1#ifndef CRYPTOPP_ZINFLATE_H
2#define CRYPTOPP_ZINFLATE_H
16 : m_store(store), m_buffer(0), m_bitsBuffered(0) {}
17 unsigned int BitsBuffered()
const {
return m_bitsBuffered;}
18 unsigned long PeekBuffer()
const {
return m_buffer;}
19 bool FillBuffer(
unsigned int length);
20 unsigned long PeekBits(
unsigned int length);
21 void SkipBits(
unsigned int length);
22 unsigned long GetBits(
unsigned int length);
26 unsigned long m_buffer;
27 unsigned int m_bitsBuffered;
37 typedef unsigned int code_t;
38 typedef unsigned int value_t;
39 enum {MAX_CODE_BITS =
sizeof(code_t)*8};
43 HuffmanDecoder() : m_maxCodeBits(0), m_cacheBits(0), m_cacheMask(0), m_normalizedCacheMask(0) {}
44 HuffmanDecoder(
const unsigned int *codeBitLengths,
unsigned int nCodes)
45 : m_maxCodeBits(0), m_cacheBits(0), m_cacheMask(0), m_normalizedCacheMask(0)
46 {Initialize(codeBitLengths, nCodes);}
48 void Initialize(
const unsigned int *codeBitLengths,
unsigned int nCodes);
49 unsigned int Decode(code_t code, value_t &value)
const;
57 CodeInfo(code_t code=0,
unsigned int len=0, value_t value=0) : code(code), len(len), value(value) {}
58 inline bool operator<(
const CodeInfo &rhs)
const {
return code < rhs.code;}
70 const CodeInfo *begin;
79 static code_t NormalizeCode(code_t code,
unsigned int codeBits);
80 void FillCacheEntry(LookupEntry &entry, code_t normalizedCode)
const;
82 unsigned int m_maxCodeBits, m_cacheBits, m_cacheMask, m_normalizedCacheMask;
83 std::vector<CodeInfo, AllocatorWithCleanup<CodeInfo> > m_codeToValue;
84 mutable std::vector<LookupEntry, AllocatorWithCleanup<LookupEntry> > m_cache;
112 size_t Put2(
const byte *inString,
size_t length,
int messageEnd,
bool blocking);
115 virtual unsigned int GetLog2WindowSize()
const {
return 15;}
121 virtual unsigned int MaxPrestreamHeaderSize()
const {
return 0;}
122 virtual void ProcessPrestreamHeader() {}
123 virtual void ProcessDecompressedData(
const byte *
string,
size_t length)
125 virtual unsigned int MaxPoststreamTailSize()
const {
return 0;}
126 virtual void ProcessPoststreamTail() {}
128 void ProcessInput(
bool flush);
132 void OutputByte(
byte b);
133 void OutputString(
const byte *
string,
size_t length);
134 void OutputPast(
unsigned int length,
unsigned int distance);
136 void CreateFixedDistanceDecoder();
137 void CreateFixedLiteralDecoder();
142 enum State {PRE_STREAM, WAIT_HEADER, DECODING_BODY, POST_STREAM, AFTER_END};
144 bool m_repeat, m_eof, m_wrappedAround;
147 enum NextDecode {LITERAL, LENGTH_BITS, DISTANCE, DISTANCE_BITS};
148 NextDecode m_nextDecode;
149 unsigned int m_literal, m_distance;
154 size_t m_current, m_lastFlush;
bool operator<(const OID &lhs, const OID &rhs)
Compare two OIDs for ordering.
Provides auto signaling support.
Data structure used to store byte strings.
Base class for all exceptions thrown by the library.
ErrorType
Error types or categories.
@ INVALID_DATA_FORMAT
Input data was received that did not conform to expected format.
const char * what() const
Retrieves a C-string describing the exception.
BufferedTransformation * AttachedTransformation()
Retrieve attached transformation.
Exception thrown when a bad block is encountered.
Exception thrown when an invalid distance is encountered.
Exception thrown when a truncated stream is encountered.
DEFLATE decompressor (RFC 1951)
void IsolatedInitialize(const NameValuePairs ¶meters)
Initialize or reinitialize this object, without signal propagation.
size_t Put2(const byte *inString, size_t length, int messageEnd, bool blocking)
Input multiple bytes for processing.
bool IsolatedFlush(bool hardFlush, bool blocking)
Flushes data buffered by this object, without signal propagation.
Interface for retrieving values given their names.
Pointer that overloads operator ->
Abstract base classes that provide a uniform interface to this library.
Implementation of BufferedTransformation's attachment interface.
Crypto++ library namespace.
Classes and functions for secure memory allocations.