#!/usr/bin/env python3 # ceph.py - PVC client function library, Ceph cluster fuctions # Part of the Parallel Virtual Cluster (PVC) system # # Copyright (C) 2018-2020 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 os import re import click import json import time import math import daemon_lib.vm as vm import daemon_lib.ansiprint as ansiprint import daemon_lib.zkhandler as zkhandler import daemon_lib.common as common # # Supplemental functions # # Verify OSD is valid in cluster def verifyOSD(zk_conn, osd_id): if zkhandler.exists(zk_conn, '/ceph/osds/{}'.format(osd_id)): return True else: return False # Verify Pool is valid in cluster def verifyPool(zk_conn, name): if zkhandler.exists(zk_conn, '/ceph/pools/{}'.format(name)): return True else: return False # Verify Volume is valid in cluster def verifyVolume(zk_conn, pool, name): if zkhandler.exists(zk_conn, '/ceph/volumes/{}/{}'.format(pool, name)): return True else: return False # Verify Snapshot is valid in cluster def verifySnapshot(zk_conn, pool, volume, name): if zkhandler.exists(zk_conn, '/ceph/snapshots/{}/{}/{}'.format(pool, volume, name)): return True else: return False # Verify OSD path is valid in cluster def verifyOSDBlock(zk_conn, node, device): for osd in zkhandler.listchildren(zk_conn, '/ceph/osds'): osd_node = zkhandler.readdata(zk_conn, '/ceph/osds/{}/node'.format(osd)) osd_device = zkhandler.readdata(zk_conn, '/ceph/osds/{}/device'.format(osd)) if node == osd_node and device == osd_device: return osd return None # Format byte sizes to/from human-readable units byte_unit_matrix = { 'B': 1, 'K': 1024, 'M': 1024*1024, 'G': 1024*1024*1024, 'T': 1024*1024*1024*1024, 'P': 1024*1024*1024*1024*1024 } def format_bytes_tohuman(databytes): datahuman = '' for unit in sorted(byte_unit_matrix, key=byte_unit_matrix.get, reverse=True): new_bytes = int(math.ceil(databytes / byte_unit_matrix[unit])) # Round up if 5 or more digits if new_bytes > 9999: # We can jump down another level continue else: # We're at the end, display with this size datahuman = '{}{}'.format(new_bytes, unit) return datahuman def format_bytes_fromhuman(datahuman): # Trim off human-readable character dataunit = str(datahuman)[-1] datasize = int(str(datahuman)[:-1]) if not re.match('[A-Z]', dataunit): dataunit = 'B' datasize = int(datahuman) databytes = datasize * byte_unit_matrix[dataunit] return '{}B'.format(databytes) # Format ops sizes to/from human-readable units ops_unit_matrix = { '': 1, 'K': 1000, 'M': 1000*1000, 'G': 1000*1000*1000, 'T': 1000*1000*1000*1000, 'P': 1000*1000*1000*1000*1000 } def format_ops_tohuman(dataops): datahuman = '' for unit in sorted(ops_unit_matrix, key=ops_unit_matrix.get, reverse=True): new_ops = int(math.ceil(dataops / ops_unit_matrix[unit])) # Round up if 5 or more digits if new_ops > 9999: # We can jump down another level continue else: # We're at the end, display with this size datahuman = '{}{}'.format(new_ops, unit) return datahuman def format_ops_fromhuman(datahuman): # Trim off human-readable character dataunit = datahuman[-1] datasize = int(datahuman[:-1]) dataops = datasize * ops_unit_matrix[dataunit] return '{}'.format(dataops) def format_pct_tohuman(datapct): datahuman = "{0:.1f}".format(float(datapct * 100.0)) return datahuman # # Status functions # def get_status(zk_conn): primary_node = zkhandler.readdata(zk_conn, '/primary_node') ceph_status = zkhandler.readdata(zk_conn, '/ceph').rstrip() # Create a data structure for the information status_data = { 'type': 'status', 'primary_node': primary_node, 'ceph_data': ceph_status } return True, status_data def get_util(zk_conn): primary_node = zkhandler.readdata(zk_conn, '/primary_node') ceph_df = zkhandler.readdata(zk_conn, '/ceph/util').rstrip() # Create a data structure for the information status_data = { 'type': 'utilization', 'primary_node': primary_node, 'ceph_data': ceph_df } return True, status_data def format_raw_output(status_data): click.echo('{bold}Ceph cluster {stype} (primary node {end}{blue}{primary}{end}{bold}){end}\n'.format(bold=ansiprint.bold(), end=ansiprint.end(), blue=ansiprint.blue(), stype=status_data['type'], primary=status_data['primary_node'])) click.echo(status_data['ceph_data']) click.echo('') # # OSD functions # def getClusterOSDList(zk_conn): # Get a list of VNIs by listing the children of /networks osd_list = zkhandler.listchildren(zk_conn, '/ceph/osds') return osd_list def getOSDInformation(zk_conn, osd_id): # Parse the stats data osd_stats_raw = zkhandler.readdata(zk_conn, '/ceph/osds/{}/stats'.format(osd_id)) osd_stats = dict(json.loads(osd_stats_raw)) osd_information = { 'id': osd_id, 'stats': osd_stats } return osd_information def getOutputColoursOSD(osd_information): # Set the UP status if osd_information['stats']['up'] == 1: osd_up_flag = 'Yes' osd_up_colour = ansiprint.green() else: osd_up_flag = 'No' osd_up_colour = ansiprint.red() # Set the IN status if osd_information['stats']['in'] == 1: osd_in_flag = 'Yes' osd_in_colour = ansiprint.green() else: osd_in_flag = 'No' osd_in_colour = ansiprint.red() return osd_up_flag, osd_up_colour, osd_in_flag, osd_in_colour # OSD addition and removal uses the /cmd/ceph pipe # These actions must occur on the specific node they reference def add_osd(zk_conn, node, device, weight): # Verify the target node exists if not common.verifyNode(zk_conn, node): return False, 'ERROR: No node named "{}" is present in the cluster.'