deb-cinder/cinder/utils.py

# Copyright 2010 United States Government as represented by the
# Administrator of the National Aeronautics and Space Administration.
# Copyright 2011 Justin Santa Barbara
# All Rights Reserved.
#
#    Licensed under the Apache License, Version 2.0 (the "License"); you may
#    not use this file except in compliance with the License. You may obtain
#    a copy of the License at
#
#         http://www.apache.org/licenses/LICENSE-2.0
#
#    Unless required by applicable law or agreed to in writing, software
#    distributed under the License is distributed on an "AS IS" BASIS, WITHOUT
#    WARRANTIES OR CONDITIONS OF ANY KIND, either express or implied. See the
#    License for the specific language governing permissions and limitations
#    under the License.

"""Utilities and helper functions."""


import contextlib
import datetime
import hashlib
import inspect
import os
import pyclbr
import re
import shutil
import stat
import sys
import tempfile
from xml.dom import minidom
from xml.parsers import expat
from xml import sax
from xml.sax import expatreader
from xml.sax import saxutils

from os_brick.initiator import connector
from oslo_concurrency import lockutils
from oslo_concurrency import processutils
from oslo_config import cfg
from oslo_log import log as logging
from oslo_utils import importutils
from oslo_utils import timeutils
import retrying
import six

from cinder import exception
from cinder.i18n import _, _LE


CONF = cfg.CONF
LOG = logging.getLogger(__name__)
ISO_TIME_FORMAT = "%Y-%m-%dT%H:%M:%S"
PERFECT_TIME_FORMAT = "%Y-%m-%dT%H:%M:%S.%f"

synchronized = lockutils.synchronized_with_prefix('cinder-')


def find_config(config_path):
    """Find a configuration file using the given hint.

    :param config_path: Full or relative path to the config.
    :returns: Full path of the config, if it exists.
    :raises: `cinder.exception.ConfigNotFound`

    """
    possible_locations = [
        config_path,
        os.path.join(CONF.state_path, "etc", "cinder", config_path),
        os.path.join(CONF.state_path, "etc", config_path),
        os.path.join(CONF.state_path, config_path),
        "/etc/cinder/%s" % config_path,
    ]

    for path in possible_locations:
        if os.path.exists(path):
            return os.path.abspath(path)

    raise exception.ConfigNotFound(path=os.path.abspath(config_path))


def as_int(obj, quiet=True):
    # Try "2" -> 2
    try:
        return int(obj)
    except (ValueError, TypeError):
        pass
    # Try "2.5" -> 2
    try:
        return int(float(obj))
    except (ValueError, TypeError):
        pass
    # Eck, not sure what this is then.
    if not quiet:
        raise TypeError(_("Can not translate %s to integer.") % (obj))
    return obj


def is_int_like(val):
    """Check if a value looks like an int."""
    try:
        return str(int(val)) == str(val)
    except Exception:
        return False


def check_exclusive_options(**kwargs):
    """Checks that only one of the provided options is actually not-none.

    Iterates over all the kwargs passed in and checks that only one of said
    arguments is not-none, if more than one is not-none then an exception will
    be raised with the names of those arguments who were not-none.
    """

    if not kwargs:
        return

    pretty_keys = kwargs.pop("pretty_keys", True)
    exclusive_options = {}
    for (k, v) in kwargs.items():
        if v is not None:
            exclusive_options[k] = True

    if len(exclusive_options) > 1:
        # Change the format of the names from pythonic to
        # something that is more readable.
        #
        # Ex: 'the_key' -> 'the key'
        if pretty_keys:
            names = [k.replace('_', ' ') for k in kwargs.keys()]
        else:
            names = kwargs.keys()
        names = ", ".join(sorted(names))
        msg = (_("May specify only one of %s") % (names))
        raise exception.InvalidInput(reason=msg)


def execute(*cmd, **kwargs):
    """Convenience wrapper around oslo's execute() method."""
    if 'run_as_root' in kwargs and 'root_helper' not in kwargs:
        kwargs['root_helper'] = get_root_helper()
    return processutils.execute(*cmd, **kwargs)


def check_ssh_injection(cmd_list):
    ssh_injection_pattern = ['`', '$', '|', '||', ';', '&', '&&', '>', '>>',
                             '<']

