#include <sys/time.h>
#include <sys/types.h>
#include <sys/stat.h>
+#include <signal.h>
#include <unistd.h>
#include <time.h>
#include "server.h"
static const char *global_keys[GLOBAL_COUNT];
static size_t global_keys_length[GLOBAL_COUNT];
-static test_return init_test(memcached_st *not_used __attribute__((unused)))
+static test_return_t init_test(memcached_st *not_used __attribute__((unused)))
{
memcached_st memc;
(void)memcached_create(&memc);
memcached_free(&memc);
- return 0;
+ return TEST_SUCCESS;
}
-static test_return server_list_null_test(memcached_st *ptr __attribute__((unused)))
+static test_return_t server_list_null_test(memcached_st *ptr __attribute__((unused)))
{
memcached_server_st *server_list;
memcached_return rc;
server_list= memcached_server_list_append_with_weight(NULL, NULL, 0, 0, &rc);
assert(server_list == NULL);
- return 0;
+ return TEST_SUCCESS;
}
#define TEST_PORT_COUNT 7
return MEMCACHED_SUCCESS;
}
-static test_return server_sort_test(memcached_st *ptr __attribute__((unused)))
+static test_return_t server_sort_test(memcached_st *ptr __attribute__((unused)))
{
uint32_t x;
uint32_t bigger= 0; /* Prime the value for the assert in server_display_function */
memcached_free(local_memc);
- return 0;
+ return TEST_SUCCESS;
}
-static test_return server_sort2_test(memcached_st *ptr __attribute__((unused)))
+static test_return_t server_sort2_test(memcached_st *ptr __attribute__((unused)))
{
uint32_t bigger= 0; /* Prime the value for the assert in server_display_function */
memcached_return rc;
memcached_free(local_memc);
- return 0;
+ return TEST_SUCCESS;
}
static memcached_return server_display_unsort_function(memcached_st *ptr __attribute__((unused)), memcached_server_st *server, void *context)
return MEMCACHED_SUCCESS;
}
-static test_return server_unsort_test(memcached_st *ptr __attribute__((unused)))
+static test_return_t server_unsort_test(memcached_st *ptr __attribute__((unused)))
{
uint32_t x;
uint32_t counter= 0; /* Prime the value for the assert in server_display_function */
memcached_free(local_memc);
- return 0;
+ return TEST_SUCCESS;
}
-static test_return allocation_test(memcached_st *not_used __attribute__((unused)))
+static test_return_t allocation_test(memcached_st *not_used __attribute__((unused)))
{
memcached_st *memc;
memc= memcached_create(NULL);
assert(memc);
memcached_free(memc);
- return 0;
+ return TEST_SUCCESS;
}
-static test_return clone_test(memcached_st *memc)
+static test_return_t clone_test(memcached_st *memc)
{
/* All null? */
{
memcached_free(memc_clone);
}
- return 0;
+ return TEST_SUCCESS;
}
-static test_return userdata_test(memcached_st *memc)
+static test_return_t userdata_test(memcached_st *memc)
{
void* foo= NULL;
assert(memcached_set_user_data(memc, foo) == NULL);
return TEST_SUCCESS;
}
-static test_return connection_test(memcached_st *memc)
+static test_return_t connection_test(memcached_st *memc)
{
memcached_return rc;
rc= memcached_server_add_with_weight(memc, "localhost", 0, 0);
assert(rc == MEMCACHED_SUCCESS);
- return 0;
+ return TEST_SUCCESS;
}
-static test_return error_test(memcached_st *memc)
+static test_return_t error_test(memcached_st *memc)
{
memcached_return rc;
uint32_t values[] = { 851992627U, 2337886783U, 3196981036U, 4001849190U,
assert(values[rc] == hash_val);
}
- return 0;
+ return TEST_SUCCESS;
}
-static test_return set_test(memcached_st *memc)
+static test_return_t set_test(memcached_st *memc)
{
memcached_return rc;
const char *key= "foo";
(time_t)0, (uint32_t)0);
assert(rc == MEMCACHED_SUCCESS || rc == MEMCACHED_BUFFERED);
- return 0;
+ return TEST_SUCCESS;
}
-static test_return append_test(memcached_st *memc)
+static test_return_t append_test(memcached_st *memc)
{
memcached_return rc;
const char *key= "fig";
assert(rc == MEMCACHED_SUCCESS);
free(out_value);
- return 0;
+ return TEST_SUCCESS;
}
-static test_return append_binary_test(memcached_st *memc)
+static test_return_t append_binary_test(memcached_st *memc)
{
memcached_return rc;
const char *key= "numbers";
}
free(value);
- return 0;
+ return TEST_SUCCESS;
}
-static test_return cas2_test(memcached_st *memc)
+static test_return_t cas2_test(memcached_st *memc)
{
memcached_return rc;
const char *keys[]= {"fudge", "son", "food"};
memcached_result_free(&results_obj);
- return 0;
+ return TEST_SUCCESS;
}
-static test_return cas_test(memcached_st *memc)
+static test_return_t cas_test(memcached_st *memc)
{
memcached_return rc;
const char *key= "fun";
memcached_result_free(&results_obj);
- return 0;
+ return TEST_SUCCESS;
}
-static test_return prepend_test(memcached_st *memc)
+static test_return_t prepend_test(memcached_st *memc)
{
memcached_return rc;
const char *key= "fig";
assert(rc == MEMCACHED_SUCCESS);
free(out_value);
- return 0;
+ return TEST_SUCCESS;
}
/*
Set the value, then quit to make sure it is flushed.
Come back in and test that add fails.
*/
-static test_return add_test(memcached_st *memc)
+static test_return_t add_test(memcached_st *memc)
{
memcached_return rc;
const char *key= "foo";
else
assert(rc == MEMCACHED_NOTSTORED || rc == MEMCACHED_DATA_EXISTS);
- return 0;
+ return TEST_SUCCESS;
}
/*
** because the connects starts to time out (the test doesn't do much
** anyway, so just loop 10 iterations)
*/
-static test_return add_wrapper(memcached_st *memc)
+static test_return_t add_wrapper(memcached_st *memc)
{
unsigned int x;
unsigned int max= 10000;
for (x= 0; x < max; x++)
add_test(memc);
- return 0;
+ return TEST_SUCCESS;
}
-static test_return replace_test(memcached_st *memc)
+static test_return_t replace_test(memcached_st *memc)
{
memcached_return rc;
const char *key= "foo";
(time_t)0, (uint32_t)0);
assert(rc == MEMCACHED_SUCCESS);
- return 0;
+ return TEST_SUCCESS;
}
-static test_return delete_test(memcached_st *memc)
+static test_return_t delete_test(memcached_st *memc)
{
memcached_return rc;
const char *key= "foo";
rc= memcached_delete(memc, key, strlen(key), (time_t)0);
assert(rc == MEMCACHED_SUCCESS || rc == MEMCACHED_BUFFERED);
- return 0;
+ return TEST_SUCCESS;
}
-static test_return flush_test(memcached_st *memc)
+static test_return_t flush_test(memcached_st *memc)
{
memcached_return rc;
rc= memcached_flush(memc, 0);
assert(rc == MEMCACHED_SUCCESS);
- return 0;
+ return TEST_SUCCESS;
}
static memcached_return server_function(memcached_st *ptr __attribute__((unused)),
return MEMCACHED_SUCCESS;
}
-static test_return memcached_server_cursor_test(memcached_st *memc)
+static test_return_t memcached_server_cursor_test(memcached_st *memc)
{
char context[8];
strcpy(context, "foo bad");
callbacks[0]= server_function;
memcached_server_cursor(memc, callbacks, context, 1);
- return 0;
+ return TEST_SUCCESS;
}
-static test_return bad_key_test(memcached_st *memc)
+static test_return_t bad_key_test(memcached_st *memc)
{
memcached_return rc;
const char *key= "foo bad";
memcached_free(memc_clone);
- return 0;
+ return TEST_SUCCESS;
}
#define READ_THROUGH_VALUE "set for me"
return memcached_result_set_value(result, READ_THROUGH_VALUE, strlen(READ_THROUGH_VALUE));
}
-static test_return read_through(memcached_st *memc)
+static test_return_t read_through(memcached_st *memc)
{
memcached_return rc;
const char *key= "foo";
assert(!strcmp(READ_THROUGH_VALUE, string));
free(string);
- return 0;
+ return TEST_SUCCESS;
}
static memcached_return delete_trigger(memcached_st *ptr __attribute__((unused)),
return MEMCACHED_SUCCESS;
}
-static test_return delete_through(memcached_st *memc)
+static test_return_t delete_through(memcached_st *memc)
{
memcached_trigger_delete_key callback;
memcached_return rc;
rc= memcached_callback_set(memc, MEMCACHED_CALLBACK_DELETE_TRIGGER, *(void**)&callback);
assert(rc == MEMCACHED_SUCCESS);
- return 0;
+ return TEST_SUCCESS;
}
-static test_return get_test(memcached_st *memc)
+static test_return_t get_test(memcached_st *memc)
{
memcached_return rc;
const char *key= "foo";
assert(string_length == 0);
assert(!string);
- return 0;
+ return TEST_SUCCESS;
}
-static test_return get_test2(memcached_st *memc)
+static test_return_t get_test2(memcached_st *memc)
{
memcached_return rc;
const char *key= "foo";
free(string);
- return 0;
+ return TEST_SUCCESS;
}
-static test_return set_test2(memcached_st *memc)
+static test_return_t set_test2(memcached_st *memc)
{
memcached_return rc;
const char *key= "foo";
assert(rc == MEMCACHED_SUCCESS || rc == MEMCACHED_BUFFERED);
}
- return 0;
+ return TEST_SUCCESS;
}
-static test_return set_test3(memcached_st *memc)
+static test_return_t set_test3(memcached_st *memc)
{
memcached_return rc;
char *value;
free(value);
- return 0;
+ return TEST_SUCCESS;
}
-static test_return get_test3(memcached_st *memc)
+static test_return_t get_test3(memcached_st *memc)
{
memcached_return rc;
const char *key= "foo";
free(string);
free(value);
- return 0;
+ return TEST_SUCCESS;
}
-static test_return get_test4(memcached_st *memc)
+static test_return_t get_test4(memcached_st *memc)
{
memcached_return rc;
const char *key= "foo";
free(value);
- return 0;
+ return TEST_SUCCESS;
}
/*
* dereference a NIL-pointer if you issue a multi-get and don't read out all
* responses before you execute a storage command.
