Leaked source code of windows server 2003
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249 lines
5.1 KiB

/*++
Copyright (c) 1995-2000 Microsoft Corporation
Module Name:
ctrltrns.c
Abstract:
Control Transfer Fragments.
Author:
10-July-1995 t-orig (Ori Gershony)
Revision History:
24-Aug-1999 [askhalid] copied from 32-bit wx86 directory and make work for 64bit.
20-Sept-1999[barrybo] added FRAG2REF(LockCmpXchg8bFrag32, ULONGLONG)
--*/
#include <nt.h>
#include <ntrtl.h>
#include <nturtl.h>
#include <windows.h>
#define _WX86CPUAPI_
#include "wx86nt.h"
#include "wx86cpu.h"
#include "instr.h"
#include "config.h"
#include "cpuassrt.h"
#include "fragp.h"
#include "entrypt.h"
#include "compiler.h"
#include "ctrltrns.h"
#include "threadst.h"
#include "tc.h"
#include "cpunotif.h"
#include "atomic.h"
ASSERTNAME;
VOID
FlushCallstack(
PTHREADSTATE cpu
)
/*++
Routine Description:
Flush the callstack - the Translation Cache is flushing, which
invalidates the callstack.
Arguments:
cpu - per-thread info
Return Value:
.
--*/
{
//
// Mark the callstack as valid.
//
cpu->CSTimestamp = TranslationCacheTimestamp;
memset(cpu->callStack, 0, CSSIZE*sizeof(CALLSTACK));
//
// No need to reset cpu->CSIndex as the stack is actually implemented
// within a circular buffer. It can start at any offset
//
}
// Call
ULONG
CTRL_CallFrag(
PTHREADSTATE cpu, // cpu state pointer
ULONG inteldest,
ULONG intelnext,
ULONG nativenext
)
{
PUSH_LONG(intelnext);
PUSH_CALLSTACK(intelnext, nativenext);
ASSERTPtrInTCOrZero((PVOID)nativenext);
eip = inteldest;
return inteldest;
}
// Call FAR
ULONG
CTRL_CallfFrag(
PTHREADSTATE cpu, // cpu state pointer
PUSHORT pinteldest,
ULONG intelnext,
ULONG nativenext
)
{
USHORT sel;
DWORD offset;
offset = *(UNALIGNED PULONG)(pinteldest);
sel = *(UNALIGNED PUSHORT)(pinteldest+2);
PUSH_LONG(CS);
PUSH_LONG(intelnext);
PUSH_CALLSTACK(intelnext, nativenext);
ASSERTPtrInTCOrZero((PVOID)nativenext);
eip = offset;
CS = sel;
return (ULONG)(ULONGLONG)pinteldest;
}
// IRet
ULONG CTRL_INDIR_IRetFrag(PTHREADSTATE cpu)
{
ULONG intelAddr, nativeAddr;
DWORD CSTemp;
POP_LONG(intelAddr);
POP_LONG(CSTemp);
PopfFrag32(cpu);
eip = intelAddr;
CS = (USHORT)CSTemp;
POP_CALLSTACK(intelAddr,nativeAddr);
ASSERTPtrInTCOrZero((PVOID)nativeAddr);
return nativeAddr;
}
// Now the ret fragments
ULONG CTRL_INDIR_RetnFrag32(PTHREADSTATE cpu)
{
ULONG intelAddr, nativeAddr;
POP_LONG(intelAddr);
eip = intelAddr;
POP_CALLSTACK(intelAddr,nativeAddr);
ASSERTPtrInTCOrZero((PVOID)nativeAddr);
return nativeAddr;
}
ULONG CTRL_INDIR_RetnFrag16(PTHREADSTATE cpu)
{
ULONG intelAddr, nativeAddr;
POP_SHORT(intelAddr);
intelAddr &= 0x0000ffff;
eip = intelAddr;
POP_CALLSTACK(intelAddr,nativeAddr);
ASSERTPtrInTCOrZero((PVOID)nativeAddr);
return nativeAddr;
}
ULONG CTRL_INDIR_RetfFrag32(PTHREADSTATE cpu)
{
ULONG intelAddr, nativeAddr;
ULONG CSTemp;
POP_LONG(intelAddr);
POP_LONG(CSTemp);
eip = intelAddr;
CS = (USHORT)CSTemp;
POP_CALLSTACK(intelAddr,nativeAddr);
ASSERTPtrInTCOrZero((PVOID)nativeAddr);
return nativeAddr;
}
ULONG CTRL_INDIR_RetfFrag16(PTHREADSTATE cpu)
{
ULONG intelAddr, nativeAddr;
ULONG CSTemp;
POP_SHORT(intelAddr);
POP_SHORT(CSTemp);
intelAddr &= 0x0000ffff;
eip = intelAddr;
CS = (USHORT)CSTemp;
POP_CALLSTACK(intelAddr,nativeAddr);
ASSERTPtrInTCOrZero((PVOID)nativeAddr);
return nativeAddr;
}
ULONG CTRL_INDIR_Retn_iFrag32(PTHREADSTATE cpu, ULONG numBytes)
{
ULONG intelAddr, nativeAddr;
intelAddr = *(DWORD *)esp;
eip = intelAddr;
esp += numBytes+4;
POP_CALLSTACK(intelAddr,nativeAddr);
ASSERTPtrInTCOrZero((PVOID)nativeAddr);
return nativeAddr;
}
ULONG CTRL_INDIR_Retn_iFrag16(PTHREADSTATE cpu, ULONG numBytes)
{
ULONG intelAddr, nativeAddr;
intelAddr = *(USHORT *)esp;
eip = intelAddr;
esp += numBytes+2;
POP_CALLSTACK(intelAddr,nativeAddr);
ASSERTPtrInTCOrZero((PVOID)nativeAddr);
return nativeAddr;
}
ULONG CTRL_INDIR_Retf_iFrag32(PTHREADSTATE cpu, ULONG numBytes)
{
ULONG intelAddr, nativeAddr;
USHORT CSTemp;
intelAddr = *(DWORD *)esp;
CSTemp = *(USHORT *)(esp+sizeof(ULONG));
eip = intelAddr;
CS = CSTemp;
esp += numBytes+sizeof(ULONG)+sizeof(ULONG);
POP_CALLSTACK(intelAddr,nativeAddr);
ASSERTPtrInTCOrZero((PVOID)nativeAddr);
return nativeAddr;
}
ULONG CTRL_INDIR_Retf_iFrag16(PTHREADSTATE cpu, ULONG numBytes)
{
ULONG intelAddr, nativeAddr;
USHORT CSTemp;
intelAddr = *(USHORT *)esp;
CSTemp = *(USHORT *)(esp+sizeof(USHORT));
eip = intelAddr;
CS = CSTemp;
esp += numBytes+sizeof(USHORT)+sizeof(USHORT);
POP_CALLSTACK(intelAddr,nativeAddr);
ASSERTPtrInTCOrZero((PVOID)nativeAddr);
return nativeAddr;
}