| layout | title |
|---|---|
section |
Pipeline Syntax |
This section builds on the information introduced in Getting started with Pipeline and should be treated solely as a reference. For more information on how to use Pipeline syntax in practical examples, refer to the Using a Jenkinsfile section of this chapter. As of version 2.5 of the Pipeline plugin, Pipeline supports two discrete syntaxes which are detailed below. For the pros and cons of each, see the Syntax Comparison.
As discussed at the start of this chapter, the most fundamental part of a Pipeline is the "step". Basically, steps tell Jenkins what to do and serve as the basic building block for both Declarative and Scripted Pipeline syntax.
For an overview of available steps, please refer to the Pipeline Steps reference which contains a comprehensive list of steps built into Pipeline as well as steps provided by plugins.
Declarative Pipeline is a relatively recent addition to Jenkins Pipeline [1] which presents a more simplified and opinionated syntax on top of the Pipeline sub-systems.
All valid Declarative Pipelines must be enclosed within a pipeline block, for
example:
pipeline {
/* insert Declarative Pipeline here */
}The basic statements and expressions which are valid in Declarative Pipeline follow the same rules as Groovy’s syntax with the following exceptions:
-
The top-level of the Pipeline must be a block, specifically:
pipeline { } -
No semicolons as statement separators. Each statement has to be on its own line
-
Blocks must only consist of Sections, Directives, Steps, or assignment statements.
-
A property reference statement is treated as no-argument method invocation. So for example, input is treated as input()
You can use the Declarative Directive Generator to help you get started with configuring the directives and sections in your Declarative Pipeline.
Sections in Declarative Pipeline typically contain one or more Directives or Steps.
The agent section specifies where the entire Pipeline, or a specific stage,
will execute in the Jenkins environment depending on where the agent
section is placed. The section must be defined at the top-level inside the
pipeline block, but stage-level usage is optional.
Required |
Yes |
|---|---|
Parameters |
|
Allowed |
In the top-level |
In order to support the wide variety of use-cases Pipeline authors may have,
the agent section supports a few different types of parameters. These
parameters can be applied at the top-level of the pipeline block, or within
each stage directive.
- any
-
Execute the Pipeline, or stage, on any available agent. For example:
agent any - none
-
When applied at the top-level of the
pipelineblock no global agent will be allocated for the entire Pipeline run and eachstagesection will need to contain its ownagentsection. For example:agent none - label
-
Execute the Pipeline, or stage, on an agent available in the Jenkins environment with the provided label. For example:
agent { label 'my-defined-label' } - node
-
agent { node { label 'labelName' } }behaves the same asagent { label 'labelName' }, butnodeallows for additional options (such ascustomWorkspace). - docker
-
Execute the Pipeline, or stage, with the given container which will be dynamically provisioned on a node pre-configured to accept Docker-based Pipelines, or on a node matching the optionally defined
labelparameter.dockeralso optionally accepts anargsparameter which may contain arguments to pass directly to adocker runinvocation, and analwaysPulloption, which will force adocker pulleven if the image name is already present. For example:agent { docker 'maven:3-alpine' }oragent { docker { image 'maven:3-alpine' label 'my-defined-label' args '-v /tmp:/tmp' } }dockeralso optionally accepts aregistryUrlandregistryCredentialsIdparameters which will help to specify the Docker Registry to use and its credentials. For example:agent { docker { image 'myregistry.com/node' label 'my-defined-label' registryUrl 'https://myregistry.com/' registryCredentialsId 'myPredefinedCredentialsInJenkins' } } - dockerfile
-
Execute the Pipeline, or stage, with a container built from a
Dockerfilecontained in the source repository. In order to use this option, theJenkinsfilemust be loaded from either a Multibranch Pipeline, or a "Pipeline from SCM." Conventionally this is theDockerfilein the root of the source repository:agent { dockerfile true }. If building aDockerfilein another directory, use thediroption:agent { dockerfile { dir 'someSubDir' } }. If yourDockerfilehas another name, you can specify the file name with thefilenameoption. You can pass additional arguments to thedocker build …command with theadditionalBuildArgsoption, likeagent { dockerfile { additionalBuildArgs '--build-arg foo=bar' } }. For example, a repository with the filebuild/Dockerfile.build, expecting a build argumentversion:agent { // Equivalent to "docker build -f Dockerfile.build --build-arg version=1.0.2 ./build/ dockerfile { filename 'Dockerfile.build' dir 'build' label 'my-defined-label' additionalBuildArgs '--build-arg version=1.0.2' args '-v /tmp:/tmp' } }dockerfilealso optionally accepts aregistryUrlandregistryCredentialsIdparameters which will help to specify the Docker Registry to use and its credentials. For example:agent { dockerfile { filename 'Dockerfile.build' dir 'build' label 'my-defined-label' registryUrl 'https://myregistry.com/' registryCredentialsId 'myPredefinedCredentialsInJenkins' } } - kubernetes
-
Execute the Pipeline, or stage, inside a pod deployed on a Kubernetes cluster. In order to use this option, the