*/
-static test_return get_test5(memcached_st *memc)
+static test_return_t get_test5(memcached_st *memc)
{
/*
** Request the same key twice, to ensure that we hash to the same server
return TEST_SUCCESS;
}
-static test_return mget_end(memcached_st *memc)
+static test_return_t mget_end(memcached_st *memc)
{
const char *keys[]= { "foo", "foo2" };
size_t lengths[]= { 3, 4 };
}
/* Do not copy the style of this code, I just access hosts to testthis function */
-static test_return stats_servername_test(memcached_st *memc)
+static test_return_t stats_servername_test(memcached_st *memc)
{
memcached_return rc;
memcached_stat_st memc_stat;
memc->hosts[0].hostname,
memc->hosts[0].port);
- return 0;
+ return TEST_SUCCESS;
}
-static test_return increment_test(memcached_st *memc)
+static test_return_t increment_test(memcached_st *memc)
{
uint64_t new_number;
memcached_return rc;
assert(rc == MEMCACHED_SUCCESS);
assert(new_number == 2);
- return 0;
+ return TEST_SUCCESS;
}
-static test_return increment_with_initial_test(memcached_st *memc)
+static test_return_t increment_with_initial_test(memcached_st *memc)
{
if (memcached_behavior_get(memc, MEMCACHED_BEHAVIOR_BINARY_PROTOCOL) != 0)
{
assert(rc == MEMCACHED_SUCCESS);
assert(new_number == (initial + 1));
}
- return 0;
+ return TEST_SUCCESS;
}
-static test_return decrement_test(memcached_st *memc)
+static test_return_t decrement_test(memcached_st *memc)
{
uint64_t new_number;
memcached_return rc;
assert(rc == MEMCACHED_SUCCESS);
assert(new_number == 1);
- return 0;
+ return TEST_SUCCESS;
}
-static test_return decrement_with_initial_test(memcached_st *memc)
+static test_return_t decrement_with_initial_test(memcached_st *memc)
{
if (memcached_behavior_get(memc, MEMCACHED_BEHAVIOR_BINARY_PROTOCOL) != 0)
{
assert(rc == MEMCACHED_SUCCESS);
assert(new_number == (initial - 1));
}
- return 0;
+ return TEST_SUCCESS;
}
-static test_return quit_test(memcached_st *memc)
+static test_return_t quit_test(memcached_st *memc)
{
memcached_return rc;
const char *key= "fudge";
(time_t)50, (uint32_t)9);
assert(rc == MEMCACHED_SUCCESS || rc == MEMCACHED_BUFFERED);
- return 0;
+ return TEST_SUCCESS;
}
-static test_return mget_result_test(memcached_st *memc)
+static test_return_t mget_result_test(memcached_st *memc)
{
memcached_return rc;
const char *keys[]= {"fudge", "son", "food"};
memcached_result_free(&results_obj);
- return 0;
+ return TEST_SUCCESS;
}
-static test_return mget_result_alloc_test(memcached_st *memc)
+static test_return_t mget_result_alloc_test(memcached_st *memc)
{
memcached_return rc;
const char *keys[]= {"fudge", "son", "food"};
x++;
}
- return 0;
+ return TEST_SUCCESS;
}
/* Count the results */
return MEMCACHED_SUCCESS;
}
-static test_return mget_result_function(memcached_st *memc)
+static test_return_t mget_result_function(memcached_st *memc)
{
memcached_return rc;
const char *keys[]= {"fudge", "son", "food"};
assert(counter == 3);
- return 0;
+ return TEST_SUCCESS;
}
-static test_return mget_test(memcached_st *memc)
+static test_return_t mget_test(memcached_st *memc)
{
memcached_return rc;
const char *keys[]= {"fudge", "son", "food"};
x++;
}
- return 0;
+ return TEST_SUCCESS;
+}
+
+static test_return_t mget_execute(memcached_st *memc)
+{
+ bool binary= false;
+ if (memcached_behavior_get(memc, MEMCACHED_BEHAVIOR_BINARY_PROTOCOL) != 0)
+ binary= true;
+
+ /*
+ * I only want to hit _one_ server so I know the number of requests I'm
+ * sending in the pipeline.
+ */
+ uint32_t number_of_hosts= memc->number_of_hosts;
+ memc->number_of_hosts= 1;
+
+ int max_keys= binary ? 20480 : 1;
+
+
+ char **keys= calloc((size_t)max_keys, sizeof(char*));
+ size_t *key_length=calloc((size_t)max_keys, sizeof(size_t));
+
+ /* First add all of the items.. */
+ char blob[1024] = {0};
+ memcached_return rc;
+ for (int x= 0; x < max_keys; ++x)
+ {
+ char k[251];
+ key_length[x]= (size_t)snprintf(k, sizeof(k), "0200%u", x);
+ keys[x]= strdup(k);
+ assert(keys[x] != NULL);
+ rc= memcached_add(memc, keys[x], key_length[x], blob, sizeof(blob), 0, 0);
+ assert(rc == MEMCACHED_SUCCESS || rc == MEMCACHED_BUFFERED);
+ }
+
+ /* Try to get all of them with a large multiget */
+ unsigned int counter= 0;
+ memcached_execute_function callbacks[1]= { [0]= &callback_counter };
+ rc= memcached_mget_execute(memc, (const char**)keys, key_length,
+ (size_t)max_keys, callbacks, &counter, 1);
+
+ if (binary)
+ {
+ assert(rc == MEMCACHED_SUCCESS);
+
+ rc= memcached_fetch_execute(memc, callbacks, (void *)&counter, 1);
+ assert(rc == MEMCACHED_END);
+
+ /* Verify that we got all of the items */
+ assert(counter == (unsigned int)max_keys);
+ }
+ else
+ {
+ assert(rc == MEMCACHED_NOT_SUPPORTED);
+ assert(counter == 0);
+ }
+
+ /* Release all allocated resources */
+ for (int x= 0; x < max_keys; ++x)
+ free(keys[x]);
+ free(keys);
+ free(key_length);
+
+ memc->number_of_hosts= number_of_hosts;
+ return TEST_SUCCESS;
}
-static test_return get_stats_keys(memcached_st *memc)
+static test_return_t get_stats_keys(memcached_st *memc)
{
char **list;
char **ptr;
free(list);
- return 0;
+ return TEST_SUCCESS;
}
-static test_return version_string_test(memcached_st *memc __attribute__((unused)))
+static test_return_t version_string_test(memcached_st *memc __attribute__((unused)))
{
const char *version_string;
assert(!strcmp(version_string, LIBMEMCACHED_VERSION_STRING));
- return 0;
+ return TEST_SUCCESS;
}
-static test_return get_stats(memcached_st *memc)
+static test_return_t get_stats(memcached_st *memc)
{
unsigned int x;
char **list;
memcached_stat_free(NULL, memc_stat);
- return 0;
+ return TEST_SUCCESS;
}
-static test_return add_host_test(memcached_st *memc)
+static test_return_t add_host_test(memcached_st *memc)
{
unsigned int x;
memcached_server_st *servers;
memcached_server_list_free(servers);
- return 0;
+ return TEST_SUCCESS;
}
static memcached_return clone_test_callback(memcached_st *parent __attribute__((unused)), memcached_st *memc_clone __attribute__((unused)))
return MEMCACHED_SUCCESS;
}
-static test_return callback_test(memcached_st *memc)
+static test_return_t callback_test(memcached_st *memc)
{
/* Test User Data */
{
assert(temp_function == cleanup_cb_ptr);
}
- return 0;
+ return TEST_SUCCESS;
}
/* We don't test the behavior itself, we test the switches */
-static test_return behavior_test(memcached_st *memc)
+static test_return_t behavior_test(memcached_st *memc)
{
uint64_t value;
uint32_t set= 1;
value= memcached_behavior_get(memc, MEMCACHED_BEHAVIOR_NUMBER_OF_REPLICAS);
memcached_behavior_set(memc, MEMCACHED_BEHAVIOR_NUMBER_OF_REPLICAS, value + 1);
assert((value + 1) == memcached_behavior_get(memc, MEMCACHED_BEHAVIOR_NUMBER_OF_REPLICAS));
- return 0;
+ return TEST_SUCCESS;
+}
+
+static test_return_t fetch_all_results(memcached_st *memc)
+{
+ memcached_return rc= MEMCACHED_SUCCESS;
+ char return_key[MEMCACHED_MAX_KEY];
+ size_t return_key_length;
+ char *return_value;
+ size_t return_value_length;
+ uint32_t flags;
+
+ while ((return_value= memcached_fetch(memc, return_key, &return_key_length,
+ &return_value_length, &flags, &rc)))
+ {
+ assert(return_value);
+ assert(rc == MEMCACHED_SUCCESS);
+ free(return_value);
+ }
+
+ return ((rc == MEMCACHED_END) || (rc == MEMCACHED_SUCCESS)) ? TEST_SUCCESS : TEST_FAILURE;
