Example #1
0
def ssh_execute(ssh,
                cmd,
                process_input=None,
                addl_env=None,
                check_exit_code=True):
    LOG.debug('Running cmd (SSH): %s', cmd)
    if addl_env:
        raise InvalidArgumentError(_('Environment not supported over SSH'))

    if process_input:
        # This is (probably) fixable if we need it...
        raise InvalidArgumentError(_('process_input not supported over SSH'))

    stdin_stream, stdout_stream, stderr_stream = ssh.exec_command(cmd)
    channel = stdout_stream.channel

    # NOTE(justinsb): This seems suspicious...
    # ...other SSH clients have buffering issues with this approach
    stdout = stdout_stream.read()
    stderr = stderr_stream.read()
    stdin_stream.close()

    exit_status = channel.recv_exit_status()

    # exit_status == -1 if no exit code was returned
    if exit_status != -1:
        LOG.debug('Result was %s' % exit_status)
        if check_exit_code and exit_status != 0:
            raise ProcessExecutionError(exit_code=exit_status,
                                        stdout=stdout,
                                        stderr=stderr,
                                        cmd=cmd)

    return (stdout, stderr)
Example #2
0
    def __init__(self,
                 stdout=None,
                 stderr=None,
                 exit_code=None,
                 cmd=None,
                 description=None):
        self.exit_code = exit_code
        self.stderr = stderr
        self.stdout = stdout
        self.cmd = cmd
        self.description = description

        if description is None:
            description = _("Unexpected error while running command.")
        if exit_code is None:
            exit_code = '-'
        message = _('%(description)s\n'
                    'Command: %(cmd)s\n'
                    'Exit code: %(exit_code)s\n'
                    'Stdout: %(stdout)r\n'
                    'Stderr: %(stderr)r') % {
                        'description': description,
                        'cmd': cmd,
                        'exit_code': exit_code,
                        'stdout': stdout,
                        'stderr': stderr
                    }
        super(ProcessExecutionError, self).__init__(message)
def ssh_execute(ssh, cmd, process_input=None,
                addl_env=None, check_exit_code=True):
    LOG.debug('Running cmd (SSH): %s', cmd)
    if addl_env:
        raise InvalidArgumentError(_('Environment not supported over SSH'))

    if process_input:
        # This is (probably) fixable if we need it...
        raise InvalidArgumentError(_('process_input not supported over SSH'))

    stdin_stream, stdout_stream, stderr_stream = ssh.exec_command(cmd)
    channel = stdout_stream.channel

    # NOTE(justinsb): This seems suspicious...
    # ...other SSH clients have buffering issues with this approach
    stdout = stdout_stream.read()
    stderr = stderr_stream.read()
    stdin_stream.close()

    exit_status = channel.recv_exit_status()

    # exit_status == -1 if no exit code was returned
    if exit_status != -1:
        LOG.debug('Result was %s' % exit_status)
        if check_exit_code and exit_status != 0:
            raise ProcessExecutionError(exit_code=exit_status,
                                        stdout=stdout,
                                        stderr=stderr,
                                        cmd=cmd)

    return (stdout, stderr)
Example #4
0
def bool_from_string(subject, strict=False, default=False):
    """Interpret a string as a boolean.

    A case-insensitive match is performed such that strings matching 't',
    'true', 'on', 'y', 'yes', or '1' are considered True and, when
    `strict=False`, anything else returns the value specified by 'default'.

    Useful for JSON-decoded stuff and config file parsing.

    If `strict=True`, unrecognized values, including None, will raise a
    ValueError which is useful when parsing values passed in from an API call.
    Strings yielding False are 'f', 'false', 'off', 'n', 'no', or '0'.
    """
    if not isinstance(subject, six.string_types):
        subject = six.text_type(subject)

    lowered = subject.strip().lower()

    if lowered in TRUE_STRINGS:
        return True
    elif lowered in FALSE_STRINGS:
        return False
    elif strict:
        acceptable = ', '.join("'%s'" % s
                               for s in sorted(TRUE_STRINGS + FALSE_STRINGS))
        msg = _("Unrecognized value '%(val)s', acceptable values are:"
                " %(acceptable)s") % {
                    'val': subject,
                    'acceptable': acceptable
                }
        raise ValueError(msg)
    else:
        return default
Example #5
0
def bool_from_string(subject, strict=False, default=False):
    """Interpret a string as a boolean.