.format(node) # Verify target block device isn't in use block_osd = verifyOSDBlock(zk_conn, node, device) if block_osd: return False, 'ERROR: Block device "{}" on node "{}" is used by OSD "{}"'.format(device, node, block_osd) # Tell the cluster to create a new OSD for the host add_osd_string = 'osd_add {},{},{}'.format(node, device, weight) zkhandler.writedata(zk_conn, {'/cmd/ceph': add_osd_string}) # Wait 1/2 second for the cluster to get the message and start working time.sleep(0.5) # Acquire a read lock, so we get the return exclusively lock = zkhandler.readlock(zk_conn, '/cmd/ceph') with lock: try: result = zkhandler.readdata(zk_conn, '/cmd/ceph').split()[0] if result == 'success-osd_add': message = 'Created new OSD with block device "{}" on node "{}".'.format(device, node) success = True else: message = 'ERROR: Failed to create new OSD; check node logs for details.' success = False except: message = 'ERROR: Command ignored by node.' success = False # Acquire a write lock to ensure things go smoothly lock = zkhandler.writelock(zk_conn, '/cmd/ceph') with lock: time.sleep(0.5) zkhandler.writedata(zk_conn, {'/cmd/ceph': ''}) return success, message def remove_osd(zk_conn, osd_id): if not verifyOSD(zk_conn, osd_id): return False, 'ERROR: No OSD with ID "{}" is present in the cluster.'.format(osd_id) # Tell the cluster to remove an OSD remove_osd_string = 'osd_remove {}'.format(osd_id) zkhandler.writedata(zk_conn, {'/cmd/ceph': remove_osd_string}) # Wait 1/2 second for the cluster to get the message and start working time.sleep(0.5) # Acquire a read lock, so we get the return exclusively lock = zkhandler.readlock(zk_conn, '/cmd/ceph') with lock: try: result = zkhandler.readdata(zk_conn, '/cmd/ceph').split()[0] if result == 'success-osd_remove': message = 'Removed OSD "{}" from the cluster.'.format(osd_id) success = True else: message = 'ERROR: Failed to remove OSD; check node logs for details.' success = False except: success = False message = 'ERROR Command ignored by node.' # Acquire a write lock to ensure things go smoothly lock = zkhandler.writelock(zk_conn, '/cmd/ceph') with lock: time.sleep(0.5) zkhandler.writedata(zk_conn, {'/cmd/ceph': ''}) return success, message def in_osd(zk_conn, osd_id): if not verifyOSD(zk_conn, osd_id): return False, 'ERROR: No OSD with ID "{}" is present in the cluster.'.format(osd_id) retcode, stdout, stderr = common.run_os_command('ceph osd in {}'.format(osd_id)) if retcode: return False, 'ERROR: Failed to enable OSD {}: {}'.format(osd_id, stderr) return True, 'Set OSD {} online.'.format(osd_id) def out_osd(zk_conn, osd_id): if not verifyOSD(zk_conn, osd_id): return False, 'ERROR: No OSD with ID "{}" is present in the cluster.'.format(osd_id) retcode, stdout, stderr = common.run_os_command('ceph osd out {}'.format(osd_id)) if retcode: return False, 'ERROR: Failed to disable OSD {}: {}'.format(osd_id, stderr) return True, 'Set OSD {} offline.'.format(osd_id) def set_osd(zk_conn, option): retcode, stdout, stderr = common.run_os_command('ceph osd set {}'.format(option)) if retcode: return False, 'ERROR: Failed to set property "{}": {}'.format(option, stderr) return True, 'Set OSD property "{}".'.format(option) def unset_osd(zk_conn, option): retcode, stdout, stderr = common.run_os_command('ceph osd unset {}'.format(option)) if retcode: return False, 'ERROR: Failed to unset property "{}": {}'.format(option, stderr) return True, 'Unset OSD property "{}".'.format(option) def get_list_osd(zk_conn, limit, is_fuzzy=True): osd_list = [] full_osd_list = zkhandler.listchildren(zk_conn, '/ceph/osds') if is_fuzzy and limit: # Implicitly assume fuzzy limits if not re.match('[^].*', limit): limit = '.*' + limit if not re.match('.*[$]', limit): limit = limit + '.*' for osd in full_osd_list: if limit: try: if re.match(limit, osd): osd_list.append(getOSDInformation(zk_conn, osd)) except Exception as e: return False, 'Regex Error: {}'.format(e) else: osd_list.append(getOSDInformation(zk_conn, osd)) return True, sorted(osd_list, key = lambda x: int(x['id'])) def format_list_osd(osd_list): osd_list_output = [] osd_id_length = 3 osd_up_length = 4 osd_in_length = 4 osd_size_length = 5 osd_weight_length = 3 osd_reweight_length = 5 osd_pgs_length = 4 osd_node_length = 5 osd_used_length = 5 osd_free_length = 6 osd_util_length = 6 osd_var_length = 5 osd_wrops_length = 4 osd_wrdata_length = 5 osd_rdops_length = 4 osd_rddata_length = 5 for osd_information in osd_list: try: # If this happens, the node hasn't checked in fully yet, so just ignore it if osd_information['stats']['node'] == '|': continue except KeyError: continue # Deal with the size to human readable osd_information['stats']['size'] = osd_information['stats']['kb'] * 1024 for datatype in 'size', 'wr_data', 'rd_data': databytes = osd_information['stats'][datatype] databytes_formatted = format_bytes_tohuman(int(databytes)) osd_information['stats'][datatype] = databytes_formatted for datatype in 'wr_ops', 'rd_ops': dataops = osd_information['stats'][datatype] dataops_formatted = format_ops_tohuman(int(dataops)) osd_information['stats'][datatype] = dataops_formatted # Set the OSD ID length _osd_id_length = len(osd_information['id']) + 1 if _osd_id_length > osd_id_length: osd_id_length = _osd_id_length _osd_node_length = len(osd_information['stats']['node']) + 1 if _osd_node_length > osd_node_length: osd_node_length = _osd_node_length # Set the size and length _osd_size_length = len(str(osd_information['stats']['size'])) + 1 if _osd_size_length > osd_size_length: osd_size_length = _osd_size_length # Set the weight and length _osd_weight_length = len(str(osd_information['stats']['weight'])) + 1 if _osd_weight_length > osd_weight_length: osd_weight_length = _osd_weight_length # Set the reweight and length _osd_reweight_length = len(str(osd_information['stats']['reweight'])) + 1 if _osd_reweight_length > osd_reweight_length: osd_reweight_length = _osd_reweight_length # Set the pgs and length _osd_pgs_length = len(str(osd_information['stats']['pgs'])) + 1 if _osd_pgs_length > osd_pgs_length: osd_pgs_length = _osd_pgs_length # Set the used/available/utlization%/variance and lengths _osd_used_length = len(osd_information['stats']['used']) + 1 if _osd_used_length > osd_used_length: osd_used_length = _osd_used_length _osd_free_length = len(osd_information['stats']['avail']) + 1 if _osd_free_length > osd_free_length: osd_free_length = _osd_free_length osd_util = round(osd_information['stats']['utilization'], 2) _osd_util_length = len(str(osd_util)) + 1 if _osd_util_length > osd_util_length: osd_util_length = _osd_util_length osd_var = round(osd_information['stats']['var'], 2) _osd_var_length = len(str(osd_var)) + 1 if _osd_var_length > osd_var_length: osd_var_length = _osd_var_length # Set the read/write IOPS/data and length _osd_wrops_length = len(osd_information['stats']['wr_ops']) + 1 if _osd_wrops_length > osd_wrops_length: osd_wrops_length = _osd_wrops_length _osd_wrdata_length = len(osd_information['stats']['wr_data']) + 1 if _osd_wrdata_length > osd_wrdata_length: osd_wrdata_length = _osd_wrdata_length _osd_rdops_length = len(osd_information['stats']['rd_ops']) + 1 if _osd_rdops_length > osd_rdops_length: osd_rdops_length = _osd_rdops_length _osd_rddata_length = len(osd_information['stats']['rd_data']) + 1 if _osd_rddata_length > osd_rddata_length: osd_rddata_length = _osd_rddata_length # Format the output header osd_list_output.append('{bold}\ {osd_id: <{osd_id_length}} \ {osd_node: <{osd_node_length}} \ {osd_up: <{osd_up_length}} \ {osd_in: <{osd_in_length}} \ {osd_size: <{osd_size_length}} \ {osd_pgs: <{osd_pgs_length}} \ {osd_weight: <{osd_weight_length}} \ {osd_reweight: <{osd_reweight_length}} \ Sp: {osd_used: <{osd_used_length}} \ {osd_free: <{osd_free_length}} \ {osd_util: <{osd_util_length}} \ {osd_var: <{osd_var_length}} \ Rd: {osd_rdops: <{osd_rdops_length}} \ {osd_rddata: <{osd_rddata_length}} \ Wr: {osd_wrops: <{osd_wrops_length}} \ {osd_wrdata: <{osd_wrdata_length}} \ {end_bold}'.format( bold=ansiprint.bold(), end_bold=ansiprint.end(), osd_id_length=osd_id_length, osd_node_length=osd_node_length, osd_up_length=osd_up_length, osd_in_length=osd_in_length, osd_size_length=osd_size_length, osd_pgs_length=osd_pgs_length, osd_weight_length=osd_weight_length, osd_reweight_length=osd_reweight_length, osd_used_length=osd_used_length, osd_free_length=osd_free_length, osd_util_length=osd_util_length, osd_var_length=osd_var_length, osd_wrops_length=osd_wrops_length, osd_wrdata_length=osd_wrdata_length, osd_rdops_length=osd_rdops_length, osd_rddata_length=osd_rddata_length, osd_id='ID', osd_node='Node', osd_up='Up', osd_in='In', osd_size='Size', osd_pgs='PGs', osd_weight='Wt', osd_reweight='ReWt', osd_used='Used', osd_free='Free', osd_util='Util%', osd_var='Var', osd_wrops='OPS', osd_wrdata='Data', osd_rdops='OPS', osd_rddata='Data' ) ) for osd_information in osd_list: try: # If this happens, the node hasn't checked in fully yet, so just ignore it if osd_information['stats']['node'] == '|': continue except KeyError: continue osd_up_flag, osd_up_colour, osd_in_flag, osd_in_colour = getOutputColoursOSD(osd_information) osd_util = round(osd_information['stats']['utilization'], 2) osd_var = round(osd_information['stats']['var'], 2) # Format the output header osd_list_output.append('{bold}\ {osd_id: <{osd_id_length}} \ {osd_node: <{osd_node_length}} \ {osd_up_colour}{osd_up: <{osd_up_length}}{end_colour} \ {osd_in_colour}{osd_in: <{osd_in_length}}{end_colour} \ {osd_size: <{osd_size_length}} \ {osd_pgs: <{osd_pgs_length}} \ {osd_weight: <{osd_weight_length}} \ {osd_reweight: <{osd_reweight_length}} \ {osd_used: <{osd_used_length}} \ {osd_free: <{osd_free_length}} \ {osd_util: <{osd_util_length}} \ {osd_var: <{osd_var_length}} \ {osd_rdops: <{osd_rdops_length}} \ {osd_rddata: <{osd_rddata_length}} \ {osd_wrops: <{osd_wrops_length}} \ {osd_wrdata: <{osd_wrdata_length}} \ {end_bold}'.format( bold='', end_bold='', end_colour=ansiprint.end(), osd_id_length=osd_id_length, osd_node_length=osd_node_length, osd_up_length=osd_up_length, osd_in_length=osd_in_length, osd_size_length=osd_size_length, osd_pgs_length=osd_pgs_length, osd_weight_length=osd_weight_length, osd_reweight_length=osd_reweight_length, osd_used_length=osd_used_length, osd_free_length=osd_free_length, osd_util_length=osd_util_length, osd_var_length=osd_var_length, osd_wrops_length=osd_wrops_length, osd_wrdata_length=osd_wrdata_length, osd_rdops_length=osd_rdops_length, osd_rddata_length=osd_rddata_length, osd_id=osd_information['id'], osd_node=osd_information['stats']['node'], osd_up_colour=osd_up_colour, osd_up=osd_up_flag, osd_in_colour=osd_in_colour, osd_in=osd_in_flag, osd_size=osd_information['stats']['size'], osd_pgs=osd_information['stats']['pgs'], osd_weight=osd_information['stats']['weight'], osd_reweight=osd_information['stats']['reweight'], osd_used=osd_information['stats']['used'], osd_free=osd_information['stats']['avail'], osd_util=osd_util, osd_var=osd_var, osd_wrops=osd_information['stats']['wr_ops'], osd_wrdata=osd_information['stats']['wr_data'], osd_rdops=osd_information['stats']['rd_ops'], osd_rddata=osd_information['stats']['rd_data'] ) ) click.echo('\n'.join(sorted(osd_list_output))) # # Pool functions # def getPoolInformation(zk_conn, pool): # Parse the stats data pool_stats_raw = zkhandler.readdata(zk_conn, '/ceph/pools/{}/stats'.format(pool)) pool_stats = dict(json.loads(pool_stats_raw)) pool_information = { 'name': pool, 'stats': pool_stats } return pool_information def add_pool(zk_conn, name, pgs, replcfg): # Prepare the copies/mincopies variables try: copies, mincopies = replcfg.split(',') copies = int(copies.replace('copies=', '')) mincopies = int(mincopies.replace('mincopies=', '')) except: copies = None mincopies = None if not copies or not mincopies: return False, 'ERROR: Replication configuration "{}" is not valid.'