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source: branches/3107_LearningALPS/HeuristicLab.ExtLibs/HeuristicLab.EPPlus/4.0.3/EPPlus-4.0.3/Packaging/DotNetZip/CRC32.cs

Last change on this file was 12074, checked in by sraggl, 10 years ago

#2341: Added EPPlus-4.0.3 to ExtLibs

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1// CRC32.cs
2// ------------------------------------------------------------------
3//
4// Copyright (c) 2011 Dino Chiesa.
5// All rights reserved.
6//
7// This code module is part of DotNetZip, a zipfile class library.
8//
9// ------------------------------------------------------------------
10//
11// This code is licensed under the Microsoft Public License.
12// See the file License.txt for the license details.
13// More info on: http://dotnetzip.codeplex.com
14//
15// ------------------------------------------------------------------
16//
17// Last Saved: <2011-August-02 18:25:54>
18//
19// ------------------------------------------------------------------
20//
21// This module defines the CRC32 class, which can do the CRC32 algorithm, using
22// arbitrary starting polynomials, and bit reversal. The bit reversal is what
23// distinguishes this CRC-32 used in BZip2 from the CRC-32 that is used in PKZIP
24// files, or GZIP files. This class does both.
25//
26// ------------------------------------------------------------------
27
28
29using System;
30using Interop = System.Runtime.InteropServices;
31
32namespace OfficeOpenXml.Packaging.Ionic.Crc
33{
34    /// <summary>
35    ///   Computes a CRC-32. The CRC-32 algorithm is parameterized - you
36    ///   can set the polynomial and enable or disable bit
37    ///   reversal. This can be used for GZIP, BZip2, or ZIP.
38    /// </summary>
39    /// <remarks>
40    ///   This type is used internally by DotNetZip; it is generally not used
41    ///   directly by applications wishing to create, read, or manipulate zip
42    ///   archive files.
43    /// </remarks>
44
45    [Interop.GuidAttribute("ebc25cf6-9120-4283-b972-0e5520d0000C")]
46    [Interop.ComVisible(true)]
47#if !NETCF
48    [Interop.ClassInterface(Interop.ClassInterfaceType.AutoDispatch)]
49#endif
50    internal class CRC32
51    {
52        /// <summary>
53        ///   Indicates the total number of bytes applied to the CRC.
54        /// </summary>
55        public Int64 TotalBytesRead
56        {
57            get
58            {
59                return _TotalBytesRead;
60            }
61        }
62
63        /// <summary>
64        /// Indicates the current CRC for all blocks slurped in.
65        /// </summary>
66        public Int32 Crc32Result
67        {
68            get
69            {
70                return unchecked((Int32)(~_register));
71            }
72        }
73
74        /// <summary>
75        /// Returns the CRC32 for the specified stream.
76        /// </summary>
77        /// <param name="input">The stream over which to calculate the CRC32</param>
78        /// <returns>the CRC32 calculation</returns>
79        public Int32 GetCrc32(System.IO.Stream input)
80        {
81            return GetCrc32AndCopy(input, null);
82        }
83
84        /// <summary>
85        /// Returns the CRC32 for the specified stream, and writes the input into the
86        /// output stream.
87        /// </summary>
88        /// <param name="input">The stream over which to calculate the CRC32</param>
89        /// <param name="output">The stream into which to deflate the input</param>
90        /// <returns>the CRC32 calculation</returns>
91        public Int32 GetCrc32AndCopy(System.IO.Stream input, System.IO.Stream output)
92        {
93            if (input == null)
94                throw new Exception("The input stream must not be null.");
95
96            unchecked
97            {
98                byte[] buffer = new byte[BUFFER_SIZE];
99                int readSize = BUFFER_SIZE;
100
101                _TotalBytesRead = 0;
102                int count = input.Read(buffer, 0, readSize);
103                if (output != null) output.Write(buffer, 0, count);
104                _TotalBytesRead += count;
105                while (count > 0)
106                {
107                    SlurpBlock(buffer, 0, count);
108                    count = input.Read(buffer, 0, readSize);
109                    if (output != null) output.Write(buffer, 0, count);
110                    _TotalBytesRead += count;
111                }
112
113                return (Int32)(~_register);
114            }
115        }
116
117
118        /// <summary>
119        ///   Get the CRC32 for the given (word,byte) combo.  This is a
120        ///   computation defined by PKzip for PKZIP 2.0 (weak) encryption.
