KERNEL_DATA_INPAGE_ERROR (7a)
The requested page of kernel data could not be read in. Typically caused by
a bad block in the paging file or disk controller error. Also see
KERNEL_STACK_INPAGE_ERROR.
If the error status is 0xC000000E, 0xC000009C, 0xC000009D or 0xC0000185,
it means the disk subsystem has experienced a failure.
If the error status is 0xC000009A, then it means the request failed because
a filesystem failed to make forward progress.
Arguments:
Arg1: 0000000000000020, lock type that was held (value 1,2,3, or PTE address)
Arg2: ffffffffc000000e, error status (normally i/o status code)
Arg3: ffff958c6b698600, current process (virtual address for lock type 3, or PTE)
Arg4: 0000000000000000, virtual address that could not be in-paged (or PTE contents if arg1 is a PTE address)
Debugging Details:
------------------
ERROR_CODE: (NTSTATUS) 0xc000000e - Varolmayan bir ayg
DISK_HARDWARE_ERROR: There was error with disk hardware
BUGCHECK_STR: 0x7a_c000000e
CUSTOMER_CRASH_COUNT: 1
DEFAULT_BUCKET_ID: CODE_CORRUPTION
PROCESS_NAME: System
CURRENT_IRQL: 1
ANALYSIS_VERSION: 6.3.9600.17237 (debuggers(dbg).140716-0327) x86fre
LAST_CONTROL_TRANSFER: from fffff8013805f84a to fffff80137ff3ea0
STACK_TEXT:
ffffd884`04614688 fffff801`3805f84a : 00000000`0000007a 00000000`00000020 ffffffff`c000000e ffff958c`6b698600 : nt!KeBugCheckEx
ffffd884`04614690 fffff801`37e6f42b : 00001fa0`0010000f 00000000`c000000e 00200202`00000000 fffff801`00100000 : nt!MiWriteComplete+0x1a617a
ffffd884`04614740 fffff801`37ee69d0 : ffff958c`6b5dc580 ffff958c`6c8652d8 fffff801`3d0e3b00 fffff801`370a57d8 : nt!IopCompletePageWrite+0x4b
ffffd884`04614770 fffff801`37ec99f3 : ffff958c`6b5dc580 00000000`00000000 ffffffff`00000000 00000000`c0000016 : nt!KiDeliverApc+0x1b0
ffffd884`04614820 fffff801`37e0c191 : ffffc701`0f080180 fffff801`3dbab4d0 ffffc701`0f080101 00000000`00000000 : nt!KiExitDispatcher+0x2d3
ffffd884`04614890 fffff801`37ec83e0 : ffffd884`04614900 ffff958c`6c865260 ffff958c`649ccd01 ffff958c`00000001 : nt!KeInsertQueueApc+0x151
ffffd884`04614930 fffff801`37ec76f7 : 00000000`00000000 fffff801`3dca4d01 ffff958c`64b2b181 ffff958c`6c865260 : nt!IopfCompleteRequest+0xcd0
ffffd884`04614a20 fffff801`3cef3421 : ffff958c`64a2ea40 ffffd884`04614b59 ffff958c`64a2e8f0 ffffd884`04614c60 : nt!IofCompleteRequest+0x17
ffffd884`04614a50 fffff801`37ed1f35 : ffffd884`04614b59 ffff958c`64b2b180 00000000`00000002 00000000`00000000 : volmgr!VmReadWrite+0x2411
ffffd884`04614a90 fffff801`3dad4ece : ffff958c`64b2b180 ffffd884`04614b59 ffff958c`64b2b1b8 00000000`00000000 : nt!IofCallDriver+0x55
ffffd884`04614ad0 fffff801`3dad4b1c : ffffd884`04614c91 fffff801`3dca4f54 00000000`00000000 ffff958c`6c865260 : fvevol!FveFilterRundownReadWrite+0x33e
ffffd884`04614bc0 fffff801`37ed1f35 : ffff4ab8`876a6e0b ffffd884`04614e40 ffff958c`6cacc080 00000000`0045ba80 : fvevol!FveFilterRundownWrite+0x4c
ffffd884`04614c60 fffff801`3dca3cb7 : ffff9452`62877e60 00000000`00000001 ffff958c`73eb2320 ffff958c`6c865570 : nt!IofCallDriver+0x55
ffffd884`04614ca0 fffff801`3dca4fe5 : 00000000`00000002 ffff958c`64b2d198 ffff958c`64b2cb20 ffff958c`6c865260 : iorate!IoRateIssueAndRecordIo+0x7f
ffffd884`04614ce0 fffff801`3dca519f : ffff958c`64b2d180 0000002c`5d5cb000 00000000`00000000 00000000`00000000 : iorate!IoRateProcessIrpWrapper+0x69
ffffd884`04614d70 fffff801`37ed1f35 : 00000000`00000000 00000000`00000000 00000000`00000000 00000000`00000000 : iorate!IoRateDispatchReadWrite+0x5f
ffffd884`04614db0 fffff801`3db91033 : ffff958c`64aa6500 fffff801`3dba1a98 00000000`77373960 fffff801`3dbeaf44 : nt!IofCallDriver+0x55
ffffd884`04614df0 fffff801`37ed1f35 : ffff958c`64b2d180 fffff801`3dbeacf8 00000000`00000000 ffff958c`6c865570 : volume!VolumePassThrough+0x23
ffffd884`04614e20 fffff801`3dba115d : 0000002c`5d5cb000 ffff958c`64b2d180 ffff958c`64b2d198 00000000`00000000 : nt!IofCallDriver+0x55
ffffd884`04614e60 fffff801`3dba1023 : 00000000`00000000 00000000`00000000 ffffd884`03bdb300 00000000`00000000 : volsnap!VolsnapWriteFilter+0x11d
ffffd884`04614ee0 fffff801`37ed1f35 : 00007fff`e583fb00 00000000`00000000 00000000`00000000 00000000`00000000 : volsnap!VolSnapWrite+0x13
ffffd884`04614f10 fffff801`3d41f90c : 00000000`00000000 00000000`00000000 00000000`00000000 00000000`00000000 : nt!IofCallDriver+0x55
ffffd884`04614f50 fffff801`37ff777e : 00000000`00000000 00000000`00000000 00000000`00000000 00000000`00002318 : Ntfs!NtfsStorageDriverCallout+0x1c
ffffd884`04614f80 fffff801`37ff773c : ffffd884`04614fd0 ffff958c`6b5dc580 ffffd884`04615000 fffff801`37eb8c6d : nt!KxSwitchKernelStackCallout+0x2e
ffffd884`03bdb310 fffff801`37eb8c6d : ffffd884`04614fd0 ffff958c`6b5dc580 ffffd884`03bdb300 ffff8040`00000000 : nt!KiSwitchKernelStackContinue
ffffd884`03bdb330 fffff801`37eb8a62 : fffff801`3d41f8f0 ffffd884`03bdb520 00000000`00000002 00000000`00000000 : nt!KiExpandKernelStackAndCalloutOnStackSegment+0x19d
ffffd884`03bdb3d0 fffff801`37eb88c3 : ffffd884`03bdb6a0 00000000`00000000 ffff958c`00000000 00000000`00100000 : nt!KiExpandKernelStackAndCalloutSwitchStack+0xf2
ffffd884`03bdb440 fffff801`37eb887d : fffff801`3d41f8f0 ffffd884`03bdb520 ffff958c`6c8655b8 fffff801`3d40a22e : nt!KeExpandKernelStackAndCalloutInternal+0x33
ffffd884`03bdb4b0 fffff801`3d402a01 : 00000000`00000000 00000000`00000000 00000000`00000000 ffffd884`03bdb650 : nt!KeExpandKernelStackAndCalloutEx+0x1d
