# This file is part of CloudControl. # # CloudControl is free software: you can redistribute it and/or modify # it under the terms of the GNU Lesser General Public License as published by # the Free Software Foundation, either version 3 of the License, or # (at your option) any later version. # # CloudControl is distributed in the hope that it will be useful, # but WITHOUT ANY WARRANTY; without even the implied warranty of # MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the # GNU Lesser General Public License for more details. # # You should have received a copy of the GNU Lesser General Public License # along with CloudControl. If not, see . import io import os import errno import socket import logging from functools import partial from os.path import exists as path_exists from time import sleep from hashlib import md5 from StringIO import StringIO from subprocess import CalledProcessError import sys from xml.etree import ElementTree as et import pyev from cloudcontrol.common.jobs import Job from cloudcontrol.node.exc import TunnelError, DRBDAllocationError, DRBDError from cloudcontrol.node.jobs import BaseIOJob, ForkedJob from cloudcontrol.node.utils import SocketBuffer, subproc_call, Singleton logger = logging.getLogger(__name__) class ImportVolume(BaseIOJob): """Import volume job. """ BUFFER_LEN = 8192 * 16 HASH = md5 def __init__(self, job_manager, volume): BaseIOJob.__init__(self, job_manager) self.checksum = None self.volume = volume # where the other node will connect self.port = None # fds self.sock = None self.client_sock = None self.disk = None @property def open_fds(self): return [fo.fileno() for fo in (self.sock, self.client_sock, self.disk) if fo is not None] def clean_fds(self): if self.sock is not None: self.sock.close() self.sock = None if self.client_sock is not None: self.client_sock.close() self.client_sock = None if self.disk is not None: self.disk.close() self.disk = None def pre_job(self): """ :returns: port number the socket is listening on """ # create socket try: self.sock = socket.socket(socket.AF_INET, socket.SOCK_STREAM) except socket.error: logger.exception('Error while creating socket for volume export') self.clean_fds() raise try: self.sock.settimeout(10.) except socket.error: logger.exception('Cannot set timeout on socket for volume export') self.clean_fds() raise try: self.sock.bind(('0.0.0.0', 0)) except socket.error: logger.exception('Error while binding socket for volume export') self.clean_fds() raise try: self.sock.listen(1) except socket.error: logger.exception('Error while listening on socket') self.clean_fds() raise # open local disk try: self.disk = io.open(self.volume.path, 'wb', 0) except IOError: logger.exception('Error while trying to open local disk') self.clean_fds() raise self.port = self.sock.getsockname()[1] return self.port def run_job(self): try: self.client_sock, _ = self.sock.accept() except socket.timeout: sys.stderr.write('Error for importing job: client did not connect\n') self.clean_fds() raise except socket.error: sys.stderr.write('Error while accepting socket\n') self.clean_fds() raise # close the listening socket self.sock.close() self.sock = None checksum = self.HASH() # start downloading disk image while self.running: try: received = [] # keep a list of received buffers in order to do # only one concatenation in the end total_received = 0 while True: recv_buf = self.client_sock.recv(self.BUFFER_LEN - total_received) # sys.stderr.write('Received %d\n' % len(recv_buf)) if not recv_buf: # EOF # in case received in not empty, we will come back here # once again and it returns EOF one more time break total_received += len(recv_buf) received.append(recv_buf) if total_received == self.BUFFER_LEN: break except socket.error: sys.stderr.write('Error while receiving disk image\n') self.clean_fds() raise buffer_ = b''.join(received) if not buffer_: sys.stderr.write('Received EOF import job\n') break checksum.update(buffer_) try: written = 0 # FIXME never write small chuncks # in which case does disk.write would not write all the buffer ? to_send = buffer_ while True: written += self.disk.write(to_send) # sys.stderr.write('Written %s to disk\n' % written) to_send = buffer(buffer_, written) if not to_send: break except IOError: sys.stderr.write('Error while writing image to disk\n') self.clean_fds() raise # here we could not have received the full disk but we don't consider # this as an error in the import part self.checksum = checksum.hexdigest() # clean the fds self.clean_fds() sys.stderr.write('Volume import done\n') class ExportVolume(BaseIOJob): """Export volume job. """ BUFFER_LEN = 8192 * 16 HASH = md5 def __init__(self, job_manager, volume, raddr, rport): """ :param volume: :class:`Volume` instance :param raddr: remote IP address :param rport: remote TCP port """ BaseIOJob.