def test_automonitor_strings_basic(self): # Clean things out so we only see what we want to see... ocf_string = '''{ # comment "class": "ocf", "type": "neo4j", "provider": "assimilation", "classconfig": [ [null, "@basename()", "java$"], [null, "$argv[-1]", "org\\.neo4j\\.server\\.Bootstrapper$"], ["PORT", "serviceport", "[0-9]+$"], ["NEOHOME", "@argequals(-Dneo4j.home)", "/.*"] ] }''' ocf = MonitoringRule.ConstructFromString(ocf_string) self.assertTrue(isinstance(ocf, OCFMonitoringRule)) lsb_string = '''{ # comment "class": "lsb", "type": "neo4j", "classconfig": [ ["@basename()", "java$"], ["$argv[-1]", "org\\.neo4j\\.server\\.Bootstrapper$"], ] }''' lsb = MonitoringRule.ConstructFromString(lsb_string) self.assertTrue(isinstance(lsb, LSBMonitoringRule))
def processpkt(self, drone, _unused_srcaddr, _unused_jsonobj, _discoverychanged): '''Send commands to monitor host aspects for the given System. We ignore discoverychanged because we always want to monitor even if a system has just come up with the same discovery as before it went down. ''' drone.monitors_activated = True #self.log.debug('In DiscoveryGenerateHostMonitoring::processpkt for %s with %s (%s)' # % (drone, _discoverychanged, str(_unused_jsonobj))) montuples = MonitoringRule.findallmatches((drone,), objclass='host') for montuple in montuples: if montuple[0] == MonitoringRule.NOMATCH: continue elif montuple[0] == MonitoringRule.PARTMATCH: print >> sys.stderr, ( 'Automatic host monitoring of %s not possible with %s: missing %s' % (drone.designation, str(montuple[1]), str(montuple[2]))) self.log.warning('Insufficient information to monitor host %s' ' using %s: %s is missing.' % (drone.designation, str(montuple[1]), str(montuple[2]))) else: agent = montuple[1] self._add_service_monitoring(drone, drone, agent) print >> sys.stderr, ('START monitoring host %s using %s:%s agent' % (drone.designation, agent['monitorclass'], agent['monitortype']))
def processpkt(self, drone, unused_srcaddr, unused_jsonobj): "Send commands to monitor host aspects for the given Drone" unused_srcaddr = unused_srcaddr unused_jsonobj = unused_jsonobj drone.monitors_activated = True montuples = MonitoringRule.findallmatches((drone, ), objclass='host') for montuple in montuples: if montuple[0] == MonitoringRule.NOMATCH: continue elif montuple[0] == MonitoringRule.PARTMATCH: print >> sys.stderr, ( 'Automatic host monitoring of %s not possible with %s: missing %s' % (drone.designation, str(montuple[1]), str(montuple[2]))) self.log.warning( 'Insufficient information to monitor host %s' ' using %s: %s is missing.' % (drone.designation, str(montuple[1]), str(montuple[2]))) else: agent = montuple[1] self._add_service_monitoring(drone, drone, agent) print >> sys.stderr, ( 'START monitoring host %s using %s:%s agent' % (drone.designation, agent['monitorclass'], agent['monitortype']))
def processpkt(self, drone, _unused_srcaddr, _unused_jsonobj, _discoverychanged): '''Send commands to monitor host aspects for the given System. We ignore discoverychanged because we always want to monitor even if a system has just come up with the same discovery as before it went down. ''' drone.monitors_activated = True #self.log.debug('In DiscoveryGenerateHostMonitoring::processpkt for %s with %s (%s)' # % (drone, _discoverychanged, str(_unused_jsonobj))) montuples = MonitoringRule.findallmatches((drone, ), objclass='host') for montuple in montuples: if montuple[0] == MonitoringRule.NOMATCH: continue elif montuple[0] == MonitoringRule.PARTMATCH: print >> sys.stderr, ( 'Automatic host monitoring of %s not possible with %s: missing %s' % (drone.designation, str(montuple[1]), str(montuple[2]))) self.log.warning( 'Insufficient information to monitor host %s' ' using %s: %s is missing.' % (drone.designation, str(montuple[1]), str(montuple[2]))) else: agent = montuple[1] self._add_service_monitoring(drone, drone, agent) print >> sys.stderr, ( 'START monitoring host %s using %s:%s agent' % (drone.designation, agent['monitorclass'], agent['monitortype']))
def processpkt(self, drone, _unused_srcaddr, jsonobj, _discoverychanged): '''Send commands to monitor services for this Systems's listening processes We ignore discoverychanged because we always want to monitor even if a system has just come up with the same discovery as before it went down.''' drone.monitors_activated = True #self.log.debug('In TCPDiscoveryGenerateMonitoring::processpkt for %s with %s (%s)' # % (drone, _discoverychanged, str(jsonobj))) data = jsonobj['data'] # The data portion of the JSON message for procname in data.keys( ): # List of nanoprobe-assigned names of processes... procinfo = data[procname] processproc = self.store.load_or_create( ProcessNode, domain=drone.domain, processname=procname, host=drone.designation, pathname=procinfo.get('exe', 'unknown'), argv=procinfo.get('cmdline', 'unknown'), uid=procinfo.get('uid', 'unknown'), gid=procinfo.get('gid', 'unknown'), cwd=procinfo.get('cwd', '/')) if 'listenaddrs' not in procinfo: # We only monitor services, not clients... continue montuple = MonitoringRule.findbestmatch((processproc, drone)) if montuple[0] == MonitoringRule.NOMATCH: processproc.is_monitored = False print >> sys.stderr, "**don't know how to monitor %s" % str( processproc.argv) self.log.warning('No rules to monitor %s service %s' % (drone.designation, str(processproc.argv))) elif montuple[0] == MonitoringRule.PARTMATCH: processproc.is_monitored = False print >> sys.stderr, ( 'Automatic monitoring not possible for %s -- %s is missing %s' % (str(processproc.argv), str(montuple[1]), str( montuple[2]))) self.log.warning( 'Insufficient information to monitor %s service %s' '. %s is missing %s' % (drone.designation, str(processproc.argv), str( montuple[1]), str(montuple[2]))) else: processproc.is_monitored = True agent = montuple[1] self._add_service_monitoring(drone, processproc, agent) if agent['monitorclass'] == 'NEVERMON': print >> sys.stderr, ('NEVER monitor %s' % (str(agent['monitortype']))) else: print >> sys.stderr, ( 'START monitoring %s using %s agent' % (agent['monitortype'], agent['monitorclass']))
