Ejemplo n.º 1
0
 def __init__(self, config, ident):
     print "SoloSBP launching as '%s'" % ident
     self.ident = ident
     self.config = config
     self.modules = ModuleHandler(self, 'solo_sbp_pump')
     self.dying = False
     self.init_death()
Ejemplo n.º 2
0
 def __init__(self, config, ident):
     print "GROUNDSTATION launching as '%s'" % ident
     self.ident = ident
     self.config = config
     self.modules = ModuleHandler(self, 'groundstation')
     self.dying = False
     self.init_death()
     self.command_map = {
         'exit': (self.cmd_stop, 'exit gracefully'),
         'status': (self.cmd_status, 'show status'),
         'module': (self.modules.cmd_module, 'manage modules'),
         'config': (self.config.cmd_config, 'manage configuration'),
         'reinit': (self.cmd_reinit, 'reconfigures network from config'),
         'trigger': (self.cmd_trigger, 'triggers a message across modules'),
         'psim': (self.cmd_piksisim,
                  'toggles the piksi simulator on connected piksis'),
         'preset':
         (self.cmd_piksireset,
          'sends a reset message to a connected piksi (optionally specify an IP)'
          ),
         'shutdown': (self.cmd_shutdown,
                      '(IP) shuts down a single or all nodes in network'),
         'restart':
         (self.cmd_restart,
          '(IP) restart a single or all nodes in network (specify an IP to restart a specific node)'
          ),
         'update':
         (self.cmd_update,
          '(IP) does a git pull and restart on a single or all nodes in network'
          ),
         'record':
         (self.cmd_record, 'start or stop recording data for a session')
     }
     CommandLineHandler.__init__(self, self.command_map)
Ejemplo n.º 3
0
 def __init__(self, config, ident):
   print "SoloSBP launching as '%s'" % ident
   self.ident = ident
   self.config = config
   self.modules = ModuleHandler(self, 'solo_sbp_pump')
   self.dying = False
   self.init_death()
Ejemplo n.º 4
0
    def __init__(self, config, ident):
        self.ident = ident
        self.dying = False
        self.config = config
        self.send_id = 0

        print "ODRIOD launching as '%s'" % ident

        self.modules = ModuleHandler(self, 'odroidperson')

        self.bind_ip = self.config.get_my("my-ip")
        self.server_id = self.config.get_network("server")
        self.server_ip = self.config.get_foreign(self.server_id, "my-ip")
        self.cc_local_port = self.config.get_my("cc-local-port")
        self.cc_server_port = self.config.get_my("cc-server-port")
        self.sbp_server_port = self.config.get_my("sbp-server-port")
        self.sbp_bind_port = self.config.get_my("sbp-bind-port")
        self.mav_server_port = self.config.get_my("mav-server-port")

        logger.info("Launching with Config:")
        logger.info(self.config)

        self.init_death()
Ejemplo n.º 5
0
 def __init__(self, config, ident):
   print "GROUNDSTATION launching as '%s'" % ident
   self.ident = ident
   self.config = config
   self.modules = ModuleHandler(self, 'groundstation')
   self.dying = False
   self.init_death()
   self.command_map = {
     'exit'     : (self.cmd_stop,                      'exit gracefully'),
     'status'   : (self.cmd_status,                    'show status'),
     'module'   : (self.modules.cmd_module,            'manage modules'),
     'config'   : (self.config.cmd_config,             'manage configuration'),
     'reinit'   : (self.cmd_reinit,                    'reconfigures network from config'),
     'trigger'  : (self.cmd_trigger,                   'triggers a message across modules'),
     'psim'     : (self.cmd_piksisim,                  'toggles the piksi simulator on connected piksis'),
     'preset'   : (self.cmd_piksireset,                 'sends a reset message to a connected piksi (optionally specify an IP)'),
     'shutdown' : (self.cmd_shutdown,                  '(IP) shuts down a single or all nodes in network'),
     'restart'  : (self.cmd_restart,                   '(IP) restart a single or all nodes in network (specify an IP to restart a specific node)'),
     'update'   : (self.cmd_update,                    '(IP) does a git pull and restart on a single or all nodes in network'),
     'record'   : (self.cmd_record,                    'start or stop recording data for a session')
   }
   CommandLineHandler.__init__(self, self.command_map)
Ejemplo n.º 6
0
  def __init__(self,  config, ident):
    self.ident  = ident
    self.dying  = False
    self.config = config
    self.send_id = 0
    
