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What are the most common and why not uncommon methods and tools used to do live debugging on the Linux kernel? I know that Linus for eg. is against this kind of debugging for the Linux Kernel or it least was and thus nothing much has been done in that sense in those years, but honestly a lot of time has passed since 2000 and i am interested if that mentality has changed regarding the Linux project and what current methods are used to do live debugging on the Linux kernel at the moment(either local or remote)?

References to walkthroughs and tutorials on mentioned techniques and tools are welcome.

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Also see lwn.net/Articles/280912 (search for kgdb) –  Tobias Brüll Feb 20 at 14:08

6 Answers 6

up vote 16 down vote accepted

Another option is to use ICE/JTAG controler, and GDB. This 'hardware' solution is especially used with embedded systems,

but for instance Qemu offers similar features:

  • start qemu with a gdb 'remote' stub which listens on 'localhost:1234' : qemu -s ...,

  • then with GDB you open the kernel file vmlinux compiled with debug informations (you can take a look a this mailing list thread where they discuss the unoptimization of the kernel).

  • connect GDB and Qemu: target remote localhost:1234

  • see you're live kernel:

(gdb) where

#0  cpu_v7_do_idle () at arch/arm/mm/proc-v7.S:77
#1  0xc0029728 in arch_idle () atarm/mach-realview/include/mach/system.h:36
#2  default_idle () at arm/kernel/process.c:166
#3  0xc00298a8 in cpu_idle () at arch/arm/kernel/process.c:199
#4  0xc00089c0 in start_kernel () at init/main.c:713

unfortunately, user-space debugging is not possible so far with GDB (no task list information, no MMU reprogramming to see different process contexts, ...), but if you stay in kernel-space, that's quite conveniant.

  • info threads will give you the list and states of the different CPUs


You can get more details about the procedure in this PDF:

Debugging Linux systems using GDB and QEMU.

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I tried something similar to this Qemu technique some time ago, it's pretty cool. –  Shinnok Feb 11 '11 at 12:43

According to the wiki, kgdb was merged into the kernel in 2.6.26 which is within the last few years. kgdb is a remote debugger, so you activate it in your kernel then you attach gdb to it somehow. I say somehow as there seems to be lots of options - see connecting gdb. Given that kgdb is now in the source tree, I'd say going forward this is what you want to be using.

So it looks like Linus gave in. However, I would emphasize his argument - you should know what you're doing and know the system well. This is kernel land. If anything goes wrong, you don't get segfault, you get anything from some obscure problem later on to the whole system coming down. Here be dragons. Proceed with care, you have been warned.

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+1 for dragons, makes it sound more heroic. :-D –  Shinnok Feb 9 '11 at 11:29
I stole that one from Mark Shuttleworth (the founder of Canonical). markshuttleworth.com. –  Ninefingers Feb 9 '11 at 12:11
Linus is pretty on the mark in my opinion. The other thing to consider is that some bugs will break kgdb, possibly in subtle ways - can you trust it :) –  mpe Feb 10 '11 at 12:38
@mpe I agree. Tools have bugs too. I think what he's saying is if you can only develop by relying on the tool to tell you when you're wrong, that's a problem - you need to also comprehend the tool and learn to interpret its output against your own knowledge. Blind trust in said tools leads to subtle bugs. –  Ninefingers Feb 10 '11 at 12:41
If you're writing kernel code you really need to be able to understand the code, without a debugger. If you can, then maybe a debugger is a good tool, but it can't replace that fundamental code comprehension. –  mpe Feb 10 '11 at 12:47

Another good tool for "live" debugging is kprobes / dynamic probes.

This lets you dynamically build little tiny modules which run when certain addresses are executed - sort of like a breakpoint.

The big advantage of them are:

  1. They do not impact the system - i.e. when a location is hit - it just excecutes the code - it doesn't halt the whole kernel.
  2. You don't need two different systems interconnected (target and debug) like with kgdb

It is best for doing things like hitting a breakpoint, and seeing what data values are, or checking if things have been changed/overwritten, etc. If you want to "step through code" - it doesn't do that.

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Actually the joke is that Linux has had an in-kernel debugger since 2.2.12, xmon, but only for the powerpc architecture (actually it was ppc back then).

It's not a source level debugger, and it's almost entirely undocumented, but still.


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"kdb" is the x86 equivalent of "xmon". –  Brad Feb 20 '11 at 15:40

As someone who writes kernel code a lot I have to say I have never used kgdb, and only rarely use kprobes etc.

It is still often the best approach to throw in some strategic printks. In more recent kernels trace_printk is a good way to do that without spamming dmesg.

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kgdb and gdb are almost useless for debugging the kernel because the code is so optimised it bears no relation to the orioginal source and many varuiables are optimised out. This makes steppijng , hence stepping through the source is impossible, examining variables is impossible and is therefore aolmost pointles.

Actually it is worse than useless, it actually gives you false infoprmation so detached is the code you are ollooking at to the actual running code.

And no, you cant turn off optimisations in the kernel, it doesnt compile.

I have to say, coming from a windows kernel environment, the lack of decent debugger is anoying, given that there is junk code out there to maintain.

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Do you even listen to yourself? –  Daniel Kamil Kozar Sep 2 '13 at 9:39
make config ---> "Kernel hacking" --> "Compile-time checks and compiler options" -> "Compile the kernel with debug info" –  Sergei Oct 16 '13 at 20:44
That isn't a problem with the kernel, but any program produced by a sufficiently optimizing compiler. True, the Linux kernel cannot be easily built without optimization, but you can enable CONFIG_READABLE_ASM. –  rsaxvc Dec 8 '13 at 23:07
CONFIG_READABLE_ASM gives you false hopes. Instruction reordering is there because -O2 and you still see gibberish while tracing. The only solution I've found is to set -O0 everywhere the build system doesn't complain, plus some more hacking. And then debug using qemu. I can see where the tone comes from :) –  crististm Feb 25 at 10:05

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