Compress.cs source code in C# .NET

Source code for the .NET framework in C#

                        

Code:

/ Dotnetfx_Win7_3.5.1 / Dotnetfx_Win7_3.5.1 / 3.5.1 / DEVDIV / depot / DevDiv / releases / Orcas / NetFXw7 / wpf / src / Core / CSharp / MS / Internal / Ink / InkSerializedFormat / Compress.cs / 1 / Compress.cs

                            //#define OLD_ISF 
using MS.Utility;
using System;
using System.Runtime.InteropServices;
using System.Security; 
using System.Globalization;
using System.Windows; 
using System.Windows.Input; 
using System.Windows.Ink;
using MS.Internal.Ink.InkSerializedFormat; 


using SR = MS.Internal.PresentationCore.SR;
using SRID = MS.Internal.PresentationCore.SRID; 

namespace MS.Internal.Ink.InkSerializedFormat 
{ 
    internal class Compressor
#if OLD_ISF 
        : IDisposable
#endif
    {
 
#if OLD_ISF
        ///  
        /// Non-static members 
        /// 
        ///  
        ///     Critical - This is plutonium, marked critical to
        ///         prevent it from being used from transparent code
        /// 
        [SecurityCritical] 
        private MS.Win32.Penimc.CompressorSafeHandle _compressorHandle;
 
        ///  
        /// Compressor constructor.  This is called by our ISF decompression
        /// after reading the ISF header that indicates which type of compression 
        /// was performed on the ISF when it was being compressed.
        /// 
        /// a byte[] specifying the compressor used to compress the ISF being decompressed
        /// expected initially to be the length of data, it IsfLoadCompressor sets it to the 
        ///                    length of the header that is read.  They should always match, but in cases where they
        ///                    don't, we immediately fail 
        ///  
        ///     Critical - Calls unmanaged code through MS.Win32.Penimc.UnsafeNativeMethods to instance a compressor
        ///             that is used to decompress packet or property data.  The compressor instance is wrapped in a 
        ///             safehandle.
        ///
        ///             This ctor is called by StrokeCollectionSerializer.EncodeRawISF, which is marked TreatAsSafe
        ///  
        [SecurityCritical]
        internal Compressor(byte[] data, ref uint size) 
        { 
            if (data == null || data.Length != size)
            { 
                //we don't raise any information that could be used to attack our ISF code
                //a simple 'ISF Operation Failed' is sufficient since the user can't do
                //anything to fix bogus ISF
                throw new InvalidOperationException(StrokeCollectionSerializer.ISFDebugMessage(SR.Get(SRID.InitializingCompressorFailed))); 
            }
 
            _compressorHandle = MS.Win32.Penimc.UnsafeNativeMethods.IsfLoadCompressor(data, ref size); 
            if (_compressorHandle.IsInvalid)
            { 
                //we don't raise any information that could be used to attack our ISF code
                //a simple 'ISF Operation Failed' is sufficient since the user can't do
                //anything to fix bogus ISF
                throw new InvalidOperationException(StrokeCollectionSerializer.ISFDebugMessage(SR.Get(SRID.InitializingCompressorFailed))); 
            }
        } 
        ///  
        /// DecompressPacketData - take a byte[] or a subset of a byte[] and decompresses it into
        ///     an int[] of packet data (for example, x's in a Stroke) 
        /// 
        /// 
        ///     The compressor used to decompress this byte[] of packet data (for example, x's in a Stroke)
        ///     Can be null 
        /// 
        /// The byte[] to decompress 
        /// In: the max size of the subset of compressedInput to read, out: size read 
        /// The int[] to write the packet data to
        ///  
        ///     Critical - Calls unmanaged code in MS.Win32.Penimc.UnsafeNativeMethods to decompress
        ///         a byte[] into an int[] of packet data (for example, x's or y's in a Stroke)
        ///
        ///     This is called by StrokeSerializer.LoadPackets directly.  The TreatAsSafe boundary of this call 
        ///     is StrokeCollectionSerializer.DecodeRawISF
        ///  
        [SecurityCritical] 
#else
        ///  
        /// DecompressPacketData - take a byte[] or a subset of a byte[] and decompresses it into
        ///     an int[] of packet data (for example, x's in a Stroke)
        /// 
        /// The byte[] to decompress 
        /// In: the max size of the subset of compressedInput to read, out: size read
        /// The int[] to write the packet data to 
#endif 
        internal static void DecompressPacketData(
#if OLD_ISF 
            Compressor compressor,
#endif
            byte[] compressedInput,
            ref uint size, 
            int[] decompressedPackets)
        { 
#if OLD_ISF 
            //
            // lock to prevent multi-threaded vulnerabilities 
            //
            lock (_compressSync)
            {
#endif 
                if (compressedInput == null ||
                    size > compressedInput.Length || 
                    decompressedPackets == null) 
                {
                    //we don't raise any information that could be used to attack our ISF code 
                    //a simple 'ISF Operation Failed' is sufficient since the user can't do
                    //anything to fix bogus ISF
                    throw new InvalidOperationException(StrokeCollectionSerializer.ISFDebugMessage(SR.Get(SRID.DecompressPacketDataFailed)));
                } 
#if OLD_ISF
                uint size2 = size; 
#endif 

