- Creating build inputs
- Build inputs
- Dockerfile source
- Image source
- Git source
- Using a proxy
- Source Clone Secrets
- Automatically adding a source clone secret to a build configuration
- Manually adding a source clone secret
- Creating a secret from a .gitconfig file
- Creating a secret from a .gitconfig file for secured Git
- Creating a secret from source code basic authentication
- Creating a secret from source code SSH key authentication
- Creating a secret from source code trusted certificate authorities
- Source secret combinations
- Creating a SSH-based authentication secret with a
.gitconfig
file - Creating a secret that combines a .gitconfig file and CA certificate
- Creating a basic authentication secret with a CA certificate
- Creating a basic authentication secret with a .gitconfig file
- Creating a basic authentication secret with a .gitconfig file and CA certificate
- Creating a SSH-based authentication secret with a
- Binary (local) source
- Input secrets and config maps
- External artifacts
- Using docker credentials for private registries
- Build environments
- Service serving certificate secrets
- Secrets restrictions
Creating build inputs
Use the following sections for an overview of build inputs, instructions on how to use inputs to provide source content for builds to operate on, and how to use build environments and create secrets.
Build inputs
A build input provides source content for builds to operate on. You can use the following build inputs to provide sources in OKD, listed in order of precedence:
Inline Dockerfile definitions
Content extracted from existing images
Git repositories
Binary (Local) inputs
Input secrets
External artifacts
You can combine multiple inputs in a single build. However, as the inline Dockerfile takes precedence, it can overwrite any other file named Dockerfile provided by another input. Binary (local) input and Git repositories are mutually exclusive inputs.
You can use input secrets when you do not want certain resources or credentials used during a build to be available in the final application image produced by the build, or want to consume a value that is defined in a secret resource. External artifacts can be used to pull in additional files that are not available as one of the other build input types.
When you run a build:
A working directory is constructed and all input content is placed in the working directory. For example, the input Git repository is cloned into the working directory, and files specified from input images are copied into the working directory using the target path.
The build process changes directories into the
contextDir
, if one is defined.The inline Dockerfile, if any, is written to the current directory.
The content from the current directory is provided to the build process for reference by the Dockerfile, custom builder logic, or
assemble
script. This means any input content that resides outside thecontextDir
is ignored by the build.
The following example of a source definition includes multiple input types and an explanation of how they are combined. For more details on how each input type is defined, see the specific sections for each input type.
source:
git:
uri: https://github.com/openshift/ruby-hello-world.git (1)
images:
- from:
kind: ImageStreamTag
name: myinputimage:latest
namespace: mynamespace
paths:
- destinationDir: app/dir/injected/dir (2)
sourcePath: /usr/lib/somefile.jar
contextDir: "app/dir" (3)
dockerfile: "FROM centos:7\nRUN yum install -y httpd" (4)
1 | The repository to be cloned into the working directory for the build. |
2 | /usr/lib/somefile.jar from myinputimage is stored in <workingdir>/app/dir/injected/dir . |
3 | The working directory for the build becomes <original_workingdir>/app/dir . |
4 | A Dockerfile with this content is created in <original_workingdir>/app/dir , overwriting any existing file with that name. |
Dockerfile source
When you supply a dockerfile
value, the content of this field is written to disk as a file named dockerfile
. This is done after other input sources are processed, so if the input source repository contains a Dockerfile in the root directory, it is overwritten with this content.
The source definition is part of the spec
section in the BuildConfig
:
source:
dockerfile: "FROM centos:7\nRUN yum install -y httpd" (1)
1 | The dockerfile field contains an inline Dockerfile that is built. |
Additional resources
- The typical use for this field is to provide a Dockerfile to a docker strategy build.
Image source
You can add additional files to the build process with images. Input images are referenced in the same way the From
and To
image targets are defined. This means both container images and image stream tags can be referenced. In conjunction with the image, you must provide one or more path pairs to indicate the path of the files or directories to copy the image and the destination to place them in the build context.
The source path can be any absolute path within the image specified. The destination must be a relative directory path. At build time, the image is loaded and the indicated files and directories are copied into the context directory of the build process. This is the same directory into which the source repository content is cloned. If the source path ends in /.
then the content of the directory is copied, but the directory itself is not created at the destination.
Image inputs are specified in the source
definition of the BuildConfig
:
source:
git:
uri: https://github.com/openshift/ruby-hello-world.git
images: (1)
- from: (2)
kind: ImageStreamTag
name: myinputimage:latest
namespace: mynamespace
paths: (3)
- destinationDir: injected/dir (4)
sourcePath: /usr/lib/somefile.jar (5)
- from:
kind: ImageStreamTag
name: myotherinputimage:latest
namespace: myothernamespace
pullSecret: mysecret (6)
paths:
- destinationDir: injected/dir
sourcePath: /usr/lib/somefile.jar
1 | An array of one or more input images and files. | ||
2 | A reference to the image containing the files to be copied. | ||
3 | An array of source/destination paths. | ||
4 | The directory relative to the build root where the build process can access the file. | ||
5 | The location of the file to be copied out of the referenced image. | ||
6 | An optional secret provided if credentials are needed to access the input image.
|
Optionally, if an input image requires a pull secret, you can link the pull secret to the service account used by the build. By default, builds use the builder
service account. The pull secret is automatically added to the build if the secret contains a credential that matches the repository hosting the input image. To link a pull secret to the service account used by the build, run:
$ oc secrets link builder dockerhub
This feature is not supported for builds using the custom strategy. |
Git source
When specified, source code is fetched from the supplied location.
