Source code for ironic_python_agent.hardware

# Copyright 2013 Rackspace, Inc.
#
# 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.

import abc
import binascii
import functools
import os
import shlex
import time

from ironic_lib import disk_utils
from ironic_lib import utils as il_utils
from oslo_concurrency import processutils
from oslo_config import cfg
from oslo_log import log
import pint
import psutil
import pyudev
import six
import stevedore

from ironic_python_agent import encoding
from ironic_python_agent import errors
from ironic_python_agent import netutils
from ironic_python_agent import utils

_global_managers = None
LOG = log.getLogger()
CONF = cfg.CONF

WARN_BIOSDEVNAME_NOT_FOUND = False

UNIT_CONVERTER = pint.UnitRegistry(filename=None)
UNIT_CONVERTER.define('MB = []')
UNIT_CONVERTER.define('GB = 1024 MB')

NODE = None


def _get_device_info(dev, devclass, field):
    """Get the device info according to device class and field."""
    try:
        devname = os.path.basename(dev)
        with open('/sys/class/%s/%s/device/%s' % (devclass, devname, field),
                  'r') as f:
            return f.read().strip()
    except IOError:
        LOG.warning(
            "Can't find field {} for device {} in device class {}".format(
                field, dev, devclass))


def _udev_settle():
    """Wait for the udev event queue to settle.

    Wait for the udev event queue to settle to make sure all devices
    are detected once the machine boots up.

    """
    try:
        utils.execute('udevadm', 'settle')
    except processutils.ProcessExecutionError as e:
        LOG.warning('Something went wrong when waiting for udev '
                    'to settle. Error: %s', e)
        return


def _check_for_iscsi():
    """Connect iSCSI shared connected via iBFT or OF.

    iscsistart -f will print the iBFT or OF info.
    In case such connection exists, we would like to issue
    iscsistart -b to create a session to the target.
    - If no connection is detected we simply return.
    """
    try:
        utils.execute('iscsistart', '-f')
    except (processutils.ProcessExecutionError, EnvironmentError) as e:
        LOG.debug("No iscsi connection detected. Skipping iscsi. "
                  "Error: %s", e)
        return
    try:
        utils.execute('iscsistart', '-b')
    except processutils.ProcessExecutionError as e:
        LOG.warning("Something went wrong executing 'iscsistart -b' "
                    "Error: %s", e)


def list_all_block_devices(block_type='disk'):
    """List all physical block devices

    The switches we use for lsblk: P for KEY="value" output, b for size output
    in bytes, d to exclude dependent devices (like md or dm devices), i to
    ensure ascii characters only, and o to specify the fields/columns we need.

    Broken out as its own function to facilitate custom hardware managers that
    don't need to subclass GenericHardwareManager.

    :param block_type: Type of block device to find
    :return: A list of BlockDevices
    """
    _udev_settle()

    columns = ['KNAME', 'MODEL', 'SIZE', 'ROTA', 'TYPE']
    report = utils.execute('lsblk', '-Pbdi', '-o{}'.format(','.join(columns)),
                           check_exit_code=[0])[0]
    lines = report.split('\n')
    context = pyudev.Context()

    devices = []
    for line in lines:
        device = {}
        # Split into KEY=VAL pairs
        vals = shlex.split(line)
        for key, val in (v.split('=', 1) for v in vals):
            device[key] = val.strip()
        # Ignore block types not specified
        if device.get('TYPE') != block_type:
            LOG.debug(
                "TYPE did not match. Wanted: {!r} but found: {!r}".format(
                    block_type, line))
            continue

        # Ensure all required columns are at least present, even if blank
        missing = set(columns) - set(device)
        if missing:
            raise errors.BlockDeviceError(
                '%s must be returned by lsblk.' % ', '.join(sorted(missing)))

        name = '/dev/' + device['KNAME']
        try:
            udev = pyudev.Device.from_device_file(context, name)
        # pyudev started raising another error in 0.18
        except (ValueError, EnvironmentError, pyudev.DeviceNotFoundError) as e:
            LOG.warning("Device %(dev)s is inaccessible, skipping... "
                        "Error: %(error)s", {'dev': name, 'error': e})
            extra = {}
        else:
            # TODO(lucasagomes): Since lsblk only supports
            # returning the short serial we are using
            # ID_SERIAL_SHORT here to keep compatibility with the
            # bash deploy ramdisk
            extra = {key: udev.get('ID_%s' % udev_key) for key, udev_key in
                     [('wwn', 'WWN'), ('serial', 'SERIAL_SHORT'),
                      ('wwn_with_extension', 'WWN_WITH_EXTENSION'),
                      ('wwn_vendor_extension', 'WWN_VENDOR_EXTENSION')]}