}
/* Test case provided by Cal Haldenbrand */
-static test_return user_supplied_bug1(memcached_st *memc)
+static test_return_t user_supplied_bug1(memcached_st *memc)
{
unsigned int setter= 1;
unsigned int x;
assert(rc == MEMCACHED_SUCCESS || rc == MEMCACHED_BUFFERED);
}
- return 0;
+ return TEST_SUCCESS;
}
/* Test case provided by Cal Haldenbrand */
-static test_return user_supplied_bug2(memcached_st *memc)
+static test_return_t user_supplied_bug2(memcached_st *memc)
{
int errors;
unsigned int setter;
free(getval);
}
- return 0;
+ return TEST_SUCCESS;
}
/* Do a large mget() over all the keys we think exist */
#define KEY_COUNT 3000 // * 1024576
-static test_return user_supplied_bug3(memcached_st *memc)
+static test_return_t user_supplied_bug3(memcached_st *memc)
{
memcached_return rc;
unsigned int setter;
getter = memcached_behavior_get(memc, MEMCACHED_BEHAVIOR_SOCKET_RECV_SIZE);
#endif
- keys= (char **)malloc(sizeof(char *) * KEY_COUNT);
+ keys= calloc(KEY_COUNT, sizeof(char *));
assert(keys);
- memset(keys, 0, (sizeof(char *) * KEY_COUNT));
for (x= 0; x < KEY_COUNT; x++)
{
char buffer[30];
rc= memcached_mget(memc, (const char **)keys, key_lengths, KEY_COUNT);
assert(rc == MEMCACHED_SUCCESS);
- /* Turn this into a help function */
- {
- char return_key[MEMCACHED_MAX_KEY];
- size_t return_key_length;
- char *return_value;
- size_t return_value_length;
- uint32_t flags;
-
- while ((return_value= memcached_fetch(memc, return_key, &return_key_length,
- &return_value_length, &flags, &rc)))
- {
- assert(return_value);
- assert(rc == MEMCACHED_SUCCESS);
- free(return_value);
- }
- }
+ assert(fetch_all_results(memc) == TEST_SUCCESS);
for (x= 0; x < KEY_COUNT; x++)
free(keys[x]);
free(keys);
- return 0;
+ return TEST_SUCCESS;
}
/* Make sure we behave properly if server list has no values */
-static test_return user_supplied_bug4(memcached_st *memc)
+static test_return_t user_supplied_bug4(memcached_st *memc)
{
memcached_return rc;
const char *keys[]= {"fudge", "son", "food"};
x++;
}
- return 0;
+ return TEST_SUCCESS;
}
#define VALUE_SIZE_BUG5 1048064
-static test_return user_supplied_bug5(memcached_st *memc)
+static test_return_t user_supplied_bug5(memcached_st *memc)
{
memcached_return rc;
const char *keys[]= {"036790384900", "036790384902", "036790384904", "036790384906"};
assert(count == 4);
}
- return 0;
+ return TEST_SUCCESS;
}
-static test_return user_supplied_bug6(memcached_st *memc)
+static test_return_t user_supplied_bug6(memcached_st *memc)
{
memcached_return rc;
const char *keys[]= {"036790384900", "036790384902", "036790384904", "036790384906"};
}
}
- return 0;
+ return TEST_SUCCESS;
}
-static test_return user_supplied_bug8(memcached_st *memc __attribute__((unused)))
+static test_return_t user_supplied_bug8(memcached_st *memc __attribute__((unused)))
{
memcached_return rc;
memcached_st *mine;
memcached_free(mine);
memcached_free(memc_clone);
- return 0;
+ return TEST_SUCCESS;
}
/* Test flag store/retrieve */
-static test_return user_supplied_bug7(memcached_st *memc)
+static test_return_t user_supplied_bug7(memcached_st *memc)
{
memcached_return rc;
const char *keys= "036790384900";
free(value);
- return 0;
+ return TEST_SUCCESS;
}
-static test_return user_supplied_bug9(memcached_st *memc)
+static test_return_t user_supplied_bug9(memcached_st *memc)
{
memcached_return rc;
const char *keys[]= {"UDATA:edevil@sapo.pt", "fudge&*@#", "for^#@&$not"};
}
assert(count == 3);
- return 0;
+ return TEST_SUCCESS;
}
/* We are testing with aggressive timeout to get failures */
-static test_return user_supplied_bug10(memcached_st *memc)
+static test_return_t user_supplied_bug10(memcached_st *memc)
{
const char *key= "foo";
char *value;
free(value);
memcached_free(mclone);
- return 0;
+ return TEST_SUCCESS;
}
/*
We are looking failures in the async protocol
*/
-static test_return user_supplied_bug11(memcached_st *memc)
+static test_return_t user_supplied_bug11(memcached_st *memc)
{
const char *key= "foo";
char *value;
free(value);
memcached_free(mclone);
- return 0;
+ return TEST_SUCCESS;
}
/*
Bug found where incr was not returning MEMCACHED_NOTFOUND when object did not exist.
*/
-static test_return user_supplied_bug12(memcached_st *memc)
+static test_return_t user_supplied_bug12(memcached_st *memc)
{
memcached_return rc;
uint32_t flags;
assert(number_value == 2);
assert(rc == MEMCACHED_SUCCESS);
- return 0;
+ return TEST_SUCCESS;
}
/*
Bug found where command total one more than MEMCACHED_MAX_BUFFER
set key34567890 0 0 8169 \r\n is sent followed by buffer of size 8169, followed by 8169
*/
-static test_return user_supplied_bug13(memcached_st *memc)
+static test_return_t user_supplied_bug13(memcached_st *memc)
{
char key[] = "key34567890";
char *overflow;
free(overflow);
}
- return 0;
+ return TEST_SUCCESS;
}
set key34567890 0 0 8169 \r\n
is sent followed by buffer of size 8169, followed by 8169
*/
-static test_return user_supplied_bug14(memcached_st *memc)
+static test_return_t user_supplied_bug14(memcached_st *memc)
{
size_t setter= 1;
memcached_behavior_set(memc, MEMCACHED_BEHAVIOR_TCP_NODELAY, setter);
free(value);
- return 0;
+ return TEST_SUCCESS;
}
/*
Look for zero length value problems
*/
-static test_return user_supplied_bug15(memcached_st *memc)
+static test_return_t user_supplied_bug15(memcached_st *memc)
{
uint32_t x;
memcached_return rc;
assert(flags == 0);
}
- return 0;
+ return TEST_SUCCESS;
}
/* Check the return sizes on FLAGS to make sure it stores 32bit unsigned values correctly */
-static test_return user_supplied_bug16(memcached_st *memc)
+static test_return_t user_supplied_bug16(memcached_st *memc)
{
memcached_return rc;
const char *key= "mykey";
assert(length == 0);
assert(flags == UINT32_MAX);
- return 0;
+ return TEST_SUCCESS;
}
#ifndef __sun
/* Check the validity of chinese key*/
-static test_return user_supplied_bug17(memcached_st *memc)
+static test_return_t user_supplied_bug17(memcached_st *memc)
{
memcached_return rc;
const char *key= "豆瓣";
assert(memcmp(value, value2, length)==0);
free(value2);
- return 0;
+ return TEST_SUCCESS;
}
#endif
From Andrei on IRC
*/
-static test_return user_supplied_bug19(memcached_st *memc)
+static test_return_t user_supplied_bug19(memcached_st *memc)
{
memcached_st *m;
memcached_server_st *s;
memcached_free(m);
- return 0;
+ return TEST_SUCCESS;
}
/* CAS test from Andei */
-static test_return user_supplied_bug20(memcached_st *memc)
+static test_return_t user_supplied_bug20(memcached_st *memc)
{
memcached_return status;
memcached_result_st *result, result_obj;
memcached_result_free(result);
- return 0;
+ return TEST_SUCCESS;
}
#include "ketama_test_cases.h"
-static test_return user_supplied_bug18(memcached_st *trash)
+static test_return_t user_supplied_bug18(memcached_st *trash)
{
memcached_return rc;
uint64_t value;
/* verify the standard ketama set. */
for (x= 0; x < 99; x++)
{
- uint32_t server_idx = memcached_generate_hash(memc, test_cases[x].key, strlen(test_cases[x].key));
+ uint32_t server_idx = memcached_generate_hash(memc, ketama_test_cases[x].key, strlen(ketama_test_cases[x].key));
char *hostname = memc->hosts[server_idx].hostname;
- assert(strcmp(hostname, test_cases[x].server) == 0);
+ assert(strcmp(hostname, ketama_test_cases[x].server) == 0);
}
