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|
// Import the utility functionality.
import jobs.generation.*
// The input project name (e.g. dotnet/coreclr)
def project = GithubProject
// The input branch name (e.g. master)
def branch = GithubBranchName
def projectFolder = Utilities.getFolderName(project) + '/' + Utilities.getFolderName(branch)
// Create a folder for JIT stress jobs and associated folder views
folder('jitstress')
Utilities.addStandardFolderView(this, 'jitstress', project)
// Create a folder for testing via illink
folder('illink')
Utilities.addStandardFolderView(this, 'illink', project)
def static getOSGroup(def os) {
def osGroupMap = ['Ubuntu':'Linux',
'RHEL7.2': 'Linux',
'Ubuntu16.04': 'Linux',
'Ubuntu16.10': 'Linux',
'Debian8.4':'Linux',
'Fedora24':'Linux',
'OSX10.12':'OSX',
'Windows_NT':'Windows_NT',
'CentOS7.1': 'Linux',
'Tizen': '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 {
// We have very limited ARM64 hardware (used for ARM/ARM64 testing). So only allow certain branches to use it.
def static LimitedHardwareBranches = [
'master']
// Innerloop build OS's
// The Windows_NT_BuildOnly OS is a way to speed up the Non-Windows builds by avoiding
// test execution in the build flow runs. It generates the exact same build
// as Windows_NT but without running the tests.
def static osList = [
'Ubuntu',
'Debian8.4',
'OSX10.12',
'Windows_NT',
'Windows_NT_BuildOnly',
'CentOS7.1',
'RHEL7.2',
'Ubuntu16.04',
'Ubuntu16.10',
'Fedora24',
'Tizen']
def static crossList = [
'Ubuntu',
'Debian8.4',
'OSX10.12',
'Windows_NT',
'CentOS7.1',
'RHEL7.2']
// 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_TieredCompilation' : '0', 'COMPlus_JITMinOpts' : '1'],
'tieredcompilation' : ['COMPlus_TieredCompilation' : '1'], // this can be removed once tiered compilation is on by default
'no_tiered_compilation' : ['COMPlus_TieredCompilation' : '0'],
'no_tiered_compilation_innerloop': ['COMPlus_TieredCompilation' : '0'],
'forcerelocs' : ['COMPlus_TieredCompilation' : '0', 'COMPlus_ForceRelocs' : '1'],
'jitstress1' : ['COMPlus_TieredCompilation' : '0', 'COMPlus_JitStress' : '1'],
'jitstress2' : ['COMPlus_TieredCompilation' : '0', 'COMPlus_JitStress' : '2'],
'jitstress1_tiered' : ['COMPlus_TieredCompilation' : '1', 'COMPlus_JitStress' : '1'],
'jitstress2_tiered' : ['COMPlus_TieredCompilation' : '1', 'COMPlus_JitStress' : '2'],
'jitstressregs1' : ['COMPlus_TieredCompilation' : '0', 'COMPlus_JitStressRegs' : '1'],
'jitstressregs2' : ['COMPlus_TieredCompilation' : '0', 'COMPlus_JitStressRegs' : '2'],
'jitstressregs3' : ['COMPlus_TieredCompilation' : '0', 'COMPlus_JitStressRegs' : '3'],
'jitstressregs4' : ['COMPlus_TieredCompilation' : '0', 'COMPlus_JitStressRegs' : '4'],
'jitstressregs8' : ['COMPlus_TieredCompilation' : '0', 'COMPlus_JitStressRegs' : '8'],
'jitstressregs0x10' : ['COMPlus_TieredCompilation' : '0', 'COMPlus_JitStressRegs' : '0x10'],
'jitstressregs0x80' : ['COMPlus_TieredCompilation' : '0', 'COMPlus_JitStressRegs' : '0x80'],
'jitstressregs0x1000' : ['COMPlus_TieredCompilation' : '0', 'COMPlus_JitStressRegs' : '0x1000'],
'jitstress2_jitstressregs1' : ['COMPlus_TieredCompilation' : '0', 'COMPlus_JitStress' : '2', 'COMPlus_JitStressRegs' : '1'],
'jitstress2_jitstressregs2' : ['COMPlus_TieredCompilation' : '0', 'COMPlus_JitStress' : '2', 'COMPlus_JitStressRegs' : '2'],
'jitstress2_jitstressregs3' : ['COMPlus_TieredCompilation' : '0', 'COMPlus_JitStress' : '2', 'COMPlus_JitStressRegs' : '3'],
'jitstress2_jitstressregs4' : ['COMPlus_TieredCompilation' : '0', 'COMPlus_JitStress' : '2', 'COMPlus_JitStressRegs' : '4'],
'jitstress2_jitstressregs8' : ['COMPlus_TieredCompilation' : '0', 'COMPlus_JitStress' : '2', 'COMPlus_JitStressRegs' : '8'],
'jitstress2_jitstressregs0x10' : ['COMPlus_TieredCompilation' : '0', 'COMPlus_JitStress' : '2', 'COMPlus_JitStressRegs' : '0x10'],
'jitstress2_jitstressregs0x80' : ['COMPlus_TieredCompilation' : '0', 'COMPlus_JitStress' : '2', 'COMPlus_JitStressRegs' : '0x80'],
'jitstress2_jitstressregs0x1000' : ['COMPlus_TieredCompilation' : '0', 'COMPlus_JitStress' : '2', 'COMPlus_JitStressRegs' : '0x1000'],
'tailcallstress' : ['COMPlus_TieredCompilation' : '0', 'COMPlus_TailcallStress' : '1'],
'jitsse2only' : ['COMPlus_TieredCompilation' : '0', 'COMPlus_EnableAVX' : '0', 'COMPlus_EnableSSE3_4' : '0'],
'jitnosimd' : ['COMPlus_TieredCompilation' : '0', 'COMPlus_FeatureSIMD' : '0'],
'jitincompletehwintrinsic' : ['COMPlus_TieredCompilation' : '0', 'COMPlus_EnableIncompleteISAClass' : '1'],
'jitx86hwintrinsicnoavx' : ['COMPlus_TieredCompilation' : '0', 'COMPlus_EnableIncompleteISAClass' : '1', 'COMPlus_EnableAVX' : '0'], // testing the legacy SSE encoding
'jitx86hwintrinsicnoavx2' : ['COMPlus_TieredCompilation' : '0', 'COMPlus_EnableIncompleteISAClass' : '1', 'COMPlus_EnableAVX2' : '0'], // testing SNB/IVB
'jitx86hwintrinsicnosimd' : ['COMPlus_TieredCompilation' : '0', 'COMPlus_EnableIncompleteISAClass' : '1', 'COMPlus_FeatureSIMD' : '0'], // match "jitnosimd", may need to remove after decoupling HW intrinsic from FeatureSIMD
'jitnox86hwintrinsic' : ['COMPlus_TieredCompilation' : '0', 'COMPlus_EnableIncompleteISAClass' : '1', 'COMPlus_EnableSSE' : '0' , 'COMPlus_EnableSSE2' : '0' , 'COMPlus_EnableSSE3' : '0' , 'COMPlus_EnableSSSE3' : '0' , 'COMPlus_EnableSSE41' : '0' , 'COMPlus_EnableSSE42' : '0' , 'COMPlus_EnableAVX' : '0' , 'COMPlus_EnableAVX2' : '0' , 'COMPlus_EnableAES' : '0' , 'COMPlus_EnableBMI1' : '0' , 'COMPlus_EnableBMI2' : '0' , 'COMPlus_EnableFMA' : '0' , 'COMPlus_EnableLZCNT' : '0' , 'COMPlus_EnablePCLMULQDQ' : '0' , 'COMPlus_EnablePOPCNT' : '0'],
'corefx_baseline' : ['COMPlus_TieredCompilation' : '0'], // corefx baseline
'corefx_minopts' : ['COMPlus_TieredCompilation' : '0', 'COMPlus_JITMinOpts' : '1'],
'corefx_tieredcompilation' : ['COMPlus_TieredCompilation' : '1'], // this can be removed once tiered compilation is on by default
'corefx_jitstress1' : ['COMPlus_TieredCompilation' : '0', 'COMPlus_JitStress' : '1'],
'corefx_jitstress2' : ['COMPlus_TieredCompilation' : '0', 'COMPlus_JitStress' : '2'],
'corefx_jitstressregs1' : ['COMPlus_TieredCompilation' : '0', 'COMPlus_JitStressRegs' : '1'],
'corefx_jitstressregs2' : ['COMPlus_TieredCompilation' : '0', 'COMPlus_JitStressRegs' : '2'],
'corefx_jitstressregs3' : ['COMPlus_TieredCompilation' : '0', 'COMPlus_JitStressRegs' : '3'],
'corefx_jitstressregs4' : ['COMPlus_TieredCompilation' : '0', 'COMPlus_JitStressRegs' : '4'],
'corefx_jitstressregs8' : ['COMPlus_TieredCompilation' : '0', 'COMPlus_JitStressRegs' : '8'],
'corefx_jitstressregs0x10' : ['COMPlus_TieredCompilation' : '0', 'COMPlus_JitStressRegs' : '0x10'],
'corefx_jitstressregs0x80' : ['COMPlus_TieredCompilation' : '0', 'COMPlus_JitStressRegs' : '0x80'],
'corefx_jitstressregs0x1000' : ['COMPlus_TieredCompilation' : '0', 'COMPlus_JitStressRegs' : '0x1000'],
'gcstress0x3' : ['COMPlus_TieredCompilation' : '0', 'COMPlus_GCStress' : '0x3'],
'gcstress0xc' : ['COMPlus_TieredCompilation' : '0', 'COMPlus_GCStress' : '0xC'],
'zapdisable' : ['COMPlus_TieredCompilation' : '0', 'COMPlus_ZapDisable' : '1', 'COMPlus_ReadyToRun' : '0'],
'heapverify1' : ['COMPlus_TieredCompilation' : '0', 'COMPlus_HeapVerify' : '1'],
'gcstress0xc_zapdisable' : ['COMPlus_TieredCompilation' : '0', 'COMPlus_GCStress' : '0xC', 'COMPlus_ZapDisable' : '1', 'COMPlus_ReadyToRun' : '0'],
'gcstress0xc_zapdisable_jitstress2' : ['COMPlus_TieredCompilation' : '0', 'COMPlus_GCStress' : '0xC', 'COMPlus_ZapDisable' : '1', 'COMPlus_ReadyToRun' : '0', 'COMPlus_JitStress' : '2'],
'gcstress0xc_zapdisable_heapverify1' : ['COMPlus_TieredCompilation' : '0', 'COMPlus_GCStress' : '0xC', 'COMPlus_ZapDisable' : '1', 'COMPlus_ReadyToRun' : '0', 'COMPlus_HeapVerify' : '1'],
'gcstress0xc_jitstress1' : ['COMPlus_TieredCompilation' : '0', 'COMPlus_GCStress' : '0xC', 'COMPlus_JitStress' : '1'],
'gcstress0xc_jitstress2' : ['COMPlus_TieredCompilation' : '0', 'COMPlus_GCStress' : '0xC', 'COMPlus_JitStress' : '2'],
'gcstress0xc_minopts_heapverify1' : ['COMPlus_TieredCompilation' : '0', 'COMPlus_GCStress' : '0xC', 'COMPlus_JITMinOpts' : '1', 'COMPlus_HeapVerify' : '1']
]
// This is a set of ReadyToRun stress scenarios
def static r2rStressScenarios = [
'r2r_jitstress1' : ['COMPlus_TieredCompilation' : '0', "COMPlus_JitStress": "1"],
'r2r_jitstress2' : ['COMPlus_TieredCompilation' : '0', "COMPlus_JitStress": "2"],
'r2r_jitstress1_tiered' : ['COMPlus_TieredCompilation' : '1', "COMPlus_JitStress": "1"],
'r2r_jitstress2_tiered' : ['COMPlus_TieredCompilation' : '1', "COMPlus_JitStress": "2"],
'r2r_jitstressregs1' : ['COMPlus_TieredCompilation' : '0', "COMPlus_JitStressRegs": "1"],
'r2r_jitstressregs2' : ['COMPlus_TieredCompilation' : '0', "COMPlus_JitStressRegs": "2"],
'r2r_jitstressregs3' : ['COMPlus_TieredCompilation' : '0', "COMPlus_JitStressRegs": "3"],
'r2r_jitstressregs4' : ['COMPlus_TieredCompilation' : '0', "COMPlus_JitStressRegs": "4"],
'r2r_jitstressregs8' : ['COMPlus_TieredCompilation' : '0', "COMPlus_JitStressRegs": "8"],
'r2r_jitstressregs0x10' : ['COMPlus_TieredCompilation' : '0', "COMPlus_JitStressRegs": "0x10"],
'r2r_jitstressregs0x80' : ['COMPlus_TieredCompilation' : '0', "COMPlus_JitStressRegs": "0x80"],
'r2r_jitstressregs0x1000' : ['COMPlus_TieredCompilation' : '0', "COMPlus_JitStressRegs": "0x1000"],
'r2r_jitminopts' : ['COMPlus_TieredCompilation' : '0', "COMPlus_JITMinOpts": "1"],
'r2r_jitforcerelocs' : ['COMPlus_TieredCompilation' : '0', "COMPlus_ForceRelocs": "1"],
'r2r_gcstress15' : ['COMPlus_TieredCompilation' : '0', "COMPlus_GCStress": "0xF"],
'r2r_no_tiered_compilation' : ['COMPlus_TieredCompilation' : '0'],
]
// This is the basic set of scenarios
def static basicScenarios = [
'innerloop',
'normal',
'ilrt',
'r2r',
'longgc',
'formatting',
'gcsimulator',
// 'jitdiff', // jitdiff is currently disabled, until someone spends the effort to make it fully work
'standalone_gc',
'gc_reliability_framework',
'illink',
'corefx_innerloop']
def static allScenarios = basicScenarios + r2rStressScenarios.keySet() + jitStressModeScenarios.keySet()
// Valid PR trigger combinations.
def static prTriggeredValidInnerLoopCombos = [
'Windows_NT': [
'x64': [
'Checked'
],
'x86': [
'Checked',
'Release'
],
'arm': [
'Debug',
'Checked'
],
'arm64': [
'Debug',
'Checked'
]
],
'Windows_NT_BuildOnly': [
'x64': [
'Checked',
'Release'
],
'x86': [
'Checked',
'Release'
],
'arm': [
'Checked'
],
],
'Ubuntu': [
'x64': [
'Checked'
],
'arm64': [
'Debug'
],
'arm': [
'Checked'
]
],
'CentOS7.1': [
'x64': [
'Debug',
'Checked'
]
],
'OSX10.12': [
'x64': [
'Checked'
]
],
'Tizen': [
'armem': [
'Checked'
]
]
]
// A set of scenarios that are valid for arm/arm64 tests run on hardware. This is a map from valid scenario name
// to Tests.lst file categories to exclude.
//
// This list should contain a subset of the scenarios from `allScenarios`. Please keep this in the same order as that,
// and with the same values, with some commented out, for easier maintenance.
//
// Note that some scenarios that are commented out should be enabled, but haven't yet been.