def processpkt(self, drone, unused_srcaddr, jsonobj): "Send commands to monitor services for this Drone's listening processes" unused_srcaddr = unused_srcaddr drone.monitors_activated = True data = jsonobj['data'] # The data portion of the JSON message for procname in data.keys( ): # List of nanoprobe-assigned names of processes... procinfo = data[procname] processproc = self.store.load_or_create( ProcessNode, domain=drone.domain, processname=procname, host=drone.designation, pathname=procinfo.get('exe', 'unknown'), argv=procinfo.get('cmdline', 'unknown'), uid=procinfo.get('uid', 'unknown'), gid=procinfo.get('gid', 'unknown'), cwd=procinfo.get('cwd', '/')) if 'listenaddrs' not in procinfo: # We only monitor services, not clients... continue montuple = MonitoringRule.findbestmatch((processproc, drone)) if montuple[0] == MonitoringRule.NOMATCH: print >> sys.stderr, "**don't know how to monitor %s" % str( processproc.argv) self.log.warning('No rules to monitor %s service %s' % (drone.designation, str(processproc.argv))) elif montuple[0] == MonitoringRule.PARTMATCH: print >> sys.stderr, ( 'Automatic monitoring not possible for %s -- %s is missing %s' % (str(processproc.argv), str(montuple[1]), str( montuple[2]))) self.log.warning( 'Insufficient information to monitor %s service %s' '. %s is missing %s' % (drone.designation, str(processproc.argv), str( montuple[1]), str(montuple[2]))) else: agent = montuple[1] self._add_service_monitoring(drone, processproc, agent) if agent['monitorclass'] == 'NEVERMON': print >> sys.stderr, ('NEVER monitor %s' % (str(agent['monitortype']))) else: print >> sys.stderr, ( 'START monitoring %s using %s agent' % (agent['monitortype'], agent['monitorclass']))
def is_upstartjob(args, context): ''' Returns "true" if any of its arguments names an upstart job, "false" otherwise If no arguments are given, it returns whether this system has upstart enabled. ''' from monitoring import MonitoringRule agentcache = MonitoringRule.compute_available_agents(context) if 'upstart' not in agentcache or len(agentcache['upstart']) == 0: return 'false' for arg in args: value = GraphNodeExpression.evaluate(arg, context) if value in agentcache['upstart']: return 'true' return len(args) == 0
def processpkt(self, drone, _unused_srcaddr, jsonobj, _discoverychanged): '''Send commands to monitor services for this Systems's listening processes We ignore discoverychanged because we always want to monitor even if a system has just come up with the same discovery as before it went down.''' drone.monitors_activated = True #self.log.debug('In TCPDiscoveryGenerateMonitoring::processpkt for %s with %s (%s)' # % (drone, _discoverychanged, str(jsonobj))) data = jsonobj['data'] # The data portion of the JSON message for procname in data.keys(): # List of nanoprobe-assigned names of processes... procinfo = data[procname] processproc = self.store.load_or_create(ProcessNode, domain=drone.domain , processname=procname, host=drone.designation , pathname=procinfo.get('exe', 'unknown'), argv=procinfo.get('cmdline', 'unknown') , uid=procinfo.get('uid','unknown'), gid=procinfo.get('gid', 'unknown') , cwd=procinfo.get('cwd', '/')) if 'listenaddrs' not in procinfo: # We only monitor services, not clients... continue montuple = MonitoringRule.findbestmatch((processproc, drone)) if montuple[0] == MonitoringRule.NOMATCH: processproc.is_monitored = False print >> sys.stderr, "**don't know how to monitor %s" % str(processproc.argv) self.log.warning('No rules to monitor %s service %s' % (drone.designation, str(processproc.argv))) elif montuple[0] == MonitoringRule.PARTMATCH: processproc.is_monitored = False print >> sys.stderr, ( 'Automatic monitoring not possible for %s -- %s is missing %s' % (str(processproc.argv), str(montuple[1]), str(montuple[2]))) self.log.warning('Insufficient information to monitor %s service %s' '. %s is missing %s' % (drone.designation, str(processproc.argv) , str(montuple[1]), str(montuple[2]))) else: processproc.is_monitored = True agent = montuple[1] self._add_service_monitoring(drone, processproc, agent) if agent['monitorclass'] == 'NEVERMON': print >> sys.stderr, ('NEVER monitor %s' % (str(agent['monitortype']))) else: print >> sys.stderr, ('START monitoring %s using %s agent' % (agent['monitortype'], agent['monitorclass']))
