Files
itgmania212121/src/RageFileDriverDeflate.cpp
T
2010-01-26 21:00:30 -06:00

576 lines
14 KiB
C++

#include "global.h"
#include "RageFileDriverDeflate.h"
#include "RageFileDriverSlice.h"
#include "RageFile.h"
#include "RageLog.h"
#include "RageUtil.h"
#include <memory>
#if defined(_WINDOWS) || defined(_XBOX)
#include "zlib/zlib.h"
#if defined(_MSC_VER) && !defined(_XBOX)
#pragma comment(lib, "zlib/zdll.lib")
#endif
#elif defined(MACOSX)
/* Since crypto++ was added to the repository, <zlib.h> includes the zlib.h
* in there rather than the correct system one. I don't know why it would do
* this since crypto51 is not being listed as one of the include directories.
* I've never run into this problem before and looking at the command line
* used to compile RageFileDriverZip.o, I have no idea how it's happening.
* --Steve
*/
#include "/usr/include/zlib.h"
#else
#include <zlib.h>
#endif
RageFileObjInflate::RageFileObjInflate( RageFileBasic *pFile, int iUncompressedSize )
{
m_bFileOwned = false;
m_pFile = pFile;
decomp_buf_avail = 0;
m_pInflate = new z_stream;
memset( m_pInflate, 0, sizeof(z_stream) );
m_iUncompressedSize = iUncompressedSize;
int err = inflateInit2( m_pInflate, -MAX_WBITS );
if( err == Z_MEM_ERROR )
RageException::Throw( "inflateInit2( %i ): out of memory.", -MAX_WBITS );
if( err != Z_OK )
WARN( ssprintf("Huh? inflateInit2() err = %i", err) );
decomp_buf_ptr = decomp_buf;
m_iFilePos = 0;
}
RageFileObjInflate::RageFileObjInflate( const RageFileObjInflate &cpy ):
RageFileObj( cpy )
{
/* XXX completely untested */
/* Copy the entire decode state. */
m_pFile = cpy.m_pFile->Copy();
m_bFileOwned = true;
m_pInflate = new z_stream;
m_iUncompressedSize = cpy.m_iUncompressedSize;
m_iFilePos = cpy.m_iFilePos;
inflateCopy( m_pInflate, const_cast<z_stream*>(cpy.m_pInflate) );
decomp_buf_ptr = decomp_buf + (cpy.decomp_buf_ptr - cpy.decomp_buf);
decomp_buf_avail = cpy.decomp_buf_avail;
memcpy( decomp_buf, cpy.decomp_buf, decomp_buf_avail );
}
RageFileObjInflate *RageFileObjInflate::Copy() const
{
return new RageFileObjInflate( *this );
}
RageFileObjInflate::~RageFileObjInflate()
{
if( m_bFileOwned )
delete m_pFile;
int err = inflateEnd( m_pInflate );
if( err != Z_OK )
WARN( ssprintf("Huh? inflateEnd() err = %i", err) );
delete m_pInflate;
}
int RageFileObjInflate::ReadInternal( void *buf, size_t bytes )
{
/* Don't read more than m_iUncompressedSize of data. If we don't do this, it's
* possible for a .gz to contain a header claiming 500k of data, but to actually
* contain much more deflated data. */
ASSERT_M( m_iFilePos <= m_iUncompressedSize, ssprintf("%i, %i",m_iFilePos, m_iUncompressedSize) );
bytes = min( bytes, size_t(m_iUncompressedSize-m_iFilePos) );
bool done=false;
int ret = 0;
while( bytes && !done )
{
if ( !decomp_buf_avail )
{
decomp_buf_ptr = decomp_buf;
decomp_buf_avail = 0;
int got = m_pFile->Read( decomp_buf, sizeof(decomp_buf) );
if( got == -1 )
{
SetError( m_pFile->GetError() );
return -1;
}
decomp_buf_avail = got;
}
m_pInflate->next_in = (Bytef *) decomp_buf_ptr;
m_pInflate->avail_in = decomp_buf_avail;
m_pInflate->next_out = (Bytef *) buf;
m_pInflate->avail_out = bytes;
int err = inflate( m_pInflate, Z_SYNC_FLUSH );
switch( err )
{
case Z_DATA_ERROR:
SetError( "Data error" );
return -1;
case Z_MEM_ERROR:
SetError( "out of memory" );
return -1;
case Z_BUF_ERROR:
SetError( "file truncated" );
return -1;
case Z_STREAM_END:
done = true;
break;
case Z_OK:
break;
default:
