""" Ceph cluster task. Handle the setup, starting, and clean-up of a Ceph cluster. """ from cStringIO import StringIO import argparse import contextlib import errno import logging import os import json import time import gevent import socket from paramiko import SSHException from ceph_manager import CephManager, write_conf from tasks.cephfs.filesystem import Filesystem from teuthology import misc as teuthology from teuthology import contextutil from teuthology import exceptions from teuthology.orchestra import run import ceph_client as cclient from teuthology.orchestra.daemon import DaemonGroup CEPH_ROLE_TYPES = ['mon', 'mgr', 'osd', 'mds', 'rgw'] DATA_PATH = '/var/lib/ceph/{type_}/{cluster}-{id_}' log = logging.getLogger(__name__) def generate_caps(type_): """ Each call will return the next capability for each system type (essentially a subset of possible role values). Valid types are osd, mds and client. """ defaults = dict( osd=dict( mon='allow *', mgr='allow *', osd='allow *', ), mgr=dict( mon='allow profile mgr', osd='allow *', mds='allow *', ), mds=dict( mon='allow *', mgr='allow *', osd='allow *', mds='allow', ), client=dict( mon='allow rw', mgr='allow r', osd='allow rwx', mds='allow', ), ) for subsystem, capability in defaults[type_].items(): yield '--cap' yield subsystem yield capability @contextlib.contextmanager def ceph_log(ctx, config): """ Create /var/log/ceph log directory that is open to everyone. Add valgrind and profiling-logger directories. :param ctx: Context :param config: Configuration """ log.info('Making ceph log dir writeable by non-root...') run.wait( ctx.cluster.run( args=[ 'sudo', 'chmod', '777', '/var/log/ceph', ], wait=False, ) ) log.info('Disabling ceph logrotate...') run.wait( ctx.cluster.run( args=[ 'sudo', 'rm', '-f', '--', '/etc/logrotate.d/ceph', ], wait=False, ) ) log.info('Creating extra log directories...') run.wait( ctx.cluster.run( args=[ 'sudo', 'install', '-d', '-m0777', '--', '/var/log/ceph/valgrind', '/var/log/ceph/profiling-logger', ], wait=False, ) ) class Rotater(object): stop_event = gevent.event.Event() def invoke_logrotate(self): # 1) install ceph-test.conf in /etc/logrotate.d # 2) continuously loop over logrotate invocation with ceph-test.conf while not self.stop_event.is_set(): self.stop_event.wait(timeout=30) try: run.wait( ctx.cluster.run( args=['sudo', 'logrotate', '/etc/logrotate.d/ceph-test.conf' ], wait=False, ) ) except exceptions.ConnectionLostError as e: # Some tests may power off nodes during test, in which # case we will see connection errors that we should ignore. log.debug("Missed logrotate, node '{0}' is offline".format( e.node)) except EOFError as e: # Paramiko sometimes raises this when it fails to # connect to a node during open_session. As with # ConnectionLostError, we ignore this because nodes # are allowed to get power cycled during tests. log.debug("Missed logrotate, EOFError") except SSHException as e: log.debug("Missed logrotate, SSHException") except socket.error as e: if e.errno == errno.EHOSTUNREACH: log.debug("Missed logrotate, host unreachable") else: raise def begin(self): self.thread = gevent.spawn(self.invoke_logrotate) def end(self): self.stop_event.set() self.thread.get() def write_rotate_conf(ctx, daemons): testdir = teuthology.get_testdir(ctx) rotate_conf_path = os.path.join(os.path.dirname(__file__), 'logrotate.conf') with file(rotate_conf_path, 'rb') as f: conf = "" for daemon, size in daemons.iteritems(): log.info('writing logrotate stanza for {daemon}'.format(daemon=daemon)) conf += f.read().format(daemon_type=daemon, max_size=size) f.seek(0, 0) for remote in ctx.cluster.remotes.iterkeys(): teuthology.write_file(remote=remote, path='{tdir}/logrotate.ceph-test.conf'.format(tdir=testdir), data=StringIO(conf) ) remote.run( args=[ 'sudo', 'mv', '{tdir}/logrotate.ceph-test.conf'.format(tdir=testdir), '/etc/logrotate.d/ceph-test.conf', run.Raw('&&'), 'sudo', 'chmod', '0644', '/etc/logrotate.d/ceph-test.conf', run.Raw('&&'), 'sudo', 'chown', 'root.root', '/etc/logrotate.d/ceph-test.conf' ] ) remote.chcon('/etc/logrotate.d/ceph-test.conf', 'system_u:object_r:etc_t:s0') if ctx.config.get('log-rotate'): daemons = ctx.config.get('log-rotate') log.info('Setting up log rotation with ' + str(daemons)) write_rotate_conf(ctx, daemons) logrotater = Rotater() logrotater.begin() try: yield finally: if ctx.config.get('log-rotate'): log.info('Shutting down logrotate') logrotater.end() ctx.cluster.run( args=['sudo', 'rm', '/etc/logrotate.d/ceph-test.conf' ] ) if ctx.archive is not None and \ not (ctx.config.get('archive-on-error') and ctx.summary['success']): # and logs log.info('Compressing logs...') run.wait( ctx.cluster.run( args=[ 'sudo', 'find', '/var/log/ceph', '-name', '*.log', '-print0', run.Raw('|'), 'sudo', 'xargs', '-0', '--no-run-if-empty', '--', 'gzip', '--', ], wait=False, ), ) log.info('Archiving logs...') path = os.path.join(ctx.archive, 'remote') os.makedirs(path) for remote in ctx.cluster.remotes.iterkeys(): sub = os.path.join(path, remote.shortname) os.makedirs(sub) teuthology.pull_directory(remote, '/var/log/ceph', os.path.join(sub, 'log')) def assign_devs(roles, devs): """ Create a dictionary of devs indexed by roles :param roles: List of roles :param devs: Corresponding list of devices. :returns: Dictionary of devs indexed by roles. """ return dict(zip(roles, devs)) @contextlib.contextmanager def valgrind_post(ctx, config): """ After the tests run, look throught all the valgrind logs. Exceptions are raised if textual errors occurred in the logs, or if valgrind exceptions were detected in the logs. :param ctx: Context :param config: Configuration """ try: yield finally: lookup_procs = list() log.info('Checking for errors in any valgrind logs...') for remote in ctx.cluster.remotes.iterkeys(): # look at valgrind logs for each node proc = remote.run( args=[ 'sudo', 'zgrep', '', run.Raw('/var/log/ceph/valgrind/*'), '/dev/null', # include a second file so that we always get a filename prefix on the output run.Raw('|'), 'sort', run.Raw('|'), 'uniq', ], wait=False, check_status=False, stdout=StringIO(), ) lookup_procs.append((proc, remote)) valgrind_exception = None for (proc, remote) in lookup_procs: proc.wait() out = proc.stdout.getvalue() for line in out.split('\n'): if line == '': continue try: (file, kind) = line.split(':') except Exception: log.error('failed to split line %s', line) raise log.debug('file %s kind %s', file, kind) if (file.find('mds') >= 0) and kind.find('Lost') > 0: continue log.error('saw valgrind issue %s in %s', kind, file) valgrind_exception = Exception('saw valgrind issues') if config.get('expect_valgrind_errors'): if not valgrind_exception: raise Exception('expected valgrind issues and found none') else: if valgrind_exception: raise valgrind_exception @contextlib.contextmanager def crush_setup(ctx, config): cluster_name = config['cluster'] first_mon = teuthology.get_first_mon(ctx, config, cluster_name) (mon_remote,) = ctx.cluster.only(first_mon).remotes.iterkeys() profile = config.get('crush_tunables', 'default') log.info('Setting crush tunables to %s', profile) mon_remote.run( args=['sudo', 'ceph', '--cluster', cluster_name, 'osd', 'crush', 'tunables', profile]) yield @contextlib.contextmanager def create_rbd_pool(ctx, config): cluster_name = config['cluster'] first_mon = teuthology.get_first_mon(ctx, config, cluster_name) (mon_remote,) = ctx.cluster.only(first_mon).remotes.iterkeys() log.info('Waiting for OSDs to come up') teuthology.wait_until_osds_up( ctx, cluster=ctx.cluster, remote=mon_remote, ceph_cluster=cluster_name, ) if config.get('create_rbd_pool', True): log.info('Creating RBD pool') mon_remote.run( args=['sudo', 'ceph', '--cluster', cluster_name, 'osd', 'pool', 'create', 'rbd', '8']) mon_remote.run( args=[ 'sudo', 'ceph', '--cluster', cluster_name, 'osd', 'pool', 'application', 'enable', 'rbd', 'rbd', '--yes-i-really-mean-it' ], check_status=False) yield @contextlib.contextmanager def cephfs_setup(ctx, config): cluster_name = config['cluster'] testdir = teuthology.get_testdir(ctx) coverage_dir = '{tdir}/archive/coverage'.format(tdir=testdir) first_mon = teuthology.get_first_mon(ctx, config, cluster_name) (mon_remote,) = ctx.cluster.only(first_mon).remotes.iterkeys() mdss = ctx.cluster.only(teuthology.is_type('mds', cluster_name)) # If there are any MDSs, then create a filesystem for them to use # Do this last because requires mon cluster to be up and running if mdss.remotes: log.info('Setting up CephFS filesystem...') fs = Filesystem(ctx, name='cephfs', create=True, ec_profile=config.get('cephfs_ec_profile', None)) is_active_mds = lambda role: 'mds.' in role and not role.endswith('-s') and '-s-' not in role all_roles = [item for remote_roles in mdss.remotes.values() for item in remote_roles] num_active = len([r for r in all_roles if is_active_mds(r)]) fs.set_max_mds(num_active) fs.set_allow_dirfrags(True) yield @contextlib.contextmanager def cluster(ctx, config): """ Handle the creation and removal of a ceph cluster. On startup: Create directories needed for the cluster. Create remote journals for all osds. Create and set keyring. Copy the monmap to tht test systems. Setup mon nodes. Setup mds nodes. Mkfs osd nodes. Add keyring information to monmaps Mkfs mon nodes. On exit: If errors occurred, extract a failure message and store in ctx.summary. Unmount all test files and temporary journaling files. Save the monitor information and archive all ceph logs. Cleanup the keyring setup, and remove all monitor map and data files left over. :param ctx: Context :param config: Configuration """ if ctx.config.get('use_existing_cluster', False) is True: log.info("'use_existing_cluster' is true; skipping cluster creation") yield testdir = teuthology.get_testdir(ctx) cluster_name = config['cluster'] data_dir = '{tdir}/{cluster}.data'.format(tdir=testdir, cluster=cluster_name) log.info('Creating ceph cluster %s...', cluster_name) run.wait( ctx.cluster.run( args=[ 'install', '-d', '-m0755', '--', data_dir, ], wait=False, ) ) run.wait( ctx.cluster.run( args=[ 'sudo', 'install', '-d', '-m0777', '--', '/var/run/ceph', ], wait=False, ) ) devs_to_clean = {} remote_to_roles_to_devs = {} remote_to_roles_to_journals = {} osds = ctx.cluster.only(teuthology.is_type('osd', cluster_name)) for remote, roles_for_host in osds.remotes.iteritems(): devs = teuthology.get_scratch_devices(remote) roles_to_devs = {} roles_to_journals = {} if config.get('fs'): log.info('fs option selected, checking for scratch devs') log.info('found devs: %s' % (str(devs),)) devs_id_map = teuthology.get_wwn_id_map(remote, devs) iddevs = devs_id_map.values() roles_to_devs = assign_devs( teuthology.cluster_roles_of_type(roles_for_host, 'osd', cluster_name), iddevs ) if len(roles_to_devs) < len(iddevs): iddevs = iddevs[len(roles_to_devs):] devs_to_clean[remote] = [] if config.get('block_journal'): log.info('block journal enabled') roles_to_journals = assign_devs( teuthology.cluster_roles_of_type(roles_for_host, 'osd', cluster_name), iddevs ) log.info('journal map: %s', roles_to_journals) if config.get('tmpfs_journal'): log.info('tmpfs journal enabled') roles_to_journals = {} remote.run(args=['sudo', 'mount', '-t', 'tmpfs', 'tmpfs', '/mnt']) for role in teuthology.cluster_roles_of_type(roles_for_host, 'osd', cluster_name): tmpfs = '/mnt/' + role roles_to_journals[role] = tmpfs remote.run(args=['truncate', '-s', '1500M', tmpfs]) log.info('journal map: %s', roles_to_journals) log.info('dev map: %s' % (str(roles_to_devs),)) remote_to_roles_to_devs[remote] = roles_to_devs remote_to_roles_to_journals[remote] = roles_to_journals log.info('Generating config...') remotes_and_roles = ctx.cluster.remotes.items() roles = [role_list for (remote, role_list) in remotes_and_roles] ips = [host for (host, port) in (remote.ssh.get_transport().getpeername() for (remote, role_list) in remotes_and_roles)] conf = teuthology.skeleton_config(ctx, roles=roles, ips=ips, cluster=cluster_name) for remote, roles_to_journals in remote_to_roles_to_journals.iteritems(): for role, journal in roles_to_journals.iteritems(): name = teuthology.ceph_role(role) if name not in conf: conf[name] = {} conf[name]['osd journal'] = journal for section, keys in config['conf'].iteritems(): for key, value in keys.iteritems(): log.info("[%s] %s = %s" % (section, key, value)) if section not in conf: conf[section] = {} conf[section][key] = value if config.get('tmpfs_journal'): conf['journal dio'] = False if not hasattr(ctx, 'ceph'): ctx.ceph = {} ctx.ceph[cluster_name] = argparse.Namespace() ctx.ceph[cluster_name].conf = conf default_keyring = '/etc/ceph/{cluster}.keyring'.format(cluster=cluster_name) keyring_path = config.get('keyring_path', default_keyring) coverage_dir = '{tdir}/archive/coverage'.format(tdir=testdir) firstmon = teuthology.get_first_mon(ctx, config, cluster_name) log.info('Setting up %s...' % firstmon) ctx.cluster.only(firstmon).run( args=[ 'sudo', 'adjust-ulimits', 'ceph-coverage', coverage_dir, 'ceph-authtool', '--create-keyring', keyring_path, ], ) ctx.cluster.only(firstmon).run( args=[ 'sudo', 'adjust-ulimits', 'ceph-coverage', coverage_dir, 'ceph-authtool', '--gen-key', '--name=mon.', keyring_path, ], ) ctx.cluster.only(firstmon).run( args=[ 'sudo', 'chmod', '0644', keyring_path, ], ) (mon0_remote,) = ctx.cluster.only(firstmon).remotes.keys() monmap_path = '{tdir}/{cluster}.monmap'.format(tdir=testdir, cluster=cluster_name) fsid = teuthology.create_simple_monmap( ctx, remote=mon0_remote, conf=conf, path=monmap_path, ) if not 'global' in conf: conf['global'] = {} conf['global']['fsid'] = fsid default_conf_path = '/etc/ceph/{cluster}.conf'.format(cluster=cluster_name) conf_path = config.get('conf_path', default_conf_path) log.info('Writing %s for FSID %s...' % (conf_path, fsid)) write_conf(ctx, conf_path, cluster_name) log.info('Creating admin key on %s...' % firstmon) ctx.cluster.only(firstmon).run( args=[ 'sudo', 'adjust-ulimits', 'ceph-coverage', coverage_dir, 'ceph-authtool', '--gen-key', '--name=client.admin', '--set-uid=0', '--cap', 'mon', 'allow *', '--cap', 'osd', 'allow *', '--cap', 'mds', 'allow *', '--cap', 'mgr', 'allow *', keyring_path, ], ) log.info('Copying monmap to all nodes...') keyring = teuthology.get_file( remote=mon0_remote, path=keyring_path, ) monmap = teuthology.get_file( remote=mon0_remote, path=monmap_path, ) for rem in ctx.cluster.remotes.iterkeys(): # copy mon key and initial monmap log.info('Sending monmap to node {remote}'.format(remote=rem)) teuthology.sudo_write_file( remote=rem, path=keyring_path, data=keyring, perms='0644' ) teuthology.write_file( remote=rem, path=monmap_path, data=monmap, ) log.info('Setting up mon nodes...') mons = ctx.cluster.only(teuthology.is_type('mon', cluster_name)) if not config.get('skip_mgr_daemons', False): log.info('Setting up mgr nodes...') mgrs = ctx.cluster.only(teuthology.is_type('mgr', cluster_name)) for remote, roles_for_host in mgrs.remotes.iteritems(): for role in teuthology.cluster_roles_of_type(roles_for_host, 'mgr', cluster_name): _, _, id_ = teuthology.split_role(role) mgr_dir = DATA_PATH.format( type_='mgr', cluster=cluster_name, id_=id_) remote.run( args=[ 'sudo', 'mkdir', '-p', mgr_dir, run.Raw('&&'), 'sudo', 'adjust-ulimits', 'ceph-coverage', coverage_dir, 'ceph-authtool', '--create-keyring', '--gen-key', '--name=mgr.{id}'.format(id=id_), mgr_dir + '/keyring', ], ) log.info('Setting up mds nodes...') mdss = ctx.cluster.only(teuthology.is_type('mds', cluster_name)) for remote, roles_for_host in mdss.remotes.iteritems(): for role in teuthology.cluster_roles_of_type(roles_for_host, 'mds', cluster_name): _, _, id_ = teuthology.split_role(role) mds_dir = DATA_PATH.format( type_='mds', cluster=cluster_name, id_=id_) remote.run( args=[ 'sudo', 'mkdir', '-p', mds_dir, run.Raw('&&'), 'sudo', 'adjust-ulimits', 'ceph-coverage', coverage_dir, 'ceph-authtool', '--create-keyring', '--gen-key', '--name=mds.