Leaked source code of windows server 2003
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/*
* brkpt.c - Breakpoint functions of DBG DLL.
*
*/
#include <precomp.h>
#pragma hdrstop
BOOL bWantsTraceInteractive = FALSE;
VDM_BREAKPOINT VdmBreakPoints[MAX_VDM_BREAKPOINTS] = {0};
#define X86_BP_OPCODE 0xCC
void
DbgSetTemporaryBP(
WORD Seg,
DWORD Offset,
BOOL mode
)
/*
This routine writes a 'CC' to the specified location, and sets up
the breakpoint structure so that we handle it correctly in DbgBPInt().
*/
{
PBYTE lpInst;
if (VdmBreakPoints[VDM_TEMPBP].Flags & VDMBP_SET) {
// remove previous bp
lpInst = VdmMapFlat(VdmBreakPoints[VDM_TEMPBP].Seg,
VdmBreakPoints[VDM_TEMPBP].Offset,
((VdmBreakPoints[VDM_TEMPBP].Flags & VDMBP_V86)==0) ? VDM_PM : VDM_V86 );
if (lpInst && (*lpInst == X86_BP_OPCODE)) {
*lpInst = VdmBreakPoints[VDM_TEMPBP].Opcode;
Sim32FlushVDMPointer(
((ULONG)VdmBreakPoints[VDM_TEMPBP].Seg << 16) +
VdmBreakPoints[VDM_TEMPBP].Offset,
1,
NULL,
(BOOL)((VdmBreakPoints[VDM_TEMPBP].Flags & VDMBP_V86)==0) );
}
}
lpInst = VdmMapFlat(Seg, Offset, mode ? VDM_PM : VDM_V86);
if (lpInst) {
VdmBreakPoints[VDM_TEMPBP].Seg = Seg;
VdmBreakPoints[VDM_TEMPBP].Offset = Offset;
VdmBreakPoints[VDM_TEMPBP].Flags = VDMBP_SET | VDMBP_ENABLED;
VdmBreakPoints[VDM_TEMPBP].Flags |= (mode ? 0 : VDMBP_V86);
VdmBreakPoints[VDM_TEMPBP].Opcode = *lpInst;
*lpInst = X86_BP_OPCODE;
Sim32FlushVDMPointer(((ULONG)Seg << 16) + Offset, 1, NULL, mode);
} else {
VdmBreakPoints[VDM_TEMPBP].Flags = 0;
}
}
BOOL
xxxDbgBPInt(
)
/*
* DbgBPInt
*
* Handles an INT 3
*
* Exit
* Returns TRUE if the event was handled
* FALSE if it should be reflected
*/
{
BOOL bEventHandled = FALSE;
ULONG vdmEip;
int i;
PBYTE lpInst;
if ( fDebugged ) {
DbgGetContext();
if ((getMSW() & MSW_PE) && SEGMENT_IS_BIG(vcContext.SegCs)) {
vdmEip = vcContext.Eip;
} else {
vdmEip = (ULONG)LOWORD(vcContext.Eip);
}
for (i=0; i<MAX_VDM_BREAKPOINTS; i++) {
if ((VdmBreakPoints[i].Flags & VDMBP_ENABLED) &&
(VdmBreakPoints[i].Flags & VDMBP_SET) &&
(vcContext.SegCs == VdmBreakPoints[i].Seg) &&
(vdmEip == VdmBreakPoints[i].Offset+1) &&
(!!(getMSW() & MSW_PE) == !(VdmBreakPoints[i].Flags & VDMBP_V86)) ){
// We must have hit this breakpoint. Back up the eip and
// restore the original data
setEIP(getEIP()-1);
vcContext.Eip--;
lpInst = VdmMapFlat(VdmBreakPoints[i].Seg,
VdmBreakPoints[i].Offset,
((VdmBreakPoints[i].Flags & VDMBP_V86)==0) ? VDM_PM : VDM_V86 );
if (lpInst && (*lpInst == X86_BP_OPCODE)) {
