// ZlibBaseStream.cs // ------------------------------------------------------------------ // // Copyright (c) 2009 Dino Chiesa and Microsoft Corporation. // All rights reserved. // // This code module is part of DotNetZip, a zipfile class library. // // ------------------------------------------------------------------ // // This code is licensed under the Microsoft Public License. // See the file License.txt for the license details. // More info on: http://dotnetzip.codeplex.com // // ------------------------------------------------------------------ // // last saved (in emacs): // Time-stamp: <2011-August-06 21:22:38> // // ------------------------------------------------------------------ // // This module defines the ZlibBaseStream class, which is an intnernal // base class for DeflateStream, ZlibStream and GZipStream. // // ------------------------------------------------------------------ using OfficeOpenXml.Packaging.Ionic.Crc; using System; using System.IO; namespace OfficeOpenXml.Packaging.Ionic.Zlib { internal enum ZlibStreamFlavor { ZLIB = 1950, DEFLATE = 1951, GZIP = 1952 } internal class ZlibBaseStream : System.IO.Stream { protected internal ZlibCodec _z = null; // deferred init... new ZlibCodec(); protected internal StreamMode _streamMode = StreamMode.Undefined; protected internal FlushType _flushMode; protected internal ZlibStreamFlavor _flavor; protected internal CompressionMode _compressionMode; protected internal CompressionLevel _level; protected internal bool _leaveOpen; protected internal byte[] _workingBuffer; protected internal int _bufferSize = ZlibConstants.WorkingBufferSizeDefault; protected internal byte[] _buf1 = new byte[1]; protected internal System.IO.Stream _stream; protected internal CompressionStrategy Strategy = CompressionStrategy.Default; // workitem 7159 CRC32 crc; protected internal string _GzipFileName; protected internal string _GzipComment; protected internal DateTime _GzipMtime; protected internal int _gzipHeaderByteCount; internal int Crc32 { get { if (crc == null) return 0; return crc.Crc32Result; } } public ZlibBaseStream(System.IO.Stream stream, CompressionMode compressionMode, CompressionLevel level, ZlibStreamFlavor flavor, bool leaveOpen) : base() { this._flushMode = FlushType.None; //this._workingBuffer = new byte[WORKING_BUFFER_SIZE_DEFAULT]; this._stream = stream; this._leaveOpen = leaveOpen; this._compressionMode = compressionMode; this._flavor = flavor; this._level = level; // workitem 7159 if (flavor == ZlibStreamFlavor.GZIP) { this.crc = new Ionic.Crc.CRC32(); } } protected internal bool _wantCompress { get { return (this._compressionMode == CompressionMode.Compress); } } private ZlibCodec z { get { if (_z == null) { bool wantRfc1950Header = (this._flavor == ZlibStreamFlavor.ZLIB); _z = new ZlibCodec(); if (this._compressionMode == CompressionMode.Decompress) { _z.InitializeInflate(wantRfc1950Header); } else { _z.Strategy = Strategy; _z.InitializeDeflate(this._level, wantRfc1950Header); } } return _z; } } private byte[] workingBuffer { get { if (_workingBuffer == null) _workingBuffer = new byte[_bufferSize]; return _workingBuffer; } } public override void Write(System.Byte[] buffer, int offset, int count) { // workitem 7159 // calculate the CRC on the unccompressed data (before writing) if (crc != null) crc.SlurpBlock(buffer, offset, count); if (_streamMode == StreamMode.Undefined) _streamMode = StreamMode.Writer; else if (_streamMode != StreamMode.Writer) throw new ZlibException("Cannot Write after Reading."); if (count == 0) return; // first reference of z property will initialize the private var _z z.InputBuffer = buffer; _z.NextIn = offset; _z.AvailableBytesIn = count; bool done = false; do { _z.OutputBuffer = workingBuffer; _z.NextOut = 0; _z.AvailableBytesOut = _workingBuffer.Length; int rc = (_wantCompress) ? _z.Deflate(_flushMode) : _z.Inflate(_flushMode); if (rc != ZlibConstants.Z_OK && rc != ZlibConstants.Z_STREAM_END) throw new ZlibException((_wantCompress ? "de" : "in") + "flating: " + _z.Message); //if (_workingBuffer.Length - _z.AvailableBytesOut > 0) _stream.Write(_workingBuffer, 0, _workingBuffer.Length - _z.AvailableBytesOut); done = _z.AvailableBytesIn == 0 && _z.AvailableBytesOut != 0; // If GZIP and de-compress, we're done when 8 bytes remain. if (_flavor == ZlibStreamFlavor.GZIP && !_wantCompress) done = (_z.AvailableBytesIn == 8 && _z.AvailableBytesOut != 0); } while (!done); } private void finish() { if (_z == null) return; if (_streamMode == StreamMode.Writer) { bool done = false; do { _z.OutputBuffer = workingBuffer; _z.NextOut = 0; _z.AvailableBytesOut = _workingBuffer.Length; int rc = (_wantCompress) ? _z.Deflate(FlushType.Finish) : _z.Inflate(FlushType.Finish); if (rc != ZlibConstants.Z_STREAM_END && rc != ZlibConstants.Z_OK) { string verb = (_wantCompress ? "de" : "in") + "flating"; if (_z.Message == null) throw new ZlibException(String.Format("{0}: (rc = {1})", verb, rc)); else throw new ZlibException(verb + ": " + _z.Message); } if (_workingBuffer.Length - _z.AvailableBytesOut > 0) { _stream.Write(_workingBuffer, 0, _workingBuffer.Length - _z.AvailableBytesOut); } done = _z.AvailableBytesIn == 0 && _z.AvailableBytesOut != 0; // If GZIP and de-compress, we're done when 8 bytes remain. if (_flavor == ZlibStreamFlavor.GZIP && !_wantCompress) done = (_z.AvailableBytesIn == 8 && _z.AvailableBytesOut != 0); } while (!done); Flush(); // workitem 7159 if (_flavor == ZlibStreamFlavor.GZIP) { if (_wantCompress) { // Emit the GZIP trailer: CRC32 and size mod 2^32 int c1 = crc.Crc32Result; _stream.Write(BitConverter.GetBytes(c1), 0, 4); int c2 = (Int32)(crc.TotalBytesRead & 0x00000000FFFFFFFF); _stream.Write(BitConverter.GetBytes(c2), 0, 4); } else { throw new ZlibException("Writing with decompression is not supported."); } } } // workitem 7159 else if (_streamMode == StreamMode.Reader) { if (_flavor == ZlibStreamFlavor.GZIP) { if (!_wantCompress) { // workitem 8501: handle edge case (decompress empty stream) if (_z.TotalBytesOut == 0L) return; // Read and potentially verify the GZIP trailer: // CRC32 and size mod 2^32 byte[] trailer = new byte[8]; // workitems 8679 & 12554 if (_z.AvailableBytesIn < 8) { // Make sure we have read to the end of the stream Array.Copy(_z.InputBuffer, _z.NextIn, trailer, 0, _z.AvailableBytesIn); int bytesNeeded = 8 - _z.AvailableBytesIn; int bytesRead = _stream.Read(trailer, _z.AvailableBytesIn, bytesNeeded); if (bytesNeeded != bytesRead) { throw new ZlibException(String.Format("Missing or incomplete GZIP trailer. Expected 8 bytes, got {0}.", _z.AvailableBytesIn + bytesRead)); } } else { Array.Copy(_z.InputBuffer, _z.NextIn, trailer, 0, trailer.Length); } Int32 crc32_expected = BitConverter.ToInt32(trailer, 0); Int32 crc32_actual = crc.Crc32Result; Int32 isize_expected = BitConverter.ToInt32(trailer, 4); Int32 isize_actual = (Int32)(_z.TotalBytesOut & 0x00000000FFFFFFFF); if (crc32_actual != crc32_expected) throw new ZlibException(String.Format("Bad CRC32 in GZIP trailer. (actual({0:X8})!=expected({1:X8}))", crc32_actual, crc32_expected)); if (isize_actual != isize_expected) throw new ZlibException(String.Format("Bad size in GZIP trailer. (actual({0})!=expected({1}))", isize_actual, isize_expected)); } else { throw new ZlibException("Reading with compression is not supported."); } } } } private void end() { if (z == null) return; if (_wantCompress) { _z.EndDeflate(); } else { _z.EndInflate(); } _z = null; } public override void Close() { if (_stream == null) return; try { finish(); } finally { end(); if (!