{id}'.format(id=id_), mds_dir + '/keyring', ], ) remote.run(args=[ 'sudo', 'chown', '-R', 'ceph:ceph', mds_dir ]) cclient.create_keyring(ctx, cluster_name) log.info('Running mkfs on osd nodes...') if not hasattr(ctx, 'disk_config'): ctx.disk_config = argparse.Namespace() if not hasattr(ctx.disk_config, 'remote_to_roles_to_dev'): ctx.disk_config.remote_to_roles_to_dev = {} if not hasattr(ctx.disk_config, 'remote_to_roles_to_journals'): ctx.disk_config.remote_to_roles_to_journals = {} if not hasattr(ctx.disk_config, 'remote_to_roles_to_dev_mount_options'): ctx.disk_config.remote_to_roles_to_dev_mount_options = {} if not hasattr(ctx.disk_config, 'remote_to_roles_to_dev_fstype'): ctx.disk_config.remote_to_roles_to_dev_fstype = {} teuthology.deep_merge(ctx.disk_config.remote_to_roles_to_dev, remote_to_roles_to_devs) teuthology.deep_merge(ctx.disk_config.remote_to_roles_to_journals, remote_to_roles_to_journals) log.info("ctx.disk_config.remote_to_roles_to_dev: {r}".format(r=str(ctx.disk_config.remote_to_roles_to_dev))) for remote, roles_for_host in osds.remotes.iteritems(): roles_to_devs = remote_to_roles_to_devs[remote] roles_to_journals = remote_to_roles_to_journals[remote] for role in teuthology.cluster_roles_of_type(roles_for_host, 'osd', cluster_name): _, _, id_ = teuthology.split_role(role) mnt_point = DATA_PATH.format( type_='osd', cluster=cluster_name, id_=id_) remote.run( args=[ 'sudo', 'mkdir', '-p', mnt_point, ]) log.info(str(roles_to_devs)) log.info(str(roles_to_journals)) log.info(role) if roles_to_devs.get(role): dev = roles_to_devs[role] fs = config.get('fs') package = None mkfs_options = config.get('mkfs_options') mount_options = config.get('mount_options') if fs == 'btrfs': # package = 'btrfs-tools' if mount_options is None: mount_options = ['noatime', 'user_subvol_rm_allowed'] if mkfs_options is None: mkfs_options = ['-m', 'single', '-l', '32768', '-n', '32768'] if fs == 'xfs': # package = 'xfsprogs' if mount_options is None: mount_options = ['noatime'] if mkfs_options is None: mkfs_options = ['-f', '-i', 'size=2048'] if fs == 'ext4' or fs == 'ext3': if mount_options is None: mount_options = ['noatime', 'user_xattr'] if mount_options is None: mount_options = [] if mkfs_options is None: mkfs_options = [] mkfs = ['mkfs.%s' % fs] + mkfs_options log.info('%s on %s on %s' % (mkfs, dev, remote)) if package is not None: remote.run( args=[ 'sudo', 'apt-get', 'install', '-y', package ], stdout=StringIO(), ) try: remote.run(args=['yes', run.Raw('|')] + ['sudo'] + mkfs + [dev]) except run.CommandFailedError: # Newer btfs-tools doesn't prompt for overwrite, use -f if '-f' not in mount_options: mkfs_options.append('-f') mkfs = ['mkfs.%s' % fs] + mkfs_options log.info('%s on %s on %s' % (mkfs, dev, remote)) remote.run(args=['yes', run.Raw('|')] + ['sudo'] + mkfs + [dev]) log.info('mount %s on %s -o %s' % (dev, remote, ','.join(mount_options))) remote.run( args=[ 'sudo', 'mount', '-t', fs, '-o', ','.join(mount_options), dev, mnt_point, ] ) remote.run( args=[ 'sudo', '/sbin/restorecon', mnt_point, ], check_status=False, ) if not remote in ctx.disk_config.remote_to_roles_to_dev_mount_options: ctx.disk_config.remote_to_roles_to_dev_mount_options[remote] = {} ctx.disk_config.remote_to_roles_to_dev_mount_options[remote][role] = mount_options if not remote in ctx.disk_config.remote_to_roles_to_dev_fstype: ctx.disk_config.remote_to_roles_to_dev_fstype[remote] = {} ctx.disk_config.remote_to_roles_to_dev_fstype[remote][role] = fs devs_to_clean[remote].append(mnt_point) for role in teuthology.cluster_roles_of_type(roles_for_host, 'osd', cluster_name): _, _, id_ = teuthology.split_role(role) try: remote.run( args=[ 'sudo', 'MALLOC_CHECK_=3', 'adjust-ulimits', 'ceph-coverage', coverage_dir, 'ceph-osd', '--no-mon-config', '--cluster', cluster_name, '--mkfs', '--mkkey', '-i', id_, '--monmap', monmap_path, ], ) except run.CommandFailedError: # try without --no-mon-config.. this may be an upgrade test remote.run( args=[ 'sudo', 'MALLOC_CHECK_=3', 'adjust-ulimits', 'ceph-coverage', coverage_dir, 'ceph-osd', '--cluster', cluster_name, '--mkfs', '--mkkey', '-i', id_, '--monmap', monmap_path, ], ) mnt_point = DATA_PATH.format( type_='osd', cluster=cluster_name, id_=id_) remote.run(args=[ 'sudo', 'chown', '-R', 'ceph:ceph', mnt_point ]) log.info('Reading keys from all nodes...') keys_fp = StringIO() keys = [] for remote, roles_for_host in ctx.cluster.remotes.iteritems(): for type_ in ['mgr', 'mds', 'osd']: if type_ == 'mgr' and config.get('skip_mgr_daemons', False): continue for role in teuthology.cluster_roles_of_type(roles_for_host, type_, cluster_name): _, _, id_ = teuthology.split_role(role) data = teuthology.get_file( remote=remote, path=os.path.join( DATA_PATH.format( type_=type_, id_=id_, cluster=cluster_name), 'keyring', ), sudo=True, ) keys.append((type_, id_, data)) keys_fp.write(data) for remote, roles_for_host in ctx.cluster.remotes.iteritems(): for role in teuthology.cluster_roles_of_type(roles_for_host, 'client', cluster_name): _, _, id_ = teuthology.split_role(role) data = teuthology.get_file( remote=remote, path='/etc/ceph/{cluster}.client.