.format(replcfg) # 1. Create the pool retcode, stdout, stderr = common.run_os_command('ceph osd pool create {} {} replicated'.format(name, pgs)) if retcode: return False, 'ERROR: Failed to create pool "{}" with {} PGs: {}'.format(name, pgs, stderr) # 2. Set the size and minsize retcode, stdout, stderr = common.run_os_command('ceph osd pool set {} size {}'.format(name, copies)) if retcode: return False, 'ERROR: Failed to set pool "{}" size of {}: {}'.format(name, copies, stderr) retcode, stdout, stderr = common.run_os_command('ceph osd pool set {} min_size {}'.format(name, mincopies)) if retcode: return False, 'ERROR: Failed to set pool "{}" minimum size of {}: {}'.format(name, mincopies, stderr) # 3. Enable RBD application retcode, stdout, stderr = common.run_os_command('ceph osd pool application enable {} rbd'.format(name)) if retcode: return False, 'ERROR: Failed to enable RBD application on pool "{}" : {}'.format(name, stderr) # 4. Add the new pool to Zookeeper zkhandler.writedata(zk_conn, { '/ceph/pools/{}'.format(name): '', '/ceph/pools/{}/pgs'.format(name): pgs, '/ceph/pools/{}/stats'.format(name): '{}', '/ceph/volumes/{}'.format(name): '', '/ceph/snapshots/{}'.format(name): '', }) return True, 'Created RBD pool "{}" with {} PGs'.format(name, pgs) def remove_pool(zk_conn, name): if not verifyPool(zk_conn, name): return False, 'ERROR: No pool with name "{}" is present in the cluster.'.format(name) # 1. Remove pool volumes for volume in zkhandler.listchildren(zk_conn, '/ceph/volumes/{}'.format(name)): remove_volume(zk_conn, logger, name, volume) # 2. 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: return False, 'ERROR: Failed to remove pool "{}": {}'.format(name, stderr) # 3. Delete pool from Zookeeper zkhandler.deletekey(zk_conn, '/ceph/pools/{}'.format(name)) zkhandler.deletekey(zk_conn, '/ceph/volumes/{}'.format(name)) zkhandler.deletekey(zk_conn, '/ceph/snapshots/{}'.format(name)) return True, 'Removed RBD pool "{}" and all volumes.'.format(name) def get_list_pool(zk_conn, limit, is_fuzzy=True): pool_list = [] full_pool_list = zkhandler.listchildren(zk_conn, '/ceph/pools') if limit: if not is_fuzzy: limit = '^' + limit + '$' for pool in full_pool_list: if limit: try: if re.match(limit, pool): pool_list.append(getPoolInformation(zk_conn, pool)) except Exception as e: return False, 'Regex Error: {}'.format(e) else: pool_list.append(getPoolInformation(zk_conn, pool)) return True, sorted(pool_list, key = lambda x: int(x['stats']['id'])) def format_list_pool(pool_list): pool_list_output = [] pool_name_length = 5 pool_id_length = 3 pool_used_length = 5 pool_usedpct_length = 5 pool_free_length = 5 pool_num_objects_length = 6 pool_num_clones_length = 7 pool_num_copies_length = 7 pool_num_degraded_length = 9 pool_read_ops_length = 4 pool_read_data_length = 5 pool_write_ops_length = 4 pool_write_data_length = 5 for pool_information in pool_list: # Deal with the size to human readable for datatype in ['free_bytes', 'used_bytes', 'write_bytes', 'read_bytes']: databytes = pool_information['stats'][datatype] databytes_formatted = format_bytes_tohuman(int(databytes)) pool_information['stats'][datatype] = databytes_formatted for datatype in ['write_ops', 'read_ops']: dataops = pool_information['stats'][datatype] dataops_formatted = format_ops_tohuman(int(dataops)) pool_information['stats'][datatype] = dataops_formatted for datatype in ['used_percent']: datapct = pool_information['stats'][datatype] datapct_formatted = format_pct_tohuman(float(datapct)) pool_information['stats'][datatype] = datapct_formatted # Set the Pool name length _pool_name_length = len(pool_information['name']) + 1 if _pool_name_length > pool_name_length: pool_name_length = _pool_name_length # Set the id and length _pool_id_length = len(str(pool_information['stats']['id'])) + 1 if _pool_id_length > pool_id_length: pool_id_length = _pool_id_length # Set the used and length _pool_used_length = len(str(pool_information['stats']['used_bytes'])) + 1 if _pool_used_length > pool_used_length: pool_used_length = _pool_used_length # Set the usedpct and length _pool_usedpct_length = len(str(pool_information['stats']['used_percent'])) + 1 if _pool_usedpct_length > pool_usedpct_length: pool_usedpct_length = _pool_usedpct_length # Set the free and length _pool_free_length = len(str(pool_information['stats']['free_bytes'])) + 1 if _pool_free_length > pool_free_length: pool_free_length = _pool_free_length # Set the num_objects and length _pool_num_objects_length = len(str(pool_information['stats']['num_objects'])) + 1 if _pool_num_objects_length > pool_num_objects_length: pool_num_objects_length = _pool_num_objects_length # Set the num_clones and length _pool_num_clones_length = len(str(pool_information['stats']['num_object_clones'])) + 1 if _pool_num_clones_length > pool_num_clones_length: pool_num_clones_length = _pool_num_clones_length # Set the num_copies and length _pool_num_copies_length = len(str(pool_information['stats']['num_object_copies'])) + 1 if _pool_num_copies_length > pool_num_copies_length: pool_num_copies_length = _pool_num_copies_length # Set the num_degraded and length _pool_num_degraded_length = len(str(pool_information['stats']['num_objects_degraded'])) + 1 if _pool_num_degraded_length > pool_num_degraded_length: pool_num_degraded_length = _pool_num_degraded_length # Set the read/write IOPS/data and length _pool_write_ops_length = len(str(pool_information['stats']['write_ops'])) + 1 if _pool_write_ops_length > pool_write_ops_length: pool_write_ops_length = _pool_write_ops_length _pool_write_data_length = len(pool_information['stats']['write_bytes']) + 1 if _pool_write_data_length > pool_write_data_length: pool_write_data_length = _pool_write_data_length _pool_read_ops_length = len(str(pool_information['stats']['read_ops'])) + 1 if _pool_read_ops_length > pool_read_ops_length: pool_read_ops_length = _pool_read_ops_length _pool_read_data_length = len(pool_information['stats']['read_bytes']) + 1 if _pool_read_data_length > pool_read_data_length: pool_read_data_length = _pool_read_data_length # Format the output header pool_list_output.append('{bold}\ {pool_id: <{pool_id_length}} \ {pool_name: <{pool_name_length}} \ {pool_used: <{pool_used_length}} \ {pool_usedpct: <{pool_usedpct_length}} \ {pool_free: <{pool_free_length}} \ Obj: {pool_objects: <{pool_objects_length}} \ {pool_clones: <{pool_clones_length}} \ {pool_copies: <{pool_copies_length}} \ {pool_degraded: <{pool_degraded_length}} \ Rd: {pool_read_ops: <{pool_read_ops_length}} \ {pool_read_data: <{pool_read_data_length}} \ Wr: {pool_write_ops: <{pool_write_ops_length}} \ {pool_write_data: <{pool_write_data_length}} \ {end_bold}'.format( bold=ansiprint.bold(), end_bold=ansiprint.end(), pool_id_length=pool_id_length, pool_name_length=pool_name_length, pool_used_length=pool_used_length, pool_usedpct_length=pool_usedpct_length, pool_free_length=pool_free_length, pool_objects_length=pool_num_objects_length, pool_clones_length=pool_num_clones_length, pool_copies_length=pool_num_copies_length, pool_degraded_length=pool_num_degraded_length, pool_write_ops_length=pool_write_ops_length, pool_write_data_length=pool_write_data_length, pool_read_ops_length=pool_read_ops_length, pool_read_data_length=pool_read_data_length, pool_id='ID', pool_name='Name', pool_used='Used', pool_usedpct='%', pool_free='Free', pool_objects='Count', pool_clones='Clones', pool_copies='Copies', pool_degraded='Degraded', pool_write_ops='OPS', pool_write_data='Data', pool_read_ops='OPS', pool_read_data='Data' ) ) for pool_information in pool_list: # Format the output header pool_list_output.append('{bold}\ {pool_id: <{pool_id_length}} \ {pool_name: <{pool_name_length}} \ {pool_used: <{pool_used_length}} \ {pool_usedpct: <{pool_usedpct_length}} \ {pool_free: <{pool_free_length}} \ {pool_objects: <{pool_objects_length}} \ {pool_clones: <{pool_clones_length}} \ {pool_copies: <{pool_copies_length}} \ {pool_degraded: <{pool_degraded_length}} \ {pool_read_ops: <{pool_read_ops_length}} \ {pool_read_data: <{pool_read_data_length}} \ {pool_write_ops: <{pool_write_ops_length}} \ {pool_write_data: <{pool_write_data_length}} \ {end_bold}'.format( bold='', end_bold='', pool_id_length=pool_id_length, pool_name_length=pool_name_length, pool_used_length=pool_used_length, pool_usedpct_length=pool_usedpct_length, pool_free_length=pool_free_length, pool_objects_length=pool_num_objects_length, pool_clones_length=pool_num_clones_length, pool_copies_length=pool_num_copies_length, pool_degraded_length=pool_num_degraded_length, pool_write_ops_length=pool_write_ops_length, pool_write_data_length=pool_write_data_length, pool_read_ops_length=pool_read_ops_length, pool_read_data_length=pool_read_data_length, pool_id=pool_information['stats']['id'], pool_name=pool_information['name'], pool_used=pool_information['stats']['used_bytes'], pool_usedpct=pool_information['stats']['used_percent'], pool_free=pool_information['stats']['free_bytes'], pool_objects=pool_information['stats']['num_objects'], pool_clones=pool_information['stats']['num_object_clones'], pool_copies=pool_information['stats']['num_object_copies'], pool_degraded=pool_information['stats']['num_objects_degraded'], pool_write_ops=pool_information['stats']['write_ops'], pool_write_data=pool_information['stats']['write_bytes'], pool_read_ops=pool_information['stats']['read_ops'], pool_read_data=pool_information['stats']['read_bytes'] ) ) click.echo('\n'.join(sorted(pool_list_output))) # # Volume functions # def getCephVolumes(zk_conn, pool): volume_list = list() if not pool: pool_list = zkhandler.listchildren(zk_conn, '/ceph/pools') else: pool_list = [ pool ] for pool_name in pool_list: for volume_name in zkhandler.listchildren(zk_conn, '/ceph/volumes/{}'.format(pool_name)): volume_list.append('{}/{}'.format(pool_name, volume_name)) return volume_list def getVolumeInformation(zk_conn, pool, volume): # Parse the stats data volume_stats_raw = zkhandler.readdata(zk_conn, '/ceph/volumes/{}/{}/stats'.format(pool, volume)) volume_stats = dict(json.loads(volume_stats_raw)) # Format the size to something nicer volume_stats['size'] = format_bytes_tohuman(volume_stats['size']) volume_information = { 'name': volume, 'pool': pool, 'stats': volume_stats } return volume_information def add_volume(zk_conn, pool, name, size): # 1. Create the volume retcode, stdout, stderr = common.run_os_command('rbd create --size {} --image-feature layering,exclusive-lock {}/{}'.format(size, pool, name)) if retcode: return False, 'ERROR: Failed to create RBD volume "{}": {}'.format(name, stderr) # 2. Get volume stats retcode, stdout, stderr = common.run_os_command('rbd info --format json {}/{}'.format(pool, name)) volstats = stdout # 3. Add the new volume to Zookeeper zkhandler.writedata(zk_conn, { '/ceph/volumes/{}/{}'.format(pool, name): '', '/ceph/volumes/{}/{}/stats'.format(pool, name): volstats, '/ceph/snapshots/{}/{}'.format(pool, name): '', }) return True, 'Created RBD volume "{}/{}" ({}).'