        # NOTE(lucasagomes): Newer versions of the lsblk tool supports
        # HCTL as a parameter but let's get it from sysfs to avoid breaking
        # old distros.
        try:
            extra['hctl'] = os.listdir(
                '/sys/block/%s/device/scsi_device' % device['KNAME'])[0]
        except (OSError, IndexError):
            LOG.warning('Could not find the SCSI address (HCTL) for '
                        'device %s. Skipping', name)

        devices.append(BlockDevice(name=name,
                                   model=device['MODEL'],
                                   size=int(device['SIZE']),
                                   rotational=bool(int(device['ROTA'])),
                                   vendor=_get_device_info(device['KNAME'],
                                                           'block', 'vendor'),
                                   **extra))
    return devices


[docs]class HardwareSupport(object): """Example priorities for hardware managers. Priorities for HardwareManagers are integers, where largest means most specific and smallest means most generic. These values are guidelines that suggest values that might be returned by calls to `evaluate_hardware_support()`. No HardwareManager in mainline IPA will ever return a value greater than MAINLINE. Third party hardware managers should feel free to return values of SERVICE_PROVIDER or greater to distinguish between additional levels of hardware support. """ NONE = 0 GENERIC = 1 MAINLINE = 2 SERVICE_PROVIDER = 3
[docs]class HardwareType(object): MAC_ADDRESS = 'mac_address'
[docs]class BlockDevice(encoding.SerializableComparable): serializable_fields = ('name', 'model', 'size', 'rotational', 'wwn', 'serial', 'vendor', 'wwn_with_extension', 'wwn_vendor_extension', 'hctl') def __init__(self, name, model, size, rotational, wwn=None, serial=None, vendor=None, wwn_with_extension=None, wwn_vendor_extension=None, hctl=None): self.name = name self.model = model self.size = size self.rotational = rotational self.wwn = wwn self.serial = serial self.vendor = vendor self.wwn_with_extension = wwn_with_extension self.wwn_vendor_extension = wwn_vendor_extension self.hctl = hctl
[docs]class NetworkInterface(encoding.SerializableComparable): serializable_fields = ('name', 'mac_address', 'ipv4_address', 'has_carrier', 'lldp', 'vendor', 'product', 'client_id', 'biosdevname') def __init__(self, name, mac_addr, ipv4_address=None, has_carrier=True, lldp=None, vendor=None, product=None, client_id=None, biosdevname=None): self.name = name self.mac_address = mac_addr self.ipv4_address = ipv4_address self.has_carrier = has_carrier self.lldp = lldp self.vendor = vendor self.product = product self.biosdevname = biosdevname # client_id is used for InfiniBand only. we calculate the DHCP # client identifier Option to allow DHCP to work over InfiniBand. # see https://tools.ietf.org/html/rfc4390 self.client_id = client_id
[docs]class CPU(encoding.SerializableComparable): serializable_fields = ('model_name', 'frequency', 'count', 'architecture', 'flags') def __init__(self, model_name, frequency, count, architecture, flags=None): self.model_name = model_name self.frequency = frequency self.count = count self.architecture = architecture self.flags = flags or []
[docs]class Memory(encoding.SerializableComparable): serializable_fields = ('total', 'physical_mb') # physical = total + kernel binary + reserved space def __init__(self, total, physical_mb=None): self.total = total self.physical_mb = physical_mb
[docs]class SystemVendorInfo(encoding.SerializableComparable): serializable_fields = ('product_name', 'serial_number', 'manufacturer') def __init__(self, product_name, serial_number, manufacturer): self.product_name = product_name self.serial_number = serial_number self.manufacturer = manufacturer
[docs]class BootInfo(encoding.SerializableComparable): serializable_fields = ('current_boot_mode', 'pxe_interface') def __init__(self, current_boot_mode, pxe_interface=None): self.current_boot_mode = current_boot_mode self.pxe_interface = pxe_interface
[docs]@six.add_metaclass(abc.ABCMeta) class HardwareManager(object):
[docs] @abc.abstractmethod def evaluate_hardware_support(self): pass
[docs] def list_network_interfaces(self): raise errors.IncompatibleHardwareMethodError
[docs] def get_cpus(self): raise errors.IncompatibleHardwareMethodError
