def main():
""" Main function """
logging.basicConfig(filename="logger.txt", level=logging.ERROR)
logging.basicConfig(level=logging.ERROR)
port = '/dev/serial/by-id/usb-Prolific_Technology_Inc._USB-Serial_Controller_D-if00-port'
port = '/dev/ttyUSB0'
codenames = [
'xrd_pressure_turbo_gas_system', 'xrd_pressure_gas_system_wrg',
'xrd_pressure_mass_spec_wrg', 'xrd_pressure_gas_system_baratron'
]
reader = PressureReader(port)
reader.daemon = True
reader.start()
loggers = {}
loggers[codenames[0]] = ValueLogger(reader,
comp_val=0.02,
comp_type='log',
channel=1)
loggers[codenames[1]] = ValueLogger(reader,
comp_val=0.02,
comp_type='log',
channel=2)
loggers[codenames[2]] = ValueLogger(reader,
comp_val=0.02,
comp_type='log',
channel=3)
loggers[codenames[3]] = ValueLogger(reader,
comp_val=2,
comp_type='lin',
channel=4)
for i in range(0, 4):
loggers[codenames[i]].start()
socket = DateDataPullSocket('XRD Pressure',
codenames,
timeouts=[2.0] * len(codenames))
socket.start()
live_socket = LiveSocket('XRD pressure', codenames, 2)
live_socket.start()
db_logger = ContinuousDataSaver(continuous_data_table='dateplots_xrd',
username=credentials.user,
password=credentials.passwd,
measurement_codenames=codenames)
db_logger.start()
time.sleep(5)
while True:
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(name + ': ' + str(value))
db_logger.save_point_now(name, value)
loggers[name].clear_trigged()
def __init__(self):
threading.Thread.__init__(self)
self.watchdog = Watchdog()
self.watchdog.daemon = True
self.watchdog.start()
time.sleep(1)
self.setup = settings.setup
self.quit = False
for i in range(0, 7): #Set GPIO pins to output
wp.pinMode(i, 1)
self.setup = settings.setup
self.dutycycles = [0, 0, 0, 0, 0, 0]
channels = ['1', '2', '3', '4', '5', '6']
# Setup up extra status for the diode relay status
diode_channels = ['diode' + number for number in channels]
self.diode_channel_last = {name: None for name in diode_channels}
# Setup sockets
self.livesocket = LiveSocket(self.setup + '-bakeout', channels + diode_channels)
self.livesocket.start()
self.pullsocket = DateDataPullSocket(self.setup + '-bakeout', channels, timeouts=None)
self.pullsocket.start()
self.pushsocket = DataPushSocket(self.setup + '-push_control', action='enqueue')
self.pushsocket.start()
def test_live_multiple_variables(sock):
codenames = ['name1', 'name2']
live_socket = LiveSocket(NAME, codenames, 1.0)
live_socket.start()
port = 8000
# Test the 'codenames' command
data = send_and_resc(sock, 'codenames', port)
expected = ['name1', 'name2']
assert (json.loads(data) == expected)
# Test the 'sane_interval' command
data = send_and_resc(sock, 'sane_interval', port)
assert (json.loads(data) - 1.0 < 1E-8)
for n in range(3):
now = time.time()
live_socket.set_point('name1', (now, n))
live_socket.set_point('name2', (now, n + 1))
# Test the 'data' command
data = send_and_resc(sock, 'data', port)
expected = [[now, n], [now, n + 1]]
assert (json.loads(data) == expected)
time.sleep(0.1)
live_socket.stop()
def __init__(self):
sql_queue = queue.Queue()
self.data_saver = database_saver.SqlSaver(settings.username,
settings.username, sql_queue)
self.data_saver.start()
if settings.qmg == '420':
self.qmg = qmg420.qmg_420(settings.port)
if settings.qmg == '422':
print(settings.port)
self.qmg = qmg422.qmg_422(port=settings.port, speed=settings.speed)
try:
livesocket = LiveSocket(settings.name + '-mass-spec',
['qms-value'])
livesocket.start()
except:
livesocket = None
pullsocket = DateDataPullSocket(settings.name + '-mass-spec',
['qms-value'])
pullsocket.start()
self.qms = ms.QMS(self.qmg,
