Ejemplo n.º 1
0
def main(profile, dry_run, router):
    """Live migrate ROUTER"""

    click_log.basic_config()

    log_to_slack = True
    logging.task = 'Live Migrate HV to new POD'
    logging.slack_title = 'Domain'

    if dry_run:
        log_to_slack = False
        logging.warning('Running in dry-run mode, will only show changes')

    co = CosmicOps(profile=profile, dry_run=dry_run, log_to_slack=log_to_slack)

    router = co.get_system_vm(name=router)
    if not router:
        sys.exit(1)

    source_host = co.get_host(id=router['hostid'])
    if not source_host:
        sys.exit(1)

    cluster = co.get_cluster(id=source_host['clusterid'])
    if not cluster:
        sys.exit(1)

    destination_host = cluster.find_migration_host(router)
    if not destination_host:
        sys.exit(1)

    if not router.migrate(destination_host):
        sys.exit(1)
def main(profile, zwps_to_cwps, add_affinity_group, destination_dc, is_project_vm,
         skip_within_cluster, dry_run, vm, cluster):
    """Live migrate VM to CLUSTER"""

    click_log.basic_config()

    log_to_slack = True
    logging.task = 'Live Migrate VM'
    logging.slack_title = 'Domain'

    if dry_run:
        log_to_slack = False
        logging.warning('Running in dry-run mode, will only show changes')

    co = CosmicOps(profile=profile, dry_run=dry_run, log_to_slack=log_to_slack)

    cs = CosmicSQL(server=profile, dry_run=dry_run)

    # Work around migration issue: first in the same pod to limit possible hiccup
    vm_instance = co.get_vm(name=vm, is_project_vm=is_project_vm)

    if not vm_instance:
        logging.error(f"Cannot migrate, VM '{vm}' not found!")
        sys.exit(1)

    if not vm_instance['state'] == 'Running':
        logging.error(f"Cannot migrate, VM has has state: '{vm_instance['state']}'")
        sys.exit(1)

    source_host = co.get_host(id=vm_instance['hostid'])
    source_cluster = co.get_cluster(id=source_host['clusterid'])
    if not skip_within_cluster:
        if not vm_instance.migrate_within_cluster(vm=vm_instance, source_cluster=source_cluster,
                                                  source_host=source_host, instancename=vm_instance):
            logging.info(f"VM Migration failed at {datetime.now().strftime('%d-%m-%Y %H:%M:%S')}\n")
            sys.exit(1)

    if not live_migrate(co, cs, cluster, vm, destination_dc, add_affinity_group, is_project_vm, zwps_to_cwps,
                        log_to_slack, dry_run):
        logging.info(f"VM Migration failed at {datetime.now().strftime('%d-%m-%Y %H:%M:%S')}\n")
        sys.exit(1)
    logging.info(f"VM Migration completed at {datetime.now().strftime('%d-%m-%Y %H:%M:%S')}\n")
def main(profile, is_project_vm, dry_run, vm, cluster, destination_dc, destination_so):
    """Offline migrate VM to CLUSTER"""

    click_log.basic_config()

    log_to_slack = True
    logging.task = 'Offline Migrate VM'
    logging.slack_title = 'Domain'

    if dry_run:
        log_to_slack = False
        logging.warning('Running in dry-run mode, will only show changes')

    co = CosmicOps(profile=profile, dry_run=dry_run, log_to_slack=log_to_slack)

    cs = CosmicSQL(server=profile, dry_run=dry_run)

    target_cluster = co.get_cluster(name=cluster)
    if not target_cluster:
        sys.exit(1)

    vm = co.get_vm(name=vm, is_project_vm=is_project_vm)
    if not vm:
        sys.exit(1)

    if destination_dc and destination_dc not in DATACENTERS:
        logging.error(f"Unknown datacenter '{destination_dc}', should be one of {str(DATACENTERS)}")
        sys.exit(1)

    logging.instance_name = vm['instancename']
    logging.slack_value = vm['domain']
    logging.vm_name = vm['name']
    logging.zone_name = vm['zonename']

    target_storage_pool = None
    try:
        # Get CLUSTER scoped volume (no NVMe or ZONE-wide)
        while target_storage_pool is None or target_storage_pool['scope'] != 'CLUSTER':
            target_storage_pool = choice(target_cluster.get_storage_pools())
    except IndexError:
        logging.error(f"No storage pools found for cluster '{target_cluster['name']}")
        sys.exit(1)

    if vm['state'] == 'Running':
        need_to_stop = True
        auto_start_vm = True
    else:
        need_to_stop = False
        auto_start_vm = False

    if destination_dc:
        for datacenter in DATACENTERS:
            if datacenter == destination_dc:
                continue

            if datacenter in vm['serviceofferingname']:
                new_offering = vm['serviceofferingname'].replace(datacenter, destination_dc)
                logging.info(
                    f"Replacing '{vm['serviceofferingname']}' with '{new_offering}'")
                cs.update_service_offering_of_vm(vm['instancename'], new_offering)
                vm = co.get_vm(name=vm['instancename'], is_project_vm=is_project_vm)
                break