//
def static validArmWindowsScenarios = [
'innerloop': [],
'normal': [],
// 'ilrt'
'r2r': ["R2R_FAIL", "R2R_EXCLUDE"],
// 'longgc'
// 'formatting'
// 'gcsimulator'
// 'jitdiff'
// 'standalone_gc'
// 'gc_reliability_framework'
// 'illink'
'r2r_jitstress1': ["R2R_FAIL", "R2R_EXCLUDE", "JITSTRESS_FAIL", "JITSTRESS_EXCLUDE"],
'r2r_jitstress2': ["R2R_FAIL", "R2R_EXCLUDE", "JITSTRESS_FAIL", "JITSTRESS_EXCLUDE"],
'r2r_jitstress1_tiered': ["R2R_FAIL", "R2R_EXCLUDE", "JITSTRESS_FAIL", "JITSTRESS_EXCLUDE"],
'r2r_jitstress2_tiered': ["R2R_FAIL", "R2R_EXCLUDE", "JITSTRESS_FAIL", "JITSTRESS_EXCLUDE"],
'r2r_jitstressregs1': ["R2R_FAIL", "R2R_EXCLUDE", "JITSTRESS_FAIL", "JITSTRESS_EXCLUDE"],
'r2r_jitstressregs2': ["R2R_FAIL", "R2R_EXCLUDE", "JITSTRESS_FAIL", "JITSTRESS_EXCLUDE"],
'r2r_jitstressregs3': ["R2R_FAIL", "R2R_EXCLUDE", "JITSTRESS_FAIL", "JITSTRESS_EXCLUDE"],
'r2r_jitstressregs4': ["R2R_FAIL", "R2R_EXCLUDE", "JITSTRESS_FAIL", "JITSTRESS_EXCLUDE"],
'r2r_jitstressregs8': ["R2R_FAIL", "R2R_EXCLUDE", "JITSTRESS_FAIL", "JITSTRESS_EXCLUDE"],
'r2r_jitstressregs0x10': ["R2R_FAIL", "R2R_EXCLUDE", "JITSTRESS_FAIL", "JITSTRESS_EXCLUDE"],
'r2r_jitstressregs0x80': ["R2R_FAIL", "R2R_EXCLUDE", "JITSTRESS_FAIL", "JITSTRESS_EXCLUDE"],
'r2r_jitstressregs0x1000': ["R2R_FAIL", "R2R_EXCLUDE", "JITSTRESS_FAIL", "JITSTRESS_EXCLUDE"],
'r2r_jitminopts': ["R2R_FAIL", "R2R_EXCLUDE", "JITSTRESS_FAIL", "JITSTRESS_EXCLUDE", "MINOPTS_FAIL", "MINOPTS_EXCLUDE"],
'r2r_jitforcerelocs': ["R2R_FAIL", "R2R_EXCLUDE", "JITSTRESS_FAIL", "JITSTRESS_EXCLUDE"],
'r2r_gcstress15': ["R2R_FAIL", "R2R_EXCLUDE", "JITSTRESS_FAIL", "JITSTRESS_EXCLUDE", "GCSTRESS_FAIL", "GCSTRESS_EXCLUDE"],
'r2r_no_tiered_compilation': ["R2R_FAIL", "R2R_EXCLUDE"],
'minopts': ["MINOPTS_FAIL", "MINOPTS_EXCLUDE"],
'tieredcompilation': [],
'no_tiered_compilation': [],
'no_tiered_compilation_innerloop': [],
'forcerelocs': [],
'jitstress1': ["JITSTRESS_FAIL", "JITSTRESS_EXCLUDE"],
'jitstress2': ["JITSTRESS_FAIL", "JITSTRESS_EXCLUDE"],
'jitstress1_tiered': ["JITSTRESS_FAIL", "JITSTRESS_EXCLUDE"],
'jitstress2_tiered': ["JITSTRESS_FAIL", "JITSTRESS_EXCLUDE"],
'jitstressregs1': ["JITSTRESS_FAIL", "JITSTRESS_EXCLUDE"],
'jitstressregs2': ["JITSTRESS_FAIL", "JITSTRESS_EXCLUDE"],
'jitstressregs3': ["JITSTRESS_FAIL", "JITSTRESS_EXCLUDE"],
'jitstressregs4': ["JITSTRESS_FAIL", "JITSTRESS_EXCLUDE"],
'jitstressregs8': ["JITSTRESS_FAIL", "JITSTRESS_EXCLUDE"],
'jitstressregs0x10': ["JITSTRESS_FAIL", "JITSTRESS_EXCLUDE"],
'jitstressregs0x80': ["JITSTRESS_FAIL", "JITSTRESS_EXCLUDE"],
'jitstressregs0x1000': ["JITSTRESS_FAIL", "JITSTRESS_EXCLUDE"],
'jitstress2_jitstressregs1': ["JITSTRESS_FAIL", "JITSTRESS_EXCLUDE"],
'jitstress2_jitstressregs2': ["JITSTRESS_FAIL", "JITSTRESS_EXCLUDE"],
'jitstress2_jitstressregs3': ["JITSTRESS_FAIL", "JITSTRESS_EXCLUDE"],
'jitstress2_jitstressregs4': ["JITSTRESS_FAIL", "JITSTRESS_EXCLUDE"],
'jitstress2_jitstressregs8': ["JITSTRESS_FAIL", "JITSTRESS_EXCLUDE"],
'jitstress2_jitstressregs0x10': ["JITSTRESS_FAIL", "JITSTRESS_EXCLUDE"],
'jitstress2_jitstressregs0x80': ["JITSTRESS_FAIL", "JITSTRESS_EXCLUDE"],
'jitstress2_jitstressregs0x1000': ["JITSTRESS_FAIL", "JITSTRESS_EXCLUDE"],
'tailcallstress': ["TAILCALLSTRESS_FAIL", "TAILCALLSTRESS_EXCLUDE"],
// 'jitsse2only' // Only relevant to xarch
'jitnosimd': [], // Only interesting on platforms where SIMD support exists.
// 'jitincompletehwintrinsic'
// 'jitx86hwintrinsicnoavx'
// 'jitx86hwintrinsicnoavx2'
// 'jitx86hwintrinsicnosimd'
// 'jitnox86hwintrinsic'
'corefx_baseline': [], // corefx tests don't use smarty
'corefx_minopts': [], // corefx tests don't use smarty
'corefx_tieredcompilation': [], // corefx tests don't use smarty
'corefx_jitstress1': [], // corefx tests don't use smarty
'corefx_jitstress2': [], // corefx tests don't use smarty
'corefx_jitstressregs1': [], // corefx tests don't use smarty
'corefx_jitstressregs2': [], // corefx tests don't use smarty
'corefx_jitstressregs3': [], // corefx tests don't use smarty
'corefx_jitstressregs4': [], // corefx tests don't use smarty
'corefx_jitstressregs8': [], // corefx tests don't use smarty
'corefx_jitstressregs0x10': [], // corefx tests don't use smarty
'corefx_jitstressregs0x80': [], // corefx tests don't use smarty
'corefx_jitstressregs0x1000': [], // corefx tests don't use smarty
'gcstress0x3': ["GCSTRESS_FAIL", "GCSTRESS_EXCLUDE"],
'gcstress0xc': ["GCSTRESS_FAIL", "GCSTRESS_EXCLUDE"],
'zapdisable': ["ZAPDISABLE_FAIL", "ZAPDISABLE_EXCLUDE"],
'heapverify1': [],
'gcstress0xc_zapdisable': ["GCSTRESS_FAIL", "GCSTRESS_EXCLUDE", "ZAPDISABLE_FAIL", "ZAPDISABLE_EXCLUDE"],
'gcstress0xc_zapdisable_jitstress2': ["GCSTRESS_FAIL", "GCSTRESS_EXCLUDE", "ZAPDISABLE_FAIL", "ZAPDISABLE_EXCLUDE", "JITSTRESS_FAIL", "JITSTRESS_EXCLUDE"],
'gcstress0xc_zapdisable_heapverify1': ["GCSTRESS_FAIL", "GCSTRESS_EXCLUDE", "ZAPDISABLE_FAIL", "ZAPDISABLE_EXCLUDE"],
'gcstress0xc_jitstress1': ["GCSTRESS_FAIL", "GCSTRESS_EXCLUDE", "JITSTRESS_FAIL", "JITSTRESS_EXCLUDE"],
'gcstress0xc_jitstress2': ["GCSTRESS_FAIL", "GCSTRESS_EXCLUDE", "JITSTRESS_FAIL", "JITSTRESS_EXCLUDE"],
'gcstress0xc_minopts_heapverify1': ["GCSTRESS_FAIL", "GCSTRESS_EXCLUDE", "MINOPTS_FAIL", "MINOPTS_EXCLUDE"],
//
// NOTE: the following scenarios are not defined in the 'allScenarios' list! Is this a bug?
//
'minopts_zapdisable': ["ZAPDISABLE_FAIL", "ZAPDISABLE_EXCLUDE", "MINOPTS_FAIL", "MINOPTS_EXCLUDE"],
'gcstress0x3_jitstress1': ["GCSTRESS_FAIL", "GCSTRESS_EXCLUDE", "JITSTRESS_FAIL", "JITSTRESS_EXCLUDE"],
'gcstress0x3_jitstress2': ["GCSTRESS_FAIL", "GCSTRESS_EXCLUDE", "JITSTRESS_FAIL", "JITSTRESS_EXCLUDE"],
'gcstress0x3_jitstressregs1': ["GCSTRESS_FAIL", "GCSTRESS_EXCLUDE", "JITSTRESS_FAIL", "JITSTRESS_EXCLUDE"],
'gcstress0x3_jitstressregs2': ["GCSTRESS_FAIL", "GCSTRESS_EXCLUDE", "JITSTRESS_FAIL", "JITSTRESS_EXCLUDE"],
'gcstress0x3_jitstressregs3': ["GCSTRESS_FAIL", "GCSTRESS_EXCLUDE", "JITSTRESS_FAIL", "JITSTRESS_EXCLUDE"],
'gcstress0x3_jitstressregs4': ["GCSTRESS_FAIL", "GCSTRESS_EXCLUDE", "JITSTRESS_FAIL", "JITSTRESS_EXCLUDE"],
'gcstress0x3_jitstressregs8': ["GCSTRESS_FAIL", "GCSTRESS_EXCLUDE", "JITSTRESS_FAIL", "JITSTRESS_EXCLUDE"],
'gcstress0x3_jitstressregs0x10': ["GCSTRESS_FAIL", "GCSTRESS_EXCLUDE", "JITSTRESS_FAIL", "JITSTRESS_EXCLUDE"],
'gcstress0x3_jitstressregs0x80': ["GCSTRESS_FAIL", "GCSTRESS_EXCLUDE", "JITSTRESS_FAIL", "JITSTRESS_EXCLUDE"],
'gcstress0x3_jitstressregs0x1000': ["GCSTRESS_FAIL", "GCSTRESS_EXCLUDE", "JITSTRESS_FAIL", "JITSTRESS_EXCLUDE"],
'gcstress0xc_jitstressregs1': ["GCSTRESS_FAIL", "GCSTRESS_EXCLUDE", "JITSTRESS_FAIL", "JITSTRESS_EXCLUDE"],
'gcstress0xc_jitstressregs2': ["GCSTRESS_FAIL", "GCSTRESS_EXCLUDE", "JITSTRESS_FAIL", "JITSTRESS_EXCLUDE"],
'gcstress0xc_jitstressregs3': ["GCSTRESS_FAIL", "GCSTRESS_EXCLUDE", "JITSTRESS_FAIL", "JITSTRESS_EXCLUDE"],
'gcstress0xc_jitstressregs4': ["GCSTRESS_FAIL", "GCSTRESS_EXCLUDE", "JITSTRESS_FAIL", "JITSTRESS_EXCLUDE"],
'gcstress0xc_jitstressregs8': ["GCSTRESS_FAIL", "GCSTRESS_EXCLUDE", "JITSTRESS_FAIL", "JITSTRESS_EXCLUDE"],
'gcstress0xc_jitstressregs0x10': ["GCSTRESS_FAIL", "GCSTRESS_EXCLUDE", "JITSTRESS_FAIL", "JITSTRESS_EXCLUDE"],
'gcstress0xc_jitstressregs0x80': ["GCSTRESS_FAIL", "GCSTRESS_EXCLUDE", "JITSTRESS_FAIL", "JITSTRESS_EXCLUDE"],
'gcstress0xc_jitstressregs0x1000': ["GCSTRESS_FAIL", "GCSTRESS_EXCLUDE", "JITSTRESS_FAIL", "JITSTRESS_EXCLUDE"]
]
def static validLinuxArmScenarios = [
'innerloop',
'normal',
// 'ilrt'
'r2r',
// 'longgc'
// 'formatting'
// 'gcsimulator'
// 'jitdiff'
// 'standalone_gc'
// 'gc_reliability_framework'
// 'illink'
'r2r_jitstress1',
'r2r_jitstress2',
'r2r_jitstress1_tiered',
'r2r_jitstress2_tiered',
'r2r_jitstressregs1',
'r2r_jitstressregs2',
'r2r_jitstressregs3',
'r2r_jitstressregs4',
'r2r_jitstressregs8',
'r2r_jitstressregs0x10',
'r2r_jitstressregs0x80',
'r2r_jitstressregs0x1000',
'r2r_jitminopts',
'r2r_jitforcerelocs',
'r2r_gcstress15',
'r2r_no_tiered_compilation',
'minopts',
'tieredcompilation',
'no_tiered_compilation',
'no_tiered_compilation_innerloop',
'forcerelocs',
'jitstress1',
'jitstress2',
'jitstress1_tiered',
'jitstress2_tiered',
'jitstressregs1',
'jitstressregs2',
'jitstressregs3',
'jitstressregs4',
'jitstressregs8',
'jitstressregs0x10',
'jitstressregs0x80',
'jitstressregs0x1000',
'jitstress2_jitstressregs1',
'jitstress2_jitstressregs2',
'jitstress2_jitstressregs3',
'jitstress2_jitstressregs4',
'jitstress2_jitstressregs8',
'jitstress2_jitstressregs0x10',
'jitstress2_jitstressregs0x80',
'jitstress2_jitstressregs0x1000',
'tailcallstress',
// 'jitsse2only' // Only relevant to xarch
// 'jitnosimd' // Only interesting on platforms where SIMD support exists.
// 'jitincompletehwintrinsic'
// 'jitx86hwintrinsicnoavx'
// 'jitx86hwintrinsicnoavx2'
// 'jitx86hwintrinsicnosimd'
// 'jitnox86hwintrinsic'
'corefx_baseline',
'corefx_minopts',
'corefx_tieredcompilation',
'corefx_jitstress1',
'corefx_jitstress2',
'corefx_jitstressregs1',
'corefx_jitstressregs2',
'corefx_jitstressregs3',
'corefx_jitstressregs4',
'corefx_jitstressregs8',
'corefx_jitstressregs0x10',
'corefx_jitstressregs0x80',
'corefx_jitstressregs0x1000',
'gcstress0x3',
'gcstress0xc',
'zapdisable',
'heapverify1',
'gcstress0xc_zapdisable',
'gcstress0xc_zapdisable_jitstress2',
'gcstress0xc_zapdisable_heapverify1',
'gcstress0xc_jitstress1',
'gcstress0xc_jitstress2',
'gcstress0xc_minopts_heapverify1'
]
def static validLinuxArm64Scenarios = [
'innerloop',
'normal',
// 'ilrt'
'r2r',
// 'longgc'
// 'formatting'
// 'gcsimulator'
// 'jitdiff'
// 'standalone_gc'
// 'gc_reliability_framework'
// 'illink'
'r2r_jitstress1',
'r2r_jitstress2',
'r2r_jitstress1_tiered',
'r2r_jitstress2_tiered',
'r2r_jitstressregs1',
'r2r_jitstressregs2',
'r2r_jitstressregs3',
'r2r_jitstressregs4',
'r2r_jitstressregs8',
'r2r_jitstressregs0x10',
'r2r_jitstressregs0x80',
'r2r_jitstressregs0x1000',
'r2r_jitminopts',
'r2r_jitforcerelocs',
'r2r_gcstress15',
'minopts',
'tieredcompilation',
'forcerelocs',
'jitstress1',
'jitstress2',
'jitstress1_tiered',
'jitstress2_tiered',
'jitstressregs1',
'jitstressregs2',
'jitstressregs3',
'jitstressregs4',
'jitstressregs8',
'jitstressregs0x10',
'jitstressregs0x80',
'jitstressregs0x1000',
'jitstress2_jitstressregs1',
'jitstress2_jitstressregs2',
'jitstress2_jitstressregs3',
'jitstress2_jitstressregs4',
'jitstress2_jitstressregs8',
'jitstress2_jitstressregs0x10',
'jitstress2_jitstressregs0x80',
'jitstress2_jitstressregs0x1000',
'tailcallstress',
// 'jitsse2only' // Only relevant to xarch
'jitnosimd', // Only interesting on platforms where SIMD support exists.
// 'jitincompletehwintrinsic'
// 'jitx86hwintrinsicnoavx'
// 'jitx86hwintrinsicnoavx2'
// 'jitx86hwintrinsicnosimd'
// 'jitnox86hwintrinsic'
'corefx_baseline',
'corefx_minopts',
'corefx_tieredcompilation',
'corefx_jitstress1',
'corefx_jitstress2',
'corefx_jitstressregs1',
'corefx_jitstressregs2',
'corefx_jitstressregs3',
'corefx_jitstressregs4',
'corefx_jitstressregs8',
'corefx_jitstressregs0x10',
'corefx_jitstressregs0x80',
'corefx_jitstressregs0x1000',
'gcstress0x3',
'gcstress0xc',
'zapdisable',
'heapverify1',
'gcstress0xc_zapdisable',
'gcstress0xc_zapdisable_jitstress2',
'gcstress0xc_zapdisable_heapverify1',
'gcstress0xc_jitstress1',
'gcstress0xc_jitstress2',
'gcstress0xc_minopts_heapverify1'
]
def static configurationList = ['Debug', 'Checked', 'Release']
// This is the set of architectures
// Some of these are pseudo-architectures:
// armem -- ARM builds/runs using an emulator. Used for Tizen runs.
// x86_arm_altjit -- ARM runs on x86 using the ARM altjit
// x64_arm64_altjit -- ARM64 runs on x64 using the ARM64 altjit
def static architectureList = ['arm', 'armem', 'x86_arm_altjit', 'x64_arm64_altjit', 'arm64', 'x64', 'x86']
// This set of architectures that cross build on Windows and run on Windows ARM64 hardware.
def static armWindowsCrossArchitectureList = ['arm', 'arm64']
}
// **************************************************************
// Create some specific views
//
// These aren't using the Utilities.addStandardFolderView() function, because that creates
// views based on a single regular expression. These views will be generated by adding a
// specific set of jobs to them.
//
// Utilities.addStandardFolderView() also creates a lot of additional stuff around the
// view, like "Build Statistics", "Job Statistics", "Unstable Jobs". Until it is determined
// those are required, don't add them (which simplifies the view pages, as well).
// **************************************************************
class Views {
def static MergeJobView = null
def static PeriodicJobView = null
def static ArchitectureViews = [:]
def static OSViews = [:]
}
// MergeJobView: include all jobs that execute when a PR change is merged.
Views.MergeJobView = listView('Merge') {
recurse()
columns {
status()
weather()
name()
lastSuccess()
lastFailure()
lastDuration()
buildButton()
}
}
// PeriodicJobView: include all jobs that execute on a schedule
Views.PeriodicJobView = listView('Periodic') {
recurse()
columns {
status()
weather()
name()
lastSuccess()
lastFailure()
lastDuration()
buildButton()
}
}
// Create a view for non-PR jobs for each architecture.
Constants.architectureList.each { architecture ->
Views.ArchitectureViews[architecture] = listView(architecture) {
recurse()
columns {
status()
weather()
name()
lastSuccess()
lastFailure()
lastDuration()
buildButton()
}
}
}
// Create a view for non-PR jobs for each OS.