                size = AlgoModule.DecompressPacketData(compressedInput, decompressedPackets); 

#if OLD_ISF
                MS.Win32.Penimc.CompressorSafeHandle safeCompressorHandle = (compressor == null) ?
                                                    MS.Win32.Penimc.CompressorSafeHandle.Null : 
                                                    compressor._compressorHandle;
 
                int[] decompressedPackets2 = new int[decompressedPackets.Length]; 
                byte algo = AlgoModule.NoCompression;
                int hr = MS.Win32.Penimc.UnsafeNativeMethods.IsfDecompressPacketData(safeCompressorHandle, 
                                                                                            compressedInput,
                                                                                            ref size2,
                                                                                            (uint)decompressedPackets2.Length,
                                                                                            decompressedPackets2, 
                                                                                            ref algo);
                if (0 != hr) 
                { 
                    //we don't raise any information that could be used to attack our ISF code
                    //a simple 'ISF Operation Failed' is sufficient since the user can't do 
                    //anything to fix bogus ISF
                    throw new InvalidOperationException(StrokeCollectionSerializer.ISFDebugMessage("IsfDecompressPacketData returned: " + hr.ToString(CultureInfo.InvariantCulture)));
                }
 
                if (size != size2)
                { 
                    throw new InvalidOperationException("MAGIC EXCEPTION: Packet data bytes read didn't match with new uncompression"); 
                }
                for (int i = 0; i < decompressedPackets.Length; i++) 
                {
                    if (decompressedPackets[i] != decompressedPackets2[i])
                    {
                        throw new InvalidOperationException("MAGIC EXCEPTION: Packet data didn't match with new uncompression at index " + i.ToString()); 
                    }
                } 
            } 
#endif
        } 

#if OLD_ISF
        /// 
        /// DecompressPropertyData - decompresses a byte[] representing property data (such as DrawingAttributes.Color) 
        /// 
        /// The byte[] to decompress 
        ///  
        ///     Critical - Calls unmanaged code in MS.Win32.Penimc.UnsafeNativeMethods to decompress
        ///         a byte[] representing property data 
        ///
        ///     This directly called by ExtendedPropertySerializer.DecodeAsISF.
        ///                             DrawingAttributesSerializer.DecodeAsISF.
        ///                             StrokeSerializer.DecodeISFIntoStroke. 
        ///
        ///     The TreatAsSafe boundary of this call 
        ///     is StrokeCollectionSerializer.DecodeRawISF 
        /// 
        [SecurityCritical] 
#else
        /// 
        /// DecompressPropertyData - decompresses a byte[] representing property data (such as DrawingAttributes.Color)
        ///  
        /// The byte[] to decompress
#endif 
        internal static byte[] DecompressPropertyData(byte[] input) 
        {
#if OLD_ISF 
            //
            // lock to prevent multi-threaded vulnerabilities
            //
            lock (_compressSync) 
            {
#endif 
                if (input == null) 
                {
                    //we don't raise any information that could be used to attack our ISF code 
                    //a simple 'ISF Operation Failed' is sufficient since the user can't do
                    //anything to fix bogus ISF
                    throw new InvalidOperationException(StrokeCollectionSerializer.ISFDebugMessage(SR.Get(SRID.DecompressPropertyFailed)));
                } 

                byte[] data = AlgoModule.DecompressPropertyData(input); 
#if OLD_ISF 
                uint size = 0;
                byte algo = 0; 
                int hr = MS.Win32.Penimc.UnsafeNativeMethods.IsfDecompressPropertyData(input, (uint)input.Length, ref size, null, ref algo);
                if (0 == hr)
                {
                    byte[] data2 = new byte[size]; 
                    hr = MS.Win32.Penimc.UnsafeNativeMethods.IsfDecompressPropertyData(input, (uint)input.Length, ref size, data2, ref algo);
                    if (0 == hr) 
                    { 

