Trying to figure out how to implement my WINC like compatibility layer. Going the emulation way is probably not so smart. We should not use the kernel but rather hook native functions in the Exec calls.
// Copyright (c) 1998-2009 Nokia Corporation and/or its subsidiary(-ies).
// All rights reserved.
// This component and the accompanying materials are made available
// under the terms of the License "Eclipse Public License v1.0"
// which accompanies this distribution, and is available
// at the URL "http://www.eclipse.org/legal/epl-v10.html".
//
// Initial Contributors:
// Nokia Corporation - initial contribution.
//
// Contributors:
//
// Description:
// f32\sfile\sf_inflate.h
//
//
#include "sf_deflate.h"
#include "sf_ldr.h"
// Class RInflater
//
// The inflation algorithm, complete with huffman decoding
inline CInflater::CInflater(TBitInput& aInput)
:iBits(&aInput),iEncoding(0),iOut(0)
{}
void CInflater::ConstructL()
{
iEncoding=new(ELeave) TEncoding;
InitL();
iLen=0;
iOut=new(ELeave) TUint8[KDeflateMaxDistance];
iAvail=iLimit=iOut;
}
CInflater* CInflater::NewLC(TBitInput& aInput)
{
CInflater* self=new(ELeave) CInflater(aInput);
CleanupStack::PushL(self);
self->ConstructL();
return self;
}
CInflater::~CInflater()
{
delete iEncoding;
delete [] iOut;
}
TInt CInflater::ReadL(TUint8* aBuffer,TInt aLength, TMemoryMoveFunction aMemMovefn)
{
TInt tfr=0;
for (;;)
{
TInt len=Min(aLength,iLimit-iAvail);
if (len && aBuffer)
{
aMemMovefn(aBuffer,iAvail,len);
aBuffer+=len;
}
aLength-=len;
iAvail+=len;
tfr+=len;
if (aLength==0)
return tfr;
len=InflateL();
if (len==0)
return tfr;
iAvail=iOut;
iLimit=iAvail+len;
}
}
TInt CInflater::SkipL(TInt aLength)
{
return ReadL(0,aLength,Mem::Move);
}
void CInflater::InitL()
{
// read the encoding
Huffman::InternalizeL(*iBits,iEncoding->iLitLen,KDeflationCodes);
// validate the encoding
if (!Huffman::IsValid(iEncoding->iLitLen,TEncoding::ELitLens) ||
!Huffman::IsValid(iEncoding->iDistance,TEncoding::EDistances))
LEAVE_FAILURE(KErrCorrupt);
// convert the length tables into huffman decoding trees
Huffman::Decoding(iEncoding->iLitLen,TEncoding::ELitLens,iEncoding->iLitLen);
Huffman::Decoding(iEncoding->iDistance,TEncoding::EDistances,iEncoding->iDistance,KDeflateDistCodeBase);
}
TInt CInflater::InflateL()
//
// consume all data lag in the history buffer, then decode to fill up the output buffer
// return the number of available bytes in the output buffer. This is only ever less than
// the buffer size if the end of stream marker has been read
//
{
// empty the history buffer into the output
TUint8* out=iOut;
TUint8* const end=out+KDeflateMaxDistance;
const TUint32* tree=iEncoding->iLitLen;
if (iLen<0) // EOF
return 0;
if (iLen>0)
goto useHistory;
//
while (out<end)
{
// get a huffman code
{
TInt val=iBits->HuffmanL(tree)-TEncoding::ELiterals;
if (val<0)
{
*out++=TUint8(val);
continue; // another literal/length combo
}
if (val==TEncoding::EEos-TEncoding::ELiterals)
{ // eos marker. we're done
iLen=-1;
break;
}
// get the extra bits for the code
TInt code=val&0xff;
if (code>=8)
{ // xtra bits
TInt xtra=(code>>2)-1;
code-=xtra<<2;
code<<=xtra;
code|=iBits->ReadL(xtra);
}
if (val<KDeflateDistCodeBase-TEncoding::ELiterals)
{
// length code... get the code
if(TUint(code)>TUint(KDeflateMaxLength-KDeflateMinLength))
{
CHECK_FAILURE(KErrCorrupt);
goto error;
}
iLen=code+KDeflateMinLength;
tree=iEncoding->iDistance;
continue; // read the huffman code
}
// distance code
if(TUint(code)>TUint(KDeflateMaxDistance-1))
{
CHECK_FAILURE(KErrCorrupt);
goto error;
}
iRptr=out-(code+1);
if (iRptr+KDeflateMaxDistance<end)
iRptr+=KDeflateMaxDistance;
if(!iLen)
{
CHECK_FAILURE(KErrCorrupt);
goto error;
}
}
useHistory:
{
TInt tfr=Min(end-out,iLen);
iLen-=tfr;
const TUint8* from=iRptr;
do
{
*out++=*from++;
if (from==end)
from-=KDeflateMaxDistance;
} while (--tfr!=0);
iRptr=from;
tree=iEncoding->iLitLen;
}
};
return out-iOut;
error:
LEAVE_FAILURE(KErrCorrupt);
return 0;
}