added the raspi-alarm scripts

merge-requests/1/head
Shabir Mohamed 9 years ago
parent aac8923fa2
commit 128791af39

@ -0,0 +1,325 @@
#!/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 logging, logging.handlers
import sys, os, signal, argparse
import httplib, time
import threading
import Adafruit_DHT # Adafruit library required for temperature sensing
import iotUtils
import httpServer # python script used to start a http-server to listen for operations (includes the TEMPERATURE global variable)
import xmppServer # python script used to communicate with xmpp server
import mqttListener # python script used to accept messages via mqtt
PUSH_INTERVAL = 300 # time interval between successive data pushes in seconds
logging_enabled = True
# ~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~
# Endpoint specific settings to which the data is pushed
# ~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~
DC_IP = '204.232.188.214' #'192.168.57.128'
DC_PORT = 8281
HOST = DC_IP + ':' + `DC_PORT`
DC_ENDPOINT = '/firealarm/1.0/controller' #'/firealarm/1.0/'
PUSH_ENDPOINT = DC_ENDPOINT + '/push_temperature'
REGISTER_ENDPOINT = DC_ENDPOINT + '/register'
### ~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~
# ~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~
# Logger defaults
# ~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~
LOG_FILENAME = "/usr/local/src/RaspberryAgent/logs/RaspberryStats.log"
LOG_LEVEL = logging.INFO # Could be e.g. "DEBUG" or "WARNING"
### ~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~
# ~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~
# Define and parse command line arguments
# If the log file is specified on the command line then override the default
# ~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~
parser = argparse.ArgumentParser(description="Python service to push RPi info to the Device Cloud")
parser.add_argument("-l", "--log", help="file to write log to (default '" + LOG_FILENAME + "')")
help_string = "time interval between successive data pushes (default '" + str(PUSH_INTERVAL) + "')"
parser.add_argument("-i", "--interval", type=int, help=help_string)
args = parser.parse_args()
if args.log:
LOG_FILENAME = args.log
if args.interval:
PUSH_INTERVAL = args.interval
### ~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~
# ~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~
# A class we can use to capture stdout and sterr in the log
# ~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~
class IOTLogger(object):
def __init__(self, logger, level):
"""Needs a logger and a logger level."""
self.logger = logger
self.level = level
def write(self, message):
if message.rstrip() != "": # Only log if there is a message (not just a new line)
self.logger.log(self.level, message.rstrip())
### ~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~
# ~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~
# Configure logging to log to a file,
# making a new file at midnight and keeping the last 3 day's data
# ~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~
def configureLogger(loggerName):
logger = logging.getLogger(loggerName)
logger.setLevel(LOG_LEVEL) # Set the log level to LOG_LEVEL
handler = logging.handlers.TimedRotatingFileHandler(LOG_FILENAME, when="midnight", backupCount=3) # Handler that writes to a file,
# ~~~make new file at midnight and keep 3 backups
formatter = logging.Formatter('%(asctime)s %(levelname)-8s %(message)s') # Format each log message like this
handler.setFormatter(formatter) # Attach the formatter to the handler
logger.addHandler(handler) # Attach the handler to the logger
if(logging_enabled):
sys.stdout = IOTLogger(logger, logging.INFO) # Replace stdout with logging to file at INFO level
sys.stderr = IOTLogger(logger, logging.ERROR) # Replace stderr with logging to file at ERROR level
### ~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~
# ~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~
# This method registers the DevieIP in the Device-Cloud
# ~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~
def registerDeviceIP():
dcConncection = httplib.HTTPConnection(DC_IP, DC_PORT)
dcConncection.set_debuglevel(1)
dcConncection.connect()
registerURL = REGISTER_ENDPOINT + '/' + iotUtils.DEVICE_OWNER + '/' + iotUtils.DEVICE_ID + '/' + iotUtils.HOST_NAME
dcConncection.putrequest('POST', registerURL)
dcConncection.putheader('Authorization', 'Bearer ' + iotUtils.AUTH_TOKEN)
dcConncection.endheaders()
dcConncection.send('')
dcResponse = dcConncection.getresponse()
print '~~~~~~~~~~~~~~~~~~~~~~~~ Device Registration ~~~~~~~~~~~~~~~~~~~~~~~~~'
print registerURL
print dcResponse.status, dcResponse.reason
print dcResponse.msg
dcConncection.close()
print '~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~'
### ~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~
# ~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~
# This method connects to the Device-Cloud and pushes data
# ~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~
def connectAndPushData():
dcConncection = httplib.HTTPConnection(DC_IP, DC_PORT)
dcConncection.set_debuglevel(1)
dcConncection.connect()
request = dcConncection.putrequest('POST', PUSH_ENDPOINT)
headers = {}
headers['Authorization'] = 'Bearer ' + iotUtils.AUTH_TOKEN
headers['Content-Type'] = 'application/json'