                        if (data.Length != data2.Length) 
                        {
                            throw new InvalidOperationException("MAGIC EXCEPTION: Property bytes length when decompressed didn't match with new uncompression");
                        }
                        for (int i = 0; i < data.Length; i++) 
                        {
                            if (data[i] != data2[i]) 
                            { 
                                throw new InvalidOperationException("MAGIC EXCEPTION: Property data didn't match with new property uncompression at index " + i.ToString());
                            } 
                        }
                        return data;
                    }
                } 
                //we don't raise any information that could be used to attack our ISF code
                //a simple 'ISF Operation Failed' is sufficient since the user can't do 
                //anything to fix bogus ISF 
                throw new InvalidOperationException(StrokeCollectionSerializer.ISFDebugMessage("IsfDecompressPropertyData returned: " + hr.ToString(CultureInfo.InvariantCulture)));
#else 
                return data;
#endif

#if OLD_ISF 
            }
#endif 
        } 

#if OLD_ISF 
        /// 
        /// CompressPropertyData - compresses property data
        /// 
        /// The property data to compress 
        /// In: the desired algorithm to use.  Out: the algorithm used
        /// In: if output is not null, the size of output.  Out: the size required if output is null 
        /// The byte[] to writ the compressed data to 
        /// 
        ///     Critical - Calls unmanaged code in MS.Win32.Penimc.UnsafeNativeMethods to compress 
        ///         a byte[] representing property data
        ///
        ///     This directly called by ExtendedPropertySerializer.EncodeAsISF
        /// 
        ///     TreatAsSafe boundary is StrokeCollectionSerializer.EncodeISF
        /// 
        ///  
        [SecurityCritical]
        internal static void CompressPropertyData(byte[] data, ref byte algorithm, ref uint outputSize, byte[] output) 
        {
            //
            // lock to prevent multi-threaded vulnerabilities
            // 
            lock (_compressSync)
            { 
                // 
                // it is valid to pass is null for output to check to see what the
                // required buffer size is.  We want to guard against when output is not null 
                // and outputSize doesn't match, as this is passed directly to unmanaged code
                // and could result in bytes being written past the end of output buffer
                //
                if (output != null && outputSize != output.Length) 
                {
                    //we don't raise any information that could be used to attack our ISF code 
                    //a simple 'ISF Operation Failed' is sufficient since the user can't do 
                    //anything to fix bogus ISF
                    throw new InvalidOperationException(SR.Get(SRID.IsfOperationFailed)); 
                }
                int hr = MS.Win32.Penimc.UnsafeNativeMethods.IsfCompressPropertyData(data, (uint)data.Length, ref algorithm, ref outputSize, output);
                if (0 != hr)
                { 
                    //we don't raise any information that could be used to attack our ISF code
                    //a simple 'ISF Operation Failed' is sufficient since the user can't do 
                    //anything to fix bogus ISF 
                    throw new InvalidOperationException(StrokeCollectionSerializer.ISFDebugMessage("IsfCompressPropertyData returned: " + hr.ToString(CultureInfo.InvariantCulture)));
                } 
            }
        }
#endif
 