[docs] def list_block_devices(self): raise errors.IncompatibleHardwareMethodError
[docs] def get_memory(self): raise errors.IncompatibleHardwareMethodError
[docs] def get_os_install_device(self): raise errors.IncompatibleHardwareMethodError
[docs] def get_bmc_address(self): raise errors.IncompatibleHardwareMethodError()
[docs] def get_boot_info(self): raise errors.IncompatibleHardwareMethodError()
[docs] def get_interface_info(self, interface_name): raise errors.IncompatibleHardwareMethodError()
[docs] def erase_block_device(self, node, block_device): """Attempt to erase a block device. Implementations should detect the type of device and erase it in the most appropriate way possible. Generic implementations should support common erase mechanisms such as ATA secure erase, or multi-pass random writes. Operators with more specific needs should override this method in order to detect and handle "interesting" cases, or delegate to the parent class to handle generic cases. For example: operators running ACME MagicStore (TM) cards alongside standard SSDs might check whether the device is a MagicStore and use a proprietary tool to erase that, otherwise call this method on their parent class. Upstream submissions of common functionality are encouraged. :param node: Ironic node object :param block_device: a BlockDevice indicating a device to be erased. :raises IncompatibleHardwareMethodError: when there is no known way to erase the block device :raises BlockDeviceEraseError: when there is an error erasing the block device """ raise errors.IncompatibleHardwareMethodError
[docs] def erase_devices(self, node, ports): """Erase any device that holds user data. By default this will attempt to erase block devices. This method can be overridden in an implementation-specific hardware manager in order to erase additional hardware, although backwards-compatible upstream submissions are encouraged. :param node: Ironic node object :param ports: list of Ironic port objects :return: a dictionary in the form {device.name: erasure output} """ erase_results = {} block_devices = self.list_block_devices() for block_device in block_devices: result = dispatch_to_managers( 'erase_block_device', node=node, block_device=block_device) erase_results[block_device.name] = result return erase_results
[docs] def list_hardware_info(self): """Return full hardware inventory as a serializable dict. This inventory is sent to Ironic on lookup and to Inspector on inspection. :return: a dictionary representing inventory """ # NOTE(dtantsur): don't forget to update docs when extending inventory hardware_info = {} hardware_info['interfaces'] = self.list_network_interfaces() hardware_info['cpu'] = self.get_cpus() hardware_info['disks'] = self.list_block_devices() hardware_info['memory'] = self.get_memory() hardware_info['bmc_address'] = self.get_bmc_address() hardware_info['system_vendor'] = self.get_system_vendor_info() hardware_info['boot'] = self.get_boot_info() return hardware_info
[docs] def get_clean_steps(self, node, ports): """Get a list of clean steps with priority. Returns a list of steps. Each step is represented by a dict:: { 'step': the HardwareManager function to call. 'priority': the order steps will be run in. Ironic will sort all the clean steps from all the drivers, with the largest priority step being run first. If priority is set to 0, the step will not be run during cleaning, but may be run during zapping. 'reboot_requested': Whether the agent should request Ironic reboots the node via the power driver after the operation completes. 'abortable': Boolean value. Whether the clean step can be stopped by the operator or not. Some clean step may cause non-reversible damage to a machine if interrupted (i.e firmware update), for such steps this parameter should be set to False. If no value is set for this parameter, Ironic will consider False (non-abortable). } If multiple hardware managers return the same step name, the following logic will be used to determine which manager's step "wins": * Keep the step that belongs to HardwareManager with highest HardwareSupport (larger int) value. * If equal support level, keep the step with the higher defined priority (larger int). * If equal support level and priority, keep the step associated with the HardwareManager whose name comes earlier in the alphabet. The steps will be called using `hardware.dispatch_to_managers` and handled by the best suited hardware manager. If you need a step to be executed by only your hardware manager, ensure it has a unique step name. `node` and `ports` can be used by other hardware managers to further determine if a clean step is supported for the node. :param node: Ironic node object :param ports: list of Ironic port objects :return: a list of cleaning steps, where each step is described as a dict as defined above """ return []
