def __init__(self,confdir,datadir,logdir,simulatorMode,numMotes,trace,debug,usePageZero,simTopology,iotlabmotes, testbedmotes, pathTopo): # store params self.confdir = confdir self.datadir = datadir self.logdir = logdir self.simulatorMode = simulatorMode self.numMotes = numMotes self.trace = trace self.debug = debug self.usePageZero = usePageZero self.iotlabmotes = iotlabmotes self.testbedmotes = testbedmotes self.pathTopo = pathTopo # local variables self.eventBusMonitor = eventBusMonitor.eventBusMonitor() self.openLbr = openLbr.OpenLbr(usePageZero) self.rpl = RPL.RPL() self.jrc = JRC.JRC() self.topology = topology.topology() self.DAGrootList = [] # create openTun call last since indicates prefix self.openTun = openTun.create() if self.simulatorMode: from openvisualizer.SimEngine import SimEngine, MoteHandler self.simengine = SimEngine.SimEngine(simTopology) self.simengine.start() # import the number of motes from json file given by user (if the pathTopo option is enabled) if self.pathTopo and self.simulatorMode: try: topoConfig = open(pathTopo) topo = json.load(topoConfig) self.numMotes = len(topo['motes']) except Exception as err: print err app.close() os.kill(os.getpid(), signal.SIGTERM) # create a moteProbe for each mote if self.simulatorMode: # in "simulator" mode, motes are emulated sys.path.append(os.path.join(self.datadir, 'sim_files')) import oos_openwsn MoteHandler.readNotifIds(os.path.join(self.datadir, 'sim_files', 'openwsnmodule_obj.h')) self.moteProbes = [] for _ in range(self.numMotes): moteHandler = MoteHandler.MoteHandler(oos_openwsn.OpenMote()) self.simengine.indicateNewMote(moteHandler) self.moteProbes += [moteProbe.moteProbe(emulatedMote=moteHandler)] elif self.iotlabmotes: # in "IoT-LAB" mode, motes are connected to TCP ports self.moteProbes = [ moteProbe.moteProbe(iotlabmote=p) for p in self.iotlabmotes.split(',') ] elif self.testbedmotes: motesfinder = moteProbe.OpentestbedMoteFinder() self.moteProbes = [ moteProbe.moteProbe(testbedmote_eui64=p) for p in motesfinder.get_opentestbed_motelist() ] else: # in "hardware" mode, motes are connected to the serial port self.moteProbes = [ moteProbe.moteProbe(serialport=p) for p in moteProbe.findSerialPorts() ] # create a moteConnector for each moteProbe self.moteConnectors = [ moteConnector.moteConnector(mp.getPortName()) for mp in self.moteProbes ] # create a moteState for each moteConnector self.moteStates = [ moteState.moteState(mc) for mc in self.moteConnectors ] self.remoteConnectorServer = remoteConnectorServer.remoteConnectorServer() # boot all emulated motes, if applicable if self.simulatorMode: self.simengine.pause() now = self.simengine.timeline.getCurrentTime() for rank in range(self.simengine.getNumMotes()): moteHandler = self.simengine.getMoteHandler(rank) self.simengine.timeline.scheduleEvent( now, moteHandler.getId(), moteHandler.hwSupply.switchOn, moteHandler.hwSupply.INTR_SWITCHON ) self.simengine.resume() # import the topology from the json file if self.pathTopo and self.simulatorMode: # delete each connections automatically established during motes creation ConnectionsToDelete = self.simengine.propagation.retrieveConnections() for co in ConnectionsToDelete : fromMote = int(co['fromMote']) toMote = int(co['toMote']) self.simengine.propagation.deleteConnection(fromMote,toMote) motes = topo['motes'] for mote in motes : mh = self.simengine.getMoteHandlerById(mote['id']) mh.setLocation(mote['lat'], mote['lon']) # implements new connections connect = topo['connections'] for co in connect: fromMote = int(co['fromMote']) toMote = int(co['toMote']) pdr = float(co['pdr']) self.simengine.propagation.createConnection(fromMote,toMote) self.simengine.propagation.updateConnection(fromMote,toMote,pdr) # store DAGroot moteids in DAGrootList DAGrootL = topo['DAGrootList'] for DAGroot in DAGrootL : hexaDAGroot = hex(DAGroot) hexaDAGroot = hexaDAGroot[2:] prefixLen = 4 - len(hexaDAGroot) prefix ="" for i in range(prefixLen): prefix += "0" moteid = prefix+hexaDAGroot self.DAGrootList.append(moteid) # start tracing threads if self.trace: import openvisualizer.OVtracer logging.config.fileConfig( os.path.join(self.confdir,'trace.conf'), {'logDir': _forceSlashSep(self.logdir, self.debug)}) OVtracer.OVtracer()