memcached_server_list_free(server_pool);
memcached_free(memc);
- return 0;
+ return TEST_SUCCESS;
+}
+
+/* Large mget() of missing keys with binary proto
+ *
+ * If many binary quiet commands (such as getq's in an mget) fill the output
+ * buffer and the server chooses not to respond, memcached_flush hangs. See
+ * http://lists.tangent.org/pipermail/libmemcached/2009-August/000918.html
+ */
+
+/* sighandler_t function that always asserts false */
+static void fail(int unused __attribute__((unused)))
+{
+ assert(0);
+}
+
+
+static test_return_t _user_supplied_bug21(memcached_st* memc, size_t key_count)
+{
+ memcached_return rc;
+ unsigned int x;
+ char **keys;
+ size_t* key_lengths;
+ void (*oldalarm)(int);
+ memcached_st *memc_clone;
+
+ memc_clone= memcached_clone(NULL, memc);
+ assert(memc_clone);
+
+ /* only binproto uses getq for mget */
+ memcached_behavior_set(memc_clone, MEMCACHED_BEHAVIOR_BINARY_PROTOCOL, 1);
+
+ /* empty the cache to ensure misses (hence non-responses) */
+ rc= memcached_flush(memc_clone, 0);
+ assert(rc == MEMCACHED_SUCCESS);
+
+ key_lengths= calloc(key_count, sizeof(size_t));
+ keys= calloc(key_count, sizeof(char *));
+ assert(keys);
+ for (x= 0; x < key_count; x++)
+ {
+ char buffer[30];
+
+ snprintf(buffer, 30, "%u", x);
+ keys[x]= strdup(buffer);
+ key_lengths[x]= strlen(keys[x]);
+ }
+
+ oldalarm= signal(SIGALRM, fail);
+ alarm(5);
+
+ rc= memcached_mget(memc_clone, (const char **)keys, key_lengths, key_count);
+ assert(rc == MEMCACHED_SUCCESS);
+
+ alarm(0);
+ signal(SIGALRM, oldalarm);
+
+ assert(fetch_all_results(memc) == TEST_SUCCESS);
+
+ for (x= 0; x < key_count; x++)
+ free(keys[x]);
+ free(keys);
+ free(key_lengths);
+
+ memcached_free(memc_clone);
+
+ return TEST_SUCCESS;
+}
+
+static memcached_return pre_binary(memcached_st *memc);
+
+static test_return_t user_supplied_bug21(memcached_st *memc)
+{
+ if (pre_binary(memc) != MEMCACHED_SUCCESS)
+ return TEST_SKIPPED;
+
+ test_return_t rc;
+
+ /* should work as of r580 */
+ rc= _user_supplied_bug21(memc, 10);
+ assert(rc == TEST_SUCCESS);
+
+ /* should fail as of r580 */
+ rc= _user_supplied_bug21(memc, 1000);
+ assert(rc == TEST_SUCCESS);
+
+ return TEST_SUCCESS;
}
-static test_return auto_eject_hosts(memcached_st *trash)
+static test_return_t auto_eject_hosts(memcached_st *trash)
{
(void) trash;
for (int x= 0; x < 99; x++)
{
- uint32_t server_idx = memcached_generate_hash(memc, test_cases[x].key, strlen(test_cases[x].key));
+ uint32_t server_idx = memcached_generate_hash(memc, ketama_test_cases[x].key, strlen(ketama_test_cases[x].key));
assert(server_idx != 2);
}
run_distribution(memc);
for (int x= 0; x < 99; x++)
{
- uint32_t server_idx = memcached_generate_hash(memc, test_cases[x].key, strlen(test_cases[x].key));
+ uint32_t server_idx = memcached_generate_hash(memc, ketama_test_cases[x].key, strlen(ketama_test_cases[x].key));
char *hostname = memc->hosts[server_idx].hostname;
- assert(strcmp(hostname, test_cases[x].server) == 0);
+ assert(strcmp(hostname, ketama_test_cases[x].server) == 0);
+ }
+
+ memcached_server_list_free(server_pool);
+ memcached_free(memc);
+
+ return TEST_SUCCESS;
+}
+
+static test_return_t output_ketama_weighted_keys(memcached_st *trash)
+{
+ (void) trash;
+
+ memcached_return rc;
+ memcached_st *memc= memcached_create(NULL);
+ assert(memc);
+
+
+ rc= memcached_behavior_set(memc, MEMCACHED_BEHAVIOR_KETAMA_WEIGHTED, 1);
+ assert(rc == MEMCACHED_SUCCESS);
+
+ uint64_t value= memcached_behavior_get(memc, MEMCACHED_BEHAVIOR_KETAMA_WEIGHTED);
+ assert(value == 1);
+
+ rc= memcached_behavior_set(memc, MEMCACHED_BEHAVIOR_KETAMA_HASH, MEMCACHED_HASH_MD5);
+ assert(rc == MEMCACHED_SUCCESS);
+
+ value= memcached_behavior_get(memc, MEMCACHED_BEHAVIOR_KETAMA_HASH);
+ assert(value == MEMCACHED_HASH_MD5);
+
+
+ assert(memcached_behavior_set(memc, MEMCACHED_BEHAVIOR_KETAMA_COMPAT_MODE,
+ MEMCACHED_KETAMA_COMPAT_SPY) == MEMCACHED_SUCCESS);
+
+ memcached_server_st *server_pool;
+ server_pool = memcached_servers_parse("10.0.1.1:11211,10.0.1.2:11211,10.0.1.3:11211,10.0.1.4:11211,10.0.1.5:11211,10.0.1.6:11211,10.0.1.7:11211,10.0.1.8:11211,192.168.1.1:11211,192.168.100.1:11211");
+ memcached_server_push(memc, server_pool);
+
+ FILE *fp;
+ if ((fp = fopen("ketama_keys.txt", "w")))
+ {
+ // noop
+ } else {
+ printf("cannot write to file ketama_keys.txt");
+ return TEST_FAILURE;
}
+ for (int x= 0; x < 10000; x++)
+ {
+ char key[10];
+ sprintf(key, "%d", x);
+
+ uint32_t server_idx = memcached_generate_hash(memc, key, strlen(key));
+ char *hostname = memc->hosts[server_idx].hostname;
+ unsigned int port = memc->hosts[server_idx].port;
+ fprintf(fp, "key %s is on host /%s:%u\n", key, hostname, port);
+ }
+ fclose(fp);
memcached_server_list_free(server_pool);
memcached_free(memc);
return TEST_SUCCESS;
}
-static test_return result_static(memcached_st *memc)
+
+static test_return_t result_static(memcached_st *memc)
{
memcached_result_st result;
memcached_result_st *result_ptr;
assert(result_ptr);
memcached_result_free(&result);
- return 0;
+ return TEST_SUCCESS;
}
-static test_return result_alloc(memcached_st *memc)
+static test_return_t result_alloc(memcached_st *memc)
{
memcached_result_st *result;
assert(result);
memcached_result_free(result);
- return 0;
+ return TEST_SUCCESS;
}
-static test_return string_static_null(memcached_st *memc)
+static test_return_t string_static_null(memcached_st *memc)
{
memcached_string_st string;
memcached_string_st *string_ptr;
assert(string_ptr);
memcached_string_free(&string);
- return 0;
+ return TEST_SUCCESS;
}
-static test_return string_alloc_null(memcached_st *memc)
+static test_return_t string_alloc_null(memcached_st *memc)
{
memcached_string_st *string;
assert(string);
memcached_string_free(string);
- return 0;
+ return TEST_SUCCESS;
}
-static test_return string_alloc_with_size(memcached_st *memc)
+static test_return_t string_alloc_with_size(memcached_st *memc)
{
memcached_string_st *string;
assert(string);
memcached_string_free(string);
- return 0;
+ return TEST_SUCCESS;
}
-static test_return string_alloc_with_size_toobig(memcached_st *memc)
+static test_return_t string_alloc_with_size_toobig(memcached_st *memc)
{
memcached_string_st *string;
string= memcached_string_create(memc, NULL, SIZE_MAX);
assert(string == NULL);
- return 0;
+ return TEST_SUCCESS;
}
-static test_return string_alloc_append(memcached_st *memc)
+static test_return_t string_alloc_append(memcached_st *memc)
{
unsigned int x;
char buffer[SMALL_STRING_LEN];
}
memcached_string_free(string);
- return 0;
+ return TEST_SUCCESS;
}
-static test_return string_alloc_append_toobig(memcached_st *memc)
+static test_return_t string_alloc_append_toobig(memcached_st *memc)
{
memcached_return rc;
unsigned int x;
assert(rc == MEMCACHED_MEMORY_ALLOCATION_FAILURE);
memcached_string_free(string);
- return 0;
+ return TEST_SUCCESS;
}
-static test_return cleanup_pairs(memcached_st *memc __attribute__((unused)))
+static test_return_t cleanup_pairs(memcached_st *memc __attribute__((unused)))
{
pairs_free(global_pairs);
- return 0;
+ return TEST_SUCCESS;
}
-static test_return generate_pairs(memcached_st *memc __attribute__((unused)))
+static test_return_t generate_pairs(memcached_st *memc __attribute__((unused)))
{
unsigned long long x;