Jenkinsfilemust be loaded from either a Multibranch Pipeline, or a "Pipeline from SCM." The Pod template is defined inside the kubernetes { } block. For example, if you want a pod with a Kaniko container inside it, you would define it as follows:agent { kubernetes { label podlabel yaml """ kind: Pod metadata: name: jenkins-slave spec: containers: - name: kaniko image: gcr.io/kaniko-project/executor:debug imagePullPolicy: Always command: - /busybox/cat tty: true volumeMounts: - name: aws-secret mountPath: /root/.aws/ - name: docker-registry-config mountPath: /kaniko/.docker restartPolicy: Never volumes: - name: aws-secret secret: secretName: aws-secret - name: docker-registry-config configMap: name: docker-registry-config """ }You will need to create a secret
aws-secretfor Kaniko to be able to authenticate with ECR. This secret should contain the contents of~/.aws/credentials. The other volume is a ConfigMap which should contain the endpoint of your ECR registry. For example:{ "credHelpers": { "<your-aws-account-id>.dkr.ecr.eu-central-1.amazonaws.com": "ecr-login" } }Refer to the following example for reference: https://github.com/jenkinsci/kubernetes-plugin/blob/master/examples/kaniko.groovy
These are a few options that can be applied two or more agent implementations.
They are not required unless explicitly stated.
- label
-
A string. The label on which to run the Pipeline or individual
stage.This option is valid for
node,dockeranddockerfile, and is required fornode. - customWorkspace
-
A string. Run the Pipeline or individual
stagethisagentis applied to within this custom workspace, rather than the default. It can be either a relative path, in which case the custom workspace will be under the workspace root on the node, or an absolute path. For example:agent { node { label 'my-defined-label' customWorkspace '/some/other/path' } }This option is valid for
node,dockeranddockerfile. - reuseNode
-
A boolean, false by default. If true, run the container on the node specified at the top-level of the Pipeline, in the same workspace, rather than on a new node entirely.
This option is valid for
dockeranddockerfile, and only has an effect when used on anagentfor an individualstage. - args
-
A string. Runtime arguments to pass to
docker run.This option is valid for
dockeranddockerfile.
// Declarative //
pipeline {
agent { docker 'maven:3-alpine' } // (1)
stages {
stage('Example Build') {
steps {
sh 'mvn -B clean verify'
}
}
}
}
// Script //
-
Execute all the steps defined in this Pipeline within a newly created container of the given name and tag (
maven:3-alpine).
// Declarative //
pipeline {
agent none // (1)
stages {
stage('Example Build') {
agent { docker 'maven:3-alpine' } // (2)
steps {
echo 'Hello, Maven'
sh 'mvn --version'
}
}
stage('Example Test') {
agent { docker 'openjdk:8-jre' } // (3)
steps {
echo 'Hello, JDK'
sh 'java -version'
}
}
}
}
// Script //
-
Defining
agent noneat the top-level of the Pipeline ensures that an Executor will not be assigned unnecessarily. Usingagent nonealso forces eachstagesection to contain its ownagentsection. -
Execute the steps in this stage in a newly created container using this image.
-
Execute the steps in this stage in a newly created container using a different image from the previous stage.
The post section defines one or more additional steps
that are run upon the completion of a Pipeline’s or stage’s run (depending on
the location of the post section within the Pipeline). post can support any
of the following post-condition blocks: always,
changed, fixed, regression, aborted, failure, success,
unstable, unsuccessful, and cleanup. These condition blocks allow the execution
of steps inside each condition depending on the completion status of
the Pipeline or stage. The condition blocks are executed in the order
shown below.
Required |
No |
|---|---|
Parameters |
None |
Allowed |
In the top-level |
always-
Run the steps in the
postsection regardless of the completion status of the Pipeline’s or stage’s run. changed-
Only run the steps in
postif the current Pipeline’s or stage’s run has a different completion status from its previous run. fixed-
Only run the steps in
postif the current Pipeline’s or stage’s run is successful and the previous run failed or was unstable. regression-
Only run the steps in
postif the current Pipeline’s or stage’s run’s status is failure, unstable, or aborted and the previous run was successful. aborted-
Only run the steps in
postif the current Pipeline’s or stage’s run has an "aborted" status, usually due to the Pipeline being manually aborted. This is typically denoted by gray in the web UI. failure-
Only run the steps in
postif the current Pipeline’s or stage’s run has a "failed" status, typically denoted by red in the web UI. success-
Only run the steps in
postif the current Pipeline’s or stage’s run has a "success" status, typically denoted by blue or green in the web UI. unstable-
Only run the steps in
postif the current Pipeline’s or stage’s run has an "unstable" status, usually caused by test failures, code violations, etc. This is typically denoted by yellow in the web UI. unsuccessful-
Only run the steps in
postif the current Pipeline’s or stage’s run has not a "success" status. This is typically denoted in the web UI depending on the status previously mentioned cleanup-
Run the steps in this
postcondition after every otherpostcondition has been evaluated, regardless of the Pipeline or stage’s status.
