How to clear Docker cache and free up space on your system

Kyle Galbraith - Aug 8 '23 - - Dev Community

Docker persists build cache, containers, images, and volumes to disk. Over time, these things can take up a lot of space on your system, either locally or in CI. In this post, we'll look at the different Docker artifacts that can take up space on your system, how to clear them individually, and how to use docker system prune to clear Docker cache.

A short refresher on Docker caching

Docker uses layer caching to reuse previously computed build results. Each instruction in a Dockerfile is associated with a layer that contains the changes caused by executing that instruction. If previous layers, as well as any inputs to an instruction, haven't changed, and the instruction has already been run and cached previously, Docker will use the cached layer for it. Otherwise, Docker will rebuild that layer and all layers that follow it.

Dockerfile lines map to hashes that are either present in the cache or will need to be recomputed.

The Docker layers for which the hash of the inputs (such as source code files on disk or the parent layer) haven't changed get loaded from the cache and reused. For layers where the hash of inputs has changed, the layers get recomputed.

Using a cached layer is much faster than recomputing an instruction from scratch. So, generally, you want as much of your Docker build as possible to come from the cache and to only rebuild layers that have changed since the last build.

One of the main factors that affects how many of the layers in your image need to be rebuilt is the ordering of operations in your Dockerfile.

How much disk space is Docker using?

The first step is knowing the disk usage of Docker. We can use the docker system df command to get a breakdown of how much disk space is being taken up by various artifacts.

docker system df
TYPE            TOTAL     ACTIVE    SIZE      RECLAIMABLE
Images          138       34        36.18GB   34.15GB (94%)
Containers      74        18        834.8kB   834.6kB (99%)
Local Volumes   118       6         15.31GB   15.14GB (98%)
Build Cache     245       0         1.13GB    1.13GB
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Docker uses 36.18 GB for images, 834.8 kB for containers, 15.31 GB for local volumes, and 1.13 GB for the Docker build cache. This comes to about 50 GB of space in total, and a large chunk of it is reclaimable.

What space can we claim back without affecting Docker build performance?

It's generally quite safe to remove unused Docker images and layers — unless you are building in CI. For CI, clearing the layers might affect performance, so it's better not to do it. Instead, jump to our CI-focused section.

Removing containers from the Docker cache

We can use the docker container prune command to clear the disk space used by containers. This command will remove all stopped containers from the system.

We can omit the -f flag here and in subsequent examples to get a confirmation prompt before artifacts are removed.

docker container prune -f
Deleted Containers:
399d7e3679bf9b14a1c7045cc89c056f2efe31d0a32f186c5e9cb6ebbbf42c8e

Total reclaimed space: 834.6kB
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Which containers are unused?

We can see the IDs of unused containers by running the docker ps command with filters on the status of the container. A container is unused if it has a status of exited or dead.

docker ps --filter status=exited --filter status=dead -q
11bc2aa92622
355901f38ecb
263e9bde1f24
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Note: If we want to know the size of the unused container, we can replace the -q flag with -s to get the size and other metadata about the container.

Removing all containers

If we want to remove all containers from the system, we can stop any running containers and then use the same prune command. Do this by feeding the output of docker ps -q into the docker stop or docker kill command if you want to kill the container forcibly.

docker stop $(docker ps -q)
docker container prune
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Another option is the docker rm command, which can be used with docker ps -a -q to remove all containers.

docker rm $(docker ps -a -q)
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Note: The docker rm command forces the removal of a running container via a SIGKILL signal. This is the same as the docker kill command. The docker ps -a -q command will list all containers on the system, including running containers, and feed that into the docker rm command.

Removing images

Docker images can take up a significant amount of disk space. We accumulate new images when base images change or build new ones via docker build, for example. We can use the docker image prune command to remove unused images from the system.

By default, it only removes dangling images, which are not associated with any container and don't have tags.

docker image prune -f
Deleted Images:
deleted: sha256:6f096c9fa1568f7566d4acaf57d20383851bcc433853df793f404375c8d975d6
...

Total reclaimed space: 2.751GB
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We reclaimed over 2.7 GB of space by removing dangling images. But, if we recall from the output of our docker system df command, we have 34.15 GB of reclaimable images.

Where is the rest of that space coming from? These are images on our system that are tagged or associated with a container. We can run the docker image prune- a command to force the removal of these images as well, assuming they're unused images.

docker image prune -a -f
Deleted Images:
untagged: k8s.gcr.io/etcd:3.4.13-0
untagged: k8s.gcr.io/etcd@sha256:4ad90a11b55313b182afc186b9876c8e891531b8db4c9bf1541953021618d0e2
deleted: sha256:0369cf4303ffdb467dc219990960a9baa8512a54b0ad9283eaf55bd6c0adb934
deleted: sha256:f3cecccfe2bea1cbd18db5eae847c3a9c8253663bf30a41288f541dc1470b41e

Total reclaimed space: 22.66GB
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In this way, we remove all unused images not associated with a container, not just the dangling ones.