### ~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~
### Read the Temperature and Load info of RPi and construct payload
### ~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~
# rPiTemperature=getCPUTemp() # Can be used if required to push CPU Temperature
# rPiLoad = getCPULoad() # Can be used if required to push CPU Load
### ~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~
rPiTemperature = iotUtils.LAST_TEMP # Push the last read temperature value
PUSH_DATA = iotUtils.DEVICE_INFO + iotUtils.DEVICE_IP.format(ip=iotUtils.HOST_NAME) + iotUtils.DEVICE_DATA.format(temperature=rPiTemperature)
PUSH_DATA += '}'
print PUSH_DATA
headers['Content-Length'] = len(PUSH_DATA)
for k in headers:
dcConncection.putheader(k, headers[k])
dcConncection.endheaders()
dcConncection.send(PUSH_DATA) # Push the data
dcResponse = dcConncection.getresponse()
print dcResponse.status, dcResponse.reason
print dcResponse.msg
dcConncection.close()
print '~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~'
if (dcResponse.status == 409 or dcResponse.status == 412):
print 'Re-registering Device IP'
registerDeviceIP()
### ~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~
# ~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~
# This is a Thread object for reading temperature continuously
# ~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~
class TemperatureReaderThread(object):
def __init__(self, interval=3):
self.interval = interval
thread = threading.Thread(target=self.run, args=())
thread.daemon = True # Daemonize thread
thread.start() # Start the execution
def run(self):
TEMP_PIN = 4
TEMP_SENSOR_TYPE = 11
# Try to grab a sensor reading. Use the read_retry method which will retry up
# to 15 times to get a sensor reading (waiting 2 seconds between each retry).
while True:
try:
humidity, temperature = Adafruit_DHT.read_retry(TEMP_SENSOR_TYPE, TEMP_PIN)
if temperature != iotUtils.LAST_TEMP:
iotUtils.LAST_TEMP = temperature
connectAndPushData()
iotUtils.LAST_TEMP = temperature
print 'Temp={0:0.1f}*C Humidity={1:0.1f}%'.format(temperature, humidity)
except Exception, e:
print "Exception in TempReaderThread: Could not successfully read Temperature"
print str(e)
print '~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~'
pass
time.sleep(self.interval)
# ~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~
# ~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~
# This is a Thread object for listening for MQTT Messages
# ~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~
class UtilsThread(object):
def __init__(self):
thread = threading.Thread(target=self.run, args=())
thread.daemon = True # Daemonize thread
thread.start() # Start the execution
def run(self):
iotUtils.main()
# ~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~
# ~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~
# This is a Thread object for HTTP-Server that listens for operations on RPi
# ~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~
class ListenHTTPServerThread(object):
def __init__(self):
thread = threading.Thread(target=self.run, args=())
thread.daemon = True # Daemonize thread
thread.start() # Start the execution
def run(self):
httpServer.main()
# ~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~
# ~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~
# This is a Thread object for Server that listens for XMPP Messages
# ~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~
class ListenXMPPServerThread(object):
def __init__(self):
thread = threading.Thread(target=self.run, args=())
thread.daemon = True # Daemonize thread
thread.start() # Start the execution
def run(self):
xmppServer.main()
# ~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~
# ~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~
# This is a Thread object for listening for MQTT Messages
# ~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~
class ListenMQTTThread(object):
def __init__(self):
thread = threading.Thread(target=self.run, args=())
thread.daemon = True # Daemonize thread
thread.start() # Start the execution
def run(self):
mqttListener.main()
# ~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~
# ~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~
# The Main method of the RPi Agent
# ~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~
def main():
configureLogger("WSO2IOT_RPiStats")
# iotUtils.setUpGPIOPins()
UtilsThread()
registerDeviceIP() # Call the register endpoint and register Device IP
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
ListenXMPPServerThread()
ListenMQTTThread()
while True:
try:
if iotUtils.LAST_TEMP > 0: # Push data only if there had been a successful temperature read
connectAndPushData() # Push Sensor (Temperature) data to WSO2 BAM
time.sleep(PUSH_INTERVAL)
except (KeyboardInterrupt, Exception) as e:
print "Exception in RaspberryAgentThread (either KeyboardInterrupt or Other):"
print str(e)
print '~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~'
pass
# ~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~
if __name__ == "__main__":
main()

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#!/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 BaseHTTPServer
import iotUtils
# ~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~
# HOST and PORT info of the HTTP Server that gets started
# HOST_NAME is initialised in the main() method
# ~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~
#global HOST_NAME
#HOST_NAME = "0.0.0.0"
SERVER_PORT = 80 # Maybe set this to 9000.