If you supply an inline Dockerfile, it overwrites the Dockerfile in the contextDir
of the Git repository.
The source definition is part of the spec
section in the BuildConfig
:
source:
git: (1)
uri: "https://github.com/openshift/ruby-hello-world"
ref: "master"
contextDir: "app/dir" (2)
dockerfile: "FROM openshift/ruby-22-centos7\nUSER example" (3)
1 | The git field contains the URI to the remote Git repository of the source code. Optionally, specify the ref field to check out a specific Git reference. A valid ref can be a SHA1 tag or a branch name. |
2 | The contextDir field allows you to override the default location inside the source code repository where the build looks for the application source code. If your application exists inside a sub-directory, you can override the default location (the root folder) using this field. |
3 | If the optional dockerfile field is provided, it should be a string containing a Dockerfile that overwrites any Dockerfile that may exist in the source repository. |
If the ref
field denotes a pull request, the system uses a git fetch
operation and then checkout FETCH_HEAD
.
When no ref
value is provided, OKD performs a shallow clone (--depth=1
). In this case, only the files associated with the most recent commit on the default branch (typically master
) are downloaded. This results in repositories downloading faster, but without the full commit history. To perform a full git clone
of the default branch of a specified repository, set ref
to the name of the default branch (for example master
).
Git clone operations that go through a proxy that is performing man in the middle (MITM) TLS hijacking or reencrypting of the proxied connection do not work. |
Using a proxy
If your Git repository can only be accessed using a proxy, you can define the proxy to use in the source
section of the build configuration. You can configure both an HTTP and HTTPS proxy to use. Both fields are optional. Domains for which no proxying should be performed can also be specified in the NoProxy
field.
Your source URI must use the HTTP or HTTPS protocol for this to work. |
source:
git:
uri: "https://github.com/openshift/ruby-hello-world"
httpProxy: http://proxy.example.com
httpsProxy: https://proxy.example.com
noProxy: somedomain.com, otherdomain.com
For Pipeline strategy builds, given the current restrictions with the Git plug-in for Jenkins, any Git operations through the Git plug-in do not leverage the HTTP or HTTPS proxy defined in the |
Additional resources
- You can find instructions on how to configure proxies through the Jenkins UI at JenkinsBehindProxy.
Source Clone Secrets
Builder pods require access to any Git repositories defined as source for a build. Source clone secrets are used to provide the builder pod with access it would not normally have access to, such as private repositories or repositories with self-signed or untrusted SSL certificates.
The following source clone secret configurations are supported:
.gitconfig File
Basic Authentication
SSH Key Authentication
Trusted Certificate Authorities
You can also use combinations of these configurations to meet your specific needs. |
Automatically adding a source clone secret to a build configuration
When a BuildConfig
is created, OKD can automatically populate its source clone secret reference. This behavior allows the resulting builds to automatically use the credentials stored in the referenced secret to authenticate to a remote Git repository, without requiring further configuration.
To use this functionality, a secret containing the Git repository credentials must exist in the namespace in which the BuildConfig
is later created. This secrets must include one or more annotations prefixed with build.openshift.io/source-secret-match-uri-
. The value of each of these annotations is a Uniform Resource Identifier (URI) pattern, which is defined as follows. When a BuildConfig
is created without a source clone secret reference and its Git source URI matches a URI pattern in a secret annotation, OKD automatically inserts a reference to that secret in the BuildConfig
.
Prerequisites
A URI pattern must consist of:
A valid scheme:
*://
,git://
,http://
,https://
orssh://
A host: *` or a valid hostname or IP address optionally preceded by
*.
A path:
/*
or/
followed by any characters optionally including*
characters
In all of the above, a *
character is interpreted as a wildcard.
URI patterns must match Git source URIs which are conformant to RFC3986. Do not include a username (or password) component in a URI pattern. For example, if you use
|
Procedure
If multiple secrets match the Git URI of a particular BuildConfig
, OKD selects the secret with the longest match. This allows for basic overriding, as in the following example.
The following fragment shows two partial source clone secrets, the first matching any server in the domain mycorp.com
accessed by HTTPS, and the second overriding access to servers mydev1.mycorp.com
and mydev2.mycorp.com
:
kind: Secret
apiVersion: v1
metadata:
name: matches-all-corporate-servers-https-only
annotations:
build.openshift.io/source-secret-match-uri-1: https://*.mycorp.com/*
data:
...
---
kind: Secret
apiVersion: v1
metadata:
name: override-for-my-dev-servers-https-only
annotations:
build.openshift.io/source-secret-match-uri-1: https://mydev1.mycorp.com/*
build.openshift.io/source-secret-match-uri-2: https://mydev2.mycorp.com/*
data:
...
