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netci.groovy
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// Import the utility functionality.
import jobs.generation.Utilities;
def project = GithubProject
// Globals
// Map of os -> osGroup.
def osGroupMap = ['Ubuntu':'Linux',
'Ubuntu15.10':'Linux',
'Debian8.2':'Linux',
'OSX':'OSX',
'Windows_NT':'Windows_NT',
'FreeBSD':'FreeBSD',
'CentOS7.1': 'Linux',
'OpenSUSE13.2': 'Linux',
'RHEL7.2': 'Linux']
// Map of os -> nuget runtime
def targetNugetRuntimeMap = ['OSX' : 'osx.10.10-x64',
'Ubuntu' : 'ubuntu.14.04-x64',
'Ubuntu15.10' : 'ubuntu.14.04-x64',
'Debian8.2' : 'ubuntu.14.04-x64',
'FreeBSD' : 'ubuntu.14.04-x64',
'CentOS7.1' : 'centos.7-x64',
'OpenSUSE13.2' : 'ubuntu.14.04-x64',
'RHEL7.2': 'rhel.7-x64']
def branchList = ['master', 'rc2', 'pr']
def osShortName = ['Windows 10': 'win10',
'Windows 7' : 'win7',
'Windows_NT' : 'windows_nt',
'Ubuntu14.04' : 'ubuntu14.04',
'OSX' : 'osx',
'Windows Nano' : 'winnano',
'Ubuntu15.10' : 'ubuntu15.10',
'CentOS7.1' : 'centos7.1',
'OpenSUSE13.2' : 'opensuse13.2',
'RHEL7.2' : 'rhel7.2']
def static getFullBranchName(def branch) {
def branchMap = ['master':'*/master',
'rc2':'*/release/1.0.0-rc2',
'pr':'*/master']
def fullBranchName = branchMap.get(branch, null)
assert fullBranchName != null : "Could not find a full branch name for ${branch}"
return branchMap[branch]
}
def static getJobName(def name, def branchName) {
def baseName = name
if (branchName == 'rc2') {
baseName += "_rc2"
}
return baseName
}
// **************************
// Define code coverage build
// **************************
branchList.each { branchName ->
def isPR = (branchName == 'pr')
def newJob = job(getJobName(Utilities.getFullJobName(project, 'code_coverage_windows', isPR), branchName)) {
steps {
batchFile('call "C:\\Program Files (x86)\\Microsoft Visual Studio 14.0\\Common7\\Tools\\VsDevCmd.bat" && build.cmd /p:Coverage=true')
}
}
// Set up standard options
Utilities.standardJobSetup(newJob, project, isPR, getFullBranchName(branchName))
// 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')
// Set triggers
if (isPR) {
// Set PR trigger
Utilities.addGithubPRTrigger(newJob, 'Code Coverage Windows Debug', '(?i).*test\\W+code\\W+coverage.*')
}
else {
// Set a periodic trigger
Utilities.addPeriodicTrigger(newJob, '@daily')
}
}
// **************************
// Define code formatter check build
// **************************
branchList.each { branchName ->
def isPR = (branchName == 'pr')
def newJob = job(getJobName(Utilities.getFullJobName(project, 'native_code_format_check', isPR), branchName)) {
steps {
shell('python src/Native/format-code.py checkonly')
}
}
// Set up standard options.
Utilities.standardJobSetup(newJob, project, isPR, getFullBranchName(branchName))
// Set the machine affinity to Ubuntu machines
Utilities.setMachineAffinity(newJob, 'Ubuntu', 'latest-or-auto')
if (isPR) {
// Set PR trigger. Only trigger when the phrase is said.
Utilities.addGithubPRTrigger(newJob, '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.
