% (SUPPORTED_VERSIONS, version)
)
def main():
if len(sys.argv[1:]) != 2:
args = ' '.join(sys.argv[1:])
status_err(
'Requires 2 arguments, arguments provided: "%s"' % args
)
report_type = sys.argv[1].lower()
report_request = sys.argv[2].lower()
# If we're not using the correct version of OpenManage, error out
check_openmanage_version()
try:
report = hardware_report(report_type, report_request)
except (OSError, subprocess.CalledProcessError) as e:
status_err(str(e))
status_ok()
metric_bool('hardware_%s_status' % report_request,
all_okay(report, regex[report_type]))
if __name__ == '__main__':
with print_output():
main()
version = match.groups()[0]
if version not in SUPPORTED_VERSIONS:
status_err('Expected version in %s to be installed but found %s' %
(SUPPORTED_VERSIONS, version))
def main():
if len(sys.argv[1:]) != 2:
args = ' '.join(sys.argv[1:])
status_err('Requires 2 arguments, arguments provided: "%s"' % args)
report_type = sys.argv[1].lower()
report_request = sys.argv[2].lower()
# If we're not using the correct version of OpenManage, error out
check_openmanage_version()
try:
report = hardware_report(report_type, report_request)
except (OSError, subprocess.CalledProcessError) as e:
status_err(str(e))
status_ok()
metric_bool('hardware_%s_status' % report_request,
all_okay(report, regex[report_type]))
if __name__ == '__main__':
with print_output():
main()
holland_bs = args.holland_backupset
today = datetime.date.today().strftime('%Y%m%d')
yesterday = (datetime.date.today() -
datetime.timedelta(days=1)).strftime('%Y%m%d')
# Get completed Holland backup set
backupsets = \
holland_lb_check(galera_hostname, holland_bin, holland_bs)
if len(
[backup
for backup in backupsets if yesterday or today in backup[0]]) > 0:
status_ok(m_name='maas_holland')
metric_bool('holland_backup_status', True, m_name='maas_holland')
else:
metric_bool('holland_backup_status', False, m_name='maas_holland')
status_err('Could not find Holland backup from %s or %s' %
(yesterday, today),
m_name='maas_holland')
# Print metric about last backup
print_metrics('holland_backup_size',
"{0:.1f}".format(float(backupsets[-1][1]) / 1024))
if __name__ == '__main__':
args = parse_args()
with print_output(print_telegraf=args.telegraf_output):
main()
maas_common.status_err('Could not parse dispersion report output')
maas_common.status_ok()
print_metrics('object', object_match)
print_metrics('container', container_match)
# Example output::
# $ python swift-dispersion.py
# > status okay
# > metric object_retries uint64 0
# > metric object_seconds uint64 0 s
# > metric object_num_partitions uint64 2
# > metric object_num_objects uint64 2
# > metric object_percent double 100.00
# > metric object_copies_found uint64 10
# > metric object_partition_copies uint64 0
# > metric object_partition_percent double 0.78
# > metric object_total_copies uint64 10
# > metric container_retries uint64 0
# > metric container_seconds uint64 0 s
# > metric container_num_objects uint64 3
# > metric container_percent double 100.00
# > metric container_copies_found uint64 6
# > metric container_partition_percent double 1.17
# > metric container_total_copies uint64 6
if __name__ == '__main__':
with maas_common.print_output():
main()
metrics = {}
session = requests.Session() # Make a Session to store the auth creds
session.auth = (options.username, options.password)
protocol = 'https' if options.https else 'http'
_get_connection_metrics(session, metrics, protocol,
options.host, options.port)
_get_overview_metrics(session, metrics, protocol,
options.host, options.port)
_get_node_metrics(session, metrics, protocol, options.host,
options.port, options.name)
_get_queue_metrics(session, metrics, protocol, options.host,
options.port)
_get_consumer_metrics(session, metrics, protocol, options.host,
options.port)
status_ok(m_name='maas_rabbitmq')
for k, v in metrics.items():
if v['value'] is True or v['value'] is False:
metric_bool('rabbitmq_%s_status' % k, not v['value'])
else:
metric('rabbitmq_%s' % k, 'int64', v['value'], v['unit'])
if __name__ == "__main__":
args = options = parse_args()
with print_output(print_telegraf=args.telegraf_output):
