Kernel git-bisect

git-bisect is a tool in to find kernel patches that cause problems between versions.

How it works
2.6.39.1 is working fine and the problem occurs with the 2.6.39.2 upgrade. Let there be 8 patches between 2.6.39.1 and 2.6.39.2. When you start to bisect, it enables only half of those patches and you build a kernel with 4 of the 8 patches between those two versions.

Now you boot your new compiled kernel and see if you can reproduce the problem. If the kernel is good you take the second half of those 8 patches to build the next kernel, if the kernel is bad you take half of the patches used to narrow down on the patch that causes problems.

For this given example, here is what might happen to find the bad patch (each step you have to build the kernel and reboot into it). We call the patches 1,2,3,4,5,6,7,8:


 * 1) 2.6.39.1 + 1,2,3,4
 * 2) bad → 2.6.39.1 + 1,2
 * 3) good → 2.6.39.1 + 3,4
 * 4) bad → 2.6.39.1 + 3
 * 5) bad → patch 3 it is!

Usage
Step by step example to bisect Linux-2.6.39.

Get the git sources
Get the git sources for the branch you are using:

This creates the folder.

There are two branches:
 * linux-stable.git = or
 * linux.git =

Link the new sources
Create the symbolic link to the git sources in, mount (if needed) and change into the folder:

Start bisect
Once here we need to start bisect and tell him which kernel version works and which doesn't. In our example 2.6.39.1 has no problems and 2.6.39.2 contains a bad patch. The name could also contain an -rcX at the end, which means it's a release candidate, you would have to append that like v2.6.39.1-rc3. I use tee to log every output of bisect into the file.

Build the kernel
Now compile your kernel as usual using e.g. genkernel or just make to build it and anything you might need to boot, like initramfs for LVM, Raid etc. Here is the normal method using make.

Bad bisect
Once booted into the new kernel (make sure your bootloader is booting the new kernel), test, if the problem still perists. In this example we assume the problem is still there, so we tell bisect. It will now take half the used patchset and we have to build our next kernel.

Goto

Good bisect
Now test again and let's say this time the problem is gone, so we tell bisect, build the next kernel and reboot.

Goto

Final bisect
You repeat those steps and  until it shows the content of the bad patch, like shown below (there is more text in the output, this is just half of it).

With this information, you can create a bug report at bugs.gentoo.org and tell the developers what patch causes problems. The file can be attached to the bug report.

Log file
If you did not create the logfile, you can use the following command to create some log output.

Reset bisect
If you get stuck somewhere or made a mistake, you can reset.

External resources

 * git-scm.com