// **************************
branchList.each { branchName ->
['Windows Nano'].each { os ->
['Debug', 'Release'].each { configurationGroup ->
def isPR = (branchName == 'pr')
def newJobName = "outerloop_${osShortName[os]}_${configurationGroup.toLowerCase()}"
def newBuildJobName = "outerloop_${osShortName[os]}_${configurationGroup.toLowerCase()}_bld"
def newBuildJob = job(getJobName(Utilities.getFullJobName(project, newBuildJobName, isPR), branchName)) {
steps {
batchFile("call \"C:\\Program Files (x86)\\Microsoft Visual Studio 14.0\\VC\\vcvarsall.bat\" x86 && build.cmd /p:ConfigurationGroup=${configurationGroup} /p:SkipTests=true")
// Package up the results.
batchFile("C:\\Packer\\Packer.exe .\\bin\\build.pack .\\bin")
}
}
// 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, getFullBranchName(branchName))
// Archive the results
Utilities.addArchival(newBuildJob, "bin/build.pack,run-test.cmd,bin/osGroup.AnyCPU.${configurationGroup}/**,bin/ref/**,bin/packages/**,msbuild.log")
def fullCoreFXBuildJobName = Utilities.getFolderName(project) + '/' + newBuildJob.name
def newTestJobName = "outerloop_${osShortName[os]}_${configurationGroup.toLowerCase()}_tst"
def newTestJob = job(getJobName(Utilities.getFullJobName(project, newTestJobName, isPR), branchName)) {
steps {
// The tests/corefx components
copyArtifacts(fullCoreFXBuildJobName) {
includePatterns('bin/build.pack')
includePatterns('run-test.cmd')
buildSelector {
buildNumber('\${COREFX_BUILD}')
}
}
// Unpack the build data
batchFile("PowerShell -command \"\"C:\\Packer\\unpacker.ps1 .\\bin\\build.pack .\\bin > .\\bin\\unpacker.log\"\"")
// Run the tests
batchFile("run-test.cmd .\\bin\\tests\\Windows_NT.AnyCPU.${configurationGroup}")
}
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, os)
// Set up standard options.
Utilities.addStandardOptions(newTestJob, isPR)
// Add the unit test results
Utilities.addXUnitDotNETResults(newTestJob, 'bin/tests/**/testResults.xml')
def fullCoreFXTestJobName = Utilities.getFolderName(project) + '/' + newTestJob.name
def newJob = buildFlowJob(getJobName(Utilities.getFullJobName(project, newJobName, isPR), branchName)) {
buildFlow("""
b = build(params, '${fullCoreFXBuildJobName}')
build(params +
[COREFX_BUILD: b.build.number], '${fullCoreFXTestJobName}')
""")
}
// Set the machine affinity.
Utilities.setMachineAffinity(newJob, os)
// Set up standard options.
Utilities.standardJobSetup(newJob, project, isPR, getFullBranchName(branchName))
// Set up appropriate triggers. PR on demand, otherwise nightly
if (isPR) {
// Set PR trigger.
// TODO: More elaborate regex trigger?
Utilities.addGithubPRTrigger(newJob, "OuterLoop ${os} ${configurationGroup}", "(?i).*test\\W+outerloop\\W+${os}\\W+${configurationGroup}.*")
}
else {
// Set a periodic trigger
Utilities.addPeriodicTrigger(newJob, '@daily')
}
}
}
}
// **************************
// Define outerloop testing for linux OSes that can't build. Run locally on each machine.
// **************************
def outerloopLinuxOSes = ['Ubuntu15.10', 'CentOS7.1', 'OpenSUSE13.2', 'RHEL7.2']
branchList.each { branchName ->
['Debug', 'Release'].each { configurationGroup ->
outerloopLinuxOSes.each { os ->
def isPR = (branchName == 'pr')
def osGroup = osGroupMap[os]
//
// First define the nativecomp build
//
def newNativeCompBuildJobName = "outerloop_nativecomp_${os.toLowerCase()}_${configurationGroup.toLowerCase()}"
def newNativeCompJob = job(getJobName(Utilities.getFullJobName(project, newNativeCompBuildJobName, isPR), branchName)) {
steps {
shell("./build.sh native x64 ${configurationGroup.toLowerCase()}")
}
}
// Set the affinity. Use the 'latest or auto' version to pick up
// new auto images.
