+ return rc;
+}
+
+static memcached_return pre_replication_noblock(memcached_st *memc)
+{
+ memcached_return rc= MEMCACHED_FAILURE;
+ if (pre_replication(memc) == MEMCACHED_SUCCESS &&
+ pre_nonblock(memc) == MEMCACHED_SUCCESS)
+ rc= MEMCACHED_SUCCESS;
+
+ return rc;
+}
+
+static void my_free(memcached_st *ptr __attribute__((unused)), void *mem)
+{
+ free(mem);
+}
+
+static void *my_malloc(memcached_st *ptr __attribute__((unused)), const size_t size)
+{
+ void *ret= malloc(size);
+ if (ret != NULL)
+ memset(ret, 0xff, size);
+
+ return ret;
+}
+
+static void *my_realloc(memcached_st *ptr __attribute__((unused)), void *mem, const size_t size)
+{
+ return realloc(mem, size);
+}
+
+static void *my_calloc(memcached_st *ptr __attribute__((unused)), size_t nelem, const size_t size)
+{
+ return calloc(nelem, size);
+}
+
+static memcached_return set_prefix(memcached_st *memc)
+{
+ memcached_return rc;
+ const char *key= "mine";
+ char *value;
+
+ /* Make sure be default none exists */
+ value= memcached_callback_get(memc, MEMCACHED_CALLBACK_PREFIX_KEY, &rc);
+ assert(rc == MEMCACHED_FAILURE);
+
+ /* Test a clean set */
+ rc= memcached_callback_set(memc, MEMCACHED_CALLBACK_PREFIX_KEY, (void *)key);
+ assert(rc == MEMCACHED_SUCCESS);
+
+ value= memcached_callback_get(memc, MEMCACHED_CALLBACK_PREFIX_KEY, &rc);
+ assert(memcmp(value, key, 4) == 0);
+ assert(rc == MEMCACHED_SUCCESS);
+
+ /* Test that we can turn it off */
+ rc= memcached_callback_set(memc, MEMCACHED_CALLBACK_PREFIX_KEY, NULL);
+ assert(rc == MEMCACHED_SUCCESS);
+
+ value= memcached_callback_get(memc, MEMCACHED_CALLBACK_PREFIX_KEY, &rc);
+ assert(rc == MEMCACHED_FAILURE);
+
+ /* Now setup for main test */
+ rc= memcached_callback_set(memc, MEMCACHED_CALLBACK_PREFIX_KEY, (void *)key);
+ assert(rc == MEMCACHED_SUCCESS);
+
+ value= memcached_callback_get(memc, MEMCACHED_CALLBACK_PREFIX_KEY, &rc);
+ assert(rc == MEMCACHED_SUCCESS);
+ assert(memcmp(value, key, 4) == 0);
+
+ /* Set to Zero, and then Set to something too large */
+ {
+ char long_key[255];
+ memset(long_key, 0, 255);
+
+ rc= memcached_callback_set(memc, MEMCACHED_CALLBACK_PREFIX_KEY, NULL);
+ assert(rc == MEMCACHED_SUCCESS);
+
+ value= memcached_callback_get(memc, MEMCACHED_CALLBACK_PREFIX_KEY, &rc);
+ assert(rc == MEMCACHED_FAILURE);
+ assert(value == NULL);
+
+ /* Test a long key for failure */
+ /* TODO, extend test to determine based on setting, what result should be */
+ strcpy(long_key, "Thisismorethentheallottednumberofcharacters");
+ rc= memcached_callback_set(memc, MEMCACHED_CALLBACK_PREFIX_KEY, long_key);
+ //assert(rc == MEMCACHED_BAD_KEY_PROVIDED);
+ assert(rc == MEMCACHED_SUCCESS);
+
+ /* Now test a key with spaces (which will fail from long key, since bad key is not set) */
+ strcpy(long_key, "This is more then the allotted number of characters");
+ rc= memcached_callback_set(memc, MEMCACHED_CALLBACK_PREFIX_KEY, long_key);
+ assert(rc == MEMCACHED_BAD_KEY_PROVIDED);
+
+ /* Test for a bad prefix, but with a short key */
+ rc= memcached_behavior_set(memc, MEMCACHED_BEHAVIOR_VERIFY_KEY, 1);
+ assert(rc == MEMCACHED_SUCCESS);
+
+ strcpy(long_key, "dog cat");
