198 lines
3.9 KiB
C++
Vendored
198 lines
3.9 KiB
C++
Vendored
#include "rar.hpp"
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RawRead::RawRead()
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{
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RawRead::SrcFile=NULL;
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Reset();
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}
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RawRead::RawRead(File *SrcFile)
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{
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RawRead::SrcFile=SrcFile;
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Reset();
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}
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void RawRead::Reset()
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{
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Data.SoftReset();
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ReadPos=0;
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DataSize=0;
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Crypt=NULL;
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}
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size_t RawRead::Read(size_t Size)
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{
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size_t ReadSize=0;
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#if !defined(RAR_NOCRYPT)
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if (Crypt!=NULL)
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{
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// Full size of buffer with already read data including data read
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// for encryption block alignment.
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size_t FullSize=Data.Size();
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// Data read for alignment and not processed yet.
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size_t DataLeft=FullSize-DataSize;
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if (Size>DataLeft) // Need to read more than we already have.
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{
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size_t SizeToRead=Size-DataLeft;
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size_t AlignedReadSize=SizeToRead+((~SizeToRead+1) & CRYPT_BLOCK_MASK);
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Data.Add(AlignedReadSize);
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ReadSize=SrcFile->Read(&Data[FullSize],AlignedReadSize);
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Crypt->DecryptBlock(&Data[FullSize],AlignedReadSize);
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DataSize+=ReadSize==0 ? 0:Size;
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}
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else // Use buffered data, no real read.
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{
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ReadSize=Size;
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DataSize+=Size;
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}
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}
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else
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#endif
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if (Size!=0)
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{
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Data.Add(Size);
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ReadSize=SrcFile->Read(&Data[DataSize],Size);
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DataSize+=ReadSize;
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}
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return ReadSize;
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}
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void RawRead::Read(byte *SrcData,size_t Size)
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{
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if (Size!=0)
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{
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Data.Add(Size);
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memcpy(&Data[DataSize],SrcData,Size);
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DataSize+=Size;
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}
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}
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byte RawRead::Get1()
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{
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return ReadPos<DataSize ? Data[ReadPos++]:0;
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}
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ushort RawRead::Get2()
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{
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if (ReadPos+1<DataSize)
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{
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ushort Result=Data[ReadPos]+(Data[ReadPos+1]<<8);
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ReadPos+=2;
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return Result;
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}
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return 0;
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}
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uint RawRead::Get4()
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{
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if (ReadPos+3<DataSize)
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{
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uint Result=Data[ReadPos]+(Data[ReadPos+1]<<8)+(Data[ReadPos+2]<<16)+
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(Data[ReadPos+3]<<24);
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ReadPos+=4;
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return Result;
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}
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return 0;
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}
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uint64 RawRead::Get8()
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{
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uint Low=Get4(),High=Get4();
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return INT32TO64(High,Low);
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}
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uint64 RawRead::GetV()
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{
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uint64 Result=0;
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// Need to check Shift<64, because for shift greater than or equal to
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// the width of the promoted left operand, the behavior is undefined.
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for (uint Shift=0;ReadPos<DataSize && Shift<64;Shift+=7)
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{
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byte CurByte=Data[ReadPos++];
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Result+=uint64(CurByte & 0x7f)<<Shift;
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if ((CurByte & 0x80)==0)
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return Result; // Decoded successfully.
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}
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return 0; // Out of buffer border.
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}
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// Return a number of bytes in current variable length integer.
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uint RawRead::GetVSize(size_t Pos)
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{
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for (size_t CurPos=Pos;CurPos<DataSize;CurPos++)
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if ((Data[CurPos] & 0x80)==0)
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return int(CurPos-Pos+1);
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return 0; // Buffer overflow.
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}
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size_t RawRead::GetB(void *Field,size_t Size)
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{
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byte *F=(byte *)Field;
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size_t CopySize=Min(DataSize-ReadPos,Size);
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if (CopySize>0)
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memcpy(F,&Data[ReadPos],CopySize);
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if (Size>CopySize)
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memset(F+CopySize,0,Size-CopySize);
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ReadPos+=CopySize;
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return CopySize;
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}
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void RawRead::GetW(wchar *Field,size_t Size)
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{
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if (ReadPos+2*Size-1<DataSize)
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{
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RawToWide(&Data[ReadPos],Field,Size);
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ReadPos+=sizeof(wchar)*Size;
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}
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else
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memset(Field,0,sizeof(wchar)*Size);
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}
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uint RawRead::GetCRC15(bool ProcessedOnly) // RAR 1.5 block CRC.
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{
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if (DataSize<=2)
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return 0;
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uint HeaderCRC=CRC32(0xffffffff,&Data[2],(ProcessedOnly ? ReadPos:DataSize)-2);
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return ~HeaderCRC & 0xffff;
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}
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uint RawRead::GetCRC50() // RAR 5.0 block CRC.
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{
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if (DataSize<=4)
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return 0xffffffff;
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return CRC32(0xffffffff,&Data[4],DataSize-4) ^ 0xffffffff;
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}
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// Read vint from arbitrary byte array.
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uint64 RawGetV(const byte *Data,uint &ReadPos,uint DataSize,bool &Overflow)
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{
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Overflow=false;
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uint64 Result=0;
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for (uint Shift=0;ReadPos<DataSize;Shift+=7)
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{
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byte CurByte=Data[ReadPos++];
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Result+=uint64(CurByte & 0x7f)<<Shift;
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if ((CurByte & 0x80)==0)
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return Result; // Decoded successfully.
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}
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Overflow=true;
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return 0; // Out of buffer border.
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}
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