.format(pool, name, size) def clone_volume(zk_conn, pool, name_src, name_new): if not verifyVolume(zk_conn, pool, name_src): return False, 'ERROR: No volume with name "{}" is present in pool "{}".'.format(name_src, pool) # 1. Clone the volume retcode, stdout, stderr = common.run_os_command('rbd copy {}/{} {}/{}'.format(pool, name_src, pool, name_new)) if retcode: return False, 'ERROR: Failed to clone RBD volume "{}" to "{}" in pool "{}": {}'.format(name_src, new_name, pool, stderr) # 2. Get volume stats retcode, stdout, stderr = common.run_os_command('rbd info --format json {}/{}'.format(pool, name_new)) volstats = stdout # 3. Add the new volume to Zookeeper zkhandler.writedata(zk_conn, { '/ceph/volumes/{}/{}'.format(pool, name_new): '', '/ceph/volumes/{}/{}/stats'.format(pool, name_new): volstats, '/ceph/snapshots/{}/{}'.format(pool, name_new): '', }) return True, 'Cloned RBD volume "{}" to "{}" in pool "{}"'.format(name, name_new, pool) def resize_volume(zk_conn, pool, name, size): if not verifyVolume(zk_conn, pool, name): return False, 'ERROR: No volume with name "{}" is present in pool "{}".'.format(name, pool) # 1. Resize the volume retcode, stdout, stderr = common.run_os_command('rbd resize --size {} {}/{}'.format(size, pool, name)) if retcode: return False, 'ERROR: Failed to resize RBD volume "{}" to size "{}" in pool "{}": {}'.format(name, size, pool, stderr) # 2a. Determine the node running this VM if applicable active_node = None volume_vm_name = name.split('_')[0] retcode, vm_info = vm.get_info(zk_conn, volume_vm_name) if retcode: for disk in vm_info['disks']: # This block device is present in this VM so we can continue if disk['name'] == '{}/{}'.format(pool, name): active_node = vm_info['node'] volume_id = disk['dev'] # 2b. Perform a live resize in libvirt if the VM is running if active_node is not None and vm_info.get('state', '') == 'start': import libvirt # Run the libvirt command against the target host try: dest_lv = 'qemu+tcp://{}/system'.format(active_node) target_lv_conn = libvirt.open(dest_lv) target_vm_conn = target_lv_conn.lookupByName(vm_info['name']) if target_vm_conn: target_vm_conn.blockResize(volume_id, int(format_bytes_fromhuman(size)[:-1]), libvirt.VIR_DOMAIN_BLOCK_RESIZE_BYTES) target_lv_conn.close() except: pass # 2. Get volume stats retcode, stdout, stderr = common.run_os_command('rbd info --format json {}/{}'.format(pool, name)) volstats = stdout # 3. Add the new volume to Zookeeper zkhandler.writedata(zk_conn, { '/ceph/volumes/{}/{}'.format(pool, name): '', '/ceph/volumes/{}/{}/stats'.format(pool, name): volstats, '/ceph/snapshots/{}/{}'.format(pool, name): '', }) return True, 'Resized RBD volume "{}" to size "{}" in pool "{}".'.format(name, size, pool) def rename_volume(zk_conn, pool, name, new_name): if not verifyVolume(zk_conn, pool, name): return False, 'ERROR: No volume with name "{}" is present in pool "{}".'.format(name, pool) # 1. Rename the volume retcode, stdout, stderr = common.run_os_command('rbd rename {}/{} {}'.format(pool, name, new_name)) if retcode: return False, 'ERROR: Failed to rename volume "{}" to "{}" in pool "{}": {}'.format(name, new_name, pool, stderr) # 2. Rename the volume in Zookeeper zkhandler.renamekey(zk_conn, { '/ceph/volumes/{}/{}'.format(pool, name): '/ceph/volumes/{}/{}'.format(pool, new_name), '/ceph/snapshots/{}/{}'.format(pool, name): '/ceph/snapshots/{}/{}'.format(pool, new_name) }) # 3. Get volume stats retcode, stdout, stderr = common.run_os_command('rbd info --format json {}/{}'.format(pool, new_name)) volstats = stdout # 4. Update the volume stats in Zookeeper zkhandler.writedata(zk_conn, { '/ceph/volumes/{}/{}/stats'.format(pool, new_name): volstats, }) return True, 'Renamed RBD volume "{}" to "{}" in pool "{}".'.format(name, new_name, pool) def remove_volume(zk_conn, pool, name): if not verifyVolume(zk_conn, pool, name): return False, 'ERROR: No volume with name "{}" is present in pool "{}".'.format(name, pool) # 1. Remove volume snapshots for snapshot in zkhandler.listchildren(zk_conn, '/ceph/snapshots/{}/{}'.format(pool, name)): remove_snapshot(zk_conn, logger, pool, volume, snapshot) # 2. Remove the volume retcode, stdout, stderr = common.run_os_command('rbd rm {}/{}'.format(pool, name)) if retcode: return False, 'ERROR: Failed to remove RBD volume "{}" in pool "{}": {}'.format(name, pool, stderr) # 3. Delete volume from Zookeeper zkhandler.deletekey(zk_conn, '/ceph/volumes/{}/{}'.format(pool, name)) zkhandler.deletekey(zk_conn, '/ceph/snapshots/{}/{}'.format(pool, name)) return True, 'Removed RBD volume "{}" in pool "{}".'.format(name, pool) def map_volume(zk_conn, pool, name): if not verifyVolume(zk_conn, pool, name): return False, 'ERROR: No volume with name "{}" is present in pool "{}".'.format(name, pool) # 1. Map the volume onto the local system retcode, stdout, stderr = common.run_os_command('rbd map {}/{}'.format(pool, name)) if retcode: return False, 'ERROR: Failed to map RBD volume "{}" in pool "{}": {}'.format(name, pool, stderr) # 2. Calculate the absolute path to the mapped volume mapped_volume = '/dev/rbd/{}/{}'.format(pool, name) # 3. Ensure the volume exists if not os.path.exists(mapped_volume): return False, 'ERROR: Mapped volume not found at expected location "{}".'