Add a
build.openshift.io/source-secret-match-uri-
annotation to a pre-existing secret using:$ oc annotate secret mysecret \
'build.openshift.io/source-secret-match-uri-1=https://*.mycorp.com/*'
Manually adding a source clone secret
Source clone secrets can be added manually to a build configuration by adding a sourceSecret
field to the source
section inside the BuildConfig
and setting it to the name of the secret that you created. In this example, it is the basicsecret
.
apiVersion: "v1"
kind: "BuildConfig"
metadata:
name: "sample-build"
spec:
output:
to:
kind: "ImageStreamTag"
name: "sample-image:latest"
source:
git:
uri: "https://github.com/user/app.git"
sourceSecret:
name: "basicsecret"
strategy:
sourceStrategy:
from:
kind: "ImageStreamTag"
name: "python-33-centos7:latest"
Procedure
You can also use the oc set build-secret
command to set the source clone secret on an existing build configuration.
To set the source clone secret on an existing build configuration, enter the following command:
$ oc set build-secret --source bc/sample-build basicsecret
Creating a secret from a .gitconfig file
If the cloning of your application is dependent on a .gitconfig
file, then you can create a secret that contains it. Add it to the builder service account and then your BuildConfig
.
Procedure
- To create a secret from a
.gitconfig
file:
$ oc create secret generic <secret_name> --from-file=<path/to/.gitconfig>
SSL verification can be turned off if
|
Creating a secret from a .gitconfig file for secured Git
If your Git server is secured with two-way SSL and user name with password, you must add the certificate files to your source build and add references to the certificate files in the .gitconfig
file.
Prerequisites
- You must have Git credentials.
Procedure
Add the certificate files to your source build and add references to the certificate files in the .gitconfig
file.
Add the
client.crt
,cacert.crt
, andclient.key
files to the/var/run/secrets/openshift.io/source/
folder in the application source code.In the
.gitconfig
file for the server, add the[http]
section shown in the following example:# cat .gitconfig
Example output
[user]
name = <name>
email = <email>
[http]
sslVerify = false
sslCert = /var/run/secrets/openshift.io/source/client.crt
sslKey = /var/run/secrets/openshift.io/source/client.key
sslCaInfo = /var/run/secrets/openshift.io/source/cacert.crt
Create the secret:
$ oc create secret generic <secret_name> \
--from-literal=username=<user_name> \ (1)
--from-literal=password=<password> \ (2)
--from-file=.gitconfig=.gitconfig \
--from-file=client.crt=/var/run/secrets/openshift.io/source/client.crt \
--from-file=cacert.crt=/var/run/secrets/openshift.io/source/cacert.crt \
--from-file=client.key=/var/run/secrets/openshift.io/source/client.key
1 The user’s Git user name. 2 The password for this user.
To avoid having to enter your password again, be sure to specify the source-to-image (S2I) image in your builds. However, if you cannot clone the repository, you must still specify your user name and password to promote the build. |
Additional resources
/var/run/secrets/openshift.io/source/
folder in the application source code.
Creating a secret from source code basic authentication
Basic authentication requires either a combination of --username
and --password
, or a token to authenticate against the software configuration management (SCM) server.
Prerequisites
- User name and password to access the private repository.
Procedure
Create the secret first before using the
--username
and--password
to access the private repository:$ oc create secret generic <secret_name> \
--from-literal=username=<user_name> \
--from-literal=password=<password> \
--type=kubernetes.io/basic-auth
Create a basic authentication secret with a token:
$ oc create secret generic <secret_name> \
--from-literal=password=<token> \
--type=kubernetes.io/basic-auth
Creating a secret from source code SSH key authentication
SSH key based authentication requires a private SSH key.
The repository keys are usually located in the $HOME/.ssh/
directory, and are named id_dsa.pub
, id_ecdsa.pub
, id_ed25519.pub
, or id_rsa.pub
by default.
Procedure
Generate SSH key credentials:
$ ssh-keygen -t ed25519 -C "your_email@example.com"
Creating a passphrase for the SSH key prevents OKD from building. When prompted for a passphrase, leave it blank.
Two files are created: the public key and a corresponding private key (one of
id_dsa
,id_ecdsa
,id_ed25519
, orid_rsa
). With both of these in place, consult your source control management (SCM) system’s manual on how to upload the public key. The private key is used to access your private repository.Before using the SSH key to access the private repository, create the secret:
$ oc create secret generic <secret_name> \
--from-file=ssh-privatekey=<path/to/ssh/private/key> \
--from-file=<path/to/known_hosts> \ (1)
--type=kubernetes.io/ssh-auth
1 Optional: Adding this field enables strict server host key check. Skipping the
known_hosts
file while creating the secret makes the build vulnerable to a potential man-in-the-middle (MITM) attack.Ensure that the
known_hosts
file includes an entry for the host of your source code.
Creating a secret from source code trusted certificate authorities
The set of Transport Layer Security (TLS) certificate authorities (CA) that are trusted during a Git clone operation are built into the OKD infrastructure images. If your Git server uses a self-signed certificate or one signed by an authority not trusted by the image, you can create a secret that contains the certificate or disable TLS verification.
If you create a secret for the CA certificate, OKD uses it to access your Git server during the Git clone operation. Using this method is significantly more secure than disabling Git SSL verification, which accepts any TLS certificate that is presented.
Procedure
Create a secret with a CA certificate file.
