mirror of
https://github.com/hashcat/hashcat.git
synced 2024-11-30 03:48:17 +00:00
301 lines
6.7 KiB
C++
301 lines
6.7 KiB
C++
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#include "rar.hpp"
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QuickOpen::QuickOpen()
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{
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Buf=NULL;
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Init(NULL,false);
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}
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QuickOpen::~QuickOpen()
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{
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Close();
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delete[] Buf;
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}
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void QuickOpen::Init(Archive *Arc,bool WriteMode)
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{
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if (Arc!=NULL) // Unless called from constructor.
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Close();
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QuickOpen::Arc=Arc;
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QuickOpen::WriteMode=WriteMode;
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ListStart=NULL;
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ListEnd=NULL;
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if (Buf==NULL)
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Buf=new byte[MaxBufSize];
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CurBufSize=0; // Current size of buffered data in write mode.
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Loaded=false;
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}
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void QuickOpen::Close()
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{
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QuickOpenItem *Item=ListStart;
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while (Item!=NULL)
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{
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QuickOpenItem *Next=Item->Next;
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delete[] Item->Header;
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delete Item;
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Item=Next;
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}
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}
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void QuickOpen::Load(uint64 BlockPos)
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{
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if (!Loaded)
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{
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// If loading for the first time, perform additional intialization.
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SeekPos=Arc->Tell();
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UnsyncSeekPos=false;
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int64 SavePos=SeekPos;
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Arc->Seek(BlockPos,SEEK_SET);
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// If BlockPos points to original main header, we'll have the infinite
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// recursion, because ReadHeader() for main header will attempt to load
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// QOpen and call QuickOpen::Load again. If BlockPos points to long chain
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// of other main headers, we'll have multiple recursive calls of this
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// function wasting resources. So we prohibit QOpen temporarily to
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// prevent this. ReadHeader() calls QOpen.Init and sets MainHead Locator
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// and QOpenOffset fields, so we cannot use them to prohibit QOpen.
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Arc->SetProhibitQOpen(true);
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size_t ReadSize=Arc->ReadHeader();
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Arc->SetProhibitQOpen(false);
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if (ReadSize==0 || Arc->GetHeaderType()!=HEAD_SERVICE ||
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!Arc->SubHead.CmpName(SUBHEAD_TYPE_QOPEN))
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{
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Arc->Seek(SavePos,SEEK_SET);
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return;
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}
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QOHeaderPos=Arc->CurBlockPos;
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RawDataStart=Arc->Tell();
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RawDataSize=Arc->SubHead.UnpSize;
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Arc->Seek(SavePos,SEEK_SET);
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Loaded=true; // Set only after all file processing calls like Tell, Seek, ReadHeader.
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}
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if (Arc->SubHead.Encrypted)
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{
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RAROptions *Cmd=Arc->GetRAROptions();
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#ifndef RAR_NOCRYPT
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if (Cmd->Password.IsSet())
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Crypt.SetCryptKeys(false,CRYPT_RAR50,&Cmd->Password,Arc->SubHead.Salt,
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Arc->SubHead.InitV,Arc->SubHead.Lg2Count,
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Arc->SubHead.HashKey,Arc->SubHead.PswCheck);
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else
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#endif
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{
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Loaded=false;
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return;
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}
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}
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RawDataPos=0;
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ReadBufSize=0;
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ReadBufPos=0;
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LastReadHeader.Reset();
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LastReadHeaderPos=0;
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ReadBuffer();
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}
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bool QuickOpen::Read(void *Data,size_t Size,size_t &Result)
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{
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if (!Loaded)
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return false;
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// Find next suitable cached block.
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while (LastReadHeaderPos+LastReadHeader.Size()<=SeekPos)
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if (!ReadNext())
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break;
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if (!Loaded)
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{
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// If something wrong happened, let's set the correct file pointer
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// and stop further quick open processing.
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if (UnsyncSeekPos)
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Arc->File::Seek(SeekPos,SEEK_SET);
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return false;
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}
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if (SeekPos>=LastReadHeaderPos && SeekPos+Size<=LastReadHeaderPos+LastReadHeader.Size())
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{
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memcpy(Data,LastReadHeader+size_t(SeekPos-LastReadHeaderPos),Size);
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Result=Size;
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SeekPos+=Size;
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UnsyncSeekPos=true;
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}
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else
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{
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if (UnsyncSeekPos)
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{
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Arc->File::Seek(SeekPos,SEEK_SET);
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UnsyncSeekPos=false;
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}
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int ReadSize=Arc->File::Read(Data,Size);
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if (ReadSize<0)
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{
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Loaded=false;
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return false;
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}
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Result=ReadSize;
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SeekPos+=ReadSize;
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}
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return true;
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}
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bool QuickOpen::Seek(int64 Offset,int Method)
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{
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if (!Loaded)
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return false;
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// Normally we process an archive sequentially from beginning to end,
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// so we read quick open data sequentially. But some operations like
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// archive updating involve several passes. So if we detect that file
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// pointer is moved back, we reload quick open data from beginning.