Constants.osList.each { os ->
// Don't create one for the special 'Windows_NT_BuildOnly'
if (os == 'Windows_NT_BuildOnly') {
return
}
Views.OSViews[os] = listView(os) {
recurse()
columns {
status()
weather()
name()
lastSuccess()
lastFailure()
lastDuration()
buildButton()
}
}
}
def static addToMergeView(def job) {
Views.MergeJobView.with {
jobs {
name(job.name)
}
}
}
def static addToPeriodicView(def job) {
Views.PeriodicJobView.with {
jobs {
name(job.name)
}
}
}
def static addToViews(def job, def isPR, def architecture, def os) {
if (isPR) {
// No views want PR jobs currently.
return
}
// Add to architecture view.
Views.ArchitectureViews[architecture].with {
jobs {
name(job.name)
}
}
// Add to OS view.
Views.OSViews[os].with {
jobs {
name(job.name)
}
}
}
def static addPeriodicTriggerHelper(def job, String cronString, boolean alwaysRuns = false) {
addToPeriodicView(job)
Utilities.addPeriodicTrigger(job, cronString, alwaysRuns)
}
def static addGithubPushTriggerHelper(def job) {
addToMergeView(job)
Utilities.addGithubPushTrigger(job)
}
def static setMachineAffinity(def job, def os, def architecture, def options = null) {
assert os instanceof String
assert architecture instanceof String
def armArches = ['arm', 'armem', 'arm64']
if (!(architecture in armArches)) {
assert options == null
Utilities.setMachineAffinity(job, os, 'latest-or-auto')
return
}
// This is an arm(64) job.
//
// There are several options.
//
// Windows_NT
//
// Arm32 (Build) -> latest-arm64
// |-> os == "Windows_NT" && (architecture == "arm") && options['use_arm64_build_machine'] == true
// Arm32 (Test) -> arm64-windows_nt
// |-> os == "Windows_NT" && (architecture == "arm") && options['use_arm64_build_machine'] == false
//
// Arm64 (Build) -> latest-arm64
// |-> os == "Windows_NT" && architecture == "arm64" && options['use_arm64_build_machine'] == true
// Arm64 (Test) -> arm64-windows_nt
// |-> os == "Windows_NT" && architecture == "arm64" && options['use_arm64_build_machine'] == false
//
// Ubuntu
//
// Arm32 emulator (Build, Test) -> arm-cross-latest
// |-> os == "Tizen" && (architecture == "armem")
//
// Arm32 hardware (Flow) -> Ubuntu 16.04 latest-or-auto (don't use limited arm hardware)
// |-> os == "Ubuntu" && (architecture == "arm") && options['is_flow_job'] == true
// Arm32 hardware (Build) -> Ubuntu 16.04 latest-or-auto
// |-> os == "Ubuntu" && (architecture == "arm") && options['is_build_job'] == true
// Arm32 hardware (Test) -> ubuntu.1404.arm32.open
// |-> os == "Ubuntu" && (architecture == "arm")
//
// Arm64 (Build) -> arm64-cross-latest
// |-> os != "Windows_NT" && architecture == "arm64" && options['is_build_only'] == true
// Arm64 Small Page Size (Test) -> arm64-small-page-size
// |-> os != "Windows_NT" && architecture == "arm64" && options['large_pages'] == false
// Arm64 Large Page Size (Test) -> arm64-huge-page-size
// |-> os != "Windows_NT" && architecture == "arm64" && options['large_pages'] == true
// This has to be a arm arch
assert architecture in armArches
if (os == "Windows_NT") {
// arm32/arm64 Windows jobs share the same machines for now
def isBuild = options['use_arm64_build_machine'] == true
if (isBuild == true) {
// Current set of machines with private Windows arm64 toolset:
// Utilities.setMachineAffinity(job, os, 'latest-arm64')
//
// New set of machines with public Windows arm64 toolset, coming from Helix:
job.with {
label('Windows.10.Amd64.ClientRS4.DevEx.Open')
}
} else {
Utilities.setMachineAffinity(job, os, 'arm64-windows_nt')
}
} else {
assert os != 'Windows_NT'
if (architecture == 'arm64') {
assert os == 'Ubuntu'
def isFlow = (options != null) && (options['is_flow_job'] == true)
def isBuild = (options != null) && (options['is_build_job'] == true)
if (isFlow || isBuild) {
// Arm64 Ubuntu build machine. Build uses docker, so the actual host OS is not
// very important. Therefore, use latest or auto. Flow jobs don't need to use
// Arm64 hardware.
Utilities.setMachineAffinity(job, 'Ubuntu16.04', 'latest-or-auto')
} else {
// Arm64 Linux test machines
if ((options != null) && (options['large_pages'] == true)) {
Utilities.setMachineAffinity(job, os, 'arm64-huge-page-size')
} else {
Utilities.setMachineAffinity(job, os, 'arm64-small-page-size')
}
}
}
else if (architecture == 'armem') {
// arm emulator (Tizen). Build and test on same machine,
// using Docker.
assert os == 'Tizen'
Utilities.setMachineAffinity(job, 'Ubuntu', 'arm-cross-latest')
}
else {
// arm Ubuntu on hardware.
assert architecture == 'arm'
assert os == 'Ubuntu'
def isFlow = (options != null) && (options['is_flow_job'] == true)
def isBuild = (options != null) && (options['is_build_job'] == true)
if (isFlow || isBuild) {
// arm Ubuntu build machine. Build uses docker, so the actual host OS is not
// very important. Therefore, use latest or auto. Flow jobs don't need to use
// arm hardware.
Utilities.setMachineAffinity(job, 'Ubuntu16.04', 'latest-or-auto')
} else {
// arm Ubuntu test machine
// There is no tag (like, e.g., "arm-latest") for this, so don't call
// Utilities.setMachineAffinity. Just add the machine affinity
// manually. We specify the Helix queue name here.
job.with {
label('ubuntu.1404.arm32.open')
}
}
}
}
}
// setJobMachineAffinity: compute the machine affinity options for a job,
// then set the job with those affinity options.
def static setJobMachineAffinity(def architecture, def os, def isBuildJob, def isTestJob, def isFlowJob, def job)
{
assert (isBuildJob && !isTestJob && !isFlowJob) ||
(!isBuildJob && isTestJob && !isFlowJob) ||
(!isBuildJob && !isTestJob && isFlowJob)
def affinityOptions = null
def affinityArchitecture = architecture
if (os == "Windows_NT") {
if (architecture in Constants.armWindowsCrossArchitectureList) {
if (isBuildJob) {
affinityOptions = [ "use_arm64_build_machine" : true ]
} else if (isTestJob) {
affinityOptions = [ "use_arm64_build_machine" : false ]
} else if (isFlowJob) {
// For the flow jobs set the machine affinity as x64
affinityArchitecture = 'x64'
}
}
}
else {
if (architecture == 'arm64') {
if (isBuildJob) {
affinityOptions = ['is_build_job': true]
} else if (isFlowJob) {
affinityOptions = ['is_flow_job': true]
} else if (isTestJob) {
affinityOptions = [ "large_pages" : false ]
}
}
else if (architecture == 'arm') {
if (isBuildJob) {
affinityOptions = ['is_build_job': true]
} else if (isFlowJob) {
affinityOptions = ['is_flow_job': true]
}
}
}
setMachineAffinity(job, os, affinityArchitecture, affinityOptions)
}
def static isGCStressRelatedTesting(def scenario) {
// The 'r2r_gcstress15' scenario is a basic scenario.
// Detect it and make it a GCStress related.
if (scenario == 'r2r_gcstress15')
{
return true;
}
def gcStressTestEnvVars = [ 'COMPlus_GCStress', 'COMPlus_ZapDisable', 'COMPlus_HeapVerify']
def scenarioName = scenario.toLowerCase()
def isGCStressTesting = false
Constants.jitStressModeScenarios[scenario].each{ k, v ->
if (k in gcStressTestEnvVars) {
isGCStressTesting = true;
}
}
return isGCStressTesting
}
def static isCoreFxScenario(def scenario) {
def corefx_prefix = 'corefx_'
if (scenario.length() < corefx_prefix.length()) {
return false
}
return scenario.substring(0,corefx_prefix.length()) == corefx_prefix
}
def static isR2RBaselineScenario(def scenario) {
return (scenario == 'r2r')
}
def static isR2RStressScenario(def scenario) {
return Constants.r2rStressScenarios.containsKey(scenario)
}
def static isR2RScenario(def scenario) {
return isR2RBaselineScenario(scenario) || isR2RStressScenario(scenario)
}
def static isJitStressScenario(def scenario) {
return Constants.jitStressModeScenarios.containsKey(scenario)
}
def static isLongGc(def scenario) {
return (scenario == 'longgc' || scenario == 'gcsimulator')
}
def static isJitDiff(def scenario) {
return (scenario == 'jitdiff')
}
def static isGcReliabilityFramework(def scenario) {
return (scenario == 'gc_reliability_framework')
}
def static isArmWindowsScenario(def scenario) {
return Constants.validArmWindowsScenarios.containsKey(scenario)
}
def static isValidPrTriggeredInnerLoopJob(os, architecture, configuration, isBuildOnly) {
if (isBuildOnly == true) {
os = 'Windows_NT_BuildOnly'
}
def validOsPrTriggerArchConfigs = Constants.prTriggeredValidInnerLoopCombos[os]
if (validOsPrTriggerArchConfigs != null) {
def validOsPrTriggerConfigs = validOsPrTriggerArchConfigs[architecture]
if (validOsPrTriggerConfigs != null) {
if (configuration in validOsPrTriggerConfigs) {
return true
}
}
}
return false
}
// This means the job builds and runs the 'Pri0' test set. This does not mean the job is
// scheduled with a default PR trigger despite the correlation being true at the moment.
def static isPri0TestScenario(def scenario) {
return (scenario == 'innerloop' || scenario == 'no_tiered_compilation_innerloop')
}
def static getFxBranch(def branch) {
def fxBranch = branch
// Map 'dev/unix_test_workflow' to 'master' so we can test CoreFX jobs in the CoreCLR dev/unix_test_workflow
// branch even though CoreFX doesn't have such a branch.
if (branch == 'dev/unix_test_workflow') {
fxBranch = 'master'
}
return fxBranch
}
def static setJobTimeout(newJob, isPR, architecture, configuration, scenario, isBuildOnly) {
// 2 hours (120 minutes) is the default timeout
def timeout = 120
if (!isPri0TestScenario(scenario)) {
// Pri-1 test builds take a long time (see calculateBuildCommands()). So up the Pri-1 build jobs timeout.
timeout = 240
}
if (!isBuildOnly) {
// Note that these can only increase, never decrease, the Pri-1 timeout possibly set above.
if (isGCStressRelatedTesting(scenario)) {
timeout = 4320
}
else if (isCoreFxScenario(scenario)) {
timeout = 360
}
else if (isJitStressScenario(scenario)) {
timeout = 300
}
else if (isR2RBaselineScenario(scenario)) {
timeout = 240
}
else if (isLongGc(scenario)) {
timeout = 1440
}
else if (isJitDiff(scenario)) {
timeout = 240
}
else if (isGcReliabilityFramework(scenario)) {
timeout = 1440
}
else if (architecture == 'armem' || architecture == 'arm64') {
timeout = 240
}
if (architecture == 'arm') {
// ARM32 machines are particularly slow.
timeout += 120
}
}
if (configuration == 'Debug') {
// Debug runs can be very slow. Add an hour.
timeout += 60
}
if (architecture == 'x86_arm_altjit' || architecture == 'x64_arm64_altjit') {
// AltJit runs compile all methods twice.
timeout *= 2
}
// If we've changed the timeout from the default, set it in the job.
if (timeout != 120) {
Utilities.setJobTimeout(newJob, timeout)
}
}
def static getJobFolder(def scenario) {
if (isJitStressScenario(scenario) || isR2RStressScenario(scenario)) {
return 'jitstress'
}
if (scenario == 'illink') {
return 'illink'
}
return ''
}
def static getStressModeDisplayName(def scenario) {
def displayStr = ''
Constants.jitStressModeScenarios[scenario].each{ k, v ->
def prefixLength = 'COMPlus_'.length()
if (k.length() >= prefixLength) {
def modeName = k.substring(prefixLength, k.length())
displayStr += ' ' + modeName + '=' + v
}
}
if (isCoreFxScenario(scenario)) {
displayStr = ('CoreFx ' + displayStr).trim()
}
return displayStr
}
def static getR2RDisplayName(def scenario) {
// Assume the scenario name is one from the r2rStressScenarios dict, and remove its "r2r_" prefix.
def displayStr = scenario
def prefixLength = 'r2r_'.length()
if (displayStr.length() >= prefixLength) {
displayStr = "R2R " + displayStr.substring(prefixLength, displayStr.length())
} else if (scenario == 'r2r') {
displayStr = "R2R"
}
return displayStr
}
def static getScenarioDisplayString(def scenario) {
switch (scenario) {
case 'innerloop':
return "Innerloop Build and Test"
case 'no_tiered_compilation_innerloop':
def displayStr = getStressModeDisplayName(scenario)
return "Innerloop Build and Test (Jit - ${displayStr})"
case 'corefx_innerloop':
return "CoreFX Tests"
case 'normal':
return "Build and Test"
case 'jitdiff':
return "Jit Diff Build and Test"
case 'ilrt':
return "IL RoundTrip Build and Test"
case 'longgc':
return "Long-Running GC Build & Test"
case 'gcsimulator':
return "GC Simulator"
case 'standalone_gc':
return "Standalone GC"
case 'gc_reliability_framework':
return "GC Reliability Framework"
case 'illink':
return "via ILLink"
default:
if (isJitStressScenario(scenario)) {
def displayStr = getStressModeDisplayName(scenario)
return "Build and Test (Jit - ${displayStr})"
}
else if (isR2RScenario(scenario)) {
def displayStr = getR2RDisplayName(scenario)
return "${displayStr} Build and Test"
}
else {
return "${scenario}"
}
break
}
println("Unknown scenario: ${scenario}");
assert false
}
//
// Functions to create an environment script.
// envScriptCreate -- initialize the script (call first)
// envScriptFinalize -- finalize the script (call last)
// envScriptSetStressModeVariables -- set stress mode variables in the env script
// envScriptAppendExistingScript -- append an existing script to the generated script
//
// Each script returns a string of commands. Concatenate all the strings together before
// adding them to the builds commands, to make sure they get executed as one Jenkins script.
//
// Initialize the environment setting script.
def static envScriptCreate(def os, def stepScriptLocation) {
def stepScript = ''
if (os == 'Windows_NT') {
stepScript += "echo Creating TestEnv script\r\n"
stepScript += "if exist ${stepScriptLocation} del ${stepScriptLocation}\r\n"
// Create at least an empty script.
stepScript += "echo. > ${stepScriptLocation}\r\n"
}
else {
stepScript += "echo Creating environment setting script\n"
stepScript += "echo \\#\\!/usr/bin/env bash > ${stepScriptLocation}\n"
}
return stepScript
}
// Generates the string for setting stress mode variables.
def static envScriptSetStressModeVariables(def os, def stressModeVars, def stepScriptLocation) {
def stepScript = ''
if (os == 'Windows_NT') {
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 {
stressModeVars.each{ k, v ->
// Write out what we are writing to the script file
stepScript += "echo Setting ${k}=${v}\n"
// Write out the set itself to the script file`
stepScript += "echo export ${k}=${v} >> ${stepScriptLocation}\n"
}
}
return stepScript
}
// Append an existing script to an environment script.
// Returns string of commands to do this.
def static envScriptAppendExistingScript(def os, def appendScript, def stepScriptLocation) {
assert (os == 'Windows_NT')
def stepScript = ''
stepScript += "echo Appending ${appendScript} to ${stepScriptLocation}\r\n"
stepScript += "type ${appendScript} >> ${stepScriptLocation}\r\n"
return stepScript
}
// Finalize an environment setting script.
// Returns string of commands to do this.
def static envScriptFinalize(def os, def stepScriptLocation) {
def stepScript = ''
if (os == 'Windows_NT') {
// Display the resulting script. This is useful when looking at the output log file.
stepScript += "echo Display the total script ${stepScriptLocation}\r\n"
stepScript += "type ${stepScriptLocation}\r\n"
}
else {
stepScript += "chmod +x ${stepScriptLocation}\n"
}
return stepScript
}
def static isNeedDocker(def architecture, def os, def isBuild) {
if (isBuild) {
if (architecture == 'x86' && os == 'Ubuntu') {
return true
}
else if (architecture == 'armem') {
return true
}
else if (architecture == 'arm') {
if (os == 'Ubuntu') {
return true
}
}
else if (architecture == 'arm64') {
if (os == 'Ubuntu') {
return true
}
}
}
else {
if (architecture == 'x86' && os == 'Ubuntu') {
return true
}
}
return false
}
def static getDockerImageName(def architecture, def os, def isBuild) {
// We must change some docker private images to official later
if (isBuild) {
if (architecture == 'x86' && os == 'Ubuntu') {
return "hseok82/dotnet-buildtools-prereqs:ubuntu-16.04-crossx86-ef0ac75-20175511035548"
}
else if (architecture == 'armem') {
if (os == 'Tizen') {
return "tizendotnet/dotnet-buildtools-prereqs:ubuntu-16.04-cross-e435274-20180426002255-tizen-rootfs-5.0m1"
}
}
else if (architecture == 'arm') {
if (os == 'Ubuntu') {
return "microsoft/dotnet-buildtools-prereqs:ubuntu-14.04-cross-e435274-20180426002420"
}
}
else if (architecture == 'arm64') {
if (os == 'Ubuntu') {
return "microsoft/dotnet-buildtools-prereqs:ubuntu-16.04-cross-arm64-a3ae44b-20180315221921"
}
}
}
else {
if (architecture == 'x86' && os == 'Ubuntu') {
return "hseok82/dotnet-buildtools-prereqs:ubuntu1604_x86_test"
}
}
println("Unknown architecture to use docker: ${architecture} ${os}");
assert false
}
// We have a limited amount of some hardware. For these, scale back the periodic testing we do,
// and only allowing using this hardware in some specific branches.
def static jobRequiresLimitedHardware(def architecture, def os) {
if (((architecture == 'arm64') || (architecture == 'arm')) && (os == 'Windows_NT')) {
// These test jobs require ARM64 hardware
return true
}
else if ((architecture == 'arm') && (os == 'Ubuntu')) {
// These test jobs require Linux/arm32 hardware
return true
}
else if ((architecture == 'arm64') && (os == 'Ubuntu')) {
// These test jobs require Linux/arm64 hardware
return true
}
else {
return false
}
}
// Calculates the name of the build job based on some typical parameters.
