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Images
A container image represents binary data that encapsulates an application and all its software dependencies. Container images are executable software bundles that can run standalone and that make very well defined assumptions about their runtime environment.
You typically create a container image of your application and push it to a registry before referring to it in a Pod.
This page provides an outline of the container image concept.
Image names
Container images are usually given a name such as pause
, example/mycontainer
, or kube-apiserver
.
Images can also include a registry hostname; for example: fictional.registry.example/imagename
,
and possibly a port number as well; for example: fictional.registry.example:10443/imagename
.
If you don't specify a registry hostname, Kubernetes assumes that you mean the Docker public registry.
After the image name part you can add a tag (in the same way you would when using with commands
like docker
or podman
). Tags let you identify different versions of the same series of images.
Image tags consist of lowercase and uppercase letters, digits, underscores (_
),
periods (.
), and dashes (-
).
There are additional rules about where you can place the separator
characters (_
, -
, and .
) inside an image tag.
If you don't specify a tag, Kubernetes assumes you mean the tag latest
.
Updating images
When you first create a Deployment,
StatefulSet, Pod, or other
object that includes a Pod template, then by default the pull policy of all
containers in that pod will be set to IfNotPresent
if it is not explicitly
specified. This policy causes the
kubelet to skip pulling an
image if it already exists.
Image pull policy
The imagePullPolicy
for a container and the tag of the image affect when the
kubelet attempts to pull (download) the specified image.
Here's a list of the values you can set for imagePullPolicy
and the effects
these values have:
IfNotPresent
- the image is pulled only if it is not already present locally.
Always
- every time the kubelet launches a container, the kubelet queries the container image registry to resolve the name to an image digest. If the kubelet has a container image with that exact digest cached locally, the kubelet uses its cached image; otherwise, the kubelet pulls the image with the resolved digest, and uses that image to launch the container.
Never
- the kubelet does not try fetching the image. If the image is somehow already present locally, the kubelet attempts to start the container; otherwise, startup fails. See pre-pulled images for more details.
The caching semantics of the underlying image provider make even
imagePullPolicy: Always
efficient, as long as the registry is reliably accessible.
Your container runtime can notice that the image layers already exist on the node
so that they don't need to be downloaded again.
You should avoid using the :latest
tag when deploying containers in production as
it is harder to track which version of the image is running and more difficult to
roll back properly.
Instead, specify a meaningful tag such as v1.42.0
and/or a digest.
To make sure the Pod always uses the same version of a container image, you can specify
the image's digest;
replace <image-name>:<tag>
with <image-name>@<digest>
(for example, image@sha256:45b23dee08af5e43a7fea6c4cf9c25ccf269ee113168c19722f87876677c5cb2
).
When using image tags, if the image registry were to change the code that the tag on that image represents, you might end up with a mix of Pods running the old and new code. An image digest uniquely identifies a specific version of the image, so Kubernetes runs the same code every time it starts a container with that image name and digest specified. Specifying an image by digest fixes the code that you run so that a change at the registry cannot lead to that mix of versions.
There are third-party admission controllers that mutate Pods (and pod templates) when they are created, so that the running workload is defined based on an image digest rather than a tag. That might be useful if you want to make sure that all your workload is running the same code no matter what tag changes happen at the registry.
Default image pull policy
When you (or a controller) submit a new Pod to the API server, your cluster sets the
imagePullPolicy
field when specific conditions are met:
- if you omit the
imagePullPolicy
field, and you specify the digest for the container image, theimagePullPolicy
is automatically set toIfNotPresent
. - if you omit the
imagePullPolicy
field, and the tag for the container image is:latest
,imagePullPolicy
is automatically set toAlways
; - if you omit the
imagePullPolicy
field, and you don't specify the tag for the container image,imagePullPolicy
is automatically set toAlways
; - if you omit the
imagePullPolicy
field, and you specify the tag for the container image that isn't:latest
, theimagePullPolicy
is automatically set toIfNotPresent
.
The value of imagePullPolicy
of the container is always set when the object is
first created, and is not updated if the image's tag or digest later changes.
For example, if you create a Deployment with an image whose tag is not
:latest
, and later update that Deployment's image to a :latest
tag, the
imagePullPolicy
field will not change to Always
. You must manually change
the pull policy of any object after its initial creation.
Required image pull
If you would like to always force a pull, you can do one of the following:
- Set the
imagePullPolicy
of the container toAlways
. - Omit the
imagePullPolicy
and use:latest
as the tag for the image to use; Kubernetes will set the policy toAlways
when you submit the Pod. - Omit the
imagePullPolicy
and the tag for the image to use; Kubernetes will set the policy toAlways
when you submit the Pod. - Enable the AlwaysPullImages admission controller.
ImagePullBackOff
When a kubelet starts creating containers for a Pod using a container runtime,
it might be possible the container is in Waiting
state because of ImagePullBackOff
.
The status ImagePullBackOff
means that a container could not start because Kubernetes
could not pull a container image (for reasons such as invalid image name, or pulling
from a private registry without imagePullSecret
). The BackOff
part indicates
that Kubernetes will keep trying to pull the image, with an increasing back-off delay.
