$ oc deploy --latest dc/<name>
You can start a new deployment process manually using the web console, or from the CLI:
$ oc deploy --latest dc/<name>
If a deployment process is already in progress, the command will display a message and a new replication controller will not be deployed. |
To get basic information about all the available revisions of your application:
$ oc rollout history dc/<name>
This will show details about all recently created replication controllers for the provided deployment configuration, including any currently running deployment process.
You can view details specific to a revision by using the --revision
flag:
$ oc rollout history dc/<name> --revision=1
For more detailed information about a deployment configuration and its latest revision:
$ oc describe dc <name>
The web console shows deployments in the Browse tab. |
To cancel a running or stuck deployment process:
$ oc deploy --cancel dc/<name>
The cancellation is a best-effort operation, and may take some time to complete. The replication controller may partially or totally complete its deployment before the cancellation is effective. When canceled, the deployment configuration will be automatically rolled back by scaling up the previous running replication controller. |
If the current revision of your deployment configuration failed to deploy, you can restart the deployment process with:
$ oc deploy --retry dc/<name>
If the latest revision of it was deployed successfully, the command will display a message and the deployment process will not be retried.
Retrying a deployment restarts the deployment process and does not create a new deployment revision. The restarted replication controller will have the same configuration it had when it failed. |
Rollbacks revert an application back to a previous revision and can be performed using the REST API, the CLI, or the web console.
To rollback to the last successful deployed revision of your configuration:
$ oc rollout undo dc/<name>
The deployment configuration’s template will be reverted to match the deployment
revision specified in the undo command, and a new replication controller will be
started. If no revision is specified with --to-revision
, then the last
successfully deployed revision will be used.
Image change triggers on the deployment configuration are disabled as part of the rollback to prevent accidentally starting a new deployment process soon after the rollback is complete. To re-enable the image change triggers:
$ oc set triggers dc/<name> --auto
Deployment configurations also support automatically rolling back to the last successful revision of the configuration in case the latest deployment process fails. In that case, the latest template that failed to deploy stays intact by the system and it is up to users to fix their configurations. |
You can add a command to a container, which modifies the container’s startup
behavior by overruling the image’s ENTRYPOINT
. This is different from a
lifecycle hook,
which instead can be run once per deployment at a specified time.
Add the command
parameters to the spec
field of the deployment
configuration. You can also add an args
field, which modifies the
command
(or the ENTRYPOINT
if command
does not exist).
... spec: containers: - name: <container_name> image: 'image' command: - '<command>' args: - '<argument_1>' - '<argument_2>' - '<argument_3>' ...
For example, to execute the java
command with the -jar
and
/opt/app-root/springboots2idemo.jar arguments:
... spec: containers: - name: example-spring-boot image: 'image' command: - java args: - '-jar' - /opt/app-root/springboots2idemo.jar ...
To stream the logs of the latest revision for a given deployment configuration:
$ oc logs -f dc/<name>
If the latest revision is running or failed, oc logs
will return the logs of
the process that is responsible for deploying your pods. If it is successful,
oc logs
will return the logs from a pod of your application.
You can also view logs from older failed deployment processes, if and only if these processes (old replication controllers and their deployer pods) exist and have not been pruned or deleted manually:
$ oc logs --version=1 dc/<name>
For more options on retrieving logs see:
$ oc logs --help
A deployment configuration can contain triggers, which drive the creation of new deployment processes in response to events inside the cluster.
If no triggers are defined on a deployment configuration, a |
The ConfigChange
trigger results in a new replication controller whenever
changes are detected in the pod template of the deployment configuration.
