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Forked from Cr4sh/WoW64_call.cpp
Created June 18, 2020 11:34
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WoW64 Heaven's Gate
#include "stdafx.h"
#define DB(_val_) __asm __emit (_val_)
#define INVALID_SYSCALL (DWORD)(-1)
// code selectors
#define CS_32 0x23
#define CS_64 0x33
#define RAX 0
#define RCX 1
#define RDX 2
#define RBX 3
#define RSP 4
#define RBP 5
#define RSI 6
#define RDI 7
#define R8 8
#define R9 9
#define R10 10
#define R11 11
#define R12 12
#define R13 13
#define R14 14
#define R15 15
#define X64_PUSH(_r_) DB(0x48 | ((_r_) >> 3)) DB(0x50 | ((_r_) & 7))
#define X64_POP(_r_) DB(0x48 | ((_r_) >> 3)) DB(0x58 | ((_r_) & 7))
// Switch processor to long mode
#define X64_ENTER_CS(_cs_) \
{ \
DB(0x6a) DB(_cs_) /* push @cs */ \
DB(0xe8) DB(0x00) DB(0x00) DB(0x00) DB(0x00) /* call $+5 */ \
DB(0x83) DB(0x04) DB(0x24) DB(0x05) /* add dword [esp], 5 */ \
DB(0xcb) /* retf */ \
}
// Switch processor to WOW64 mode
#define X64_EXIT_CS(_cs_) \
{ \
DB(0xe8) DB(0x00) DB(0x00) DB(0x00) DB(0x00) /* call $+5 */ \
DB(0xc7) DB(0x44) DB(0x24) DB(0x04) DB(_cs_) /* mov dword [rsp + 4], @cs */ \
DB(0x00) DB(0x00) DB(0x00) \
DB(0x83) DB(0x04) DB(0x24) DB(0x0d) /* add dword [rsp], 0xD */ \
DB(0xcb) /* retf */ \
}
#define X64_SYSCALL() \
{ \
DB(0x0f) DB(0x05) \
}
// 64-bit assembly helpers
#define X64_ENTER() X64_ENTER_CS(CS_64)
#define X64_EXIT() X64_EXIT_CS(CS_32)
#define GET_NEXT_ARG() i < ArgsCount ? Args[i++] : 0
DWORD x64_Syscall(DWORD dwSyscallNumber, PDWORD64 Args, DWORD ArgsCount)
{
DWORD Status = 0, OldStack = 0, i = 0;
if (dwSyscallNumber == INVALID_SYSCALL)
{
return STATUS_UNSUCCESSFUL;
}
DWORD64 _rcx = GET_NEXT_ARG();
DWORD64 _rdx = GET_NEXT_ARG();
DWORD64 _r8 = GET_NEXT_ARG();
DWORD64 _r9 = GET_NEXT_ARG();
DWORD64 StackArgs = NULL;
DWORD64 StackArgsCount = 0;
if (ArgsCount > 4)
{
StackArgs = (DWORD64)&Args[3];
StackArgsCount = ArgsCount - 4;
}
__asm
{
push ebx
push esi
push edi
/**
* Stack align for 64-bit mode.
*/
mov OldStack, esp
and esp, 0xfffffff0
/**
* Swith to the long mode.
*/
X64_ENTER()
/**
* Copy register arguments.
*/
push _rcx
X64_POP(RCX)
push _rdx
X64_POP(RDX)
push _r8
X64_POP(R8)
push _r9
X64_POP(R9)
/**
* Push stack arguments.
*/
push StackArgs
X64_POP(RDI)
push StackArgsCount
X64_POP(RSI)
test esi, esi
jz _call
_loop_push:
push [edi + esi * 8]
sub esi, 1
jnz _loop_push
_call:
/**
* Perform a system call.
*/
push _rcx
X64_POP(R10)
mov eax, dwSyscallNumber
sub esp, 0x28
X64_SYSCALL()
add esp, 0x28
/**
* Save returned status code.
*/
mov Status, eax
/**
* Remove syscall arguments from the stack.
*/
push StackArgsCount
X64_POP(RSI)
test esi, esi
jz _end
_loop_pop:
pop edi
sub esi, 1
jnz _loop_pop
_end:
/**
* Swith back to the 32-bit mode.
*/
X64_EXIT()
mov esp, OldStack
pop edi
pop esi
pop ebx
}
return Status;
}
DWORD x64_Call(DWORD64 ProcAddress, PDWORD64 Args, DWORD ArgsCount)
{
DWORD Retval = 0, OldStack = 0, i = 0;
DWORD64 _rcx = GET_NEXT_ARG();
DWORD64 _rdx = GET_NEXT_ARG();
DWORD64 _r8 = GET_NEXT_ARG();
DWORD64 _r9 = GET_NEXT_ARG();
DWORD64 StackArgs = NULL;
DWORD64 StackArgsCount = 0;
if (ArgsCount > 4)
{
StackArgs = (DWORD64)&Args[3];
StackArgsCount = ArgsCount - 4;
}
__asm
{
push ebx
push esi
push edi
/**
* Stack align for 64-bit mode.