121        /// </summary>
122        /// <param name="W">The word to start with.</param>
123        /// <param name="B">The byte to combine it with.</param>
124        /// <returns>The CRC-ized result.</returns>
125        public Int32 ComputeCrc32(Int32 W, byte B)
126        {
127            return _InternalComputeCrc32((UInt32)W, B);
128        }
129
130        internal Int32 _InternalComputeCrc32(UInt32 W, byte B)
131        {
132            return (Int32)(crc32Table[(W ^ B) & 0xFF] ^ (W >> 8));
133        }
134
135
136        /// <summary>
137        /// Update the value for the running CRC32 using the given block of bytes.
138        /// This is useful when using the CRC32() class in a Stream.
139        /// </summary>
140        /// <param name="block">block of bytes to slurp</param>
141        /// <param name="offset">starting point in the block</param>
142        /// <param name="count">how many bytes within the block to slurp</param>
143        public void SlurpBlock(byte[] block, int offset, int count)
144        {
145            if (block == null)
146                throw new Exception("The data buffer must not be null.");
147
148            // bzip algorithm
149            for (int i = 0; i < count; i++)
150            {
151                int x = offset + i;
152                byte b = block[x];
153                if (this.reverseBits)
154                {
155                    UInt32 temp = (_register >> 24) ^ b;
156                    _register = (_register << 8) ^ crc32Table[temp];
157                }
158                else
159                {
160                    UInt32 temp = (_register & 0x000000FF) ^ b;
161                    _register = (_register >> 8) ^ crc32Table[temp];
162                }
163            }
164            _TotalBytesRead += count;
165        }
166
167
168        /// <summary>
169        ///   Process one byte in the CRC.
170        /// </summary>
171        /// <param name = "b">the byte to include into the CRC .  </param>
172        public void UpdateCRC(byte b)
173        {
174            if (this.reverseBits)
175            {
176                UInt32 temp = (_register >> 24) ^ b;
177                _register = (_register << 8) ^ crc32Table[temp];
178            }
179            else
180            {
181                UInt32 temp = (_register & 0x000000FF) ^ b;
182                _register = (_register >> 8) ^ crc32Table[temp];
183            }
184        }
185
186        /// <summary>
187        ///   Process a run of N identical bytes into the CRC.
188        /// </summary>
189        /// <remarks>
190        ///   <para>
191        ///     This method serves as an optimization for updating the CRC when a
192        ///     run of identical bytes is found. Rather than passing in a buffer of
193        ///     length n, containing all identical bytes b, this method accepts the
194        ///     byte value and the length of the (virtual) buffer - the length of
195        ///     the run.
