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odo <strong>cli</strong> reference - Developer <strong>cli</strong> (odo) | <strong>cli</strong> tools | OKD 4.9
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odo build-images

odo can build container images based on Dockerfiles, and push these images to their registries.

When running the odo build-images command, odo searches for all components in the devfile.yaml with the image type, for example:

components:
- image:
    imageName: quay.io/myusername/myimage
    dockerfile:
      uri: ./Dockerfile (1)
      buildContext: ${PROJECTS_ROOT} (2)
  name: component-built-from-dockerfile
1 The uri field indicates the relative path of the Dockerfile to use, relative to the directory containing the devfile.yaml. The devfile specification indicates that uri could also be an HTTP URL, but this case is not supported by odo yet.
2 The buildContext indicates the directory used as build context. The default value is ${PROJECTS_ROOT}.

For each image component, odo executes either podman or docker (the first one found, in this order), to build the image with the specified Dockerfile, build context, and arguments.

If the --push flag is passed to the command, the images are pushed to their registries after they are built.

odo catalog

odo uses different catalogs to deploy components and services.

Components

odo uses the portable devfile format to describe the components. It can connect to various devfile registries to download devfiles for different languages and frameworks. See odo registry for more information.

Listing components

To list all the devfiles available on the different registries, run the command:

$ odo catalog list components
Example output
 NAME             DESCRIPTION                          REGISTRY
 go               Stack with the latest Go version     DefaultDevfileRegistry
 java-maven       Upstream Maven and OpenJDK 11        DefaultDevfileRegistry
 nodejs           Stack with Node.js 14                DefaultDevfileRegistry
 php-laravel      Stack with Laravel 8                 DefaultDevfileRegistry
 python           Python Stack with Python 3.7         DefaultDevfileRegistry
 [...]

Getting information about a component

To get more information about a specific component, run the command:

$ odo catalog describe component

For example, run the command:

$ odo catalog describe component nodejs
Example output
* Registry: DefaultDevfileRegistry (1)

Starter Projects: (2)
---
name: nodejs-starter
attributes: {}
description: ""
subdir: ""
projectsource:
  sourcetype: ""
  git:
    gitlikeprojectsource:
      commonprojectsource: {}
      checkoutfrom: null
      remotes:
        origin: https://github.com/odo-devfiles/nodejs-ex.git
  zip: null
  custom: null
1 Registry is the registry from which the devfile is retrieved.
2 Starter projects are sample projects in the same language and framework of the devfile, that can help you start a new project.

See odo create for more information on creating a project from a starter project.

Services

odo can deploy services with the help of Operators.

Only Operators deployed with the help of the Operator Lifecycle Manager are supported by odo.

Listing services

To list the available Operators and their associated services, run the command:

$ odo catalog list services
Example output
 Services available through Operators
 NAME                                 CRDs
 postgresql-operator.v0.1.1           Backup, Database
 redis-operator.v0.8.0                RedisCluster, Redis

In this example, two Operators are installed in the cluster. The postgresql-operator.v0.1.1 Operator deploys services related to PostgreSQL: Backup and Database. The redis-operator.v0.8.0 Operator deploys services related to Redis: RedisCluster and Redis.

To get a list of all the available Operators, odo fetches the ClusterServiceVersion (CSV) resources of the current namespace that are in a Succeeded phase. For Operators that support cluster-wide access, when a new namespace is created, these resources are automatically added to it. However, it may take some time before they are in the Succeeded phase, and odo may return an empty list until the resources are ready.

Searching services

To search for a specific service by a keyword, run the command:

$ odo catalog search service

For example, to retrieve the PostgreSQL services, run the command:

$ odo catalog search service postgres
Example output
 Services available through Operators
 NAME                           CRDs
 postgresql-operator.v0.1.1     Backup, Database

You will see a list of Operators that contain the searched keyword in their name.

Getting information about a service

To get more information about a specific service, run the command:

$ odo catalog describe service

For example:

$ odo catalog describe service postgresql-operator.v0.1.1/Database
Example output
KIND:    Database
VERSION: v1alpha1

DESCRIPTION:
     Database is the Schema for the the Database Database API

FIELDS:
   awsAccessKeyId (string)
     AWS S3 accessKey/token ID

     Key ID of AWS S3 storage. Default Value: nil Required to create the Secret
     with the data to allow send the backup files to AWS S3 storage.
[...]

A service is represented in the cluster by a CustomResourceDefinition (CRD) resource. The previous command displays the details about the CRD such as kind, version, and the list of fields available to define an instance of this custom resource.

The list of fields is extracted from the OpenAPI schema included in the CRD. This information is optional in a CRD, and if it is not present, it is extracted from the ClusterServiceVersion (CSV) resource representing the service instead.