    if destination_so:
        logging.info(
            f"Replacing '{vm['serviceofferingname']}' with '{destination_so}'")
        cs.update_service_offering_of_vm(vm['instancename'], destination_so)
        vm = co.get_vm(name=vm['instancename'], is_project_vm=is_project_vm)

    vm_service_offering = co.get_service_offering(id=vm['serviceofferingid'])
    if vm_service_offering:
        storage_tags = vm_service_offering['tags'] if 'tags' in vm_service_offering else ''

        if not storage_tags:
            logging.warning('VM service offering has no storage tags')
        else:
            if storage_tags not in target_storage_pool['tags']:
                logging.error(
                    f"Can't migrate '{vm['name']}', storage tags on target cluster ({target_storage_pool['tags']}) to not contain the tags on the VM's service offering ({storage_tags})'")
                sys.exit(1)

    if need_to_stop:
        if not vm.stop():
            sys.exit(1)

    volumes = vm.get_volumes()

    for volume in volumes:
        if volume['storage'] == target_storage_pool['name']:
            logging.warning(
                f"Volume '{volume['name']}' ({volume['id']}) already on cluster '{target_cluster['name']}', skipping...")
            continue

        source_storage_pool = co.get_storage_pool(name=volume['storage'])
        if not source_storage_pool:
            sys.exit(1)

        if source_storage_pool['scope'] == 'ZONE':
            logging.warning(f"Scope of volume '{volume['name']}' ({volume['id']}) is ZONE, skipping...")
            continue

        if not volume.migrate(target_storage_pool):
            sys.exit(1)

        with click_spinner.spinner():
            while True:
                volume.refresh()

                if volume['state'] == 'Ready':
                    break

                logging.warning(
                    f"Volume '{volume['name']}' ({volume['id']}) is in '{volume['state']}' state instead of 'Ready', sleeping...")
                time.sleep(60)

    if auto_start_vm:
        destination_host = target_cluster.find_migration_host(vm)
        if not destination_host:
            sys.exit(1)

        if not vm.start(destination_host):
            sys.exit(1)
    else:
        logging.info(f"Not starting VM '{vm['name']}' as it was not running", log_to_slack)
def main(profile, dry_run, ignore_volumes, zwps_to_cwps, skip_disk_offerings,
         only_project, source_cluster_name, destination_cluster_name):
    """Migrate offline volumes from SOURCE_CLUSTER to DESTINATION_CLUSTER"""

    click_log.basic_config()

    if source_cluster_name == destination_cluster_name:
        logging.error('Destination cluster cannot be the source cluster!')
        sys.exit(1)

    if dry_run:
        logging.warning('Running in dry-run mode, will only show changes')

    co = CosmicOps(profile=profile, dry_run=dry_run)
    cs = CosmicSQL(server=profile, dry_run=dry_run)

    source_cluster = co.get_cluster(name=source_cluster_name)
    source_storage_pools = co.get_all_storage_pools(name=source_cluster_name)
    if not source_cluster and not source_storage_pools:
        logging.error(f"Source cluster not found:'{source_cluster_name}'!")
        sys.exit(1)

    destination_cluster = co.get_cluster(name=destination_cluster_name)
    if not destination_cluster:
        logging.error(
            f"Destination cluster not found:'{destination_cluster_name}'!")
        sys.exit(1)

    if source_cluster:
        try:
            source_storage_pools = source_cluster.get_storage_pools(
                scope='CLUSTER')
        except IndexError:
            logging.error(
                f"No storage pools  found for cluster '{source_cluster['name']}'"
            )
            sys.exit(1)

    logging.info('Source storage pools found:')
    for source_storage_pool in source_storage_pools:
        logging.info(f" - '{source_storage_pool['name']}'")

    try:
        destination_storage_pools = destination_cluster.get_storage_pools(
            scope='CLUSTER')
    except IndexError:
        logging.error(
            f"No storage pools  found for cluster '{destination_cluster['name']}'"
        )
        sys.exit(1)
    logging.info('Destination storage pools found:')
    for destination_storage_pool in destination_storage_pools:
        logging.info(f" - '{destination_storage_pool['name']}'")

    if ignore_volumes:
        ignore_volumes = ignore_volumes.replace(' ', '').split(',')
        logging.info(f"Ignoring volumes: {str(ignore_volumes)}")

    if skip_disk_offerings:
        skip_disk_offerings = skip_disk_offerings.replace(' ', '').split(',')
        logging.info(f"Skipping disk offerings: {str(skip_disk_offerings)}")

    for source_storage_pool in source_storage_pools:
        destination_storage_pool = choice(destination_storage_pools)
        volumes = source_storage_pool.get_volumes(only_project)

        for volume in volumes:
            if volume['id'] in ignore_volumes:
                continue

            if skip_disk_offerings and volume.get(
                    'diskofferingname') in skip_disk_offerings:
                logging.warning(
                    f"Volume '{volume['name']}' has offering '{volume['diskofferingname']}', skipping..."
                )
                continue

            if 'storage' not in volume:
                logging.warning(
                    f"No storage attribute found for volume '{volume['name']}' ({volume['id']}), skipping..."
                )
                continue