196        ///   </para>
197        /// </remarks>
198        /// <param name = "b">the byte to include into the CRC.  </param>
199        /// <param name = "n">the number of times that byte should be repeated. </param>
200        public void UpdateCRC(byte b, int n)
201        {
202            while (n-- > 0)
203            {
204                if (this.reverseBits)
205                {
206                    uint temp = (_register >> 24) ^ b;
207                    _register = (_register << 8) ^ crc32Table[(temp >= 0)
208                                                              ? temp
209                                                              : (temp + 256)];
210                }
211                else
212                {
213                    UInt32 temp = (_register & 0x000000FF) ^ b;
214                    _register = (_register >> 8) ^ crc32Table[(temp >= 0)
215                                                              ? temp
216                                                              : (temp + 256)];
217
218                }
219            }
220        }
221
222
223
224        private static uint ReverseBits(uint data)
225        {
226            unchecked
227            {
228                uint ret = data;
229                ret = (ret & 0x55555555) << 1 | (ret >> 1) & 0x55555555;
230                ret = (ret & 0x33333333) << 2 | (ret >> 2) & 0x33333333;
231                ret = (ret & 0x0F0F0F0F) << 4 | (ret >> 4) & 0x0F0F0F0F;
232                ret = (ret << 24) | ((ret & 0xFF00) << 8) | ((ret >> 8) & 0xFF00) | (ret >> 24);
233                return ret;
234            }
235        }
236
237        private static byte ReverseBits(byte data)
238        {
239            unchecked
240            {
241                uint u = (uint)data * 0x00020202;
242                uint m = 0x01044010;
243                uint s = u & m;
244                uint t = (u << 2) & (m << 1);
245                return (byte)((0x01001001 * (s + t)) >> 24);
246            }
247        }
248
249
250
251        private void GenerateLookupTable()
252        {
253            crc32Table = new UInt32[256];
254            unchecked
255            {
256                UInt32 dwCrc;
257                byte i = 0;
258                do
259                {
260                    dwCrc = i;
261                    for (byte j = 8; j > 0; j--)
262                    {
263                        if ((dwCrc & 1) == 1)
264                        {
265                            dwCrc = (dwCrc >> 1) ^ dwPolynomial;
266                        }
267                        else
268                        {
269                            dwCrc >>= 1;
270                        }
271                    }
272                    if (reverseBits)
273                    {
274                        crc32Table[ReverseBits(i)] = ReverseBits(dwCrc);
275                    }
276                    else
277                    {
278                        crc32Table[i] = dwCrc;
279                    }
280                    i++;
281                } while (i!=0);
282            }
283
284#if VERBOSE
285            Console.WriteLine();
286            Console.WriteLine("private static readonly UInt32[] crc32Table = {");
287            for (int i = 0; i < crc32Table.Length; i+=4)
288            {
289                Console.Write("   ");
290                for (int j=0; j < 4; j++)
291                {
292                    Console.Write(" 0x{0:X8}U,", crc32Table[i+j]);
293                }
294                Console.WriteLine();
295            }
296            Console.WriteLine("};");
297            Console.WriteLine();
298#endif
299        }
300
301
302        private uint gf2_matrix_times(uint[] matrix, uint vec)
303        {
304            uint sum = 0;
305            int i=0;
306            while (vec != 0)
307            {
308                if ((vec & 0x01)== 0x01)
309                    sum ^= matrix[i];
310                vec >>= 1;
311                i++;
312            }
313            return sum;
314        }
315
316        private void gf2_matrix_square(uint[] square, uint[] mat)
317        {
318            for (int i = 0; i < 32; i++)
319                square[i] = gf2_matrix_times(mat, mat[i]);
320        }
321
322
323
324        /// <summary>
325        ///   Combines the given CRC32 value with the current running total.
326        /// </summary>
327        /// <remarks>
328        ///   This is useful when using a divide-and-conquer approach to
329        ///   calculating a CRC.  Multiple threads can each calculate a
330        ///   CRC32 on a segment of the data, and then combine the
331        ///   individual CRC32 values at the end.