WARN( ssprintf("Huh? inflate err %i", err) );
}
const int used = (char *)m_pInflate->next_in - decomp_buf_ptr;
decomp_buf_ptr += used;
decomp_buf_avail -= used;
const int got = (char *)m_pInflate->next_out - (char *)buf;
m_iFilePos += got;
ret += got;
buf = (char *)buf + got;
bytes -= got;
}
return ret;
}
int RageFileObjInflate::SeekInternal( int iPos )
{
/* Optimization: if offset is the end of the file, it's a lseek(0,SEEK_END). Don't
* decode anything. */
if( iPos >= m_iUncompressedSize )
{
m_iFilePos = m_iUncompressedSize;
m_pFile->Seek( m_pFile->GetFileSize() );
decomp_buf_ptr = decomp_buf;
decomp_buf_avail = 0;
inflateReset( m_pInflate );
return m_iUncompressedSize;
}
if( iPos < m_iFilePos )
{
inflateReset( m_pInflate );
decomp_buf_ptr = decomp_buf;
decomp_buf_avail = 0;
m_pFile->Seek( 0 );
m_iFilePos = 0;
}
int iOffset = iPos - m_iFilePos;
/* Can this be optimized? */
char buf[1024*4];
while( iOffset )
{
int got = ReadInternal( buf, min( (int) sizeof(buf), iOffset ) );
if( got == -1 )
return -1;
if( got == 0 )
break;
iOffset -= got;
}
return m_iFilePos;
}
RageFileObjDeflate::RageFileObjDeflate( RageFileBasic *pFile )
{
m_pFile = pFile;
m_bFileOwned = false;
m_pDeflate = new z_stream;
memset( m_pDeflate, 0, sizeof(z_stream) );
int err = deflateInit2( m_pDeflate,
3,
Z_DEFLATED,
-15, // windowBits
8, // memLevel
Z_DEFAULT_STRATEGY );
if( err == Z_MEM_ERROR )
RageException::Throw( "inflateInit2( %i ): out of memory.", -MAX_WBITS );
if( err != Z_OK )
WARN( ssprintf("Huh? inflateInit2() err = %i", err) );
}
RageFileObjDeflate::~RageFileObjDeflate()
{
FlushInternal();
if( m_bFileOwned )
delete m_pFile;
int err = deflateEnd( m_pDeflate );
if( err != Z_OK )
WARN( ssprintf("Huh? deflateEnd() err = %i", err) );
delete m_pDeflate;
}
int RageFileObjDeflate::WriteInternal( const void *pBuffer, size_t iBytes )
{
if( iBytes == 0 )
return 0;
m_pDeflate->next_in = (Bytef*) pBuffer;
m_pDeflate->avail_in = iBytes;
while( 1 )
{
char buf[1024*4];
m_pDeflate->next_out = (Bytef *) buf;
m_pDeflate->avail_out = sizeof(buf);
int err = deflate( m_pDeflate, Z_NO_FLUSH );
if( err != Z_OK )
FAIL_M( ssprintf("deflate: err %i", err) );
if( m_pDeflate->avail_out < sizeof(buf) )
{
int iBytes = sizeof(buf)-m_pDeflate->avail_out;
int iRet = m_pFile->Write( buf, iBytes );
if( iRet == -1 )
{
SetError( m_pFile->GetError() );
return -1;
}
if( iRet < iBytes )
{
SetError( "Partial write" );
return -1;
}
}
if( m_pDeflate->avail_in == 0 && m_pDeflate->avail_out != 0 )
break;
}
return iBytes;
}
/* Note that flushing clears compression state, so (unlike most Flush() calls)
* calling this *does* change the result of the output if you continue writing
* data. */
int RageFileObjDeflate::FlushInternal()
{
m_pDeflate->avail_in = 0;
while( 1 )
{
char buf[1024*4];
m_pDeflate->next_out = (Bytef *) buf;
m_pDeflate->avail_out = sizeof(buf);
int err = deflate( m_pDeflate, Z_FINISH );
if( err != Z_OK && err != Z_STREAM_END )
FAIL_M( ssprintf("deflate: err %i", err) );
if( m_pDeflate->avail_out < sizeof(buf) )
{
int iBytes = sizeof(buf)-m_pDeflate->avail_out;
int iRet = m_pFile->Write( buf, iBytes );
if( iRet == -1 )
{
SetError( m_pFile->GetError() );
return -1;
}
if( iRet < iBytes )
{
SetError( "Partial write" );
return -1;
}
}
if( err == Z_STREAM_END && m_pDeflate->avail_out != 0 )
return m_pFile->Flush();
}
}
/*
* Parse a .gz file, check the header CRC16 if present, and return the data
* CRC32 and a decompressor. pFile will be deleted.