            if volume['storage'] == destination_storage_pool['name']:
                logging.warning(
                    f"Volume '{volume['name']}' ({volume['id']}) already on cluster '{destination_cluster['name']}', skipping..."
                )
                continue

            if volume['state'] != 'Ready':
                logging.warning(
                    f"Volume '{volume['name']}' ({volume['id']}) is in state '{volume['state']}', skipping..."
                )
                continue

            if 'vmstate' in volume and volume['vmstate'] != 'Stopped':
                logging.warning(
                    f"Volume '{volume['name']}' ({volume['id']}) is attached to {volume['vmstate']} VM '{volume['vmname']}', skipping..."
                )
                continue

            if zwps_to_cwps:
                if not dry_run:
                    logging.info(
                        f"Converting ZWPS volume '{volume['name']}' to CWPS before starting the migration"
                    )
                    if not cs.update_zwps_to_cwps('MCC_v1.CWPS',
                                                  volume_id=volume['id']):
                        logging.error(
                            f"Failed to apply CWPS disk offering to volume '{volume['name']}'"
                        )
                        return False
                else:
                    logging.info(
                        f"Would have changed the diskoffering for volume '{volume['name']}' to CWPS before starting the migration"
                    )

            if source_cluster:
                logging.info(
                    f"Volume '{volume['name']}' will be migrated from cluster '{source_cluster['name']}' to '{destination_cluster['name']}'"
                )
            else:
                logging.info(
                    f"Volume '{volume['name']}' will be migrated from storage pool '{source_storage_pool['name']}' to '{destination_cluster['name']}'"
                )

            if not volume.migrate(destination_storage_pool):
                continue
def main(profile, is_project_router, only_when_required, cleanup, dry_run,
         router):
    """Router restart and upgrade script"""

    click_log.basic_config()

    log_to_slack = True

    if dry_run:
        log_to_slack = False
        logging.warning('Running in dry-run mode, will only show changes')

    co = CosmicOps(profile=profile, dry_run=dry_run, log_to_slack=log_to_slack)

    router = co.get_router(name=router, is_project_router=is_project_router)
    if not router:
        sys.exit(1)

    logging.instance_name = router['name']
    logging.slack_title = 'Domain'
    logging.slack_value = router['domain']

    host = co.get_host(id=router['hostid'])
    if not host:
        sys.exit(1)

    cluster = co.get_cluster(id=host['clusterid'])
    if not cluster:
        sys.exit(1)

    logging.cluster = cluster['name']

    if only_when_required and not router['requiresupgrade']:
        logging.info(
            f"Router '{router['name']}' does not need to be upgraded. Will not reboot because --only-when-required was specified."
        )
        sys.exit(0)

    if cleanup:
        if not router['vpcid']:
            logging.error(
                f"Cleanup specified but no VPC ID found for router '{router['name']}'"
            )
            sys.exit(1)

        logging.task = 'Restart VPC with clean up'

        vpc = co.get_vpc(id=router['vpcid'])
        if not vpc:
            sys.exit(1)

        if not vpc.restart():
            sys.exit(1)

        logging.info(
            f"Successfully restarted VPC '{vpc['name']}' with cleanup for router '{router['name']}'"
        )
    else:
        logging.task = 'Reboot virtual router'

        if not router.reboot():
            sys.exit(1)

        logging.info(f"Successfully rebooted router '{router['name']}'",
                     log_to_slack)
Ejemplo n.º 6
0
def main(dry_run, zwps_cluster, destination_cluster, virtual_machines,
         force_end_hour):
    """Empty ZWPS by migrating VMs and/or it's volumes to the destination cluster."""

    click_log.basic_config()

    if force_end_hour:
        try:
            force_end_hour = int(force_end_hour)
        except ValueError as e:
            logging.error(
                f"Specified time:'{force_end_hour}' is not a valid integer due to: '{e}'"
            )
            sys.exit(1)
        if force_end_hour >= 24:
            logging.error(f"Specified time:'{force_end_hour}' should be < 24")
            sys.exit(1)

    profile = 'nl2'

    log_to_slack = True
    logging.task = 'Live Migrate VM Volumes'
    logging.slack_title = 'Domain'

    if dry_run:
        log_to_slack = False
        logging.warning('Running in dry-run mode, will only show changes')

    co = CosmicOps(profile=profile, dry_run=dry_run, log_to_slack=log_to_slack)

    if not dry_run:
        cs = CosmicSQL(server=profile, dry_run=dry_run)
    else:
        cs = None

    zwps_storage_pools = []
    for storage_pool in co.get_all_storage_pools():
        if zwps_cluster.upper() in storage_pool['name']:
            zwps_storage_pools.append(storage_pool)

    logging.info('ZWPS storage pools found:')
    for zwps_storage_pool in zwps_storage_pools:
        logging.info(f" - '{zwps_storage_pool['name']}'")

    target_cluster = co.get_cluster(name=destination_cluster)
    if not target_cluster:
        logging.error(
            f"Destination cluster not found:'{target_cluster['name']}'!")
        sys.exit(1)

