/// <summary> /// Reads the current configuration file from the app's configuration. /// /// TODO: use reflection to do this. /// </summary> public static void ReadConfiguration() { Drive0Image = (string)Properties.Settings.Default["Drive0Image"]; Drive1Image = (string)Properties.Settings.Default["Drive1Image"]; SystemType = (SystemType)Properties.Settings.Default["SystemType"]; HostAddress = (byte)Properties.Settings.Default["HostAddress"]; HostPacketInterfaceName = (string)Properties.Settings.Default["HostPacketInterfaceName"]; HostPacketInterfaceType = (PacketInterfaceType)Properties.Settings.Default["HostPacketInterfaceType"]; AlternateBootType = (AlternateBootType)Properties.Settings.Default["AlternateBootType"]; BootAddress = (ushort)Properties.Settings.Default["BootAddress"]; BootFile = (ushort)Properties.Settings.Default["BootFile"]; InterlaceDisplay = (bool)Properties.Settings.Default["InterlaceDisplay"]; ThrottleSpeed = (bool)Properties.Settings.Default["ThrottleSpeed"]; }
private static void ReadConfigurationWindows() { AudioDACCapturePath = Properties.Settings.Default.AudioDACCapturePath; Drive0Image = Properties.Settings.Default.Drive0Image; Drive1Image = Properties.Settings.Default.Drive1Image; SystemType = (SystemType)Properties.Settings.Default.SystemType; HostAddress = Properties.Settings.Default.HostAddress; HostPacketInterfaceName = Properties.Settings.Default.HostPacketInterfaceName; HostPacketInterfaceType = (PacketInterfaceType)Properties.Settings.Default.HostPacketInterfaceType; AlternateBootType = (AlternateBootType)Properties.Settings.Default.AlternateBootType; BootAddress = Properties.Settings.Default.BootAddress; BootFile = Properties.Settings.Default.BootFile; InterlaceDisplay = Properties.Settings.Default.InterlaceDisplay; ThrottleSpeed = Properties.Settings.Default.ThrottleSpeed; EnableAudioDAC = Properties.Settings.Default.EnableAudioDAC; EnableAudioDACCapture = Properties.Settings.Default.EnableAudioDACCapture; AudioDACCapturePath = Properties.Settings.Default.AudioDACCapturePath; }
private void PopulateNetworkAdapterList(PacketInterfaceType encapType) { // // Populate the list with the interfaces available on the machine, for the // type of encapsulation being used. // HostInterfaceGroupBox.Enabled = encapType != PacketInterfaceType.None; EthernetInterfaceListBox.Items.Clear(); // Add the "Use no interface" option EthernetInterfaceListBox.Items.Add( new EthernetInterface("None", "No network adapter")); switch (encapType) { // For UDP we show all interfaces that support IPV4, for Raw Ethernet we show only Ethernet interfaces. case PacketInterfaceType.UDPEncapsulation: { NetworkInterface[] interfaces = NetworkInterface.GetAllNetworkInterfaces(); foreach (NetworkInterface iface in interfaces) { if (iface.Supports(NetworkInterfaceComponent.IPv4)) { EthernetInterfaceListBox.Items.Add(new EthernetInterface(iface.Name, iface.Description)); } } } break; // Add all interfaces that PCAP knows about. case PacketInterfaceType.EthernetEncapsulation: if (Configuration.HostRawEthernetInterfacesAvailable) { foreach (LivePacketDevice device in LivePacketDevice.AllLocalMachine) { EthernetInterfaceListBox.Items.Add(new EthernetInterface(device.GetNetworkInterface().Name, device.GetNetworkInterface().Description)); } } break; case PacketInterfaceType.None: // Add nothing. break; } // // Select the one that is already selected (if any) // EthernetInterfaceListBox.SelectedIndex = 0; if (!string.IsNullOrEmpty(Configuration.HostPacketInterfaceName)) { for (int i = 0; i < EthernetInterfaceListBox.Items.Count; i++) { EthernetInterface iface = (EthernetInterface)EthernetInterfaceListBox.Items[i]; if (iface.Name == Configuration.HostPacketInterfaceName) { EthernetInterfaceListBox.SelectedIndex = i; break; } } } }
private void PopulateNetworkAdapterList(PacketInterfaceType encapType) { // // Populate the list with the interfaces available on the machine, for the // type of encapsulation being used. // HostInterfaceGroupBox.Enabled = encapType != PacketInterfaceType.None; EthernetInterfaceListBox.Items.Clear(); // Add the "Use no interface" option EthernetInterfaceListBox.Items.Add( new EthernetInterface("None", "No network adapter")); switch (encapType) { // For UDP we show all interfaces that support IPV4, for Raw Ethernet we show only Ethernet interfaces. case PacketInterfaceType.UDPEncapsulation: { NetworkInterface[] interfaces = NetworkInterface.GetAllNetworkInterfaces(); foreach (NetworkInterface iface in interfaces) { if (iface.Supports(NetworkInterfaceComponent.IPv4)) { EthernetInterfaceListBox.Items.Add(new EthernetInterface(iface.Name, iface.Description)); } } } break; // Add all interfaces that PCAP knows about. case PacketInterfaceType.EthernetEncapsulation: if (Configuration.HostRawEthernetInterfacesAvailable) { foreach (WinPcapDevice device in CaptureDeviceList.Instance) { // // NCap seems to return some interfaces with a null FriendlyName; empirically these // are not real network adapters that would typically be used with ContrAlto so we // will not display them here. // if (!string.IsNullOrWhiteSpace(device.Interface.FriendlyName)) { EthernetInterfaceListBox.Items.Add(new EthernetInterface(device.Interface.FriendlyName, device.Interface.Description)); } } } break; case PacketInterfaceType.None: // Add nothing. break; } // // Select the one that is already selected (if any) // EthernetInterfaceListBox.SelectedIndex = 0; if (!string.IsNullOrEmpty(Configuration.HostPacketInterfaceName)) { for (int i = 0; i < EthernetInterfaceListBox.Items.Count; i++) { EthernetInterface iface = (EthernetInterface)EthernetInterfaceListBox.Items[i]; if (iface.Name == Configuration.HostPacketInterfaceName) { EthernetInterfaceListBox.SelectedIndex = i; break; } } } }