*/
RageFileObjInflate *GunzipFile( RageFileBasic *pFile_, RString &sError, uint32_t *iCRC32 )
{
auto_ptr<RageFileBasic> pFile(pFile_);
sError = "";
pFile->Seek(0);
pFile->EnableCRC32( true );
{
char magic[2];
FileReading::ReadBytes( *pFile, magic, 2, sError );
if( sError != "" )
return NULL;
if( magic[0] != '\x1f' || magic[1] != '\x8b' )
{
sError = "Not a gzipped file";
return NULL;
}
}
uint8_t iCompressionMethod = FileReading::read_8( *pFile, sError );
uint8_t iFlags = FileReading::read_8( *pFile, sError );
FileReading::read_32_le( *pFile, sError ); /* time */
FileReading::read_8( *pFile, sError ); /* xfl */
FileReading::read_8( *pFile, sError ); /* os */
if( sError != "" )
return NULL;
#define FTEXT 1<<0
#define FHCRC 1<<1
#define FEXTRA 1<<2
#define FNAME 1<<3
#define FCOMMENT 1<<4
#define UNSUPPORTED_MASK ~((1<<5)-1)
if( iCompressionMethod != 8 )
{
sError = ssprintf( "Unsupported compression: %i", iCompressionMethod );
return NULL;
}
/* Warning: flags other than FNAME are untested, since gzip doesn't
* actually output them. */
if( iFlags & UNSUPPORTED_MASK )
{
sError = ssprintf( "Unsupported flags: %x", iFlags );
return NULL;
}
if( iFlags & FEXTRA )
{
int16_t iSize = FileReading::read_16_le( *pFile, sError );
FileReading::SkipBytes( *pFile, iSize, sError );
}
if( iFlags & FNAME )
while( sError == "" && FileReading::read_8( *pFile, sError ) != 0 )
;
if( iFlags & FCOMMENT )
while( sError == "" && FileReading::read_8( *pFile, sError ) != 0 )
;
if( iFlags & FHCRC )
{
/* Get the CRC of the data read so far. Be sure to do this before
* reading iExpectedCRC16. */
uint32_t iActualCRC32;
bool bOK = pFile->GetCRC32( &iActualCRC32 );
ASSERT( bOK );
uint16_t iExpectedCRC16 = FileReading::read_u16_le( *pFile, sError );
uint16_t iActualCRC16 = int16_t( iActualCRC32 & 0xFFFF );
if( sError != "" )
return NULL;
if( iActualCRC16 != iExpectedCRC16 )
{
sError = "Header CRC error";
return NULL;
}
}
/* We only need CRC checking on the raw data for the header, so disable
* it. */
pFile->EnableCRC32( false );
if( sError != "" )
return NULL;
int iDataPos = pFile->Tell();
/* Seek to the end, and grab the uncompressed flie size and CRC. */
int iFooterPos = pFile->GetFileSize() - 8;
FileReading::Seek( *pFile, iFooterPos, sError );
uint32_t iExpectedCRC32 = FileReading::read_u32_le( *pFile, sError );
uint32_t iUncompressedSize = FileReading::read_u32_le( *pFile, sError );
if( iCRC32 != NULL )
*iCRC32 = iExpectedCRC32;
FileReading::Seek( *pFile, iDataPos, sError );
if( sError != "" )
return NULL;
RageFileDriverSlice *pSliceFile = new RageFileDriverSlice( pFile.release(), iDataPos, iFooterPos-iDataPos );
pSliceFile->DeleteFileWhenFinished();
RageFileObjInflate *pInflateFile = new RageFileObjInflate( pSliceFile, iUncompressedSize );
pInflateFile->DeleteFileWhenFinished();
/* Enable CRC calculation only if the caller is interested. */
if( iCRC32 != NULL )
pInflateFile->EnableCRC32();
return pInflateFile;
}
/*
* Usage:
*
* RageFile output;
* output.Open( "hello.gz", RageFile::WRITE );
*
* RageFileObjGzip gzip( &output );
* gzip.Start();
* gzip.Write( "data" );
* gzip.Finish();
*/
RageFileObjGzip::RageFileObjGzip( RageFileBasic *pFile ):
RageFileObjDeflate( pFile )
{
m_iDataStartOffset = -1;
}
/* Write the gzip header. */
int RageFileObjGzip::Start()
{