def processpkt(self, drone, unused_srcaddr, jsonobj): "Send commands to monitor services for this Drone's listening processes" unused_srcaddr = unused_srcaddr drone.monitors_activated = True data = jsonobj['data'] # The data portion of the JSON message for procname in data.keys(): # List of nanoprobe-assigned names of processes... procinfo = data[procname] processproc = self.store.load_or_create(ProcessNode, domain=drone.domain , processname=procname, host=drone.designation , pathname=procinfo.get('exe', 'unknown'), argv=procinfo.get('cmdline', 'unknown') , uid=procinfo.get('uid','unknown'), gid=procinfo.get('gid', 'unknown') , cwd=procinfo.get('cwd', '/')) if 'listenaddrs' not in procinfo: # We only monitor services, not clients... continue montuple = MonitoringRule.findbestmatch((processproc, drone)) if montuple[0] == MonitoringRule.NOMATCH: processproc.is_monitored = False print >> sys.stderr, "**don't know how to monitor %s" % str(processproc.argv) self.log.warning('No rules to monitor %s service %s' % (drone.designation, str(processproc.argv))) elif montuple[0] == MonitoringRule.PARTMATCH: processproc.is_monitored = False print >> sys.stderr, ( 'Automatic monitoring not possible for %s -- %s is missing %s' % (str(processproc.argv), str(montuple[1]), str(montuple[2]))) self.log.warning('Insufficient information to monitor %s service %s' '. %s is missing %s' % (drone.designation, str(processproc.argv) , str(montuple[1]), str(montuple[2]))) else: processproc.is_monitored = True agent = montuple[1] self._add_service_monitoring(drone, processproc, agent) if agent['monitorclass'] == 'NEVERMON': print >> sys.stderr, ('NEVER monitor %s' % (str(agent['monitortype']))) else: print >> sys.stderr, ('START monitoring %s using %s agent' % (agent['monitortype'], agent['monitorclass']))
def processpkt(self, drone, unused_srcaddr, unused_jsonobj): "Send commands to monitor host aspects for the given Drone" unused_srcaddr = unused_srcaddr unused_jsonobj = unused_jsonobj drone.monitors_activated = True montuples = MonitoringRule.findallmatches((drone,), objclass='host') for montuple in montuples: if montuple[0] == MonitoringRule.NOMATCH: continue elif montuple[0] == MonitoringRule.PARTMATCH: print >> sys.stderr, ( 'Automatic host monitoring of %s not possible with %s: missing %s' % (drone.designation, str(montuple[1]), str(montuple[2]))) self.log.warning('Insufficient information to monitor host %s' ' using %s: %s is missing.' % (drone.designation, str(montuple[1]), str(montuple[2]))) else: agent = montuple[1] self._add_service_monitoring(drone, drone, agent) print >> sys.stderr, ('START monitoring host %s using %s:%s agent' % (drone.designation, agent['monitorclass'], agent['monitortype']))
def main(): 'Main program for the CMA (Collective Management Authority)' py2neo_major_version = int(PY2NEO_VERSION.partition('.')[0]) if py2neo_major_version not in SUPPORTED_PY2NEO_VERSIONS: raise EnvironmentError('py2neo version %s not supported' % PY2NEO_VERSION) DefaultPort = 1984 # VERY Linux-specific - but useful and apparently correct ;-) PrimaryIPcmd = \ "ip address show primary scope global | grep '^ *inet' | sed -e 's%^ *inet *%%' -e 's%/.*%%'" ipfd = os.popen(PrimaryIPcmd, 'r') OurAddrStr = ('%s:%d' % (ipfd.readline().rstrip(), DefaultPort)) ipfd.close() parser = optparse.OptionParser( prog='CMA', version=AssimCtypes.VERSION_STRING, description= 'Collective Management Authority for the Assimilation System', usage='cma.py [--bind address:port]') parser.add_option( '-b', '--bind', action='store', default=None, dest='bind', metavar='address:port-to-bind-to', help='Address:port to listen to - for nanoprobes to connect to') parser.add_option( '-d', '--debug', action='store', default=0, dest='debug', help= 'enable debug for CMA and libraries - value is debug level for C libraries.' ) parser.add_option('-s', '--status', action='store_true', default=False, dest='status', help='Return status of running CMA') parser.add_option('-k', '--kill', action='store_true', default=False, dest='kill', help='Shut down running CMA.') parser.add_option('-e', '--erasedb', action='store_true', default=False, dest='erasedb', help='Erase Neo4J before starting') parser.add_option('-f', '--foreground', action='store_true', default=False, dest='foreground', help='keep the CMA from going into the background') parser.add_option('-p', '--pidfile', action='store', default='/var/run/assimilation/cma', dest='pidfile', metavar='pidfile-pathname', help='full pathname of where to locate our pid file') parser.add_option('-T', '--trace', action='store_true', default=False, dest='doTrace', help='Trace CMA execution') parser.add_option('-u', '--user', action='store', default=CMAUSERID, dest='userid', metavar='userid', help='userid to run the CMA as') opt = parser.parse_args()[0] from AssimCtypes import daemonize_me, assimilation_openlog, are_we_already_running, \ kill_pid_service, pidrunningstat_to_status, remove_pid_file, rmpid_and_exit_on_signal if opt.status: rc = pidrunningstat_to_status(are_we_already_running( opt.pidfile, None)) return rc if opt.kill: if kill_pid_service(opt.pidfile, 15) < 0: print >> sys.stderr, "Unable to stop CMA." return 1 return 0 opt.debug = int(opt.debug) # This doesn't seem to work no matter where I invoke it... # But if we don't fork in daemonize_me() ('C' code), it works great... # def cleanup(): # remove_pid_file(opt.pidfile) # atexit.register(cleanup) # signal.signal(signal.SIGTERM, lambda sig, stack: sys.exit(0)) # signal.signal(signal.SIGINT, lambda sig, stack: sys.exit(0)) from cmadb import CMAdb CMAdb.running_under_docker() make_pid_dir(opt.pidfile, opt.userid) make_key_dir(CRYPTKEYDIR, opt.userid) cryptwarnings = pyCryptCurve25519.initkeys() for warn in cryptwarnings: print >> sys.stderr, ("WARNING: %s" % warn) #print >> sys.stderr, 'All known key ids:' keyids = pyCryptFrame.get_key_ids() keyids.sort() for keyid in keyids: if not keyid.startswith(CMA_KEY_PREFIX): try: # @FIXME This is not an ideal way to associate identities with hosts # in a multi-tenant environment # @FIXME - don't think I need to do the associate_identity at all any more... hostname, notused_post = keyid.split('@@', 1) notused_post = notused_post pyCryptFrame.associate_identity(hostname, keyid) except ValueError: pass #print >> sys.stderr, '> %s/%s' % (keyid, pyCryptFrame.get_identity(keyid)) daemonize_me(opt.foreground, '/', opt.pidfile, 20) rmpid_and_exit_on_signal(opt.pidfile, signal.SIGTERM) # Next statement can't appear before daemonize_me() or bind() fails -- not quite sure why... assimilation_openlog("cma") from packetlistener import PacketListener from messagedispatcher import MessageDispatcher from dispatchtarget import DispatchTarget from monitoring import MonitoringRule from AssimCclasses import pyNetAddr, pySignFrame, pyReliableUDP, \ pyPacketDecoder from AssimCtypes import CONFIGNAME_CMAINIT, CONFIGNAME_CMAADDR, CONFIGNAME_CMADISCOVER, \ CONFIGNAME_CMAFAIL, CONFIGNAME_CMAPORT, CONFIGNAME_OUTSIG, CONFIGNAME_COMPRESSTYPE, \ CONFIGNAME_COMPRESS, proj_class_incr_debug, LONG_LICENSE_STRING, MONRULEINSTALL_DIR if opt.debug: print >> sys.stderr, ('Setting debug to %s' % opt.debug) for debug in range(opt.debug): debug = debug print >> sys.stderr, ('Incrementing C-level debug by one.') proj_class_incr_debug(None) # Input our monitoring rule templates # They only exist in flat files and in memory - they aren't in the database MonitoringRule.load_tree(MONRULEINSTALL_DIR) print >> sys.stderr, ('Monitoring rules loaded from %s' % MONRULEINSTALL_DIR) execobserver_constraints = { 'nodetype': [ 'Drone', 'IPaddrNode', 'MonitorAction', 'NICNode', 'ProcessNode', 'SystemNode', ] } ForkExecObserver(constraints=execobserver_constraints, scriptdir=NOTIFICATION_SCRIPT_DIR) print >> sys.stderr, ('Fork/Event observer dispatching from %s' % NOTIFICATION_SCRIPT_DIR) if opt.bind is not None: OurAddrStr = opt.bind OurAddr = pyNetAddr(OurAddrStr) if OurAddr.port() == 0: OurAddr.setport(DefaultPort) try: configinfo = ConfigFile(filename=CMAINITFILE) except IOError: configinfo = ConfigFile() if opt.bind is not None: bindaddr = pyNetAddr(opt.bind) if bindaddr.port() == 0: bindaddr.setport(ConfigFile[CONFIGNAME_CMAPORT]) configinfo[CONFIGNAME_CMAINIT] = bindaddr configinfo[CONFIGNAME_CMADISCOVER] = OurAddr configinfo[CONFIGNAME_CMAFAIL] = OurAddr configinfo[CONFIGNAME_CMAADDR] = OurAddr if (CONFIGNAME_COMPRESSTYPE in configinfo): configinfo[CONFIGNAME_COMPRESS] \ = pyCompressFrame(compression_method=configinfo[CONFIGNAME_COMPRESSTYPE]) configinfo[CONFIGNAME_OUTSIG] = pySignFrame(1) config = configinfo.complete_config() addr = config[CONFIGNAME_CMAINIT] # pylint is confused: addr is a pyNetAddr, not a pyConfigContext # pylint: disable=E1101 if addr.port() == 0: addr.setport(DefaultPort) ourport = addr.port() for elem in (CONFIGNAME_CMAINIT, CONFIGNAME_CMAADDR, CONFIGNAME_CMADISCOVER, CONFIGNAME_CMAFAIL): if elem in config: config[elem] = pyNetAddr(str(config[elem]), port=ourport) io = pyReliableUDP(config, pyPacketDecoder()) io.setrcvbufsize( 10 * 1024 * 1024) # No harm in asking - it will get us the best we can get... io.setsendbufsize( 1024 * 1024) # Most of the traffic volume is inbound from discovery drop_privileges_permanently(opt.userid) try: cmainit.CMAinit(io, cleanoutdb=opt.erasedb, debug=(opt.debug > 0)) except RuntimeError: remove_pid_file(opt.pidfile) raise for warn in cryptwarnings: CMAdb.log.warning(warn) if CMAdb.cdb.db.neo4j_version[0] not in SUPPORTED_NEO4J_VERSIONS: raise EnvironmentError('Neo4j version %s.%s.%s not supported' % CMAdb.cdb.db.neo4j_version) CMAdb.log.info('Listening on: %s' % str(config[CONFIGNAME_CMAINIT])) CMAdb.log.info('Requesting return packets sent to: %s' % str(OurAddr)) CMAdb.log.info('Socket input buffer size: %d' % io.getrcvbufsize()) CMAdb.log.info('Socket output buffer size: %d' % io.getsendbufsize()) keyids = pyCryptFrame.get_key_ids() keyids.sort() for keyid in keyids: CMAdb.log.info('KeyId %s Identity %s' % (keyid, pyCryptFrame.get_identity(keyid))) if CMAdb.debug: CMAdb.log.debug('C-library Debug was set to %s' % opt.debug) CMAdb.log.debug('TheOneRing created - id = %s' % CMAdb.TheOneRing) CMAdb.log.debug('Config Object sent to nanoprobes: %s' % config) jvmfd = os.popen('java -version 2>&1') jvers = jvmfd.readline() jvmfd.close() disp = MessageDispatcher(DispatchTarget.dispatchtable) neovers = CMAdb.cdb.db.neo4j_version neoversstring = (('%s.%s.%s' if len(neovers) == 3 else '%s.%s.%s%s') % neovers[0:3]) CMAdb.log.info('Starting CMA version %s - licensed under %s' % (AssimCtypes.VERSION_STRING, LONG_LICENSE_STRING)) CMAdb.log.info( 'Neo4j version %s // py2neo version %s // Python version %s // %s' % (('%s.%s.%s' % CMAdb.cdb.db.neo4j_version), str(py2neo.__version__), ('%s.%s.%s' % sys.version_info[0:3]), jvers)) if opt.foreground: print >> sys.stderr, ( 'Starting CMA version %s - licensed under %s' % (AssimCtypes.VERSION_STRING, LONG_LICENSE_STRING)) print >> sys.stderr, ( 'Neo4j version %s // py2neo version %s // Python version %s // %s' % (neoversstring, PY2NEO_VERSION, ('%s.%s.%s' % sys.version_info[0:3]), jvers)) if len(neovers) > 3: CMAdb.log.warning( 'Neo4j version %s is beta code - results not guaranteed.' % str(neovers)) # Important to note that we don't want PacketListener to create its own 'io' object # or it will screw up the ReliableUDP protocol... listener = PacketListener(config, disp, io=io) mandatory_modules = ['discoverylistener'] for mandatory in mandatory_modules: importlib.import_module(mandatory) #pylint is confused here... # pylint: disable=E1133 for optional in config['optional_modules']: importlib.import_module(optional) if opt.doTrace: import trace tracer = trace.Trace(count=False, trace=True) if CMAdb.debug: CMAdb.log.debug('Starting up traced listener.listen(); debug=%d' % opt.debug) if opt.foreground: print >> sys.stderr, ( 'cma: Starting up traced listener.listen() in foreground; debug=%d' % opt.debug) tracer.run('listener.listen()') else: if CMAdb.debug: CMAdb.log.debug( 'Starting up untraced listener.listen(); debug=%d' % opt.debug) if opt.foreground: print >> sys.stderr, ( 'cma: Starting up untraced listener.listen() in foreground; debug=%d' % opt.debug) # This is kind of a kludge, we should really look again at # at initializition and so on. # This module *ought* to be optional. # that would involve adding some Drone callbacks for creation of new Drones BestPractices(config, io, CMAdb.store, CMAdb.log, opt.debug) listener.listen() return 0