{id}.keyring'.format(id=id_, cluster=cluster_name) ) keys.append(('client', id_, data)) keys_fp.write(data) log.info('Adding keys to all mons...') writes = mons.run( args=[ 'sudo', 'tee', '-a', keyring_path, ], stdin=run.PIPE, wait=False, stdout=StringIO(), ) keys_fp.seek(0) teuthology.feed_many_stdins_and_close(keys_fp, writes) run.wait(writes) for type_, id_, data in keys: run.wait( mons.run( args=[ 'sudo', 'adjust-ulimits', 'ceph-coverage', coverage_dir, 'ceph-authtool', keyring_path, '--name={type}.{id}'.format( type=type_, id=id_, ), ] + list(generate_caps(type_)), wait=False, ), ) log.info('Running mkfs on mon nodes...') for remote, roles_for_host in mons.remotes.iteritems(): for role in teuthology.cluster_roles_of_type(roles_for_host, 'mon', cluster_name): _, _, id_ = teuthology.split_role(role) mnt_point = DATA_PATH.format( type_='mon', id_=id_, cluster=cluster_name) remote.run( args=[ 'sudo', 'mkdir', '-p', mnt_point, ], ) remote.run( args=[ 'sudo', 'adjust-ulimits', 'ceph-coverage', coverage_dir, 'ceph-mon', '--cluster', cluster_name, '--mkfs', '-i', id_, '--monmap', monmap_path, '--keyring', keyring_path, ], ) remote.run(args=[ 'sudo', 'chown', '-R', 'ceph:ceph', mnt_point ]) run.wait( mons.run( args=[ 'rm', '--', monmap_path, ], wait=False, ), ) try: yield except Exception: # we need to know this below ctx.summary['success'] = False raise finally: (mon0_remote,) = ctx.cluster.only(firstmon).remotes.keys() log.info('Checking cluster log for badness...') def first_in_ceph_log(pattern, excludes): """ Find the first occurence of the pattern specified in the Ceph log, Returns None if none found. :param pattern: Pattern scanned for. :param excludes: Patterns to ignore. :return: First line of text (or None if not found) """ args = [ 'sudo', 'egrep', pattern, '/var/log/ceph/{cluster}.log'.format(cluster=cluster_name), ] for exclude in excludes: args.extend([run.Raw('|'), 'egrep', '-v', exclude]) args.extend([ run.Raw('|'), 'head', '-n', '1', ]) r = mon0_remote.run( stdout=StringIO(), args=args, ) stdout = r.stdout.getvalue() if stdout != '': return stdout return None if first_in_ceph_log('\[ERR\]|\[WRN\]|\[SEC\]', config['log_whitelist']) is not None: log.warning('Found errors (ERR|WRN|SEC) in cluster log') ctx.summary['success'] = False # use the most severe problem as the failure reason if 'failure_reason' not in ctx.summary: for pattern in ['\[SEC\]', '\[ERR\]', '\[WRN\]']: match = first_in_ceph_log(pattern, config['log_whitelist']) if match is not None: ctx.summary['failure_reason'] = \ '"{match}" in cluster log'.format( match=match.rstrip('\n'), ) break for remote, dirs in devs_to_clean.iteritems(): for dir_ in dirs: log.info('Unmounting %s on %s' % (dir_, remote)) try: remote.run( args=[ 'sync', run.Raw('&&'), 'sudo', 'umount', '-f', dir_ ] ) except Exception as e: remote.run(args=[ 'sudo', run.Raw('PATH=/usr/sbin:$PATH'), 'lsof', run.Raw(';'), 'ps', 'auxf', ]) raise e if config.get('tmpfs_journal'): log.info('tmpfs journal enabled - unmounting tmpfs at /mnt') for remote, roles_for_host in osds.remotes.iteritems(): remote.run( args=['sudo', 'umount', '-f', '/mnt'], check_status=False, ) if ctx.archive is not None and \ not (ctx.config.get('archive-on-error') and ctx.summary['success']): # archive mon data, too log.info('Archiving mon data...') path = os.path.join(ctx.archive, 'data') try: os.makedirs(path) except OSError as e: if e.errno == errno.EEXIST: pass else: raise for remote, roles in mons.remotes.iteritems(): for role in roles: is_mon = teuthology.is_type('mon', cluster_name) if is_mon(role): _, _, id_ = teuthology.split_role(role) mon_dir = DATA_PATH.format( type_='mon', id_=id_, cluster=cluster_name) teuthology.pull_directory_tarball( remote, mon_dir, path + '/' + role + '.tgz') log.info('Cleaning ceph cluster...') run.wait( ctx.cluster.run( args=[ 'sudo', 'rm', '-rf', '--', conf_path, keyring_path, data_dir, monmap_path, run.Raw('{tdir}/../*.pid'.format(tdir=testdir)), ], wait=False, ), ) def osd_scrub_pgs(ctx, config): """ Scrub pgs when we exit. First make sure all pgs are active and clean. Next scrub all osds. Then periodically check until all pgs have scrub time stamps that indicate the last scrub completed. Time out if no progess is made here after two minutes. """ retries = 40 delays = 20 cluster_name = config['cluster'] manager = ctx.managers[cluster_name] all_clean = False for _ in range(0, retries): stats = manager.get_pg_stats() bad = [stat['pgid'] for stat in stats if 'active+clean' not in stat['state']] if not bad: all_clean = True break log.info( "Waiting for all PGs to be active and clean, waiting on %s" % bad) time.sleep(delays) if not all_clean: raise RuntimeError("Scrubbing terminated -- not all pgs were active and clean.") check_time_now = time.localtime() time.sleep(1) all_roles = teuthology.all_roles(ctx.cluster) for role in teuthology.cluster_roles_of_type(all_roles, 'osd', cluster_name): log.info("Scrubbing {osd}".format(osd=role)) _, _, id_ = teuthology.split_role(role) # allow this to fail; in certain cases the OSD might not be up # at this point. we will catch all pgs below. try: manager.raw_cluster_cmd('tell', 'osd.' + id_, 'config', 'set', 'osd_debug_deep_scrub_sleep', '0'); manager.raw_cluster_cmd('osd', 'deep-scrub', id_) except run.CommandFailedError: pass prev_good = 0 gap_cnt = 0 loop = True while loop: stats = manager.get_pg_stats() timez = [(stat['pgid'],stat['last_scrub_stamp']) for stat in stats] loop = False thiscnt = 0 for (pgid, tmval) in timez: pgtm = time.strptime(tmval[0:tmval.find('.')], '%Y-%m-%d %H:%M:%S') if pgtm > check_time_now: thiscnt += 1 else: log.info('pgid %s last_scrub_stamp %s %s <= %s', pgid, tmval, pgtm, check_time_now) loop = True if thiscnt > prev_good: prev_good = thiscnt gap_cnt = 0 else: gap_cnt += 1 if gap_cnt % 6 == 0: for (pgid, tmval) in timez: # re-request scrub every so often in case the earlier # request was missed. do not do it everytime because # the scrub may be in progress or not reported yet and # we will starve progress. manager.raw_cluster_cmd('pg', 'deep-scrub', pgid) if gap_cnt > retries: raise RuntimeError('Exiting scrub checking -- not all pgs scrubbed.') if loop: log.info('Still waiting for all pgs to be scrubbed.') time.sleep(delays) @contextlib.contextmanager def run_daemon(ctx, config, type_): """ Run daemons for a role type. Handle the startup and termination of a a daemon. On startup -- set coverages, cpu_profile, valgrind values for all remotes, and a max_mds value for one mds. On cleanup -- Stop all existing daemons of this type. :param ctx: Context :param config: Configuration :paran type_: Role type """ cluster_name = config['cluster'] log.info('Starting %s daemons in cluster %s...', type_, cluster_name) testdir = teuthology.get_testdir(ctx) daemons = ctx.cluster.only(teuthology.is_type(type_, cluster_name)) # check whether any daemons if this type are configured if daemons is None: return coverage_dir = '{tdir}/archive/coverage'.format(tdir=testdir) daemon_signal = 'kill' if config.get('coverage') or config.get('valgrind') is not None: daemon_signal = 'term' # create osds in order. (this only matters for pre-luminous, which might # be hammer, which doesn't take an id_ argument to legacy 'osd create'). osd_uuids = {} for remote, roles_for_host in daemons.remotes.iteritems(): is_type_ = teuthology.is_type(type_, cluster_name) for role in roles_for_host: if not is_type_(role): continue _, _, id_ = teuthology.split_role(role) if type_ == 'osd': datadir='/var/lib/ceph/osd/{cluster}-{id}'.format( cluster=cluster_name, id=id_) osd_uuid = teuthology.get_file( remote=remote, path=datadir + '/fsid', sudo=True, ).strip() osd_uuids[id_] = osd_uuid for osd_id in range(len(osd_uuids)): id_ = str(osd_id) osd_uuid = osd_uuids.get(id_) try: remote.run( args=[ 'sudo', 'ceph', '--cluster', cluster_name, 'osd', 'new', osd_uuid, id_, ] ) except: # fallback to pre-luminous (hammer or jewel) remote.run( args=[ 'sudo', 'ceph', '--cluster', cluster_name, 'osd', 'create', osd_uuid, ] ) if config.get('add_osds_to_crush'): remote.run( args=[ 'sudo', 'ceph', '--cluster', cluster_name, 'osd', 'crush', 'create-or-move', 'osd.' + id_, '1.0', 'host=localhost', 'root=default', ] ) for remote, roles_for_host in daemons.remotes.iteritems(): is_type_ = teuthology.is_type(type_, cluster_name) for role in roles_for_host: if not is_type_(role): continue _, _, id_ = teuthology.split_role(role) run_cmd = [ 'sudo', 'adjust-ulimits', 'ceph-coverage', coverage_dir, 'daemon-helper', daemon_signal, ] run_cmd_tail = [ 'ceph-%s' % (type_), '-f', '--cluster', cluster_name, '-i', id_] if type_ in config.get('cpu_profile', []): profile_path = '/var/log/ceph/profiling-logger/%s.prof' % (role) run_cmd.extend(['env', 'CPUPROFILE=%s' % profile_path]) if config.get('valgrind') is not None: valgrind_args = None if type_ in config['valgrind']: valgrind_args = config['valgrind'][type_] if role in config['valgrind']: valgrind_args = config['valgrind'][role] run_cmd = teuthology.get_valgrind_args(testdir, role, run_cmd, valgrind_args) run_cmd.extend(run_cmd_tail) # always register mgr; don't necessarily start ctx.daemons.register_daemon( remote, type_, id_, cluster=cluster_name, args=run_cmd, logger=log.getChild(role), stdin=run.PIPE, wait=False ) if type_ != 'mgr' or not config.get('skip_mgr_daemons', False): role = cluster_name + '.' + type_ ctx.daemons.get_daemon(type_, id_, cluster_name).restart() try: yield finally: teuthology.stop_daemons_of_type(ctx, type_, cluster_name) def healthy(ctx, config): """ Wait for all osd's to be up, and for the ceph health monitor to return HEALTH_OK. :param ctx: Context :param config: Configuration """ config = config if isinstance(config, dict) else dict() cluster_name = config.get('cluster', 'ceph') log.info('Waiting until %s daemons up and pgs clean...', cluster_name) manager = ctx.managers[cluster_name] try: manager.wait_for_mgr_available(timeout=30) except (run.CommandFailedError, AssertionError) as e: log.info('ignoring mgr wait error, probably testing upgrade: %s', e) firstmon = teuthology.get_first_mon(ctx, config, cluster_name) (mon0_remote,) = ctx.cluster.only(firstmon).remotes.keys() teuthology.wait_until_osds_up( ctx, cluster=ctx.cluster, remote=mon0_remote, ceph_cluster=cluster_name, ) try: manager.flush_all_pg_stats() except (run.CommandFailedError, Exception) as e: log.info('ignoring flush pg stats error, probably testing upgrade: %s', e) manager.wait_for_clean() if config.get('wait-for-healthy', True): log.info('Waiting until ceph cluster %s is healthy...', cluster_name) teuthology.wait_until_healthy( ctx, remote=mon0_remote, ceph_cluster=cluster_name, ) if