Sign up ×
Stack Overflow is a question and answer site for professional and enthusiast programmers. It's 100% free.

I'm trying to do kernel debugging for my Nexus One, and have been following instructions from I was wondering if someone has actually got this to work? And has anyone done a more up to date solution for using KGDB to debug the kernel?

share|improve this question
While having tools is nice and it would be great if you get this working, you might have faster luck solving a given gating problem and resuming with your project by careful use of printk's – Chris Stratton Feb 8 '11 at 19:31
Related question: Android Kernel Debugging – Nicolas Kaiser Aug 29 '11 at 10:25

2 Answers 2

I know that you've already asked a question at the Android Kernel Dev list and got no answers, but did you search through the archives for posts about kgdb and debugging?:

In particular, you might want to look at this post:

Here's a few other random links that might be helpful:

Anyhow, this is an interesting question, and I'm really having a hard time finding anything on it. You might want want to try hopping on IRC sometime (#android-dev or #android-root on freenode) and asking some people there for pointers (please post up what you find here), or maybe asking on the xda-developers Android forums.

share|improve this answer

I found this post when I was looking for information of KGDB on Android so, despite it being a few years old, I thought it worth posting a link to some work I did to get this up and running on the Nexus 6.

I hope this helps anyone else looking for similar answers.

Edited following feedback (thanks all):

To get this working I had to make a UART debug cable based on this Accuvant blog. This is quite a simple circuit which consists of a FTDI 3.3v basic breakout (available from SparkFun at the time of writing), as well as 4 resistors (2 x 1K Ohm, 1 x 1.2K Ohm and 1 x 100Ohm), and a 4-element Tip-Ring-Ring-Sleeve (TRRS) headphone jack. The resistors are essentially providing a voltage divider to reduce the 3.3v down to something a little safer for your phone. By inserting the audio jack with the other end connected to your circuit board, the audio subsystem recognises that a voltage (~2.8V) on the one of the pins and it knows to provide a UART interface via that cable. The FTDI breakout plugs into your PC via USB and from here you can access console messages via a terminal emulator like minicom. However, you now have a serial interface through the same mechanism and that's what we can use for a KGDB connection.

So at this point some relatively minor changes are required to the Nexus 6's serial driver (msm_serial_hs_lite.c) to support KGDB (specifically, the ability to perform atomic character I/O operations). I just ported these changes from the Linux Kernel mainline code as a chap called Stephen Boyd had done the hard work to the full MSM (Qualcomm) serial driver msm_serial.c. His changes can be found here or just search for "msm_serial: add support for poll_" on Google. The port wasn't difficult and my code can be found on github.

Aside from that you need to be able to build a custom kernel for your N6 which google provides lots of information on. You then need to create a boot image which contains the KGDB modifications in the github repo. I took the stock kernel from, extracted it (using abootimg -x) and then used the following command to repack it with my custom kernel (zImage-dtb) and additional command line params to ensure KGDB would be loaded and point to my serial port like so:

abootimg -u boot.img -k zImage-dtb -c 'cmdline=console=ttyHSL0,115200,n8 kgdboc=ttyHSL0,115200 kgdbretry=4'

With my boot.img created I could boot into it using the command fastboot boot boot.img, open an adb shell and then trigger a breakpoint in the Android kernel using the command:

echo -n g > /proc/sysrq-trigger

It is worth mentioning for completeness that you need superuser privileges to access /proc/sysrq-trigger so you need to have root.

With the phone halted, and your debug cable connected, launch a version of GDB for ARM on your host PC with your uncompressed kernel as an argument (e.g. arm-eabi-gdb ./vmlinux). Note: I'm running Ubuntu 14.04 and using arm-eabi-gdb from the 'prebuilts' directory in my AOSP source repository. Finally, enter the following commands:

set remoteflow off
set remotebaud 115200
target remote /dev/ttyUSB0

All being well this should immediately break into the kgdb breakpoint (that your write to /proc/sysrq-trigger produced) and you can start debugging.

share|improve this answer
This does not provide an answer to the question. To critique or request clarification from an author, leave a comment below their post - you can always comment on your own posts, and once you have sufficient reputation you will be able to comment on any post. – Sufian Aug 17 at 11:19
Hi Sufian. Thanks for your feedback. The OP asked two questions: 'has anyone got this working?' and 'does anyone have a more up to date solution for using KGDB to debug the kernel?' I couldn't get this working over USB (as referenced in the OP's link), but I got it working using a debug cable on a current Android device so I thought that satisfied the second question. Interested to know if you disagree? – Andy Monaghan Aug 17 at 11:56
While this link may answer the question, it is better to include the essential parts of the answer here and provide the link for reference. Link-only answers can become invalid if the linked page changes. – missimer Aug 17 at 14:09
That's a fair point. I've edited the post to provide more information. This is my first proper post so apologies for the lack of info (I actually responded to a similar question today and have fixed both now). – Andy Monaghan Aug 17 at 14:20
Is the down vote still applicable now that the info is contained within the answer and the second question was answered? – Andy Monaghan Aug 17 at 15:50

Your Answer


By posting your answer, you agree to the privacy policy and terms of service.

Not the answer you're looking for? Browse other questions tagged or ask your own question.