sql_queue,
chamber=settings.chamber,
credentials=settings.username,
livesocket=livesocket,
pullsocket=pullsocket)
self.qmg.reverse_range = settings.reverse_range
self.printer = qmg_status_output.QmsStatusOutput(
self.qms, sql_saver_instance=self.data_saver)
self.printer.start()
def main():
""" Main function """
logging.basicConfig(filename="logger.txt", level=logging.ERROR)
logging.basicConfig(level=logging.ERROR)
omron_instance = omron_d6fph.OmronD6fph()
hih_instance = honeywell_6000.HIH6130()
reader = Reader(omron_instance, hih_instance)
reader.start()
time.sleep(5)
codenames = [
'hall_ventilation_pressure', 'hall_temperature', 'hall_humidity'
]
loggers = {}
loggers[codenames[0]] = ValueLogger(reader,
comp_val=1.0,
maximumtime=300,
comp_type='lin',
channel=0)
loggers[codenames[0]].start()
loggers[codenames[1]] = ValueLogger(reader,
comp_val=0.2,
maximumtime=600,
comp_type='lin',
channel=1)
loggers[codenames[1]].start()
loggers[codenames[2]] = ValueLogger(reader,
comp_val=0.2,
maximumtime=600,
comp_type='lin',
channel=2)
loggers[codenames[2]].start()
livesocket = LiveSocket('Hall Ventilation Logger', codenames)
livesocket.start()
socket = DateDataPullSocket('Hall Ventilation logger',
codenames,
timeouts=[1.0] * len(loggers))
socket.start()
db_logger = ContinuousDataSaver(continuous_data_table='dateplots_hall',
username=credentials.user,
password=credentials.passwd,
measurement_codenames=codenames)
db_logger.start()
while reader.isAlive():
time.sleep(1)
for name in codenames:
value = loggers[name].read_value()
livesocket.set_point_now(name, value)
socket.set_point_now(name, value)
if loggers[name].read_trigged():
print(name + ': ' + str(value))
db_logger.save_point_now(name, value)
loggers[name].clear_trigged()
def main():
""" Main function """
tempreader = TemperatureReader()
tempreader.daemon = True
tempreader.start()
temp_logger = ValueLogger(tempreader, comp_val=1)
temp_logger.start()
db_logger = ContinuousDataSaver(
continuous_data_table='dateplots_chemlab307',
username=credentials.user,
password=credentials.passwd,
measurement_codenames=['chemlab307_muffle_furnace'])
socket = DateDataPullSocket('muffle_furnace',
['chemlab307_muffle_furnace'],
timeouts=[1.0])
socket.start()
livesocket = LiveSocket('muffle_furnace', ['chemlab307_muffle_furnace'])
livesocket.start()
db_logger.start()
time.sleep(5)
while True:
time.sleep(0.25)
value = temp_logger.read_value()
socket.set_point_now('chemlab307_muffle_furnace', value)
livesocket.set_point_now('chemlab307_muffle_furnace', value)
if temp_logger.read_trigged():
print(value)
db_logger.save_point_now('chemlab307_muffle_furnace', value)
temp_logger.clear_trigged()
def main():
"""Main function"""
pvci = PVCi('/dev/serial/by-id/'
'usb-FTDI_USB-RS485_Cable_FTY3M2GN-if00-port0')
# Start live socket
live_socket = LiveSocket(
'thetaprobe_pvci',
list(CODENAME_TRANSLATION.keys()) + list(EXTRA_LIVE.keys()),
)
live_socket.start()
# Start database saver
database_saver = ContinuousDataSaver('dateplots_thetaprobe',
credentials.USERNAME,
credentials.PASSWORD,
list(CODENAME_TRANSLATION.keys()))
database_saver.start()
# Set up criterium checker
criterium_checker = LoggingCriteriumChecker(
codenames=list(CODENAME_TRANSLATION.keys()),
types=['log', 'log', 'lin'],
criteria=[0.1, 0.1, 1.0],
)
try:
run(pvci, live_socket, database_saver, criterium_checker)
except KeyboardInterrupt:
pvci.close()
live_socket.stop()
database_saver.stop()
def __init__(self, ranges, devices, socket_name):
threading.Thread.__init__(self)
self.devices = devices
name = {}
mfcs = {}
print('!')
