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Introduction to Git Bisect: travel through time and bugs

No matter how thorough your test coverage is, you can’t test everything.

One day, you’ll introduce a regression in your application, and you won’t notice it straight away. When you finally realize you broke your feature, it can be hard to pinpoint where and when it happened. It’s even harder when several people are working on the same application.

Now is a good time to get acquainted with git bisect.

Ready to time travel through your application?

The inefficient way of debugging: checking every commit, one by one

The other day, the situation described above happened to me.

My first instinct was to browse the list of commits and check each one for breaking changes. I kept throwing wild guesses for an hour before giving up.

Antichronologically looking through your commit list is a real-life example of quadratic searches.

It might work if you have a couple of commits. But the more commits you need to check, the exponentially1 longer it’ll take.

On the other hand, git bisect uses a binary search algorithm to search through your list of commits. And it’s fast!

Ok, but what is a binary search?

A binary search takes a sorted list of information. Instead of checking elements one by one, from first to last, the algorithm jumps straight to the middle element.

Based on the condition of your search, the algorithm will either:

At each iteration, the algorithm checks the middle element in an ever-narrowing list.

TL;DR: A binary search doesn’t check every element in the list. Only a fraction of them.

git bisect works in a similar way.

The efficient way of debugging: git bisect

Right now, your application doesn’t work as intended. But you do know that two months ago, your application was working fine. Somewhere in your list of commits, you introduced a regression.

The problem? You don’t know when.

There is one commit that draws a line in your application’s timeline:

git bisect leverages binary search to pinpoint the commit that introduced the regression.

It uses the most recent “bad” commit and the last know “good” commits as a range.

git bisect picks a commit in the middle of that range and asks you whether the selected commit is “good” or “bad”. It continues narrowing down the range until it finds the exact commit that introduced the change.

Let’s try it:

➜  my-app git:(main) ✗ git bisect start
➜  my-app git:(main|BISECTING) ✗ git bisect bad
➜  my-app git:(main|BISECTING) ✗ git bisect good ae998022
Bisecting: 4 revisions left to test after this (roughly 4 steps)
[02ca345f3e29217bb6553] Refactor the asset pipeline

Here’s a breakdown:

Instead of checking commits one by one, git bisect jumps to the middle commit in your list (here, the commit 02ca345f3e29217bb6553) and stage your application in the state it was at that time. Fancy!

You can now interact with your application. Run your tests. Go and try the faulty feature in your local environment. I repeat, go and check your app. Click on something!

Why am I insisting on this? Because the first time I used bisect, I had a preconception about the commit that had introduced the bug. Instead of testing my application at each stage of the process, I told git bisect what I imagined the state was. I ended up in a self-referential loop that led me to the commit I assumed in the first place.

Once I started using git bisect correctly, I realized I was quite wrong about the breaking commit.

Back to our current bisect.

➜  my-app git:(main) ✗ git bisect start
➜  my-app git:(main|BISECTING) ✗ git bisect bad
➜  my-app git:(main|BISECTING) ✗ git bisect good ae998022
Bisecting: 4 revisions left to test after this (roughly 4 steps)
[02ca345f3e29217bb6553] Refactor the asset pipeline

➜  my-app git:((02ca345f3...)|BISECTING) ✗ git bisect bad
Bisecting: 11 revisions left to test after this (roughly 3 steps)
[76c502e15dba8ac5b] Add new feature

Your application is currently running in the 02ca345f3e29217bb6553 commit’s state.

If this current state is faulty, it means the bug was introduced earlier. When typing git bisect bad, git bisect takes a note about the non-working state of your application then jumps to the middle commit on the left-hand side of our range (i.e. older commits).

a graph about git bisect bad commit

If the application works fine in the current state, git bisect good will prompt git bisect to explore the right-hand side of our range (i.e. newer commits).

a graph about git bisect good commit

Repeat until there are no revisions left.

➜  my-app git:(main) ✗ git bisect start
➜  my-app git:(main|BISECTING) ✗ git bisect bad
➜  my-app git:(main|BISECTING) ✗ git bisect good ae998022
Bisecting: 4 revisions left to test after this (roughly 4 steps)
[02ca345f3e29217bb6553] Refactor the asset pipeline

➜  my-app git:((02ca345f3...)|BISECTING) ✗ git bisect bad
Bisecting: 11 revisions left to test after this (roughly 3 steps)
[76c502e15dba8ac5b] Add new feature

➜  my-app git:((76c502e15...)|BISECTING) ✗ git bisect bad
Bisecting: 3 revisions left to test after this (roughly 2 steps)
[e7e6f2ab20a7f9b] Merge branch 'new-payment-system' into 'main'

➜  my-app git:((e7e6f2ab2...)|BISECTING) ✗ git bisect bad
Bisecting: 1 revision left to test after this (roughly 1 step)
[4a6d8943db4e2d] Change CORS

➜  my-app git:((4a6d8943d...)|BISECTING) ✗ git bisect bad
Bisecting: 0 revisions left to test after this (roughly 1 step)
[996e5a376c7b9] Update GEMFILE

➜  my-app git:((a7c40a681...)|BISECTING) ✗ git bisect bad
a7c40a6818c34f1ea1 is the first bad commit
commit a7c40a6818c34f1ea1
Merge: xxx xxx
Author: Remi Mercier
Date:   Tue Aug 3 13:51:20 2021 +0000

An aside: if you need to try your app in real life, it probably means you need to write a test of some kind. In my case, the problem would have required an integration test and mocking responses between two services.

It’s just so much faster than looking for things in the dark!

If you can’t try the commit git bisect currently outputs, you can use git bisect skip and, git bisect will move on to the next commit.

Feeling adventurous? You can check the official documentation for git bisect.

Cheers,

Rémi - @remi@ruby.social

  1. The time it takes for a quadratic search to perform is proportional to the squared size of its input. 10x the data take 100x more time. Hence it’s Big 0 notation: 0(n^2)