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utlbuffer.h
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utlbuffer.h
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//====== Copyright 1996-2005, Valve Corporation, All rights reserved. =======//
//
// Purpose:
//
// $NoKeywords: $
//
// Serialization/unserialization buffer
//=============================================================================//
#pragma once
#ifndef UTLBUFFER_H
#define UTLBUFFER_H
#include <stdarg.h>
#include "utlmemory.h"
#include "utlstring.h"
#include "minbase_endian.h"
//-----------------------------------------------------------------------------
// Description of character conversions for string output
// Here's an example of how to use the macros to define a character conversion
// BEGIN_CHAR_CONVERSION( CStringConversion, '\\' )
// { '\n', "n" },
// { '\t', "t" }
// END_CHAR_CONVERSION( CStringConversion, '\\' )
//-----------------------------------------------------------------------------
class CUtlCharConversion
{
public:
struct ConversionArray_t
{
char m_nActualChar;
const char *m_pReplacementString;
};
CUtlCharConversion( const char nEscapeChar, const char *pDelimiter, int nCount, ConversionArray_t *pArray );
char GetEscapeChar() const;
const char *GetDelimiter() const;
int GetDelimiterLength() const;
const char *GetConversionString( char c ) const;
int GetConversionLength( char c ) const;
int MaxConversionLength() const;
// Finds a conversion for the passed-in string, returns length
virtual char FindConversion( const char *pString, int *pLength );
protected:
struct ConversionInfo_t
{
int m_nLength;
const char *m_pReplacementString;
};
char m_nEscapeChar;
const char *m_pDelimiter;
int m_nDelimiterLength;
int m_nCount;
int m_nMaxConversionLength;
char m_pList[255];
ConversionInfo_t m_pReplacements[255];
};
#define BEGIN_CHAR_CONVERSION( _name, _delimiter, _escapeChar ) \
static CUtlCharConversion::ConversionArray_t s_pConversionArray ## _name[] = {
#define END_CHAR_CONVERSION( _name, _delimiter, _escapeChar ) \
}; \
CUtlCharConversion _name( _escapeChar, _delimiter, sizeof( s_pConversionArray ## _name ) / sizeof( CUtlCharConversion::ConversionArray_t ), s_pConversionArray ## _name );
#define BEGIN_CUSTOM_CHAR_CONVERSION( _className, _name, _delimiter, _escapeChar ) \
static CUtlCharConversion::ConversionArray_t s_pConversionArray ## _name[] = {
#define END_CUSTOM_CHAR_CONVERSION( _className, _name, _delimiter, _escapeChar ) \
}; \
_className _name( _escapeChar, _delimiter, sizeof( s_pConversionArray ## _name ) / sizeof( CUtlCharConversion::ConversionArray_t ), s_pConversionArray ## _name );
//-----------------------------------------------------------------------------
// Character conversions for C strings
//-----------------------------------------------------------------------------
CUtlCharConversion *GetCStringCharConversion();
//-----------------------------------------------------------------------------
// Character conversions for quoted strings, with no escape sequences
//-----------------------------------------------------------------------------
CUtlCharConversion *GetNoEscCharConversion();
//-----------------------------------------------------------------------------
// Macro to set overflow functions easily
//-----------------------------------------------------------------------------
#define SetUtlBufferOverflowFuncs( _get, _put ) \
SetOverflowFuncs( static_cast <UtlBufferOverflowFunc_t>( _get ), static_cast <UtlBufferOverflowFunc_t>( _put ) )
//-----------------------------------------------------------------------------
// Command parsing..
//-----------------------------------------------------------------------------
class CUtlBuffer
{
public:
enum SeekType_t
{
SEEK_HEAD = 0,
SEEK_CURRENT,
SEEK_TAIL
};
// flags
enum BufferFlags_t
{
TEXT_BUFFER = 0x1, // Describes how get + put work (as strings, or binary)
EXTERNAL_GROWABLE = 0x2, // This is used w/ external buffers and causes the utlbuf to switch to reallocatable memory if an overflow happens when Putting.
CONTAINS_CRLF = 0x4, // For text buffers only, does this contain \n or \n\r?
READ_ONLY = 0x8, // For external buffers; prevents null termination from happening.