        /// 
        /// CompressPropertyData 
        ///  
        /// 
        ///  
        /// 
        internal static byte[] CompressPropertyData(byte[] data, byte algorithm)
        {
            if (data == null) 
            {
                //we don't raise any information that could be used to attack our ISF code 
                //a simple 'ISF Operation Failed' is sufficient since the user can't do 
                //anything to fix bogus ISF
                throw new ArgumentNullException("data"); 
            }

            return AlgoModule.CompressPropertyData(data, algorithm);
        } 

#if OLD_ISF 
        ///  
        /// CompressPropertyData - compresses property data using the compression defined by 'compressor'
        ///  
        /// The compressor to use.  This can be null for default compression
        /// The int[] of packet data to compress
        /// In: the desired algorithm to use.  Out: the algorithm used
        /// the compressed data in a byte[] 
        /// 
        ///     Critical - Calls unmanaged code in MS.Win32.Penimc.UnsafeNativeMethods to compress 
        ///         an int[] representing packet data 
        ///
        ///     This directly called by StrokeCollectionSerializer.SaveStrokeIds 
        ///                             StrokeSerializer.SavePacketPropertyData
        ///
        ///     TreatAsSafe boundary is StrokeCollectionSerializer.EncodeISF
        /// 
        /// 
        [SecurityCritical] 
#else 
        /// 
        /// CompressPropertyData - compresses property data using the compression defined by 'compressor' 
        /// 
        /// The int[] of packet data to compress
        /// In: the desired algorithm to use.  Out: the algorithm used
        /// the compressed data in a byte[] 
#endif
        internal static byte[] CompressPacketData( 
#if OLD_ISF 
                Compressor compressor,
#endif 
                int[] input,
                ref byte algorithm)
        {
#if OLD_ISF 
            //
            // lock to prevent multi-threaded vulnerabilities 
            // 
            lock (_compressSync)
            { 
#endif
                if (input == null)
                {
                    //we don't raise any information that could be used to attack our ISF code 
                    //a simple 'ISF Operation Failed' is sufficient since the user can't do
                    //anything to fix bogus ISF 
                    throw new InvalidOperationException(SR.Get(SRID.IsfOperationFailed)); 
                }
 
                byte[] data = AlgoModule.CompressPacketData(input, algorithm);
#if OLD_ISF
                uint cbOutSize = 0;
                MS.Win32.Penimc.CompressorSafeHandle safeCompressorHandle = (compressor == null) ? 
                    MS.Win32.Penimc.CompressorSafeHandle.Null : compressor._compressorHandle;
                int hr = MS.Win32.Penimc.UnsafeNativeMethods.IsfCompressPacketData(safeCompressorHandle, input, (uint)input.Length, ref algorithm, ref cbOutSize, null); 
                if (0 == hr) 
                {
                    byte[] data2 = new byte[cbOutSize]; 
                    hr = MS.Win32.Penimc.UnsafeNativeMethods.IsfCompressPacketData(safeCompressorHandle, input, (uint)input.Length, ref algorithm, ref cbOutSize, data2);
                    if (0 == hr)
                    {
                        //see if data matches 
                        if (data2.Length != data.Length)
                        { 
                            throw new InvalidOperationException("MAGIC EXCEPTION: Packet data length didn't match with new compression"); 
                        }
                        for (int i = 0; i < data2.Length; i++) 
                        {
                            if (data2[i] != data[i])
                            {
                                throw new InvalidOperationException("MAGIC EXCEPTION: Packet data didn't match with new compression at index " + i.ToString()); 
                            }
                        } 
 
                        return data;
                    } 
                }
                throw new InvalidOperationException(StrokeCollectionSerializer.ISFDebugMessage("IsfCompressPacketData returned:" + hr.ToString(CultureInfo.InvariantCulture)));

            } 
#else
                return data; 
#endif 
        }
 
        /// 
        /// Thread static algo module
        /// 
        [ThreadStatic] 
        private static AlgoModule _algoModule;
 
        ///  
        /// Private AlgoModule, one per thread, lazy init'd
        ///  
        private static AlgoModule AlgoModule
        {
            get
            { 
                if (_algoModule == null)
                { 
                    _algoModule = new AlgoModule(); 
                }
                return _algoModule; 
            }
        }

#if OLD_ISF 
        private static object _compressSync = new object();
        private bool _disposed = false; 
 
        /// 
        /// Dispose. 
        /// 
        /// 
        ///     Critical - Handles plutonium: _compressorHandle
        /// 
        ///     This is directly called by StrokeCollectionSerializer.DecodeRawISF
        ///     The TreatAsSafe boundary of this call is StrokeCollectionSerializer.DecodeRawISF 
        /// 
        /// 
        [SecurityCritical] 
        public void Dispose()
        {
            if (_disposed)
            { 
                return;
            } 
 