global_pairs= pairs_generate(GLOBAL_COUNT, 400);
global_keys_length[x]= global_pairs[x].key_length;
}
- return 0;
+ return TEST_SUCCESS;
}
-static test_return generate_large_pairs(memcached_st *memc __attribute__((unused)))
+static test_return_t generate_large_pairs(memcached_st *memc __attribute__((unused)))
{
unsigned long long x;
global_pairs= pairs_generate(GLOBAL2_COUNT, MEMCACHED_MAX_BUFFER+10);
global_keys_length[x]= global_pairs[x].key_length;
}
- return 0;
+ return TEST_SUCCESS;
}
-static test_return generate_data(memcached_st *memc)
+static test_return_t generate_data(memcached_st *memc)
{
execute_set(memc, global_pairs, global_count);
- return 0;
+ return TEST_SUCCESS;
}
-static test_return generate_data_with_stats(memcached_st *memc)
+static test_return_t generate_data_with_stats(memcached_st *memc)
{
memcached_stat_st *stat_p;
memcached_return rc;
memcached_stat_free(NULL, stat_p);
- return 0;
+ return TEST_SUCCESS;
}
-static test_return generate_buffer_data(memcached_st *memc)
+static test_return_t generate_buffer_data(memcached_st *memc)
{
size_t latch= 0;
memcached_behavior_set(memc, MEMCACHED_BEHAVIOR_BUFFER_REQUESTS, latch);
generate_data(memc);
- return 0;
+ return TEST_SUCCESS;
}
-static test_return get_read_count(memcached_st *memc)
+static test_return_t get_read_count(memcached_st *memc)
{
unsigned int x;
memcached_return rc;
free(return_value);
}
}
- fprintf(stderr, "\t%u -> %u", global_count, count);
}
memcached_free(memc_clone);
- return 0;
+ return TEST_SUCCESS;
}
-static test_return get_read(memcached_st *memc)
+static test_return_t get_read(memcached_st *memc)
{
unsigned int x;
memcached_return rc;
}
}
- return 0;
+ return TEST_SUCCESS;
}
-static test_return mget_read(memcached_st *memc)
+static test_return_t mget_read(memcached_st *memc)
{
memcached_return rc;
rc= memcached_mget(memc, global_keys, global_keys_length, global_count);
assert(rc == MEMCACHED_SUCCESS);
- /* Turn this into a help function */
- {
- char return_key[MEMCACHED_MAX_KEY];
- size_t return_key_length;
- char *return_value;
- size_t return_value_length;
- uint32_t flags;
-
- while ((return_value= memcached_fetch(memc, return_key, &return_key_length,
- &return_value_length, &flags, &rc)))
- {
- assert(return_value);
- assert(rc == MEMCACHED_SUCCESS);
- free(return_value);
- }
- }
+ assert(fetch_all_results(memc) == TEST_SUCCESS);
- return 0;
+ return TEST_SUCCESS;
}
-static test_return mget_read_result(memcached_st *memc)
+static test_return_t mget_read_result(memcached_st *memc)
{
memcached_return rc;
memcached_result_free(&results_obj);
}
- return 0;
+ return TEST_SUCCESS;
}
-static test_return mget_read_function(memcached_st *memc)
+static test_return_t mget_read_function(memcached_st *memc)
{
memcached_return rc;
unsigned int counter;
counter= 0;
rc= memcached_fetch_execute(memc, callbacks, (void *)&counter, 1);
- return 0;
+ return TEST_SUCCESS;
}
-static test_return delete_generate(memcached_st *memc)
+static test_return_t delete_generate(memcached_st *memc)
{
unsigned int x;
(void)memcached_delete(memc, global_keys[x], global_keys_length[x], (time_t)0);
}
- return 0;
+ return TEST_SUCCESS;
}
-static test_return delete_buffer_generate(memcached_st *memc)
+static test_return_t delete_buffer_generate(memcached_st *memc)
{
size_t latch= 0;
unsigned int x;
(void)memcached_delete(memc, global_keys[x], global_keys_length[x], (time_t)0);
}
- return 0;
+ return TEST_SUCCESS;
}
-static test_return add_host_test1(memcached_st *memc)
+static test_return_t add_host_test1(memcached_st *memc)
{
unsigned int x;
memcached_return rc;
memcached_server_list_free(servers);
- return 0;
+ return TEST_SUCCESS;
}
static memcached_return pre_nonblock(memcached_st *memc)
}
memcached_free(memc_clone);
+
return rc;
}
static memcached_return pre_replication(memcached_st *memc)
{
- memcached_return rc= MEMCACHED_FAILURE;
- if (pre_binary(memc) == MEMCACHED_SUCCESS)
- {
- /*
- * Make sure that we store the item on all servers
- * (master + replicas == number of servers)
- */
- rc= memcached_behavior_set(memc, MEMCACHED_BEHAVIOR_NUMBER_OF_REPLICAS,
- memc->number_of_hosts - 1);
- assert(rc == MEMCACHED_SUCCESS);
- assert(memcached_behavior_get(memc, MEMCACHED_BEHAVIOR_NUMBER_OF_REPLICAS) == memc->number_of_hosts - 1);
- }
-
- return rc;
-}
+ if (pre_binary(memc) != MEMCACHED_SUCCESS)
+ return MEMCACHED_FAILURE;
+
+ /*
+ * Make sure that we store the item on all servers
+ * (master + replicas == number of servers)
+ */
+ memcached_return rc;
+ rc= memcached_behavior_set(memc, MEMCACHED_BEHAVIOR_NUMBER_OF_REPLICAS,
+ memc->number_of_hosts - 1);
+ assert(rc == MEMCACHED_SUCCESS);
+ assert(memcached_behavior_get(memc, MEMCACHED_BEHAVIOR_NUMBER_OF_REPLICAS) == memc->number_of_hosts - 1);
+
+ return rc;
+}
static memcached_return pre_replication_noblock(memcached_st *memc)
{
return MEMCACHED_SUCCESS;
}
-static test_return noreply_test(memcached_st *memc)
+static test_return_t noreply_test(memcached_st *memc)
{
memcached_return ret;
ret= memcached_behavior_set(memc, MEMCACHED_BEHAVIOR_NOREPLY, 1);
return TEST_SUCCESS;
}
-static test_return analyzer_test(memcached_st *memc)
+static test_return_t analyzer_test(memcached_st *memc)
{
memcached_return rc;
memcached_stat_st *memc_stat;
return MEMCACHED_SUCCESS;
}
-static test_return dump_test(memcached_st *memc)
+static test_return_t dump_test(memcached_st *memc)
{
memcached_return rc;
uint32_t counter= 0;
memcached_dump_func callbacks[1];
- test_return main_rc;
+ test_return_t main_rc;
callbacks[0]= &callback_dump_counter;
return arg;
}
-static test_return connection_pool_test(memcached_st *memc)
+static test_return_t connection_pool_test(memcached_st *memc)
{
memcached_pool_st* pool= memcached_pool_create(memc, 5, 10);
assert(pool != NULL);
}
#endif
-static test_return replication_set_test(memcached_st *memc)
+static test_return_t replication_set_test(memcached_st *memc)
{
memcached_return rc;
memcached_st *memc_clone= memcached_clone(NULL, memc);
return TEST_SUCCESS;
}
-static test_return replication_get_test(memcached_st *memc)
+static test_return_t replication_get_test(memcached_st *memc)
{
memcached_return rc;
return TEST_SUCCESS;
}
-static test_return replication_mget_test(memcached_st *memc)
+static test_return_t replication_mget_test(memcached_st *memc)
{
memcached_return rc;
memcached_st *memc_clone= memcached_clone(NULL, memc);
return TEST_SUCCESS;
}
-static test_return replication_delete_test(memcached_st *memc)
+static test_return_t replication_delete_test(memcached_st *memc)
{
memcached_return rc;
memcached_st *memc_clone= memcached_clone(NULL, memc);
return ids;
}
-static test_return post_udp_op_check(memcached_st *memc, uint16_t *expected_req_ids)
+static test_return_t post_udp_op_check(memcached_st *memc, uint16_t *expected_req_ids)
{
unsigned int x;
memcached_server_st *cur_server = memc->hosts;
}
/* Make sure that I cant add a tcp server to a udp client */
-static test_return add_tcp_server_udp_client_test(memcached_st *memc)
+static test_return_t add_tcp_server_udp_client_test(memcached_st *memc)
{
memcached_server_st server;
memcached_server_clone(&server, &memc->hosts[0]);
}
/* Make sure that I cant add a udp server to a tcp client */