# ~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~
# ~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~
# Class that handles HTTP GET requests for operations on the RPi
# ~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~
class MyHandler(BaseHTTPServer.BaseHTTPRequestHandler):
def do_GET(request):
# """Respond to a GET request."""
if not processURLPath(request.path):
return
resource = request.path.split("/")[1].upper()
state = request.path.split("/")[2].upper()
print "Resource: " + resource
if resource == "TEMP":
request.send_response(200)
request.send_header("Content-type", "text/plain")
request.end_headers()
request.wfile.write(iotUtils.LAST_TEMP)
elif resource == "BULB":
iotUtils.switchBulb(state)
print "Requested Switch State: " + state
elif resource == "SONAR":
request.send_response(200)
request.send_header("Content-type", "text/plain")
request.end_headers()
request.wfile.write(iotUtils.LAST_DISTANCE)
print '~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~'
# ~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~
# ~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~
# Check the URL string of the request and validate
# ~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~
def processURLPath(path):
if path.count("/") != 2 and not "favicon" in path:
print "Invalid URL String: " + path
return False
resource = path.split("/")[1]
if not iequal("BULB", resource) and not iequal("TEMP", resource) and not iequal("FAN", resource) and not iequal("SONAR", resource):
if not "favicon" in resource:
print "Invalid resource: " + resource + " to execute operation"
return False
return True
# ~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~
# ~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~
# Case-Insensitive check on whether two string are similar
# ~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~
def iequal(a, b):
try:
return a.upper() == b.upper()
except AttributeError:
return a == b
# ~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~
# ~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~
# The Main method of the server script
# This method is invoked from RaspberryStats.py on a new thread
# ~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~
def main():
HOST_NAME = iotUtils.getDeviceIP()
server_class = BaseHTTPServer.HTTPServer
while True:
try:
httpd = server_class((HOST_NAME, SERVER_PORT), MyHandler)
print time.asctime(), "Server Starts - %s:%s" % (HOST_NAME, SERVER_PORT)
httpd.serve_forever()
except (KeyboardInterrupt, Exception) as e:
print "Exception in ServerThread (either KeyboardInterrupt or Other):"
print str(e)
# GPIO.output(BULB_PIN, False)
iotUtils.switchBulb("OFF")
httpd.server_close()
print time.asctime(), "Server Stops - %s:%s" % (HOST_NAME, SERVER_PORT)
print '~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~'
pass
# ~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~
if __name__ == '__main__':
main()

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#!/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, commands
# import threading
import RPi.GPIO as GPIO
import ConfigParser
# ~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~
# HOST_NAME(IP) of the Device
# ~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~
global HOST_NAME
HOST_NAME = "0.0.0.0"
# ~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~
global LAST_TEMP
LAST_TEMP = 25 # The Last read temperature value from the DHT sensor. Kept globally
# Updated by the temperature reading thread
global LAST_DISTANCE
LAST_DISTANCE = 100
SONAR_TRIG_PIN = 16 #Associate pin 23 to TRIG
SONAR_ECHO_PIN = 18
BULB_PIN = 11 # The GPIO Pin# in RPi to which the LED is connected
# ~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~
# Device specific info when pushing data to server
# Read from a file "deviceConfigs.cfg" in the same folder level
# ~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~
configParser = ConfigParser.RawConfigParser()
configFilePath = r'./deviceConfigs.cfg'
configParser.read(configFilePath)
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')