Utilities.setMachineAffinity(newNativeCompJob, os, 'outer-latest-or-auto')
// Set up standard options.
Utilities.standardJobSetup(newNativeCompJob, project, isPR, getFullBranchName(branchName))
// Add archival for the built data.
Utilities.addArchival(newNativeCompJob, "bin/**")
//
// First we set up a build job that builds the corefx repo on Windows
//
def newBuildJobName = "outerloop_${os.toLowerCase()}_${configurationGroup.toLowerCase()}_bld"
def newBuildJob = job(getJobName(Utilities.getFullJobName(project, newBuildJobName, isPR), branchName)) {
steps {
batchFile("call \"C:\\Program Files (x86)\\Microsoft Visual Studio 14.0\\VC\\vcvarsall.bat\" x86 && build.cmd /p:ConfigurationGroup=${configurationGroup} /p:OSGroup=${osGroup} /p:SkipTests=true /p:TestNugetRuntimeId=${targetNugetRuntimeMap[os]}")
// Package up the results.
batchFile("C:\\Packer\\Packer.exe .\\bin\\build.pack .\\bin")
}
}
// 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, getFullBranchName(branchName))
// Archive the results
Utilities.addArchival(newBuildJob, "bin/build.pack,bin/osGroup.AnyCPU.${configurationGroup}/**,bin/ref/**,bin/packages/**,msbuild.log")
//
// Then we set up a job that runs the test on the target OS
//
def fullNativeCompBuildJobName = Utilities.getFolderName(project) + '/' + newNativeCompJob.name
def fullCoreFXBuildJobName = Utilities.getFolderName(project) + '/' + newBuildJob.name
def newTestJobName = "outerloop_${os.toLowerCase()}_${configurationGroup.toLowerCase()}_tst"
def newTestJob = job(getJobName(Utilities.getFullJobName(project, newTestJobName, isPR), branchName)) {
steps {
// Copy data from other builds.
// TODO: Add a new job or allow for copying coreclr from debug build
// CoreCLR
copyArtifacts("dotnet_coreclr/master/release_${os.toLowerCase()}") {
excludePatterns('**/testResults.xml', '**/*.ni.dll')
buildSelector {
latestSuccessful(true)
}
}
// MSCorlib
copyArtifacts("dotnet_coreclr/master/release_windows_nt") {
includePatterns("bin/Product/${osGroup}*/**")
excludePatterns('**/testResults.xml', '**/*.ni.dll')
buildSelector {
latestSuccessful(true)
}
}
// Native components
copyArtifacts(fullNativeCompBuildJobName) {
includePatterns("bin/**")
buildSelector {
buildNumber('\${COREFX_NATIVECOMP_BUILD}')
}
}
// The tests/corefx components
copyArtifacts(fullCoreFXBuildJobName) {
includePatterns('bin/build.pack')
buildSelector {
buildNumber('\${COREFX_BUILD}')
}
}
// Unpack the build data
shell("unpacker ./bin/build.pack ./bin")
// Export the LTTNG environment variable and then run the tests
shell("""export LTTNG_HOME=/home/dotnet-bot
sudo ./run-test.sh \\
--configurationGroup ${configurationGroup} \\
--os ${osGroup} \\
--corefx-tests \${WORKSPACE}/bin/tests/${osGroup}.AnyCPU.${configurationGroup} \\
--coreclr-bins \${WORKSPACE}/bin/Product/${osGroup}.x64.Release/ \\
--mscorlib-bins \${WORKSPACE}/bin/Product/${osGroup}.x64.Release/ \\
--outerloop
sudo find . -name \"testResults.xml\" -exec chmod 777 {} \\;
""")
}
// Add parameters for the input jobs
parameters {
stringParam('COREFX_BUILD', '', 'Build number to copy CoreFX test binaries from')
stringParam('COREFX_NATIVECOMP_BUILD', '', 'Build number to copy CoreFX native components from')
}
}
// Set the affinity. All of these run on the target
Utilities.setMachineAffinity(newTestJob, os, 'outer-latest-or-auto')
// Set up standard options.
