Rolling out changes using feature flags

Feature flags can be used to gradually roll out changes, be it a new feature, or a performance improvement. By using feature flags, we can comfortably measure the impact of our changes, while still being able to easily disable those changes, without having to revert an entire release.

When to use feature flags

Starting with GitLab 11.4, developers are required to use feature flags for non-trivial changes. Such changes include:

  • New features (e.g. a new merge request widget, epics, etc).
  • Complex performance improvements that may require additional testing in production, such as rewriting complex queries.
  • Invasive changes to the user interface, such as a new navigation bar or the removal of a sidebar.
  • Adding support for importing projects from a third-party service.

In all cases, those working on the changes can best decide if a feature flag is necessary. For example, changing the color of a button doesn’t need a feature flag, while changing the navigation bar definitely needs one. In case you are uncertain if a feature flag is necessary, simply ask about this in the merge request, and those reviewing the changes will likely provide you with an answer.

When using a feature flag for UI elements, make sure to also use a feature flag for the underlying backend code, if there is any. This ensures there is absolutely no way to use the feature until it is enabled.

The cost of feature flags

When reading the above, one might be tempted to think this procedure is going to add a lot of work. Fortunately, this is not the case, and we’ll show why. For this example we’ll specify the cost of the work to do as a number, ranging from 0 to infinity. The greater the number, the more expensive the work is. The cost does not translate to time, it’s just a way of measuring complexity of one change relative to another.

Let’s say we are building a new feature, and we have determined that the cost of this is 10. We have also determined that the cost of adding a feature flag check in a variety of places is 1. If we do not use feature flags, and our feature works as intended, our total cost is 10. This however is the best case scenario. Optimising for the best case scenario is guaranteed to lead to trouble, whereas optimising for the worst case scenario is almost always better.

To illustrate this, let’s say our feature causes an outage, and there’s no immediate way to resolve it. This means we’d have to take the following steps to resolve the outage:

  1. Revert the release.
  2. Perform any cleanups that might be necessary, depending on the changes that were made.
  3. Revert the commit, ensuring the “master” branch remains stable. This is especially necessary if solving the problem can take days or even weeks.
  4. Pick the revert commit into the appropriate stable branches, ensuring we don’t block any future releases until the problem is resolved.

As history has shown, these steps are time consuming, complex, often involve many developers, and worst of all: our users will have a bad experience using until the problem is resolved.

Now let’s say that all of this has an associated cost of 10. This means that in the worst case scenario, which we should optimise for, our total cost is now 20.

If we had used a feature flag, things would have been very different. We don’t need to revert a release, and because feature flags are disabled by default we don’t need to revert and pick any Git commits. In fact, all we have to do is disable the feature, and maybe perform some cleanup. Let’s say that the cost of this is 1. In this case, our best case cost is 11: 10 to build the feature, and 1 to add the feature flag. The worst case cost is now 12: 10 to build the feature, 1 to add the feature flag, and 1 to disable it.

Here we can see that in the best case scenario the work necessary is only a tiny bit more compared to not using a feature flag. Meanwhile, the process of reverting our changes has been made significantly cheaper, to the point of being trivial.

In other words, feature flags do not slow down the development process. Instead, they speed up the process as managing incidents now becomes much easier. Once continuous deployments are easier to perform, the time to iterate on a feature is reduced even further, as you no longer need to wait weeks before your changes are available on

Rolling out changes

The procedure of using feature flags is straightforward, and similar to not using them. You add the necessary tests (make sure to test both the on and off states of your feature flag(s)), make sure they all pass, have the code reviewed, etc. You then submit your merge request, and add the ~”feature flag” label. This label is used to signal to release managers that your changes are hidden behind a feature flag and that it is safe to pick the MR into a stable branch, without the need for an exception request.

When the changes are deployed it is time to start rolling out the feature to our users. The exact procedure of rolling out a change is unspecified, as this can vary from change to change. However, in general we recommend rolling out changes incrementally, instead of enabling them for everybody right away. We also recommend you to not enable a feature before the code is being deployed. This allows you to separate rolling out a feature from a deploy, making it easier to measure the impact of both separately.

GitLab’s feature library (using Flipper, and covered in the Feature Flags guide) supports rolling out changes to a percentage of users. This in turn can be controlled using GitLab chatops.

For an up to date list of feature flag commands please see the source code. Note that all the examples in that file must be preceded by /chatops run.

If you get an error “Whoops! This action is not allowed. This incident will be reported.” that means your Slack account is not allowed to change feature flags. To test if you are allowed to do anything at all, run:

/chatops run feature --help

For example, to enable a feature for 25% of all users, run the following in Slack:

/chatops run feature set new_navigation_bar 25

This will enable the feature for, with new_navigation_bar being the name of the feature. We can also enable the feature for or

/chatops run feature set new_navigation_bar 25 --dev
/chatops run feature set new_navigation_bar 25 --staging

If you are not certain what percentages to use, simply use the following steps:

  1. 25%
  2. 50%
  3. 75%
  4. 100%

Between every step you’ll want to wait a little while and monitor the appropriate graphs on The exact time to wait may differ. For some features a few minutes is enough, while for others you may want to wait several hours or even days. This is entirely up to you, just make sure it is clearly communicated to your team, and the Production team if you anticipate any potential problems.

Feature gates can also be actor based, for example a feature could first be enabled for only the gitlab-ce project. The project is passed by supplying a --project flag:

/chatops run feature set --project=gitlab-org/gitlab-ce some_feature true

For groups the --group flag is available:

/chatops run feature set --group=gitlab-org some_feature true

Once a change is deemed stable, submit a new merge request to remove the feature flag. This ensures the change is available to all users and self-hosted instances. Make sure to add the ~”feature flag” label to this merge request so release managers are aware the changes are hidden behind a feature flag. If the merge request has to be picked into a stable branch (e.g. after the 7th), make sure to also add the appropriate “Pick into X” label (e.g. “Pick into 11.4”).

One might be tempted to think this will delay the release of a feature by at least one month (= one release). This is not the case. A feature flag does not have to stick around for a specific amount of time (e.g. at least one release), instead they should stick around until the feature is deemed stable. Stable means it works on without causing any problems, such as outages. In most cases this will translate to a feature (with a feature flag) being shipped in RC1, followed by the feature flag being removed in RC2. This in turn means the feature will be stable by the time we publish a stable package around the 22nd of the month.

Implicit feature flags

The Project#feature_available?, Namespace#feature_available? (EE), and License.feature_available? (EE) methods all implicitly check for a feature flag by the same name as the provided argument.

For example if a feature is license-gated, there’s no need to add an additional explicit feature flag check since the flag will be checked as part of the License.feature_available? call. Similarly, there’s no need to “clean up” a feature flag once the feature has reached general availability.

You’d still want to use an explicit Feature.enabled? check if your new feature isn’t gated by a License or Plan.

Undefined feature flags default to “on”

An important side-effect of the [implicit feature flags][#implicit-feature-flags] mentioned above is that unless the feature is explicitly disabled or limited to a percentage of users, the feature flag check will default to true.

As an example, if you were to ship the backend half of a feature behind a flag, you’d want to explicitly disable that flag until the frontend half is also ready to be shipped. You can do this via ChatOps:

/chatops run feature set some_feature 0

Note that you can do this at any time, even before the merge request using the flag has been merged!

Cleaning up

When a feature gate has been removed from the code base, the value still exists in the database. This can be removed through ChatOps:

/chatops run feature delete some_feature