// Declarative //
pipeline {
agent any
stages {
stage('Example') {
steps {
echo 'Hello World'
}
}
}
post { // (1)
always { // (2)
echo 'I will always say Hello again!'
}
}
}
// Script //
-
Conventionally, the
postsection should be placed at the end of the Pipeline. -
Post-condition blocks contain steps the same as the steps section.
Containing a sequence of one or more stage directives, the stages section is where
the bulk of the "work" described by a Pipeline will be located. At a minimum it
is recommended that stages contain at least one stage directive for each
discrete part of the continuous delivery process, such as Build, Test, and
Deploy.
Required |
Yes |
|---|---|
Parameters |
None |
Allowed |
Only once, inside the |
The steps section defines a series of one or more steps
to be executed in a given stage directive.
Required |
Yes |
|---|---|
Parameters |
None |
Allowed |
Inside each |
The environment directive specifies a sequence of key-value pairs which will
be defined as environment variables for the all steps, or stage-specific steps,
depending on where the environment directive is located within the Pipeline.
This directive supports a special helper method credentials() which can be
used to access pre-defined Credentials by their identifier in the Jenkins
environment.
Required |
No |
|---|---|
Parameters |
None |
Allowed |
Inside the |
- Secret Text
-
the environment variable specified will be set to the Secret Text content
- Secret File
-
the environment variable specified will be set to the location of the File file that is temporarily created
- Username and password
-
the environment variable specified will be set to
username:passwordand two additional environment variables will be automatically defined:MYVARNAME_USRandMYVARNAME_PSWrespectively. - SSH with Private Key
-
the environment variable specified will be set to the location of the SSH key file that is temporarily created and two additional environment variables may be automatically defined:
MYVARNAME_USRandMYVARNAME_PSW(holding the passphrase).
|
Note
|
Unsupported credentials type causes the pipeline to fail with the message: |
// Declarative //
pipeline {
agent any
environment { // (1)
CC = 'clang'
}
stages {
stage('Example') {
environment { // (2)
AN_ACCESS_KEY = credentials('my-prefined-secret-text') // (3)
}
steps {
sh 'printenv'
}
}
}
}
// Script //
-
An
environmentdirective used in the top-levelpipelineblock will apply to all steps within the Pipeline. -
An
environmentdirective defined within astagewill only apply the given environment variables to steps within thestage. -
The
environmentblock has a helper methodcredentials()defined which can be used to access pre-defined Credentials by their identifier in the Jenkins environment.
// Declarative //
pipeline {
agent any
stages {
stage('Example Username/Password') {
environment {
SERVICE_CREDS = credentials('my-prefined-username-password')
}
steps {
sh 'echo "Service user is $SERVICE_CREDS_USR"'
sh 'echo "Service password is $SERVICE_CREDS_PSW"'
sh 'curl -u $SERVICE_CREDS https://myservice.example.com'
}
}
stage('Example Username/Password') {
environment {
SSH_CREDS = credentials('my-prefined-ssh-creds')
}
steps {
sh 'echo "SSH private key is located at $SSH_CREDS"'
sh 'echo "SSH user is $SSH_CREDS_USR"'
sh 'echo "SSH passphrase is $SSH_CREDS_PSW"'
}
}
}
}
// Script //
The options directive allows configuring Pipeline-specific options from
within the Pipeline itself. Pipeline provides a number of these options, such
as buildDiscarder, but they may also be provided by plugins, such as
timestamps.