    print "ODRIOD launching as '%s'" % ident

    self.modules = ModuleHandler(self, 'odroidperson')

    self.bind_ip           = self.config.get_my("my-ip")
    self.server_id         = self.config.get_network("server")
    self.server_ip         = self.config.get_foreign(self.server_id, "my-ip")
    self.cc_local_port     = self.config.get_my("cc-local-port")
    self.cc_server_port    = self.config.get_my("cc-server-port")
    self.sbp_server_port   = self.config.get_my("sbp-server-port")
    self.sbp_bind_port     = self.config.get_my("sbp-bind-port")
    self.mav_server_port   = self.config.get_my("mav-server-port")
        
    logger.info("Launching with Config:")
    logger.info(self.config)

    self.init_death()
Ejemplo n.º 7
0
class OdroidPerson:
    def __init__(self, config, ident):
        self.ident = ident
        self.dying = False
        self.config = config
        self.send_id = 0

        print "ODRIOD launching as '%s'" % ident

        self.modules = ModuleHandler(self, 'odroidperson')

        self.bind_ip = self.config.get_my("my-ip")
        self.server_id = self.config.get_network("server")
        self.server_ip = self.config.get_foreign(self.server_id, "my-ip")
        self.cc_local_port = self.config.get_my("cc-local-port")
        self.cc_server_port = self.config.get_my("cc-server-port")
        self.sbp_server_port = self.config.get_my("sbp-server-port")
        self.sbp_bind_port = self.config.get_my("sbp-bind-port")
        self.mav_server_port = self.config.get_my("mav-server-port")

        logger.info("Launching with Config:")
        logger.info(self.config)

        self.init_death()

    def init_death(self):
        self.last_death_attempt = 0
        '''Setup Graceful Death'''
        def quit_handler(signum=None, frame=None):
            #print 'Signal handler called with signal', signum
            if time.time() - self.last_death_attempt < 4.0:
                print "Still within 4s of last death attempt. CHILL!"
                return
            self.last_death_attempt = time.time()
            if self.dying:
                print 'Clean shutdown impossible, forcing an exit'
                sys.exit(0)
            else:
                self.stop()

        # Listen for kill signals to cleanly shutdown modules
        fatalsignals = [signal.SIGTERM]
        try:
            fatalsignals.append(signal.SIGHUP, signal.SIGQUIT)
        except Exception:
            pass

        for sig in fatalsignals:
            signal.signal(sig, quit_handler)

    def stop(self):
        logger.info("Shutting down!")
        self.dying = True
        self.modules.unload_all_modules()

    def send_cc(self, msgtype, payload=None):
        try:
            msg = {'msgtype': msgtype}
            if payload is not None:
                msg['payload'] = payload
            msg['__ID__'] = self.send_id
            self.send_id += 1
            print "sending message %s to %s, %s" % (msgtype, self.server_ip,
                                                    self.cc_server_port)
            self.cc_udp.sendto(json.dumps(msg),
                               (self.server_ip, self.cc_server_port))
        except socket.error as e:
            if e.errno == 65:
                print "SEND_CC: No route to %s:%d" % (self.server_ip,
                                                      self.cc_server_port)
            else:
                traceback.print_exc()

    def handle_cc(self, cc_data, cc_addr):
        msg = json.loads(cc_data)

        msg_handler = {
            'ACK': self.cc_ack,
            'NACK': self.cc_nack,
            'malformed': self.cc_unrecognized,
            'unsupported': self.cc_unsupported,
            'simulator': self.cc_simulator,
            'reset_piksi': self.cc_reset_piksi,
            'shutdown': self.cc_shutdown,
            'restart': self.cc_restart,
            'update': self.cc_update,
        }

        if not 'msgtype' in msg:
            self.send_cc('malformed',
                         {'msg': 'message contains to \'msgtype\' field.'})
            return

        if not msg['msgtype'] in msg_handler:
            self.send_cc(
                'unsupported',
                {'msg': 'message type \'%s\' not supported.' % msg['msgtype']})
            return