__init__(self, job_manager) # where to connect to send the volume self.raddr = raddr self.rport = rport self.volume = volume self.checksum = None # fds self.sock = None self.disk = None @property def open_fds(self): return [fo.fileno() for fo in (self.sock, self.disk) if fo is not None] def clean_fds(self): if self.sock is not None: self.sock.close() self.sock = None if self.disk is not None: self.disk.close() self.disk = None def pre_job(self): self.sock = socket.socket(socket.AF_INET, socket.SOCK_STREAM) # connect to the remote host try: self.sock.connect((self.raddr, self.rport)) except socket.error as exc: logger.exception('Error while trying to connect to remote host %s', exc.strerror) self.clean_fds() raise # open local volume try: self.disk = io.open(self.volume.path, 'rb', 0) except IOError: logger.exception('Error while opening disk for export job') self.clean_fds() raise def run_job(self): checksum = self.HASH() # sent_count = 0 # do copy while self.running: try: read = self.disk.read(self.BUFFER_LEN) except IOError: sys.stderr.write('Error while reading from disk\n') self.clean_fds() break # read length may be less than BUFFER_LEN but we don't care as it # will go over TCP if not read: # end of file # sys.stderr.write('EOF, exported %d bytes\n' % sent_count) break # sent_count += len(read) # sys.stderr.write('Read %d from disk\n' % len(read)) checksum.update(read) try: self.sock.sendall(read) except socket.error: sys.stderr.write('Error while sending through socket\n') self.clean_fds() break self.checksum = checksum.hexdigest() self.clean_fds() class TCPTunnel(ForkedJob): """Handles a TCP tunnel.""" BUFFER_LEN = 8096 def __init__(self, job_manager, connect=None, listen='0.0.0.0'): """ :param job_manager: :class:`JobManager` instance :param connect: where to connect one end of the tunnel (a tuple, as given to socket.connect) :param listen: which interface to listen to for the other end of the tunnel """ ForkedJob.__init__(self, job_manager) # create a new libev loop that will run inside our child self.ev_loop = pyev.Loop() self.connect = connect self.listen = listen #: port is assigned by the kernel self.port = None # keep state information for both ends self.listen_state = 'CLOSED' self.connect_state = 'CLOSED' #: very basic error report self.error = None # these are the watchers self.source_reader = None self.source_writer = None self.dest_reader = None self.dest_writer = None #: source_sock is the socket that will listen for remote|local to happen self.source_sock = None #: dest sock connects to an other setuped tunnel self.dest_sock = None # input buffer is used for data that is coming from source_sock and goes # to dest_sock self.input_buffer = SocketBuffer() # output_buffer is usde for data that is coming from dest_sock and goes # to source_sock self.output_buffer = SocketBuffer() @property def open_fds(self): return [fo.fileno() for fo in (self.source_sock, self.dest_sock) if fo is not None] def after_fork(self): self.ev_loop.reset() def close(self): # as this could be called from child, don't use logger (this is for # debug anyway) sys.stderr.write('Closing job %d' % self.id) # stop watchers if self.source_reader is not None: self.source_reader.stop() self.source_reader = None if self.source_writer is not None: self.source_writer.stop() self.source_writer = None if self.dest_reader is not None: self.dest_reader.stop() self.dest_reader = None if self.dest_writer is not None: self.dest_writer.stop() self.dest_writer = None # close sockets if self.source_sock is not None: self.source_sock.close() self.source_sock = None if self.dest_sock is not None: self.dest_sock.close() self.dest_sock = None # clear buffers (this memory won't be needed