示例#1
0
/** This is the testing function for the ssl-test lib
 *
 * The basic idea is that you spin up a client and server, which will
 * communicate over a mongoc-stream-tls, with varying mongoc_ssl_opt's.  The
 * client and server speak a simple echo protocol, so all we're really testing
 * here is that any given configuration succeeds or fails as it should
 */
void
ssl_test (mongoc_ssl_opt_t *client,
          mongoc_ssl_opt_t *server,
          const char *host,
          ssl_test_result_t *client_result,
          ssl_test_result_t *server_result)
{
   ssl_test_data_t data = {0};
   mongoc_thread_t threads[2];
   int i, r;

   data.server = server;
   data.client = client;
   data.client_result = client_result;
   data.server_result = server_result;
   data.host = host;

   mongoc_mutex_init (&data.cond_mutex);
   mongoc_cond_init (&data.cond);

   r = mongoc_thread_create (threads, &ssl_test_server, &data);
   BSON_ASSERT (r == 0);

   r = mongoc_thread_create (threads + 1, &ssl_test_client, &data);
   BSON_ASSERT (r == 0);

   for (i = 0; i < 2; i++) {
      r = mongoc_thread_join (threads[i]);
      BSON_ASSERT (r == 0);
   }

   mongoc_mutex_destroy (&data.cond_mutex);
   mongoc_cond_destroy (&data.cond);
}
void
mongoc_client_pool_destroy (mongoc_client_pool_t *pool)
{
   mongoc_client_t *client;

   ENTRY;

   BSON_ASSERT (pool);

   while ((client = (mongoc_client_t *)_mongoc_queue_pop_head(&pool->queue))) {
      mongoc_client_destroy(client);
   }

   mongoc_topology_destroy (pool->topology);

   mongoc_uri_destroy(pool->uri);
   mongoc_mutex_destroy(&pool->mutex);
   mongoc_cond_destroy(&pool->cond);

#ifdef MONGOC_ENABLE_SSL
   _mongoc_ssl_opts_cleanup (&pool->ssl_opts);
#endif

   bson_free(pool);

   mongoc_counter_client_pools_active_dec();
   mongoc_counter_client_pools_disposed_inc();

   EXIT;
}
示例#3
0
void
mongoc_client_pool_destroy (mongoc_client_pool_t *pool)
{
   mongoc_client_t *client;

   ENTRY;

   BSON_ASSERT (pool);

   while ((client = (mongoc_client_t *)_mongoc_queue_pop_head(&pool->queue))) {
      mongoc_client_destroy(client);
   }

   mongoc_topology_destroy (pool->topology);

   mongoc_uri_destroy(pool->uri);
   mongoc_mutex_destroy(&pool->mutex);
   mongoc_cond_destroy(&pool->cond);
   bson_free(pool);

   mongoc_counter_client_pools_active_dec();
   mongoc_counter_client_pools_disposed_inc();

   EXIT;
}
示例#4
0
void
mock_server_destroy (mock_server_t *server)
{
   if (server) {
      mongoc_cond_destroy (&server->cond);
      mongoc_mutex_destroy (&server->mutex);
      bson_free(server);
   }
}
示例#5
0
void
future_destroy (future_t *future)
{
   assert (future->awaited);
   bson_free (future->argv);
   mongoc_cond_destroy (&future->cond);
   mongoc_mutex_destroy (&future->mutex);
   bson_free (future);
}
示例#6
0
static void
_mongoc_ssl_thread_cleanup (void)
{
   int i;

   CRYPTO_set_locking_callback (NULL);

   for (i = 0; i < CRYPTO_num_locks (); i++) {
      mongoc_mutex_destroy (&gMongocSslThreadLocks[i]);
   }
   OPENSSL_free (gMongocSslThreadLocks);
}
static void
test_mongoc_tls_handshake_stall (void)
{
   mongoc_ssl_opt_t sopt = { 0 };
   mongoc_ssl_opt_t copt = { 0 };
   ssl_test_result_t sr;
   ssl_test_result_t cr;
   ssl_test_data_t data = { 0 };
   mongoc_thread_t threads[2];
   int i, r;

   sopt.pem_file = PEMFILE_NOPASS;
   sopt.weak_cert_validation = 1;
   copt.weak_cert_validation = 1;

