Leaked source code of windows server 2003
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/*++
Copyright (c) 1999 Microsoft Corporation
Module Name:
triage.c
Abstract:
This module contains the Phase 0 code to triage bugchecks and
automatically enable various system tracing components until the
guilty party is found.
Author:
Landy Wang 13-Jan-1999
Revision History:
--*/
#include "mi.h"
#include "ntiodump.h"
#ifdef ALLOC_PRAGMA
#pragma alloc_text(INIT,MiTriageSystem)
#pragma alloc_text(INIT,MiTriageAddDrivers)
#endif
//
// Always update this macro when adding triage support for additional bugchecks.
//
#define MI_CAN_TRIAGE_BUGCHECK(BugCheckCode) \
((BugCheckCode) == NO_MORE_SYSTEM_PTES || \
(BugCheckCode) == BAD_POOL_HEADER || \
(BugCheckCode) == DRIVER_CORRUPTED_SYSPTES || \
(BugCheckCode) == DRIVER_CORRUPTED_EXPOOL || \
(BugCheckCode) == DRIVER_CORRUPTED_MMPOOL)
//
// These are bugchecks that were presumably triggered by either autotriage or
// the admin's registry settings - so don't apply any new rules and in addition,
// keep the old ones unaltered so it can reproduce.
//
#define MI_HOLD_TRIAGE_BUGCHECK(BugCheckCode) \
((BugCheckCode) == DRIVER_USED_EXCESSIVE_PTES || \
(BugCheckCode) == DRIVER_LEFT_LOCKED_PAGES_IN_PROCESS || \
(BugCheckCode) == PAGE_FAULT_IN_FREED_SPECIAL_POOL || \
(BugCheckCode) == DRIVER_PAGE_FAULT_IN_FREED_SPECIAL_POOL || \
(BugCheckCode) == PAGE_FAULT_BEYOND_END_OF_ALLOCATION || \
(BugCheckCode) == DRIVER_PAGE_FAULT_BEYOND_END_OF_ALLOCATION || \
(BugCheckCode) == DRIVER_CAUGHT_MODIFYING_FREED_POOL || \
(BugCheckCode) == SYSTEM_PTE_MISUSE)
#define MI_TRACKING_PTES 0x00000002
#define MI_PROTECT_FREED_NONPAGED_POOL 0x00000004
#define MI_VERIFYING_PRENT5_DRIVERS 0x00000008
#define MI_KEEPING_PREVIOUS_SETTINGS 0x00000010
#ifdef ALLOC_DATA_PRAGMA
#pragma const_seg("INITCONST")
#pragma data_seg("INITDATA")
#endif
const PCHAR MiTriageActionStrings[] = {
"Locked pages tracking",
"System PTE usage tracking",
"Making accesses to freed nonpaged pool cause bugchecks",
"Driver Verifying Pre-Windows 2000 built drivers",
"Keeping previous autotriage settings"
};
#if DBG
ULONG MiTriageDebug = 0;
BOOLEAN MiTriageRegardless = FALSE;
#endif
#ifdef ALLOC_DATA_PRAGMA
#pragma const_seg()
#pragma data_seg()
#endif
//
// N.B. The debugger references this.
//
ULONG MmTriageActionTaken;
//
// The Version number must be incremented whenever the MI_TRIAGE_STORAGE
// structure is changed. This enables usermode programs to decode the Mm
// portions of triage dumps regardless of which kernel revision created the
// dump.
//
typedef struct _MI_TRIAGE_STORAGE {
ULONG Version;
ULONG Size;
ULONG MmSpecialPoolTag;
ULONG MiTriageActionTaken;
ULONG MmVerifyDriverLevel;
ULONG KernelVerifier;
ULONG_PTR MmMaximumNonPagedPool;
ULONG_PTR MmAllocatedNonPagedPool;
ULONG_PTR PagedPoolMaximum;
ULONG_PTR PagedPoolAllocated;
ULONG_PTR CommittedPages;
ULONG_PTR CommittedPagesPeak;
ULONG_PTR CommitLimitMaximum;
} MI_TRIAGE_STORAGE, *PMI_TRIAGE_STORAGE;
PKLDR_DATA_TABLE_ENTRY
TriageGetLoaderEntry (
IN PVOID TriageDumpBlock,
IN ULONG ModuleIndex
);
LOGICAL
TriageActUpon(
IN PVOID TriageDumpBlock
);
PVOID
TriageGetMmInformation (
IN PVOID TriageDumpBlock
);
LOGICAL
MiTriageSystem (
IN PLOADER_PARAMETER_BLOCK LoaderBlock
)
/*++
Routine Description:
This routine takes the information from the last bugcheck (if any)
and triages it. Various debugging options are then automatically
enabled.