    try:
        destination_storage_pools = target_cluster.get_storage_pools(
            scope='CLUSTER')
    except IndexError:
        logging.error(
            f"No storage pools  found for cluster '{target_cluster['name']}'")
        sys.exit(1)
    logging.info('Destination storage pools found:')
    for target_storage_pool in destination_storage_pools:
        logging.info(f" - '{target_storage_pool['name']}'")

    target_storage_pool = random.choice(destination_storage_pools)

    volumes = []
    for zwps_storage_pool in zwps_storage_pools:
        vols = co.get_all_volumes(list_all=True,
                                  storageid=zwps_storage_pool['id'])
        if vols:
            volumes += vols

    vm_ids = []
    logging.info('Volumes found:')
    for volume in volumes:
        for virtual_machine in virtual_machines:
            if re.search(virtual_machine, volume['vmname'], re.IGNORECASE):
                logging.info(
                    f" - '{volume['name']}' on VM '{volume['vmname']}'")
                if volume['virtualmachineid'] not in vm_ids:
                    vm_ids.append(volume['virtualmachineid'])

    vms = []
    for vm_id in vm_ids:
        vm = co.get_vm(id=vm_id)
        if vm['affinitygroup']:
            for affinitygroup in vm['affinitygroup']:
                if 'DedicatedGrp' in affinitygroup['name']:
                    logging.warning(
                        f"Skipping VM '{vm['name']}' because of 'DedicatedGrp' affinity group"
                    )
                    continue
        vms.append(vm)

    logging.info('Virtualmachines found:')
    for vm in vms:
        logging.info(f" - '{vm['name']}'")

    logging.info(
        f"Starting live migration of volumes and/or virtualmachines from the ZWPS storage pools to storage pool '{target_cluster['name']}'"
    )

    for vm in vms:
        """ Can we start a new migration? """
        if force_end_hour:
            now = datetime.datetime.now(pytz.timezone('CET'))
            if now.hour >= force_end_hour:
                logging.info(
                    f"Stopping migration batch. We are not starting new migrations after '{force_end_hour}':00",
                    log_to_slack=log_to_slack)
                sys.exit(0)

        source_host = co.get_host(id=vm['hostid'])
        source_cluster = co.get_cluster(zone='nl2',
                                        id=source_host['clusterid'])
        if source_cluster['name'] == target_cluster['name']:
            """ VM is already on the destination cluster, so we only need to migrate the volumes to this storage pool """
            logging.info(
                f"Starting live migration of volumes of VM '{vm['name']}' to storage pool '{target_storage_pool['name']}' ({target_storage_pool['id']})",
                log_to_slack=log_to_slack)
            live_migrate_volumes(target_storage_pool['name'], co, cs, dry_run,
                                 False, log_to_slack, 0, vm['name'], True)
        else:
            """ VM needs to be migrated live to the destination cluster, including volumes """
            live_migrate(co=co,
                         cs=cs,
                         cluster=target_cluster['name'],
                         vm_name=vm['name'],
                         destination_dc=None,
                         add_affinity_group=None,
                         is_project_vm=None,
                         zwps_to_cwps=True,
                         log_to_slack=log_to_slack,
                         dry_run=dry_run)
Ejemplo n.º 7
0
def main(profile, ignore_hosts, only_hosts, skip_os_version, reboot_action,
         pre_empty_script, post_empty_script, post_reboot_script, dry_run,
         cluster):
    """Perform rolling reboot of hosts in CLUSTER"""

    click_log.basic_config()

    log_to_slack = True
    logging.task = 'Rolling Reboot'
    logging.slack_title = 'Hypervisor'
    logging.instance_name = 'N/A'
    logging.vm_name = 'N/A'
    logging.cluster = cluster

    if dry_run:
        log_to_slack = False
        logging.warning('Running in dry-run mode, will only show changes')

    co = CosmicOps(profile=profile, dry_run=dry_run, log_to_slack=log_to_slack)

    cluster = co.get_cluster(name=cluster)
    if not cluster:
        sys.exit(1)

    hosts = cluster.get_all_hosts()
    logging.debug(f"Found hosts: {hosts}")

    if ignore_hosts:
        ignore_hosts = ignore_hosts.replace(' ', '').split(',')
        logging.info(f"Ignoring hosts: {str(ignore_hosts)}")

        hosts = [h for h in hosts if h['name'] not in ignore_hosts]
    elif only_hosts:
        only_hosts = only_hosts.replace(' ', '').split(',')
        logging.info(f"Only processing hosts: {str(only_hosts)}")
        hosts = [h for h in hosts if h['name'] in only_hosts]

    if skip_os_version:
        logging.info(f"Skipping hosts with OS: {skip_os_version}")
        hosts = [
            h for h in hosts if skip_os_version not in h['hypervisorversion']
        ]

    hosts.sort(key=itemgetter('name'))

    target_host = None
    for host in hosts:
        logging.slack_value = host['name']
        logging.zone_name = host['zonename']

        logging.info(f"Processing host {host['name']}", log_to_slack)
        for script in filter(
                None,
            (pre_empty_script, post_empty_script, post_reboot_script)):
            path = Path(script)
            host.copy_file(str(path), f'/tmp/{path.name}', mode=0o755)

        if pre_empty_script:
            host.execute(f'/tmp/{Path(pre_empty_script).name}',
                         sudo=True,
                         hide_stdout=False,
                         pty=True)