_leaveOpen) _stream.Close(); _stream = null; } } public override void Flush() { _stream.Flush(); } public override System.Int64 Seek(System.Int64 offset, System.IO.SeekOrigin origin) { throw new NotImplementedException(); //_outStream.Seek(offset, origin); } public override void SetLength(System.Int64 value) { _stream.SetLength(value); } #if NOT public int Read() { if (Read(_buf1, 0, 1) == 0) return 0; // calculate CRC after reading if (crc!=null) crc.SlurpBlock(_buf1,0,1); return (_buf1[0] & 0xFF); } #endif private bool nomoreinput = false; private string ReadZeroTerminatedString() { var list = new System.Collections.Generic.List(); bool done = false; do { // workitem 7740 int n = _stream.Read(_buf1, 0, 1); if (n != 1) throw new ZlibException("Unexpected EOF reading GZIP header."); else { if (_buf1[0] == 0) done = true; else list.Add(_buf1[0]); } } while (!done); byte[] a = list.ToArray(); return GZipStream.iso8859dash1.GetString(a, 0, a.Length); } private int _ReadAndValidateGzipHeader() { int totalBytesRead = 0; // read the header on the first read byte[] header = new byte[10]; int n = _stream.Read(header, 0, header.Length); // workitem 8501: handle edge case (decompress empty stream) if (n == 0) return 0; if (n != 10) throw new ZlibException("Not a valid GZIP stream."); if (header[0] != 0x1F || header[1] != 0x8B || header[2] != 8) throw new ZlibException("Bad GZIP header."); Int32 timet = BitConverter.ToInt32(header, 4); _GzipMtime = GZipStream._unixEpoch.AddSeconds(timet); totalBytesRead += n; if ((header[3] & 0x04) == 0x04) { // read and discard extra field n = _stream.Read(header, 0, 2); // 2-byte length field totalBytesRead += n; Int16 extraLength = (Int16)(header[0] + header[1] * 256); byte[] extra = new byte[extraLength]; n = _stream.Read(extra, 0, extra.Length); if (n != extraLength) throw new ZlibException("Unexpected end-of-file reading GZIP header."); totalBytesRead += n; } if ((header[3] & 0x08) == 0x08) _GzipFileName = ReadZeroTerminatedString(); if ((header[3] & 0x10) == 0x010) _GzipComment = ReadZeroTerminatedString(); if ((header[3] & 0x02) == 0x02) Read(_buf1, 0, 1); // CRC16, ignore return totalBytesRead; } public override System.Int32 Read(System.Byte[] buffer, System.Int32 offset, System.Int32 count) { // According to MS documentation, any implementation of the IO.Stream.Read function must: // (a) throw an exception if offset & count reference an invalid part of the buffer, // or if count < 0, or if buffer is null // (b) return 0 only upon EOF, or if count = 0 // (c) if not EOF, then return at least 1 byte, up to bytes if (_streamMode == StreamMode.Undefined) { if (!this._stream.CanRead) throw new ZlibException("The stream is not readable."); // for the first read, set up some controls. _streamMode = StreamMode.Reader; // (The first reference to _z goes through the private accessor which // may initialize it.) z.AvailableBytesIn = 0; if (_flavor == ZlibStreamFlavor.GZIP) { _gzipHeaderByteCount = _ReadAndValidateGzipHeader(); // workitem 8501: handle edge case (decompress empty stream) if (_gzipHeaderByteCount == 0) return 0; } } if (_streamMode != StreamMode.Reader) throw new ZlibException("Cannot Read after Writing."); if (count == 0) return 0; if (nomoreinput && _wantCompress) return 0; // workitem 8557 if (buffer == null) throw new ArgumentNullException("buffer"); if (count < 0) throw new ArgumentOutOfRangeException("count"); if (offset < buffer.GetLowerBound(0)) throw new ArgumentOutOfRangeException("offset"); if ((offset + count) > buffer.GetLength(0)) throw new ArgumentOutOfRangeException("count"); int