    # Check whether injection attacks exist
    for arg in cmd_list:
        arg = arg.strip()

        # Check for matching quotes on the ends
        is_quoted = re.match('^(?P<quote>[\'"])(?P<quoted>.*)(?P=quote)$', arg)
        if is_quoted:
            # Check for unescaped quotes within the quoted argument
            quoted = is_quoted.group('quoted')
            if quoted:
                if (re.match('[\'"]', quoted) or
                        re.search('[^\\\\][\'"]', quoted)):
                    raise exception.SSHInjectionThreat(command=cmd_list)
        else:
            # We only allow spaces within quoted arguments, and that
            # is the only special character allowed within quotes
            if len(arg.split()) > 1:
                raise exception.SSHInjectionThreat(command=cmd_list)

        # Second, check whether danger character in command. So the shell
        # special operator must be a single argument.
        for c in ssh_injection_pattern:
            if c not in arg:
                continue

            result = arg.find(c)
            if not result == -1:
                if result == 0 or not arg[result - 1] == '\\':
                    raise exception.SSHInjectionThreat(command=cmd_list)


def create_channel(client, width, height):
    """Invoke an interactive shell session on server."""
    channel = client.invoke_shell()
    channel.resize_pty(width, height)
    return channel


def cinderdir():
    import cinder
    return os.path.abspath(cinder.__file__).split('cinder/__init__.py')[0]


def last_completed_audit_period(unit=None):
    """This method gives you the most recently *completed* audit period.

    arguments:
            units: string, one of 'hour', 'day', 'month', 'year'
                    Periods normally begin at the beginning (UTC) of the
                    period unit (So a 'day' period begins at midnight UTC,
                    a 'month' unit on the 1st, a 'year' on Jan, 1)
                    unit string may be appended with an optional offset
                    like so:  'day@18'  This will begin the period at 18:00
                    UTC.  'month@15' starts a monthly period on the 15th,
                    and year@3 begins a yearly one on March 1st.


    returns:  2 tuple of datetimes (begin, end)
              The begin timestamp of this audit period is the same as the
              end of the previous.
    """
    if not unit:
        unit = CONF.volume_usage_audit_period

    offset = 0
    if '@' in unit:
        unit, offset = unit.split("@", 1)
        offset = int(offset)

    rightnow = timeutils.utcnow()
    if unit not in ('month', 'day', 'year', 'hour'):
        raise ValueError('Time period must be hour, day, month or year')
    if unit == 'month':
        if offset == 0:
            offset = 1
        end = datetime.datetime(day=offset,
                                month=rightnow.month,
                                year=rightnow.year)
        if end >= rightnow:
            year = rightnow.year
            if 1 >= rightnow.month:
                year -= 1
                month = 12 + (rightnow.month - 1)
            else:
                month = rightnow.month - 1
            end = datetime.datetime(day=offset,
                                    month=month,
                                    year=year)
        year = end.year
        if 1 >= end.month:
            year -= 1
            month = 12 + (end.month - 1)
        else:
            month = end.month - 1
        begin = datetime.datetime(day=offset, month=month, year=year)

    elif unit == 'year':
        if offset == 0:
            offset = 1
        end = datetime.datetime(day=1, month=offset, year=rightnow.year)
        if end >= rightnow:
            end = datetime.datetime(day=1,
                                    month=offset,
                                    year=rightnow.year - 1)
            begin = datetime.datetime(day=1,
                                      month=offset,
                                      year=rightnow.year - 2)
        else:
            begin = datetime.datetime(day=1,
                                      month=offset,
                                      year=rightnow.year - 1)

    elif unit == 'day':
        end = datetime.datetime(hour=offset,
                                day=rightnow.day,
                                month=rightnow.month,
                                year=rightnow.year)
        if end >= rightnow:
            end = end - datetime.timedelta(days=1)
        begin = end - datetime.timedelta(days=1)

    elif unit == 'hour':
        end = rightnow.replace(minute=offset, second=0, microsecond=0)
        if end >= rightnow:
            end = end - datetime.timedelta(hours=1)
        begin = end - datetime.timedelta(hours=1)

    return (begin, end)


class ProtectedExpatParser(expatreader.ExpatParser):
    """An expat parser which disables DTD's and entities by default."""