Arguments:
LoaderBlock - Supplies a pointer to the system loader block.
Return Value:
TRUE if triaging succeeded and options were enabled. FALSE otherwise.
--*/
{
PVOID TriageDumpBlock;
ULONG_PTR BugCheckData[5];
ULONG i;
ULONG ModuleCount;
NTSTATUS Status;
PLIST_ENTRY NextEntry;
PKLDR_DATA_TABLE_ENTRY DataTableEntry;
PKLDR_DATA_TABLE_ENTRY DumpTableEntry;
LOGICAL Matched;
ULONG OldDrivers;
ULONG OldDriversNotVerifying;
PMI_TRIAGE_STORAGE TriageInformation;
if (LoaderBlock->Extension == NULL) {
return FALSE;
}
if (LoaderBlock->Extension->Size < sizeof (LOADER_PARAMETER_EXTENSION)) {
return FALSE;
}
TriageDumpBlock = LoaderBlock->Extension->TriageDumpBlock;
Status = TriageGetBugcheckData (TriageDumpBlock,
(PULONG)&BugCheckData[0],
(PUINT_PTR) &BugCheckData[1],
(PUINT_PTR) &BugCheckData[2],
(PUINT_PTR) &BugCheckData[3],
(PUINT_PTR) &BugCheckData[4]);
if (!NT_SUCCESS (Status)) {
return FALSE;
}
//
// Always display at least the bugcheck data from the previous crash.
//
DbgPrint ("MiTriageSystem: Previous bugcheck was %x %p %p %p %p\n",
BugCheckData[0],
BugCheckData[1],
BugCheckData[2],
BugCheckData[3],
BugCheckData[4]);
if (TriageActUpon (TriageDumpBlock) == FALSE) {
DbgPrint ("MiTriageSystem: Triage disabled in registry by administrator\n");
return FALSE;
}
DbgPrint ("MiTriageSystem: Triage ENABLED in registry by administrator\n");
//
// See if the previous bugcheck was one where action can be taken.
// If not, bail now. If so, then march on and verify all the loaded
// module checksums before actually taking action on the bugcheck.
//
if (!MI_CAN_TRIAGE_BUGCHECK(BugCheckData[0])) {
return FALSE;
}
TriageInformation = (PMI_TRIAGE_STORAGE) TriageGetMmInformation (TriageDumpBlock);
if (TriageInformation == NULL) {
return FALSE;
}
Status = TriageGetDriverCount (TriageDumpBlock, &ModuleCount);
if (!NT_SUCCESS (Status)) {
return FALSE;
}
//
// Process module information from the triage dump.
//
#if DBG
if (MiTriageDebug & 0x1) {
DbgPrint ("MiTriageSystem: printing active drivers from triage crash...\n");
}
#endif
OldDrivers = 0;
OldDriversNotVerifying = 0;
for (i = 0; i < ModuleCount; i += 1) {
DumpTableEntry = TriageGetLoaderEntry (TriageDumpBlock, i);
if (DumpTableEntry != NULL) {
if ((DumpTableEntry->Flags & LDRP_ENTRY_NATIVE) == 0) {
OldDrivers += 1;
if ((DumpTableEntry->Flags & LDRP_IMAGE_VERIFYING) == 0) {
//
// An NT3 or NT4 driver is in the system and was not
// running under the verifier.
//
OldDriversNotVerifying += 1;
}
}
#if DBG
if (MiTriageDebug & 0x1) {
DbgPrint (" %wZ: base = %p, size = %lx, flags = %lx\n",
&DumpTableEntry->BaseDllName,
DumpTableEntry->DllBase,
DumpTableEntry->SizeOfImage,
DumpTableEntry->Flags);
}
#endif
}
}
//
// Ensure that every driver that is currently loaded is identical to
// the one in the triage dump before proceeding.
