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|
// Import the utility functionality.
import jobs.generation.Utilities;
def project = GithubProject
def static getOSGroup(def os) {
def osGroupMap = ['Ubuntu':'Linux',
'Debian8.2':'Linux',
'OSX':'OSX',
'Windows_NT':'Windows_NT',
'FreeBSD':'FreeBSD',
'CentOS7.1': 'Linux',
'OpenSUSE13.2': 'Linux']
def osGroup = osGroupMap.get(os, null)
assert osGroup != null : "Could not find os group for ${os}"
return osGroupMap[os]
}
// We use this class (vs variables) so that the static functions can access data here.
class Constants {
// Innerloop build OS's
// The Windows_NT_BuildOnly OS is a way to speed up the Non-NT builds temporarily by avoiding
// test execution in the build flow runs. It generates the exact same build
// as Windows_NT but without the tests.
def static osList = ['Ubuntu', 'Debian8.2', 'OSX', 'Windows_NT', 'Windows_NT_BuildOnly', 'FreeBSD', 'CentOS7.1', 'OpenSUSE13.2']
def static crossList = ['Ubuntu', 'OSX']
// This is a set of JIT stress modes combined with the set of variables that
// need to be set to actually enable that stress mode. The key of the map is the stress mode and
// the values are the environment variables
def static jitStressModeScenarios = ['minopts' : ['COMPLUS_JitMinOpts' : '1']]
// This is the basic set of scenarios
def static basicScenarios = ['default', 'pri1', 'ilrt']
// This is the set of configurations
def static configurationList = ['Debug', 'Checked', 'Release']
// This is the set of architectures
def static architectureList = ['arm', 'arm64', 'x64', 'x86']
}
def static setMachineAffinity(def job, def os, def architecture) {
if (architecture == 'arm64' && os == 'Windows_NT') {
// For cross compilation
job.with {
label('arm64')
}
} else {
return Utilities.setMachineAffinity(job, os);
}
}
// Generates the string for creating a file that sets environment variables
// that makes it possible to run stress modes. Writes the script to a file called
// SetStressModes.[sh/cmd]
def static genStressModeScriptStep(def os, def stressModeName, def stressModeVars, def stepScriptLocation) {
def stepScript = ''
if (os == 'Windows_NT') {
stepScript += "echo Creating TestEnv Script for ${stressModeName}\r\n"
stepScript += "del ${stepScriptLocation}\r\n"
stressModeVars.each{ k, v ->
// Write out what we are writing to the script file
stepScript += "echo Setting ${k}=${v}\r\n"
// Write out the set itself to the script file`
stepScript += "echo set ${k}=${v} >> ${stepScriptLocation}\r\n"
}
}
else {
println("Unknown OS while creating testenv script step: ${os}")
assert false
}
return stepScript
}
// Calculates the name of the build job based on some typical parameters.
//
def static getJobName(def configuration, def architecture, def os, def scenario, def isBuildOnly) {
// If the architecture is x64, do not add that info into the build name.
// Need to change around some systems and other builds to pick up the right builds
// to do that.
def suffix = scenario != 'default' ? "_${scenario}" : '';
if (isBuildOnly) {
suffix += '_bld'
}
def baseName = ''
switch (architecture) {
case 'x64':
if (scenario == 'default') {
// For now we leave x64 off of the name for compatibility with other jobs
baseName = configuration.toLowerCase() + '_' + os.toLowerCase()
}
else {
baseName = architecture.toLowerCase() + '_' + configuration.toLowerCase() + '_' + os.toLowerCase()
}
break
case 'arm64':
case 'arm':
// These are cross builds
baseName = architecture.toLowerCase() + '_cross_' + configuration.toLowerCase() + '_' + os.toLowerCase()
break
case 'x86':
baseName = architecture.toLowerCase() + '_' + configuration.toLowerCase() + '_' + os.toLowerCase()
break
default:
println("Unknown architecture: ${architecture}");
assert false
break
}
return baseName + suffix
}
// **************************
// Define the basic inner loop builds for PR and commit. This is basically just the set
// of coreclr builds over linux/osx/freebsd/windows and debug/release/checked. In addition, the windows
// builds will do a couple extra steps.
