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netci.groovy
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netci.groovy
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// Import the utility functionality.
import jobs.generation.Utilities;
import jobs.generation.JobReport;
// The input project name (e.g. dotnet/corefx)
def project = GithubProject
// The input branch name (e.g. master)
def branch = GithubBranchName
// Folder that the project jobs reside in (project/branch)
def projectFolder = Utilities.getFolderName(project) + '/' + Utilities.getFolderName(branch)
// Globals
// Map of osName -> osGroup.
def osGroupMap = ['Ubuntu14.04':'Linux',
'Ubuntu16.04':'Linux',
'Debian8.4':'Linux',
'Fedora23':'Linux',
'OSX':'OSX',
'Windows_NT':'Windows_NT',
'CentOS7.1': 'Linux',
'OpenSUSE13.2': 'Linux',
'RHEL7.2': 'Linux',
'LinuxARMEmulator': 'Linux']
// Map of osName -> nuget runtime
def targetNugetRuntimeMap = ['OSX' : 'osx.10.10-x64',
'Ubuntu14.04' : 'ubuntu.14.04-x64',
'Ubuntu16.04' : 'ubuntu.16.04-x64',
'Fedora23' : 'fedora.23-x64',
'Debian8.4' : 'debian.8-x64',
'CentOS7.1' : 'centos.7-x64',
'OpenSUSE13.2' : 'opensuse.13.2-x64',
'RHEL7.2': 'rhel.7-x64']
def osShortName = ['Windows 10': 'win10',
'Windows 7' : 'win7',
'Windows_NT' : 'windows_nt',
'Ubuntu14.04' : 'ubuntu14.04',
'OSX' : 'osx',
'Windows Nano 2016' : 'winnano16',
'Ubuntu16.04' : 'ubuntu16.04',
'CentOS7.1' : 'centos7.1',
'Debian8.4' : 'debian8.4',
'OpenSUSE13.2' : 'opensuse13.2',
'Fedora23' : 'fedora23',
'RHEL7.2' : 'rhel7.2']
// **************************
// Define code coverage build
// **************************
[true, false].each { isPR ->
['local', 'nonlocal'].each { localType ->
def isLocal = (localType == 'local')
def newJobName = 'code_coverage_windows'
def batchCommand = 'call build.cmd -coverage -outerloop -- /p:WithoutCategories=IgnoreForCI'
if (isLocal) {
newJobName = "${newJobName}_local"
batchCommand = "${batchCommand} /p:TestWithLocalLibraries=true"
}
def newJob = job(Utilities.getFullJobName(project, newJobName, isPR)) {
steps {
batchFile(batchCommand)
}
}
// Set up standard options
Utilities.standardJobSetup(newJob, project, isPR, "*/${branch}")
// Set the machine affinity to windows machines
Utilities.setMachineAffinity(newJob, 'Windows_NT', 'latest-or-auto')
// Publish reports
Utilities.addHtmlPublisher(newJob, 'bin/tests/coverage', 'Code Coverage Report', 'index.htm')
// Archive results.
Utilities.addArchival(newJob, '**/coverage/*,msbuild.log')
// Timeout. Code coverage runs take longer, so we set the timeout to be longer.
Utilities.setJobTimeout(newJob, 180)
// Set triggers
if (isPR) {
if (!isLocal) {
// Set PR trigger
Utilities.addGithubPRTriggerForBranch(newJob, branch, 'Code Coverage Windows Debug', '(?i).*test\\W+code\\W+coverage.*')
}
}
else {
// Set a periodic trigger
Utilities.addPeriodicTrigger(newJob, '@daily')
}
}
}
// **************************
// Define code formatter check build
// **************************
[true, false].each { isPR ->
def newJob = job(Utilities.getFullJobName(project, 'native_code_format_check', isPR)) {
steps {
shell('python src/Native/Unix/format-code.py checkonly')
}
}
// Set up standard options.
Utilities.standardJobSetup(newJob, project, isPR, "*/${branch}")
// Set the machine affinity to Ubuntu14.04 machines
Utilities.setMachineAffinity(newJob, 'Ubuntu14.04', 'latest-or-auto')
if (isPR) {
// Set PR trigger. Only trigger when the phrase is said.
Utilities.addGithubPRTriggerForBranch(newJob, branch, 'Code Formatter Check', '(?i).*test\\W+code\\W+formatter\\W+check.*', true)
}
else {
// Set a push trigger
Utilities.addGithubPushTrigger(newJob)
}
}
// **************************
// Define outerloop windows Nano testing. Run locally on each machine.