.format(mapped_volume) return True, mapped_volume def unmap_volume(zk_conn, pool, name): if not verifyVolume(zk_conn, pool, name): return False, 'ERROR: No volume with name "{}" is present in pool "{}".'.format(name, pool) mapped_volume = '/dev/rbd/{}/{}'.format(pool, name) # 1. Ensure the volume exists if not os.path.exists(mapped_volume): return False, 'ERROR: Mapped volume not found at expected location "{}".'.format(mapped_volume) # 2. Unap the volume retcode, stdout, stderr = common.run_os_command('rbd unmap {}'.format(mapped_volume)) if retcode: return False, 'ERROR: Failed to unmap RBD volume at "{}": {}'.format(mapped_volume, stderr) return True, 'Unmapped RBD volume at "{}".'.format(mapped_volume) def get_list_volume(zk_conn, pool, limit, is_fuzzy=True): volume_list = [] if pool and not verifyPool(zk_conn, pool): return False, 'ERROR: No pool with name "{}" is present in the cluster.'.format(name) full_volume_list = getCephVolumes(zk_conn, pool) if limit: if not is_fuzzy: limit = '^' + limit + '$' else: # Implicitly assume fuzzy limits if not re.match('[^].*', limit): limit = '.*' + limit if not re.match('.*[$]', limit): limit = limit + '.*' for volume in full_volume_list: pool_name, volume_name = volume.split('/') if limit: try: if re.match(limit, volume_name): volume_list.append(getVolumeInformation(zk_conn, pool_name, volume_name)) except Exception as e: return False, 'Regex Error: {}'.format(e) else: volume_list.append(getVolumeInformation(zk_conn, pool_name, volume_name)) return True, sorted(volume_list, key = lambda x: str(x['name'])) def format_list_volume(volume_list): volume_list_output = [] volume_name_length = 5 volume_pool_length = 5 volume_size_length = 5 volume_objects_length = 8 volume_order_length = 6 volume_format_length = 7 volume_features_length = 10 for volume_information in volume_list: # Set the Volume name length _volume_name_length = len(volume_information['name']) + 1 if _volume_name_length > volume_name_length: volume_name_length = _volume_name_length # Set the Volume pool length _volume_pool_length = len(volume_information['pool']) + 1 if _volume_pool_length > volume_pool_length: volume_pool_length = _volume_pool_length # Set the size and length _volume_size_length = len(str(volume_information['stats']['size'])) + 1 if _volume_size_length > volume_size_length: volume_size_length = _volume_size_length # Set the num_objects and length _volume_objects_length = len(str(volume_information['stats']['objects'])) + 1 if _volume_objects_length > volume_objects_length: volume_objects_length = _volume_objects_length # Set the order and length _volume_order_length = len(str(volume_information['stats']['order'])) + 1 if _volume_order_length > volume_order_length: volume_order_length = _volume_order_length # Set the format and length _volume_format_length = len(str(volume_information['stats']['format'])) + 1 if _volume_format_length > volume_format_length: volume_format_length = _volume_format_length # Set the features and length _volume_features_length = len(str(','.join(volume_information['stats']['features']))) + 1 if _volume_features_length > volume_features_length: volume_features_length = _volume_features_length # Format the output header volume_list_output.append('{bold}\ {volume_name: <{volume_name_length}} \ {volume_pool: <{volume_pool_length}} \ {volume_size: <{volume_size_length}} \ {volume_objects: <{volume_objects_length}} \ {volume_order: <{volume_order_length}} \ {volume_format: <{volume_format_length}} \ {volume_features: <{volume_features_length}} \ {end_bold}'.format( bold=ansiprint.bold(), end_bold=ansiprint.end(), volume_name_length=volume_name_length, volume_pool_length=volume_pool_length, volume_size_length=volume_size_length, volume_objects_length=volume_objects_length, volume_order_length=volume_order_length, volume_format_length=volume_format_length, volume_features_length=volume_features_length, volume_name='Name', volume_pool='Pool', volume_size='Size', volume_objects='Objects', volume_order='Order', volume_format='Format', volume_features='Features', ) ) for volume_information in volume_list: volume_list_output.append('{bold}\ {volume_name: <{volume_name_length}} \ {volume_pool: <{volume_pool_length}} \ {volume_size: <{volume_size_length}} \ {volume_objects: <{volume_objects_length}} \ {volume_order: <{volume_order_length}} \ {volume_format: <{volume_format_length}} \ {volume_features: <{volume_features_length}} \ {end_bold}'.format( bold='', end_bold='', volume_name_length=volume_name_length, volume_pool_length=volume_pool_length, volume_size_length=volume_size_length, volume_objects_length=volume_objects_length, volume_order_length=volume_order_length, volume_format_length=volume_format_length, volume_features_length=volume_features_length, volume_name=volume_information['name'], volume_pool=volume_information['pool'], volume_size=volume_information['stats']['size'], volume_objects=volume_information['stats']['objects'], volume_order=volume_information['stats']['order'], volume_format=volume_information['stats']['format'], volume_features=','.join(volume_information['stats']['features']), ) ) click.echo('\n'.join(sorted(volume_list_output))) # # Snapshot functions # def getCephSnapshots(zk_conn, pool, volume): snapshot_list = list() volume_list = list() volume_list = getCephVolumes(zk_conn, pool) if volume: for volume_entry in volume_list: volume_pool, volume_name = volume_entry.split('/') if volume_name == volume: volume_list = [ '{}/{}'.format(volume_pool, volume_name) ] for volume_entry in volume_list: for snapshot_name in zkhandler.listchildren(zk_conn, '/ceph/snapshots/{}'.format(volume_entry)): snapshot_list.append('{}@{}'.format(volume_entry, snapshot_name)) return snapshot_list def add_snapshot(zk_conn, pool, volume, name): if not verifyVolume(zk_conn, pool, volume): return False, 'ERROR: No volume with name "{}" is present in pool "{}".'