*/
mov OldStack, esp
and esp, 0xfffffff0
/**
* Swith to the long mode.
*/
X64_ENTER()
/**
* Copy register arguments.
*/
push _rcx
X64_POP(RCX)
push _rdx
X64_POP(RDX)
push _r8
X64_POP(R8)
push _r9
X64_POP(R9)
/**
* Push stack arguments.
*/
push StackArgs
X64_POP(RDI)
push StackArgsCount
X64_POP(RSI)
test esi, esi
jz _call
_loop_push:
push [edi + esi * 8]
sub esi, 1
jnz _loop_push
_call:
/**
* Perform a function call.
*/
push ProcAddress
X64_POP(RAX)
sub esp, 0x20
call eax
add esp, 0x20
/**
* Save returned status code.
*/
mov Retval, eax
/**
* Remove syscall arguments from the stack.
*/
push StackArgsCount
X64_POP(RSI)
test esi, esi
jz _end
_loop_pop:
pop edi
sub esi, 1
jnz _loop_pop
_end:
/**
* Swith back to the 32-bit mode.
*/
X64_EXIT()
mov esp, OldStack
pop edi
pop esi
pop ebx
}
return Retval;
}
void x64_Memcpy(PVOID Dest, DWORD64 Source, DWORD64 Len)
{
DWORD64 Destination = (DWORD64)Dest;
__asm
{
push esi
push edi
/**
* Swith to the long mode.
*/
X64_ENTER()
/**
* Copy register arguments.
*/
push Destination
X64_POP(RDI)
push Source
X64_POP(RSI)
push Len
X64_POP(RCX)
/**
* Perform memory regio copying.
*/
rep movsb
/**
* Swith back to the 32-bit mode.
*/
X64_EXIT()
pop edi
pop esi
}
}
DWORD64 x64_GetTeb(void)
{
LARGE_INTEGER Retval;
Retval.QuadPart = 0;
__asm
{
/**
* Swith to the long mode.
*/
X64_ENTER()
X64_PUSH(R12)
pop Retval.LowPart
/**
* Swith back to the 32-bit mode.
*/
X64_EXIT()
}
return Retval.QuadPart;
}
#define TEB64_ProcessEnvironmentBlock 0x60
DWORD64 x64_GetPeb(void)
{
DWORD64 Peb = 0;
DWORD64 Teb = x64_GetTeb();
x64_Memcpy(&Peb, Teb + TEB64_ProcessEnvironmentBlock, sizeof(Peb));
return Peb;
}
typedef DWORD64 PTR64;
#include <pshpack8.h>
typedef struct _LIST_ENTRY_64
{
PTR64 Flink;
PTR64 Blink;
} LIST_ENTRY_64;
typedef struct _UNICODE_STRING_64
{
USHORT Length;
USHORT MaximumLength;
PTR64 Buffer;
} UNICODE_STRING64,
*PUNICODE_STRING64;
typedef struct _STRING_64
{
USHORT Length;
USHORT MaximumLength;
PTR64 Buffer;
} ANSI_STRING_64,
*PANSI_STRING_64;
typedef struct _LDR_DATA_TABLE_ENTRY_64
{
LIST_ENTRY_64 InLoadOrderModuleList;
LIST_ENTRY_64 InMemoryOrderModuleList;
LIST_ENTRY_64 InInitializationOrderModuleList;
PTR64 DllBase;
PTR64 EntryPoint;
ULONG SizeOfImage;
UNICODE_STRING64 FullDllName;
UNICODE_STRING64 BaseDllName;
ULONG Flags;
USHORT LoadCount;
USHORT TlsIndex;
LIST_ENTRY_64 HashLinks;
PTR64 SectionPointer;
ULONG CheckSum;
ULONG TimeDateStamp;
} LDR_DATA_TABLE_ENTRY_64,
*PLDR_DATA_TABLE_ENTRY_64;
typedef struct _PEB_LDR_DATA_64
{
ULONG Length;
BOOLEAN Initialized;
PTR64 SsHandle;
LIST_ENTRY_64 ModuleListLoadOrder;
LIST_ENTRY_64 ModuleListMemoryOrder;
LIST_ENTRY_64 ModuleListInitOrder;
} PEB_LDR_DATA_64,
*PPEB_LDR_DATA_64;
#include <poppack.h>
#define PEB64_Ldr 0x18
DWORD64 x64_GetModuleBase(char *lpszName)
{
// get PEB pointer
PTR64 Peb = x64_GetPeb();
LIST_ENTRY_64 ListEntry;
// get loader tables
PTR64 LdrData = 0;
x64_Memcpy(&LdrData, Peb + PEB64_Ldr, sizeof(LdrData));
// get loaded modules list head
PTR64 Head = LdrData + FIELD_OFFSET(PEB_LDR_DATA_64, ModuleListLoadOrder);