for i in range(0, 8):
print('----------------')
print('Cheking port number: {}'.format(i))
error = 0
name[i] = ''
while (error < 3) and (name[i] == ''):
# Pro forma-range will be update in a few lines
ioerror = 0
while ioerror < 10:
time.sleep(0.5)
print(ioerror)
try:
bronk = bronkhorst.Bronkhorst('/dev/ttyUSB' + str(i),
1)
print('MFC Found')
break
except: # pylint: disable=bare-except
ioerror = ioerror + 1
if ioerror == 10:
print('No MFC found on this port')
break
print('Error count before identification: {}'.format(ioerror))
name[i] = bronk.read_serial()
print('MFC Name: {}'.format(name[i]))
name[i] = name[i].strip()
error = error + 1
if name[i] in devices:
ioerror = 0
if ioerror < 10:
print(ioerror)
try:
mfcs[name[i]] = bronkhorst.Bronkhorst(
'/dev/ttyUSB' + str(i), ranges[name[i]])
mfcs[name[i]].set_control_mode(
) #Accept setpoint from rs232
except IOError:
ioerror = ioerror + 1
if ioerror == 10:
print('Found MFC but could not set range')
self.mfcs = mfcs
self.pullsocket = DateDataPullSocket(socket_name,
devices,
timeouts=3.0,
port=9000)
self.pullsocket.start()
self.pushsocket = DataPushSocket(socket_name, action='enqueue')
self.pushsocket.start()
self.livesocket = LiveSocket(socket_name, devices)
self.livesocket.start()
self.running = True
self.reactor_pressure = float('NaN')
def main():
""" Main loop """
mainpump = tp.TurboDriver(adress=1, port=settings.port)
mainpump.start()
tui = tp.CursesTui(mainpump)
tui.daemon = True
tui.start()
reader = tp.TurboReader(mainpump)
reader.daemon = True
reader.start()
time.sleep(10) # Allow reader to make meaningfull moving avarage
codenames = [settings.table_prefix + '_turbo_speed',
settings.table_prefix + '_turbo_power',
settings.table_prefix + '_turbo_current',
settings.table_prefix + '_turbo_temp_motor',
settings.table_prefix + '_turbo_temp_bottom',
settings.table_prefix + '_turbo_temp_bearings',
settings.table_prefix + '_turbo_temp_electronics']
loggers = {}
loggers[codenames[0]] = tp.TurboLogger(reader, 'rotation_speed', maximumtime=600)
loggers[codenames[1]] = tp.TurboLogger(reader, 'drive_power', maximumtime=600)
loggers[codenames[2]] = tp.TurboLogger(reader, 'drive_current', maximumtime=600)
loggers[codenames[3]] = tp.TurboLogger(reader, 'temp_motor', maximumtime=600)
loggers[codenames[4]] = tp.TurboLogger(reader, 'temp_bottom', maximumtime=600)
loggers[codenames[5]] = tp.TurboLogger(reader, 'temp_bearings', maximumtime=600)
loggers[codenames[6]] = tp.TurboLogger(reader, 'temp_electronics', maximumtime=600)
for name in codenames:
loggers[name].daemon = True
loggers[name].start()
livesocket = LiveSocket(settings.name + '-turboreader', codenames)
livesocket.start()
socket = DateDataPullSocket(settings.name + '-turboreader', codenames,
timeouts=[1.0] * len(codenames), port=9000)
socket.start()
db_logger = ContinuousDataSaver(continuous_data_table=settings.table,
username=settings.user,
password=settings.passwd,
measurement_codenames=codenames)
db_logger.start()
time.sleep(5)
while mainpump.running:
time.sleep(0.1)
for name in codenames:
value = loggers[name].read_value()
socket.set_point_now(name, value) # Notice, this is the averaged value
livesocket.set_point_now(name, value) # Notice, this is the averaged value
if loggers[name].trigged:
db_logger.save_point_now(name, value)
loggers[name].trigged = False
def main():
""" Main function """
logging.basicConfig(filename="logger.txt", level=logging.ERROR)
logging.basicConfig(level=logging.ERROR)
l3g4200d_instance = l3g4200d.L3G4200D()
l3g4200d_reader = Reader(l3g4200d_instance)
l3g4200d_reader.start()
ais328dq_instance = ais328dq.AIS328DQTR()
ais328dq_reader = Reader(ais328dq_instance)
ais328dq_reader.start()
time.sleep(2.5)
codenames = [
'b307_049_vibration_measurement', 'b307_049_vibration_measurement_accl'
]
loggers = {}
loggers[codenames[0]] = ValueLogger(l3g4200d_reader,
comp_val=0.02,
maximumtime=600,
comp_type='lin',
channel=0)
loggers[codenames[0]].start()
loggers[codenames[1]] = ValueLogger(ais328dq_reader,
comp_val=0.01,
maximumtime=100,
comp_type='lin',
channel=0)
loggers[codenames[1]].start()
livesocket = LiveSocket('307 Vibraton logger', codenames)
livesocket.start()
socket = DateDataPullSocket('307 vibration logger',
codenames,
timeouts=[1.0] * len(loggers))
socket.start()
db_logger = ContinuousDataSaver(continuous_data_table='dateplots_b307_049',
username=credentials.user,
password=credentials.passwd,
measurement_codenames=codenames)
db_logger.start()