Required |
No |
|---|---|
Parameters |
None |
Allowed |
Only once, inside the |
- buildDiscarder
-
Persist artifacts and console output for the specific number of recent Pipeline runs. For example:
options { buildDiscarder(logRotator(numToKeepStr: '1')) } - checkoutToSubdirectory
-
Perform the automatic source control checkout in a subdirectory of the workspace. For example:
options { checkoutToSubdirectory('foo') } - disableConcurrentBuilds
-
Disallow concurrent executions of the Pipeline. Can be useful for preventing simultaneous accesses to shared resources, etc. For example:
options { disableConcurrentBuilds() } - disableResume
-
Do not allow the pipeline to resume if the master restarts. For example:
options { disableResume() } - newContainerPerStage
-
Used with
dockerordockerfiletop-level agent. When specified, each stage will run in a new container instance on the same node, rather than all stages running in the same container instance. - overrideIndexTriggers
-
Allows overriding default treatment of branch indexing triggers. If branch indexing triggers are disabled at the multibranch or organization label,
options { overrideIndexTriggers(true) }will enable them for this job only. Otherwise,options { overrideIndexTriggers(false) }will disable branch indexing triggers for this job only. - preserveStashes
-
Preserve stashes from completed builds, for use with stage restarting. For example:
options { preserveStashes() }to preserve the stashes from the most recent completed build, oroptions { preserveStashes(buildCount: 5) }to preserve the stashes from the five most recent completed builds. - quietPeriod
-
Set the quiet period, in seconds, for the Pipeline, overriding the global default. For example:
options { quietPeriod(30) } - retry
-
On failure, retry the entire Pipeline the specified number of times. For example:
options { retry(3) } - skipDefaultCheckout
-
Skip checking out code from source control by default in the
agentdirective. For example:options { skipDefaultCheckout() } - skipStagesAfterUnstable
-
Skip stages once the build status has gone to UNSTABLE. For example:
options { skipStagesAfterUnstable() } - timeout
-
Set a timeout period for the Pipeline run, after which Jenkins should abort the Pipeline. For example:
options { timeout(time: 1, unit: 'HOURS') } - timestamps
-
Prepend all console output generated by the Pipeline run with the time at which the line was emitted. For example:
options { timestamps() } - parallelsAlwaysFailFast
-
Set failfast true for all subsequent parallel stages in the pipeline. For example:
options { parallelsAlwaysFailFast() }
// Declarative //
pipeline {
agent any
options {
timeout(time: 1, unit: 'HOURS') // (1)
}
stages {
stage('Example') {
steps {
echo 'Hello World'
}
}
}
}
// Script //
-
Specifying a global execution timeout of one hour, after which Jenkins will abort the Pipeline run.
|
Note
|
A comprehensive list of available options is pending the completion of INFRA-1503. |
The options directive for a stage is similar to the options directive at
the root of the Pipeline. However, the stage-level options can only contain
steps like retry, timeout, or timestamps, or Declarative options that are
relevant to a stage, like skipDefaultCheckout.
Inside a stage, the steps in the options directive are invoked before
entering the agent or checking any when conditions.
- skipDefaultCheckout
-
Skip checking out code from source control by default in the
agentdirective. For example:options { skipDefaultCheckout() } - timeout
-
Set a timeout period for this stage, after which Jenkins should abort the stage. For example:
options { timeout(time: 1, unit: 'HOURS') } - retry
-
On failure, retry this stage the specified number of times. For example:
options { retry(3) } - timestamps
-
Prepend all console output generated during this stage with the time at which the line was emitted. For example:
options { timestamps() }
The parameters directive provides a list of parameters which a user should
provide when triggering the Pipeline. The values for these user-specified
parameters are made available to Pipeline steps via the params object,
see the Example for its specific usage.
Required |
No |
|---|---|
Parameters |
None |
Allowed |
Only once, inside the |
- string
-
A parameter of a string type, for example:
parameters { string(name: 'DEPLOY_ENV', defaultValue: 'staging', description: '') } - text
-
A text parameter, which can contain multiple lines, for example:
parameters { text(name: 'DEPLOY_TEXT', defaultValue: 'One\nTwo\nThree\n', description: '') } - booleanParam
-
A boolean parameter, for example:
parameters { booleanParam(name: 'DEBUG_BUILD', defaultValue: true, description: '') } - choice
-
A choice parameter, for example:
parameters { choice(name: 'CHOICES', choices: ['one', 'two', 'three'], description: '') } - password
-
A password parameter, for example:
parameters { password(name: 'PASSWORD', defaultValue: 'SECRET', description: 'A secret password') }
// Declarative //
pipeline {
agent any
parameters {
string(name: 'PERSON', defaultValue: 'Mr Jenkins', description: 'Who should I say hello to?')
text(name: 'BIOGRAPHY', defaultValue: '', description: 'Enter some information about the person')
booleanParam(name: 'TOGGLE', defaultValue: true, description: 'Toggle this value')
choice(name: 'CHOICE', choices: ['One', 'Two', 'Three'], description: 'Pick something')
password(name: 'PASSWORD', defaultValue: 'SECRET', description: 'Enter a password')
}
stages {
stage('Example') {
steps {
echo "Hello ${params.PERSON}"
echo "Biography: ${params.BIOGRAPHY}"
echo "Toggle: ${params.TOGGLE}"
echo "Choice: ${params.CHOICE}"
echo "Password: ${params.PASSWORD}"
}
}
}
}
// Script //
|
Note
|
A comprehensive list of available parameters is pending the completion of INFRA-1503. |
The triggers directive defines the automated ways in which the Pipeline
should be re-triggered. For Pipelines which are integrated with a source such
as GitHub or BitBucket, triggers may not be necessary as webhooks-based
integration will likely already be present. The triggers currently available are
cron, pollSCM and upstream.