    A case-insensitive match is performed such that strings matching 't',
    'true', 'on', 'y', 'yes', or '1' are considered True and, when
    `strict=False`, anything else returns the value specified by 'default'.

    Useful for JSON-decoded stuff and config file parsing.

    If `strict=True`, unrecognized values, including None, will raise a
    ValueError which is useful when parsing values passed in from an API call.
    Strings yielding False are 'f', 'false', 'off', 'n', 'no', or '0'.
    """
    if not isinstance(subject, six.string_types):
        subject = six.text_type(subject)

    lowered = subject.strip().lower()

    if lowered in TRUE_STRINGS:
        return True
    elif lowered in FALSE_STRINGS:
        return False
    elif strict:
        acceptable = ', '.join(
            "'%s'" % s for s in sorted(TRUE_STRINGS + FALSE_STRINGS))
        msg = _("Unrecognized value '%(val)s', acceptable values are:"
                " %(acceptable)s") % {'val': subject,
                                      'acceptable': acceptable}
        raise ValueError(msg)
    else:
        return default
Example #6
0
    def deprecated(self, msg, *args, **kwargs):
        """Call this method when a deprecated feature is used.

        If the system is configured for fatal deprecations then the message
        is logged at the 'critical' level and :class:`DeprecatedConfig` will
        be raised.

        Otherwise, the message will be logged (once) at the 'warn' level.

        :raises: :class:`DeprecatedConfig` if the system is configured for
                 fatal deprecations.

        """
        stdmsg = _("Deprecated: %s") % msg
        if CONF.fatal_deprecations:
            self.critical(stdmsg, *args, **kwargs)
            raise DeprecatedConfig(msg=stdmsg)

        # Using a list because a tuple with dict can't be stored in a set.
        sent_args = self._deprecated_messages_sent.setdefault(msg, list())

        if args in sent_args:
            # Already logged this message, so don't log it again.
            return

        sent_args.append(args)
        self.warn(stdmsg, *args, **kwargs)
Example #7
0
def string_to_bytes(text, unit_system='IEC', return_int=False):
    """Converts a string into an float representation of bytes.

    The units supported for IEC ::

        Kb(it), Kib(it), Mb(it), Mib(it), Gb(it), Gib(it), Tb(it), Tib(it)
        KB, KiB, MB, MiB, GB, GiB, TB, TiB

    The units supported for SI ::

        kb(it), Mb(it), Gb(it), Tb(it)
        kB, MB, GB, TB

    Note that the SI unit system does not support capital letter 'K'

    :param text: String input for bytes size conversion.
    :param unit_system: Unit system for byte size conversion.
    :param return_int: If True, returns integer representation of text
                       in bytes. (default: decimal)
    :returns: Numerical representation of text in bytes.
    :raises ValueError: If text has an invalid value.

    """
    try:
        base, reg_ex = UNIT_SYSTEM_INFO[unit_system]
    except KeyError:
        msg = _('Invalid unit system: "%s"') % unit_system
        raise ValueError(msg)
    match = reg_ex.match(text)
    if match:
        magnitude = float(match.group(1))
        unit_prefix = match.group(2)
        if match.group(3) in ['b', 'bit']:
            magnitude /= 8
    else:
        msg = _('Invalid string format: %s') % text
        raise ValueError(msg)
    if not unit_prefix:
        res = magnitude
    else:
        res = magnitude * pow(base, UNIT_PREFIX_EXPONENT[unit_prefix])
    if return_int:
        return int(math.ceil(res))
    return res
Example #8
0
def string_to_bytes(text, unit_system='IEC', return_int=False):
    """Converts a string into an float representation of bytes.

    The units supported for IEC ::

        Kb(it), Kib(it), Mb(it), Mib(it), Gb(it), Gib(it), Tb(it), Tib(it)
        KB, KiB, MB, MiB, GB, GiB, TB, TiB

    The units supported for SI ::

        kb(it), Mb(it), Gb(it), Tb(it)
        kB, MB, GB, TB

    Note that the SI unit system does not support capital letter 'K'

    :param text: String input for bytes size conversion.
    :param unit_system: Unit system for byte size conversion.
    :param return_int: If True, returns integer representation of text
                       in bytes. (default: decimal)
    :returns: Numerical representation of text in bytes.
    :raises ValueError: If text has an invalid value.