        #print "Handling message type %s: %s" % (msg['msgtype'], str(msg))
        success = msg_handler[msg['msgtype']](msg)
        if not ('ACK' in msg['msgtype'] or 'NACK' in msg['msgtype']):
            if success:
                self.send_cc('ACK', {'__ACK_ID__': msg['__ID__']})
            else:
                self.send_cc('NACK', {'__ACK_ID__': msg['__ID__']})

    def cc_ack(self, msg):
        print "ACK RECEIVED for %s" % msg['payload']

    def cc_nack(self, msg):
        print "NACK RECEIVED for %s" % msg['payload']

    def cc_shutdown(self, msg):
        os.system("shutdown now -h")
        return True

    def cc_restart(self, msg):
        os.system("reboot")
        return True

    def cc_simulator(self, msg):
        try:
            payload = msg['payload']
            if payload == 'True':
                print 'ENABLING PIKSI'
                self.modules.trigger('enable_piksi_sim')
            else:
                print 'DISABLING PIKSI'
                self.modules.trigger('disable_piksi_sim')
                pass
            return True
        except:
            traceback.print_exc()
            return False

    def cc_reset_piksi(self, msg):
        try:
            self.modules.trigger('reset_piksi')
            return True
        except:
            traceback.print_exc()
            return False

    def cc_update(self, msg):
        print "Updating now..."
        os.system("git pull")
        self.send_cc('restarting')
        os.system("systemctl restart spooky.service")

    def cc_unrecognized(self, msg):
        pass

    def cc_unsupported(self, msg):
        pass

    def send_heartbeat(self):
        self.send_cc('heartbeat',
                     payload={
                         'git-describe': spooky.get_version(),
                         'UID': os.getuid()
                     })

    def mainloop(self):

        if self.config.get_my("be-the-basestation"):
            print "I AM THE BASE STATION"
            self.modules.load_module('SBPUDPBroadcast')
        else:
            print "I AM NOT THE BASE STATION"
            piksi = self.modules.load_module('piksihandler')
            bcastmodule = self.modules.load_module('sbpbroadcastlistener')
            bcastmodule.set_data_callback(piksi.send_to_piksi)
            pixhawk = self.modules.load_module('pixhawkhandler',
                                               waitTimeout=10.0)

        try:

            # Here we do UDP command and control
            with closing(socket.socket(socket.AF_INET,
                                       socket.SOCK_DGRAM)) as cc_udp:
                cc_udp.setblocking(1)
                cc_udp.settimeout(0.1)  # run this at 10hz
                cc_udp.bind((self.bind_ip, self.cc_local_port))
                self.cc_udp = cc_udp

                print "CC bound to %s : %d" % (self.bind_ip,
                                               self.cc_local_port)

                heartbeat = spooky.DoPeriodically(
                    lambda: self.send_heartbeat(), 1.0)
                while not self.dying:
                    try:
                        # For command and control, we're going to use JSON over UDP
                        # UDP *already* has a simple checksum and delivers a complete packet at a time.
                        # It also returns exactly one datagram per recv() call, so it's all good!
                        # Our only requirement is, a cc message consists of at the very least:
                        # {'msgtype': 'something', 'payload': {}}
                        heartbeat.tick()
                        cc_data, cc_addr = cc_udp.recvfrom(4096)
                        self.handle_cc(cc_data, cc_addr)
                    except (socket.error, socket.timeout) as e:
                        pass

        except KeyboardInterrupt:
            self.stop()
Ejemplo n.º 8
0
class OdroidPerson(CommandLineHandlerShim):

  def __init__(self,  config, ident):
    self.ident  = ident
    self.dying  = False
    self.config = config
    self.send_id = 0
    
    print "ODRIOD launching as '%s'" % ident

    self.modules = ModuleHandler(self, 'odroidperson')

    self.bind_ip           = self.config.get_my("my-ip")
    self.server_id         = self.config.get_network("server")
    self.server_ip         = self.config.get_foreign(self.server_id, "my-ip")
    self.cc_local_port     = self.config.get_my("cc-local-port")
    self.cc_server_port    = self.config.get_my("cc-server-port")
    self.sbp_server_port   = self.config.get_my("sbp-server-port")
    self.sbp_bind_port     = self.config.get_my("sbp-bind-port")
    self.mav_server_port   = self.config.get_my("mav-server-port")
        
    logger.info("Launching with Config:")
    logger.info(self.config)

    self.init_death()

  def init_death(self):  
    self.last_death_attempt = 0
    '''Setup Graceful Death'''
    def quit_handler(signum = None, frame = None):
        #print 'Signal handler called with signal', signum
        if time.time() - self.last_death_attempt < 4.0:
          print "Still within 4s of last death attempt. CHILL!"
          return
        self.last_death_attempt = time.time()
        if self.dying:
          print 'Clean shutdown impossible, forcing an exit'
          sys.exit(0)
        else:
          self.stop()

