revert-dabc3590
ayyoob 9 years ago
commit 9e0fdca3ad

@ -19,7 +19,7 @@
<eventReceiver name="temperature-mqtt" statistics="disable" trace="disable" xmlns="http://wso2.org/carbon/eventreceiver">
<from eventAdapterType="oauth-mqtt">
<property name="topic">wso2/carbon.super/+/temperature</property>
<property name="topic">wso2/carbon.super/+/+/temperature</property>
<property name="username">admin</property>
<property name="contentValidationParams">device_id_json_path:event.metaData.deviceId,device_id_topic_hierarchy_index:3</property>
<property name="contentValidation">default</property>

@ -157,7 +157,7 @@ public class RaspberryPiManagerServiceImpl implements RaspberryPiManagerService
@Path("devices/download")
@GET
@Produces("application/zip")
public Response downloadSketch(@QueryParam("deviceName") String deviceName, @QueryParam("sketch_type") String sketchType) {
public Response downloadSketch(@QueryParam("deviceName") String deviceName, @QueryParam("sketchType") String sketchType) {
try {
ZipArchive zipFile = createDownloadFile(APIUtil.getAuthenticatedUser(), deviceName, sketchType);
Response.ResponseBuilder response = Response.ok(FileUtils.readFileToByteArray(zipFile.getZipFile()));

@ -22,11 +22,17 @@ import org.apache.commons.logging.Log;
import org.apache.commons.logging.LogFactory;
import org.eclipse.paho.client.mqttv3.MqttException;
import org.eclipse.paho.client.mqttv3.MqttMessage;
import org.json.JSONObject;
import org.wso2.carbon.apimgt.application.extension.APIManagementProviderService;
import org.wso2.carbon.apimgt.application.extension.dto.ApiApplicationKey;
import org.wso2.carbon.apimgt.application.extension.exception.APIManagerException;
import org.wso2.carbon.context.PrivilegedCarbonContext;
import org.wso2.carbon.device.mgt.common.Device;
import org.wso2.carbon.device.mgt.common.DeviceIdentifier;
import org.wso2.carbon.device.mgt.common.DeviceManagementException;
import org.wso2.carbon.device.mgt.core.service.DeviceManagementProviderService;
import org.wso2.carbon.device.mgt.iot.controlqueue.mqtt.MqttConfig;
import org.wso2.carbon.device.mgt.iot.raspberrypi.service.impl.exception.RaspberrypiException;
import org.wso2.carbon.device.mgt.iot.raspberrypi.service.impl.util.APIUtil;
import org.wso2.carbon.device.mgt.iot.raspberrypi.plugin.constants.RaspberrypiConstants;
import org.wso2.carbon.device.mgt.iot.transport.TransportHandlerException;
@ -37,11 +43,13 @@ import org.wso2.carbon.identity.jwt.client.extension.exception.JWTClientExceptio
import org.wso2.carbon.user.api.UserStoreException;
import java.nio.charset.StandardCharsets;
import java.security.PublicKey;
import java.util.UUID;
public class RaspberryPiMQTTConnector extends MQTTTransportHandler {
private static Log log = LogFactory.getLog(RaspberryPiMQTTConnector.class);
private static final String subscribeTopic = "wso2/" + RaspberrypiConstants.DEVICE_TYPE + "/+/publisher";
// subscribeTopic is not used for the RaspberryPi sample since the DAS device directly publishes to DAS MQTT receiver
private static final String subscribeTopic = "wso2/+/"+ RaspberrypiConstants.DEVICE_TYPE + "/+/publisher";
private static final String KEY_TYPE = "PRODUCTION";
private static final String EMPTY_STRING = "";
@ -104,7 +112,26 @@ public class RaspberryPiMQTTConnector extends MQTTTransportHandler {
}
@Override
