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Driver Object Corruption Triggers Bugcheck 109

My name is Victor Mei, I am an Escalation Engineer in Platforms Global Escalation Services in GCR.  Some customers I worked with have strong interests in debugging; but usually they got frustrated when I told them “To find the cause from this dump, you have to get the code and understand the design behind it”.

 

This time I am going to talk about one crash dump, on which we can use basic debugging commands and knowledge of the Windows kernel to find out the root cause:

 

1: kd> !analyze -v

*******************************************************************************

*                                                                             *

*                        Bugcheck Analysis                                    *

*                                                                             *

*******************************************************************************

CRITICAL_STRUCTURE_CORRUPTION (109)

This bugcheck is generated when the kernel detects that critical kernel code or

data have been corrupted. There are generally three causes for a corruption:

1) A driver has inadvertently or deliberately modified critical kernel code

or data. See https://www.microsoft.com/whdc/driver/kernel/64bitPatching.mspx

2) A developer attempted to set a normal kernel breakpoint using a kernel

debugger that was not attached when the system was booted. Normal breakpoints,

"bp", can only be set if the debugger is attached at boot time. Hardware

breakpoints, "ba", can be set at any time.

3) A hardware corruption occurred, e.g. failing RAM holding kernel code or data.

Arguments:

Arg1: a3a01f5a3763f650, Reserved

Arg2: b3b72be089e32ceb, Reserved

Arg3: ffffe001a2894a20, Failure type dependent information

Arg4: 000000000000001c, Type of corrupted region, can be

0   : A generic data region

1   : Modification of a function or .pdata

2   : A processor IDT

3   : A processor GDT

4   : Type 1 process list corruption

5   : Type 2 process list corruption

6   : Debug routine modification

7   : Critical MSR modification

8   : Object type

9   : A processor IVT

a   : Modification of a system service function

b   : A generic session data region

c   : Modification of a session function or .pdata

d   : Modification of an import table

e   : Modification of a session import table

f   : Ps Win32 callout modification

10  : Debug switch routine modification

11  : IRP allocator modification

12  : Driver call dispatcher modification

13  : IRP completion dispatcher modification

14  : IRP deallocator modification

15  : A processor control register

16  : Critical floating point control register modification

17  : Local APIC modification

18  : Kernel notification callout modification

19  : Loaded module list modification

1a  : Type 3 process list corruption

1b  : Type 4 process list corruption

1c  : Driver object corruption

1d  : Executive callback object modification

1e  : Modification of module padding

1f  : Modification of a protected process

20  : A generic data region

21  : A page hash mismatch

22  : A session page hash mismatch

102 : Modification of win32k.sys

 

The stack only contains one frame:

 

# Child-SP          RetAddr           Call Site

00 ffffd000`223721c8 00000000`00000000 nt!KeBugCheckEx

 

You will get disappointed if you attempted to find out who called KeBugCheckEx from the stack, because you will find KeBugCheckEx is the only function address on the stack.

 

Since there is nothing more on the stack, let’s take a close look at what WinDBG tells about Bugcheck parameters:

 

Arg3: ffffe001a2894a20, Failure type dependent information

Arg4: 000000000000001c, Type of corrupted region, can be

1c  : Driver object corruption

 

Tip: Always use the latest version of WinDBG, the older versions may not tell you 1c is for Driver Object corruption.