anyway) self.input_buffer = None self.output_buffer = None # reset states self.listen_state = 'CLOSED' self.connect_state = 'CLOSED' def stop(self): self.close() def setup_listen(self, interface=None): """Setup source socket. :param interface: specify which interface to listen onto """ if interface is not None: self.listening = interface logger.debug('Setup listening %s %d', self.listen, self.id) try: self.source_sock = socket.socket(socket.AF_INET, socket.SOCK_STREAM) except socket.error: logger.exception('Error while creating source_sock for tunnel job' ' %d', self.id) self.close() raise try: self.source_sock.setblocking(0) except socket.error: logger.exception('Cannot set source_sock in blocking mode for' ' tunnel job %d', self.id) self.close() raise try: self.source_sock.bind((self.listen, 0)) except socket.error: logger.exception('Error while binding source_sock for tunnel job' ' %d', self.id) self.close() raise self.port = self.source_sock.getsockname()[1] logger.debug('Listening on port %s', self.port) try: self.source_sock.listen(1) except socket.error: logger.exception('Error while listening on source_sock for tunnel' ' job %d', self.id) self.close() raise self.listen_state = 'LISTENING' # ready to accept self.source_reader = self.ev_loop.io(self.source_sock, pyev.EV_READ, self.accept_cb) self.source_reader.start() def setup_connect(self, endpoint=None): """Start connection to remote end. :param endpoint: specify where to connect (same as connect argument in constructor), can be specified in both places """ if endpoint is not None: self.connect = endpoint if self.connect is None: raise TunnelError('Remote endpoint to connect to was not specified') logger.debug('Connect to endpoint %s %d', self.connect, self.id) try: if isinstance(self.connect, tuple): addr_family = socket.AF_INET else: addr_family = socket.AF_UNIX self.dest_sock = socket.socket(addr_family, socket.SOCK_STREAM) except socket.error: logger.exception('Error while creating dest_sock for tunnel job' ' %d', self.id) self.close() raise try: self.dest_sock.setblocking(0) except socket.error: logger.exception('Error while sitting non block mode on dest_sock' ' for tunnel job %d', self.id) raise error = self.dest_sock.connect_ex(self.connect) if error and error != errno.EINPROGRESS: raise socket.error('Error during connect for tunnel job, %s' % os.strerror(error)) self.dest_writer = self.ev_loop.io(self.dest_sock, pyev.EV_WRITE, self.connect_cb) self.dest_writer.start() self.connect_state = 'CONNECTING' def run_job(self): sys.stderr.write('Will start ev loop in child\n') self.ev_loop.start() def accept_cb(self, watcher, revents): try: new_source, remote = self.source_sock.accept() except socket.error as exc: if exc.errno == errno.EAGAIN or errno.EWOULDBLOCK: # we will come back return # else self.fatal_exc('Error while accepting new connection on' ' sock_source for tunnel job') # everything went fine self.source_sock.close() # we won't accept connections self.source_sock = new_source # set new socket non blocking try: self.source_sock.setblocking(0) except socket.error as exc: self.fatal_exc('Cannot set source socket in non blocking for' ' tunnel job: %s', exc.strerror) self.source_reader.stop() self.source_reader = self.ev_loop.io(new_source, pyev.EV_READ, self.read_cb) self.source_writer = self.ev_loop.io(new_source, pyev.EV_WRITE, self.write_cb) sys.stderr.write('Successfully accepted remote client %s for tunnel' ' job %d\n' % (remote, self.id)) self.listen_state = 'CONNECTED' if self.connect_state == 'CONNECTED': # start the watchers only if both ends are ready to accept data self.source_reader.start() self.dest_reader.start() def connect_cb(self, watcher, revents): # check that connection was a success error = self.dest_sock.getsockopt(socket.SOL_SOCKET, socket.SO_ERROR) if error: self.fatal('Error during connect for tunnel job, %s\n' % os.strerror(error)) # else we setup watcher with proper events self.dest_reader = self.ev_loop.io(self.dest_sock, pyev.EV_READ, self.read_cb) self.dest_writer.stop() self.dest_writer = self.ev_loop.io(self.dest_sock, pyev.EV_WRITE, self.write_cb) sys.stderr.write('Successfully connected to remote endpoint %s %d\n' % (self.connect, self.id)) self.connect_state = 'CONNECTED' if self.listen_state == 'CONNECTED': # start