Source code of Windows XP (NT5)
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7.5 KiB

/*++
Copyright (c) 1992 Microsoft Corporation
Module Name:
faults.c
Abstract:
WinDbg Extension Api
Author:
Forrest Foltz (forrestf)
Environment:
User Mode.
Revision History:
--*/
#include "precomp.h"
#pragma hdrstop
#define DBGPRINT if(1) dprintf
#define MAX_IMAGE_NAME_CHARS 15
typedef struct _ALIGNMENT_FAULT_IMAGE_DB *PALIGNMENT_FAULT_IMAGE_DB;
typedef struct _ALIGNMENT_FAULT_LOCATION_DB *PALIGNMENT_FAULT_LOCATION_DB;
typedef struct _ALIGNMENT_FAULT_IMAGE_DB {
//
// Head of singly-linked list of fault locations associated with this image
//
PALIGNMENT_FAULT_LOCATION_DB LocationHead;
//
// Total number of alignment faults associated with this image.
//
ULONG Count;
//
// Number of unique alignment fault locations found in this image
//
ULONG Instances;
//
// Name of the image
//
CHAR Name[ MAX_IMAGE_NAME_CHARS + 1 ];
} ALIGNMENT_FAULT_IMAGE_DB;
typedef struct _ALIGNMENT_FAULT_LOCATION_DB {
//
// Pointer to fault image associated with this location
//
PALIGNMENT_FAULT_IMAGE_DB Image;
//
// Linkage for singly-linked list of fault locations associated with the
// same image.
//
PALIGNMENT_FAULT_LOCATION_DB Next;
//
// Offset of the PC address within the image.
//
ULONG64 OffsetFromBase;
//
// Number of alignment faults taken at this location.
//
ULONG Count;
} ALIGNMENT_FAULT_LOCATION_DB;
BOOLEAN
ReadAlignmentFaultData(
OUT PALIGNMENT_FAULT_IMAGE_DB *ImageArray,
OUT PALIGNMENT_FAULT_LOCATION_DB *LocationArray,
OUT PULONG ImageArrayElements,
OUT PULONG LocationArrayElements
);
VOID
PrintLocation(
IN PALIGNMENT_FAULT_LOCATION_DB FaultLocation
);
ULONG
ReadUlong(
ULONG64 Address
);
int
__cdecl
sortByFrequency(
const void *Elem1,
const void *Elem2
);
DECLARE_API( alignmentfaults )
{
PALIGNMENT_FAULT_IMAGE_DB imageArray;
PALIGNMENT_FAULT_LOCATION_DB locationArray, location;
ULONG imageArrayElements;
ULONG locationArrayElements;
ULONG i;
BOOLEAN result;
PALIGNMENT_FAULT_LOCATION_DB *sortLocationArray;
//
// Read the alignment fault data arrays
//
result = ReadAlignmentFaultData( &imageArray,
&locationArray,
&imageArrayElements,
&locationArrayElements );
if (result == FALSE) {
return E_INVALIDARG;
}
sortLocationArray = LocalAlloc(LPTR, sizeof(PVOID) *
locationArrayElements);
if ( !sortLocationArray ) {
dprintf("Unable to allocate sortLocationArray\n");
return E_INVALIDARG;
}
for (i = 0; i < locationArrayElements; i++) {
sortLocationArray[i] = &locationArray[i];
}
qsort( sortLocationArray,
locationArrayElements,
sizeof(PALIGNMENT_FAULT_LOCATION_DB),
sortByFrequency );
dprintf("%10s %s\n", "#faults","location");
for (i = 0; i < locationArrayElements; i++) {
location = sortLocationArray[i];
PrintLocation(location);
}
LocalFree( sortLocationArray );
return S_OK;
}
int
__cdecl
sortByFrequency(
const void *Elem1,
const void *Elem2
)
{
const ALIGNMENT_FAULT_LOCATION_DB *location1;
const ALIGNMENT_FAULT_LOCATION_DB *location2;
location1 = *((const ALIGNMENT_FAULT_LOCATION_DB **)Elem1);
location2 = *((const ALIGNMENT_FAULT_LOCATION_DB **)Elem2);
if (location1->Count < location2->Count) {
return -1;
}
if (location1->Count > location2->Count) {
return 1;
}
return 0;
}
VOID
PrintLocation(