 

Arg4 indicates this is driver object corruption, so the type dependent information provided by Arg3 should be the Driver object, right? Let’s check the object:

 

1: kd> !drvobj ffffe001a2894a20

Driver object (ffffe001a2894a20) is for:

ffffe001a2894a20: is not a driver object

 

Let’s try !pool

 

1: kd> !pool ffffe001a2894a20

Pool page ffffe001a2894a20 region is Nonpaged pool

ffffe001a2894000 size:  510 previous size:    0  (Allocated)  FMcr

ffffe001a2894510 size:   50 previous size:  510  (Allocated)  Wmip

ffffe001a2894560 size:   60 previous size:   50  (Allocated)  NtfJ

ffffe001a28945c0 size:   60 previous size:   60  (Allocated)  EtwR

ffffe001a2894620 size:   60 previous size:   60  (Allocated)  EtwR

ffffe001a2894680 size:   60 previous size:   60  (Allocated)  EtwR

ffffe001a28946e0 size:   60 previous size:   60  (Allocated)  EtwR

ffffe001a2894740 size:  210 previous size:   60  (Allocated)  Devi

*ffffe001a2894950 size: 200 previous size: 210 (Allocated) *Driv

     Pooltag Driv : Driver objects

ffffe001a2894b50 size:  2b0 previous size:  200  (Allocated)  Devi

ffffe001a2894e00 size:  200 previous size:  2b0  (Allocated)  Driv

 

So the address does belong to a driver object, but what is the base address of NT!_Driver_Object? If you don’t have experience on it, a quick method is to refer to a known device object, for example:

 

1: kd> !drvobj \driver\acpi

Driver object (ffffe001a14df060) is for:

\Driver\ACPI

1: kd> !pool ffffe001a14df060

Pool page ffffe001a14df060 region is Nonpaged pool

*ffffe001a14df000 size: 200 previous size: 0 (Allocated) *Driv

     Pooltag Driv : Driver objects

ffffe001a14df200 size:   10 previous size:  200  (Free)       Free

1: kd> ?ffffe001a14df060-ffffe001a14df000

Evaluate expression: 96 = 00000000`00000060

 

So, looks like the offset is 0x60, let’s have another try:

 

1: kd> !drvobj ffffe001a2894950+0x60

Driver object (ffffe001a28949b0) is for:

\FileSystem\Ntfs

 

Great, we got the object.

 

Arg3 is ffffe001a2894a20, offset 0x70 to the Driver Object.

 

1: kd> ?ffffe001a2894a20-ffffe001a28949b0

Evaluate expression: 112 = 00000000`00000070

 

1: kd> dt nt!_DRIVER_OBJECT ffffe001a28949b0

   +0x000 Type             : 0n4

   +0x002 Size             : 0n336

   +0x008 DeviceObject     : 0xffffe001`a144c030 _DEVICE_OBJECT

   +0x010 Flags            : 0x92

   +0x018 DriverStart      : 0xfffff800`0d044000 Void

   +0x020 DriverSize       : 0x1f6000

   +0x028 DriverSection    : 0xffffe001`a142e2c0 Void

   +0x030 DriverExtension  : 0xffffe001`a2894b00 _DRIVER_EXTENSION

   +0x038 DriverName       : _UNICODE_STRING "\FileSystem\Ntfs"

   +0x048 HardwareDatabase : 0xfffff802`64b31580 _UNICODE_STRING "\REGISTRY\MACHINE\HARDWARE\DESCRIPTION\SYSTEM"

   +0x050 FastIoDispatch   : 0xfffff800`0d0ae640 _FAST_IO_DISPATCH

   +0x058 DriverInit       : 0xfffff800`0d06e280     long  Ntfs!GsDriverEntry+0

   +0x060 DriverStartIo    : (null)

   +0x068 DriverUnload     : 0xfffff800`0c8d5d24     void  +0

   +0x070 MajorFunction : [28] 0xfffff800`0d126a10 long Ntfs!NtfsFsdCreate+0

 

The bugcheck code seems to be indicating that the MajorFunction table is corrupted, let’s look at the details:

 

1: kd> !drvobj ffffe001a2894950+0x60 f

Driver object (ffffe001a28949b0) is for:

\FileSystem\Ntfs

Driver Extension List: (id , addr)

 

Device Object list:

ffffe001a144c030  ffffe001a1449030  ffffe001a144f030  ffffe001a28947a0

 

