Example #1
0
def main():
    """ Main function """
    ups = galaxy_3500.Galaxy3500('b312-ups')
    reader = UpsReader(ups)
    reader.daemon = True
    reader.start()

    time.sleep(5)

    codenames = [
        'b312_ups_temperature', 'b312_ups_kVAPh1', 'b312_ups_kVAPh2',
        'b312_ups_kVAPh3', 'b312_ups_output_current_Ph1',
        'b312_ups_output_current_Ph2', 'b312_ups_output_current_Ph3',
        'b312_ups_input_frequency', 'b312_ups_input_voltage_Ph1',
        'b312_ups_input_voltage_Ph2', 'b312_ups_input_voltage_Ph3',
        'b312_ups_output_voltage_Ph1', 'b312_ups_output_voltage_Ph2',
        'b312_ups_output_voltage_Ph3', 'b312_ups_battery_voltage',
        'b312_ups_battery_current', 'b312_ups_battery_state_of_charge',
        'b312_ups_output_frequency'
    ]

    loggers = {}
    for i in range(0, len(codenames)):
        loggers[codenames[i]] = ValueLogger(reader, comp_val=0.1, channel=i)
        loggers[codenames[i]].start()
    socket = DateDataPullSocket('UPS status',
                                codenames,
                                timeouts=[5.0] * len(codenames))
    socket.start()

    live_socket = LiveSocket('UPS Status', codenames)
    live_socket.start()

    db_logger = ContinuousDataSaver(continuous_data_table='dateplots_ups_b312',
                                    username=credentials.user,
                                    password=credentials.passwd,
                                    measurement_codenames=codenames)
    db_logger.start()

    time.sleep(5)

    while reader.isAlive():
        time.sleep(0.25)
        for name in codenames:
            value = loggers[name].read_value()
            socket.set_point_now(name, value)
            live_socket.set_point_now(name, value)
            if loggers[name].read_trigged():
                print(value)
                db_logger.save_point_now(name, value)
                loggers[name].clear_trigged()
Example #2
0
def main():
    """ Main function """
    ups = galaxy_3500.Galaxy3500('b312-ups')
    reader = UpsReader(ups)
    reader.daemon = True
    reader.start()

    time.sleep(5)

    codenames = ['b312_ups_temperature', 'b312_ups_kVAPh1', 'b312_ups_kVAPh2',
                 'b312_ups_kVAPh3', 'b312_ups_output_current_Ph1',
                 'b312_ups_output_current_Ph2', 'b312_ups_output_current_Ph3',
                 'b312_ups_input_frequency', 'b312_ups_input_voltage_Ph1',
                 'b312_ups_input_voltage_Ph2', 'b312_ups_input_voltage_Ph3',
                 'b312_ups_output_voltage_Ph1', 'b312_ups_output_voltage_Ph2',
                 'b312_ups_output_voltage_Ph3', 'b312_ups_battery_voltage',
                 'b312_ups_battery_current', 'b312_ups_battery_state_of_charge',
                 'b312_ups_output_frequency']

    loggers = {}
    for i in range(0, len(codenames)):
        loggers[codenames[i]] = ValueLogger(reader, comp_val=0.1, channel=i)
        loggers[codenames[i]].start()
    socket = DateDataPullSocket('UPS status', codenames,
                                timeouts=[5.0] * len(codenames))
    socket.start()

    live_socket = LiveSocket('UPS Status', codenames)
    live_socket.start()

    db_logger = ContinuousDataSaver(continuous_data_table='dateplots_ups_b312',
                                    username=credentials.user,
                                    password=credentials.passwd,
                                    measurement_codenames=codenames)
    db_logger.start()

    time.sleep(5)

    while reader.isAlive():
        time.sleep(0.25)
        for name in codenames:
            value = loggers[name].read_value()
            socket.set_point_now(name, value)
            live_socket.set_point_now(name, value)
            if loggers[name].read_trigged():
                print(value)
                db_logger.save_point_now(name, value)
                loggers[name].clear_trigged()
def loop():
    global data
    data = ""
    socket = thread_socket()
    socket.start()
    dc = dcmotor_thread()
    while True:
        if(isstr(data)==True):
        # print("Input Mode (Start: 1, Suspend: 2, Resume: 3, Exit: 4) \n")
            if(data == 'start'):
                data = str_to_float(data)
                dc.start()
                # float_to_str(data)
            elif(data == 'suspend'):
                dc.Suspend()
            elif(data == 'resume'):
                dc.Resume()
            elif(data == 'exit'):
                time.sleep(1)
                dc.Exit()
            else:
                None
Example #4
0
  def run(self):

