这篇博客详细介绍了如何利用ioctl函数在Linux环境下控制字符设备,包括实现6盏灯的亮灭操作,蜂鸣器的开启和关闭,以及马达的开关控制。内容涵盖chrdev.c、mydev.h和test.c三个关键文件的使用和实现细节。
chrdev.c
#include <linux/init.h>
#include <linux/module.h>
#include <linux/fs.h>
#include <linux/io.h>
#include <linux/ioctl.h>
#include <linux/device.h>
#include <linux/uaccess.h>
#include"mydev.h"
#define CNAME "mycdev"
int major;//定义变量接收主设备号
char kbuf[128]={};//定义数组用于存放和用户之间拷贝的数据
gpio_t *vir_led1;
gpio_t *vir_led2;
gpio_t *vir_led3;
gpio_t *vir_sp1;
gpio_t *vir_led1_zb;
gpio_t *vir_led2_zb;
gpio_t *vir_led3_zb;
unsigned int *vir_rcc;
unsigned int *vir_rcc_zb;
struct class *cls;//句柄
struct device *dev;
//对应的是open()
int mycdev_open(struct inode *inode, struct file *file)
{
printk("%s:%s:%d\n",__FILE__,__func__,__LINE__);
return 0;
}
//read()
ssize_t mycdev_read(struct file *file, char __user *ubuf, size_t size, loff_t *loff)
{
//size参数是用户期待读到的字节长度
int ret;
if(size>sizeof(kbuf))
size=sizeof(kbuf);
ret=copy_to_user(ubuf,kbuf,size);
if(ret)
{
printk("数据从内核向用户拷贝失败\n");
return -EIO;
}
return size;
}
//write()
ssize_t mycdev_write(struct file *file, const char __user *ubuf, size_t size, loff_t *loff)
{
int ret;
if(size>sizeof(kbuf))
size=sizeof(kbuf);
ret=copy_from_user(kbuf,ubuf,size);
if(ret)
{
printk("数据从内核向用户拷贝失败\n");
return -EIO;
}
return size;
}
long ioctl(struct file *file, unsigned int cmd, unsigned long arg)
{
int ret,which;
switch(cmd)
{
case LedON:
ret=copy_from_user(&which,(void *)arg,sizeof(int));
if(ret)
{
printk("用户向内核拷贝数据失败\n");
return -EIO;
}
switch(which)
{
case LED1:
vir_led1->ODR |= (1<<10);
break;
case LED2:
vir_led2->ODR |= (1<<10);
break;
case LED3:
vir_led3->ODR |= (1<<8);
break;
case LED1_ZB:
vir_led1_zb->ODR |= (1<<5);
break;
case LED2_ZB:
vir_led2_zb->ODR |= (1<<6);
break;
case LED3_ZB:
vir_led3_zb->ODR |= (1<<7);
break;
}
break;
case PWMON:
ret=copy_from_user(&which,(void *)arg,sizeof(int));
if(ret)
{
printk("用户向内核拷贝数据失败\n");
return -EIO;
}
switch(which)
{
case 7:
vir_sp1->ODR |= (1<<6);
break;
case 8:
vir_led1->ODR |= (1<<9);
break;
case 9:
vir_led2->ODR |= (1<<6);
break;
}
break;
case PWMOFF:
ret=copy_from_user(&which,(void *)arg,sizeof(int));
if(ret)
{
printk("用户向内核拷贝数据失败\n");
return -EIO;
}
switch(which)
{
case 7:
vir_sp1->ODR &= ~(1<<6);
break;
case 8:
vir_led1->ODR &= ~(1<<9);
break;
case 9:
vir_led2->ODR &= ~(1<<6);
break;
}
break;
case LedOFF:
ret=copy_from_user(&which,(void *)arg,sizeof(int));
if(ret)
{
