CWE-ou-minkata/Sources/Plasma/PubUtilLib/plResMgr/plDiffBuffer.cpp

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*==LICENSE==*/
//////////////////////////////////////////////////////////////////////////////
//
//	plDiffBuffer - A utility class for writing and applying a difference
//				   buffer--i.e. a buffer containing a series of modifications
//				   (specifically, adds and copys) that will modify an old
//				   data buffer to match a new one. It's a useful utility
//				   class when doing binary file patching, for example, as you
//				   can write out the changes to this class, get back a data
//				   buffer suitable for writing, then use this class again
//				   later to reconstruct the new buffer.
//
//// History /////////////////////////////////////////////////////////////////
//
//	7.24.2002 mcn	- Created (Happy late b-day to me!)
//
//////////////////////////////////////////////////////////////////////////////

#include "hsTypes.h"
#include "plDiffBuffer.h"
#include "plBSDiffBuffer.h"
#include "hsUtils.h"
#include "hsStream.h"


//////////////////////////////////////////////////////////////////////////////
//// Constructor/Destructors /////////////////////////////////////////////////
//////////////////////////////////////////////////////////////////////////////

//// Creation Constructor ////////////////////////////////////////////////////
//	Use this constructor when creating a new diff buffer. Pass in the length
//	of the final new buffer. You don't need to pass in the length of the old
//	buffer, but if you do, it'll help this class do some internal space 
//	optimization.

plDiffBuffer::plDiffBuffer( UInt32 newLength, UInt32 oldLength )
: fBSDiffBuffer( nil )
, fIsBSDiff( false )
{
	// Basically, if the new and old lengths can both fit into 16 bits 
	// (not including a potential negation), then we can store all the
	// segment info as 16-bit values instead of 32.
	if( oldLength > 0 && oldLength < 32767 && newLength < 32767 )
		f16BitMode = true;
	else
		f16BitMode = false;

	fNewLength = newLength;
	fStream = TRACKED_NEW hsRAMStream();
	fStream->WriteSwap32( fNewLength );
	fStream->WriteBool( f16BitMode );
	fWriting = true;
}

//// Application Constructor /////////////////////////////////////////////////
//	Use this constructor when taking a diff buffer and applying it to an old
//	buffer. Pass in a pointer to the diff buffer and its length. The buffer
//	will be copied, so you don't need to keep it around after you construct
//	this object.

plDiffBuffer::plDiffBuffer( void *buffer, UInt32 length )
: fBSDiffBuffer( nil )
, fStream( nil )
, fIsBSDiff( false )
, fWriting( false )
{
	// Check to see if this uses the newer BSDiff format
	if ( buffer && length > 32 &&
		 memcmp(buffer,"BSDIFF40",8)==0 )
	{
		// This is a bsdiff buffer. Use plBSDiffBuffer to handle it.
		fBSDiffBuffer = TRACKED_NEW plBSDiffBuffer(buffer, length);
		fIsBSDiff = true;
	}
	else
	{
		fStream = TRACKED_NEW hsRAMStream();
		fStream->Write( length, buffer );
		fStream->Rewind();

		fNewLength = fStream->ReadSwap32();
		f16BitMode = fStream->ReadBool();
	}
}

plDiffBuffer::~plDiffBuffer()
{
	if (fStream)
		delete fStream;
	if (fBSDiffBuffer)
		delete fBSDiffBuffer;
}


//////////////////////////////////////////////////////////////////////////////
//// Creation/Write Functions ////////////////////////////////////////////////
//////////////////////////////////////////////////////////////////////////////

//// Add /////////////////////////////////////////////////////////////////////
//	Add() appends an Add-New-Data operation to the diff buffer. The data 
//	supplied will be copied internally, so you can discard it after you call
//	this function. 

void	plDiffBuffer::Add( Int32 length, void *newData )
{
	hsAssert( fWriting, "Trying to Add() to a difference buffer that's reading" );

	// We flag our two different op types by the sign of the length. Negative
	// lengths are an add operation, positive ones are copy ops.
	if( f16BitMode )
		fStream->WriteSwap16( -( (Int16)length ) );
	else
		fStream->WriteSwap32( -length );
	fStream->Write( length, newData );
}