Utilities.standardJobSetup(newTestJob, project, isPR, getFullBranchName(branchName))
// Add the unit test results
Utilities.addXUnitDotNETResults(newTestJob, '**/testResults.xml')
//
// Then we set up a flow job that runs the build and the nativecomp build in parallel and then executes.
// the test job
//
def fullCoreFXTestJobName = Utilities.getFolderName(project) + '/' + newTestJob.name
def flowJobName = "outerloop_${os.toLowerCase()}_${configurationGroup.toLowerCase()}"
def newFlowJob = buildFlowJob(getJobName(Utilities.getFullJobName(project, flowJobName, isPR), branchName)) {
buildFlow("""
parallel (
{ nativeCompBuild = build(params, '${fullNativeCompBuildJobName}') },
{ coreFXBuild = build(params, '${fullCoreFXBuildJobName}') }
)
// Then run the test job
build(params +
[COREFX_BUILD: coreFXBuild.build.number,
COREFX_NATIVECOMP_BUILD : nativeCompBuild.build.number], '${fullCoreFXTestJobName}')
""")
// Needs a workspace
configure {
def buildNeedsWorkspace = it / 'buildNeedsWorkspace'
buildNeedsWorkspace.setValue('true')
}
}
// Set the affinity. All of these run on the target
Utilities.setMachineAffinity(newFlowJob, os, 'outer-latest-or-auto')
// Set up standard options.
Utilities.standardJobSetup(newFlowJob, project, isPR, getFullBranchName(branchName))
// Set up triggers
if (isPR) {
// Set PR trigger.
Utilities.addGithubPRTrigger(newFlowJob, "OuterLoop ${os} ${configurationGroup}", "(?i).*test\\W+outerloop\\W+${os}\\W+${configurationGroup}.*")
}
else {
// Set a push trigger
Utilities.addPeriodicTrigger(newFlowJob, '@daily')
}
}
}
}
// **************************
// Define outerloop testing for OSes that can build and run. Run locally on each machine.
// **************************
branchList.each { branchName ->
['Windows 10', 'Windows 7', 'Windows_NT', 'Ubuntu14.04', 'OSX'].each { os ->
['Debug', 'Release'].each { configurationGroup ->
def isPR = (branchName == 'pr')
def newJobName = "outerloop_${osShortName[os]}_${configurationGroup.toLowerCase()}"
def newJob = job(getJobName(Utilities.getFullJobName(project, newJobName, isPR), branchName)) {
steps {
if (os == 'Windows 10' || os == 'Windows 7' || os == 'Windows_NT') {
batchFile("call \"C:\\Program Files (x86)\\Microsoft Visual Studio 14.0\\VC\\vcvarsall.bat\" x86 && Build.cmd /p:ConfigurationGroup=${configurationGroup} /p:Outerloop=true /p:TestWithLocalLibraries=true")
}
else if (os == 'OSX') {
shell("HOME=\$WORKSPACE/tempHome ./build.sh /p:ConfigurationGroup=${configurationGroup} /p:Outerloop=true /p:TestWithLocalLibraries=true")
}
else {
shell("sudo HOME=\$WORKSPACE/tempHome ./build.sh /p:ConfigurationGroup=${configurationGroup} /p:Outerloop=true /p:TestWithLocalLibraries=true")
}
}
}
// Set the affinity. OS name matches the machine affinity.
if (os == 'Ubuntu14.04') {
Utilities.setMachineAffinity(newJob, os, "outer-latest-or-auto")
}
else {
Utilities.setMachineAffinity(newJob, os, 'latest-or-auto')
}
// Set up standard options.
