Leaked source code of windows server 2003
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362 lines
9.0 KiB

#include <basedef.h>
#include <vmm.h>
#include <vwin32.h>
#include "ntddpack.h"
#include "except.h"
#include "exvector.h"
#pragma VxD_LOCKED_CODE_SEG
#pragma VxD_LOCKED_DATA_SEG
extern PVOID C_Handle_Trap_1;
extern PVOID C_Handle_Trap_3;
extern DWORD pfnHandler;
extern PVOID pProcessHandle;
BOOL
DriverControl(DWORD dwMessage)
{
switch (dwMessage)
{
case 0:
_asm mov eax, 1
_asm mov esi, offset C_Handle_Trap_1
VMMCall( Hook_PM_Fault );
_asm mov eax, 3
_asm mov esi, offset C_Handle_Trap_3
VMMCall( Hook_PM_Fault );
break;
case 1:
_asm mov eax, 1
_asm mov esi, offset C_Handle_Trap_1
VMMCall( Unhook_PM_Fault );
_asm mov eax, 3
_asm mov esi, offset C_Handle_Trap_3
VMMCall( Unhook_PM_Fault );
break;
default:
0;
}
return STATUS_SUCCESS;
}
DWORD
_stdcall
DriverIOControl(DWORD dwService,
DWORD dwDDB,
DWORD hDevice,
PDIOCPARAMETERS pDiocParms)
/*++
Routine Description:
This is the dispatch routine for create/open and close requests.
These requests complete successfully.
Arguments:
DeviceObject - Pointer to the device object.
Irp - Pointer to the request packet.
Return Value:
Status is returned.
--*/
{
PVOID pInputParams;
switch ( dwService )
{
case DIOC_OPEN:
//
// Nothing to do
//
break;
case DIOC_CLOSEHANDLE:
//
// If our client for the except handler is going away, initialize the exception handler data
//
if (pProcessHandle == VWIN32_GetCurrentProcessHandle()) {
pfnHandler = 0;
pProcessHandle = 0;
}
break;
case INSTALL_RING_3_HANDLER:
//
// See if we already have a client
//
if (pProcessHandle) {
return STATUS_UNSUCCESSFUL;
}
pProcessHandle = VWIN32_GetCurrentProcessHandle();
//
// Copy the handler into our global
//
pInputParams = (PVOID)(pDiocParms->lpvInBuffer);
_asm mov eax, pInputParams
_asm mov eax, [eax]
_asm mov pfnHandler, eax
break;
default:
//
// Error, Unrecognized IOCTL
//
*(DWORD *)(pDiocParms->lpcbBytesReturned) = 0;
break;
}
return STATUS_SUCCESS;
}
//
// Helper function for maintaining context information between ring levels
//
VOID
FillContextRecord(PCRS pcrs,
PCONTEXT pContext)
{
DWORD dwDebugRegister;
//
// Clear trace and direction flags for the exception dispatcher
//
pcrs->Client_EFlags &= ~(TF_MASK | DF_MASK);
//
// Fill context record
//
pContext->Eax = pcrs->Client_EAX;
pContext->Ebx = pcrs->Client_EBX;
pContext->Ecx = pcrs->Client_ECX;
pContext->Edx = pcrs->Client_EDX;
pContext->Esi = pcrs->Client_ESI;
pContext->Edi = pcrs->Client_EDI;
pContext->Eip = pcrs->Client_EIP;
pContext->Ebp = pcrs->Client_EBP;
pContext->Esp = pcrs->Client_ESP;
pContext->SegGs = pcrs->Client_GS;
pContext->SegFs = pcrs->Client_FS;
pContext->SegEs = pcrs->Client_ES;
pContext->SegDs = pcrs->Client_DS;
pContext->SegCs = pcrs->Client_CS;
pContext->EFlags = pcrs->Client_EFlags;
//
// Store the debug registers
//
_asm mov eax, dr0
_asm mov dwDebugRegister, eax
pContext->Dr0 = dwDebugRegister;
_asm mov eax, dr1
_asm mov dwDebugRegister, eax
pContext->Dr1 = dwDebugRegister;
_asm mov eax, dr2
_asm mov dwDebugRegister, eax
pContext->Dr2 = dwDebugRegister;
_asm mov eax, dr3
_asm mov dwDebugRegister, eax
pContext->Dr3 = dwDebugRegister;
_asm mov eax, dr6
_asm mov dwDebugRegister, eax
pContext->Dr6 = dwDebugRegister;
_asm mov eax, dr7
_asm mov dwDebugRegister, eax
pContext->Dr7 = dwDebugRegister;
//
// This is a full context
//
pContext->ContextFlags = (DWORD)-1;
}
VOID
RestorePCRS(PCRS pcrs,
PCONTEXT pContext)
{
DWORD dwDebugRegister;
//
// Restore pcrs
//
pcrs->Client_EAX = pContext->Eax;
pcrs->Client_EBX = pContext->Ebx;