    # Listen for kill signals to cleanly shutdown modules
    fatalsignals = [signal.SIGTERM]
    try:
      fatalsignals.append(signal.SIGHUP, signal.SIGQUIT)
    except Exception:
      pass

    for sig in fatalsignals:
        signal.signal(sig, quit_handler)

  def stop(self):
    logger.info("Shutting down!")
    self.dying = True
    self.modules.unload_all_modules()

  def send_cc(self, msgtype, payload=None):
    try:
      msg = {'msgtype':msgtype}
      if payload is not None:
        msg['payload'] = payload
      msg['__ID__'] = self.send_id
      self.send_id += 1
      print "sending message %s to %s, %s" % (msgtype, self.server_ip, self.cc_server_port)
      self.cc_udp.sendto(json.dumps(msg), (self.server_ip, self.cc_server_port))
    except socket.error as e:
      if e.errno == 65:
        print "SEND_CC: No route to %s:%d" % (self.server_ip, self.cc_server_port)
      else:
        traceback.print_exc()
        traceback.print_stack()

  def handle_cc(self, cc_data, cc_addr):
    msg = json.loads(cc_data)

    msg_handler = {
      'ACK':         self.cc_ack,
      'NACK':        self.cc_nack,
      'malformed':   self.cc_unrecognized,
      'unsupported': self.cc_unsupported,

      'simulator':   self.cc_simulator,
      'reset_piksi': self.cc_reset_piksi,
      'shutdown':    self.cc_shutdown,
      'restart':     self.cc_restart,
      'update':      self.cc_update, 
    }

    if not 'msgtype' in msg:
      self.send_cc('malformed', {'msg': 'message contains to \'msgtype\' field.'})
      return

    if not msg['msgtype'] in msg_handler:
      self.send_cc('unsupported', {'msg': 'message type \'%s\' not supported.' % msg['msgtype']})
      return

    #print "Handling message type %s: %s" % (msg['msgtype'], str(msg))
    success = msg_handler[msg['msgtype']](msg)
    if not ('ACK' in msg['msgtype'] or 'NACK' in msg['msgtype']):
      if success:
        self.send_cc('ACK', {'__ACK_ID__': msg['__ID__']})
      else:
        self.send_cc('NACK', {'__ACK_ID__': msg['__ID__']})

  def cc_ack(self, msg):
    print "ACK RECEIVED for %s" % msg['payload']

  def cc_nack(self, msg):
    print "NACK RECEIVED for %s" % msg['payload']

  def cc_shutdown(self, msg):
    os.system("shutdown now -h")
    return True

  def cc_restart(self, msg):
    os.system("reboot")
    return True

  def cc_simulator(self, msg):
    try:
      payload = msg['payload']
      if payload == 'True':
        print 'ENABLING PIKSI'
        self.modules.trigger('enable_piksi_sim')
      else:
        print 'DISABLING PIKSI'
        self.modules.trigger('disable_piksi_sim')
        pass
      return True
    except:
      traceback.print_exc()
      return False

  def cc_reset_piksi(self, msg):
    try:
      self.modules.trigger('reset_piksi')
      return True
    except:
      traceback.print_exc()
      return False

  def cc_update(self, msg):
    print "Updating now..."
    os.system("git pull")
    self.send_cc('restarting')
    os.system("systemctl restart spooky.service")

  def cc_unrecognized(self, msg):
    pass

  def cc_unsupported(self, msg):
    pass

  def send_heartbeat(self):
    payload = {'git-describe': spooky.get_version(), 'UID': os.getuid()}
    if self.modules.has_module('SBPUDPBroadcast'):
      bcast = self.modules.get_modules('SBPUDPBroadcast')[0]
      payload['base-survey-status'] = bcast.get_surveying_status()

    self.send_cc('heartbeat', payload=payload)

  def mainloop(self):

    if self.config.get_my("be-the-basestation"):
      print "I AM THE BASE STATION"
      self.modules.load_module('SBPUDPBroadcast')
    else:
      print "I AM NOT THE BASE STATION"
      piksi       = self.modules.load_module('piksihandler')
      bcastmodule = self.modules.load_module('sbpbroadcastlistener')
      bcastmodule.set_data_callback(piksi.send_to_piksi)
      pixhawk     = self.modules.load_module('pixhawkhandler', waitTimeout=10.0)

    try:

      # Here we do UDP command and control
      with closing(socket.socket(socket.AF_INET, socket.SOCK_DGRAM)) as cc_udp:
        cc_udp.setblocking(1)
        cc_udp.settimeout(0.1) # run this at 10hz
        cc_udp.bind((self.bind_ip, self.cc_local_port))
        self.cc_udp = cc_udp

        print "CC bound to %s : %d" % (self.bind_ip, self.cc_local_port)
            
        heartbeat = spooky.DoPeriodically(lambda: self.send_heartbeat(), 1.0)
        while not self.dying:
          try:
            # For command and control, we're going to use JSON over UDP
            # UDP *already* has a simple checksum and delivers a complete packet at a time.
            # It also returns exactly one datagram per recv() call, so it's all good!
            # Our only requirement is, a cc message consists of at the very least:
            # {'msgtype': 'something', 'payload': {}}
            heartbeat.tick()
            cc_data, cc_addr = cc_udp.recvfrom(4096)
            self.handle_cc(cc_data, cc_addr)
          except (socket.error, socket.timeout) as e:
            pass 

    except KeyboardInterrupt:
      self.stop()
Ejemplo n.º 9
0
class GroundStation(CommandLineHandler):

  def __init__(self, config, ident):
    print "GROUNDSTATION launching as '%s'" % ident
    self.ident = ident
    self.config = config
    self.modules = ModuleHandler(self, 'groundstation')
    self.dying = False
    self.init_death()
    self.command_map = {
      'exit'     : (self.cmd_stop,                      'exit gracefully'),
      'status'   : (self.cmd_status,                    'show status'),
      'module'   : (self.modules.cmd_module,            'manage modules'),
      'config'   : (self.config.cmd_config,             'manage configuration'),
      'reinit'   : (self.cmd_reinit,                    'reconfigures network from config'),
      'trigger'  : (self.cmd_trigger,                   'triggers a message across modules'),
      'psim'     : (self.cmd_piksisim,                  'toggles the piksi simulator on connected piksis'),
      'preset'   : (self.cmd_piksireset,                 'sends a reset message to a connected piksi (optionally specify an IP)'),
      'shutdown' : (self.cmd_shutdown,                  '(IP) shuts down a single or all nodes in network'),
      'restart'  : (self.cmd_restart,                   '(IP) restart a single or all nodes in network (specify an IP to restart a specific node)'),
      'update'   : (self.cmd_update,                    '(IP) does a git pull and restart on a single or all nodes in network'),
      'record'   : (self.cmd_record,                    'start or stop recording data for a session')
    }
    CommandLineHandler.__init__(self, self.command_map)

  def init_death(self):  
    '''Setup Graceful Death'''
    def quit_handler(signum = None, frame = None):
        #print 'Signal handler called with signal', signum
        if self.dying:
            print 'Clean shutdown impossible, forcing an exit'
            sys.exit(0)
        else:
            self.dying = True
            self.stop()

    # Listen for kill signals to cleanly shutdown modules
    fatalsignals = [signal.SIGTERM]
    try:
      fatalsignals.append(signal.SIGHUP, signal.SIGQUIT)
    except Exception:
      pass

    for sig in fatalsignals:
        signal.signal(sig, quit_handler)

  def stop(self, hard=False):
    print ""
    print "Shutting down"
    self.dying = True

    self.modules.unload_all_modules()

    if hard:
      sys.exit(1)

  def cmd_trigger(self, args):
    if len(args) != 1:
      print "we need one and only one argument"
      return
    self.modules.trigger(args[0])

  def cmd_stop(self, args):
    self.stop()

