Exemple #1
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        def _find_compiler():
            compiler = None
            version = None
            platform = current_os()
            if platform != 'windows':
                # resolve CC and /usr/bin/cc
                for env_cc in (util.where(os.environ.get('CC', None)),
                               util.where('cc')):
                    if env_cc:
                        cc, ccver = _compiler_version(env_cc)
                        if cc and ccver:
                            return cc, ccver

                # Try to find clang or gcc
                clang_path, clang_version = Toolchain.find_llvm_tool('clang')
                gcc_path, gcc_version = Toolchain.find_gcc_tool('gcc')
                if clang_path:
                    compiler = 'clang'
                    version = clang_version
                elif gcc_path:
                    compiler = 'gcc'
                    version = gcc_version
                else:
                    print(
                        'Neither GCC or Clang could be found on this system, perhaps not installed yet?'
                    )

            else:
                compiler = 'msvc'
                version = Toolchain.find_msvc()[1]
            if not compiler or not version:
                print('WARNING: Default compiler could not be found')

            print('Default Compiler: {} {}'.format(compiler, version))
            return compiler, version
Exemple #2
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    def install(self, env):
        if self.installed:
            return

        sh = env.shell

        installed_path, installed_version = Toolchain.find_compiler(
            env.spec.compiler, env.spec.compiler_version)
        if installed_path:
            print('Compiler {} {} already exists at {}'.format(
                env.spec.compiler, installed_version, installed_path))
            self.installed = True
            return

        sudo = env.config.get('sudo', current_os() == 'linux')
        sudo = ['sudo'] if sudo else []

        version = env.toolchain.compiler_version.replace('\..+', '')

        script = tempfile.NamedTemporaryFile(delete=False)
        script_path = script.name
        script.write(LLVM_SH.encode())
        script.close()

        # Make script executable
        os.chmod(
            script_path, stat.S_IRUSR | stat.S_IRGRP | stat.S_IROTH
            | stat.S_IXUSR | stat.S_IXGRP | stat.S_IXOTH)
        sh.exec(*sudo, [script_path, version], check=True)

        self.installed = True
Exemple #3
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def validate_spec(build_spec):

    assert build_spec.host in HOSTS, "Host name {} is invalid".format(
        build_spec.host)
    assert build_spec.target in TARGETS, "Target {} is invalid".format(
        build_spec.target)

    assert build_spec.arch in ARCHS, "Architecture {} is invalid".format(
        build_spec.target)

    assert build_spec.compiler in COMPILERS, "Compiler {} is invalid".format(
        build_spec.compiler)
    compiler = COMPILERS[build_spec.compiler]

    assert build_spec.compiler_version in compiler[
        'versions'], "Compiler version {} is invalid for compiler {}".format(
            build_spec.compiler_version, build_spec.compiler)

    supported_hosts = compiler['hosts']
    assert build_spec.host in supported_hosts or current_os(
    ) in supported_hosts, "Compiler {} does not support host {}".format(
        build_spec.compiler, build_spec.host)

    supported_targets = compiler['targets']
    assert build_spec.target in supported_targets, "Compiler {} does not support target {}".format(
        build_spec.compiler, build_spec.target)
Exemple #4
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 def __init__(self, dryrun=False):
     # Used in dry-run builds to track simulated working directory
     self._cwd = os.getcwd()
     # pushd/popd stack
     self.dir_stack = []
     self.env_stack = []
     self.dryrun = dryrun
     self.platform = current_os()
Exemple #5
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    def install_node_via_nvm(self, env):
        sh = env.shell
        # Install node
        sh.exec(self.nvm, 'install', self.version, check=True)

        # Fetch path to installed node, add to PATH
        if current_os() != 'windows':
            result = sh.exec(self.nvm, 'which', self.version, check=True)
            node_path = os.path.dirname(result.output)
            sh.setenv(
                'PATH', '{}{}{}'.format(node_path, os.pathsep,
                                        sh.getenv('PATH')))
        sh.exec('node', '--version', check=True)
Exemple #6
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def export_compiler(compiler, env):
    if current_os() == 'windows':
        return

    if compiler != 'default':
        for cvar, evar in {'c': 'CC', 'cxx': 'CXX'}.items():
            exe = env.config.get(cvar)
            if exe:
                compiler_path = env.shell.where(exe, resolve_symlinks=False)
                if compiler_path:
                    env.shell.setenv(evar, compiler_path)
                else:
                    print(
                        'WARNING: Compiler {} could not be found'.format(exe))
Exemple #7
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    def __init__(self, **kwargs):
        for slot in ('host', 'target', 'arch', 'compiler', 'compiler_version'):
            setattr(self, slot, 'default')
        self.downstream = False

        spec = kwargs.get('spec', None)
        if spec:
            if spec.startswith('default'):  # default or default(-{variant})
                _, *rest = spec.split('-')
            elif not '-' in spec:  # just a variant
                rest = [spec]
            else:  # Parse the spec from a single string
                self.host, self.compiler, self.compiler_version, self.target, self.arch, * \
                    rest = spec.split('-')

            for variant in ('downstream', ):
                if variant in rest:
                    setattr(self, variant, True)
                else:
                    setattr(self, variant, False)

