Tutorial: Interrupt-Driven Event-Counter on the Raspberry Pi
--D. Thiebaut (talk) 19:57, 23 July 2013 (EDT)
This page is under construction. Its purpose is to illustrate how to implement a user-level interrupt in C on a Raspberry Pi to count events. You may want to start with the very first tutorial of this series, here.
Contents
Getting the Environment Ready
Install the WiringPi Library
- Get the WiringPi library from drogon.net
- Follow the directions on the Web site to download to the Pi. In my case the Pi is connected to my Mac through an ethernet cable, so I downloaded the tgz archive from https://git.drogon.net/?p=wiringPi;a=summary and sftp it over to the pi. I renamed the actual library to wiring.tgz, which is easier to type than its actual name.
sftp pi@169.254.0.2 sftp> pwd Remote working directory: /home/pi sftp> put wiring.tgz Uploading wiring.tgz to /home/pi/wiring.tgz wiring.tgz 100% 108KB 107.8KB/s 00:00 sftp> quit
- Connect to the RPI and build the library
tar -xzvf wiring.tgz cd wiringPi-cbf6d64/ ./build wiringPi Build script ===================== WiringPi Library make: Warning: File `Makefile' has modification time 1.4e+07 s in the future [UnInstall] [Compile] wiringPi.c [Compile] wiringSerial.c ... [Compile] drc.c [Link (Dynamic)] [Install Headers] [Install Dynamic Lib] make: warning: Clock skew detected. Your build may be incomplete. WiringPi Devices Library make: Warning: File `Makefile' has modification time 1.4e+07 s in the future [UnInstall] [Compile] ds1302.c ... [Link (Dynamic)] [Install Headers] [Install Dynamic Lib] make: warning: Clock skew detected. Your build may be incomplete. GPIO Utility make: Warning: File `Makefile' has modification time 1.4e+07 s in the future [Compile] gpio.c [Compile] extensions.c [Compile] readall.c [Link] make: warning: Clock skew detected. Your build may be incomplete. make: Warning: File `Makefile' has modification time 1.4e+07 s in the future [Install] make: warning: Clock skew detected. Your build may be incomplete. All Done. NOTE: This is wiringPi v2, and if you need to use the lcd, Piface, Gertboard, MaxDetext, etc. routines then you must change your compile scripts to add -lwiringPiDev
- Add the new library to the libray path, as explained in the INSTALL file of the wiringPi distribution.
sudo nano /etc/ld.so.conf
- and add the following line to it:
/usr/local/lib
- Tell the system to configure the libraries:
sudo ldconfig
Hardware Setup
- Our hardware setup is the same as that presented in hertavill.com. We have connected the switch only. The printf statements will provide the feedback about whether activating the button triggers the ISR or not.
- We use PIN 17 of the GPIO, available on the RPI 26-pin connector Pin 11.
- Connecting the momentary switch is simple:
- 1 lead connected to GND
- other lead connected to two places:
- to one side of a a 10Kω resistor, the other side of the resistor to 3.3V
- to Pin 17 of the GPIO
Interrupt Service Routine
Picking the Right Constant for GPIO Pin 17
- The wiringPi library labels GPIO Pin 17 as Pin 0 (see drogon.net), as illustrated in the table below taken from their Web site:
- Our switch is connected to Pin 17 of the GPIO, so we'll use 0 to refer to this pin when using the wiringPi library.
ISR Code
/*
isr4pi.c
D. Thiebaut
based on isr.c from the WiringPi library, authored by Gordon Henderson
https://github.com/WiringPi/WiringPi/blob/master/examples/isr.c
Compile as follows:
gcc -o isr4pi isr4pi.c -lwiringPi
Run as follows:
sudo ./isr4pi
*/
#include <stdio.h>
#include <string.h>
#include <errno.h>
#include <stdlib.h>
#include <wiringPi.h>
// Use GPIO Pin 17, which is Pin 0 for wiringPi library
#define BUTTON_PIN 0
// the event counter
volatile int eventCounter = 0;
/*
* myInterrupt:
*********************************************************************************
*/
void myInterrupt (void) {
++eventCounter ;
}
/*
*********************************************************************************
* main
*********************************************************************************
*/
int main (void) {
if (wiringPiSetup () < 0) {
fprintf (stderr, "Unable to setup wiringPi: %s\n", strerror (errno));
return 1;
}
if ( wiringPiISR (BUTTON_PIN, INT_EDGE_FALLING, &myInterrupt) < 0 ) {
fprintf (stderr, "Unable to setup ISR: %s\n", strerror (errno));
return 1;
}
while ( 1 ) {
// display # of events in past second
printf( "%d\n", eventCounter );
// reset counter to 0
eventCounter = 0;
// wait 1 second doing nothing...
delay( 1000 ); // wait 1 second
}
return 0;
}
Compilation
- Compile the code above against the WiringPi library as follows:
gcc -o isr4pi isr4pi.c -lwiringPi