ext-cryptopp/zdeflate.h

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// zdeflate.h - originally written and placed in the public domain by Wei Dai
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/// \file zdeflate.h
/// \brief DEFLATE compression and decompression (RFC 1951)
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#ifndef CRYPTOPP_ZDEFLATE_H
#define CRYPTOPP_ZDEFLATE_H
#include "cryptlib.h"
#include "filters.h"
#include "misc.h"
NAMESPACE_BEGIN(CryptoPP)
/// \brief Encoding table writer
/// \since Crypto++ 1.0
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class LowFirstBitWriter : public Filter
{
public:
/// \brief Construct a LowFirstBitWriter
/// \param attachment an attached transformation
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LowFirstBitWriter(BufferedTransformation *attachment);
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void PutBits(unsigned long value, unsigned int length);
void FlushBitBuffer();
void ClearBitBuffer();
void StartCounting();
unsigned long FinishCounting();
protected:
bool m_counting;
unsigned long m_bitCount;
unsigned long m_buffer;
unsigned int m_bitsBuffered, m_bytesBuffered;
FixedSizeSecBlock<byte, 256> m_outputBuffer;
};
/// \brief Huffman Encoder
/// \since Crypto++ 1.0
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class HuffmanEncoder
{
public:
typedef unsigned int code_t;
typedef unsigned int value_t;
/// \brief Construct a HuffmanEncoder
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HuffmanEncoder() {}
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/// \brief Construct a HuffmanEncoder
/// \param codeBits a table of code bits
/// \param nCodes the number of codes in the table
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HuffmanEncoder(const unsigned int *codeBits, unsigned int nCodes);
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/// \brief Initialize or reinitialize this object
/// \param codeBits a table of code bits
/// \param nCodes the number of codes in the table
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void Initialize(const unsigned int *codeBits, unsigned int nCodes);
static void GenerateCodeLengths(unsigned int *codeBits, unsigned int maxCodeBits, const unsigned int *codeCounts, size_t nCodes);
void Encode(LowFirstBitWriter &writer, value_t value) const;
struct Code
{
unsigned int code;
unsigned int len;
};
SecBlock<Code> m_valueToCode;
};
/// \brief DEFLATE compressor (RFC 1951)
/// \since Crypto++ 1.0
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class Deflator : public LowFirstBitWriter
{
public:
/// \brief Deflate level as enumerated values.
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enum {
/// \brief Minimum deflation level, fastest speed (0)
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MIN_DEFLATE_LEVEL = 0,
/// \brief Default deflation level, compromise between speed (6)
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DEFAULT_DEFLATE_LEVEL = 6,
/// \brief Minimum deflation level, slowest speed (9)
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MAX_DEFLATE_LEVEL = 9};
/// \brief Windows size as enumerated values.
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enum {
/// \brief Minimum window size, smallest table (9)
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MIN_LOG2_WINDOW_SIZE = 9,
/// \brief Default window size (15)
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DEFAULT_LOG2_WINDOW_SIZE = 15,
/// \brief Maximum window size, largest table (15)
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MAX_LOG2_WINDOW_SIZE = 15};
/// \brief Construct a Deflator compressor
/// \param attachment an attached transformation
/// \param deflateLevel the deflate level
/// \param log2WindowSize the window size
/// \param detectUncompressible flag to detect if data is compressible
/// \details detectUncompressible makes it faster to process uncompressible files, but
/// if a file has both compressible and uncompressible parts, it may fail to compress
/// some of the compressible parts.
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Deflator(BufferedTransformation *attachment=NULLPTR, int deflateLevel=DEFAULT_DEFLATE_LEVEL, int log2WindowSize=DEFAULT_LOG2_WINDOW_SIZE, bool detectUncompressible=true);
/// \brief Construct a Deflator compressor
/// \param parameters a set of NameValuePairs to initialize this object
/// \param attachment an attached transformation
/// \details Possible parameter names: Log2WindowSize, DeflateLevel, DetectUncompressible
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Deflator(const NameValuePairs &parameters, BufferedTransformation *attachment=NULLPTR);
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/// \brief Sets the deflation level
/// \param deflateLevel the level of deflation
/// \details SetDeflateLevel can be used to set the deflate level in the middle of compression
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void SetDeflateLevel(int deflateLevel);
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/// \brief Retrieves the deflation level
/// \return the level of deflation
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int GetDeflateLevel() const {return m_deflateLevel;}
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/// \brief Retrieves the window size
/// \return the windows size
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int GetLog2WindowSize() const {return m_log2WindowSize;}
void IsolatedInitialize(const NameValuePairs &parameters);
size_t Put2(const byte *inString, size_t length, int messageEnd, bool blocking);
bool IsolatedFlush(bool hardFlush, bool blocking);
protected:
virtual void WritePrestreamHeader() {}
virtual void ProcessUncompressedData(const byte *string, size_t length)
{CRYPTOPP_UNUSED(string), CRYPTOPP_UNUSED(length);}
virtual void WritePoststreamTail() {}
enum {STORED = 0, STATIC = 1, DYNAMIC = 2};
enum {MIN_MATCH = 3, MAX_MATCH = 258};
void InitializeStaticEncoders();
void Reset(bool forceReset = false);
unsigned int FillWindow(const byte *str, size_t length);
unsigned int ComputeHash(const byte *str) const;
unsigned int LongestMatch(unsigned int &bestMatch) const;
void InsertString(unsigned int start);
void ProcessBuffer();
void LiteralByte(byte b);
void MatchFound(unsigned int distance, unsigned int length);
void EncodeBlock(bool eof, unsigned int blockType);
void EndBlock(bool eof);
struct EncodedMatch
{
unsigned literalCode : 9;
unsigned literalExtra : 5;
unsigned distanceCode : 5;
unsigned distanceExtra : 13;
};
int m_deflateLevel, m_log2WindowSize, m_compressibleDeflateLevel;
unsigned int m_detectSkip, m_detectCount;
unsigned int DSIZE, DMASK, HSIZE, HMASK, GOOD_MATCH, MAX_LAZYLENGTH, MAX_CHAIN_LENGTH;
bool m_headerWritten, m_matchAvailable;
unsigned int m_dictionaryEnd, m_stringStart, m_lookahead, m_minLookahead, m_previousMatch, m_previousLength;
HuffmanEncoder m_staticLiteralEncoder, m_staticDistanceEncoder, m_dynamicLiteralEncoder, m_dynamicDistanceEncoder;
SecByteBlock m_byteBuffer;
SecBlock<word16> m_head, m_prev;
FixedSizeSecBlock<unsigned int, 286> m_literalCounts;
FixedSizeSecBlock<unsigned int, 30> m_distanceCounts;
SecBlock<EncodedMatch> m_matchBuffer;
unsigned int m_matchBufferEnd, m_blockStart, m_blockLength;
};
NAMESPACE_END
#endif