AUTO_TABS_DISABLED = 0x10, // Used to disable/enable push/pop tabs
LITTLE_ENDIAN_BUFFER = 0x20,// ensures that data is stored in little endian format
BIG_ENDIAN_BUFFER = 0x40, // ensures that data is stored in big endian format
};
// Overflow functions when a get or put overflows
typedef bool (CUtlBuffer::*UtlBufferOverflowFunc_t)( int nSize );
// Constructors for growable + external buffers for serialization/unserialization
CUtlBuffer( int growSize = 0, int initSize = 0, int nFlags = 0 );
CUtlBuffer( const void* pBuffer, int size, int nFlags = 0 );
unsigned char GetFlags() const;
// NOTE: This will assert if you attempt to recast it in a way that
// is not compatible. The only valid conversion is binary-> text w/CRLF
void SetBufferType( bool bIsText, bool bContainsCRLF );
// Makes sure we've got at least this much memory
void EnsureCapacity( int num );
// Attaches the buffer to external memory....
void SetExternalBuffer( void* pMemory, int nSize, int nInitialPut, int nFlags = 0 );
// Attaches to an external buffer as read only. Will purge any existing buffer data
void SetReadOnlyBuffer( void *pMemory, int nSize );
// Controls endian-ness of binary utlbufs
// Resets the buffer; but doesn't free memory
void Clear();
// Clears out the buffer; frees memory
void Purge();
void Swap( CUtlBuffer &buf );
void TakeOwnershipOfMemory( CUtlMemory<uint8_t> &mem );
void ReleaseToMemory( CUtlMemory<uint8_t> &mem, int *punCurrentPut );
// detaches the memory, returns it, and clears the members (but detached memory is preserved)
void * DetachAndClear();
// copies data from another buffer
void CopyBuffer( const CUtlBuffer &buffer );
void CopyBuffer( const void *pubData, int cubData );
// Read stuff out.
// Binary mode: it'll just read the bits directly in, and characters will be
// read for strings until a null character is reached.
// Text mode: it'll parse the file, turning text #s into real numbers.
// GetString will read a string until a space is reached
char GetChar();
uint8_t GetUint8();
short GetShort();
unsigned short GetUnsignedShort();
int GetInt();
int GetIntHex();
unsigned int GetUnsignedInt();
int16_t GetInt16();
uint64_t GetUnsignedInt64();
int64_t GetInt64();
float GetFloat();
double GetDouble();
bool GetString( char *pString, int nMaxLen );
bool GetLine( char *pString, int nMaxLen );
const char* GetStringFast(); // binary mode only
bool Get( void* pMem, int size );
// This will get at least 1 byte and up to nSize bytes.
// It will return the number of bytes actually read.
int GetUpTo( void *pMem, int nSize );
// This version of GetString converts \" to \\ and " to \, etc.
// It also reads a " at the beginning and end of the string
void GetDelimitedString( CUtlCharConversion *pConv, char *pString, int nMaxChars );
char GetDelimitedChar( CUtlCharConversion *pConv );
// This will return the # of characters of the string about to be read out
// NOTE: The count will *include* the terminating 0!!
// In binary mode, it's the number of characters until the next 0
// In text mode, it's the number of characters until the next space.
int PeekStringLength();
// This version of PeekStringLength converts \" to \\ and " to \, etc.
// It also reads a " at the beginning and end of the string
// NOTE: The count will *include* the terminating 0!!
// In binary mode, it's the number of characters until the next 0
// In text mode, it's the number of characters between "s (checking for \")
// Specifying false for bActualSize will return the pre-translated number of characters
// including the delimiters and the escape characters. So, \n counts as 2 characters when bActualSize == false
// and only 1 character when bActualSize == true
int PeekDelimitedStringLength( CUtlCharConversion *pConv, bool bActualSize = true );
// Just like scanf, but doesn't work in binary mode
int Scanf( SCANF_FORMAT_STRING const char* pFmt, ... );
int VaScanf( const char* pFmt, va_list list );
// Eats white space, advances Get index
void EatWhiteSpace();
// Eats white space, advances Get index - won't overflow if file ends with whitespace.
void EatWhiteSpaceNoOverflow();
// Eats C++ style comments
bool EatCPPComment();
// (For text buffers only)
// Parse a token from the buffer:
// Grab all text that lies between a starting delimiter + ending delimiter
// (skipping whitespace that leads + trails both delimiters).
