#!/usr/bin/env python3 # ceph.py - PVC client function library, Ceph cluster fuctions # 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 re import click import json import time import math import client_lib.ansiprint as ansiprint import client_lib.zkhandler as zkhandler import client_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 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 in human-readable units def format_bytes(databytes): unit_matrix = { 'K': 1024, 'M': 1024*1024, 'G': 1024*1024*1024, 'T': 1024*1024*1024*1024, 'P': 1024*1024*1024*1024*1024 } databytes_formatted = '' if databytes > 9999: for unit in sorted(unit_matrix, key=unit_matrix.get, reverse=True): new_bytes = int(math.ceil(databytes / 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 databytes_formatted = '{}{}'.format(new_bytes, unit) else: databytes_formatted = '{}B'.format(databytes) return databytes_formatted # # Cluster search 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)) # Deal with the size databytes = osd_stats['kb'] * 1024 databytes_formatted = format_bytes(databytes) osd_stats['size'] = databytes_formatted return osd_stats def getCephOSDs(zk_conn): osd_list = zkhandler.listchildren(zk_conn, '/ceph/osds') return osd_list def formatOSDList(zk_conn, osd_list): osd_list_output = [] osd_uuid = dict() osd_up = dict() osd_up_colour = dict() osd_in = dict() osd_in_colour = dict() osd_size = dict() osd_weight = dict() osd_reweight = dict() osd_pgs = dict() osd_node = dict() osd_used = dict() osd_free = dict() osd_util = dict() osd_var= dict() osd_wrops = dict() osd_wrdata = dict() osd_rdops = dict() osd_rddata = dict() 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 = 6 osd_wrops_length = 4 osd_wrdata_length = 5 osd_rdops_length = 4 osd_rddata_length = 5 for osd in osd_list: # Set the OSD ID length _osd_id_length = len(osd) + 1 if _osd_id_length > osd_id_length: osd_id_length = _osd_id_length # Get stats osd_stats = getOSDInformation(zk_conn, osd) # Set the parent node and length try: osd_node[osd] = osd_stats['node'] # If this happens, the node hasn't checked in fully yet, so just ignore it if osd_node[osd] == '|': continue except KeyError: continue _osd_node_length = len(osd_node[osd]) + 1 if _osd_node_length > osd_node_length: osd_node_length = _osd_node_length # Set the UP status if osd_stats['up'] == 1: osd_up[osd] = 'Yes' osd_up_colour[osd] = ansiprint.green() else: osd_up[osd] = 'No' osd_up_colour[osd] = ansiprint.red() # Set the IN status if osd_stats['in'] == 1: osd_in[osd] = 'Yes' osd_in_colour[osd] = ansiprint.green() else: osd_in[osd] = 'No' osd_in_colour[osd] = ansiprint.red() # Set the size and length osd_size[osd] = osd_stats['size'] _osd_size_length = len(str(osd_size[osd])) + 1 if _osd_size_length > osd_size_length: osd_size_length = _osd_size_length # Set the weight and length osd_weight[osd] = osd_stats['weight'] _osd_weight_length = len(str(osd_weight[osd])) + 1 if _osd_weight_length > osd_weight_length: osd_weight_length = _osd_weight_length # Set the reweight and length osd_reweight[osd] = osd_stats['reweight'] _osd_reweight_length = len(str(osd_reweight[osd])) + 1 if _osd_reweight_length > osd_reweight_length: osd_reweight_length = _osd_reweight_length # Set the pgs and length osd_pgs[osd] = osd_stats['pgs'] _osd_pgs_length = len(str(osd_pgs[osd])) + 1 if _osd_pgs_length > osd_pgs_length: osd_pgs_length = _osd_pgs_length # Set the used/available/utlization%/variance and lengths osd_used[osd] = osd_stats['used'] _osd_used_length = len(osd_used[osd]) + 1 if _osd_used_length > osd_used_length: osd_used_length = _osd_used_length osd_free[osd] = osd_stats['avail'] _osd_free_length = len(osd_free[osd]) + 1 if _osd_free_length > osd_free_length: osd_free_length = _osd_free_length osd_util[osd] = round(osd_stats['utilization'], 2) _osd_util_length = len(str(osd_util[osd])) + 1 if _osd_util_length > osd_util_length: osd_util_length = _osd_util_length osd_var[osd] = round(osd_stats['var'], 2) _osd_var_length = len(str(osd_var[osd])) + 1 if _osd_var_length > osd_var_length: osd_var_length = _osd_var_length # Set the write IOPS/data and length