#! /usr/bin/env python # Licensed to the Apache Software Foundation (ASF) under one # or more contributor license agreements. See the NOTICE file # distributed with this work for additional information # regarding copyright ownership. The ASF licenses this file # to you under the Apache License, Version 2.0 (the # "License"); you may not use this file except in compliance # with the License. You may obtain a copy of the License at # http://www.apache.org/licenses/LICENSE-2.0 # Unless required by applicable law or agreed to in writing, software # distributed under the License is distributed on an "AS IS" BASIS, # WITHOUT WARRANTIES OR CONDITIONS OF ANY KIND, either express or implied. # See the License for the specific language governing permissions and # limitations under the License. """ Check Zookeeper Cluster Generic monitoring script that could be used with multiple platforms (Ganglia, Nagios, Cacti). It requires ZooKeeper 3.4.0 or greater. The script needs the 'mntr' 4letter word command (patch ZOOKEEPER-744) that was now committed to the trunk. The script also works with ZooKeeper 3.3.x but in a limited way. """ import sys import socket import logging import re import subprocess from StringIO import StringIO from optparse import OptionParser, OptionGroup __version__ = (0, 1, 0) log = logging.getLogger() logging.basicConfig(level=logging.ERROR) class NagiosHandler(object): @classmethod def register_options(cls, parser): group = OptionGroup(parser, 'Nagios specific options') group.add_option('-w', '--warning', dest='warning') group.add_option('-c', '--critical', dest='critical') parser.add_option_group(group) def analyze(self, opts, cluster_stats): try: warning = int(opts.warning) critical = int(opts.critical) except (TypeError, ValueError): print >>sys.stderr, 'Invalid values for "warning" and "critical".' return 2 if opts.key is None: print >>sys.stderr, 'You should specify a key name.' return 2 warning_state, critical_state, values = [], [], [] for host, stats in cluster_stats.items(): if opts.key in stats: value = stats[opts.key] values.append('%s=%s;%s;%s' % (host, value, warning, critical)) if warning >= value > critical or warning <= value < critical: warning_state.append(host) elif (warning < critical and critical <= value) or (warning > critical and critical >= value): critical_state.append(host) if not values: # Zookeeper may be down, not serving requests or we may have a bad configuration print 'Critical, %s not found' % opts.key return 2 values = ' '.join(values) if critical_state: print 'Critical "%s" %s!|%s' % (opts.key, ', '.join(critical_state), values) return 2 elif warning_state: print 'Warning "%s" %s!|%s' % (opts.key, ', '.join(warning_state), values) return 1 else: print 'Ok "%s"!|%s' % (opts.key, values) return 0 class CactiHandler(object): @classmethod def register_options(cls, parser): group = OptionGroup(parser, 'Cacti specific options') group.add_option('-l', '--leader', dest='leader', action="store_true", help="only query the cluster leader") parser.add_option_group(group) def analyze(self, opts, cluster_stats): if opts.key is None: print >>sys.stderr, 'The key name is mandatory.' return 1 if opts.leader is True: try: leader = [x for x in cluster_stats.values() \ if x.get('zk_server_state', '') == 'leader'][0] except IndexError: print >>sys.stderr, 'No leader found.' return 3 if opts.key in leader: print leader[opts.key] return 0 else: print >>sys.stderr, 'Unknown key: "%s"' % opts.key return 2 else: for host, stats in cluster_stats.items(): if opts.key not in stats: continue host = host.replace(':', '_') print '%s:%s' % (host, stats[opts.key]), class GangliaHandler(object): @classmethod def register_options(cls, parser): group = OptionGroup(parser, 'Ganglia specific options') group.add_option('-g', '--gmetric', dest='gmetric', default='/usr/bin/gmetric', help='ganglia gmetric binary '\ 'location: /usr/bin/gmetric') parser.add_option_group(group) def call(self, *args, **kwargs): subprocess.call(*args, **kwargs) def analyze(self, opts, cluster_stats): if len(cluster_stats) != 1: print >>sys.stderr, 'Only allowed to monitor a single node.' return 1 for host, stats in cluster_stats.items(): for k, v in stats.items(): try: self.call([opts.gmetric, '-n', k, '-v', str(int(v)), '-t', 'uint32']) except (TypeError, ValueError): pass class ZooKeeperServer(object): def __init__(self, host='localhost', port='2181', timeout=1): self._address = (host, int(port)) self._timeout = timeout def get_stats(self): """ Get ZooKeeper server stats as a map """ data = self._send_cmd('mntr') stat = self._parse_stat(self._send_cmd('stat')) if data: mntr = self._parse(data) missing = ['zk_zxid', 'zk_zxid_counter', 'zk_zxid_epoch'] for m in missing: if m in stat: mntr[m] = stat[m] return mntr else: return stat def _create_socket(self): return socket.socket() def _send_cmd(self, cmd): """ Send a 4letter word command to the server """ s = self._create_socket() s.settimeout(self._timeout) s.connect(self._address) s.send(cmd) data = s.recv(2048) s.close() return