//
NextEntry = LoaderBlock->LoadOrderListHead.Flink;
while (NextEntry != &LoaderBlock->LoadOrderListHead) {
DataTableEntry = CONTAINING_RECORD(NextEntry,
KLDR_DATA_TABLE_ENTRY,
InLoadOrderLinks);
Matched = FALSE;
for (i = 0; i < ModuleCount; i += 1) {
DumpTableEntry = TriageGetLoaderEntry (TriageDumpBlock, i);
if (DumpTableEntry != NULL) {
if (DataTableEntry->CheckSum == DumpTableEntry->CheckSum) {
Matched = TRUE;
break;
}
}
}
if (Matched == FALSE) {
DbgPrint ("Matching checksum for module %wZ not found in triage dump\n",
&DataTableEntry->BaseDllName);
#if DBG
if (MiTriageRegardless == FALSE)
#endif
return FALSE;
}
NextEntry = NextEntry->Flink;
}
#if DBG
if (MiTriageDebug & 0x1) {
DbgPrint ("MiTriageSystem: OldDrivers = %u, without verification =%u\n",
OldDrivers,
OldDriversNotVerifying);
}
#endif
//
// All boot loaded drivers matched, take action on the triage dump now.
//
if (MI_HOLD_TRIAGE_BUGCHECK(BugCheckData[0])) {
//
// The last bugcheck was presumably triggered by either autotriage or
// the admin's registry settings - so don't apply any new rules
// and in addition, keep the old ones unaltered so it can reproduce.
//
MmTriageActionTaken = TriageInformation->MiTriageActionTaken;
MmTriageActionTaken |= MI_KEEPING_PREVIOUS_SETTINGS;
}
else {
switch (BugCheckData[0]) {
case DRIVER_CORRUPTED_SYSPTES:
//
// Turn on PTE tracking to trigger a SYSTEM_PTE_MISUSE bugcheck.
//
MmTriageActionTaken |= MI_TRACKING_PTES;
break;
case NO_MORE_SYSTEM_PTES:
//
// Turn on PTE tracking so the driver can be identified via a
// DRIVER_USED_EXCESSIVE_PTES bugcheck.
//
if (BugCheckData[1] == SystemPteSpace) {
MmTriageActionTaken |= MI_TRACKING_PTES;
}
break;
case BAD_POOL_HEADER:
case DRIVER_CORRUPTED_EXPOOL:
//
// Turn on the driver verifier and/or special pool.
// Start by enabling it for every driver that isn't built for NT5.
// Override any specified driver verifier options so that only
// special pool is enabled to minimize the performance hit.
//
if (OldDrivers != 0) {
if (OldDriversNotVerifying != 0) {
MmTriageActionTaken |= MI_VERIFYING_PRENT5_DRIVERS;
}
}
break;
case DRIVER_CORRUPTED_MMPOOL:
//
// Protect freed nonpaged pool if the system had less than 128mb
// of nonpaged pool anyway. This is to trigger a
// DRIVER_CAUGHT_MODIFYING_FREED_POOL bugcheck.
//
#define MB128 ((ULONG_PTR)0x80000000 >> PAGE_SHIFT)
if (TriageInformation->MmMaximumNonPagedPool < MB128) {
MmTriageActionTaken |= MI_PROTECT_FREED_NONPAGED_POOL;
}
break;
case IRQL_NOT_LESS_OR_EQUAL:
case DRIVER_IRQL_NOT_LESS_OR_EQUAL:
default:
break;
}
}
//
// For now always show if action was taken from the bugcheck
// data from the crash. This print and the space for the print strings
// will be enabled for checked builds only prior to shipping.