ffffd884`03bdb4f0 fffff801`3d430f9b : ffff958c`6c8655b8 00000000`00000000 ffffd884`03bdb5e0 ffffd884`03bdb5c8 : Ntfs!NtfsCallStorageDriver+0xa9
ffffd884`03bdb560 fffff801`3d412e08 : ffff958c`00000004 ffff958c`6c8655b8 00000000`059e9000 00000000`00000000 : Ntfs!NtfsPagingFileIo+0x2fb
ffffd884`03bdb670 fffff801`37ed1f35 : ffff958c`7271d010 ffff958c`6c865260 ffff958c`6c865260 ffff958c`649ccd60 : Ntfs!NtfsFsdWrite+0x1f8
ffffd884`03bdb740 fffff801`370a6ccf : 00000000`00000000 00000000`00000000 00000000`00000000 00000000`00000000 : nt!IofCallDriver+0x55
ffffd884`03bdb780 00000000`00000000 : 00000000`00000000 00000000`00000000 00000000`00000000 00000000`00000000 : FLTMGR!FltpLegacyProcessingAfterPreCallbacksCompleted+0x28f
STACK_COMMAND: kb
CHKIMG_EXTENSION: !chkimg -lo 50 -d !FLTMGR
fffff801370a4429-fffff801370a442a 2 bytes - FLTMGR!FltpPassThroughFastIo+59
[ 48 ff:4c 8b ]
fffff801370a4430-fffff801370a4433 4 bytes - FLTMGR!FltpPassThroughFastIo+60 (+0x07)
[ 0f 1f 44 00:e8 0b ab d9 ]
fffff801370a4468-fffff801370a4469 2 bytes - FLTMGR!FltpPassThroughFastIo+98 (+0x38)
[ 48 ff:4c 8b ]
fffff801370a446f-fffff801370a4472 4 bytes - FLTMGR!FltpPassThroughFastIo+9f (+0x07)
[ 0f 1f 44 00:e8 8c 60 e4 ]
fffff801370a48fa-fffff801370a48fb 2 bytes - FLTMGR!FltpDispatch+ca (+0x48b)
[ 48 ff:4c 8b ]
fffff801370a4901-fffff801370a4904 4 bytes - FLTMGR!FltpDispatch+d1 (+0x07)
[ 0f 1f 44 00:e8 da d5 e2 ]
fffff801370a6d06-fffff801370a6d07 2 bytes - FLTMGR!FltpLegacyProcessingAfterPreCallbacksCompleted+2c6 (+0x2405)
[ 48 ff:4c 8b ]
fffff801370a6d0d-fffff801370a6d10 4 bytes - FLTMGR!FltpLegacyProcessingAfterPreCallbacksCompleted+2cd (+0x07)
[ 0f 1f 44 00:e8 7e 39 e3 ]
fffff801370db9a4-fffff801370db9a5 2 bytes - FLTMGR!FltpCreate+f4
[ 48 ff:4c 8b ]
fffff801370db9ab-fffff801370db9ae 4 bytes - FLTMGR!FltpCreate+fb (+0x07)
[ 0f 1f 44 00:e8 c0 cc e0 ]
30 errors : !FLTMGR (fffff801370a4429-fffff801370db9ae)
MODULE_NAME: memory_corruption
IMAGE_NAME: memory_corruption
FOLLOWUP_NAME: memory_corruption
DEBUG_FLR_IMAGE_TIMESTAMP: 0
MEMORY_CORRUPTOR: LARGE
FAILURE_BUCKET_ID: MEMORY_CORRUPTION_LARGE
BUCKET_ID: MEMORY_CORRUPTION_LARGE
ANALYSIS_SOURCE: KM
FAILURE_ID_HASH_STRING: km:memory_corruption_large
FAILURE_ID_HASH: {e29154ac-69a4-0eb8-172a-a860f73c0a3c}
Followup: memory_corruption
---------
Eski fotoğrafları atmayın yenilerini atın.
Sadece health sekmesini paylaşınız.
M.2 SSD olması sorunsuz olduğu böyle hatalara sebebiyet vermeyeceği anlamına gelmiyor.
Bu sitenin çalışmasını sağlamak için gerekli çerezleri ve deneyiminizi iyileştirmek için isteğe bağlı çerezleri kullanıyoruz.