def main(): 'Main program for the CMA (Collective Management Authority)' py2neo_major_version = int(PY2NEO_VERSION.partition('.')[0]) if py2neo_major_version not in SUPPORTED_PY2NEO_VERSIONS: raise EnvironmentError('py2neo version %s not supported' % PY2NEO_VERSION) DefaultPort = 1984 # VERY Linux-specific - but useful and apparently correct ;-) PrimaryIPcmd = \ "ip address show primary scope global | grep '^ *inet' | sed -e 's%^ *inet *%%' -e 's%/.*%%'" ipfd = os.popen(PrimaryIPcmd, 'r') OurAddrStr = ('%s:%d' % (ipfd.readline().rstrip(), DefaultPort)) ipfd.close() parser = optparse.OptionParser(prog='CMA', version=AssimCtypes.VERSION_STRING, description='Collective Management Authority for the Assimilation System', usage='cma.py [--bind address:port]') parser.add_option('-b', '--bind', action='store', default=None, dest='bind' , metavar='address:port-to-bind-to' , help='Address:port to listen to - for nanoprobes to connect to') parser.add_option('-d', '--debug', action='store', default=0, dest='debug' , help='enable debug for CMA and libraries - value is debug level for C libraries.') parser.add_option('-s', '--status', action='store_true', default=False, dest='status' , help='Return status of running CMA') parser.add_option('-k', '--kill', action='store_true', default=False, dest='kill' , help='Shut down running CMA.') parser.add_option('-e', '--erasedb', action='store_true', default=False, dest='erasedb' , help='Erase Neo4J before starting') parser.add_option('-f', '--foreground', action='store_true', default=False, dest='foreground' , help='keep the CMA from going into the background') parser.add_option('-p', '--pidfile', action='store', default='/var/run/assimilation/cma' , dest='pidfile', metavar='pidfile-pathname' , help='full pathname of where to locate our pid file') parser.add_option('-T', '--trace', action='store_true', default=False, dest='doTrace' , help='Trace CMA execution') parser.add_option('-u', '--user', action='store', default=CMAUSERID, dest='userid' , metavar='userid' , help='userid to run the CMA as') opt = parser.parse_args()[0] from AssimCtypes import daemonize_me, assimilation_openlog, are_we_already_running, \ kill_pid_service, pidrunningstat_to_status, remove_pid_file, rmpid_and_exit_on_signal if opt.status: rc = pidrunningstat_to_status(are_we_already_running(opt.pidfile, None)) return rc if opt.kill: if kill_pid_service(opt.pidfile, 15) < 0: print >> sys.stderr, "Unable to stop CMA." return 1 return 0 opt.debug = int(opt.debug) # This doesn't seem to work no matter where I invoke it... # But if we don't fork in daemonize_me() ('C' code), it works great... # def cleanup(): # remove_pid_file(opt.pidfile) # atexit.register(cleanup) # signal.signal(signal.SIGTERM, lambda sig, stack: sys.exit(0)) # signal.signal(signal.SIGINT, lambda sig, stack: sys.exit(0)) from cmadb import CMAdb CMAdb.running_under_docker() make_pid_dir(opt.pidfile, opt.userid) make_key_dir(CRYPTKEYDIR, opt.userid) cryptwarnings = pyCryptCurve25519.initkeys() for warn in cryptwarnings: print >> sys.stderr, ("WARNING: %s" % warn) #print >> sys.stderr, 'All known key ids:' keyids = pyCryptFrame.get_key_ids() keyids.sort() for keyid in keyids: if not keyid.startswith(CMA_KEY_PREFIX): try: # @FIXME This is not an ideal way to associate identities with hosts # in a multi-tenant environment # @FIXME - don't think I need to do the associate_identity at all any more... hostname, notused_post = keyid.split('@@', 1) notused_post = notused_post pyCryptFrame.associate_identity(hostname, keyid) except ValueError: pass #print >> sys.stderr, '> %s/%s' % (keyid, pyCryptFrame.get_identity(keyid)) daemonize_me(opt.foreground, '/', opt.pidfile, 20) rmpid_and_exit_on_signal(opt.pidfile, signal.SIGTERM) # Next statement can't appear before daemonize_me() or bind() fails -- not quite sure why... assimilation_openlog("cma") from packetlistener import PacketListener from messagedispatcher import MessageDispatcher from dispatchtarget import DispatchTarget from monitoring import MonitoringRule from AssimCclasses import pyNetAddr, pySignFrame, pyReliableUDP, \ pyPacketDecoder from AssimCtypes import CONFIGNAME_CMAINIT, CONFIGNAME_CMAADDR, CONFIGNAME_CMADISCOVER, \ CONFIGNAME_CMAFAIL, CONFIGNAME_CMAPORT, CONFIGNAME_OUTSIG, CONFIGNAME_COMPRESSTYPE, \ CONFIGNAME_COMPRESS, proj_class_incr_debug, LONG_LICENSE_STRING, MONRULEINSTALL_DIR if opt.debug: print >> sys.stderr, ('Setting debug to %s' % opt.debug) for debug in range(opt.debug): debug = debug print >> sys.stderr, ('Incrementing C-level debug by one.') proj_class_incr_debug(None) # Input our monitoring rule templates # They only exist in flat files and in memory - they aren't in the database