// Jenkinsfile support utilities import BuildConfig.BuildConfig import org.apache.commons.lang3.SerializationUtils // Clone the source repository and examine the most recent commit message. // If a '[ci skip]' or '[skip ci]' directive is present, immediately // terminate the job with a success code. // If no skip directive is found, stash all the source files for efficient retrieval // by subsequent nodes. def scm_checkout() { skip_job = 0 node("on-master") { stage("Setup") { checkout(scm) // Obtain the last commit message and examine it for skip directives. logoutput = sh(script:"git log -1 --pretty=%B", returnStdout: true).trim() if (logoutput.contains("[ci skip]") || logoutput.contains("[skip ci]")) { skip_job = 1 currentBuild.result = 'SUCCESS' println("\nBuild skipped due to commit message directive.\n") return skip_job } sh(script: "ls -al") stash includes: '**/*', name: 'source_tree' } } return skip_job } // Execute build/test tasks in parallel // Each task is defined by a BuildConfig object. // A list of such objects is iterated over to process all configurations. def concurrent(configs) { def tasks = [:] println("Size of configs = ${configs.size()}") for (config in configs) { def myconfig = new BuildConfig() // MUST be inside for loop. myconfig = SerializationUtils.clone(config) // Code defined within 'tasks' is eventually executed on a separate node. tasks["${config.nodetype}/${config.build_mode}"] = { node(config.nodetype) { // FIXME: Generalize env vars. for (var in myconfig.env_vars) { if (var.contains("PATH")) { cwd = pwd() tvar = var.replace("PATH=.", cwd) env.PATH = "${tvar}:${env.PATH}" } } for (var in myconfig.env_vars_map) { paths = var.value.tokenize(":") for (path in paths) { if (path =~ /\$.*:|\$.*/) { subvar = path[1..-1] var_exists = sh(script: "[ ! -z ${subvar} ]", returnStatus: true) if (var_exists) { println("${subvar} exists in all vars.") var_value = sh(script: "echo ${subvar}", returnStdout: true) expanded = var.replaceAll(subvar, var_value) println("REPLACED SUBVAR: ${expanded}") } } def cpath = new File("${env.WORKSPACE}", var.value).getCanonicalPath() println("task: cpath = ${cpath}") } } println("task: env.PATH = ${env.PATH}") println("task: myconfig.nodetype = ${myconfig.nodetype}") println("task: myconfig.build_mode = ${myconfig.build_mode}") println("task: myconfig.env_vars = ${myconfig.env_vars}") println("task: myconfig.build_cmds = ${myconfig.build_cmds}") println("task: myconfig.test_cmds = ${myconfig.test_cmds}") println("task: myconfig.run_tests = ${myconfig.run_tests}") stage("Build (${myconfig.build_mode})") { unstash "source_tree" for (cmd in myconfig.build_cmds) { sh(script: cmd) } } if (myconfig.test_cmds.size() > 0) { try { stage("Test (${myconfig.build_mode})") { for (cmd in myconfig.test_cmds) { sh(script: cmd) } } } finally { // TODO: Test for presence of report file. step([$class: 'XUnitBuilder', thresholds: [ [$class: 'SkippedThreshold', unstableThreshold: "${myconfig.skippedUnstableThresh}"], [$class: 'SkippedThreshold', failureThreshold: "${myconfig.skippedFailureThresh}"], [$class: 'FailedThreshold', unstableThreshold: "${myconfig.failedUnstableThresh}"], [$class: 'FailedThreshold', failureThreshold: "${myconfig.failedFailureThresh}"]], tools: [[$class: 'JUnitType', pattern: '*.xml']]]) } } } // end node } //end tasks } //end for stage("Matrix") { parallel(tasks) } } //end concurrent // Convenience function that performs a deep copy on the supplied object. def copy(obj) { return SerializationUtils.clone(obj) }