/* int connect(int no_retries=30, int retry_delay_in_seconds=1, int verbose=0); 3 args SYNC / 4 args ASYNC */ Handle<Value> Ndb_cluster_connection_connect(const Arguments &args) { DEBUG_MARKER(UDEB_DETAIL); HandleScope scope; Local<Value> ret; REQUIRE_MIN_ARGS(3); REQUIRE_MAX_ARGS(4); typedef NativeMethodCall_3_ <int, Ndb_cluster_connection, int, int, int> MCALL; MCALL * mcallptr = new MCALL(& Ndb_cluster_connection::connect, args); if(args.Length() == 4) { DEBUG_PRINT_DETAIL("async"); mcallptr->runAsync(); ret = JS_VOID_RETURN; } else { DEBUG_PRINT_DETAIL("sync"); mcallptr->run(); ret = mcallptr->jsReturnVal(); delete mcallptr; } return scope.Close(ret); }
/* int wait_until_ready(int timeout_for_first_alive, int timeout_after_first_alive, callback); 2 args SYNC / 3 args ASYNC */ Handle<Value> Ndb_cluster_connection_wait_until_ready(const Arguments &args) { DEBUG_MARKER(UDEB_DETAIL); HandleScope scope; Local<Value> ret = Local<Value>(*Undefined()); REQUIRE_MIN_ARGS(2); REQUIRE_MAX_ARGS(3); typedef NativeMethodCall_2_<int, Ndb_cluster_connection, int, int> MCALL; MCALL * mcallptr = new MCALL(& Ndb_cluster_connection::wait_until_ready, args); if(args.Length() == 3) { mcallptr->runAsync(); } else { mcallptr->run(); ret = mcallptr->jsReturnVal(); delete mcallptr; }; return scope.Close(ret); }