+ rc= memcached_callback_set(memc, MEMCACHED_CALLBACK_PREFIX_KEY, long_key);
+ assert(rc == MEMCACHED_BAD_KEY_PROVIDED);
+ }
+
+ return MEMCACHED_SUCCESS;
+}
+
+#ifdef MEMCACHED_ENABLE_DEPRECATED
+static memcached_return deprecated_set_memory_alloc(memcached_st *memc)
+{
+ void *test_ptr= NULL;
+ void *cb_ptr= NULL;
+ {
+ memcached_malloc_function malloc_cb=
+ (memcached_malloc_function)my_malloc;
+ cb_ptr= *(void **)&malloc_cb;
+ memcached_return rc;
+
+ rc= memcached_callback_set(memc, MEMCACHED_CALLBACK_MALLOC_FUNCTION, cb_ptr);
+ assert(rc == MEMCACHED_SUCCESS);
+ test_ptr= memcached_callback_get(memc, MEMCACHED_CALLBACK_MALLOC_FUNCTION, &rc);
+ assert(rc == MEMCACHED_SUCCESS);
+ assert(test_ptr == cb_ptr);
+ }
+
+ {
+ memcached_realloc_function realloc_cb=
+ (memcached_realloc_function)my_realloc;
+ cb_ptr= *(void **)&realloc_cb;
+ memcached_return rc;
+
+ rc= memcached_callback_set(memc, MEMCACHED_CALLBACK_REALLOC_FUNCTION, cb_ptr);
+ assert(rc == MEMCACHED_SUCCESS);
+ test_ptr= memcached_callback_get(memc, MEMCACHED_CALLBACK_REALLOC_FUNCTION, &rc);
+ assert(rc == MEMCACHED_SUCCESS);
+ assert(test_ptr == cb_ptr);
+ }
+
+ {
+ memcached_free_function free_cb=
+ (memcached_free_function)my_free;
+ cb_ptr= *(void **)&free_cb;
+ memcached_return rc;
+
+ rc= memcached_callback_set(memc, MEMCACHED_CALLBACK_FREE_FUNCTION, cb_ptr);
+ assert(rc == MEMCACHED_SUCCESS);
+ test_ptr= memcached_callback_get(memc, MEMCACHED_CALLBACK_FREE_FUNCTION, &rc);
+ assert(rc == MEMCACHED_SUCCESS);
+ assert(test_ptr == cb_ptr);
+ }
+ return MEMCACHED_SUCCESS;
+}
+#endif
+
+static memcached_return set_memory_alloc(memcached_st *memc)
+{
+ memcached_return rc;
+ rc= memcached_set_memory_allocators(memc, NULL, my_free,
+ my_realloc, my_calloc);
+ assert(rc == MEMCACHED_FAILURE);
+
+ rc= memcached_set_memory_allocators(memc, my_malloc, my_free,
+ my_realloc, my_calloc);
+
+ memcached_malloc_function mem_malloc;
+ memcached_free_function mem_free;
+ memcached_realloc_function mem_realloc;
+ memcached_calloc_function mem_calloc;
+ memcached_get_memory_allocators(memc, &mem_malloc, &mem_free,
+ &mem_realloc, &mem_calloc);
+
+ assert(mem_malloc == my_malloc);
+ assert(mem_realloc == my_realloc);
+ assert(mem_calloc == my_calloc);
+ assert(mem_free == my_free);
+
+ return MEMCACHED_SUCCESS;
+}
+
+static memcached_return enable_consistent(memcached_st *memc)
+{
+ memcached_server_distribution value= MEMCACHED_DISTRIBUTION_CONSISTENT;
+ memcached_hash hash;
+ memcached_behavior_set(memc, MEMCACHED_BEHAVIOR_DISTRIBUTION, value);
+ if (pre_hsieh(memc) != MEMCACHED_SUCCESS)
+ return MEMCACHED_FAILURE;
+
+ value= (memcached_server_distribution)memcached_behavior_get(memc, MEMCACHED_BEHAVIOR_DISTRIBUTION);
+ assert(value == MEMCACHED_DISTRIBUTION_CONSISTENT);
+
+ hash= (memcached_hash)memcached_behavior_get(memc, MEMCACHED_BEHAVIOR_HASH);
+ assert(hash == MEMCACHED_HASH_HSIEH);
+
+
+ return MEMCACHED_SUCCESS;
+}
+
+static memcached_return enable_cas(memcached_st *memc)
+{
+ unsigned int set= 1;
+
+ memcached_version(memc);
+
+ if ((memc->hosts[0].major_version >= 1 && (memc->hosts[0].minor_version == 2 && memc->hosts[0].micro_version >= 4))