    self.pword = self.get_pass()

    socket = SocketThread(self)
    socket.connect()
    socket.start()

    time.sleep(1)
    print ''
    BufferThread(self).start()

    try:
      while not self.event_close.is_set():
        time.sleep(0.1)
    except (KeyboardInterrupt,SystemExit):
      pass
    except BaseException:
      print traceback.format_exc(e)

    self.event_close.set()
    if socket.is_alive():
      socket.join()
Example #5
0
  def run(self):

    self.pword = self.get_pass()

    socket = SocketThread(self)
    socket.connect()
    socket.start()

    time.sleep(1)
    print('')
    BufferThread(self).start()

    try:
      while not self.event_close.is_set():
        time.sleep(0.1)
    except (KeyboardInterrupt,SystemExit):
      pass
    except BaseException:
      print(traceback.format_exc())

    self.event_close.set()
    if socket.is_alive():
      socket.join()
Example #6
0
  def run(self):

    socket = SocketThread(self)
    socket.connect()
    socket.start()

    cmd = self.args.execute or sys.stdin.read()
    self.send_queue.put(cmd)
    self.send_queue.put('echo '+self.delim)
    start = time.time()

    try:
      while (not self.response
          or self.delim not in [x[1] for x in self.response]):
        if time.time()-start>self.args.timeout:
          raise TimeoutError
        time.sleep(0.1)
    except TimeoutError:
      self.error('Timed out waiting for response.')
    except KeyboardInterrupt:
      pass
    except BaseException as e:
      print traceback.format_exc(e)

    self.event_close.set()
    if socket.is_alive():
      socket.join()

    for (err,s) in self.response:
      if err:
        sys.stderr.write(s+'\n')
        sys.stderr.flush()
      elif s!=self.delim:
        print s

    if self.errors:
      sys.exit(1)
Example #7
0
  def run(self):

    socket = SocketThread(self)
    socket.connect()
    socket.start()

    cmd = self.args.execute or sys.stdin.read()
    self.send_queue.put(cmd)
    self.send_queue.put('echo '+self.delim)
    start = time.time()

    try:
      while (not self.response
          or self.delim not in [x[1] for x in self.response]):
        if time.time()-start>self.args.timeout:
          raise TimeoutError
        time.sleep(0.1)
    except TimeoutError:
      self.error('Timed out waiting for response.')
    except KeyboardInterrupt:
      pass
    except BaseException as e:
      print(traceback.format_exc(e))

    self.event_close.set()
    if socket.is_alive():
      socket.join()

    for (err,s) in self.response:
      if err:
        sys.stderr.write(s+'\n')
        sys.stderr.flush()
      elif s!=self.delim:
        print(s)

    if self.errors:
      sys.exit(1)
        print("   ", end="")
        for j in range(0, col):
            print("%2d" % j, end="")
        print()
        print("  ", end="")
        for j in range(0, 2 * col + 3):
            print("-", end="")
        print()
        for i in range(0, row):
            print("%d |" % i, end="")
            for j in range(0, col):
                c = board[i][j]
                if c == 0:
                    print(" +", end="")
                elif c == 1:
                    print(" 0", end="")
                elif c == 2:
                    print(" @", end="")
                else:
                    print("ERROR", end="")
            print(" |")
        print("  ", end="")
        for j in range(0, 2 * col + 3):
            print("-", end="")
        print()


if __name__ == '__main__':
    socket = Client()
    socket.start()
Example #9
0
    def run(self):

        print(f'Server running on {self.serverHost} with ports: {Server.portMap[self.serverHost]}\n')

        for socket in self.sockets:
            socket.start()
Example #10
0
        self.has_logger = True
        self.db_logger = db_logger

    def add_socket(self, socket):
        """ adding the comm socket"""
        self.has_socket = True
        self.socket = socket

    def update_socket_logger(self,):
        """ update values"""
        if self.has_logger == True:
            pass
        if self.has_socket == True:
            for element in ['filament bias', 'filemant current', 'filament power', 'emission current', 'anode voltage', 'anode power', 'water flow']:
                socket.set_point_now(element,self.status[element])



if __name__ == '__main__':
    print('Program start')
    socket.deamon = True
    socket.start()

    sc = XRC1000(port='/dev/serial/by-id/usb-1a86_USB2.0-Ser_-if00-port0')
    sc.daemon = True
    sc.start()

    tui = CursesTui(sc)
    #tui.daemon = True
    tui.start()