while l3g4200d_reader.isAlive():
time.sleep(10)
for name in codenames:
value = loggers[name].read_value()
print(value)
livesocket.set_point_now(name, value)
socket.set_point_now(name, value)
if loggers[name].read_trigged():
print(name + ': ' + str(value))
db_logger.save_point_now(name, value)
loggers[name].clear_trigged()
def test_live_wrong_codename():
codenames = ['name1', 'name2']
live_socket = LiveSocket(NAME, codenames, 1.0)
live_socket.start()
# Test that trying to set an unknown name raises an exception
with pytest.raises(ValueError):
live_socket.set_point('bad name', (1, 2))
live_socket.stop()
def main():
""" Main function """
logging.basicConfig(filename="logger.txt", level=logging.ERROR)
logging.basicConfig(level=logging.ERROR)
port = 'serial/by-id/usb-1a86_USB2.0-Ser_-if00-port0'
xgs = xgs600.XGS600Driver('/dev/' + port)
print(xgs.read_all_pressures())
reader = PressureReader(xgs)
reader.daemon = True
reader.start()
buffer_logger = ValueLogger(reader, comp_val=0.1, comp_type='log',
channel=0, low_comp=1e-3)
containment_logger = ValueLogger(reader, comp_val=0.1, comp_type='log',
channel=1, low_comp=1e-3)
buffer_logger.start()
containment_logger.start()
socket = DateDataPullSocket('mgw',
['containment_pressure', 'buffer_pressure'],
timeouts=[1.0, 1.0])
socket.start()
livesocket = LiveSocket('mgw', ['containment_pressure', 'buffer_pressure'])
livesocket.start()
codenames = ['mgw_pressure_containment', 'mgw_pressure_buffer']
db_logger = ContinuousDataSaver(continuous_data_table='dateplots_mgw',
username=credentials.user,
password=credentials.passwd,
measurement_codenames=codenames)
db_logger.start()
time.sleep(5)
while reader.isAlive():
time.sleep(0.2)
p_containment = containment_logger.read_value()
p_buffer = buffer_logger.read_value()
socket.set_point_now('containment_pressure', p_containment)
socket.set_point_now('buffer_pressure', p_buffer)
livesocket.set_point_now('containment_pressure', p_containment)
livesocket.set_point_now('buffer_pressure', p_buffer)
if containment_logger.read_trigged():
print(p_containment)
db_logger.save_point_now('mgw_pressure_containment', p_containment)
containment_logger.clear_trigged()
if buffer_logger.read_trigged():
print(p_buffer)
db_logger.save_point_now('mgw_pressure_buffer', p_buffer)
buffer_logger.clear_trigged()
def main():
""" Main function """
i2c_helper = ABEHelpers()
bus = i2c_helper.get_smbus()
adc_instance = ADCPi(bus, 0x68, 0x69, 18)
windreader = WindReader(adc_instance)
windreader.daemon = True
windreader.start()
loggers = {}
for channel, codename in settings.channels.items():
loggers[codename + '_raw'] = ValueLogger(windreader,
comp_val=1.05,
channel=channel + '_raw',
maximumtime=30)
loggers[codename + '_raw'].start()
loggers[codename] = ValueLogger(windreader,
comp_val=1.005,
channel=channel,
maximumtime=30)
loggers[codename].start()
codenames = []
for name in settings.channels.values():
codenames.append(name)
codenames.append(name + '_raw')
socket = DateDataPullSocket('Fumehood Wind Speed', codenames, timeouts=2.0)
socket.start()
live_socket = LiveSocket('Fumehood Wind Speed', codenames)
live_socket.start()
db_logger = ContinuousDataSaver(
continuous_data_table=settings.dateplot_table,
username=credentials.user,
password=credentials.passwd,
measurement_codenames=codenames)
db_logger.start()
time.sleep(10)
while windreader.is_alive():
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(name + ': ' + str(value))
db_logger.save_point_now(name, value)
loggers[name].clear_trigged()
def main():
""" Main code """
mux_instance = agilent_34972A.Agilent34972ADriver(
interface='lan', hostname='volvo-agilent-34972a')
port = '/dev/serial/by-id/usb-Prolific_Technology_Inc._USB-Serial_Controller-if00-port0'
xgs_instance = xgs600.XGS600Driver(port)
analog_measurement = MuxReader(mux_instance)
analog_measurement.start()
pressure = PressureReader(xgs_instance)
print('-')
pressure.start()
time.sleep(2.5)
codenames = ['volvo_pressure', 'volvo_temperature']
loggers = {}
loggers[codenames[0]] = ValueLogger(pressure,
comp_val=0.1,
comp_type='log')
loggers[codenames[0]].start()
loggers[codenames[1]] = ValueLogger(analog_measurement,
comp_val=0.5,
comp_type='lin')
loggers[codenames[1]].start()
socket = DateDataPullSocket('Volvo data logger',
codenames,
timeouts=[1.0, 1.0])
socket.start()
livesocket = LiveSocket('Volvo data logger', codenames)
livesocket.start()
db_logger = ContinuousDataSaver(continuous_data_table='dateplots_volvo',