DEVICE_INFO = '{"owner":"'+ DEVICE_OWNER + '","deviceId":"' + DEVICE_ID + '","reply":'
DEVICE_IP = '"{ip}","value":'
DEVICE_DATA = '"{temperature}"' # '"{temperature}:{load}:OFF"'
### ~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~
# ~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~
# Method used to switch ON/OFF the LED attached to RPi
# ~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~
def switchBulb(state):
print "Requested Switch State: " + state
if state == "ON":
GPIO.output(BULB_PIN, True)
print "BULB Switched ON"
elif state == "OFF":
GPIO.output(BULB_PIN, False)
print "BULB Switched OFF"
print '~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~'
# ~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~
# ~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~
# Get the wlan0 interface via which the RPi is connected
# ~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~
def getDeviceIP():
rPi_IP = commands.getoutput("ip route list | grep 'src '").split()
rPi_IP = rPi_IP[rPi_IP.index('src') + 1]
if len(rPi_IP)<=16:
print "------------------------------------------------------------------------------------"
print "IP Address of RaspberryPi: " + rPi_IP
print "------------------------------------------------------------------------------------"
return rPi_IP
# ~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~
# ~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~
# Set the GPIO pin modes for the ones to be read
# ~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~
def setUpGPIOPins():
try:
GPIO.setwarnings(False)
GPIO.setmode(GPIO.BOARD)
except Exception as e:
print "Exception at 'GPIO.setmode'"
pass
GPIO.setup(SONAR_TRIG_PIN,GPIO.OUT) #Set pin as GPIO out
GPIO.setup(SONAR_ECHO_PIN,GPIO.IN) #Set pin as GPIO in
GPIO.setup(BULB_PIN, GPIO.OUT)
GPIO.output(BULB_PIN, False)
# ~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~
# ~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~
# This method get the CPU Temperature of the Raspberry Pi
# ~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~
def getCPUTemp():
CPU_TEMP_LOC = "/sys/class/thermal/thermal_zone0/temp" # RaspberryPi file location to get CPU TEMP info
tempFile = open(CPU_TEMP_LOC)
cpuTemp = tempFile.read()
cpuTemp = long(float(cpuTemp))
cpuTemp = cpuTemp * 1.0 / 1000.0
print "The CPU temperature is: %.2f" % cpuTemp
return cpuTemp
### ~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~
# ~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~
# This method get the CPU Load of the Raspberry Pi
# ~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~
def getCPULoad():
CPU_LOAD_LOC = "/proc/loadavg" # RaspberryPi file location to get CPU LOAD info
loadFile = open(CPU_LOAD_LOC)
cpuLoad = loadFile.read()
cpuLoad = cpuLoad.split()[0]
cpuLoad = long(float(cpuLoad))
print "The CPU temperature is: %.2f" % cpuLoad
return cpuLoad
### ~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~
# ~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~
# This is a Thread object for reading sonar values continuously
# ~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~
# class SonarReaderThread(object):
# def __init__(self, interval=3):
# self.interval = interval
# thread = threading.Thread(target=self.run, args=())
# thread.daemon = True # Daemonize thread
# thread.start() # Start the execution
# def run(self):
# while True:
# try:
# GPIO.output(SONAR_TRIG_PIN, False) #Set TRIG as LOW
# print "SONAR: Waitng For Sonar Sensor To Settle"
# time.sleep(0.5) #Delay of 2 seconds
# GPIO.output(SONAR_TRIG_PIN, True) #Set TRIG as HIGH
# time.sleep(0.00001) #Delay of 0.00001 seconds
# GPIO.output(SONAR_TRIG_PIN, False) #Set TRIG as LOW
# while GPIO.input(SONAR_ECHO_PIN)==0: #Check whether the ECHO is LOW
# pulse_start = time.time() #Saves the last known time of LOW pulse
# while GPIO.input(SONAR_ECHO_PIN)==1: #Check whether the ECHO is HIGH
# pulse_end = time.time() #Saves the last known time of HIGH pulse
# pulse_duration = pulse_end - pulse_start #Get pulse duration to a variable
# distance = pulse_duration * 17150 #Multiply pulse duration by 17150 to get distance
# distance = round(distance, 2) #Round to two decimal points
# if distance > 2 and distance < 400: #Check whether the distance is within range
# print "SONAR: Distance: ", distance - 0.5,"cm" #Print distance with 0.5 cm calibration
# else:
# print "SONAR: Out Of Range" #display out of range
# except Exception, e:
# print "SONAR: Exception in SonarReaderThread: Could not successfully read Sonar"
# print str(e)
# print '~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~'
# pass
# ~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~
def readSonarDistance():
global LAST_DISTANCE
try:
GPIO.output(SONAR_TRIG_PIN, False) #Set TRIG as LOW
print "SONAR: Waitng For Sonar Sensor To Settle"
time.sleep(0.5) #Delay of 2 seconds
GPIO.output(SONAR_TRIG_PIN, True) #Set TRIG as HIGH
time.sleep(0.00001) #Delay of 0.00001 seconds
GPIO.output(SONAR_TRIG_PIN, False) #Set TRIG as LOW
while GPIO.input(SONAR_ECHO_PIN)==0: #Check whether the ECHO is LOW
pulse_start = time.time() #Saves the last known time of LOW pulse
while GPIO.input(SONAR_ECHO_PIN)==1: #Check whether the ECHO is HIGH
pulse_end = time.time() #Saves the last known time of HIGH pulse
pulse_duration = pulse_end - pulse_start #Get pulse duration to a variable
distance = pulse_duration * 17150 #Multiply pulse duration by 17150 to get distance
distance = round(distance, 2) #Round to two decimal points
if distance > 2 and distance < 400: #Check whether the distance is within range
print "SONAR: Distance: ", distance - 0.5,"cm" #Print distance with 0.5 cm calibration
LAST_DISTANCE = distance
else:
print "SONAR: Out Of Range" #display out of range
except Exception, e:
print "SONAR: Exception in SonarReaderThread: Could not successfully read Sonar"
print str(e)
print '~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~'
# ~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~
# The Main method of the server script
# This method is invoked from RaspberryStats.py on a new thread
# ~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~
def main():
HOST_NAME = getDeviceIP()
setUpGPIOPins()
# SonarReaderThread()
while True:
readSonarDistance()
# ~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~
if __name__ == '__main__':
main()

@ -0,0 +1,116 @@
#!/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 RPi.GPIO as GPIO
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("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 ("Subscribing with topic " + TOPIC)
client.subscribe(TOPIC)
# The callback for when a PUBLISH message is received from the server.
def on_message(client, userdata, msg):
print(msg.topic+" "+str(msg.payload))
request = str(msg.payload)
resource = request.split(":")[0].upper()
state = request.split(":")[1].upper()
print "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)
# print "Requested Switch State: " + state
# if state == "ON":
# GPIO.output(BULB_PIN, True)
# print "BULB Switched ON"
# elif state == "OFF":
# GPIO.output(BULB_PIN, False)
# print "BULB Switched OFF"
# ~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~
# 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[0]
MQTT_PORT = MQTT_ENDPOINT[1]
DEV_OWNER = iotUtils.DEVICE_OWNER
DEV_ID = iotUtils.DEVICE_ID
global TOPIC
TOPIC = "wso2/iot/" + DEV_OWNER + "/firealarm/" + DEV_ID
print ("MQTT_ENDPOINT: " + str(MQTT_ENDPOINT))
print ("MQTT_TOPIC: " + TOPIC)
mqttClient = mqtt.Client()
mqttClient.on_connect = on_connect
mqttClient.on_message = on_message
while True:
try:
mqttClient.connect(MQTT_IP, MQTT_PORT, 60)
print 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 "Exception in MQTTServerThread (either KeyboardInterrupt or Other):"
print str(e)
mqttClient.disconnect()
print time.asctime(), "Connection to Broker closed - %s:%s" % (MQTT_IP, MQTT_PORT)
print '~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~'
pass
if __name__ == '__main__':
iotUtils.setUpGPIOPins()
main()

@ -0,0 +1,144 @@
#!/usr/bin/env python
# -*- coding: utf-8 -*-
"""
/*
* Copyright (c) 2014, 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.