// If successful, the get index is advanced and the function returns true,
// otherwise the index is not advanced and the function returns false.
bool ParseToken( const char *pStartingDelim, const char *pEndingDelim, char* pString, int nMaxLen );
// Advance the get index until after the particular string is found
// Do not eat whitespace before starting. Return false if it failed
// String test is case-insensitive.
bool GetToken( const char *pToken );
// Write stuff in
// Binary mode: it'll just write the bits directly in, and strings will be
// written with a null terminating character
// Text mode: it'll convert the numbers to text versions
// PutString will not write a terminating character
void PutChar( char c );
void PutUint8( uint8_t ub );
void PutShort( short s );
void PutUnsignedShort( unsigned short us );
void PutInt( int i );
void PutUnsignedInt( unsigned int u );
void PutInt16( int16_t s16 );
void PutUnsignedInt64( uint64_t u64 );
void PutInt64( int64_t u64 );
void PutFloat( float f );
void PutDouble( double d );
void PutString( const char* pString );
void PutStringWithoutNull( const char* pString );
void Put( const void* pMem, int size );
// This version of PutString converts \ to \\ and " to \", etc.
// It also places " at the beginning and end of the string
void PutDelimitedString( CUtlCharConversion *pConv, const char *pString );
void PutDelimitedChar( CUtlCharConversion *pConv, char c );
// Just like printf, writes a terminating zero in binary mode
void Printf( PRINTF_FORMAT_STRING const char* pFmt, ... ) FMTFUNCTION( 2, 3 );
void VaPrintf( const char* pFmt, va_list list );
// What am I writing (put)/reading (get)?
void* PeekPut( int offset = 0 );
const void* PeekGet( ) const;
const void* PeekGet( int offset ) const;
const void* PeekGet( int nMaxSize, int nOffset );
// Reserve at least nBytes and return the pointer to the start of the reserved area.
// Like EnsureCapacity(TellPut()+nBytes) but non-exact; preserves geometric growth.
void *ReservePut( int nBytes );
// How many bytes remain to be read?
// NOTE: This is not accurate for streaming text files; it overshoots
int GetBytesRemaining() const;
// Where am I writing (put)/reading (get)?
int TellPut() const;
int TellGet() const;
// Change where I'm writing (put)/reading (get)
void SeekPut( SeekType_t type, int offset );
bool SeekGet( SeekType_t type, int offset );
// Buffer base
const void* Base() const;
void* Base();
// Returns the base as a const char*, only valid in text mode.
const char *String() const;
// Copies the content of the buffer into a string (valid for binary and text mode).
void CopyToString( CUtlString &strText ) const;
// memory allocation size, does *not* reflect size written or read,
// use TellPut or TellGet for that
int Size() const; // FIXME will delete soon
int SizeAllocated() const;
// Am I a text buffer?
bool IsText() const;
// Am I externally allocated (may not be growable, check below)
bool IsExternallyAllocated() const;
// Can I grow if I'm externally allocated?
bool IsGrowable() const;
// Am I valid? (overflow or underflow error), Once invalid it stays invalid
bool IsValid() const;
// Do I contain carriage return/linefeeds?
bool ContainsCRLF() const;
// Am I read-only
bool IsReadOnly() const;
// Converts a buffer from a CRLF buffer to a CR buffer (and back)
// Returns false if no conversion was necessary (and outBuf is left untouched)
// If the conversion occurs, outBuf will be cleared.
