#!/usr/bin/env python3 # CephInstance.py - Class implementing a PVC node Ceph instance # Part of the Parallel Virtual Cluster (PVC) system # # Copyright (C) 2018-2022 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, version 3. # # 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 json import daemon_lib.common as common from daemon_lib.ceph import format_bytes_fromhuman from distutils.util import strtobool from re import search, match, sub from json import loads as jloads def get_detect_device(detect_string): """ Parses a "detect:" string into a normalized block device path using lsscsi. A detect string is formatted "detect:::", where NAME is some unique identifier in lsscsi, SIZE is a human-readable size value to within +/- 3% of the real size of the device, and ID is the Nth (0-indexed) matching entry of that NAME and SIZE. """ _, name, size, idd = detect_string.split(":") if _ != "detect": return None retcode, stdout, stderr = common.run_os_command("lsscsi -s") if retcode: print(f"Failed to run lsscsi: {stderr}") return None # Get valid lines lsscsi_lines_raw = stdout.split("\n") lsscsi_lines = list() for line in lsscsi_lines_raw: if not line: continue split_line = line.split() if split_line[1] != "disk": continue lsscsi_lines.append(line) # Handle size determination (+/- 3%) lsscsi_sizes = set() for line in lsscsi_lines: lsscsi_sizes.add(split_line[-1]) for l_size in lsscsi_sizes: b_size = float(sub(r"\D.", "", size)) t_size = float(sub(r"\D.", "", l_size)) plusthreepct = t_size * 1.03 minusthreepct = t_size * 0.97 if b_size > minusthreepct and b_size < plusthreepct: size = l_size break blockdev = None matches = list() for idx, line in enumerate(lsscsi_lines): # Skip non-disk entries if line.split()[1] != "disk": continue # Skip if name is not contained in the line (case-insensitive) if name.lower() not in line.lower(): continue # Skip if the size does not match if size != line.split()[-1]: continue # Get our blockdev and append to the list matches.append(line.split()[-2]) blockdev = None # Find the blockdev at index {idd} for idx, _blockdev in enumerate(matches): if int(idx) == int(idd): blockdev = _blockdev break return blockdev class CephOSDInstance(object): def __init__(self, zkhandler, logger, this_node, osd_id): self.zkhandler = zkhandler self.logger = logger self.this_node = this_node self.osd_id = osd_id self.node = None self.device = None self.vg = None self.lv = None self.stats = dict() @self.zkhandler.zk_conn.DataWatch( self.zkhandler.schema.path("osd.node", 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.zkhandler.zk_conn.DataWatch( self.zkhandler.schema.path("osd.stats", 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) @self.zkhandler.zk_conn.DataWatch( self.zkhandler.schema.path("osd.device", self.osd_id) ) def watch_osd_device(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.device: self.device = data # Exception conditional for migration from schema v7 to schema v8 try: @self.zkhandler.zk_conn.DataWatch( self.zkhandler.schema.path("osd.vg", self.osd_id) ) def watch_osd_vg(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.vg: self.vg = data @self.zkhandler.zk_conn.DataWatch( self.zkhandler.schema.path("osd.lv", self.osd_id) ) def watch_osd_lv(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.lv: self.lv = data if self.node == self.this_node.name: self.update_information() except TypeError: return def update_information(self): if self.vg is not None and self.lv is not None: find_device = f"/dev/{self.vg}/{self.lv}" else: find_device = self.device self.logger.out( f"Updating stored disk information for OSD {self.osd_id}", state="i", ) retcode, stdout, stderr = common.run_os_command( f"ceph-volume lvm list {find_device}" ) osd_blockdev = None osd_fsid = None osd_clusterfsid = None osd_device = None for line in stdout.split("\n"): if "block device" in line: osd_blockdev = line.split()[-1] if "osd fsid" in line: osd_fsid = line.split()[-1] if "cluster fsid" in line: osd_clusterfsid = line.split()[-1] if "devices" in line: osd_device = line.split()[-1] if not osd_blockdev or not osd_fsid or not osd_clusterfsid or not osd_device: self.logger.out( f"Failed to find updated OSD information via ceph-volume for {find_device}", state="e", ) return # Split OSD blockdev into VG and LV components # osd_blockdev = /dev/ceph-/osd-block- _, _, osd_vg, osd_lv = osd_blockdev.split("/") # Except for potentially the "osd.device", this should never change, but this ensures # that the data is added at lease once on initialization for existing OSDs. self.zkhandler.write( [ (("osd.device", self.osd_id), osd_device), (("osd.fsid", self.osd_id), ""), (("osd.ofsid", self.osd_id), osd_fsid), (("osd.cfsid", self.osd_id), osd_clusterfsid), (("osd.lvm", self.osd_id), ""), (("osd.vg", self.osd_id), osd_vg), (("osd.lv", self.osd_id), osd_lv), ] ) self.device = osd_device self.vg = osd_vg self.lv = osd_lv @staticmethod def add_osd( zkhandler, logger, node, device, weight, ext_db_ratio=None, ext_db_size=None, split_count=None, ): # Handle a detect device if that is passed if match(r"detect:", device): ddevice = get_detect_device(device) if ddevice is None: logger.out( f"Failed to determine block device from detect string {device}", state="e", ) return False else: logger.out( f"Determined block device {ddevice} from detect string {device}", state="i", ) device = ddevice if ext_db_size is not None and ext_db_ratio is not None: logger.out( "Invalid configuration: both an ext_db_size and ext_db_ratio were specified", state="e", ) return False if ext_db_size is not None or ext_db_ratio is not None: ext_db_flag = True else: ext_db_flag = False if split_count is not None: split_flag = f"--osds-per-device {split_count}" is_split = True logger.out( f"Creating {split_count} new OSD disks on block device {device}", state="i", ) else: split_flag = "" is_split = False logger.out(f"Creating 1 new OSD disk on block device {device}", state="i") if "nvme" in device: class_flag = "--crush-device-class nvme" else: class_flag = "--crush-device-class ssd" try: # 1. Zap the block device logger.out(f"Zapping disk {device}", state="i") retcode, stdout, stderr = common.run_os_command( f"ceph-volume lvm zap --destroy {device}" ) if retcode: logger.out("Failed: ceph-volume lvm zap", state="e") logger.out(stdout, state="d") logger.out(stderr, state="d") raise Exception # 2. Prepare the OSD(s) logger.out(f"Preparing OSD(s) on disk {device}", state="i") retcode, stdout, stderr = common.run_os_command( f"ceph-volume lvm batch --yes --prepare --bluestore {split_flag} {class_flag} {device}" ) if retcode: logger.out("Failed: ceph-volume lvm batch", state="e") logger.out(stdout, state="d") logger.out(stderr, state="d") raise Exception # 3. Get the list of created OSDs on the device (initial pass) logger.out(f"Querying OSD(s) on disk {device}", state="i") retcode, stdout, stderr = common.run_os_command( f"ceph-volume lvm list --format json {device}" ) if retcode: logger.out("Failed: ceph-volume lvm list", state="e") logger.out(stdout, state="d") logger.out(stderr, state="d") raise Exception created_osds = jloads(stdout) # 4. Prepare the WAL and DB devices if ext_db_flag: for created_osd in created_osds: # 4a. Get the OSD FSID and ID from the details osd_details = created_osds[created_osd][0] osd_fsid = osd_details["tags"]["ceph.osd_fsid"] osd_id = osd_details["tags"]["ceph.osd_id"] osd_lv = osd_details["lv_path"] logger.out( f"Creating Bluestore DB volume for OSD {osd_id}", state="i" ) # 4b. Prepare the logical volume if ext_db_flag if ext_db_ratio is not None: _, osd_size_bytes, _ = common.run_os_command( f"blockdev --getsize64 {osd_lv}" ) osd_size_bytes = int(osd_size_bytes) osd_db_size_bytes = int(osd_size_bytes * ext_db_ratio) if ext_db_size is not None: osd_db_size_bytes = format_bytes_fromhuman(ext_db_size) result = CephOSDInstance.create_osd_db_lv( zkhandler, logger, osd_id, osd_db_size_bytes ) if not result: raise Exception db_device = f"osd-db/osd-{osd_id}" # 4c. Attach the new DB device to the OSD retcode, stdout, stderr = common.run_os_command( f"ceph-volume lvm new-db --osd-id {osd_id} --osd-fsid {osd_fsid} --target {db_device}" ) if retcode: logger.out("Failed: ceph-volume lvm new-db", state="e") logger.out(stdout, state="d") logger.out(stderr, state="d") raise Exception # 4d. Get the list of created OSDs on the device (final pass) logger.out(f"(Requerying OSD(s) on disk {device}", state="i") retcode, stdout, stderr = common.run_os_command( f"ceph-volume lvm list --format json {device}" ) if retcode: logger.out("Failed: ceph-volume lvm list", state="e") logger.out(stdout, state="d") logger.out(stderr, state="d") raise Exception created_osds = jloads(stdout) # 5. Activate the OSDs logger.out(f"Activating OSD(s) on disk {device}", state="i") for created_osd in created_osds: # 5a. Get the OSD FSID and ID from the details osd_details = created_osds[created_osd][0] osd_clusterfsid = osd_details["tags"]["ceph.cluster_fsid"] osd_fsid = osd_details["tags"]["ceph.osd_fsid"] osd_id = osd_details["tags"]["ceph.osd_id"] db_device = osd_details["tags"].get("ceph.db_device", "") osd_vg = osd_details["vg_name"] osd_lv = osd_details["lv_name"] # 5b. Activate the OSD logger.out(f"Activating OSD {osd_id}", state="i") retcode, stdout, stderr = common.run_os_command( f"ceph-volume lvm activate --bluestore {osd_id} {osd_fsid}" ) if retcode: logger.out("Failed: ceph-volume lvm activate", state="e") logger.out(stdout, state="d") logger.out(stderr, state="d") raise Exception # 5c. Add it to the crush map logger.out(f"Adding OSD {osd_id} to CRUSH map", state="i") retcode, stdout, stderr = common.run_os_command( f"ceph osd crush add osd.{osd_id} {weight} root=default host={node}" ) if retcode: logger.out("Failed: ceph osd crush add", state="e") logger.out(stdout, state="d") logger.out(stderr, state="d") raise Exception # 5d. Wait half a second for it to activate time.sleep(0.5) # 5e. Verify it started retcode, stdout, stderr = common.run_os_command( "systemctl status ceph-osd@{osdid}".format(osdid=osd_id) ) if retcode: logger.out(f"Failed: OSD {osd_id} unit is not active", state="e") logger.out(stdout, state="d") logger.out(stderr, state="d") raise Exception # 5f. Add the new OSD to PVC logger.out(f"Adding OSD {osd_id} to PVC", state="i") zkhandler.write( [ (("osd", osd_id), ""), (("osd.node", osd_id), node), (("osd.device", osd_id), device), (("osd.db_device", osd_id), db_device), (("osd.fsid", osd_id), osd_fsid), (("osd.ofsid", osd_id), osd_fsid), (("osd.cfsid", osd_id), osd_clusterfsid), (("osd.lvm", osd_id), ""), (("osd.vg", osd_id), osd_vg), (("osd.lv", osd_id), osd_lv), (("osd.is_split", osd_id), is_split), ( ("osd.stats", osd_id), '{"uuid": "|", "up": 0, "in": 0, "primary_affinity": "|", "utilization": "|", "var": "|", "pgs": "|", "kb": "|", "weight": "|", "reweight": "|", "node": "|", "used": "|", "avail": "|", "wr_ops": "|", "wr_data": "|", "rd_ops": "|", "rd_data": "|", "state": "|"}', ), ] ) # 6. Log it logger.out( f"Successfully created {split_count} new OSD(s) {','.join(created_osds.keys())} on disk {device}", state="o", ) return True except Exception as e: logger.out( f"Failed to create {split_count} new OSD(s) on disk {device}: {e}", state="e", ) return False @staticmethod def replace_osd( zkhandler, logger, node, osd_id, old_device, new_device, weight, ext_db_flag=False, ): # Handle a detect device if that is passed if match(r"detect:", new_device): ddevice = get_detect_device(new_device) if ddevice is None: logger.out( f"Failed to determine block device from detect string {new_device}", state="e", ) return False else: logger.out( f"Determined block device {ddevice} from detect string {new_device}", state="i", ) new_device = ddevice # We are ready to create a new OSD on this node logger.out( "Replacing OSD {} disk with block device {}".format(osd_id, new_device), state="i", ) try: # Verify the OSD is present retcode, stdout, stderr = common.run_os_command("ceph osd ls") osd_list = stdout.split("\n") if osd_id not in osd_list: logger.out( "Could not find OSD {} in the cluster".format(osd_id), state="e" ) return True # 1. Set the OSD down and out so it will flush logger.out("Setting