def setup_aws_shadow_client(host, rootCAPath, privateKeyPath, certificatePath, device_name):
# Configure logging
logger = logging.getLogger("AWSIoTPythonSDK.core")
logger.setLevel(logging.INFO)
streamHandler = logging.StreamHandler()
formatter = logging.Formatter('%(asctime)s - %(name)s - %(levelname)s - %(message)s')
streamHandler.setFormatter(formatter)
logger.addHandler(streamHandler)
# Init AWSIoTMQTTShadowClient
shadow = AWSIoTMQTTShadowClient(device_name + "-client")
shadow.configureEndpoint(host, 8883)
shadow.configureCredentials(rootCAPath, privateKeyPath, certificatePath)
# AWSIoTMQTTShadowClient configuration
shadow.configureAutoReconnectBackoffTime(1, 32, 20)
shadow.configureConnectDisconnectTimeout(10) # 10 sec
shadow.configureMQTTOperationTimeout(5) # 5 sec
#Last Will
shadow.configureLastWill('my/things/' + device_name + '/update', '{"state":{"reported":{"connected":"false"}}}', 1)
# Connect to AWS IoT
shadow.connect()
# Create a deviceShadow with persistent subscription
client = shadow.createShadowHandlerWithName(device_name, True)
return shadow, client
def setClient(answers):
try:
shadowClient = AWSIoTMQTTShadowClient(answers['name']+"Thing")
shadowClient.configureCredentials(answers['root_ca'], answers['private_key'], answers['cert_file'])
except FileNotFoundError as fnf_error:
print('File not found.',fnf_error)
else:
try:
shadowClient.configureEndpoint(answers['host_name'], 8883)
shadowClient.configureConnectDisconnectTimeout(10)
shadowClient.configureMQTTOperationTimeout(5)
shadowClient.connect()
# Create a programmatic representation of the shadow.
return shadowClient.createShadowHandlerWithName(answers['name']+"Thing", True)
except AssertionError as error:
print(error)
def setup_session(self):
logger.info("Setup session")
from AWSIoTPythonSDK.MQTTLib import AWSIoTMQTTShadowClient
from AWSIoTPythonSDK.core.protocol.mqttCore import (
connectTimeoutException)
client_id, token = self.storage["client_id"], self.storage["token"]
if not client_id or not token:
raise SystemError("client_id or token error")
try:
ipaddr, port = self.storage["endpoint"].split(":")
except (AttributeError, ValueError):
raise SystemError("endpoint error")
cafile = self.storage.get_path("certificate_reqs.pem")
cert = self.storage.get_path("certificate.pem")
key = self.storage.get_path("key.pem")
if False in map(lambda p: os.path.exists(p), (cafile, cert, key)):
raise SystemError("cafile or cert or key not exist")
client = AWSIoTMQTTShadowClient(client_id)
client.configureEndpoint(ipaddr, int(port))
client.configureCredentials(cafile, key, cert)
client.configureConnectDisconnectTimeout(10)
client.configureMQTTOperationTimeout(5)
try:
client.connect()
except SSLError as e:
raise RuntimeError("SESSION", "TLS_ERROR", "%s" % e.reason)
except (connectTimeoutException, socket.gaierror, socket.error):
raise RuntimeError("SESSION", "CONNECTION_ERROR")
conn = client.getMQTTConnection()
conn.subscribe("device/%s/request/+" % self.storage["token"], 1,
self.aws_on_request_callback)
self.aws_client = client
self.aws_token = token
self._notify_topic = "$aws/things/%s/shadow/update" % (
self.storage["client_id"])
self.notify_up(conn)
metadata.cloud_hash = os.urandom(32)
logger.info("Session ready")
def weather_station(event, context):
"""
Create an AWS IoT shadow client for a specific remote sensor station.
Collect sensor data from the station via an Internet endpoint. Update the
shadow client with the desired subset of available sensor station data.