It is also possible to request the description of an Operator-backed service, without providing CRD type information. To describe the Redis Operator on a cluster, without CRD, run the following command:

$ odo catalog describe service redis-operator.v0.8.0
Example output
NAME:	redis-operator.v0.8.0
DESCRIPTION:

	A Golang based redis operator that will make/oversee Redis
	standalone/cluster mode setup on top of the Kubernetes. It can create a
	redis cluster setup with best practices on Cloud as well as the Bare metal
	environment. Also, it provides an in-built monitoring capability using

... (cut short for beverity)

	Logging Operator is licensed under [Apache License, Version
	2.0](https://github.com/OT-CONTAINER-KIT/redis-operator/blob/master/LICENSE)


CRDs:
	NAME           DESCRIPTION
	RedisCluster   Redis Cluster
	Redis          Redis

odo create

odo uses a devfile to store the configuration of a component and to describe the component’s resources such as storage and services. The odo create command generates this file.

Creating a component

To create a devfile for an existing project, run the odo create command with the name and type of your component (for example, nodejs or go):

odo create nodejs mynodejs

In the example, nodejs is the type of the component and mynodejs is the name of the component that odo creates for you.

For a list of all the supported component types, run the command odo catalog list components.

If your source code exists outside the current directory, the --context flag can be used to specify the path. For example, if the source for the nodejs component is in a folder called node-backend relative to the current working directory, run the command:

odo create nodejs mynodejs --context ./node-backend

The --context flag supports relative and absolute paths.

To specify the project or app where your component will be deployed, use the --project and --app flags. For example, to create a component that is part of the myapp app inside the backend project, run the command:

odo create nodejs --app myapp --project backend

If these flags are not specified, they will default to the active app and project.

Starter projects

Use the starter projects if you do not have existing source code but want to get up and running quickly to experiment with devfiles and components. To use a starter project, add the --starter flag to the odo create command.

To get a list of available starter projects for a component type, run the odo catalog describe component command. For example, to get all available starter projects for the nodejs component type, run the command:

odo catalog describe component nodejs

Then specify the desired project using the --starter flag on the odo create command:

odo create nodejs --starter nodejs-starter

This will download the example template corresponding to the chosen component type, in this instance, nodejs. The template is downloaded to your current directory, or to the location specified by the --context flag. If a starter project has its own devfile, then this devfile will be preserved.

Using an existing devfile

If you want to create a new component from an existing devfile, you can do so by specifying the path to the devfile using the --devfile flag. For example, to create a component called mynodejs, based on a devfile from GitHub, use the following command:

odo create mynodejs --devfile https://raw.githubusercontent.com/odo-devfiles/registry/master/devfiles/nodejs/devfile.yaml

Interactive creation

You can also run the odo create command interactively, to guide you through the steps needed to create a component:

$ odo create

? Which devfile component type do you wish to create go
? What do you wish to name the new devfile component go-api
? What project do you want the devfile component to be created in default
Devfile Object Validation
 ✓  Checking devfile existence [164258ns]
 ✓  Creating a devfile component from registry: DefaultDevfileRegistry [246051ns]
Validation
 ✓  Validating if devfile name is correct [92255ns]
? Do you want to download a starter project Yes

Starter Project
 ✓  Downloading starter project go-starter from https://github.com/devfile-samples/devfile-stack-go.git [429ms]

Please use odo push command to create the component with source deployed

You are prompted to choose the component type, name, and the project for the component. You can also choose whether or not to download a starter project. Once finished, a new devfile.yaml file is created in the working directory.

To deploy these resources to your cluster, run the command odo push.

odo delete

The odo delete command is useful for deleting resources that are managed by odo.

Deleting a component

To delete a devfile component, run the odo delete command:

$ odo delete

If the component has been pushed to the cluster, the component is deleted from the cluster, along with its dependent storage, URL, secrets, and other resources. If the component has not been pushed, the command exits with an error stating that it could not find the resources on the cluster.

Use the -f or --force flag to avoid the confirmation questions.

Undeploying devfile Kubernetes components

To undeploy the devfile Kubernetes components, that have been deployed with odo deploy, execute the odo delete command with the --deploy flag:

$ odo delete --deploy

Use the -f or --force flag to avoid the confirmation questions.

Delete all

To delete all artifacts including the following items, run the odo delete command with the --all flag :

  • devfile component

  • Devfile Kubernetes component that was deployed using the odo deploy command

  • Devfile

  • Local configuration

$ odo delete --all

Available flags

-f, --force

Use this flag to avoid the confirmation questions.

-w, --wait

Use this flag to wait for component deletion and any dependencies. This flag does not work when undeploying.

The documentation on Common Flags provides more information on the flags available for commands.

odo deploy

odo can be used to deploy components in a manner similar to how they would be deployed using a CI/CD system. First, odo builds the container images, and then it deploys the Kubernetes resources required to deploy the components.

When running the command odo deploy, odo searches for the default command of kind deploy in the devfile, and executes this command. The kind deploy is supported by the devfile format starting from version 2.2.0.

The deploy command is typically a composite command, composed of several apply commands:

  • A command referencing an image component that, when applied, will build the image of the container to deploy, and then push it to its registry.

  • A command referencing a Kubernetes component that, when applied, will create a Kubernetes resource in the cluster.

