/* -*- Mode: csharp; tab-width: 8; indent-tabs-mode: t; c-basic-offset: 8 -*- */ // // DeflateStream.cs // // Authors: // Christopher James Lahey // Gonzalo Paniagua Javier (gonzalo@novell.com) // Marek Safar (marek.safar@gmail.com) // // (c) Copyright 2004,2009 Novell, Inc. // Copyright (C) 2013 Xamarin Inc (http://www.xamarin.com) // // Permission is hereby granted, free of charge, to any person obtaining // a copy of this software and associated documentation files (the // "Software"), to deal in the Software without restriction, including // without limitation the rights to use, copy, modify, merge, publish, // distribute, sublicense, and/or sell copies of the Software, and to // permit persons to whom the Software is furnished to do so, subject to // the following conditions: // // The above copyright notice and this permission notice shall be // included in all copies or substantial portions of the Software. // // THE SOFTWARE IS PROVIDED "AS IS", WITHOUT WARRANTY OF ANY KIND, // EXPRESS OR IMPLIED, INCLUDING BUT NOT LIMITED TO THE WARRANTIES OF // MERCHANTABILITY, FITNESS FOR A PARTICULAR PURPOSE AND // NONINFRINGEMENT. IN NO EVENT SHALL THE AUTHORS OR COPYRIGHT HOLDERS BE // LIABLE FOR ANY CLAIM, DAMAGES OR OTHER LIABILITY, WHETHER IN AN ACTION // OF CONTRACT, TORT OR OTHERWISE, ARISING FROM, OUT OF OR IN CONNECTION // WITH THE SOFTWARE OR THE USE OR OTHER DEALINGS IN THE SOFTWARE. // using System; using System.IO; using System.Runtime.InteropServices; using System.Runtime.Remoting.Messaging; #if MONOTOUCH using MonoTouch; #endif namespace System.IO.Compression { public class DeflateStream : Stream { delegate int ReadMethod (byte[] array, int offset, int count); delegate void WriteMethod (byte[] array, int offset, int count); Stream base_stream; CompressionMode mode; bool leaveOpen; bool disposed; DeflateStreamNative native; public DeflateStream (Stream compressedStream, CompressionMode mode) : this (compressedStream, mode, false, false) { } public DeflateStream (Stream compressedStream, CompressionMode mode, bool leaveOpen) : this (compressedStream, mode, leaveOpen, false) { } internal DeflateStream (Stream compressedStream, CompressionMode mode, bool leaveOpen, bool gzip) { if (compressedStream == null) throw new ArgumentNullException ("compressedStream"); if (mode != CompressionMode.Compress && mode != CompressionMode.Decompress) throw new ArgumentException ("mode"); this.base_stream = compressedStream; this.native = DeflateStreamNative.Create (compressedStream, mode, gzip); if (this.native == null) { throw new NotImplementedException ("Failed to initialize zlib. You probably have an old zlib installed. Version 1.2.0.4 or later is required."); } this.mode = mode; this.leaveOpen = leaveOpen; } public DeflateStream (Stream stream, CompressionLevel compressionLevel) : this (stream, compressionLevel, false, false) { } public DeflateStream (Stream stream, CompressionLevel compressionLevel, bool leaveOpen) : this (stream, compressionLevel, leaveOpen, false) { } internal DeflateStream (Stream stream, CompressionLevel compressionLevel, bool leaveOpen, bool gzip) : this (stream, CompressionMode.Compress, leaveOpen, gzip) { } protected override void Dispose (bool disposing) { native.Dispose (disposing); if (disposing && !disposed) { disposed = true; if (!leaveOpen) { Stream st = base_stream; if (st != null) st.Close (); base_stream = null; } } base.Dispose (disposing); } unsafe int ReadInternal (byte[] array, int offset, int count) { if (count == 0) return 0; fixed (byte *b = array) { IntPtr ptr = new IntPtr (b + offset); return native.ReadZStream (ptr, count); } } public override int Read (byte[] dest, int dest_offset, int count) { if (disposed) throw new ObjectDisposedException (GetType ().FullName); if (dest == null) throw new ArgumentNullException ("Destination array is null."); if (!CanRead) throw new InvalidOperationException ("Stream does not support reading."); int len = dest.Length; if (dest_offset < 0 || count < 0) throw new ArgumentException ("Dest or count is negative."); if (dest_offset > len) throw new ArgumentException ("destination offset is beyond array size"); if ((dest_offset + count) > len) throw new ArgumentException ("Reading would overrun buffer"); return ReadInternal (dest, dest_offset, count); } unsafe void WriteInternal (byte[] array, int offset, int count) { if (count == 0) return; fixed (byte *b = array) { IntPtr ptr = new IntPtr (b + offset); native.WriteZStream (ptr, count); } } public override void Write (byte[] src, int src_offset, int count) { if (disposed) throw new ObjectDisposedException (GetType ().FullName); if (src == null) throw new ArgumentNullException ("src"); if (src_offset < 0) throw new ArgumentOutOfRangeException ("src_offset"); if (count < 0) throw new ArgumentOutOfRangeException ("count"); if (!CanWrite) throw new NotSupportedException ("Stream does not support writing"); WriteInternal (src, src_offset, count); } public override void Flush () { if (disposed) throw new ObjectDisposedException (GetType ().FullName); if (CanWrite) { native.Flush (); } } public override IAsyncResult BeginRead (byte [] buffer, int offset, int count, AsyncCallback cback, object state) { if (disposed) throw new ObjectDisposedException (GetType ().FullName); if (!CanRead) throw new NotSupportedException ("This stream does not support reading"); if (buffer == null) throw new ArgumentNullException ("buffer"); if (count < 0) throw new ArgumentOutOfRangeException ("count", "Must be >= 0"); if (offset < 0) throw new ArgumentOutOfRangeException ("offset", "Must be >= 0"); if (count + offset > buffer.Length) throw new ArgumentException ("Buffer too small. count/offset wrong."); ReadMethod r = new ReadMethod (ReadInternal); return r.BeginInvoke (buffer, offset, count, cback, state); } public override IAsyncResult BeginWrite (byte [] buffer, int offset, int count, AsyncCallback cback, object state) { if (disposed) throw new ObjectDisposedException (GetType ().FullName); if (!CanWrite) throw new InvalidOperationException ("This stream does not support writing"); if (buffer == null) throw new ArgumentNullException ("buffer"); if (count < 0) throw new ArgumentOutOfRangeException ("count", "Must be >= 0"); if (offset < 0) throw new ArgumentOutOfRangeException ("offset", "Must be >= 0"); if (count + offset > buffer.Length) throw new ArgumentException ("Buffer too small. count/offset wrong."); WriteMethod w = new WriteMethod (WriteInternal); return w.BeginInvoke (buffer, offset, count, cback, state); } public override int EndRead(IAsyncResult async_result) { if (async_result == null) throw new ArgumentNullException ("async_result"); AsyncResult ares = async_result as AsyncResult; if (ares == null) throw new ArgumentException ("Invalid IAsyncResult", "async_result"); ReadMethod r = ares.AsyncDelegate as ReadMethod; if (r == null) throw new ArgumentException ("Invalid IAsyncResult", "async_result"); return r.EndInvoke (async_result); } public override void EndWrite (IAsyncResult async_result) { if (async_result == null) throw new ArgumentNullException ("async_result"); AsyncResult ares = async_result as AsyncResult; if (ares == null) throw new ArgumentException ("Invalid IAsyncResult", "async_result"); WriteMethod w = ares.AsyncDelegate as WriteMethod; if (w == null) throw new ArgumentException ("Invalid IAsyncResult", "async_result"); w.EndInvoke (async_result); return; } public override long Seek (long offset, SeekOrigin origin) { throw new NotSupportedException(); } public override void SetLength (long value) { throw new NotSupportedException(); } public Stream BaseStream { get { return base_stream; } } public override bool CanRead { get { return !disposed && mode == CompressionMode.Decompress && base_stream.CanRead; } } public override bool CanSeek { get { return false; } } public override bool CanWrite { get { return !disposed && mode == CompressionMode.Compress && base_stream.CanWrite; } } public override long Length { get { throw new NotSupportedException(); } } public override long Position { get { throw new NotSupportedException(); } set { throw new NotSupportedException(); } } } class DeflateStreamNative { const int BufferSize = 4096; [UnmanagedFunctionPointer (CallingConvention.Cdecl)] delegate int UnmanagedReadOrWrite (IntPtr buffer, int length, IntPtr data); UnmanagedReadOrWrite