# Copyright 2010 United States Government as represented by the
# Administrator of the National Aeronautics and Space Administration.
# Copyright 2011 Justin Santa Barbara
# Copyright (c) 2012 NTT DOCOMO, INC.
# 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 copy
import errno
import ipaddress
import logging
import os
import re
import shlex
import shutil
import tempfile
from urllib import parse as urlparse
from oslo_concurrency import processutils
from oslo_config import cfg
from oslo_utils import excutils
from oslo_utils import specs_matcher
from oslo_utils import strutils
from oslo_utils import units
import tenacity
from ironic_lib.common.i18n import _
from ironic_lib import exception
utils_opts = [
cfg.StrOpt('root_helper',
default='sudo ironic-rootwrap /etc/ironic/rootwrap.conf',
help='Command that is prefixed to commands that are run as '
'root. If not specified, no commands are run as root.'),
]
CONF = cfg.CONF
CONF.register_opts(utils_opts, group='ironic_lib')
LOG = logging.getLogger(__name__)
# A dictionary in the form {hint name: hint type}
VALID_ROOT_DEVICE_HINTS = {
'size': int, 'model': str, 'wwn': str, 'serial': str, 'vendor': str,
'wwn_with_extension': str, 'wwn_vendor_extension': str, 'name': str,
'rotational': bool, 'hctl': str, 'by_path': str,
}
ROOT_DEVICE_HINTS_GRAMMAR = specs_matcher.make_grammar()
[docs]def execute(*cmd, use_standard_locale=False, log_stdout=True, **kwargs):
"""Convenience wrapper around oslo's execute() method.
Executes and logs results from a system command. See docs for
oslo_concurrency.processutils.execute for usage.
:param cmd: positional arguments to pass to processutils.execute()
:param use_standard_locale: Defaults to False. If set to True,
execute command with standard locale
added to environment variables.
:param log_stdout: Defaults to True. If set to True, logs the output.
:param kwargs: keyword arguments to pass to processutils.execute()
:returns: (stdout, stderr) from process execution
:raises: UnknownArgumentError on receiving unknown arguments
:raises: ProcessExecutionError
:raises: OSError
"""
if use_standard_locale:
env = kwargs.pop('env_variables', os.environ.copy())
env['LC_ALL'] = 'C'
kwargs['env_variables'] = env
# If root_helper config is not specified, no commands are run as root.
run_as_root = kwargs.get('run_as_root', False)
if run_as_root:
if not CONF.ironic_lib.root_helper:
kwargs['run_as_root'] = False
else:
kwargs['root_helper'] = CONF.ironic_lib.root_helper
def _log(stdout, stderr):
if log_stdout:
LOG.debug('Command stdout is: "%s"', stdout)
LOG.debug('Command stderr is: "%s"', stderr)
try:
result = processutils.execute(*cmd, **kwargs)
except FileNotFoundError:
with excutils.save_and_reraise_exception():
LOG.debug('Command not found: "%s"', ' '.join(map(str, cmd)))
except processutils.ProcessExecutionError as exc:
with excutils.save_and_reraise_exception():
_log(exc.stdout, exc.stderr)
else:
_log(result[0], result[1])
return result
[docs]def try_execute(*cmd, **kwargs):
"""The same as execute but returns None on error.
Executes and logs results from a system command. See docs for
oslo_concurrency.processutils.execute for usage.
Instead of raising an exception on failure, this method simply
returns None in case of failure.
:param cmd: positional arguments to pass to processutils.execute()
:param kwargs: keyword arguments to pass to processutils.execute()
:raises: UnknownArgumentError on receiving unknown arguments
:returns: tuple of (stdout, stderr) or None in some error cases
"""
try:
return execute(*cmd, **kwargs)
except (processutils.ProcessExecutionError, OSError) as e:
LOG.debug('Command failed: %s', e)
[docs]def mkfs(fs, path, label=None):
"""Format a file or block device
:param fs: Filesystem type (examples include 'swap', 'ext3', 'ext4'
'btrfs', etc.)