If a |
triggers:
- type: "ConfigChange"
The ImageChange
trigger results in a new replication controller whenever the
content of an
image
stream tag changes (when a new version of the image is pushed).
triggers:
- type: "ImageChange"
imageChangeParams:
automatic: true (1)
from:
kind: "ImageStreamTag"
name: "origin-ruby-sample:latest"
namespace: "myproject"
containerNames:
- "helloworld"
1 | If the imageChangeParams.automatic field is set to false ,
the trigger is disabled. |
With the above example, when the latest
tag value of the origin-ruby-sample
image stream changes and the new image value differs from the current image
specified in the deployment configuration’s helloworld container, a new
replication controller is created using the new image for the helloworld container.
If an |
The oc set triggers
command can be used to set a deployment trigger for a
deployment configuration. For the example above, you can set the
ImageChangeTrigger
by using the following command:
$ oc set triggers dc/frontend --from-image=myproject/origin-ruby-sample:latest -c helloworld
For more information, see:
$ oc set triggers --help
A deployment is completed by a pod that consumes resources (memory and CPU) on a node. By default, pods consume unbounded node resources. However, if a project specifies default container limits, then pods consume resources up to those limits.
You can also limit resource use by specifying resource limits as part of the deployment strategy. Deployment resources can be used with the Recreate, Rolling, or Custom deployment strategies.
In the following example, each of resources
, cpu
, and memory
is
optional:
type: "Recreate"
resources:
limits:
cpu: "100m" (1)
memory: "256Mi" (2)
1 | cpu is in CPU units: 100m represents 0.1 CPU units (100 * 1e-3). |
2 | memory is in bytes: 256Mi represents 268435456 bytes (256 * 2 ^ 20). |
However, if a quota has been defined for your project, one of the following two items is required:
A resources
section set with an explicit requests
:
type: "Recreate"
resources:
requests: (1)
cpu: "100m"
memory: "256Mi"
1 | The requests object contains the list of resources that correspond to
the list of resources in the quota. |
See Quotas and Limit Ranges to learn more about compute resources and the differences between requests and limits.
A limit range defined in your project, where the
defaults from the LimitRange
object apply to pods created during the
deployment process.
Otherwise, deploy pod creation will fail, citing a failure to satisfy quota.
In addition to rollbacks, you can exercise fine-grained control over
the number of replicas from the web console, or by using the oc scale
command.
For example, the following command sets the replicas in the deployment
configuration frontend
to 3.
$ oc scale dc frontend --replicas=3
The number of replicas eventually propagates to the desired and current
state of the deployment configured by the deployment configuration frontend
.
Pods can also be autoscaled using the |
You can use node selectors in conjunction with labeled nodes to control pod placement.
OpenShift Container Platform administrators can assign labels during an advanced installation, or added to a node after installation. |
Cluster administrators can set the default node selector for your project in order to restrict pod placement to specific nodes. As an OpenShift Container Platform developer, you can set a node selector on a pod configuration to restrict nodes even further.
To add a node selector when creating a pod, edit the pod configuration, and add
the nodeSelector
value. This can be added to a single pod configuration, or in
a pod template:
apiVersion: v1 kind: Pod spec: nodeSelector: disktype: ssd ...
Pods created when the node selector is in place are assigned to nodes with the specified labels.
The labels specified here are used in conjunction with the labels added by a cluster administrator.
For example, if a project has the type=user-node
and
region=east
labels added to a project by the cluster administrator, and you
add the above disktype: ssd
label to a pod, the pod will only ever be
scheduled on nodes that have all three labels.
Labels can only be set to one value, so setting a node selector of |
You can run a pod with a service account other than the default:
Edit the deployment configuration:
$ oc edit dc/<deployment_config>
Add the serviceAccount
and serviceAccountName
parameters to the spec
field, and specify the service account you want to use:
spec: securityContext: {} serviceAccount: <service_account> serviceAccountName: <service_account>
Add a secret to your deployment configuration so that it can access a private repository.
Create a new OpenShift Container Platform project.
Create a secret that contains credentials for accessing a private image repository.
Create a deployment configuration.
On the deployment configuration editor page or in the fromimage page of the web console, set the Pull Secret.
Click the Save button.