        if host['resourcestate'] != 'Disabled':
            if not host.disable():
                sys.exit(1)

        if host['state'] != 'Up' and not dry_run:
            logging.error(
                f"Host '{host['name']} is not up (state: '{host['state']}'), aborting",
                log_to_slack)
            sys.exit(1)

        running_vms = len(host.get_all_vms())
        logging.info(
            f"Found {running_vms} running on host '{host['name']}'. Will now start migrating them to other hosts in the same cluster",
            log_to_slack)

        while True:
            (_, _, failed) = host.empty(target=target_host)
            if failed == 0:
                break

            if target_host:
                logging.warning(
                    f"Failed to empty host '{host['name']}' with target '{target_host['name']}', resetting target host and retrying...",
                    log_to_slack)
                target_host = None
            else:
                logging.warning(
                    f"Failed to empty host '{host['name']}', retrying...",
                    log_to_slack)

            time.sleep(5)

        logging.info(f"Host {host['name']} is empty", log_to_slack)

        if post_empty_script:
            host.execute(f'/tmp/{Path(post_empty_script).name}',
                         sudo=True,
                         hide_stdout=False,
                         pty=True)

        if not host.reboot(reboot_action):
            sys.exit(1)

        if reboot_action != RebootAction.SKIP:
            host.wait_until_offline()
            host.wait_until_online()

        if post_reboot_script:
            host.execute(f'/tmp/{Path(post_reboot_script).name}',
                         sudo=True,
                         hide_stdout=False,
                         pty=True)

        if not host.enable():
            sys.exit(1)

        host.wait_for_agent()

        host.restart_vms_with_shutdown_policy()

        target_host = host
Ejemplo n.º 8
0
def main(profile, domain_name, cluster_name, pod_name, zone_name, keyword_filter, only_routers,
         only_routers_to_be_upgraded,
         no_routers,
         router_nic_count, nic_count_is_minimum, nic_count_is_maximum, router_max_version, router_min_version,
         project_name, only_project, ignore_domains, calling_credentials, only_summary, no_summary, log_file):
    """List VMs"""

    click_log.basic_config()
    if log_file:
        logger = logging.getLogger()
        logger.addHandler(log_module.FileHandler(log_file))

    if project_name and domain_name:
        logging.error("The project and domain options can't be used together")
        sys.exit(1)

    co = CosmicOps(profile=profile, dry_run=False)

    if ignore_domains:
        ignore_domains = ignore_domains.replace(' ', '').split(',')
        logging.info(f"Ignoring domains: {str(ignore_domains)}")

    if calling_credentials:
        table_headers = [
            'VM',
            'Storage',
            'Template',
            'Memory',
            'Cores',
            'Instance',
            'Host',
            'Domain',
            'Account',
            'Created',
            'LastRebootVersion'
        ]

        table_data = []

        if only_project:
            vms = co.get_all_project_vms(list_all=False)
        else:
            vms = co.get_all_vms(list_all=False)

        with click_spinner.spinner():
            for vm in vms:
                if vm['domain'] in ignore_domains:
                    continue

                storage_size = sum([volume['size'] for volume in vm.get_volumes()])

                project_name = vm.get('project', None)
                vm_account = f"Proj: {project_name}" if project_name else vm['account']

                table_data.append([
                    vm['name'],
                    humanfriendly.format_size(storage_size, binary=True),
                    vm['templatedisplaytext'],
                    humanfriendly.format_size(vm['memory'] * 1024 ** 2, binary=True),
                    vm['cpunumber'],
                    vm['instancename'],
                    vm['hostname'],
                    vm['domain'],
                    vm_account,
                    vm['created'],
                    vm['laststartversion']
                ])

        logging.info(tabulate(table_data, headers=table_headers, tablefmt='pretty'))
        sys.exit(0)

    if domain_name:
        domain = co.get_domain(name=domain_name)
        if domain is None or domain == []:
            logging.error(f"The domain '{str(domain_name)}' could not be found!")
            sys.exit(1)
    else:
        domain = None

    if project_name:
        project = co.get_project(name=project_name)
        if project is None or project == []:
            logging.error(f"The project '{str(project_name)}' could not be found!")
            sys.exit(1)
    else:
        project = None

    if pod_name:
        pod = co.get_pod(name=pod_name)
        if pod is None or pod == []:
            logging.error(f"The pod '{str(pod_name)}' could not be found!")
            sys.exit(1)
    else:
        pod = None

    if zone_name:
        zone = co.get_zone(name=zone_name)
        if zone is None or zone == []:
            logging.error(f"The zone '{str(zone_name)}' could not be found!")
            sys.exit(1)
    else:
        zone = None

    if cluster_name:
        clusters = [co.get_cluster(name=cluster_name)]
        if clusters[0] is None:
            logging.error(f"The cluster '{str(cluster_name)}' could not be found!")
            sys.exit(1)

    elif pod:
        clusters = co.get_all_clusters(pod=pod)
    elif zone:
        clusters = co.get_all_clusters(zone=zone)
    else:
        clusters = co.get_all_clusters()