// **************************
[true, false].each { isPR ->
['Windows Nano 2016'].each { osName ->
['Debug', 'Release'].each { configurationGroup ->
def newJobName = "outerloop_${osShortName[osName]}_${configurationGroup.toLowerCase()}"
def newBuildJobName = "outerloop_${osShortName[osName]}_${configurationGroup.toLowerCase()}_bld"
def newBuildJob = job(Utilities.getFullJobName(project, newBuildJobName, isPR)) {
steps {
batchFile("call \"C:\\Program Files (x86)\\Microsoft Visual Studio 14.0\\VC\\vcvarsall.bat\" x86 && build.cmd -os=Windows_NT -${configurationGroup} -skipTests -outerloop -- /p:WithoutCategories=IgnoreForCI")
// Package up the results.
batchFile("C:\\Packer\\Packer.exe .\\bin\\build.pack . bin packages")
}
}
// Set the affinity. All of these run on Windows currently.
Utilities.setMachineAffinity(newBuildJob, 'Windows_NT', 'latest-or-auto')
// Set up standard options.
Utilities.standardJobSetup(newBuildJob, project, isPR, "*/${branch}")
// Archive the results
Utilities.addArchival(newBuildJob, "bin/build.pack,run-test.cmd,msbuild.log")
def fullCoreFXBuildJobName = projectFolder + '/' + newBuildJob.name
def newTestJobName = "outerloop_${osShortName[osName]}_${configurationGroup.toLowerCase()}_tst"
def newTestJob = job(Utilities.getFullJobName(project, newTestJobName, isPR)) {
steps {
// The tests/corefx components
copyArtifacts(fullCoreFXBuildJobName) {
includePatterns('bin/build.pack')
includePatterns('run-test.cmd')
buildSelector {
buildNumber('\${COREFX_BUILD}')
}
}
// Unpack the build data
batchFile("PowerShell -command \"\"C:\\Packer\\unpacker.ps1 .\\bin\\build.pack . > .\\bin\\unpacker.log\"\"")
// Run the tests
batchFile("run-test.cmd .\\bin\\tests\\Windows_NT.AnyCPU.${configurationGroup} %WORKSPACE%\\packages")
// Run the tests
batchFile("run-test.cmd .\\bin\\tests\\AnyOS.AnyCPU.${configurationGroup} %WORKSPACE%\\packages")
}
parameters {
stringParam('COREFX_BUILD', '', 'Build number to use for copying binaries for nano server bld.')
}
}
// Set the affinity. All of these run on Windows Nano currently.
Utilities.setMachineAffinity(newTestJob, osName)
// Set up standard options.
Utilities.addStandardOptions(newTestJob, isPR)
// Add the unit test results
Utilities.addXUnitDotNETResults(newTestJob, 'bin/tests/**/testResults.xml')
def fullCoreFXTestJobName = projectFolder + '/' + newTestJob.name
def newJob = buildFlowJob(Utilities.getFullJobName(project, newJobName, isPR)) {
buildFlow("""
b = build(params, '${fullCoreFXBuildJobName}')
build(params +
[COREFX_BUILD: b.build.number], '${fullCoreFXTestJobName}')
""")
}
// Set the machine affinity to windows_nt, since git fails on Nano.
Utilities.setMachineAffinity(newJob, 'Windows_NT', 'latest-or-auto')
// Set up standard options.
Utilities.standardJobSetup(newJob, project, isPR, "*/${branch}")
// Set up appropriate triggers. PR on demand, otherwise nightly
if (isPR) {
// Set PR trigger.
// TODO: More elaborate regex trigger?
Utilities.addGithubPRTriggerForBranch(newJob, branch, "OuterLoop ${osName} ${configurationGroup}", "(?i).*test\\W+outerloop\\W+${osName}\\W+${configurationGroup}.*")
}
else {
// Set a periodic trigger
Utilities.addPeriodicTrigger(newJob, '@daily')
}
}
}
}
// **************************
// Define outerloop testing for OSes that can build and run. Run locally on each machine.
