# This example finds and connects to a BLE temperature sensor (e.g. the one in ble_temperature.py). import network import bluetooth import random import struct import time import micropython from ble_advertising import decode_services, decode_name from micropython import const from machine import Pin, SPI from usocket import socket from umqttsimple import MQTTClient #mqtt config mqtt_server = '192.168.11.7' client_id = 'wiz' topic_pub = b'hello' topic_msg = b'Hello Pico' last_message = 0 message_interval = 5 counter = 0 _IRQ_CENTRAL_CONNECT = const(1) _IRQ_CENTRAL_DISCONNECT = const(2) _IRQ_GATTS_WRITE = const(3) _IRQ_GATTS_READ_REQUEST = const(4) _IRQ_SCAN_RESULT = const(5) _IRQ_SCAN_DONE = const(6) _IRQ_PERIPHERAL_CONNECT = const(7) _IRQ_PERIPHERAL_DISCONNECT = const(8) _IRQ_GATTC_SERVICE_RESULT = const(9) _IRQ_GATTC_SERVICE_DONE = const(10) _IRQ_GATTC_CHARACTERISTIC_RESULT = const(11) _IRQ_GATTC_CHARACTERISTIC_DONE = const(12) _IRQ_GATTC_DESCRIPTOR_RESULT = const(13) _IRQ_GATTC_DESCRIPTOR_DONE = const(14) _IRQ_GATTC_READ_RESULT = const(15) _IRQ_GATTC_READ_DONE = const(16) _IRQ_GATTC_WRITE_DONE = const(17) _IRQ_GATTC_NOTIFY = const(18) _IRQ_GATTC_INDICATE = const(19) _ADV_IND = const(0x00) _ADV_DIRECT_IND = const(0x01) _ADV_SCAN_IND = const(0x02) _ADV_NONCONN_IND = const(0x03) # org.bluetooth.service.environmental_sensing _ENV_SENSE_UUID = bluetooth.UUID(0x181A) # org.bluetooth.characteristic.temperature _TEMP_UUID = bluetooth.UUID(0x2A6E) _TEMP_CHAR = ( _TEMP_UUID, bluetooth.FLAG_READ | bluetooth.FLAG_NOTIFY, ) _ENV_SENSE_SERVICE = ( _ENV_SENSE_UUID, (_TEMP_CHAR,), ) class BLETemperatureCentral: def __init__(self, ble): self._ble = ble self._ble.active(True) self._ble.irq(self._irq) self._reset() self._led = Pin('LED', Pin.OUT) def _reset(self): # Cached name and address from a successful scan. self._name = None self._addr_type = None self._addr = None # Cached value (if we have one) self._value = None # Callbacks for completion of various operations. # These reset back to None after being invoked. self._scan_callback = None self._conn_callback = None self._read_callback = None # Persistent callback for when new data is notified from the device. self._notify_callback = None # Connected device. self._conn_handle = None self._start_handle = None self._end_handle = None self._value_handle = None def _irq(self, event, data): if event == _IRQ_SCAN_RESULT: addr_type, addr, adv_type, rssi, adv_data = data if adv_type in (_ADV_IND, _ADV_DIRECT_IND): type_list = decode_services(adv_data) if _ENV_SENSE_UUID in type_list: # Found a potential device, remember it and stop scanning. self._addr_type = addr_type self._addr = bytes(addr) # Note: addr buffer is owned by caller so need to copy it. self._name = decode_name(adv_data) or "?" self._ble.gap_scan(None) elif event == _IRQ_SCAN_DONE: if self._scan_callback: if self._addr: # Found a device during the scan (and the scan was explicitly stopped). self._scan_callback(self._addr_type, self._addr, self._name) self._scan_callback = None else: # Scan timed out. self._scan_callback(None, None, None) elif event == _IRQ_PERIPHERAL_CONNECT: # Connect successful. conn_handle, addr_type, addr = data if addr_type == self._addr_type and addr == self._addr: self._conn_handle = conn_handle self._ble.gattc_discover_services(self._conn_handle) elif event == _IRQ_PERIPHERAL_DISCONNECT: # Disconnect (either initiated by us or the remote end). conn_handle, _, _ = data if conn_handle == self._conn_handle: # If it was initiated by us, it'll already be reset. self._reset() elif event == _IRQ_GATTC_SERVICE_RESULT: # Connected device returned a service. conn_handle, start_handle, end_handle, uuid = data if conn_handle == self._conn_handle and uuid == _ENV_SENSE_UUID: self._start_handle, self._end_handle = start_handle, end_handle elif event == _IRQ_GATTC_SERVICE_DONE: # Service query complete. if self._start_handle and self._end_handle: self._ble.gattc_discover_characteristics( self._conn_handle, self._start_handle, self._end_handle ) else: print("Failed to find environmental sensing service.") elif event == _IRQ_GATTC_CHARACTERISTIC_RESULT: # Connected device returned a characteristic. conn_handle, def_handle, value_handle, properties, uuid = data if conn_handle == self._conn_handle and