bool ConvertCRLF( CUtlBuffer &outBuf );
// Push/pop pretty-printing tabs
void PushTab();
void PopTab();
// Temporarily disables pretty print
void EnableTabs( bool bEnable );
// Securely erases buffer
void SecureZero();
protected:
// error flags
enum
{
PUT_OVERFLOW = 0x1,
GET_OVERFLOW = 0x2,
MAX_ERROR_FLAG = GET_OVERFLOW,
};
void SetOverflowFuncs( UtlBufferOverflowFunc_t getFunc, UtlBufferOverflowFunc_t putFunc );
bool OnPutOverflow( int nSize );
bool OnGetOverflow( int nSize );
protected:
// Checks if a get/put is ok
bool CheckPut( int size );
bool CheckGet( int size );
void AddNullTermination( );
// Methods to help with pretty-printing
bool WasLastCharacterCR();
void PutTabs();
// Help with delimited stuff
char GetDelimitedCharInternal( CUtlCharConversion *pConv );
void PutDelimitedCharInternal( CUtlCharConversion *pConv, char c );
// Default overflow funcs
bool PutOverflow( int nSize );
bool GetOverflow( int nSize );
// Does the next bytes of the buffer match a pattern?
bool PeekStringMatch( int nOffset, const char *pString, int nLen );
// How much whitespace should I skip?
int PeekWhiteSpace( int nOffset );
// Checks if a peek get is ok
bool CheckPeekGet( int nOffset, int nSize );
// Call this to peek arbitrarily long into memory. It doesn't fail unless
// it can't read *anything* new
bool CheckArbitraryPeekGet( int nOffset, int &nIncrement );
CUtlMemory<uint8_t> m_Memory;
int m_Get;
int m_Put;
int m_nMaxPut;
uint16_t m_nTab;
uint8_t m_Error;
uint8_t m_Flags;
UtlBufferOverflowFunc_t m_GetOverflowFunc;
UtlBufferOverflowFunc_t m_PutOverflowFunc;
private:
// Returns max amount of data written. Used internally but externally you should use put / seek
int TellMaxPut() const;
// Copy construction and assignment are not valid
CUtlBuffer(const CUtlBuffer& rhs);
const CUtlBuffer& operator=(const CUtlBuffer& rhs);
};
//-----------------------------------------------------------------------------
// Where am I reading?
//-----------------------------------------------------------------------------
inline int CUtlBuffer::TellGet() const
{
return m_Get;
}
//-----------------------------------------------------------------------------
// How many bytes remain to be read?
//-----------------------------------------------------------------------------
inline int CUtlBuffer::GetBytesRemaining() const
{
return m_nMaxPut - TellGet();
}
//-----------------------------------------------------------------------------
// What am I reading?
//-----------------------------------------------------------------------------
inline const void* CUtlBuffer::PeekGet( int offset ) const
{
return &m_Memory[ m_Get + offset ];
}
//-----------------------------------------------------------------------------
// no offset so optimizer can resolve the function
//-----------------------------------------------------------------------------
inline const void* CUtlBuffer::PeekGet() const
{
return &m_Memory[ m_Get ];
}
//-----------------------------------------------------------------------------
// Reserve nBytes at the put location and return pointer; follow with SeekPut
//-----------------------------------------------------------------------------
inline void *CUtlBuffer::ReservePut( int nBytes )
{
return CheckPut( nBytes ) ? PeekPut() : NULL;
}
//-----------------------------------------------------------------------------
// Unserialization
//-----------------------------------------------------------------------------
#if defined(__arm__) || defined(__arm64__)
#define COPY_TYPE( _type, _val ) V_memcpy( &_val, PeekGet(), sizeof( _type ) )
#else
#define COPY_TYPE( _type, _val ) _val = *(_type *)PeekGet()
#endif
#define GET_TYPE( _type, _val, _fmt ) \
if ( !IsText() ) \
{ \
if (CheckGet( sizeof(_type) )) \
{ \
if ( (sizeof(_type)>1) && (m_Flags & CUtlBuffer::LITTLE_ENDIAN_BUFFER ) ) \
{ \
if( sizeof(_type) == 2 ) \
{ \
_val = LittleWord( (uint16_t)*(_type *)PeekGet() ); \
} \
else if ( sizeof(_type) == 4 ) \
{ \
_val = LittleDWord( (uint32_t)*(_type *)PeekGet() ); \
} \
else if ( sizeof(_type) == 8 ) \
{ \
_val = LittleQWord( (uint64_t)*(_type *)PeekGet() ); \
} \
else \
{ \
Assert( !"Type not supported" ); \
} \
} \
else if ( (sizeof(_type)>1) && (m_Flags & CUtlBuffer::BIG_ENDIAN_BUFFER ) ) \
{ \
if( sizeof(_type) == 2 ) \
{ \
_val = BigWord( (uint16_t)*(_type *)PeekGet() ); \
} \
else if ( sizeof(_type) == 4 ) \
{ \
_val = BigDWord( (uint32_t)*(_type *)PeekGet() ); \
} \
else if ( sizeof(_type) == 8 ) \
{ \
_val = BigQWord( (uint64_t)*(_type *)PeekGet() ); \
} \
else \
{ \
Assert( !"Type not supported" ); \
} \
} \
else \
{ \
COPY_TYPE( _type, _val ); \
} \
m_Get += sizeof(_type); \
} \
else \
{ \
_val = 0; \
} \
} \
else \
{ \
_val = 0; \
Scanf( _fmt, &_val ); \
}
//-----------------------------------------------------------------------------
// Where am I writing?