            _compressorHandle.Dispose();
            _disposed = true; 
            _compressorHandle = null;
        }
#endif
    } 
}

// File provided for Reference Use Only by Microsoft Corporation (c) 2007.
// Copyright (c) Microsoft Corporation. All rights reserved.
//#define OLD_ISF 
using MS.Utility;
using System;
using System.Runtime.InteropServices;
using System.Security; 
using System.Globalization;
using System.Windows; 
using System.Windows.Input; 
using System.Windows.Ink;
using MS.Internal.Ink.InkSerializedFormat; 


using SR = MS.Internal.PresentationCore.SR;
using SRID = MS.Internal.PresentationCore.SRID; 

namespace MS.Internal.Ink.InkSerializedFormat 
{ 
    internal class Compressor
#if OLD_ISF 
        : IDisposable
#endif
    {
 
#if OLD_ISF
        ///  
        /// Non-static members 
        /// 
        ///  
        ///     Critical - This is plutonium, marked critical to
        ///         prevent it from being used from transparent code
        /// 
        [SecurityCritical] 
        private MS.Win32.Penimc.CompressorSafeHandle _compressorHandle;
 
        ///  
        /// Compressor constructor.  This is called by our ISF decompression
        /// after reading the ISF header that indicates which type of compression 
        /// was performed on the ISF when it was being compressed.
        /// 
        /// a byte[] specifying the compressor used to compress the ISF being decompressed
        /// expected initially to be the length of data, it IsfLoadCompressor sets it to the 
        ///                    length of the header that is read.  They should always match, but in cases where they
        ///                    don't, we immediately fail 
        ///  
        ///     Critical - Calls unmanaged code through MS.Win32.Penimc.UnsafeNativeMethods to instance a compressor
        ///             that is used to decompress packet or property data.  The compressor instance is wrapped in a 
        ///             safehandle.
        ///
        ///             This ctor is called by StrokeCollectionSerializer.EncodeRawISF, which is marked TreatAsSafe
        ///  
        [SecurityCritical]
        internal Compressor(byte[] data, ref uint size) 
        { 
            if (data == null || data.Length != size)
            { 
                //we don't raise any information that could be used to attack our ISF code
                //a simple 'ISF Operation Failed' is sufficient since the user can't do
                //anything to fix bogus ISF
                throw new InvalidOperationException(StrokeCollectionSerializer.ISFDebugMessage(SR.Get(SRID.InitializingCompressorFailed))); 
            }
 
            _compressorHandle = MS.Win32.Penimc.UnsafeNativeMethods.IsfLoadCompressor(data, ref size); 
            if (_compressorHandle.IsInvalid)
            { 
                //we don't raise any information that could be used to attack our ISF code
                //a simple 'ISF Operation Failed' is sufficient since the user can't do
                //anything to fix bogus ISF
                throw new InvalidOperationException(StrokeCollectionSerializer.ISFDebugMessage(SR.Get(SRID.InitializingCompressorFailed))); 
            }
        } 
        ///  
        /// DecompressPacketData - take a byte[] or a subset of a byte[] and decompresses it into
        ///     an int[] of packet data (for example, x's in a Stroke) 
        /// 
        /// 
        ///     The compressor used to decompress this byte[] of packet data (for example, x's in a Stroke)
        ///     Can be null 
        /// 
        /// The byte[] to decompress 
        /// In: the max size of the subset of compressedInput to read, out: size read 
        /// The int[] to write the packet data to
        ///  
        ///     Critical - Calls unmanaged code in MS.Win32.Penimc.UnsafeNativeMethods to decompress
        ///         a byte[] into an int[] of packet data (for example, x's or y's in a Stroke)
        ///
        ///     This is called by StrokeSerializer.LoadPackets directly.  The TreatAsSafe boundary of this call 
        ///     is StrokeCollectionSerializer.DecodeRawISF
        ///  
        [SecurityCritical] 
#else
        ///  
        /// DecompressPacketData - take a byte[] or a subset of a byte[] and decompresses it into
        ///     an int[] of packet data (for example, x's in a Stroke)
        /// 
        /// The byte[] to decompress 
        /// In: the max size of the subset of compressedInput to read, out: size read
        /// The int[] to write the packet data to 
#endif 
        internal static void DecompressPacketData(
#if OLD_ISF 
            Compressor compressor,
#endif
            byte[] compressedInput,
            ref uint size, 
            int[] decompressedPackets)
        { 
#if OLD_ISF 
            //
            // lock to prevent multi-threaded vulnerabilities 
            //
            lock (_compressSync)
            {
#endif 
                if (compressedInput == null ||
                    size > compressedInput.Length || 
                    decompressedPackets == null) 
                {
                    //we don't raise any information that could be used to attack our ISF code 
                    //a simple 'ISF Operation Failed' is sufficient since the user can't do
                    //anything to fix bogus ISF
                    throw new InvalidOperationException(StrokeCollectionSerializer.ISFDebugMessage(SR.Get(SRID.DecompressPacketDataFailed)));
                } 
#if OLD_ISF
                uint size2 = size; 
#endif 

