def main(): mcp3008 = MCP3008(SCLK, MOSI, MISO, CS) onewire = OneWire() dht = DHT(22) while True: tmp36_temp = mcp3008.read_tmp36(0) try: ds18b20_temp = onewire.get_ds18b20_temp(OW_SENSOR) except StandardError: ds18b20_temp = None dht11 = dht.read_dht11() cpu_temp = float(int(open("/sys/class/thermal/thermal_zone0/temp", "r").read())/1000) pac = eeml.datastream.Cosm(API_URL, API_KEY) pac.update([ eeml.Data(0, tmp36_temp, unit=eeml.unit.Celsius()), eeml.Data(1, ds18b20_temp, unit=eeml.unit.Celsius()), eeml.Data(2, dht11["temp"], unit=eeml.unit.Celsius()), eeml.Data(3, dht11["humidity"]), eeml.Data(4, cpu_temp, unit=eeml.unit.Celsius()), ]) try: pac.put() except StandardError: print "Exception on pac.put()" time.sleep(60)
def main(): mcp3008 = MCP3008(SCLK, MOSI, MISO, CS) onewire = OneWire() dht = DHT(22) while True: print "-" * 80 print "TMP36-1 : %f C" % mcp3008.read_tmp36(0) print "Photocell : %f" % mcp3008.read_photocell(1) print "TMP36-2 : %f C" % mcp3008.read_photocell(2) print "IR-SENSOR : %f" % mcp3008.read_ir_sensor(3) print "DS18B20 : %f C" % onewire.get_ds18b20_temp("28-000004474ba7") dht11 = dht.read_dht11() print "DHT11 Temp: %(temp)s C" % dht11 print "DHT11 Hum : %(humidity)s %%" % dht11 time.sleep(5)
print(cmd.command) if __name__ == '__main__': print "MS HAL start" #Connectors iotfClient = IBMConnector(commandCallback) time.sleep(2) csvPersistor = CSVPersistor("Plant1") time.sleep(1) #Sensors waterTemperature = Dallas() time.sleep(1) airInside = DHT(23) time.sleep(1) airOutside = DHT(24) time.sleep(1) systemData = SystemData() time.sleep(1) weather = Weather() time.sleep(1) #Actuators outsideFan = TimedDigitalActuator(20) time.sleep(1) insideFan = TimedDigitalActuator(21) time.sleep(1) humidifier = TimedDigitalActuator(16) time.sleep(1)
grovepi.pinMode(button,"INPUT") grovepi.pinMode(buzzer,"OUTPUT") ser = serial.Serial('/dev/ttyACM0',9600) #variable globale appuie = 0 y = 0 temps = 0 seconde = 0 dust = 0 buzer_on = False long_press = 0 if __name__ == '__main__': dht_thread = DHT() envoi_thread = DweetPost() dht_thread.start() envoi_thread.start() while True: y=time.time()-temps seconde = time.localtime(y)[5] print time.strftime(str(seconde)) try: # recuperation donne des capteurs [temp,humidite] = dht_thread.getValueDHT() # donnees du capteur de poussiere sur le port serie print("Densite air:\n" + str(dust) + " pcs\\0.01cf") dust = ser.readline()
f = initFile(starttime.strftime('%Y%m%d-%H%M%S'), RPI, FOLDER, LOCATION, R) else: #file name just with date f = initFile(datestart, RPI, FOLDER, LOCATION, R) ts = time.time() tnow = datetime.datetime.fromtimestamp(ts).strftime( '%Y-%m-%d %H:%M:%S') data = tnow if MODE == "GPS": #IF GPS is attahced and turned on, get GPS data lat, lon, alt = Work() print("Lat:", lat, "Lon", lon) data = data + "," + str(lat) + "," + str(lon) + "," + str(alt) if V.DHTON == "ON": #Get DHT data, for all DHT attached for DH, PIN in zip(V.DHTNAMES, V.DHTPINS): HT = DHT() RH, T = HT.getData(DH, PIN) data = data + "," + str(RH) + "," + str(T) #run through each sensors reading there data if V.OPCON == "ON": for pro, r, p in zip(Sen, R, P): #loop through OPC newdata = pro.getData(p, r) data = data + "," + newdata if "spi error" in newdata.lower(): pro = sen(p, r) #initiate the sensors #restate senors in SPI error occres if V.BLINKT == "ON": clear() set_pixel(0, 10, 10, 10) set_pixel(1, 10, 10, 10)