public void processIncomingMessage(MqttMessage message, String... messageParams) throws TransportHandlerException {
public void publishDeviceData(String... publishData) throws TransportHandlerException {
if (publishData.length != 3) {
String errorMsg = "Incorrect number of arguments received to SEND-MQTT Message. " +
"Need to be [owner, deviceId, resource{BULB/TEMP}, state{ON/OFF or null}]";
log.error(errorMsg);
throw new TransportHandlerException(errorMsg);
}
String deviceId = publishData[0];
String resource = publishData[1];
String state = publishData[2];
MqttMessage pushMessage = new MqttMessage();
String publishTopic = "wso2/" + APIUtil.getTenantDomainOftheUser() + "/"
+ RaspberrypiConstants.DEVICE_TYPE + "/" + deviceId;
String actualMessage = resource + ":" + state;
pushMessage.setPayload(actualMessage.getBytes(StandardCharsets.UTF_8));
pushMessage.setQos(DEFAULT_MQTT_QUALITY_OF_SERVICE);
pushMessage.setRetained(false);
publishToQueue(publishTopic, pushMessage);
}
@Override
@ -135,6 +162,10 @@ public class RaspberryPiMQTTConnector extends MQTTTransportHandler {
terminatorThread.start();
}
@Override
public void processIncomingMessage(MqttMessage mqttMessage, String... messageParams) throws TransportHandlerException {
}
@Override
public void processIncomingMessage() throws TransportHandlerException {
@ -154,28 +185,5 @@ public class RaspberryPiMQTTConnector extends MQTTTransportHandler {
public void publishDeviceData(MqttMessage publishData) throws TransportHandlerException {
}
@Override
public void publishDeviceData(String... publishData) throws TransportHandlerException {
if (publishData.length != 3) {
String errorMsg = "Incorrect number of arguments received to SEND-MQTT Message. " +
"Need to be [owner, deviceId, resource{BULB/TEMP}, state{ON/OFF or null}]";
log.error(errorMsg);
throw new TransportHandlerException(errorMsg);
}
String deviceId = publishData[0];
String resource = publishData[1];
String state = publishData[2];
MqttMessage pushMessage = new MqttMessage();
String publishTopic = "wso2/" + APIUtil.getTenantDomainOftheUser() + "/"
+ RaspberrypiConstants.DEVICE_TYPE + "/" + deviceId;
String actualMessage = resource + ":" + state;
pushMessage.setPayload(actualMessage.getBytes(StandardCharsets.UTF_8));
pushMessage.setQos(DEFAULT_MQTT_QUALITY_OF_SERVICE);
pushMessage.setRetained(false);
publishToQueue(publishTopic, pushMessage);
}
}

@ -65,7 +65,7 @@
<div class="controls">
<input class="new-device-name" style="color:#3f3f3f;padding:5px"
type="text"
placeholder="Ex. Lobby_DigitalDisplay"
placeholder="Ex. Lobby_RaspberryPi"
name="deviceName" size="60" required>
<br/>
<input type="hidden" class="deviceType" name="deviceType"

@ -69,7 +69,7 @@ public class VirtualFireAlarmMQTTConnector extends MQTTTransportHandler {
private static Log log = LogFactory.getLog(VirtualFireAlarmMQTTConnector.class);
// subscription topic: <SERVER_NAME>/+/virtual_firealarm/+/publisher
// wildcard (+) is in place for device_owner & device_id
private static String subscribeTopic = "wso2/+/"+ VirtualFireAlarmConstants.DEVICE_TYPE + "/+/publisher";
private static final String subscribeTopic = "wso2/+/"+ VirtualFireAlarmConstants.DEVICE_TYPE + "/+/publisher";
private static String iotServerSubscriber = UUID.randomUUID().toString().substring(0, 5);