osd_wrops[osd] = osd_stats['wr_ops'] _osd_wrops_length = len(osd_wrops[osd]) + 1 if _osd_wrops_length > osd_wrops_length: osd_wrops_length = _osd_wrops_length osd_wrdata[osd] = osd_stats['wr_data'] _osd_wrdata_length = len(osd_wrdata[osd]) + 1 if _osd_wrdata_length > osd_wrdata_length: osd_wrdata_length = _osd_wrdata_length # Set the read IOPS/data and length osd_rdops[osd] = osd_stats['rd_ops'] _osd_rdops_length = len(osd_rdops[osd]) + 1 if _osd_rdops_length > osd_rdops_length: osd_rdops_length = _osd_rdops_length osd_rddata[osd] = osd_stats['rd_data'] _osd_rddata_length = len(osd_rddata[osd]) + 1 if _osd_rddata_length > osd_rddata_length: osd_rddata_length = _osd_rddata_length # Format the output header osd_list_output_header = '{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 in osd_list: # 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=ansiprint.bold(), end_bold=ansiprint.end(), 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, osd_node=osd_node[osd], osd_up_colour=osd_up_colour[osd], osd_up=osd_up[osd], osd_in_colour=osd_in_colour[osd], osd_in=osd_in[osd], osd_size=osd_size[osd], osd_pgs=osd_pgs[osd], osd_weight=osd_weight[osd], osd_reweight=osd_reweight[osd], osd_used=osd_used[osd], osd_free=osd_free[osd], osd_util=osd_util[osd], osd_var=osd_var[osd], osd_wrops=osd_wrops[osd], osd_wrdata=osd_wrdata[osd], osd_rdops=osd_rdops[osd], osd_rddata=osd_rddata[osd] ) ) output_string = osd_list_output_header + '\n' + '\n'.join(sorted(osd_list_output)) return output_string def getClusterPoolList(zk_conn): # Get a list of pools under /ceph/pools pool_list = zkhandler.listchildren(zk_conn, '/ceph/pools') return pool_list def getPoolInformation(zk_conn, name): # Parse the stats data pool_stats_raw = zkhandler.readdata(zk_conn, '/ceph/pools/{}/stats'.format(name)) pool_stats = dict(json.loads(pool_stats_raw)) # Deal with the size issues for datatype in 'size_bytes', 'read_bytes', 'write_bytes': databytes = pool_stats[datatype] databytes_formatted = format_bytes(databytes) new_name = datatype.replace('bytes', 'formatted') pool_stats[new_name] = databytes_formatted return pool_stats def getCephPools(zk_conn): pool_list = zkhandler.listchildren(zk_conn, '/ceph/pools') return pool_list def formatPoolList(zk_conn, pool_list): pool_list_output = [] pool_id = dict() pool_size = dict() pool_num_objects = dict() pool_num_clones = dict() pool_num_copies = dict() pool_num_degraded = dict() pool_read_ops = dict() pool_read_data = dict() pool_write_ops = dict() pool_write_data = dict() pool_name_length = 5 pool_id_length = 3 pool_size_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 in pool_list: # Set the Pool name length _pool_name_length = len(pool) + 1 if _pool_name_length > pool_name_length: pool_name_length = _pool_name_length # Get stats pool_stats = getPoolInformation(zk_conn, pool) # Set the parent node and length try: pool_id[pool] = pool_stats['id'] # If this happens, the node hasn't checked in fully yet, so just ignore it if not pool_id[pool]: continue except KeyError: continue # Set the id and length pool_id[pool] = pool_stats['id'] _pool_id_length = len(str(pool_id[pool])) + 1 if _pool_id_length > pool_id_length: pool_id_length = _pool_id_length # Set the size and length pool_size[pool] = pool_stats['size_formatted'] _pool_size_length = len(str(pool_size[pool])) + 1 if _pool_size_length > pool_size_length: pool_size_length = _pool_size_length # Set the num_objects and length pool_num_objects[pool] = pool_stats['num_objects'] _pool_num_objects_length = len(str(pool_num_objects[pool])) + 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[pool] = pool_stats['num_object_clones'] _pool_num_clones_length = len(str(pool_num_clones[pool])) + 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[pool] = pool_stats['num_object_copies'] _pool_num_copies_length = len(str(pool_num_copies[pool])) + 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[pool] = pool_stats['num_objects_degraded'] _pool_num_degraded_length = len(str(pool_num_degraded[pool])) + 1 if _pool_num_degraded_length > pool_num_degraded_length: pool_num_degraded_length = _pool_num_degraded_length # Set the write IOPS/data and length pool_write_ops[pool] = pool_stats['write_ops'] _pool_write_ops_length = len(str(pool_write_ops[pool])) + 1 if _pool_write_ops_length > pool_write_ops_length: pool_write_ops_length = _pool_write_ops_length pool_write_data[pool] = pool_stats['write_formatted'] _pool_write_data_length = len(pool_write_data[pool]) + 1 if _pool_write_data_length > pool_write_data_length: pool_write_data_length = _pool_write_data_length # Set the read IOPS/data and length pool_read_ops[pool] = pool_stats['read_ops'] _pool_read_ops_length = len(str(pool_read_ops[pool])) + 1 if _pool_read_ops_length > pool_read_ops_length: pool_read_ops_length = _pool_read_ops_length pool_read_data[pool] = pool_stats['read_formatted'] _pool_read_data_length = len(pool_read_data[pool]) + 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_header = '{bold}\ {pool_id: <{pool_id_length}} \ {pool_name: <{pool_name_length}} \ {pool_size: <{pool_size_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_size_length=pool_size_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_size='Used', 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 in pool_list: # Format the output header pool_list_output.append('{bold}\ {pool_id: <{pool_id_length}} \ {pool_name: <{pool_name_length}} \ {pool_size: <{pool_size_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=ansiprint.bold(), end_bold=ansiprint.end(), pool_id_length=pool_id_length, pool_name_length=pool_name_length, pool_size_length=pool_size_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_id[pool], pool_name=pool, pool_size=pool_size[pool], pool_objects=pool_num_objects[pool], pool_clones=pool_num_clones[pool], pool_copies=pool_num_copies[pool], pool_degraded=pool_num_degraded[pool], pool_write_ops=pool_write_ops[pool], pool_write_data=pool_write_data[pool], pool_read_ops=pool_read_ops[pool], pool_read_data=pool_read_data[pool] ) ) output_string = pool_list_output_header + '\n' + '\n'.join(sorted(pool_list_output)) return output_string # # Direct functions # def get_status(zk_conn): status_data = zkhandler.readdata(zk_conn, '/ceph').rstrip() primary_node = zkhandler.readdata(zk_conn, '/primary_node') click.echo('{bold}Ceph cluster status (primary node {end}{blue}{primary}{end}{bold}){end}\n'.format(bold=ansiprint.bold(), end=ansiprint.end(), blue=ansiprint.blue(), primary=primary_node)) click.echo(status_data) click.echo('') return True, '' 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, {'/ceph/cmd': 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, '/ceph/cmd') with lock: try: result = zkhandler.readdata(zk_conn, '/ceph/cmd').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 zkhandler.writedata(zk_conn, {'/ceph/cmd': ''}) 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, {'/ceph/cmd': 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, '/ceph/cmd') with lock: try: result = zkhandler.readdata(zk_conn, '/ceph/cmd').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.' zkhandler.writedata(zk_conn, {'/ceph/cmd': ''}) 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) # Tell the cluster to online an OSD in_osd_string = 'osd_in {}'.format(osd_id) zkhandler.writedata(zk_conn, {'/ceph/cmd': in_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, '/ceph/cmd') with lock: try: result = zkhandler.readdata(zk_conn, '/ceph/cmd').split()[0] if result == 'success-osd_in': message = 'Set OSD {} online in the cluster.'.format(osd_id) success = True else: message = 'ERROR: Failed to set OSD online; check node logs for details.' success = False except: success = False message = 'ERROR Command ignored by node.' zkhandler.writedata(zk_conn, {'/ceph/cmd': ''}) return success, message 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) # Tell the cluster to offline an OSD out_osd_string = 'osd_out {}'.format(osd_id) zkhandler.writedata(zk_conn, {'/ceph/cmd': out_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, '/ceph/cmd') with lock: try: result = zkhandler.readdata(zk_conn, '/ceph/cmd').split()[0] if result == 'success-osd_out': message = 'Set OSD {} offline in the cluster.'