With the following example devfile.yaml file, a container image is built using the Dockerfile present in the directory. The image is pushed to its registry and then a Kubernetes Deployment resource is created in the cluster, using this freshly built image.

schemaVersion: 2.2.0
[...]
variables:
  CONTAINER_IMAGE: quay.io/phmartin/myimage
commands:
  - id: build-image
    apply:
      component: outerloop-build
  - id: deployk8s
    apply:
      component: outerloop-deploy
  - id: deploy
    composite:
      commands:
        - build-image
        - deployk8s
      group:
        kind: deploy
        isDefault: true
components:
  - name: outerloop-build
    image:
      imageName: "{{CONTAINER_IMAGE}}"
      dockerfile:
        uri: ./Dockerfile
        buildContext: ${PROJECTS_ROOT}
  - name: outerloop-deploy
    kubernetes:
      inlined: |
        kind: Deployment
        apiVersion: apps/v1
        metadata:
          name: my-component
        spec:
          replicas: 1
          selector:
            matchLabels:
              app: node-app
          template:
            metadata:
              labels:
                app: node-app
            spec:
              containers:
                - name: main
                  image: {{CONTAINER_IMAGE}}

The odo link command helps link an odo component to an Operator-backed service or another odo component. It does this by using the Service Binding Operator. Currently, odo makes use of the Service Binding library and not the Operator itself to achieve the desired functionality.

Various linking options

odo provides various options for linking a component with an Operator-backed service or another odo component. All these options (or flags) can be used whether you are linking a component to a service or to another component.

Default behavior

By default, the odo link command creates a directory named kubernetes/ in your component directory and stores the information (YAML manifests) about services and links there. When you use odo push, odo compares these manifests with the state of the resources on the Kubernetes cluster and decides whether it needs to create, modify or destroy resources to match what is specified by the user.

The --inlined flag

If you specify the --inlined flag to the odo link command, odo stores the link information inline in the devfile.yaml in the component directory, instead of creating a file under the kubernetes/ directory. The behavior of the --inlined flag is similar in both the odo link and odo service create commands. This flag is helpful if you want everything stored in a single devfile.yaml. You have to remember to use --inlined flag with each odo link and odo service create command that you execute for the component.

The --map flag

Sometimes, you might want to add more binding information to the component, in addition to what is available by default. For example, if you are linking the component with a service and would like to bind some information from the service’s spec (short for specification), you could use the --map flag. Note that odo does not do any validation against the spec of the service or component being linked. Using this flag is only recommended if you are comfortable using the Kubernetes YAML manifests.

The --bind-as-files flag

For all the linking options discussed so far, odo injects the binding information into the component as environment variables. If you would like to mount this information as files instead, you can use the --bind-as-files flag. This will make odo inject the binding information as files into the /bindings location within your component’s Pod. Compared to the environment variables scenario, when you use --bind-as-files, the files are named after the keys and the value of these keys is stored as the contents of these files.

Examples

In the following example, the backend component is linked with the PostgreSQL service using the default odo link command. For the backend component, make sure that your component and service are pushed to the cluster:

$ odo list
Sample output
APP     NAME        PROJECT       TYPE       STATE      MANAGED BY ODO
app     backend     myproject     spring     Pushed     Yes
$ odo service list
Sample output
NAME                      MANAGED BY ODO     STATE      AGE
PostgresCluster/hippo     Yes (backend)      Pushed     59m41s

Now, run odo link to link the backend component with the PostgreSQL service:

$ odo link PostgresCluster/hippo
Example output
 ✓  Successfully created link between component "backend" and service "PostgresCluster/hippo"

To apply the link, please use `odo push`

And then run odo push to actually create the link on the Kubernetes cluster.

After a successful odo push, you will see a few outcomes:

  1. When you open the URL for the application deployed by backend component, it shows a list of todo items in the database. For example, in the output for the odo url list command, the path where todos are listed is included:

    $ odo url list
    Sample output
    Found the following URLs for component backend
    NAME         STATE      URL                                       PORT     SECURE     KIND
    8080-tcp     Pushed     http://8080-tcp.192.168.39.112.nip.io     8080     false      ingress

    The correct path for the URL would be http://8080-tcp.192.168.39.112.nip.io/api/v1/todos. The exact URL depends on your setup. Also note that there are no todos in the database unless you add some, so the URL might just show an empty JSON object.

  2. You can see binding information related to the Postgres service injected into the backend component. This binding information is injected, by default, as environment variables. You can check it using the odo describe command from the backend component’s directory:

    $  odo describe
    Example output:
    Component Name: backend
    Type: spring
    Environment Variables:
      · PROJECTS_ROOT=/projects
      · PROJECT_SOURCE=/projects
      · DEBUG_PORT=5858
    Storage:
      · m2 of size 3Gi mounted to /home/user/.m2
    URLs:
      · http://8080-tcp.192.168.39.112.nip.io exposed via 8080
    Linked Services:
      · PostgresCluster/hippo
        Environment Variables:
        · POSTGRESCLUSTER_PGBOUNCER-EMPTY
        · POSTGRESCLUSTER_PGBOUNCER.INI
        · POSTGRESCLUSTER_ROOT.CRT
        · POSTGRESCLUSTER_VERIFIER
        · POSTGRESCLUSTER_ID_ECDSA
        · POSTGRESCLUSTER_PGBOUNCER-VERIFIER
        · POSTGRESCLUSTER_TLS.CRT
        · POSTGRESCLUSTER_PGBOUNCER-URI
        · POSTGRESCLUSTER_PATRONI.CRT-COMBINED
        · POSTGRESCLUSTER_USER
        · pgImage
        · pgVersion
        · POSTGRESCLUSTER_CLUSTERIP
        · POSTGRESCLUSTER_HOST
        · POSTGRESCLUSTER_PGBACKREST_REPO.CONF
        · POSTGRESCLUSTER_PGBOUNCER-USERS.TXT
        · POSTGRESCLUSTER_SSH_CONFIG
        · POSTGRESCLUSTER_TLS.KEY
        · POSTGRESCLUSTER_CONFIG-HASH
        · POSTGRESCLUSTER_PASSWORD
        · POSTGRESCLUSTER_PATRONI.CA-ROOTS
        · POSTGRESCLUSTER_DBNAME
        · POSTGRESCLUSTER_PGBOUNCER-PASSWORD
        · POSTGRESCLUSTER_SSHD_CONFIG
        · POSTGRESCLUSTER_PGBOUNCER-FRONTEND.KEY
        · POSTGRESCLUSTER_PGBACKREST_INSTANCE.CONF
        · POSTGRESCLUSTER_PGBOUNCER-FRONTEND.CA-ROOTS
        · POSTGRESCLUSTER_PGBOUNCER-HOST
        · POSTGRESCLUSTER_PORT
        · POSTGRESCLUSTER_ROOT.KEY
        · POSTGRESCLUSTER_SSH_KNOWN_HOSTS
        · POSTGRESCLUSTER_URI
        · POSTGRESCLUSTER_PATRONI.YAML
        · POSTGRESCLUSTER_DNS.CRT
        · POSTGRESCLUSTER_DNS.KEY
        · POSTGRESCLUSTER_ID_ECDSA.PUB
        · POSTGRESCLUSTER_PGBOUNCER-FRONTEND.CRT
        · POSTGRESCLUSTER_PGBOUNCER-PORT
        · POSTGRESCLUSTER_CA.CRT

    Some of these variables are used in the backend component’s src/main/resources/application.properties file so that the Java Spring Boot application can connect to the PostgreSQL database service.

  3. Lastly, odo has created a directory called kubernetes/ in your backend component’s directory that contains the following files:

    $ ls kubernetes
    odo-service-backend-postgrescluster-hippo.yaml  odo-service-hippo.yaml

    These files contain the information (YAML manifests) for two resources:

    1. odo-service-hippo.yaml - the Postgres service created using odo service create --from-file ../postgrescluster.yaml command.

    2. odo-service-backend-postgrescluster-hippo.yaml - the link created using odo link command.

Using the --inlined flag with the odo link command has the same effect as an odo link command without the flag, in that it injects binding information. However, the subtle difference is that in the above case, there are two manifest files under kubernetes/ directory, one for the Postgres service and another for the link between the backend component and this service. However, when you pass the --inlined flag, odo does not create a file under the kubernetes/ directory to store the YAML manifest, but rather stores it inline in the devfile.yaml file.

To see this, unlink the component from the PostgreSQL service first:

$ odo unlink PostgresCluster/hippo
Example output:
 ✓  Successfully unlinked component "backend" from service "PostgresCluster/hippo"

To apply the changes, please use `odo push`

To unlink them on the cluster, run odo push. Now if you inspect the kubernetes/ directory, you see only one file:

$ ls kubernetes
odo-service-hippo.yaml

Next, use the --inlined flag to create a link:

$ odo link PostgresCluster/hippo --inlined
Example output:
 ✓  Successfully created link between component "backend" and service "PostgresCluster/hippo"

To apply the link, please use `odo push`

You need to run odo push for the link to get created on the cluster, like the procedure that omits the --inlined flag. odo stores the configuration in devfile.yaml. In this file, you can see an entry like the following:

 kubernetes:
    inlined: |
      apiVersion: binding.operators.coreos.com/v1alpha1
      kind: ServiceBinding
      metadata:
        creationTimestamp: null
        name: backend-postgrescluster-hippo
      spec:
        application:
          group: apps
          name: backend-app
          resource: deployments
          version: v1
        bindAsFiles: false
        detectBindingResources: true
        services:
        - group: postgres-operator.crunchydata.com
          id: hippo
          kind: PostgresCluster
          name: hippo
          version: v1beta1
      status:
        secret: ""
  name: backend-postgrescluster-hippo

Now if you were to run odo unlink PostgresCluster/hippo, odo would first remove the link information from the devfile.yaml, and then a subsequent odo push would delete the link from the cluster.

Custom bindings

odo link accepts the flag --map which can inject custom binding information into the component. Such binding information will be fetched from the manifest of the resource that you are linking to your component. For example, in the context of the backend component and PostgreSQL service, you can inject information from the PostgreSQL service’s manifest postgrescluster.yaml file into the backend component.

If the name of your PostgresCluster service is hippo (or the output of odo service list, if your PostgresCluster service is named differently), when you want to inject the value of postgresVersion from that YAML definition into your backend component, run the command:

$ odo link PostgresCluster/hippo --map pgVersion='{{ .hippo.spec.postgresVersion }}'

Note that, if the name of your Postgres service is different from hippo, you will have to specify that in the above command in the place of .hippo in the value for pgVersion.