//// Copy ////////////////////////////////////////////////////////////////////
//	Copy() appends a Copy-Data-From-Old operation to the diff buffer. 

void	plDiffBuffer::Copy( Int32 length, UInt32 oldOffset )
{
	hsAssert( fWriting, "Trying to Copy() to a difference buffer that's reading" );

	// We flag our two different op types by the sign of the length. Negative
	// lengths are an add operation, positive ones are copy ops.
	if( f16BitMode )
	{
		fStream->WriteSwap16( (Int16)length );
		fStream->WriteSwap16( (UInt16)oldOffset );
	}
	else
	{
		fStream->WriteSwap32( length );
		fStream->WriteSwap32( oldOffset );
	}
}

//// GetBuffer ///////////////////////////////////////////////////////////////
//	GetBuffer() will copy the diff stream into a new buffer and return it.
//	You are responsible for freeing the buffer. Call this once you're done 
//	adding ops and want the raw data to write out somewhere. Note: this
//	function will rewind the diff stream, so once you call it, you can't do
//	anything else on the object.

void	plDiffBuffer::GetBuffer( UInt32 &length, void *&bufferPtr )
{
	hsAssert( fWriting, "Trying to GetBuffer() on a difference buffer that's reading" );

	length = fStream->GetPosition();
	bufferPtr = (void *)TRACKED_NEW UInt8[ length ];

	fStream->Rewind();
	fStream->Read( length, bufferPtr );
}


//////////////////////////////////////////////////////////////////////////////
//// Application Functions ///////////////////////////////////////////////////
//////////////////////////////////////////////////////////////////////////////

//// Apply ///////////////////////////////////////////////////////////////////
//	Apply() will take this diff buffer and apply it to the given old buffer, 
//	allocating and producing a new buffer. You are responsible for freeing 
//	the new buffer.

#define hsAssertAndBreak( cond, msg ) { if( cond ) { hsAssert( false, msg ); break; } }

void	plDiffBuffer::Apply( UInt32 oldLength, void *oldBuffer, UInt32 &newLength, void *&newBuffer )
{
	hsAssert( !fWriting, "Trying to Apply() a difference buffer that's writing" );

	// Is this is a BSDiff patch, use plBSDiffBuffer and return.
	if (fIsBSDiff)
	{
		fBSDiffBuffer->Apply(oldLength, oldBuffer, newLength, newBuffer);
		return;
	}

	/// Step 1: Allocate the new buffer
	newLength = fNewLength;
	UInt8 *new8Buffer = TRACKED_NEW UInt8[ newLength ];
	UInt8 *old8Buffer = (UInt8 *)oldBuffer;
	newBuffer = (void *)new8Buffer;


	/// Step 2: Loop through the difference stream
	Int32	opLength;
	UInt32	newBufferPos = 0;
	while( newBufferPos < newLength )
	{
		// Read in the op length
		if( f16BitMode )
		{
			Int16 opLen16 = fStream->ReadSwap16();
			if( opLen16 < 0 )
				opLength = -( (Int32)( -opLen16 ) );
			else
				opLength = (UInt32)opLen16;
		}
		else
			opLength = fStream->ReadSwap32();

		// As defined, negative ops are add ops, positive ones are copys
		if( opLength < 0 )
		{
			hsAssertAndBreak( newBufferPos - opLength > newLength, "Destination buffer offset in plDiffBuffer() is out of range!" );

			// Add op, read in the added data
			fStream->Read( -opLength, &new8Buffer[ newBufferPos ] );
			newBufferPos += -opLength;
		}
		else
		{
			// Copy op, so get the old offset and copy from there
			UInt32 oldOffset = f16BitMode ? fStream->ReadSwap16() : fStream->ReadSwap32();

			hsAssertAndBreak( newBufferPos + opLength > newLength, "Destination buffer offset in plDiffBuffer() is out of range!" );
			hsAssertAndBreak( oldOffset + opLength > oldLength, "Difference buffer offset in plDiffBuffer() is out of range of the old buffer!" );

			memcpy( &new8Buffer[ newBufferPos ], old8Buffer + oldOffset, opLength );
			newBufferPos += opLength;
		}
	}

	hsAssert( newBufferPos == newLength, "Invalid sequence of difference ops in plDiffBuffer::Apply()" );
}