    def __init__(self, forbid_dtd=True, forbid_entities=True,
                 *args, **kwargs):
        # Python 2.x old style class
        expatreader.ExpatParser.__init__(self, *args, **kwargs)
        self.forbid_dtd = forbid_dtd
        self.forbid_entities = forbid_entities

    def start_doctype_decl(self, name, sysid, pubid, has_internal_subset):
        raise ValueError("Inline DTD forbidden")

    def entity_decl(self, entityName, is_parameter_entity, value, base,
                    systemId, publicId, notationName):
        raise ValueError("<!ENTITY> forbidden")

    def unparsed_entity_decl(self, name, base, sysid, pubid, notation_name):
        # expat 1.2
        raise ValueError("<!ENTITY> forbidden")

    def reset(self):
        expatreader.ExpatParser.reset(self)
        if self.forbid_dtd:
            self._parser.StartDoctypeDeclHandler = self.start_doctype_decl
        if self.forbid_entities:
            self._parser.EntityDeclHandler = self.entity_decl
            self._parser.UnparsedEntityDeclHandler = self.unparsed_entity_decl


def safe_minidom_parse_string(xml_string):
    """Parse an XML string using minidom safely.

    """
    try:
        return minidom.parseString(xml_string, parser=ProtectedExpatParser())
    except sax.SAXParseException:
        raise expat.ExpatError()


def xhtml_escape(value):
    """Escapes a string so it is valid within XML or XHTML.

    """
    return saxutils.escape(value, {'"': '&quot;', "'": '&apos;'})


def get_from_path(items, path):
    """Returns a list of items matching the specified path.

    Takes an XPath-like expression e.g. prop1/prop2/prop3, and for each item
    in items, looks up items[prop1][prop2][prop3]. Like XPath, if any of the
    intermediate results are lists it will treat each list item individually.
    A 'None' in items or any child expressions will be ignored, this function
    will not throw because of None (anywhere) in items.  The returned list
    will contain no None values.

    """
    if path is None:
        raise exception.Error('Invalid mini_xpath')

    (first_token, sep, remainder) = path.partition('/')

    if first_token == '':
        raise exception.Error('Invalid mini_xpath')

    results = []

    if items is None:
        return results

    if not isinstance(items, list):
        # Wrap single objects in a list
        items = [items]

    for item in items:
        if item is None:
            continue
        get_method = getattr(item, 'get', None)
        if get_method is None:
            continue
        child = get_method(first_token)
        if child is None:
            continue
        if isinstance(child, list):
            # Flatten intermediate lists
            for x in child:
                results.append(x)
        else:
            results.append(child)

    if not sep:
        # No more tokens
        return results
    else:
        return get_from_path(results, remainder)


def is_valid_boolstr(val):
    """Check if the provided string is a valid bool string or not."""
    val = str(val).lower()
    return (val == 'true' or val == 'false' or
            val == 'yes' or val == 'no' or
            val == 'y' or val == 'n' or
            val == '1' or val == '0')


def is_none_string(val):
    """Check if a string represents a None value."""
    if not isinstance(val, six.string_types):
        return False

    return val.lower() == 'none'


def monkey_patch():
    """If the CONF.monkey_patch set as True,
    this function patches a decorator
    for all functions in specified modules.

    You can set decorators for each modules
    using CONF.monkey_patch_modules.
    The format is "Module path:Decorator function".
    Example: 'cinder.api.ec2.cloud:' \
     cinder.openstack.common.notifier.api.notify_decorator'

    Parameters of the decorator is as follows.
    (See cinder.openstack.common.notifier.api.notify_decorator)

    name - name of the function
    function - object of the function
    """
    # If CONF.monkey_patch is not True, this function do nothing.
    if not CONF.monkey_patch:
        return
    # Get list of modules and decorators
    for module_and_decorator in CONF.monkey_patch_modules:
        module, decorator_name = module_and_decorator.split(':')
        # import decorator function
        decorator = importutils.import_class(decorator_name)
        __import__(module)
        # Retrieve module information using pyclbr
        module_data = pyclbr.readmodule_ex(module)
        for key in module_data.keys():
            # set the decorator for the class methods
            if isinstance(module_data[key], pyclbr.Class):
                clz = importutils.import_class("%s.%s" % (module, key))
                for method, func in inspect.getmembers(clz, inspect.ismethod):
                    setattr(
                        clz, method,
                        decorator("%s.%s.%s" % (module, key, method), func))
            # set the decorator for the function
            if isinstance(module_data[key], pyclbr.Function):
                func = importutils.import_class("%s.%s" % (module, key))
                setattr(sys.modules[module], key,
                        decorator("%s.%s" % (module, key), func))


