Exemplo n.º 1
0
def getClangWithLTOBuildFactory(
        depends_on_projects=None,
        clean=False,
        jobs=None,
        extra_configure_args=None,
        extra_configure_args_lto_stage=None,
        compare_last_2_stages=True,
        lto=None,  # The string gets passed to -flto flag as is. Like -flto=thin.
        env=None,
        **kwargs):

    # Set defaults
    if depends_on_projects:
        depends_on_projects = list(depends_on_projects)
    else:
        # By default we link with LLD.
        depends_on_projects = ['llvm', 'clang', 'lld']

    if lto is None:
        lto = 'ON'

    if extra_configure_args is None:
        extra_configure_args = []
    else:
        extra_configure_args = list(extra_configure_args)

    if extra_configure_args_lto_stage is None:
        extra_configure_args_lto_stage = []
    else:
        extra_configure_args_lto_stage = list(extra_configure_args_lto_stage)

    # Make sure CMAKE_INSTALL_PREFIX and -G are not specified
    # in the extra_configure_args. We set them internally as needed.
    # TODO: assert extra_configure_args.
    install_prefix_specified = (any(
        a.startswith('-DCMAKE_INSTALL_PREFIX=') for a in extra_configure_args)
                                or any(
                                    a.startswith('-DCMAKE_INSTALL_PREFIX=')
                                    for a in extra_configure_args_lto_stage))
    assert not install_prefix_specified, "Please do not explicitly specify the install prefix for multi-stage build."

    # Prepare environmental variables. Set here all env we want everywhere.
    merged_env = {
        'TERM': 'dumb'  # Be cautious and disable color output from all tools.
    }
    if env is not None:
        # Overwrite pre-set items with the given ones, so user can set anything.
        merged_env.update(env)

    f = UnifiedTreeBuilder.getLLVMBuildFactoryAndPrepareForSourcecodeSteps(
        depends_on_projects=depends_on_projects,
        stage_objdirs=[
            "build/stage1",
            "build/stage2",
            "build/stage3",
            "build/stage4",
        ],
        stage_installdirs=[
            "install/stage1",
            "install/stage2",
            "install/stage3",
            "install/stage4",
        ],
        staged_compiler_idx=1,
        **kwargs)

    cleanBuildRequested = lambda step: clean or step.build.getProperty(
        "clean", default=step.build.getProperty("clean_obj"))

    # Get the source code.
    f.addGetSourcecodeSteps()

    # Build with the system compiler first
    _addSteps4SystemCompiler(f,
                             stage_idx=0,
                             clean=cleanBuildRequested,
                             jobs=jobs,
                             extra_configure_args=extra_configure_args,
                             env=merged_env)

    # Then build the compiler we would use for the bootstrap.
    _addSteps4StagedCompiler(f,
                             stage_idx=1,
                             jobs=jobs,
                             extra_configure_args=extra_configure_args,
                             env=merged_env)

    # Build all the remaining stages with exactly the same configuration.

    CmakeCommand.applyRequiredOptions(extra_configure_args, [
        ('-DLLVM_ENABLE_LTO=', lto),
    ])

    # If we build LLD, we would link with LLD.
    # Otherwise we link with the system linker.
    if 'lld' in depends_on_projects:
        CmakeCommand.applyRequiredOptions(extra_configure_args, [
            ('-DLLVM_ENABLE_LLD=', 'ON'),
        ])

    # The rest are test stages, which depend on the staged compiler we are ultimately after.
    s = f.staged_compiler_idx + 1
    staged_install = f.stage_installdirs[f.staged_compiler_idx]
    for i in range(s, len(f.stage_objdirs[s:]) + s):
        configure_args = extra_configure_args[:] + extra_configure_args_lto_stage[:]

        configure_args.append(
            WithProperties("-DCMAKE_AR=%(builddir)s/" + staged_install +
                           "/bin/llvm-ar"))
        configure_args.append(
            WithProperties("-DCMAKE_RANLIB=%(builddir)s/" + staged_install +
                           "/bin/llvm-ranlib"))

        _addSteps4StagedCompiler(f,
                                 stage_idx=i,
                                 use_stage_idx=f.staged_compiler_idx,
                                 jobs=jobs,
                                 extra_configure_args=configure_args,
                                 env=merged_env)

    if compare_last_2_stages:
        # Compare the compilers built on the last 2 stages if requested.
        diff_command = [
            "diff",
            "-q",
            f.stage_installdirs[-2] + "/bin/clang",
            f.stage_installdirs[-1] + "/bin/clang",
        ]
        f.addStep(
            ShellCommand(name="compare-compilers",
                         description=[
                             "compare",
                             "stage%d" % (len(f.stage_installdirs) - 1),
                             "and",
                             "stage%d" % len(f.stage_installdirs),
                             "compilers",
                         ],
                         haltOnFailure=False,
                         command=WithProperties(" ".join(diff_command)),
                         workdir=".",
                         env=merged_env))