data def _parse(self, data): """ Parse the output from the 'mntr' 4letter word command """ h = StringIO(data) result = {} for line in h.readlines(): try: key, value = self._parse_line(line) result[key] = value except ValueError: pass # ignore broken lines return result def _parse_stat(self, data): """ Parse the output from the 'stat' 4letter word command """ h = StringIO(data) result = {} version = h.readline() if version: result['zk_version'] = version[version.index(':')+1:].strip() # skip all lines until we find the empty one while h.readline().strip(): pass for line in h.readlines(): m = re.match('Latency min/avg/max: (\d+)/(\d+)/(\d+)', line) if m is not None: result['zk_min_latency'] = int(m.group(1)) result['zk_avg_latency'] = int(m.group(2)) result['zk_max_latency'] = int(m.group(3)) continue m = re.match('Received: (\d+)', line) if m is not None: result['zk_packets_received'] = int(m.group(1)) continue m = re.match('Sent: (\d+)', line) if m is not None: result['zk_packets_sent'] = int(m.group(1)) continue m = re.match('Alive connections: (\d+)', line) if m is not None: result['zk_num_alive_connections'] = int(m.group(1)) continue m = re.match('Outstanding: (\d+)', line) if m is not None: result['zk_outstanding_requests'] = int(m.group(1)) continue m = re.match('Mode: (.*)', line) if m is not None: result['zk_server_state'] = m.group(1) continue m = re.match('Node count: (\d+)', line) if m is not None: result['zk_znode_count'] = int(m.group(1)) continue m = re.match('Watch count: (\d+)', line) if m is not None: result['zk_watch_count'] = int(m.group(1)) continue m = re.match('Ephemerals count: (\d+)', line) if m is not None: result['zk_ephemerals_count'] = int(m.group(1)) continue m = re.match('Approximate data size: (\d+)', line) if m is not None: result['zk_approximate_data_size'] = int(m.group(1)) continue m = re.match('Open file descriptor count: (\d+)', line) if m is not None: result['zk_open_file_descriptor_count'] = int(m.group(1)) continue m = re.match('Max file descriptor count: (\d+)', line) if m is not None: result['zk_max_file_descriptor_count'] = int(m.group(1)) continue m = re.match('Zxid: (0x[0-9a-fA-F]+)', line) if m is not None: result['zk_zxid'] = m.group(1) result['zk_zxid_counter'] = int(m.group(1), 16) & int('0xffffffff', 16) # lower 32 bits result['zk_zxid_epoch'] = int(m.group(1), 16) >>32 # high 32 bits continue m = re.match('Proposal sizes last/min/max: (\d+)/(\d+)/(\d+)', line) if m is not None: result['zk_last_proposal_size'] = int(m.group(1)) result['zk_min_proposal_size'] = int(m.group(2)) result['zk_max_proposal_size'] = int(m.group(3)) continue return result def _parse_line(self, line): try: key, value = map(str.strip, line.split('\t')) except ValueError: raise ValueError('Found invalid line: %s' % line) if not key: raise ValueError('The key is mandatory and should not be empty') for typ in [int, float]: try: value = typ(value) break except (TypeError, ValueError): pass return key, value def main(): opts, args = parse_cli() cluster_stats = get_cluster_stats(opts.servers) if opts.output is None: dump_stats(cluster_stats) return 0 handler = create_handler(opts.output) if handler is None: log.error('undefined handler: %s' % opts.output) sys.exit(1) return handler.analyze(opts, cluster_stats) def create_handler(name): """ Return an instance of a platform specific analyzer """ try: return globals()['%sHandler' % name.capitalize()]() except KeyError: return None def get_all_handlers(): """ Get a list containing all the platform specific analyzers """ return [NagiosHandler, CactiHandler, GangliaHandler] def dump_stats(cluster_stats): """ Dump cluster statistics in an user friendly format """ for server, stats in cluster_stats.items(): print 'Server:', server for key, value in stats.items(): print "%30s" % key, ' ', value print def get_cluster_stats(servers): """ Get stats for all the servers in the cluster """ stats = {} for host, port in servers: try: zk = ZooKeeperServer(host, port) stats["%s:%s" % (host, port)] = zk.get_stats() except socket.error, e: # ignore because the cluster can still work even # if some servers fail completely # this error should be also visible in a variable # exposed by the server in the statistics logging.info('unable to connect to server '\ '"%s" on port "%s"' % (host, port)) return stats def get_version(): return '.'.join(map(str, __version__)) def parse_cli(): parser = OptionParser(usage='./check_zookeeper.py ', version=get_version()) parser.add_option('-s', '--servers', dest='servers', help='a list of SERVERS', metavar='SERVERS') parser.add_option('-o', '--output', dest='output', help='output HANDLER: nagios, ganglia, cacti', metavar='HANDLER') parser.add_option('-k', '--key', dest='key') for handler in get_all_handlers(): handler.register_options(parser) opts, args = parser.parse_args() if opts.servers is None: parser.error('The list of servers is mandatory') opts.servers = [s.split(':') for s in opts.servers.split(',')] return (opts, args) if __name__ == '__main__': sys.exit(main())