def generate_glance_url():
    """Generate the URL to glance."""
    # TODO(jk0): This will eventually need to take SSL into consideration
    # when supported in glance.
    return "http://%s:%d" % (CONF.glance_host, CONF.glance_port)


def make_dev_path(dev, partition=None, base='/dev'):
    """Return a path to a particular device.

    >>> make_dev_path('xvdc')
    /dev/xvdc

    >>> make_dev_path('xvdc', 1)
    /dev/xvdc1
    """
    path = os.path.join(base, dev)
    if partition:
        path += str(partition)
    return path


def sanitize_hostname(hostname):
    """Return a hostname which conforms to RFC-952 and RFC-1123 specs."""
    if six.PY3:
        hostname = hostname.encode('latin-1', 'ignore')
        hostname = hostname.decode('latin-1')
    else:
        if isinstance(hostname, six.text_type):
            hostname = hostname.encode('latin-1', 'ignore')

    hostname = re.sub('[ _]', '-', hostname)
    hostname = re.sub('[^\w.-]+', '', hostname)
    hostname = hostname.lower()
    hostname = hostname.strip('.-')

    return hostname


def hash_file(file_like_object):
    """Generate a hash for the contents of a file."""
    checksum = hashlib.sha1()
    any(map(checksum.update, iter(lambda: file_like_object.read(32768), b'')))
    return checksum.hexdigest()


def service_is_up(service):
    """Check whether a service is up based on last heartbeat."""
    last_heartbeat = service['updated_at'] or service['created_at']
    # Timestamps in DB are UTC.
    elapsed = (timeutils.utcnow() - last_heartbeat).total_seconds()
    return abs(elapsed) <= CONF.service_down_time


def read_file_as_root(file_path):
    """Secure helper to read file as root."""
    try:
        out, _err = execute('cat', file_path, run_as_root=True)
        return out
    except processutils.ProcessExecutionError:
        raise exception.FileNotFound(file_path=file_path)


@contextlib.contextmanager
def temporary_chown(path, owner_uid=None):
    """Temporarily chown a path.

    :params owner_uid: UID of temporary owner (defaults to current user)
    """
    if owner_uid is None:
        owner_uid = os.getuid()

    orig_uid = os.stat(path).st_uid

    if orig_uid != owner_uid:
        execute('chown', owner_uid, path, run_as_root=True)
    try:
        yield
    finally:
        if orig_uid != owner_uid:
            execute('chown', orig_uid, path, run_as_root=True)


@contextlib.contextmanager
def tempdir(**kwargs):
    tmpdir = tempfile.mkdtemp(**kwargs)
    try:
        yield tmpdir
    finally:
        try:
            shutil.rmtree(tmpdir)
        except OSError as e:
            LOG.debug('Could not remove tmpdir: %s',
                      six.text_type(e))


def walk_class_hierarchy(clazz, encountered=None):
    """Walk class hierarchy, yielding most derived classes first."""
    if not encountered:
        encountered = []
    for subclass in clazz.__subclasses__():
        if subclass not in encountered:
            encountered.append(subclass)
            # drill down to leaves first
            for subsubclass in walk_class_hierarchy(subclass, encountered):
                yield subsubclass
            yield subclass


def get_root_helper():
    return 'sudo cinder-rootwrap %s' % CONF.rootwrap_config


def brick_get_connector_properties(multipath=False, enforce_multipath=False):
    """wrapper for the brick calls to automatically set
    the root_helper needed for cinder.

