#!/usr/bin/env bash initHostDistroRid() { __HostDistroRid="" # Some OS groups should default to use the portable packages if [ "$__BuildOS" == "OSX" ]; then __PortableBuild=1 fi if [ "$__HostOS" == "Linux" ]; then if [ -e /etc/redhat-release ]; then local redhatRelease=$( /dev/null # Work hardcoded path around if [ ! -f "${__BuildToolsDir}/Microsoft.CSharp.Core.Targets" ]; then ln -s "${__BuildToolsDir}/Microsoft.CSharp.Core.targets" "${__BuildToolsDir}/Microsoft.CSharp.Core.Targets" fi if [ ! -f "${__BuildToolsDir}/Microsoft.CSharp.targets" ]; then ln -s "${__BuildToolsDir}/Microsoft.CSharp.Targets" "${__BuildToolsDir}/Microsoft.CSharp.targets" fi } build_Tests() { __TestDir=$__ProjectDir/tests __ProjectFilesDir=$__TestDir __TestBinDir=$__TestWorkingDir if [ $__RebuildTests -ne 0 ]; then if [ -d "${__TestBinDir}" ]; then echo "Removing tests build dir: ${__TestBinDir}" rm -rf $__TestBinDir fi fi __CMakeBinDir="${__TestBinDir}" if [ -z "$__TestIntermediateDir" ]; then __TestIntermediateDir="tests/obj/${__BuildOS}.${__BuildArch}.${__BuildType}" fi echo "__BuildOS: ${__BuildOS}" echo "__BuildArch: ${__BuildArch}" echo "__BuildType: ${__BuildType}" echo "__TestIntermediateDir: ${__TestIntermediateDir}" if [ ! -f "$__TestBinDir" ]; then echo "Creating TestBinDir: ${__TestBinDir}" mkdir -p $__TestBinDir fi if [ ! -f "$__LogsDir" ]; then echo "Creating LogsDir: ${__LogsDir}" mkdir -p $__LogsDir fi __BuildProperties="-p:OSGroup=${__BuildOS} -p:BuildOS=${__BuildOS} -p:BuildArch=${__BuildArch} -p:BuildType=${__BuildType}" # ========================================================================================= # === # === Restore product binaries from packages # === # ========================================================================================= build_Tests_internal "Restore_Product" "${__ProjectDir}/tests/build.proj" " -BatchRestorePackages" "Restore product binaries (build tests)" if [ -n "$__BuildAgainstPackagesArg" ]; then build_Tests_internal "Tests_GenerateRuntimeLayout" "${__ProjectDir}/tests/runtest.proj" "-BinPlaceRef -BinPlaceProduct -CopyCrossgenToProduct" "Restore product binaries (run tests)" fi echo "Starting the Managed Tests Build..." build_Tests_internal "Tests_Managed" "$__ProjectDir/tests/build.proj" "$__up" "Managed tests build (build tests)" if [ $? -ne 0 ]; then echo "${__MsgPrefix}Error: build failed. Refer to the build log files for details (above)" exit 1 else echo "Managed tests build success!" fi if [ $__BuildTestWrappers -ne -0 ]; then echo "${__MsgPrefix}Creating test wrappers..." __XUnitWrapperBuiltMarker=${__TestBinDir}/xunit_wrapper_build if [ ! -f $__XUnitWrapperBuiltMarker ]; then build_Tests_internal "Tests_XunitWrapper" "$__ProjectDir/tests/runtest.proj" "-BuildWrappers -MsBuildEventLogging=\" \" " "Test Xunit Wrapper" if [ $? -ne 0 ]; then echo "${__MsgPrefix}Error: build failed. Refer to the build log files for details (above)" exit 1 else echo "XUnit Wrappers have been built." echo "Create marker \"${__XUnitWrapperBuiltMarker}\"" touch $__XUnitWrapperBuiltMarker fi else echo "XUnit Wrappers had been built before." fi fi if [ -n "$__UpdateInvalidPackagesArg" ]; then __up=-updateinvalidpackageversion fi echo "${__MsgPrefix}Creating test overlay..." generate_layout if [ $__ZipTests -ne 0 ]; then echo "${__MsgPrefix}ZIP tests packages..." build_Tests_internal "Helix_Prep" "$__ProjectDir/tests/helixprep.proj" " " "Prep test binaries for Helix publishing" fi } build_Tests_internal() { subDirectoryName=$1 projectName=$2 extraBuildParameters=$3 stepName="$4" # Set up directories and file names __BuildLogRootName=$subDirectoryName __BuildLog="$__LogsDir/${__BuildLogRootName}.