//
def static getJobName(def configuration, def architecture, def os, def scenario, def isBuildOnly) {
// If the architecture is x64, do not add that info into the build name.
// Need to change around some systems and other builds to pick up the right builds
// to do that.
def suffix = scenario != 'normal' ? "_${scenario}" : '';
if (isBuildOnly) {
suffix += '_bld'
}
def baseName = ''
switch (architecture) {
case 'x64':
if (scenario == 'normal') {
// For now we leave x64 off of the name for compatibility with other jobs
baseName = configuration.toLowerCase() + '_' + os.toLowerCase()
}
else if (scenario == 'formatting') {
// we don't care about the configuration for the formatting job. It runs all configs
baseName = architecture.toLowerCase() + '_' + os.toLowerCase()
}
else {
baseName = architecture.toLowerCase() + '_' + configuration.toLowerCase() + '_' + os.toLowerCase()
}
break
case 'arm64':
if (os.toLowerCase() == "windows_nt") {
// These are cross builds
baseName = architecture.toLowerCase() + '_cross_' + configuration.toLowerCase() + '_' + os.toLowerCase()
}
else {
// Defaults to a small page size set of machines.
baseName = architecture.toLowerCase() + '_' + configuration.toLowerCase() + '_' + "small_page_size"
}
break
case 'armem':
// These are cross builds
assert os == 'Tizen'
baseName = 'armel_cross_' + configuration.toLowerCase() + '_' + os.toLowerCase()
break
case 'arm':
baseName = architecture.toLowerCase() + '_cross_' + configuration.toLowerCase() + '_' + os.toLowerCase()
break
case 'x86':
case 'x86_arm_altjit':
case 'x64_arm64_altjit':
baseName = architecture.toLowerCase() + '_' + configuration.toLowerCase() + '_' + os.toLowerCase()
break
default:
println("Unknown architecture: ${architecture}");
assert false
break
}
return baseName + suffix
}
def static addNonPRTriggers(def job, def branch, def isPR, def architecture, def os, def configuration, def scenario, def isFlowJob, def isWindowsBuildOnlyJob, def bidailyCrossList) {
def isNormalOrInnerloop = (scenario == "normal" || scenario == "innerloop")
// Limited hardware is restricted for non-PR triggers to certain branches.
if (jobRequiresLimitedHardware(architecture, os) && (!(branch in Constants.LimitedHardwareBranches))) {
return
}
// No arm64 Ubuntu cron jobs for now: we don't have enough hardware.
if ((architecture == 'arm64') && (os != 'Windows_NT')) {
return
}
// Ubuntu x86 CI jobs are failing. Disable non-PR triggered jobs to avoid these constant failures
// until this is fixed. Tracked by https://github.com/dotnet/coreclr/issues/19003.
if (architecture == 'x86' && os == 'Ubuntu') {
return
}
// Check scenario.
switch (scenario) {
case 'innerloop':
case 'no_tiered_compilation_innerloop':
break
case 'normal':
switch (architecture) {
case 'x64':
case 'x86':
if (isFlowJob && architecture == 'x86' && os == 'Ubuntu') {
addPeriodicTriggerHelper(job, '@daily')
}
else if (isFlowJob || os == 'Windows_NT' || !(os in Constants.crossList)) {
addGithubPushTriggerHelper(job)
}
break
case 'arm64':
if (os == 'Windows_NT') {
if (isFlowJob || (isNormalOrInnerloop && (configuration == 'Debug'))) {
// We would normally want a per-push trigger, but with limited hardware we can't keep up.
// Do the builds daily.
addPeriodicTriggerHelper(job, '@daily')
}
}
else {
// Only the flow jobs get push triggers; the build and test jobs are triggered by the flow job.
if (isFlowJob) {
addPeriodicTriggerHelper(job, '@daily')
}
}
break
case 'arm':
if (os == 'Windows_NT') {
if (isFlowJob || (isNormalOrInnerloop && (configuration == 'Debug'))) {
// We would normally want a push trigger, but with limited hardware we can't keep up.
// Do the builds daily.
addPeriodicTriggerHelper(job, '@daily')
}
}
else {
assert os == 'Ubuntu'
// Only the flow jobs get push triggers; the build and test jobs are triggered by the flow job.
if (isFlowJob) {
// Currently no push triggers, with limited arm Linux hardware.
// TODO: If we have enough machine capacity, add some arm Linux push triggers.
addPeriodicTriggerHelper(job, '@daily')
}
}
break
case 'armem':
addGithubPushTriggerHelper(job)
break
case 'x86_arm_altjit':
case 'x64_arm64_altjit':
// Only do altjit push triggers for Checked; don't waste time on Debug or Release.
if (configuration == 'Checked') {
addGithubPushTriggerHelper(job)
}
break
default:
println("Unknown architecture: ${architecture}");
assert false
break
}
break
case 'r2r':
assert !(os in bidailyCrossList)
// r2r gets a push trigger for checked/release
if (configuration == 'Checked' || configuration == 'Release') {
assert (os == 'Windows_NT') || (os in Constants.crossList)
if (architecture == 'x64' && os != 'OSX10.12') {
//Flow jobs should be Windows, Ubuntu, OSX0.12, or CentOS
if (isFlowJob || os == 'Windows_NT') {
addGithubPushTriggerHelper(job)
}
// OSX10.12 r2r jobs should only run every 12 hours, not daily.
} else if (architecture == 'x64' && os == 'OSX10.12'){
if (isFlowJob) {
addPeriodicTriggerHelper(job, 'H H/12 * * *')
}
}
// For x86, only add per-commit jobs for Windows
else if (architecture == 'x86') {
if (os == 'Windows_NT') {
addGithubPushTriggerHelper(job)
}
}
// arm64 r2r jobs should only run weekly.
// arm64 r2r jobs are only run on Windows (Q: should they run on non-Windows?)
else if (architecture == 'arm64') {
if (os == 'Windows_NT') {
if (isFlowJob) {
addPeriodicTriggerHelper(job, '@weekly')
}
}
}
// arm r2r jobs should only run weekly.
else if (architecture == 'arm') {
if (isFlowJob) {
addPeriodicTriggerHelper(job, '@weekly')
}
}
}
break
case 'r2r_jitstress1':
case 'r2r_jitstress2':
case 'r2r_jitstress1_tiered':
case 'r2r_jitstress2_tiered':
case 'r2r_jitstressregs1':
case 'r2r_jitstressregs2':
case 'r2r_jitstressregs3':
case 'r2r_jitstressregs4':
case 'r2r_jitstressregs8':
case 'r2r_jitstressregs0x10':
case 'r2r_jitstressregs0x80':
case 'r2r_jitstressregs0x1000':
case 'r2r_jitminopts':
case 'r2r_jitforcerelocs':
case 'r2r_gcstress15':
case 'r2r_no_tiered_compilation':
assert !(os in bidailyCrossList)
// GCStress=C is currently not supported on OS X
if (os == 'OSX10.12' && isGCStressRelatedTesting(scenario)) {
break
}
// GC Stress 15 r2r gets a push trigger for checked/release
if (configuration == 'Checked' || configuration == 'Release') {
assert (os == 'Windows_NT') || (os in Constants.crossList)
if (architecture == 'x64') {
//Flow jobs should be Windows, Ubuntu, OSX10.12, or CentOS
if (isFlowJob || os == 'Windows_NT') {
// Add a weekly periodic trigger
addPeriodicTriggerHelper(job, 'H H * * 3,6') // some time every Wednesday and Saturday
}
}
// For x86, only add periodic jobs for Windows
else if (architecture == 'x86') {
if (os == 'Windows_NT') {
addPeriodicTriggerHelper(job, 'H H * * 3,6') // some time every Wednesday and Saturday
}
}
// arm64 r2r jobs are only run on Windows (Q: should they run on non-Windows?)
else if (architecture == 'arm64') {
if (os == 'Windows_NT') {
if (isFlowJob) {
addPeriodicTriggerHelper(job, '@weekly')
}
}
}
else if (architecture == 'arm') {
if (isFlowJob) {
addPeriodicTriggerHelper(job, '@weekly')
}
}
}
break
case 'longgc':
assert (os == 'Ubuntu' || os == 'Windows_NT' || os == 'OSX10.12')
assert configuration == 'Release'
assert architecture == 'x64'
addPeriodicTriggerHelper(job, '@daily')
// TODO: Add once external email sending is available again
// addEmailPublisher(job, 'dotnetgctests@microsoft.com')
break
case 'gcsimulator':
assert (os == 'Ubuntu' || os == 'Windows_NT' || os == 'OSX10.12')
assert configuration == 'Release'
assert architecture == 'x64'
addPeriodicTriggerHelper(job, 'H H * * 3,6') // some time every Wednesday and Saturday
// TODO: Add once external email sending is available again
// addEmailPublisher(job, 'dotnetgctests@microsoft.com')
break
case 'standalone_gc':
assert (os == 'Ubuntu' || os == 'Windows_NT' || os == 'OSX10.12')
assert (configuration == 'Release' || configuration == 'Checked')
// TODO: Add once external email sending is available again
// addEmailPublisher(job, 'dotnetgctests@microsoft.com')
addPeriodicTriggerHelper(job, '@daily')
break
case 'gc_reliability_framework':
assert (os == 'Ubuntu' || os == 'Windows_NT' || os == 'OSX10.12')
assert (configuration == 'Release' || configuration == 'Checked')
// Only triggered by phrase.
break
case 'ilrt':
assert !(os in bidailyCrossList)
// 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') {
addPeriodicTriggerHelper(job, '@daily')
}
}
break
case 'jitdiff':
assert (os == 'Ubuntu' || os == 'Windows_NT' || os == 'OSX10.12')
assert configuration == 'Checked'
assert (architecture == 'x64' || architecture == 'x86')
addGithubPushTriggerHelper(job)
break
case 'formatting':
assert (os == 'Windows_NT' || os == "Ubuntu")
assert architecture == 'x64'
addGithubPushTriggerHelper(job)
break
case 'jitstressregs1':
case 'jitstressregs2':
case 'jitstressregs3':
case 'jitstressregs4':
case 'jitstressregs8':
case 'jitstressregs0x10':
case 'jitstressregs0x80':
case 'jitstressregs0x1000':
case 'minopts':
case 'tieredcompilation':
case 'no_tiered_compilation':
case 'forcerelocs':
case 'jitstress1':
case 'jitstress2':
case 'jitstress1_tiered':
case 'jitstress2_tiered':
case 'jitstress2_jitstressregs1':
case 'jitstress2_jitstressregs2':
case 'jitstress2_jitstressregs3':
case 'jitstress2_jitstressregs4':
case 'jitstress2_jitstressregs8':
case 'jitstress2_jitstressregs0x10':
case 'jitstress2_jitstressregs0x80':
case 'jitstress2_jitstressregs0x1000':
case 'tailcallstress':
case 'jitsse2only':
case 'jitnosimd':
case 'jitnox86hwintrinsic':
case 'jitincompletehwintrinsic':
case 'jitx86hwintrinsicnoavx':
case 'jitx86hwintrinsicnoavx2':
case 'jitx86hwintrinsicnosimd':
case 'corefx_baseline':
case 'corefx_minopts':
case 'corefx_tieredcompilation':
case 'corefx_jitstress1':
case 'corefx_jitstress2':
case 'corefx_jitstressregs1':
case 'corefx_jitstressregs2':
case 'corefx_jitstressregs3':
case 'corefx_jitstressregs4':
case 'corefx_jitstressregs8':
case 'corefx_jitstressregs0x10':
case 'corefx_jitstressregs0x80':
case 'corefx_jitstressregs0x1000':
case 'zapdisable':
if (os == 'CentOS7.1') {
break
}
if (os in bidailyCrossList) {
break
}
// ARM corefx testing uses non-flow jobs to provide the configuration-specific
// build for the flow job. We don't need cron jobs for these. Note that the
// Windows ARM jobs depend on a Windows "build only" job that exits the trigger
// function very early, so only non-Windows gets here.
if ((architecture == 'arm') && isCoreFxScenario(scenario) && !isFlowJob) {
break
}
if ((architecture == 'arm64') && isCoreFxScenario(scenario) && !isFlowJob) {
break
}
assert (os == 'Windows_NT') || (os in Constants.crossList)
if (jobRequiresLimitedHardware(architecture, os)) {
addPeriodicTriggerHelper(job, '@weekly')
}
else {
addPeriodicTriggerHelper(job, '@daily')
}
break
case 'heapverify1':
case 'gcstress0x3':
if (os == 'CentOS7.1') {
break
}
if (os in bidailyCrossList) {
break
}
if ((architecture == 'arm64') && (os != 'Windows_NT')) {
// TODO: should we have cron jobs for arm64 Linux GCStress?
break
}
assert (os == 'Windows_NT') || (os in Constants.crossList)
addPeriodicTriggerHelper(job, '@weekly')
break
case 'gcstress0xc':
case 'gcstress0xc_zapdisable':
case 'gcstress0xc_zapdisable_jitstress2':
case 'gcstress0xc_zapdisable_heapverify1':
case 'gcstress0xc_jitstress1':
case 'gcstress0xc_jitstress2':
case 'gcstress0xc_minopts_heapverify1':
if (os == 'CentOS7.1') {
break
}
if (os == 'OSX10.12') {
// GCStress=C is currently not supported on OS X
break
}
if (os in bidailyCrossList) {
break
}
if ((architecture == 'arm64') && (os != 'Windows_NT')) {
// TODO: should we have cron jobs for arm64 Linux GCStress?
break
}
assert (os == 'Windows_NT') || (os in Constants.crossList)
addPeriodicTriggerHelper(job, '@weekly')
break
case 'illink':
// Testing on other operating systems TBD
assert (os == 'Windows_NT' || os == 'Ubuntu')
if (architecture == 'x64' || architecture == 'x86') {
if (configuration == 'Checked') {
addPeriodicTriggerHelper(job, '@daily')
}
}
break
default:
println("Unknown scenario: ${scenario}");
assert false
break
}
return
}
// **************************
// Define the basic inner loop builds for PR and commit. This is basically just the set
// of coreclr builds over linux/osx 10.12/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. // If the job is a windows build only job,
// it's just used for internal builds
// If you add a job with a trigger phrase, please add that phrase to coreclr/Documentation/project-docs/ci-trigger-phrases.md
def static addTriggers(def job, def branch, def isPR, def architecture, def os, def configuration, def scenario, def isFlowJob, def isWindowsBuildOnlyJob) {
def isNormalOrInnerloop = (scenario == "normal" || scenario == "innerloop")
if (isWindowsBuildOnlyJob) {
return
}
def bidailyCrossList = ['RHEL7.2', 'Debian8.4']
// Non pull request builds.
if (!isPR) {
addNonPRTriggers(job, branch, isPR, architecture, os, configuration, scenario, isFlowJob, isWindowsBuildOnlyJob, bidailyCrossList)
return
}
def arm64Users = [
'adityamandaleeka',
'AndyAyersMS',
'briansull',
'BruceForstall',
'CarolEidt',
'davidwrighton',
'echesakovMSFT',
'erozenfeld',
'janvorli',
'jashook',
'pgodeq',
'RussKeldorph',
'sandreenko',
'sdmaclea',
'swaroop-sridhar',
'jkotas',
'markwilkie',
'weshaggard'
]
// 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 contextString = ""
def triggerString = ""
def needsTrigger = true
def isDefaultTrigger = false
def isArm64PrivateJob = false
def scenarioString = ""
// Set up default context string and trigger phrases. This is overridden in places, sometimes just to keep
// the existing non-standard descriptions and phrases. In some cases, the scenarios are asymmetric, as for
// some jobs where the Debug configuration just does builds, no tests.
//
// Some configurations, like arm32/arm64, always use the exact scenario name as part of the context string.