-static test_return add_udp_server_tcp_client_test(memcached_st *memc)
+static test_return_t add_udp_server_tcp_client_test(memcached_st *memc)
{
memcached_server_st server;
memcached_server_clone(&server, &memc->hosts[0]);
return TEST_SUCCESS;
}
-static test_return set_udp_behavior_test(memcached_st *memc)
+static test_return_t set_udp_behavior_test(memcached_st *memc)
{
memcached_quit(memc);
return TEST_SUCCESS;
}
-static test_return udp_set_test(memcached_st *memc)
+static test_return_t udp_set_test(memcached_st *memc)
{
unsigned int x= 0;
unsigned int num_iters= 1025; //request id rolls over at 1024
return TEST_SUCCESS;
}
-static test_return udp_buffered_set_test(memcached_st *memc)
+static test_return_t udp_buffered_set_test(memcached_st *memc)
{
memcached_behavior_set(memc, MEMCACHED_BEHAVIOR_BUFFER_REQUESTS, 1);
return udp_set_test(memc);
}
-static test_return udp_set_too_big_test(memcached_st *memc)
+static test_return_t udp_set_too_big_test(memcached_st *memc)
{
memcached_return rc;
const char *key= "bar";
return post_udp_op_check(memc,expected_ids);
}
-static test_return udp_delete_test(memcached_st *memc)
+static test_return_t udp_delete_test(memcached_st *memc)
{
unsigned int x= 0;
unsigned int num_iters= 1025; //request id rolls over at 1024
return TEST_SUCCESS;
}
-static test_return udp_buffered_delete_test(memcached_st *memc)
+static test_return_t udp_buffered_delete_test(memcached_st *memc)
{
memcached_behavior_set(memc, MEMCACHED_BEHAVIOR_BUFFER_REQUESTS, 1);
return udp_delete_test(memc);
}
-static test_return udp_verbosity_test(memcached_st *memc)
+static test_return_t udp_verbosity_test(memcached_st *memc)
{
memcached_return rc;
uint16_t *expected_ids= get_udp_request_ids(memc);
return post_udp_op_check(memc,expected_ids);
}
-static test_return udp_quit_test(memcached_st *memc)
+static test_return_t udp_quit_test(memcached_st *memc)
{
uint16_t *expected_ids= get_udp_request_ids(memc);
memcached_quit(memc);
return post_udp_op_check(memc, expected_ids);
}
-static test_return udp_flush_test(memcached_st *memc)
+static test_return_t udp_flush_test(memcached_st *memc)
{
memcached_return rc;
uint16_t *expected_ids= get_udp_request_ids(memc);
return post_udp_op_check(memc,expected_ids);
}
-static test_return udp_incr_test(memcached_st *memc)
+static test_return_t udp_incr_test(memcached_st *memc)
{
memcached_return rc;
const char *key= "incr";
return post_udp_op_check(memc, expected_ids);
}
-static test_return udp_decr_test(memcached_st *memc)
+static test_return_t udp_decr_test(memcached_st *memc)
{
memcached_return rc;
const char *key= "decr";
}
-static test_return udp_stat_test(memcached_st *memc)
+static test_return_t udp_stat_test(memcached_st *memc)
{
memcached_stat_st * rv= NULL;
memcached_return rc;
return post_udp_op_check(memc, expected_ids);
}
-static test_return udp_version_test(memcached_st *memc)
+static test_return_t udp_version_test(memcached_st *memc)
{
memcached_return rc;
uint16_t *expected_ids = get_udp_request_ids(memc);
return post_udp_op_check(memc, expected_ids);
}
-static test_return udp_get_test(memcached_st *memc)
+static test_return_t udp_get_test(memcached_st *memc)
{
memcached_return rc;
const char *key= "foo";
return post_udp_op_check(memc, expected_ids);
}
-static test_return udp_mixed_io_test(memcached_st *memc)
+static test_return_t udp_mixed_io_test(memcached_st *memc)
{
test_st current_op;
test_st mixed_io_ops [] ={
return TEST_SUCCESS;
}
-static test_return hsieh_avaibility_test (memcached_st *memc)
+static test_return_t hsieh_avaibility_test (memcached_st *memc)
{
memcached_return expected_rc= MEMCACHED_FAILURE;
#ifdef HAVE_HSIEH_HASH
NULL
};
-static test_return md5_run (memcached_st *memc __attribute__((unused)))
+static test_return_t md5_run (memcached_st *memc __attribute__((unused)))
{
uint32_t x;
const char **ptr;
return TEST_SUCCESS;
}
-static test_return crc_run (memcached_st *memc __attribute__((unused)))
+static test_return_t crc_run (memcached_st *memc __attribute__((unused)))
{
uint32_t x;
const char **ptr;
return TEST_SUCCESS;
}
-static test_return fnv1_64_run (memcached_st *memc __attribute__((unused)))
+static test_return_t fnv1_64_run (memcached_st *memc __attribute__((unused)))
{
uint32_t x;
const char **ptr;
return TEST_SUCCESS;
}
-static test_return fnv1a_64_run (memcached_st *memc __attribute__((unused)))
+static test_return_t fnv1a_64_run (memcached_st *memc __attribute__((unused)))
{
uint32_t x;
const char **ptr;
return TEST_SUCCESS;
}
-static test_return fnv1_32_run (memcached_st *memc __attribute__((unused)))
+static test_return_t fnv1_32_run (memcached_st *memc __attribute__((unused)))
{
uint32_t x;
const char **ptr;
return TEST_SUCCESS;
}
-static test_return fnv1a_32_run (memcached_st *memc __attribute__((unused)))
+static test_return_t fnv1a_32_run (memcached_st *memc __attribute__((unused)))
{
uint32_t x;
const char **ptr;
return TEST_SUCCESS;
}
-static test_return hsieh_run (memcached_st *memc __attribute__((unused)))
+static test_return_t hsieh_run (memcached_st *memc __attribute__((unused)))
{
uint32_t x;
const char **ptr;
return TEST_SUCCESS;
}
-static test_return murmur_run (memcached_st *memc __attribute__((unused)))
+static test_return_t murmur_run (memcached_st *memc __attribute__((unused)))
{
uint32_t x;
const char **ptr;
return TEST_SUCCESS;
}
-static test_return jenkins_run (memcached_st *memc __attribute__((unused)))
+static test_return_t jenkins_run (memcached_st *memc __attribute__((unused)))
{
uint32_t x;
const char **ptr;
return TEST_SUCCESS;
}
-static test_return regression_bug_434484(memcached_st *memc)
+
+static test_return_t ketama_compatibility_libmemcached(memcached_st *trash)
{
- if (pre_binary(memc) != TEST_SUCCESS)
- return TEST_SUCCESS;
+ memcached_return rc;
+ uint64_t value;
+ int x;
+ memcached_server_st *server_pool;
+ memcached_st *memc;
+
+ (void)trash;
+
+ memc= memcached_create(NULL);
+ assert(memc);
+
+ rc= memcached_behavior_set(memc, MEMCACHED_BEHAVIOR_KETAMA_WEIGHTED, 1);
+ assert(rc == MEMCACHED_SUCCESS);
+
+ value= memcached_behavior_get(memc, MEMCACHED_BEHAVIOR_KETAMA_WEIGHTED);
+ assert(value == 1);
+
+ assert(memcached_behavior_set(memc, MEMCACHED_BEHAVIOR_KETAMA_COMPAT_MODE,
+ MEMCACHED_KETAMA_COMPAT_LIBMEMCACHED) == MEMCACHED_SUCCESS);
+
+ assert(memcached_behavior_get(memc, MEMCACHED_BEHAVIOR_KETAMA_COMPAT_MODE) ==
+ MEMCACHED_KETAMA_COMPAT_LIBMEMCACHED);
+
+ server_pool = memcached_servers_parse("10.0.1.1:11211 600,10.0.1.2:11211 300,10.0.1.3:11211 200,10.0.1.4:11211 350,10.0.1.5:11211 1000,10.0.1.6:11211 800,10.0.1.7:11211 950,10.0.1.8:11211 100");
+ memcached_server_push(memc, server_pool);
+
+ /* verify that the server list was parsed okay. */
+ assert(memc->number_of_hosts == 8);
+ assert(strcmp(server_pool[0].hostname, "10.0.1.1") == 0);
+ assert(server_pool[0].port == 11211);
+ assert(server_pool[0].weight == 600);
+ assert(strcmp(server_pool[2].hostname, "10.0.1.3") == 0);
+ assert(server_pool[2].port == 11211);
+ assert(server_pool[2].weight == 200);
+ assert(strcmp(server_pool[7].hostname, "10.0.1.8") == 0);
+ assert(server_pool[7].port == 11211);
+ assert(server_pool[7].weight == 100);
+
+ /* VDEAAAAA hashes to fffcd1b5, after the last continuum point, and lets
+ * us test the boundary wraparound.