down OSD disk with ID {}".format(osd_id), state="i") retcode, stdout, stderr = common.run_os_command( "ceph osd down {}".format(osd_id) ) if retcode: print("ceph osd down") print(stdout) print(stderr) raise Exception logger.out("Setting out OSD disk with ID {}".format(osd_id), state="i") retcode, stdout, stderr = common.run_os_command( "ceph osd out {}".format(osd_id) ) if retcode: print("ceph osd out") print(stdout) print(stderr) raise Exception # 2. Wait for the OSD to be safe to remove (but don't wait for rebalancing to complete) logger.out(f"Waiting for OSD {osd_id} to be safe to remove", state="i") while True: retcode, stdout, stderr = common.run_os_command( f"ceph osd safe-to-destroy osd.{osd_id}" ) if retcode in [0, 11]: # Code 0 = success # Code 11 = "Error EAGAIN: OSD(s) 5 have no reported stats, and not all PGs are active+clean; we cannot draw any conclusions." which means all PGs have been remappped but backfill is still occurring break else: time.sleep(5) # 3. Stop the OSD process logger.out("Stopping OSD disk with ID {}".format(osd_id), state="i") retcode, stdout, stderr = common.run_os_command( "systemctl stop ceph-osd@{}".format(osd_id) ) if retcode: print("systemctl stop") print(stdout) print(stderr) raise Exception time.sleep(2) # 4. Destroy the OSD logger.out("Destroying OSD with ID {osd_id}", state="i") retcode, stdout, stderr = common.run_os_command( f"ceph osd destroy {osd_id} --yes-i-really-mean-it" ) if retcode: print("ceph osd destroy") print(stdout) print(stderr) raise Exception # 5. Adjust the weight logger.out( "Adjusting weight of OSD disk with ID {} in CRUSH map".format(osd_id), state="i", ) retcode, stdout, stderr = common.run_os_command( "ceph osd crush reweight osd.{osdid} {weight}".format( osdid=osd_id, weight=weight ) ) if retcode: print("ceph osd crush reweight") print(stdout) print(stderr) raise Exception # 6a. Zap the new disk to ensure it is ready to go logger.out("Zapping disk {}".format(new_device), state="i") retcode, stdout, stderr = common.run_os_command( "ceph-volume lvm zap --destroy {}".format(new_device) ) if retcode: print("ceph-volume lvm zap") print(stdout) print(stderr) raise Exception dev_flags = "--data {}".format(new_device) # 6b. Prepare the logical volume if ext_db_flag if ext_db_flag: db_device = "osd-db/osd-{}".format(osd_id) dev_flags += " --block.db {}".format(db_device) else: db_device = "" # 6c. Replace the OSD logger.out( "Preparing LVM for replaced OSD {} disk on {}".format( osd_id, new_device ), state="i", ) retcode, stdout, stderr = common.run_os_command( "ceph-volume lvm prepare --osd-id {osdid} --bluestore {devices}".format( osdid=osd_id, devices=dev_flags ) ) if retcode: print("ceph-volume lvm prepare") print(stdout) print(stderr) raise Exception # 7a. Get OSD information logger.out( "Getting OSD information for ID {} on {}".format(osd_id, new_device), state="i", ) retcode, stdout, stderr = common.run_os_command( "ceph-volume lvm list {device}".format(device=new_device) ) for line in stdout.split("\n"): if "block device" in line: osd_blockdev = line.split()[-1] if "osd fsid" in line: osd_fsid = line.split()[-1] if "cluster fsid" in line: osd_clusterfsid = line.split()[-1] if "devices" in line: osd_device = line.split()[-1] if not osd_fsid: print("ceph-volume lvm list") print("Could not find OSD information in data:") print(stdout) print(stderr) raise Exception # Split OSD blockdev into VG and LV components # osd_blockdev = /dev/ceph-/osd-block- _, _, osd_vg, osd_lv = osd_blockdev.split("/") # Reset whatever we were given to Ceph's /dev/xdX naming if new_device != osd_device: new_device = osd_device # 7b. Activate the OSD logger.out("Activating new OSD disk with ID {}".format(osd_id), state="i") retcode, stdout, stderr = common.run_os_command( "ceph-volume lvm activate --bluestore {osdid} {osdfsid}".format( osdid=osd_id, osdfsid=osd_fsid ) ) if retcode: print("ceph-volume lvm activate") print(stdout) print(stderr) raise Exception time.sleep(0.5) # 8. 