internal unsafe static bool HashFile(LockdownSha1.Context context, string filename, int seed)
{
int i, headersSize, sectionAlignment;
byte * imageBase;
PeFileLoader module;
byte * firstSection;
byte * baseaddr;
//PeFileReader.NtHeaders.ImageDataDirectory* importDir;
PeFileReader.NtHeaders.ImageDataDirectory *relocDir;
PeFileReader.DosImageHeader *dosheader;
PeFileReader.NtHeaders * ntheader;
LockdownHeap heap = new LockdownHeap();
module = new PeFileLoader(filename);
baseaddr = module.BaseAddress;
dosheader = (PeFileReader.DosImageHeader *)baseaddr;
ntheader = (PeFileReader.NtHeaders *)(baseaddr + dosheader->e_lfanew);
sectionAlignment = ntheader->OptionalHeader.SectionAlignment;
imageBase = (byte *)ntheader->OptionalHeader.ImageBase;
//importDir = (PeFileReader.NtHeaders.ImageDataDirectory*)&ntheader->OptionalHeader.IDD1;
relocDir = (PeFileReader.NtHeaders.ImageDataDirectory *) & ntheader->OptionalHeader.IDD5;
// roughly, IMAGE_FIRST_SECTION macro. 0x18 is the offset of the optional header, plus size of optional header.
firstSection = (byte *)(((byte *)ntheader) + 0x18 + ntheader->SizeOfOptionalHeader);
headersSize = ntheader->OptionalHeader.SizeOfHeaders;
LockdownSha1.Update(context, baseaddr, headersSize);
if (relocDir->VirtualAddress != 0 && relocDir->Size != 0)
{
if (!ProcessRelocDir(heap, baseaddr, relocDir))
{
module.Dispose();
heap = null;
return(false);
}
}
for (i = 0; i < (ntheader->NumberOfSections); i++)
{
if (!ProcessSection(context, heap, baseaddr, imageBase, (PeFileReader.ImageSectionHeader *)(firstSection + (i * 0x28)), sectionAlignment, seed))
{
module.Dispose();
heap = null;
return(false);
}
}
heap = null;
module.Dispose();
return(true);
}
private unsafe static bool ProcessRelocDir(LockdownHeap heap, byte *baseaddr, PeFileReader.NtHeaders.ImageDataDirectory *relocDir)
{
int i, edx;
int[] data = new int[4];
PeFileReader.ImageBaseRelocation *relocation = (PeFileReader.ImageBaseRelocation *)(baseaddr + relocDir->VirtualAddress);
for (; relocation->VirtualAddress > 0;)
{
short *relocInfo = (short *)((byte *)relocation + IMAGE_SIZEOF_BASE_RELOCATION);
for (i = 0; i < ((relocation->SizeOfBlock - IMAGE_SIZEOF_BASE_RELOCATION) / 2); i++, relocInfo++)
{
int type, offset;
type = *relocInfo >> 12;
offset = *relocInfo & 0xfff;
if (type != 0)
{
switch (type)
{
case IMAGE_REL_BASED_LOW:
edx = 2;
break;
case IMAGE_REL_BASED_HIGHLOW:
edx = 4;
break;
case IMAGE_REL_BASED_DIR64:
edx = 8;
break;
default:
return(false);
}
data[0] = relocation->VirtualAddress + offset;
data[1] = edx;
data[2] = 2;
data[3] = type;
heap.Add(data);
}
}
relocation = (PeFileReader.ImageBaseRelocation *)(((byte *)relocation) + relocation->SizeOfBlock);
}
return(true);
}
private static unsafe bool ProcessSection(LockdownSha1.Context context, LockdownHeap heap, byte *baseaddr, byte *preferredBaseAddr,
PeFileReader.ImageSectionHeader *section, int sectionAlignment, int seed)
{
int eax, virtualAddr, virtualSize, value;
int index, bytes;
int i;
using (HeapPtr hpLockdownMem = heap.ToPointer())
{
int * lockdown_memory = (int *)hpLockdownMem.ToPointer();
byte *allocatedMemoryBase;
int lowerOffset = (int)baseaddr - (int)preferredBaseAddr;
virtualAddr = section->VirtualAddress;
virtualSize = section->VirtualSize;
bytes = ((virtualSize + sectionAlignment - 1) & ~(sectionAlignment - 1)) - virtualSize;
if (section->Characteristics < 0)
{
LockdownSha1.Pad(context, bytes + virtualSize);
}
else
{
index = 0;
if (heap.CurrentLength > 0)
{