        # Pull out individual fields. Note this is not in an else to support overriding at construction time
        for slot in ('host', 'target', 'arch', 'compiler', 'compiler_version',
                     'downstream'):
            if slot in kwargs and kwargs[slot]:
                setattr(self, slot, kwargs[slot])

        # Convert a target tuple into its component parts
        if '-' in self.target:
            self.target, self.arch = self.target.split('-')

        # Convert defaults to be based on running environment
        if self.host == 'default':
            self.host = current_host()
        if self.target == 'default':
            self.target = current_os()
        if self.arch == 'default':
            self.arch = current_arch()

        self.name = '-'.join([
            self.host, self.compiler, self.compiler_version, self.target,
            self.arch
        ])
        if self.downstream:
            self.name += "-downstream"

        validate_spec(self)
Exemple #8
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    def install(self, env):
        if self.installed:
            return

        sh = env.shell

        self.install_dir = os.path.join(env.deps_dir, self.name)
        sh.mkdir(self.install_dir)

        if current_os() == 'windows':
            self.install_nvm_choco(env)
        else:
            self.install_nvm_sh(env)

        self.install_node_via_nvm(env)

        self.installed = True
Exemple #9
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 def all_compilers():
     """ Returns a list of tuples of all available (compiler, version) """
     compilers = []
     for version in _gcc_versions():
         path, _version = Toolchain.find_gcc_tool('gcc', version)
         if path:
             compilers.append(('gcc', version))
     for version in _clang_versions():
         path, _version = Toolchain.find_llvm_tool('clang', version)
         if path:
             compilers.append(('clang', version))
     if current_os() == 'windows':
         for version in _msvc_versions():
             path, _version = Toolchain.find_msvc(version)
             if path:
                 compilers.append(('msvc', version))
     return compilers
Exemple #10
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    def install(self, env):
        if self.installed:
            return

        sh = env.shell
        toolchain = env.toolchain

        sudo = env.config.get('sudo', current_os() == 'linux')
        sudo = ['sudo'] if sudo else []

        print('Installing cross-compile via dockcross for {}'.format(
            toolchain.platform))
        cross_compile_platform = env.config.get('cross_compile_platform',
                                                toolchain.platform)
        result = sh.exec('docker',
                         'run',
                         'dockcross/{}'.format(cross_compile_platform),
                         quiet=True,
                         check=True)
        # Strip off any output from docker itself
        output, shebang, script = result.output.partition('#!')
        script = shebang + script
        print(output)
        assert result.returncode == 0

        dockcross = os.path.abspath(
            os.path.join(env.build_dir,
                         'dockcross-{}'.format(cross_compile_platform)))
        Path(dockcross).touch(0o755)
        with open(dockcross, "w+t") as f:
            f.write(script)
        sh.exec('chmod', 'a+x', dockcross)

        # Write out build_dir/dockcross.env file to init the dockcross env with
        # other code can add to this
        dockcross_env = os.path.join(env.build_dir, 'dockcross.env')
        with open(dockcross_env, "w+") as f:
            f.write('#env for dockcross\n')
        toolchain.env_file = dockcross_env
        toolchain.shell_env = [
            dockcross, '-a', '--env-file={}'.format(dockcross_env)
        ]

        self.installed = True
Exemple #11
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def _compiler_version(cc):
    if current_os() != 'windows':
        result = util.run_command(cc, '--version', quiet=True, stderr=False)
        text = result.output
        # Apple clang
        m = re.match('Apple (LLVM|clang) version (\d+)', text)
        if m:
            return 'clang', m.group(2)
        # LLVM clang
        m = re.match('.*clang version (\d+)', text)
        if m:
            return 'clang', m.group(1)
        # GCC 4.x
        m = re.match('gcc .+ (4\.\d+)', text)
        if m:
            return 'gcc', m.group(1)
        # GCC 5+
        m = re.match('gcc .+ (\d+)\.', text)
        if m:
            return 'gcc', m.group(1)
    return None, None
Exemple #12
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def produce_config(build_spec,
                   project,
                   overrides=None,
                   **additional_variables):
    """ Traverse the configurations to produce one for the given spec """
    host_os = current_os()

    defaults = {
        'hosts': HOSTS,
        'targets': TARGETS,
        'compilers': COMPILERS,
        'architectures': ARCHS,
    }