Removing volumes

Volumes are never cleaned up automatically in Docker because they could contain valuable data. But, if we know that we no longer need the data in a volume, we can remove it with the docker volume prune command. This removes all anonymous volumes not used by any containers.

docker volume prune -f
Total reclaimed space: 0B
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Interestingly, we see that we didn't reclaim any space. This is because we have volumes that are associated with containers. We can see these volumes by running the docker volume ls command.

DRIVER    VOLUME NAME
local     0a44f085adc881ac9bb9cdcd659c28910b11fdf4c07aa4c38d0cca21c76d4ac4
local     0d3ee99b36edfada7834044f2caa063ac8eaf82b0dda8935ae9d8be2bffe404c
...
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We get an output that shows the driver and the volume name. The command docker volume prune only removes anonymous volumes. These volumes are not named and don't have a specific source from outside the container. We can use the docker volume rm -a command to remove all volumes.

docker volume prune -a -f
Deleted Volumes:
c0c240b680d70fffef420b8699eeee3f0a49eec4cc55706036f38135ae121be0
2ce324adb91e2e6286d655b7cdaaaba4b6b363770d01ec88672e26c3e2704d9e

Total reclaimed space: 15.31GB
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Removing build cache

To remove the Docker build cache, we can run the docker buildx prune command to clear the build cache of the default builder.

docker buildx prune -f
ID                                        RECLAIMABLE   SIZE        LAST ACCESSED
pw11qgl0xs4zwy533i2x61pef*                true          54B         12 days ago
y37tt0kfwn1px9fnjqwxk7dnk                 true          0B          12 days ago
sq3f8r0qrqh4rniemd396s5gq*                true          154.1kB     12 days ago

Total:  5.806GB
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If we want to remove the build cache for a specific builder, we can use the --builder flag to specify the builder name.

docker buildx prune --builder builder-name -f
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Removing networks

While Docker networks don't take up disk space on our machine, they do create network bridges, iptables, and routing table entries. So, similarly to the other artifacts, we can remove unused networks with the docker network prune command to clean these up.

docker network prune -f
Deleted Networks:
test-network-1
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Removing everything with docker system prune

We can remove all unused artifacts Docker has produced by running docker system prune. This will remove all unused containers, images, networks, and build cache.

docker system prune -f
Deleted Images:
deleted: sha256:93477d5bde9ef0d3d7d6d2054dc58cbce1c1ca159a7b33a7b9d23cd1fe7436a3

Deleted build cache objects:
6mm1daa19k1gdijlde3l2bidb
vq294gub98yx8mjgwila989k1
xd2x5q3s6c6dh5y9ruazo4dlm

Total reclaimed space: 419.6MB
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By default, this command will not remove volumes and only removes dangling Docker images. We can use the --volumes flag to remove volumes as well. We can also add the -a flag again to remove all images not associated with a container.

docker system prune --volumes -a -f
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Managing Docker build cache in CI

If you are building Docker images in a CI environment, you can, of course, use the above commands as well. However, your builds might not be fully taking advantage of the Docker build cache for the following structural reasons:

  1. In a CI environment with ephemeral runners, such as GitHub Actions or GitLab CI, build cache isn't persisted across builds without saving/loading it over the network to somewhere off of the ephemeral runner. Saving and loading the cache is therefore slow because the network transfer speed is slow.

  2. By default, all CI runners are ephemeral unless you run your own.

  3. If there is disk space, it's usually capped at 10 to 15 GB. Thus, if you're building large images with large layers, you will likely exhaust it.

Even if you are building very small images and only keep essential layers in the Docker cache on each CI runner, your builds will likely not use the cache and thus be quite slow, as computing each layer on every build can take a while.

A diagram showing how, with ephemeral CI runners, the total length of loading cache, Docker build with cache, and saving cache can be similar to running a Docker build without cache.

Loading and saving cache from ephemeral CI runners via the network can take a considerable amount of time, negating the benefits of caching compared with always rebuilding all layers from scratch.

Then how can you optimize the use of the Docker cache in CI systems?

Consider using Depot. Depot automatically persists the cache across builds on a real SSD disk. This makes Docker builds that use Depot up to twenty times faster than building Docker images on CI without it. With Depot, you build with a full Docker cache without the network overhead.

A diagram showing how, with Depot, the time it takes to load and save the cache is zero, and the Docker build part is still fast.

Compared with network-based caching systems, Depot relies on fast SSDs to make the cache instantly available for Docker builds.

Adding Depot to your build only takes a few minutes — use the depot CLI as a drop-in replacement for the docker CLI, or use an environment variable without changing the rest of the configuration.

Learn more about using Depot in a CI environment →

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