def _run_async():
api = ConnectAPI()
api.start_notifications()
devices = api.list_connected_devices().data
if not devices:
raise Exception("No devices registered. Aborting")
current_value = None
while True:
async_resp = api.get_resource_value_async(devices[0].id,
BUTTON_RESOURCE)
# Busy wait - block the thread and wait for the response to finish.
while not async_resp.is_done:
time.sleep(0.1)
# Check if we have a async error response, and abort if it is.
if async_resp.error:
raise Exception("Got async error response: %r" % async_resp.error)
# Get the value from the async response, as we know it's done and it's not
# an error.
new_value = async_resp.value
# Print new value to user, if it has changed.
if current_value != new_value:
print("Current value: %r" % (new_value, ))
# Save new current value
current_value = new_value
def _main():
global lasttime
api = ConnectAPI()
api.start_notifications()
# calling start_notifications is required for getting/setting resource synchronously
devices = api.list_connected_devices().data
if not devices:
raise Exception("No connected devices registered. Aborting")
#selecting latest device for listening for data
mainDevice = devices[-1]
isActive = True
lasttime = time.time()
Subscribe(api, mainDevice)
#creating threads
# thread t: used to start the flask api which serves the phone app
t = threading.Thread(target=StartAPI)
t.start()
# thread t2: used to sum up and guess dominant movement for minute
t2 = threading.Thread(target=MinuteToDB)
t2.start()
#Resubscribe to pelion device if connection appear to be lost (no valid data for 3)
while True:
time.sleep(1.5)
if time.time() - lasttime > 3:
#print("Attempt reconnect!")
Subscribe(api, mainDevice)
def _main():
api = ConnectAPI()
# calling start_notifications is required for getting/setting resource synchronously
api.start_notifications()
devices = api.list_connected_devices().data
if not devices:
raise Exception("No connected devices registered. Aborting")
# Synchronously get the initial/current value of the resource
while True:
value = api.get_resource_value(devices[0].id, BUTTON_RESOURCE)
_current_val(value)
val1 = value.encode()
e1 = f.encrypt(val1)
os.system("mosquitto_pub -h localhost -t temp -m " + str(e1) +
" -u \"roy\" -P \"roy\"")
value2 = api.get_resource_value(devices[0].id, BUTTON_RESOURCE2)
_current_val2(value2)
val2 = value2.encode()
e2 = f.encrypt(val2)
os.system("mosquitto_pub -h localhost -t heart -m " + str(e2) +
" -u \"roy\" -P \"roy\"")
a = [[float(value), float(value2)]]
predict_from_joblib = joblib.load('/home/roy/disco/predict.pkl')
b = predict_from_joblib.predict(a)
pre = b[0]
print(pre)
os.system("mosquitto_pub -h localhost -t predict -m " + str(pre))
# Register a subscription for new values
api.add_resource_subscription_async(devices[0].id, BUTTON_RESOURCE,
_subscription_handler)
def _main():
api = ConnectAPI()
api.start_notifications()
devices = api.list_connected_devices().data
if not devices:
raise Exception("No connected devices registered. Aborting")
value = api.get_resource_value(devices[0].id, POPUP_IOT_RESOURCE)
queue = api.add_resource_subscription(devices[0].id, POPUP_IOT_RESOURCE)
while True:
print("Current value: %r" % (value, ))
value = queue.get(timeout=30)
def _main():
api = ConnectAPI()
# calling start_notifications is required for getting/setting resource synchronously
api.start_notifications()
devices = api.list_connected_devices().data
if not devices:
raise Exception("No connected devices registered. Aborting")
# Synchronously get the initial/current value of the resource
value = api.get_resource_value(devices[0].id, BUTTON_RESOURCE)
_current_val(value)
# Register a subscription for new values
api.add_resource_subscription_async(devices[0].id, BUTTON_RESOURCE, _subscription_handler)
# Run forever
while True:
pass
def _main():
api = ConnectAPI()
# calling start_notifications is required for getting/setting resource synchronously
api.start_notifications()