                size = AlgoModule.DecompressPacketData(compressedInput, decompressedPackets); 

#if OLD_ISF
                MS.Win32.Penimc.CompressorSafeHandle safeCompressorHandle = (compressor == null) ?
                                                    MS.Win32.Penimc.CompressorSafeHandle.Null : 
                                                    compressor._compressorHandle;
 
                int[] decompressedPackets2 = new int[decompressedPackets.Length]; 
                byte algo = AlgoModule.NoCompression;
                int hr = MS.Win32.Penimc.UnsafeNativeMethods.IsfDecompressPacketData(safeCompressorHandle, 
                                                                                            compressedInput,
                                                                                            ref size2,
                                                                                            (uint)decompressedPackets2.Length,
                                                                                            decompressedPackets2, 
                                                                                            ref algo);
                if (0 != hr) 
                { 
                    //we don't raise any information that could be used to attack our ISF code
                    //a simple 'ISF Operation Failed' is sufficient since the user can't do 
                    //anything to fix bogus ISF
                    throw new InvalidOperationException(StrokeCollectionSerializer.ISFDebugMessage("IsfDecompressPacketData returned: " + hr.ToString(CultureInfo.InvariantCulture)));
                }
 
                if (size != size2)
                { 
                    throw new InvalidOperationException("MAGIC EXCEPTION: Packet data bytes read didn't match with new uncompression"); 
                }
                for (int i = 0; i < decompressedPackets.Length; i++) 
                {
                    if (decompressedPackets[i] != decompressedPackets2[i])
                    {
                        throw new InvalidOperationException("MAGIC EXCEPTION: Packet data didn't match with new uncompression at index " + i.ToString()); 
                    }
                } 
            } 
#endif
        } 

#if OLD_ISF
        /// 
        /// DecompressPropertyData - decompresses a byte[] representing property data (such as DrawingAttributes.Color) 
        /// 
        /// The byte[] to decompress 
        ///  
        ///     Critical - Calls unmanaged code in MS.Win32.Penimc.UnsafeNativeMethods to decompress
        ///         a byte[] representing property data 
        ///
        ///     This directly called by ExtendedPropertySerializer.DecodeAsISF.
        ///                             DrawingAttributesSerializer.DecodeAsISF.
        ///                             StrokeSerializer.DecodeISFIntoStroke. 
        ///
        ///     The TreatAsSafe boundary of this call 
        ///     is StrokeCollectionSerializer.DecodeRawISF 
        /// 
        [SecurityCritical] 
#else
        /// 
        /// DecompressPropertyData - decompresses a byte[] representing property data (such as DrawingAttributes.Color)
        ///  
        /// The byte[] to decompress
#endif 
        internal static byte[] DecompressPropertyData(byte[] input) 
        {
#if OLD_ISF 
            //
            // lock to prevent multi-threaded vulnerabilities
            //
            lock (_compressSync) 
            {
#endif 
                if (input == null) 
                {
                    //we don't raise any information that could be used to attack our ISF code 
                    //a simple 'ISF Operation Failed' is sufficient since the user can't do
                    //anything to fix bogus ISF
                    throw new InvalidOperationException(StrokeCollectionSerializer.ISFDebugMessage(SR.Get(SRID.DecompressPropertyFailed)));
                } 

                byte[] data = AlgoModule.DecompressPropertyData(input); 
#if OLD_ISF 
                uint size = 0;
                byte algo = 0; 
                int hr = MS.Win32.Penimc.UnsafeNativeMethods.IsfDecompressPropertyData(input, (uint)input.Length, ref size, null, ref algo);
                if (0 == hr)
                {
                    byte[] data2 = new byte[size]; 
                    hr = MS.Win32.Penimc.UnsafeNativeMethods.IsfDecompressPropertyData(input, (uint)input.Length, ref size, data2, ref algo);
                    if (0 == hr) 
                    { 