.format(volume, pool) # 1. Create the snapshot retcode, stdout, stderr = common.run_os_command('rbd snap create {}/{}@{}'.format(pool, volume, name)) if retcode: return False, 'ERROR: Failed to create RBD snapshot "{}" of volume "{}" in pool "{}": {}'.format(name, volume, pool, stderr) # 2. Add the snapshot to Zookeeper zkhandler.writedata(zk_conn, { '/ceph/snapshots/{}/{}/{}'.format(pool, volume, name): '', '/ceph/snapshots/{}/{}/{}/stats'.format(pool, volume, name): '{}' }) return True, 'Created RBD snapshot "{}" of volume "{}" in pool "{}".'.format(name, volume, pool) def rename_snapshot(zk_conn, pool, volume, name, new_name): if not verifyVolume(zk_conn, pool, volume): return False, 'ERROR: No volume with name "{}" is present in pool "{}".'.format(volume, pool) if not verifySnapshot(zk_conn, pool, volume, name): return False, 'ERROR: No snapshot with name "{}" is present for volume "{}" in pool "{}".'.format(name, volume, pool) # 1. Rename the snapshot retcode, stdout, stderr = common.run_os_command('rbd snap rename {}/{}@{} {}'.format(pool, volume, name, new_name)) if retcode: return False, 'ERROR: Failed to rename RBD snapshot "{}" to "{}" for volume "{}" in pool "{}": {}'.format(name, new_name, volume, pool, stderr) # 2. Rename the snapshot in ZK zkhandler.renamekey(zk_conn, { '/ceph/snapshots/{}/{}/{}'.format(pool, volume, name): '/ceph/snapshots/{}/{}/{}'.format(pool, volume, new_name) }) return True, 'Renamed RBD snapshot "{}" to "{}" for volume "{}" in pool "{}".'.format(name, new_name, volume, pool) def remove_snapshot(zk_conn, pool, volume, name): if not verifyVolume(zk_conn, pool, volume): return False, 'ERROR: No volume with name "{}" is present in pool "{}".'.format(volume, pool) if not verifySnapshot(zk_conn, pool, volume, name): return False, 'ERROR: No snapshot with name "{}" is present of volume {} in pool {}.'.format(name, volume, pool) # 1. Remove the snapshot retcode, stdout, stderr = common.run_os_command('rbd snap rm {}/{}@{}'.format(pool, volume, name)) if retcode: return False, 'Failed to remove RBD snapshot "{}" of volume "{}" in pool "{}": {}'.format(name, volume, pool, stderr) # 2. Delete snapshot from Zookeeper zkhandler.deletekey(zk_conn, '/ceph/snapshots/{}/{}/{}'.format(pool, volume, name)) return True, 'Removed RBD snapshot "{}" of volume "{}" in pool "{}".'.format(name, volume, pool) def get_list_snapshot(zk_conn, pool, volume, limit, is_fuzzy=True): snapshot_list = [] if pool and not verifyPool(zk_conn, pool): return False, 'ERROR: No pool with name "{}" is present in the cluster.'.format(pool) if volume and not verifyPool(zk_conn, volume): return False, 'ERROR: No volume with name "{}" is present in the cluster.'.format(volume) full_snapshot_list = getCephSnapshots(zk_conn, pool, volume) if is_fuzzy and limit: # Implicitly assume fuzzy limits if not re.match('[^].*', limit): limit = '.*' + limit if not re.match('.*[$]', limit): limit = limit + '.*' for snapshot in full_snapshot_list: volume, snapshot_name = snapshot.split('@') pool_name, volume_name = volume.split('/') if limit: try: if re.match(limit, snapshot_name): snapshot_list.append({'pool': pool_name, 'volume': volume_name, 'snapshot': snapshot_name}) except Exception as e: return False, 'Regex Error: {}'.format(e) else: snapshot_list.append({'pool': pool_name, 'volume': volume_name, 'snapshot': snapshot_name}) return True, sorted(snapshot_list, key = lambda x: int(x['id'])) def format_list_snapshot(snapshot_list): snapshot_list_output = [] snapshot_name_length = 5 snapshot_volume_length = 7 snapshot_pool_length = 5 for snapshot in snapshot_list: volume, snapshot_name = snapshot.split('@') snapshot_pool, snapshot_volume = volume.split('/') # Set the Snapshot name length _snapshot_name_length = len(snapshot_name) + 1 if _snapshot_name_length > snapshot_name_length: snapshot_name_length = _snapshot_name_length # Set the Snapshot volume length _snapshot_volume_length = len(snapshot_volume) + 1 if _snapshot_volume_length > snapshot_volume_length: snapshot_volume_length = _snapshot_volume_length # Set the Snapshot pool length _snapshot_pool_length = len(snapshot_pool) + 1 if _snapshot_pool_length > snapshot_pool_length: snapshot_pool_length = _snapshot_pool_length # Format the output header snapshot_list_output.append('{bold}\ {snapshot_name: <{snapshot_name_length}} \ {snapshot_volume: <{snapshot_volume_length}} \ {snapshot_pool: <{snapshot_pool_length}} \ {end_bold}'.format( bold=ansiprint.bold(), end_bold=ansiprint.end(), snapshot_name_length=snapshot_name_length, snapshot_volume_length=snapshot_volume_length, snapshot_pool_length=snapshot_pool_length, snapshot_name='Name', snapshot_volume='Volume', snapshot_pool='Pool', ) ) for snapshot in snapshot_list: volume, snapshot_name = snapshot.split('@') snapshot_pool, snapshot_volume = volume.split('/') snapshot_list_output.append('{bold}\ {snapshot_name: <{snapshot_name_length}} \ {snapshot_volume: <{snapshot_volume_length}} \ {snapshot_pool: <{snapshot_pool_length}} \ {end_bold}'.format( bold='', end_bold='', snapshot_name_length=snapshot_name_length, snapshot_volume_length=snapshot_volume_length, snapshot_pool_length=snapshot_pool_length, snapshot_name=snapshot_name, snapshot_volume=snapshot_volume, snapshot_pool=snapshot_pool, ) ) click.echo('\n'.join(sorted(snapshot_list_output)))