After a link operation, run odo push as usual. Upon successful completion of the push operation, you can run the following command from your backend component directory, to validate if the custom mapping got injected properly:

$ odo exec -- env | grep pgVersion
Example output:
pgVersion=13

Since you might want to inject more than just one piece of custom binding information, odo link accepts multiple key-value pairs of mappings. The only constraint is that these should be specified as --map <key>=<value>. For example, if you want to also inject PostgreSQL image information along with the version, you could run:

$ odo link PostgresCluster/hippo --map pgVersion='{{ .hippo.spec.postgresVersion }}' --map pgImage='{{ .hippo.spec.image }}'

and then run odo push. To validate if both the mappings got injected correctly, run the following command:

$ odo exec -- env | grep -e "pgVersion\|pgImage"
Example output:
pgVersion=13
pgImage=registry.developers.crunchydata.com/crunchydata/crunchy-postgres-ha:centos8-13.4-0
To inline or not?

You can accept the default behavior where odo link generate a manifests file for the link under kubernetes/ directory. Alternatively, you can use the --inlined flag if you prefer to store everything in a single devfile.yaml file.

Binding as files

Another helpful flag that odo link provides is --bind-as-files. When this flag is passed, the binding information is not injected into the component’s Pod as environment variables but is mounted as a filesystem.

Ensure that there are no existing links between the backend component and the PostgreSQL service. You could do this by running odo describe in the backend component’s directory and check if you see output similar to the following:

Linked Services:
 · PostgresCluster/hippo

Unlink the service from the component using:

$ odo unlink PostgresCluster/hippo
$ odo push

--bind-as-files examples

By default, odo creates the manifest file under the kubernetes/ directory, for storing the link information. Link the backend component and PostgreSQL service using:

$ odo link PostgresCluster/hippo --bind-as-files
$ odo push
Example odo describe output:
$ odo describe

Component Name: backend
Type: spring
Environment Variables:
 · PROJECTS_ROOT=/projects
 · PROJECT_SOURCE=/projects
 · DEBUG_PORT=5858
 · SERVICE_BINDING_ROOT=/bindings
 · SERVICE_BINDING_ROOT=/bindings
Storage:
 · m2 of size 3Gi mounted to /home/user/.m2
URLs:
 · http://8080-tcp.192.168.39.112.nip.io exposed via 8080
Linked Services:
 · PostgresCluster/hippo
   Files:
    · /bindings/backend-postgrescluster-hippo/pgbackrest_instance.conf
    · /bindings/backend-postgrescluster-hippo/user
    · /bindings/backend-postgrescluster-hippo/ssh_known_hosts
    · /bindings/backend-postgrescluster-hippo/clusterIP
    · /bindings/backend-postgrescluster-hippo/password
    · /bindings/backend-postgrescluster-hippo/patroni.yaml
    · /bindings/backend-postgrescluster-hippo/pgbouncer-frontend.crt
    · /bindings/backend-postgrescluster-hippo/pgbouncer-host
    · /bindings/backend-postgrescluster-hippo/root.key
    · /bindings/backend-postgrescluster-hippo/pgbouncer-frontend.key
    · /bindings/backend-postgrescluster-hippo/pgbouncer.ini
    · /bindings/backend-postgrescluster-hippo/uri
    · /bindings/backend-postgrescluster-hippo/config-hash
    · /bindings/backend-postgrescluster-hippo/pgbouncer-empty
    · /bindings/backend-postgrescluster-hippo/port
    · /bindings/backend-postgrescluster-hippo/dns.crt
    · /bindings/backend-postgrescluster-hippo/pgbouncer-uri
    · /bindings/backend-postgrescluster-hippo/root.crt
    · /bindings/backend-postgrescluster-hippo/ssh_config
    · /bindings/backend-postgrescluster-hippo/dns.key
    · /bindings/backend-postgrescluster-hippo/host
    · /bindings/backend-postgrescluster-hippo/patroni.crt-combined
    · /bindings/backend-postgrescluster-hippo/pgbouncer-frontend.ca-roots
    · /bindings/backend-postgrescluster-hippo/tls.key
    · /bindings/backend-postgrescluster-hippo/verifier
    · /bindings/backend-postgrescluster-hippo/ca.crt
    · /bindings/backend-postgrescluster-hippo/dbname
    · /bindings/backend-postgrescluster-hippo/patroni.ca-roots
    · /bindings/backend-postgrescluster-hippo/pgbackrest_repo.conf
    · /bindings/backend-postgrescluster-hippo/pgbouncer-port
    · /bindings/backend-postgrescluster-hippo/pgbouncer-verifier
    · /bindings/backend-postgrescluster-hippo/id_ecdsa
    · /bindings/backend-postgrescluster-hippo/id_ecdsa.pub
    · /bindings/backend-postgrescluster-hippo/pgbouncer-password
    · /bindings/backend-postgrescluster-hippo/pgbouncer-users.txt
    · /bindings/backend-postgrescluster-hippo/sshd_config
    · /bindings/backend-postgrescluster-hippo/tls.crt

Everything that was an environment variable in the key=value format in the earlier odo describe output is now mounted as a file. Use the cat command to view the contents of some of these files:

Example command:
$ odo exec -- cat /bindings/backend-postgrescluster-hippo/password
Example output:
q({JC:jn^mm/Bw}eu+j.GX{k
Example command:
$ odo exec -- cat /bindings/backend-postgrescluster-hippo/user
Example output:
hippo
Example command:
$ odo exec -- cat /bindings/backend-postgrescluster-hippo/clusterIP
Example output:
10.101.78.56

Using --inlined

The result of using --bind-as-files and --inlined together is similar to using odo link --inlined. The manifest of the link gets stored in the devfile.yaml, instead of being stored in a separate file under kubernetes/ directory. Other than that, the odo describe output would be the same as earlier.