Required |
No |
|---|---|
Parameters |
None |
Allowed |
Only once, inside the |
- cron
-
Accepts a cron-style string to define a regular interval at which the Pipeline should be re-triggered, for example:
triggers { cron('H */4 * * 1-5') } - pollSCM
-
Accepts a cron-style string to define a regular interval at which Jenkins should check for new source changes. If new changes exist, the Pipeline will be re-triggered. For example:
triggers { pollSCM('H */4 * * 1-5') } - upstream
-
Accepts a comma separated string of jobs and a threshold. When any job in the string finishes with the minimum threshold, the Pipeline will be re-triggered. For example:
triggers { upstream(upstreamProjects: 'job1,job2', threshold: hudson.model.Result.SUCCESS) }
|
Note
|
The |
The Jenkins cron syntax follows the syntax of the cron utility (with minor differences). Specifically, each line consists of 5 fields separated by TAB or whitespace:
| MINUTE | HOUR | DOM | MONTH | DOW |
|---|---|---|---|---|
Minutes within the hour (0–59) |
The hour of the day (0–23) |
The day of the month (1–31) |
The month (1–12) |
The day of the week (0–7) where 0 and 7 are Sunday. |
To specify multiple values for one field, the following operators are available. In the order of precedence,
-
*specifies all valid values -
M-Nspecifies a range of values -
M-N/Xor*/Xsteps by intervals ofXthrough the specified range or whole valid range -
A,B,…,Zenumerates multiple values
To allow periodically scheduled tasks to produce even load on the system,
the symbol H (for “hash”) should be used wherever possible.
For example, using 0 0 * * * for a dozen daily jobs
will cause a large spike at midnight.
In contrast, using H H * * * would still execute each job once a day,
but not all at the same time, better using limited resources.
The H symbol can be used with a range. For example, H H(0-7) * * *
means some time between 12:00 AM (midnight) to 7:59 AM.
You can also use step intervals with H, with or without ranges.
The H symbol can be thought of as a random value over a range,
but it actually is a hash of the job name, not a random function, so that
the value remains stable for any given project.
Beware that for the day of month field, short cycles such as */3
or H/3 will not work consistently near the end of most months,
due to variable month lengths. For example, */3 will run on the
1st, 4th, …31st days of a long month, then again the next day of
the next month. Hashes are always chosen in the 1-28 range, so
H/3 will produce a gap between runs of between 3 and 6 days at
the end of a month. (Longer cycles will also have inconsistent
lengths but the effect may be relatively less noticeable.)
Empty lines and lines that start with # will be ignored as comments.
In addition, @yearly, @annually, @monthly,
@weekly, @daily, @midnight,
and @hourly are supported as convenient aliases.
These use the hash system for automatic balancing.
For example, @hourly is the same as H * * * * and could mean at any time during the hour.
@midnight actually means some time between 12:00 AM and 2:59 AM.
every fifteen minutes (perhaps at :07, :22, :37, :52) |
|
every ten minutes in the first half of every hour (three times, perhaps at :04, :14, :24) |
|
once every two hours at 45 minutes past the hour starting at 9:45 AM and finishing at 3:45 PM every weekday. |
|
once in every two hours slot between 9 AM and 5 PM every weekday (perhaps at 10:38 AM, 12:38 PM, 2:38 PM, 4:38 PM) |
|
once a day on the 1st and 15th of every month except December |
|
The stage directive goes in the stages section and should contain a
steps section, an optional agent section, or other stage-specific directives.
Practically speaking, all of the real work done by a Pipeline will be wrapped
in one or more stage directives.
Required |
At least one |
|---|---|
Parameters |
One mandatory parameter, a string for the name of the stage. |
Allowed |
Inside the |
A section defining tools to auto-install and put on the PATH. This is ignored
if agent none is specified.
Required |
No |
|---|---|
Parameters |
None |
Allowed |
Inside the |
The input directive on a stage allows you to prompt for input, using the
input step.
The stage will pause after any options have been applied, and before
entering the agent block for that stage or evaluating the when condition of the stage. If the input
is approved, the stage will then continue. Any parameters provided as part of
the input submission will be available in the environment for the rest of the
stage.
- message
-
Required. This will be presented to the user when they go to submit the
input. - id
-
An optional identifier for this
input. Defaults to thestagename. - ok
-
Optional text for the "ok" button on the
inputform. - submitter
-
An optional comma-separated list of users or external group names who are allowed to submit this
input. Defaults to allowing any user. - submitterParameter
-
An optional name of an environment variable to set with the
submittername, if present. - parameters
-
An optional list of parameters to prompt the submitter to provide. See parameters for more information.
// Declarative //
pipeline {
agent any
stages {
stage('Example') {
input {
message "Should we continue?"
ok "Yes, we should."
submitter "alice,bob"
parameters {
string(name: 'PERSON', defaultValue: 'Mr Jenkins', description: 'Who should I say hello to?')