def __init__(self, env, server_params, client_params, misc_params, clients, logpath): self.env = env self.__client_completed = 0 self.__clients = clients self.__network_buffer_size = int( misc_params[Contract.M_NETWORK_BUFFER_SIZE_KB]) self.__logpath = logpath self.server_logger = Logger(self.env, logpath) self.servers = [] for i in range(server_params[Contract.S_SERVER_COUNT]): self.servers.append( Server(self.env, i, self.server_logger, server_params, misc_params, self)) # This will keep the queue for the client requests # self.__HUB = HUB(env, int(misc_params[Contract.M_HUB_BW_Gbps]) * 1e6 / 8) self.__HUB = simpy.Resource(env) self.__overhead = int(misc_params[Contract.M_NETWORK_LATENCY_nS]) self.__max_bandwidth = int( misc_params[Contract.MAX_SWITCH_BANDWIDTH_Gbps]) * 1e6 / 8 self.__max_same_time_transfers = int( int(misc_params[Contract.MAX_SWITCH_BANDWIDTH_Gbps]) / int(misc_params[Contract.MAX_SINGLE_LINK_BANDWIDTH])) self.__max_single_link_bw = int( misc_params[Contract.MAX_SINGLE_LINK_BANDWIDTH]) * 1e6 / 8 self.__time_function = Function2D.get_bandwidth_model( self.__overhead, int(misc_params[Contract.MAX_SWITCH_BANDWIDTH_Gbps]) / 8) self.__dht = DHT(len(self.servers), server_params[Contract.S_HDD_DATA_COUNT]) self.__full_speed_packet_time = int(self.__network_buffer_size / self.__max_bandwidth * 1e9) self.__manager_logger = Logger(self.env, logpath) self.__start = None self.__server_restoring = 0 self.__show_counters = bool(misc_params[Contract.M_SHOW_COUNTERS]) self.__read_pattern = None self.__log_runtime_data = bool( int(misc_params[Contract.M_LOG_RUNTIME_DATA])) if misc_params[Contract.M_READ_PATTERN] == "linear": self.__read_pattern = ReadPattern.LINEAR elif misc_params[Contract.M_READ_PATTERN] == "random": self.__read_pattern = ReadPattern.RANDOM else: raise Exception("No valid read pattern specified") self.__read_block_size = int(misc_params[Contract.M_READ_BLOCK_SIZE]) self.__schedule_queue = [] for operation in misc_params[Contract.M_OPERATIONS]: if operation == 'r': self.__schedule_queue.append(self.__simulate_client_read) if operation == 'f': self.__schedule_queue.append(self.__simulate_disk_failure) # self.__schedule_queue = [self.__simulate_client_read, self.__simulate_disk_failure] self.__server_same_time_write = {} self.__server_same_time_write_completed = {} self.__geometry = (client_params[Contract.C_GEOMETRY_BASE], client_params[Contract.C_GEOMETRY_PLUS]) self.__sending_entities = set() self.__transfers = deque() self.__global_available_bandwidth = self.__max_single_link_bw self.__global_same_time_transfers = self.__max_same_time_transfers self.__global_previous_available_bw = self.__max_bandwidth self.__max_transfer_resource = simpy.Container( env, self.get_server_count() * 4, self.get_server_count() * 4)
print "Unknown command, ignore" print(cmd.command) if __name__ == '__main__': print "MS HAL start" #Connectors iotfClient = IBMConnector(commandCallback) time.sleep(2) csvPersistor = CSVPersistor("Plant1") time.sleep(1) #Sensors waterTemperature = Dallas() time.sleep(1) airInside = DHT(23) time.sleep(1) airOutside = DHT(24) time.sleep(1) systemData = SystemData() time.sleep(1) weather = Weather() time.sleep(1) #Actuators outsideFan = TimedDigitalActuator(20) time.sleep(1) insideFan = TimedDigitalActuator(21) time.sleep(1) humidifier = TimedDigitalActuator(16) time.sleep(1)