zinflate.h
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#ifndef CRYPTOPP_ZINFLATE_H
#define CRYPTOPP_ZINFLATE_H
#include "filters.h"
#include <vector>
NAMESPACE_BEGIN(CryptoPP)
//! _
class LowFirstBitReader
{
public:
LowFirstBitReader(BufferedTransformation &store)
: m_store(store), m_buffer(0), m_bitsBuffered(0) {}
// unsigned long BitsLeft() const {return m_store.MaxRetrievable() * 8 + m_bitsBuffered;}
unsigned int BitsBuffered() const {return m_bitsBuffered;}
unsigned long PeekBuffer() const {return m_buffer;}
bool FillBuffer(unsigned int length);
unsigned long PeekBits(unsigned int length);
void SkipBits(unsigned int length);
unsigned long GetBits(unsigned int length);
private:
BufferedTransformation &m_store;
unsigned long m_buffer;
unsigned int m_bitsBuffered;
};
struct CodeLessThan;
//! Huffman Decoder
class HuffmanDecoder
{
public:
typedef unsigned int code_t;
typedef unsigned int value_t;
enum {MAX_CODE_BITS = sizeof(code_t)*8};
class Err : public Exception {public: Err(const std::string &what) : Exception(INVALID_DATA_FORMAT, "HuffmanDecoder: " + what) {}};
HuffmanDecoder() {}
HuffmanDecoder(const unsigned int *codeBitLengths, unsigned int nCodes) {Initialize(codeBitLengths, nCodes);}
void Initialize(const unsigned int *codeBitLengths, unsigned int nCodes);
unsigned int Decode(code_t code, /* out */ value_t &value) const;
bool Decode(LowFirstBitReader &reader, value_t &value) const;
private:
friend struct CodeLessThan;
struct CodeInfo
{
CodeInfo(code_t code=0, unsigned int len=0, value_t value=0) : code(code), len(len), value(value) {}
inline bool operator<(const CodeInfo &rhs) const {return code < rhs.code;}
code_t code;
unsigned int len;
value_t value;
};
struct LookupEntry
{
unsigned int type;
union
{
value_t value;
const CodeInfo *begin;
};
union
{
unsigned int len;
const CodeInfo *end;
};
};
static code_t NormalizeCode(code_t code, unsigned int codeBits);
void FillCacheEntry(LookupEntry &entry, code_t normalizedCode) const;
unsigned int m_maxCodeBits, m_cacheBits, m_cacheMask, m_normalizedCacheMask;
std::vector<CodeInfo, AllocatorWithCleanup<CodeInfo> > m_codeToValue;
mutable std::vector<LookupEntry, AllocatorWithCleanup<LookupEntry> > m_cache;
};
//! DEFLATE (RFC 1951) decompressor
class Inflator : public AutoSignaling<Filter>
{
public:
class Err : public Exception
{
public:
Err(ErrorType e, const std::string &s)
: Exception(e, s) {}
};
class UnexpectedEndErr : public Err {public: UnexpectedEndErr() : Err(INVALID_DATA_FORMAT, "Inflator: unexpected end of compressed block") {}};
class BadBlockErr : public Err {public: BadBlockErr() : Err(INVALID_DATA_FORMAT, "Inflator: error in compressed block") {}};
/*! \param repeat decompress multiple compressed streams in series
\param autoSignalPropagation 0 to turn off MessageEnd signal
*/
Inflator(BufferedTransformation *attachment = NULL, bool repeat = false, int autoSignalPropagation = -1);
void IsolatedInitialize(const NameValuePairs ¶meters);
size_t Put2(const byte *inString, size_t length, int messageEnd, bool blocking);
bool IsolatedFlush(bool hardFlush, bool blocking);
virtual unsigned int GetLog2WindowSize() const {return 15;}
protected:
ByteQueue m_inQueue;
private:
virtual unsigned int MaxPrestreamHeaderSize() const {return 0;}
virtual void ProcessPrestreamHeader() {}
virtual void ProcessDecompressedData(const byte *string, size_t length)
{AttachedTransformation()->Put(string, length);}
virtual unsigned int MaxPoststreamTailSize() const {return 0;}
virtual void ProcessPoststreamTail() {}
void ProcessInput(bool flush);
void DecodeHeader();
bool DecodeBody();
void FlushOutput();
void OutputByte(byte b);
void OutputString(const byte *string, size_t length);
void OutputPast(unsigned int length, unsigned int distance);
static const HuffmanDecoder *FixedLiteralDecoder();
static const HuffmanDecoder *FixedDistanceDecoder();
const HuffmanDecoder& GetLiteralDecoder() const;
const HuffmanDecoder& GetDistanceDecoder() const;
enum State {PRE_STREAM, WAIT_HEADER, DECODING_BODY, POST_STREAM, AFTER_END};
State m_state;
bool m_repeat, m_eof, m_wrappedAround;
byte m_blockType;
word16 m_storedLen;
enum NextDecode {LITERAL, LENGTH_BITS, DISTANCE, DISTANCE_BITS};
NextDecode m_nextDecode;
unsigned int m_literal, m_distance; // for LENGTH_BITS or DISTANCE_BITS
HuffmanDecoder m_dynamicLiteralDecoder, m_dynamicDistanceDecoder;
LowFirstBitReader m_reader;
SecByteBlock m_window;
size_t m_current, m_lastFlush;
};
NAMESPACE_END
#endif