    total_host_counter = 0
    total_vm_counter = 0
    total_host_memory = 0
    total_vm_memory = 0
    total_storage = 0
    total_cores = 0

    for cluster in clusters:
        hosts = cluster.get_all_hosts()
        if not hosts:
            logging.warning(f"No hosts found on cluster '{cluster['name']}'")
            continue

        cluster_host_counter = 0
        cluster_vm_counter = 0
        cluster_host_memory = 0
        cluster_vm_memory = 0
        cluster_storage = 0
        cluster_cores = 0

        cluster_table_headers = [
            'VM',
            'Storage',
            'Template',
            'Router nic count',
            'Router version',
            'Memory',
            'Cores',
            'Instance',
            'Host',
            'Domain',
            'Account',
            'Created',
            'LastRebootVersion'
        ]
        cluster_table_data = []

        for host in hosts:
            cluster_host_counter += 1
            cluster_host_memory += host['memorytotal']

            if not only_routers:
                if project or only_project:
                    vms = host.get_all_project_vms(project=project)
                else:
                    vms = host.get_all_vms(domain=domain, keyword_filter=keyword_filter)

                for vm in vms:
                    if vm['domain'] in ignore_domains:
                        continue

                    cluster_vm_counter += 1
                    storage_size = sum([volume['size'] for volume in vm.get_volumes()])

                    cluster_storage += storage_size
                    cluster_vm_memory += vm['memory']
                    cluster_cores += vm['cpunumber']

                    vm_project_name = vm.get('project', None)
                    vm_account = f"Proj: {vm['project']}" if vm_project_name else vm['account']

                    cluster_table_data.append([
                        vm['name'],
                        humanfriendly.format_size(storage_size, binary=True),
                        vm['templatedisplaytext'],
                        '-',
                        '-',
                        humanfriendly.format_size(vm['memory'] * 1024 ** 2, binary=True),
                        vm['cpunumber'],
                        vm['instancename'],
                        vm['hostname'],
                        vm['domain'],
                        vm_account,
                        vm['created'],
                        vm['laststartversion']
                    ])

            if no_routers:
                continue

            if project or only_project:
                routers = host.get_all_project_routers(project=project)
            else:
                routers = host.get_all_routers(domain=domain)

            for router in routers:
                if router['domain'] in ignore_domains:
                    continue

                if router_min_version and LooseVersion(router['version']) < LooseVersion(router_min_version):
                    continue

                if router_max_version and LooseVersion(router['version']) > LooseVersion(router_max_version):
                    continue

                if router_nic_count and nic_count_is_minimum:
                    if router_nic_count > len(router['nic']):
                        continue
                elif router_nic_count and nic_count_is_maximum:
                    if router_nic_count < len(router['nic']):
                        continue
                elif router_nic_count:
                    if router_nic_count != len(router['nic']):
                        continue

                if only_routers_to_be_upgraded and not router['requiresupgrade']:
                    continue

                cluster_vm_counter += 1

                service_offering = co.get_service_offering(id=router['serviceofferingid'], system=True)
                if service_offering:
                    router['memory'] = service_offering['memory']
                    router['cpunumber'] = service_offering['cpunumber']

                    cluster_vm_memory += router['memory']
                    cluster_cores += router['cpunumber']
                else:
                    router['memory'] = 'Unknown'
                    router['cpunumber'] = 'Unknown'

                if router['isredundantrouter']:
                    redundant_state = router['redundantstate']
                elif router['vpcid']:
                    redundant_state = 'VPC'
                else:
                    redundant_state = 'SINGLE'

                if router['vpcid']:
                    network = co.get_vpc(id=router['vpcid'])
                else:
                    network = co.get_network(id=router['guestnetworkid'])

                if network:
                    display_name = network['name']
                else:
                    display_name = router['name']

                display_name = f"{display_name} ({redundant_state.lower()})"

                if router['requiresupgrade']:
                    display_name = f"{display_name} [ReqUpdate!]"

                router_project_name = router.get('project', None)
                router_account = f"Proj: {router['project']}" if router_project_name else router['account']

                cluster_table_data.append([
                    display_name,
                    '-',
                    '-',
                    len(router['nic']),
                    router['version'],
                    humanfriendly.format_size(router['memory'] * 1024 ** 2, binary=True) if router[
                                                                                                'memory'] != 'Unknown' else
                    router['memory'],
                    router['cpunumber'],
                    router['name'],
                    router['hostname'],
                    router['domain'],
                    router_account,
                    router['created'],
                    router['laststartversion']
                ])

        total_host_counter += cluster_host_counter
        total_host_memory += cluster_host_memory
        total_vm_memory += cluster_vm_memory
        total_vm_counter += cluster_vm_counter
        total_storage += cluster_storage
        total_cores += cluster_cores

        if not only_summary:  # pragma: no cover
            logging.info(tabulate(cluster_table_data, headers=cluster_table_headers, tablefmt='pretty'))

