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Cosmos/source/MatthijsTest/Program.cs
mterwoord_cp 109f56bdc3 Ext2 reading seems to work completely now
2008-07-21 15:07:22 +00:00

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9.1 KiB
C#
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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;
using Cosmos.FileSystem.Ext2;
using Cosmos.Hardware;
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
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));
}
private static void ProcessFile(Ext2 aExt2,
FilesystemEntry aEntry) {
byte[] xTempBuff = new byte[aExt2.BlockSize];
byte[] xTotalBuff = new byte[aEntry.Size];
for (uint i = 0; i < (xTotalBuff.Length / xTempBuff.Length); i++) {
if (!aExt2.ReadBlock(aEntry.Id,
i,
xTempBuff)) {
Console.Write("Error while processing file! (");
Console.Write(((uint)aEntry.Id).ToString());
Console.WriteLine(")");
return;
}
int xCurLength = xTotalBuff.Length % xTempBuff.Length;
if (xCurLength == 0)
{
xCurLength = xTempBuff.Length;
}
Array.Copy(xTempBuff, 0, xTotalBuff, i * xTempBuff.Length, xCurLength);
if ((i+1) == (xTotalBuff.Length / xTempBuff.Length)) {
break;
}
}
if(aEntry.Size>=512) {
var xBlockCount = ((uint)(aEntry.Size)) / 512;
if (aEntry.Size % 512 > 0) {
xBlockCount ++;
}
for (var i = 0; i < xBlockCount; i++)
{
var xCurBlockSize = 512;
var xCharBuffer = new char[512];
if (i == (xBlockCount - 1)) {
if ((xTotalBuff.Length - (xBlockCount * 512)) < 512) {
xCurBlockSize = (int)(xTotalBuff.Length - (uint)(xBlockCount * 512));
}
}
for (int j = 0; j < xCurBlockSize; j++)
{
xCharBuffer[j] = (char)xTotalBuff[(i * 512) + j];
}
Console.Write("Printing file ");
Console.Write(aEntry.Name);
Console.Write(", Block ");
Console.Write(i.ToString());
Console.Write(" of ");
Console.Write(xBlockCount.ToString());
Console.WriteLine(":");
Console.WriteLine(new string(xCharBuffer, 0, xCurBlockSize));
Console.Write("Press a key to continue");
Console.ReadLine();
}
}else{Console.WriteLine("Not enough data");}
}
public static void Init() {
Cosmos.Sys.Boot.Default();
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);
var xDirectoryListing = xExt2.GetDirectoryListing(xExt2.RootId);
bool xFileWritten = false;
if (xDirectoryListing == null) {
Console.WriteLine("No DirectoryListing!");
} else {
Console.Write("Directory entries count: ");
Console.WriteLine(xDirectoryListing.Length.ToString());
for (int i = 0; i < xDirectoryListing.Length; i++) {
Console.Write(((uint)xDirectoryListing[i].Id).ToString());
Console.Write("|");
Console.Write(xDirectoryListing[i].Name);
if (xDirectoryListing[i].IsDirectory) {
Console.WriteLine("/");
var xDirList2 = xExt2.GetDirectoryListing(xDirectoryListing[i].Id);
for (int j = 0; j < xDirList2.Length; j++) {
Console.Write(" ");
Console.Write(((uint)xDirList2[j].Id).ToString());
Console.Write("|");
Console.Write(xDirList2[j].Name);
if (xDirList2[j].IsDirectory) {
Console.WriteLine("/");
} else {
Console.Write("|");
Console.WriteLine(((uint)xDirList2[j].Size).ToString());
ProcessFile(xExt2,
xDirList2[j]);
}
}
} else {
Console.Write("|");
Console.WriteLine(((uint)xDirectoryListing[i].Size).ToString());
ProcessFile(xExt2,
xDirectoryListing[i]);
}
}
}
Console.WriteLine("Shutting down!");
}
public static int TestMethodNoParams() {
return 23;
}
public static int TestMethodOneParams(int theValue) {
return theValue * 2;
}
public static int TestMethodTwoParams(int theValue,
int theValue2) {
return theValue + theValue2;
}
public static int TestMethodThreeParams(int theValue,
int theValue2,
int theValue3) {
return theValue + theValue2 + theValue3;
}
public static int TestMethodComplicated(ulong aValue,
bool atest) {
return 7356;
}
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)));
}
}
}
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