x64_Memcpy(&ListEntry, Head, sizeof(ListEntry));
PTR64 Entry = ListEntry.Flink;
// parse loaded module list
while (Entry != Head)
{
x64_Memcpy(&ListEntry, Entry, sizeof(ListEntry));
// get module information
LDR_DATA_TABLE_ENTRY_64 LdrData;
DWORD64 Addr = (DWORD64)CONTAINING_RECORD(Entry, LDR_DATA_TABLE_ENTRY_64, InLoadOrderModuleList);
x64_Memcpy(&LdrData, Addr, sizeof(LdrData));
// get module name
WCHAR szBuffer[MAX_PATH];
DWORD64 dwCopyLen = min((DWORD64)LdrData.FullDllName.Length, sizeof(szBuffer) - sizeof(WCHAR));
ZeroMemory(szBuffer, sizeof(szBuffer));
x64_Memcpy(&szBuffer, LdrData.FullDllName.Buffer, dwCopyLen);
char szPath[MAX_PATH];
WideCharToMultiByte(CP_ACP, 0, szBuffer, -1, szPath, MAX_PATH, NULL, NULL);
strlwr(szPath);
if (!strcmp(GetNameFromFullPath(szPath), lpszName))
{
return LdrData.DllBase;
}
Entry = ListEntry.Flink;
}
return NULL;
}
DWORD64 x64_GetProcAddressEx(DWORD64 ModuleBase, char *lpszName)
{
// get DOS header
IMAGE_DOS_HEADER DosHeader;
x64_Memcpy(&DosHeader, ModuleBase, sizeof(DosHeader));
// get NT headers
IMAGE_NT_HEADERS64 Headers;
x64_Memcpy(&Headers, ModuleBase + DosHeader.e_lfanew, sizeof(Headers));
DWORD ExportAddr = Headers.OptionalHeader.DataDirectory[IMAGE_DIRECTORY_ENTRY_EXPORT].VirtualAddress;
DWORD ExportSize = Headers.OptionalHeader.DataDirectory[IMAGE_DIRECTORY_ENTRY_EXPORT].Size;
if (ExportAddr)
{
// get export directory
IMAGE_EXPORT_DIRECTORY Export;
x64_Memcpy(&Export, ModuleBase + ExportAddr, sizeof(Export));
// parse exports
for (DWORD i = 0; i < Export.NumberOfFunctions; i++)
{
// get function name
DWORD NameAddr = NULL;
x64_Memcpy(&NameAddr, ModuleBase + Export.AddressOfNames + i * sizeof(DWORD), sizeof(NameAddr));
char szName[MAX_PATH];
ZeroMemory(szName, sizeof(szName));
x64_Memcpy(&szName, ModuleBase + NameAddr, strlen(lpszName) + 1);
if (!strcmp(szName, lpszName))
{
// get function address
USHORT Ordinal = 0;
x64_Memcpy(&Ordinal, ModuleBase + Export.AddressOfNameOrdinals + i * sizeof(USHORT), sizeof(Ordinal));
DWORD Addr = 0;
x64_Memcpy(&Addr, ModuleBase + Export.AddressOfFunctions + Ordinal * sizeof(DWORD), sizeof(Addr));
// check for the forwarded export
if (Addr > ExportAddr &&
Addr < ExportAddr + ExportSize)
{
return NULL;
}
return ModuleBase + Addr;
}
}
}
return 0;
}
__declspec(align(16))
typedef struct _GET_PROC_ADDRESS_PARAMS
{
PTR64 FunctionAddress;
ANSI_STRING_64 FunctionName;
char Name[MAX_PATH];
} GET_PROC_ADDRESS_PARAMS,
*PGET_PROC_ADDRESS_PARAMS;
typedef NTSTATUS (WINAPI * func_LdrGetProcedureAddress)(
HMODULE ModuleHandle,
PANSI_STRING FunctionName,
WORD Oridinal,
PVOID *FunctionAddress
);
DWORD64 m_LdrGetProcedureAddress = 0;
DWORD64 x64_GetProcAddress(DWORD64 ModuleBase, char *lpszName)
{
if (m_LdrGetProcedureAddress == 0)
{
// get ntdll!LdrGetProcedureAddress()
DWORD64 Ntdll = x64_GetModuleBase("ntdll.dll");
m_LdrGetProcedureAddress = x64_GetProcAddressEx(Ntdll, "LdrGetProcedureAddress");
if (m_LdrGetProcedureAddress == 0)
{
return 0;
}
}
/*
Arguments addresses must have a proper alignment, so
we allocating them at separate memory page instead of the stack.