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 Exception # 9. Update Zookeeper information logger.out( "Adding new OSD disk with ID {} to Zookeeper".format(osd_id), state="i" ) zkhandler.write( [ (("osd", osd_id), ""), (("osd.node", osd_id), node), (("osd.device", osd_id), new_device), (("osd.db_device", osd_id), db_device), (("osd.fsid", osd_id), ""), (("osd.ofsid", osd_id), osd_fsid), (("osd.cfsid", osd_id), osd_clusterfsid), (("osd.lvm", osd_id), ""), (("osd.vg", osd_id), osd_vg), (("osd.lv", osd_id), osd_lv), ( ("osd.stats", osd_id), '{"uuid": "|", "up": 0, "in": 0, "primary_affinity": "|", "utilization": "|", "var": "|", "pgs": "|", "kb": "|", "weight": "|", "reweight": "|", "node": "|", "used": "|", "avail": "|", "wr_ops": "|", "wr_data": "|", "rd_ops": "|", "rd_data": "|", "state": "|"}', ), ] ) # Log it logger.out( "Replaced OSD {} disk with device {}".format(osd_id, new_device), state="o", ) return True except Exception as e: # Log it logger.out("Failed to replace OSD {} disk: {}".format(osd_id, e), state="e") return False @staticmethod def refresh_osd(zkhandler, logger, node, osd_id, device, ext_db_flag): # Handle a detect device if that is passed if match(r"detect:", device): ddevice = get_detect_device(device) if ddevice is None: logger.out( f"Failed to determine block device from detect string {device}", state="e", ) return False else: logger.out( f"Determined block device {ddevice} from detect string {device}", state="i", ) device = ddevice # We are ready to create a new OSD on this node logger.out( "Refreshing OSD {} disk on block device {}".format(osd_id, device), 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 osd_id not in osd_list: logger.out( "Could not find OSD {} in the cluster".format(osd_id), state="e" ) return True dev_flags = "--data {}".format(device) if ext_db_flag: db_device = "osd-db/osd-{}".format(osd_id) dev_flags += " --block.db {}".format(db_device) else: db_device = "" # 2. Get OSD information logger.out( "Getting OSD information for ID {} on {}".format(osd_id, device), state="i", ) retcode, stdout, stderr = common.run_os_command( "ceph-volume lvm list {device}".format(device=device) ) for line in stdout.split("\n"): if "block device" in line: osd_blockdev = line.split()[-1] if "osd fsid" in line: osd_fsid = line.split()[-1] if "cluster fsid" in line: osd_clusterfsid = line.split()[-1] if "devices" in line: osd_device = line.split()[-1] if not osd_fsid: print("ceph-volume lvm list") print("Could not find OSD information in data:") print(stdout) print(stderr) raise Exception # Split OSD blockdev into VG and LV components # osd_blockdev = /dev/ceph-/osd-block- _, _, osd_vg, osd_lv = osd_blockdev.split("/") # Reset whatever we were given to Ceph's /dev/xdX naming if device != osd_device: device = osd_device # 3. Activate the OSD logger.out("Activating new OSD disk with ID {}".format(osd_id), state="i") retcode, stdout, stderr = common.run_os_command( "ceph-volume lvm activate --bluestore {osdid} {osdfsid}".format( osdid=osd_id, osdfsid=osd_fsid ) ) if retcode: print("ceph-volume lvm activate") print(stdout) print(stderr) raise Exception time.sleep(0.5) # 4. 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 Exception # 5. Update Zookeeper information logger.out( "Adding new OSD disk with ID {} to Zookeeper".format(osd_id), state="i" ) zkhandler.write( [ (("osd", osd_id), ""), (("osd.node", osd_id), node), (("osd.device", osd_id), device), (("osd.db_device", osd_id), db_device), (("osd.fsid", osd_id), ""), (("osd.ofsid", osd_id), osd_fsid), (("osd.cfsid", osd_id), osd_clusterfsid), (("osd.lvm", osd_id), ""), (("osd.vg", osd_id), osd_vg), (("osd.lv", osd_id), osd_lv), ( ("osd.stats", osd_id), '{"uuid": "|", "up": 0, "in": 0, "primary_affinity": "|", "utilization": "|", "var": "|", "pgs": "|", "kb": "|", "weight": "|", "reweight": "|", "node": "|", "used": "|", "avail": "|", "wr_ops": "|", "wr_data": "|", "rd_ops": "|", "rd_data": "|", "state": "|"}', ), ] ) # Log it logger.out("Refreshed OSD {} disk on {}".format(osd_id, device), state="o") return True except Exception as e: # Log it logger.out("Failed to