IN PALIGNMENT_FAULT_LOCATION_DB FaultLocation
)
{
PALIGNMENT_FAULT_IMAGE_DB image;
CHAR symbol[256];
ULONG64 displacement;
image = FaultLocation->Image;
dprintf("%10d %s+%x\n",
FaultLocation->Count,
image->Name,
FaultLocation->OffsetFromBase);
}
BOOLEAN
ReadAlignmentFaultData(
OUT PALIGNMENT_FAULT_IMAGE_DB *ImageArray,
OUT PALIGNMENT_FAULT_LOCATION_DB *LocationArray,
OUT PULONG ImageArrayElements,
OUT PULONG LocationArrayElements
)
{
ULONG imageCount;
ULONG locationCount;
ULONG i;
ULONG index;
ULONG allocSize;
ULONG result;
ULONG64 locationRecordArray, locationRecord;
ULONG64 imageRecordArray, imageRecord;
ULONG64 locationCountAddr;
ULONG64 imageCountAddr;
ULONG locationRecordSize;
ULONG imageRecordSize;
PALIGNMENT_FAULT_LOCATION_DB location, locationArray;
PALIGNMENT_FAULT_IMAGE_DB image, imageArray;
//
// Get the count of images and locations
//
locationCountAddr = GetExpression ("KiAlignmentFaultLocationCount");
imageCountAddr = GetExpression ("KiAlignmentFaultImageCount");
locationCount = ReadUlong( locationCountAddr );
imageCount = ReadUlong( imageCountAddr );
if (locationCount == 0 || imageCount == 0) {
dprintf("No alignment faults encountered\n");
return FALSE;
}
locationRecordArray = GetExpression ("KiAlignmentFaultLocations");
imageRecordArray = GetExpression ("KiAlignmentFaultImages");
if (locationRecordArray == 0 || imageRecordArray == 0) {
return FALSE;
}
//
// Get the sizes of the records as they exist on the target
// machine
//
locationRecordSize = GetTypeSize("ALIGNMENT_FAULT_LOCATION");
imageRecordSize = GetTypeSize("ALIGNMENT_FAULT_IMAGE");
//
// Allocate space for the location and image arrays
//
allocSize = sizeof(ALIGNMENT_FAULT_LOCATION_DB) * locationCount +
sizeof(ALIGNMENT_FAULT_IMAGE_DB) * imageCount;
locationArray = LocalAlloc(LPTR, allocSize);
if (locationArray == NULL) {
dprintf("Unable to allocate %d bytes of memory\n", allocSize);
return FALSE;
}
imageArray = (PALIGNMENT_FAULT_IMAGE_DB)(locationArray + locationCount);
//
// Load the location records
//
location = locationArray;
locationRecord = locationRecordArray;
for (i = 0; i < locationCount; i++) {
InitTypeRead(locationRecord, ALIGNMENT_FAULT_LOCATION);
index = (ULONG)((ReadField(Image) - imageRecordArray) / imageRecordSize);
location->Image = &imageArray[ index ];
index = (ULONG)((ReadField(Next) - locationRecordArray) / locationRecordSize);
location->Next = &locationArray[ index ];
location->OffsetFromBase = ReadField(OffsetFromBase);
location->Count = (ULONG)ReadField(Count);
locationRecord += locationRecordSize;
location += 1;
}
image = imageArray;
imageRecord = imageRecordArray;
for (i = 0; i < imageCount; i++) {
InitTypeRead(imageRecord, ALIGNMENT_FAULT_IMAGE);
index = (ULONG)((ReadField(LocationHead) - locationRecordArray) / locationRecordSize);
image->LocationHead = &locationArray[ index ];
image->Count = (ULONG)ReadField(Count);
image->Instances = (ULONG)ReadField(Instances);
GetFieldOffset( "ALIGNMENT_FAULT_IMAGE", "Name", &index );
ReadMemory( imageRecord + index,
&image->Name,
sizeof(image->Name),
&result );
imageRecord += imageRecordSize;
image += 1;
}
*ImageArray = imageArray;
*LocationArray = locationArray;
*ImageArrayElements = imageCount;
*LocationArrayElements = locationCount;
return TRUE;
}