uuid == _TEMP_UUID: self._value_handle = value_handle elif event == _IRQ_GATTC_CHARACTERISTIC_DONE: # Characteristic query complete. if self._value_handle: # We've finished connecting and discovering device, fire the connect callback. if self._conn_callback: self._conn_callback() else: print("Failed to find temperature characteristic.") elif event == _IRQ_GATTC_READ_RESULT: # A read completed successfully. conn_handle, value_handle, char_data = data if conn_handle == self._conn_handle and value_handle == self._value_handle: self._update_value(char_data) if self._read_callback: self._read_callback(self._value) self._read_callback = None elif event == _IRQ_GATTC_READ_DONE: # Read completed (no-op). conn_handle, value_handle, status = data elif event == _IRQ_GATTC_NOTIFY: # The ble_temperature.py demo periodically notifies its value. conn_handle, value_handle, notify_data = data if conn_handle == self._conn_handle and value_handle == self._value_handle: self._update_value(notify_data) if self._notify_callback: self._notify_callback(self._value) # Returns true if we've successfully connected and discovered characteristics. def is_connected(self): return self._conn_handle is not None and self._value_handle is not None # Find a device advertising the environmental sensor service. def scan(self, callback=None): self._addr_type = None self._addr = None self._scan_callback = callback self._ble.gap_scan(2000, 30000, 30000) # Connect to the specified device (otherwise use cached address from a scan). def connect(self, addr_type=None, addr=None, callback=None): self._addr_type = addr_type or self._addr_type self._addr = addr or self._addr self._conn_callback = callback if self._addr_type is None or self._addr is None: return False self._ble.gap_connect(self._addr_type, self._addr) return True # Disconnect from current device. def disconnect(self): if not self._conn_handle: return self._ble.gap_disconnect(self._conn_handle) self._reset() # Issues an (asynchronous) read, will invoke callback with data. def read(self, callback): if not self.is_connected(): return self._read_callback = callback try: self._ble.gattc_read(self._conn_handle, self._value_handle) except OSError as error: print(error) # Sets a callback to be invoked when the device notifies us. def on_notify(self, callback): self._notify_callback = callback def _update_value(self, data): # Data is sint16 in degrees Celsius with a resolution of 0.01 degrees Celsius. try: self._value = struct.unpack(" 0): for i in range(flash_count): self._led.on() time.sleep_ms(100) self._led.off() time.sleep_ms(100) delay_ms -= 200 time.sleep_ms(1000) delay_ms -= 1000 def print_temp(result): #print("read temp: %.2f degc" % result) temp_msg = ("read temp: %.2f degc" % result) client.publish(topic_pub, temp_msg) print(temp_msg) def demo(ble, central): not_found = False def on_scan(addr_type, addr, name): if addr_type is not None: print("Found sensor: %s" % name) central.connect() else: nonlocal not_found not_found = True print("No sensor found.") central.scan(callback=on_scan) # Wait for connection... while not central.is_connected(): time.sleep_ms(100) if not_found: return print("Connected") # Explicitly issue reads while central.is_connected(): central.read(callback=print_temp) sleep_ms_flash_led(central, 2, 2000) print("Disconnected") #W5x00 chip init def w5x00_init(): spi=SPI(0,2_000_000, mosi=Pin(19),miso=Pin(16),sck=Pin(18)) nic = network.WIZNET5K(spi,Pin(17),Pin(20)) #spi,cs,reset pin nic.active(True) #None DHCP nic.ifconfig(('192.168.11.20','255.255.255.0','192.168.11.1','8.8.8.8')) #DHCP #nic.ifconfig('dhcp') print('IP address :', nic.ifconfig()) while not nic.isconnected(): time.sleep(1) print(nic.regs()) def mqtt_connect(): client = MQTTClient(client_id, mqtt_server, keepalive=60) client.connect() print('Connected to %s MQTT Broker'%(mqtt_server)) return client #reconnect & reset def reconnect(): print('Failed to connected to MQTT Broker. Reconnecting...') time.sleep(5) machine.reset() if __name__ == "__main__": w5x00_init() try: client = mqtt_connect() except OSError as e: reconnect() ble = bluetooth.BLE() central = BLETemperatureCentral(ble) while(True): demo(ble, central) #topic_msg = b"read temp: %.2f degc" % result sleep_ms_flash_led(central, 1, 10000) time.sleep(3)