#!/usr/bin/env python3 # pvcf.py - Supplemental functions for the PVC CLI client # 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 os, sys, libvirt, uuid, kazoo.client, lxml.objectify, click, ansiiprint # # Validate a UUID # def validateUUID(dom_uuid): try: uuid.UUID(dom_uuid) return True except: return False # # Connect and disconnect from Zookeeper # def startZKConnection(zk_host): zk = kazoo.client.KazooClient(hosts=zk_host) zk.start() return zk def stopZKConnection(zk): zk.stop() zk.close() return 0 # # XML information parsing functions # def getInformationFromXML(zk, uuid, long_output): # Obtain the contents of the XML from Zookeeper try: xml = zk.get('/domains/%s/xml' % uuid)[0].decode('ascii') dstate = zk.get('/domains/%s/state' % uuid)[0].decode('ascii') dhypervisor = zk.get('/domains/%s/hypervisor' % uuid)[0].decode('ascii') dlasthypervisor = zk.get('/domains/%s/lasthypervisor' % uuid)[0].decode('ascii') except: return None if dlasthypervisor == '': dlasthypervisor = 'N/A' # Parse XML using lxml.objectify parsed_xml = lxml.objectify.fromstring(xml) # Get the information we want from it duuid = parsed_xml.uuid dname = parsed_xml.name dmemory = parsed_xml.memory dmemory_unit = parsed_xml.memory.attrib['unit'] dvcpu = parsed_xml.vcpu try: dvcputopo = '{}/{}/{}'.format(parsed_xml.cpu.topology.attrib['sockets'], parsed_xml.cpu.topology.attrib['cores'], parsed_xml.cpu.topology.attrib['threads']) except: dvcputopo = 'N/A' dtype = parsed_xml.os.type darch = parsed_xml.os.type.attrib['arch'] dmachine = parsed_xml.os.type.attrib['machine'] dfeatures = [] for feature in parsed_xml.features.getchildren(): dfeatures.append(feature.tag) dconsole = parsed_xml.devices.console.attrib['type'] demulator = parsed_xml.devices.emulator ddisks = [] dnets = [] dcontrollers = [] for device in parsed_xml.devices.getchildren(): if device.tag == 'disk': disk_attrib = device.source.attrib disk_target = device.target.attrib disk_type = device.attrib['type'] if disk_type == 'network': disk_obj = { 'type': disk_attrib.get('protocol'), 'name': disk_attrib.get('name'), 'dev': disk_target.get('dev'), 'bus': disk_target.get('bus') } elif disk_type == 'file': disk_obj = { 'type': 'file', 'name': disk_attrib.get('file'), 'dev': disk_target.get('dev'), 'bus': disk_target.get('bus') } else: disk_obj = {} ddisks.append(disk_obj) if device.tag == 'interface': net_type = device.attrib['type'] net_mac = device.mac.attrib['address'] net_bridge = device.source.attrib[net_type] net_model = device.model.attrib['type'] net_obj = { 'type': net_type, 'mac': net_mac, 'source': net_bridge, 'model': net_model } dnets.append(net_obj) if device.tag == 'controller': controller_type = device.attrib['type'] try: controller_model = device.attrib['model'] except KeyError: controller_model = 'none' controller_obj = { 'type': controller_type, 'model': controller_model } dcontrollers.append(controller_obj) # Format a nice output; do this line-by-line then concat the elements at the end ainformation = [] ainformation.append('{}Virtual machine information:{}'.format(ansiiprint.bold(), ansiiprint.end())) ainformation.append('') # Basic information ainformation.append('{}UUID:{} {}'.format(ansiiprint.purple(), ansiiprint.end(), duuid)) ainformation.append('{}Name:{} {}'.format(ansiiprint.purple(), ansiiprint.end(), dname)) ainformation.append('{}Memory:{} {} {}'.format(ansiiprint.purple(), ansiiprint.end(), dmemory, dmemory_unit)) ainformation.append('{}vCPUs:{} {}'.format(ansiiprint.purple(), ansiiprint.end(), dvcpu)) ainformation.append('{}Topology [S/C/T]:{} {}'.format(ansiiprint.purple(), ansiiprint.end(), dvcputopo)) if long_output == True: # Virtualization information ainformation.append('') ainformation.append('{}Emulator:{} {}'.format(ansiiprint.purple(), ansiiprint.end(), demulator)) ainformation.append('{}Type:{} {}'.format(ansiiprint.purple(), ansiiprint.end(), dtype)) ainformation.append('{}Arch:{} {}'.format(ansiiprint.purple(), ansiiprint.end(), darch)) ainformation.append('{}Machine:{} {}'.format(ansiiprint.purple(), ansiiprint.end(), dmachine)) ainformation.append('{}Features:{} {}'.format(ansiiprint.purple(), ansiiprint.end(), ' '.join(dfeatures))) # PVC