332        /// </remarks>
333        /// <param name="crc">the crc value to be combined with this one</param>
334        /// <param name="length">the length of data the CRC value was calculated on</param>
335        public void Combine(int crc, int length)
336        {
337            uint[] even = new uint[32];     // even-power-of-two zeros operator
338            uint[] odd = new uint[32];      // odd-power-of-two zeros operator
339
340            if (length == 0)
341                return;
342
343            uint crc1= ~_register;
344            uint crc2= (uint) crc;
345
346            // put operator for one zero bit in odd
347            odd[0] = this.dwPolynomial;  // the CRC-32 polynomial
348            uint row = 1;
349            for (int i = 1; i < 32; i++)
350            {
351                odd[i] = row;
352                row <<= 1;
353            }
354
355            // put operator for two zero bits in even
356            gf2_matrix_square(even, odd);
357
358            // put operator for four zero bits in odd
359            gf2_matrix_square(odd, even);
360
361            uint len2 = (uint) length;
362
363            // apply len2 zeros to crc1 (first square will put the operator for one
364            // zero byte, eight zero bits, in even)
365            do {
366                // apply zeros operator for this bit of len2
367                gf2_matrix_square(even, odd);
368
369                if ((len2 & 1)== 1)
370                    crc1 = gf2_matrix_times(even, crc1);
371                len2 >>= 1;
372
373                if (len2 == 0)
374                    break;
375
376                // another iteration of the loop with odd and even swapped
377                gf2_matrix_square(odd, even);
378                if ((len2 & 1)==1)
379                    crc1 = gf2_matrix_times(odd, crc1);
380                len2 >>= 1;
381
382
383            } while (len2 != 0);
384
385            crc1 ^= crc2;
386
387            _register= ~crc1;
388
389            //return (int) crc1;
390            return;
391        }
392
393
394        /// <summary>
395        ///   Create an instance of the CRC32 class using the default settings: no
396        ///   bit reversal, and a polynomial of 0xEDB88320.
397        /// </summary>
398        public CRC32() : this(false)
399        {
400        }
401
402        /// <summary>
403        ///   Create an instance of the CRC32 class, specifying whether to reverse
404        ///   data bits or not.
405        /// </summary>
406        /// <param name='reverseBits'>
407        ///   specify true if the instance should reverse data bits.
408        /// </param>
409        /// <remarks>
410        ///   <para>
411        ///     In the CRC-32 used by BZip2, the bits are reversed. Therefore if you
412        ///     want a CRC32 with compatibility with BZip2, you should pass true
413        ///     here. In the CRC-32 used by GZIP and PKZIP, the bits are not
414        ///     reversed; Therefore if you want a CRC32 with compatibility with
415        ///     those, you should pass false.
416        ///   </para>
417        /// </remarks>
418        public CRC32(bool reverseBits) :
419            this( unchecked((int)0xEDB88320), reverseBits)
420        {
421        }
422
423
424        /// <summary>
425        ///   Create an instance of the CRC32 class, specifying the polynomial and
426        ///   whether to reverse data bits or not.
427        /// </summary>
428        /// <param name='polynomial'>
429        ///   The polynomial to use for the CRC, expressed in the reversed (LSB)
430        ///   format: the highest ordered bit in the polynomial value is the
431        ///   coefficient of the 0th power; the second-highest order bit is the
432        ///   coefficient of the 1 power, and so on. Expressed this way, the
433        ///   polynomial for the CRC-32C used in IEEE 802.3, is 0xEDB88320.
434        /// </param>
435        /// <param name='reverseBits'>
436        ///   specify true if the instance should reverse data bits.
437        /// </param>
438        ///
439        /// <remarks>
440        ///   <para>
441        ///     In the CRC-32 used by BZip2, the bits are reversed. Therefore if you
442        ///     want a CRC32 with compatibility with BZip2, you should pass true
443        ///     here for the <c>reverseBits</c> parameter. In the CRC-32 used by
444        ///     GZIP and PKZIP, the bits are not reversed; Therefore if you want a
445        ///     CRC32 with compatibility with those, you should pass false for the
446        ///     <c>reverseBits</c> parameter.
447        ///   </para>
448        /// </remarks>
449        public CRC32(int polynomial, bool reverseBits)
450        {
451            this.reverseBits = reverseBits;
452            this.dwPolynomial = (uint) polynomial;
453            this.GenerateLookupTable();
454        }
455
456        /// <summary>
457        ///   Reset the CRC-32 class - clear the CRC "remainder register."
458        /// </summary>
459        /// <remarks>
460        ///   <para>
461        ///     Use this when employing a single instance of this class to compute
462        ///     multiple, distinct CRCs on multiple, distinct data blocks.