If your CA uses Intermediate Certificate Authorities, combine the certificates for all CAs in a
ca.crt
file. Enter the following command:$ cat intermediateCA.crt intermediateCA.crt rootCA.crt > ca.crt
Create the secret:
$ oc create secret generic mycert --from-file=ca.crt=</path/to/file> (1)
1 You must use the key name ca.crt
.
Source secret combinations
You can combine the different methods for creating source clone secrets for your specific needs.
Creating a SSH-based authentication secret with a .gitconfig
file
You can combine the different methods for creating source clone secrets for your specific needs, such as a SSH-based authentication secret with a .gitconfig
file.
Prerequisites
SSH authentication
.gitconfig file
Procedure
To create a SSH-based authentication secret with a
.gitconfig
file, run:$ oc create secret generic <secret_name> \
--from-file=ssh-privatekey=<path/to/ssh/private/key> \
--from-file=<path/to/.gitconfig> \
--type=kubernetes.io/ssh-auth
Creating a secret that combines a .gitconfig file and CA certificate
You can combine the different methods for creating source clone secrets for your specific needs, such as a secret that combines a .gitconfig
file and certificate authority (CA) certificate.
Prerequisites
.gitconfig file
CA certificate
Procedure
To create a secret that combines a
.gitconfig
file and CA certificate, run:$ oc create secret generic <secret_name> \
--from-file=ca.crt=<path/to/certificate> \
--from-file=<path/to/.gitconfig>
Creating a basic authentication secret with a CA certificate
You can combine the different methods for creating source clone secrets for your specific needs, such as a secret that combines a basic authentication and certificate authority (CA) certificate.
Prerequisites
Basic authentication credentials
CA certificate
Procedure
Create a basic authentication secret with a CA certificate, run:
$ oc create secret generic <secret_name> \
--from-literal=username=<user_name> \
--from-literal=password=<password> \
--from-file=ca-cert=</path/to/file> \
--type=kubernetes.io/basic-auth
Creating a basic authentication secret with a .gitconfig file
You can combine the different methods for creating source clone secrets for your specific needs, such as a secret that combines a basic authentication and .gitconfig
file.
Prerequisites
Basic authentication credentials
.gitconfig
file
Procedure
To create a basic authentication secret with a
.gitconfig
file, run:$ oc create secret generic <secret_name> \
--from-literal=username=<user_name> \
--from-literal=password=<password> \
--from-file=</path/to/.gitconfig> \
--type=kubernetes.io/basic-auth
Creating a basic authentication secret with a .gitconfig file and CA certificate
You can combine the different methods for creating source clone secrets for your specific needs, such as a secret that combines a basic authentication, .gitconfig
file, and certificate authority (CA) certificate.
Prerequisites
Basic authentication credentials
.gitconfig
fileCA certificate
Procedure
To create a basic authentication secret with a
.gitconfig
file and CA certificate, run:$ oc create secret generic <secret_name> \
--from-literal=username=<user_name> \
--from-literal=password=<password> \
--from-file=</path/to/.gitconfig> \
--from-file=ca-cert=</path/to/file> \
--type=kubernetes.io/basic-auth
Binary (local) source
Streaming content from a local file system to the builder is called a Binary
type build. The corresponding value of BuildConfig.spec.source.type
is Binary
for these builds.
This source type is unique in that it is leveraged solely based on your use of the oc start-build
.
Binary type builds require content to be streamed from the local file system, so automatically triggering a binary type build, like an image change trigger, is not possible. This is because the binary files cannot be provided. Similarly, you cannot launch binary type builds from the web console. |
To utilize binary builds, invoke oc start-build
with one of these options:
--from-file
: The contents of the file you specify are sent as a binary stream to the builder. You can also specify a URL to a file. Then, the builder stores the data in a file with the same name at the top of the build context.--from-dir
and--from-repo
: The contents are archived and sent as a binary stream to the builder. Then, the builder extracts the contents of the archive within the build context directory. With--from-dir
, you can also specify a URL to an archive, which is extracted.--from-archive
: The archive you specify is sent to the builder, where it is extracted within the build context directory. This option behaves the same as--from-dir
; an archive is created on your host first, whenever the argument to these options is a directory.
In each of the previously listed cases:
If your
BuildConfig
already has aBinary
source type defined, it is effectively ignored and replaced by what the client sends.If your
BuildConfig
has aGit
source type defined, it is dynamically disabled, sinceBinary
andGit
are mutually exclusive, and the data in the binary stream provided to the builder takes precedence.
Instead of a file name, you can pass a URL with HTTP or HTTPS schema to --from-file
and --from-archive
. When using --from-file
with a URL, the name of the file in the builder image is determined by the Content-Disposition
header sent by the web server, or the last component of the URL path if the header is not present. No form of authentication is supported and it is not possible to use custom TLS certificate or disable certificate validation.
When using oc new-build --binary=true
, the command ensures that the restrictions associated with binary builds are enforced. The resulting BuildConfig
has a source type of Binary
, meaning that the only valid way to run a build for this BuildConfig
is to use oc start-build
with one of the --from
options to provide the requisite binary data.
The Dockerfile and contextDir
source options have special meaning with binary builds.