}
}
steps {
echo "Hello, ${PERSON}, nice to meet you."
}
}
}
}
// Script //
The when directive allows the Pipeline to determine whether the stage should
be executed depending on the given condition.
The when directive must contain at least one condition.
If the when directive contains more than one condition,
all the child conditions must return true for the stage to execute.
This is the same as if the child conditions were nested in an allOf condition
(see the examples below). If an anyOf condition is used, note that the condition skips remaining tests as soon as the first "true" condition is found.
More complex conditional structures can be built
using the nesting conditions: not, allOf, or anyOf.
Nesting conditions may be nested to any arbitrary depth.
Required |
No |
|---|---|
Parameters |
None |
Allowed |
Inside a |
- branch
-
Execute the stage when the branch being built matches the branch pattern (ANT style path glob) given, for example:
when { branch 'master' }. Note that this only works on a multibranch Pipeline. - buildingTag
-
Execute the stage when the build is building a tag. Example:
when { buildingTag() } - changelog
-
Execute the stage if the build’s SCM changelog contains a given regular expression pattern, for example:
when { changelog '.*^\\[DEPENDENCY\\] .+$' } - changeset
-
Execute the stage if the build’s SCM changeset contains one or more files matching the given string or glob. Example:
when { changeset "**/*.js" }By default the path matching will be case insensitive, this can be turned off with the
caseSensitiveparameter, for example:when { changeset glob: "ReadMe.*", caseSensitive: true } - changeRequest
-
Executes the stage if the current build is for a "change request" (a.k.a. Pull Request on GitHub and Bitbucket, Merge Request on GitLab or Change in Gerrit etc.). When no parameters are passed the stage runs on every change request, for example:
when { changeRequest() }.By adding a filter attribute with parameter to the change request, the stage can be made to run only on matching change requests. Possible attributes are
id,target,branch,fork,url,title,author,authorDisplayName, andauthorEmail. Each of these corresponds to aCHANGE_*environment variable, for example:when { changeRequest target: 'master' }.The optional parameter
comparatormay be added after an attribute to specify how any patterns are evaluated for a match:EQUALSfor a simple string comparison (the default),GLOBfor an ANT style path glob (same as for examplechangeset), orREGEXPfor regular expression matching. Example:when { changeRequest authorEmail: "[\\w_-.][email protected]", comparator: 'REGEXP' } - environment
-
Execute the stage when the specified environment variable is set to the given value, for example:
when { environment name: 'DEPLOY_TO', value: 'production' } - equals
-
Execute the stage when the expected value is equal to the actual value, for example:
when { equals expected: 2, actual: currentBuild.number } - expression
-
Execute the stage when the specified Groovy expression evaluates to true, for example:
when { expression { return params.DEBUG_BUILD } }Note that when returning strings from your expressions they must be converted to booleans or returnnullto evaluate to false. Simply returning "0" or "false" will still evaluate to "true". - tag
-
Execute the stage if the
TAG_NAMEvariable matches the given pattern. Example:when { tag "release-*" }. If an empty pattern is provided the stage will execute if theTAG_NAMEvariable exists (same asbuildingTag()).The optional parameter
comparatormay be added after an attribute to specify how any patterns are evaluated for a match:EQUALSfor a simple string comparison,GLOB(the default) for an ANT style path glob (same as for examplechangeset), orREGEXPfor regular expression matching. For example:when { tag pattern: "release-\\d+", comparator: "REGEXP"} - not
-
Execute the stage when the nested condition is false. Must contain one condition. For example:
when { not { branch 'master' } } - allOf
-
Execute the stage when all of the nested conditions are true. Must contain at least one condition. For example:
when { allOf { branch 'master'; environment name: 'DEPLOY_TO', value: 'production' } } - anyOf
-
Execute the stage when at least one of the nested conditions is true. Must contain at least one condition. For example:
when { anyOf { branch 'master'; branch 'staging' } } - triggeredBy
-
Execute the stage when the current build has been triggered by the param given. For example:
-
when { triggeredBy 'SCMTrigger' } -
when { triggeredBy 'TimerTrigger' } -
when { triggeredBy 'UpstreamCause' } -
when { triggeredBy cause: "UserIdCause", detail: "vlinde" }
-
By default, the when condition for a stage will be evaluated after
entering the agent for that stage, if one is defined. However, this can
be changed by specifying the beforeAgent option within the when
block. If beforeAgent is set to true, the when condition will be
evaluated first, and the agent will only be entered if the when
condition evaluates to true.
By default, the when condition for a stage will not be evaluated before the input, if one is defined.
However, this can be changed by specifying the beforeInput option within the when block. If beforeInput is set to true,
the when condition will be evaluated first, and the input will only be entered if the when condition evaluates to true.