the watchers only if both ends are ready to accept data self.source_reader.start() self.dest_reader.start() def read_cb(self, watcher, revents): if watcher == self.dest_reader: # sys.stderr.write('Read event on dest %s\n' % self.id) sock = self.dest_sock buffer_ = self.output_buffer other_watcher = self.source_writer else: # sys.stderr.write('Read event on source %s\n' % self.id) sock = self.source_sock buffer_ = self.input_buffer other_watcher = self.dest_writer # sys.stderr.write('Will loop into event\n') while True: try: incoming = sock.recv(self.BUFFER_LEN) except socket.error as exc: if exc.errno in (errno.EAGAIN, errno.EWOULDBLOCK): # sys.stderr.write('EAGAIN\n') break # else: unexpected error self.fatal_exc('Unexpected error while reading on socket' ' for tunnel job, %s\n', exc.strerror) if not incoming: # EOF # sys.stderr.write('EOF\n') self.close() return # sys.stderr.write('Read %d bytes\n' % len(incoming)) buffer_.append(incoming) if buffer_.is_full(): # sys.stderr.write('Buffer is full\n') watcher.stop() break # we did read some bytes that we could write to the other end if not buffer_.is_empty(): # sys.stderr.write('Starting other watcher\n') other_watcher.start() # sys.stderr.write('Read event done\n') def write_cb(self, watcher, revents): if watcher == self.dest_writer: # sys.stderr.write('Write event on dest %s', self.id) sock = self.dest_sock buffer_ = self.input_buffer other_watcher = self.source_reader else: # sys.stderr.write('Write event on source %s\n' % self.id) sock = self.source_sock buffer_ = self.output_buffer other_watcher = self.dest_reader while True: try: to_send = buffer_.popleft() except IndexError: # buffer is empty, we should stop write event # sys.stderr.write('Buffer is empty\n') watcher.stop() break send_buffer = to_send total_sent = 0 while True: try: written = sock.send(send_buffer) except socket.error as exc: if exc.errno in (errno.EAGAIN, errno.EWOULDBLOCK): buffer_.appendleft(to_send[total_sent:]) # sys.stderr.write('EAGAIN\n') break # else: unexpected error self.fatal_exc('Unexpected error while writting on socket' ' for tunnel job, %s', exc.strerror) # sys.stderr.write('Written %d bytes\n' % written) if written == len(send_buffer): break # else total_sent += written send_buffer = buffer(to_send, total_sent) # if we can read on the other end if not buffer_.is_full(): # sys.stderr.write('Starting other watcher\n') other_watcher.start() # sys.stderr.write('Proccessed write event\n') class DRBDAllocator(object): """Keeps a list of allocated DRBD devices.""" __metaclass__ = Singleton RMMOD = '/sbin/rmmod' MODPROBE = '/sbin/modprobe' #: maximum number of DRBD devices MINOR_MAX = 100 def __init__(self, main_loop): self.volumes = set() self.subproc_call = partial(subproc_call, main_loop) self.reload_kernel_module() def new_volume(self): for i in xrange(self.MINOR_MAX): if i not in self.volumes: self.volumes.add(i) break else: raise DRBDAllocationError('Cannot allocate DRBD volume') return i def remove_volume(self, id_): self.volumes.remove(id_) def reload_kernel_module(self): # FIXME find an other way to set parameters to drbd module # try to remove kernel module try: self.subproc_call([self.RMMOD, 'drbd']) except CalledProcessError: # this is not an error if drbd module wasn't loaded if 'drbd' in open('/proc/modules').read(): logger.error('Cannot remove drbd kernel module') raise # load kernel module with proper parameters try: # we use greater minor_count than the default which seems to small. # we set usermode helper to bin true because by default, the module # is calling some drbd helpers that returns non 0 value and make the # synchronisation halt. self.subproc_call([self.MODPROBE, 'drbd', 'minor_count=%d' % self.MINOR_MAX, 'usermode_helper=/bin/true']) except CalledProcessError: logger.error('Cannot load drbd kernel module') class DRBD(object): """Manage DRBD job.""" DMSETUP = '/sbin/dmsetup' DRBDSETUP = '/sbin/drbdsetup' DRBDMETA = '/sbin/drbdmeta' DRBD_TIMEOUT = '30' DRBD_RATE = '50000' def __init__(self, job_manager, storage_index, lvm_pool, lvm_volume): """ :param job_manager: :class:`JobManager` instance :param storage_index: :class:`StorageIndex` instance :param lvm_pool: :class:`Storage` instance :param lvm_volume: :class:`Volume` instance """ #: job id self.id = job_manager.job_id.next() self.subproc_call = partial(subproc_call, job_manager.main) self.allocator = DRBDAllocator(job_manager.main) # define a set of states self.state = 'INIT' self.storage = storage_index self.pool = lvm_pool self.volume = lvm_volume self.meta_volume = None #: DRBD id as returned by DRBDAllocator self.drbd_id = None self.drbd_port = None #: DRBD device full path self.drbd_path = None self.drbd_table = None self.drbd_status = dict(conn=None) #: name of DM copy of LV self.dm_table = None self.dm_copy = '%s-%s.copy' % ( 'vg', self.volume.name.replace('-', '--')) # each step is executed in the RPC call thread, thus exception are # propagated directly to the cc-server def stop(self): pass def cleanup(self): # reset DM to initial state try: table = self.subproc_call([self.DMSETUP, 'table', self.volume.path]) except CalledProcessError: logger.error('Error while getting table of VM LV') else: if table != self.dm_table: try: self.subproc_call([self.DMSETUP, 'load', self.volume.path], self.dm_table) self.subproc_call([self.DMSETUP, 'suspend', self.volume.path]) self.subproc_call([self.DMSETUP, 'resume', self.volume.path]) except CalledProcessError: logger.error('Error while loading back VM LV table') # FIXME this is kind of critical, we should tell the user to # call a Gaetant # stop drbd volume # if path_exists(self.drbd_path): if self.drbd_id is not None: try: self.subproc_call([self.DRBDSETUP, self.drbd_path, 'disconnect']) except CalledProcessError: logger.error('Error while disconnecting DRBD device %s', self.drbd_path) try: self.subproc_call([self.DRBDSETUP, self.drbd_path, 'secondary']) except CalledProcessError: logger.error('Error while switching DRBD device to secondary' ' (%s)', self.drbd_path) try: self.subproc_call([self.DRBDSETUP, self.drbd_path, 'detach']) except CalledProcessError: logger.error('Error while detaching DRBD device %s', self.drbd_path) try: self.subproc_call([self.DRBDSETUP, self.drbd_path, 'down']) except CalledProcessError: logger.error('Error while bringing down DRBD device %s', self.drbd_path) self.allocator.remove_volume(self.drbd_id) self.drbd_id = None self.drbd_port = None self.drbd_path = None self.drbd_table = None self.drbd_status = dict(conn=None) # remove drbd meta volume if self.meta_volume is not None: try: self.storage.delete_volume( self.pool.name, self.volume.name + '.drbdmeta', ) except: # FIXME logger.exception('Error while removing DRBD metadata LV') self.meta_volume = None # remove copy DM if path_exists('/dev/mapper/' + self.dm_copy): try: self.subproc_call([self.DMSETUP, 'remove', self.dm_copy]) except CalledProcessError: logger.error('Error while removing DM copy') self.dm_table = None # set mapper def setup(self): logger.debug('Create DRBD meta device') self.meta_volume = self.storage.create_volume( self.pool.name, self.volume.name + '.drbdmeta', # see # http://www.drbd.org/users-guide/ch-internals.html#s-meta-data-size # for external metadata size calculation max(self.volume.capacity / 32768 + 4 * 2 ** 20, 128 * 2 ** 20), ) logger.debug('Create a copy DM of the LV') # get LV table try: self.dm_table = self.subproc_call([self.DMSETUP, 'table', '--showkeys', self.volume.path]) except CalledProcessError: logger.error('Cannot get DM table of VM LV') raise DRBDError('Cannot get DM table of VM LV') # create new DM logger.debug('Got table of LV "%s"', self.dm_table) try: self.subproc_call([self.DMSETUP, 'create', self.dm_copy], self.dm_table) except CalledProcessError: logger.error('Cannot create copy DM of LV with table "%s"', self.dm_table) raise logger.debug('Setup DRBD device') # get drbd path self.drbd_id = self.allocator.new_volume() self.drbd_port = 7788 + self.drbd_id # FIXME magic number self.drbd_path = '/dev/drbd%d' % self.drbd_id # wipe drbd metadata (just in case) try: self.subproc_call([self.DRBDMETA, '--force', self.drbd_path, 'v08', self.meta_volume.path, '0', 'wipe-md']) except CalledProcessError: pass try: self.subproc_call([self.DRBDMETA, '--force', self.drbd_path, 'v08', self.meta_volume.path, '0', 'create-md']) except CalledProcessError: logger.error('Cannot create DRBD external metadata on device') raise DRBDError('Cannot create DRBD metadata') try: self.subproc_call([self.DRBDSETUP, self.drbd_path, 