Fork me on GitHub

目录:

背景介绍

树莓派的GPIO引脚不仅可以输出高低电平,也可以当做输入端口(可以想象成键盘输入),当GPIO接入的是高电平,GPIO的值可以认为是1,如果是低电平则是0。如下图所示,可以使用一个Push Button开关按键来控制GPIO 25(BCM Numbering)的高低电平以达到控制的目的。

GPIO 25和VCC(3.3V)之间通过R1(10K欧姆)和R2(1K欧姆)上拉电阻相连,当按键未被按下时,GPIO 25上拉到VCC,程序可以读到1,当按键按下时,GPIO 25被下拉电阻R2拉到GND(0V),程序可以读到0。如果不加R1,而GPIO 25不小心被设置成输出低电平时,将直接和VCC相连而造成短路,这样可能会烧掉这个引脚,所以加上限流电阻R1后,即使发生这样的情况,也不会出现短路情况。

应用

如果我们需要根据GPIO 25的值来控制树莓派,比如按下按钮时希望点亮某个LED或在液晶上显示当前时间,就需要通过程序来获取状态的变化。

一种常见的做法是在循环里不断读取该引脚的状态,当发生对应的变化的时执行控制逻辑,但显而易见,这种做法很消耗CPU,如果在循环增加sleep(1000)这样的调用,又很容易错过按键变化。较好的做法则是通过中断来实现。

最新的树莓派Raspbian和Arch Linux内核都已经包含了GPIO的中断处理支持。但使用前需要将指定GPIO引脚输出,方法如下:

首先可以通过命令echo 25 > /sys/class/gpio/export导出GPIO 25端口,执行成功后在相应的目录下看到以下文件,得益于Linux下一切都是文件的设计理念,GPIO的状态可以通过value文件来获取,这样就可以利用Linux的poll/epoll来获取value文件的变化(这点和Linux高性能网络编程是类似的)。

root@raspberrypi2 ~/projects/interrupt_test # ls -l /sys/class/gpio/gpio25/
total 0
-rw-r--r-- 1 root root 4096 Apr  8 23:56 active_low
-rw-r--r-- 1 root root 4096 Apr  8 22:29 direction
-rw-r--r-- 1 root root 4096 Apr  8 22:29 edge
drwxr-xr-x 2 root root    0 Apr  8 23:56 power
lrwxrwxrwx 1 root root    0 Apr  8 23:56 subsystem -> ../../../../class/gpio
-rw-r--r-- 1 root root 4096 Apr  8 22:08 uevent
-rw-r--r-- 1 root root 4096 Apr  8 22:29 value
root@raspberrypi2 ~/projects/interrupt_test # 

wiringPi

wiringPi库封装了一个简单的接口,传入一个回调函数,当事件发生时传入的函数将被调用。

int wiringPiISR (int pin, int edgeType,  void (*function)(void)) ;

其最主要的部分的实现代码是:

int waitForInterruptSys (int pin, int mS)
{
  int fd, x ;
  uint8_t c ;
  struct pollfd polls ;

  if ((fd = sysFds [pin & 63]) == -1)
    return -2 ;

// Setup poll structure

  polls.fd     = fd ;
  polls.events = POLLPRI ;      // Urgent data!

// Wait for it ...

  x = poll (&polls, 1, mS) ;

// Do a dummy read to clear the interrupt
//      A one character read appars to be enough.

  (void)read (fd, &c, 1) ;

  return x ;
}

示例代码

#include <stdio.h>
#include <string.h>
#include <errno.h>
#include <stdlib.h>
#include <wiringPi.h>


// What GPIO input are we using?
//      This is a wiringPi pin number

#define BUTTON_PIN      6

static volatile int globalCounter = 0 ;


void myInterrupt (void)
{
  ++globalCounter ;
}


int main (void)
{
  int myCounter = 0 ;

  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 ;
  }


  for (;;)
  {
    printf ("Waiting ... ") ; fflush (stdout) ;

    while (myCounter == globalCounter)
      delay (100) ;

    printf (" Done. counter: %5d\n", globalCounter) ;
    myCounter = globalCounter ;
  }

  return 0 ;
}

RPi.GPIO

Python的PRI.GPIO库也对中断进行了封装,以下是使用例子,差别在于wiringPi支持多线程,允许在等待中断的时候干点别的。

#!/usr/bin/env python2.7  
# script by Alex Eames http://RasPi.tv/  
# http://raspi.tv/2013/how-to-use-interrupts-with-python-on-the-raspberry-pi-and-rpi-gpio  
import RPi.GPIO as GPIO  
GPIO.setmode(GPIO.BCM)  
  
# GPIO 25 set up as input. It is pulled up to stop false signals  
GPIO.setup(25, GPIO.IN, pull_up_down=GPIO.PUD_UP)  
  
print "Make sure you have a button connected so that when pressed"  
print "it will connect GPIO port 23 (pin 16) to GND (pin 6)\n"  
raw_input("Press Enter when ready\n>")  
  
print "Waiting for falling edge on port 23"  
# now the program will do nothing until the signal on port 23   
# starts to fall towards zero. This is why we used the pullup  
# to keep the signal high and prevent a false interrupt  
  
print "During this waiting time, your computer is not"   
print "wasting resources by polling for a button press.\n"  
print "Press your button when ready to initiate a falling edge interrupt."  
while 1:
    try:  
        GPIO.wait_for_edge(25, GPIO.FALLING)  
        print "\nFalling edge detected. Now your program can continue with"  
        print "whatever was waiting for a button press."  
    except KeyboardInterrupt:  
        GPIO.cleanup()       # clean up GPIO on CTRL+C exit  
GPIO.cleanup()           # clean up GPIO on normal exit  

参考链接

  1. https://projects.drogon.net/raspberry-pi/wiringpi/functions/
  2. http://raspi.tv/2013/how-to-use-interrupts-with-python-on-the-raspberry-pi-and-rpi-gpio


blog comments powered by Disqus

Published

2013-04-08

Categories


Tags