Dockerfile can be used with any binary build source. If Dockerfile is used and the binary stream is an archive, its contents serve as a replacement Dockerfile to any Dockerfile in the archive. If Dockerfile is used with the --from-file
argument, and the file argument is named Dockerfile, the value from Dockerfile replaces the value from the binary stream.
In the case of the binary stream encapsulating extracted archive content, the value of the contextDir
field is interpreted as a subdirectory within the archive, and, if valid, the builder changes into that subdirectory before executing the build.
Input secrets and config maps
To prevent the contents of input secrets and config maps from appearing in build output container images, use build volumes in your Docker build and source-to-image build strategies. |
In some scenarios, build operations require credentials or other configuration data to access dependent resources, but it is undesirable for that information to be placed in source control. You can define input secrets and input config maps for this purpose.
For example, when building a Java application with Maven, you can set up a private mirror of Maven Central or JCenter that is accessed by private keys. To download libraries from that private mirror, you have to supply the following:
A
settings.xml
file configured with the mirror’s URL and connection settings.A private key referenced in the settings file, such as
~/.ssh/id_rsa
.
For security reasons, you do not want to expose your credentials in the application image.
This example describes a Java application, but you can use the same approach for adding SSL certificates into the /etc/ssl/certs
directory, API keys or tokens, license files, and more.
What is a secret?
The Secret
object type provides a mechanism to hold sensitive information such as passwords, OKD client configuration files, dockercfg
files, private source repository credentials, and so on. Secrets decouple sensitive content from the pods. You can mount secrets into containers using a volume plug-in or the system can use secrets to perform actions on behalf of a pod.
YAML Secret Object Definition
apiVersion: v1
kind: Secret
metadata:
name: test-secret
namespace: my-namespace
type: Opaque (1)
data: (2)
username: dmFsdWUtMQ0K (3)
password: dmFsdWUtMg0KDQo=
stringData: (4)
hostname: myapp.mydomain.com (5)
1 | Indicates the structure of the secret’s key names and values. |
2 | The allowable format for the keys in the data field must meet the guidelines in the DNS_SUBDOMAIN value in the Kubernetes identifiers glossary. |
3 | The value associated with keys in the data map must be base64 encoded. |
4 | Entries in the stringData map are converted to base64 and the entry are then moved to the data map automatically. This field is write-only. The value is only be returned by the data field. |
5 | The value associated with keys in the stringData map is made up of plain text strings. |
Properties of secrets
Key properties include:
Secret data can be referenced independently from its definition.
Secret data volumes are backed by temporary file-storage facilities (tmpfs) and never come to rest on a node.
Secret data can be shared within a namespace.
Types of Secrets
The value in the type
field indicates the structure of the secret’s key names and values. The type can be used to enforce the presence of user names and keys in the secret object. If you do not want validation, use the opaque
type, which is the default.
Specify one of the following types to trigger minimal server-side validation to ensure the presence of specific key names in the secret data:
kubernetes.io/service-account-token
. Uses a service account token.kubernetes.io/dockercfg
. Uses the.dockercfg
file for required Docker credentials.kubernetes.io/dockerconfigjson
. Uses the.docker/config.json
file for required Docker credentials.kubernetes.io/basic-auth
. Use with basic authentication.kubernetes.io/ssh-auth
. Use with SSH key authentication.kubernetes.io/tls
. Use with TLS certificate authorities.
Specify type= Opaque
if you do not want validation, which means the secret does not claim to conform to any convention for key names or values. An opaque
secret, allows for unstructured key:value
pairs that can contain arbitrary values.
You can specify other arbitrary types, such as |
Updates to secrets
When you modify the value of a secret, the value used by an already running pod does not dynamically change. To change a secret, you must delete the original pod and create a new pod, in some cases with an identical PodSpec
.
Updating a secret follows the same workflow as deploying a new container image. You can use the kubectl rolling-update
command.
The resourceVersion
value in a secret is not specified when it is referenced. Therefore, if a secret is updated at the same time as pods are starting, the version of the secret that is used for the pod is not defined.
Currently, it is not possible to check the resource version of a secret object that was used when a pod was created. It is planned that pods report this information, so that a controller could restart ones using an old |
Creating secrets
You must create a secret before creating the pods that depend on that secret.
When creating secrets:
Create a secret object with secret data.
Update the pod service account to allow the reference to the secret.
Create a pod, which consumes the secret as an environment variable or as a file using a
secret
volume.
Procedure
Use the create command to create a secret object from a JSON or YAML file:
$ oc create -f <filename>
For example, you can create a secret from your local
.docker/config.json
file:$ oc create secret generic dockerhub \
--from-file=.dockerconfigjson=<path/to/.docker/config.json> \
--type=kubernetes.io/dockerconfigjson
This command generates a JSON specification of the secret named
dockerhub
and creates the object.YAML Opaque Secret Object Definition
apiVersion: v1
kind: Secret
metadata:
name: mysecret
type: Opaque (1)
data:
username: dXNlci1uYW1l
password: cGFzc3dvcmQ=
1 Specifies an opaque secret. Docker Configuration JSON File Secret Object Definition
apiVersion: v1
kind: Secret
metadata:
name: aregistrykey
namespace: myapps
type: kubernetes.io/dockerconfigjson (1)
data:
.dockerconfigjson:bm5ubm5ubm5ubm5ubm5ubm5ubm5ubmdnZ2dnZ2dnZ2dnZ2dnZ2dnZ2cgYXV0aCBrZXlzCg== (2)
1 Specifies that the secret is using a docker configuration JSON file. 2 The output of a base64-encoded the docker configuration JSON file
Using secrets
After creating secrets, you can create a pod to reference your secret, get logs, and delete the pod.
