void RemoteDesktop::Network_Client::_Run_Gateway(std::wstring gatewayurl){ int counter = 0; while (_Running && ++counter < MaxConnectAttempts){ int src_id = -1; std::wstring aeskey; DEBUG_MSG("Connecting to gateway to get id .. ."); if (!GetGatewayID_and_Key(src_id, aeskey, gatewayurl)){ DEBUG_MSG("Failed to connect to gateway . . "); continue; } DEBUG_MSG("Connected to gateway id server . . . %", src_id); if (OnConnectingAttempt) OnConnectingAttempt(counter, MaxConnectAttempts); auto sock = RemoteDesktop::Connect(_Dst_Port, _Dst_Host); if (sock == INVALID_SOCKET) continue; if (OnGatewayConnected) OnGatewayConnected(src_id); counter = 0;//reset timer MaxConnectAttempts = DEFAULTMAXCONNECTATTEMPTS;//set this to a specific value std::shared_ptr<SocketHandler> socket(std::make_shared<SocketHandler>(sock, true)); socket->Exchange_Keys(-1, src_id, aeskey); _Run(socket); _HandleDisconnect(socket); _ShouldDisconnect = false; } if (MaxConnectAttempts >= DEFAULTMAXCONNECTATTEMPTS){ //MessageBoxA(NULL, "Could not contact to gateway server. This could be due to your firewall blocking, or the server could be down.\n\nThe Program will exit now.", "Remote Access Tool Gateway Server Down", MB_OK); } _Running = false; _ShouldDisconnect = true; }
SetPartition CCPivot::Run(const SetPartitionVector& SPV) { srand((unsigned)time(NULL)); SetPartition sp(_Run(SPV)); int mindist = SPV.SumOfRandDistance(sp); for (int i = 0; i < 49; ++i) { SetPartition sp2(_Run(SPV)); int d = SPV.SumOfRandDistance(sp2); if (d < mindist) { mindist = d; sp = sp2; } } return sp; }
status_t EventDispatcher::SetTo(EventStream* stream) { ETRACE(("event dispatcher: stream = %p\n", stream)); _Unset(); if (stream == NULL) return B_OK; fStream = stream; return _Run(); }
void RemoteDesktop::Network_Client::_Run_Standard(int dst_id, std::wstring aeskey){ int counter = 0; while (_Running && ++counter < MaxConnectAttempts){ if (OnConnectingAttempt) OnConnectingAttempt(counter, MaxConnectAttempts); DEBUG_MSG("Connecting to server . . . %", dst_id); auto sock = RemoteDesktop::Connect(_Dst_Port, _Dst_Host); if (sock == INVALID_SOCKET) continue; counter = 0;//reset timer MaxConnectAttempts = DEFAULTMAXCONNECTATTEMPTS;//set this to a specific value std::shared_ptr<SocketHandler> socket(std::make_shared<SocketHandler>(sock, true)); socket->Exchange_Keys(dst_id, -1, aeskey); _Run(socket); _ShouldDisconnect = false; } std::shared_ptr<SocketHandler> emptysocket; if (counter >= MaxConnectAttempts && OnDisconnect) OnDisconnect(emptysocket);//real disconnect here _Running = false; _ShouldDisconnect = true; }
int cConsoleApplication::Run() { bool bIsSuccessfulRun = true; bool bIsHandledAlready = false; const size_t n = GetArgumentCount(); if (n == 1) { const string_t sArgument0 = GetArgument(0); if ((sArgument0 == TEXT("-help")) || (sArgument0 == TEXT("--help"))) { bIsHandledAlready = true; _PrintHelp(); } else if ((sArgument0 == TEXT("-version")) || (sArgument0 == TEXT("--version"))) { bIsHandledAlready = true; PrintVersion(); } } if (!bIsHandledAlready) bIsSuccessfulRun = _Run(); return (bIsSuccessfulRun) ? EXIT_SUCCESS : EXIT_FAILURE; }
void VUView::AttachedToWindow() { SetViewColor(B_TRANSPARENT_COLOR); _Run(); }
/* Run() processes the HTTP request that is encapsulated in the HttpStream obj. It is responsible for writing the response into the HttpStream obj and returning 0, even in cases were the request failed, e.g., 404. A non-0 return value is reserved for extreme cases, and will likely result in the caller dropping the connection with the App. A valid use case of returning non-0: HTTP response header (with Content-Length header) was already sent but the response body got truncated in the middle and got short. */ int Run() { if (runCalled) return -1; // FIXME runCalled = true; return _Run(); }