def __init__(self, confdir, datadir, logdir, simulatorMode, numMotes, trace, debug, simTopology): # store params self.confdir = confdir self.datadir = datadir self.logdir = logdir self.simulatorMode = simulatorMode self.numMotes = numMotes self.trace = trace self.debug = debug # local variables self.eventBusMonitor = eventBusMonitor.eventBusMonitor() self.openLbr = openLbr.OpenLbr() self.rpl = RPL.RPL() self.topology = topology.topology() self.udpLatency = UDPLatency.UDPLatency() self.openTun = openTun.create() # call last since indicates prefix if self.simulatorMode: from openvisualizer.SimEngine import SimEngine, MoteHandler self.simengine = SimEngine.SimEngine(simTopology) self.simengine.start() # create a moteProbe for each mote if not self.simulatorMode: # in "hardware" mode, motes are connected to the serial port self.moteProbes = [ moteProbe.moteProbe(serialport=sp) for sp in moteProbe.findSerialPorts() ] else: # in "simulator" mode, motes are emulated sys.path.append(os.path.join(self.datadir, 'sim_files')) import oos_openwsn MoteHandler.readNotifIds( os.path.join(self.datadir, 'sim_files', 'openwsnmodule_obj.h')) self.moteProbes = [] for _ in range(self.numMotes): moteHandler = MoteHandler.MoteHandler(oos_openwsn.OpenMote()) self.simengine.indicateNewMote(moteHandler) self.moteProbes += [ moteProbe.moteProbe(emulatedMote=moteHandler) ] # create a moteConnector for each moteProbe self.moteConnectors = [ moteConnector.moteConnector(mp.getSerialPortName()) for mp in self.moteProbes ] # create a moteState for each moteConnector self.moteStates = [ moteState.moteState(mc) for mc in self.moteConnectors ] # boot all emulated motes, if applicable if self.simulatorMode: self.simengine.pause() now = self.simengine.timeline.getCurrentTime() for rank in range(self.simengine.getNumMotes()): moteHandler = self.simengine.getMoteHandler(rank) self.simengine.timeline.scheduleEvent( now, moteHandler.getId(), moteHandler.hwSupply.switchOn, moteHandler.hwSupply.INTR_SWITCHON) self.simengine.resume() # start tracing threads if self.trace: import openvisualizer.OVtracer logging.config.fileConfig( os.path.join(self.confdir, 'trace.conf'), {'logDir': _forceSlashSep(self.logdir, self.debug)}) OVtracer.OVtracer()
def __init__(self, confdir, datadir, logdir, simulatorMode, numMotes, trace, debug, usePageZero, simTopology, iotlabmotes, pathTopo): # store params self.confdir = confdir self.datadir = datadir self.logdir = logdir self.simulatorMode = simulatorMode self.numMotes = numMotes self.trace = trace self.debug = debug self.usePageZero = usePageZero self.iotlabmotes = iotlabmotes self.pathTopo = pathTopo # local variables self.eventBusMonitor = eventBusMonitor.eventBusMonitor() self.openLbr = openLbr.OpenLbr(usePageZero) self.rpl = RPL.RPL() self.jrc = JRC.JRC() self.topology = topology.topology() self.udpInject = UDPInject.UDPInject() self.DAGrootList = [] # create openTun call last since indicates prefix self.openTun = openTun.create() if self.simulatorMode: from openvisualizer.SimEngine import SimEngine, MoteHandler self.simengine = SimEngine.SimEngine(simTopology) self.simengine.start() # import the number of motes from json file given by user (if the pathTopo option is enabled) if self.pathTopo and self.simulatorMode: try: topoConfig = open(pathTopo) topo = json.load(topoConfig) self.numMotes = len(topo['motes']) except Exception as err: print err app.close() os.kill(os.getpid(), signal.SIGTERM) # create a moteProbe for each mote if self.simulatorMode: # in "simulator" mode, motes are emulated sys.path.append(os.path.join(self.datadir, 'sim_files')) import oos_openwsn MoteHandler.readNotifIds( os.path.join(self.datadir, 'sim_files', 'openwsnmodule_obj.h')) self.moteProbes = [] for _ in range(self.numMotes): moteHandler = MoteHandler.MoteHandler(oos_openwsn.OpenMote()) self.simengine.indicateNewMote(moteHandler) self.moteProbes += [ moteProbe.moteProbe(emulatedMote=moteHandler) ] elif self.iotlabmotes: # in "IoT-LAB" mode, motes are connected to TCP ports self.moteProbes = [ moteProbe.moteProbe(iotlabmote=p) for p in self.iotlabmotes.split(',') ] else: # in "hardware" mode, motes are connected to the serial port self.moteProbes = [ moteProbe.moteProbe(serialport=p) for p in moteProbe.findSerialPorts() ] # create