Args (supplied by AWS Lambda service)
event: information about who/what invoked the Lambda function
context: information about the Lambda function's runtime environment
Returns:
{ 'statusCode': <int value>,
'body': <status string> }
"""
shadow_client = AWSIoTMQTTShadowClient(SHADOW_CLIENT)
shadow_client.configureEndpoint(HOST_NAME, MQTT_PORT)
shadow_client.configureCredentials(ROOT_CA, PRIVATE_KEY, CERT_FILE)
shadow_client.configureConnectDisconnectTimeout(10)
shadow_client.configureMQTTOperationTimeout(5)
if (shadow_client.connect()):
#Create access point for AWS IoT shadow document
device_shadow = shadow_client.createShadowHandlerWithName(
SHADOW_HANDLER, True)
sensor_data = _extract_sensor_data()
if (sensor_data):
# specific format required; ' "state" : {"reported" : {....... '
update_string = '{"state":{"reported":'
update_string += json.dumps(sensor_data)
update_string += '}}'
# result of updating shadow document; set in _my_shadow_update_callback()
device_shadow.shadowUpdate(update_string,
_my_shadow_update_callback, 5)
else:
return_value['statusCode'] = 400
return_value[
'body'] = 'Error connecting to sensor or with sensor data.'
else:
return_value['statusCode'] = 500
return_value['body'] = 'Could not connect to IoT shadow.'
return (return_value)
def lambda_handler(event, context):
global myAWSIoTMQTTShadowClient, myDeviceShadow
""" Route the incoming request based on type (LaunchRequest, IntentRequest,
etc.) The JSON body of the request is provided in the event parameter.
"""
print ('RECEIVED EVENT: ' + json.dumps(event, separators=(',', ':')))
if 'session' in event:
print("event.session.application.applicationId=" + event['session']['application']['applicationId'])
"""
Uncomment this if statement and populate with your skill's application ID to
prevent someone else from configuring a skill that sends requests to this
function.
"""
if (event['session']['application']['applicationId'] !=
"amzn1.ask.skill.*********"):
raise ValueError("Invalid Application ID")
if event['session']['new'] and 'requestId' in event['request']:
on_session_started({'requestId': event['request']['requestId']},event['session'])
if 'request' in event:
# Init AWSIoTMQTTClient
myAWSIoTMQTTShadowClient = AWSIoTMQTTShadowClient(shadowName+"_Lambda_"+event['request']['requestId'][-12:])
myAWSIoTMQTTShadowClient.configureEndpoint(host, 8883)
myAWSIoTMQTTShadowClient.configureCredentials(rootCAPath, privateKeyPath, certificatePath)
# AWSIoTMQTTClient connection configuration
myAWSIoTMQTTShadowClient.configureAutoReconnectBackoffTime(1, 32, 20)
myAWSIoTMQTTShadowClient.configureConnectDisconnectTimeout(10) # 10 sec
myAWSIoTMQTTShadowClient.configureMQTTOperationTimeout(5) # 5 sec
# Connect to AWS IoT Shadow
myAWSIoTMQTTShadowClient.connect()
myDeviceShadow = myAWSIoTMQTTShadowClient.createShadowHandlerWithName(shadowName, True)
if event['request']['type'] == "LaunchRequest":
return on_launch(event['request'], event['session'])
elif event['request']['type'] == "IntentRequest":
return on_intent(event['request'], event['session'])
elif event['request']['type'] == "SessionEndedRequest":
return on_session_ended(event['request'], event['session'])
def _get_device_shadow_client(location):
"""
Each vineyard sensor station is set up in IoT Core as a 'Thing' with
its own 'shadow document.' In order to push data into AWS, for a
sensor, you update its shadow document. To do this you use a 'shadow
client' to place a message, containing the incoming sensor data, on
the message queue assigned to the sensor/thing/shadow document. Each
IoT shadow document is assigned its own shadow client. Shadow
clients are created by this module, on demand, and exist for the
duration of this module's execution. Shadow clients will be reused
(for the duration of this module's execution) in cases where multiple
data sensor records are processed for the same sensor station. Reuse
of shadow clients is possible because of the 'True' flag in the
createShadowHandlerWithName() call.
