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Build an SAP Fiori Application and Attach It to a Transport Request on an ABAP System

Build an application based on SAPUI5 or SAP Fiori with Jenkins and attach the build result to a transport request in an SAP ABAP system.

Generally, you can choose between two technical ways to attach a binary to an ABAP transport request: We support uploads through RFC and through OData. Which option to use depends on the version of your ABAP system. For AS ABAP 7.50 SP08, 7.51 SP07, or 7.52 SP03 and newer, use the OData-based upload, for older versions, use the RFC-based upload.

Prerequisites

  • You have set up your Docker environment.
  • You have set up project “Piper”. See guided tour.
  • You have a transport request. In General it is possible to create a transport request on the fly. But the example here is based on an already existing transport request.
  • Depending on the version of the ABAP system: Docker image for attaching binaries to transport requests via RFC available. Due to legal reasons there is no pre-build docker image. How to create the docker image is explained here

Project Prerequisites

This scenario requires additional files in your project and in the execution environment on your Jenkins instance.

On the project level, provide and adjust the following template:

File Name Description Position
mta.yaml This file controls the behavior of the multitarget application (MTA) toolset. Place the mta.yaml file in your application root folder and adjust the values in brackets with your data.

Depending on the modules in your MTA, additional configuration files are required, e.g. pom.xml or package.json.

Context

This scenario combines various different steps to create a complete pipeline.

In this scenario, we want to show how to build an application based on SAPUI5 or SAP Fiori by using the MTA concept and how to attach the build result to a transport request inside an ABAP system. This document comprises the mtaBuild step and the transportRequestUploadRFC respectively the transportRequestUploadCTS step.

In case of an RFC based upload the binary is not streamed to the ABAP endpoint. Instead an URL pointing to the binary needs to be provided. Hence the binary must be published first so that it can be accessed via HTTP. This can happen by uploading the binary to a blob store or by archiving the artifact on Jenkins. The corresponding URL needs to be provided when the artifact is attached to the transport request.

The transport request can be created on the fly (see transportRequestCreate) or we can use an already existing transport request. In case we use an already existing transport request Id the transport request Id needs to be provided in the git commit history (see transportRequestReqIDFromGit) or the transport request Id needs to be provided inside the job (e.g. as a job parameter).

The transport request can be closed by the pipeline job (see transportRequestRelease).

This is an example of a Git commit message containing the transport request ID:

The headline

The body. The blank line above is mandatory (Git standard).
TransportRequest: <YOUR TRANSPORT REQUEST ID>

By default, the Git commits between the merge base with the base branch (default: master) and the current branch head are traversed.

This pipeline in Jenkins Blue Ocean

Screenshot: Build and Deploy Process in Jenkins

Examples

Upload via RFC

Jenkinsfile

Following the convention for pipeline definitions, use a Jenkinsfile, which resides in the root directory of your development sources.

@Library('piper-lib-os') _


pipeline {

    agent any

    stages {
        stage("prepare") {
            steps {
                deleteDir()
                checkout scm
                setupCommonPipelineEnvironment script: this
            }
        }

        stage('build') {
            steps {
                // It depends on your project, what needs to be done here. Maybe it's sufficient to zip the sources
                mtaBuild script: this
            }
        }

        stage('publish') {
            steps {
                // This uploads the binary into a blob store so that it can be attached to a transport request later
                sh "curl --upload-file <deployable> <BLOB_STORE/path/to/application>"

                // OR (in case there is no BLOB_STORE available)

                // This makes the artifact available on Nexus. The URL is the following:
                // <JENKINS_URL>/job/<JOB_NAME>/<BUILD_NUMBER>/artifact/<DEPLOYABLE>. Nota bene: this format is not an Jenkins API.
                // The build number can be retrieved during the build through ${currentBuild.number}
                archiveArtifacts artifacts: <deployable>
            }
        }

        // This attaches the deployable to a transport request
        stage('attach') {
            steps {
                transportRequestUploadRFC script: this,
                                           transportRequestId: '<TRANSPORT_REQUEST_ID>', // This can be omitted if present inside a Git commit message
                                           applicationUrl: '<THE_URL_TO_THE_DEPLOYABLE_ACCORDING_TO_PUBLISH_STAGE>'
            }
        }
    }
}

Configuration (.pipeline/config.yml)

This is a basic configuration example, which is also located in the sources of the project.

steps:
  transportRequestUploadRFC:
    changeManagement:
      endpoint: 'https://your.rfc.endpoint.com/' # e.g. example.com'
      credentialsId: 'RFC' # The ID under which the credentials are provided on Jenkins defaults to 'CM'
      instance: '01' # needs to be adjusted
      client: '001' # needs to be adjusted
    abapPackage: 'YOURPACK'
    applicationName: 'YOURAPP'
    applicationDescription: 'Your application description'
    dockerImage: 'my/rfc-client'

Upload via ODATA

Jenkinsfile

Following the convention for pipeline definitions, use a Jenkinsfile, which resides in the root directory of your development sources.

@Library('piper-lib-os') _


pipeline {

    agent any

    stages {
        stage("prepare") {
            steps {
                deleteDir()
                checkout scm
                setupCommonPipelineEnvironment script: this
            }
        }

        stage('build') {
            steps {
                // It depends on your project, what needs to be done here.
                // Use the SAPUI5 toolset to build your SAPUI5 application
                // and run the build command of the npmExecuteScripts step.
                npmExecuteScripts(script: this, runScripts: ['build'])
            }
        }
        // Get the transport request id from your git commit message.
        stage('request') {
            steps {
                transportRequestReqIDFromGit( script: this )
            }
        }
        // This attaches the deployable to a transport request.
        // Note: ODATA/CTS does not support the mtaBuild tool.
        stage('attach') {
            steps {
                transportRequestUploadCTS script: this)
            }
        }
    }
}

Configuration (.pipeline/config.yml)

This is a basic configuration example, which is also located in the sources of the project.

steps:
  transportRequestUploadCTS:
    changeManagement:
      endpoint: 'http://your.odata.endpoint/'
      credentialsId: 'CTS' # The ID under which the credentials are provided on Jenkins defaults to 'CM'
      clientOpts: '' # additional java options, e.g. '-Djavax.net.ssl.trustStore=/path/to/truststore.jks'
      client: '001'
    abapPackage: 'YOURPACK'
    applicationName: 'YOURAPP'
    applicationDescription: 'Your description'

Parameters

For the detailed description of the relevant parameters, see: