third_party/unrar/src/unpack50frag.cpp - chromium/src - Git at Google

 namespace third_party_unrar {

 FragmentedWindow::FragmentedWindow()
 {
   memset(Mem,0,sizeof(Mem));
   memset(MemSize,0,sizeof(MemSize));
 }


 FragmentedWindow::~FragmentedWindow()
 {
   Reset();
 }


 void FragmentedWindow::Reset()
 {
   for (uint I=0;I<ASIZE(Mem);I++)
     if (Mem[I]!=NULL)
     {
       free(Mem[I]);
       Mem[I]=NULL;
     }
 }


 void FragmentedWindow::Init(size_t WinSize)
 {
   Reset();

   uint BlockNum=0;
   size_t TotalSize=0; // Already allocated.
   while (TotalSize<WinSize && BlockNum<ASIZE(Mem))
   {
     size_t Size=WinSize-TotalSize; // Size needed to allocate.

     // Minimum still acceptable block size. Next allocations cannot be larger
     // than current, so we do not need blocks if they are smaller than
     // "size left / attempts left". Also we do not waste time to blocks
     // smaller than some arbitrary constant.
     size_t MinSize=Max(Size/(ASIZE(Mem)-BlockNum), 0x400000);

     byte *NewMem=NULL;
     while (Size>=MinSize)
     {
       NewMem=(byte *)malloc(Size);
       if (NewMem!=NULL)
         break;
       Size-=Size/32;
     }
     if (NewMem == NULL)
     {
 #if defined(UNRAR_NO_EXCEPTIONS)
       base::TerminateBecauseOutOfMemory(Size);
 #else
       throw std::bad_alloc();
 #endif  // defined(UNRAR_NO_EXCEPTIONS)
     }

     // Clean the window to generate the same output when unpacking corrupt
     // RAR files, which may access to unused areas of sliding dictionary.
     memset(NewMem,0,Size);

     Mem[BlockNum]=NewMem;
     TotalSize+=Size;
     MemSize[BlockNum]=TotalSize;
     BlockNum++;
   }
   if (TotalSize < WinSize)  // Not found enough free blocks.
   {
 #if defined(UNRAR_NO_EXCEPTIONS)
     base::TerminateBecauseOutOfMemory(WinSize);
 #else
     throw std::bad_alloc();
 #endif  // defined(UNRAR_NO_EXCEPTIONS)
   }
 }


 byte& FragmentedWindow::operator [](size_t Item)
 {
   if (Item<MemSize[0])
     return Mem[0][Item];
   for (uint I=1;I<ASIZE(MemSize);I++)
     if (Item<MemSize[I])
       return Mem[I][Item-MemSize[I-1]];
   return Mem[0][0]; // Must never happen;
 }


 void FragmentedWindow::CopyString(uint Length,uint Distance,size_t &UnpPtr,size_t MaxWinMask)
 {
   size_t SrcPtr=UnpPtr-Distance;
   while (Length-- > 0)
   {
     (*this)[UnpPtr]=(*this)[SrcPtr++ & MaxWinMask];
     // We need to have masked UnpPtr after quit from loop, so it must not
     // be replaced with '(*this)[UnpPtr++ & MaxWinMask]'
     UnpPtr=(UnpPtr+1) & MaxWinMask;
   }
 }


 void FragmentedWindow::CopyData(byte *Dest,size_t WinPos,size_t Size)
 {
   for (size_t I=0;I<Size;I++)
     Dest[I]=(*this)[WinPos+I];
 }


 size_t FragmentedWindow::GetBlockSize(size_t StartPos,size_t RequiredSize)
 {
   for (uint I=0;I<ASIZE(MemSize);I++)
     if (StartPos<MemSize[I])
       return Min(MemSize[I]-StartPos,RequiredSize);
   return 0; // Must never be here.
 }

 }  // namespace third_party_unrar
	namespace third_party_unrar {

	FragmentedWindow::FragmentedWindow()
	{
	memset(Mem,0,sizeof(Mem));
	memset(MemSize,0,sizeof(MemSize));
	}


	FragmentedWindow::~FragmentedWindow()
	{
	Reset();
	}


	void FragmentedWindow::Reset()
	{
	for (uint I=0;I<ASIZE(Mem);I++)
	if (Mem[I]!=NULL)
	{
	free(Mem[I]);
	Mem[I]=NULL;
	}
	}


	void FragmentedWindow::Init(size_t WinSize)
	{
	Reset();

	uint BlockNum=0;
	size_t TotalSize=0; // Already allocated.
	while (TotalSize<WinSize && BlockNum<ASIZE(Mem))
	{
	size_t Size=WinSize-TotalSize; // Size needed to allocate.

	// Minimum still acceptable block size. Next allocations cannot be larger
	// than current, so we do not need blocks if they are smaller than
	// "size left / attempts left". Also we do not waste time to blocks
	// smaller than some arbitrary constant.
	size_t MinSize=Max(Size/(ASIZE(Mem)-BlockNum), 0x400000);

	byte *NewMem=NULL;
	while (Size>=MinSize)
	{
	NewMem=(byte *)malloc(Size);
	if (NewMem!=NULL)
	break;
	Size-=Size/32;
	}
	if (NewMem == NULL)
	{
	#if defined(UNRAR_NO_EXCEPTIONS)
	base::TerminateBecauseOutOfMemory(Size);
	#else
	throw std::bad_alloc();
	#endif // defined(UNRAR_NO_EXCEPTIONS)
	}

	// Clean the window to generate the same output when unpacking corrupt
	// RAR files, which may access to unused areas of sliding dictionary.
	memset(NewMem,0,Size);

	Mem[BlockNum]=NewMem;
	TotalSize+=Size;
	MemSize[BlockNum]=TotalSize;
	BlockNum++;
	}
	if (TotalSize < WinSize) // Not found enough free blocks.
	{
	#if defined(UNRAR_NO_EXCEPTIONS)
	base::TerminateBecauseOutOfMemory(WinSize);
	#else
	throw std::bad_alloc();
	#endif // defined(UNRAR_NO_EXCEPTIONS)
	}
	}


	byte& FragmentedWindow::operator [](size_t Item)
	{
	if (Item<MemSize[0])
	return Mem[0][Item];
	for (uint I=1;I<ASIZE(MemSize);I++)
	if (Item<MemSize[I])
	return Mem[I][Item-MemSize[I-1]];
	return Mem[0][0]; // Must never happen;
	}


	void FragmentedWindow::CopyString(uint Length,uint Distance,size_t &UnpPtr,size_t MaxWinMask)
	{
	size_t SrcPtr=UnpPtr-Distance;
	while (Length-- > 0)
	{
	(this)[UnpPtr]=(this)[SrcPtr++ & MaxWinMask];
	// We need to have masked UnpPtr after quit from loop, so it must not
	// be replaced with '(*this)[UnpPtr++ & MaxWinMask]'
	UnpPtr=(UnpPtr+1) & MaxWinMask;
	}
	}


	void FragmentedWindow::CopyData(byte *Dest,size_t WinPos,size_t Size)
	{
	for (size_t I=0;I<Size;I++)
	Dest[I]=(*this)[WinPos+I];
	}


	size_t FragmentedWindow::GetBlockSize(size_t StartPos,size_t RequiredSize)
	{
	for (uint I=0;I<ASIZE(MemSize);I++)
	if (StartPos<MemSize[I])
	return Min(MemSize[I]-StartPos,RequiredSize);
	return 0; // Must never be here.
	}

	} // namespace third_party_unrar