    # Build the list of config options to poll
    configs = UniqueList()

    # Processes a config object (could come from a file), searching for keys hosts, targets, and compilers
    def process_config(config, depth=0):
        def process_element(map, element_name, instance):
            if not map or not isinstance(map, dict):
                return

            element = map.get(element_name)
            # Some keys will just contain lists or scalars (e.g. hosts)
            if not element or not isinstance(element, dict):
                return

            new_config = element.get(instance)
            if not new_config:
                return

            configs.append(new_config)

            # recursively process config as long as sub-sections are found
            process_config(new_config, depth + 1)

            return new_config

        # Pull out any top level defaults
        if depth == 0:
            defaults = {}
            for key, value in config.items():
                if key not in ('hosts', 'targets', 'compilers',
                               'architectures'):
                    defaults[key] = value
            if len(defaults) > 0:
                configs.append(defaults)

        # pull out arch + any aliases
        archs = _arch_aliases(build_spec)
        for arch in archs:
            process_element(config, 'architectures', arch)

        # Get defaults from os (linux) then override with host (al2, manylinux, etc)
        if host_os != build_spec.host:
            process_element(config, 'hosts', host_os)
        process_element(config, 'hosts', build_spec.host)

        # pull out spec target to override
        process_element(config, 'targets', build_spec.target)

        # pull out spec compiler and version info
        compiler = process_element(config, 'compilers', build_spec.compiler)

        # Allow most specific resolves to come last
        process_element(compiler, 'versions', build_spec.compiler_version)

    # Process defaults first
    process_config(defaults)

    # process platform
    # target, arch -> platform
    target_platform = '{}-{}'.format(build_spec.target, build_spec.arch)
    configs.append(PLATFORMS[target_platform])

    # then override with config file
    project_config = project.config
    process_config(project_config)

    new_version = {
        'spec': build_spec,
    }
    # Iterate all keys and apply them
    for key, default in KEYS.items():
        new_version[key] = default

        for config in configs:
            override_key = '!' + key
            apply_key = '+' + key
            if override_key in config:  # Force Override
                new_version[key] = config[override_key]
            elif apply_key in config:  # Force Apply
                _apply_value(new_version, key, config[apply_key])
            elif key in config:
                # Project configs override defaults unless force applied
                if key in project_config and config[key] == project_config[key]:
                    new_version[key] = config[key]
                else:  # By default, merge all values (except strings)
                    _apply_value(new_version, key, config[key])

    new_version = _coalesce_pkg_options(build_spec, new_version)

    if overrides:
        for key, val in overrides.items():
            new_version[key] = val

    # Default variables
    replacements = {
        'host': build_spec.host,
        'compiler': build_spec.compiler,
        'version': build_spec.compiler_version,
        'target': build_spec.target,
        'arch': build_spec.arch,
        'cwd': os.getcwd(),
        **additional_variables,
    }

    # Pull variables from the configs
    for config in configs:
        if 'variables' in config:
            variables = config['variables']
            assert type(variables) == dict

            # Copy into the variables list
            for k, v in variables.items():
                replacements[k] = v

    # Post process
    new_version = replace_variables(new_version, replacements)
    new_version['variables'] = replacements
    new_version['__processed'] = True

    return new_version
Exemple #13
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def parse_args():
    parser = argparse.ArgumentParser()
    parser.add_argument(
        '-d',
        '--dry-run',
        action='store_true',
        help="Don't run the build, just print the commands that would run")
    parser.add_argument('-p',
                        '--project',
                        action='store',
                        type=str,
                        help="Project to work on")
    parser.add_argument('--config',
                        type=str,
                        default='RelWithDebInfo',
                        help='The native code configuration to build with')
    parser.add_argument('--dump-config',
                        action='store_true',
                        help="Print the config in use before running a build")
    parser.add_argument('--spec', type=str)
    parser.add_argument('--build-dir',
                        type=str,
                        help='Directory to work in',
                        default='.')
    parser.add_argument('-b', '--branch', help='Branch to build from')
    parser.add_argument('--cli_config', action='append', type=list)
    parser.add_argument('--compiler',
                        type=str,
                        help="The compiler to use for this build")
    parser.add_argument(
        '--target',
        type=str,
        help=
        "The target to cross-compile for (e.g. android-armv7, linux-x86, linux-aarch64)",
        default='{}-{}'.format(current_os(), current_arch()),
        choices=data.PLATFORMS.keys())
    parser.add_argument('args', nargs=argparse.REMAINDER)