refresh OSD {} disk: {}".format(osd_id, e), state="e") return False @staticmethod def remove_osd(zkhandler, logger, osd_id, osd_obj, force_flag): logger.out("Removing OSD {}".format(osd_id), state="i") try: # Verify the OSD is present retcode, stdout, stderr = common.run_os_command("ceph osd ls") osd_list = stdout.split("\n") if osd_id not in osd_list: logger.out( "Could not find OSD {} in the cluster".format(osd_id), state="e" ) if force_flag: logger.out("Ignoring error due to force flag", state="i") else: return True # 1. Set the OSD down and out so it will flush logger.out("Setting down OSD {}".format(osd_id), state="i") retcode, stdout, stderr = common.run_os_command( "ceph osd down {}".format(osd_id) ) if retcode: print("ceph osd down") print(stdout) print(stderr) if force_flag: logger.out("Ignoring error due to force flag", state="i") else: raise Exception logger.out("Setting out OSD {}".format(osd_id), state="i") retcode, stdout, stderr = common.run_os_command( "ceph osd out {}".format(osd_id) ) if retcode: print("ceph osd out") print(stdout) print(stderr) if force_flag: logger.out("Ignoring error due to force flag", state="i") else: raise Exception # 2. Wait for the OSD to be safe to remove (but don't wait for rebalancing to complete) logger.out(f"Waiting for OSD {osd_id} to be safe to remove", state="i") while True: retcode, stdout, stderr = common.run_os_command( f"ceph osd safe-to-destroy osd.{osd_id}" ) if int(retcode) in [0, 11]: break else: time.sleep(5) # 3. Stop the OSD process and wait for it to be terminated logger.out("Stopping OSD {}".format(osd_id), state="i") retcode, stdout, stderr = common.run_os_command( "systemctl stop ceph-osd@{}".format(osd_id) ) if retcode: print("systemctl stop") print(stdout) print(stderr) if force_flag: logger.out("Ignoring error due to force flag", state="i") else: raise Exception time.sleep(2) # 4. Determine the block devices osd_vg = zkhandler.read(("osd.vg", osd_id)) osd_lv = zkhandler.read(("osd.lv", osd_id)) osd_lvm = f"/dev/{osd_vg}/{osd_lv}" osd_device = None logger.out( f"Getting disk info for OSD {osd_id} LV {osd_lvm}", state="i", ) retcode, stdout, stderr = common.run_os_command( f"ceph-volume lvm list {osd_lvm}" ) for line in stdout.split("\n"): if "devices" in line: osd_device = line.split()[-1] if not osd_device: print("ceph-volume lvm list") print("Could not find OSD information in data:") print(stdout) print(stderr) if force_flag: logger.out("Ignoring error due to force flag", state="i") else: raise Exception # 5. Purge the OSD from Ceph logger.out("Purging OSD {}".format(osd_id), state="i") 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) if force_flag: logger.out("Ignoring error due to force flag", state="i") else: raise Exception # 7. Remove the DB device if zkhandler.exists(("osd.db_device", osd_id)): db_device = zkhandler.read(("osd.db_device", osd_id)) logger.out( 'Removing OSD DB logical volume "{}"'.format(db_device), state="i" ) retcode, stdout, stderr = common.run_os_command( "lvremove --yes --force {}".format(db_device) ) # 8. Delete OSD from ZK logger.out("Deleting OSD {} from Zookeeper".format(osd_id), state="i") zkhandler.delete(("osd", osd_id), recursive=True) # Log it logger.out("Successfully removed OSD {}".format(osd_id), state="o") return True except Exception as e: # Log it logger.out("Failed to remove OSD {}: {}".format(osd_id, e), state="e") return False @staticmethod def add_db_vg(zkhandler, logger, device): # Check if an existsing volume group exists retcode, stdout, stderr = common.run_os_command("vgdisplay osd-db") if retcode != 5: logger.out('Ceph OSD database VG "osd-db" already exists', state="e") return False # Handle a detect device if that is passed if match(r"detect:", device): ddevice = get_detect_device(device) if ddevice is None: logger.out( f"Failed to determine block device from detect string {device}", state="e", ) return False else: logger.out( f"Determined block device {ddevice} from detect string {device}", state="i", ) device = ddevice logger.out( "Creating new OSD database volume