/* We should be at the start of the file. */
ASSERT( this->Tell() == 0 );
static const char header[] =
{
'\x1f', '\x8b', // magic
8, // method: deflate
0, // no flags
0, 0, 0, 0, // no time
0, // no extra flags
'\xFF' // unknown os
};
if( m_pFile->Write( header, sizeof(header) ) == -1 )
return -1;
m_iDataStartOffset = Tell();
/* Enable and reset the CRC32 for the uncompressed data about to be
* written to this file. */
this->EnableCRC32( true );
return 0;
}
/* Write the gzip footer. */
int RageFileObjGzip::Finish()
{
/* We're about to write to the underlying file (so the footer isn't
* compressed). Flush the compressed data first. */
if( this->Flush() == -1 )
return -1;
/* Read the CRC of the data that's been written. */
uint32_t iCRC;
bool bOK = this->GetCRC32( &iCRC );
ASSERT( bOK );
/* Figure out the size of the data. */
uint32_t iSize = Tell() - m_iDataStartOffset;
/* Write the CRC and size directly to the file, so they don't get compressed. */
iCRC = Swap32LE( iCRC );
if( m_pFile->Write( &iCRC, sizeof(iCRC) ) == -1 )
{
SetError( m_pFile->GetError() );
return -1;
}
/* Write the size. */
iSize = Swap32LE( iSize );
if( m_pFile->Write( &iSize, sizeof(iSize) ) == -1 )
{
SetError( m_pFile->GetError() );
return -1;
}
/* Flush the CRC and wize that we just wrote directly to the file. */
return m_pFile->Flush();
}
#include "RageFileDriverMemory.h"
void GzipString( const RString &sIn, RString &sOut )
{
/* Gzip it. */
RageFileObjMem mem;
RageFileObjGzip gzip( &mem );
gzip.Start();
gzip.Write( sIn );
gzip.Finish();
sOut = mem.GetString();
}
bool GunzipString( const RString &sIn, RString &sOut, RString &sError )
{
RageFileObjMem *mem = new RageFileObjMem;
mem->PutString( sIn );
uint32_t iCRC32;
RageFileBasic *pFile = GunzipFile( mem, sError, &iCRC32 );
if( pFile == NULL )
return false;
pFile->Read( sOut );
/* Check the CRC. */
unsigned iRet;
ASSERT( pFile->GetCRC32( &iRet ) );
SAFE_DELETE( pFile );
if( iRet != iCRC32 )
{
sError = "CRC error";
return false;
}
return true;
}
/*
* Copyright (c) 2003-2004 Glenn Maynard
* All rights reserved.
*
* Permission is hereby granted, free of charge, to any person obtaining a
* copy of this software and associated documentation files (the
* "Software"), to deal in the Software without restriction, including
* without limitation the rights to use, copy, modify, merge, publish,
* distribute, and/or sell copies of the Software, and to permit persons to
* whom the Software is furnished to do so, provided that the above
* copyright notice(s) and this permission notice appear in all copies of
* the Software and that both the above copyright notice(s) and this
* permission notice appear in supporting documentation.
*
* THE SOFTWARE IS PROVIDED "AS IS", WITHOUT WARRANTY OF ANY KIND, EXPRESS
* OR IMPLIED, INCLUDING BUT NOT LIMITED TO THE WARRANTIES OF
* MERCHANTABILITY, FITNESS FOR A PARTICULAR PURPOSE AND NONINFRINGEMENT OF
* THIRD PARTY RIGHTS. IN NO EVENT SHALL THE COPYRIGHT HOLDER OR HOLDERS
* INCLUDED IN THIS NOTICE BE LIABLE FOR ANY CLAIM, OR ANY SPECIAL INDIRECT
* OR CONSEQUENTIAL DAMAGES, OR ANY DAMAGES WHATSOEVER RESULTING FROM LOSS
* OF USE, DATA OR PROFITS, WHETHER IN AN ACTION OF CONTRACT, NEGLIGENCE OR
* OTHER TORTIOUS ACTION, ARISING OUT OF OR IN CONNECTION WITH THE USE OR
* PERFORMANCE OF THIS SOFTWARE.
*/