private static final String KEY_TYPE = "PRODUCTION";
private static final String EMPTY_STRING = "";

@ -20,6 +20,8 @@ owner=${DEVICE_OWNER}
deviceId=${DEVICE_ID}
device-name=${DEVICE_NAME}
controller-context=/raspberrypi/controller
mqtt-sub-topic=wso2/{owner}/raspberrypi/{deviceId}
mqtt-pub-topic=wso2/{owner}/raspberrypi/{deviceId}/publisher
https-ep=${HTTPS_EP}
http-ep=${HTTP_EP}
apim-ep=${APIM_EP}

@ -22,22 +22,22 @@
import logging, logging.handlers
import sys, os, signal, argparse
import running_mode
import time, threading, datetime
import time, threading, datetime, calendar
import httplib, ssl
from functools import wraps
# import httplib, ssl
# from functools import wraps
# ~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~
# Overriding the default SSL version used in some of the Python (2.7.x) versions
# This is a known issue in earlier Python releases
# But was fixed in later versions. Ex-2.7.11
# ~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~
def sslwrap(func):
@wraps(func)
def bar(*args, **kw):
kw['ssl_version'] = ssl.PROTOCOL_TLSv1
return func(*args, **kw)
return bar
# def sslwrap(func):
# @wraps(func)
# def bar(*args, **kw):
# kw['ssl_version'] = ssl.PROTOCOL_TLSv1
# return func(*args, **kw)
# return bar
# ~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~
PUSH_INTERVAL = 5000 # time interval between successive data pushes in seconds
@ -81,7 +81,8 @@ if args.interval:
if args.mode:
running_mode.RUNNING_MODE = args.mode
iotUtils = __import__('iotUtils')
httpServer = __import__('httpServer') # python script used to start a http-server to listen for operations
mqttConnector = __import__('mqttConnector')
# httpServer = __import__('httpServer') # python script used to start a http-server to listen for operations
# (includes the TEMPERATURE global variable)
if running_mode.RUNNING_MODE == 'N':
@ -92,16 +93,16 @@ if args.mode:
# ~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~
# Endpoint specific settings to which the data is pushed
# ~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~
DC_ENDPOINT = iotUtils.HTTPS_EP.split(":")
DC_IP = DC_ENDPOINT[1].replace('//', '')
DC_PORT = int(DC_ENDPOINT[2])
DC_ENDPOINT_CONTEXT = iotUtils.CONTROLLER_CONTEXT
PUSH_ENDPOINT = str(DC_ENDPOINT_CONTEXT) + '/push_temperature/'
REGISTER_ENDPOINT = str(DC_ENDPOINT_CONTEXT) + '/register'
HOST = iotUtils.getDeviceIP()
HOST_HTTP_SERVER_PORT = iotUtils.getHTTPServerPort()
HOST_AND_PORT = str(HOST)+ ":" + str(HOST_HTTP_SERVER_PORT)
# DC_ENDPOINT = iotUtils.HTTPS_EP.split(":")
# DC_IP = DC_ENDPOINT[1].replace('//', '')
# DC_PORT = int(DC_ENDPOINT[2])
# DC_ENDPOINT_CONTEXT = iotUtils.CONTROLLER_CONTEXT
# PUSH_ENDPOINT = str(DC_ENDPOINT_CONTEXT) + '/push_temperature/'
# REGISTER_ENDPOINT = str(DC_ENDPOINT_CONTEXT) + '/register'
# HOST = iotUtils.getDeviceIP()
# HOST_HTTP_SERVER_PORT = iotUtils.getHTTPServerPort()
# HOST_AND_PORT = str(HOST)+ ":" + str(HOST_HTTP_SERVER_PORT)
### ~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~
@ -142,32 +143,32 @@ def configureLogger(loggerName):
# ~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~
# This method registers the DevieIP in the Device-Cloud
# ~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~
def registerDeviceIP():
ssl.wrap_socket = sslwrap(ssl.wrap_socket) # using the overridden sslwrap that uses TLSv1