devices = api.list_connected_devices().data
if not devices:
raise Exception("No connected devices registered. Aborting")
# Synchronously get the initial/current value of the resource
value = api.get_resource_value(devices[0].id, WRITEABLE_RESOURCE)
print("Current value: %r" % (value, ))
# Set Resource value. Resource needs to have type == "writable_resource"
api.set_resource_value(device_id=devices[0].id,
resource_path=WRITEABLE_RESOURCE,
resource_value='10')
# Synchronously get the current value of the resource
value = api.get_resource_value(devices[0].id, WRITEABLE_RESOURCE)
print("Current value: %r" % (value, ))
def _main():
api = ConnectAPI()
api.start_notifications()
devices = api.list_connected_devices().data
if not devices:
raise Exception("No connected devices registered. Aborting")
device_id = "015e9a938ff100000000000100100019"
api.delete_device_subscriptions(device_id)
api.list_presubscriptions()
api.add_resource_subscription_async(device_id, INCRIMENTAL_RESOURCE,
_callback_fn)
api.add_resource_subscription_async(device_id, VOLTAGE_RESOURCE,
_callback_fn)
api.add_resource_subscription_async(device_id, CURRENT_RESOURCE,
_callback_fn)
api.add_resource_subscription_async(device_id, POWER_RESOURCE,
_callback_fn)
while True:
time.sleep(0.1)
def _run_synchronized():
api = ConnectAPI()
api.start_notifications()
devices = api.list_connected_devices().data
if not devices:
raise Exception("No devices registered. Aborting")
current_value = None
while True:
# Will get the resource value for button and block the thread whilst doing it
# See the async example for details on what the 'sync' flag does in the background.
# Note this will raise a CloudAsyncError if something goes wrong, which we're not catching
# here for simplicity.
new_value = api.get_resource_value(devices[0].id, BUTTON_RESOURCE)
# Print new value to user, if it has changed.
if new_value != current_value:
print("Current value: %r" % (new_value, ))
# Save new current value
current_value = new_value
def main(arguments):
parser = argparse.ArgumentParser(
description=__doc__,
formatter_class=argparse.RawDescriptionHelpFormatter)
parser.add_argument("api_key", help="Mbed Cloud API Key")
parser.add_argument("device_id", help="Device ID")
parser.add_argument("-H",
"--host",
help="Mbed Cloud API URL",
default="https://api.us-east-1.mbedcloud.com")
args = parser.parse_args(arguments)
connect_api = ConnectAPI({"api_key": args.api_key, "host": args.host})
connect_api.start_notifications()
connect_api.add_resource_subscription_async(args.device_id, "/3200/0/5501",
_subscription_handler)
while True:
pass
def _main():
api = ConnectAPI()
api.start_notifications()
devices = api.list_connected_devices().data
if not devices:
raise Exception("No connected devices registered. Aborting")
# Synchronously get the initial/current value of the resource
value = api.get_resource_value(devices[0].id, BUTTON_RESOURCE)
# Register a subscription for new values
api.set_resource_value(device_id=devices[0].id,
resource_path=WRITEABLE_RESOURCE,
resource_value='10')
queue = api.add_resource_subscription(devices[0].id, BUTTON_RESOURCE)
while True:
# Print the current value
print("Current value: %r" % (value, ))
# Get a new value, using the subscriptions
value = queue.get(timeout=30)
class PelionSync():
devices = None
api = None
value = dict()
def Init(self):
print("Pelion sync initializing start")
self.api = ConnectAPI()
self.api.start_notifications()
self.devices = api.list_connected_devices().data
if not self.devices:
return False
return True
def Query(self):
self.devices = api.list_connected_devices().data
for device in devices:
try:
hat = Hat.objects.get(device_id=device.id)
except:
print("New device id!:{}\nAdd new hat!".format(device.id))
hat = Hat.objects.create(device_id=device.id)
sv = SensorValue.objects.create(owner = hat,\
temperature = api.get_resource_value(device.id, "/3303/0/5700"),\
humid = api.get_resource_value(device.id, "/3304/0/5700"), \