// **************************
// Adds a trigger for the PR build if one is needed. If isFlowJob is true, then this is the
// flow job that rolls up the build and test for non-windows OS's
def static addTriggers(def job, def isPR, def architecture, def os, def configuration, def scenario, def isFlowJob) {
// Non pull request builds.
if (!isPR) {
// Check scenario.
switch (scenario) {
case 'default':
switch (architecture)
{
case 'x64':
case 'x86':
if (isFlowJob || os == 'Windows_NT' || !(os in Constants.crossList)) {
// default gets a push trigger for everything
Utilities.addGithubPushTrigger(job)
}
break
case 'arm':
case 'arm64':
Utilities.addGithubPushTrigger(job)
break
default:
println("Unknown architecture: ${architecture}");
assert false
break
}
break
case 'pri1':
// Pri one gets a daily build, and only for release
if (architecture == 'x64' && configuration == 'Release') {
// We don't expect to see a job generated except in these scenarios
assert (os == 'Windows_NT') || (os in Constants.crossList)
if (isFlowJob || os == 'Windows_NT') {
Utilities.addPeriodicTrigger(job, '@daily')
}
}
break
case 'ilrt':
// ILASM/ILDASM roundtrip one gets a daily build, and only for release
if (architecture == 'x64' && configuration == 'Release') {
// We don't expect to see a job generated except in these scenarios
assert (os == 'Windows_NT') || (os in Constants.crossList)
if (isFlowJob || os == 'Windows_NT') {
Utilities.addPeriodicTrigger(job, '@daily')
}
}
break
case 'minopts':
assert (os == 'Windows_NT') || (os in Constants.crossList)
Utilities.addPeriodicTrigger(job, '@daily')
break
default:
println("Unknown scenario: ${scenario}");
assert false
break
}
return
}
// Pull request builds. Generally these fall into two categories: default triggers and on-demand triggers
// We generally only have a distinct set of default triggers but a bunch of on-demand ones.
def osGroup = getOSGroup(os)
switch (architecture) {
case 'x64':
switch (os) {
case 'OpenSUSE13.2':
assert !isFlowJob
assert scenario == 'default'
Utilities.addGithubPRTrigger(job, "${os} ${architecture} ${configuration} Build", '(?i).*test\\W+suse.*')
break
case 'Debian8.2':
assert !isFlowJob
assert scenario == 'default'
Utilities.addGithubPRTrigger(job, "${os} ${architecture} ${configuration} Build", '(?i).*test\\W+debian.*')
break
case 'Ubuntu':
case 'OSX':
// Triggers on the non-flow jobs aren't necessary here
if (!isFlowJob) {
break
}
switch (scenario) {
case 'default':
if (configuration == 'Release') {
// Default trigger
Utilities.addGithubPRTrigger(job, "${os} ${architecture} ${configuration} Build and Test")
}
break
case 'pri1':
if (configuration == 'Release') {
Utilities.addGithubPRTrigger(job, "${os} ${architecture} ${configuration} Priority 1 Build and Test", "(?i).*test\\W+${os}\\W+pri1.*")
}
break
case 'ilrt':
if (configuration == 'Release') {
Utilities.addGithubPRTrigger(job, "${os} ${architecture} ${configuration} IL RoundTrip Build and Test", "(?i).*test\\W+${os}\\W+ilrt.*")
}
break
default:
println("Unknown scenario: ${scenario}");
assert false
break
}
break
case 'CentOS7.1':
case 'OpenSUSE13.2':
assert !isFlowJob
assert scenario == 'default'
if (configuration != 'Checked') {
Utilities.addGithubPRTrigger(job, "${os} ${architecture} ${configuration} Build")
}
break
case 'Windows_NT':
switch (scenario) {
case 'default':
// Default trigger
if (configuration != 'Checked') {
Utilities.addGithubPRTrigger(job, "${os} ${architecture} ${configuration} Build and Test")
}
break
case 'pri1':
if (configuration == 'Release') {
Utilities.addGithubPRTrigger(job, "${os} ${architecture} ${configuration} Priority 1 Build and Test", "(?i).*test\\W+${os}\\W+pri1.*")
}
break
case 'ilrt':
if (configuration == 'Release') {
Utilities.addGithubPRTrigger(job, "${os} ${architecture} ${configuration} IL RoundTrip Build and Test", "(?i).*test\\W+${os}\\W+ilrt.*")
}
break
case 'minopts':
assert (os == 'Windows_NT') || (os in Constants.crossList)
Utilities.addGithubPRTrigger(job, "${os} ${architecture} ${configuration} Build and Test (Jit - MinOpts)",
"(?i).*test\\W+${os}\\W+minopts.*")
break
default:
println("Unknown scenario: ${scenario}");
assert false
break
}
break
case 'FreeBSD':
assert scenario == 'default'
if (configuration != 'Checked') {
Utilities.addGithubPRTrigger(job, "${os} ${architecture} ${configuration} Build")
}
break
default:
println("Unknown os: ${os}");
assert false
break
}
break
case 'arm64':
case 'arm':
assert scenario == 'default'
switch (os) {
case 'Ubuntu':
Utilities.addGithubPRTrigger(job, "${os} ${architecture} Cross ${configuration} Build", "(?i).*test\\W+${os}\\W+${architecture}.*")
break
case 'Windows_NT':
// Set up a private trigger
Utilities.addPrivateGithubPRTrigger(job, "${os} ${architecture} Cross ${configuration} Build",
"(?i).*test\\W+${architecture}\\W+${osGroup}.*", null, ['jashook', 'RussKeldorph', 'gkhanna79', 'briansul', 'cmckinsey', 'jkotas', 'ramarag', 'markwilkie', 'rahku', 'tzwlai', 'weshaggard'])
break
}
break
case 'x86':
assert scenario == 'default'
// For windows, x86 runs by default
if (os == 'Windows_NT') {
if (configuration != 'Checked') {
Utilities.addGithubPRTrigger(job, "${os} ${architecture} ${configuration} Build")
}
}
else {
// default trigger
Utilities.addGithubPRTrigger(job, "${os} ${architecture} ${configuration} Build", "(?i).*test\\W+${architecture}\\W+${osGroup}.*")
}
break
default:
println("Unknown architecture: ${architecture}");
assert false
break
}
}
// Additional scenario which can alter behavior
def combinedScenarios = Constants.basicScenarios + Constants.jitStressModeScenarios.keySet()
combinedScenarios.each { scenario ->
[true, false].each { isPR ->
Constants.architectureList.each { architecture ->
Constants.configurationList.each { configuration ->
Constants.osList.each { os ->
// If the OS is Windows_NT_BuildOnly, set the isBuildOnly flag to true
// and reset the os to Windows_NT
def isBuildOnly = false
if (os == 'Windows_NT_BuildOnly') {
isBuildOnly = true
os = 'Windows_NT'
}
// Skip totally unimplemented (in CI) configurations.