if sys.version_info<(2,7,9):
dcConncection = httplib.HTTPSConnection(host=DC_IP, port=DC_PORT)
else:
dcConncection = httplib.HTTPSConnection(host=DC_IP, port=DC_PORT, context=ssl._create_unverified_context())
#TODO need to get server certificate when initializing https connection
dcConncection.set_debuglevel(1)
dcConncection.connect()
registerURL = str(REGISTER_ENDPOINT) + '/' + str(iotUtils.DEVICE_OWNER) + '/' + str(iotUtils.DEVICE_ID) + '/' + \
str(HOST) + '/' + str(HOST_HTTP_SERVER_PORT) + '/'
dcConncection.putrequest('POST', registerURL)
dcConncection.putheader('Authorization', 'Bearer ' + iotUtils.AUTH_TOKEN)
dcConncection.endheaders()
dcResponse = dcConncection.getresponse()
print '~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~'
print ('RASPBERRY_STATS: ' + str(registerURL))
print ('RASPBERRY_STATS: ' + str(dcResponse.status))
print ('RASPBERRY_STATS: ' + str(dcResponse.reason))
print ('RASPBERRY_STATS: Response Message')
print str(dcResponse.msg)
dcConncection.close()
print '~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~'
# def registerDeviceIP():
# ssl.wrap_socket = sslwrap(ssl.wrap_socket) # using the overridden sslwrap that uses TLSv1
# if sys.version_info<(2,7,9):
# dcConncection = httplib.HTTPSConnection(host=DC_IP, port=DC_PORT)
# else:
# dcConncection = httplib.HTTPSConnection(host=DC_IP, port=DC_PORT, context=ssl._create_unverified_context())
# #TODO need to get server certificate when initializing https connection
# dcConncection.set_debuglevel(1)
# dcConncection.connect()
#
# registerURL = str(REGISTER_ENDPOINT) + '/' + str(iotUtils.DEVICE_OWNER) + '/' + str(iotUtils.DEVICE_ID) + '/' + \
# str(HOST) + '/' + str(HOST_HTTP_SERVER_PORT) + '/'
# dcConncection.putrequest('POST', registerURL)
# dcConncection.putheader('Authorization', 'Bearer ' + iotUtils.AUTH_TOKEN)
# dcConncection.endheaders()
# dcResponse = dcConncection.getresponse()
#
# print '~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~'
# print ('RASPBERRY_STATS: ' + str(registerURL))
# print ('RASPBERRY_STATS: ' + str(dcResponse.status))
# print ('RASPBERRY_STATS: ' + str(dcResponse.reason))
# print ('RASPBERRY_STATS: Response Message')
# print str(dcResponse.msg)
#
# dcConncection.close()
# print '~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~'
### ~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~
@ -175,44 +176,54 @@ def registerDeviceIP():
# This method connects to the Device-Cloud and pushes data
# ~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~
def connectAndPushData():
if sys.version_info<(2,7,9):
dcConnection = httplib.HTTPSConnection(host=DC_IP, port=DC_PORT)
else:
dcConnection = httplib.HTTPSConnection(host=DC_IP, port=DC_PORT, context=ssl._create_unverified_context())
dcConnection.set_debuglevel(1)
dcConnection.connect()
request = dcConnection.putrequest('POST', PUSH_ENDPOINT)
dcConnection.putheader('Authorization', 'Bearer ' + iotUtils.AUTH_TOKEN)
dcConnection.putheader('Content-Type', 'application/json')
### ~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~
### Read the Temperature and Load info of RPi and construct payload
### ~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~
currentTime = calendar.timegm(time.gmtime())
rPiTemperature = iotUtils.LAST_TEMP # Push the last read temperature value
