Exemplo n.º 1
0
def get_afl_version():
    child = ipc.Popen(['afl-fuzz'], stdout=ipc.PIPE)
    version = child.stdout.readline()
    child.stdout.close()
    child.wait()
    if str is not bytes:
        version = version.decode('ASCII')
    version = re.sub(r'\x1b\[[^m]+m', '', version)
    match = re.match(r'^afl-fuzz\s+([0-9.]+)b?\b', version)
    version = match.group(1)
    return distutils.version.StrictVersion(version)
Exemplo n.º 2
0
def get_afl_version():
    require_commands('afl-fuzz')
    child = ipc.Popen(['afl-fuzz'], stdout=ipc.PIPE)
    version = child.stdout.readline()
    child.stdout.close()
    child.wait()
    if str is not bytes:
        version = version.decode('ASCII')
    version = re.sub(r'\x1B\[[^m]+m', '', version)
    match = re.match(r'^afl-fuzz\s+([0-9.]+)b?\b', version)
    version = match.group(1)
    return distutils.version.StrictVersion(version)
Exemplo n.º 3
0
def dvipng_hack_alpha():
    p = Popen('dvipng -version', shell=True, stdin=PIPE, stdout=PIPE,
        stderr=STDOUT, close_fds=(sys.platform!='win32'))
    stdin, stdout = p.stdin, p.stdout
    for line in stdout:
        if line.startswith(b'dvipng '):
            version = line.split()[-1]
            mpl.verbose.report('Found dvipng version %s'% version,
                'helpful')
            version = version.decode('ascii')
            version = distutils.version.LooseVersion(version)
            return version < distutils.version.LooseVersion('1.6')
    mpl.verbose.report('No dvipng was found', 'helpful')
    return False
def dvipng_hack_alpha():
    p = Popen('dvipng -version', shell=True, stdin=PIPE, stdout=PIPE,
        stderr=STDOUT, close_fds=(sys.platform!='win32'))
    stdin, stdout = p.stdin, p.stdout
    for line in stdout:
        if line.startswith(b'dvipng '):
            version = line.split()[-1]
            mpl.verbose.report('Found dvipng version %s'% version,
                'helpful')
            version = version.decode('ascii')
            version = distutils.version.LooseVersion(version)
            return version < distutils.version.LooseVersion('1.6')
    mpl.verbose.report('No dvipng was found', 'helpful')
    return False
Exemplo n.º 5
0
def dvipng_hack_alpha():
    p = Popen(
        "dvipng -version", shell=True, stdin=PIPE, stdout=PIPE, stderr=STDOUT, close_fds=(sys.platform != "win32")
    )
    stdin, stdout = p.stdin, p.stdout
    for line in stdout:
        if line.startswith(b"dvipng "):
            version = line.split()[-1]
            mpl.verbose.report("Found dvipng version %s" % version, "helpful")
            version = version.decode("ascii")
            version = distutils.version.LooseVersion(version)
            return version < distutils.version.LooseVersion("1.6")
    mpl.verbose.report("No dvipng was found", "helpful")
    return False
Exemplo n.º 6
0
def get_afl_version():
    require_commands('afl-fuzz')
    child = ipc.Popen(['afl-fuzz'], stdout=ipc.PIPE)
    version = child.stdout.readline()
    child.stdout.close()
    child.wait()
    if str is not bytes:
        version = version.decode('ASCII')
    version = re.sub(r'\x1B\[[^m]+m', '', version)
    match = re.match(r'^afl-fuzz\s+([0-9.]+)b?\b', version)
    if match is None:
        raise RuntimeError('could not parse AFL version')
    version = match.group(1)
    return distutils.version.StrictVersion(version)
Exemplo n.º 7
0
def dvipng_hack_alpha():
    try:
        p = Popen(['dvipng', '-version'], stdin=PIPE, stdout=PIPE,
                  stderr=STDOUT, close_fds=(sys.platform != 'win32'))
    except OSError:
        mpl.verbose.report('No dvipng was found', 'helpful')
        return False
    stdin, stdout = p.stdin, p.stdout
    for line in stdout:
        if line.startswith(b'dvipng '):
            version = line.split()[-1]
            mpl.verbose.report('Found dvipng version %s' % version,
                               'helpful')
            version = version.decode('ascii')
            version = distutils.version.LooseVersion(version)
            return version < distutils.version.LooseVersion('1.6')
    mpl.verbose.report('Unexpected response from dvipng -version', 'helpful')
    return False
Exemplo n.º 8
0
def dvipng_hack_alpha():
    try:
        p = Popen(['dvipng', '-version'], stdin=PIPE, stdout=PIPE,
                  stderr=STDOUT, close_fds=(sys.platform != 'win32'))
    except OSError:
        mpl.verbose.report('No dvipng was found', 'helpful')
        return False
    stdin, stdout = p.stdin, p.stdout
    for line in stdout:
        if line.startswith(b'dvipng '):
            version = line.split()[-1]
            mpl.verbose.report('Found dvipng version %s' % version,
                               'helpful')
            version = version.decode('ascii')
            version = distutils.version.LooseVersion(version)
            return version < distutils.version.LooseVersion('1.6')
    mpl.verbose.report('Unexpected response from dvipng -version', 'helpful')
    return False
Exemplo n.º 9
0
def default_build_triple(verbose):
    """Build triple as in LLVM"""
    # If the user already has a host build triple with an existing `rustc`
    # install, use their preference. This fixes most issues with Windows builds
    # being detected as GNU instead of MSVC.
    default_encoding = sys.getdefaultencoding()
    try:
        version = subprocess.check_output(["rustc", "--version", "--verbose"],
                                          stderr=subprocess.DEVNULL)
        version = version.decode(default_encoding)
        host = next(x for x in version.split('\n') if x.startswith("host: "))
        triple = host.split("host: ")[1]
        if verbose:
            print("detected default triple {}".format(triple))
        return triple
    except Exception as e:
        if verbose:
            print("rustup not detected: {}".format(e))
            print("falling back to auto-detect")

    required = sys.platform != 'win32'
    ostype = require(["uname", "-s"], exit=required)
    cputype = require(['uname', '-m'], exit=required)