Kubernetes raises the delay between each attempt until it reaches a compiled-in limit, which is 300 seconds (5 minutes).
Serial and parallel image pulls
By default, kubelet pulls images serially. In other words, kubelet sends only one image pull request to the image service at a time. Other image pull requests have to wait until the one being processed is complete.
Nodes make image pull decisions in isolation. Even when you use serialized image pulls, two different nodes can pull the same image in parallel.
If you would like to enable parallel image pulls, you can set the field
serializeImagePulls
to false in the kubelet configuration.
With serializeImagePulls
set to false, image pull requests will be sent to the image service immediately,
and multiple images will be pulled at the same time.
When enabling parallel image pulls, please make sure the image service of your container runtime can handle parallel image pulls.
The kubelet never pulls multiple images in parallel on behalf of one Pod. For example, if you have a Pod that has an init container and an application container, the image pulls for the two containers will not be parallelized. However, if you have two Pods that use different images, the kubelet pulls the images in parallel on behalf of the two different Pods, when parallel image pulls is enabled.
Maximum parallel image pulls
Kubernetes v1.27 [alpha]
When serializeImagePulls
is set to false, the kubelet defaults to no limit on the
maximum number of images being pulled at the same time. If you would like to
limit the number of parallel image pulls, you can set the field maxParallelImagePulls
in kubelet configuration. With maxParallelImagePulls
set to n, only n images
can be pulled at the same time, and any image pull beyond n will have to wait
until at least one ongoing image pull is complete.
Limiting the number parallel image pulls would prevent image pulling from consuming too much network bandwidth or disk I/O, when parallel image pulling is enabled.
You can set maxParallelImagePulls
to a positive number that is greater than or
equal to 1. If you set maxParallelImagePulls
to be greater than or equal to 2, you
must set the serializeImagePulls
to false. The kubelet will fail to start with invalid
maxParallelImagePulls
settings.
Multi-architecture images with image indexes
As well as providing binary images, a container registry can also serve a
container image index.
An image index can point to multiple image manifests
for architecture-specific versions of a container. The idea is that you can have a name for an image
(for example: pause
, example/mycontainer
, kube-apiserver
) and allow different systems to
fetch the right binary image for the machine architecture they are using.
Kubernetes itself typically names container images with a suffix -$(ARCH)
. For backward
compatibility, please generate the older images with suffixes. The idea is to generate say pause
image which has the manifest for all the arch(es) and say pause-amd64
which is backwards
compatible for older configurations or YAML files which may have hard coded the images with
suffixes.
Using a private registry
Private registries may require keys to read images from them.
Credentials can be provided in several ways:
- Configuring Nodes to Authenticate to a Private Registry
- all pods can read any configured private registries
- requires node configuration by cluster administrator
- Kubelet Credential Provider to dynamically fetch credentials for private registries
- kubelet can be configured to use credential provider exec plugin for the respective private registry.
- Pre-pulled Images
- all pods can use any images cached on a node
- requires root access to all nodes to set up
- Specifying ImagePullSecrets on a Pod
- only pods which provide own keys can access the private registry
- Vendor-specific or local extensions
- if you're using a custom node configuration, you (or your cloud provider) can implement your mechanism for authenticating the node to the container registry.
These options are explained in more detail below.
Configuring nodes to authenticate to a private registry
Specific instructions for setting credentials depends on the container runtime and registry you chose to use. You should refer to your solution's documentation for the most accurate information.
For an example of configuring a private container image registry, see the Pull an Image from a Private Registry task. That example uses a private registry in Docker Hub.
Kubelet credential provider for authenticated image pulls
You can configure the kubelet to invoke a plugin binary to dynamically fetch registry credentials for a container image. This is the most robust and versatile way to fetch credentials for private registries, but also requires kubelet-level configuration to enable.
See Configure a kubelet image credential provider for more details.
Interpretation of config.json
The interpretation of config.json
varies between the original Docker
implementation and the Kubernetes interpretation. In Docker, the auths
keys
can only specify root URLs, whereas Kubernetes allows glob URLs as well as
prefix-matched paths. This means that a config.json
like this is valid:
{
"auths": {
"*my-registry.io/images": {
"auth": "…"
}
}
}
The root URL (*my-registry.io
) is matched by using the following syntax:
pattern:
{ term }
term:
'*' matches any sequence of non-Separator characters
'?' matches any single non-Separator character
'[' [ '^' ] { character-range } ']'
character class (must be non-empty)
c matches character c (c != '*', '?', '\\', '[')
'\\' c matches character c
character-range:
c matches character c (c != '\\', '-', ']')
'\\' c matches character c
lo '-' hi matches character c for lo <= c <= hi
Image pull operations would now pass the credentials to the CRI container runtime for every valid pattern. For example the following container image names would match successfully:
my-registry.io/images
my-registry.io/images/my-image
my-registry.io/images/another-image
sub.my-registry.io/images/my-image
a.sub.my-registry.io/images/my-image
The kubelet performs image pulls sequentially for every found credential. This
means, that multiple entries in config.json
are possible, too:
{
"auths": {
"my-registry.io/images": {
"auth": "…"
},
"my-registry.io/images/subpath": {
"auth": "…"
}
}
}
If now a container specifies an image my-registry.io/images/subpath/my-image
to be pulled, then the kubelet will try to download them from both
authentication sources if one of them fails.