    """
    try:
        base, reg_ex = UNIT_SYSTEM_INFO[unit_system]
    except KeyError:
        msg = _('Invalid unit system: "%s"') % unit_system
        raise ValueError(msg)
    match = reg_ex.match(text)
    if match:
        magnitude = float(match.group(1))
        unit_prefix = match.group(2)
        if match.group(3) in ['b', 'bit']:
            magnitude /= 8
    else:
        msg = _('Invalid string format: %s') % text
        raise ValueError(msg)
    if not unit_prefix:
        res = magnitude
    else:
        res = magnitude * pow(base, UNIT_PREFIX_EXPONENT[unit_prefix])
    if return_int:
        return int(math.ceil(res))
    return res
Example #9
0
class LogConfigError(Exception):

    message = _('Error loading logging config %(log_config)s: %(err_msg)s')

    def __init__(self, log_config, err_msg):
        self.log_config = log_config
        self.err_msg = err_msg

    def __str__(self):
        return self.message % dict(log_config=self.log_config,
                                   err_msg=self.err_msg)
    def __init__(self, stdout=None, stderr=None, exit_code=None, cmd=None,
                 description=None):
        self.exit_code = exit_code
        self.stderr = stderr
        self.stdout = stdout
        self.cmd = cmd
        self.description = description

        if description is None:
            description = _("Unexpected error while running command.")
        if exit_code is None:
            exit_code = '-'
        message = _('%(description)s\n'
                    'Command: %(cmd)s\n'
                    'Exit code: %(exit_code)s\n'
                    'Stdout: %(stdout)r\n'
                    'Stderr: %(stderr)r') % {'description': description,
                                             'cmd': cmd,
                                             'exit_code': exit_code,
                                             'stdout': stdout,
                                             'stderr': stderr}
        super(ProcessExecutionError, self).__init__(message)
Example #11
0
def _find_facility_from_conf():
    facility_names = logging.handlers.SysLogHandler.facility_names
    facility = getattr(logging.handlers.SysLogHandler,
                       CONF.syslog_log_facility,
                       None)

    if facility is None and CONF.syslog_log_facility in facility_names:
        facility = facility_names.get(CONF.syslog_log_facility)

    if facility is None:
        valid_facilities = facility_names.keys()
        consts = ['LOG_AUTH', 'LOG_AUTHPRIV', 'LOG_CRON', 'LOG_DAEMON',
                  'LOG_FTP', 'LOG_KERN', 'LOG_LPR', 'LOG_MAIL', 'LOG_NEWS',
                  'LOG_AUTH', 'LOG_SYSLOG', 'LOG_USER', 'LOG_UUCP',
                  'LOG_LOCAL0', 'LOG_LOCAL1', 'LOG_LOCAL2', 'LOG_LOCAL3',
                  'LOG_LOCAL4', 'LOG_LOCAL5', 'LOG_LOCAL6', 'LOG_LOCAL7']
        valid_facilities.extend(consts)
        raise TypeError(_('syslog facility must be one of: %s') %
                        ', '.join("'%s'" % fac
                                  for fac in valid_facilities))

    return facility
Example #12
0
def execute(*cmd, **kwargs):
    """Helper method to shell out and execute a command through subprocess.

    Allows optional retry.

    :param cmd:             Passed to subprocess.Popen.
    :type cmd:              string
    :param process_input:   Send to opened process.
    :type process_input:    string
    :param env_variables:   Environment variables and their values that
                            will be set for the process.
    :type env_variables:    dict
    :param check_exit_code: Single bool, int, or list of allowed exit
                            codes.  Defaults to [0].  Raise
                            :class:`ProcessExecutionError` unless
                            program exits with one of these code.
    :type check_exit_code:  boolean, int, or [int]
    :param delay_on_retry:  True | False. Defaults to True. If set to True,
                            wait a short amount of time before retrying.
    :type delay_on_retry:   boolean
    :param attempts:        How many times to retry cmd.
    :type attempts:         int
    :param run_as_root:     True | False. Defaults to False. If set to True,
                            the command is prefixed by the command specified
                            in the root_helper kwarg.
    :type run_as_root:      boolean
    :param root_helper:     command to prefix to commands called with
                            run_as_root=True
    :type root_helper:      string
    :param shell:           whether or not there should be a shell used to
                            execute this command. Defaults to false.
    :type shell:            boolean
    :param loglevel:        log level for execute commands.
    :type loglevel:         int.  (Should be stdlib_logging.DEBUG or
                            stdlib_logging.INFO)
    :returns:               (stdout, stderr) from process execution
    :raises:                :class:`UnknownArgumentError` on
                            receiving unknown arguments
    :raises:                :class:`ProcessExecutionError`
    """