[docs] def get_version(self): """Get a name and version for this hardware manager. In order to avoid errors and make agent upgrades painless, cleaning will check the version of all hardware managers during get_clean_steps at the beginning of cleaning and before executing each step in the agent. The agent isn't aware of the steps being taken before or after via out of band steps, so it can never know if a new step is safe to run. Therefore, we default to restarting the whole process. :returns: a dictionary with two keys: `name` and `version`, where `name` is a string identifying the hardware manager and `version` is an arbitrary version string. `name` will be a class variable called HARDWARE_MANAGER_NAME, or default to the class name and `version` will be a class variable called HARDWARE_MANAGER_VERSION or default to '1.0'. """ return { 'name': getattr(self, 'HARDWARE_MANAGER_NAME', type(self).__name__), 'version': getattr(self, 'HARDWARE_MANAGER_VERSION', '1.0') }
[docs]class GenericHardwareManager(HardwareManager): HARDWARE_MANAGER_NAME = 'generic_hardware_manager' # 1.1 - Added new clean step called erase_devices_metadata HARDWARE_MANAGER_VERSION = '1.1' def __init__(self): self.sys_path = '/sys' self.lldp_data = {}
[docs] def evaluate_hardware_support(self): # Do some initialization before we declare ourself ready _check_for_iscsi() self._wait_for_disks() return HardwareSupport.GENERIC
def _wait_for_disks(self): """Wait for disk to appear Wait for at least one suitable disk to show up, otherwise neither inspection not deployment have any chances to succeed. """ for attempt in range(CONF.disk_wait_attempts): try: block_devices = self.list_block_devices() utils.guess_root_disk(block_devices) except errors.DeviceNotFound: LOG.debug('Still waiting for at least one disk to appear, ' 'attempt %d of %d', attempt + 1, CONF.disk_wait_attempts) time.sleep(CONF.disk_wait_delay) else: break else: LOG.warning('No disks detected in %d seconds', CONF.disk_wait_delay * CONF.disk_wait_attempts)
[docs] def collect_lldp_data(self, interface_names): """Collect and convert LLDP info from the node. In order to process the LLDP information later, the raw data needs to be converted for serialization purposes. :param interface_names: list of names of node's interfaces. :return: a dict, containing the lldp data from every interface. """ interface_names = [name for name in interface_names if name != 'lo'] lldp_data = {} try: raw_lldp_data = netutils.get_lldp_info(interface_names) except Exception: # NOTE(sambetts) The get_lldp_info function will log this exception # and we don't invalidate any existing data in the cache if we fail # to get data to replace it so just return. return lldp_data for ifname, tlvs in raw_lldp_data.items(): # NOTE(sambetts) Convert each type-length-value (TLV) value to hex # so that it can be serialised safely processed_tlvs = [] for typ, data in tlvs: try: processed_tlvs.append((typ, binascii.hexlify(data).decode())) except (binascii.Error, binascii.Incomplete) as e: LOG.warning('An error occurred while processing TLV type ' '%s for interface %s: %s', (typ, ifname, e)) lldp_data[ifname] = processed_tlvs return lldp_data
def _get_lldp_data(self, interface_name): if self.lldp_data: return self.lldp_data.get(interface_name)
[docs] def get_interface_info(self, interface_name): addr_path = '{}/class/net/{}/address'.format(self.sys_path, interface_name) with open(addr_path) as addr_file: mac_addr = addr_file.read().strip() return NetworkInterface( interface_name, mac_addr, ipv4_address=self.get_ipv4_addr(interface_name), has_carrier=netutils.interface_has_carrier(interface_name), vendor=_get_device_info(interface_name, 'net', 'vendor'), product=_get_device_info(interface_name, 'net', 'device'), biosdevname=self.get_bios_given_nic_name(interface_name))
[docs] def get_ipv4_addr(self, interface_id): return netutils.get_ipv4_addr(interface_id)