*lpInst = VdmBreakPoints[i].Opcode;
Sim32FlushVDMPointer(
((ULONG)VdmBreakPoints[i].Seg << 16) +
VdmBreakPoints[i].Offset,
1,
NULL,
(BOOL)((VdmBreakPoints[i].Flags & VDMBP_V86)==0) );
VdmBreakPoints[i].Flags |= VDMBP_PENDING;
VdmBreakPoints[i].Flags &= ~VDMBP_FLUSH;
if (i == VDM_TEMPBP) {
// non-persistent breakpoint
VdmBreakPoints[i].Flags &= ~VDMBP_SET;
}
}
SendVDMEvent( DBG_BREAK );
bEventHandled = TRUE;
bWantsTraceInteractive = (BOOL) (vcContext.EFlags & V86FLAGS_TRACE);
if (bWantsTraceInteractive || (i != VDM_TEMPBP)) {
vcContext.EFlags |= V86FLAGS_TRACE;
}
RestoreVDMContext(&vcContext);
break;
}
}
if (!bEventHandled) {
OutputDebugString("VDM: Unexpected breakpoint hit\n");
SendVDMEvent( DBG_BREAK );
bWantsTraceInteractive = (BOOL) (vcContext.EFlags & V86FLAGS_TRACE);
RestoreVDMContext(&vcContext);
}
bEventHandled = TRUE;
}
return bEventHandled;
}
BOOL
xxxDbgTraceInt(
)
/*
* DbgTraceInt
*
* Handles an INT 1 fault
*
* Exit
* Returns TRUE if the event was handled
* FALSE if it should be reflected
*/
{
BOOL bEventHandled = FALSE;
int i;
PBYTE lpInst;
if ( fDebugged ) {
DbgGetContext();
setEFLAGS(vcContext.EFlags & ~V86FLAGS_TRACE);
for (i=0; i<MAX_VDM_BREAKPOINTS; i++) {
if ((VdmBreakPoints[i].Flags & VDMBP_ENABLED) &&
(VdmBreakPoints[i].Flags & VDMBP_SET) &&
(VdmBreakPoints[i].Flags & VDMBP_PENDING)) {
lpInst = VdmMapFlat(VdmBreakPoints[i].Seg,
VdmBreakPoints[i].Offset,
((VdmBreakPoints[i].Flags & VDMBP_V86)==0) ? VDM_PM : VDM_V86 );
if (lpInst) {
*lpInst = X86_BP_OPCODE;
}
Sim32FlushVDMPointer(
((ULONG)VdmBreakPoints[i].Seg << 16) +
VdmBreakPoints[i].Offset,
1,
NULL,
(BOOL)((VdmBreakPoints[i].Flags & VDMBP_V86)==0) );
VdmBreakPoints[i].Flags &= ~(VDMBP_PENDING | VDMBP_FLUSH);
bEventHandled = TRUE;
}
}
if (bWantsTraceInteractive) {
SendVDMEvent( DBG_BREAK );
RestoreVDMContext(&vcContext);
bWantsTraceInteractive = (BOOL) (vcContext.EFlags & V86FLAGS_TRACE);
} else if (!bEventHandled) {
OutputDebugString("VDM: Unexpected trace interrupt\n");
SendVDMEvent( DBG_BREAK );
bWantsTraceInteractive = (BOOL) (vcContext.EFlags & V86FLAGS_TRACE);
RestoreVDMContext(&vcContext);
}
bEventHandled = TRUE;
}
return bEventHandled;
}
VOID
FlushVdmBreakPoints(
)
{
int i;
for (i=0; i<MAX_VDM_BREAKPOINTS; i++) {
if (VdmBreakPoints[i].Flags & VDMBP_FLUSH) {
Sim32FlushVDMPointer(
((ULONG)VdmBreakPoints[i].Seg << 16) +
VdmBreakPoints[i].Offset,
1,
NULL,
(BOOL)((VdmBreakPoints[i].Flags & VDMBP_V86)==0) );
VdmBreakPoints[i].Flags &= ~VDMBP_FLUSH;
}
}
}