#!/usr/bin/env python3 # CehpInstance.py - Class implementing a PVC node Ceph instance # Part of the Parallel Virtual Cluster (PVC) system # # Copyright (C) 2018 Joshua M. Boniface # # This program is free software: you can redistribute it and/or modify # it under the terms of the GNU General Public License as published by # the Free Software Foundation, either version 3 of the License, or # (at your option) any later version. # # This program 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 General Public License for more details. # # You should have received a copy of the GNU General Public License # along with this program. If not, see . # ############################################################################### import time import ast import json import psutil import pvcd.log as log import pvcd.zkhandler as zkhandler import pvcd.fencing as fencing import pvcd.common as common class CephOSDInstance(object): def __init__(self, zk_conn, this_node, osd_id): self.zk_conn = zk_conn self.this_node = this_node self.osd_id = osd_id self.node = None self.size = None self.stats = dict() @self.zk_conn.DataWatch('/ceph/osds/{}/node'.format(self.osd_id)) def watch_osd_node(data, stat, event=''): if event and event.type == 'DELETED': # The key has been deleted after existing before; terminate this watcher # because this class instance is about to be reaped in Daemon.py return False try: data = data.decode('ascii') except AttributeError: data = '' if data and data != self.node: self.node = data @self.zk_conn.DataWatch('/ceph/osds/{}/stats'.format(self.osd_id)) def watch_osd_stats(data, stat, event=''): if event and event.type == 'DELETED': # The key has been deleted after existing before; terminate this watcher # because this class instance is about to be reaped in Daemon.py return False try: data = data.decode('ascii') except AttributeError: data = '' if data and data != self.stats: self.stats = json.loads(data) def add_osd(zk_conn, logger, node, device): # We are ready to create a new OSD on this node logger.out('Creating new OSD disk', state='i') try: # 1. Create an OSD; we do this so we know what ID will be gen'd retcode, stdout, stderr = common.run_os_command('ceph osd create') if retcode: print('ceph osd create') print(stdout) print(stderr) raise osd_id = stdout.rstrip() # 2. Remove that newly-created OSD retcode, stdout, stderr = common.run_os_command('ceph osd rm {}'.format(osd_id)) if retcode: print('ceph osd rm') print(stdout) print(stderr) raise # 3. Create the OSD for real retcode, stdout, stderr = common.run_os_command( 'ceph-volume lvm prepare --bluestore --data {device}'.format( osdid=osd_id, device=device ) ) if retcode: print('ceph-volume lvm prepare') print(stdout) print(stderr) raise # 4. Activate the OSD retcode, stdout, stderr = common.run_os_command( 'ceph-volume lvm activate --bluestore {osdid}'.format( osdid=osd_id ) ) if retcode: print('ceph-volume lvm activate') print(stdout) print(stderr) raise # 5. Add it to the crush map retcode, stdout, stderr = common.run_os_command( 'ceph osd crush add osd.{osdid} 1.0 root=default host={node}'.format( osdid=osd_id, node=node ) ) if retcode: print('ceph osd crush add') print(stdout) print(stderr) raise time.sleep(0.5) # 6. Verify it started retcode, stdout, stderr = common.run_os_command( 'systemctl status ceph-osd@{osdid}'.format( osdid=osd_id ) ) if retcode: print('systemctl status') print(stdout) print(stderr) raise # 7. Add the new OSD to the list zkhandler.writedata(zk_conn, { '/ceph/osds/{}'.format(osd_id): '', '/ceph/osds/{}/node'.format(osd_id): node, '/ceph/osds/{}/device'.format(osd_id): device, '/ceph/osds/{}/stats'.format(osd_id): '{}' }) # Log it logger.out('Created new OSD disk with ID {}'.format(osd_id), state='o') return True except Exception as e: # Log it logger.out('Failed to create new OSD disk: {}'.format(e), state='e') return False def remove_osd(zk_conn, logger, osd_id, osd_obj): logger.out('Removing OSD disk {}'.format(osd_id), state='i') try: # 1. Verify the OSD is present retcode, stdout, stderr = common.run_os_command('ceph osd ls') osd_list = stdout.split('\n') if not osd_id in osd_list: logger.out('Could not find OSD {} in the cluster'.format(osd_id), state='e') return True # 1. Set the OSD out so it will flush retcode, stdout, stderr = common.run_os_command('ceph osd out {}'.format(osd_id)) if retcode: print('ceph osd out') print(stdout) print(stderr) raise # 2. Wait for the OSD to flush osd_string = str() while True: retcode, stdout, stderr = common.run_os_command('ceph pg dump osds --format json') dump_string = json.loads(stdout) for osd in dump_string: if str(osd['osd']) == osd_id: osd_string = osd num_pgs = osd_string['num_pgs'] if num_pgs > 0: time.sleep(5) else: break # 3. Stop the OSD process and wait for it to be terminated retcode, stdout, stderr = common.run_os_command('systemctl stop ceph-osd@{}'.format(osd_id)) if retcode: print('systemctl stop') print(stdout) print(stderr) raise # FIXME: There has to be a better way to do this /shrug while True: is_osd_up = False # Find if there is a process named ceph-osd with arg '--id {id}' for p in psutil.process_iter(attrs=['name', 'cmdline']): if 'ceph-osd' == p.info['name'] and '--id {}'.format(osd_id) in ' '.join(p.info['cmdline']): is_osd_up = True # If there isn't, continue if not is_osd_up: break # 4. Delete OSD from ZK zkhandler.deletekey(zk_conn, '/ceph/osds/{}'.format(osd_id)) # 5. Determine the block devices retcode, stdout, stderr = common.run_os_command('readlink /var/lib/ceph/osd/ceph-{}/block'.format(osd_id)) vg_name = stdout.split('/')[-2] # e.g. /dev/ceph-/osd-block- retcode, stdout, stderr = common.run_os_command('vgs --separator , --noheadings -o pv_name {}'.format(vg_name)) pv_block = stdout # 6. Zap the volumes retcode, stdout, stderr = common.run_os_command('ceph-volume lvm zap --destroy {}'.format(pv_block)) if retcode: print('ceph-volume lvm zap') print(stdout) print(stderr) raise # 7. Purge the OSD from Ceph retcode, stdout, stderr = common.run_os_command('ceph osd purge {} --yes-i-really-mean-it'.format(osd_id)) if retcode: print('ceph osd purge') print(stdout) print(stderr) raise # Log it logger.out('Purged OSD disk with ID {}'.format(osd_id), state='o') return True except Exception as e: # Log it logger.out('Failed to purge OSD disk with ID {}: {}'.format(osd_id, e), state='e') return False def in_osd(zk_conn, logger, osd_id): # We are ready to create a new pool on this node logger.out('Setting OSD {} in'.format(osd_id), state='i') try: # 1. Set it in retcode, stdout, stderr = common.run_os_command('ceph osd in {}'.format(osd_id)) if retcode: print('ceph osd in') print(stdout) print(stderr) raise # Log it logger.out('Set OSD {} in'.format(osd_id), state='o') return True except Exception as e: # Log it logger.out('Failed to set OSD {} in: {}'.format(osd_id, e), state='e') return False def out_osd(zk_conn, logger, osd_id): # We are ready to create a new pool on this node logger.out('Settoutg OSD {} out'.format(osd_id), state='i') try: # 1. Set it out retcode, stdout, stderr = common.run_os_command('ceph osd out {}'.format(osd_id)) if retcode: proutt('ceph osd out') proutt(stdout) proutt(stderr) raise # Log it logger.out('Set OSD {} out'.format(osd_id), state='o') return True except Exception as e: # Log it logger.out('Failed to set OSD {} out: {}'.format(osd_id, e), state='e') return False def set_property(zk_conn, logger, option): # We are ready to create a new pool on this node logger.out('Setting OSD property {}'.format(option), state='i') try: # 1. Set it in retcode, stdout, stderr = common.run_os_command('ceph osd set {}'.format(option)) if retcode: prsett('ceph osd set') print(stdout) print(stderr) raise # Log it logger.out('Set OSD property {}'.format(option), state='o') return True except Exception as e: # Log it logger.out('Failed to set OSD property {}: {}'.format(option, e), state='e') return False def unset_property(zk_conn, logger, option): # We are ready to create a new pool on this node logger.out('Unsetting OSD property {}'.format(option), state='i') try: # 1. Set it in retcode, stdout, stderr = common.run_os_command('ceph osd unset {}'.format(option)) if retcode: prunsett('ceph osd unset') print(stdout) print(stderr) raise # Log it logger.out('Unset OSD property {}'.format(option), state='o') return True except Exception as e: # Log it logger.out('Failed to unset OSD property {}: {}'.format(option, e), state='e') return False class CephPoolInstance(object): def __init__(self, zk_conn, this_node, name): self.zk_conn = zk_conn self.this_node = this_node self.name = name self.pgs = '' self.stats = dict() @self.zk_conn.DataWatch('/ceph/pools/{}/pgs'.format(self.name)) def watch_pool_node(data, stat, event=''): if event and event.type == 'DELETED': # The key has been deleted after existing before; terminate this watcher # because this class instance is about to be reaped in Daemon.py return False try: data = data.decode('ascii') except AttributeError: data = '' if data and data != self.pgs: self.pgs = data @self.zk_conn.DataWatch('/ceph/pools/{}/stats'.format(self.name)) def watch_pool_stats(data, stat, event=''): if event and event.type == 'DELETED': # The key has been deleted after existing before; terminate this watcher # because this class instance is about to be reaped in Daemon.py return False try: data = data.decode('ascii') except AttributeError: data = '' if data and data != self.stats: self.stats = json.loads(data) def add_pool(zk_conn, logger, name, pgs): # We are ready to create a new pool on this node logger.out('Creating new RBD pool {}'.format(name), state='i') try: # 1. Create the pool retcode, stdout, stderr = common.run_os_command('ceph osd pool create {} {} replicated'.format(name, pgs)) if retcode: print('ceph osd pool create') print(stdout) print(stderr) raise # 2. Enable RBD application retcode, stdout, stderr = common.run_os_command('ceph osd pool application enable {} rbd'.format(name)) if retcode: print('ceph osd pool application enable') print(stdout) print(stderr) raise # 3. Add the new pool to ZK zkhandler.writedata(zk_conn, { '/ceph/pools/{}'.format(name): '', '/ceph/pools/{}/pgs'.format(name): pgs, '/ceph/pools/{}/stats'.format(name): '{}' }) # Log it logger.out('Created new RBD pool {}'.format(name), state='o') return True except Exception as e: # Log it logger.out('Failed to create new RBD pool {}: {}'.format(name, e), state='e') return False def remove_pool(zk_conn, logger, name): # We are ready to create a new pool on this node logger.out('Removing RBD pool {}'.format(name), state='i') try: # Delete pool from ZK zkhandler.deletekey(zk_conn, '/ceph/pools/{}'.format(name)) # Remove the pool retcode, stdout, stderr = common.run_os_command('ceph osd pool rm {pool} {pool} --yes-i-really-really-mean-it'.format(pool=name)) if retcode: print('ceph osd pool rm') print(stdout) print(stderr) raise # Log it logger.out('Removed RBD pool {}'.format(name), state='o') return True except Exception as e: # Log it logger.out('Failed to remove RBD pool {}: {}'.format(name, e), state='e') return False