[docs] def get_bios_given_nic_name(self, interface_name): """Collect the BIOS given NICs name. This function uses the biosdevname utility to collect the BIOS given name of network interfaces. The collected data is added to the network interface inventory with an extra field named ``biosdevname``. :param interface_name: list of names of node's interfaces. :return: the BIOS given NIC name of node's interfaces or default as None. """ global WARN_BIOSDEVNAME_NOT_FOUND try: stdout, _ = utils.execute('biosdevname', '-i', interface_name) return stdout.rstrip('\n') except OSError: if not WARN_BIOSDEVNAME_NOT_FOUND: LOG.warning("Executable 'biosdevname' not found") WARN_BIOSDEVNAME_NOT_FOUND = True except processutils.ProcessExecutionError as e: # NOTE(alezil) biosdevname returns 4 if running in a # virtual machine. if e.exit_code == 4: LOG.info('The system is a virtual machine, so biosdevname ' 'utility does not provide names for virtual NICs.') else: LOG.warning('Biosdevname returned exit code %s', e.exit_code)
def _is_device(self, interface_name): device_path = '{}/class/net/{}/device'.format(self.sys_path, interface_name) return os.path.exists(device_path)
[docs] def list_network_interfaces(self): network_interfaces_list = [] iface_names = os.listdir('{}/class/net'.format(self.sys_path)) iface_names = [name for name in iface_names if self._is_device(name)] if CONF.collect_lldp: self.lldp_data = dispatch_to_managers('collect_lldp_data', interface_names=iface_names) for iface_name in iface_names: result = dispatch_to_managers( 'get_interface_info', interface_name=iface_name) result.lldp = self._get_lldp_data(iface_name) network_interfaces_list.append(result) return network_interfaces_list
[docs] def get_cpus(self): lines = utils.execute('lscpu')[0] cpu_info = {k.strip().lower(): v.strip() for k, v in (line.split(':', 1) for line in lines.split('\n') if line.strip())} # Current CPU frequency can be different from maximum one on modern # processors freq = cpu_info.get('cpu max mhz', cpu_info.get('cpu mhz')) flags = [] out = utils.try_execute('grep', '-Em1', '^flags', '/proc/cpuinfo') if out: try: # Example output (much longer for a real system): # flags : fpu vme de pse flags = out[0].strip().split(':', 1)[1].strip().split() except (IndexError, ValueError): LOG.warning('Malformed CPU flags information: %s', out) else: LOG.warning('Failed to get CPU flags') return CPU(model_name=cpu_info.get('model name'), frequency=freq, # this includes hyperthreading cores count=int(cpu_info.get('cpu(s)')), architecture=cpu_info.get('architecture'), flags=flags)
[docs] def get_memory(self): # psutil returns a long, so we force it to an int try: total = int(psutil.virtual_memory().total) except Exception: # This is explicitly catching all exceptions. We want to catch any # situation where a newly upgraded psutil would fail, and instead # print an error instead of blowing up the stack on IPA. total = None LOG.exception(("Cannot fetch total memory size using psutil " "version %s"), psutil.version_info[0]) try: out, _e = utils.execute("dmidecode --type 17 | grep Size", shell=True) except (processutils.ProcessExecutionError, OSError) as e: LOG.warning("Cannot get real physical memory size: %s", e) physical = None else: physical = 0 for line in out.strip().split('\n'): line = line.strip() if not line: continue if 'Size:' not in line: continue value = None try: value = line.split('Size: ', 1)[1] physical += int(UNIT_CONVERTER(value).to_base_units()) except Exception as exc: if (value == "No Module Installed" or value == "Not Installed"): LOG.debug('One memory slot is empty') else: LOG.error('Cannot parse size expression %s: %s', line, exc) if not physical: LOG.warning('failed to get real physical RAM, dmidecode ' 'returned %s', out) return Memory(total=total, physical_mb=physical)
[docs] def list_block_devices(self): return list_all_block_devices()