// Declarative //
pipeline {
agent any
stages {
stage('Example Build') {
steps {
echo 'Hello World'
}
}
stage('Example Deploy') {
when {
branch 'production'
}
steps {
echo 'Deploying'
}
}
}
}
// Script //
// Declarative //
pipeline {
agent any
stages {
stage('Example Build') {
steps {
echo 'Hello World'
}
}
stage('Example Deploy') {
when {
branch 'production'
environment name: 'DEPLOY_TO', value: 'production'
}
steps {
echo 'Deploying'
}
}
}
}
// Script //
// Declarative //
pipeline {
agent any
stages {
stage('Example Build') {
steps {
echo 'Hello World'
}
}
stage('Example Deploy') {
when {
allOf {
branch 'production'
environment name: 'DEPLOY_TO', value: 'production'
}
}
steps {
echo 'Deploying'
}
}
}
}
// Script //
// Declarative //
pipeline {
agent any
stages {
stage('Example Build') {
steps {
echo 'Hello World'
}
}
stage('Example Deploy') {
when {
branch 'production'
anyOf {
environment name: 'DEPLOY_TO', value: 'production'
environment name: 'DEPLOY_TO', value: 'staging'
}
}
steps {
echo 'Deploying'
}
}
}
}
// Script //
// Declarative //
pipeline {
agent any
stages {
stage('Example Build') {
steps {
echo 'Hello World'
}
}
stage('Example Deploy') {
when {
expression { BRANCH_NAME ==~ /(production|staging)/ }
anyOf {
environment name: 'DEPLOY_TO', value: 'production'
environment name: 'DEPLOY_TO', value: 'staging'
}
}
steps {
echo 'Deploying'
}
}
}
}
// Script //
beforeAgent// Declarative //
pipeline {
agent none
stages {
stage('Example Build') {
steps {
echo 'Hello World'
}
}
stage('Example Deploy') {
agent {
label "some-label"
}
when {
beforeAgent true
branch 'production'
}
steps {
echo 'Deploying'
}
}
}
}
// Script //
beforeInput// Declarative //
pipeline {
agent none
stages {
stage('Example Build') {
steps {
echo 'Hello World'
}
}
stage('Example Deploy') {
when {
beforeInput true
branch 'production'
}
input {
message "Deploy to production?"
id "simple-input"
}
steps {
echo 'Deploying'
}
}
}
}
// Script //
triggeredBy// Declarative //
pipeline {
agent none
stages {
stage('Example Build') {
steps {
echo 'Hello World'
}
}
stage('Example Deploy') {
when {
triggeredBy "TimerTrigger"
}
steps {
echo 'Deploying'
}
}
}
}
// Script //
Stages in Declarative Pipeline may declare a list of nested stages to be run
within them in sequential order. Note that a stage must have one and only one of
steps, parallel, or stages, the last for sequential stages. It is not
possible to nest a parallel block within a stage directive if that stage
directive is nested within a parallel block itself. However, a stage
directive within a parallel block can use all other functionality of a stage,
including agent, tools, when, etc.
// Declarative //
pipeline {
agent none
stages {
stage('Non-Sequential Stage') {
agent {
label 'for-non-sequential'
}
steps {
echo "On Non-Sequential Stage"
}
}
stage('Sequential') {
agent {
label 'for-sequential'
}
environment {
FOR_SEQUENTIAL = "some-value"
}
stages {
stage('In Sequential 1') {
steps {
echo "In Sequential 1"
}
}
stage('In Sequential 2') {
steps {
echo "In Sequential 2"
}
}
stage('Parallel In Sequential') {
parallel {
stage('In Parallel 1') {
steps {
echo "In Parallel 1"
}
}
stage('In Parallel 2') {
steps {
echo "In Parallel 2"
}
}
}
}
}
}
}
}
// Script //
Stages in Declarative Pipeline may declare a number of nested stages within
a parallel block, which will be executed in parallel. Note that a stage must
have one and only one of steps, stages, or parallel. The nested stages
cannot contain further parallel stages themselves, but otherwise behave the
same as any other stage, including a list of sequential stages within stages.
Any stage containing parallel cannot contain agent or tools, since those
are not relevant without steps.
In addition, you can force your parallel stages to all be aborted when one
of them fails, by adding failFast true to the stage containing the
parallel. Another option for adding failfast is adding an option to the
pipeline definition: parallelsAlwaysFailFast()
// Declarative //
pipeline {
agent any
stages {
stage('Non-Parallel Stage') {
steps {
echo 'This stage will be executed first.'