// This makes it possible to copy/paste the displayed context string as "@dotnet-bot test <context-string>"
// to invoke the trigger. Any "fancy" context string makes that impossible, requiring the user to either
// remember the mapping from context string to trigger string, or use "@dotnet-bot help" to look it up.
if (architecture == 'armem') {
assert os == 'Tizen'
architecture = 'armel'
}
switch (architecture) {
case 'x64_arm64_altjit':
case 'x86_arm_altjit':
// TODO: for consistency, add "Build and Test" at end.
contextString = "${os} ${architecture} ${configuration} ${scenario}"
triggerString = "(?i).*test\\W+${os}\\W+${architecture}\\W+${configuration}\\W+${scenario}.*"
break
case 'armel':
case 'arm':
case 'arm64':
contextString = "${os} ${architecture} Cross ${configuration}"
triggerString = "(?i).*test\\W+${os}\\W+${architecture}\\W+Cross\\W+${configuration}"
if (scenario == 'innerloop') {
contextString += " Innerloop"
triggerString += "\\W+Innerloop"
}
else {
contextString += " ${scenario}"
triggerString += "\\W+${scenario}"
}
if (configuration == 'Debug') {
contextString += " Build"
triggerString += "\\W+Build"
}
else {
contextString += " Build and Test"
triggerString += "\\W+Build and Test"
}
triggerString += ".*"
break
default:
scenarioString = getScenarioDisplayString(scenario)
contextString = "${os} ${architecture} ${configuration} ${scenarioString}"
triggerString = "(?i).*test\\W+${os}\\W+${architecture}\\W+${configuration}"
switch (scenario) {
case 'normal':
triggerString += "\\W+Build and Test.*"
break
case 'corefx_innerloop': // maintain this asymmetry
triggerString += "\\W+CoreFX Tests.*"
break
default:
triggerString += "\\W+${scenario}.*"
break
}
triggerString += ".*"
break
}
// Now determine what kind of trigger this job needs, if any. Any job should be triggerable, except for
// non-flow jobs that are only used as part of flow jobs.
switch (architecture) {
case 'x64': // editor brace matching: {
if (scenario == 'formatting') {
assert configuration == 'Checked'
if (os == 'Windows_NT' || os == 'Ubuntu') {
isDefaultTrigger = true
contextString = "${os} ${architecture} Formatting"
}
break
}
switch (os) {
// OpenSUSE, Debian & RedHat get trigger phrases for pri 0 build, and pri 1 build & test
case 'Debian8.4':
case 'RHEL7.2':
if (scenario == 'innerloop') {
assert !isFlowJob
contextString = "${os} ${architecture} ${configuration} Innerloop Build"
isDefaultTrigger = true
break
}
// fall through
case 'Fedora24':
case 'Ubuntu16.04':
case 'Ubuntu16.10':
assert !isFlowJob
assert scenario != 'innerloop'
contextString = "${os} ${architecture} ${configuration} Build"
triggerString = "(?i).*test\\W+${os}\\W+${architecture}\\W+${configuration}\\W+Build.*"
break
case 'Ubuntu':
if (scenario == 'illink') {
break
}
else if (scenario == 'corefx_innerloop') {
if (configuration == 'Checked') {
isDefaultTrigger = true
}
break
}
// fall through
case 'OSX10.12':
// Triggers on the non-flow jobs aren't necessary here
// Corefx testing uses non-flow jobs.
if (!isFlowJob && !isCoreFxScenario(scenario)) {
needsTrigger = false
break
}
switch (scenario) {
case 'innerloop':
isDefaultTrigger = true
break
case 'no_tiered_compilation_innerloop':
if (os == 'Ubuntu') {
isDefaultTrigger = true
}
break
default:
break
}
break
case 'CentOS7.1':
switch (scenario) {
case 'innerloop':
// CentOS uses checked for default PR tests while debug is build only
if (configuration == 'Debug') {
isDefaultTrigger = true
contextString = "${os} ${architecture} ${configuration} Innerloop Build"
break
}
// Make sure this is a flow job to get build and test.
if (!isFlowJob) {
needsTrigger = false
break
}
if (configuration == 'Checked') {
assert job.name.contains("flow")
isDefaultTrigger = true
contextString = "${os} ${architecture} ${configuration} Innerloop Build and Test"
}
break
case 'normal':
// Make sure this is a flow job to get build and test.
if (!isFlowJob) {
needsTrigger = false
break
}
break
default:
break
}
break
case 'Windows_NT':
switch (scenario) {
case 'innerloop':
case 'no_tiered_compilation_innerloop':
isDefaultTrigger = true
break
case 'corefx_innerloop':
if (configuration == 'Checked' || configuration == 'Release') {
isDefaultTrigger = true
}
break
default:
break
}
break
default:
println("Unknown os: ${os}");
assert false
break
} // switch (os)
break
// editor brace matching: }
case 'armel': // editor brace matching: {
job.with {
publishers {
azureVMAgentPostBuildAction {
agentPostBuildAction('Delete agent if the build was not successful (when idle).')
}
}
}
switch (os) {
case 'Tizen':
if (scenario == 'innerloop') {
if (configuration == 'Checked') {
isDefaultTrigger = true
}
}
break
}
break
// editor brace matching: }
case 'arm':
case 'arm64': // editor brace matching: {
switch (os) {
case 'Ubuntu':
// TODO: make arm and arm64 Ubuntu more alike
if (architecture == 'arm') {
// Triggers on the non-flow jobs aren't necessary
if (!isFlowJob) {
needsTrigger = false
break
}
switch (scenario) {
case 'innerloop':
case 'no_tiered_compilation_innerloop':
if (configuration == 'Checked') {
isDefaultTrigger = true
}
break
}
}
else {
assert architecture == 'arm64'
switch (scenario) {
case 'innerloop':
if (configuration == 'Debug' && !isFlowJob) {
isDefaultTrigger = true
}
break
}
}
break
case 'Windows_NT':
assert isArmWindowsScenario(scenario)
// For Debug normal/innerloop scenario, we don't do test runs, so we don't use flow jobs. That means we need a trigger for
// the non-flow Build job. All others need a trigger on the flow job.
def needsFlowJobTrigger = !(isNormalOrInnerloop && (configuration == 'Debug'))
if (isFlowJob != needsFlowJobTrigger) {
needsTrigger = false
break
}
switch (scenario) {
case 'innerloop':
if (configuration == 'Debug') {
// Add default PR trigger for Windows arm64 Debug builds. This is a build only -- no tests are run --
// so the private test hardware is not used. Thus, it can be run by all users, not just arm64Users.
// People in arm64Users will get both this and the Checked Build and Test job.
isDefaultTrigger = true
} else if (configuration == 'Checked') {
isDefaultTrigger = true
isArm64PrivateJob = true
}
break
default:
isArm64PrivateJob = true
break
}
break
default:
println("NYI os: ${os}");
assert false
break
}
break
// editor brace matching: }
case 'x86': // editor brace matching: {
assert ((os == 'Windows_NT') || ((os == 'Ubuntu') && isNormalOrInnerloop))
if (os == 'Ubuntu') {
// Triggers on the non-flow jobs aren't necessary here
if (!isFlowJob) {
needsTrigger = false
break
}
// on-demand only for ubuntu x86
contextString = "${os} ${architecture} ${configuration} Build"
triggerString = "(?i).*test\\W+${os}\\W+${architecture}\\W+${configuration}.*"
break
}
switch (scenario) {
case 'innerloop':
case 'no_tiered_compilation_innerloop':
isDefaultTrigger = true
break
default:
break
}
break
// editor brace matching: }
case 'x64_arm64_altjit':
case 'x86_arm_altjit':
// Everything default
break
default:
println("Unknown architecture: ${architecture}");
assert false
break
}
if (needsTrigger) {
if (isArm64PrivateJob) {
if (isDefaultTrigger) {
Utilities.addDefaultPrivateGithubPRTriggerForBranch(job, branch, contextString, null, arm64Users)
}
else {
Utilities.addPrivateGithubPRTriggerForBranch(job, branch, contextString, triggerString, null, arm64Users)
}
}
else {
if (isDefaultTrigger) {
Utilities.addGithubPRTriggerForBranch(job, branch, contextString)
}
else {
Utilities.addGithubPRTriggerForBranch(job, branch, contextString, triggerString)
}
}
}
}
def static calculateBuildCommands(def newJob, def scenario, def branch, def isPR, def architecture, def configuration, def os, def isBuildOnly) {
def buildCommands = []
def osGroup = getOSGroup(os)
def lowerConfiguration = configuration.toLowerCase()
def priority = '1'
if (isPri0TestScenario(scenario)) {
priority = '0'
}
def doCoreFxTesting = isCoreFxScenario(scenario)
// Calculate the build steps, archival, and xunit results
switch (os) {
case 'Windows_NT': // editor brace matching: {
switch (architecture) {
case 'x64':
case 'x86':
case 'x86_arm_altjit':
case 'x64_arm64_altjit':
def arch = architecture
def buildOpts = ''
if (architecture == 'x86_arm_altjit') {
arch = 'x86'
}
else if (architecture == 'x64_arm64_altjit') {
arch = 'x64'
}
if (scenario == 'formatting') {
buildCommands += "python -u tests\\scripts\\format.py -c %WORKSPACE% -o Windows_NT -a ${arch}"
Utilities.addArchival(newJob, "format.patch", "", true, false)
break
}
if (scenario == 'illink') {
buildCommands += "tests\\scripts\\build_illink.cmd clone ${arch}"
}
// If it is a release build for Windows, ensure PGO is used, else fail the build.
if ((lowerConfiguration == 'release') &&
(scenario in Constants.basicScenarios) &&
(architecture != 'x86_arm_altjit') &&
(architecture != 'x64_arm64_altjit')) {
buildOpts += ' -enforcepgo'
}
if (doCoreFxTesting) {
buildOpts += ' skiptests';
} else {
buildOpts += " -priority=${priority}"
}
// Set __TestIntermediateDir to something short. If __TestIntermediateDir is already set, build-test.cmd will
// output test binaries to that directory. If it is not set, the binaries are sent to a default directory whose name is about
// 35 characters long.
buildCommands += "set __TestIntermediateDir=int&&build.cmd ${lowerConfiguration} ${arch} ${buildOpts}"
if (!isBuildOnly) {
def runtestArguments = ''
def testOpts = 'collectdumps'
if (isR2RScenario(scenario)) {
// If this is a ReadyToRun scenario, pass 'crossgen' or 'crossgenaltjit'
// to cause framework assemblies to be crossgen'ed. Pass 'runcrossgentests'
// to cause the tests to be crossgen'ed.
if ((architecture == 'x86_arm_altjit') || (architecture == 'x64_arm64_altjit')) {
testOpts += ' crossgenaltjit protononjit.dll'
} else {
testOpts += ' crossgen'
}
testOpts += ' runcrossgentests'
}
else if (scenario == 'jitdiff') {
testOpts += ' jitdisasm crossgen'
}
else if (scenario == 'ilrt') {
testOpts += ' ilasmroundtrip'
}
else if (isLongGc(scenario)) {
testOpts += " ${scenario} sequential"
}
else if (scenario == 'standalone_gc') {
testOpts += ' gcname clrgc.dll'
}
else if (scenario == 'illink') {
testOpts += " link %WORKSPACE%\\linker\\linker\\bin\\netcore_Release\\netcoreapp2.0\\win10-${arch}\\publish\\illink.exe"
}
// Default per-test timeout is 10 minutes. For stress modes and Debug scenarios, increase this
// to 30 minutes (30 * 60 * 1000 = 180000). The "timeout" argument to runtest.cmd sets this, by
// taking a timeout value in milliseconds. (Note that it sets the __TestTimeout environment variable,
// which is read by the xunit harness.)
if (isJitStressScenario(scenario) || isR2RStressScenario(scenario) || (lowerConfiguration == 'debug'))
{
def timeout = 1800000
testOpts += " timeout ${timeout}"
}
// 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
def envScriptPath = ''
if (isJitStressScenario(scenario) || isR2RStressScenario(scenario)) {
def buildCommandsStr = ''
envScriptPath = "%WORKSPACE%\\SetStressModes.bat"
buildCommandsStr += envScriptCreate(os, envScriptPath)
if (isJitStressScenario(scenario)) {
buildCommandsStr += envScriptSetStressModeVariables(os, Constants.jitStressModeScenarios[scenario], envScriptPath)
}
else if (isR2RStressScenario(scenario)) {
buildCommandsStr += envScriptSetStressModeVariables(os, Constants.r2rStressScenarios[scenario], envScriptPath)
}
if (architecture == 'x86_arm_altjit') {
buildCommandsStr += envScriptAppendExistingScript(os, "%WORKSPACE%\\tests\\x86_arm_altjit.cmd", envScriptPath)
}
else if (architecture == 'x64_arm64_altjit') {
buildCommandsStr += envScriptAppendExistingScript(os, "%WORKSPACE%\\tests\\x64_arm64_altjit.cmd", envScriptPath)
}
envScriptFinalize(os, envScriptPath)
// Note that buildCommands is an array of individually executed commands; we want all the commands used to
// create the SetStressModes.bat script to be executed together, hence we accumulate them as strings
// into a single script.
buildCommands += buildCommandsStr
}
else if (architecture == 'x86_arm_altjit') {
envScriptPath = "%WORKSPACE%\\tests\\x86_arm_altjit.cmd"
}
else if (architecture == 'x64_arm64_altjit') {
envScriptPath = "%WORKSPACE%\\tests\\x64_arm64_altjit.cmd"
}
if (envScriptPath != '') {
testOpts += " TestEnv ${envScriptPath}"
}
runtestArguments = "${lowerConfiguration} ${arch} ${testOpts}"
if (doCoreFxTesting) {
if (scenario == 'corefx_innerloop') {
// Create CORE_ROOT and testhost
buildCommands += "build-test.cmd ${lowerConfiguration} ${arch} buildtesthostonly"
buildCommands += "tests\\runtest.cmd ${runtestArguments} CoreFXTestsAll"
// Archive and process (only) the test results
Utilities.addArchival(newJob, "bin/Logs/**/testResults.xml")
Utilities.addXUnitDotNETResults(newJob, "bin/Logs/**/testResults.xml")
}
else {
def workspaceRelativeFxRoot = "_/fx"
def absoluteFxRoot = "%WORKSPACE%\\_\\fx"
def fxBranch = getFxBranch(branch)
buildCommands += "python -u %WORKSPACE%\\tests\\scripts\\run-corefx-tests.py -arch ${arch} -ci_arch ${architecture} -build_type ${configuration} -fx_root ${absoluteFxRoot} -fx_branch ${fxBranch} -env_script ${envScriptPath}"
// Archive and process (only) the test results
Utilities.addArchival(newJob, "${workspaceRelativeFxRoot}/bin/**/testResults.xml")
Utilities.addXUnitDotNETResults(newJob, "${workspaceRelativeFxRoot}/bin/**/testResults.xml")
//Archive additional build stuff to diagnose why my attempt at fault injection isn't causing CI to fail
Utilities.addArchival(newJob, "SetStressModes.bat", "", true, false)
Utilities.addArchival(newJob, "${workspaceRelativeFxRoot}/bin/testhost/**", "", true, false)
}
}
else if (isGcReliabilityFramework(scenario)) {
buildCommands += "tests\\runtest.cmd ${runtestArguments} GenerateLayoutOnly"
buildCommands += "tests\\scripts\\run-gc-reliability-framework.cmd ${arch} ${configuration}"
}
else {
buildCommands += "tests\\runtest.cmd ${runtestArguments}"
}
} // end if (!isBuildOnly)
if (!doCoreFxTesting) {
// Run the rest of the build
// Build the mscorlib for the other OS's
buildCommands += "build.cmd ${lowerConfiguration} ${arch} linuxmscorlib"
buildCommands += "build.cmd ${lowerConfiguration} ${arch} osxmscorlib"
if (arch == 'x64') {
buildCommands += "build.cmd ${lowerConfiguration} arm64 linuxmscorlib"
}
// Zip up the tests directory so that we don't use so much space/time copying
// 10s of thousands of files around.
buildCommands += "powershell -NoProfile -Command \"Add-Type -Assembly 'System.IO.Compression.FileSystem'; [System.IO.Compression.ZipFile]::CreateFromDirectory('.\\bin\\tests\\${osGroup}.${arch}.${configuration}', '.\\bin\\tests\\tests.zip')\"";
if (!isJitStressScenario(scenario)) {
// For Windows, pull full test results and test drops for x86/x64.
// No need to pull for stress mode scenarios (downstream builds use the default scenario)
Utilities.addArchival(newJob, "bin/Product/**,bin/tests/tests.zip", "bin/Product/**/.nuget/**")
}
if (scenario == 'jitdiff') {
// retrieve jit-dasm output for base commit, and run jit-diff
if (!isBuildOnly) {
// if this is a build only job, we want to keep the default (build) artifacts for the flow job
Utilities.addArchival(newJob, "bin/tests/${osGroup}.${arch}.${configuration}/dasm/**")
}
}
if (!isBuildOnly) {
Utilities.addXUnitDotNETResults(newJob, 'bin/**/TestRun*.xml', true)
}
}
break
case 'arm':
case 'arm64':
assert isArmWindowsScenario(scenario)
def buildOpts = ''
if (doCoreFxTesting) {
buildOpts += ' skiptests'
} else {
buildOpts += " -priority=${priority}"
}
// This is now a build only job. Do not run tests. Use the flow job.
buildCommands += "set __TestIntermediateDir=int&&build.cmd ${lowerConfiguration} ${architecture} ${buildOpts}"
if (doCoreFxTesting) {
assert isBuildOnly
// Set the stress mode variables; this is incorporated into the generated CoreFx RunTests.cmd files.
def envScriptPath = ''
def buildCommandsStr = ''
envScriptPath = "%WORKSPACE%\\SetStressModes.bat"
buildCommandsStr += envScriptCreate(os, envScriptPath)
buildCommandsStr += envScriptSetStressModeVariables(os, Constants.jitStressModeScenarios[scenario], envScriptPath)
envScriptFinalize(os, envScriptPath)
buildCommands += buildCommandsStr
def workspaceRelativeFxRootLinux = "_/fx"
def workspaceRelativeFxRootWin = "_\\fx"
def absoluteFxRoot = "%WORKSPACE%\\_\\fx"
def fxBranch = getFxBranch(branch)
buildCommands += "python -u %WORKSPACE%\\tests\\scripts\\run-corefx-tests.py -arch ${architecture} -ci_arch ${architecture} -build_type ${configuration} -fx_root ${absoluteFxRoot} -fx_branch ${fxBranch} -env_script ${envScriptPath} -no_run_tests"
// Zip up the CoreFx runtime and tests. We don't need the CoreCLR binaries; they have been copied to the CoreFX tree.
buildCommands += "powershell -NoProfile -Command \"Add-Type -Assembly 'System.IO.Compression.FileSystem'; [System.IO.Compression.ZipFile]::CreateFromDirectory('${workspaceRelativeFxRootWin}\\bin\\testhost\\netcoreapp-Windows_NT-Release-${architecture}', '${workspaceRelativeFxRootWin}\\fxruntime.zip')\"";
buildCommands += "powershell -NoProfile -Command \"Add-Type -Assembly 'System.IO.Compression.FileSystem'; [System.IO.Compression.ZipFile]::CreateFromDirectory('${workspaceRelativeFxRootWin}\\bin\\tests', '${workspaceRelativeFxRootWin}\\fxtests.zip')\"";
Utilities.addArchival(newJob, "${workspaceRelativeFxRootLinux}/fxruntime.zip")
Utilities.addArchival(newJob, "${workspaceRelativeFxRootLinux}/fxtests.zip")
} else {
// Zip up the tests directory so that we don't use so much space/time copying
// 10s of thousands of files around.
buildCommands += "powershell -NoProfile -Command \"Add-Type -Assembly 'System.IO.Compression.FileSystem'; [System.IO.Compression.ZipFile]::CreateFromDirectory('.\\bin\\tests\\${osGroup}.${architecture}.${configuration}', '.\\bin\\tests\\tests.zip')\"";
// Add archival.