*/
"""
import sleekxmpp
import getpass
import sys
import ssl, pyasn1
from urllib import urlopen
import iotUtils
# Python versions before 3.0 do not use UTF-8 encoding
# by default. To ensure that Unicode is handled properly
# throughout SleekXMPP, we will set the default encoding
# ourselves to UTF-8.
if sys.version_info < (3, 0):
from sleekxmpp.util.misc_ops import setdefaultencoding
setdefaultencoding('utf8')
else:
raw_input = input
from sleekxmpp.plugins.xep_0323.device import Device
class IoT_TestDevice(sleekxmpp.ClientXMPP):
"""
A simple IoT device that can act as server or client
"""
def __init__(self, jid, password):
sleekxmpp.ClientXMPP.__init__(self, jid, password)
self.add_event_handler("session_start", self.session_start)
self.add_event_handler("message", self.message)
self.device=None
self.releaseMe=False
self.beServer=True
def beClientOrServer(self,server=True,clientJID=None ):
self.beServer=True
def testForRelease(self):
# todo thread safe
return self.releaseMe
def doReleaseMe(self):
# todo thread safe
self.releaseMe=True
def addDevice(self, device):
self.device=device
def session_start(self, event):
self.send_presence()
self.get_roster()
# tell your preffered friend that you are alive
#self.send_message(mto='jocke@jabber.sust.se', mbody=self.boundjid.bare +' is now online use xep_323 stanza to talk to me')
def message(self, msg):
if msg['type'] in ('chat', 'normal'):
print ("got normal chat message" + str(msg))
ip=urlopen('http://icanhazip.com').read()
msg.reply("Hi I am " + self.boundjid.full + " and I am on IP " + ip).send()
else:
print ("got unknown message type %s", str(msg['type']))
class TheDevice(Device):
"""
This is the actual device object that you will use to get information from your real hardware
You will be called in the refresh method when someone is requesting information from you
"""
def __init__(self,nodeId):
Device.__init__(self,nodeId)
def refresh(self,fields):
"""
the implementation of the refresh method
"""
# global LAST_TEMP
#self._set_momentary_timestamp(self._get_timestamp())
#self._add_field_momentary_data(self, "Temperature", self.counter)
self._add_field(name="Temperature", typename="numeric", unit="C")
self._set_momentary_timestamp(self._get_timestamp())
self._add_field_momentary_data("Temperature", str(iotUtils.LAST_TEMP), flags={"automaticReadout": "true"})
def main():
XMPP_ENDP = iotUtils.XMPP_EP.split(":")[0]
XMPP_OWN = iotUtils.DEVICE_OWNER
XMPP_JID = iotUtils.DEVICE_ID + "@" + XMPP_ENDP + "/raspi"
XMPP_PWD = iotUtils.AUTH_TOKEN
print XMPP_OWN
print XMPP_JID
print XMPP_PWD
xmpp = IoT_TestDevice(XMPP_JID,XMPP_PWD)
xmpp.ssl_version = ssl.PROTOCOL_SSLv3
xmpp.register_plugin('xep_0030')
xmpp.register_plugin('xep_0323')
xmpp.register_plugin('xep_0325')
if XMPP_OWN:
# xmpp['xep_0030'].add_feature(feature='urn:xmpp:sn',
# node=opts.nodeid,
# jid=xmpp.boundjid.full)
myDevice = TheDevice(XMPP_OWN)
# myDevice._add_field(name="Relay", typename="numeric", unit="Bool");
myDevice._add_field(name="Temperature", typename="numeric", unit="C")
myDevice._set_momentary_timestamp("2013-03-07T16:24:30")
myDevice._add_field_momentary_data("Temperature", "23.4", flags={"automaticReadout": "true"})
xmpp['xep_0323'].register_node(nodeId=XMPP_OWN, device=myDevice, commTimeout=10)
xmpp.beClientOrServer(server=True)
while not(xmpp.testForRelease()):
try:
xmpp.connect()
xmpp.process(block=True)
print ("lost connection")
except Exception as e:
print "Exception in XMPPServerThread (either KeyboardInterrupt or Other):"
print str(e)
if __name__ == '__main__':
main()
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