        # Only if the compare-compilers step has failed.
        def _prevStepFailed(step):
            steps = step.build.executedSteps
            prev_step = steps[-2]
            return (prev_step.results == FAILURE)

        dir1 = f.stage_objdirs[-2]
        dir2 = f.stage_objdirs[-1]
        inc_pattern = "-type f -not -name *.inc -printf '%f\n'"
        find_cmd = "find %s %s" % (dir1, dir2)
        diff_cmd = "diff -ru %s %s -x '*.tmp*' -X -" % (dir1, dir2)

        # Note: Use a string here as we want the command executed by a shell.
        diff_tablegen_inc_files_command = "%s %s | %s" % (
            find_cmd, inc_pattern, diff_cmd)

        f.addStep(
            ShellCommand(
                name="compare-tablegen-inc-files",
                description=[
                    "compare",
                    "stage%d" % (len(f.stage_installdirs) - 1),
                    "and",
                    "stage%d" % len(f.stage_installdirs),
                    "Tablegen inc files",
                ],
                command=diff_tablegen_inc_files_command,
                workdir=".",
                env=merged_env,
                doStepIf=_prevStepFailed,
            ))

    return f
Exemplo n.º 2
0
def getABITestsuitBuildFactory(
        clean=True,
        depends_on_projects=None,
        extra_configure_args=None,  # Extra CMake args for all stages.
        jobs=None,  # Restrict a degree of parallelism if needed.
        env=None,  # Environmental variables for all steps.
        **kwargs):

    # Prepare environmental variables. Set here all env we want for all steps.
    merged_env = {
        'TERM': 'dumb'  # Make sure Clang doesn't use color escape sequences.
    }
    if env is not None:
        # Overwrite pre-set items with the given ones, so user can set anything.
        merged_env.update(env)

    if depends_on_projects:
        depends_on_projects = list(depends_on_projects)
    else:
        depends_on_projects = [
            'llvm', 'clang', 'clang-tools-extra', 'compiler-rt', 'lld'
        ]

    if extra_configure_args is None:
        cmake_args = list()
    else:
        cmake_args = list(extra_configure_args)

    # Some options are required for this build no matter what.
    CmakeCommand.applyRequiredOptions(cmake_args, [
        ('-G', 'Ninja'),
    ])

    cleanBuildRequested = lambda step: step.build.getProperty(
        "clean", default=step.build.getProperty("clean_obj")) or clean

    f = UnifiedTreeBuilder.getLLVMBuildFactoryAndPrepareForSourcecodeSteps(
        depends_on_projects=depends_on_projects,
        llvm_srcdir="llvm",
        obj_dir="build",
        cleanBuildRequested=cleanBuildRequested,
        env=merged_env,
        **kwargs)  # Pass through all the extra arguments.

    # First of all, we shall checkout the latest test-suite.
    f.addGetSourcecodeForProject(project='test-suite',
                                 src_dir='test-suite',
                                 alwaysUseLatest=True,
                                 **kwargs)

    # Then get the LLVM source code revision this particular build is for.
    f.addGetSourcecodeSteps(**kwargs)

    UnifiedTreeBuilder.addCmakeSteps(f,
                                     cleanBuildRequested=cleanBuildRequested,
                                     obj_dir=f.obj_dir,
                                     extra_configure_args=cmake_args,
                                     env=env,
                                     **kwargs)

    f.addStep(
        NinjaCommand(
            name="build-unified-tree",
            haltOnFailure=True,
            description=["Build", "unified", "tree"],
            env=merged_env,
            workdir=f.obj_dir,
            **kwargs  # Pass through all the extra arguments.
        ))

    # Run the ABI test.
    abi_test_env = {
        'PYTHONPATH':
        WithProperties("%(workdir)s/" + f.llvm_srcdir +
                       "/utils/lit:${PYTHONPATH}"),
        'PATH':
        WithProperties("%(workdir)s/" + f.obj_dir + "/bin:${PATH}"),
    }
    merged_env.update(abi_test_env)

    abi_test_cmd = ["python", "linux-x86.py", "clang", "test", "-v"]
    if jobs:
        abi_test_cmd.append("-j" + str(jobs))

    f.addStep(
        LitTestCommand(name='abi-test-suite',
                       command=abi_test_cmd,
                       description=["running", "ABI", "test-suite"],
                       descriptionDone=["ABI", "test-suite", "completed"],
                       workdir='test-suite/ABI-Testsuite',
                       env=merged_env))

    return f