DriverEntry:   fffff8000d06e280  Ntfs!GsDriverEntry

DriverStartIo: 00000000  

DriverUnload: fffff8000c8d5d24 vicm

AddDevice:     00000000  

 

Dispatch routines:

[00] IRP_MJ_CREATE                      fffff8000d126a10 Ntfs!NtfsFsdCreate

[01] IRP_MJ_CREATE_NAMED_PIPE           fffff802645809ac nt!IopInvalidDeviceRequest

[02] IRP_MJ_CLOSE                       fffff8000d10b390 Ntfs!NtfsFsdClose

[03] IRP_MJ_READ                        fffff8000d061590 Ntfs!NtfsFsdRead

[04] IRP_MJ_WRITE                       fffff8000d05c3d0 Ntfs!NtfsFsdWrite

[05] IRP_MJ_QUERY_INFORMATION           fffff8000d133ca4 Ntfs!NtfsFsdDispatchWait

[06] IRP_MJ_SET_INFORMATION             fffff8000d130290 Ntfs!NtfsFsdSetInformation

[07] IRP_MJ_QUERY_EA                    fffff8000d133ca4 Ntfs!NtfsFsdDispatchWait

[08] IRP_MJ_SET_EA                      fffff8000d133ca4 Ntfs!NtfsFsdDispatchWait

[09] IRP_MJ_FLUSH_BUFFERS               fffff8000d0e9e94 Ntfs!NtfsFsdFlushBuffers

[0a] IRP_MJ_QUERY_VOLUME_INFORMATION    fffff8000d1356b0 Ntfs!NtfsFsdDispatch

[0b] IRP_MJ_SET_VOLUME_INFORMATION      fffff8000d1356b0 Ntfs!NtfsFsdDispatch

[0c] IRP_MJ_DIRECTORY_CONTROL           fffff8000d12d2f0 Ntfs!NtfsFsdDirectoryControl

[0d] IRP_MJ_FILE_SYSTEM_CONTROL         fffff8000d131898 Ntfs!NtfsFsdFileSystemControl

[0e] IRP_MJ_DEVICE_CONTROL              fffff8000d0ed194 Ntfs!NtfsFsdDeviceControl

[0f] IRP_MJ_INTERNAL_DEVICE_CONTROL     fffff802645809ac nt!IopInvalidDeviceRequest

[10] IRP_MJ_SHUTDOWN                    fffff8000d1eb730 Ntfs!NtfsFsdShutdown

[11] IRP_MJ_LOCK_CONTROL                fffff8000d046230 Ntfs!NtfsFsdLockControl

[12] IRP_MJ_CLEANUP                     fffff8000d12bde0 Ntfs!NtfsFsdCleanup

[13] IRP_MJ_CREATE_MAILSLOT             fffff802645809ac nt!IopInvalidDeviceRequest

[14] IRP_MJ_QUERY_SECURITY              fffff8000d1356b0 Ntfs!NtfsFsdDispatch

[15] IRP_MJ_SET_SECURITY                fffff8000d1356b0 Ntfs!NtfsFsdDispatch

[16] IRP_MJ_POWER                       fffff802645809ac nt!IopInvalidDeviceRequest

[17] IRP_MJ_SYSTEM_CONTROL              fffff802645809ac nt!IopInvalidDeviceRequest

[18] IRP_MJ_DEVICE_CHANGE               fffff802645809ac nt!IopInvalidDeviceRequest

[19] IRP_MJ_QUERY_QUOTA                 fffff8000d133ca4 Ntfs!NtfsFsdDispatchWait

[1a] IRP_MJ_SET_QUOTA                   fffff8000d133ca4 Ntfs!NtfsFsdDispatchWait

[1b] IRP_MJ_PNP                         fffff8000d158bac Ntfs!NtfsFsdPnp

 

Fast I/O routines:

FastIoCheckIfPossible                   fffff8000d1d4090 Ntfs!NtfsFastIoCheckIfPossible