Procedure
Create the pod to reference your secret:
$ oc create -f <your_yaml_file>.yaml
Get the logs:
$ oc logs secret-example-pod
Delete the pod:
$ oc delete pod secret-example-pod
Additional resources
Example YAML files with secret data:
YAML Secret That Will Create Four Files
apiVersion: v1
kind: Secret
metadata:
name: test-secret
data:
username: dmFsdWUtMQ0K (1)
password: dmFsdWUtMQ0KDQo= (2)
stringData:
hostname: myapp.mydomain.com (3)
secret.properties: |- (4)
property1=valueA
property2=valueB
1 File contains decoded values. 2 File contains decoded values. 3 File contains the provided string. 4 File contains the provided data. YAML of a Pod Populating Files in a Volume with Secret Data
apiVersion: v1
kind: Pod
metadata:
name: secret-example-pod
spec:
containers:
- name: secret-test-container
image: busybox
command: [ "/bin/sh", "-c", "cat /etc/secret-volume/*" ]
volumeMounts:
# name must match the volume name below
- name: secret-volume
mountPath: /etc/secret-volume
readOnly: true
volumes:
- name: secret-volume
secret:
secretName: test-secret
restartPolicy: Never
YAML of a Pod Populating Environment Variables with Secret Data
apiVersion: v1
kind: Pod
metadata:
name: secret-example-pod
spec:
containers:
- name: secret-test-container
image: busybox
command: [ "/bin/sh", "-c", "export" ]
env:
- name: TEST_SECRET_USERNAME_ENV_VAR
valueFrom:
secretKeyRef:
name: test-secret
key: username
restartPolicy: Never
YAML of a Build Config Populating Environment Variables with Secret Data
apiVersion: build.openshift.io/v1
kind: BuildConfig
metadata:
name: secret-example-bc
spec:
strategy:
sourceStrategy:
env:
- name: TEST_SECRET_USERNAME_ENV_VAR
valueFrom:
secretKeyRef:
name: test-secret
key: username
Adding input secrets and config maps
To provide credentials and other configuration data to a build without placing them in source control, you can define input secrets and input config maps.
In some scenarios, build operations require credentials or other configuration data to access dependent resources. To make that information available without placing it in source control, you can define input secrets and input config maps.
Procedure
To add an input secret, config maps, or both to an existing BuildConfig
object:
Create the
ConfigMap
object, if it does not exist:$ oc create configmap settings-mvn \
--from-file=settings.xml=<path/to/settings.xml>
This creates a new config map named
settings-mvn
, which contains the plain text content of thesettings.xml
file.You can alternatively apply the following YAML to create the config map:
apiVersion: core/v1
kind: ConfigMap
metadata:
name: settings-mvn
data:
settings.xml: |
<settings>
… # Insert maven settings here
</settings>
Create the
Secret
object, if it does not exist:$ oc create secret generic secret-mvn \
--from-file=id_rsa=<path/to/.ssh/id_rsa>
--type=kubernetes.io/ssh-auth
This creates a new secret named
secret-mvn
, which contains the base64 encoded content of theid_rsa
private key.You can alternatively apply the following YAML to create the input secret:
apiVersion: core/v1
kind: Secret
metadata:
name: secret-mvn
type: kubernetes.io/ssh-auth
data:
ssh-privatekey: |
# Insert ssh private key, base64 encoded
Add the config map and secret to the
source
section in the existingBuildConfig
object:source:
git:
uri: https://github.com/wildfly/quickstart.git
contextDir: helloworld
configMaps:
- configMap:
name: settings-mvn
secrets:
- secret:
name: secret-mvn
To include the secret and config map in a new BuildConfig
object, run the following command:
$ oc new-build \
openshift/wildfly-101-centos7~https://github.com/wildfly/quickstart.git \
--context-dir helloworld --build-secret “secret-mvn” \
--build-config-map "settings-mvn"
During the build, the settings.xml
and id_rsa
files are copied into the directory where the source code is located. In OKD S2I builder images, this is the image working directory, which is set using the WORKDIR
instruction in the Dockerfile
. If you want to specify another directory, add a destinationDir
to the definition:
source:
git:
uri: https://github.com/wildfly/quickstart.git
contextDir: helloworld
configMaps:
- configMap:
name: settings-mvn
destinationDir: ".m2"
secrets:
- secret:
name: secret-mvn
destinationDir: ".ssh"
You can also specify the destination directory when creating a new BuildConfig
object:
$ oc new-build \
openshift/wildfly-101-centos7~https://github.com/wildfly/quickstart.git \
--context-dir helloworld --build-secret “secret-mvn:.ssh” \
--build-config-map "settings-mvn:.m2"
In both cases, the settings.xml
file is added to the ./.m2
directory of the build environment, and the id_rsa
key is added to the ./.ssh
directory.