    process_input = kwargs.pop('process_input', None)
    env_variables = kwargs.pop('env_variables', None)
    check_exit_code = kwargs.pop('check_exit_code', [0])
    ignore_exit_code = False
    delay_on_retry = kwargs.pop('delay_on_retry', True)
    attempts = kwargs.pop('attempts', 1)
    run_as_root = kwargs.pop('run_as_root', False)
    root_helper = kwargs.pop('root_helper', '')
    shell = kwargs.pop('shell', False)
    loglevel = kwargs.pop('loglevel', stdlib_logging.DEBUG)

    if isinstance(check_exit_code, bool):
        ignore_exit_code = not check_exit_code
        check_exit_code = [0]
    elif isinstance(check_exit_code, int):
        check_exit_code = [check_exit_code]

    if kwargs:
        raise UnknownArgumentError(
            _('Got unknown keyword args '
              'to utils.execute: %r') % kwargs)

    if run_as_root and hasattr(os, 'geteuid') and os.geteuid() != 0:
        if not root_helper:
            raise NoRootWrapSpecified(
                message=_('Command requested root, but did not '
                          'specify a root helper.'))
        cmd = shlex.split(root_helper) + list(cmd)

    cmd = map(str, cmd)

    while attempts > 0:
        attempts -= 1
        try:
            LOG.log(loglevel, 'Running cmd (subprocess): %s',
                    ' '.join(logging.mask_password(cmd)))
            _PIPE = subprocess.PIPE  # pylint: disable=E1101

            if os.name == 'nt':
                preexec_fn = None
                close_fds = False
            else:
                preexec_fn = _subprocess_setup
                close_fds = True

            obj = subprocess.Popen(cmd,
                                   stdin=_PIPE,
                                   stdout=_PIPE,
                                   stderr=_PIPE,
                                   close_fds=close_fds,
                                   preexec_fn=preexec_fn,
                                   shell=shell,
                                   env=env_variables)
            result = None
            for _i in six.moves.range(20):
                # NOTE(russellb) 20 is an arbitrary number of retries to
                # prevent any chance of looping forever here.
                try:
                    if process_input is not None:
                        result = obj.communicate(process_input)
                    else:
                        result = obj.communicate()
                except OSError as e:
                    if e.errno in (errno.EAGAIN, errno.EINTR):
                        continue
                    raise
                break
            obj.stdin.close()  # pylint: disable=E1101
            _returncode = obj.returncode  # pylint: disable=E1101
            LOG.log(loglevel, 'Result was %s' % _returncode)
            if not ignore_exit_code and _returncode not in check_exit_code:
                (stdout, stderr) = result
                raise ProcessExecutionError(exit_code=_returncode,
                                            stdout=stdout,
                                            stderr=stderr,
                                            cmd=' '.join(cmd))
            return result
        except ProcessExecutionError:
            if not attempts:
                raise
            else:
                LOG.log(loglevel, '%r failed. Retrying.', cmd)
                if delay_on_retry:
                    greenthread.sleep(random.randint(20, 200) / 100.0)
        finally:
            # NOTE(termie): this appears to be necessary to let the subprocess
            #               call clean something up in between calls, without
            #               it two execute calls in a row hangs the second one
            greenthread.sleep(0)
Example #13
0
class DeprecatedConfig(Exception):
    message = _("Fatal call to deprecated config: %(msg)s")

    def __init__(self, msg):
        super(Exception, self).__init__(self.message % dict(msg=msg))
def execute(*cmd, **kwargs):
    """Helper method to shell out and execute a command through subprocess.

    Allows optional retry.