${__BuildOS}.${__BuildArch}.${__BuildType}.log" __BuildWrn="$__LogsDir/${__BuildLogRootName}.${__BuildOS}.${__BuildArch}.${__BuildType}.wrn" __BuildErr="$__LogsDir/${__BuildLogRootName}.${__BuildOS}.${__BuildArch}.${__BuildType}.err" if [[ "$subDirectoryName" == "Tests_Managed" ]]; then # Execute msbuild managed test build in stages - workaround for excessive data retention in MSBuild ConfigCache # See https://github.com/Microsoft/msbuild/issues/2993 # __SkipPackageRestore and __SkipTargetingPackBuild used to control build by tests/src/dirs.proj export __SkipPackageRestore=false export __SkipTargetingPackBuild=false export __BuildLoopCount=2 export __TestGroupToBuild=1 __AppendToLog=false if [ -n __priority1 ]; then export __BuildLoopCount=16 export __TestGroupToBuild=2 fi for (( slice=1 ; slice <= __BuildLoopCount; slice = slice + 1 )) do __msbuildLog="\"/flp:Verbosity=normal;LogFile=${__BuildLog};Append=${__AppendToLog}\"" __msbuildWrn="\"/flp1:WarningsOnly;LogFile=${__BuildWrn};Append=${__AppendToLog}\"" __msbuildErr="\"/flp2:ErrorsOnly;LogFile=${__BuildErr};Append=${__AppendToLog}\"" export TestBuildSlice=$slice # Generate build command buildCommand="$__ProjectRoot/run.sh build -Project=$projectName -MsBuildLog=${__msbuildLog} -MsBuildWrn=${__msbuildWrn} -MsBuildErr=${__msbuildErr} -MsBuildEventLogging=\"/l:BinClashLogger,Tools/Microsoft.DotNet.Build.Tasks.dll;LogFile=binclash.log\" $extraBuildParameters $__RunArgs $__UnprocessedBuildArgs" echo "Building step '$stepName' slice=$slice via $buildCommand" # Invoke MSBuild eval $buildCommand # Make sure everything is OK if [ $? -ne 0 ]; then echo "${__MsgPrefix}Failed to build $stepName. See the build logs:" echo " $__BuildLog" echo " $__BuildWrn" echo " $__BuildErr" exit 1 fi export __SkipPackageRestore=true export __SkipTargetingPackBuild=true __AppendToLog=true done else __msbuildLog="\"/flp:Verbosity=normal;LogFile=${__BuildLog}\"" __msbuildWrn="\"/flp1:WarningsOnly;LogFile=${__BuildWrn}\"" __msbuildErr="\"/flp2:ErrorsOnly;LogFile=${__BuildErr}\"" # Generate build command buildCommand="$__ProjectRoot/run.sh build -Project=$projectName -MsBuildLog=${__msbuildLog} -MsBuildWrn=${__msbuildWrn} -MsBuildErr=${__msbuildErr} -MsBuildEventLogging=\"/l:BinClashLogger,Tools/Microsoft.DotNet.Build.Tasks.dll;LogFile=binclash.log\" $extraBuildParameters $__RunArgs $__UnprocessedBuildArgs" echo "Building step '$stepName' via $buildCommand" # Invoke MSBuild eval $buildCommand # Invoke MSBuild # $__ProjectRoot/run.sh build -Project=$projectName -MsBuildLog="$__msbuildLog" -MsBuildWrn="$__msbuildWrn" -MsBuildErr="$__msbuildErr" $extraBuildParameters $__RunArgs $__UnprocessedBuildArgs # Make sure everything is OK if [ $? -ne 0 ]; then echo "${__MsgPrefix}Failed to build $stepName. See the build logs:" echo " $__BuildLog" echo " $__BuildWrn" echo " $__BuildErr" exit 1 fi fi } usage() { echo "Usage: $0 [BuildArch] [BuildType] [verbose] [coverage] [cross] [clangx.y] [ninja] [runtests] [bindir]" echo "BuildArch can be: x64, x86, arm, armel, arm64" echo "BuildType can be: debug, checked, release" echo "coverage - optional argument to enable code coverage build (currently supported only for Linux and OSX)." echo "ninja - target ninja instead of GNU make" echo "clangx.y - optional argument to build using clang version x.y - supported version 3.5 - 6.0" echo "cross - optional argument to signify cross compilation," echo " - will use ROOTFS_DIR environment variable if set." echo "crosscomponent - optional argument to build cross-architecture component," echo " - will use CAC_ROOTFS_DIR environment variable if set." echo "portableLinux - build for Portable Linux Distribution" echo "portablebuild - Use portable build." echo "verbose - optional argument to enable verbose build output." echo "rebuild - if tests have already been built - rebuild them" echo "generatelayoutonly - only pull down dependencies and build coreroot" echo "buildagainstpackages - pull down and build using packages." echo "runtests - run tests after building them" echo "ziptests - zips CoreCLR tests & Core_Root for a Helix run" echo "bindir - output directory (defaults to $__ProjectRoot/bin)" echo "msbuildonunsupportedplatform - build managed binaries even if distro is not officially supported." echo "priority1 - include priority=1 tests in the build" exit 1 } # Obtain the location of the bash script to figure out where the root of the repo is. __ProjectRoot="$( cd "$( dirname "${BASH_SOURCE[0]}" )" && pwd )" # $__ProjectRoot/build.sh $1 $2 # Use uname to determine what the CPU is. CPUName=$(uname -p) # Some Linux platforms report unknown for platform, but the arch for machine. if [ "$CPUName" == "unknown" ]; then CPUName=$(uname -m) fi case $CPUName in i686) echo "Unsupported CPU $CPUName detected, build might not succeed!" __BuildArch=x86 __HostArch=x86 ;; x86_64) __BuildArch=x64 __HostArch=x64 ;; armv7l) echo "Unsupported CPU $CPUName detected, build might not succeed!" __BuildArch=arm __HostArch=arm ;; aarch64) __BuildArch=arm64 __HostArch=arm64 ;; *) echo "Unknown CPU $CPUName detected, configuring as if for x64" __BuildArch=x64 __HostArch=x64 ;; esac # Use uname to determine what the OS is. OSName=$(uname -s) case $OSName in Linux) __BuildOS=Linux __HostOS=Linux ;; Darwin) __BuildOS=OSX __HostOS=OSX ;; FreeBSD) __BuildOS=FreeBSD __HostOS=FreeBSD ;; OpenBSD) __BuildOS=OpenBSD __HostOS=OpenBSD ;; NetBSD) __BuildOS=NetBSD __HostOS=NetBSD ;; SunOS) __BuildOS=SunOS __HostOS=SunOS ;; *) echo "Unsupported OS $OSName detected, configuring as if for Linux" __BuildOS=Linux __HostOS=Linux ;; esac __BuildType=Debug __CodeCoverage= __IncludeTests=INCLUDE_TESTS # Set the various build properties here so that CMake and MSBuild can pick them up export __ProjectDir="$__ProjectRoot" __SourceDir="$__ProjectDir/src" __PackagesDir="$__ProjectDir/packages" __RootBinDir="$__ProjectDir/bin" __BuildToolsDir="$__ProjectDir/Tools" __UnprocessedBuildArgs= __RunArgs= __MSBCleanBuildArgs= __UseNinja=0 __VerboseBuild=0 __SkipRestore="" __CrossBuild=0 __ClangMajorVersion=0 __ClangMinorVersion=0 __NuGetPath="$__PackagesDir/NuGet.exe" __HostDistroRid="" __BuildAgainstPackagesArg= __DistroRid="" __cmakeargs="" __PortableLinux=0 __msbuildonunsupportedplatform=0 __ZipTests=0 __NativeTestIntermediatesDir= __RunTests=0 __RebuildTests=0 __BuildTestWrappers=0 __GenerateLayoutOnly= __priority1= CORE_ROOT= while :; do if [ $# -le 0 ]; then break fi lowerI="$(echo $1 | awk '{print tolower($0)}')" case $lowerI in -\?|-h|--help) usage exit 1 ;; x86) __BuildArch=x86 ;; x64) __BuildArch=x64 ;; arm) __BuildArch=arm ;; armel) __BuildArch=armel ;; arm64) __BuildArch=arm64 ;; debug) __BuildType=Debug ;; checked) __BuildType=Checked ;; release) __BuildType=Release ;; coverage) __CodeCoverage=Coverage ;; cross) __CrossBuild=1 ;; portableBuild) __PortableBuild=1 ;; portablelinux) if [ "$__BuildOS" == "Linux" ]; then __PortableLinux=1 else echo "ERROR: portableLinux not supported for non-Linux platforms." exit 1 fi ;; verbose) __VerboseBuild=1 ;; clang3.5|-clang3.5) __ClangMajorVersion=3 __ClangMinorVersion=5 ;; clang3.6|-clang3.6) __ClangMajorVersion=3 __ClangMinorVersion=6 ;; clang3.7|-clang3.7) __ClangMajorVersion=3 __ClangMinorVersion=7 ;; clang3.8|-clang3.8) __ClangMajorVersion=3 __ClangMinorVersion=8 ;; clang3.9|-clang3.9) __ClangMajorVersion=3 __ClangMinorVersion=9 ;; clang4.0|-clang4.0) __ClangMajorVersion=4 __ClangMinorVersion=0 ;; clang5.0|-clang5.0) __ClangMajorVersion=5 __ClangMinorVersion=0 ;; clang6.0|-clang6.0) __ClangMajorVersion=6 __ClangMinorVersion=0 ;; ninja) __UseNinja=1 ;; runtests) __RunTests=1 ;; rebuild) __RebuildTests=1 ;; ziptests) __ZipTests=1 ;; generatelayoutonly) __GenerateLayoutOnly=1 ;; buildagainstpackages) __BuildAgainstPackagesArg=1 ;; bindir) if [ -n "$2" ]; then __RootBinDir="$2" if [ ! -d $__RootBinDir ]; then mkdir $__RootBinDir fi __RootBinParent=$(dirname $__RootBinDir) __RootBinName=${__RootBinDir##*/} __RootBinDir="$(cd $__RootBinParent &>/dev/null && printf %s/%s $PWD $__RootBinName)" shift else echo "ERROR: 'bindir' requires a non-empty option argument" exit 1 fi ;; msbuildonunsupportedplatform) __msbuildonunsupportedplatform=1 ;; priority1) __priority1=1 __UnprocessedBuildArgs="$__UnprocessedBuildArgs -priority=1" ;; *) __UnprocessedBuildArgs="$__UnprocessedBuildArgs $1" ;; esac shift done __RunArgs="-BuildArch=$__BuildArch -BuildType=$__BuildType -BuildOS=$__BuildOS" # Configure environment if we are doing a verbose build if [ $__VerboseBuild == 1 ]; then export VERBOSE=1 __RunArgs="$__RunArgs -verbose" fi # Set default clang version if [[ $__ClangMajorVersion == 0 && $__ClangMinorVersion == 0 ]]; then if [ $__CrossBuild == 1 ]; then __ClangMajorVersion=3 __ClangMinorVersion=6 else __ClangMajorVersion=3 __ClangMinorVersion=5 fi fi # Set dependent variables __LogsDir="$__RootBinDir/Logs" # init the host distro name initHostDistroRid # Set the remaining variables based upon the determined build configuration __BinDir="$__RootBinDir/Product/$__BuildOS.$__BuildArch.$__BuildType" __PackagesBinDir="$__BinDir/.nuget" __ToolsDir="$__RootBinDir/tools" __TestDir="$__ProjectDir/tests" __TestWorkingDir="$__RootBinDir/tests/$__BuildOS.$__BuildArch.