//
if (MmTriageActionTaken != 0) {
if (MmTriageActionTaken & MI_TRACKING_PTES) {
MmTrackPtes |= 0x1;
}
if (MmTriageActionTaken & MI_VERIFYING_PRENT5_DRIVERS) {
MmVerifyDriverLevel &= ~DRIVER_VERIFIER_FORCE_IRQL_CHECKING;
MmVerifyDriverLevel |= DRIVER_VERIFIER_SPECIAL_POOLING;
}
if (MmTriageActionTaken & MI_PROTECT_FREED_NONPAGED_POOL) {
MmProtectFreedNonPagedPool = TRUE;
}
DbgPrint ("MiTriageSystem: enabling options below to find who caused the last crash\n");
for (i = 0; i < 32; i += 1) {
if (MmTriageActionTaken & (1 << i)) {
DbgPrint (" %s\n", MiTriageActionStrings[i]);
}
}
}
return TRUE;
}
LOGICAL
MiTriageAddDrivers (
IN PLOADER_PARAMETER_BLOCK LoaderBlock
)
/*++
Routine Description:
This routine moves the names of any drivers that autotriage has determined
need verifying from the LoaderBlock into pool.
Arguments:
LoaderBlock - Supplies a pointer to the system loader block.
Return Value:
TRUE if any drivers were added, FALSE if not.
--*/
{
ULONG i;
ULONG ModuleCount;
NTSTATUS Status;
PKLDR_DATA_TABLE_ENTRY DumpTableEntry;
PVOID TriageDumpBlock;
ULONG NameLength;
LOGICAL Added;
PMI_VERIFIER_DRIVER_ENTRY VerifierDriverEntry;
if ((MmTriageActionTaken & MI_VERIFYING_PRENT5_DRIVERS) == 0) {
return FALSE;
}
TriageDumpBlock = LoaderBlock->Extension->TriageDumpBlock;
Status = TriageGetDriverCount (TriageDumpBlock, &ModuleCount);
if (!NT_SUCCESS (Status)) {
return FALSE;
}
Added = FALSE;
for (i = 0; i < ModuleCount; i += 1) {
DumpTableEntry = TriageGetLoaderEntry (TriageDumpBlock, i);
if (DumpTableEntry == NULL) {
continue;
}
if (DumpTableEntry->Flags & LDRP_ENTRY_NATIVE) {
continue;
}
DbgPrint ("MiTriageAddDrivers: Marking %wZ for verification when it is loaded\n", &DumpTableEntry->BaseDllName);
NameLength = DumpTableEntry->BaseDllName.Length;
VerifierDriverEntry = (PMI_VERIFIER_DRIVER_ENTRY)ExAllocatePoolWithTag (
NonPagedPool,
sizeof (MI_VERIFIER_DRIVER_ENTRY) +
NameLength,
'dLmM');
if (VerifierDriverEntry == NULL) {
continue;
}
VerifierDriverEntry->Loads = 0;
VerifierDriverEntry->Unloads = 0;
VerifierDriverEntry->BaseName.Buffer = (PWSTR)((PCHAR)VerifierDriverEntry +
sizeof (MI_VERIFIER_DRIVER_ENTRY));
VerifierDriverEntry->BaseName.Length = (USHORT)NameLength;
VerifierDriverEntry->BaseName.MaximumLength = (USHORT)NameLength;
RtlCopyMemory (VerifierDriverEntry->BaseName.Buffer,
DumpTableEntry->BaseDllName.Buffer,
NameLength);
InsertHeadList (&MiSuspectDriverList, &VerifierDriverEntry->Links);
Added = TRUE;
}
return Added;
}
#define MAX_UNLOADED_NAME_LENGTH 24
typedef struct _DUMP_UNLOADED_DRIVERS {
UNICODE_STRING Name;
WCHAR DriverName[MAX_UNLOADED_NAME_LENGTH / sizeof (WCHAR)];
PVOID StartAddress;
PVOID EndAddress;
} DUMP_UNLOADED_DRIVERS, *PDUMP_UNLOADED_DRIVERS;
ULONG
MmSizeOfUnloadedDriverInformation (
VOID
)
/*++
Routine Description:
This routine returns the size of the Mm-internal unloaded driver
information that is stored in the triage dump when (if?) the system crashes.
Arguments:
None.
Return Value:
Size of the Mm-internal unloaded driver information.