:param path: Path to file or block device to format
:param label: Volume label to use
"""
if fs == 'swap':
args = ['mkswap']
else:
args = ['mkfs', '-t', fs]
# add -F to force no interactive execute on non-block device.
if fs in ('ext3', 'ext4'):
args.extend(['-F'])
if label:
if fs in ('msdos', 'vfat'):
label_opt = '-n'
else:
label_opt = '-L'
args.extend([label_opt, label])
args.append(path)
try:
execute(*args, run_as_root=True, use_standard_locale=True)
except processutils.ProcessExecutionError as e:
with excutils.save_and_reraise_exception() as ctx:
if os.strerror(errno.ENOENT) in e.stderr:
ctx.reraise = False
LOG.exception('Failed to make file system. '
'File system %s is not supported.', fs)
raise exception.FileSystemNotSupported(fs=fs)
else:
LOG.exception('Failed to create a file system '
'in %(path)s. Error: %(error)s',
{'path': path, 'error': e})
[docs]def unlink_without_raise(path):
try:
os.unlink(path)
except OSError as e:
if e.errno == errno.ENOENT:
return
else:
LOG.warning("Failed to unlink %(path)s, error: %(e)s",
{'path': path, 'e': e})
[docs]def dd(src, dst, *args):
"""Execute dd from src to dst.
:param src: the input file for dd command.
:param dst: the output file for dd command.
:param args: a tuple containing the arguments to be
passed to dd command.
:raises: processutils.ProcessExecutionError if it failed
to run the process.
"""
LOG.debug("Starting dd process.")
execute('dd', 'if=%s' % src, 'of=%s' % dst, *args,
use_standard_locale=True, run_as_root=True)
[docs]def is_http_url(url):
url = url.lower()
return url.startswith('http://') or url.startswith('https://')
[docs]def list_opts():
"""Entry point for oslo-config-generator."""
return [('ironic_lib', utils_opts)]
def _extract_hint_operator_and_values(hint_expression, hint_name):
"""Extract the operator and value(s) of a root device hint expression.
A root device hint expression could contain one or more values
depending on the operator. This method extracts the operator and
value(s) and returns a dictionary containing both.
:param hint_expression: The hint expression string containing value(s)
and operator (optionally).
:param hint_name: The name of the hint. Used for logging.
:raises: ValueError if the hint_expression is empty.
:returns: A dictionary containing:
:op: The operator. An empty string in case of None.
:values: A list of values stripped and converted to lowercase.
"""
expression = str(hint_expression).strip().lower()
if not expression:
raise ValueError(
_('Root device hint "%s" expression is empty') % hint_name)
# parseString() returns a list of tokens which the operator (if
# present) is always the first element.
ast = ROOT_DEVICE_HINTS_GRAMMAR.parseString(expression)
if len(ast) <= 1:
# hint_expression had no operator
return {'op': '', 'values': [expression]}
op = ast[0]
return {'values': [v.strip() for v in re.split(op, expression) if v],
'op': op}
def _normalize_hint_expression(hint_expression, hint_name):
"""Normalize a string type hint expression.
A string-type hint expression contains one or more operators and
one or more values: [<op>] <value> [<op> <value>]*. This normalizes
the values by url-encoding white spaces and special characters. The
operators are not normalized. For example: the hint value of "<or>
foo bar <or> bar" will become "<or> foo%20bar <or> bar".
:param hint_expression: The hint expression string containing value(s)
and operator (optionally).
:param hint_name: The name of the hint. Used for logging.
:raises: ValueError if the hint_expression is empty.
:returns: A normalized string.
"""
hdict = _extract_hint_operator_and_values(hint_expression, hint_name)
result = hdict['op'].join([' %s ' % urlparse.quote(t)
for t in hdict['values']])
return (hdict['op'] + result).strip()
def _append_operator_to_hints(root_device):
"""Add an equal (s== or ==) operator to the hints.
For backwards compatibility, for root device hints where no operator
means equal, this method adds the equal operator to the hint. This is
needed when using oslo.utils.specs_matcher methods.
:param root_device: The root device hints dictionary.