// **************************
[true, false].each { isPR ->
['Windows 7', 'Windows_NT', 'Ubuntu14.04', 'Ubuntu16.04', 'CentOS7.1', 'OpenSUSE13.2', 'RHEL7.2', 'Fedora23', 'Debian8.4', 'OSX'].each { osName ->
['Debug', 'Release'].each { configurationGroup ->
def newJobName = "outerloop_${osShortName[osName]}_${configurationGroup.toLowerCase()}"
def newJob = job(Utilities.getFullJobName(project, newJobName, isPR)) {
steps {
if (osName == 'Windows 10' || osName == 'Windows 7' || osName == 'Windows_NT') {
batchFile("call \"C:\\Program Files (x86)\\Microsoft Visual Studio 14.0\\VC\\vcvarsall.bat\" x86 && build.cmd -${configurationGroup} -outerloop -- /p:WithoutCategories=IgnoreForCI")
}
else if (osName == 'OSX') {
shell("HOME=\$WORKSPACE/tempHome ./build.sh -${configurationGroup.toLowerCase()} -outerloop -testWithLocalLibraries -- /p:WithoutCategories=IgnoreForCI")
}
else {
shell("sudo HOME=\$WORKSPACE/tempHome ./build.sh -${configurationGroup.toLowerCase()} -outerloop -testWithLocalLibraries -- /p:TestNugetRuntimeId=${targetNugetRuntimeMap[osName]} /p:WithoutCategories=IgnoreForCI")
}
}
}
// Set the affinity. OS name matches the machine affinity.
if (osName == 'Windows_NT' || osName == 'OSX') {
Utilities.setMachineAffinity(newJob, osName, "latest-or-auto-elevated")
}
else if (osGroupMap[osName] == 'Linux') {
Utilities.setMachineAffinity(newJob, osName, 'outer-latest-or-auto')
} else {
Utilities.setMachineAffinity(newJob, osName, 'latest-or-auto');
}
// Set up standard options.
Utilities.standardJobSetup(newJob, project, isPR, "*/${branch}")
// Add the unit test results
Utilities.addXUnitDotNETResults(newJob, 'bin/tests/**/testResults.xml')
// Add archival for the built data.
Utilities.addArchival(newJob, "msbuild.log", '', doNotFailIfNothingArchived=true, archiveOnlyIfSuccessful=false)
// Set up appropriate triggers. PR on demand, otherwise nightly
if (isPR) {
// Set PR trigger.
// TODO: More elaborate regex trigger?
Utilities.addGithubPRTriggerForBranch(newJob, branch, "OuterLoop ${osName} ${configurationGroup}", "(?i).*test\\W+outerloop\\W+${osName}\\W+${configurationGroup}.*")
}
else {
// Set a periodic trigger
Utilities.addPeriodicTrigger(newJob, '@daily')
}
}
}
}
// **************************
// Define perf testing. Built locally and submitted to Helix.
// **************************
// builds with secrets should never be available for pull requests.
// right now perf tests are only run on Win10 (but can be built on any Windows)
['Windows 10'].each { osName ->
['Debug', 'Release'].each { configurationGroup ->
def newJobName = "perf_${osShortName[osName]}_${configurationGroup.toLowerCase()}"
def newJob = job(Utilities.getFullJobName(project, newJobName, /* isPR */ false)) {
steps {
helix("Build.cmd -- /p:Creator=dotnet-bot /p:ArchiveTests=true /p:ConfigurationGroup=${configurationGroup} /p:Configuration=Windows_${configurationGroup} /p:TestDisabled=true /p:EnableCloudTest=true /p:BuildMoniker={uniqueId} /p:TargetQueue=Windows.10.Amd64 /p:TestProduct=CoreFx /p:Branch=master /p:OSGroup=Windows_NT /p:CloudDropAccountName=dotnetbuilddrops /p:CloudResultsAccountName=dotnetjobresults /p:CloudDropAccessToken={CloudDropAccessToken} /p:CloudResultsAccessToken={CloudResultsAccessToken} /p:BuildCompleteConnection={BuildCompleteConnection} /p:BuildIsOfficialConnection={BuildIsOfficialConnection} /p:DocumentDbKey={DocumentDbKey} /p:DocumentDbUri=https://hms.documents.azure.com:443/ /p:FuncTestsDisabled=true /p:Performance=true")
}
// perf tests can be built on any Windows
label("windows10 || windows7 || windows")
}
// Set up standard options.
