using System; using System.Collections.Generic; using System.IO; using System.IO.Compression; using System.Net; using System.Security.Cryptography; using Cosmos.Build.Windows; using Cosmos.FileSystem.Ext2; using Cosmos.Hardware; using Cosmos.Hardware.Storage.ATA; using ICSharpCode.SharpZipLib.Zip.Compression; using ICSharpCode.SharpZipLib.Zip.Compression.Streams; using Huffman; namespace MatthijsTest { public class Program { #region Cosmos Builder logic // Most users wont touch this. This will call the Cosmos Build tool [STAThread] private static void Main(string[] args) { //Init(); BuildUI.Run(); } #endregion //[ManifestResourceStream(ResourceName = "MatthijsTest.Test.txt")] //private static readonly byte[] TheManifestResource; //[ManifestResourceStream(ResourceName = "MatthijsTest.Test.txt.gz")] //private static readonly byte[] TheManifestResourceZipped; private static ushort HostToNetwork(ushort aValue) { return (ushort)((aValue << 8) | ((aValue >> 8) & 0xFF)); } private static uint HostToNetwork(uint aValue) { return (uint)(((HostToNetwork((ushort)aValue) & 0xffff) << 0x10) | (HostToNetwork((ushort)(aValue >> 0x10)) & 0xffff)); } public static void Init() { //Dictionary xDict = new Dictionary(); Cosmos.Sys.Boot.Default(); //Console.WriteLine("Press a key"); //Console.ReadLine(); //Console.WriteLine("Done"); var xStorage = Cosmos.Hardware.Device.FindFirst(Device.DeviceType.Storage) as BlockDevice; if (xStorage == null) { Console.WriteLine("ERROR: StorageDevice not found!"); return; } var xExt2 = new Ext2(xStorage); } public static void Handler1(object sender, EventArgs e) { if (sender == null) { Console.WriteLine("Sender is null"); } else { Console.WriteLine("Sender is not null"); } } public static void Handler2(object sender, EventArgs e) { if (sender == null) { Console.WriteLine("Sender is null"); } else { Console.WriteLine("Sender is not null"); } } private static EventHandler theEvent; private static string SingleDigitToHex(byte d) { d &= 0xF; switch (d) { case 0: return "0"; case 1: return "1"; case 2: return "2"; case 3: return "3"; case 4: return "4"; case 5: return "5"; case 6: return "6"; case 7: return "7"; case 8: return "8"; case 9: return "9"; case 10: return "A"; case 11: return "B"; case 12: return "C"; case 13: return "D"; case 14: return "E"; case 15: return "F"; } return " "; } public static void PrintHex(byte aByte) { Console.Write(SingleDigitToHex((byte)(aByte / 16))); Console.Write(SingleDigitToHex((byte)(aByte & 0xF))); } public static void PrintHex(uint aUint) { Console.Write(SingleDigitToHex((byte)(aUint >> 28))); Console.Write(SingleDigitToHex((byte)(aUint >> 24))); Console.Write(SingleDigitToHex((byte)(aUint >> 20))); Console.Write(SingleDigitToHex((byte)(aUint >> 16))); Console.Write(SingleDigitToHex((byte)(aUint >> 12))); Console.Write(SingleDigitToHex((byte)(aUint >> 8))); Console.Write(SingleDigitToHex((byte)(aUint >> 4))); Console.Write(SingleDigitToHex((byte)(aUint & 0xF))); } } }