username=credentials.user,
password=credentials.passwd,
measurement_codenames=codenames)
db_logger.start()
#while pressure.isAlive() and analog_measurement.isAlive():
while True:
time.sleep(0.25)
for name in codenames:
value = loggers[name].read_value()
socket.set_point_now(name, value)
livesocket.set_point_now(name, value)
if loggers[name].read_trigged():
print(value)
db_logger.save_point_now(name, value)
loggers[name].clear_trigged()
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 main():
""" Main function """
logging.basicConfig(filename="logger.txt", level=logging.ERROR)
logging.basicConfig(level=logging.ERROR)
ports = '/dev/serial/by-id/usb-1a86_USB2.0-Ser_-if00-port0'
xgs_instance = xgs600.XGS600Driver(ports)
print(xgs_instance.read_all_pressures())
pressure = PressureReader(xgs_instance)
pressure.start()
time.sleep(2.5)
codenames = ['tof_iongauge_ft', 'tof_iongauge_main', 'tof_pirani_roughing']
loggers = {}
loggers[codenames[0]] = ValueLogger(pressure,
comp_val=0.1,
low_comp=1e-11,
comp_type='log',
channel=0)
loggers[codenames[0]].start()
loggers[codenames[1]] = ValueLogger(pressure,
low_comp=1e-11,
comp_val=0.1,
comp_type='log',
channel=1)
loggers[codenames[1]].start()
loggers[codenames[2]] = ValueLogger(pressure,
comp_val=0.1,
comp_type='log',
channel=2)
loggers[codenames[2]].start()
livesocket = LiveSocket('TOF data logger', codenames)
livesocket.start()
db_logger = ContinuousDataSaver(continuous_data_table='dateplots_tof',
username=credentials.user,
password=credentials.passwd,
measurement_codenames=codenames)
db_logger.start()
while pressure.isAlive():
time.sleep(0.5)
for name in codenames:
value = loggers[name].read_value()
livesocket.set_point_now(name, value)
if loggers[name].read_trigged():
print(value)
db_logger.save_point_now(name, value)
loggers[name].clear_trigged()
def main():
""" Main function """
logging.basicConfig(filename="logger.txt", level=logging.ERROR)
logging.basicConfig(level=logging.ERROR)
hih_instance = honeywell_6000.HIH6130()
reader = Reader(hih_instance)
reader.start()
time.sleep(5)
codenames = ['chemlab312_temperature', 'chemlab312_humidity']
loggers = {}
loggers[codenames[0]] = ValueLogger(reader,
comp_val=1,
comp_type='lin',
channel=1)
loggers[codenames[0]].start()
loggers[codenames[1]] = ValueLogger(reader,
comp_val=1,
comp_type='lin',
channel=2)
loggers[codenames[1]].start()
livesocket = LiveSocket('Chemlab312 Air Logger', codenames, 2)
livesocket.start()
socket = DateDataPullSocket('Chemlab312 Air Logger',
codenames,
timeouts=[1.0] * len(loggers))
socket.start()
db_logger = ContinuousDataSaver(
continuous_data_table='dateplots_chemlab312',
username=credentials.user,
password=credentials.passwd,
measurement_codenames=codenames)
db_logger.start()
while reader.isAlive():
time.sleep(1)
for name in codenames:
value = loggers[name].read_value()
livesocket.set_point_now(name, value)
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 main():
"""The main method for the pressure logger"""
# Open communication to the pressure measurement unit
tpg = TPG262(port='/dev/ttyUSB0', baudrate=9600)
LOGGER.info('Initiated driver to TPG 262')
# Get a continuous logger
codenames = ['thetaprobe_pressure_loadlock']
db_logger = ContinuousLogger(table='dateplots_thetaprobe',
username=credentials.USERNAME,
password=credentials.PASSWORD,
measurement_codenames=codenames)
db_logger.start()
LOGGER.info('Initiated and started database logger')
name = 'Thetaprobe pressure load lock and UV gun'
livesocket = LiveSocket(name, codenames, 0.2)
livesocket.start()
loadlock_last = {'value': 1E20, 'time': 0}
try:
while True:
# get the values: returns:
# (value1, (status_code1, status_message1),
# value2, (status_code2, status_message2))
try:
value_ll, code_ll = tpg.pressure_gauge(gauge=1)
except (IOError, ValueError):
LOGGER.info(
'Serial communication failed. Sleep 10 and try again.')
time.sleep(10)
continue
livesocket.set_point_now('thetaprobe_pressure_loadlock', value_ll)
### Load lock
if code_ll[0] in [0, 1]: # If measurement is OK or underranged
if logging_criteria(value_ll, loadlock_last):
LOGGER.info('Add value {} for load lock'.format(value_ll))
now_ll = db_logger.enqueue_point_now(
'thetaprobe_pressure_loadlock', value_ll)
loadlock_last['value'] = value_ll
loadlock_last['time'] = now_ll
except KeyboardInterrupt:
LOGGER.info('Keyboard interrupt. Shutting down')
db_logger.stop()
livesocket.stop()
LOGGER.info('Database logger stoppped. Exiting!')