//-----------------------------------------------------------------------------
inline unsigned char CUtlBuffer::GetFlags() const
{
return m_Flags;
}
//-----------------------------------------------------------------------------
// Where am I writing?
//-----------------------------------------------------------------------------
inline int CUtlBuffer::TellPut() const
{
return m_Put;
}
//-----------------------------------------------------------------------------
// What's the most I've ever written?
//-----------------------------------------------------------------------------
inline int CUtlBuffer::TellMaxPut( ) const
{
return m_nMaxPut;
}
//-----------------------------------------------------------------------------
// What am I reading?
//-----------------------------------------------------------------------------
inline void* CUtlBuffer::PeekPut( int offset )
{
return &m_Memory[m_Put + offset];
}
//-----------------------------------------------------------------------------
//-----------------------------------------------------------------------------
// Various put methods
//-----------------------------------------------------------------------------
#define PUT_BIN_DATA( _type, _val ) \
if ( CheckPut( sizeof(_type) ) ) \
{ \
if ( (sizeof(_type)>1) && (m_Flags & CUtlBuffer::LITTLE_ENDIAN_BUFFER ) ) \
{ \
if( sizeof(_type) == 2 ) \
{ \
*(_type *)PeekPut() = (_type)LittleWord( (uint16_t)_val ); \
} \
else if ( sizeof(_type) == 4 ) \
{ \
*(_type *)PeekPut() = (_type)LittleDWord( (uint32_t)_val ); \
} \
else if ( sizeof(_type) == 8 ) \
{ \
*(_type *)PeekPut() = (_type)LittleQWord( (uint64_t)_val ); \
} \
else \
{ \
Assert( !"Type not supported" ); \
} \
} \
else if ( (sizeof(_type)>1) && (m_Flags & CUtlBuffer::BIG_ENDIAN_BUFFER ) ) \
{ \
if( sizeof(_type) == 2 ) \
{ \
*(_type *)PeekPut() = (_type)BigWord( (uint16_t)_val ); \
} \
else if ( sizeof(_type) == 4 ) \
{ \
*(_type *)PeekPut() = (_type)BigDWord( (uint32_t)_val ); \
} \
else if ( sizeof(_type) == 8 ) \
{ \
*(_type *)PeekPut() = (_type)BigQWord( (uint64_t)_val ); \
} \
else \
{ \
Assert( !"Type not supported" ); \
} \
} \
else \
{ \
*(_type *)PeekPut() = _val; \
} \
m_Put += sizeof(_type); \
AddNullTermination(); \
} \
#define PUT_TYPE( _type, _val ) \
if (!IsText()) \
{ \
PUT_BIN_DATA( _type, _val ); \
} \
else \
{ \
PutString( CNumStr( _val ) ); \
}
//-----------------------------------------------------------------------------
// Methods to help with pretty-printing
//-----------------------------------------------------------------------------
inline bool CUtlBuffer::WasLastCharacterCR()
{
if ( !IsText() || (TellPut() == 0) )
return false;
return ( *( const char * )PeekPut( -1 ) == '\n' );
}
inline void CUtlBuffer::PutTabs()
{
int nTabCount = ( m_Flags & AUTO_TABS_DISABLED ) ? 0 : m_nTab;
for (int i = nTabCount; --i >= 0; )
{
PUT_BIN_DATA( char, '\t' );
}
}
//-----------------------------------------------------------------------------
// Push/pop pretty-printing tabs
//-----------------------------------------------------------------------------
inline void CUtlBuffer::PushTab( )
{
++m_nTab;
}
inline void CUtlBuffer::PopTab()
{
if ( m_nTab )
{
m_nTab--;
}
}
//-----------------------------------------------------------------------------
// Temporarily disables pretty print
//-----------------------------------------------------------------------------
inline void CUtlBuffer::EnableTabs( bool bEnable )
{
if ( bEnable )
{
m_Flags &= ~AUTO_TABS_DISABLED;
}
else
{
m_Flags |= AUTO_TABS_DISABLED;
}
}
//-----------------------------------------------------------------------------
// Am I a text buffer?