Utilities.standardJobSetup(newJob, project, isPR, getFullBranchName(branchName))
// Add the unit test results
Utilities.addXUnitDotNETResults(newJob, 'bin/tests/**/testResults.xml')
// Unix runs take more than 2 hours to run, so we set the timeout to be longer.
if (os == 'Ubuntu14.04' || os == 'OSX') {
Utilities.setJobTimeout(newJob, 240)
}
// Set up appropriate triggers. PR on demand, otherwise nightly
if (isPR) {
// Set PR trigger.
// TODO: More elaborate regex trigger?
Utilities.addGithubPRTrigger(newJob, "OuterLoop ${os} ${configurationGroup}", "(?i).*test\\W+outerloop\\W+${os}\\W+${configurationGroup}.*")
}
else {
// Set a periodic trigger
Utilities.addPeriodicTrigger(newJob, '@daily')
}
}
}
}
// **************************
// Define perf testing. Built locally and submitted to Helix.
// **************************
// builds with secrets should never be available for pull requests.
// right now perf tests are only run on Win10 (but can be built on any Windows)
['Windows 10'].each { os ->
['Debug', 'Release'].each { configurationGroup ->
def newJobName = "perf_${osShortName[os]}_${configurationGroup.toLowerCase()}"
def newJob = job(Utilities.getFullJobName(project, newJobName, /* isPR */ false)) {
steps {
helix("Build.cmd /p:Creator=dotnet-bot /p:ArchiveTests=true /p:ConfigurationGroup=${configurationGroup} /p:Configuration=Windows_${configurationGroup} /p:TestDisabled=true /p:EnableCloudTest=true /p:BuildMoniker={uniqueId} /p:TargetQueue=Windows.10.Amd64 /p:TestProduct=CoreFx /p:Branch=master /p:OSGroup=Windows_NT /p:CloudDropAccountName=dotnetbuilddrops /p:CloudResultsAccountName=dotnetjobresults /p:CloudDropAccessToken={CloudDropAccessToken} /p:CloudResultsAccessToken={CloudResultsAccessToken} /p:BuildCompleteConnection={BuildCompleteConnection} /p:BuildIsOfficialConnection={BuildIsOfficialConnection} /p:DocumentDbKey={DocumentDbKey} /p:DocumentDbUri=https://hms.documents.azure.com:443/ /p:FuncTestsDisabled=true /p:Performance=true")
}
// perf tests can be built on any Windows
label("windows10 || windows7 || windows")
}
// Set up standard options.
Utilities.standardJobSetup(newJob, project, /* isPR */ false)
// Set a periodic trigger
Utilities.addPeriodicTrigger(newJob, '@daily')
}
}
// Here are the OS's that needs separate builds and tests.
// We create a build for the native compilation, a build for the build of corefx itself (on Windows)
// and then a build for the test of corefx on the target platform. Then we link them with a build
// flow job.
def innerLoopNonWindowsOSs = ['Ubuntu', 'Ubuntu15.10', 'Debian8.2', 'OSX', 'FreeBSD', 'CentOS7.1', 'OpenSUSE13.2', 'RHEL7.2']
branchList.each { branchName ->
['Debug', 'Release'].each { configurationGroup ->
innerLoopNonWindowsOSs.each { os ->
def isPR = (branchName == 'pr')
def osGroup = osGroupMap[os]
//
// First define the nativecomp build
//
def newNativeCompBuildJobName = "nativecomp_${os.toLowerCase()}_${configurationGroup.toLowerCase()}"
def newNativeCompJob = job(getJobName(Utilities.getFullJobName(project, newNativeCompBuildJobName, isPR), branchName)) {
steps {
shell("./build.sh native x64 ${configurationGroup.toLowerCase()}")
}
}
// Set the affinity. Use the 'latest or auto' version to pick up
// new auto images.
Utilities.setMachineAffinity(newNativeCompJob, os, 'latest-or-auto')
// Set up standard options.
Utilities.standardJobSetup(newNativeCompJob, project, isPR, getFullBranchName(branchName))
// Add archival for the built data.