MonitoringRule.load_tree(MONRULEINSTALL_DIR) print >> sys.stderr, ('Monitoring rules loaded from %s' % MONRULEINSTALL_DIR) execobserver_constraints = { 'nodetype': ['Drone', 'IPaddrNode', 'MonitorAction', 'NICNode', 'ProcessNode', 'SystemNode', ] } ForkExecObserver(constraints=execobserver_constraints, scriptdir=NOTIFICATION_SCRIPT_DIR) print >> sys.stderr, ('Fork/Event observer dispatching from %s' % NOTIFICATION_SCRIPT_DIR) if opt.bind is not None: OurAddrStr = opt.bind OurAddr = pyNetAddr(OurAddrStr) if OurAddr.port() == 0: OurAddr.setport(DefaultPort) try: configinfo = ConfigFile(filename=CMAINITFILE) except IOError: configinfo = ConfigFile() if opt.bind is not None: bindaddr = pyNetAddr(opt.bind) if bindaddr.port() == 0: bindaddr.setport(ConfigFile[CONFIGNAME_CMAPORT]) configinfo[CONFIGNAME_CMAINIT] = bindaddr configinfo[CONFIGNAME_CMADISCOVER] = OurAddr configinfo[CONFIGNAME_CMAFAIL] = OurAddr configinfo[CONFIGNAME_CMAADDR] = OurAddr if (CONFIGNAME_COMPRESSTYPE in configinfo): configinfo[CONFIGNAME_COMPRESS] \ = pyCompressFrame(compression_method=configinfo[CONFIGNAME_COMPRESSTYPE]) configinfo[CONFIGNAME_OUTSIG] = pySignFrame(1) config = configinfo.complete_config() addr = config[CONFIGNAME_CMAINIT] # pylint is confused: addr is a pyNetAddr, not a pyConfigContext # pylint: disable=E1101 if addr.port() == 0: addr.setport(DefaultPort) ourport = addr.port() for elem in (CONFIGNAME_CMAINIT, CONFIGNAME_CMAADDR , CONFIGNAME_CMADISCOVER, CONFIGNAME_CMAFAIL): if elem in config: config[elem] = pyNetAddr(str(config[elem]), port=ourport) io = pyReliableUDP(config, pyPacketDecoder()) io.setrcvbufsize(10*1024*1024) # No harm in asking - it will get us the best we can get... io.setsendbufsize(1024*1024) # Most of the traffic volume is inbound from discovery drop_privileges_permanently(opt.userid) try: cmainit.CMAinit(io, cleanoutdb=opt.erasedb, debug=(opt.debug > 0)) except RuntimeError: remove_pid_file(opt.pidfile) raise for warn in cryptwarnings: CMAdb.log.warning(warn) if CMAdb.cdb.db.neo4j_version[0] not in SUPPORTED_NEO4J_VERSIONS: raise EnvironmentError('Neo4j version %s.%s.%s not supported' % CMAdb.cdb.db.neo4j_version) CMAdb.log.info('Listening on: %s' % str(config[CONFIGNAME_CMAINIT])) CMAdb.log.info('Requesting return packets sent to: %s' % str(OurAddr)) CMAdb.log.info('Socket input buffer size: %d' % io.getrcvbufsize()) CMAdb.log.info('Socket output buffer size: %d' % io.getsendbufsize()) keyids = pyCryptFrame.get_key_ids() keyids.sort() for keyid in keyids: CMAdb.log.info('KeyId %s Identity %s' % (keyid, pyCryptFrame.get_identity(keyid))) if CMAdb.debug: CMAdb.log.debug('C-library Debug was set to %s' % opt.debug) CMAdb.log.debug('TheOneRing created - id = %s' % CMAdb.TheOneRing) CMAdb.log.debug('Config Object sent to nanoprobes: %s' % config) jvmfd = os.popen('java -version 2>&1') jvers = jvmfd.readline() jvmfd.close() disp = MessageDispatcher(DispatchTarget.dispatchtable) neovers = CMAdb.cdb.db.neo4j_version neoversstring = (('%s.%s.%s'if len(neovers) == 3 else '%s.%s.%s%s') % neovers[0:3]) CMAdb.log.info('Starting CMA version %s - licensed under %s' % (AssimCtypes.VERSION_STRING, LONG_LICENSE_STRING)) CMAdb.log.info('Neo4j version %s // py2neo version %s // Python version %s // %s' % (('%s.%s.%s' % CMAdb.cdb.db.neo4j_version) , str(py2neo.__version__) , ('%s.%s.%s' % sys.version_info[0:3]) , jvers)) if opt.foreground: print >> sys.stderr, ('Starting CMA version %s - licensed under %s' % (AssimCtypes.VERSION_STRING, LONG_LICENSE_STRING)) print >> sys.stderr, ('Neo4j version %s // py2neo version %s // Python version %s // %s' % ( neoversstring , PY2NEO_VERSION , ('%s.%s.%s' % sys.version_info[0:3]) , jvers)) if len(neovers) > 3: CMAdb.log.warning('Neo4j version %s is beta code - results not guaranteed.' % str(neovers)) # Important to note that we don't want PacketListener to create its own 'io' object # or it will screw up the ReliableUDP protocol... listener = PacketListener(config, disp, io=io) mandatory_modules = [ 'discoverylistener' ] for mandatory in mandatory_modules: importlib.import_module(mandatory) #pylint is confused here... # pylint: disable=E1133 for optional in config['optional_modules']: importlib.import_module(optional) if opt.doTrace: import trace tracer = trace.Trace(count=False, trace=True) if CMAdb.debug: CMAdb.log.debug( 'Starting up traced listener.listen(); debug=%d' % opt.debug) if opt.foreground: print >> sys.stderr, ( 'cma: Starting up traced listener.listen() in foreground; debug=%d' % opt.debug) tracer.run('listener.listen()') else: if CMAdb.debug: CMAdb.log.debug( 'Starting up untraced listener.listen(); debug=%d' % opt.debug) if opt.foreground: print >> sys.stderr, ( 'cma: Starting up untraced listener.listen() in foreground; debug=%d' % opt.debug) # This is kind of a kludge, we should really look again at # at initializition and so on. # This module *ought* to be optional. # that would involve adding some Drone callbacks for creation of new Drones BestPractices(config, io, CMAdb.store, CMAdb.log, opt.debug) listener.listen() return 0