--*/
{
if (MmUnloadedDrivers == NULL) {
return sizeof (ULONG_PTR);
}
return sizeof(ULONG_PTR) + MI_UNLOADED_DRIVERS * sizeof(DUMP_UNLOADED_DRIVERS);
}
VOID
MmWriteUnloadedDriverInformation (
IN PVOID Destination
)
/*++
Routine Description:
This routine stores the Mm-internal unloaded driver information into
the triage dump.
Arguments:
None.
Return Value:
None.
--*/
{
ULONG i;
ULONG Index;
PUNLOADED_DRIVERS Unloaded;
PDUMP_UNLOADED_DRIVERS DumpUnloaded;
if (MmUnloadedDrivers == NULL) {
*(PULONG)Destination = 0;
}
else {
DumpUnloaded = (PDUMP_UNLOADED_DRIVERS)((PULONG_PTR)Destination + 1);
Unloaded = MmUnloadedDrivers;
//
// Write the list with the most recently unloaded driver first to the
// least recently unloaded driver last.
//
Index = MmLastUnloadedDriver - 1;
for (i = 0; i < MI_UNLOADED_DRIVERS; i += 1) {
if (Index >= MI_UNLOADED_DRIVERS) {
Index = MI_UNLOADED_DRIVERS - 1;
}
Unloaded = &MmUnloadedDrivers[Index];
DumpUnloaded->Name = Unloaded->Name;
if (Unloaded->Name.Buffer == NULL) {
break;
}
DumpUnloaded->StartAddress = Unloaded->StartAddress;
DumpUnloaded->EndAddress = Unloaded->EndAddress;
if (DumpUnloaded->Name.Length > MAX_UNLOADED_NAME_LENGTH) {
DumpUnloaded->Name.Length = MAX_UNLOADED_NAME_LENGTH;
}
if (DumpUnloaded->Name.MaximumLength > MAX_UNLOADED_NAME_LENGTH) {
DumpUnloaded->Name.MaximumLength = MAX_UNLOADED_NAME_LENGTH;
}
DumpUnloaded->Name.Buffer = DumpUnloaded->DriverName;
RtlCopyMemory ((PVOID)DumpUnloaded->Name.Buffer,
(PVOID)Unloaded->Name.Buffer,
DumpUnloaded->Name.MaximumLength);
DumpUnloaded += 1;
Index -= 1;
}
*(PULONG)Destination = i;
}
}
ULONG
MmSizeOfTriageInformation (
VOID
)
/*++
Routine Description:
This routine returns the size of the Mm-internal information that is
stored in the triage dump when (if?) the system crashes.
Arguments:
None.
Return Value:
Size of the Mm-internal triage information.
--*/
{
return sizeof (MI_TRIAGE_STORAGE);
}
VOID
MmWriteTriageInformation (
IN PVOID Destination
)
/*++
Routine Description:
This routine stores the Mm-internal information into the triage dump.
Arguments:
None.
Return Value:
None.
--*/
{
MI_TRIAGE_STORAGE TriageInformation;
TriageInformation.Version = 1;
TriageInformation.Size = sizeof (MI_TRIAGE_STORAGE);
TriageInformation.MmSpecialPoolTag = MmSpecialPoolTag;
TriageInformation.MiTriageActionTaken = MmTriageActionTaken;
TriageInformation.MmVerifyDriverLevel = MmVerifierData.Level;
TriageInformation.KernelVerifier = KernelVerifier;
TriageInformation.MmMaximumNonPagedPool = MmMaximumNonPagedPoolInBytes >> PAGE_SHIFT;
TriageInformation.MmAllocatedNonPagedPool = MmAllocatedNonPagedPool;
TriageInformation.PagedPoolMaximum = MmSizeOfPagedPoolInBytes >> PAGE_SHIFT;
TriageInformation.PagedPoolAllocated = MmPagedPoolInfo.AllocatedPagedPool;
TriageInformation.CommittedPages = MmTotalCommittedPages;
TriageInformation.CommittedPagesPeak = MmPeakCommitment;
TriageInformation.CommitLimitMaximum = MmTotalCommitLimitMaximum;
RtlCopyMemory (Destination,
(PVOID)&TriageInformation,
sizeof (MI_TRIAGE_STORAGE));
}