Utilities.addArchival(newNativeCompJob, "bin/**")
//
// First we set up a build job that builds the corefx repo on Windows
//
def newBuildJobName = "${os.toLowerCase()}_${configurationGroup.toLowerCase()}_bld"
def newBuildJob = job(getJobName(Utilities.getFullJobName(project, newBuildJobName, isPR), branchName)) {
steps {
batchFile("call \"C:\\Program Files (x86)\\Microsoft Visual Studio 14.0\\VC\\vcvarsall.bat\" x86 && build.cmd /p:ConfigurationGroup=${configurationGroup} /p:OSGroup=${osGroup} /p:SkipTests=true /p:TestNugetRuntimeId=${targetNugetRuntimeMap[os]}")
// Package up the results.
batchFile("C:\\Packer\\Packer.exe .\\bin\\build.pack .\\bin")
}
}
// 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, getFullBranchName(branchName))
// Archive the results
Utilities.addArchival(newBuildJob, "bin/build.pack,bin/osGroup.AnyCPU.${configurationGroup}/**,bin/ref/**,bin/packages/**,msbuild.log")
// Use Server GC for Ubuntu/OSX Debug PR build & test
def serverGCString = ''
if ((os == 'Ubuntu' || os == 'OSX') && configurationGroup == 'Release' && isPR){
serverGCString = '--useServerGC'
}
//
// Then we set up a job that runs the test on the target OS
//
def fullNativeCompBuildJobName = Utilities.getFolderName(project) + '/' + newNativeCompJob.name
def fullCoreFXBuildJobName = Utilities.getFolderName(project) + '/' + newBuildJob.name
def newTestJobName = "${os.toLowerCase()}_${configurationGroup.toLowerCase()}_tst"
def newTestJob = job(getJobName(Utilities.getFullJobName(project, newTestJobName, isPR), branchName)) {
steps {
// Copy data from other builds.
// TODO: Add a new job or allow for copying coreclr from debug build
// CoreCLR
copyArtifacts("dotnet_coreclr/master/release_${os.toLowerCase()}") {
excludePatterns('**/testResults.xml', '**/*.ni.dll')
buildSelector {
latestSuccessful(true)
}
}
// MSCorlib
copyArtifacts("dotnet_coreclr/master/release_windows_nt") {
includePatterns("bin/Product/${osGroup}*/**")
excludePatterns('**/testResults.xml', '**/*.ni.dll')
buildSelector {
latestSuccessful(true)
}
}
// Native components
copyArtifacts(fullNativeCompBuildJobName) {
includePatterns("bin/**")
buildSelector {
buildNumber('\${COREFX_NATIVECOMP_BUILD}')
}
}
// The tests/corefx components
copyArtifacts(fullCoreFXBuildJobName) {
includePatterns('bin/build.pack')
buildSelector {
buildNumber('\${COREFX_BUILD}')
}
}
// Unpack the build data
shell("unpacker ./bin/build.pack ./bin")
// Export the LTTNG environment variable and then run the tests
shell("""export LTTNG_HOME=/home/dotnet-bot
./run-test.sh \\
--configurationGroup ${configurationGroup} \\
--os ${osGroup} \\
--corefx-tests \${WORKSPACE}/bin/tests/${osGroup}.AnyCPU.${configurationGroup} \\
--coreclr-bins \${WORKSPACE}/bin/Product/${osGroup}.x64.Release/ \\
--mscorlib-bins \${WORKSPACE}/bin/Product/${osGroup}.x64.Release/ \\
${serverGCString}
""")
}
// Add parameters for the input jobs
parameters {
stringParam('COREFX_BUILD', '', 'Build number to copy CoreFX test binaries from')
stringParam('COREFX_NATIVECOMP_BUILD', '', 'Build number to copy CoreFX native components from')
}
}
// Set the affinity. All of these run on the target
Utilities.setMachineAffinity(newTestJob, os, 'latest-or-auto')
// Set up standard options.