Utilities.addArchival(newJob, "bin/Product/**,bin/tests/tests.zip", "bin/Product/**/.nuget/**")
}
break
default:
println("Unknown architecture: ${architecture}");
assert false
break
}
break
// end case 'Windows_NT'; editor brace matching: }
case 'Ubuntu':
case 'Ubuntu16.04':
case 'Ubuntu16.10':
case 'Debian8.4':
case 'OSX10.12':
case 'CentOS7.1':
case 'RHEL7.2':
case 'Tizen':
case 'Fedora24': // editor brace matching: {
switch (architecture) {
case 'x64':
case 'x86':
if (architecture == 'x86' && os == 'Ubuntu') {
// build and PAL test
def dockerImage = getDockerImageName(architecture, os, true)
buildCommands += "docker run -i --rm -v \${WORKSPACE}:/opt/code -w /opt/code -e ROOTFS_DIR=/crossrootfs/x86 ${dockerImage} ./build.sh ${architecture} cross ${lowerConfiguration}"
dockerImage = getDockerImageName(architecture, os, false)
buildCommands += "docker run -i --rm -v \${WORKSPACE}:/opt/code -w /opt/code ${dockerImage} ./src/pal/tests/palsuite/runpaltests.sh /opt/code/bin/obj/${osGroup}.${architecture}.${configuration} /opt/code/bin/paltestout"
Utilities.addArchival(newJob, "bin/Product/**,bin/obj/*/tests/**/*.so", "bin/Product/**/.nuget/**")
Utilities.addXUnitDotNETResults(newJob, '**/pal_tests.xml')
break
}
if (scenario == 'formatting') {
buildCommands += "python tests/scripts/format.py -c \${WORKSPACE} -o Linux -a ${architecture}"
Utilities.addArchival(newJob, "format.patch", "", true, false)
break
}
if (scenario == 'illink') {
assert(os == 'Ubuntu')
buildCommands += "./tests/scripts/build_illink.sh --clone --arch=${architecture}"
}
if (!doCoreFxTesting) {
// We run pal tests on all OS but generate mscorlib (and thus, nuget packages)
// only on supported OS platforms.
def bootstrapRid = Utilities.getBoostrapPublishRid(os)
def bootstrapRidEnv = bootstrapRid != null ? "__PUBLISH_RID=${bootstrapRid} " : ''
buildCommands += "${bootstrapRidEnv}./build.sh ${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/**/*.dylib,bin/obj/*/tests/**/*.so", "bin/Product/**/.nuget/**")
// And pal tests
Utilities.addXUnitDotNETResults(newJob, '**/pal_tests.xml')
}
else {
if (scenario == 'corefx_innerloop') {
assert os == 'Ubuntu' || 'OSX10.12'
assert architecture == 'x64'
buildCommands += "./build.sh ${lowerConfiguration} ${architecture} skiptests"
buildCommands += "./build-test.sh ${lowerConfiguration} ${architecture} generatetesthostonly"
buildCommands += "./tests/runtest.sh --corefxtestsall --testHostDir=\${WORKSPACE}/bin/tests/${osGroup}.${architecture}.${configuration}/testhost/ --coreclr-src=\${WORKSPACE}"
break
// Archive and process (only) the test results
Utilities.addArchival(newJob, "bin/Logs/**/testResults.xml")
Utilities.addXUnitDotNETResults(newJob, "bin/Logs/**/testResults.xml")
}
else {
// Corefx stress testing
assert os == 'Ubuntu'
assert architecture == 'x64'
assert lowerConfiguration == 'checked'
assert isJitStressScenario(scenario)
// Build coreclr
buildCommands += "./build.sh ${lowerConfiguration} ${architecture}"
def scriptFileName = "\$WORKSPACE/set_stress_test_env.sh"
def envScriptCmds = envScriptCreate(os, scriptFileName)
envScriptCmds += envScriptSetStressModeVariables(os, Constants.jitStressModeScenarios[scenario], scriptFileName)
envScriptCmds += envScriptFinalize(os, scriptFileName)
buildCommands += envScriptCmds
// Build and text corefx
def workspaceRelativeFxRoot = "_/fx"
def absoluteFxRoot = "\$WORKSPACE/${workspaceRelativeFxRoot}"
def fxBranch = getFxBranch(branch)
buildCommands += "python -u \$WORKSPACE/tests/scripts/run-corefx-tests.py -arch ${architecture} -ci_arch ${architecture} -build_type ${configuration} -fx_root ${absoluteFxRoot} -fx_branch ${fxBranch} -env_script ${scriptFileName}"
// Archive and process (only) the test results
Utilities.addArchival(newJob, "${workspaceRelativeFxRoot}/bin/**/testResults.xml")
Utilities.addXUnitDotNETResults(newJob, "${workspaceRelativeFxRoot}/bin/**/testResults.xml")
}
}
break
case 'armem':
// Emulator cross builds for ARM runs on Tizen currently
assert os == 'Tizen'
def arm_abi = "armel"
def linuxCodeName = "tizen"
// Unzip the Windows test binaries first. Exit with 0
buildCommands += "unzip -q -o ./bin/tests/tests.zip -d ./bin/tests/Windows_NT.x64.${configuration} || exit 0"
// Unpack the corefx binaries
buildCommands += "mkdir ./bin/CoreFxBinDir"
buildCommands += "tar -xf ./bin/build.tar.gz -C ./bin/CoreFxBinDir"
// Call the ARM CI script to cross build and test using docker
buildCommands += """./tests/scripts/arm32_ci_script.sh \\
--mode=docker \\
--${arm_abi} \\
--linuxCodeName=${linuxCodeName} \\
--buildConfig=${lowerConfiguration} \\
--testRootDir=./bin/tests/Windows_NT.x64.${configuration} \\
--coreFxBinDir=./bin/CoreFxBinDir \\
--testDirFile=./tests/testsRunningInsideARM.txt"""
// Basic archiving of the build, no pal tests
Utilities.addArchival(newJob, "bin/Product/**,bin/obj/*/tests/**/*.dylib,bin/obj/*/tests/**/*.so", "bin/Product/**/.nuget/**")
break
case 'arm64':
case 'arm':
// Non-Windows ARM cross builds on hardware run on Ubuntu only
assert (os == 'Ubuntu')
// Add some useful information to the log file. Ignore return codes.
buildCommands += "uname -a || true"
def additionalOpts = ""
if (architecture == 'arm') {
additionalOpts = "-e CAC_ROOTFS_DIR=/crossrootfs/x86"
}
// Cross build the Ubuntu/arm product using docker with a docker image that contains the correct
// Ubuntu cross-compilation toolset (running on a Ubuntu x64 host).
// For CoreFX testing, we only need the product build; we don't need to generate the layouts. The product
// build is then copied into the corefx layout by the run-corefx-test.py script. For CoreFX testing, we
// ZIP up the generated CoreFX runtime and tests.
def dockerImage = getDockerImageName(architecture, os, true)
def dockerCmd = "docker run -i --rm -v \${WORKSPACE}:\${WORKSPACE} -w \${WORKSPACE} -e ROOTFS_DIR=/crossrootfs/${architecture} ${additionalOpts} ${dockerImage} "
buildCommands += "${dockerCmd}\${WORKSPACE}/build.sh ${lowerConfiguration} ${architecture} cross crosscomponent"
if (doCoreFxTesting) {
def scriptFileName = "\$WORKSPACE/set_stress_test_env.sh"
def envScriptCmds = envScriptCreate(os, scriptFileName)
envScriptCmds += envScriptSetStressModeVariables(os, Constants.jitStressModeScenarios[scenario], scriptFileName)
envScriptCmds += envScriptFinalize(os, scriptFileName)
buildCommands += envScriptCmds
// Build and text corefx
def workspaceRelativeFxRootLinux = "_/fx"
def absoluteFxRoot = "\$WORKSPACE/${workspaceRelativeFxRootLinux}"
def fxBranch = getFxBranch(branch)
buildCommands += "${dockerCmd}python -u \$WORKSPACE/tests/scripts/run-corefx-tests.py -arch ${architecture} -ci_arch ${architecture} -build_type ${configuration} -fx_root ${absoluteFxRoot} -fx_branch ${fxBranch} -env_script ${scriptFileName} -no_run_tests"
// Docker creates files with root permission, so we need to zip in docker also, or else we'll get permission errors.
buildCommands += "${dockerCmd}zip -r ${workspaceRelativeFxRootLinux}/fxruntime.zip ${workspaceRelativeFxRootLinux}/bin/testhost/netcoreapp-Linux-Release-${architecture}"
buildCommands += "${dockerCmd}zip -r ${workspaceRelativeFxRootLinux}/fxtests.zip ${workspaceRelativeFxRootLinux}/bin/tests"
Utilities.addArchival(newJob, "${workspaceRelativeFxRootLinux}/fxruntime.zip")
Utilities.addArchival(newJob, "${workspaceRelativeFxRootLinux}/fxtests.zip")
Utilities.addArchival(newJob, "${workspaceRelativeFxRootLinux}/run-test.sh")
}
else {
// Then, using the same docker image, generate the CORE_ROOT layout using build-test.sh to
// download the appropriate CoreFX packages.
// Note that docker should not be necessary here, for the "generatelayoutonly" case, but we use it
// just to be consistent with the "build.sh" case -- so both are run with the same environment.
buildCommands += "${dockerCmd}\${WORKSPACE}/build-test.sh ${lowerConfiguration} ${architecture} cross generatelayoutonly"
// ZIP up for the test job (created in the flow job code):
// (1) the built CORE_ROOT, /home/user/coreclr/bin/tests/Linux.arm.Checked/Tests/Core_Root,
// used by runtest.sh as the "--coreOverlayDir" argument.
// (2) the native parts of the test build: /home/user/coreclr/bin/obj/Linux.arm.Checked/tests,
// used by runtest.sh as the "--testNativeBinDir" argument.
// These commands are assumed to be run from the root of the workspace.
buildCommands += "zip -r coreroot.${lowerConfiguration}.zip ./bin/tests/Linux.${architecture}.${configuration}/Tests/Core_Root"
buildCommands += "zip -r testnativebin.${lowerConfiguration}.zip ./bin/obj/Linux.${architecture}.${configuration}/tests"
Utilities.addArchival(newJob, "coreroot.${lowerConfiguration}.zip,testnativebin.${lowerConfiguration}.zip", "")
}
// We need to clean up the build machines; the docker build leaves newly built files with root permission, which
// the cleanup task in Jenkins can't remove.
newJob.with {
publishers {
azureVMAgentPostBuildAction {
agentPostBuildAction('Delete agent after build execution (when idle).')
}
}
}
break
default:
println("Unknown architecture: ${architecture}");
assert false
break
}
break
// editor brace matching: }
default:
println("Unknown os: ${os}");
assert false
break
} // os
return buildCommands
}
// Determine if we should generate a job for the given parameters. This is for non-flow jobs: either build and test, or build only.
// Returns true if the job should be generated.
def static shouldGenerateJob(def scenario, def isPR, def architecture, def configuration, def os, def isBuildOnly)
{
// The "innerloop" (Pri-0 testing) scenario is only available as PR triggered.
if (scenario == 'innerloop' && !isPR) {
return false
}
// Run basic corefx tests only on PR-triggered jobs
// Runs under Release and Checked
if (scenario == 'corefx_innerloop' && !isPR) {
return false
}
// Tizen is only supported for armem architecture
if (os == 'Tizen' && architecture != 'armem') {
return false
}
// Filter based on architecture.
switch (architecture) {
case 'arm64':
case 'arm':
if ((os != 'Windows_NT') && (os != 'Ubuntu')) {
return false
}
break
case 'armem':
if (os != 'Tizen') {
return false
}
break
case 'x86_arm_altjit':
case 'x64_arm64_altjit':
if (os != 'Windows_NT') {
return false
}
break
case 'x86':
if ((os != 'Windows_NT') && (os != 'Ubuntu')) {
return false
}
break
case 'x64':
// Everything implemented
break
default:
println("Unknown architecture: ${architecture}")
assert false
break
}
// Which (Windows) build only jobs are required?
def isNormalOrInnerloop = (scenario == 'innerloop' || scenario == 'normal')
if (isBuildOnly) {
switch (architecture) {
case 'arm':
case 'arm64':
// We use build only jobs for Windows arm/arm64 cross-compilation corefx testing, so we need to generate builds for that.
if (!isCoreFxScenario(scenario)) {
return false
}
break
case 'x64':
case 'x86':
if (!isNormalOrInnerloop) {
return false
}
break
default:
return false
}
}
// Filter based on scenario.
if (isJitStressScenario(scenario)) {
if (configuration != 'Checked') {
return false
}
def isEnabledOS = (os == 'Windows_NT') || (os == 'Ubuntu' && (isCoreFxScenario(scenario) || architecture == 'arm' || architecture == 'arm64'))
if (!isEnabledOS) {
return false
}
switch (architecture) {
case 'x64':
case 'x86_arm_altjit':
case 'x64_arm64_altjit':
break
case 'x86':
// x86 ubuntu: no stress modes
if (os == 'Ubuntu') {
return false
}
break
case 'arm':
// We use build only jobs for Windows arm/arm64 cross-compilation corefx testing, so we need to generate builds for that.
// No "regular" Windows arm corefx jobs, e.g.
// For Ubuntu arm corefx testing, we use regular jobs (not "build only" since only Windows has "build only", and
// the Ubuntu arm "regular" jobs don't run tests anyway).
if (os == 'Windows_NT') {
if (! (isBuildOnly && isCoreFxScenario(scenario)) ) {
return false
}
}
else {
if (!isCoreFxScenario(scenario)) {
return false
}
}
break
case 'arm64':
if (os == 'Windows_NT') {
if (! (isBuildOnly && isCoreFxScenario(scenario)) ) {
return false
}
}
else {
if (!isCoreFxScenario(scenario)) {
return false
}
}
break
default:
// arm64: stress is handled through flow jobs.
// armem: no stress jobs for ARM emulator.
return false
}
}
else if (isR2RScenario(scenario)) {
if (os != 'Windows_NT') {
return false
}
if (isR2RBaselineScenario(scenario)) {
// no need for Debug scenario; Checked is sufficient
if (configuration != 'Checked' && configuration != 'Release') {
return false
}
}
else if (isR2RStressScenario(scenario)) {
// Stress scenarios only run with Checked builds, not Release (they would work with Debug, but be slow).
if (configuration != 'Checked') {
return false
}
}
switch (architecture) {
case 'arm':
case 'arm64':
// Windows arm/arm64 ready-to-run jobs use flow jobs and test jobs, but depend on "normal" (not R2R specific) build jobs.
return false
default:
break
}
}
else {
// Skip scenarios
switch (scenario) {
case 'ilrt':
// The ilrt build isn't necessary except for Windows_NT2003. Non-Windows NT uses
// the default scenario build
if (os != 'Windows_NT') {
return false
}
// Only x64 for now
if (architecture != 'x64') {
return false
}
// Release only
if (configuration != 'Release') {
return false
}
break
case 'jitdiff':
if (os != 'Windows_NT' && os != 'Ubuntu' && os != 'OSX10.12') {
return false
}
if (architecture != 'x64') {
return false
}
if (configuration != 'Checked') {
return false
}
break
case 'longgc':
case 'gcsimulator':
if (os != 'Windows_NT' && os != 'Ubuntu' && os != 'OSX10.12') {
return false
}
if (architecture != 'x64') {
return false
}
if (configuration != 'Release') {
return false
}
break
case 'gc_reliability_framework':
case 'standalone_gc':
if (os != 'Windows_NT' && os != 'Ubuntu' && os != 'OSX10.12') {
return false
}
if (architecture != 'x64') {
return false
}
if (configuration != 'Release' && configuration != 'Checked') {
return false
}
break
// We only run Windows and Ubuntu x64 Checked for formatting right now
case 'formatting':
if (os != 'Windows_NT' && os != 'Ubuntu') {
return false
}
if (architecture != 'x64') {
return false
}
if (configuration != 'Checked') {
return false
}
break
case 'illink':
if (os != 'Windows_NT' && (os != 'Ubuntu' || architecture != 'x64')) {
return false
}
if (architecture != 'x64' && architecture != 'x86') {
return false
}
break
case 'normal':
// Nothing skipped
break
case 'innerloop':
if (!isValidPrTriggeredInnerLoopJob(os, architecture, configuration, isBuildOnly)) {
return false
}
break
case 'corefx_innerloop':
if (os != 'Windows_NT' && os != 'Ubuntu' && os != 'OSX10.12') {
return false
}
if (architecture != 'x64') {
return false
}
break
default:
println("Unknown scenario: ${scenario}")
assert false
break
}
}
// For altjit, don't do any scenarios that don't change compilation. That is, scenarios that only change
// runtime behavior, not compile-time behavior, are not interesting.
switch (architecture) {
case 'x86_arm_altjit':
case 'x64_arm64_altjit':
if (isGCStressRelatedTesting(scenario)) {
return false
}
break
default:
break
}
// The job was not filtered out, so we should generate it!
return true
}
Constants.allScenarios.each { scenario ->
[true, false].each { isPR ->
Constants.architectureList.each { architecture ->
Constants.configurationList.each { configuration ->
Constants.osList.each { os ->
// If the OS is Windows_NT_BuildOnly, set the isBuildOnly flag to true
// and reset the os to Windows_NT
def isBuildOnly = false
if (os == 'Windows_NT_BuildOnly') {
isBuildOnly = true
os = 'Windows_NT'
}
if (!shouldGenerateJob(scenario, isPR, architecture, configuration, os, isBuildOnly)) {
return
}
// Calculate names
def jobName = getJobName(configuration, architecture, os, scenario, isBuildOnly)
def folderName = getJobFolder(scenario)
// Create the new job
def newJob = job(Utilities.getFullJobName(project, jobName, isPR, folderName)) {}
// We don't want to include in view any job that is only used by a flow job (because we want the views to have only the
// "top-level" jobs. Build only jobs are such jobs.
if (!isBuildOnly)
{
addToViews(newJob, isPR, architecture, os)
}
setJobMachineAffinity(architecture, os, true, false, false, newJob) // isBuildJob = true, isTestJob = false, isFlowJob = false
Utilities.standardJobSetup(newJob, project, isPR, "*/${branch}")
addTriggers(newJob, branch, isPR, architecture, os, configuration, scenario, false, isBuildOnly) // isFlowJob==false
setJobTimeout(newJob, isPR, architecture, configuration, scenario, isBuildOnly)
// Copy Windows build test binaries and corefx build artifacts for Linux cross build for armem.