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if (Method==SEEK_SET && (uint64)Offset<SeekPos && (uint64)Offset<LastReadHeaderPos)
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Load(QOHeaderPos);
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if (Method==SEEK_SET)
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SeekPos=Offset;
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if (Method==SEEK_CUR)
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SeekPos+=Offset;
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UnsyncSeekPos=true;
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if (Method==SEEK_END)
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{
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Arc->File::Seek(Offset,SEEK_END);
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SeekPos=Arc->File::Tell();
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UnsyncSeekPos=false;
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}
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return true;
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}
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bool QuickOpen::Tell(int64 *Pos)
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{
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if (!Loaded)
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return false;
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*Pos=SeekPos;
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return true;
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}
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uint QuickOpen::ReadBuffer()
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{
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int64 SavePos=Arc->Tell();
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Arc->File::Seek(RawDataStart+RawDataPos,SEEK_SET);
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size_t SizeToRead=(size_t)Min(RawDataSize-RawDataPos,MaxBufSize-ReadBufSize);
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if (Arc->SubHead.Encrypted)
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SizeToRead &= ~CRYPT_BLOCK_MASK;
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int ReadSize=0;
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if (SizeToRead!=0)
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{
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ReadSize=Arc->File::Read(Buf+ReadBufSize,SizeToRead);
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if (ReadSize<=0)
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ReadSize=0;
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else
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{
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#ifndef RAR_NOCRYPT
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if (Arc->SubHead.Encrypted)
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Crypt.DecryptBlock(Buf+ReadBufSize,ReadSize & ~CRYPT_BLOCK_MASK);
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#endif
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RawDataPos+=ReadSize;
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ReadBufSize+=ReadSize;
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}
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}
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Arc->Seek(SavePos,SEEK_SET);
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return ReadSize;
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}
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// Fill RawRead object from buffer.
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bool QuickOpen::ReadRaw(RawRead &Raw)
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{
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if (MaxBufSize-ReadBufPos<0x100) // We are close to end of buffer.
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{
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// Ensure that we have enough data to read CRC and header size.
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size_t DataLeft=ReadBufSize-ReadBufPos;
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memcpy(Buf,Buf+ReadBufPos,DataLeft);
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ReadBufPos=0;
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ReadBufSize=DataLeft;
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ReadBuffer();
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}
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const size_t FirstReadSize=7;
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if (ReadBufPos+FirstReadSize>ReadBufSize)
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return false;
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Raw.Read(Buf+ReadBufPos,FirstReadSize);
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ReadBufPos+=FirstReadSize;
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uint SavedCRC=Raw.Get4();
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uint SizeBytes=Raw.GetVSize(4);
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uint64 BlockSize=Raw.GetV();
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int SizeToRead=int(BlockSize);
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SizeToRead-=FirstReadSize-SizeBytes-4; // Adjust overread size bytes if any.
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if (SizeToRead<0 || SizeBytes==0 || BlockSize==0)
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{
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Loaded=false; // Invalid data.
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return false;
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}
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// If rest of block data crosses Buf boundary, read it in loop.
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while (SizeToRead>0)
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{
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size_t DataLeft=ReadBufSize-ReadBufPos;
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size_t CurSizeToRead=Min(DataLeft,(size_t)SizeToRead);
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Raw.Read(Buf+ReadBufPos,CurSizeToRead);
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ReadBufPos+=CurSizeToRead;
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SizeToRead-=int(CurSizeToRead);
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if (SizeToRead>0) // We read the entire buffer and still need more data.
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{
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ReadBufPos=0;
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ReadBufSize=0;
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if (ReadBuffer()==0)
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return false;
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}
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}
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return SavedCRC==Raw.GetCRC50();
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}
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// Read next cached header.
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bool QuickOpen::ReadNext()
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{
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RawRead Raw(NULL);
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if (!ReadRaw(Raw)) // Read internal quick open header preceding stored block.
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return false;
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uint Flags=(uint)Raw.GetV();
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uint64 Offset=Raw.GetV();
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size_t HeaderSize=(size_t)Raw.GetV();
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if (HeaderSize>MAX_HEADER_SIZE_RAR5)
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return false;
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LastReadHeader.Alloc(HeaderSize);
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Raw.GetB(&LastReadHeader[0],HeaderSize);
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// Calculate the absolute position as offset from quick open service header.
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LastReadHeaderPos=QOHeaderPos-Offset;
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return true;
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}
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