rc = 0; // set up the output of the deflate/inflate codec: _z.OutputBuffer = buffer; _z.NextOut = offset; _z.AvailableBytesOut = count; // This is necessary in case _workingBuffer has been resized. (new byte[]) // (The first reference to _workingBuffer goes through the private accessor which // may initialize it.) _z.InputBuffer = workingBuffer; do { // need data in _workingBuffer in order to deflate/inflate. Here, we check if we have any. if ((_z.AvailableBytesIn == 0) && (!nomoreinput)) { // No data available, so try to Read data from the captive stream. _z.NextIn = 0; _z.AvailableBytesIn = _stream.Read(_workingBuffer, 0, _workingBuffer.Length); if (_z.AvailableBytesIn == 0) nomoreinput = true; } // we have data in InputBuffer; now compress or decompress as appropriate rc = (_wantCompress) ? _z.Deflate(_flushMode) : _z.Inflate(_flushMode); if (nomoreinput && (rc == ZlibConstants.Z_BUF_ERROR)) return 0; if (rc != ZlibConstants.Z_OK && rc != ZlibConstants.Z_STREAM_END) throw new ZlibException(String.Format("{0}flating: rc={1} msg={2}", (_wantCompress ? "de" : "in"), rc, _z.Message)); if ((nomoreinput || rc == ZlibConstants.Z_STREAM_END) && (_z.AvailableBytesOut == count)) break; // nothing more to read } //while (_z.AvailableBytesOut == count && rc == ZlibConstants.Z_OK); while (_z.AvailableBytesOut > 0 && !nomoreinput && rc == ZlibConstants.Z_OK); // workitem 8557 // is there more room in output? if (_z.AvailableBytesOut > 0) { if (rc == ZlibConstants.Z_OK && _z.AvailableBytesIn == 0) { // deferred } // are we completely done reading? if (nomoreinput) { // and in compression? if (_wantCompress) { // no more input data available; therefore we flush to // try to complete the read rc = _z.Deflate(FlushType.Finish); if (rc != ZlibConstants.Z_OK && rc != ZlibConstants.Z_STREAM_END) throw new ZlibException(String.Format("Deflating: rc={0} msg={1}", rc, _z.Message)); } } } rc = (count - _z.AvailableBytesOut); // calculate CRC after reading if (crc != null) crc.SlurpBlock(buffer, offset, rc); return rc; } public override System.Boolean CanRead { get { return this._stream.CanRead; } } public override System.Boolean CanSeek { get { return this._stream.CanSeek; } } public override System.Boolean CanWrite { get { return this._stream.CanWrite; } } public override System.Int64 Length { get { return _stream.Length; } } public override long Position { get { throw new NotImplementedException(); } set { throw new NotImplementedException(); } } internal enum StreamMode { Writer, Reader, Undefined, } public static void CompressString(String s, Stream compressor) { byte[] uncompressed = System.Text.Encoding.UTF8.GetBytes(s); using (compressor) { compressor.Write(uncompressed, 0, uncompressed.Length); } } public static void CompressBuffer(byte[] b, Stream compressor) { // workitem 8460 using (compressor) { compressor.Write(b, 0, b.Length); } } public static String UncompressString(byte[] compressed, Stream decompressor) { // workitem 8460 byte[] working = new byte[1024]; var encoding = System.Text.Encoding.UTF8; using (var output = new MemoryStream()) { using (decompressor) { int n; while ((n = decompressor.Read(working, 0, working.Length)) != 0) { output.Write(working, 0, n); } } // reset to allow read from start output.Seek(0, SeekOrigin.Begin); var sr = new StreamReader(output, encoding); return sr.ReadToEnd(); } } public static byte[] UncompressBuffer(byte[] compressed, Stream decompressor) { // workitem 8460 byte[] working = new byte[1024]; using (var output = new MemoryStream()) { using (decompressor) { int n; while ((n = decompressor.Read(working, 0, working.Length)) != 0) { output.Write(working, 0, n); } } return output.ToArray(); } } } }