PUSH_DATA = iotUtils.DEVICE_INFO + iotUtils.DEVICE_IP.format(ip=HOST_AND_PORT) + iotUtils.DEVICE_DATA.format(
temperature=rPiTemperature)
PUSH_DATA += '}'
dcConnection.putheader('Content-Length', len(PUSH_DATA))
dcConnection.endheaders()
print PUSH_DATA
print '~~~~~~~~~~~~~~~~~~~~~~~~ Pushing Device-Data ~~~~~~~~~~~~~~~~~~~~~~~~~'
dcConnection.send(PUSH_DATA) # Push the data
dcResponse = dcConnection.getresponse()
print '~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~'
print ('RASPBERRY_STATS: ' + str(dcResponse.status))
print ('RASPBERRY_STATS: ' + str(dcResponse.reason))
print ('RASPBERRY_STATS: Response Message')
print str(dcResponse.msg)
print '~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~'
dcConnection.close()
if (dcResponse.status == 409 or dcResponse.status == 412):
print 'RASPBERRY_STATS: Re-registering Device IP'
registerDeviceIP()
PUSH_DATA = iotUtils.DEVICE_INFO.format(currentTime, rPiTemperature)
print '~~~~~~~~~~~~~~~~~~~~~~~~ Publishing Device-Data ~~~~~~~~~~~~~~~~~~~~~~~~~'
print ('PUBLISHED DATA: ' + PUSH_DATA)
print ('PUBLISHED TOPIC: ' + mqttConnector.TOPIC_TO_PUBLISH)
mqttConnector.publish(PUSH_DATA)
# print '~~~~~~~~~~~~~~~~~~~~~~~~ End Of Publishing ~~~~~~~~~~~~~~~~~~~~~~~~~'
# if sys.version_info<(2,7,9):
# dcConnection = httplib.HTTPSConnection(host=DC_IP, port=DC_PORT)
# else:
# dcConnection = httplib.HTTPSConnection(host=DC_IP, port=DC_PORT, context=ssl._create_unverified_context())
# dcConnection.set_debuglevel(1)
# dcConnection.connect()
# request = dcConnection.putrequest('POST', PUSH_ENDPOINT)
# dcConnection.putheader('Authorization', 'Bearer ' + iotUtils.AUTH_TOKEN)
# dcConnection.putheader('Content-Type', 'application/json')
# ### ~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~
# ### Read the Temperature and Load info of RPi and construct payload
# ### ~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~
# rPiTemperature = iotUtils.LAST_TEMP # Push the last read temperature value
# PUSH_DATA = iotUtils.DEVICE_INFO + iotUtils.DEVICE_IP.format(ip=HOST_AND_PORT) + iotUtils.DEVICE_DATA.format(
# temperature=rPiTemperature)
# PUSH_DATA += '}'
# dcConnection.putheader('Content-Length', len(PUSH_DATA))
# dcConnection.endheaders()
# print PUSH_DATA
# print '~~~~~~~~~~~~~~~~~~~~~~~~ Pushing Device-Data ~~~~~~~~~~~~~~~~~~~~~~~~~'
# dcConnection.send(PUSH_DATA) # Push the data
# dcResponse = dcConnection.getresponse()
# print '~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~'
# print ('RASPBERRY_STATS: ' + str(dcResponse.status))
# print ('RASPBERRY_STATS: ' + str(dcResponse.reason))
# print ('RASPBERRY_STATS: Response Message')
# print str(dcResponse.msg)
# print '~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~'
# dcConnection.close()
# if (dcResponse.status == 409 or dcResponse.status == 412):
# print 'RASPBERRY_STATS: Re-registering Device IP'
# registerDeviceIP()
### ~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~
@ -249,9 +260,9 @@ class TemperatureReaderThread(object):
print 'RASPBERRY_STATS: Temp={0:0.1f}*C Humidity={1:0.1f}%'.format(temperature, humidity)
except Exception, e:
print '~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~'
print "RASPBERRY_STATS: Exception in TempReaderThread: Could not successfully read Temperature"
print ("RASPBERRY_STATS: " + str(e))
print '~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~'