.format(osd_id) success = True else: message = 'ERROR: Failed to set OSD offline; check node logs for details.' success = False except: success = False message = 'ERROR Command ignored by node.' zkhandler.writedata(zk_conn, {'/ceph/cmd': ''}) return success, message def set_osd(zk_conn, option): # Tell the cluster to set an OSD property set_osd_string = 'osd_set {}'.format(option) zkhandler.writedata(zk_conn, {'/ceph/cmd': set_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, '/ceph/cmd') with lock: try: result = zkhandler.readdata(zk_conn, '/ceph/cmd').split()[0] if result == 'success-osd_set': message = 'Set OSD property {} on the cluster.'.format(option) success = True else: message = 'ERROR: Failed to set OSD property; check node logs for details.' success = False except: success = False message = 'ERROR Command ignored by node.' zkhandler.writedata(zk_conn, {'/ceph/cmd': ''}) return success, message def unset_osd(zk_conn, option): # Tell the cluster to unset an OSD property unset_osd_string = 'osd_unset {}'.format(option) zkhandler.writedata(zk_conn, {'/ceph/cmd': unset_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, '/ceph/cmd') with lock: try: result = zkhandler.readdata(zk_conn, '/ceph/cmd').split()[0] if result == 'success-osd_unset': message = 'Unset OSD property {} on the cluster.'.format(option) success = True else: message = 'ERROR: Failed to unset OSD property; check node logs for details.' success = False except: success = False message = 'ERROR Command ignored by node.' zkhandler.writedata(zk_conn, {'/ceph/cmd': ''}) return success, message def get_list_osd(zk_conn, limit): osd_list = [] full_osd_list = getCephOSDs(zk_conn) if limit: try: # Implicitly assume fuzzy limits if re.match('\^.*', limit) == None: limit = '.*' + limit if re.match('.*\$', limit) == None: limit = limit + '.*' except Exception as e: return False, 'Regex Error: {}'.format(e) for osd in full_osd_list: valid_osd = False if limit: if re.match(limit, osd['osd_id']) != None: valid_osd = True else: valid_osd = True if valid_osd: osd_list.append(osd) output_string = formatOSDList(zk_conn, osd_list) click.echo(output_string) return True, '' def add_pool(zk_conn, name, pgs): # Tell the cluster to create a new pool add_pool_string = 'pool_add {},{}'.format(name, pgs) zkhandler.writedata(zk_conn, {'/ceph/cmd': add_pool_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, '/ceph/cmd') with lock: try: result = zkhandler.readdata(zk_conn, '/ceph/cmd').split()[0] if result == 'success-pool_add': message = 'Created new RBD pool {} with {} PGs.'.format(name, pgs) success = True else: message = 'ERROR: Failed to create new pool; check node logs for details.' success = False except: message = 'ERROR: Command ignored by node.' success = False zkhandler.writedata(zk_conn, {'/ceph/cmd': ''}) return success, message 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) # Tell the cluster to create a new pool remove_pool_string = 'pool_remove {}'.format(name) zkhandler.writedata(zk_conn, {'/ceph/cmd': remove_pool_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, '/ceph/cmd') with lock: try: result = zkhandler.readdata(zk_conn, '/ceph/cmd').split()[0] if result == 'success-pool_remove': message = 'Removed RBD pool {} and all volumes.'.format(name) success = True else: message = 'ERROR: Failed to remove pool; check node logs for details.' success = False except Exception as e: message = 'ERROR: Command ignored by node: {}'.format(e) success = False zkhandler.writedata(zk_conn, {'/ceph/cmd': ''}) return success, message def get_list_pool(zk_conn, limit): pool_list = [] full_pool_list = getCephPools(zk_conn) if limit: try: # Implicitly assume fuzzy limits if re.match('\^.*', limit) == None: limit = '.*' + limit if re.match('.*\$', limit) == None: limit = limit + '.*' except Exception as e: return False, 'Regex Error: {}'.format(e) for pool in full_pool_list: valid_pool = False if limit: if re.match(limit, pool['pool_id']) != None: valid_pool = True else: valid_pool = True if valid_pool: pool_list.append(pool) output_string = formatPoolList(zk_conn, pool_list) click.echo(output_string) return True, ''