+ */
+ assert(memcached_generate_hash(memc, (char *)"VDEAAAAA", 8) == memc->continuum[0].index);
+
+ /* verify the standard ketama set. */
+ for (x= 0; x < 99; x++)
+ {
+ uint32_t server_idx = memcached_generate_hash(memc, ketama_test_cases[x].key, strlen(ketama_test_cases[x].key));
+ char *hostname = memc->hosts[server_idx].hostname;
+ assert(strcmp(hostname, ketama_test_cases[x].server) == 0);
+ }
+
+ memcached_server_list_free(server_pool);
+ memcached_free(memc);
+
+ return TEST_SUCCESS;
+}
+
+static test_return_t ketama_compatibility_spymemcached(memcached_st *trash)
+{
+ memcached_return rc;
+ uint64_t value;
+ int x;
+ memcached_server_st *server_pool;
+ memcached_st *memc;
+
+ (void)trash;
+
+ memc= memcached_create(NULL);
+ assert(memc);
+
+ rc= memcached_behavior_set(memc, MEMCACHED_BEHAVIOR_KETAMA_WEIGHTED, 1);
+ assert(rc == MEMCACHED_SUCCESS);
+
+ value= memcached_behavior_get(memc, MEMCACHED_BEHAVIOR_KETAMA_WEIGHTED);
+ assert(value == 1);
+
+ assert(memcached_behavior_set(memc, MEMCACHED_BEHAVIOR_KETAMA_COMPAT_MODE,
+ MEMCACHED_KETAMA_COMPAT_SPY) == MEMCACHED_SUCCESS);
+
+ assert(memcached_behavior_get(memc, MEMCACHED_BEHAVIOR_KETAMA_COMPAT_MODE) ==
+ MEMCACHED_KETAMA_COMPAT_SPY);
+
+ server_pool = memcached_servers_parse("10.0.1.1:11211 600,10.0.1.2:11211 300,10.0.1.3:11211 200,10.0.1.4:11211 350,10.0.1.5:11211 1000,10.0.1.6:11211 800,10.0.1.7:11211 950,10.0.1.8:11211 100");
+ memcached_server_push(memc, server_pool);
+
+ /* verify that the server list was parsed okay. */
+ assert(memc->number_of_hosts == 8);
+ assert(strcmp(server_pool[0].hostname, "10.0.1.1") == 0);
+ assert(server_pool[0].port == 11211);
+ assert(server_pool[0].weight == 600);
+ assert(strcmp(server_pool[2].hostname, "10.0.1.3") == 0);
+ assert(server_pool[2].port == 11211);
+ assert(server_pool[2].weight == 200);
+ assert(strcmp(server_pool[7].hostname, "10.0.1.8") == 0);
+ assert(server_pool[7].port == 11211);
+ assert(server_pool[7].weight == 100);
+
+ /* VDEAAAAA hashes to fffcd1b5, after the last continuum point, and lets
+ * us test the boundary wraparound.
+ */
+ assert(memcached_generate_hash(memc, (char *)"VDEAAAAA", 8) == memc->continuum[0].index);
+
+ /* verify the standard ketama set. */
+ for (x= 0; x < 99; x++)
+ {
+ uint32_t server_idx = memcached_generate_hash(memc, ketama_test_cases_spy[x].key, strlen(ketama_test_cases_spy[x].key));
+ char *hostname = memc->hosts[server_idx].hostname;
+ assert(strcmp(hostname, ketama_test_cases_spy[x].server) == 0);
+ }
+
+ memcached_server_list_free(server_pool);
+ memcached_free(memc);
+
+ return TEST_SUCCESS;
+}
+
+static test_return_t regression_bug_434484(memcached_st *memc)
+{
+ if (pre_binary(memc) != MEMCACHED_SUCCESS)
+ return TEST_SKIPPED;
memcached_return ret;
const char *key= "regression_bug_434484";
assert(ret == MEMCACHED_NOTSTORED);
size_t size= 2048 * 1024;
- void *data= malloc(size);
+ void *data= calloc(1, size);
assert(data != NULL);
ret= memcached_set(memc, key, keylen, data, size, 0, 0);
assert(ret == MEMCACHED_E2BIG);
return TEST_SUCCESS;
}
+static test_return_t regression_bug_434843(memcached_st *memc)
+{
+ if (pre_binary(memc) != MEMCACHED_SUCCESS)
+ return TEST_SKIPPED;
+
+ memcached_return rc;
+ unsigned int counter= 0;
+ memcached_execute_function callbacks[1]= { [0]= &callback_counter };
+
+ /*
+ * I only want to hit only _one_ server so I know the number of requests I'm
+ * sending in the pipleine to the server. Let's try to do a multiget of
+ * 1024 (that should satisfy most users don't you think?). Future versions
+ * will include a mget_execute function call if you need a higher number.
+ */
+ uint32_t number_of_hosts= memc->number_of_hosts;
+ memc->number_of_hosts= 1;
+ const size_t max_keys= 1024;
+ char **keys= calloc(max_keys, sizeof(char*));
+ size_t *key_length=calloc(max_keys, sizeof(size_t));
+
+ for (int x= 0; x < (int)max_keys; ++x)
+ {
+ char k[251];
+ key_length[x]= (size_t)snprintf(k, sizeof(k), "0200%u", x);
+ keys[x]= strdup(k);
+ assert(keys[x] != NULL);
+ }
+
+ /*
+ * Run two times.. the first time we should have 100% cache miss,
+ * and the second time we should have 100% cache hits
+ */
+ for (int y= 0; y < 2; ++y)
+ {
+ rc= memcached_mget(memc, (const char**)keys, key_length, max_keys);
+ assert(rc == MEMCACHED_SUCCESS);
+ rc= memcached_fetch_execute(memc, callbacks, (void *)&counter, 1);
+ if (y == 0)
+ {
+ /* The first iteration should give me a 100% cache miss. verify that*/
+ assert(counter == 0);
+ char blob[1024]= { 0 };
+ for (int x= 0; x < (int)max_keys; ++x)
+ {
+ rc= memcached_add(memc, keys[x], key_length[x],
+ blob, sizeof(blob), 0, 0);
+ assert(rc == MEMCACHED_SUCCESS || rc == MEMCACHED_BUFFERED);
+ }
+ }
+ else
+ {
+ /* Verify that we received all of the key/value pairs */
+ assert(counter == (unsigned int)max_keys);
+ }
+ }
+
+ /* Release allocated resources */
+ for (size_t x= 0; x < max_keys; ++x)
+ free(keys[x]);
+ free(keys);
+ free(key_length);
+
+ memc->number_of_hosts= number_of_hosts;
+ return TEST_SUCCESS;
+}
+
+static test_return_t regression_bug_434843_buffered(memcached_st *memc)
+{
+ memcached_return rc;
+ rc= memcached_behavior_set(memc, MEMCACHED_BEHAVIOR_BUFFER_REQUESTS, 1);
+ assert(rc == MEMCACHED_SUCCESS);
+
+ return regression_bug_434843(memc);
+}
+
+static test_return_t regression_bug_421108(memcached_st *memc)
+{
+ memcached_return rc;
+ memcached_stat_st *memc_stat= memcached_stat(memc, NULL, &rc);
+ assert(rc == MEMCACHED_SUCCESS);
+
+ char *bytes= memcached_stat_get_value(memc, memc_stat, "bytes", &rc);
+ assert(rc == MEMCACHED_SUCCESS);
+ assert(bytes != NULL);
+ char *bytes_read= memcached_stat_get_value(memc, memc_stat,
+ "bytes_read", &rc);
+ assert(rc == MEMCACHED_SUCCESS);
+ assert(bytes_read != NULL);
+
+ char *bytes_written= memcached_stat_get_value(memc, memc_stat,
+ "bytes_written", &rc);
+ assert(rc == MEMCACHED_SUCCESS);
+ assert(bytes_written != NULL);
+
+ assert(strcmp(bytes, bytes_read) != 0);
+ assert(strcmp(bytes, bytes_written) != 0);
+
+ /* Release allocated resources */
+ free(bytes);
+ free(bytes_read);
+ free(bytes_written);
+ memcached_stat_free(NULL, memc_stat);
+ return TEST_SUCCESS;
+}
+
+/*
+ * The test case isn't obvious so I should probably document why
+ * it works the way it does. Bug 442914 was caused by a bug
+ * in the logic in memcached_purge (it did not handle the case
+ * where the number of bytes sent was equal to the watermark).
+ * In this test case, create messages so that we hit that case
+ * and then disable noreply mode and issue a new command to
+ * verify that it isn't stuck. If we change the format for the
+ * delete command or the watermarks, we need to update this
+ * test....
+ */
+static test_return_t regression_bug_442914(memcached_st *memc)
+{
+ memcached_return rc;
+ rc= memcached_behavior_set(memc, MEMCACHED_BEHAVIOR_NOREPLY, 1);
+ assert(rc == MEMCACHED_SUCCESS);
+ memcached_behavior_set(memc, MEMCACHED_BEHAVIOR_TCP_NODELAY, 1);
+
+ uint32_t number_of_hosts= memc->number_of_hosts;
+ memc->number_of_hosts= 1;
+
+ char k[250];
+ size_t len;
+
+ for (int x= 0; x < 250; ++x)
+ {
+ len= (size_t)snprintf(k, sizeof(k), "%0250u", x);
+ rc= memcached_delete(memc, k, len, 0);
+ assert(rc == MEMCACHED_SUCCESS || rc == MEMCACHED_BUFFERED);
+ }
+
+ len= (size_t)snprintf(k, sizeof(k), "%037u", 251);
+ rc= memcached_delete(memc, k, len, 0);
+ assert(rc == MEMCACHED_SUCCESS || rc == MEMCACHED_BUFFERED);
+
+ rc= memcached_behavior_set(memc, MEMCACHED_BEHAVIOR_NOREPLY, 0);
+ assert(rc == MEMCACHED_SUCCESS);
+ rc= memcached_delete(memc, k, len, 0);
+ assert(rc == MEMCACHED_NOTFOUND);
+
+ memc->number_of_hosts= number_of_hosts;
+
+ return TEST_SUCCESS;
+}
+
+static test_return_t regression_bug_447342(memcached_st *memc)
+{
+ if (memc->number_of_hosts < 3 || pre_replication(memc) != MEMCACHED_SUCCESS)
+ return TEST_SKIPPED;
+
+ memcached_return rc;
+
+ rc= memcached_behavior_set(memc, MEMCACHED_BEHAVIOR_NUMBER_OF_REPLICAS, 2);
+ assert(rc == MEMCACHED_SUCCESS);
+
+ const size_t max_keys= 100;
+ char **keys= calloc(max_keys, sizeof(char*));
+ size_t *key_length=calloc(max_keys, sizeof(size_t));
+
+ for (int x= 0; x < (int)max_keys; ++x)
+ {
+ char k[251];
+ key_length[x]= (size_t)snprintf(k, sizeof(k), "0200%u", x);
+ keys[x]= strdup(k);
+ assert(keys[x] != NULL);
+ rc= memcached_set(memc, k, key_length[x], k, key_length[x], 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);
+
+ /* Verify that all messages are stored, and we didn't stuff too much
+ * into the servers
+ */
+ rc= memcached_mget(memc, (const char* const *)keys, key_length, max_keys);
+ assert(rc == MEMCACHED_SUCCESS);
+
+ unsigned int counter= 0;
+ memcached_execute_function callbacks[1]= { [0]= &callback_counter };
+ rc= memcached_fetch_execute(memc, callbacks, (void *)&counter, 1);
+ /* Verify that we received all of the key/value pairs */
+ assert(counter == (unsigned int)max_keys);
+
+ 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. Fake that two servers
+ * are dead..
