timer) { const ACL_TIMER_INFO *info; item = (TIMER_ITEM*) iter.data; info = acl_iter_info(iter, timer); printf("\titem->name=%s, item->i=%d, when: %d\n", item->name, item->i, (int) info->when); } printf("\n>>>acl_foreach_reverse for ACL_TIMER:\n"); acl_foreach_reverse(iter, timer) { const ACL_TIMER_INFO *info; item = (TIMER_ITEM*) iter.data; info = acl_iter_info(iter, timer); printf("\titem->name=%s, item->i=%d, when: %d\n", item->name, item->i, (int) info->when); acl_myfree(item); } acl_timer_free(timer, NULL); } static void netdb_iter(void) { ACL_DNS_DB *dns_db = acl_netdb_new("www.test.com"); ACL_ITER iter; acl_netdb_add_addr(dns_db, "127.0.0.1", 80); acl_netdb_add_addr(dns_db, "192.168.0.1", 80); acl_netdb_add_addr(dns_db, "192.168.0.2", 80); acl_netdb_add_addr(dns_db, "192.168.0.2", 80); acl_netdb_add_addr(dns_db, "192.168.0.3", 80); printf("\n>>>acl_foreach for ACL_DNS_DB\n"); acl_foreach(iter, dns_db) { const ACL_HOST_INFO *info, *info2; info = (const ACL_HOST_INFO*) iter.data; info2 = acl_iter_info(iter, dns_db); printf("\tip=%s, %s; port=%d, %d\n", info->ip, info2->ip, info->hport, info2->hport); } printf("\n>>>acl_foreach_reverse for ACL_DNS_DB\n"); acl_foreach_reverse(iter, dns_db) { const ACL_HOST_INFO *info, *info2; info = (const ACL_HOST_INFO*) iter.data; info2 = acl_iter_info(iter, dns_db); printf("\tip=%s, %s; port=%d, %d\n", info->ip, info2->ip, info->hport, info2->hport); } acl_netdb_free(dns_db); } static void ifconf_iter(void) { ACL_IFCONF *ifconf = acl_get_ifaddrs(); ACL_IFADDR *ifaddr; ACL_ITER iter; printf("\nacl_foreach for ifconf_iter\n"); if (ifconf) { acl_foreach(iter, ifconf) { ifaddr = (ACL_IFADDR*) iter.data; #ifdef ACL_MS_WINDOWS printf("\tname: %s, desc: %s, addr: %s\n", ifaddr->name, ifaddr->desc, ifaddr->addr); #else printf("\tname: %s, addr: %s\n", ifaddr->name, ifaddr->addr); #endif } } printf("\nacl_foreach_reverse for ifconf_iter\n"); acl_foreach_reverse(iter, ifconf) { ifaddr = (ACL_IFADDR*) iter.data; #ifdef ACL_MS_WINDOWS printf("\tname: %s, desc: %s, addr: %s\n", ifaddr->name, ifaddr->desc, ifaddr->addr); #else printf("\tname: %s, addr: %s\n", ifaddr->name, ifaddr->addr); #endif } acl_free_ifaddrs(ifconf); } int main(int argc, char *argv[]) { #if 0 acl_memory_debug_start(); acl_memory_debug_stack(1); acl_debug_malloc_init(NULL, "log.txt"); #endif int use_slice; if (argc == 2 && strcasecmp(argv[1], "slice") == 0) use_slice = 1; else use_slice = 0; fifo_iter(); fifo_iter2(); ring_iter(); htable_iter(); htable_iter2(); binhash_iter(); binhash_iter2(); argv_iter(use_slice); array_iter(); dlink_iter(); cache_iter(); timer_iter(); netdb_iter(); ifconf_iter(); #ifdef ACL_MS_WINDOWS printf("enter any key to exit ...\n"); getchar(); #endif return (0); }