ctx.cluster.only(teuthology.is_type('mds', cluster_name)).remotes: # Some MDSs exist, wait for them to be healthy ceph_fs = Filesystem(ctx) # TODO: make Filesystem cluster-aware ceph_fs.wait_for_daemons(timeout=300) def wait_for_osds_up(ctx, config): """ Wait for all osd's to come up. :param ctx: Context :param config: Configuration """ log.info('Waiting until ceph osds are all up...') cluster_name = config.get('cluster', 'ceph') firstmon = teuthology.get_first_mon(ctx, config, cluster_name) (mon0_remote,) = ctx.cluster.only(firstmon).remotes.keys() teuthology.wait_until_osds_up( ctx, cluster=ctx.cluster, remote=mon0_remote ) def wait_for_mon_quorum(ctx, config): """ Check renote ceph status until all monitors are up. :param ctx: Context :param config: Configuration """ if isinstance(config, dict): mons = config['daemons'] cluster_name = config.get('cluster', 'ceph') else: assert isinstance(config, list) mons = config cluster_name = 'ceph' firstmon = teuthology.get_first_mon(ctx, config, cluster_name) (remote,) = ctx.cluster.only(firstmon).remotes.keys() with contextutil.safe_while(sleep=10, tries=60, action='wait for monitor quorum') as proceed: while proceed(): r = remote.run( args=[ 'sudo', 'ceph', 'quorum_status', ], stdout=StringIO(), logger=log.getChild('quorum_status'), ) j = json.loads(r.stdout.getvalue()) q = j.get('quorum_names', []) log.debug('Quorum: %s', q) if sorted(q) == sorted(mons): break def created_pool(ctx, config): """ Add new pools to the dictionary of pools that the ceph-manager knows about. """ for new_pool in config: if new_pool not in ctx.managers['ceph'].pools: ctx.managers['ceph'].pools[new_pool] = ctx.managers['ceph'].get_pool_property( new_pool, 'pg_num') @contextlib.contextmanager def tweaked_option(ctx, config): """ set an option, and then restore it with its original value Note, due to the way how tasks are executed/nested, it's not suggested to use this method as a standalone task. otherwise, it's likely that it will restore the tweaked option at the /end/ of 'tasks' block. """ saved_options = {} # we can complicate this when necessary options = ['mon-health-to-clog'] type_, id_ = 'mon', '*' cluster = config.get('cluster', 'ceph') manager = ctx.managers[cluster] if id_ == '*': get_from = next(teuthology.all_roles_of_type(ctx.cluster, type_)) else: get_from = id_ for option in options: if option not in config: continue value = 'true' if config[option] else 'false' option = option.replace('-', '_') old_value = manager.get_config(type_, get_from, option) if value != old_value: saved_options[option] = old_value manager.inject_args(type_, id_, option, value) yield for option, value in saved_options.items(): manager.inject_args(type_, id_, option, value) @contextlib.contextmanager def restart(ctx, config): """ restart ceph daemons For example:: tasks: - ceph.restart: [all] For example:: tasks: - ceph.restart: [osd.0, mon.1, mds.*] or:: tasks: - ceph.restart: daemons: [osd.0, mon.1] wait-for-healthy: false wait-for-osds-up: true :param ctx: Context :param config: Configuration """ if config is None: config = {} elif isinstance(config, list): config = {'daemons': config} daemons = ctx.daemons.resolve_role_list(config.get('daemons', None), CEPH_ROLE_TYPES, True) clusters = set() manager = ctx.managers['ceph'] with tweaked_option(ctx, config): for role in daemons: cluster, type_, id_ = teuthology.split_role(role) ctx.daemons.get_daemon(type_, id_, cluster).restart() clusters.add(cluster) for dmon in daemons: if '.' in dmon: dm_parts = dmon.split('.') if dm_parts[1].isdigit(): if dm_parts[0] == 'osd': manager.mark_down_osd(int(dm_parts[1])) if config.get('wait-for-healthy', True): for cluster in clusters: healthy(ctx=ctx, config=dict(cluster=cluster)) if config.get('wait-for-osds-up', False): for cluster in clusters: wait_for_osds_up(ctx=ctx, config=dict(cluster=cluster)) yield @contextlib.contextmanager def stop(ctx, config): """ Stop ceph daemons For example:: tasks: - ceph.stop: [mds.*] tasks: - ceph.stop: [osd.0, osd.2] tasks: - ceph.stop: daemons: [osd.0, osd.2] """ if config is None: config = {} elif isinstance(config, list): config = {'daemons': config} daemons = ctx.daemons.resolve_role_list(config.get('daemons', None), CEPH_ROLE_TYPES, True) for role in daemons: cluster, type_, id_ = teuthology.split_role(role) ctx.daemons.get_daemon(type_, id_, cluster).stop() yield @contextlib.contextmanager def wait_for_failure(ctx, config): """ Wait for a failure of a ceph daemon For example:: tasks: - ceph.wait_for_failure: [mds.