    # If we do not have `uname`, assume Windows.
    if ostype is None or cputype is None:
        return 'x86_64-pc-windows-msvc'

    ostype = ostype.decode(default_encoding)
    cputype = cputype.decode(default_encoding)

    # The goal here is to come up with the same triple as LLVM would,
    # at least for the subset of platforms we're willing to target.
    ostype_mapper = {
        'Darwin': 'apple-darwin',
        'DragonFly': 'unknown-dragonfly',
        'FreeBSD': 'unknown-freebsd',
        'Haiku': 'unknown-haiku',
        'NetBSD': 'unknown-netbsd',
        'OpenBSD': 'unknown-openbsd'
    }

    # Consider the direct transformation first and then the special cases
    if ostype in ostype_mapper:
        ostype = ostype_mapper[ostype]
    elif ostype == 'Linux':
        os_from_sp = subprocess.check_output(
            ['uname', '-o']).strip().decode(default_encoding)
        if os_from_sp == 'Android':
            ostype = 'linux-android'
        else:
            ostype = 'unknown-linux-gnu'
    elif ostype == 'SunOS':
        ostype = 'sun-solaris'
        # On Solaris, uname -m will return a machine classification instead
        # of a cpu type, so uname -p is recommended instead.  However, the
        # output from that option is too generic for our purposes (it will
        # always emit 'i386' on x86/amd64 systems).  As such, isainfo -k
        # must be used instead.
        cputype = require(['isainfo', '-k']).decode(default_encoding)
    elif ostype.startswith('MINGW'):
        # msys' `uname` does not print gcc configuration, but prints msys
        # configuration. so we cannot believe `uname -m`:
        # msys1 is always i686 and msys2 is always x86_64.
        # instead, msys defines $MSYSTEM which is MINGW32 on i686 and
        # MINGW64 on x86_64.
        ostype = 'pc-windows-gnu'
        cputype = 'i686'
        if os.environ.get('MSYSTEM') == 'MINGW64':
            cputype = 'x86_64'
    elif ostype.startswith('MSYS'):
        ostype = 'pc-windows-gnu'
    elif ostype.startswith('CYGWIN_NT'):
        cputype = 'i686'
        if ostype.endswith('WOW64'):
            cputype = 'x86_64'
        ostype = 'pc-windows-gnu'
    elif sys.platform == 'win32':
        # Some Windows platforms might have a `uname` command that returns a
        # non-standard string (e.g. gnuwin32 tools returns `windows32`). In
        # these cases, fall back to using sys.platform.
        return 'x86_64-pc-windows-msvc'
    else:
        err = "unknown OS type: {}".format(ostype)
        sys.exit(err)

    if cputype == 'powerpc' and ostype == 'unknown-freebsd':
        cputype = subprocess.check_output(['uname', '-p'
                                           ]).strip().decode(default_encoding)
    cputype_mapper = {
        'BePC': 'i686',
        'aarch64': 'aarch64',
        'amd64': 'x86_64',
        'arm64': 'aarch64',
        'i386': 'i686',
        'i486': 'i686',
        'i686': 'i686',
        'i786': 'i686',
        'powerpc': 'powerpc',
        'powerpc64': 'powerpc64',
        'powerpc64le': 'powerpc64le',
        'ppc': 'powerpc',
        'ppc64': 'powerpc64',
        'ppc64le': 'powerpc64le',
        's390x': 's390x',
        'x64': 'x86_64',
        'x86': 'i686',
        'x86-64': 'x86_64',
        'x86_64': 'x86_64'
    }

    # Consider the direct transformation first and then the special cases
    if cputype in cputype_mapper:
        cputype = cputype_mapper[cputype]
    elif cputype in {'xscale', 'arm'}:
        cputype = 'arm'
        if ostype == 'linux-android':
            ostype = 'linux-androideabi'
        elif ostype == 'unknown-freebsd':
            cputype = subprocess.check_output(
                ['uname', '-p']).strip().decode(default_encoding)
            ostype = 'unknown-freebsd'
    elif cputype == 'armv6l':
        cputype = 'arm'
        if ostype == 'linux-android':
            ostype = 'linux-androideabi'
        else:
            ostype += 'eabihf'
    elif cputype in {'armv7l', 'armv8l'}:
        cputype = 'armv7'
        if ostype == 'linux-android':
            ostype = 'linux-androideabi'
        else:
            ostype += 'eabihf'
    elif cputype == 'mips':
        if sys.byteorder == 'big':
            cputype = 'mips'
        elif sys.byteorder == 'little':
            cputype = 'mipsel'
        else:
            raise ValueError("unknown byteorder: {}".format(sys.byteorder))
    elif cputype == 'mips64':
        if sys.byteorder == 'big':
            cputype = 'mips64'
        elif sys.byteorder == 'little':
            cputype = 'mips64el'
        else:
            raise ValueError('unknown byteorder: {}'.format(sys.byteorder))
        # only the n64 ABI is supported, indicate it
        ostype += 'abi64'
    elif cputype == 'sparc' or cputype == 'sparcv9' or cputype == 'sparc64':
        pass
    else:
        err = "unknown cpu type: {}".format(cputype)
        sys.exit(err)

    return "{}-{}".format(cputype, ostype)