Source code of Windows XP (NT5)
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//----------------------------------------------------------------------------
//
// Disassembly portions of AMD64 machine implementation.
//
// Copyright (C) Microsoft Corporation, 2000.
//
//----------------------------------------------------------------------------
#include "ntsdp.hpp"
// See Get/SetRegVal comments in machine.hpp.
#define RegValError Do_not_use_GetSetRegVal_in_machine_implementations
#define GetRegVal(index, val) RegValError
#define GetRegVal32(index) RegValError
#define GetRegVal64(index) RegValError
#define SetRegVal(index, val) RegValError
#define SetRegVal32(index, val) RegValError
#define SetRegVal64(index, val) RegValError
#define BIT20(b) ((b) & 0x07)
#define BIT53(b) (((b) >> 3) & 0x07)
#define BIT76(b) (((b) >> 6) & 0x03)
HRESULT
Amd64MachineInfo::NewBreakpoint(DebugClient* Client,
ULONG Type,
ULONG Id,
Breakpoint** RetBp)
{
HRESULT Status;
switch(Type & (DEBUG_BREAKPOINT_CODE | DEBUG_BREAKPOINT_DATA))
{
case DEBUG_BREAKPOINT_CODE:
*RetBp = new CodeBreakpoint(Client, Id, IMAGE_FILE_MACHINE_AMD64);
Status = (*RetBp) ? S_OK : E_OUTOFMEMORY;
break;
case DEBUG_BREAKPOINT_DATA:
*RetBp = new X86DataBreakpoint(Client, Id, AMD64_CR4, AMD64_DR6, IMAGE_FILE_MACHINE_AMD64);
Status = (*RetBp) ? S_OK : E_OUTOFMEMORY;
break;
default:
// Unknown breakpoint type.
Status = E_NOINTERFACE;
}
return Status;
}
void
Amd64MachineInfo::InsertAllDataBreakpoints(void)
{
PPROCESS_INFO ProcessSave = g_CurrentProcess;
PTHREAD_INFO Thread;
// Update thread context for every thread.
g_CurrentProcess = g_ProcessHead;
while (g_CurrentProcess != NULL)
{
Thread = g_CurrentProcess->ThreadHead;
while (Thread != NULL)
{
ULONG64 Dr7Value;
BpOut("Thread %d data breaks %d\n",
Thread->UserId, Thread->NumDataBreaks);
ChangeRegContext(Thread);
// Start with all breaks turned off.
Dr7Value = GetReg64(AMD64_DR7) & ~X86_DR7_CTRL_03_MASK;
if (Thread->NumDataBreaks > 0)
{
ULONG i;
for (i = 0; i < Thread->NumDataBreaks; i++)
{
X86DataBreakpoint* Bp =
(X86DataBreakpoint *)Thread->DataBreakBps[i];
ULONG64 Addr = Flat(*Bp->GetAddr());
BpOut(" dbp %d at %I64x\n", i, Addr);
if (g_DataBreakpointsChanged)
{
SetReg64(AMD64_DR0 + i, Addr);
}
// There are two enable bits per breakpoint
// and four len/rw bits so split up enables
// and len/rw when shifting into place.
Dr7Value |=
((Bp->m_Dr7Bits & 0xffff0000) << (i * 4)) |
((Bp->m_Dr7Bits & X86_DR7_ALL_ENABLES) << (i * 2));
}
// The kernel automatically clears DR6 when it
// processes a DBGKD_CONTROL_SET.
if (IS_USER_TARGET())
{
SetReg64(AMD64_DR6, 0);
}
// Set local exact match, which is effectively global on NT.
Dr7Value |= X86_DR7_LOCAL_EXACT_ENABLE;
}
BpOut(" thread %d DR7 %I64X\n", Thread->UserId, Dr7Value);
SetReg64(AMD64_DR7, Dr7Value);
Thread = Thread->Next;
}
g_CurrentProcess = g_CurrentProcess->Next;
}
g_CurrentProcess = ProcessSave;
if (g_CurrentProcess != NULL)
{
ChangeRegContext(g_CurrentProcess->CurrentThread);
}
else
{
ChangeRegContext(NULL);
}
}
void
Amd64MachineInfo::RemoveAllDataBreakpoints(void)
{
SetReg64(AMD64_DR7, 0);
}
ULONG
Amd64MachineInfo::IsBreakpointOrStepException(PEXCEPTION_RECORD64 Record,
ULONG FirstChance,
PADDR BpAddr,
PADDR RelAddr)
{
if (Record->ExceptionCode == STATUS_BREAKPOINT)
{
// Data breakpoints hit as STATUS_SINGLE_STEP so
// this can only be a code breakpoint.
if (IS_USER_TARGET() && FirstChance)
{
// Back up to the actual breakpoint instruction.
AddrSub(BpAddr, X86_INT3_LEN);
SetPC(BpAddr);
}
return EXBS_BREAKPOINT_CODE;
}
else if (Record->ExceptionCode == STATUS_SINGLE_STEP)
{
ULONG64 Dr6 = GetReg64(AMD64_DR6);
ULONG64 Dr7 = GetReg64(AMD64_DR7);
BpOut("Amd64 step: DR6 %I64X, DR7 %I64X\n", Dr6, Dr7);
// The single step bit should always be set if a data breakpoint
// is hit but also check the DR7 enables just in case.
if ((Dr6 & X86_DR6_SINGLE_STEP) || (Dr7 & X86_DR7_ALL_ENABLES) == 0)
{
// This is a true single step exception, not
// a data breakpoint.
return EXBS_STEP_INSTRUCTION;
}
else
{
// Some data breakpoint must be hit.
DBG_ASSERT(Dr6 & X86_DR6_BREAK_03);
// There doesn't appear to be any way
// to get the faulting address so just leave the PC.
return EXBS_BREAKPOINT_DATA;
}
}
return EXBS_NONE;
}