'disk', '/dev/mapper/%s' % self.dm_copy, self.meta_volume.path, '0', '--create-device']) except CalledProcessError: logger.error('Error while creating DRBD device') raise DRBDError('Cannot create DRBD device') self.drbd_table = '0 %d linear %s 0' % ( self.volume.capacity / 512, # FIXME comment self.drbd_path, ) logger.debug('Setup DRBD done') self.state = 'SETUP' def connect(self, remote_addr, remote_port): logger.debug('Setup networking for DRBD') # connect to remote node try: self.subproc_call([self.DRBDSETUP, self.drbd_path, 'net', '0.0.0.0:%d' % self.drbd_port, '%s:%d' % (remote_addr, remote_port), 'C', '-m', '-S', '10000000']) except CalledProcessError: logger.error('Error while setting up network facility for DRBD') raise DRBDError('Cannot set up network for DRBD') sleep(.5) # FIXME logger.debug('Set up bandwidth limit') try: self.subproc_call([self.DRBDSETUP, self.drbd_path, 'syncer', '-r', self.DRBD_RATE]) except CalledProcessError: logger.error('Cannot set bandwidth rate limit on DRBD') raise DRBDError('Error while setting bandwidth limit') self.state = 'CONNECTED' def wait_connection(self): self.state = 'WAIT PEER CONNECT' sleep(.5) # FIXME try: self.subproc_call([self.DRBDSETUP, self.drbd_path, 'wait-connect', '-t', self.DRBD_TIMEOUT, '-d', self.DRBD_TIMEOUT, '-o', self.DRBD_TIMEOUT]) except CalledProcessError: logger.error('Error while waiting for remote DRBD to connect,' ' timeout = %s', self.DRBD_TIMEOUT) raise DRBDError('Error while waiting DRBD connect') sleep(.5) # FIXME self.state = 'CONNECTED' def switch_primary(self): logger.debug('Switch DRBD %s in primary mode', self.drbd_path) try: self.subproc_call([self.DRBDSETUP, self.drbd_path, 'primary', '-o']) except CalledProcessError: logger.error('Error while switching to primary role (%s)', self.drbd_path) raise DRBDError('Cannot switch to primary role') self.state = 'CONNECTED PRIMARY' def switch_secondary(self): logger.debug('Switch DRBD %s in secondary mode', self.drbd_path) try: self.subproc_call([self.DRBDSETUP, self.drbd_path, 'secondary']) except CalledProcessError: logger.error('Error while switching to secondary role (%s)', self.drbd_path) raise DRBDError('Cannot switch to secondary role') self.state = 'CONNECTED SECONDARY' def wait_sync(self): self.state = 'WAIT SYNC' sleep(.5) # FIXME logger.debug('Wait sync %s', self.drbd_path) try: self.subproc_call([self.DRBDSETUP, self.drbd_path, 'wait-sync']) except CalledProcessError: logger.error('Error while waiting for synchronisation of DRBD' ' device (%s)', self.drbd_path) raise DRBDError('Wait sync error') self.state = 'SYNC DONE' def disconnect(self): try: self.subproc_call([self.DRBDSETUP, self.drbd_path, 'disconnect']) except CalledProcessError: logger.error('Error while disconnecting DRBD device %s', self.drbd_path) raise DRBDError('Cannot disconnect device') self.state = 'DISCONNECTED' def status(self): """DRBD status.""" try: out = self.subproc_call([self.DRBDSETUP, self.drbd_path, 'status']) except CalledProcessError: logger.error('Error while getting DRBD status (%s)', self.drbd_path) raise DRBDError('Status: error while executing DRBD status') try: status = et.ElementTree().parse(StringIO(out)) except: logger.error('Error while parsing status command output for DRBD' ' device %s', self.drbd_path) raise DRBDError('Status: cannot parse output') self.drbd_status = dict( conn=status.get('cs'), disk=status.get('ds1'), rdisk=status.get('ds2'), role=status.get('ro1'), rrole=status.get('ro2'), percent=status.get('resynced_percent', None), ) return self.drbd_status def takeover(self): """Set up DRBD device as VM backing device.""" logger.debug('DRBD takeover %s', self.drbd_path) assert self.drbd_table is not None try: self.subproc_call([self.DMSETUP, 'load', self.volume.path], self.drbd_table) except CalledProcessError: logger.error('Error while loading new table for VM LV') raise DRBDError('Takeover: cannot load DM table') try: self.subproc_call([self.DMSETUP, 'suspend', self.volume.path]) except CalledProcessError: logger.error('Error while suspending VM LV') raise DRBDError('Takeover: cannot suspend DM') try: self.subproc_call([self.DMSETUP, 'resume', self.volume.path]) except CalledProcessError: logger.error('Error while resuming VM LV') raise DRBDError('Takeover: cannot resume DM')