pass
time.sleep(self.interval)
# ~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~
@ -282,6 +293,19 @@ class ListenHTTPServerThread(object):
httpServer.main()
# ~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~
# ~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~
# This is a Thread object for connecting and subscribing to an MQTT Queue
# ~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~
class SubscribeToMQTTQueue(object):
def __init__(self):
thread = threading.Thread(target=self.run, args=())
thread.daemon = True # Daemonize thread
thread.start() # Start the execution
def run(self):
mqttConnector.main()
# ~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~
# ~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~
# When sysvinit sends the TERM signal, cleanup before exiting
@ -300,12 +324,11 @@ signal.signal(signal.SIGTERM, sigterm_handler)
# ~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~
def main():
configureLogger("WSO2IOT_RPiStats")
if running_mode.RUNNING_MODE == 'N':
iotUtils.setUpGPIOPins()
UtilsThread()
registerDeviceIP() # Call the register endpoint and register Device IP
# registerDeviceIP() # Call the register endpoint and register Device IP
# ListenHTTPServerThread() # starts an HTTP Server that listens for operational commands to switch ON/OFF Led
SubscribeToMQTTQueue() # connects and subscribes to an MQTT Queue that receives MQTT commands from the server
TemperatureReaderThread() # initiates and runs the thread to continuously read temperature from DHT Sensor
ListenHTTPServerThread() # starts an HTTP Server that listens for operational commands to switch ON/OFF Led
while True:
try:
if iotUtils.LAST_TEMP > 0: # Push data only if there had been a successful temperature read

@ -1,33 +0,0 @@
#
# Copyright (c) 2015, WSO2 Inc. (http://www.wso2.org) All Rights Reserved.
#
# Licensed under the Apache License, Version 2.0 (the "License");
# you may not use this file except in compliance with the License.
# You may obtain a copy of the License at
#
# http://www.apache.org/licenses/LICENSE-2.0
#
# Unless required by applicable law or agreed to in writing, software
# distributed under the License is distributed on an "AS IS" BASIS,
# WITHOUT WARRANTIES OR CONDITIONS OF ANY KIND, either express or implied.
# See the License for the specific language governing permissions and
# limitations under the License.
#
#
[Device-Configurations]
server-name=${SERVER_NAME}
owner=${DEVICE_OWNER}
deviceId=${DEVICE_ID}
device-name=${DEVICE_NAME}
controller-context=/raspberrypi/controller
https-ep=${HTTPS_EP}
http-ep=${HTTP_EP}
apim-ep=${APIM_EP}
mqtt-ep=${MQTT_EP}
xmpp-ep=${XMPP_EP}
auth-method=token
auth-token=${DEVICE_TOKEN}
refresh-token=${DEVICE_REFRESH_TOKEN}
push-interval=15

@ -52,18 +52,27 @@ configParser = ConfigParser.RawConfigParser()
configFilePath = os.path.join(os.path.dirname(__file__), './deviceConfig.properties')
configParser.read(configFilePath)
SERVER_NAME = configParser.get('Device-Configurations', 'server-name')
DEVICE_OWNER = configParser.get('Device-Configurations', 'owner')
DEVICE_ID = configParser.get('Device-Configurations', 'deviceId')
MQTT_EP = configParser.get('Device-Configurations', 'mqtt-ep')
XMPP_EP = configParser.get('Device-Configurations', 'xmpp-ep')