    :param multipath:         A boolean indicating whether the connector can
                              support multipath.
    :param enforce_multipath: If True, it raises exception when multipath=True
                              is specified but multipathd is not running.
                              If False, it falls back to multipath=False
                              when multipathd is not running.
    """

    root_helper = get_root_helper()
    return connector.get_connector_properties(root_helper,
                                              CONF.my_ip,
                                              multipath,
                                              enforce_multipath)


def brick_get_connector(protocol, driver=None,
                        execute=processutils.execute,
                        use_multipath=False,
                        device_scan_attempts=3,
                        *args, **kwargs):
    """Wrapper to get a brick connector object.
    This automatically populates the required protocol as well
    as the root_helper needed to execute commands.
    """

    root_helper = get_root_helper()
    return connector.InitiatorConnector.factory(protocol, root_helper,
                                                driver=driver,
                                                execute=execute,
                                                use_multipath=use_multipath,
                                                device_scan_attempts=
                                                device_scan_attempts,
                                                *args, **kwargs)


def require_driver_initialized(driver):
    """Verifies if `driver` is initialized

    If the driver is not initialized, an exception will be raised.

    :params driver: The driver instance.
    :raises: `exception.DriverNotInitialized`
    """
    # we can't do anything if the driver didn't init
    if not driver.initialized:
        driver_name = driver.__class__.__name__
        LOG.error(_LE("Volume driver %s not initialized"), driver_name)
        raise exception.DriverNotInitialized()


def get_file_mode(path):
    """This primarily exists to make unit testing easier."""
    return stat.S_IMODE(os.stat(path).st_mode)


def get_file_gid(path):
    """This primarily exists to make unit testing easier."""
    return os.stat(path).st_gid


def get_file_size(path):
    """Returns the file size."""
    return os.stat(path).st_size


def _get_disk_of_partition(devpath, st=None):
    """Returns a disk device path from a partition device path, and stat for
    the device. If devpath is not a partition, devpath is returned as it is.
    For example, '/dev/sda' is returned for '/dev/sda1', and '/dev/disk1' is
    for '/dev/disk1p1' ('p' is prepended to the partition number if the disk
    name ends with numbers).
    """
    diskpath = re.sub('(?:(?<=\d)p)?\d+$', '', devpath)
    if diskpath != devpath:
        try:
            st_disk = os.stat(diskpath)
            if stat.S_ISBLK(st_disk.st_mode):
                return (diskpath, st_disk)
        except OSError:
            pass
    # devpath is not a partition
    if st is None:
        st = os.stat(devpath)
    return (devpath, st)


def get_blkdev_major_minor(path, lookup_for_file=True):
    """Get the device's "major:minor" number of a block device to control
    I/O ratelimit of the specified path.
    If lookup_for_file is True and the path is a regular file, lookup a disk
    device which the file lies on and returns the result for the device.
    """
    st = os.stat(path)
    if stat.S_ISBLK(st.st_mode):
        path, st = _get_disk_of_partition(path, st)
        return '%d:%d' % (os.major(st.st_rdev), os.minor(st.st_rdev))
    elif stat.S_ISCHR(st.st_mode):
        # No I/O ratelimit control is provided for character devices
        return None
    elif lookup_for_file:
        # lookup the mounted disk which the file lies on
        out, _err = execute('df', path)
        devpath = out.split("\n")[1].split()[0]
        if devpath[0] is not '/':
            # the file is on a network file system
            return None
        return get_blkdev_major_minor(devpath, False)
    else:
        msg = _("Unable to get a block device for file \'%s\'") % path
        raise exception.Error(msg)


def check_string_length(value, name, min_length=0, max_length=None):
    """Check the length of specified string
    :param value: the value of the string
    :param name: the name of the string
    :param min_length: the min_length of the string
    :param max_length: the max_length of the string
    """
    if not isinstance(value, six.string_types):
        msg = _("%s is not a string or unicode") % name
        raise exception.InvalidInput(message=msg)

    if len(value) < min_length:
        msg = _("%(name)s has a minimum character requirement of "
                "%(min_length)s.") % {'name': name, 'min_length': min_length}
        raise exception.InvalidInput(message=msg)

    if max_length and len(value) > max_length:
        msg = _("%(name)s has more than %(max_length)s "
                "characters.") % {'name': name, 'max_length': max_length}
        raise exception.InvalidInput(message=msg)

_visible_admin_metadata_keys = ['readonly', 'attached_mode']


def add_visible_admin_metadata(volume):
    """Add user-visible admin metadata to regular metadata.

