using System; using System.Collections.Generic; using System.Configuration; using System.IO; using System.Linq; using System.Threading.Tasks; using Cosmos.Debug.Kernel; namespace Cosmos.System.FileSystem.FAT { public class FatDirectoryStream : Stream { protected readonly Listing.FatDirectory mDirectory; protected readonly FatFileSystem mFS = null; //TODO: In future we might read this in as needed rather than // all at once. This structure will also consume 2% of file size in RAM // (for default cluster size of 2kb, ie 4 bytes per cluster) // so we might consider a way to flush it and only keep parts. // Example, a 100 MB file will require 2MB for this structure. That is // probably acceptable for the mid term future. protected List mFatTable; protected UInt64? mReadBufferPosition; public FatDirectoryStream(Listing.FatDirectory aDirectory) { mDirectory = aDirectory; mFS = mDirectory.FileSystem; if (mFS == null) { FatHelpers.Debug("mFS is null!"); } if (mDirectory.Size > 0) { mFatTable = mFS.GetFatTable(mDirectory.FirstClusterNum); } } public override bool CanSeek { get { return true; } } public override bool CanRead { get { return true; } } public override bool CanWrite { get { return true; } } public override long Length { get { return (long)mDirectory.Size; } } protected UInt64 mPosition; public override long Position { get { return (long)mPosition; } set { if (value < 0L) { throw new ArgumentOutOfRangeException("value"); } mPosition = (ulong)value; } } public override int Read(byte[] aBuffer, int aOffset, int aCount) { return Read(aBuffer, aOffset, aCount); } protected int Read(byte[] aBuffer, Int64 aOffset, Int64 aCount) { if (aCount < 0) { throw new ArgumentOutOfRangeException("aCount"); } if (aOffset < 0) { throw new ArgumentOutOfRangeException("aOffset"); } if (aBuffer == null || aBuffer.Length - aOffset < aCount) { throw new ArgumentException("Invalid offset length!"); } if (mDirectory.FirstClusterNum == 0) { // FirstSector can be 0 for 0 length files return 0; } if (mPosition == mDirectory.Size) { // EOF return 0; } // reduce count, so that no out of bound exception occurs if not existing // entry is used in line mFS.ReadCluster(mFatTable[(int)xClusterIdx], xCluster); ulong xMaxReadableBytes = mDirectory.Size - mPosition; ulong xCount = (ulong)aCount; if (xCount > xMaxReadableBytes) { xCount = xMaxReadableBytes; } var xCluster = mFS.NewClusterArray(); UInt32 xClusterSize = mFS.BytesPerCluster; while (xCount > 0) { UInt64 xClusterIdx = mPosition / xClusterSize; UInt64 xPosInCluster = mPosition % xClusterSize; mFS.ReadCluster((ulong)mFatTable[(int)xClusterIdx], xCluster); long xReadSize; if (xPosInCluster + xCount > xClusterSize) { xReadSize = (long)(xClusterSize - xPosInCluster - 1); } else { xReadSize = (long)xCount; } // no need for a long version, because internal Array.Copy() does a cast down to int, and a range check, // or we do a semantic change here Array.Copy(xCluster, (long)xPosInCluster, aBuffer, aOffset, xReadSize); aOffset += xReadSize; xCount -= (ulong)xReadSize; } mPosition += (ulong)aOffset; return (int)aOffset; } public override void Flush() { throw new NotImplementedException(); } public override long Seek(long offset, SeekOrigin origin) { throw new NotImplementedException(); } public override void SetLength(long value) { var xOldClusterTotal = Length/mFS.BytesPerCluster; if (Length%mFS.BytesPerCluster != 0) { xOldClusterTotal++; } var xNewClusterTotal = value/mFS.BytesPerCluster; if (value%mFS.BytesPerCluster != 0) { xNewClusterTotal++; } if (xNewClusterTotal != xOldClusterTotal) { throw new NotImplementedException("Setting the stream length to a size that requires alllcating new clusters is not currently implemented."); } mFS.SetDirectoryLength(mDirectory, value); //mDirectory.Size = (ulong) value; } public override void Write(byte[] aBuffer, int aOffset, int aCount) { Write(aBuffer, aOffset, aCount); } protected void Write(byte[] aBuffer, long aOffset, long aCount) { if (aCount < 0) { throw new ArgumentOutOfRangeException("aCount"); } if (aOffset < 0) { throw new ArgumentOutOfRangeException("aOffset"); } if (aBuffer == null || aBuffer.Length - aOffset < aCount) { throw new ArgumentException("Invalid offset length!"); } ulong xCount = (ulong)aCount; var xCluster = mFS.NewClusterArray(); UInt32 xClusterSize = mFS.BytesPerCluster; long xTotalLength = (long) (mPosition + xCount); if (xTotalLength > Length) { SetLength(xTotalLength); } while (xCount > 0) { long xWriteSize; UInt64 xClusterIdx = mPosition / xClusterSize; UInt64 xPosInCluster = mPosition % xClusterSize; if (xPosInCluster + xCount > xClusterSize) { xWriteSize = (long)(xClusterSize - xPosInCluster - 1); } else { xWriteSize = (long)xCount; } mFS.ReadCluster(xClusterIdx, xCluster); FatHelpers.Debug("Writing to cluster idx"); Debugger.DoSendNumber((uint) xClusterIdx); FatHelpers.Debug("Writing to pos in cluster"); Debugger.DoSendNumber((uint)xPosInCluster); FatHelpers.Debug("Offset"); Debugger.DoSendNumber((uint)aOffset); FatHelpers.Debug("xWriteSize"); Debugger.DoSendNumber((uint)xWriteSize); FatHelpers.Debug("First byte"); Debugger.DoSendNumber((uint)aBuffer[0]); Array.Copy(aBuffer, aOffset, xCluster, (long)xPosInCluster, xWriteSize); mFS.WriteCluster((ulong)mFatTable[(int)xClusterIdx], xCluster); aOffset += xWriteSize; xCount -= (ulong)xWriteSize; } mPosition += (ulong)aOffset; } } }