"""
for name, expression in root_device.items():
# NOTE(lucasagomes): The specs_matcher from oslo.utils does not
# support boolean, so we don't need to append any operator
# for it.
if VALID_ROOT_DEVICE_HINTS[name] is bool:
continue
expression = str(expression)
ast = ROOT_DEVICE_HINTS_GRAMMAR.parseString(expression)
if len(ast) > 1:
continue
op = 's== %s' if VALID_ROOT_DEVICE_HINTS[name] is str else '== %s'
root_device[name] = op % expression
return root_device
[docs]def parse_root_device_hints(root_device):
"""Parse the root_device property of a node.
Parses and validates the root_device property of a node. These are
hints for how a node's root device is created. The 'size' hint
should be a positive integer. The 'rotational' hint should be a
Boolean value.
:param root_device: the root_device dictionary from the node's property.
:returns: a dictionary with the root device hints parsed or
None if there are no hints.
:raises: ValueError, if some information is invalid.
"""
if not root_device:
return
root_device = copy.deepcopy(root_device)
invalid_hints = set(root_device) - set(VALID_ROOT_DEVICE_HINTS)
if invalid_hints:
raise ValueError(
_('The hints "%(invalid_hints)s" are invalid. '
'Valid hints are: "%(valid_hints)s"') %
{'invalid_hints': ', '.join(invalid_hints),
'valid_hints': ', '.join(VALID_ROOT_DEVICE_HINTS)})
for name, expression in root_device.items():
hint_type = VALID_ROOT_DEVICE_HINTS[name]
if hint_type is str:
if not isinstance(expression, str):
raise ValueError(
_('Root device hint "%(name)s" is not a string value. '
'Hint expression: %(expression)s') %
{'name': name, 'expression': expression})
root_device[name] = _normalize_hint_expression(expression, name)
elif hint_type is int:
for v in _extract_hint_operator_and_values(expression,
name)['values']:
try:
integer = int(v)
except ValueError:
raise ValueError(
_('Root device hint "%(name)s" is not an integer '
'value. Current value: %(expression)s') %
{'name': name, 'expression': expression})
if integer <= 0:
raise ValueError(
_('Root device hint "%(name)s" should be a positive '
'integer. Current value: %(expression)s') %
{'name': name, 'expression': expression})
elif hint_type is bool:
try:
root_device[name] = strutils.bool_from_string(
expression, strict=True)
except ValueError:
raise ValueError(
_('Root device hint "%(name)s" is not a Boolean value. '
'Current value: %(expression)s') %
{'name': name, 'expression': expression})
return _append_operator_to_hints(root_device)
[docs]def find_devices_by_hints(devices, root_device_hints):
"""Find all devices that match the root device hints.
Try to find devices that match the root device hints. In order
for a device to be matched it needs to satisfy all the given hints.
:param devices: A list of dictionaries representing the devices
containing one or more of the following keys:
:name: (String) The device name, e.g /dev/sda
:size: (Integer) Size of the device in *bytes*
:model: (String) Device model
:vendor: (String) Device vendor name
:serial: (String) Device serial number
:wwn: (String) Unique storage identifier
:wwn_with_extension: (String): Unique storage identifier with
the vendor extension appended
:wwn_vendor_extension: (String): United vendor storage identifier
:rotational: (Boolean) Whether it's a rotational device or
not. Useful to distinguish HDDs (rotational) and SSDs
(not rotational).
:hctl: (String): The SCSI address: Host, channel, target and lun.
For example: '1:0:0:0'.
:by_path: (String): The alternative device name,
e.g. /dev/disk/by-path/pci-0000:00
:param root_device_hints: A dictionary with the root device hints.
:raises: ValueError, if some information is invalid.
:returns: A generator with all matching devices as dictionaries.