pcrs->Client_ECX = pContext->Ecx;
pcrs->Client_EDX = pContext->Edx;
pcrs->Client_ESI = pContext->Esi;
pcrs->Client_EDI = pContext->Edi;
pcrs->Client_EIP = pContext->Eip;
pcrs->Client_EBP = pContext->Ebp;
pcrs->Client_ESP = pContext->Esp;
pcrs->Client_GS = pContext->SegGs;
pcrs->Client_FS = pContext->SegFs;
pcrs->Client_ES = pContext->SegEs;
pcrs->Client_DS = pContext->SegDs;
pcrs->Client_CS = pContext->SegCs;
pcrs->Client_EFlags = pContext->EFlags;
//
// Restore the debug registers
//
dwDebugRegister = pContext->Dr0;
_asm mov eax, dwDebugRegister
_asm mov dr0, eax
dwDebugRegister = pContext->Dr1;
_asm mov eax, dwDebugRegister
_asm mov dr1, eax
dwDebugRegister = pContext->Dr2;
_asm mov eax, dwDebugRegister
_asm mov dr2, eax
dwDebugRegister = pContext->Dr3;
_asm mov eax, dwDebugRegister
_asm mov dr3, eax
dwDebugRegister = pContext->Dr6;
_asm mov eax, dwDebugRegister
_asm mov dr6, eax
dwDebugRegister = pContext->Dr7;
_asm mov eax, dwDebugRegister
_asm mov dr7, eax
}
//
// Exception dispatching routine
//
BOOL
__cdecl
C_Trap_Exception_Handler(ULONG ExceptionNumber,
PCRS pcrs)
{
DWORD dwException = ExceptionNumber >> 2;
PEXCEPTION_RECORD pExceptionRecord;
PCONTEXT pContextRecord;
PSTACKFRAME pStackFrame;
ULONG Result;
ULONG StackTop;
ULONG Length;
//
// Make sure our current thread is Win32
//
if (FALSE == VWIN32_IsClientWin32()) {
return FALSE;
}
//
// Make sure we only handle exceptions for our controlling "process"
//
if (pProcessHandle != VWIN32_GetCurrentProcessHandle()) {
return FALSE;
}
//
// If selector isn't flat, we can't handle this exception
//
if ((pcrs->Client_SS != pcrs->Client_DS) ||
(pcrs->Client_SS != pcrs->Client_ES)){
return FALSE;
}
//
// See if this is a context set
//
if (SET_CONTEXT == *(DWORD *)(pcrs->Client_EIP)) {
//
// Set the context data
//
pContextRecord = *(DWORD *)(pcrs->Client_ESP + 0x10);
RestorePCRS(pcrs,
pContextRecord);
return TRUE;
}
//
// Move stack pointer down one context record length
//
StackTop = (pcrs->Client_ESP & ~3) - ((sizeof(CONTEXT) + 3) & ~3);
pContextRecord = (PCONTEXT) StackTop;
FillContextRecord(pcrs,
pContextRecord);
//
// Adjust eip for breakpoint exceptions
//
if (3 == dwException) {
pContextRecord->Eip -= 1;
}
Length = (sizeof(EXCEPTION_RECORD) - (EXCEPTION_MAXIMUM_PARAMETERS - 2) *
sizeof(*pExceptionRecord->ExceptionInformation) + 3) & ~3;
//
// We are now at the Exception Record
//
StackTop = StackTop - Length;
pExceptionRecord = (PEXCEPTION_RECORD)StackTop;
pExceptionRecord->ExceptionFlags = 0;
pExceptionRecord->ExceptionRecord = 0;
pExceptionRecord->ExceptionAddress = (PVOID)pcrs->Client_EIP;
pExceptionRecord->NumberParameters = 0;
switch (dwException) {
case 1:
pExceptionRecord->ExceptionCode = STATUS_SINGLE_STEP;
break;
case 3:
pExceptionRecord->ExceptionCode = STATUS_BREAKPOINT;
pExceptionRecord->NumberParameters = 1;
pExceptionRecord->ExceptionInformation[0] = BREAKPOINT_BREAK;
pExceptionRecord->ExceptionAddress = (PVOID)pContextRecord->Eip;
break;
default:
0;
}
//
// Setup the exception call frame
//
StackTop = StackTop - sizeof(STACKFRAME);
pStackFrame = (PSTACKFRAME) StackTop;
pStackFrame->ExceptPointers.ExceptionRecord = pExceptionRecord;
pStackFrame->ExceptPointers.ContextRecord = pContextRecord;
pStackFrame->pExceptPointers = (PVOID)(StackTop + 0x08);
pStackFrame->RetAddress = (PVOID)0xffecbad7; // App will page fault out if unexpected exception occurs
//
// Transfer control to Ring 3 handler
//
pcrs->Client_ESP = (ULONG)pStackFrame;
pcrs->Client_EIP = (ULONG)pfnHandler;
return TRUE;
SkipHandler:
//
// We didn't process the exception give it to the next handler
//
return FALSE;
}