def main():
""" Main function """
logging.basicConfig(filename="logger.txt", level=logging.ERROR)
logging.basicConfig(level=logging.ERROR)
qcm_port = (
'/dev/serial/by-id/' +
'usb-Prolific_Technology_Inc._USB-Serial_Controller-if00-port0')
qcm = inficon.InficonSQM160(qcm_port)
reader = QcmReader(qcm)
reader.daemon = True
reader.start()
codenames = [
'volvo_qcm_frequency', 'volvo_qcm_crystal_life', 'volvo_qcm_thickness'
]
loggers = {}
loggers[codenames[0]] = ValueLogger(reader, comp_val=0.1, channel=0)
loggers[codenames[0]].start()
loggers[codenames[1]] = ValueLogger(reader, comp_val=0.01, channel=1)
loggers[codenames[1]].start()
loggers[codenames[2]] = ValueLogger(reader, comp_val=0.001, channel=2)
loggers[codenames[2]].start()
socket = DateDataPullSocket('Volvo QCM',
codenames,
port=9000,
timeouts=[5.0] * len(codenames))
socket.start()
livesocket = LiveSocket('Volvo data logger', codenames)
livesocket.start()
db_logger = ContinuousDataSaver(continuous_data_table='dateplots_volvo',
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)
livesocket.set_point_now(name, value)
if loggers[name].read_trigged():
print(value)
db_logger.save_point_now(name, value)
loggers[name].clear_trigged()
def main():
"""Main function """
pvci = epimax.PVCi(
'/dev/serial/by-id/'
'usb-FTDI_USB-RS485_Cable_FT0N0UFX-if00-port0',
slave_address=1)
# Start live socket
live_socket = LiveSocket(
'omicron_pvci',
list(CODENAME_TRANSLATION.keys()),
)
live_socket.start()
# Start pull socket
pullsocket = DateDataPullSocket(
'omicron_pvci_pull',
list(CODENAME_TRANSLATION.keys()),
timeouts=2.5,
)
pullsocket.start()
# Start database saver
database_saver = ContinuousDataSaver(
'dateplots_omicron',
credentials.USERNAME,
credentials.PASSWORD,
list(CODENAME_TRANSLATION.keys()),
)
database_saver.start()
# Criterium checker
criterium_checker = LoggingCriteriumChecker(
codenames=list(CODENAME_TRANSLATION.keys()),
types=['log'] * len(CODENAME_TRANSLATION.keys()),
criteria=[0.05] * len(CODENAME_TRANSLATION.keys()),
time_outs=[300] * len(CODENAME_TRANSLATION.keys()),
)
# Main loop
try:
run(pvci, live_socket, pullsocket, database_saver, criterium_checker)
except KeyboardInterrupt:
sleep(WAIT)
pvci.close()
live_socket.stop()
pullsocket.stop()
database_saver.stop()
except:
LOG.exception("Omicron pvci data logger stopped")
def main():
""" Main function """
logging.basicConfig(filename="logger.txt", level=logging.ERROR)
logging.basicConfig(level=logging.ERROR)
port = 'usb-FTDI_USB-RS232_Cable_FTWZKOU0-if00-port0'
omega = omegabus.OmegaBus(device='/dev/serial/by-id/' + port,
model='D5251',
baud=300)
reader = Reader(omega)
reader.start()
time.sleep(2.5)
codenames = ['propene_ox_setup_abs_pressure']
loggers = {}
loggers[codenames[0]] = ValueLogger(reader,
comp_val=5,
maximumtime=300,
comp_type='lin')
loggers[codenames[0]].start()
livesocket = LiveSocket('propene_ox Logger', codenames)
livesocket.start()
socket = DateDataPullSocket('propene_ox logger',
codenames,
timeouts=[3.0] * len(loggers))
socket.start()
db_logger = ContinuousDataSaver(
continuous_data_table='dateplots_propene_ox',
username=credentials.user,
password=credentials.passwd,
measurement_codenames=codenames)
db_logger.start()
while reader.isAlive():
time.sleep(1)
for name in codenames:
value = loggers[name].read_value()
livesocket.set_point_now(name, value)
socket.set_point_now(name, value)
if loggers[name].read_trigged():
print(name + ': ' + str(value))
db_logger.save_point_now(name, value)
loggers[name].clear_trigged()
def main():
"""Main function"""
chiller_port = '/dev/serial/by-id/'
chiller_port += 'usb-1a86_USB2.0-Ser_-if00-port0'
LOG.info('Using chiller port %s', chiller_port)
reader = ChillerReader(chiller_port)
reader.start()
LOG.info('ChillerReader started')
codenames = [
'uhv_sputterchamber_chiller_temperature',
'uhv_sputterchamber_chiller_flow',
'uhv_sputterchamber_chiller_temperature_ambient',
'uhv_sputterchamber_chiller_pressure',
'uhv_sputterchamber_chiller_temperature_setpoint'
]
LOG.debug('Using codenames %s', codenames)