AUTH_TOKEN = configParser.get('Device-Configurations', 'auth-token')
CONTROLLER_CONTEXT = configParser.get('Device-Configurations', 'controller-context')
DEVICE_INFO = '{"owner":"' + DEVICE_OWNER + '","deviceId":"' + DEVICE_ID + '","reply":'
MQTT_SUB_TOPIC = configParser.get('Device-Configurations', 'mqtt-sub-topic').format(owner = DEVICE_OWNER, deviceId = DEVICE_ID)
MQTT_PUB_TOPIC = configParser.get('Device-Configurations', 'mqtt-pub-topic').format(owner = DEVICE_OWNER, deviceId = DEVICE_ID)
DEVICE_INFO = '{{"event":{{"metaData":{{"owner":"' + DEVICE_OWNER + '","type":"raspberrypi","deviceId":"' + DEVICE_ID + '","time":{:.2f}}},"payloadData":{{"temperature":{:.2f}}}}}}}'
# '{"owner":"' + DEVICE_OWNER + '","deviceId":"' + DEVICE_ID + '","temperature":'
HTTPS_EP = configParser.get('Device-Configurations', 'https-ep')
HTTP_EP = configParser.get('Device-Configurations', 'http-ep')
APIM_EP = configParser.get('Device-Configurations', 'apim-ep')
DEVICE_IP = '"{ip}","value":'
DEVICE_DATA = '"{temperature}"' # '"{temperature}:{load}:OFF"'
# DEVICE_IP = '"{ip}","value":'
# DEVICE_DATA = '"{temperature}"' # '"{temperature}:{load}:OFF"'
# {"event": {"metaData": {"owner": "admin", "type": "arduino","deviceId": "s15kdwf34vue","time": 0},"payloadData": { "temperature": 22} }}
### ~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~
@ -73,6 +82,7 @@ DEVICE_DATA = '"{temperature}"' # '"{temperature}:{load}:OFF"'
# Method used to switch ON/OFF the LED attached to RPi
# ~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~
def switchBulb(state):
print '~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~'
print "Requested Switch State: " + state
if running_mode.RUNNING_MODE == "N":
@ -88,7 +98,6 @@ def switchBulb(state):
print "BULB Switched ON"
elif state == "OFF":
print "BULB Switched OFF"
print '~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~'
# ~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~
@ -174,7 +183,7 @@ def setUpGPIOPins():
# ~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~
def main():
global HOST_NAME
HOST_NAME = getDeviceIP()
# HOST_NAME = getDeviceIP()
if running_mode.RUNNING_MODE == 'N':
setUpGPIOPins()

@ -0,0 +1,132 @@
#!/usr/bin/env python
"""
/**
* Copyright (c) 2015, WSO2 Inc. (http://www.wso2.org) All Rights Reserved.
*
* WSO2 Inc. licenses this file to you under the Apache License,
* Version 2.0 (the "License"); you may not use this file except
* in compliance with the License.
* You may obtain a copy of the License at
*
* http://www.apache.org/licenses/LICENSE-2.0
*
* Unless required by applicable law or agreed to in writing,
* software distributed under the License is distributed on an
* "AS IS" BASIS, WITHOUT WARRANTIES OR CONDITIONS OF ANY
* KIND, either express or implied. See the License for the
* specific language governing permissions and limitations
* under the License.
**/
"""
import time
import iotUtils
import paho.mqtt.client as mqtt
# The callback for when the client receives a CONNACK response from the server.
def on_connect(client, userdata, flags, rc):
print("MQTT_LISTENER: Connected with result code " + str(rc))
# Subscribing in on_connect() means that if we lose the connection and
# reconnect then subscriptions will be renewed.
print ("MQTT_LISTENER: Subscribing with topic " + TOPIC_TO_SUBSCRIBE)
client.subscribe(TOPIC_TO_SUBSCRIBE)