Custom bindings

When you pass custom bindings while linking the backend component with the PostgreSQL service, these custom bindings are injected not as environment variables but are mounted as files. For example:

$ odo link PostgresCluster/hippo --map pgVersion='{{ .hippo.spec.postgresVersion }}' --map pgImage='{{ .hippo.spec.image }}' --bind-as-files
$ odo push

These custom bindings get mounted as files instead of being injected as environment variables. To validate that this worked, run the following command:

Example command:
$ odo exec -- cat /bindings/backend-postgrescluster-hippo/pgVersion
Example output:
13
Example command:
$ odo exec -- cat /bindings/backend-postgrescluster-hippo/pgImage
Example output:
registry.developers.crunchydata.com/crunchydata/crunchy-postgres-ha:centos8-13.4-0

odo registry

odo uses the portable devfile format to describe the components. odo can connect to various devfile registries, to download devfiles for different languages and frameworks.

You can connect to publicly available devfile registries, or you can install your own Secure Registry.

You can use the odo registry command to manage the registries that are used by odo to retrieve devfile information.

Listing the registries

To list the registries currently contacted by odo, run the command:

$ odo registry list
Example output:
NAME                       URL                             SECURE
DefaultDevfileRegistry     https://registry.devfile.io     No

DefaultDevfileRegistry is the default registry used by odo; it is provided by the devfile.io project.

Adding a registry

To add a registry, run the command:

$ odo registry add
Example output:
$ odo registry add StageRegistry https://registry.stage.devfile.io
New registry successfully added

If you are deploying your own Secure Registry, you can specify the personal access token to authenticate to the secure registry with the --token flag:

$ odo registry add MyRegistry https://myregistry.example.com --token <access_token>
New registry successfully added

Deleting a registry

To delete a registry, run the command:

$ odo registry delete
Example output:
$ odo registry delete StageRegistry
? Are you sure you want to delete registry "StageRegistry" Yes
Successfully deleted registry

Use the --force (or -f) flag to force the deletion of the registry without confirmation.

Updating a registry

To update the URL or the personal access token of a registry already registered, run the command:

$ odo registry update
Example output:
 $ odo registry update MyRegistry https://otherregistry.example.com --token <other_access_token>
 ? Are you sure you want to update registry "MyRegistry" Yes
 Successfully updated registry

Use the --force (or -f) flag to force the update of the registry without confirmation.

odo service

odo can deploy services with the help of Operators.

The list of available Operators and services available for installation can be found using the odo catalog command.

Services are created in the context of a component, so run the odo create command before you deploy services.

A service is deployed using two steps:

  1. Define the service and store its definition in the devfile.

  2. Deploy the defined service to the cluster, using the odo push command.

Creating a new service

To create a new service, run the command:

$ odo service create

For example, to create an instance of a Redis service named my-redis-service, you can run the following command:

Example output
$ odo catalog list services
Services available through Operators
NAME                      CRDs
redis-operator.v0.8.0     RedisCluster, Redis

$ odo service create redis-operator.v0.8.0/Redis my-redis-service
Successfully added service to the configuration; do 'odo push' to create service on the cluster

This command creates a Kubernetes manifest in the kubernetes/ directory, containing the definition of the service, and this file is referenced from the devfile.yaml file.

$ cat kubernetes/odo-service-my-redis-service.yaml
Example output
 apiVersion: redis.redis.opstreelabs.in/v1beta1
 kind: Redis
 metadata:
   name: my-redis-service
 spec:
   kubernetesConfig:
     image: quay.io/opstree/redis:v6.2.5
     imagePullPolicy: IfNotPresent
     resources:
       limits:
         cpu: 101m
         memory: 128Mi
       requests:
         cpu: 101m
         memory: 128Mi
     serviceType: ClusterIP
   redisExporter:
     enabled: false
     image: quay.io/opstree/redis-exporter:1.0
   storage:
     volumeClaimTemplate:
       spec:
         accessModes:
         - ReadWriteOnce
         resources:
           requests:
             storage: 1Gi
Example command
$ cat devfile.yaml
Example output
[...]
components:
- kubernetes:
    uri: kubernetes/odo-service-my-redis-service.yaml
  name: my-redis-service
[...]