"""
LOG.debug('Trying to find devices from "%(devs)s" that match the '
'device hints "%(hints)s"',
{'devs': ', '.join([d.get('name') for d in devices]),
'hints': root_device_hints})
parsed_hints = parse_root_device_hints(root_device_hints)
for dev in devices:
device_name = dev.get('name')
for hint in parsed_hints:
hint_type = VALID_ROOT_DEVICE_HINTS[hint]
device_value = dev.get(hint)
hint_value = parsed_hints[hint]
if hint_type is str:
try:
device_value = _normalize_hint_expression(device_value,
hint)
except ValueError:
LOG.warning(
'The attribute "%(attr)s" of the device "%(dev)s" '
'has an empty value. Skipping device.',
{'attr': hint, 'dev': device_name})
break
if hint == 'size':
# Since we don't support units yet we expect the size
# in GiB for now
device_value = device_value / units.Gi
LOG.debug('Trying to match the device hint "%(hint)s" '
'with a value of "%(hint_value)s" against the same '
'device\'s (%(dev)s) attribute with a value of '
'"%(dev_value)s"', {'hint': hint, 'dev': device_name,
'hint_value': hint_value,
'dev_value': device_value})
# NOTE(lucasagomes): Boolean hints are not supported by
# specs_matcher.match(), so we need to do the comparison
# ourselves
if hint_type is bool:
try:
device_value = strutils.bool_from_string(device_value,
strict=True)
except ValueError:
LOG.warning('The attribute "%(attr)s" (with value '
'"%(value)s") of device "%(dev)s" is not '
'a valid Boolean. Skipping device.',
{'attr': hint, 'value': device_value,
'dev': device_name})
break
if device_value == hint_value:
continue
elif specs_matcher.match(device_value, hint_value):
continue
LOG.debug('The attribute "%(attr)s" (with value "%(value)s") '
'of device "%(dev)s" does not match the hint %(hint)s',
{'attr': hint, 'value': device_value,
'dev': device_name, 'hint': hint_value})
break
else:
yield dev
[docs]def match_root_device_hints(devices, root_device_hints):
"""Try to find a device that matches the root device hints.
Try to find a device that matches the root device hints. In order
for a device to be matched it needs to satisfy all the given hints.
:param devices: A list of dictionaries representing the devices
containing one or more of the following keys:
:name: (String) The device name, e.g /dev/sda
:size: (Integer) Size of the device in *bytes*
:model: (String) Device model
:vendor: (String) Device vendor name
:serial: (String) Device serial number
:wwn: (String) Unique storage identifier
:wwn_with_extension: (String): Unique storage identifier with
the vendor extension appended
:wwn_vendor_extension: (String): United vendor storage identifier
:rotational: (Boolean) Whether it's a rotational device or
not. Useful to distinguish HDDs (rotational) and SSDs
(not rotational).
:hctl: (String): The SCSI address: Host, channel, target and lun.
For example: '1:0:0:0'.
:by_path: (String): The alternative device name,
e.g. /dev/disk/by-path/pci-0000:00
:param root_device_hints: A dictionary with the root device hints.
:raises: ValueError, if some information is invalid.
:returns: The first device to match all the hints or None.
"""
try:
dev = next(find_devices_by_hints(devices, root_device_hints))
except StopIteration:
LOG.warning('No device found that matches the root device hints %s',
root_device_hints)
else:
LOG.info('Root device found! The device "%s" matches the root '
'device hints %s', dev, root_device_hints)
return dev
[docs]def wait_for_disk_to_become_available(device):
"""Wait for a disk device to become available.
Waits for a disk device to become available for use by
waiting until all process locks on the device have been
released.
Timeout and iteration settings come from the configuration
options used by the in-library disk_partitioner:
``check_device_interval`` and ``check_device_max_retries``.
:params device: The path to the device.
:raises: IronicException If the disk fails to become
available.
"""
pids = ['']
stderr = ['']
interval = CONF.disk_partitioner.check_device_interval
max_retries = CONF.disk_partitioner.check_device_max_retries
def _wait_for_disk():
# A regex is likely overkill here, but variations in fuser
# means we should likely use it.
fuser_pids_re = re.compile(r'\d+')
# There are 'psmisc' and 'busybox' versions of the 'fuser' program. The
# 'fuser' programs differ in how they output data to stderr. The
# busybox version does not output the filename to stderr, while the
# standard 'psmisc' version does output the filename to stderr. How
# they output to stdout is almost identical in that only the PIDs are
# output to stdout, with the 'psmisc' version adding a leading space
# character to the list of PIDs.
try:
# NOTE(ifarkas): fuser returns a non-zero return code if none of
# the specified files is accessed.
# NOTE(TheJulia): fuser does not report LVM devices as in use
# unless the LVM device-mapper device is the
# device that is directly polled.
# NOTE(TheJulia): The -m flag allows fuser to reveal data about
# mounted filesystems, which should be considered
# busy/locked. That being said, it is not used
# because busybox fuser has a different behavior.
# NOTE(TheJuia): fuser outputs a list of found PIDs to stdout.
# All other text is returned via stderr, and the
# output to a terminal is merged as a result.
out, err = execute('fuser', device, check_exit_code=[0, 1],
run_as_root=True)
if not out and not err:
return True
stderr[0] = err
# NOTE: findall() returns a list of matches, or an empty list if no
# matches
pids[0] = fuser_pids_re.findall(out)
except processutils.ProcessExecutionError as exc:
LOG.warning('Failed to check the device %(device)s with fuser:'
' %(err)s', {'device': device, 'err': exc})
return False
retry = tenacity.retry(
retry=tenacity.retry_if_result(lambda r: not r),
stop=tenacity.stop_after_attempt(max_retries),
wait=tenacity.wait_fixed(interval),
reraise=True)
try:
retry(_wait_for_disk)()
except tenacity.RetryError:
if pids[0]:
raise exception.IronicException(
_('Processes with the following PIDs are holding '
'device %(device)s: %(pids)s. '
'Timed out waiting for completion.')
% {'device': device, 'pids': ', '.join(pids[0])})
else:
raise exception.IronicException(
_('Fuser exited with "%(fuser_err)s" while checking '
'locks for device %(device)s. Timed out waiting for '
'completion.')
% {'device': device, 'fuser_err': stderr[0]})
[docs]def get_route_source(dest, ignore_link_local=True):
"""Get the IP address to send packages to destination."""
try:
out, _err = execute('ip', 'route', 'get', dest)
except (EnvironmentError, processutils.ProcessExecutionError) as e:
LOG.warning('Cannot get route to host %(dest)s: %(err)s',
{'dest': dest, 'err': e})
return
try:
source = out.strip().split('\n')[0].split('src')[1].split()[0]
if (ipaddress.ip_address(source).is_link_local
and ignore_link_local):
LOG.debug('Ignoring link-local source to %(dest)s: %(rec)s',
{'dest': dest, 'rec': out})
return
return source
except (IndexError, ValueError):
LOG.debug('No route to host %(dest)s, route record: %(rec)s',
{'dest': dest, 'rec': out})
[docs]@contextlib.contextmanager
def mounted(source, dest=None, opts=None, fs_type=None,
mount_attempts=1, umount_attempts=3):
"""A context manager for a temporary mount.
:param source: A device to mount.
:param dest: Mount destination. If not specified, a temporary directory
will be created and removed afterwards. An existing destination is
not removed.
:param opts: Mount options (``-o`` argument).
:param fs_type: File system type (``-t`` argument).
:param mount_attempts: A number of attempts to mount the device.
:param umount_attempts: A number of attempts to unmount the device.
:returns: A generator yielding the destination.
"""
params = []
if opts:
params.extend(['-o', ','.join(opts)])
if fs_type:
params.extend(['-t', fs_type])
if dest is None:
dest = tempfile.mkdtemp()
clean_up = True
else:
clean_up = False
mounted = False
try:
execute("mount", source, dest, *params, run_as_root=True,
attempts=mount_attempts, delay_on_retry=True)
mounted = True
yield dest
finally:
if mounted:
try:
execute("umount", dest, run_as_root=True,
attempts=umount_attempts, delay_on_retry=True)
except (EnvironmentError,
processutils.ProcessExecutionError) as exc:
LOG.warning(
'Unable to unmount temporary location %(dest)s: %(err)s',
{'dest': dest, 'err': exc})
# NOTE(dtantsur): don't try to remove a still mounted location
clean_up = False
if clean_up:
try:
shutil.rmtree(dest)
except EnvironmentError as exc:
LOG.warning(
'Unable to remove temporary location %(dest)s: %(err)s',
{'dest': dest, 'err': exc})