# The callback for when a PUBLISH message is received from the server.
def on_message(client, userdata, msg):
print '~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~'
print 'MQTT_LISTENER: Message Received by Device'
print( "MQTT_LISTENER: " + msg.topic + " --> " + str(msg.payload) )
request = str(msg.payload)
resource = request.split(":")[0].upper()
state = request.split(":")[1].upper()
print "MQTT_LISTENER: Resource- " + resource
if resource == "TEMP":
pass
#request.send_response(200)
#request.send_header("Content-type", "text/plain")
#request.end_headers()
#request.wfile.write(LAST_TEMP)
# return
elif resource == "BULB":
iotUtils.switchBulb(state)
def on_publish(client, userdata, mid):
print '~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~'
print 'Temperature Data Published Succesfully'
# print (client)
# print (userdata)
# print (mid)
# ~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~
# The callback for when a PUBLISH message to the server when door is open or close
# ~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~
def publish(msg):
# global mqttClient
mqttClient.publish(TOPIC_TO_PUBLISH, msg)
# ~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~
# The Main method of the server script
# This method is invoked from RaspberryStats.py on a new thread
# ~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~
def main():
MQTT_ENDPOINT = iotUtils.MQTT_EP.split(":")
MQTT_IP = MQTT_ENDPOINT[1].replace('//','')
MQTT_PORT = int(MQTT_ENDPOINT[2])
SERVER_NAME = iotUtils.SERVER_NAME
DEV_ID = iotUtils.DEVICE_ID
global TOPIC_TO_SUBSCRIBE
# TOPIC_TO_SUBSCRIBE = SERVER_NAME + "/raspberrypi/" + DEV_ID
TOPIC_TO_SUBSCRIBE = SERVER_NAME + "/raspberrypi/" + DEV_ID
global TOPIC_TO_PUBLISH
# TOPIC_TO_PUBLISH = SERVER_NAME + "/raspberrypi/" + DEV_ID + "/publisher"
TOPIC_TO_PUBLISH = SERVER_NAME + "/raspberrypi/" + DEV_ID + "/temperature"
print ("MQTT_LISTENER: MQTT_ENDPOINT is " + str(MQTT_ENDPOINT))
print ("MQTT_LISTENER: MQTT_TOPIC is " + TOPIC_TO_SUBSCRIBE)
global mqttClient
mqttClient = mqtt.Client()
mqttClient.on_connect = on_connect
mqttClient.on_message = on_message
mqttClient.on_publish = on_publish
mqttClient.username_pw_set(iotUtils.AUTH_TOKEN, password = "")
while True:
try:
mqttClient.connect(MQTT_IP, MQTT_PORT, 180)
print "MQTT_LISTENER: " + time.asctime(), "Connected to MQTT Broker - %s:%s" % (MQTT_IP, MQTT_PORT)
# Blocking call that processes network traffic, dispatches callbacks and
# handles reconnecting.
# Other loop*() functions are available that give a threaded interface and a
# manual interface.
mqttClient.loop_forever()
except (KeyboardInterrupt, Exception) as e:
print "MQTT_LISTENER: Exception in MQTTServerThread (either KeyboardInterrupt or Other)"
print ("MQTT_LISTENER: " + str(e))
mqttClient.disconnect()
print "MQTT_LISTENER: " + time.asctime(), "Connection to Broker closed - %s:%s" % (MQTT_IP, MQTT_PORT)
print '~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~'
pass
if __name__ == '__main__':
iotUtils.setUpGPIOPins()
main()

@ -97,14 +97,26 @@ done
cp deviceConfig.properties ./src
if [ "$mode" = "N" ]; then
# Install RPi.GPIO Library for Accessing RPi GPIO Pins
sudo apt-get install rpi.gpio
# -----------------------------------------------------
# Install Adafruit_Python_DHT Library for reading DHT Sensor
git clone https://github.com/adafruit/Adafruit_Python_DHT.git
sudo apt-get install build-essential python-dev python-openssl
sudo python ./Adafruit_Python_DHT/setup.py install
cd ./Adafruit_Python_DHT
sudo python setup.py install
cd ..
# -----------------------------------------------------
# Install Paho-MQTT-Library for MQTT Communication
git clone https://github.com/eclipse/paho.mqtt.python.git
cd ./paho.mqtt.python
sudo python setup.py install
cd ..
# -----------------------------------------------------
fi
chmod +x ./src/RaspberryAgent.py
./src/RaspberryAgent.py -i $input -m $mode
sudo python ./src/RaspberryAgent.py -i $input -m $mode
if [ $? -ne 0 ]; then
echo "Could not start the service..."

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