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UnRAR: Use our own buffers and memory allocations

This commit is contained in:
philsmd 2020-09-08 10:46:44 +02:00
parent 9f380afa13
commit c9c03dd191
No known key found for this signature in database
GPG Key ID: 4F25D016D9D6A8AF
9 changed files with 44 additions and 15 deletions

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@ -4,7 +4,7 @@
class BitInput
{
public:
enum BufferSize {MAX_SIZE=0x8000}; // Size of input buffer.
enum BufferSize {MAX_SIZE=0x50000}; // Size of input buffer.
int InAddr; // Curent byte position in the buffer.
int InBit; // Current bit position in the current byte.

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@ -566,14 +566,17 @@ void ModelPPM::CleanUp()
}
bool ModelPPM::DecodeInit(Unpack *UnpackRead,int &EscChar)
bool ModelPPM::DecodeInit(Unpack *UnpackRead,int &EscChar,byte *hcppm)
{
int MaxOrder=UnpackRead->GetChar();
bool Reset=(MaxOrder & 0x20)!=0;
int MaxMB;
if (Reset)
{
MaxMB=UnpackRead->GetChar();
if (MaxMB>128) return(false);
}
else
if (SubAlloc.GetAllocatedMemory()==0)
return(false);
@ -590,6 +593,7 @@ bool ModelPPM::DecodeInit(Unpack *UnpackRead,int &EscChar)
SubAlloc.StopSubAllocator();
return(false);
}
SubAlloc.SetHeapStartFixed(hcppm);
SubAlloc.StartSubAllocator(MaxMB+1);
StartModelRare(MaxOrder);
}

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@ -115,7 +115,7 @@ class ModelPPM : RARPPM_DEF
public:
ModelPPM();
void CleanUp(); // reset PPM variables after data error
bool DecodeInit(Unpack *UnpackRead,int &EscChar);
bool DecodeInit(Unpack *UnpackRead,int &EscChar,byte *hcppm);
int DecodeChar();
};

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@ -201,7 +201,7 @@ void ComprDataIO::UnpWrite(byte *Addr,size_t Count)
{
if (Count <= UnpackToMemorySize)
{
memcpy(UnpackToMemoryAddr,Addr,Count);
//memcpy(UnpackToMemoryAddr,Addr,Count);
UnpackToMemoryAddr+=Count;
UnpackToMemorySize-=Count;
}

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@ -71,7 +71,7 @@ void SubAllocator::StopSubAllocator()
if ( SubAllocatorSize )
{
SubAllocatorSize=0;
free(HeapStart);
//free(HeapStart);
}
}
@ -88,7 +88,8 @@ bool SubAllocator::StartSubAllocator(int SASize)
// units: one as reserve for HeapEnd overflow checks and another
// to provide the space to correctly align UnitsStart.
uint AllocSize=t/FIXED_UNIT_SIZE*UNIT_SIZE+2*UNIT_SIZE;
if ((HeapStart=(byte *)malloc(AllocSize)) == NULL)
//if ((HeapStart=(byte *)malloc(AllocSize)) == NULL)
if ((HeapStart=(byte *)HeapStartFixed) == NULL)
{
ErrHandler.MemoryError();
return false;

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@ -80,6 +80,9 @@ class SubAllocator
long GetAllocatedMemory() {return(SubAllocatorSize);}
byte *pText, *UnitsStart,*HeapEnd,*FakeUnitsStart;
byte *HeapStartFixed;
void SetHeapStartFixed(byte *p) {HeapStartFixed=p;}
};

31
deps/unrar/unpack.cpp vendored
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@ -16,7 +16,7 @@
#include "unpack50frag.cpp"
Unpack::Unpack(ComprDataIO *DataIO)
:Inp(true),VMCodeInp(true)
:Inp(false),VMCodeInp(false)
{
UnpIO=DataIO;
Window=NULL;
@ -49,8 +49,8 @@ Unpack::~Unpack()
{
InitFilters30(false);
if (Window!=NULL)
free(Window);
//if (Window!=NULL)
// free(Window);
#ifdef RAR_SMP
delete UnpThreadPool;
delete[] ReadBufMT;
@ -69,6 +69,21 @@ void Unpack::SetThreads(uint Threads)
}
#endif
void Unpack::SetWin(void *win)
{
hcwin=(byte *)win;
}
void Unpack::SetPPM(void *ppm)
{
hcppm=(byte *)ppm;
}
void Unpack::SetExternalBuffer(byte *InpBuf,byte *VMCodeBuf)
{
Inp.SetExternalBuffer(InpBuf);
VMCodeInp.SetExternalBuffer(VMCodeBuf);
}
void Unpack::Init(size_t WinSize,bool Solid)
{
@ -102,7 +117,7 @@ void Unpack::Init(size_t WinSize,bool Solid)
if (Grow && Fragmented)
throw std::bad_alloc();
byte *NewWindow=Fragmented ? NULL : (byte *)malloc(WinSize);
byte *NewWindow=Fragmented ? NULL : (byte *)hcwin;
if (NewWindow==NULL)
if (Grow || WinSize<0x1000000)
@ -115,7 +130,7 @@ void Unpack::Init(size_t WinSize,bool Solid)
{
if (Window!=NULL) // If allocated by preceding files.
{
free(Window);
//free(Window);
Window=NULL;
}
FragWindow.Init(WinSize);
@ -126,7 +141,7 @@ void Unpack::Init(size_t WinSize,bool Solid)
{
// Clean the window to generate the same output when unpacking corrupt
// RAR files, which may access unused areas of sliding dictionary.
memset(NewWindow,0,WinSize);
//memset(NewWindow,0,WinSize);
// If Window is not NULL, it means that window size has grown.
// In solid streams we need to copy data to a new window in such case.
@ -136,8 +151,8 @@ void Unpack::Init(size_t WinSize,bool Solid)
for (size_t I=1;I<=MaxWinSize;I++)
NewWindow[(UnpPtr-I)&(WinSize-1)]=Window[(UnpPtr-I)&(MaxWinSize-1)];
if (Window!=NULL)
free(Window);
//if (Window!=NULL)
// free(Window);
Window=NewWindow;
}

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@ -375,6 +375,9 @@ class Unpack:PackDef
public:
Unpack(ComprDataIO *DataIO);
~Unpack();
void SetWin(void *win);
void SetPPM(void *PPM);
void SetExternalBuffer(byte *InpBuf,byte *VMCodeBuf);
void Init(size_t WinSize,bool Solid);
void DoUnpack(uint Method,bool Solid);
bool IsFileExtracted() {return(FileExtracted);}
@ -386,6 +389,9 @@ class Unpack:PackDef
void UnpackDecode(UnpackThreadData &D);
#endif
byte *hcwin;
byte *hcppm;
size_t MaxWinSize;
size_t MaxWinMask;

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@ -637,7 +637,7 @@ bool Unpack::ReadTables30()
if (BitField & 0x8000)
{
UnpBlockType=BLOCK_PPM;
return(PPM.DecodeInit(this,PPMEscChar));
return(PPM.DecodeInit(this,PPMEscChar,hcppm));
}
UnpBlockType=BLOCK_LZ;