  def cmd_record(self, args):
    if len(args) > 0:
      if 'start' in args:
        return self.modules.trigger('cmd_record_start')
      elif 'stop' in args:
        return self.modules.trigger('cmd_record_stop')
      elif 'next' in args:
        return self.modules.trigger('cmd_record_next')
    print 'USAGE: record (start|stop|next)'

  def cmd_status(self, args):
    self.modules.trigger("cmd_status")

  def cmd_reinit(self, args):
    if len(args):
      if "--force" in args:
        self.modules.unload_all_modules()
    return self.configure_network_from_config()

  def cmd_piksisim(self, args):
    if len(args) > 0:
      if "t" in args:
        self.modules.trigger("enable_piksi_sim")
      else:
        self.modules.trigger("disable_piksi_sim")
    else:
      self.modules.trigger("enable_piksi_sim")
      print "enabling. use 't' for true and 'f' for false to toggle state."

  def cmd_piksireset(self, args):
    if len(args) > 0:
      self.modules.trigger_on("odroidperson_cc", args[0], "reset_piksi")
    else:
      self.modules.trigger("reset_piksi")

  def cmd_shutdown(self, args):
    if len(args) > 0:
      self.modules.trigger_on("odroidperson_cc", args[0], "cmd_shutdown")
    else:
      self.modules.trigger("cmd_shutdown")

  def cmd_restart(self, args):
    if len(args) > 0:
      self.modules.trigger_on("odroidperson_cc", args[0], "cmd_restart")
    else:
      self.modules.trigger("cmd_restart")

  def cmd_update(self, args):
    if len(args) > 0:
      self.modules.trigger_on("odroidperson_cc", args[0], "cmd_update")
    else:
      self.modules.trigger("cmd_update")


  def configure_network_from_config(self):
    '''
    Will attempt to instantiate everything on our end. 
    Won't reinstantiate running threads, 
    won't interact with remote processes
    '''
    self.modules.load_module('systemstate')

    if self.config.get_my("be-the-basestation"):
      print "I AM THE BASE STATION"
      self.modules.load_module('SBPUDPBroadcast')
    else:
      print "I AM NOT THE BASE STATION"
    
    for client in self.config.get_network('odroidperson'):
       self.modules.load_module('odroidperson_cc', instance_name=client)
       self.modules.load_module('odroidperson_sbp', instance_name=client)
       self.modules.load_module('odroidperson_mav', instance_name=client)

    self.modules.load_module('basestation_sbp')

    solo = self.modules.load_module('solo', waitTimeout=15.0)    
    
    # NJ HACK SIGGRAPH 2016: USB broke off...
    solosbp = self.modules.load_module('solo_sbp')
    
    print "CONFIGURATON DONE! Spooky is ready for your commands:"
    
  def set_systemstate(self, module):
    self.systemstate = module

  def unset_systemstate(self):
    self.systemstate = None

  def get_systemstate(self):
    if self.systemstate:
      return self.systemstate
    else:
      return None

  def mainloop(self):

    #Set up our network!
    self.configure_network_from_config()

    # Main command line interface, ensures cleanup on exit 
    while not self.dying:
      # Error handling on the INSIDE so we don't kill app
      try:
        self.handle_terminal_input()
        self.modules.check_modules_integrity()
      except EOFError:
        self.stop(hard=True)
      except KeyboardInterrupt:
        self.stop()
      except Exception:
        #CRUCIAL! This prevents death from exception
        traceback.print_exc()
Ejemplo n.º 10
0
class SoloSBP(object):

  def __init__(self, config, ident):
    print "SoloSBP launching as '%s'" % ident
    self.ident = ident
    self.config = config
    self.modules = ModuleHandler(self, 'solo_sbp_pump')
    self.dying = False
    self.init_death()

  def init_death(self):  
    '''Setup Graceful Death'''
    def quit_handler(signum = None, frame = None):
        #print 'Signal handler called with signal', signum
        if self.dying:
            print 'Clean shutdown impossible, forcing an exit'
            sys.exit(0)
        else:
            self.dying = True
            self.stop()