463        ///   </para>
464        /// </remarks>
465        public void Reset()
466        {
467            _register = 0xFFFFFFFFU;
468        }
469
470        // private member vars
471        private UInt32 dwPolynomial;
472        private Int64 _TotalBytesRead;
473        private bool reverseBits;
474        private UInt32[] crc32Table;
475        private const int BUFFER_SIZE = 8192;
476        private UInt32 _register = 0xFFFFFFFFU;
477    }
478
479
480    /// <summary>
481    /// A Stream that calculates a CRC32 (a checksum) on all bytes read,
482    /// or on all bytes written.
483    /// </summary>
484    ///
485    /// <remarks>
486    /// <para>
487    /// This class can be used to verify the CRC of a ZipEntry when
488    /// reading from a stream, or to calculate a CRC when writing to a
489    /// stream.  The stream should be used to either read, or write, but
490    /// not both.  If you intermix reads and writes, the results are not
491    /// defined.
492    /// </para>
493    ///
494    /// <para>
495    /// This class is intended primarily for use internally by the
496    /// DotNetZip library.
497    /// </para>
498    /// </remarks>
499    internal class CrcCalculatorStream : System.IO.Stream, System.IDisposable
500    {
501        private static readonly Int64 UnsetLengthLimit = -99;
502
503        internal System.IO.Stream _innerStream;
504        private CRC32 _Crc32;
505        private Int64 _lengthLimit = -99;
506        private bool _leaveOpen;
507
508        /// <summary>
509        /// The default constructor.
510        /// </summary>
511        /// <remarks>
512        ///   <para>
513        ///     Instances returned from this constructor will leave the underlying
514        ///     stream open upon Close().  The stream uses the default CRC32
515        ///     algorithm, which implies a polynomial of 0xEDB88320.
516        ///   </para>
517        /// </remarks>
518        /// <param name="stream">The underlying stream</param>
519        public CrcCalculatorStream(System.IO.Stream stream)
520            : this(true, CrcCalculatorStream.UnsetLengthLimit, stream, null)
521        {
522        }
523
524        /// <summary>
525        ///   The constructor allows the caller to specify how to handle the
526        ///   underlying stream at close.
527        /// </summary>
528        /// <remarks>
529        ///   <para>
530        ///     The stream uses the default CRC32 algorithm, which implies a
531        ///     polynomial of 0xEDB88320.
532        ///   </para>
533        /// </remarks>
534        /// <param name="stream">The underlying stream</param>
535        /// <param name="leaveOpen">true to leave the underlying stream
536        /// open upon close of the <c>CrcCalculatorStream</c>; false otherwise.</param>
537        public CrcCalculatorStream(System.IO.Stream stream, bool leaveOpen)
538            : this(leaveOpen, CrcCalculatorStream.UnsetLengthLimit, stream, null)
539        {
540        }
541
542        /// <summary>
543        ///   A constructor allowing the specification of the length of the stream
544        ///   to read.
545        /// </summary>
546        /// <remarks>
547        ///   <para>
548        ///     The stream uses the default CRC32 algorithm, which implies a
549        ///     polynomial of 0xEDB88320.
550        ///   </para>
551        ///   <para>
552        ///     Instances returned from this constructor will leave the underlying
553        ///     stream open upon Close().
554        ///   </para>
555        /// </remarks>
556        /// <param name="stream">The underlying stream</param>
557        /// <param name="length">The length of the stream to slurp</param>
558        public CrcCalculatorStream(System.IO.Stream stream, Int64 length)
559            : this(true, length, stream, null)
560        {
561            if (length < 0)
562                throw new ArgumentException("length");
563        }
564
565        /// <summary>
566        ///   A constructor allowing the specification of the length of the stream
567        ///   to read, as well as whether to keep the underlying stream open upon
568        ///   Close().
569        /// </summary>
570        /// <remarks>
571        ///   <para>
572        ///     The stream uses the default CRC32 algorithm, which implies a
573        ///     polynomial of 0xEDB88320.