Utilities.standardJobSetup(newJob, project, /* isPR */ false, "*/${branch}")
// Set a periodic trigger
Utilities.addPeriodicTrigger(newJob, '@daily')
Utilities.addPrivatePermissions(newJob)
}
}
// **************************
// Define ARM64 testing. Built locally and submitted to lab machines
// **************************
['Windows_NT'].each { os ->
['Debug', 'Release'].each { configurationGroup ->
def newJobName = "arm64_${os.toLowerCase()}_${configurationGroup.toLowerCase()}"
def arm64Users = ['ianhays', 'kyulee1', 'gkhanna79', 'weshaggard', 'stephentoub', 'rahku', 'ramarag']
def newJob = job(Utilities.getFullJobName(project, newJobName, /* isPR */ false)) {
steps {
// build the world, but don't run the tests
batchFile("build-native.cmd -buildArch=arm64 -${configurationGroup} -- toolsetDir=C:\\ats2")
batchFile("build-managed.cmd -- /p:Creator=dotnet-bot /p:ArchiveTests=true /p:ConfigurationGroup=${configurationGroup} /p:TestDisabled=true /p:TestProduct=CoreFx /p:Branch=${branch} /p:FilterToOSGroup=${os} /p:TargetOS=${os} /p:OSGroup=${os} /p:Platform=ARM64 /p:TestArchitecture=arm64 /p:DefaultTestTFM=netcoreapp1.1 /p:TestNugetRuntimeId=win10-arm64")
}
label("arm64_corefx")
// Kick off the test run
publishers {
archiveArtifacts {
pattern("bin/tests/${os}.ARM64.${configurationGroup}/archive/tests/netcoreapp1.1/**")
onlyIfSuccessful(true)
allowEmpty(false)
}
postBuildScripts {
steps {
// Transfer the tests to the ARM64 machine and signal it to begin
batchFile("Z:\\arm64\\common\\scripts_corefx\\JenkinsPostBuild.cmd %WORKSPACE% ${configurationGroup} %BUILD_NUMBER%")
}
onlyIfBuildSucceeds(true)
onlyIfBuildFails(false)
}
}
}
// Set up standard options.
Utilities.standardJobSetup(newJob, project, /* isPR */ false, "*/${branch}")
// Set a daily trigger
Utilities.addPeriodicTrigger(newJob, '@daily')
// Set up a PR trigger that is only triggerable by certain members
Utilities.addPrivateGithubPRTriggerForBranch(newJob, branch, "Windows_NT ARM64 ${configurationGroup} Build and Test", "(?i).*test\\W+ARM64\\W+${os}\\W+${configurationGroup}", null, arm64Users)
// Set up a per-push trigger
Utilities.addGithubPushTrigger(newJob)
// Get results
Utilities.addXUnitDotNETResults(newJob, 'bin/tests/testresults/**/testResults.xml')
}
}
// **************************
// Define innerloop testing. These jobs run on every merge and a subset of them run on every PR, the ones
// that don't run per PR can be requested via a magic phrase.
// **************************
[true, false].each { isPR ->
['Debug', 'Release'].each { configurationGroup ->
['Windows_NT', 'Ubuntu14.04', 'Ubuntu16.04', 'Debian8.4', 'CentOS7.1', 'OpenSUSE13.2', 'Fedora23', 'RHEL7.2', 'OSX'].each { osName ->
def osGroup = osGroupMap[osName]
def newJobName = "${osName.toLowerCase()}_${configurationGroup.toLowerCase()}"
def newJob = job(Utilities.getFullJobName(project, newJobName, isPR)) {
// On Windows we use the packer to put together everything. On *nix we use tar
steps {
if (osName == 'Windows 10' || osName == 'Windows 7' || osName == 'Windows_NT') {
batchFile("call \"C:\\Program Files (x86)\\Microsoft Visual Studio 14.0\\VC\\vcvarsall.bat\" x86 && build.cmd -${configurationGroup} -os=${osGroup} -- /p:WithoutCategories=IgnoreForCI")
batchFile("C:\\Packer\\Packer.exe .\\bin\\build.pack .\\bin")
}
else {
// Use Server GC for Ubuntu/OSX Debug PR build & test
def useServerGC = (configurationGroup == 'Release' && isPR) ? 'useServerGC' : ''
shell("HOME=\$WORKSPACE/tempHome ./build.sh -${configurationGroup.toLowerCase()} -testWithLocalLibraries -- ${useServerGC} /p:TestNugetRuntimeId=${targetNugetRuntimeMap[osName]} /p:WithoutCategories=IgnoreForCI")
// Tar up the appropriate bits. On OSX the tarring is a different syntax for exclusion.
if (osName == 'OSX') {
shell("tar -czf bin/build.tar.gz --exclude *.Tests bin/*.${configurationGroup} bin/ref bin/packages")
}
else {
shell("tar -czf bin/build.tar.gz bin/*.${configurationGroup} bin/ref bin/packages --exclude=*.Tests")
}
}
}
}
// Set the affinity.