feeder; // This will be passed to unmanaged code and used there Stream base_stream; IntPtr z_stream; GCHandle data; bool disposed; byte [] io_buffer; private DeflateStreamNative () { } public static DeflateStreamNative Create (Stream compressedStream, CompressionMode mode, bool gzip) { var dsn = new DeflateStreamNative (); dsn.data = GCHandle.Alloc (dsn); dsn.feeder = mode == CompressionMode.Compress ? new UnmanagedReadOrWrite (UnmanagedWrite) : new UnmanagedReadOrWrite (UnmanagedRead); dsn.z_stream = CreateZStream (mode, gzip, dsn.feeder, GCHandle.ToIntPtr (dsn.data)); if (dsn.z_stream == IntPtr.Zero) { dsn.Dispose (true); return null; } dsn.base_stream = compressedStream; return dsn; } ~DeflateStreamNative () { Dispose (false); } public void Dispose (bool disposing) { if (disposing && !disposed) { disposed = true; GC.SuppressFinalize (this); io_buffer = null; IntPtr zz = z_stream; z_stream = IntPtr.Zero; if (zz != IntPtr.Zero) CloseZStream (zz); // This will Flush() the remaining output if any } if (data.IsAllocated) { data.Free (); } } public void Flush () { var res = Flush (z_stream); CheckResult (res, "Flush"); } public int ReadZStream (IntPtr buffer, int length) { var res = ReadZStream (z_stream, buffer, length); CheckResult (res, "ReadInternal"); return res; } public void WriteZStream (IntPtr buffer, int length) { var res = WriteZStream (z_stream, buffer, length); CheckResult (res, "WriteInternal"); } #if MONOTOUCH [MonoPInvokeCallback (typeof (UnmanagedReadOrWrite))] #endif static int UnmanagedRead (IntPtr buffer, int length, IntPtr data) { GCHandle s = GCHandle.FromIntPtr (data); var self = s.Target as DeflateStreamNative; if (self == null) return -1; return self.UnmanagedRead (buffer, length); } int UnmanagedRead (IntPtr buffer, int length) { if (io_buffer == null) io_buffer = new byte [BufferSize]; int count = Math.Min (length, io_buffer.Length); int n = base_stream.Read (io_buffer, 0, count); if (n > 0) Marshal.Copy (io_buffer, 0, buffer, n); return n; } #if MONOTOUCH [MonoPInvokeCallback (typeof (UnmanagedReadOrWrite))] #endif static int UnmanagedWrite (IntPtr buffer, int length, IntPtr data) { GCHandle s = GCHandle.FromIntPtr (data); var self = s.Target as DeflateStreamNative; if (self == null) return -1; return self.UnmanagedWrite (buffer, length); } int UnmanagedWrite (IntPtr buffer, int length) { int total = 0; while (length > 0) { if (io_buffer == null) io_buffer = new byte [BufferSize]; int count = Math.Min (length, io_buffer.Length); Marshal.Copy (buffer, io_buffer, 0, count); base_stream.Write (io_buffer, 0, count); unsafe { buffer = new IntPtr ((byte *) buffer.ToPointer () + count); } length -= count; total += count; } return total; } static void CheckResult (int result, string where) { if (result >= 0) return; string error; switch (result) { case -1: // Z_ERRNO error = "Unknown error"; // Marshal.GetLastWin32() ? break; case -2: // Z_STREAM_ERROR error = "Internal error"; break; case -3: // Z_DATA_ERROR error = "Corrupted data"; break; case -4: // Z_MEM_ERROR error = "Not enough memory"; break; case -5: // Z_BUF_ERROR error = "Internal error (no progress possible)"; break; case -6: // Z_VERSION_ERROR error = "Invalid version"; break; case -10: error = "Invalid argument(s)"; break; case -11: error = "IO error"; break; default: error = "Unknown error"; break; } throw new IOException (error + " " + where); } #if MONOTOUCH || MONODROID const string LIBNAME = "__Internal"; #else const string LIBNAME = "MonoPosixHelper"; #endif [DllImport (LIBNAME, CallingConvention=CallingConvention.Cdecl)] static extern IntPtr CreateZStream (CompressionMode compress, bool gzip, UnmanagedReadOrWrite feeder, IntPtr data); [DllImport (LIBNAME, CallingConvention=CallingConvention.Cdecl)] static extern int CloseZStream (IntPtr stream); [DllImport (LIBNAME, CallingConvention=CallingConvention.Cdecl)] static extern int Flush (IntPtr stream); [DllImport (LIBNAME, CallingConvention=CallingConvention.Cdecl)] static extern int ReadZStream (IntPtr stream, IntPtr buffer, int length); [DllImport (LIBNAME, CallingConvention=CallingConvention.Cdecl)] static extern int WriteZStream (IntPtr stream, IntPtr buffer, int length); } }