Note that the name of the created instance is optional. If you do not provide a name, it will be the lowercase name of the service. For example, the following command creates an instance of a Redis service named redis:

$ odo service create redis-operator.v0.8.0/Redis

Inlining the manifest

By default, a new manifest is created in the kubernetes/ directory, referenced from the devfile.yaml file. It is possible to inline the manifest inside the devfile.yaml file using the --inlined flag:

$ odo service create redis-operator.v0.8.0/Redis my-redis-service --inlined
Successfully added service to the configuration; do 'odo push' to create service on the cluster
Example command
$ cat devfile.yaml
Example output
[...]
components:
- kubernetes:
    inlined: |
      apiVersion: redis.redis.opstreelabs.in/v1beta1
      kind: Redis
      metadata:
        name: my-redis-service
      spec:
        kubernetesConfig:
          image: quay.io/opstree/redis:v6.2.5
          imagePullPolicy: IfNotPresent
          resources:
            limits:
              cpu: 101m
              memory: 128Mi
            requests:
              cpu: 101m
              memory: 128Mi
          serviceType: ClusterIP
        redisExporter:
          enabled: false
          image: quay.io/opstree/redis-exporter:1.0
        storage:
          volumeClaimTemplate:
            spec:
              accessModes:
              - ReadWriteOnce
              resources:
                requests:
                  storage: 1Gi
  name: my-redis-service
[...]

Configuring the service

Without specific customization, the service will be created with a default configuration. You can use either command-line arguments or a file to specify your own configuration.

Using command-line arguments

Use the --parameters (or -p) flag to specify your own configuration.

The following example configures the Redis service with three parameters:

$ odo service create redis-operator.v0.8.0/Redis my-redis-service \
    -p kubernetesConfig.image=quay.io/opstree/redis:v6.2.5 \
    -p kubernetesConfig.serviceType=ClusterIP \
    -p redisExporter.image=quay.io/opstree/redis-exporter:1.0
Successfully added service to the configuration; do 'odo push' to create service on the cluster
Example command
$ cat kubernetes/odo-service-my-redis-service.yaml
Example output
apiVersion: redis.redis.opstreelabs.in/v1beta1
kind: Redis
metadata:
  name: my-redis-service
spec:
  kubernetesConfig:
    image: quay.io/opstree/redis:v6.2.5
    serviceType: ClusterIP
  redisExporter:
    image: quay.io/opstree/redis-exporter:1.0

You can obtain the possible parameters for a specific service using the odo catalog describe service command.

Using a file

Use a YAML manifest to configure your own specification. In the following example, the Redis service is configured with three parameters.

  1. Create a manifest:

    $ cat > my-redis.yaml <<EOF
    apiVersion: redis.redis.opstreelabs.in/v1beta1
    kind: Redis
    metadata:
      name: my-redis-service
    spec:
      kubernetesConfig:
        image: quay.io/opstree/redis:v6.2.5
        serviceType: ClusterIP
      redisExporter:
        image: quay.io/opstree/redis-exporter:1.0
    EOF
  2. Create the service from the manifest:

    $ odo service create --from-file my-redis.yaml
    Successfully added service to the configuration; do 'odo push' to create service on the cluster

Deleting a service

To delete a service, run the command:

$ odo service delete
Example output
$ odo service list
NAME                       MANAGED BY ODO     STATE               AGE
Redis/my-redis-service     Yes (api)          Deleted locally     5m39s
$ odo service delete Redis/my-redis-service
? Are you sure you want to delete Redis/my-redis-service Yes
Service "Redis/my-redis-service" has been successfully deleted; do 'odo push' to delete service from the cluster

Use the --force (or -f) flag to force the deletion of the service without confirmation.

Listing services

To list the services created for your component, run the command:

$ odo service list
Example output
$ odo service list
NAME                       MANAGED BY ODO     STATE             AGE
Redis/my-redis-service-1   Yes (api)          Not pushed
Redis/my-redis-service-2   Yes (api)          Pushed            52s
Redis/my-redis-service-3   Yes (api)          Deleted locally   1m22s

For each service, STATE indicates if the service has been pushed to the cluster using the odo push command, or if the service is still running on the cluster but removed from the devfile locally using the odo service delete command.

Getting information about a service

To get details of a service such as its kind, version, name, and list of configured parameters, run the command:

$ odo service describe
Example output
$ odo service describe Redis/my-redis-service
Version: redis.redis.opstreelabs.in/v1beta1
Kind: Redis
Name: my-redis-service
Parameters:
NAME                           VALUE
kubernetesConfig.image         quay.io/opstree/redis:v6.2.5
kubernetesConfig.serviceType   ClusterIP
redisExporter.image            quay.io/opstree/redis-exporter:1.0

odo storage

odo lets users manage storage volumes that are attached to the components. A storage volume can be either an ephemeral volume using an emptyDir Kubernetes volume, or a Persistent Volume Claim (PVC). A PVC allows users to claim a persistent volume (such as a GCE PersistentDisk or an iSCSI volume) without understanding the details of the particular cloud environment. The persistent storage volume can be used to persist data across restarts and rebuilds of the component.

Adding a storage volume

To add a storage volume to the cluster, run the command:

$ odo storage create
Example output:
$ odo storage create store --path /data --size 1Gi
✓  Added storage store to nodejs-project-ufyy

$ odo storage create tempdir --path /tmp --size 2Gi --ephemeral
✓  Added storage tempdir to nodejs-project-ufyy

Please use `odo push` command to make the storage accessible to the component

In the above example, the first storage volume has been mounted to the /data path and has a size of 1Gi, and the second volume has been mounted to /tmp and is ephemeral.