   data.server = &sopt;
   data.client = &copt;
   data.behavior = SSL_TEST_BEHAVIOR_STALL_BEFORE_HANDSHAKE;
   data.handshake_stall_ms = 300;
   data.server_result = &sr;
   data.client_result = &cr;
   data.host = "localhost";

   mongoc_mutex_init (&data.cond_mutex);
   mongoc_cond_init (&data.cond);

   r = mongoc_thread_create (threads, &ssl_error_server, &data);
   assert (r == 0);

   r = mongoc_thread_create (threads + 1, &handshake_stall_client, &data);
   assert (r == 0);

   for (i = 0; i < 2; i++) {
      r = mongoc_thread_join (threads[i]);
      assert (r == 0);
   }

   mongoc_mutex_destroy (&data.cond_mutex);
   mongoc_cond_destroy (&data.cond);

   ASSERT (cr.result == SSL_TEST_SUCCESS);
   ASSERT (sr.result == SSL_TEST_SUCCESS);
}
示例#8
0
static void
test_cond_wait (void)
{
   int64_t start, duration_usec;
   mongoc_mutex_t mutex;
   mongoc_cond_t cond;

   mongoc_mutex_init (&mutex);
   mongoc_cond_init (&cond);

   mongoc_mutex_lock (&mutex);
   start = bson_get_monotonic_time ();
   mongoc_cond_timedwait (&cond, &mutex, 100);
   duration_usec = bson_get_monotonic_time () - start;
   mongoc_mutex_unlock (&mutex);

   if (!((50 * 1000 < duration_usec) && (150 * 1000 > duration_usec))) {
      fprintf (
         stderr, "expected to wait 100ms, waited %" PRId64 "\n", duration_usec);
   }

   mongoc_cond_destroy (&cond);
   mongoc_mutex_destroy (&mutex);
}
static void
test_mongoc_socket_sendv (void)
{
   socket_test_data_t data = { 0 };
   mongoc_thread_t threads[2];
   int i, r;

   mongoc_mutex_init (&data.cond_mutex);
   mongoc_cond_init (&data.cond);

   r = mongoc_thread_create (threads, &sendv_test_server, &data);
   assert (r == 0);

   r = mongoc_thread_create (threads + 1, &sendv_test_client, &data);
   assert (r == 0);

   for (i = 0; i < 2; i++) {
      r = mongoc_thread_join (threads[i]);
      assert (r == 0);
   }

   mongoc_mutex_destroy (&data.cond_mutex);
   mongoc_cond_destroy (&data.cond);
}
示例#10
0
void
mock_server_destroy (mock_server_t *server)
{
   size_t i;
   autoresponder_handle_t *handle;
   int64_t deadline = bson_get_monotonic_time () + 10 * 1000 * 1000;
   request_t *request;

   mongoc_mutex_lock (&server->mutex);
   if (server->running) {
      server->stopped = true;
   }
   mongoc_mutex_unlock (&server->mutex);

   while (bson_get_monotonic_time () <= deadline) {
      /* wait 10 seconds */
      mongoc_mutex_lock (&server->mutex);
      if (!server->running) {
         mongoc_mutex_unlock (&server->mutex);
         break;
      }

      mongoc_mutex_unlock (&server->mutex);
      _mongoc_usleep (1000);
   }

   mongoc_mutex_lock (&server->mutex);
   if (server->running) {
      fprintf (stderr, "server still running after timeout\n");
      fflush (stderr);
      abort ();
   }

   mongoc_mutex_unlock (&server->mutex);
   mongoc_thread_join (server->main_thread);

   _mongoc_array_destroy (&server->worker_threads);

   for (i = 0; i < server->autoresponders.len; i++) {
      handle = &_mongoc_array_index (&server->autoresponders,
                                     autoresponder_handle_t,
                                     i);

      autoresponder_handle_destroy (handle);
   }

   _mongoc_array_destroy (&server->autoresponders);

   mongoc_cond_destroy (&server->cond);
   mongoc_mutex_unlock (&server->mutex);
   mongoc_mutex_destroy (&server->mutex);
   mongoc_socket_destroy (server->sock);
   bson_free (server->uri_str);
   mongoc_uri_destroy (server->uri);

   while ((request = (request_t *) q_get_nowait (server->q))) {
      request_destroy (request);
   }

   q_destroy (server->q);
   bson_free (server);
}
static void
mongoc_sasl_mutex_free (void *mutex)
{
   mongoc_mutex_destroy ((mongoc_mutex_t *) mutex);
   bson_free (mutex);
}