    # Listen for kill signals to cleanly shutdown modules
    fatalsignals = [signal.SIGTERM]
    try:
      fatalsignals.append(signal.SIGHUP, signal.SIGQUIT)
    except Exception:
      pass

    for sig in fatalsignals:
        signal.signal(sig, quit_handler)

  def stop(self, hard=False):
    print ""
    print "Shutting down"
    self.dying = True

    self.modules.unload_all_modules()

    if hard:
      sys.exit(1)


  def configure_network_from_config(self):
    '''
    Will attempt to instantiate everything on our end. 
    Won't reinstantiate running threads, 
    won't interact with remote processes
    '''

    bcast_listener = self.modules.load_module('sbpbroadcastlistener')
    solo = self.modules.load_module('solo_sbp_pump', waitTimeout=15.0)
    if solo:
      bcast_listener.set_data_callback(solo.injectGPS)
      print "CONFIGURATON DONE! SoloSBP is ready"

    else:
      print "FAILED TO GET SOLO"  
    

  def mainloop(self):

    #Set up our network!
    self.configure_network_from_config()


    while not self.dying:
      try:
        time.sleep(1)
      except KeyboardInterrupt:
        self.stop()
      except Exception:
        #CRUCIAL! This prevents death from exception
        traceback.print_exc()
Ejemplo n.º 11
0
class SoloSBP(object):
    def __init__(self, config, ident):
        print "SoloSBP launching as '%s'" % ident
        self.ident = ident
        self.config = config
        self.modules = ModuleHandler(self, 'solo_sbp_pump')
        self.dying = False
        self.init_death()

    def init_death(self):
        '''Setup Graceful Death'''
        def quit_handler(signum=None, frame=None):
            #print 'Signal handler called with signal', signum
            if self.dying:
                print 'Clean shutdown impossible, forcing an exit'
                sys.exit(0)
            else:
                self.dying = True
                self.stop()

        # Listen for kill signals to cleanly shutdown modules
        fatalsignals = [signal.SIGTERM]
        try:
            fatalsignals.append(signal.SIGHUP, signal.SIGQUIT)
        except Exception:
            pass

        for sig in fatalsignals:
            signal.signal(sig, quit_handler)

    def stop(self, hard=False):
        print ""
        print "Shutting down"
        self.dying = True

        self.modules.unload_all_modules()

        if hard:
            sys.exit(1)

    def configure_network_from_config(self):
        '''
    Will attempt to instantiate everything on our end. 
    Won't reinstantiate running threads, 
    won't interact with remote processes
    '''

        bcast_listener = self.modules.load_module('sbpbroadcastlistener')
        solo = self.modules.load_module('solo_sbp_pump', waitTimeout=15.0)
        if solo:
            bcast_listener.set_data_callback(solo.injectGPS)
            print "CONFIGURATON DONE! SoloSBP is ready"

        else:
            print "FAILED TO GET SOLO"

    def mainloop(self):

        #Set up our network!
        self.configure_network_from_config()

        while not self.dying:
            try:
                time.sleep(1)
            except KeyboardInterrupt:
                self.stop()
            except Exception:
                #CRUCIAL! This prevents death from exception
                traceback.print_exc()
Ejemplo n.º 12
0
class GroundStation(CommandLineHandler):
    def __init__(self, config, ident):
        print "GROUNDSTATION launching as '%s'" % ident
        self.ident = ident
        self.config = config
        self.modules = ModuleHandler(self, 'groundstation')
        self.dying = False
        self.init_death()
        self.command_map = {
            'exit': (self.cmd_stop, 'exit gracefully'),
            'status': (self.cmd_status, 'show status'),
            'module': (self.modules.cmd_module, 'manage modules'),
            'config': (self.config.cmd_config, 'manage configuration'),
            'reinit': (self.cmd_reinit, 'reconfigures network from config'),
            'trigger': (self.cmd_trigger, 'triggers a message across modules'),
            'psim': (self.cmd_piksisim,
                     'toggles the piksi simulator on connected piksis'),
            'preset':
            (self.cmd_piksireset,
             'sends a reset message to a connected piksi (optionally specify an IP)'
             ),
            'shutdown': (self.cmd_shutdown,
                         '(IP) shuts down a single or all nodes in network'),
            'restart':
            (self.cmd_restart,
             '(IP) restart a single or all nodes in network (specify an IP to restart a specific node)'
             ),
            'update':
            (self.cmd_update,
             '(IP) does a git pull and restart on a single or all nodes in network'
             ),
            'record':
            (self.cmd_record, 'start or stop recording data for a session')
        }
        CommandLineHandler.__init__(self, self.command_map)

    def init_death(self):
        '''Setup Graceful Death'''
        def quit_handler(signum=None, frame=None):
            #print 'Signal handler called with signal', signum
            if self.dying:
                print 'Clean shutdown impossible, forcing an exit'
                sys.exit(0)
            else:
                self.dying = True
                self.stop()