group on block device {}".format(device), state="i", ) try: # 1. Create an empty partition table logger.out( "Creating partitions on block device {}".format(device), state="i" ) retcode, stdout, stderr = common.run_os_command( "sgdisk --clear {}".format(device) ) if retcode: print("sgdisk create partition table") print(stdout) print(stderr) raise Exception retcode, stdout, stderr = common.run_os_command( "sgdisk --new 1:: --typecode 1:8e00 {}".format(device) ) if retcode: print("sgdisk create pv partition") print(stdout) print(stderr) raise Exception # Handle the partition ID portion if search(r"by-path", device) or search(r"by-id", device): # /dev/disk/by-path/pci-0000:03:00.0-scsi-0:1:0:0 -> pci-0000:03:00.0-scsi-0:1:0:0-part1 partition = "{}-part1".format(device) elif search(r"nvme", device): # /dev/nvme0n1 -> nvme0n1p1 partition = "{}p1".format(device) else: # /dev/sda -> sda1 # No other '/dev/disk/by-*' types are valid for raw block devices anyways partition = "{}1".format(device) # 2. Create the PV logger.out("Creating PV on block device {}".format(partition), state="i") retcode, stdout, stderr = common.run_os_command( "pvcreate --force {}".format(partition) ) if retcode: print("pv creation") print(stdout) print(stderr) raise Exception # 2. Create the VG (named 'osd-db') logger.out( 'Creating VG "osd-db" on block device {}'.format(partition), state="i" ) retcode, stdout, stderr = common.run_os_command( "vgcreate --force osd-db {}".format(partition) ) if retcode: print("vg creation") print(stdout) print(stderr) raise Exception # Log it logger.out( "Created new OSD database volume group on block device {}".format( device ), state="o", ) return True except Exception as e: # Log it logger.out( "Failed to create OSD database volume group: {}".format(e), state="e" ) return False @staticmethod def create_osd_db_lv(zkhandler, logger, osd_id, osd_db_size_bytes): logger.out( "Creating new OSD database logical volume for OSD ID {}".format(osd_id), state="i", ) try: # 0. Check if an existsing logical volume exists retcode, stdout, stderr = common.run_os_command( "lvdisplay osd-db/osd{}".format(osd_id) ) if retcode != 5: logger.out( 'Ceph OSD database LV "osd-db/osd{}" already exists'.format(osd_id), state="e", ) return False # 1. Determine LV sizing osd_db_size_m = int(osd_db_size_bytes / 1024 / 1024) # 2. Create the LV logger.out( f'Creating DB LV "osd-db/osd-{osd_id}" of size {osd_db_size_m}M', state="i", ) retcode, stdout, stderr = common.run_os_command( "lvcreate --yes --name osd-{} --size {} osd-db".format( osd_id, osd_db_size_m ) ) if retcode: print("db lv creation") print(stdout) print(stderr) raise Exception # Log it logger.out( 'Created new OSD database logical volume "osd-db/osd-{}"'.format( osd_id ), state="o", ) return True except Exception as e: # Log it logger.out( "Failed to create OSD database logical volume: {}".format(e), state="e" ) return False class CephPoolInstance(object): def __init__(self, zkhandler, logger, this_node, name): self.zkhandler = zkhandler self.logger = logger self.this_node = this_node self.name = name self.pgs = "" self.stats = dict() @self.zkhandler.zk_conn.DataWatch( self.zkhandler.schema.path("pool.pgs", 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.zkhandler.zk_conn.DataWatch( self.zkhandler.schema.path("pool.stats", 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) class CephVolumeInstance(object): def __init__(self, zkhandler, logger, this_node, pool, name): self.zkhandler = zkhandler self.logger = logger self.this_node = this_node self.pool = pool self.name = name self.stats = dict() @self.zkhandler.zk_conn.DataWatch( self.zkhandler.schema.path("volume.stats", f"{self.pool}/{self.name}") ) def watch_volume_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) class CephSnapshotInstance(object): def __init__(self, zkhandler, this_node, pool, volume, name): self.zkhandler = zkhandler self.this_node = this_node self.pool = pool self.volume = volume self.name = name self.stats = dict() @self.zkhandler.zk_conn.DataWatch( self.zkhandler.schema.path( "snapshot.stats", f"{self.pool}/{self.volume}/{self.name}" ) ) def watch_snapshot_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) # Primary command function # This command pipe is only used for OSD adds and removes def ceph_command(zkhandler, logger, this_node, data, d_osd): # Get the command and args; the * + join ensures arguments with spaces (e.g. detect strings) are recombined right command, *args = data.split() args = " ".join(args) # Adding a new OSD if command == "osd_add": ( node, device, weight, ext_db_ratio, ext_db_size, split_count, ) = args.split(",") try: ext_db_ratio = float(ext_db_ratio) except Exception: ext_db_ratio = None try: split_count = int(split_count) except Exception: split_count = None if node == this_node.name: # Lock the command queue zk_lock = zkhandler.writelock("base.cmd.ceph") with zk_lock: # Add the OSD result = CephOSDInstance.add_osd( zkhandler, logger, node, device, weight, ext_db_ratio, ext_db_size, split_count, ) # Command succeeded if result: # Update the command queue zkhandler.write([("base.cmd.ceph", "success-{}".format(data))]) # Command failed else: # Update the command queue zkhandler.write([("base.cmd.ceph", "failure-{}".format(data))]) # Wait 1 seconds before we free the lock, to ensure the client hits the lock time.sleep(1) # Replacing an OSD if command == "osd_replace": node, osd_id, old_device, new_device, weight, ext_db_flag = args.split(",") ext_db_flag = bool(strtobool(ext_db_flag)) if node == this_node.name: # Lock the command queue zk_lock = zkhandler.writelock("base.cmd.ceph") with zk_lock: # Add the OSD result = CephOSDInstance.replace_osd( zkhandler, logger, node, osd_id, old_device, new_device, weight, ext_db_flag, ) # Command succeeded if result: # Update the command queue zkhandler.write([("base.cmd.ceph", "success-{}".format(data))]) # Command failed else: # Update the command queue zkhandler.write([("base.cmd.ceph", "failure-{}".format(data))]) # Wait 1 seconds before we free the lock, to ensure the client hits the lock time.sleep(1) # Refreshing an OSD if command == "osd_refresh": node, osd_id, device, ext_db_flag = args.split(",") ext_db_flag = bool(strtobool(ext_db_flag)) if node == this_node.name: # Lock the command queue zk_lock = zkhandler.writelock("base.cmd.ceph") with zk_lock: # Add the OSD result = CephOSDInstance.refresh_osd( zkhandler, logger, node, osd_id, device, ext_db_flag ) # Command succeeded if result: # Update the command queue zkhandler.write([("base.cmd.ceph", "success-{}".format(data))]) # Command failed else: # Update the command queue zkhandler.write([("base.cmd.ceph", "failure-{}".format(data))]) # Wait 1 seconds before we free the lock, to ensure the client hits the lock time.sleep(1) # Removing an OSD elif command == "osd_remove": osd_id, force = args.split(",") force_flag = bool(strtobool(force)) # Verify osd_id is in the list if d_osd[osd_id] and d_osd[osd_id].node == this_node.name: # Lock the command queue zk_lock = zkhandler.writelock("base.cmd.ceph") with zk_lock: # Remove the OSD result = CephOSDInstance.remove_osd( zkhandler, logger, osd_id, d_osd[osd_id], force_flag ) # Command succeeded if result: # Update the command queue zkhandler.write([("base.cmd.ceph", "success-{}".format(data))]) # Command failed else: # Update the command queue zkhandler.write([("base.cmd.ceph", "failure-{}".format(data))]) # Wait 1 seconds before we free the lock, to ensure the client hits the lock time.sleep(1) # Adding a new DB VG elif command == "db_vg_add": node, device = args.split(",") if node == this_node.name: # Lock the command queue zk_lock = zkhandler.writelock("base.cmd.ceph") with zk_lock: # Add the VG result = CephOSDInstance.add_db_vg(zkhandler, logger, device) # Command succeeded if result: # Update the command queue zkhandler.write([("base.cmd.ceph", "success-{}".format(data))]) # Command failed else: # Update the command queue zkhandler.write([("base.cmd.ceph", "failure={}".format(data))]) # Wait 1 seconds before we free the lock, to ensure the client hits the lock time.sleep(1)