                        if (data.Length != data2.Length) 
                        {
                            throw new InvalidOperationException("MAGIC EXCEPTION: Property bytes length when decompressed didn't match with new uncompression");
                        }
                        for (int i = 0; i < data.Length; i++) 
                        {
                            if (data[i] != data2[i]) 
                            { 
                                throw new InvalidOperationException("MAGIC EXCEPTION: Property data didn't match with new property uncompression at index " + i.ToString());
                            } 
                        }
                        return data;
                    }
                } 
                //we don't raise any information that could be used to attack our ISF code
                //a simple 'ISF Operation Failed' is sufficient since the user can't do 
                //anything to fix bogus ISF 
                throw new InvalidOperationException(StrokeCollectionSerializer.ISFDebugMessage("IsfDecompressPropertyData returned: " + hr.ToString(CultureInfo.InvariantCulture)));
#else 
                return data;
#endif

#if OLD_ISF 
            }
#endif 
        } 

#if OLD_ISF 
        /// 
        /// CompressPropertyData - compresses property data
        /// 
        /// The property data to compress 
        /// In: the desired algorithm to use.  Out: the algorithm used
        /// In: if output is not null, the size of output.  Out: the size required if output is null 
        /// The byte[] to writ the compressed data to 
        /// 
        ///     Critical - Calls unmanaged code in MS.Win32.Penimc.UnsafeNativeMethods to compress 
        ///         a byte[] representing property data
        ///
        ///     This directly called by ExtendedPropertySerializer.EncodeAsISF
        /// 
        ///     TreatAsSafe boundary is StrokeCollectionSerializer.EncodeISF
        /// 
        ///  
        [SecurityCritical]
        internal static void CompressPropertyData(byte[] data, ref byte algorithm, ref uint outputSize, byte[] output) 
        {
            //
            // lock to prevent multi-threaded vulnerabilities
            // 
            lock (_compressSync)
            { 
                // 
                // it is valid to pass is null for output to check to see what the
                // required buffer size is.  We want to guard against when output is not null 
                // and outputSize doesn't match, as this is passed directly to unmanaged code
                // and could result in bytes being written past the end of output buffer
                //
                if (output != null && outputSize != output.Length) 
                {
                    //we don't raise any information that could be used to attack our ISF code 
                    //a simple 'ISF Operation Failed' is sufficient since the user can't do 
                    //anything to fix bogus ISF
                    throw new InvalidOperationException(SR.Get(SRID.IsfOperationFailed)); 
                }
                int hr = MS.Win32.Penimc.UnsafeNativeMethods.IsfCompressPropertyData(data, (uint)data.Length, ref algorithm, ref outputSize, output);
                if (0 != hr)
                { 
                    //we don't raise any information that could be used to attack our ISF code
                    //a simple 'ISF Operation Failed' is sufficient since the user can't do 
                    //anything to fix bogus ISF 
                    throw new InvalidOperationException(StrokeCollectionSerializer.ISFDebugMessage("IsfCompressPropertyData returned: " + hr.ToString(CultureInfo.InvariantCulture)));
                } 
            }
        }
#endif
 
        /// 
        /// CompressPropertyData 
        ///  
        /// 
        ///  
        /// 
        internal static byte[] CompressPropertyData(byte[] data, byte algorithm)
        {
            if (data == null) 
            {
                //we don't raise any information that could be used to attack our ISF code 
                //a simple 'ISF Operation Failed' is sufficient since the user can't do 
                //anything to fix bogus ISF
                throw new ArgumentNullException("data"); 
            }