def test_automonitor_search_basic(self): AssimEvent.disable_all_observers() drone = FakeDrone({ 'data': { 'ocf': { 'assimilation/neo4j', }, 'lsb': { 'neo4j-service', } } }) MonitoringRule.monitor_objects = {'service': {}, 'host':{}} ocf_string = '''{ "class": "ocf", "type": "neo4j", "provider": "assimilation", "classconfig": [ [null, "@basename()", "java$"], [null, "$argv[-1]", "org\\.neo4j\\.server\\.Bootstrapper$"], ["PORT", "$serviceport"], ["NEOHOME", "@argequals(-Dneo4j.home)", "/.*"] ] }''' MonitoringRule.ConstructFromString(ocf_string) lsb_string = '''{ "class": "lsb", "type": "neo4j-service", "classconfig": [ ["@basename()", "java$"], ["$argv[-1]", "org\\.neo4j\\.server\\.Bootstrapper$"], ] }''' MonitoringRule.ConstructFromString(lsb_string) neoprocargs = ("/usr/bin/java", "-cp" , "/var/lib/neo4j/lib/concurrentlinkedhashmap-lru-1.3.1.jar:" "AND SO ON:" "/var/lib/neo4j/system/lib/slf4j-api-1.6.2.jar:" "/var/lib/neo4j/conf/", "-server", "-XX:" "+DisableExplicitGC" , "-Dneo4j.home=/var/lib/neo4j" , "-Dneo4j.instance=/var/lib/neo4j" , "-Dfile.encoding=UTF-8" , "org.neo4j.server.Bootstrapper") neonode = ProcessNode('global', 'foofred', 'fred', '/usr/bin/java', neoprocargs , 'root', 'root', '/', roles=(CMAconsts.ROLE_server,)) #neonode.serviceport=7474 context = ExpressionContext((neonode, drone)) first = MonitoringRule.findbestmatch(context) second = MonitoringRule.findbestmatch(context, False) list1 = MonitoringRule.findallmatches(context) neonode.serviceport=7474 third = MonitoringRule.findbestmatch(context) list2 = MonitoringRule.findallmatches(context) # first should be the LSB instance self.assertEqual(first[1]['monitorclass'], 'lsb') self.assertEqual(first[0], MonitoringRule.LOWPRIOMATCH) # second should be the incomplete OCF instance self.assertEqual(second[1]['monitorclass'], 'ocf') self.assertEqual(second[0], MonitoringRule.PARTMATCH) # third should be the high priority OCF instance self.assertEqual(third[1]['monitorclass'], 'ocf') self.assertEqual(third[0], MonitoringRule.HIGHPRIOMATCH) # list1 should be the incomplete OCF and the complete LSB - in that order self.assertEqual(len(list1), 2) # They should come out sorted by monitorclass self.assertEqual(list1[0][0], MonitoringRule.LOWPRIOMATCH) self.assertEqual(list1[0][1]['monitorclass'], 'lsb') self.assertEqual(list1[1][0], MonitoringRule.PARTMATCH) self.assertEqual(list1[1][1]['monitorclass'], 'ocf') # third should be a complete OCF match # list2 should be the complete OCF and the complete OCF - in that order self.assertEqual(len(list2), 2) self.assertEqual(list2[0][0], MonitoringRule.LOWPRIOMATCH) self.assertEqual(list2[0][1]['monitorclass'], 'lsb') self.assertEqual(list2[1][0], MonitoringRule.HIGHPRIOMATCH) self.assertEqual(list2[1][1]['monitorclass'], 'ocf')
def test_automonitor_functions(self): AssimEvent.disable_all_observers() MonitoringRule.monitor_objects = {'service': {}, 'host':{}} drone = FakeDrone({ 'data': { 'ocf': { 'assimilation/neo4j', }, 'lsb': { 'bacula', }, } }) ocf_string = '''{ "class": "ocf", "type": "neo4j", "provider": "assimilation", "classconfig": [ ["classpath", "@flagvalue(-cp)"], ["ipaddr", "@serviceip($procinfo.listenaddrs)"], ["port", "@serviceport()", "[0-9]+$"] ] }''' ssh_json = '''{ "exe": "/usr/sbin/sshd", "argv": [ "/usr/sbin/sshd", "-D" ], "uid": "root", "gid": "root", "cwd": "/", "listenaddrs": { "0.0.0.0:22": { "proto": "tcp", "addr": "0.0.0.0", "port": 22 }, ":::22": { "proto": "tcp6", "addr": "::", "port": 22 } } }''' neo4j_json = '''{ "exe": "/usr/lib/jvm/java-7-openjdk-amd64/jre/bin/java", "argv": [ "/usr/bin/java", "-cp", "/var/lib/neo4j/lib/concurrentlinkedhashmap-lru-1.3.1.jar: ...", "-server", "-XX:+DisableExplicitGC", "-Dorg.neo4j.server.properties=conf/neo4 j-server.properties", "-Djava.util.logging.config.file=conf/logging.properties", "-Dlog4j.configuration=file:conf/log4j.properties", "-XX: +UseConcMarkSweepGC", "-XX:+CMSClassUnloadingEnabled", "-Dneo4j.home=/var/lib/neo4j", "-Dneo4j.instance=/var/lib/neo4j", "-Dfile.encoding= UTF-8", "org.neo4j.server.Bootstrapper" ], "uid": "neo4j", "gid": "neo4j", "cwd": "/var/lib/neo4j", "listenaddrs": { ":::1337": { "proto": "tcp6", "addr": "::", "port": 1337 }, ":::39185": { "proto": "tcp6", "addr": "::", "port": 39185 } } }''' bacula_json = '''{ "exe": "/usr/sbin/bacula-dir", "argv": [ "/usr/sbin/bacula-dir", "-c", "/etc/bacula/bacula-dir.conf", "-u", "bacula", "-g", "bacula" ], "uid": "bacula", "gid": "bacula", "cwd": "/", "listenaddrs": { "10.10.10.5:9101": { "proto": "tcp", "addr": "10.10.10.5", "port": 9101 } } }''' MonitoringRule.ConstructFromString(ocf_string) neoargs = pyConfigContext(neo4j_json)['argv'] testnode = ProcessNode('global', 'foofred', 'fred', '/usr/bin/java', neoargs , 'root', 'root', '/', roles=(CMAconsts.ROLE_server,)) testnode.procinfo = neo4j_json context = ExpressionContext((testnode, drone)) (prio, match) = MonitoringRule.findbestmatch(context) self.assertEqual(prio, MonitoringRule.HIGHPRIOMATCH) self.assertEqual(match['arglist']['ipaddr'], '::1') self.assertEqual(match['arglist']['port'], '1337') testnode.procinfo = ssh_json context = ExpressionContext((testnode, drone)) (prio, match) = MonitoringRule.findbestmatch(context) self.assertEqual(prio, MonitoringRule.HIGHPRIOMATCH) self.assertEqual(match['arglist']['port'], '22') self.assertEqual(match['arglist']['ipaddr'], '127.0.0.1') testnode.procinfo = bacula_json context = ExpressionContext((testnode, drone)) (prio, match) = MonitoringRule.findbestmatch(context) self.assertEqual(prio, MonitoringRule.HIGHPRIOMATCH) self.assertEqual(match['arglist']['port'], '9101') self.assertEqual(match['arglist']['ipaddr'], '10.10.10.5')
def processpkt(self, drone, unused_srcaddr, unused_jsonobj): '''Update the _agentcache when we get a new set of available agents''' unused_jsonobj = unused_jsonobj unused_srcaddr = unused_srcaddr MonitoringRule.compute_available_agents((self,))