switch (architecture) {
case 'arm64':
// Windows or cross compiled Ubuntu
if (os != 'Windows_NT' && os != 'Ubuntu') {
return
}
break
case 'arm':
// Only Ubuntu cross implemented
if (os != 'Ubuntu') {
return
}
break
case 'x86':
// Skip non-windows
if (os != 'Windows_NT') {
return
}
break
case 'x64':
// Everything implemented
break
default:
println("Unknown architecture: ${architecture}")
assert false
break
}
// Skip scenarios (blanket skipping for jit stress modes, which are good most everywhere
// with checked builds
if (Constants.jitStressModeScenarios.containsKey(scenario)) {
if (configuration != 'Checked') {
return
}
// Since these are just execution time differences,
// skip platforms that don't execute the tests here (Windows_NT only)
if (os != 'Windows_NT' || isBuildOnly) {
return
}
// No stress modes except on x64 right now (mainly because of bad test state on x86)
if (architecture != 'x64') {
return
}
}
else {
// Skip scenarios
switch (scenario) {
case 'pri1':
// The pri1 build isn't necessary except for os's in the cross list or Windows_NT (native OS runs)
if (os != 'Windows_NT' && !(os in Constants.crossList)) {
return
}
// Only x64 for now
if (architecture != 'x64') {
return
}
break
case 'ilrt':
// The ilrt build isn't necessary except for os's in the cross list or Windows_NT (native OS runs)
if (os != 'Windows_NT' && !(os in Constants.crossList)) {
return
}
// Only x64 for now
if (architecture != 'x64') {
return
}
break
case 'default':
// Nothing skipped
break
default:
println("Unknown scenario: ${scenario}")
assert false
break
}
}
// Calculate names
def lowerConfiguration = configuration.toLowerCase()
def jobName = getJobName(configuration, architecture, os, scenario, isBuildOnly)
// Create the new job
def newJob = job(Utilities.getFullJobName(project, jobName, isPR)) {}
setMachineAffinity(newJob, os, architecture)
// Add all the standard options
Utilities.standardJobSetup(newJob, project, isPR)
addTriggers(newJob, isPR, architecture, os, configuration, scenario, false)
def buildCommands = [];
def osGroup = getOSGroup(os)
// Calculate the build steps, archival, and xunit results
switch (os) {
case 'Windows_NT':
switch (architecture) {
case 'x64':
case 'x86':
if (scenario == 'default' || Constants.jitStressModeScenarios.containsKey(scenario)) {
buildCommands += "build.cmd ${lowerConfiguration} ${architecture}"
}
else if (scenario == 'pri1') {
buildCommands += "build.cmd ${lowerConfiguration} ${architecture} Priority 1"
}
else if (scenario == 'ilrt') {
// First do the build with skiptestbuild and then build the tests with ilasm roundtrip
buildCommands += "build.cmd ${lowerConfiguration} ${architecture} skiptestbuild"
buildCommands += "test\\buildtest.cmd ${lowerConfiguration} ${architecture} ilasmroundtrip"
}
else {
println("Unknown scenario: ${scenario}")
assert false
}
// If we are running a stress mode, we should write out the set of key
// value env pairs to a file at this point and then we'll pass that to runtest.cmd
if (!isBuildOnly) {
if (Constants.jitStressModeScenarios.containsKey(scenario)) {
def stepScriptLocation = "%WORKSPACE%\\bin\\tests\\SetStressModes.bat"
buildCommands += genStressModeScriptStep(os, scenario, Constants.jitStressModeScenarios[scenario], stepScriptLocation)
// Run tests with the
buildCommands += "tests\\runtest.cmd ${lowerConfiguration} ${architecture} TestEnv ${stepScriptLocation}"
}
else if (architecture == 'x64' || !isPR) {
buildCommands += "tests\\runtest.cmd ${lowerConfiguration} ${architecture}"
}
}
// Run the rest of the build
// Build the mscorlib for the other OS's
buildCommands += "build.cmd ${lowerConfiguration} ${architecture} linuxmscorlib"
buildCommands += "build.cmd ${lowerConfiguration} ${architecture} freebsdmscorlib"
buildCommands += "build.cmd ${lowerConfiguration} ${architecture} osxmscorlib"
// Zip up the tests directory so that we don't use so much space/time copying
// 10s of thousands of files around.
buildCommands += "powershell -Command \"Add-Type -Assembly 'System.IO.Compression.FileSystem'; [System.IO.Compression.ZipFile]::CreateFromDirectory('.\\bin\\tests\\${osGroup}.${architecture}.${configuration}', '.\\bin\\tests\\tests.zip')\"";
// For windows, pull full test results and test drops for x86/x64
Utilities.addArchival(newJob, "bin/Product/**,bin/tests/tests.zip")
if (!isBuildOnly) {
if (architecture == 'x64' || !isPR) {
Utilities.addXUnitDotNETResults(newJob, 'bin/**/TestRun*.xml')
}
}
break
case 'arm64':
assert scenario == 'default'
buildCommands += "build.cmd ${lowerConfiguration} ${architecture} skiptestbuild /toolset_dir C:\\ats"
// Add archival. No xunit results for x64 windows
Utilities.addArchival(newJob, "bin/Product/**")
break
default:
println("Unknown architecture: ${architecture}");
assert false
break
}
break
case 'Ubuntu':
case 'Debian8.2':
case 'OSX':
case 'FreeBSD':
case 'CentOS7.1':
case 'OpenSUSE13.2':
switch (architecture) {
case 'x64':
case 'x86':
// Build commands are the same regardless of scenario on non-Windows other OS's.