+ || memc->hosts[0].minor_version > 2)
+ {
+ memcached_behavior_set(memc, MEMCACHED_BEHAVIOR_SUPPORT_CAS, set);
+
+ return MEMCACHED_SUCCESS;
+ }
+
+ return MEMCACHED_FAILURE;
+}
+
+static memcached_return check_for_1_2_3(memcached_st *memc)
+{
+ memcached_version(memc);
+
+ if ((memc->hosts[0].major_version >= 1 && (memc->hosts[0].minor_version == 2 && memc->hosts[0].micro_version >= 4))
+ || memc->hosts[0].minor_version > 2)
+ return MEMCACHED_SUCCESS;
+
+ return MEMCACHED_FAILURE;
+}
+
+static memcached_return pre_unix_socket(memcached_st *memc)
+{
+ memcached_return rc;
+ struct stat buf;
+
+ memcached_server_list_free(memc->hosts);
+ memc->hosts= NULL;
+ memc->number_of_hosts= 0;
+
+ if (stat("/tmp/memcached.socket", &buf))
+ return MEMCACHED_FAILURE;
+
+ rc= memcached_server_add_unix_socket_with_weight(memc, "/tmp/memcached.socket", 0);
+
+ return rc;
+}
+
+static memcached_return pre_nodelay(memcached_st *memc)
+{
+ memcached_behavior_set(memc, MEMCACHED_BEHAVIOR_NO_BLOCK, 0);
+ memcached_behavior_set(memc, MEMCACHED_BEHAVIOR_TCP_NODELAY, 0);
+
+ return MEMCACHED_SUCCESS;
+}
+
+static memcached_return pre_settimer(memcached_st *memc)
+{
+ memcached_behavior_set(memc, MEMCACHED_BEHAVIOR_SND_TIMEOUT, 1000);
+ memcached_behavior_set(memc, MEMCACHED_BEHAVIOR_RCV_TIMEOUT, 1000);
+
+ return MEMCACHED_SUCCESS;
+}
+
+static memcached_return poll_timeout(memcached_st *memc)
+{
+ size_t timeout;
+
+ timeout= 100;
+
+ memcached_behavior_set(memc, MEMCACHED_BEHAVIOR_POLL_TIMEOUT, timeout);
+
+ timeout= (size_t)memcached_behavior_get(memc, MEMCACHED_BEHAVIOR_POLL_TIMEOUT);
+
+ assert(timeout == 100);
+
+ return MEMCACHED_SUCCESS;
+}
+
+static test_return noreply_test(memcached_st *memc)
+{
+ memcached_return ret;
+ ret= memcached_behavior_set(memc, MEMCACHED_BEHAVIOR_NOREPLY, 1);
+ assert(ret == MEMCACHED_SUCCESS);
+ ret= memcached_behavior_set(memc, MEMCACHED_BEHAVIOR_BUFFER_REQUESTS, 1);
+ assert(ret == MEMCACHED_SUCCESS);
+ ret= memcached_behavior_set(memc, MEMCACHED_BEHAVIOR_SUPPORT_CAS, 1);
+ assert(ret == MEMCACHED_SUCCESS);
+ assert(memcached_behavior_get(memc, MEMCACHED_BEHAVIOR_NOREPLY) == 1);
+ assert(memcached_behavior_get(memc, MEMCACHED_BEHAVIOR_BUFFER_REQUESTS) == 1);
+ assert(memcached_behavior_get(memc, MEMCACHED_BEHAVIOR_SUPPORT_CAS) == 1);
+
+ for (int count=0; count < 5; ++count)
+ {
+ for (int x=0; x < 100; ++x)
+ {
+ char key[10];
+ size_t len= (size_t)sprintf(key, "%d", x);
+ switch (count)
+ {
+ case 0:
+ ret=memcached_add(memc, key, len, key, len, 0, 0);
+ break;
+ case 1:
+ ret=memcached_replace(memc, key, len, key, len, 0, 0);
+ break;
+ case 2:
+ ret=memcached_set(memc, key, len, key, len, 0, 0);
+ break;
+ case 3:
+ ret=memcached_append(memc, key, len, key, len, 0, 0);
+ break;
+ case 4:
+ ret=memcached_prepend(memc, key, len, key, len, 0, 0);
+ break;
+ default:
+ assert(count);
+ break;
+ }
+ assert(ret == MEMCACHED_SUCCESS || ret == MEMCACHED_BUFFERED);
+ }
+
+ /*
+ ** NOTE: Don't ever do this in your code! this is not a supported use of the
+ ** API and is _ONLY_ done this way to verify that the library works the
+ ** way it is supposed to do!!!!