def test_automonitor_search_basic(self): drone = FakeDrone({ 'data': { 'ocf': { 'assimilation/neo4j', }, 'lsb': { 'neo4j-service', } } }) MonitoringRule.monitor_objects = {'service': {}, 'host': {}} ocf_string = '''{ "class": "ocf", "type": "neo4j", "provider": "assimilation", "classconfig": [ [null, "@basename()", "java$"], [null, "$argv[-1]", "org\\.neo4j\\.server\\.Bootstrapper$"], ["PORT", "$serviceport"], ["NEOHOME", "@argequals(-Dneo4j.home)", "/.*"] ] }''' MonitoringRule.ConstructFromString(ocf_string) lsb_string = '''{ "class": "lsb", "type": "neo4j-service", "classconfig": [ ["@basename()", "java$"], ["$argv[-1]", "org\\.neo4j\\.server\\.Bootstrapper$"], ] }''' MonitoringRule.ConstructFromString(lsb_string) neoprocargs = ( "/usr/bin/java", "-cp", "/var/lib/neo4j/lib/concurrentlinkedhashmap-lru-1.3.1.jar:" "AND SO ON:" "/var/lib/neo4j/system/lib/slf4j-api-1.6.2.jar:" "/var/lib/neo4j/conf/", "-server", "-XX:" "+DisableExplicitGC", "-Dneo4j.home=/var/lib/neo4j", "-Dneo4j.instance=/var/lib/neo4j", "-Dfile.encoding=UTF-8", "org.neo4j.server.Bootstrapper") neonode = ProcessNode('global', 'foofred', 'fred', '/usr/bin/java', neoprocargs, 'root', 'root', '/', roles=(CMAconsts.ROLE_server, )) #neonode.serviceport=7474 context = ExpressionContext((neonode, drone)) first = MonitoringRule.findbestmatch(context) second = MonitoringRule.findbestmatch(context, False) list1 = MonitoringRule.findallmatches(context) neonode.serviceport = 7474 third = MonitoringRule.findbestmatch(context) list2 = MonitoringRule.findallmatches(context) # first should be the LSB instance self.assertEqual(first[1]['monitorclass'], 'lsb') self.assertEqual(first[0], MonitoringRule.LOWPRIOMATCH) # second should be the incomplete OCF instance self.assertEqual(second[1]['monitorclass'], 'ocf') self.assertEqual(second[0], MonitoringRule.PARTMATCH) # third should be the high priority OCF instance self.assertEqual(third[1]['monitorclass'], 'ocf') self.assertEqual(third[0], MonitoringRule.HIGHPRIOMATCH) # list1 should be the incomplete OCF and the complete LSB - in that order self.assertEqual(len(list1), 2) # They should come out sorted by monitorclass self.assertEqual(list1[0][0], MonitoringRule.LOWPRIOMATCH) self.assertEqual(list1[0][1]['monitorclass'], 'lsb') self.assertEqual(list1[1][0], MonitoringRule.PARTMATCH) self.assertEqual(list1[1][1]['monitorclass'], 'ocf') # third should be a complete OCF match # list2 should be the complete OCF and the complete OCF - in that order self.assertEqual(len(list2), 2) self.assertEqual(list2[0][0], MonitoringRule.LOWPRIOMATCH) self.assertEqual(list2[0][1]['monitorclass'], 'lsb') self.assertEqual(list2[1][0], MonitoringRule.HIGHPRIOMATCH) self.assertEqual(list2[1][1]['monitorclass'], 'ocf')
def test_automonitor_functions(self): MonitoringRule.monitor_objects = {'service': {}, 'host': {}} drone = FakeDrone( {'data': { 'ocf': { 'assimilation/neo4j', }, 'lsb': { 'bacula', }, }}) ocf_string = '''{ "class": "ocf", "type": "neo4j", "provider": "assimilation", "classconfig": [ ["classpath", "@flagvalue(-cp)"], ["ipaddr", "@serviceip($JSON_procinfo.listenaddrs)"], ["port", "@serviceport()", "[0-9]+$"] ] }''' ssh_json = '''{ "exe": "/usr/sbin/sshd", "argv": [ "/usr/sbin/sshd", "-D" ], "uid": "root", "gid": "root", "cwd": "/", "listenaddrs": { "0.0.0.0:22": { "proto": "tcp", "addr": "0.0.0.0", "port": 22 }, ":::22": { "proto": "tcp6", "addr": "::", "port": 22 } } }''' neo4j_json = '''{ "exe": "/usr/lib/jvm/java-7-openjdk-amd64/jre/bin/java", "argv": [ "/usr/bin/java", "-cp", "/var/lib/neo4j/lib/concurrentlinkedhashmap-lru-1.3.1.jar: ...", "-server", "-XX:+DisableExplicitGC", "-Dorg.neo4j.server.properties=conf/neo4 j-server.properties", "-Djava.util.logging.config.file=conf/logging.properties", "-Dlog4j.configuration=file:conf/log4j.properties", "-XX: +UseConcMarkSweepGC", "-XX:+CMSClassUnloadingEnabled", "-Dneo4j.home=/var/lib/neo4j", "-Dneo4j.instance=/var/lib/neo4j", "-Dfile.encoding= UTF-8", "org.neo4j.server.Bootstrapper" ], "uid": "neo4j", "gid": "neo4j", "cwd": "/var/lib/neo4j", "listenaddrs": { ":::1337": { "proto": "tcp6", "addr": "::", "port": 1337 }, ":::39185": { "proto": "tcp6", "addr": "::", "port": 39185 } } }''' bacula_json = '''{ "exe": "/usr/sbin/bacula-dir", "argv": [ "/usr/sbin/bacula-dir", "-c", "/etc/bacula/bacula-dir.conf", "-u", "bacula", "-g", "bacula" ], "uid": "bacula", "gid": "bacula", "cwd": "/", "listenaddrs": { "10.10.10.5:9101": { "proto": "tcp", "addr": "10.10.10.5", "port": 9101 } } }''' MonitoringRule.ConstructFromString(ocf_string) neoargs = pyConfigContext(neo4j_json)['argv'] testnode = ProcessNode('global', 'foofred', 'fred', '/usr/bin/java', neoargs, 'root', 'root', '/', roles=(CMAconsts.ROLE_server, )) testnode.JSON_procinfo = neo4j_json context = ExpressionContext((testnode, drone)) (prio, match) = MonitoringRule.findbestmatch(context) self.assertEqual(prio, MonitoringRule.HIGHPRIOMATCH) self.assertEqual(match['arglist']['ipaddr'], '::1') self.assertEqual(match['arglist']['port'], '1337') testnode.JSON_procinfo = ssh_json context = ExpressionContext((testnode, drone)) (prio, match) = MonitoringRule.findbestmatch(context) self.assertEqual(prio, MonitoringRule.HIGHPRIOMATCH) self.assertEqual(match['arglist']['port'], '22') self.assertEqual(match['arglist']['ipaddr'], '127.0.0.1') testnode.JSON_procinfo = bacula_json context = ExpressionContext((testnode, drone)) (prio, match) = MonitoringRule.findbestmatch(context) self.assertEqual(prio, MonitoringRule.HIGHPRIOMATCH) self.assertEqual(match['arglist']['port'], '9101') self.assertEqual(match['arglist']['ipaddr'], '10.10.10.5')