for (i = 0; index < heap.CurrentLength && lockdown_memory[i] < virtualAddr; i += 4)
{
index++;
}
}
if (virtualSize > 0)
{
byte *startingMemory = baseaddr + virtualAddr;
byte *ptrMemory = startingMemory;
int memoryOffset = index * 4;
do
{
int sectionLength = (int)(startingMemory - ptrMemory + virtualSize);
eax = 0;
if (index < heap.CurrentLength)
{
eax = (int)(lockdown_memory[memoryOffset] + startingMemory - virtualAddr);
}
if (eax != 0)
{
eax -= (int)ptrMemory;
if (eax < sectionLength)
{
sectionLength = eax;
}
}
if (sectionLength != 0)
{
LockdownSha1.Update(context, ptrMemory, sectionLength);
ptrMemory += sectionLength;
}
else
{
//int* heapBuffer = stackalloc int[0x10];
int *heapBuffer = (int *)Marshal.AllocHGlobal(0x10 * sizeof(int));
Native.Memcpy((void *)heapBuffer, lockdown_memory + memoryOffset, 0x10);
value = (*(int *)ptrMemory - lowerOffset) ^ seed;
LockdownSha1.Update(context, (byte *)&value, 4);
ptrMemory += heapBuffer[1];
index++;
memoryOffset += 4;
Marshal.FreeHGlobal((IntPtr)heapBuffer);
heapBuffer = null;
}
} while ((ptrMemory - startingMemory) < virtualSize);
}
if (bytes > 0)
{
int i2 = 0;
IntPtr memoryAllocation = Marshal.AllocHGlobal(bytes);
allocatedMemoryBase = (byte *)memoryAllocation.ToPointer();
Native.Memset(allocatedMemoryBase, 0, bytes);
do
{
eax = 0;
if (index < heap.CurrentLength)
{
value = *(int *)(((byte *)lockdown_memory) + (index * 16));
eax = (int)(value - virtualSize - virtualAddr + allocatedMemoryBase);
}
bytes += i2;
if (eax != 0)
{
eax -= ((int *)allocatedMemoryBase)[i2 / 4];
if (eax < bytes)
{
bytes = eax;
}
}
if (bytes != 0)
{
LockdownSha1.Update(context, &allocatedMemoryBase[i2], bytes);
i2 += bytes;
}
} while (i2 < bytes);
Marshal.FreeHGlobal(memoryAllocation);
}
}
}
return(true);
}
private unsafe static bool ProcessRelocDir(LockdownHeap heap, byte* baseaddr, PeFileReader.NtHeaders.ImageDataDirectory* relocDir)
{
int i, edx;
int[] data = new int[4];
PeFileReader.ImageBaseRelocation* relocation = (PeFileReader.ImageBaseRelocation*)(baseaddr + relocDir->VirtualAddress);
for (; relocation->VirtualAddress > 0; )
{
short* relocInfo = (short*)((byte*)relocation + IMAGE_SIZEOF_BASE_RELOCATION);
for (i = 0; i < ((relocation->SizeOfBlock - IMAGE_SIZEOF_BASE_RELOCATION) / 2); i++, relocInfo++)
{
int type, offset;
type = *relocInfo >> 12;
offset = *relocInfo & 0xfff;
if (type != 0)
{
switch (type)
{
case IMAGE_REL_BASED_LOW:
edx = 2;
break;
case IMAGE_REL_BASED_HIGHLOW:
edx = 4;
break;
case IMAGE_REL_BASED_DIR64:
edx = 8;
break;
default:
return false;
}
data[0] = relocation->VirtualAddress + offset;
data[1] = edx;
data[2] = 2;
data[3] = type;
heap.Add(data);
}
}
relocation = (PeFileReader.ImageBaseRelocation*)(((byte*)relocation) + relocation->SizeOfBlock);
}
return true;
}
private static unsafe bool ProcessSection(LockdownSha1.Context context, LockdownHeap heap, byte* baseaddr, byte* preferredBaseAddr,
PeFileReader.ImageSectionHeader* section, int sectionAlignment, int seed)
{
int eax, virtualAddr, virtualSize, value;
int index, bytes;
int i;
using (HeapPtr hpLockdownMem = heap.ToPointer())
{
int* lockdown_memory = (int*)hpLockdownMem.ToPointer();
byte* allocatedMemoryBase;
int lowerOffset = (int)baseaddr - (int)preferredBaseAddr;
virtualAddr = section->VirtualAddress;
virtualSize = section->VirtualSize;
bytes = ((virtualSize + sectionAlignment - 1) & ~(sectionAlignment - 1)) - virtualSize;
if (section->Characteristics < 0)
{
LockdownSha1.Pad(context, bytes + virtualSize);