Returns
None if a device shadow could not be retrieved/created
device_shadow if a device shadow could be retrieved/created
"""
global device_shadows
a_device_shadow = None
if(location in device_shadows):
a_device_shadow = device_shadows[location]
else:
a_client = AWSIoTMQTTShadowClient(location)
a_client.configureEndpoint(MQTT_VALUES['host_name'],
MQTT_VALUES['mqtt_port'])
a_client.configureCredentials(SHADOW_SECURITY[location]['root_ca'],
SHADOW_SECURITY[location]['private_key'],
SHADOW_SECURITY[location]['cert_file'])
a_client.configureConnectDisconnectTimeout(10)
a_client.configureMQTTOperationTimeout(5)
if(not a_client.connect()):
sl.log_message('15', ERROR, 'Could not connect to shadow document' +
' for location: ' + location, '')
else:
a_device_shadow = a_client.createShadowHandlerWithName(
SHADOW_SECURITY[location]['handler'], True)
device_shadows[location] = a_device_shadow
return(a_device_shadow)
def start():
logging.info("----- START OF THE IoT LOG -----")
try:
dir = os.path.dirname(os.path.realpath(__file__))
rootCAPath = dir + "/root-CA.crt"
certificatePath = dir + "/device.cert.pem"
privateKeyPath = dir + "/device.private.key"
streamHandler = logging.StreamHandler()
formatter = logging.Formatter('%(asctime)s - %(name)s - %(levelname)s - %(message)s')
streamHandler.setFormatter(formatter)
global myAWSIoTMQTTClient, host
myAWSIoTMQTTClient = AWSIoTMQTTShadowClient("pc")
myAWSIoTMQTTClient.configureEndpoint(host, 8883)
myAWSIoTMQTTClient.configureCredentials(rootCAPath, privateKeyPath, certificatePath)
# AWSIoTMQTTClient connection configuration
myAWSIoTMQTTClient.configureAutoReconnectBackoffTime(1, 32, 20)
myAWSIoTMQTTClient.configureConnectDisconnectTimeout(30)
myAWSIoTMQTTClient.configureMQTTOperationTimeout(10)
# Connect and subscribe to AWS IoT
myAWSIoTMQTTClient.connect(10)
global connection
connection = myAWSIoTMQTTClient.getMQTTConnection()
connection.configureAutoReconnectBackoffTime(1, 32, 20)
connection.configureDrainingFrequency(2) # Draining: 2 Hz
connection.configureConnectDisconnectTimeout(30) # 10 sec
connection.configureMQTTOperationTimeout(10) # 5 sec
connection.subscribe(topic, 1, customCallback)
SendMSG('{"to": "server", "client-id": "2", "info": "start-up"}')
except Exception as e:
logging.exception("Error IoT: " + str(e))
print("Error IoT: " + str(e))
import traceback
traceback.print_exc()
def getShadowClient(
host=host,
port=8883,
device=device,
clientId=clientId,
rootCa='{}/AmazonRootCA1.pem'.format(certPath),
private_key='{}/thing_private_key.pem.key'.format(certPath),
certificate='{}/thing_cert.pem.crt'.format(certPath)):
# Init AWSIoTMQTTClient
myAWSIoTMQTTClient = None
myAWSIoTMQTTClient = AWSIoTMQTTShadowClient(clientId)
myAWSIoTMQTTClient.configureEndpoint(host, port)
myAWSIoTMQTTClient.configureCredentials(rootCa, private_key, certificate)
# AWSIoTMQTTClient connection configuration
myAWSIoTMQTTClient.configureAutoReconnectBackoffTime(1, 32, 20)
myAWSIoTMQTTClient.configureConnectDisconnectTimeout(10) # 10 sec
myAWSIoTMQTTClient.configureMQTTOperationTimeout(5) # 5 sec
if not myAWSIoTMQTTClient.connect():
return None
return myAWSIoTMQTTClient
def __init__(self):
certificatePath, privateKeyPath = self._get_cert_files()
settings = self._get_settings()
host = settings['host_name']
rootCAPath = "cert/AmazonRootCA1.pem"
port = 8883
clientId = "coffee-panic-client"
# Init AWSIoTMQTTClient
client = AWSIoTMQTTShadowClient(clientId)