*] tasks: - ceph.wait_for_failure: [osd.0, osd.2] tasks: - ceph.wait_for_failure: daemons: [osd.0, osd.2] """ if config is None: config = {} elif isinstance(config, list): config = {'daemons': config} daemons = ctx.daemons.resolve_role_list(config.get('daemons', None), CEPH_ROLE_TYPES, True) for role in daemons: cluster, type_, id_ = teuthology.split_role(role) try: ctx.daemons.get_daemon(type_, id_, cluster).wait() except: log.info('Saw expected daemon failure. Continuing.') pass else: raise RuntimeError('daemon %s did not fail' % role) yield def validate_config(ctx, config): """ Perform some simple validation on task configuration. Raises exceptions.ConfigError if an error is found. """ # check for osds from multiple clusters on the same host for remote, roles_for_host in ctx.cluster.remotes.items(): last_cluster = None last_role = None for role in roles_for_host: role_cluster, role_type, _ = teuthology.split_role(role) if role_type != 'osd': continue if last_cluster and last_cluster != role_cluster: msg = "Host should not have osds (%s and %s) from multiple clusters" % ( last_role, role) raise exceptions.ConfigError(msg) last_cluster = role_cluster last_role = role @contextlib.contextmanager def task(ctx, config): """ Set up and tear down a Ceph cluster. For example:: tasks: - ceph: - interactive: You can also specify what branch to run:: tasks: - ceph: branch: foo Or a tag:: tasks: - ceph: tag: v0.42.13 Or a sha1:: tasks: - ceph: sha1: 1376a5ab0c89780eab39ffbbe436f6a6092314ed Or a local source dir:: tasks: - ceph: path: /home/sage/ceph To capture code coverage data, use:: tasks: - ceph: coverage: true To use btrfs, ext4, or xfs on the target's scratch disks, use:: tasks: - ceph: fs: xfs mkfs_options: [-b,size=65536,-l,logdev=/dev/sdc1] mount_options: [nobarrier, inode64] Note, this will cause the task to check the /scratch_devs file on each node for available devices. If no such file is found, /dev/sdb will be used. To run some daemons under valgrind, include their names and the tool/args to use in a valgrind section:: tasks: - ceph: valgrind: mds.1: --tool=memcheck osd.1: [--tool=memcheck, --leak-check=no] Those nodes which are using memcheck or valgrind will get checked for bad results. To adjust or modify config options, use:: tasks: - ceph: conf: section: key: value For example:: tasks: - ceph: conf: mds.0: some option: value other key: other value client.0: debug client: 10 debug ms: 1 By default, the cluster log is checked for errors and warnings, and the run marked failed if any appear. You can ignore log entries by giving a list of egrep compatible regexes, i.e.: tasks: - ceph: log-whitelist: ['foo.*bar', 'bad message'] To run multiple ceph clusters, use multiple ceph tasks, and roles with a cluster name prefix, e.g. cluster1.client.0. Roles with no cluster use the default cluster name, 'ceph'. OSDs from separate clusters must be on separate hosts. Clients and non-osd daemons from multiple clusters may be colocated. For each cluster, add an instance of the ceph task with the cluster name specified, e.g.:: roles: - [mon.a, osd.0, osd.1] - [backup.mon.a, backup.osd.0, backup.osd.1] - [client.0, backup.client.0] tasks: - ceph: cluster: ceph - ceph: cluster: backup :param ctx: Context :param config: Configuration """ if config is None: config = {} assert isinstance(config, dict), \ "task ceph only supports a dictionary for configuration" overrides = ctx.config.get('overrides', {}) teuthology.deep_merge(config, overrides.get('ceph', {})) first_ceph_cluster = False if not hasattr(ctx, 'daemons'): first_ceph_cluster = True ctx.daemons = DaemonGroup() testdir = teuthology.get_testdir(ctx) if config.get('coverage'): coverage_dir = '{tdir}/archive/coverage'.format(tdir=testdir) log.info('Creating coverage directory...') run.wait( ctx.cluster.run( args=[ 'install', '-d', '-m0755', '--', coverage_dir, ], wait=False, ) ) if 'cluster' not in config: config['cluster'] = 'ceph' validate_config(ctx, config) subtasks = [] if first_ceph_cluster: # these tasks handle general log setup and parsing on all hosts, # so they should only be run once subtasks = [ lambda: ceph_log(ctx=ctx, config=None), lambda: valgrind_post(ctx=ctx, config=config), ] subtasks += [ lambda: cluster(ctx=ctx, config=dict( conf=config.get('conf', {}), fs=config.get('fs', 'xfs'), mkfs_options=config.get('mkfs_options', None), mount_options=config.get('mount_options', None), block_journal=config.get('block_journal', None), tmpfs_journal=config.get('tmpfs_journal', None), skip_mgr_daemons=config.get('skip_mgr_daemons', False), log_whitelist=config.get('log-whitelist', []), cpu_profile=set(config.get('cpu_profile', []),), cluster=config['cluster'], )), lambda: run_daemon(ctx=ctx, config=config, type_='mon'), lambda: run_daemon(ctx=ctx, config=config, type_='mgr'), lambda: crush_setup(ctx=ctx, config=config), lambda: run_daemon(ctx=ctx, config=config, type_='osd'), lambda: create_rbd_pool(ctx=ctx, config=config), lambda: cephfs_setup(ctx=ctx, config=config), lambda: run_daemon(ctx=ctx, config=config, type_='mds'), ] with contextutil.nested(*subtasks): first_mon = teuthology.get_first_mon(ctx, config, config['cluster']) (mon,) = ctx.cluster.only(first_mon).remotes.iterkeys() if not hasattr(ctx, 'managers'): ctx.managers = {} ctx.managers[config['cluster']] = CephManager( mon, ctx=ctx, logger=log.getChild('ceph_manager.' + config['cluster']), cluster=config['cluster'], ) try: if config.get('wait-for-healthy', True): healthy(ctx=ctx, config=dict(cluster=config['cluster'])) yield finally: if config.get('wait-for-scrub', True): osd_scrub_pgs(ctx, config) # stop logging health to clog during shutdown, or else we generate # a bunch of scary messages unrelated to our actual run. firstmon = teuthology.get_first_mon(ctx, config, config['cluster']) (mon0_remote,) = ctx.cluster.only(firstmon).remotes.keys() mon0_remote.run( args=[ 'sudo', 'ceph', '--cluster', config['cluster'], 'tell', 'mon.*', 'injectargs', '--', '--no-mon-health-to-clog', ] )