// We don't use a flow job for this, but we do depend on there being existing builds with these
// artifacts produced.
if ((architecture == 'armem') && (os == 'Tizen')) {
// Define the Windows Tests and Corefx build job names
def lowerConfiguration = configuration.toLowerCase()
def WindowsTestsName = projectFolder + '/' +
Utilities.getFullJobName(project,
getJobName(lowerConfiguration, 'x64' , 'windows_nt', 'normal', true),
false)
def fxBranch = getFxBranch(branch)
def corefxFolder = Utilities.getFolderName('dotnet/corefx') + '/' +
Utilities.getFolderName(fxBranch)
def arm_abi = 'armel'
def corefx_os = 'tizen'
// Let's use release CoreFX to test checked CoreCLR,
// because we do not generate checked CoreFX in CoreFX CI yet.
def corefx_lowerConfiguration = lowerConfiguration
if (lowerConfiguration == 'checked') {
corefx_lowerConfiguration = 'release'
}
// Copy the Windows test binaries and the Corefx build binaries
newJob.with {
steps {
copyArtifacts(WindowsTestsName) {
includePatterns('bin/tests/tests.zip')
buildSelector {
latestSuccessful(true)
}
}
copyArtifacts("${corefxFolder}/${corefx_os}_${arm_abi}_cross_${corefx_lowerConfiguration}") {
includePatterns('bin/build.tar.gz')
buildSelector {
latestSuccessful(true)
}
}
} // steps
} // newJob.with
}
def buildCommands = calculateBuildCommands(newJob, scenario, branch, isPR, architecture, configuration, os, isBuildOnly)
newJob.with {
steps {
if (os == 'Windows_NT') {
buildCommands.each { buildCommand ->
batchFile(buildCommand)
}
}
else {
buildCommands.each { buildCommand ->
shell(buildCommand)
}
}
} // steps
} // newJob.with
} // os
} // configuration
} // architecture
} // isPR
} // scenario
// Create a Windows ARM/ARM64 test job that will be used by a flow job.
// Returns the newly created job.
def static CreateWindowsArmTestJob(def dslFactory, def project, def architecture, def os, def configuration, def scenario, def isPR, def inputCoreCLRBuildName)
{
def osGroup = getOSGroup(os)
def jobName = getJobName(configuration, architecture, os, scenario, false) + "_tst"
def jobFolder = getJobFolder(scenario)
def newJob = dslFactory.job(Utilities.getFullJobName(project, jobName, isPR, jobFolder)) {
parameters {
stringParam('CORECLR_BUILD', '', "Build number to copy CoreCLR ${osGroup} binaries from")
}
steps {
// Set up the copies
// Coreclr build we are trying to test
//
// ** NOTE ** This will, correctly, overwrite the CORE_ROOT from the Windows test archive
copyArtifacts(inputCoreCLRBuildName) {
excludePatterns('**/testResults.xml', '**/*.ni.dll')
buildSelector {
buildNumber('${CORECLR_BUILD}')
}
}
if (isCoreFxScenario(scenario)) {
// Only arm/arm64 supported for corefx testing now.
assert architecture == 'arm' || architecture == 'arm64'
// Unzip CoreFx runtime
batchFile("powershell -NoProfile -Command \"Add-Type -Assembly 'System.IO.Compression.FileSystem'; [System.IO.Compression.ZipFile]::ExtractToDirectory('_\\fx\\fxruntime.zip', '_\\fx\\bin\\testhost\\netcoreapp-Windows_NT-Release-${architecture}')\"")
// Unzip CoreFx tests.
batchFile("powershell -NoProfile -Command \"Add-Type -Assembly 'System.IO.Compression.FileSystem'; [System.IO.Compression.ZipFile]::ExtractToDirectory('_\\fx\\fxtests.zip', '_\\fx\\bin\\tests')\"")
// Add the script to run the corefx tests
def corefx_runtime_path = "%WORKSPACE%\\_\\fx\\bin\\testhost\\netcoreapp-Windows_NT-Release-${architecture}"
def corefx_tests_dir = "%WORKSPACE%\\_\\fx\\bin\\tests"
def corefx_exclusion_file = "%WORKSPACE%\\tests\\${architecture}\\corefx_test_exclusions.txt"
batchFile("call %WORKSPACE%\\tests\\scripts\\run-corefx-tests.bat ${corefx_runtime_path} ${corefx_tests_dir} ${corefx_exclusion_file} ${architecture}")
} else { // !isCoreFxScenario(scenario)
// Unzip tests.
batchFile("powershell -NoProfile -Command \"Add-Type -Assembly 'System.IO.Compression.FileSystem'; [System.IO.Compression.ZipFile]::ExtractToDirectory('bin\\tests\\tests.zip', 'bin\\tests\\${osGroup}.${architecture}.${configuration}')\"")
def buildCommands = ""
def coreRootLocation = "%WORKSPACE%\\bin\\tests\\Windows_NT.${architecture}.${configuration}\\Tests\\Core_Root"
def addEnvVariable = { variable, value -> buildCommands += "set ${variable}=${value}\r\n"}
def addCommand = { cmd -> buildCommands += "${cmd}\r\n"}
// Make sure Command Extensions are enabled. Used so %ERRORLEVEL% is available.
addCommand("SETLOCAL ENABLEEXTENSIONS")
// For all jobs
addEnvVariable("CORE_ROOT", coreRootLocation)
addEnvVariable("COMPlus_NoGuiOnAssert", "1")
addEnvVariable("COMPlus_ContinueOnAssert", "0")
// If we are running a stress mode, we'll set those variables as well
if (isJitStressScenario(scenario) || isR2RStressScenario(scenario)) {
def stressValues = null
if (isJitStressScenario(scenario)) {
stressValues = Constants.jitStressModeScenarios[scenario]
}
else {
stressValues = Constants.r2rStressScenarios[scenario]
}
stressValues.each { key, value ->
addEnvVariable(key, value)
}
}
if (isR2RScenario(scenario)) {
// Crossgen the framework assemblies.
buildCommands += """
@for %%F in (%CORE_ROOT%\\*.dll) do @call :PrecompileAssembly "%CORE_ROOT%" "%%F" %%~nxF
@goto skip_PrecompileAssembly
:PrecompileAssembly
@REM Skip mscorlib since it is already precompiled.
@if /I "%3" == "mscorlib.dll" exit /b 0
@if /I "%3" == "mscorlib.ni.dll" exit /b 0
"%CORE_ROOT%\\crossgen.exe" /Platform_Assemblies_Paths "%CORE_ROOT%" %2 >nul 2>nul
@if "%errorlevel%" == "-2146230517" (
echo %2 is not a managed assembly.
) else if "%errorlevel%" == "-2146234344" (
echo %2 is not a managed assembly.
) else if %errorlevel% neq 0 (
echo Unable to precompile %2
) else (
echo Precompiled %2
)
@exit /b 0
:skip_PrecompileAssembly
"""
// Set RunCrossGen variable to cause test wrappers to invoke their logic to run
// crossgen on tests before running them.
addEnvVariable("RunCrossGen", "true")
} // isR2RScenario(scenario)
// Create the smarty command
def smartyCommand = "C:\\Tools\\Smarty.exe /noecid /noie /workers 9 /inc EXPECTED_PASS "
def addSmartyFlag = { flag -> smartyCommand += flag + " "}
def addExclude = { exclude -> addSmartyFlag("/exc " + exclude)}
def addArchSpecificExclude = { architectureToExclude, exclude -> addExclude(exclude) }
// Exclude tests based on scenario.
Constants.validArmWindowsScenarios[scenario].each { excludeTag ->
addArchSpecificExclude(architecture, excludeTag)
}
if (isPri0TestScenario(scenario)) {
addExclude("pri1")
}
// Exclude any test marked LONG_RUNNING; these often exceed the standard timeout and fail as a result.
// TODO: We should create a "long running" job that runs these with a longer timeout.
addExclude("LONG_RUNNING")
smartyCommand += "/lstFile Tests.lst"
def testListArch = [
'arm64': 'arm64',
'arm': 'arm'
]
def archLocation = testListArch[architecture]
addCommand("copy %WORKSPACE%\\tests\\${archLocation}\\Tests.lst bin\\tests\\${osGroup}.${architecture}.${configuration}")
addCommand("pushd bin\\tests\\${osGroup}.${architecture}.${configuration}")
addCommand("${smartyCommand}")
// Save the errorlevel from the smarty command to be used as the errorlevel of this batch file.
// However, we also need to remove all the variables that were set during this batch file, so we
// can run the ZIP powershell command (below) in a clean environment. (We can't run the powershell
// command with the COMPlus_AltJit variables set, for example.) To do that, we do ENDLOCAL as well
// as save the current errorlevel on the same line. This works because CMD evaluates the %errorlevel%
// variable expansion (or any variable expansion on the line) BEFORE it executes the ENDLOCAL command.
// Note that the ENDLOCAL also undoes the pushd command, but we add the popd here for clarity.
addCommand("popd & ENDLOCAL & set __save_smarty_errorlevel=%errorlevel%")
// ZIP up the smarty output, no matter what the smarty result.
addCommand("powershell -NoProfile -Command \"Add-Type -Assembly 'System.IO.Compression.FileSystem'; [System.IO.Compression.ZipFile]::CreateFromDirectory('.\\bin\\tests\\${osGroup}.${architecture}.${configuration}\\Smarty.run.0', '.\\bin\\tests\\${osGroup}.${architecture}.${configuration}\\Smarty.run.0.zip')\"")
addCommand("echo %errorlevel%")
addCommand("dir .\\bin\\tests\\${osGroup}.${architecture}.${configuration}")
// Use the smarty errorlevel as the script errorlevel.
addCommand("exit /b %__save_smarty_errorlevel%")
batchFile(buildCommands)
} // non-corefx testing
} // steps
} // job
if (!isCoreFxScenario(scenario)) {
Utilities.addArchival(newJob, "bin/tests/${osGroup}.${architecture}.${configuration}/Smarty.run.0/*.smrt", '', true, false)
// Archive a ZIP file of the entire Smarty.run.0 directory. This is possibly a little too much,
// but there is no easy way to only archive the HTML/TXT files of the failing tests, so we get
// all the passing test info as well. Not necessarily a bad thing, but possibly somewhat large.
Utilities.addArchival(newJob, "bin/tests/${osGroup}.${architecture}.${configuration}/Smarty.run.0.zip", '', true, false)
}
return newJob
}
// Create a test job not covered by the "Windows ARM" case that will be used by a flow job.
// E.g., non-Windows tests.
// Returns the newly created job.
def static CreateOtherTestJob(def dslFactory, def project, def branch, def architecture, def os, def configuration, def scenario, def isPR, def inputCoreCLRBuildName, def inputTestsBuildName)
{
def isUbuntuArmJob = (os == "Ubuntu") && ((architecture == 'arm') || (architecture == 'arm64')) // ARM Ubuntu running on hardware (not emulator)
def doCoreFxTesting = isCoreFxScenario(scenario)
def workspaceRelativeFxRootLinux = "_/fx" // only used for CoreFX testing
def osGroup = getOSGroup(os)
def jobName = getJobName(configuration, architecture, os, scenario, false) + "_tst"
def testOpts = ''
def useServerGC = false
// Enable Server GC for Ubuntu PR builds
// REVIEW: why? Does this apply to all architectures? Why only PR?
if (os == 'Ubuntu' && isPR) {
testOpts += ' --useServerGC'
useServerGC = true
}
if (isR2RScenario(scenario)) {
testOpts += ' --crossgen --runcrossgentests'
if (scenario == 'r2r_jitstress1') {
testOpts += ' --jitstress=1'
}
else if (scenario == 'r2r_jitstress2') {
testOpts += ' --jitstress=2'
}
else if (scenario == 'r2r_jitstress1_tiered') {
testOpts += ' --jitstress=1'
}
else if (scenario == 'r2r_jitstress2_tiered') {
testOpts += ' --jitstress=2'
}
else if (scenario == 'r2r_jitstressregs1') {
testOpts += ' --jitstressregs=1'
}
else if (scenario == 'r2r_jitstressregs2') {
testOpts += ' --jitstressregs=2'
}
else if (scenario == 'r2r_jitstressregs3') {
testOpts += ' --jitstressregs=3'
}
else if (scenario == 'r2r_jitstressregs4') {
testOpts += ' --jitstressregs=4'
}
else if (scenario == 'r2r_jitstressregs8') {
testOpts += ' --jitstressregs=8'
}
else if (scenario == 'r2r_jitstressregs0x10') {
testOpts += ' --jitstressregs=0x10'
}
else if (scenario == 'r2r_jitstressregs0x80') {
testOpts += ' --jitstressregs=0x80'
}
else if (scenario == 'r2r_jitstressregs0x1000') {
testOpts += ' --jitstressregs=0x1000'
}
else if (scenario == 'r2r_jitminopts') {
testOpts += ' --jitminopts'
}
else if (scenario == 'r2r_jitforcerelocs') {
testOpts += ' --jitforcerelocs'
}
else if (scenario == 'r2r_gcstress15') {
testOpts += ' --gcstresslevel=0xF'
}
}
else if (scenario == 'jitdiff') {
testOpts += ' --jitdisasm --crossgen'
}
else if (scenario == 'illink') {
testOpts += ' --link=\$WORKSPACE/linker/linker/bin/netcore_Release/netcoreapp2.0/ubuntu-x64/publish/illink'
}
else if (isLongGc(scenario)) {
// Long GC tests behave very poorly when they are not
// the only test running (many of them allocate until OOM).
testOpts += ' --sequential'
// A note - runtest.sh does have "--long-gc" and "--gcsimulator" options
// for running long GC and GCSimulator tests, respectively. We don't use them
// here because using a playlist file produces much more readable output on the CI machines
// and reduces running time.
//
// The Long GC playlist contains all of the tests that are
// going to be run. The GCSimulator playlist contains all of
// the GC simulator tests.
if (scenario == 'longgc') {
testOpts += ' --long-gc --playlist=./tests/longRunningGcTests.txt'
}
else if (scenario == 'gcsimulator') {
testOpts += ' --gcsimulator --playlist=./tests/gcSimulatorTests.txt'
}
}
else if (isGcReliabilityFramework(scenario)) {
testOpts += ' --build-overlay-only'
}
else if (scenario == 'standalone_gc') {
if (osGroup == 'OSX') {
testOpts += ' --gcname=libclrgc.dylib'
}
else if (osGroup == 'Linux') {
testOpts += ' --gcname=libclrgc.so'
}
else {
println("Unexpected OS group: ${osGroup} for os ${os}")
assert false
}
}
// The ARM Ubuntu corefx test job doesn't depend on a Windows test build, and hence inputTestsBuildName
// will be null in this case.
def jobFolder = getJobFolder(scenario)
def newJob = dslFactory.job(Utilities.getFullJobName(project, jobName, isPR, jobFolder)) {
parameters {
if (inputTestsBuildName != null) {
stringParam('CORECLR_WINDOWS_BUILD', '', 'Build number to copy CoreCLR Windows test binaries from')
}
stringParam('CORECLR_BUILD', '', "Build number to copy CoreCLR ${osGroup} binaries from")
}
steps {
// Set up the copies
// Coreclr build containing the tests and mscorlib
// pri1 jobs still need to copy windows_nt built tests
if (inputTestsBuildName != null) {
copyArtifacts(inputTestsBuildName) {
excludePatterns('**/testResults.xml', '**/*.ni.dll')
buildSelector {
buildNumber('${CORECLR_WINDOWS_BUILD}')
}
}
}
// Coreclr build we are trying to test
//
// ** NOTE ** This will, correctly, overwrite the CORE_ROOT from the Windows test archive
copyArtifacts(inputCoreCLRBuildName) {
excludePatterns('**/testResults.xml', '**/*.ni.dll')
buildSelector {
buildNumber('${CORECLR_BUILD}')
}
}
if (isUbuntuArmJob) {
// Add some useful information to the log file. Ignore return codes.
shell("uname -a || true")
}
if (architecture == 'x86') {
shell("mkdir ./bin/CoreFxNative")
def fxBranch = getFxBranch(branch)
def corefxFolder = Utilities.getFolderName('dotnet/corefx') + '/' + Utilities.getFolderName(fxBranch)
copyArtifacts("${corefxFolder}/ubuntu16.04_x86_release") {
includePatterns('bin/build.tar.gz')
targetDirectory('bin/CoreFxNative')
buildSelector {
latestSuccessful(true)
}
}
shell("mkdir ./bin/CoreFxBinDir")
shell("tar -xf ./bin/CoreFxNative/bin/build.tar.gz -C ./bin/CoreFxBinDir")
}
// CoreFX testing downloads the CoreFX tests, not the coreclr tests. Also, unzip the built CoreFX layout/runtime directories.
if (doCoreFxTesting) {
shell("unzip -o ${workspaceRelativeFxRootLinux}/fxtests.zip || exit 0")
shell("unzip -o ${workspaceRelativeFxRootLinux}/fxruntime.zip || exit 0")
}
else {
// Unzip the tests first. Exit with 0
shell("unzip -q -o ./bin/tests/tests.zip -d ./bin/tests/${osGroup}.${architecture}.${configuration} || exit 0")
shell("rm -r ./bin/tests/${osGroup}.${architecture}.${configuration}/Tests/Core_Root || exit 0")
}
// For arm Ubuntu (on hardware), we do the "build-test" step on the build machine, not on the test
// machine. The arm Ubuntu test machines do no building -- they have no CLI, for example.