[docs] def get_os_install_device(self): cached_node = get_cached_node() root_device_hints = None if cached_node is not None: root_device_hints = cached_node['properties'].get('root_device') block_devices = self.list_block_devices() if not root_device_hints: return utils.guess_root_disk(block_devices).name else: serialized_devs = [dev.serialize() for dev in block_devices] try: device = il_utils.match_root_device_hints(serialized_devs, root_device_hints) except ValueError as e: # NOTE(lucasagomes): Just playing on the safe side # here, this exception should never be raised because # Ironic should validate the root device hints before the # deployment starts. raise errors.DeviceNotFound( 'No devices could be found using the root device hints ' '%(hints)s because they failed to validate. Error: ' '%(error)s' % {'hints': root_device_hints, 'error': e}) if not device: raise errors.DeviceNotFound( "No suitable device was found for " "deployment using these hints %s" % root_device_hints) return device['name']
[docs] def get_system_vendor_info(self): product_name = None serial_number = None manufacturer = None try: out, _e = utils.execute("dmidecode --type system", shell=True) except (processutils.ProcessExecutionError, OSError) as e: LOG.warning("Cannot get system vendor information: %s", e) else: for line in out.split('\n'): line_arr = line.split(':', 1) if len(line_arr) != 2: continue if line_arr[0].strip() == 'Product Name': product_name = line_arr[1].strip() elif line_arr[0].strip() == 'Serial Number': serial_number = line_arr[1].strip() elif line_arr[0].strip() == 'Manufacturer': manufacturer = line_arr[1].strip() return SystemVendorInfo(product_name=product_name, serial_number=serial_number, manufacturer=manufacturer)
[docs] def get_boot_info(self): boot_mode = 'uefi' if os.path.isdir('/sys/firmware/efi') else 'bios' LOG.debug('The current boot mode is %s', boot_mode) pxe_interface = utils.get_agent_params().get('BOOTIF') return BootInfo(current_boot_mode=boot_mode, pxe_interface=pxe_interface)
[docs] def erase_block_device(self, node, block_device): # Check if the block device is virtual media and skip the device. if self._is_virtual_media_device(block_device): LOG.info("Skipping the erase of virtual media device %s", block_device.name) return # Note(TheJulia) Use try/except to capture and log the failure # and then revert to attempting to shred the volume if enabled. try: if self._ata_erase(block_device): return except errors.BlockDeviceEraseError as e: info = node.get('driver_internal_info', {}) execute_shred = info.get( 'agent_continue_if_ata_erase_failed', False) if execute_shred: LOG.warning('Failed to invoke ata_erase, ' 'falling back to shred: %(err)s', {'err': e}) else: msg = ('Failed to invoke ata_erase, ' 'fallback to shred is not enabled: %(err)s' % {'err': e}) LOG.error(msg) raise errors.IncompatibleHardwareMethodError(msg) if self._shred_block_device(node, block_device): return msg = ('Unable to erase block device {}: device is unsupported.' ).format(block_device.name) LOG.error(msg) raise errors.IncompatibleHardwareMethodError(msg)
[docs] def erase_devices_metadata(self, node, ports): """Attempt to erase the disk devices metadata. :param node: Ironic node object :param ports: list of Ironic port objects :raises BlockDeviceEraseError: when there's an error erasing the block device """ block_devices = self.list_block_devices() erase_errors = {} for dev in block_devices: if self._is_virtual_media_device(dev): LOG.info("Skipping the erase of virtual media device %s", dev.name) continue try: disk_utils.destroy_disk_metadata(dev.name, node['uuid']) except processutils.ProcessExecutionError as e: LOG.error('Failed to erase the metadata on device "%(dev)s". ' 'Error: %(error)s', {'dev': dev.name, 'error': e}) erase_errors[dev.name] = e if erase_errors: excpt_msg = ('Failed to erase the metadata on the device(s): %s' % '; '.join(['"%s": %s' % (k, v) for k, v in erase_errors.items()])) raise errors.BlockDeviceEraseError(excpt_msg)
def _shred_block_device(self, node, block_device): """Erase a block device using shred. :param node: Ironic node info. :param block_device: a BlockDevice object to be erased :returns: True if the erase succeeds, False if it fails for any reason """ info = node.get('driver_internal_info', {}) npasses = info.get('agent_erase_devices_iterations', 1) args = ('shred', '--force') if info.get('agent_erase_devices_zeroize', True): args += ('--zero', ) args += ('--verbose', '--iterations', str(npasses), block_device.name) try: utils.execute(*args) except (processutils.ProcessExecutionError, OSError) as e: msg = ("Erasing block device %(dev)s failed with error %(err)s ", {'dev': block_device.name, 'err': e}) LOG.error(msg) return False return True def _is_virtual_media_device(self, block_device): """Check if the block device corresponds to Virtual Media