Pre-pulled images
By default, the kubelet tries to pull each image from the specified registry.
However, if the imagePullPolicy
property of the container is set to IfNotPresent
or Never
,
then a local image is used (preferentially or exclusively, respectively).
If you want to rely on pre-pulled images as a substitute for registry authentication, you must ensure all nodes in the cluster have the same pre-pulled images.
This can be used to preload certain images for speed or as an alternative to authenticating to a private registry.
All pods will have read access to any pre-pulled images.
Specifying imagePullSecrets on a Pod
Kubernetes supports specifying container image registry keys on a Pod.
imagePullSecrets
must all be in the same namespace as the Pod. The referenced
Secrets must be of type kubernetes.io/dockercfg
or kubernetes.io/dockerconfigjson
.
Creating a Secret with a Docker config
You need to know the username, registry password and client email address for authenticating to the registry, as well as its hostname. Run the following command, substituting the appropriate uppercase values:
kubectl create secret docker-registry <name> \
--docker-server=DOCKER_REGISTRY_SERVER \
--docker-username=DOCKER_USER \
--docker-password=DOCKER_PASSWORD \
--docker-email=DOCKER_EMAIL
If you already have a Docker credentials file then, rather than using the above
command, you can import the credentials file as a Kubernetes
Secrets.
Create a Secret based on existing Docker credentials
explains how to set this up.
This is particularly useful if you are using multiple private container
registries, as kubectl create secret docker-registry
creates a Secret that
only works with a single private registry.
Referring to an imagePullSecrets on a Pod
Now, you can create pods which reference that secret by adding an imagePullSecrets
section to a Pod definition. Each item in the imagePullSecrets
array can only
reference a Secret in the same namespace.
For example:
cat <<EOF > pod.yaml
apiVersion: v1
kind: Pod
metadata:
name: foo
namespace: awesomeapps
spec:
containers:
- name: foo
image: janedoe/awesomeapp:v1
imagePullSecrets:
- name: myregistrykey
EOF
cat <<EOF >> ./kustomization.yaml
resources:
- pod.yaml
EOF
This needs to be done for each pod that is using a private registry.
However, setting of this field can be automated by setting the imagePullSecrets in a ServiceAccount resource.
Check Add ImagePullSecrets to a Service Account for detailed instructions.
You can use this in conjunction with a per-node .docker/config.json
. The credentials
will be merged.
Use cases
There are a number of solutions for configuring private registries. Here are some common use cases and suggested solutions.
- Cluster running only non-proprietary (e.g. open-source) images. No need to hide images.
- Use public images from a public registry
- No configuration required.
- Some cloud providers automatically cache or mirror public images, which improves availability and reduces the time to pull images.
- Use public images from a public registry
- Cluster running some proprietary images which should be hidden to those outside the company, but
visible to all cluster users.
- Use a hosted private registry
- Manual configuration may be required on the nodes that need to access to private registry
- Or, run an internal private registry behind your firewall with open read access.
- No Kubernetes configuration is required.
- Use a hosted container image registry service that controls image access
- It will work better with cluster autoscaling than manual node configuration.
- Or, on a cluster where changing the node configuration is inconvenient, use
imagePullSecrets
.
- Use a hosted private registry
- Cluster with proprietary images, a few of which require stricter access control.
- Ensure AlwaysPullImages admission controller is active. Otherwise, all Pods potentially have access to all images.
- Move sensitive data into a "Secret" resource, instead of packaging it in an image.
- A multi-tenant cluster where each tenant needs own private registry.
- Ensure AlwaysPullImages admission controller is active. Otherwise, all Pods of all tenants potentially have access to all images.
- Run a private registry with authorization required.
- Generate registry credential for each tenant, put into secret, and populate secret to each tenant namespace.
- The tenant adds that secret to imagePullSecrets of each namespace.
If you need access to multiple registries, you can create one secret for each registry.
Legacy built-in kubelet credential provider
In older versions of Kubernetes, the kubelet had a direct integration with cloud provider credentials. This gave it the ability to dynamically fetch credentials for image registries.
There were three built-in implementations of the kubelet credential provider integration: ACR (Azure Container Registry), ECR (Elastic Container Registry), and GCR (Google Container Registry).
For more information on the legacy mechanism, read the documentation for the version of Kubernetes that you are using. Kubernetes v1.26 through to v1.31 do not include the legacy mechanism, so you would need to either:
- configure a kubelet image credential provider on each node
- specify image pull credentials using
imagePullSecrets
and at least one Secret
What's next
- Read the OCI Image Manifest Specification.
- Learn about container image garbage collection.
- Learn more about pulling an Image from a Private Registry.