accelX = api.get_resource_value(device.id, "/3313/0/5702"), \
accelY = api.get_resource_value(device.id, "/3313/0/5703"), \
accelZ = api.get_resource_value(device.id, "/3313/0/5704"), \
pressure = api.get_resource_value(device.id, "/3323/0/5700"), \
distance = api.get_resource_value(device.id, "/3330/0/5700"), \
gyroX = api.get_resource_value(device.id, "/3334/0/5702"), \
gyroY = api.get_resource_value(device.id, "/3334/0/5703"), \
gyroZ = api.get_resource_value(device.id, "/3334/0/5704"), \
gps_lat = api.get_resource_value(device.id, "/3336/0/5702"), \
gps_lng = api.get_resource_value(device.id, "/3336/0/5703"), \
gps_alt = api.get_resource_value(device.id, "/3336/0/5704"), \
voc = api.get_resource_value(device.id, "/10313/0/5700"), \
air_quality = api.get_resource_value(device.id, "/10313/0/5701"))
import os
import pprint
from mbed_cloud import ConnectAPI
TOKEN = "YOUR_ACCESS_KEY"
# set up the Python SDK
config = {}
config['api_key'] = os.getenv('TOKEN') or TOKEN
config['host'] = 'https://api.us-east-1.mbedcloud.com'
api = ConnectAPI(config)
api.start_notifications()
devices = list(api.list_connected_devices(filters={'device_type': 'default'}))
print("Found %d devices" % (len(devices)), [c.id for c in devices])
for device in devices:
def pir_callback(device_id, path, distance):
print("Distance changed at %s, new value is %s" %
(device_id, distance))
api.add_resource_subscription_async(device.id, '/3330/0/5700',
pir_callback)
print("subscribed to resource")
api.execute_resource(device.id, '/3201/0/5850', '1')
print("blinked LED of %s" % device.id)
# Run forever
def _run_async():
api = ConnectAPI()
api.start_notifications()
devices = api.list_connected_devices().data
if not devices:
raise Exception("No devices registered. Aborting")
gyro_cur = acceler_cur = None
while True:
gyro_resp = api.get_resource_value_async(devices[0].id, GYRO_RESOURCE)
acceler_resp = api.get_resource_value_async(devices[0].id, ACCELERO_RESOURCE)
# Busy wait - block the thread and wait for the response to finish.
while not gyro_resp.is_done:
time.sleep(0.1)
while not acceler_resp.is_done:
time.sleep(0.1)
# Check if we have a async error response, and abort if it is.
if gyro_resp.error:
continue
raise Exception("Got async error response: %r" % gyro_resp.error)
if acceler_resp.error:
continue
raise Exception("Got async error response: %r" % acceler_resp.error)
# Get the value from the async response, as we know it's done and it's not
# an error.
gyro_new_value = gyro_resp.value
acceler_new_value = acceler_resp.value
# Print new value to user, if it has changed.
if gyro_cur != gyro_new_value and acceler_cur != acceler_new_value:
current_time = datetime.datetime.now()
timestamp = current_time.strftime("%Y-%m-%d %H-%M-%S-%f")
hour = current_time.hour
minutes = current_time.minute
seconds = current_time.second
microsecond = current_time.microsecond
accX, accY, accZ = acceler_new_value.values()
accX, accY, accZ = (float(accX) / 1000), (float(accY) / 1000), (float(accZ) / 1000)
gyroX, gyroY, gyroZ = gyro_new_value.values()
gyroX, gyroY, gyroZ = ((float(gyroX) / 1000) * (pi / 180)), ((float(gyroY) / 1000) * (pi / 180)), (
(float(gyroZ) / 1000) * (pi / 180))
# pred = clf.predict([[accX, accY, accZ, gyroX, gyroY, gyroZ, hour, minutes, seconds, microsecond]])
start = time.time()
pred = clf.predict([[accX, accY, accZ, gyroX, gyroY, gyroZ]])
stop = time.time()
print(f"classifying time: {stop - start}")
# print(accX, accY, accZ)
# print(gyroX, gyroY, gyroZ)
# print("gyro {}".format(gyro_new_value))
# print("accelero{}".format(acceler_new_value))
if pred[0] == 0:
classification = 'walking'
else:
classification = 'running'
with conn.cursor() as cursor:
cursor.execute(add_row, (timestamp, classification))
if classification == 'walking':
cursor.execute(add_walking)
else:
cursor.execute(add_running)
conn.commit()
print(classification)
print("row added")
# Save new current value
gyro_cur = gyro_new_value
acceler_cur = acceler_new_value