I found Windbg is very useful during development and debugging. but mostly i use windbg in use mode debugging.
What kernel debugging can do in windbg? or When should I use windbg's kernel debugging?
Is there a toturial about kernel debugging in windbg?
Thanks in advance.
you usually use kernel debugging when you need to debug low level device drivers interacting directly with the hardware.
It's more complicated to debug in kernel mode, among other things for a live kernel debug session you have to run the debugger on a different system than the one being debugged . for the majority of developers user mode is enough to do most of the work.
Advanced Windows Debugging is a very good book about debugging with wndbg (includes discussions about kernel debugging).
the dump analysis site has many tutorials including kernel debugging scenarios
the main difference between user mode and kernel mode WINDBG, is you can see EVERY process in kernel mode WINDBG, and all threads. You wont necessary get to see every stack frame since they get paged out frequently by the memory manager.
some common commands I use frequently.
!process 0 0 lists every running process:
**** NT ACTIVE PROCESS DUMP ****
PROCESS 80a02a60 Cid: 0002 Peb: 00000000 ParentCid: 0000
DirBase: 00006e05 ObjectTable: 80a03788 TableSize: 150.
Image: System
PROCESS 80986f40 Cid: 0012 Peb: 7ffde000 ParentCid: 0002
DirBase: 000bd605 ObjectTable: 8098fce8 TableSize: 38.
Image: smss.exe
PROCESS 80958020 Cid: 001a Peb: 7ffde000 ParentCid: 0012
DirBase: 0008b205 ObjectTable: 809782a8 TableSize: 150.
Image: csrss.exe
PROCESS 80955040 Cid: 0020 Peb: 7ffde000 ParentCid: 0012
DirBase: 00112005 ObjectTable: 80955ce8 TableSize: 54.
Image: winlogon.exe
PROCESS 8094fce0 Cid: 0026 Peb: 7ffde000 ParentCid: 0020
DirBase: 00055005 ObjectTable: 80950cc8 TableSize: 222.
Image: services.exe
PROCESS 8094c020 Cid: 0029 Peb: 7ffde000 ParentCid: 0020
DirBase: 000c4605 ObjectTable: 80990fe8 TableSize: 110.
Image: lsass.exe
PROCESS 809258e0 Cid: 0044 Peb: 7ffde000 ParentCid: 0026
DirBase: 001e5405 ObjectTable: 80925c68 TableSize: 70.
Image: SPOOLSS.EXE
.process {x} Select the process you want to make active, usually followed by the !threads command to list a processes current threads.
!stacks 0x2 {foo.sys} searches ALL threads for call stacks that contain the specified driver.
!poolused useful when debugging low kernel memory situations and all you have is a kernel crash dump
.crash Useful for when you are debugging live via serial cable and you want to make the target machine write a crash dump
!vm 1 Useful display of the memory managers statistics, example:
*** Virtual Memory Usage ***
Physical Memory: 16270 ( 65080 Kb)
Page File: \??\E:\pagefile.sys
Current: 98304Kb Free Space: 61044Kb
Minimum: 98304Kb Maximum: 196608Kb
Available Pages: 5543 ( 22172 Kb)
ResAvail Pages: 6759 ( 27036 Kb)
Locked IO Pages: 112 ( 448 Kb)
Free System PTEs: 45089 ( 180356 Kb)
Free NP PTEs: 5145 ( 20580 Kb)
Free Special NP: 336 ( 1344 Kb)
Modified Pages: 714 ( 2856 Kb)
NonPagedPool Usage: 877 ( 3508 Kb)
NonPagedPool Max: 6252 ( 25008 Kb)
PagedPool 0 Usage: 729 ( 2916 Kb)
PagedPool 1 Usage: 432 ( 1728 Kb)
PagedPool 2 Usage: 436 ( 1744 Kb)
PagedPool Usage: 1597 ( 6388 Kb)
PagedPool Maximum: 13312 ( 53248 Kb)
Shared Commit: 1097 ( 4388 Kb)
Special Pool: 229 ( 916 Kb)
Shared Process: 1956 ( 7824 Kb)
PagedPool Commit: 1597 ( 6388 Kb)
Driver Commit: 828 ( 3312 Kb)
Committed pages: 21949 ( 87796 Kb)
Commit limit: 36256 ( 145024 Kb)
And don't forget the ALL MIGHTY !locks
absolutely essential for troubleshooting a deadlocked machine,
kd> !locks
**** DUMP OF ALL RESOURCE OBJECTS ****
KD: Scanning for held locks......
Resource @ 0x80e97620 Shared 4 owning threads
Threads: ff688da0-01<*> ff687da0-01<*> ff686da0-01<*> ff685da0-01<*>
KD: Scanning for held locks.......................................................
Resource @ 0x80e23f38 Shared 1 owning threads
Threads: 80ed0023-01<*> *** Actual Thread 80ed0020
KD: Scanning for held locks.
Resource @ 0x80d8b0b0 Shared 1 owning threads
Threads: 80ed0023-01<*> *** Actual Thread 80ed0020
2263 total locks, 3 locks currently held
using this command you can track down threads that are stuck waiting for another thread to release an ERESOURCE
Probably, you'll only want to debug in kernel mode when your code is running in kernel mode, ie when you're writing a drivers or something else that runs in the kernel. Or possibly if you're trying to learn more about Windows itself at a very low level by exploring around in the kernel and poking and prodding at things.
When looking for tutorials and other reference material, you might look for "kd" references as well as they are likely to be very similar. (kd is a command line kernel debugging tool.)