Utilities.setMachineAffinity(newJob, osName, 'latest-or-auto')
// Set up standard options.
Utilities.standardJobSetup(newJob, project, isPR, "*/${branch}")
// Add the unit test results
Utilities.addXUnitDotNETResults(newJob, 'bin/tests/**/testResults.xml')
def archiveContents = "msbuild.log"
if (osName.contains('Windows')) {
// Packer.exe is a .NET Framework application. When we can use it from the tool-runtime, we can archive the ".pack" file here.
archiveContents += ",bin/build.pack"
}
else {
archiveContents += ",bin/build.tar.gz"
}
// Add archival for the built data.
Utilities.addArchival(newJob, archiveContents, '', doNotFailIfNothingArchived=true, archiveOnlyIfSuccessful=false)
// Set up triggers
if (isPR) {
// Set PR trigger, we run Windows_NT, Ubuntu 14.04, CentOS 7.1 and OSX on every PR.
if ( osName == 'Windows_NT' || osName == 'Ubuntu14.04' || osName == 'CentOS7.1' || osName == 'OSX' ) {
Utilities.addGithubPRTriggerForBranch(newJob, branch, "Innerloop ${osName} ${configurationGroup} Build and Test")
}
else {
Utilities.addGithubPRTriggerForBranch(newJob, branch, "Innerloop ${osName} ${configurationGroup} Build and Test", "(?i).*test\\W+innerloop\\W+${osName}\\W+${configurationGroup}.*")
}
}
else {
// Set a push trigger
Utilities.addGithubPushTrigger(newJob)
}
}
}
}
// **************************
// Define Linux ARM Emulator testing. This creates a per PR job which
// cross builds native binaries for the Emulator rootfs.
// NOTE: To add Ubuntu-ARM cross build jobs to this code, add the Ubuntu OS to the
// OS array, branch the steps to be performed by Ubuntu and the Linux ARM emulator
// based on the OS being handled, and handle the triggers accordingly
// (the machine affinity of the new job remains the same)
// **************************
[true, false].each { isPR ->
['Debug', 'Release'].each { configurationGroup ->
['LinuxARMEmulator'].each { osName ->
def osGroup = osGroupMap[osName]
def newJobName = "${osName.toLowerCase()}_cross_${configurationGroup.toLowerCase()}"
def arch = "arm-softfp"
// Setup variables to hold emulator folder path and the rootfs mount path
def armemul_path = '/opt/linux-arm-emulator'
def armrootfs_mountpath = '/opt/linux-arm-emulator-root'
def newJob = job(Utilities.getFullJobName(project, newJobName, isPR)) {
steps {
// Call the arm32_ci_script.sh script to perform the cross build of native corefx
shell("./scripts/arm32_ci_script.sh --emulatorPath=${armemul_path} --mountPath=${armrootfs_mountpath} --buildConfig=${configurationGroup.toLowerCase()} --verbose")
// Archive the native and managed binaries
shell("tar -czf bin/build.tar.gz bin/*.${configurationGroup} bin/ref bin/packages --exclude=*.Tests")
}
}
// The cross build jobs run on Ubuntu. The arm-cross-latest version
// contains the packages needed for cross building corefx
Utilities.setMachineAffinity(newJob, 'Ubuntu14.04', 'arm-cross-latest')
// Set up standard options.
Utilities.standardJobSetup(newJob, project, isPR, "*/${branch}")
// Add archival for the built binaries
def archiveContents = "bin/build.tar.gz"
Utilities.addArchival(newJob, archiveContents)
// Set up triggers
if (isPR) {
if (osName == 'LinuxARMEmulator') {
Utilities.addGithubPRTriggerForBranch(newJob, branch, "Innerloop Linux ARM Emulator ${configurationGroup} Cross Build")
}
}
else {
// Set a push trigger
Utilities.addGithubPushTrigger(newJob)
}
}
}
}
JobReport.Report.generateJobReport(out)