}
}
stage('Parallel Stage') {
when {
branch 'master'
}
failFast true
parallel {
stage('Branch A') {
agent {
label "for-branch-a"
}
steps {
echo "On Branch A"
}
}
stage('Branch B') {
agent {
label "for-branch-b"
}
steps {
echo "On Branch B"
}
}
stage('Branch C') {
agent {
label "for-branch-c"
}
stages {
stage('Nested 1') {
steps {
echo "In stage Nested 1 within Branch C"
}
}
stage('Nested 2') {
steps {
echo "In stage Nested 2 within Branch C"
}
}
}
}
}
}
}
}
// Script //
parallelsAlwaysFailFast// Declarative //
pipeline {
agent any
options {
parallelsAlwaysFailFast()
}
stages {
stage('Non-Parallel Stage') {
steps {
echo 'This stage will be executed first.'
}
}
stage('Parallel Stage') {
when {
branch 'master'
}
parallel {
stage('Branch A') {
agent {
label "for-branch-a"
}
steps {
echo "On Branch A"
}
}
stage('Branch B') {
agent {
label "for-branch-b"
}
steps {
echo "On Branch B"
}
}
stage('Branch C') {
agent {
label "for-branch-c"
}
stages {
stage('Nested 1') {
steps {
echo "In stage Nested 1 within Branch C"
}
}
stage('Nested 2') {
steps {
echo "In stage Nested 2 within Branch C"
}
}
}
}
}
}
}
}// Script //
Declarative Pipelines may use all the available steps documented in the Pipeline Steps reference, which contains a comprehensive list of steps, with the addition of the steps listed below which are only supported in Declarative Pipeline.
The script step takes a block of Scripted Pipeline and executes that in
the Declarative Pipeline. For most use-cases, the script step should be
unnecessary in Declarative Pipelines, but it can provide a useful "escape
hatch." script blocks of non-trivial size and/or complexity should be moved
into Shared Libraries instead.
Scripted Pipeline, like Declarative Pipeline, is built on top of the underlying Pipeline sub-system. Unlike Declarative, Scripted Pipeline is effectively a general purpose DSL [2] built with Groovy. Most functionality provided by the Groovy language is made available to users of Scripted Pipeline, which means it can be a very expressive and flexible tool with which one can author continuous delivery pipelines.
Scripted Pipeline is serially executed from the top of a Jenkinsfile
downwards, like most traditional scripts in Groovy or other languages.
Providing flow control therefore rests on Groovy expressions, such as the
if/else conditionals, for example:
// Scripted //
node {
stage('Example') {
if (env.BRANCH_NAME == 'master') {
echo 'I only execute on the master branch'
} else {
echo 'I execute elsewhere'
}
}
}
// Declarative //
Another way Scripted Pipeline flow control can be managed is with Groovy’s
exception handling support. When Steps fail for whatever reason
they throw an exception. Handling behaviors on-error must make use of
the try/catch/finally blocks in Groovy, for example:
// Scripted //
node {
stage('Example') {
try {
sh 'exit 1'
}
catch (exc) {
echo 'Something failed, I should sound the klaxons!'
throw
}
}
}
// Declarative //
As discussed at the start of this chapter, the most fundamental part of a Pipeline is the "step". Fundamentally, steps tell Jenkins what to do and serve as the basic building block for both Declarative and Scripted Pipeline syntax.
Scripted Pipeline does not introduce any steps which are specific to its syntax; Pipeline Steps reference contains a comprehensive list of steps provided by Pipeline and plugins.
In order to provide durability, which means that running Pipelines can
survive a restart of the Jenkins master, Scripted
Pipeline must serialize data back to the master. Due to this design
requirement, some Groovy idioms such as collection.each { item → /* perform
operation */ } are not fully supported. See
JENKINS-27421
and
JENKINS-26481
for more information.
When Jenkins Pipeline was first created, Groovy was selected as the foundation. Jenkins has long shipped with an embedded Groovy engine to provide advanced scripting capabilities for admins and users alike. Additionally, the implementors of Jenkins Pipeline found Groovy to be a solid foundation upon which to build what is now referred to as the "Scripted Pipeline" DSL. [2].
As it is a fully featured programming environment, Scripted Pipeline offers a tremendous amount of flexibility and extensibility to Jenkins users. The Groovy learning-curve isn’t typically desirable for all members of a given team, so Declarative Pipeline was created to offer a simpler and more opinionated syntax for authoring Jenkins Pipeline.
Both are fundamentally the same Pipeline sub-system underneath. They are both durable implementations of "Pipeline as code." They are both able to use steps built into Pipeline or provided by plugins. Both are able to utilize Shared Libraries
Where they differ however is in syntax and flexibility. Declarative limits what is available to the user with a more strict and pre-defined structure, making it an ideal choice for simpler continuous delivery pipelines. Scripted provides very few limits, insofar that the only limits on structure and syntax tend to be defined by Groovy itself, rather than any Pipeline-specific systems, making it an ideal choice for power-users and those with more complex requirements. As the name implies, Declarative Pipeline encourages a declarative programming model. [3] Whereas Scripted Pipelines follow a more imperative programming model. [4]