internal Ports() { DataPersistor = new PortDataPersistor { PortInfoList = _portInfoList }; _portFilter = new PortFilter(); }
private DebugPort DebugPortFromPortFilter (PortFilter portFilter) { foreach (DebugPort port in m_ports) { if (port.PortFilter == portFilter) return port; } return null; }
public DebugPort(PortFilter portFilter, DebugPortSupplier portSupplier) { m_name = NameFromPortFilter(portFilter); m_portSupplier = portSupplier; m_portFilter = portFilter; m_cpDebugPortEvents2 = new ConnectionPoint(this, typeof(IDebugPortEvents2).GUID); m_alProcesses = ArrayList.Synchronized(new ArrayList(1)); m_pidNext = 1; m_guid = Guid.NewGuid(); }
private DebugPort DebugPortFromPortFilter(PortFilter portFilter) { foreach (DebugPort port in _ports) { if (port.PortFilter == portFilter) { return(port); } } return(null); }
public static string NameFromPortFilter(PortFilter portFilter) { switch (portFilter) { case PortFilter.Serial: return("Serial"); //case Debugger.PortFilter.Usb: // return "USB"; //case Debugger.PortFilter.TcpIp: // return "TCP/IP"; default: Debug.Assert(false); return(""); } }
public static string NameFromPortFilter(PortFilter portFilter) { switch (portFilter) { case PortFilter.Serial: return("Serial"); case PortFilter.Emulator: return("Emulator"); case PortFilter.Usb: return("USB"); case PortFilter.TcpIp: return("TCP/IP"); default: Debug.Assert(false); return(""); } }
public TransportTypeItem(PortFilter id, string text) { m_id = id; m_text = text; }
public static string NameFromPortFilter(PortFilter portFilter) { switch (portFilter) { case PortFilter.Serial: return "Serial"; case PortFilter.Emulator: return "Emulator"; case PortFilter.Usb: return "USB"; case PortFilter.TcpIp: return "TCP/IP"; default: Debug.Assert(false); return ""; } }
private bool RebootDevice(Engine.RebootOption option) { PortFilter[] args = { }; switch (this.Transport.ToLower()) { case "emulator": args = new PortFilter[] { PortFilter.Emulator }; break; case "serial": args = new PortFilter[] { PortFilter.Serial }; break; case "tcpip": args = new PortFilter[] { PortFilter.TcpIp }; break; case "usb": args = new PortFilter[] { PortFilter.Usb }; break; } ArrayList list = PortDefinition.Enumerate(args); PortDefinition port = null; foreach (object prt in list) { port = (PortDefinition)prt; if (port.DisplayName.ToLower().Contains(this.Device.ToLower())) { break; } else { port = null; } } if (null == port) { return false; } using (Engine engine = new Engine(port)) { engine.Start(); bool connect = false; connect = engine.TryToConnect(200, 500, true, ConnectionSource.TinyCLR); if (!connect) { return false; } engine.RebootDevice(option); } return true; }
internal static PortDefinition GetPort(string device, string transport, string exePath) { PortFilter[] args = { }; switch (transport.ToLower()) { case "emulator": args = new PortFilter[] { PortFilter.Emulator }; device = "emulator"; PortDefinition pd = PortDefinition.CreateInstanceForEmulator("Launch 'Microsoft Emulator'", "Microsoft", 0); PlatformInfo pi = new PlatformInfo(null); PlatformInfo.Emulator emu = pi.FindEmulator(pd.Port); if (emu != null) { string onboardFlash = Path.Combine(Path.GetDirectoryName(emu.application), "OnBoardFlash.dat"); if (File.Exists(onboardFlash)) { try { File.Delete(onboardFlash); } catch { } } } PortDefinition_Emulator emuport = pd as PortDefinition_Emulator; Console.WriteLine("\tLaunching Emulator.."); Process emuProc = EmulatorLauncher.LaunchEmulator( emuport, true, exePath); break; case "serial": args = new PortFilter[] { PortFilter.Serial }; break; case "tcpip": args = new PortFilter[] { PortFilter.TcpIp }; break; case "usb": args = new PortFilter[] { PortFilter.Usb }; break; } ArrayList list = new ArrayList(); int nRetries = 20; while (list.Count == 0 && nRetries-- > 0) { list = PortDefinition.Enumerate(args); if (list.Count > 0) break; System.Threading.Thread.Sleep(500); } PortDefinition port = null; foreach (object prt in list) { port = (PortDefinition)prt; if (port.DisplayName.ToLower().Contains(device.ToLower())) { break; } else { port = null; } } if (null != port) { return port; } else { throw new ApplicationException( "Could not find the specified device for the harness to connect to."); } }
internal static PortDefinition GetPort(string device, string transport, string exePath) { PortFilter[] args = { }; switch (transport.ToLower()) { case "emulator": args = new PortFilter[] { PortFilter.Emulator }; device = "emulator"; PortDefinition pd = PortDefinition.CreateInstanceForEmulator("Launch 'Microsoft Emulator'", "Microsoft", 0); PlatformInfo pi = new PlatformInfo(null); PlatformInfo.Emulator emu = pi.FindEmulator(pd.Port); if (emu != null) { string onboardFlash = Path.Combine(Path.GetDirectoryName(emu.application), "OnBoardFlash.dat"); if (File.Exists(onboardFlash)) { try { File.Delete(onboardFlash); } catch { } } } PortDefinition_Emulator emuport = pd as PortDefinition_Emulator; Console.WriteLine("\tLaunching Emulator.."); Process emuProc = EmulatorLauncher.LaunchEmulator( emuport, true, exePath); break; case "serial": args = new PortFilter[] { PortFilter.Serial }; break; case "tcpip": args = new PortFilter[] { PortFilter.TcpIp }; break; case "usb": args = new PortFilter[] { PortFilter.Usb }; break; } ArrayList list = new ArrayList(); int nRetries = 20; while (list.Count == 0 && nRetries-- > 0) { list = PortDefinition.Enumerate(args); if (list.Count > 0) { break; } System.Threading.Thread.Sleep(500); } PortDefinition port = null; foreach (object prt in list) { port = (PortDefinition)prt; if (port.DisplayName.ToLower().Contains(device.ToLower())) { break; } else { port = null; } } if (null != port) { return(port); } else { throw new ApplicationException( "Could not find the specified device for the harness to connect to."); } }