client.configureEndpoint(host, port)
client.configureCredentials(rootCAPath, privateKeyPath,
certificatePath)
# AWSIoTMQTTClient connection configuration
client.configureAutoReconnectBackoffTime(1, 32, 20)
client.configureConnectDisconnectTimeout(10) # 10 sec
client.configureMQTTOperationTimeout(5) # 5 sec
# Connect to AWS IoT
client.connect()
self.shadow_handler = client.createShadowHandlerWithName(
settings['thing_name'], True)
def get_device_shadow_handler():
congig_json = ThermoUtils.load("aws_iot_config.json")
endpoint = congig_json['endpoint']
root_ca_path = congig_json['rootCAPath']
certificate_path = congig_json['certificatePath']
private_key_path = congig_json['privateKeyPath']
thing_name = congig_json['thingName']
client_id = congig_json['clientId']
# Configure logging
logger = logging.getLogger("AWSIoTPythonSDK.core")
logger.setLevel(logging.INFO)
stream_handler = logging.StreamHandler()
formatter = logging.Formatter(
'%(asctime)s - %(name)s - %(levelname)s - %(message)s')
stream_handler.setFormatter(formatter)
logger.addHandler(stream_handler)
# Init AWSIoTMQTTShadowClient
mqtt_shadow_client = AWSIoTMQTTShadowClient(client_id)
mqtt_shadow_client.configureEndpoint(endpoint, 8883)
mqtt_shadow_client.configureCredentials(root_ca_path, private_key_path,
certificate_path)
# AWSIoTMQTTShadowClient configuration
mqtt_shadow_client.configureAutoReconnectBackoffTime(1, 32, 20)
mqtt_shadow_client.configureConnectDisconnectTimeout(10) # 10 sec
mqtt_shadow_client.configureMQTTOperationTimeout(5) # 5 sec
# Connect to AWS IoT
mqtt_shadow_client.connect()
# Create a deviceShadow with persistent subscription
device_shadow_handler = mqtt_shadow_client.createShadowHandlerWithName(
thing_name, True)
return device_shadow_handler
logger.addHandler(streamHandler) # Init AWSIoTMQTTShadowClient myAWSIoTMQTTShadowClient = None if useWebsocket: myAWSIoTMQTTShadowClient = AWSIoTMQTTShadowClient(clientId, useWebsocket=True) myAWSIoTMQTTShadowClient.configureEndpoint(host, 443) myAWSIoTMQTTShadowClient.configureCredentials(rootCAPath) else: myAWSIoTMQTTShadowClient = AWSIoTMQTTShadowClient(clientId) myAWSIoTMQTTShadowClient.configureEndpoint(host, 8883) myAWSIoTMQTTShadowClient.configureCredentials(rootCAPath, privateKeyPath, certificatePath) # AWSIoTMQTTShadowClient configuration myAWSIoTMQTTShadowClient.configureAutoReconnectBackoffTime(1, 32, 20) myAWSIoTMQTTShadowClient.configureConnectDisconnectTimeout(10) # 10 sec myAWSIoTMQTTShadowClient.configureMQTTOperationTimeout(5) # 5 sec # Connect to AWS IoT myAWSIoTMQTTShadowClient.connect() # Create a deviceShadow with persistent subscription deviceShadowHandler = myAWSIoTMQTTShadowClient.createShadowHandlerWithName(thingName, True) # Listen on deltas deviceShadowHandler.shadowRegisterDeltaCallback(customShadowCallback_Delta) # Loop forever while True: time.sleep(1)
class ThermoSimAppGUI:
_usage = """Usage:
Make sure that you put all your credentials under: ./certs/
with the following naming conventions:
Root CA file: *CA.crt
Certificate file (not required if using MQTT over WebSocket): *.pem.crt
Private key file (not required if using MQTT over WebSocket): *.pem.key
Use X.509 certificate based mutual authentication:
python ThermostatSimulatorApp -e <endpoint>
Use MQTT over WebSocket:
python ThermostatSimulatorApp -e <endpoint> -w
Type "python ThermostatSimulatorApp -h" for detailed command line options.
