Part 2 : Communication RF 433
Raspberry configuration :- wheezy-raspbian
- mysql
- php
- apache2
- python
- iptables
Now we will focus on the communication part, the aim of this tutorial is to create a library c++ calling by python
At first we need to install WiringPi, we have just to follow the instructions in this post Controlling 433MHz RF outlets.
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Next install RPi_utils from post RPi_utils. After compiled library ninjablocks/rc-switch ( make All ) copy files "cp rc-switch/* RPi_utils -r"
It's time to make an external library calling by python , create the file "Receipe.cpp" in this directory :
/*
RF_Sniffer
Hacked from http://code.google.com/p/rc-switch/
by @justy to provide a handy RF code sniffer
*/
#include "RCSwitch.h"
#include <stdlib.h>
#include <stdio.h>
class Wrapper{
private :
RCSwitch mySwitch;
public:
void init(){
// This pin is not the first pin on the RPi GPIO header!
// Consult https://projects.drogon.net/raspberry-pi/wiringpi/pins/
// for more information.
int PIN=2;
if(wiringPiSetup() == -1)
return;
mySwitch=RCSwitch();
mySwitch.enableReceive(PIN); // Receiver on inerrupt 0 => that is pin #2
}
bool available(){
return mySwitch.available();
}
int getReceivedValue(){
return mySwitch.getReceivedValue();
}
void resetAvailable(){
mySwitch.resetAvailable();
}
};
extern "C"
{
Wrapper* newReceiver(){
return new Wrapper();
}
void Receiver_init(Wrapper* wrapper){
wrapper->init();
}
bool available(Wrapper* wrapper){
return wrapper->available();
}
int getReceivedValue(Wrapper* wrapper){
return wrapper->getReceivedValue();
}
void resetAvailable(Wrapper* wrapper){
wrapper->resetAvailable();
}
}
Now we need to compile the lib to get "libReceive.so" !
g++ -c -Wall -fPIC Receive.cpp -o Recieve.o -lwiringPi -DRPI
g++ -shared -Wl,-soname,libReceive.so -o libRecieve.so Receive.o RCSwitch.o -lwiringPi
But there is a small problem, the lib is written in c, and i want all my code in python. How use libReceive.so, i need to use a wrapper (c/python).
I didn't find it on internet, so i decided to write it ! Just create a file ReceiveRF433.py :
from ctypes import cdll
lib = cdll.LoadLibrary('/ScriptPython/libRecieve.so')
class Receive(object):
def __init__(self):
self.obj =lib.newReceiver()
def init(self):
lib.Receiver_init(self.obj)
def available(self):
return lib.available(self.obj)
def getReceivedValue(self):
return lib.getReceivedValue(self.obj)
def resetAvailable(self):
lib.resetAvailable(self.obj)
Great now , we are ready to test the connexion, we have to connect the receiver kit to RaspberryPi, and switch on the a sensor.
Connect Receiver RF433 to PI
by default the Receiver pin is GPIO2. The 7th pin from the left. |
 |
test communication (test.py) :
#!/usr/bin/env python
# coding: utf-8
import time
from datetime import datetime,timedelta
from ReceiveRF433 import Receive
""" DATA RECEIVE """
def StartAlarmeRF433():
#gestion du timer
period=timedelta(minutes=1)
next_time = datetime.now() + period
#Initialise la liaison RF433 pin 2
R=Receive()
R.init()
while True:
try:
if R.available():
data= R.getReceivedValue()
if data==5578064 :
#Open Window
print "window open"
#print Select()
if next_time<datetime.now() and Select()==1 :
next_time=2*period+datetime.now()
print "window open code %d" %data
if data==53196 :
#sensor detect
print "opened"
#print Select()
if next_time<datetime.now() and Select()==1 :
next_time=2*period+datetime.now()
print "sensor code %d" % data
print "Code : %d" % data
#erase receive data
R.resetAvailable()
continue
except KeyboardInterrupt:
break
StartAlarmeRF433()
The next step is to create a deamon to run the script when the raspberry is switch on.
Next Daemon service
Hi. Great post. However, I don't see any Receive.cpp file on https://github.com/ninjablocks/433Utils/tree/master/RPi_utils. Could you please share your file somewhere?
RépondreSupprimerThanks a lot, i add it !
RépondreSupprimer