// On other OS's we skipmscorlib but run the pal tests
buildCommands += "./build.sh skipmscorlib verbose ${lowerConfiguration} ${architecture}"
buildCommands += "src/pal/tests/palsuite/runpaltests.sh \${WORKSPACE}/bin/obj/${osGroup}.${architecture}.${configuration} \${WORKSPACE}/bin/paltestout"
// Basic archiving of the build
Utilities.addArchival(newJob, "bin/Product/**,bin/obj/*/tests/**")
// And pal tests
Utilities.addXUnitDotNETResults(newJob, '**/pal_tests.xml')
break
case 'arm64':
// We don't run the cross build except on Ubuntu
assert os == 'Ubuntu'
buildCommands += """echo \"Using rootfs in /opt/aarch64-linux-gnu-root\"
ROOTFS_DIR=/opt/aarch64-linux-gnu-root ./build.sh skipmscorlib arm64 cross verbose ${lowerConfiguration}"""
// Basic archiving of the build, no pal tests
Utilities.addArchival(newJob, "bin/Product/**")
break
case 'arm':
// We don't run the cross build except on Ubuntu
assert os == 'Ubuntu'
buildCommands += """echo \"Using rootfs in /opt/arm-liux-genueabihf-root\"
ROOTFS_DIR=/opt/arm-linux-genueabihf-root ./build.sh skipmscorlib arm cross verbose ${lowerConfiguration}"""
// Basic archiving of the build, no pal tests
Utilities.addArchival(newJob, "bin/Product/**")
break
default:
println("Unknown architecture: ${architecture}");
assert false
break
}
break
default:
println("Unknown os: ${os}");
assert false
break
}
newJob.with {
steps {
if (os == 'Windows_NT') {
buildCommands.each { buildCommand ->
batchFile(buildCommand)
}
}
else {
buildCommands.each { buildCommand ->
shell(buildCommand)
}
}
}
}
} // os
} // configuration
} // architecture
} // isPR
} // scenario
// Create the Linux/OSX coreclr test leg for debug and release and each scenario
Constants.basicScenarios.each { scenario ->
[true, false].each { isPR ->
// Architectures. x64 only at this point
['x64'].each { architecture ->
// Put the OS's supported for coreclr cross testing here
Constants.crossList.each { os ->
Constants.configurationList.each { configuration ->
// Skip scenarios
switch (scenario) {
case 'pri1':
// Nothing skipped
break
case 'ilrt':
// Nothing skipped
break
case 'default':
// Nothing skipped
break
default:
println("Unknown scenario: ${scenario}")
assert false
break
}
def lowerConfiguration = configuration.toLowerCase()
def osGroup = getOSGroup(os)
def jobName = getJobName(configuration, architecture, os, scenario, false) + "_tst"
def inputCoreCLRBuildName = Utilities.getFolderName(project) + '/' +
Utilities.getFullJobName(project, getJobName(configuration, architecture, os, scenario, false), isPR)
// If this is a stress scenario, there isn't any difference in the build job
// so we didn't create a build only job for windows_nt specific to that stress mode. Just copy
// from the default scenario
def inputWindowTestsBuildName = ''
if (Constants.jitStressModeScenarios.containsKey(scenario)) {
inputWindowTestsBuildName = Utilities.getFolderName(project) + '/' +
Utilities.getFullJobName(project, getJobName(configuration, architecture, 'windows_nt', 'default', true), isPR)
}
else {
inputWindowTestsBuildName = Utilities.getFolderName(project) + '/' +
Utilities.getFullJobName(project, getJobName(configuration, architecture, 'windows_nt', scenario, true), isPR)
}
// Enable Server GC for Ubuntu PR builds
def serverGCString = ""
if (os == 'Ubuntu' && isPR){