"""
_helpInfo = """Available command line options:
-e, --endpoint: Your custom AWS IoT custom endpoint
-w, --websocket: Use MQTT over websocket
-h, --help: Help infomation
"""
def __init__(self):
# Init data members
# Connection related
self._endpoint = ""
self._rootCAFilePathList = ""
self._certificateFilePathList = ""
self._privateKeyFilePathList = ""
self._useWebsocket = False
self._AWSIoTMQTTShadowClient = None
self._thermostatSimulatorShadowHandler = None
# GUI related
self._tkRootHandler = tkinter.Tk()
self._reportedDataVariable = None
self._reportedDataDisplayBox = None
self._desiredDataVariable = None
self._desiredDataDisplayBox = None
self._setTemperatureInputBox = None
self._setTemperatureButton = None
# Check command line inputs
if not self._checkInputs():
raise ValueError("Malformed/Missing command line inputs.")
# Create and configure AWSIoTMQTTShadowClient
self._AWSIoTMQTTShadowClient = AWSIoTMQTTShadowClient("ThermostatSimulatorApp", useWebsocket=self._useWebsocket)
if self._useWebsocket:
self._AWSIoTMQTTShadowClient.configureEndpoint(self._endpoint, 443)
self._AWSIoTMQTTShadowClient.configureCredentials(self._rootCAFilePathList[0])
else:
self._AWSIoTMQTTShadowClient.configureEndpoint(self._endpoint, 8883)
self._AWSIoTMQTTShadowClient.configureCredentials(self._rootCAFilePathList[0], self._privateKeyFilePathList[0], self._certificateFilePathList[0])
self._AWSIoTMQTTShadowClient.configureAutoReconnectBackoffTime(1, 128, 20)
self._AWSIoTMQTTShadowClient.configureConnectDisconnectTimeout(10)
self._AWSIoTMQTTShadowClient.configureMQTTOperationTimeout(5)
# Set keepAlive interval to be 1 second and connect
# Raise exception if there is an error in connecting to AWS IoT
self._AWSIoTMQTTShadowClient.connect(5)
self._thermostatSimulatorShadowHandler = self._AWSIoTMQTTShadowClient.createShadowHandlerWithName("room", True)
# Generate GUI
self._packModule()
# Validate command line inputs
# Return False there is any malformed inputs
# Return True if all the necessary inputs have been discovered
def _checkInputs(self):
gotEoughInputs = True
# Check command line inputs
try:
opts, args = getopt.getopt(sys.argv[1:], "hwe:", ["endpoint=", "websocket", "help"])
if len(opts) == 0:
raise getopt.GetoptError("No input parameters")
for opt, arg in opts:
if opt in ("-e", "--endpoint"):
self._endpoint = arg
if opt in ("-w", "--websocket"):
self._useWebsocket = True
if opt in ("-h", "--help"):
print(self._helpInfo)
gotEoughInputs = False
except getopt.GetoptError:
print(self._usage)
gotEoughInputs = False
# Check credential files
if gotEoughInputs:
self._rootCAFilePathList = glob.glob("./certs/*CA.crt")
if self._useWebsocket:
gotEoughInputs = gotEoughInputs and len(self._rootCAFilePathList) != 0
if not gotEoughInputs:
print("Missing rootCA in ./certs/")
else:
self._certificateFilePathList = glob.glob("./certs/*.pem.crt")
self._privateKeyFilePathList = glob.glob("./certs/*.pem.key")
gotEoughInputs = gotEoughInputs and len(self._rootCAFilePathList) != 0 and len(self._certificateFilePathList) != 0 and len(self._privateKeyFilePathList) != 0
if not gotEoughInputs:
print("Missing rootCA, certificate or private key in ./certs/")
return gotEoughInputs
def _packModule(self):
self._tkRootHandler.title("ThermostatSimulatorApp")