device. :param block_device: a BlockDevice object :returns: True if it's a virtual media device, else False """ vm_device_label = '/dev/disk/by-label/ir-vfd-dev' if os.path.exists(vm_device_label): link = os.readlink(vm_device_label) device = os.path.normpath(os.path.join(os.path.dirname( vm_device_label), link)) if block_device.name == device: return True return False def _get_ata_security_lines(self, block_device): output = utils.execute('hdparm', '-I', block_device.name)[0] if '\nSecurity: ' not in output: return [] # Get all lines after the 'Security: ' line security_and_beyond = output.split('\nSecurity: \n')[1] security_and_beyond_lines = security_and_beyond.split('\n') security_lines = [] for line in security_and_beyond_lines: if line.startswith('\t'): security_lines.append(line.strip().replace('\t', ' ')) else: break return security_lines def _ata_erase(self, block_device): security_lines = self._get_ata_security_lines(block_device) # If secure erase isn't supported return False so erase_block_device # can try another mechanism. Below here, if secure erase is supported # but fails in some way, error out (operators of hardware that supports # secure erase presumably expect this to work). if 'supported' not in security_lines: return False if 'enabled' in security_lines: # Attempt to unlock the drive in the event it has already been # locked by a previous failed attempt. try: utils.execute('hdparm', '--user-master', 'u', '--security-unlock', 'NULL', block_device.name) security_lines = self._get_ata_security_lines(block_device) except processutils.ProcessExecutionError as e: raise errors.BlockDeviceEraseError('Security password set ' 'failed for device ' '%(name)s: %(err)s' % {'name': block_device.name, 'err': e}) if 'enabled' in security_lines: raise errors.BlockDeviceEraseError( ('Block device {} already has a security password set' ).format(block_device.name)) if 'not frozen' not in security_lines: raise errors.BlockDeviceEraseError( ('Block device {} is frozen and cannot be erased' ).format(block_device.name)) try: utils.execute('hdparm', '--user-master', 'u', '--security-set-pass', 'NULL', block_device.name) except processutils.ProcessExecutionError as e: raise errors.BlockDeviceEraseError('Security password set ' 'failed for device ' '%(name)s: %(err)s' % {'name': block_device.name, 'err': e}) # Use the 'enhanced' security erase option if it's supported. erase_option = '--security-erase' if 'not supported: enhanced erase' not in security_lines: erase_option += '-enhanced' try: utils.execute('hdparm', '--user-master', 'u', erase_option, 'NULL', block_device.name) except processutils.ProcessExecutionError as e: raise errors.BlockDeviceEraseError('Erase failed for device ' '%(name)s: %(err)s' % {'name': block_device.name, 'err': e}) # Verify that security is now 'not enabled' security_lines = self._get_ata_security_lines(block_device) if 'not enabled' not in security_lines: raise errors.BlockDeviceEraseError( ('An unknown error occurred erasing block device {}' ).format(block_device.name)) return True
[docs] def get_bmc_address(self): # These modules are rarely loaded automatically utils.try_execute('modprobe', 'ipmi_msghandler') utils.try_execute('modprobe', 'ipmi_devintf') utils.try_execute('modprobe', 'ipmi_si') try: out, _e = utils.execute( "ipmitool lan print | grep -e 'IP Address [^S]' " "| awk '{ print $4 }'", shell=True) except (processutils.ProcessExecutionError, OSError) as e: # Not error, because it's normal in virtual environment LOG.warning("Cannot get BMC address: %s", e) return return out.strip()
[docs] def get_clean_steps(self, node, ports): return [ { 'step': 'erase_devices', 'priority': 10, 'interface': 'deploy', 'reboot_requested': False, 'abortable': True }, { 'step': 'erase_devices_metadata', 'priority': 99, 'interface': 'deploy', 'reboot_requested': False, 'abortable': True } ]