574        ///   </para>
575        /// </remarks>
576        /// <param name="stream">The underlying stream</param>
577        /// <param name="length">The length of the stream to slurp</param>
578        /// <param name="leaveOpen">true to leave the underlying stream
579        /// open upon close of the <c>CrcCalculatorStream</c>; false otherwise.</param>
580        public CrcCalculatorStream(System.IO.Stream stream, Int64 length, bool leaveOpen)
581            : this(leaveOpen, length, stream, null)
582        {
583            if (length < 0)
584                throw new ArgumentException("length");
585        }
586
587        /// <summary>
588        ///   A constructor allowing the specification of the length of the stream
589        ///   to read, as well as whether to keep the underlying stream open upon
590        ///   Close(), and the CRC32 instance to use.
591        /// </summary>
592        /// <remarks>
593        ///   <para>
594        ///     The stream uses the specified CRC32 instance, which allows the
595        ///     application to specify how the CRC gets calculated.
596        ///   </para>
597        /// </remarks>
598        /// <param name="stream">The underlying stream</param>
599        /// <param name="length">The length of the stream to slurp</param>
600        /// <param name="leaveOpen">true to leave the underlying stream
601        /// open upon close of the <c>CrcCalculatorStream</c>; false otherwise.</param>
602        /// <param name="crc32">the CRC32 instance to use to calculate the CRC32</param>
603        public CrcCalculatorStream(System.IO.Stream stream, Int64 length, bool leaveOpen,
604                                   CRC32 crc32)
605            : this(leaveOpen, length, stream, crc32)
606        {
607            if (length < 0)
608                throw new ArgumentException("length");
609        }
610
611
612        // This ctor is private - no validation is done here.  This is to allow the use
613        // of a (specific) negative value for the _lengthLimit, to indicate that there
614        // is no length set.  So we validate the length limit in those ctors that use an
615        // explicit param, otherwise we don't validate, because it could be our special
616        // value.
617        private CrcCalculatorStream
618            (bool leaveOpen, Int64 length, System.IO.Stream stream, CRC32 crc32)
619            : base()
620        {
621            _innerStream = stream;
622            _Crc32 = crc32 ?? new CRC32();
623            _lengthLimit = length;
624            _leaveOpen = leaveOpen;
625        }
626
627
628        /// <summary>
629        ///   Gets the total number of bytes run through the CRC32 calculator.
630        /// </summary>
631        ///
632        /// <remarks>
633        ///   This is either the total number of bytes read, or the total number of
634        ///   bytes written, depending on the direction of this stream.
635        /// </remarks>
636        public Int64 TotalBytesSlurped
637        {
638            get { return _Crc32.TotalBytesRead; }
639        }
640
641        /// <summary>
642        ///   Provides the current CRC for all blocks slurped in.
643        /// </summary>
644        /// <remarks>
645        ///   <para>
646        ///     The running total of the CRC is kept as data is written or read
647        ///     through the stream.  read this property after all reads or writes to
648        ///     get an accurate CRC for the entire stream.
649        ///   </para>
650        /// </remarks>
651        public Int32 Crc
652        {
653            get { return _Crc32.Crc32Result; }
654        }
655
656        /// <summary>
657        ///   Indicates whether the underlying stream will be left open when the
658        ///   <c>CrcCalculatorStream</c> is Closed.
659        /// </summary>
660        /// <remarks>
661        ///   <para>
662        ///     Set this at any point before calling <see cref="Close()"/>.
663        ///   </para>
664        /// </remarks>
665        public bool LeaveOpen
666        {
667            get { return _leaveOpen; }
668            set { _leaveOpen = value; }
669        }
670
671        /// <summary>
672        /// Read from the stream
673        /// </summary>
674        /// <param name="buffer">the buffer to read</param>
675        /// <param name="offset">the offset at which to start</param>
676        /// <param name="count">the number of bytes to read</param>
677        /// <returns>the number of bytes actually read</returns>
678        public override int Read(byte[] buffer, int offset, int count)
679        {
680            int bytesToRead = count;
681
682            // Need to limit the # of bytes returned, if the stream is intended to have
683            // a definite length.  This is especially useful when returning a stream for
684            // the uncompressed data directly to the application.  The app won't
685            // necessarily read only the UncompressedSize number of bytes.  For example
686            // wrapping the stream returned from OpenReader() into a StreadReader() and
687            // calling ReadToEnd() on it, We can "over-read" the zip data and get a
688            // corrupt string.  The length limits that, prevents that problem.