    # hand parse command and spec from within the args given
    command = None
    spec = None
    argv = sys.argv[1:]

    # eat command and optionally spec
    if argv and not argv[0].startswith('-'):
        command = argv.pop(0)
        if len(argv) >= 1 and not argv[0].startswith('-'):
            spec = argv.pop(0)

    if not command:
        print('No command provided, should be [build|inspect|<action-name>]')
        sys.exit(1)

    # pull out any k=v pairs
    config_vars = []
    for arg in argv:
        m = re.match(r'^([A-Za-z_0-9]+)=(.+)', arg)
        if m:
            config_vars.append((m.group(1), m.group(2)))
    cli_config = {}
    for var in config_vars:
        cli_config[var[0]] = coerce_arg(var[1])
        argv.remove('{}={}'.format(var[0], var[1]))

    # parse the args we know, put the rest in args.args for others to parse
    args, extras = parser.parse_known_args(argv)
    args.command = command
    args.cli_config = cli_config
    args.spec = args.spec if args.spec else spec
    # Backwards compat for `builder run $action`
    if args.command == 'run':
        args.command = args.spec
        args.spec = None

    # normalize target
    if args.target:
        args.target = normalize_target(args.target)

    if args.spec:
        spec = BuildSpec(spec=args.spec, target=args.target)

    if args.compiler or args.target:
        compiler, version = ('default', 'default')
        if args.compiler:
            compiler, version = args.compiler.split('-')
        spec = str(spec) if spec else None
        spec = BuildSpec(compiler=compiler,
                         compiler_version=version,
                         target=args.target,
                         spec=spec)

    if not spec:
        spec = default_spec()
    # Save unknown args for actions to parse later
    args.args += extras

    return args, spec
Exemple #14
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        spec = default_spec()
    # Save unknown args for actions to parse later
    args.args += extras

    return args, spec


if __name__ == '__main__':
    args, spec = parse_args()

    if args.build_dir != '.':
        if not os.path.isdir(args.build_dir):
            os.makedirs(args.build_dir)
        os.chdir(args.build_dir)

    if spec.target == current_os() and spec.arch == current_arch():
        inspect_host(spec)
    if args.command == 'inspect':
        sys.exit(0)

    # set up environment
    env = Env({
        'dryrun': args.dry_run,
        'args': args,
        'project': args.project,
        'branch': args.branch,
        'spec': spec,
    })

    Scripts.load()
Exemple #15
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def _is_cross_compile(os, arch):
    return os != current_os() or arch != current_arch()
Exemple #16
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    def run(self, env):
        config = env.config
        sh = env.shell

        parser = argparse.ArgumentParser()
        parser.add_argument('--skip-install', action='store_true')
        args = parser.parse_known_args(env.args.args)[0]

        sudo = config.get('sudo', current_os() == 'linux')
        sudo = ['sudo'] if sudo else []

        packages = self.packages if self.packages else config.get(
            'packages', [])
        if packages:
            packages = UniqueList(packages)
            pkg_tool = package_tool()
            print('Installing packages via {}: {}'.format(
                pkg_tool.value, ', '.join(packages)))

            was_dryrun = sh.dryrun
            if args.skip_install:
                sh.dryrun = True

            if not InstallPackages.pkg_init_done:
                pkg_setup = UniqueList(config.get('pkg_setup', []))
                if pkg_setup:
                    for cmd in pkg_setup:
                        if isinstance(cmd, str):
                            cmd = cmd.split(' ')
                        assert isinstance(cmd, list)
                        sh.exec(*sudo, cmd, check=True, retries=3)

                pkg_update = config.get('pkg_update', None)
                if pkg_update:
                    if not isinstance(pkg_update, list):
                        pkg_update = pkg_update.split(' ')
                    sh.exec(*sudo, pkg_update, check=True, retries=3)

                InstallPackages.pkg_init_done = True

            pkg_install = config['pkg_install']
            if not isinstance(pkg_install, list):
                pkg_install = pkg_install.split(' ')
            pkg_install += packages

            sh.exec(*sudo, pkg_install, check=True, retries=3)

            if args.skip_install:
                sh.dryrun = was_dryrun

        setup_steps = env.config.get('setup_steps', [])
        if setup_steps:
            steps = []
            for step in setup_steps:
                if not isinstance(step, list):
                    step = step.split(' ')
                if step:
                    steps.append([*sudo, *step])
            if args.skip_install:
                return Script([
                    partial(set_dryrun, True), *steps,
                    partial(set_dryrun, sh.dryrun)
                ],
                              name='setup')

            return Script(steps, name='setup')