loggers = {}
for i in range(0, len(codenames)):
loggers[codenames[i]] = ValueLogger(reader, comp_val=0.11, channel=i)
loggers[codenames[i]].start()
live_socket_name = 'uhv_sputterchamber'
live_socket = LiveSocket(live_socket_name, codenames)
live_socket.start()
LOG.info('Live socket init and started with name "%s"', live_socket_name)
db_table = 'dateplots_uhv_sputterchamber'
db_logger = ContinuousDataSaver(continuous_data_table=db_table,
username=credentials.user,
password=credentials.passwd,
measurement_codenames=codenames)
db_logger.start()
LOG.info('ContinuousLogger init and started on table "%s"', db_table)
time.sleep(5)
while reader.isAlive():
time.sleep(0.25)
for name in codenames:
value = loggers[name].read_value()
if not math.isnan(value):
live_socket.set_point_now(name, value)
if loggers[name].read_trigged():
LOG.debug('Log value %s for codename "%s"', value, name)
db_logger.save_point_now(name, value)
loggers[name].clear_trigged()
def __init__(self, mks_instance, mfcs, devices, name):
threading.Thread.__init__(self)
self.mfcs = mfcs
self.mks = mks_instance
self.pullsocket = DateDataPullSocket(name,
devices,
timeouts=3.0,
port=9000)
self.pullsocket.start()
self.pushsocket = DataPushSocket(name, action='enqueue')
self.pushsocket.start()
self.livesocket = LiveSocket('palle_mks_flows', devices)
self.livesocket.start()
self.running = True
def main():
""" Main function """
logging.basicConfig(filename="logger.txt", level=logging.ERROR)
logging.basicConfig(level=logging.ERROR)
i2c_helper = ABEHelpers()
bus = i2c_helper.get_smbus()
adc_instance = ADCPi(bus, 0x68, 0x69, 18)
pressurereader = PressureReader(adc_instance)
pressurereader.daemon = True
pressurereader.start()
codenames = ['chemlab312_sample_storage_pressure']
loggers = {}
for i in range(0, 1):
loggers[codenames[i]] = ValueLogger(pressurereader,
comp_val=0.05,
comp_type='log')
loggers[codenames[i]].start()
socket = DateDataPullSocket('chemlab312_sample_storage',
codenames,
timeouts=[2.0])
socket.start()
live_socket = LiveSocket('chemlab312_sample_storage', codenames)
live_socket.start()
db_logger = ContinuousDataSaver(
continuous_data_table='dateplots_chemlab312',
username=credentials.user,
password=credentials.passwd,
measurement_codenames=codenames)
db_logger.start()
time.sleep(5)
while True:
time.sleep(0.5)
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 main():
""" Main function """
logging.basicConfig(filename="logger.txt", level=logging.ERROR)
logging.basicConfig(level=logging.ERROR)
i2c_helper = ABEHelpers()
bus = i2c_helper.get_smbus()
adc_instance = DeltaSigma(bus, 0x68, 0x69, 18)
tempreader = TemperatureReader(adc_instance)
tempreader.daemon = True
tempreader.start()
codenames = ['cooling_water_hot', 'cooling_water_cold']
loggers = {}
for i in range(0, 2):
loggers[codenames[i]] = ValueLogger(tempreader,
comp_val=0.5,
channel=i)
loggers[codenames[i]].start()
socket = DateDataPullSocket('hall_cooling_water_temp',
codenames,
timeouts=2.0)
socket.start()
live_socket = LiveSocket('hall_waterpressure', codenames)
live_socket.start()
db_logger = ContinuousDataSaver(continuous_data_table='dateplots_hall',
username=credentials.user,
password=credentials.passwd,
measurement_codenames=codenames)
db_logger.start()
time.sleep(5)
while tempreader.is_alive():
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 main():
""" Main function """
code_names = ['pvd309_temp_dca_cell', 'pvd309_temp_mai_cell']
reader = TemperatureReader()
reader.start()
loggers = {}
loggers[code_names[0]] = ValueLogger(reader,
channel=1,
comp_val=0.5,
comp_type='lin')
loggers[code_names[0]].start()
loggers[code_names[1]] = ValueLogger(reader,
channel=2,
comp_val=0.5,
comp_type='lin')
loggers[code_names[1]].start()
datasocket = DateDataPullSocket('pvd_309_temp',
code_names,
timeouts=[2.0] * 2,
port=9001)
datasocket.start()
livesocket = LiveSocket('pvd_309_temperatures', code_names)
livesocket.start()
db_logger = ContinuousDataSaver(continuous_data_table='dateplots_pvd309',