$__BuildType" __IntermediatesDir="$__RootBinDir/obj/$__BuildOS.$__BuildArch.$__BuildType" __TestIntermediatesDir="$__RootBinDir/tests/obj/$__BuildOS.$__BuildArch.$__BuildType" __isMSBuildOnNETCoreSupported=0 __CrossComponentBinDir="$__BinDir" __CrossCompIntermediatesDir="$__IntermediatesDir/crossgen" __CrossArch="$__HostArch" if [[ "$__HostArch" == "x64" && "$__BuildArch" == "arm" ]]; then __CrossArch="x86" fi if [ $__CrossBuild == 1 ]; then __CrossComponentBinDir="$__CrossComponentBinDir/$__CrossArch" fi __CrossgenCoreLibLog="$__LogsDir/CrossgenCoreLib_$__BuildOS.$BuildArch.$__BuildType.log" __CrossgenExe="$__CrossComponentBinDir/crossgen" isMSBuildOnNETCoreSupported # CI_SPECIFIC - On CI machines, $HOME may not be set. In such a case, create a subfolder and set the variable to set. # This is needed by CLI to function. if [ -z "$HOME" ]; then if [ ! -d "$__ProjectDir/temp_home" ]; then mkdir temp_home fi export HOME=$__ProjectDir/temp_home echo "HOME not defined; setting it to $HOME" fi # Specify path to be set for CMAKE_INSTALL_PREFIX. # This is where all built CoreClr libraries will copied to. export __CMakeBinDir="$__BinDir" if [ ! -d "$__BinDir" ] || [ ! -d "$__BinDir/bin" ]; then echo "Cannot find build directory for the CoreCLR Product or native tests." echo "Please make sure CoreCLR and native tests are built before building managed tests." echo "Example use: './build.sh $__BuildArch $__BuildType' without -skiptests switch" exit 1 fi # Configure environment if we are doing a cross compile. if [ $__CrossBuild == 1 ]; then export CROSSCOMPILE=1 if ! [[ -n "$ROOTFS_DIR" ]]; then export ROOTFS_DIR="$__ProjectRoot/cross/rootfs/$__BuildArch" fi fi # init the target distro name initTargetDistroRid # Override tool directory __CoreClrVersion=1.1.0 __sharedFxDir=$__BuildToolsDir/dotnetcli/shared/Microsoft.NETCore.App/$__CoreClrVersion/ echo "Building Tests..." if [ -z "$__GenerateLayoutOnly" ]; then build_Tests else generate_layout fi if [ $? -ne 0 ]; then echo "Failed to build tests" exit 1 fi echo "${__MsgPrefix}Test build successful." echo "${__MsgPrefix}Test binaries are available at ${__TestBinDir}" __testNativeBinDir=$__IntermediatesDir/tests if [ $__RunTests -ne 0 ]; then echo "Run Tests..." echo "${__TestDir}/runtest.sh --testRootDir=$__TestBinDir --coreClrBinDir=$__BinDir --coreFxBinDir=$__sharedFxDir --testNativeBinDir=$__testNativeBinDir" $__TestDir/runtest.sh --testRootDir=$__TestBinDir --coreClrBinDir=$__BinDir --coreFxBinDir=$CORE_ROOT --testNativeBinDir=$__testNativeBinDir echo "Tests run successful." else echo "To run all tests use 'tests/runtests.sh' where:" echo " testRootDir = $__TestBinDir" echo " coreClrBinDir = $__BinDir" echo " coreFxBinDir = $CORE_ROOT" echo " testNativeBinDir = $__testNativeBinDir" echo " -------------------------------------------------- " echo " Example runtest.sh command" echo "" echo " ./tests/runtest.sh --coreOverlayDir=$CORE_ROOT --testNativeBinDir=$__testNativeBinDir --testRootDir=$__TestBinDir --copyNativeTestBin" echo " -------------------------------------------------- " echo "To run single test use the following command:" echo " bash ${__TestBinDir}/__TEST_PATH__/__TEST_NAME__.sh -coreroot=${CORE_ROOT}" fi