    Extracts the admin metadata keys that are to be made visible to
    non-administrators, and adds them to the regular metadata structure for the
    passed-in volume.
    """
    visible_admin_meta = {}

    if volume.get('volume_admin_metadata'):
        for item in volume['volume_admin_metadata']:
            if item['key'] in _visible_admin_metadata_keys:
                visible_admin_meta[item['key']] = item['value']
    # avoid circular ref when volume is a Volume instance
    elif (volume.get('admin_metadata') and
            isinstance(volume.get('admin_metadata'), dict)):
        for key in _visible_admin_metadata_keys:
            if key in volume['admin_metadata'].keys():
                visible_admin_meta[key] = volume['admin_metadata'][key]

    if not visible_admin_meta:
        return

    # NOTE(zhiyan): update visible administration metadata to
    # volume metadata, administration metadata will rewrite existing key.
    if volume.get('volume_metadata'):
        orig_meta = list(volume.get('volume_metadata'))
        for item in orig_meta:
            if item['key'] in visible_admin_meta.keys():
                item['value'] = visible_admin_meta.pop(item['key'])
        for key, value in visible_admin_meta.items():
            orig_meta.append({'key': key, 'value': value})
        volume['volume_metadata'] = orig_meta
    # avoid circular ref when vol is a Volume instance
    elif (volume.get('metadata') and
            isinstance(volume.get('metadata'), dict)):
        volume['metadata'].update(visible_admin_meta)
    else:
        volume['metadata'] = visible_admin_meta


def remove_invalid_filter_options(context, filters,
                                  allowed_search_options):
    """Remove search options that are not valid
    for non-admin API/context.
    """
    if context.is_admin:
        # Allow all options
        return
    # Otherwise, strip out all unknown options
    unknown_options = [opt for opt in filters
                       if opt not in allowed_search_options]
    bad_options = ", ".join(unknown_options)
    LOG.debug("Removing options '%s' from query.", bad_options)
    for opt in unknown_options:
        del filters[opt]


def is_blk_device(dev):
    try:
        if stat.S_ISBLK(os.stat(dev).st_mode):
            return True
        return False
    except Exception:
        LOG.debug('Path %s not found in is_blk_device check', dev)
        return False


def retry(exceptions, interval=1, retries=3, backoff_rate=2):

    def _retry_on_exception(e):
        return isinstance(e, exceptions)

    def _backoff_sleep(previous_attempt_number, delay_since_first_attempt_ms):
        exp = backoff_rate ** previous_attempt_number
        wait_for = max(0, interval * exp)
        LOG.debug("Sleeping for %s seconds", wait_for)
        return wait_for * 1000.0

    def _print_stop(previous_attempt_number, delay_since_first_attempt_ms):
        delay_since_first_attempt = delay_since_first_attempt_ms / 1000.0
        LOG.debug("Failed attempt %s", previous_attempt_number)
        LOG.debug("Have been at this for %s seconds",
                  delay_since_first_attempt)
        return previous_attempt_number == retries

    if retries < 1:
        raise ValueError('Retries must be greater than or '
                         'equal to 1 (received: %s). ' % retries)

    def _decorator(f):

        @six.wraps(f)
        def _wrapper(*args, **kwargs):
            r = retrying.Retrying(retry_on_exception=_retry_on_exception,
                                  wait_func=_backoff_sleep,
                                  stop_func=_print_stop)
            return r.call(f, *args, **kwargs)

        return _wrapper

    return _decorator


def convert_version_to_int(version):
    try:
        if isinstance(version, six.string_types):
            version = convert_version_to_tuple(version)
        if isinstance(version, tuple):
            return six.moves.reduce(lambda x, y: (x * 1000) + y, version)
    except Exception:
        msg = _("Version %s is invalid.") % version
        raise exception.CinderException(msg)


def convert_version_to_str(version_int):
    version_numbers = []
    factor = 1000
    while version_int != 0:
        version_number = version_int - (version_int // factor * factor)
        version_numbers.insert(0, six.text_type(version_number))
        version_int = version_int // factor

    return '.'.join(map(str, version_numbers))


def convert_version_to_tuple(version_str):
    return tuple(int(part) for part in version_str.split('.'))