        if not no_summary:  # pragma: no cover
            logging.info(f"\nSummary for '{cluster['name']}':")
            logging.info(f"Number of VMs: {cluster_vm_counter}")
            logging.info(f"Number of hosts: {cluster_host_counter}")
            logging.info(
                f"Allocated memory: {humanfriendly.format_size(cluster_vm_memory * 1024 ** 2, binary=True)} / {humanfriendly.format_size(cluster_host_memory, binary=True)}")
            logging.info(f"Allocated cores: {cluster_cores}")
            logging.info(f"Allocated storage: {humanfriendly.format_size(cluster_storage, binary=True)}")

    if not no_summary:  # pragma: no cover
        logging.info('\n==================  Grand Totals ===============')
        logging.info(f"Total number of VMs: {total_vm_counter}")
        logging.info(f"Total number of hosts: {total_host_counter}")
        logging.info(
            f"Total allocated memory: {humanfriendly.format_size(total_vm_memory * 1024 ** 2, binary=True)} / {humanfriendly.format_size(total_host_memory, binary=True)}")
        logging.info(f"Total allocated cores: {total_cores}")
        logging.info(f"Total allocated storage: {humanfriendly.format_size(total_storage, binary=True)}")
class TestCosmicOps(TestCase):
    def setUp(self):
        cs_patcher = patch('cosmicops.ops.CloudStack')
        self.mock_cs = cs_patcher.start()
        self.addCleanup(cs_patcher.stop)
        self.cs_instance = self.mock_cs.return_value

        slack_patcher = patch('cosmicops.log.Slack')
        self.mock_slack = slack_patcher.start()
        self.addCleanup(slack_patcher.stop)

        sleep_patcher = patch('time.sleep', return_value=None)
        self.mock_sleep = sleep_patcher.start()
        self.addCleanup(sleep_patcher.stop)

        self.co = CosmicOps(endpoint='https://localhost',
                            key='key',
                            secret='secret')

    @patch('cosmicops.ops._load_cloud_monkey_profile')
    def test_init_with_profile(self, mock_load):
        mock_load.return_value = ('profile_endpoint', 'profile_key',
                                  'profile_secret')
        CosmicOps(profile='config')
        self.mock_cs.assert_called_with('profile_endpoint', 'profile_key',
                                        'profile_secret', 60)

    @tempdir()
    def test_load_cloud_monkey_profile(self, tmp):
        config = (b"[testprofile]\n"
                  b"url = http://localhost:8000/client/api\n"
                  b"apikey = test_api_key\n"
                  b"secretkey = test_secret_key\n")

        tmp.makedir('.cloudmonkey')
        tmp.write('.cloudmonkey/config', config)
        with patch('pathlib.Path.home') as path_home_mock:
            path_home_mock.return_value = Path(tmp.path)
            (endpoint, key, secret) = _load_cloud_monkey_profile('testprofile')

        self.assertEqual('http://localhost:8000/client/api', endpoint)
        self.assertEqual('test_api_key', key)
        self.assertEqual('test_secret_key', secret)

    @tempdir()
    def test_load_cloud_monkey_profile_with_default(self, tmp):
        config = (b"[core]\n"
                  b"profile = profile2\n\n"
                  b"[profile1]\n"
                  b"url = http://localhost:8000/client/api/1\n"
                  b"apikey = test_api_key_1\n"
                  b"secretkey = test_secret_key_1\n\n"
                  b"[profile2]\n"
                  b"url = http://localhost:8000/client/api/2\n"
                  b"apikey = test_api_key_2\n"
                  b"secretkey = test_secret_key_2\n")

        tmp.makedir('.cloudmonkey')
        tmp.write('.cloudmonkey/config', config)
        with patch('pathlib.Path.home') as path_home_mock:
            path_home_mock.return_value = Path(tmp.path)
            (endpoint, key, secret) = _load_cloud_monkey_profile('config')

        self.assertEqual('http://localhost:8000/client/api/2', endpoint)
        self.assertEqual('test_api_key_2', key)
        self.assertEqual('test_secret_key_2', secret)

    def test_cs_get_single_result(self):
        self.cs_instance.listFunction.return_value = [{
            'id': 'id_field',
            'name': 'name_field'
        }]

        result = self.co._cs_get_single_result('listFunction',
                                               {'name': 'name_field'},
                                               CosmicObject, 'type')
        self.cs_instance.listFunction.assert_called_with(fetch_list=True,
                                                         name='name_field')
        self.assertIsInstance(result, CosmicObject)
        self.assertDictEqual({
            'id': 'id_field',
            'name': 'name_field'
        }, result._data)

    def test_get_get_single_result_failure(self):
        self.cs_instance.listFunction.return_value = []
        self.assertIsNone(
            self.co._cs_get_single_result('listFunction', {}, CosmicObject,
                                          'type'))

        self.cs_instance.listFunction.return_value = [{}, {}]
        self.assertIsNone(
            self.co._cs_get_single_result('listFunction', {}, CosmicObject,
                                          'type'))

    def test_cs_get_all_results(self):
        self.cs_instance.listFunction.return_value = [{
            'id': 'id1',
            'name': 'name1'
        }, {
            'id': 'id2',
            'name': 'name2'
        }]

        result = self.co._cs_get_all_results('listFunction', {}, CosmicObject,
                                             'type')
        self.cs_instance.listFunction.assert_called_with(fetch_list=True)
        for i, item in enumerate(result):
            self.assertIsInstance(item, CosmicObject)
            self.assertDictEqual({
                'id': f'id{i + 1}',
                'name': f'name{i + 1}'
            }, item._data)