Utilities.standardJobSetup(newTestJob, project, isPR, getFullBranchName(branchName))
// Add the unit test results
Utilities.addXUnitDotNETResults(newTestJob, '**/testResults.xml')
//
// Then we set up a flow job that runs the build and the nativecomp build in parallel and then executes.
// the test job
//
def fullCoreFXTestJobName = Utilities.getFolderName(project) + '/' + newTestJob.name
def flowJobName = "${os.toLowerCase()}_${configurationGroup.toLowerCase()}"
def newFlowJob = buildFlowJob(getJobName(Utilities.getFullJobName(project, flowJobName, isPR), branchName)) {
buildFlow("""
parallel (
{ nativeCompBuild = build(params, '${fullNativeCompBuildJobName}') },
{ coreFXBuild = build(params, '${fullCoreFXBuildJobName}') }
)
// Then run the test job
build(params +
[COREFX_BUILD: coreFXBuild.build.number,
COREFX_NATIVECOMP_BUILD : nativeCompBuild.build.number], '${fullCoreFXTestJobName}')
""")
// Needs a workspace
configure {
def buildNeedsWorkspace = it / 'buildNeedsWorkspace'
buildNeedsWorkspace.setValue('true')
}
}
// Set the affinity. All of these run on the target
Utilities.setMachineAffinity(newFlowJob, os, 'latest-or-auto')
// Set up standard options.
Utilities.standardJobSetup(newFlowJob, project, isPR, getFullBranchName(branchName))
// Set up triggers
if (isPR) {
// Set PR trigger.
// Set of OS's that work currently.
if (os in ['OSX', 'Ubuntu', 'OpenSUSE13.2', 'CentOS7.1']) {
// TODO #6070: Temporarily disabled due to failing globalization tests on OpenSUSE.
if (os != 'OpenSUSE13.2') {
Utilities.addGithubPRTrigger(newFlowJob, "Innerloop ${os} ${configurationGroup} Build and Test")
}
}
else {
Utilities.addGithubPRTrigger(newFlowJob, "Innerloop ${os} ${configurationGroup} Build and Test", "(?i).*test\\W+${os}.*")
}
}
else {
// Set a push trigger
Utilities.addGithubPushTrigger(newFlowJob)
}
}
}
}
// Generate the build and test versions for Windows_NT. When full build/run is supported on a platform, those platforms
// could be removed from above and then added in below.
def supportedFullCyclePlatforms = ['Windows_NT']
branchList.each { branchName ->
['Debug', 'Release'].each { configurationGroup ->
supportedFullCyclePlatforms.each { osGroup ->
def isPR = (branchName == 'pr')
def newJobName = "${osGroup.toLowerCase()}_${configurationGroup.toLowerCase()}"
def newJob = job(getJobName(Utilities.getFullJobName(project, newJobName, isPR), branchName)) {
steps {
batchFile("call \"C:\\Program Files (x86)\\Microsoft Visual Studio 14.0\\VC\\vcvarsall.bat\" x86 && build.cmd /p:ConfigurationGroup=${configurationGroup} /p:OSGroup=${osGroup}")
batchFile("C:\\Packer\\Packer.exe .\\bin\\build.pack .\\bin")
}
}
// Set the affinity. All of these run on Windows currently.
Utilities.setMachineAffinity(newJob, osGroup, 'latest-or-auto')
// Set up standard options.
Utilities.standardJobSetup(newJob, project, isPR, getFullBranchName(branchName))
// Add the unit test results
Utilities.addXUnitDotNETResults(newJob, 'bin/tests/**/testResults.xml')
// Add archival for the built data.
Utilities.addArchival(newJob, "bin/build.pack,bin/${osGroup}.AnyCPU.Debug/**,bin/ref/**,bin/packages/**,msbuild.log")
// Set up triggers
if (isPR) {
// Set PR trigger.
Utilities.addGithubPRTrigger(newJob, "Innerloop ${osGroup} ${configurationGroup} Build and Test")
}
else {
// Set a push trigger
Utilities.addGithubPushTrigger(newJob)
}
}
}
}