self._tkRootHandler.geometry("500x250")
self._tkRootHandler.resizable(width=False, height=False)
# Pack all frames
baseFrame = tkinter.Frame(self._tkRootHandler)
temperatureFrame = tkinter.Frame(baseFrame)
temperatureFrame.pack(side="top")
controlPanelFrame = tkinter.Frame(baseFrame)
controlPanelFrame.pack(side="bottom")
baseFrame.pack()
# Pack all modules for temperature frame
self._reportedDataVariable = tkinter.StringVar()
self._reportedDataVariable.set("XX.X F")
reportedDataTag = tkinter.Label(temperatureFrame, text="Reported Temperature:", justify="left")
self._reportedDataDisplayBox = tkinter.Label(temperatureFrame, textvariable=self._reportedDataVariable, font=("Arial", 55), justify="left")
#
self._desiredDataVariable = tkinter.StringVar()
self._desiredDataVariable.set("XX.X F")
desiredDataTag = tkinter.Label(temperatureFrame, text="Desired Temperature:", justify="left")
self._desiredDataDisplayBox = tkinter.Label(temperatureFrame, textvariable=self._desiredDataVariable, font=("Arial", 55), justify="left")
#
reportedDataTag.pack()
self._reportedDataDisplayBox.pack()
desiredDataTag.pack()
self._desiredDataDisplayBox.pack()
# Create a callback pool
self._callbackPoolHandler = ThermoSimAppCallbackPool(self._tkRootHandler, self._reportedDataDisplayBox, self._thermostatSimulatorShadowHandler, self._reportedDataVariable, self._desiredDataVariable)
# Pack all modules for control panel frame
self._setTemperatureInputBox = tkinter.Entry(controlPanelFrame)
self._setTemperatureInputBox.pack(sid="left")
self._setTemperatureButton = tkinter.Button(controlPanelFrame, text="SET", command=lambda: self._callbackPoolHandler.buttonCallback(self._setTemperatureInputBox, self._desiredDataVariable))
self._setTemperatureButton.pack()
def runApp(self):
# Start and run the app
self._tkRootHandler.after(500, self._callbackPoolHandler.sendShadowGetForReportedTemperature) # per 500ms
self._tkRootHandler.after(500, self._callbackPoolHandler.updateReportedTemperatureDataVariable) # per 500ms
self._tkRootHandler.mainloop()
s3 = boto3.client('s3', aws_access_key_id= open('keys.txt').readline().split(None, 1)[0],
aws_secret_access_key= open('keys.txt').readlines()[1].split(None, 1)[0])
s3.download_file('littercam','device-'+str(mac)+'/devicename.txt', 'devicename.txt')
devicename = open('devicename.txt').readline().split(None, 1)[0]
print(devicename)
ShadowClient = AWSIoTMQTTShadowClient("")
ShadowClient.configureEndpoint("a1oa9tg9lcso0.iot.eu-west-1.amazonaws.com", 8883)
ShadowClient.configureCredentials(get_rootca(),
get_private(),get_cert())
ShadowClient.configureAutoReconnectBackoffTime(1, 32, 20)
ShadowClient.configureConnectDisconnectTimeout(30) # 10 sec
ShadowClient.configureMQTTOperationTimeout(10) # 5 sec
ShadowClient.connect()
deviceShadowHandler = ShadowClient.createShadowHandlerWithName(devicename, True)
#shadowCallbackContainer_Bot = shadowCallbackContainer(deviceShadowHandler)
#deviceShadowHandler.shadowRegisterDeltaCallback(shadowCallbackContainer_Bot.customShadowCallback_Delta)
# MQTT Connection establishement
myMQTTClient = AWSIoTMQTTClient(devicename)
myMQTTClient.configureEndpoint("a1oa9tg9lcso0.iot.eu-west-1.amazonaws.com", 8883)
myMQTTClient.configureCredentials(get_rootca(),
get_private(),get_cert())