*/
PGET_PROC_ADDRESS_PARAMS Params = (PGET_PROC_ADDRESS_PARAMS)VirtualAlloc(
NULL, sizeof(GET_PROC_ADDRESS_PARAMS),
MEM_RESERVE | MEM_COMMIT, PAGE_READWRITE
);
if (Params == NULL)
{
return 0;
}
// setup ntdll!LdrGetProcedureAddress() arguments
strcpy_s(Params->Name, lpszName);
Params->FunctionName.Buffer = (PTR64)&Params->Name;
Params->FunctionName.MaximumLength =
Params->FunctionName.Length = strlen(Params->Name);
Params->FunctionAddress = NULL;
DWORD64 Args[] =
{
ModuleBase,
(DWORD64)&Params->FunctionName, 0,
(DWORD64)&Params->FunctionAddress
};
// perform x64 function call
DWORD64 Status = x64_Call(m_LdrGetProcedureAddress, Args, 4);
DWORD64 Retval = Params->FunctionAddress;
VirtualFree(Params, 0, MEM_RELEASE);
if (NT_SUCCESS(Status))
{
return Retval;
}
return 0;
}
#include <pshpack8.h>
typedef struct _OBJECT_ATTRIBUTES_64
{
ULONG Length;
PTR64 RootDirectory;
PTR64 ObjectName;
ULONG Attributes;
PTR64 SecurityDescriptor;
PTR64 SecurityQualityOfService;
} OBJECT_ATTRIBUTES_64,
*POBJECT_ATTRIBUTES_64;
typedef struct _IO_STATUS_BLOCK_64
{
union
{
NTSTATUS Status;
PTR64 Pointer;
};
PTR64 Information;
} IO_STATUS_BLOCK_64,
*PIO_STATUS_BLOCK_64;
#include <poppack.h>
__declspec(align(16))
typedef struct _NT_OPEN_FILE_PARAMS
{
PTR64 FileHandle;
IO_STATUS_BLOCK_64 IoStatusBlock;
UNICODE_STRING64 usName;
OBJECT_ATTRIBUTES_64 ObjectAttributes;
WCHAR Name[MAX_PATH];
} NT_OPEN_FILE_PARAMS,
*PNT_OPEN_FILE_PARAMS;
int _tmain(int argc, _TCHAR* argv[])
{
DWORD64 ProcAddress = x64_GetProcAddress(x64_GetModuleBase("ntdll.dll"), "NtOpenFile");
if (ProcAddress == 0)
{
return -1;
}
/*
Syscall arguments addresses must have a proper alignment, so
we allocating them at separate memory page instead of the stack.
*/
PNT_OPEN_FILE_PARAMS Params = (PNT_OPEN_FILE_PARAMS)VirtualAlloc(
NULL, sizeof(NT_OPEN_FILE_PARAMS),
MEM_RESERVE | MEM_COMMIT, PAGE_READWRITE
);
if (Params == NULL)
{
return -1;
}
ACCESS_MASK DesiredAccess = FILE_GENERIC_READ;
ULONG ShareAccess = FILE_SHARE_READ;
ULONG OpenOptions = 0;
wcscpy_s(Params->Name, L"\\??\\C:\\Windows\\system32\\ntdll.dll");
Params->usName.Buffer = (PTR64)&Params->Name;
Params->usName.Length = Params->usName.MaximumLength = (USHORT)wcslen(Params->Name) * 2;
Params->ObjectAttributes.Length = sizeof(OBJECT_ATTRIBUTES_64);
Params->ObjectAttributes.RootDirectory = NULL;
Params->ObjectAttributes.ObjectName = (PTR64)&Params->usName;
Params->ObjectAttributes.Attributes = OBJ_CASE_INSENSITIVE;
Params->ObjectAttributes.SecurityDescriptor = Params->ObjectAttributes.SecurityQualityOfService = NULL;
DWORD64 Args[] =
{
(DWORD64)&Params->FileHandle,
(DWORD64)DesiredAccess,
(DWORD64)&Params->ObjectAttributes,
(DWORD64)&Params->IoStatusBlock,
(DWORD64)ShareAccess,
(DWORD64)OpenOptions
};
DWORD Status = x64_Call(ProcAddress, Args, 6);
printf("Status = 0x%.8x, FileHandle = 0x%.8x\n", Status, (HANDLE)Params->FileHandle);
printf("Press any key to quit...\n");
_getch();
if (NT_SUCCESS(Status))
{
CloseHandle((HANDLE)Params->FileHandle);
}
VirtualFree(Params, 0, MEM_RELEASE);
return 0;
}
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