689
690            if (_lengthLimit != CrcCalculatorStream.UnsetLengthLimit)
691            {
692                if (_Crc32.TotalBytesRead >= _lengthLimit) return 0; // EOF
693                Int64 bytesRemaining = _lengthLimit - _Crc32.TotalBytesRead;
694                if (bytesRemaining < count) bytesToRead = (int)bytesRemaining;
695            }
696            int n = _innerStream.Read(buffer, offset, bytesToRead);
697            if (n > 0) _Crc32.SlurpBlock(buffer, offset, n);
698            return n;
699        }
700
701        /// <summary>
702        /// Write to the stream.
703        /// </summary>
704        /// <param name="buffer">the buffer from which to write</param>
705        /// <param name="offset">the offset at which to start writing</param>
706        /// <param name="count">the number of bytes to write</param>
707        public override void Write(byte[] buffer, int offset, int count)
708        {
709            if (count > 0) _Crc32.SlurpBlock(buffer, offset, count);
710            _innerStream.Write(buffer, offset, count);
711        }
712
713        /// <summary>
714        /// Indicates whether the stream supports reading.
715        /// </summary>
716        public override bool CanRead
717        {
718            get { return _innerStream.CanRead; }
719        }
720
721        /// <summary>
722        ///   Indicates whether the stream supports seeking.
723        /// </summary>
724        /// <remarks>
725        ///   <para>
726        ///     Always returns false.
727        ///   </para>
728        /// </remarks>
729        public override bool CanSeek
730        {
731            get { return false; }
732        }
733
734        /// <summary>
735        /// Indicates whether the stream supports writing.
736        /// </summary>
737        public override bool CanWrite
738        {
739            get { return _innerStream.CanWrite; }
740        }
741
742        /// <summary>
743        /// Flush the stream.
744        /// </summary>
745        public override void Flush()
746        {
747            _innerStream.Flush();
748        }
749
750        /// <summary>
751        ///   Returns the length of the underlying stream.
752        /// </summary>
753        public override long Length
754        {
755            get
756            {
757                if (_lengthLimit == CrcCalculatorStream.UnsetLengthLimit)
758                    return _innerStream.Length;
759                else return _lengthLimit;
760            }
761        }
762
763        /// <summary>
764        ///   The getter for this property returns the total bytes read.
765        ///   If you use the setter, it will throw
766        /// <see cref="NotSupportedException"/>.
767        /// </summary>
768        public override long Position
769        {
770            get { return _Crc32.TotalBytesRead; }
771            set { throw new NotSupportedException(); }
772        }
773
774        /// <summary>
775        /// Seeking is not supported on this stream. This method always throws
776        /// <see cref="NotSupportedException"/>
777        /// </summary>
778        /// <param name="offset">N/A</param>
779        /// <param name="origin">N/A</param>
780        /// <returns>N/A</returns>
781        public override long Seek(long offset, System.IO.SeekOrigin origin)
782        {
783            throw new NotSupportedException();
784        }
785
786        /// <summary>
787        /// This method always throws
788        /// <see cref="NotSupportedException"/>
789        /// </summary>
790        /// <param name="value">N/A</param>
791        public override void SetLength(long value)
792        {
793            throw new NotSupportedException();
794        }
795
796
797        void IDisposable.Dispose()
798        {
799            Close();
800        }
801
802        /// <summary>
803        /// Closes the stream.
804        /// </summary>
805        public override void Close()
806        {
807            base.Close();
808            if (!_leaveOpen)
809                _innerStream.Close();
810        }
811
812    }
813
814}
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