FastIoRead                              fffff8000d0f98e0 Ntfs!NtfsCopyReadA

FastIoWrite                             fffff8000d12f160 Ntfs!NtfsCopyWriteA

FastIoQueryBasicInfo                    fffff8000d1390c0 Ntfs!NtfsFastQueryBasicInfo

FastIoQueryStandardInfo                 fffff8000d123bb0 Ntfs!NtfsFastQueryStdInfo

FastIoLock                              fffff8000d0dd54c Ntfs!NtfsFastLock

FastIoUnlockSingle                      fffff8000d0dd848 Ntfs!NtfsFastUnlockSingle

FastIoUnlockAll                         fffff8000d1d3330 Ntfs!NtfsFastUnlockAll

FastIoUnlockAllByKey                    fffff8000d1d35ac Ntfs!NtfsFastUnlockAllByKey

ReleaseFileForNtCreateSection           fffff8000d062814 Ntfs!NtfsReleaseForCreateSection

FastIoQueryNetworkOpenInfo              fffff8000d0f051c Ntfs!NtfsFastQueryNetworkOpenInfo

AcquireForModWrite                      fffff8000d04b6d8 Ntfs!NtfsAcquireFileForModWrite

MdlRead                                 fffff8000d0eb2c0 Ntfs!NtfsMdlReadA

MdlReadComplete                         fffff80264588594 nt!FsRtlMdlReadCompleteDev

PrepareMdlWrite                         fffff8000d0eb574 Ntfs!NtfsPrepareMdlWriteA

MdlWriteComplete                        fffff802649289c8 nt!FsRtlMdlWriteCompleteDev

FastIoQueryOpen ffffe001a17d4540 +0xffffe001a17d4540

ReleaseForModWrite                      fffff8000d04b4d4 Ntfs!NtfsReleaseFileForModWrite

AcquireForCcFlush                       fffff8000d06656c Ntfs!NtfsAcquireFileForCcFlush

ReleaseForCcFlush                       fffff8000d066524 Ntfs!NtfsReleaseFileForCcFlush

 

We found two potential issues here: DriverUnload and FastIoQueryOpen.

 

Use FastIoQueryOpen as an example:

 

1: kd> u ffffe001a17d4540

ffffe001`a17d4540 4d8bc8          mov     r9,r8

ffffe001`a17d4543 4c8bc2          mov     r8,rdx

ffffe001`a17d4546 488bd1          mov     rdx,rcx

ffffe001`a17d4549 48b900407da101e0ffff mov rcx,0FFFFE001A17D4000h

ffffe001`a17d4553 48b83c57910c00f8ffff mov rax,offset vicm+0x6973c (fffff800`0c91573c)

ffffe001`a17d455d ffe0            jmp     rax

 

1: kd> u fffff800`0c91573c

vicm+0x6973c:

fffff800`0c91573c 48895c2408      mov     qword ptr [rsp+8],rbx

fffff800`0c915741 48896c2410      mov     qword ptr [rsp+10h],rbp

fffff800`0c915746 4889742418      mov     qword ptr [rsp+18h],rsi

fffff800`0c91574b 57              push    rdi

fffff800`0c91574c 4883ec20        sub     rsp,20h

 

Obviously, FastIoQueryOpen has been modified to execute code in the module vicm.sys.  DriverUnload has been modified in a similar manner.

 

Follow the description from “!analyze “1) A driver has inadvertently or deliberately modified critical kernel code or data. See https://www.microsoft.com/whdc/driver/kernel/64bitPatching.mspx”.  Kernel patch protection does not allow the MajorFunction table of certain drivers to be modified, if this data is modified the system will bugcheck as seen here.  It is time to remove the vicm.sys driver. The result is positive, the machine no longer crashes.

Comments

  • Anonymous
    November 20, 2014
    My name is Victor Mei, I am an Escalation Engineer in Platforms Global Escalation Services in GCR.