main()
else:
logger.info("{} - rally task {} "
"completed".format(args.task, task_uuid))
os.rmdir(LOCK_PATH + '/' + task_uuid)
os.rmdir(LOCK_PATH)
logger.debug("{} - removed lock for rally task "
"{}".format(args.task, task_uuid))
parse_task_results(task_uuid, results, logger)
end = time.time()
metric('maas_check_duration', 'double', "{:.2f}".format((end - start) * 1))
if args.influxdb:
try:
send_metrics_to_influxdb(plugin_config, logger)
except:
metric('influxdb_success', 'uint32', 0)
else:
metric('influxdb_success', 'uint32', 1)
return
if __name__ == '__main__':
parser = make_parser()
args = parser.parse_args()
with maas_common.print_output(print_telegraf=args.telegraf_output):
main()
def get_controller_cache_status():
return check_command(('hpssacli', 'ctrl', 'all', 'show', 'status'),
'Cache Status', 'OK')
def get_controller_battery_status():
return check_command(('hpssacli', 'ctrl', 'all', 'show', 'status'),
'Battery/Capacitor Status', 'OK')
def main():
status = {}
status['hardware_processors_status'] = get_hpasmcli_status('server')
status['hardware_memory_status'] = get_hpasmcli_status('dimm')
status['hardware_disk_status'] = get_drive_status()
status['hardware_controller_status'] = get_controller_status()
status['hardware_controller_cache_status'] = get_controller_cache_status()
status['hardware_controller_battery_status'] = \
get_controller_battery_status()
maas_common.status_ok()
for name, value in status.viewitems():
maas_common.metric_bool(name, value)
if __name__ == '__main__':
with maas_common.print_output():
main()
else:
logger.info("{} - rally task {} "
"completed".format(args.task, task_uuid))
os.rmdir(LOCK_PATH + '/' + task_uuid)
os.rmdir(LOCK_PATH)
logger.debug("{} - removed lock for rally task "
"{}".format(args.task, task_uuid))
parse_task_results(task_uuid, results, logger)
end = time.time()
metric('maas_check_duration', 'double', "{:.2f}".format((end - start) * 1))
if args.influxdb:
try:
send_metrics_to_influxdb(plugin_config, logger)
except:
metric('influxdb_success', 'uint32', 0)
else:
metric('influxdb_success', 'uint32', 1)
return
if __name__ == '__main__':
parser = make_parser()
args = parser.parse_args()
with maas_common.print_output(print_telegraf=args.telegraf_output):
main()
iptables_exist = True
if bridge_sysctl is True and iptables_exist is True:
metric_bool('iptables_status', True, m_name='iptables_active')
status_ok(m_name='iptables_active')
else:
metric_bool('iptables_status', False, m_name='iptables_active')
metric('bridge-nf-call-arptables', 'int64',
bridge_param_metrics.get('bridge-nf-call-arptables', 0))
metric('bridge-nf-call-iptables', 'int64',
bridge_param_metrics.get('bridge-nf-call-iptables', 0))
metric('bridge-nf-call-ip6tables', 'int64',
bridge_param_metrics.get('bridge-nf-call-ip6tables', 0))
if __name__ == '__main__':
parser = argparse.ArgumentParser(
description='Ensure that security groups are being actively '
'enforced on a hypervisor.')
parser.add_argument('host', nargs='?',
type=str,
help='Compute host to filter')
parser.add_argument('--telegraf-output',
action='store_true',
default=False,
help='Set the output format to telegraf')
args = parser.parse_args()
with print_output(print_telegraf=False):
main()
# Check that iptables rules are in place
iptables_rules = ''
try:
iptables_rules = str(subprocess.check_output(['iptables-save'
])).split('\n')
except Exception as e:
status('error', str(e), force_print=False)
iptables_exist = False
for rule in iptables_rules:
if "DROP" in rule:
iptables_exist = True
if bridge_sysctl is True and iptables_exist is True:
metric_bool('iptables_status', True, m_name='iptables_active')
status_ok(m_name='iptables_active')
else:
metric_bool('iptables_status', False, m_name='iptables_active')
metric('bridge-nf-call-arptables', 'int64',
bridge_param_metrics.get('bridge-nf-call-arptables', 0))
metric('bridge-nf-call-iptables', 'int64',
bridge_param_metrics.get('bridge-nf-call-iptables', 0))
metric('bridge-nf-call-ip6tables', 'int64',
bridge_param_metrics.get('bridge-nf-call-ip6tables', 0))
if __name__ == '__main__':
with print_output(print_telegraf=False):
main()