+ */
+ int no_msg=0;
+ for (uint32_t x=0; x < memc->number_of_hosts; ++x)
+ no_msg+=(int)(memc->hosts[x].cursor_active);
+
+ assert(no_msg == 0);
+ assert(memcached_flush_buffers(memc) == MEMCACHED_SUCCESS);
+
+ /*
+ ** Now validate that all items was set properly!
+ */
+ for (int x=0; x < 100; ++x)
+ {
+ char key[10];
+ size_t len= (size_t)sprintf(key, "%d", x);
+ size_t length;
+ uint32_t flags;
+ char* value=memcached_get(memc, key, strlen(key),
+ &length, &flags, &ret);
+ assert(ret == MEMCACHED_SUCCESS && value != NULL);
+ switch (count)
+ {
+ case 0: /* FALLTHROUGH */
+ case 1: /* FALLTHROUGH */
+ case 2:
+ assert(strncmp(value, key, len) == 0);
+ assert(len == length);
+ break;
+ case 3:
+ assert(length == len * 2);
+ break;
+ case 4:
+ assert(length == len * 3);
+ break;
+ default:
+ assert(count);
+ break;
+ }
+ free(value);
+ }
+ }
+
+ /* Try setting an illegal cas value (should not return an error to
+ * the caller (because we don't expect a return message from the server)
+ */
+ const char* keys[]= {"0"};
+ size_t lengths[]= {1};
+ size_t length;
+ uint32_t flags;
+ memcached_result_st results_obj;
+ memcached_result_st *results;
+ ret= memcached_mget(memc, keys, lengths, 1);
+ assert(ret == MEMCACHED_SUCCESS);
+
+ results= memcached_result_create(memc, &results_obj);
+ assert(results);
+ results= memcached_fetch_result(memc, &results_obj, &ret);
+ assert(results);
+ assert(ret == MEMCACHED_SUCCESS);
+ uint64_t cas= memcached_result_cas(results);
+ memcached_result_free(&results_obj);
+
+ ret= memcached_cas(memc, keys[0], lengths[0], keys[0], lengths[0], 0, 0, cas);
+ assert(ret == MEMCACHED_SUCCESS);
+
+ /*
+ * The item will have a new cas value, so try to set it again with the old
+ * value. This should fail!
+ */
+ ret= memcached_cas(memc, keys[0], lengths[0], keys[0], lengths[0], 0, 0, cas);
+ assert(ret == MEMCACHED_SUCCESS);
+ assert(memcached_flush_buffers(memc) == MEMCACHED_SUCCESS);
+ char* value=memcached_get(memc, keys[0], lengths[0], &length, &flags, &ret);
+ assert(ret == MEMCACHED_SUCCESS && value != NULL);
+ free(value);
+
+ return TEST_SUCCESS;
+}
+
+static test_return analyzer_test(memcached_st *memc)
+{
+ memcached_return rc;
+ memcached_stat_st *memc_stat;
+ memcached_analysis_st *report;
+
+ memc_stat= memcached_stat(memc, NULL, &rc);
+ assert(rc == MEMCACHED_SUCCESS);
+ assert(memc_stat);
+
+ report= memcached_analyze(memc, memc_stat, &rc);
+ assert(rc == MEMCACHED_SUCCESS);
+ assert(report);
+
+ free(report);
+ memcached_stat_free(NULL, memc_stat);
+
+ return TEST_SUCCESS;
+}
+
+/* Count the objects */
+static memcached_return callback_dump_counter(memcached_st *ptr __attribute__((unused)),
+ const char *key __attribute__((unused)),
+ size_t key_length __attribute__((unused)),
+ void *context)
+{
+ uint32_t *counter= (uint32_t *)context;
+
+ *counter= *counter + 1;
+
+ return MEMCACHED_SUCCESS;
+}
+
+static test_return dump_test(memcached_st *memc)
+{
+ memcached_return rc;
+ uint32_t counter= 0;
+ memcached_dump_func callbacks[1];
+ test_return main_rc;
+
+ callbacks[0]= &callback_dump_counter;
+
+ /* No support for Binary protocol yet */
+ if (memc->flags & MEM_BINARY_PROTOCOL)
+ return TEST_SUCCESS;
+
+ main_rc= set_test3(memc);
+