a moteConnector for each moteProbe self.moteConnectors = [ moteConnector.moteConnector(mp.getPortName()) for mp in self.moteProbes ] # create a moteState for each moteConnector self.moteStates = [ moteState.moteState(mc) for mc in self.moteConnectors ] self.remoteConnectorServer = remoteConnectorServer.remoteConnectorServer( ) # boot all emulated motes, if applicable if self.simulatorMode: self.simengine.pause() now = self.simengine.timeline.getCurrentTime() for rank in range(self.simengine.getNumMotes()): moteHandler = self.simengine.getMoteHandler(rank) self.simengine.timeline.scheduleEvent( now, moteHandler.getId(), moteHandler.hwSupply.switchOn, moteHandler.hwSupply.INTR_SWITCHON) self.simengine.resume() # import the topology from the json file if self.pathTopo and self.simulatorMode: # delete each connections automatically established during motes creation ConnectionsToDelete = self.simengine.propagation.retrieveConnections( ) for co in ConnectionsToDelete: fromMote = int(co['fromMote']) toMote = int(co['toMote']) self.simengine.propagation.deleteConnection(fromMote, toMote) motes = topo['motes'] for mote in motes: mh = self.simengine.getMoteHandlerById(mote['id']) mh.setLocation(mote['lat'], mote['lon']) # implements new connections connect = topo['connections'] for co in connect: fromMote = int(co['fromMote']) toMote = int(co['toMote']) pdr = float(co['pdr']) self.simengine.propagation.createConnection(fromMote, toMote) self.simengine.propagation.updateConnection( fromMote, toMote, pdr) # store DAGroot moteids in DAGrootList DAGrootL = topo['DAGrootList'] for DAGroot in DAGrootL: hexaDAGroot = hex(DAGroot) hexaDAGroot = hexaDAGroot[2:] prefixLen = 4 - len(hexaDAGroot) prefix = "" for i in range(prefixLen): prefix += "0" moteid = prefix + hexaDAGroot self.DAGrootList.append(moteid) # start tracing threads if self.trace: import openvisualizer.OVtracer logging.config.fileConfig( os.path.join(self.confdir, 'trace.conf'), {'logDir': _forceSlashSep(self.logdir, self.debug)}) OVtracer.OVtracer()
def __init__(self,confdir,datadir,logdir,simulatorMode,numMotes,trace,debug,simTopology): # store params self.confdir = confdir self.datadir = datadir self.logdir = logdir self.simulatorMode = simulatorMode self.numMotes = numMotes self.trace = trace self.debug = debug # local variables self.eventBusMonitor = eventBusMonitor.eventBusMonitor() self.openLbr = openLbr.OpenLbr() self.rpl = RPL.RPL() self.topology = topology.topology() self.udpLatency = UDPLatency.UDPLatency() self.openTun = openTun.create() # call last since indicates prefix if self.simulatorMode: from openvisualizer.SimEngine import SimEngine, MoteHandler self.simengine = SimEngine.SimEngine(simTopology) self.simengine.start() # create a moteProbe for each mote if not self.simulatorMode: # in "hardware" mode, motes are connected to the serial port self.moteProbes = [ moteProbe.moteProbe(serialport=sp) for sp in moteProbe.findSerialPorts() ] else: # in "simulator" mode, motes are emulated sys.path.append(os.path.join(self.datadir, 'sim_files')) import oos_openwsn MoteHandler.readNotifIds(os.path.join(self.datadir, 'sim_files', 'openwsnmodule_obj.h')) self.moteProbes = [] for _ in range(self.numMotes): moteHandler = MoteHandler.MoteHandler(oos_openwsn.OpenMote()) self.simengine.indicateNewMote(moteHandler) self.moteProbes += [moteProbe.moteProbe(emulatedMote=moteHandler)] # create a moteConnector for each moteProbe self.moteConnectors = [ moteConnector.moteConnector(mp.getSerialPortName()) for mp in self.moteProbes ] # create a moteState for each moteConnector self.moteStates = [ moteState.moteState(mc) for mc in self.moteConnectors ] # boot all emulated motes, if applicable if self.simulatorMode: self.simengine.pause() now = self.simengine.timeline.getCurrentTime() for rank in range(self.simengine.getNumMotes()): moteHandler = self.simengine.getMoteHandler(rank) self.simengine.timeline.scheduleEvent( now, moteHandler.getId(), moteHandler.hwSupply.switchOn, moteHandler.hwSupply.INTR_SWITCHON ) self.simengine.resume() # start tracing threads if self.trace: import openvisualizer.OVtracer logging.config.fileConfig( os.path.join(self.confdir,'trace.conf'), {'logDir': _forceSlashSep(self.logdir, self.debug)}) OVtracer.OVtracer()