cluster information ainformation.append('') dstate_colour = { 'start': ansiiprint.green(), 'stop': ansiiprint.red(), 'shutdown': ansiiprint.yellow(), 'migrate': ansiiprint.blue(), 'unmigrate': ansiiprint.blue() } ainformation.append('{}State:{} {}{}{}'.format(ansiiprint.purple(), ansiiprint.end(), dstate_colour[dstate], dstate, ansiiprint.end())) ainformation.append('{}Active Hypervisor:{} {}'.format(ansiiprint.purple(), ansiiprint.end(), dhypervisor)) ainformation.append('{}Last Hypervisor:{} {}'.format(ansiiprint.purple(), ansiiprint.end(), dlasthypervisor)) if long_output == True: # Disk list ainformation.append('') name_length = 0 for disk in ddisks: _name_length = len(disk['name']) + 1 if _name_length > name_length: name_length = _name_length ainformation.append('{0}Disks:{1} {2}ID Type {3: <{width}} Dev Bus{4}'.format(ansiiprint.purple(), ansiiprint.end(), ansiiprint.bold(), 'Name', ansiiprint.end(), width=name_length)) for disk in ddisks: ainformation.append(' {0: <3} {1: <5} {2: <{width}} {3: <4} {4: <5}'.format(ddisks.index(disk), disk['type'], disk['name'], disk['dev'], disk['bus'], width=name_length)) # Network list ainformation.append('') ainformation.append('{}Interfaces:{} {}ID Type Source Model MAC{}'.format(ansiiprint.purple(), ansiiprint.end(), ansiiprint.bold(), ansiiprint.end())) for net in dnets: ainformation.append(' {0: <3} {1: <8} {2: <8} {3: <8} {4: <17}'.format(dnets.index(net), net['type'], net['source'], net['model'], net['mac'])) # Controller list ainformation.append('') ainformation.append('{}Controllers:{} {}ID Type Model{}'.format(ansiiprint.purple(), ansiiprint.end(), ansiiprint.bold(), ansiiprint.end())) for controller in dcontrollers: ainformation.append(' {0: <3} {1: <14} {2: <8}'.format(dcontrollers.index(controller), controller['type'], controller['model'])) # Join it all together information = '\n'.join(ainformation) return information # # Cluster search functions # def getClusterDomainList(zk): # Get a list of UUIDs by listing the children of /domains uuid_list = zk.get_children('/domains') name_list = [] # For each UUID, get the corresponding name from the data for uuid in uuid_list: name_list.append(zk.get('/domains/%s' % uuid)[0].decode('ascii')) return uuid_list, name_list def searchClusterByUUID(zk, uuid): try: # Get the lists uuid_list, name_list = getClusterDomainList(zk) # We're looking for UUID, so find that element ID index = uuid_list.index(uuid) # Get the name_list element at that index name = name_list[index] except ValueError: # We didn't find anything return None return name def searchClusterByName(zk, name): try: # Get the lists uuid_list, name_list = getClusterDomainList(zk) # We're looking for name, so find that element ID index = name_list.index(name) # Get the uuid_list element at that index uuid = uuid_list[index] except ValueError: # We didn't find anything return None return uuid # # Allow mutually exclusive options in Click # class MutuallyExclusiveOption(click.Option): def __init__(self, *args, **kwargs): meargs = kwargs.pop('mutually_exclusive', []) _me_arg = [] _me_func = [] for arg in meargs: _me_arg.append(arg['argument']) _me_func.append(arg['function']) self.me_arg = set(_me_arg) self.me_func = set(_me_func) help = kwargs.get('help', '') if self.me_func: ex_str = ', '.join(self.me_arg) kwargs['help'] = help + ( ' Mutually exclusive with `' + ex_str + '`.' ) super(MutuallyExclusiveOption, self).__init__(*args, **kwargs) def handle_parse_result(self, ctx, opts, args): if self.me_func.intersection(opts) and self.name in opts: raise click.UsageError( "Illegal usage: `{}` is mutually exclusive with " "arguments `{}`.".format( self.opts[-1], ', '.join(self.me_arg) ) ) return super(MutuallyExclusiveOption, self).handle_parse_result( ctx, opts, args )