+ assert (main_rc == TEST_SUCCESS);
+
+ rc= memcached_dump(memc, callbacks, (void *)&counter, 1);
+ assert(rc == MEMCACHED_SUCCESS);
+
+ /* We may have more then 32 if our previous flush has not completed */
+ assert(counter >= 32);
+
+ return TEST_SUCCESS;
+}
+
+#ifdef HAVE_LIBMEMCACHEDUTIL
+static void* connection_release(void *arg) {
+ struct {
+ memcached_pool_st* pool;
+ memcached_st* mmc;
+ } *resource= arg;
+
+ usleep(250);
+ assert(memcached_pool_push(resource->pool, resource->mmc) == MEMCACHED_SUCCESS);
+ return arg;
+}
+
+static test_return connection_pool_test(memcached_st *memc)
+{
+ memcached_pool_st* pool= memcached_pool_create(memc, 5, 10);
+ assert(pool != NULL);
+ memcached_st* mmc[10];
+ memcached_return rc;
+
+ for (int x= 0; x < 10; ++x) {
+ mmc[x]= memcached_pool_pop(pool, false, &rc);
+ assert(mmc[x] != NULL);
+ assert(rc == MEMCACHED_SUCCESS);
+ }
+
+ assert(memcached_pool_pop(pool, false, &rc) == NULL);
+ assert(rc == MEMCACHED_SUCCESS);
+
+ pthread_t tid;
+ struct {
+ memcached_pool_st* pool;
+ memcached_st* mmc;
+ } item= { .pool = pool, .mmc = mmc[9] };
+ pthread_create(&tid, NULL, connection_release, &item);
+ mmc[9]= memcached_pool_pop(pool, true, &rc);
+ assert(rc == MEMCACHED_SUCCESS);
+ pthread_join(tid, NULL);
+ assert(mmc[9] == item.mmc);
+ const char *key= "key";
+ size_t keylen= strlen(key);
+
+ // verify that I can do ops with all connections
+ rc= memcached_set(mmc[0], key, keylen, "0", 1, 0, 0);
+ assert(rc == MEMCACHED_SUCCESS);
+
+ for (unsigned int x= 0; x < 10; ++x) {
+ uint64_t number_value;
+ rc= memcached_increment(mmc[x], key, keylen, 1, &number_value);
+ assert(rc == MEMCACHED_SUCCESS);
+ assert(number_value == (x+1));
+ }
+
+ // Release them..
+ for (int x= 0; x < 10; ++x)
+ assert(memcached_pool_push(pool, mmc[x]) == MEMCACHED_SUCCESS);
+
+ assert(memcached_pool_destroy(pool) == memc);
+ return TEST_SUCCESS;
+}
+#endif
+
+static test_return replication_set_test(memcached_st *memc)
+{
+ memcached_return rc;
+ memcached_st *memc_clone= memcached_clone(NULL, memc);
+ memcached_behavior_set(memc_clone, MEMCACHED_BEHAVIOR_NUMBER_OF_REPLICAS, 0);
+
+ rc= memcached_set(memc, "bubba", 5, "0", 1, 0, 0);
+ assert(rc == MEMCACHED_SUCCESS);
+
+ /*
+ ** We are using the quiet commands to store the replicas, so we need
+ ** to ensure that all of them are processed before we can continue.
+ ** In the test we go directly from storing the object to trying to
+ ** receive the object from all of the different servers, so we
+ ** could end up in a race condition (the memcached server hasn't yet
+ ** processed the quiet command from the replication set when it process
+ ** the request from the other client (created by the clone)). As a
+ ** workaround for that we call memcached_quit to send the quit command
+ ** to the server and wait for the response ;-) If you use the test code
+ ** as an example for your own code, please note that you shouldn't need
+ ** to do this ;-)
+ */
+ memcached_quit(memc);
+
+ /*
+ ** "bubba" should now be stored on all of our servers. We don't have an
+ ** easy to use API to address each individual server, so I'll just iterate
+ ** through a bunch of "master keys" and I should most likely hit all of the
+ ** servers...