def _compare_extensions(ext1, ext2): mgr1 = ext1.obj mgr2 = ext2.obj return mgr2.evaluate_hardware_support() - mgr1.evaluate_hardware_support() def _get_managers(): """Get a list of hardware managers in priority order. Use stevedore to find all eligible hardware managers, sort them based on self-reported (via evaluate_hardware_support()) priorities, and return them in a list. The resulting list is cached in _global_managers. :returns: Priority-sorted list of hardware managers :raises HardwareManagerNotFound: if no valid hardware managers found """ global _global_managers if not _global_managers: extension_manager = stevedore.ExtensionManager( namespace='ironic_python_agent.hardware_managers', invoke_on_load=True) # There will always be at least one extension available (the # GenericHardwareManager). if six.PY2: extensions = sorted(extension_manager, _compare_extensions) else: extensions = sorted(extension_manager, key=functools.cmp_to_key(_compare_extensions)) preferred_managers = [] for extension in extensions: if extension.obj.evaluate_hardware_support() > 0: preferred_managers.append(extension.obj) LOG.info('Hardware manager found: {}'.format( extension.entry_point_target)) if not preferred_managers: raise errors.HardwareManagerNotFound _global_managers = preferred_managers return _global_managers def dispatch_to_all_managers(method, *args, **kwargs): """Dispatch a method to all hardware managers. Dispatches the given method in priority order as sorted by `_get_managers`. If the method doesn't exist or raises IncompatibleHardwareMethodError, it continues to the next hardware manager. All managers that have hardware support for this node will be called, and their responses will be added to a dictionary of the form {HardwareManagerClassName: response}. :param method: hardware manager method to dispatch :param *args: arguments to dispatched method :param **kwargs: keyword arguments to dispatched method :raises errors.HardwareManagerMethodNotFound: if all managers raise IncompatibleHardwareMethodError. :returns: a dictionary with keys for each hardware manager that returns a response and the value as a list of results from that hardware manager. """ responses = {} managers = _get_managers() for manager in managers: if getattr(manager, method, None): try: response = getattr(manager, method)(*args, **kwargs) except errors.IncompatibleHardwareMethodError: LOG.debug('HardwareManager {} does not support {}' .format(manager, method)) continue except Exception as e: LOG.exception('Unexpected error dispatching %(method)s to ' 'manager %(manager)s: %(e)s', {'method': method, 'manager': manager, 'e': e}) raise responses[manager.__class__.__name__] = response else: LOG.debug('HardwareManager {} does not have method {}' .format(manager, method)) if responses == {}: raise errors.HardwareManagerMethodNotFound(method) return responses def dispatch_to_managers(method, *args, **kwargs): """Dispatch a method to best suited hardware manager. Dispatches the given method in priority order as sorted by `_get_managers`. If the method doesn't exist or raises IncompatibleHardwareMethodError, it is attempted again with a more generic hardware manager. This continues until a method executes that returns any result without raising an IncompatibleHardwareMethodError. :param method: hardware manager method to dispatch :param *args: arguments to dispatched method :param **kwargs: keyword arguments to dispatched method :returns: result of successful dispatch of method :raises HardwareManagerMethodNotFound: if all managers failed the method :raises HardwareManagerNotFound: if no valid hardware managers found """ managers = _get_managers() for manager in managers: if getattr(manager, method, None): try: return getattr(manager, method)(*args, **kwargs) except(errors.IncompatibleHardwareMethodError): LOG.debug('HardwareManager {} does not support {}' .format(manager, method)) except Exception as e: LOG.exception('Unexpected error dispatching %(method)s to ' 'manager %(manager)s: %(e)s', {'method': method, 'manager': manager, 'e': e}) raise else: LOG.debug('HardwareManager {} does not have method {}' .format(manager, method)) raise errors.HardwareManagerMethodNotFound(method) def load_managers(): """Preload hardware managers into the cache. This method is to help warm up the cache for hardware managers when called. Used to resolve bug 1490008, where agents can crash the first time a hardware manager is needed. :raises HardwareManagerNotFound: if no valid hardware managers found """ _get_managers() def cache_node(node): """Store the node object in the hardware module. Stores the node object in the hardware module to facilitate the access of a node information in the hardware extensions. :param node: Ironic node object """ global NODE NODE = node def get_cached_node(): """Guard function around the module variable NODE.""" return NODE