username=credentials.user,
password=credentials.passwd,
measurement_codenames=code_names)
db_logger.start()
time.sleep(5)
while not reader.quit:
time.sleep(0.25)
for name in code_names:
print(reader.ttl)
value = loggers[name].read_value()
datasocket.set_point_now(name, value)
livesocket.set_point_now(name, value)
if loggers[name].read_trigged():
print(name + ': ' + str(value))
db_logger.save_point_now(name, value)
loggers[name].clear_trigged()
def __init__(self, mfcs, name):
threading.Thread.__init__(self)
self.mfcs = mfcs
print(mfcs)
devices = list(self.mfcs.keys())
self.values = {}
for device in devices:
self.values[device] = None
self.pullsocket = DateDataPullSocket(name + '_analog_control', devices,
timeouts=[3.0] * len(devices))
self.pullsocket.start()
self.pushsocket = DataPushSocket(name + '_analog_pc_control', action='enqueue')
self.pushsocket.start()
self.livesocket = LiveSocket(name + '_analog_mfc_control', devices)
self.livesocket.start()
self.running = True
def main():
""" Main method for the websocket server """
LOG.info('main: Start')
global LIVESOCKET # pylint: disable=global-statement
names = ['wss_hosts_defined', 'wss_hosts', 'wss_clients']
LIVESOCKET = LiveSocket('websocketserver', names, sane_interval=1.0)
LIVESOCKET.start()
udp_steward = UDPConnectionSteward()
udp_steward.start()
# Uncomment these two to get log from twisted
#import sys
#log.startLogging(sys.stdout)
# Create context factor with key and certificate
context_factory = ssl.DefaultOpenSSLContextFactory(
'/home/kenni/certs/fysik.dtu.dk.key',
'/home/kenni/certs/fysik.dtu.dk-NEW.crt'
)
# Form the webserver factory
factory = WebSocketServerFactory("wss://localhost:9001", debug=True)
# Set the handler
factory.protocol = CinfWebSocketHandler
# Listen for incoming WebSocket connections: wss://localhost:9001
listenWS(factory, context_factory)
try:
reactor.run() # pylint: disable=E1101
time.sleep(1)
LOG.info('main: Keyboard interrupt, websocket reactor stopped')
udp_steward.stop()
time.sleep(1)
LOG.info('main: UPD Steward stopped')
LIVESOCKET.stop()
time.sleep(1)
LOG.info('main: Own livesocket stoppped')
except Exception as exception_:
LOG.exception(exception_)
raise exception_
LOG.info('main: Ended')
raw_input('All stopped. Press enter to exit')
def main():
""" Main function """
logging.basicConfig(filename="logger.txt", level=logging.ERROR)
logging.basicConfig(level=logging.ERROR)
i2c_helper = ABEHelpers()
bus = i2c_helper.get_smbus()
adc_instance = ADCPi(bus, 0x68, 0x69, 18)
pressurereader = PressureReader(adc_instance)
pressurereader.daemon = True
pressurereader.start()
logger = ValueLogger(pressurereader, comp_val=0.5)
logger.start()
socket = DateDataPullSocket('hall_n5_argon_pressure',
['n5_argon_pressure'],
timeouts=[1.0])
socket.start()
live_socket = LiveSocket('hall_n5_argon_pressure', ['n5_argon_pressure'],
2)
live_socket.start()
db_logger = ContinuousDataSaver(
continuous_data_table='dateplots_hall',
username=credentials.user,
password=credentials.passwd,
measurement_codenames=['n5_argon_pressure'])
db_logger.start()
time.sleep(2)
while True:
time.sleep(0.25)
value = logger.read_value()
socket.set_point_now('n5_argon_pressure', value)
live_socket.set_point_now('n5_argon_pressure', value)
if logger.read_trigged():
print(value)
db_logger.save_point_now('n5_argon_pressure', value)
logger.clear_trigged()
def __init__(self):
threading.Thread.__init__(self)
self.watchdog = Watchdog()
self.watchdog.daemon = True
self.watchdog.start()
time.sleep(1)
self.setup = settings.setup
self.quit = False
for i in range(0, 7): #Set GPIO pins to output
wp.pinMode(i, 1)
self.setup = settings.setup
self.dutycycles = [0, 0, 0, 0, 0, 0]
channels = ['1', '2', '3', '4', '5', '6']
self.livesocket = LiveSocket(self.setup + '-bakeout', channels, 1)
self.livesocket.start()
self.pullsocket = DateDataPullSocket(self.setup + '-bakeout', channels, timeouts=[2]*6)
self.pullsocket.start()
self.pushsocket = DataPushSocket(self.setup + '-push_control', action='enqueue')
self.pushsocket.start()