+ */
+ for (int x= 'a'; x <= 'z'; ++x)
+ {
+ char key[2]= { [0]= (char)x };
+ size_t len;
+ uint32_t flags;
+ char *val= memcached_get_by_key(memc_clone, key, 1, "bubba", 5,
+ &len, &flags, &rc);
+ assert(rc == MEMCACHED_SUCCESS);
+ assert(val != NULL);
+ free(val);
+ }
+
+ memcached_free(memc_clone);
+
+ return TEST_SUCCESS;
+}
+
+static test_return replication_get_test(memcached_st *memc)
+{
+ memcached_return rc;
+
+ /*
+ * Don't do the following in your code. I am abusing the internal details
+ * within the library, and this is not a supported interface.
+ * This is to verify correct behavior in the library
+ */
+ for (uint32_t host= 0; host < memc->number_of_hosts; ++host)
+ {
+ memcached_st *memc_clone= memcached_clone(NULL, memc);
+ memc_clone->hosts[host].port= 0;
+
+ for (int x= 'a'; x <= 'z'; ++x)
+ {
+ char key[2]= { [0]= (char)x };
+ size_t len;
+ uint32_t flags;
+ char *val= memcached_get_by_key(memc_clone, key, 1, "bubba", 5,
+ &len, &flags, &rc);
+ assert(rc == MEMCACHED_SUCCESS);
+ assert(val != NULL);
+ free(val);
+ }
+
+ memcached_free(memc_clone);
+ }
+
+ return TEST_SUCCESS;
+}
+
+static test_return replication_mget_test(memcached_st *memc)
+{
+ memcached_return rc;
+ memcached_st *memc_clone= memcached_clone(NULL, memc);
+ memcached_behavior_set(memc_clone, MEMCACHED_BEHAVIOR_NUMBER_OF_REPLICAS, 0);
+
+ const char *keys[]= { "bubba", "key1", "key2", "key3" };
+ size_t len[]= { 5, 4, 4, 4 };
+
+ for (int x=0; x< 4; ++x)
+ {
+ rc= memcached_set(memc, keys[x], len[x], "0", 1, 0, 0);
+ assert(rc == MEMCACHED_SUCCESS);
+ }
+
+ /*
+ ** We are using the quiet commands to store the replicas, so we need
+ ** to ensure that all of them are processed before we can continue.
+ ** In the test we go directly from storing the object to trying to
+ ** receive the object from all of the different servers, so we
+ ** could end up in a race condition (the memcached server hasn't yet
+ ** processed the quiet command from the replication set when it process
+ ** the request from the other client (created by the clone)). As a
+ ** workaround for that we call memcached_quit to send the quit command
+ ** to the server and wait for the response ;-) If you use the test code
+ ** as an example for your own code, please note that you shouldn't need
+ ** to do this ;-)
+ */
+ memcached_quit(memc);
+
+ /*
+ * Don't do the following in your code. I am abusing the internal details
+ * within the library, and this is not a supported interface.
+ * This is to verify correct behavior in the library
+ */
+ memcached_result_st result_obj;
+ for (uint32_t host= 0; host < memc_clone->number_of_hosts; host++)
+ {
+ memcached_st *new_clone= memcached_clone(NULL, memc);
+ new_clone->hosts[host].port= 0;
+
+ for (int x= 'a'; x <= 'z'; ++x)
+ {
+ const char key[2]= { [0]= (const char)x };
+
+ rc= memcached_mget_by_key(new_clone, key, 1, keys, len, 4);
+ assert(rc == MEMCACHED_SUCCESS);
+
+ memcached_result_st *results= memcached_result_create(new_clone, &result_obj);
+ assert(results);
+
+ int hits= 0;
+ while ((results= memcached_fetch_result(new_clone, &result_obj, &rc)) != NULL)
+ {
+ hits++;
+ }
+ assert(hits == 4);
+ memcached_result_free(&result_obj);
+ }
+
+ memcached_free(new_clone);
+ }
+
+ memcached_free(memc_clone);
+
+ return TEST_SUCCESS;
+}
+
+static test_return replication_delete_test(memcached_st *memc)
+{
+ memcached_return rc;
+ memcached_st *memc_clone= memcached_clone(NULL, memc);
+ /* Delete the items from all of the servers except 1 */
+ uint64_t repl= memcached_behavior_get(memc,
+ MEMCACHED_BEHAVIOR_NUMBER_OF_REPLICAS);
+ memcached_behavior_set(memc, MEMCACHED_BEHAVIOR_NUMBER_OF_REPLICAS, --repl);