    :param cmd:             Passed to subprocess.Popen.
    :type cmd:              string
    :param process_input:   Send to opened process.
    :type process_input:    string
    :param env_variables:   Environment variables and their values that
                            will be set for the process.
    :type env_variables:    dict
    :param check_exit_code: Single bool, int, or list of allowed exit
                            codes.  Defaults to [0].  Raise
                            :class:`ProcessExecutionError` unless
                            program exits with one of these code.
    :type check_exit_code:  boolean, int, or [int]
    :param delay_on_retry:  True | False. Defaults to True. If set to True,
                            wait a short amount of time before retrying.
    :type delay_on_retry:   boolean
    :param attempts:        How many times to retry cmd.
    :type attempts:         int
    :param run_as_root:     True | False. Defaults to False. If set to True,
                            the command is prefixed by the command specified
                            in the root_helper kwarg.
    :type run_as_root:      boolean
    :param root_helper:     command to prefix to commands called with
                            run_as_root=True
    :type root_helper:      string
    :param shell:           whether or not there should be a shell used to
                            execute this command. Defaults to false.
    :type shell:            boolean
    :param loglevel:        log level for execute commands.
    :type loglevel:         int.  (Should be stdlib_logging.DEBUG or
                            stdlib_logging.INFO)
    :returns:               (stdout, stderr) from process execution
    :raises:                :class:`UnknownArgumentError` on
                            receiving unknown arguments
    :raises:                :class:`ProcessExecutionError`
    """

    process_input = kwargs.pop('process_input', None)
    env_variables = kwargs.pop('env_variables', None)
    check_exit_code = kwargs.pop('check_exit_code', [0])
    ignore_exit_code = False
    delay_on_retry = kwargs.pop('delay_on_retry', True)
    attempts = kwargs.pop('attempts', 1)
    run_as_root = kwargs.pop('run_as_root', False)
    root_helper = kwargs.pop('root_helper', '')
    shell = kwargs.pop('shell', False)
    loglevel = kwargs.pop('loglevel', stdlib_logging.DEBUG)

    if isinstance(check_exit_code, bool):
        ignore_exit_code = not check_exit_code
        check_exit_code = [0]
    elif isinstance(check_exit_code, int):
        check_exit_code = [check_exit_code]

    if kwargs:
        raise UnknownArgumentError(_('Got unknown keyword args '
                                     'to utils.execute: %r') % kwargs)

    if run_as_root and hasattr(os, 'geteuid') and os.geteuid() != 0:
        if not root_helper:
            raise NoRootWrapSpecified(
                message=_('Command requested root, but did not '
                          'specify a root helper.'))
        cmd = shlex.split(root_helper) + list(cmd)

    cmd = map(str, cmd)

    while attempts > 0:
        attempts -= 1
        try:
            LOG.log(loglevel, 'Running cmd (subprocess): %s',
                    ' '.join(logging.mask_password(cmd)))
            _PIPE = subprocess.PIPE  # pylint: disable=E1101

            if os.name == 'nt':
                preexec_fn = None
                close_fds = False
            else:
                preexec_fn = _subprocess_setup
                close_fds = True

            obj = subprocess.Popen(cmd,
                                   stdin=_PIPE,
                                   stdout=_PIPE,
                                   stderr=_PIPE,
                                   close_fds=close_fds,
                                   preexec_fn=preexec_fn,
                                   shell=shell,
                                   env=env_variables)
            result = None
            for _i in six.moves.range(20):
                # NOTE(russellb) 20 is an arbitrary number of retries to
                # prevent any chance of looping forever here.
                try:
                    if process_input is not None:
                        result = obj.communicate(process_input)
                    else:
                        result = obj.communicate()
                except OSError as e:
                    if e.errno in (errno.EAGAIN, errno.EINTR):
                        continue
                    raise
                break
            obj.stdin.close()  # pylint: disable=E1101
            _returncode = obj.returncode  # pylint: disable=E1101
            LOG.log(loglevel, 'Result was %s' % _returncode)
            if not ignore_exit_code and _returncode not in check_exit_code:
                (stdout, stderr) = result
                raise ProcessExecutionError(exit_code=_returncode,
                                            stdout=stdout,
                                            stderr=stderr,
                                            cmd=' '.join(cmd))
            return result
        except ProcessExecutionError:
            if not attempts:
                raise
            else:
                LOG.log(loglevel, '%r failed. Retrying.', cmd)
                if delay_on_retry:
                    greenthread.sleep(random.randint(20, 200) / 100.0)
        finally:
            # NOTE(termie): this appears to be necessary to let the subprocess
            #               call clean something up in between calls, without
            #               it two execute calls in a row hangs the second one
            greenthread.sleep(0)