Source-to-image strategy
When using a Source
strategy, all defined input secrets are copied to their respective destinationDir
. If you left destinationDir
empty, then the secrets are placed in the working directory of the builder image.
The same rule is used when a destinationDir
is a relative path. The secrets are placed in the paths that are relative to the working directory of the image. The final directory in the destinationDir
path is created if it does not exist in the builder image. All preceding directories in the destinationDir
must exist, or an error will occur.
Input secrets are added as world-writable, have Input config maps are not truncated after the |
Docker strategy
When using a docker strategy, you can add all defined input secrets into your container image using the ADD and COPY instructions in your Dockerfile.
If you do not specify the destinationDir
for a secret, then the files are copied into the same directory in which the Dockerfile is located. If you specify a relative path as destinationDir
, then the secrets are copied into that directory, relative to your Dockerfile location. This makes the secret files available to the Docker build operation as part of the context directory used during the build.
Example of a Dockerfile referencing secret and config map data
FROM centos/ruby-22-centos7
USER root
COPY ./secret-dir /secrets
COPY ./config /
# Create a shell script that will output secrets and ConfigMaps when the image is run
RUN echo '#!/bin/sh' > /input_report.sh
RUN echo '(test -f /secrets/secret1 && echo -n "secret1=" && cat /secrets/secret1)' >> /input_report.sh
RUN echo '(test -f /config && echo -n "relative-configMap=" && cat /config)' >> /input_report.sh
RUN chmod 755 /input_report.sh
CMD ["/bin/sh", "-c", "/input_report.sh"]
Users normally remove their input secrets from the final application image so that the secrets are not present in the container running from that image. However, the secrets still exist in the image itself in the layer where they were added. This removal is part of the Dockerfile itself. To prevent the contents of input secrets and config maps from appearing in the build output container images and avoid this removal process altogether, use build volumes in your Docker build strategy instead. |
Custom strategy
When using a Custom strategy, all the defined input secrets and config maps are available in the builder container in the /var/run/secrets/openshift.io/build
directory. The custom build image must use these secrets and config maps appropriately. With the Custom strategy, you can define secrets as described in Custom strategy options.
There is no technical difference between existing strategy secrets and the input secrets. However, your builder image can distinguish between them and use them differently, based on your build use case.
The input secrets are always mounted into the /var/run/secrets/openshift.io/build
directory, or your builder can parse the $BUILD
environment variable, which includes the full build object.
If a pull secret for the registry exists in both the namespace and the node, builds default to using the pull secret in the namespace. |
External artifacts
It is not recommended to store binary files in a source repository. Therefore, you must define a build which pulls additional files, such as Java .jar
dependencies, during the build process. How this is done depends on the build strategy you are using.
For a Source build strategy, you must put appropriate shell commands into the assemble
script:
.s2i/bin/assemble
File
#!/bin/sh
APP_VERSION=1.0
wget http://repository.example.com/app/app-$APP_VERSION.jar -O app.jar
.s2i/bin/run
File
#!/bin/sh
exec java -jar app.jar
For a Docker build strategy, you must modify the Dockerfile and invoke shell commands with the RUN instruction:
Excerpt of Dockerfile
FROM jboss/base-jdk:8
ENV APP_VERSION 1.0
RUN wget http://repository.example.com/app/app-$APP_VERSION.jar -O app.jar
EXPOSE 8080
CMD [ "java", "-jar", "app.jar" ]
In practice, you may want to use an environment variable for the file location so that the specific file to be downloaded can be customized using an environment variable defined on the BuildConfig
, rather than updating the Dockerfile or assemble
script.
You can choose between different methods of defining environment variables:
Using the
.s2i/environment
file] (only for a Source build strategy)Setting in
BuildConfig
Providing explicitly using
oc start-build --env
(only for builds that are triggered manually)
Using docker credentials for private registries
You can supply builds with a .docker/config.json
file with valid credentials for private container registries. This allows you to push the output image into a private container image registry or pull a builder image from the private container image registry that requires authentication.
You can supply credentials for multiple repositories within the same registry, each with credentials specific to that registry path.
For the OKD container image registry, this is not required because secrets are generated automatically for you by OKD. |
The .docker/config.json
file is found in your home directory by default and has the following format:
auths:
https://index.docker.io/v1/: (1)
auth: "YWRfbGzhcGU6R2labnRib21ifTE=" (2)
email: "user@example.com" (3)
https://docker.io/my-namespace/my-user/my-image: (4)
auth: "GzhYWRGU6R2fbclabnRgbkSp=""
email: "user@example.com"
https://docker.io/my-namespace: (5)
auth: "GzhYWRGU6R2deesfrRgbkSp=""
email: "user@example.com"
1 | URL of the registry. |
2 | Encrypted password. |
3 | Email address for the login. |
4 | URL and credentials for a specific image in a namespace. |
5 | URL and credentials for a registry namespace. |
You can define multiple container image registries or define multiple repositories in the same registry. Alternatively, you can also add authentication entries to this file by running the docker login
command. The file will be created if it does not exist.
Kubernetes provides Secret
objects, which can be used to store configuration and passwords.
Prerequisites
- You must have a
.docker/config.json
file.