    def test_get_vm(self):
        self.co._cs_get_single_result = Mock()

        self.co.get_vm(name='vm1')
        self.assertDictEqual({
            'name': 'vm1',
            'listall': True
        }, self.co._cs_get_single_result.call_args[0][1])

        self.co.get_vm(name='i-VM-1')
        self.assertDictEqual({
            'keyword': 'i-VM-1',
            'listall': True
        }, self.co._cs_get_single_result.call_args[0][1])

        self.co.get_vm(name='project_vm1', is_project_vm=True)
        self.assertDictEqual(
            {
                'name': 'project_vm1',
                'projectid': '-1',
                'listall': True
            }, self.co._cs_get_single_result.call_args[0][1])

    def test_get_project_vm(self):
        self.co._cs_get_single_result = Mock()

        self.co.get_project_vm(name='project_vm1')
        self.assertDictEqual(
            {
                'name': 'project_vm1',
                'projectid': '-1',
                'listall': True
            }, self.co._cs_get_single_result.call_args[0][1])

    def test_get_router(self):
        self.co._cs_get_single_result = Mock()

        self.co.get_router(name='router1')
        self.assertDictEqual({
            'name': 'router1',
            'listall': True
        }, self.co._cs_get_single_result.call_args[0][1])

        self.co.get_router(name='project_router1', is_project_router=True)
        self.assertDictEqual(
            {
                'name': 'project_router1',
                'projectid': '-1',
                'listall': True
            }, self.co._cs_get_single_result.call_args[0][1])

    def test_get_cluster(self):
        self.co._cs_get_single_result = Mock()
        self.co.get_zone = Mock(
            return_value=CosmicZone(Mock(), {
                'id': 'z1',
                'name': 'zone1'
            }))

        self.co.get_cluster(name='cluster1')
        self.assertDictEqual({'name': 'cluster1'},
                             self.co._cs_get_single_result.call_args[0][1])

        self.co.get_cluster(name='cluster1', zone='zone1')
        self.assertDictEqual({
            'name': 'cluster1',
            'zoneid': 'z1'
        }, self.co._cs_get_single_result.call_args[0][1])

        self.co.get_zone.return_value = None
        self.assertIsNone(self.co.get_cluster(name='cluster1', zone='zone1'))

    def test_get_all_clusters(self):
        self.co._cs_get_all_results = Mock()

        self.co.get_all_clusters()
        self.assertDictEqual({}, self.co._cs_get_all_results.call_args[0][1])

        self.co.get_all_clusters(zone=CosmicZone(Mock(), {'id': 'z1'}))
        self.assertDictEqual({'zoneid': 'z1'},
                             self.co._cs_get_all_results.call_args[0][1])

        self.co.get_all_clusters(pod=CosmicPod(Mock(), {'id': 'p1'}))
        self.assertDictEqual({'podid': 'p1'},
                             self.co._cs_get_all_results.call_args[0][1])

    def test_get_service_offering(self):
        self.co._cs_get_single_result = Mock()

        self.co.get_service_offering(name='so1')
        self.assertDictEqual({'name': 'so1'},
                             self.co._cs_get_single_result.call_args[0][1])

        self.co.get_service_offering(name='so1', system=True)
        self.assertDictEqual({
            'name': 'so1',
            'issystem': True
        }, self.co._cs_get_single_result.call_args[0][1])

    def test_get_all_vms(self):
        self.co._cs_get_all_results = Mock()

        self.co.get_all_vms()
        self.assertDictEqual({'listall': True},
                             self.co._cs_get_all_results.call_args[0][1])

    def test_get_all_project_vms(self):
        self.co._cs_get_all_results = Mock()

        self.co.get_all_project_vms()
        self.assertDictEqual({
            'projectid': '-1',
            'listall': True
        }, self.co._cs_get_all_results.call_args[0][1])

    def test_wait_for_job(self):
        self.cs_instance.queryAsyncJobResult.return_value = {'jobstatus': '1'}
        self.assertTrue(self.co.wait_for_job('job'))

    def test_wait_for_job_cloud_stack_exception(self):
        self.cs_instance.queryAsyncJobResult.side_effect = CloudStackException(
            response=Mock())
        self.assertRaises(CloudStackException, self.co.wait_for_job, 'job')

    def test_wait_for_job_connection_error(self):
        self.cs_instance.queryAsyncJobResult.side_effect = ConnectionError
        self.assertRaises(ConnectionError, self.co.wait_for_job, 'job')

    def test_wait_for_job_retries(self):
        self.cs_instance.queryAsyncJobResult.side_effect = [
            CloudStackException('multiple JSON fields named jobstatus',
                                response=Mock()),
            ConnectionError('Connection aborted'),
            ConnectionError('Connection aborted')
        ]
        self.assertFalse(self.co.wait_for_job('job', 3))

    def test_wait_for_job_failure(self):
        self.cs_instance.queryAsyncJobResult.return_value = {'jobstatus': '2'}
        self.assertFalse(self.co.wait_for_job('job'))