}
else
{
index = 0;
if (heap.CurrentLength > 0)
{
for (i = 0; index < heap.CurrentLength && lockdown_memory[i] < virtualAddr; i += 4)
{
index++;
}
}
if (virtualSize > 0)
{
byte* startingMemory = baseaddr + virtualAddr;
byte* ptrMemory = startingMemory;
int memoryOffset = index * 4;
do
{
int sectionLength = (int)(startingMemory - ptrMemory + virtualSize);
eax = 0;
if (index < heap.CurrentLength)
{
eax = (int)(lockdown_memory[memoryOffset] + startingMemory - virtualAddr);
}
if (eax != 0)
{
eax -= (int)ptrMemory;
if (eax < sectionLength)
sectionLength = eax;
}
if (sectionLength != 0)
{
LockdownSha1.Update(context, ptrMemory, sectionLength);
ptrMemory += sectionLength;
}
else
{
//int* heapBuffer = stackalloc int[0x10];
int* heapBuffer = (int*)Marshal.AllocHGlobal(0x10 * sizeof(int));
Native.Memcpy((void*)heapBuffer, lockdown_memory + memoryOffset, 0x10);
value = (*(int*)ptrMemory - lowerOffset) ^ seed;
LockdownSha1.Update(context, (byte*)&value, 4);
ptrMemory += heapBuffer[1];
index++;
memoryOffset += 4;
Marshal.FreeHGlobal((IntPtr)heapBuffer);
heapBuffer = null;
}
} while ((ptrMemory - startingMemory) < virtualSize);
}
if (bytes > 0)
{
int i2 = 0;
IntPtr memoryAllocation = Marshal.AllocHGlobal(bytes);
allocatedMemoryBase = (byte*)memoryAllocation.ToPointer();
Native.Memset(allocatedMemoryBase, 0, bytes);
do
{
eax = 0;
if (index < heap.CurrentLength)
{
value = *(int*)(((byte*)lockdown_memory) + (index * 16));
eax = (int)(value - virtualSize - virtualAddr + allocatedMemoryBase);
}
bytes += i2;
if (eax != 0)
{
eax -= ((int*)allocatedMemoryBase)[i2 / 4];
if (eax < bytes)
bytes = eax;
}
if (bytes != 0)
{
LockdownSha1.Update(context, &allocatedMemoryBase[i2], bytes);
i2 += bytes;
}
} while (i2 < bytes);
Marshal.FreeHGlobal(memoryAllocation);
}
}
}
return true;
}
internal unsafe static bool HashFile(LockdownSha1.Context context, string filename, int seed)
{
int i, headersSize, sectionAlignment;
byte* imageBase;
PeFileLoader module;
byte* firstSection;
byte* baseaddr;
//PeFileReader.NtHeaders.ImageDataDirectory* importDir;
PeFileReader.NtHeaders.ImageDataDirectory* relocDir;
PeFileReader.DosImageHeader* dosheader;
PeFileReader.NtHeaders* ntheader;
LockdownHeap heap = new LockdownHeap();
module = new PeFileLoader(filename);
baseaddr = module.BaseAddress;
dosheader = (PeFileReader.DosImageHeader*)baseaddr;
ntheader = (PeFileReader.NtHeaders*)(baseaddr + dosheader->e_lfanew);
sectionAlignment = ntheader->OptionalHeader.SectionAlignment;
imageBase = (byte*)ntheader->OptionalHeader.ImageBase;
//importDir = (PeFileReader.NtHeaders.ImageDataDirectory*)&ntheader->OptionalHeader.IDD1;
relocDir = (PeFileReader.NtHeaders.ImageDataDirectory*)&ntheader->OptionalHeader.IDD5;
// roughly, IMAGE_FIRST_SECTION macro. 0x18 is the offset of the optional header, plus size of optional header.
firstSection = (byte*)(((byte*)ntheader) + 0x18 + ntheader->SizeOfOptionalHeader);
headersSize = ntheader->OptionalHeader.SizeOfHeaders;
LockdownSha1.Update(context, baseaddr, headersSize);
if (relocDir->VirtualAddress != 0 && relocDir->Size != 0)
{
if (!ProcessRelocDir(heap, baseaddr, relocDir))
{
module.Dispose();
heap = null;
return false;
}
}
for (i = 0; i < (ntheader->NumberOfSections); i++)
{
if (!ProcessSection(context, heap, baseaddr, imageBase, (PeFileReader.ImageSectionHeader*)(firstSection + (i * 0x28)), sectionAlignment, seed))
{
module.Dispose();
heap = null;
return false;
}
}
heap = null;
module.Dispose();
return true;
}