Procedure
Create the secret from your local
.docker/config.json
file:$ oc create secret generic dockerhub \
--from-file=.dockerconfigjson=<path/to/.docker/config.json> \
--type=kubernetes.io/dockerconfigjson
This generates a JSON specification of the secret named
dockerhub
and creates the object.Add a
pushSecret
field into theoutput
section of theBuildConfig
and set it to the name of thesecret
that you created, which in the previous example isdockerhub
:spec:
output:
to:
kind: "DockerImage"
name: "private.registry.com/org/private-image:latest"
pushSecret:
name: "dockerhub"
You can use the
oc set build-secret
command to set the push secret on the build configuration:$ oc set build-secret --push bc/sample-build dockerhub
You can also link the push secret to the service account used by the build instead of specifying the
pushSecret
field. By default, builds use thebuilder
service account. The push secret is automatically added to the build if the secret contains a credential that matches the repository hosting the build’s output image.$ oc secrets link builder dockerhub
Pull the builder container image from a private container image registry by specifying the
pullSecret
field, which is part of the build strategy definition:strategy:
sourceStrategy:
from:
kind: "DockerImage"
name: "docker.io/user/private_repository"
pullSecret:
name: "dockerhub"
You can use the
oc set build-secret
command to set the pull secret on the build configuration:$ oc set build-secret --pull bc/sample-build dockerhub
This example uses
pullSecret
in a Source build, but it is also applicable in Docker and Custom builds.You can also link the pull secret to the service account used by the build instead of specifying the
pullSecret
field. By default, builds use thebuilder
service account. The pull secret is automatically added to the build if the secret contains a credential that matches the repository hosting the build’s input image. To link the pull secret to the service account used by the build instead of specifying thepullSecret
field, run:$ oc secrets link builder dockerhub
You must specify a
from
image in theBuildConfig
spec to take advantage of this feature. Docker strategy builds generated byoc new-build
oroc new-app
may not do this in some situations.
Build environments
As with pod environment variables, build environment variables can be defined in terms of references to other resources or variables using the Downward API. There are some exceptions, which are noted.
You can also manage environment variables defined in the BuildConfig
with the oc set env
command.
Referencing container resources using |
Using build fields as environment variables
You can inject information about the build object by setting the fieldPath
environment variable source to the JsonPath
of the field from which you are interested in obtaining the value.
Jenkins Pipeline strategy does not support |
Procedure
Set the
fieldPath
environment variable source to theJsonPath
of the field from which you are interested in obtaining the value:env:
- name: FIELDREF_ENV
valueFrom:
fieldRef:
fieldPath: metadata.name
Using secrets as environment variables
You can make key values from secrets available as environment variables using the valueFrom
syntax.
This method shows the secrets as plain text in the output of the build pod console. To avoid this, use input secrets and config maps instead. |
Procedure
To use a secret as an environment variable, set the
valueFrom
syntax:apiVersion: build.openshift.io/v1
kind: BuildConfig
metadata:
name: secret-example-bc
spec:
strategy:
sourceStrategy:
env:
- name: MYVAL
valueFrom:
secretKeyRef:
key: myval
name: mysecret
Additional resources
Service serving certificate secrets
Service serving certificate secrets are intended to support complex middleware applications that need out-of-the-box certificates. It has the same settings as the server certificates generated by the administrator tooling for nodes and masters.
Procedure
To secure communication to your service, have the cluster generate a signed serving certificate/key pair into a secret in your namespace.
Set the
service.beta.openshift.io/serving-cert-secret-name
annotation on your service with the value set to the name you want to use for your secret.Then, your
PodSpec
can mount that secret. When it is available, your pod runs. The certificate is good for the internal service DNS name,<service.name>.<service.namespace>.svc
.The certificate and key are in PEM format, stored in
tls.crt
andtls.key
respectively. The certificate/key pair is automatically replaced when it gets close to expiration. View the expiration date in theservice.beta.openshift.io/expiry
annotation on the secret, which is in RFC3339 format.
In most cases, the service DNS name |
Other pods can trust cluster-created certificates, which are only signed for internal DNS names, by using the certificate authority (CA) bundle in the /var/run/secrets/kubernetes.io/serviceaccount/service-ca.crt
file that is automatically mounted in their pod.
The signature algorithm for this feature is x509.SHA256WithRSA
. To manually rotate, delete the generated secret. A new certificate is created.
Secrets restrictions
To use a secret, a pod needs to reference the secret. A secret can be used with a pod in three ways:
To populate environment variables for containers.
As files in a volume mounted on one or more of its containers.
By kubelet when pulling images for the pod.
Volume type secrets write data into the container as a file using the volume mechanism. imagePullSecrets
use service accounts for the automatic injection of the secret into all pods in a namespaces.
When a template contains a secret definition, the only way for the template to use the provided secret is to ensure that the secret volume sources are validated and that the specified object reference actually points to an object of type Secret
. Therefore, a secret needs to be created before any pods that depend on it. The most effective way to ensure this is to have it get injected automatically through the use of a service account.
Secret API objects reside in a namespace. They can only be referenced by pods in that same namespace.
Individual secrets are limited to 1MB in size. This is to discourage the creation of large secrets that would exhaust apiserver and kubelet memory. However, creation of a number of smaller secrets could also exhaust memory.