            return AlgoModule.CompressPropertyData(data, algorithm);
        } 

#if OLD_ISF 
        ///  
        /// CompressPropertyData - compresses property data using the compression defined by 'compressor'
        ///  
        /// The compressor to use.  This can be null for default compression
        /// The int[] of packet data to compress
        /// In: the desired algorithm to use.  Out: the algorithm used
        /// the compressed data in a byte[] 
        /// 
        ///     Critical - Calls unmanaged code in MS.Win32.Penimc.UnsafeNativeMethods to compress 
        ///         an int[] representing packet data 
        ///
        ///     This directly called by StrokeCollectionSerializer.SaveStrokeIds 
        ///                             StrokeSerializer.SavePacketPropertyData
        ///
        ///     TreatAsSafe boundary is StrokeCollectionSerializer.EncodeISF
        /// 
        /// 
        [SecurityCritical] 
#else 
        /// 
        /// CompressPropertyData - compresses property data using the compression defined by 'compressor' 
        /// 
        /// The int[] of packet data to compress
        /// In: the desired algorithm to use.  Out: the algorithm used
        /// the compressed data in a byte[] 
#endif
        internal static byte[] CompressPacketData( 
#if OLD_ISF 
                Compressor compressor,
#endif 
                int[] input,
                ref byte algorithm)
        {
#if OLD_ISF 
            //
            // lock to prevent multi-threaded vulnerabilities 
            // 
            lock (_compressSync)
            { 
#endif
                if (input == null)
                {
                    //we don't raise any information that could be used to attack our ISF code 
                    //a simple 'ISF Operation Failed' is sufficient since the user can't do
                    //anything to fix bogus ISF 
                    throw new InvalidOperationException(SR.Get(SRID.IsfOperationFailed)); 
                }
 
                byte[] data = AlgoModule.CompressPacketData(input, algorithm);
#if OLD_ISF
                uint cbOutSize = 0;
                MS.Win32.Penimc.CompressorSafeHandle safeCompressorHandle = (compressor == null) ? 
                    MS.Win32.Penimc.CompressorSafeHandle.Null : compressor._compressorHandle;
                int hr = MS.Win32.Penimc.UnsafeNativeMethods.IsfCompressPacketData(safeCompressorHandle, input, (uint)input.Length, ref algorithm, ref cbOutSize, null); 
                if (0 == hr) 
                {
                    byte[] data2 = new byte[cbOutSize]; 
                    hr = MS.Win32.Penimc.UnsafeNativeMethods.IsfCompressPacketData(safeCompressorHandle, input, (uint)input.Length, ref algorithm, ref cbOutSize, data2);
                    if (0 == hr)
                    {
                        //see if data matches 
                        if (data2.Length != data.Length)
                        { 
                            throw new InvalidOperationException("MAGIC EXCEPTION: Packet data length didn't match with new compression"); 
                        }
                        for (int i = 0; i < data2.Length; i++) 
                        {
                            if (data2[i] != data[i])
                            {
                                throw new InvalidOperationException("MAGIC EXCEPTION: Packet data didn't match with new compression at index " + i.ToString()); 
                            }
                        } 
 
                        return data;
                    } 
                }
                throw new InvalidOperationException(StrokeCollectionSerializer.ISFDebugMessage("IsfCompressPacketData returned:" + hr.ToString(CultureInfo.InvariantCulture)));

            } 
#else
                return data; 
#endif 
        }
 
        /// 
        /// Thread static algo module
        /// 
        [ThreadStatic] 
        private static AlgoModule _algoModule;
 
        ///  
        /// Private AlgoModule, one per thread, lazy init'd
        ///  
        private static AlgoModule AlgoModule
        {
            get
            { 
                if (_algoModule == null)
                { 
                    _algoModule = new AlgoModule(); 
                }
                return _algoModule; 
            }
        }

#if OLD_ISF 
        private static object _compressSync = new object();
        private bool _disposed = false; 
 
        /// 
        /// Dispose. 
        /// 
        /// 
        ///     Critical - Handles plutonium: _compressorHandle
        /// 
        ///     This is directly called by StrokeCollectionSerializer.DecodeRawISF
        ///     The TreatAsSafe boundary of this call is StrokeCollectionSerializer.DecodeRawISF 
        /// 
        /// 
        [SecurityCritical] 
        public void Dispose()
        {
            if (_disposed)
            { 
                return;
            } 
 
            _compressorHandle.Dispose();
            _disposed = true; 
            _compressorHandle = null;
        }
#endif
    } 
}

// File provided for Reference Use Only by Microsoft Corporation (c) 2007.
// Copyright (c) Microsoft Corporation. All rights reserved.

                        

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