+ */
+ unsigned int port0= memc->hosts[0].port;
+ unsigned int port2= memc->hosts[2].port;
+ memc->hosts[0].port= 0;
+ memc->hosts[2].port= 0;
+
+ rc= memcached_mget(memc, (const char* const *)keys, key_length, max_keys);
+ assert(rc == MEMCACHED_SUCCESS);
+
+ counter= 0;
+ rc= memcached_fetch_execute(memc, callbacks, (void *)&counter, 1);
+ assert(counter == (unsigned int)max_keys);
+
+ /* restore the memc handle */
+ memc->hosts[0].port= port0;
+ memc->hosts[2].port= port2;
+
+ memcached_quit(memc);
+
+ /* Remove half of the objects */
+ for (int x= 0; x < (int)max_keys; ++x)
+ if (x & 1)
+ {
+ rc= memcached_delete(memc, keys[x], key_length[x], 0);
+ assert(rc == MEMCACHED_SUCCESS);
+ }
+
+ memcached_quit(memc);
+ memc->hosts[0].port= 0;
+ memc->hosts[2].port= 0;
+
+ /* now retry the command, this time we should have cache misses */
+ rc= memcached_mget(memc, (const char* const *)keys, key_length, max_keys);
+ assert(rc == MEMCACHED_SUCCESS);
+
+ counter= 0;
+ rc= memcached_fetch_execute(memc, callbacks, (void *)&counter, 1);
+ assert(counter == (unsigned int)(max_keys >> 1));
+
+ /* Release allocated resources */
+ for (size_t x= 0; x < max_keys; ++x)
+ free(keys[x]);
+ free(keys);
+ free(key_length);
+
+ /* restore the memc handle */
+ memc->hosts[0].port= port0;
+ memc->hosts[2].port= port2;
+ return TEST_SUCCESS;
+}
+
+/* Test memcached_server_get_last_disconnect
+ * For a working server set, shall be NULL
+ * For a set of non existing server, shall not be NULL
+ */
+static test_return_t test_get_last_disconnect(memcached_st *memc)
+{
+ memcached_return rc;
+ memcached_server_st *disconnected_server;
+
+ /* With the working set of server */
+ const char *key= "marmotte";
+ const char *value= "milka";
+
+ rc= memcached_set(memc, key, strlen(key),
+ value, strlen(value),
+ (time_t)0, (uint32_t)0);
+ assert(rc == MEMCACHED_SUCCESS || rc == MEMCACHED_BUFFERED);
+
+ disconnected_server = memcached_server_get_last_disconnect(memc);
+ assert(disconnected_server == NULL);
+
+ /* With a non existing server */
+ memcached_st *mine;
+ memcached_server_st *servers;
+
+ const char *server_list= "localhost:9";
+
+ servers= memcached_servers_parse(server_list);
+ assert(servers);
+ mine= memcached_create(NULL);
+ rc= memcached_server_push(mine, servers);
+ assert(rc == MEMCACHED_SUCCESS);
+ memcached_server_list_free(servers);
+ assert(mine);
+
+ rc= memcached_set(mine, key, strlen(key),
+ value, strlen(value),
+ (time_t)0, (uint32_t)0);
+ assert(rc != MEMCACHED_SUCCESS);
+
+ disconnected_server = memcached_server_get_last_disconnect(mine);
+ assert(disconnected_server != NULL);
+ assert(disconnected_server->port == 9);
+ assert(strncmp(disconnected_server->hostname,"localhost",9) == 0);
+
+ memcached_quit(mine);
+ memcached_free(mine);
+
+ return TEST_SUCCESS;
+}
+
+/*
+ * This test ensures that the failure counter isn't incremented during
+ * normal termination of the memcached instance.
+ */
+static test_return_t wrong_failure_counter_test(memcached_st *memc)
+{
+ memcached_return rc;
+
+ /* Set value to force connection to the server */
+ const char *key= "marmotte";
+ const char *value= "milka";
+
+ /*
+ * Please note that I'm abusing the internal structures in libmemcached
+ * in a non-portable way and you shouldn't be doing this. I'm only
+ * doing this in order to verify that the library works the way it should
+ */
+ uint32_t number_of_hosts= memc->number_of_hosts;
+ memc->number_of_hosts= 1;
+
+ /* Ensure that we are connected to the server by setting a value */
+ rc= memcached_set(memc, key, strlen(key),
+ value, strlen(value),
+ (time_t)0, (uint32_t)0);
+ assert(rc == MEMCACHED_SUCCESS || rc == MEMCACHED_BUFFERED);
+
+
+ /* The test is to see that the memcached_quit doesn't increase the
+ * the server failure conter, so let's ensure that it is zero
+ * before sending quit
+ */
+ memc->hosts[0].server_failure_counter= 0;
+
+ memcached_quit(memc);
+
+ /* Verify that it memcached_quit didn't increment the failure counter
+ * Please note that this isn't bullet proof, because an error could
+ * occur...
+ */
+ assert(memc->hosts[0].server_failure_counter == 0);
+
+ /* restore the instance */
+ memc->number_of_hosts= number_of_hosts;
+
+ return TEST_SUCCESS;
+}
+
test_st udp_setup_server_tests[] ={
{"set_udp_behavior_test", 0, set_udp_behavior_test},
{"add_tcp_server_udp_client_test", 0, add_tcp_server_udp_client_test},
{"mget_result", 1, mget_result_test },
{"mget_result_alloc", 1, mget_result_alloc_test },
{"mget_result_function", 1, mget_result_function },
+ {"mget_execute", 1, mget_execute },
{"mget_end", 0, mget_end },
{"get_stats", 0, get_stats },
{"add_host_test", 0, add_host_test },
#ifdef HAVE_LIBMEMCACHEDUTIL
{"connectionpool", 1, connection_pool_test },
#endif
+ {"test_get_last_disconnect", 1, test_get_last_disconnect},
{0, 0, 0}
};
{"user_supplied_bug18", 1, user_supplied_bug18 },
{"user_supplied_bug19", 1, user_supplied_bug19 },
{"user_supplied_bug20", 1, user_supplied_bug20 },
+ {"user_supplied_bug21", 1, user_supplied_bug21 },
+ {"wrong_failure_counter_test", 1, wrong_failure_counter_test},
{0, 0, 0}
};
*/
test_st regression_tests[]= {
{"lp:434484", 1, regression_bug_434484 },
+ {"lp:434843", 1, regression_bug_434843 },
+ {"lp:434843 buffered", 1, regression_bug_434843_buffered },
+ {"lp:421108", 1, regression_bug_421108 },
+ {"lp:442914", 1, regression_bug_442914 },
+ {"lp:447342", 1, regression_bug_447342 },
+ {0, 0, 0}
+};
+
+test_st ketama_compatibility[]= {
+ {"libmemcached", 1, ketama_compatibility_libmemcached },
+ {"spymemcached", 1, ketama_compatibility_spymemcached },
{0, 0, 0}
};
test_st ketama_auto_eject_hosts[] ={
{"auto_eject_hosts", 1, auto_eject_hosts },
+ {"output_ketama_weighted_keys", 1, output_ketama_weighted_keys },
{0, 0, 0}
};
{"consistent_not", 0, 0, consistent_tests},
{"consistent_ketama", pre_behavior_ketama, 0, consistent_tests},
{"consistent_ketama_weighted", pre_behavior_ketama_weighted, 0, consistent_weighted_tests},
+ {"ketama_compat", 0, 0, ketama_compatibility},
{"test_hashes", 0, 0, hash_tests},
{"replication", pre_replication, 0, replication_tests},
{"replication_noblock", pre_replication_noblock, 0, replication_tests},
{
server_startup_st *construct;
- construct= (server_startup_st *)malloc(sizeof(server_startup_st));
- memset(construct, 0, sizeof(server_startup_st));
+ construct= calloc(sizeof(server_startup_st), 1);
construct->count= SERVERS_TO_CREATE;
construct->udp= 0;
server_startup(construct);
projects / m6w6 / libmemcached / blobdiff