serverGCString = "--useServerGC"
}
def newJob = job(Utilities.getFullJobName(project, jobName, isPR)) {
// Add parameters for the inputs
parameters {
stringParam('CORECLR_WINDOWS_BUILD', '', 'Build number to copy CoreCLR windows test binaries from')
stringParam('CORECLR_BUILD', '', "Build number to copy CoreCLR ${osGroup} binaries from")
}
steps {
// Set up the copies
// Coreclr build we are trying to test
copyArtifacts(inputCoreCLRBuildName) {
excludePatterns('**/testResults.xml', '**/*.ni.dll')
buildSelector {
buildNumber('${CORECLR_BUILD}')
}
}
// Coreclr build containing the tests and mscorlib
copyArtifacts(inputWindowTestsBuildName) {
excludePatterns('**/testResults.xml', '**/*.ni.dll')
buildSelector {
buildNumber('${CORECLR_WINDOWS_BUILD}')
}
}
// Corefx native components
def corefxNativeCompBinaries =
copyArtifacts("dotnet_corefx/nativecomp_${os.toLowerCase()}_release") {
includePatterns('bin/**')
buildSelector {
latestSuccessful(true)
}
}
// CoreFX Linux binaries
copyArtifacts("dotnet_corefx/${os.toLowerCase()}_release_bld") {
includePatterns('bin/build.pack')
buildSelector {
latestSuccessful(true)
}
}
// Unpack the corefx binaries
shell("unpacker ./bin/build.pack ./bin")
// Unzip the tests first. Exit with 0
shell("unzip -q -o ./bin/tests/tests.zip -d ./bin/tests/Windows_NT.${architecture}.${configuration} || exit 0")
// Execute the tests
shell("""
./tests/runtest.sh \\
--testRootDir=\"\${WORKSPACE}/bin/tests/Windows_NT.${architecture}.${configuration}\" \\
--testNativeBinDir=\"\${WORKSPACE}/bin/obj/${osGroup}.${architecture}.${configuration}/tests\" \\
--coreClrBinDir=\"\${WORKSPACE}/bin/Product/${osGroup}.${architecture}.${configuration}\" \\
--mscorlibDir=\"\${WORKSPACE}/bin/Product/${osGroup}.${architecture}.${configuration}\" \\
--coreFxBinDir=\"\${WORKSPACE}/bin/${osGroup}.AnyCPU.Release\" \\
--coreFxNativeBinDir=\"\${WORKSPACE}/bin/${osGroup}.${architecture}.Release\" \\
\${serverGCString}""")
}
}
setMachineAffinity(newJob, os, architecture)
Utilities.standardJobSetup(newJob, project, isPR)
Utilities.addXUnitDotNETResults(newJob, '**/coreclrtests.xml')
// Create a build flow to join together the build and tests required to run this
// test.
// Windows CoreCLR build and Linux CoreCLR build (in parallel) ->
// Linux CoreCLR test
def flowJobName = getJobName(configuration, architecture, os, scenario, false) + "_flow"
def fullTestJobName = Utilities.getFolderName(project) + '/' + newJob.name
def newFlowJob = buildFlowJob(Utilities.getFullJobName(project, flowJobName, isPR)) {
buildFlow("""
// Build the input jobs in parallel
parallel (
{ coreclrBuildJob = build(params, '${inputCoreCLRBuildName}') },
{ windowsBuildJob = build(params, '${inputWindowTestsBuildName}') }
)
// And then build the test build
build(params + [CORECLR_BUILD: coreclrBuildJob.build.number,
CORECLR_WINDOWS_BUILD: windowsBuildJob.build.number], '${fullTestJobName}')
""")
// Needs a workspace
configure {
def buildNeedsWorkspace = it / 'buildNeedsWorkspace'
buildNeedsWorkspace.setValue('true')
}
}
Utilities.standardJobSetup(newFlowJob, project, isPR)
addTriggers(newFlowJob, isPR, architecture, os, configuration, scenario, true)
} // configuration
} // os
} // architecture
} // isPR
} // scenario
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