// We should probably do the "generatelayoutonly" step on the build machine for all architectures.
// However, it's believed that perhaps there's an issue with executable permission bits not getting
// copied correctly.
if (!doCoreFxTesting) {
if (isUbuntuArmJob) {
def lowerConfiguration = configuration.toLowerCase()
shell("unzip -o ./coreroot.${lowerConfiguration}.zip || exit 0") // unzips to ./bin/tests/Linux.${architecture}.${configuration}/Tests/Core_Root
shell("unzip -o ./testnativebin.${lowerConfiguration}.zip || exit 0") // unzips to ./bin/obj/Linux.${architecture}.${configuration}/tests
}
else {
shell("./build-test.sh ${architecture} ${configuration} generatelayoutonly")
}
}
// Execute the tests
def runDocker = isNeedDocker(architecture, os, false)
def dockerPrefix = ""
def dockerCmd = ""
if (runDocker) {
def dockerImage = getDockerImageName(architecture, os, false)
dockerPrefix = "docker run -i --rm -v \${WORKSPACE}:\${WORKSPACE} -w \${WORKSPACE} "
dockerCmd = dockerPrefix + "${dockerImage} "
}
// If we are running a stress mode, we'll set those variables first.
// For CoreFX, the stress variables are already built into the CoreFX test build per-test wrappers.
if (!doCoreFxTesting && isJitStressScenario(scenario)) {
def scriptFileName = "\${WORKSPACE}/set_stress_test_env.sh"
def envScriptCmds = envScriptCreate(os, scriptFileName)
envScriptCmds += envScriptSetStressModeVariables(os, Constants.jitStressModeScenarios[scenario], scriptFileName)
envScriptCmds += envScriptFinalize(os, scriptFileName)
shell("${envScriptCmds}")
testOpts += " --test-env=${scriptFileName}"
}
// setup-stress-dependencies.sh, invoked by runtest.sh to download the coredistools package, depends on the "dotnet"
// tool downloaded by the "init-tools.sh" script. However, it only invokes setup-stress-dependencies.sh for x64. The
// coredistools package is used by GCStress on x86 and x64 to disassemble code to determine instruction boundaries.
// On arm/arm64, it is not required as determining instruction boundaries is trivial.
if (isGCStressRelatedTesting(scenario)) {
if (architecture == 'x64') {
shell('./init-tools.sh')
}
}
if (doCoreFxTesting) {
shell("""\
\${WORKSPACE}/${workspaceRelativeFxRootLinux}/run-test.sh --sequential --test-exclude-file \${WORKSPACE}/tests/${architecture}/corefx_linux_test_exclusions.txt --runtime \${WORKSPACE}/${workspaceRelativeFxRootLinux}/bin/testhost/netcoreapp-Linux-Release-${architecture} --arch ${architecture} --corefx-tests \${WORKSPACE}/${workspaceRelativeFxRootLinux}/bin --configurationGroup Release""")
}
else {
def runScript = "${dockerCmd}./tests/runtest.sh"
shell("""\
${runScript} \\
--testRootDir=\"\${WORKSPACE}/bin/tests/${osGroup}.${architecture}.${configuration}\" \\
--coreOverlayDir=\"\${WORKSPACE}/bin/tests/${osGroup}.${architecture}.${configuration}/Tests/Core_Root\" \\
--testNativeBinDir=\"\${WORKSPACE}/bin/obj/${osGroup}.${architecture}.${configuration}/tests\" \\
--copyNativeTestBin --limitedDumpGeneration ${testOpts}""")
}
if (isGcReliabilityFramework(scenario)) {
// runtest.sh doesn't actually execute the reliability framework - do it here.
if (useServerGC) {
if (runDocker) {
dockerCmd = dockerPrefix + "-e COMPlus_gcServer=1 ${dockerImage} "
}
else {
shell("export COMPlus_gcServer=1")
}
}
shell("${dockerCmd}./tests/scripts/run-gc-reliability-framework.sh ${architecture} ${configuration}")
}
} // steps
} // job
// Experimental: If on Ubuntu 14.04, then attempt to pull in crash dump links
if (os in ['Ubuntu']) {
SummaryBuilder summaries = new SummaryBuilder()
summaries.addLinksSummaryFromFile('Crash dumps from this run:', 'dumplings.txt')
summaries.emit(newJob)
}
if (doCoreFxTesting) {
Utilities.addArchival(newJob, "${workspaceRelativeFxRootLinux}/bin/**/testResults.xml")
Utilities.addXUnitDotNETResults(newJob, "${workspaceRelativeFxRootLinux}/bin/**/testResults.xml")
}
else {
Utilities.addArchival(newJob, "bin/tests/${osGroup}.${architecture}.${configuration}/coreclrtests.*.txt")
Utilities.addXUnitDotNETResults(newJob, '**/coreclrtests.xml')
}
return newJob
}
// Create a test job that will be used by a flow job.
// Returns the newly created job.
// Note that we don't add tests jobs to the various views, since they are always used by a flow job, which is in the views,
// and we want the views to be the minimal set of "top-level" jobs that represent all work.
def static CreateTestJob(def dslFactory, def project, def branch, def architecture, def os, def configuration, def scenario, def isPR, def inputCoreCLRBuildName, def inputTestsBuildName)
{
def windowsArmJob = ((os == "Windows_NT") && (architecture in Constants.armWindowsCrossArchitectureList))
def newJob = null
if (windowsArmJob) {
assert inputTestsBuildName == null
newJob = CreateWindowsArmTestJob(dslFactory, project, architecture, os, configuration, scenario, isPR, inputCoreCLRBuildName)
} else {
newJob = CreateOtherTestJob(dslFactory, project, branch, architecture, os, configuration, scenario, isPR, inputCoreCLRBuildName, inputTestsBuildName)
}
setJobMachineAffinity(architecture, os, false, true, false, newJob) // isBuildJob = false, isTestJob = true, isFlowJob = false
if (scenario == 'jitdiff') {
def osGroup = getOSGroup(os)
Utilities.addArchival(newJob, "bin/tests/${osGroup}.${architecture}.${configuration}/dasm/**")
}
Utilities.standardJobSetup(newJob, project, isPR, "*/${branch}")
setJobTimeout(newJob, isPR, architecture, configuration, scenario, false)
return newJob
}
// Create a flow job to tie together a build job with the given test job.
// The 'inputTestsBuildName' argument might be null if the flow job doesn't depend on a Windows build job.
// Returns the new flow job.
def static CreateFlowJob(def dslFactory, def project, def branch, def architecture, def os, def configuration, def scenario, def isPR, def fullTestJobName, def inputCoreCLRBuildName, def inputTestsBuildName)
{
// Windows CoreCLR build and Linux CoreCLR build (in parallel) ->
// Linux CoreCLR test
def flowJobName = getJobName(configuration, architecture, os, scenario, false) + "_flow"
def jobFolder = getJobFolder(scenario)
def newFlowJob = null
if (inputTestsBuildName == null) {
newFlowJob = dslFactory.buildFlowJob(Utilities.getFullJobName(project, flowJobName, isPR, jobFolder)) {
buildFlow("""\
coreclrBuildJob = build(params, '${inputCoreCLRBuildName}')
// And then build the test build
build(params + [CORECLR_BUILD: coreclrBuildJob.build.number], '${fullTestJobName}')
""")
}
JobReport.Report.addReference(inputCoreCLRBuildName)
JobReport.Report.addReference(fullTestJobName)
}
else {
newFlowJob = dslFactory.buildFlowJob(Utilities.getFullJobName(project, flowJobName, isPR, jobFolder)) {
buildFlow("""\
// Build the input jobs in parallel
parallel (
{ coreclrBuildJob = build(params, '${inputCoreCLRBuildName}') },
{ windowsBuildJob = build(params, '${inputTestsBuildName}') }
)
// And then build the test build
build(params + [CORECLR_BUILD: coreclrBuildJob.build.number,
CORECLR_WINDOWS_BUILD: windowsBuildJob.build.number], '${fullTestJobName}')
""")
}
JobReport.Report.addReference(inputCoreCLRBuildName)
JobReport.Report.addReference(inputTestsBuildName)
JobReport.Report.addReference(fullTestJobName)
}
addToViews(newFlowJob, isPR, architecture, os)
setJobMachineAffinity(architecture, os, false, false, true, newFlowJob) // isBuildJob = false, isTestJob = false, isFlowJob = true
Utilities.standardJobSetup(newFlowJob, project, isPR, "*/${branch}")
addTriggers(newFlowJob, branch, isPR, architecture, os, configuration, scenario, true, false) // isFlowJob==true, isWindowsBuildOnlyJob==false
return newFlowJob
}
// Determine if we should generate a flow job for the given parameters.
// Returns true if the job should be generated.
def static shouldGenerateFlowJob(def scenario, def isPR, def architecture, def configuration, def os)
{
// The "innerloop" (Pri-0 testing) scenario is only available as PR triggered.
if (scenario == 'innerloop' && !isPR) {
return false
}
if (scenario == 'corefx_innerloop') {
return false
}
// Filter based on OS and architecture.
switch (architecture) {
case 'arm64':
case 'arm':
if (os != "Ubuntu" && os != "Windows_NT") {
return false
}
break
case 'x86':
if (os != "Ubuntu") {
return false
}
break
case 'x64':
if (!(os in Constants.crossList)) {
return false
}
if (os == "Windows_NT") {
return false
}
break
case 'armem':
case 'x86_arm_altjit':
case 'x64_arm64_altjit':
// No flow jobs
return false
default:
println("Unknown architecture: ${architecture}")
assert false
break
}
def isNormalOrInnerloop = (scenario == 'innerloop' || scenario == 'normal')
// Filter based on scenario in OS.
if (os == 'Windows_NT') {
assert architecture == 'arm' || architecture == 'arm64'
if (!isArmWindowsScenario(scenario)) {
return false
}
if (isNormalOrInnerloop && (configuration == 'Debug')) {
// The arm32/arm64 Debug configuration for innerloop/normal scenario is a special case: it does a build only, and no test run.
// To do that, it doesn't require a flow job.
return false
}
}
else {
// Non-Windows
if (architecture == 'arm64') {
if (!(scenario in Constants.validLinuxArm64Scenarios)) {
return false
}
if (isNormalOrInnerloop && (configuration == 'Debug')) {
// The arm32/arm64 Debug configuration for innerloop/normal scenario is a special case: it does a build only, and no test run.
// To do that, it doesn't require a flow job.
return false
}
}
else if (architecture == 'arm') {
if (!(scenario in Constants.validLinuxArmScenarios)) {
return false
}
}
else if (architecture == 'x86') {
// Linux/x86 only want innerloop and default test
if (!isNormalOrInnerloop) {
return false
}
}
else if (architecture == 'x64') {
// Linux/x64 corefx testing doesn't need a flow job; the "build" job runs run-corefx-tests.py which
// builds and runs the corefx tests. Other Linux/x64 flow jobs are required to get the test
// build from a Windows machine.
if (isCoreFxScenario(scenario)) {
return false
}
}
}
// For CentOS, we only want Checked/Release builds.
if (os == 'CentOS7.1') {
if (configuration != 'Checked' && configuration != 'Release') {
return false
}
if (!isNormalOrInnerloop && !isR2RScenario(scenario)) {
return false
}
}
// For RedHat and Debian, we only do Release builds.
else if (os == 'RHEL7.2' || os == 'Debian8.4') {
if (configuration != 'Release') {
return false
}
if (!isNormalOrInnerloop) {
return false
}
}
// Next, filter based on scenario.
if (isJitStressScenario(scenario)) {
if (configuration != 'Checked') {
return false
}
}
else if (isR2RBaselineScenario(scenario)) {
if (configuration != 'Checked' && configuration != 'Release') {
return false
}
}
else if (isR2RStressScenario(scenario)) {
if (configuration != 'Checked') {
return false
}
}
else {
// Skip scenarios
switch (scenario) {
case 'ilrt':
case 'longgc':
case 'gcsimulator':
// Long GC tests take a long time on non-Release builds
// ilrt is also Release only
if (configuration != 'Release') {
return false
}
break
case 'jitdiff':
if (configuration != 'Checked') {
return false
}
break
case 'gc_reliability_framework':
case 'standalone_gc':
if (configuration != 'Release' && configuration != 'Checked') {
return false
}
break
case 'formatting':
return false
case 'illink':
if (os != 'Windows_NT' && os != 'Ubuntu') {
return false
}
break
case 'normal':
// Nothing skipped
break
case 'innerloop':
if (!isValidPrTriggeredInnerLoopJob(os, architecture, configuration, false)) {
return false
}
break
default:
println("Unknown scenario: ${scenario}")
assert false
break
}
}
// The job was not filtered out, so we should generate it!
return true
}
// Create jobs requiring flow jobs. This includes x64 non-Windows, arm/arm64 Ubuntu, and arm/arm64 Windows.
Constants.allScenarios.each { scenario ->
[true, false].each { isPR ->
Constants.architectureList.each { architecture ->
Constants.configurationList.each { configuration ->
Constants.osList.each { os ->
if (!shouldGenerateFlowJob(scenario, isPR, architecture, configuration, os)) {
return
}
def windowsArmJob = ((os == "Windows_NT") && (architecture in Constants.armWindowsCrossArchitectureList))
def doCoreFxTesting = isCoreFxScenario(scenario)
// Figure out the job name of the CoreCLR build the test will depend on.
def inputCoreCLRBuildScenario = isPri0TestScenario(scenario) ? 'innerloop' : 'normal'
def inputCoreCLRBuildIsBuildOnly = false
if (doCoreFxTesting) {
// Every CoreFx test depends on its own unique build.
inputCoreCLRBuildScenario = scenario
if (windowsArmJob) {
// Only Windows ARM corefx jobs use "build only" jobs. Others, such as Ubuntu ARM corefx, use "regular" jobs.
inputCoreCLRBuildIsBuildOnly = true
}
}
def inputCoreCLRFolderName = getJobFolder(inputCoreCLRBuildScenario)
def inputCoreCLRBuildName = projectFolder + '/' +
Utilities.getFullJobName(project, getJobName(configuration, architecture, os, inputCoreCLRBuildScenario, inputCoreCLRBuildIsBuildOnly), isPR, inputCoreCLRFolderName)
// Figure out the name of the build job that the test job will depend on.
// For Windows ARM tests, this is not used, as the CoreCLR build creates the tests. For other
// tests (e.g., Linux ARM), we depend on a Windows build to get the tests.
// For CoreFX tests, however, Linux doesn't need the Windows build for the tests, since the
// CoreFX build creates the tests.
def inputTestsBuildName = null
if (!windowsArmJob && !doCoreFxTesting) {
def testBuildScenario = isPri0TestScenario(scenario) ? 'innerloop' : 'normal'
def inputTestsBuildArch = architecture
if (architecture == "arm64") {
// Use the x64 test build for arm64 unix
inputTestsBuildArch = "x64"
}
else if (architecture == "arm") {
// Use the x86 test build for arm unix
inputTestsBuildArch = "x86"
}
def inputTestsBuildIsBuildOnly = true
inputTestsBuildName = projectFolder + '/' +
Utilities.getFullJobName(project, getJobName(configuration, inputTestsBuildArch, 'windows_nt', testBuildScenario, inputTestsBuildIsBuildOnly), isPR)
}
// =============================================================================================
// Create the test job
// =============================================================================================
def testJob = CreateTestJob(this, project, branch, architecture, os, configuration, scenario, isPR, inputCoreCLRBuildName, inputTestsBuildName)
// =============================================================================================
// Create a build flow to join together the build and tests required to run this test.
// =============================================================================================
if (os == 'RHEL7.2' || os == 'Debian8.4') {
// Do not create the flow job for RHEL jobs.
return
}
def fullTestJobName = projectFolder + '/' + testJob.name
def flowJob = CreateFlowJob(this, project, branch, architecture, os, configuration, scenario, isPR, fullTestJobName, inputCoreCLRBuildName, inputTestsBuildName)
} // os
} // configuration
} // architecture
} // isPR
} // scenario
JobReport.Report.generateJobReport(out)
// Make the call to generate the help job
Utilities.createHelperJob(this, project, branch,
"Welcome to the ${project} Repository", // This is prepended to the help message
"Have a nice day!") // This is appended to the help message. You might put known issues here.
Utilities.addCROSSCheck(this, project, branch)
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