Listing the storage volumes

To check the storage volumes currently used by the component, run the command:

$ odo storage list
Example output:
$ odo storage list
The component 'nodejs-project-ufyy' has the following storage attached:
NAME      SIZE     PATH      STATE
store     1Gi      /data     Not Pushed
tempdir   2Gi      /tmp      Not Pushed

Deleting a storage volume

To delete a storage volume, run the command:

$ odo storage delete
Example output:
$ odo storage delete store -f
Deleted storage store from nodejs-project-ufyy

Please use `odo push` command to delete the storage from the cluster

In the above example, using the -f flag force deletes the storage without asking user permission.

Adding storage to specific container

If your devfile has multiple containers, you can specify which container you want the storage to attach to, using the --container flag in the odo storage create command.

The following example is an excerpt from a devfile with multiple containers :

components:
  - name: nodejs1
    container:
      image: registry.access.redhat.com/ubi8/nodejs-12:1-36
      memoryLimit: 1024Mi
      endpoints:
        - name: "3000-tcp"
          targetPort: 3000
      mountSources: true
  - name: nodejs2
    container:
      image: registry.access.redhat.com/ubi8/nodejs-12:1-36
      memoryLimit: 1024Mi

In the example, there are two containers,nodejs1 and nodejs2. To attach storage to the nodejs2 container, use the following command:

$ odo storage create --container
Example output:
$ odo storage create store --path /data --size 1Gi --container nodejs2
✓  Added storage store to nodejs-testing-xnfg

Please use `odo push` command to make the storage accessible to the component

You can list the storage resources, using the odo storage list command:

$ odo storage list
Example output:
The component 'nodejs-testing-xnfg' has the following storage attached:
NAME      SIZE     PATH      CONTAINER     STATE
store     1Gi      /data     nodejs2       Not Pushed

Common flags

The following flags are available with most odo commands:

Table 1. odo flags
Command Description

--context

Set the context directory where the component is defined.

--project

Set the project for the component. Defaults to the project defined in the local configuration. If none is available, then current project on the cluster.

--app

Set the application of the component. Defaults to the application defined in the local configuration. If none is available, then app.

--kubeconfig

Set the path to the kubeconfig value if not using the default configuration.

--show-log

Use this flag to see the logs.

-f, --force

Use this flag to tell the command not to prompt the user for confirmation.

-v, --v

Set the verbosity level. See Logging in odo for more information.

-h, --help

Output the help for a command.

Some flags might not be available for some commands. Run the command with the --help flag to get a list of all the available flags.

JSON output

The odo commands that output content generally accept a -o json flag to output this content in JSON format, suitable for other programs to parse this output more easily.

The output structure is similar to Kubernetes resources, with the kind, apiVersion, metadata, spec, and status fields.

List commands return a List resource, containing an items (or similar) field listing the items of the list, with each item also being similar to Kubernetes resources.

Delete commands return a Status resource; see the Status Kubernetes resource.

Other commands return a resource associated with the command, for example, Application, Storage, URL, and so on.

The full list of commands currently accepting the -o json flag is:

Commands Kind (version) Kind (version) of list items Complete content?

odo application describe

Application (odo.dev/v1alpha1)

n/a

no

odo application list

List (odo.dev/v1alpha1)

Application (odo.dev/v1alpha1)

?

odo catalog list components

List (odo.dev/v1alpha1)

missing

yes

odo catalog list services

List (odo.dev/v1alpha1)

ClusterServiceVersion (operators.coreos.com/v1alpha1)

?

odo catalog describe component

missing

n/a

yes

odo catalog describe service

CRDDescription (odo.dev/v1alpha1)

n/a

yes

odo component create

Component (odo.dev/v1alpha1)

n/a

yes

odo component describe

Component (odo.dev/v1alpha1)

n/a

yes

odo component list

List (odo.dev/v1alpha1)

Component (odo.dev/v1alpha1)

yes

odo config view

DevfileConfiguration (odo.dev/v1alpha1)

n/a

yes

odo debug info

OdoDebugInfo (odo.dev/v1alpha1)

n/a

yes

odo env view

EnvInfo (odo.dev/v1alpha1)

n/a

yes

odo preference view

PreferenceList (odo.dev/v1alpha1)

n/a

yes

odo project create

Project (odo.dev/v1alpha1)

n/a

yes

odo project delete

Status (v1)

n/a

yes

odo project get

Project (odo.dev/v1alpha1)

n/a

yes

odo project list

List (odo.dev/v1alpha1)

Project (odo.dev/v1alpha1)

yes

odo registry list

List (odo.dev/v1alpha1)

missing

yes

odo service create

Service

n/a

yes

odo service describe

Service

n/a

yes

odo service list

List (odo.dev/v1alpha1)

Service

yes

odo storage create

Storage (odo.dev/v1alpha1)

n/a

yes

odo storage delete

Status (v1)

n/a

yes

odo storage list

List (odo.dev/v1alpha1)

Storage (odo.dev/v1alpha1)

yes

odo url list

List (odo.dev/v1alpha1)

URL (odo.dev/v1alpha1)

yes