        # Listen for kill signals to cleanly shutdown modules
        fatalsignals = [signal.SIGTERM]
        try:
            fatalsignals.append(signal.SIGHUP, signal.SIGQUIT)
        except Exception:
            pass

        for sig in fatalsignals:
            signal.signal(sig, quit_handler)

    def stop(self, hard=False):
        print ""
        print "Shutting down"
        self.dying = True

        self.modules.unload_all_modules()

        if hard:
            sys.exit(1)

    def cmd_trigger(self, args):
        if len(args) != 1:
            print "we need one and only one argument"
            return
        self.modules.trigger(args[0])

    def cmd_stop(self, args):
        self.stop()

    def cmd_record(self, args):
        if len(args) > 0:
            if 'start' in args:
                return self.modules.trigger('cmd_record_start')
            elif 'stop' in args:
                return self.modules.trigger('cmd_record_stop')
            elif 'next' in args:
                return self.modules.trigger('cmd_record_next')
        print 'USAGE: record (start|stop|next)'

    def cmd_status(self, args):
        self.modules.trigger("cmd_status")

    def cmd_reinit(self, args):
        if len(args):
            if "--force" in args:
                self.modules.unload_all_modules()
        return self.configure_network_from_config()

    def cmd_piksisim(self, args):
        if len(args) > 0:
            if "t" in args:
                self.modules.trigger("enable_piksi_sim")
            else:
                self.modules.trigger("disable_piksi_sim")
        else:
            self.modules.trigger("enable_piksi_sim")
            print "enabling. use 't' for true and 'f' for false to toggle state."

    def cmd_piksireset(self, args):
        if len(args) > 0:
            self.modules.trigger_on("odroidperson_cc", args[0], "reset_piksi")
        else:
            self.modules.trigger("reset_piksi")

    def cmd_shutdown(self, args):
        if len(args) > 0:
            self.modules.trigger_on("odroidperson_cc", args[0], "cmd_shutdown")
        else:
            self.modules.trigger("cmd_shutdown")

    def cmd_restart(self, args):
        if len(args) > 0:
            self.modules.trigger_on("odroidperson_cc", args[0], "cmd_restart")
        else:
            self.modules.trigger("cmd_restart")

    def cmd_update(self, args):
        if len(args) > 0:
            self.modules.trigger_on("odroidperson_cc", args[0], "cmd_update")
        else:
            self.modules.trigger("cmd_update")

    def configure_network_from_config(self):
        '''
    Will attempt to instantiate everything on our end. 
    Won't reinstantiate running threads, 
    won't interact with remote processes
    '''
        self.modules.load_module('systemstate')

        if self.config.get_my("be-the-basestation"):
            print "I AM THE BASE STATION"
            self.modules.load_module('SBPUDPBroadcast')
        else:
            print "I AM NOT THE BASE STATION"

        for client in self.config.get_network('odroidperson'):
            self.modules.load_module('odroidperson_cc', instance_name=client)
            self.modules.load_module('odroidperson_sbp', instance_name=client)
            self.modules.load_module('odroidperson_mav', instance_name=client)

        solo = self.modules.load_module('solo', waitTimeout=15.0)

        # NJ HACK SIGGRAPH 2016: USB broke off...
        solosbp = self.modules.load_module('solo_sbp')

        print "CONFIGURATON DONE! Spooky is ready for your commands:"

    def set_systemstate(self, module):
        self.systemstate = module

    def unset_systemstate(self):
        self.systemstate = None

    def get_systemstate(self):
        if self.systemstate:
            return self.systemstate
        else:
            return None

    def mainloop(self):

        #Set up our network!
        self.configure_network_from_config()

        # Main command line interface, ensures cleanup on exit
        while not self.dying:
            # Error handling on the INSIDE so we don't kill app
            try:
                self.handle_terminal_input()
                self.modules.check_modules_integrity()
            except EOFError:
                self.stop(hard=True)
            except KeyboardInterrupt:
                self.stop()
            except Exception:
                #CRUCIAL! This prevents death from exception
                traceback.print_exc()