//-----------------------------------------------------------------------------
inline bool CUtlBuffer::IsText() const
{
return (m_Flags & TEXT_BUFFER) != 0;
}
//-----------------------------------------------------------------------------
// Can I grow if I'm externally allocated?
//-----------------------------------------------------------------------------
inline bool CUtlBuffer::IsGrowable() const
{
return (m_Flags & EXTERNAL_GROWABLE) != 0;
}
//-----------------------------------------------------------------------------
// Am I externally allocated (may need to check IsGrowable or can't grow buffer)
//-----------------------------------------------------------------------------
inline bool CUtlBuffer::IsExternallyAllocated() const
{
return m_Memory.IsExternallyAllocated();
}
//-----------------------------------------------------------------------------
// Am I valid? (overflow or underflow error), Once invalid it stays invalid
//-----------------------------------------------------------------------------
inline bool CUtlBuffer::IsValid() const
{
return m_Error == 0;
}
//-----------------------------------------------------------------------------
// Do I contain carriage return/linefeeds?
//-----------------------------------------------------------------------------
inline bool CUtlBuffer::ContainsCRLF() const
{
return IsText() && ((m_Flags & CONTAINS_CRLF) != 0);
}
//-----------------------------------------------------------------------------
// Am I read-only
//-----------------------------------------------------------------------------
inline bool CUtlBuffer::IsReadOnly() const
{
return (m_Flags & READ_ONLY) != 0;
}
//-----------------------------------------------------------------------------
// Buffer base and size
//-----------------------------------------------------------------------------
inline const void* CUtlBuffer::Base() const
{
return m_Memory.Base();
}
inline void* CUtlBuffer::Base()
{
return m_Memory.Base();
}
// Returns the base as a const char*, only valid in text mode.
inline const char *CUtlBuffer::String() const
{
Assert( IsText() );
const char *pchReturn = reinterpret_cast<const char*>( m_Memory.Base() );
// Never return NULL
if ( pchReturn )
return pchReturn;
else
return "";
}
inline void CUtlBuffer::CopyToString( CUtlString &strText ) const
{
strText.SetDirect( (const char *)Base(), TellMaxPut() );
}
inline int CUtlBuffer::Size() const // FIXME delete soon
{
return m_Memory.NumAllocated();
}
inline int CUtlBuffer::SizeAllocated() const
{
return m_Memory.NumAllocated();
}
//-----------------------------------------------------------------------------
// Clears out the buffer; does not free memory
//-----------------------------------------------------------------------------
inline void CUtlBuffer::Clear()
{
m_Get = 0;
m_Put = 0;
m_Error = 0;
m_nMaxPut = -1;
AddNullTermination();
}
//-----------------------------------------------------------------------------
// Clears out the buffer; frees memory
//-----------------------------------------------------------------------------
inline void CUtlBuffer::Purge()
{
m_Get = 0;
m_Put = 0;
m_nMaxPut = 0;
m_Error = 0;
m_Memory.Purge();
}
inline void CUtlBuffer::CopyBuffer( const CUtlBuffer &buffer )
{
CopyBuffer( buffer.Base(), buffer.TellPut() );
}
inline void CUtlBuffer::CopyBuffer( const void *pubData, int cubData )
{
Clear();
if ( cubData )
{
Put( pubData, cubData );
}
}
#endif // UTLBUFFER_H