printk("用户向内核拷贝数据失败\n");
return -EIO;
}
switch(which)
{
case LED1:
vir_led1->ODR &= ~(1<<10);
break;
case LED2:
vir_led2->ODR &= ~(1<<10);
break;
case LED3:
vir_led3->ODR &= ~(1<<8);
break;
case LED1_ZB:
vir_led1_zb->ODR &= ~(1<<10);
break;
case LED2_ZB:
vir_led2_zb->ODR &= ~(1<<10);
break;
case LED3_ZB:
vir_led3_zb->ODR &= ~(1<<8);
break;
}
break;
default:
printk("功能码错误\n");
break;
}
return 0;
}
int mycdev_close(struct inode *inode, struct file *file)
{
printk("%s:%s:%d\n",__FILE__,__func__,__LINE__);
return 0;
}
//操作方法结构体的初始化
struct file_operations fops=
{
.open=mycdev_open,
.read=mycdev_read,
.write=mycdev_write,
.unlocked_ioctl=ioctl,
.release=mycdev_close,
};
int all_led_init(void)
{
//进行物理地址的映射
vir_led1=ioremap(PHY_LED1_ADDR,sizeof(gpio_t));
if(vir_led1==NULL)
{
printk("vir_led1 映射失败\n");
return -ENOMEM;
}
printk("vir_led1 映射成功\n");
vir_led2=ioremap(PHY_LED2_ADDR,sizeof(gpio_t));
if(vir_led2==NULL)
{
printk("vir_led2 映射失败\n");
return -ENOMEM;
}
printk("vir_led2 映射成功\n");
vir_led3=ioremap(PHY_LED3_ADDR,sizeof(gpio_t));
if(vir_led3==NULL)
{
printk("vir_led3 映射失败\n");
return -ENOMEM;
}
printk("vir_led3 映射成功\n");
vir_led1_zb=ioremap(PHY_LED1_ZB,sizeof(gpio_t));
if(vir_led1_zb==NULL)
{
printk("vir_led1_zb 映射失败\n");
return -ENOMEM;
}
printk("vir_led1_zb 映射成功\n");
vir_led2_zb=ioremap(PHY_LED2_ZB,sizeof(gpio_t));
if(vir_led2_zb==NULL)
{
printk("vir_led2_zb 映射失败\n");
return -ENOMEM;
}
printk("vir_led2_zb 映射成功\n");
vir_led3_zb=ioremap(PHY_LED3_ZB,sizeof(gpio_t));
if(vir_led3_zb==NULL)
{
printk("vir_led3_zb 映射失败\n");
return -ENOMEM;
}
printk("vir_led3_zb 映射成功\n");
vir_rcc=ioremap(PHY_RCC_ADDR,4);
if(vir_rcc==NULL)
{
printk("vir_rcc 映射失败\n");
return -ENOMEM;
}
printk("vir_rcc 映射成功\n");
vir_rcc_zb=ioremap(PHY_ZB_RCC,4);
if(vir_rcc_zb==NULL)
{
printk("vir_rcc_zb 映射失败\n");
return -ENOMEM;
}
printk("vir_rcc_zb 映射成功\n");
vir_sp1=ioremap(PHY_SP1_ADDR,sizeof(gpio_t));
if(vir_sp1==NULL)
{
printk("vir_sp1 映射失败\n");
return -ENOMEM;
}
printk("vir_sp1 映射成功\n");
//寄存器的初始化
//led1
vir_led1->MODER &= ~(3<<20);
vir_led1->MODER |= (1<<20);
vir_led1->ODR &= ~(1<<10);
//led2
vir_led2->MODER &= ~(3<<20);
vir_led2->MODER |= (1<<20);
vir_led2->ODR &= ~(1<<10);
//led3
vir_led3->MODER &= ~(3<<16);
vir_led3->MODER |= (1<<16);
vir_led3->ODR &= ~(1<<8);
//led1_zb
vir_led1_zb->MODER &= ~(3<<10);
vir_led1_zb->MODER |= (1<<10);
vir_led1_zb->ODR &= ~(1<<5);
//led2_zb
vir_led2_zb->MODER &= ~(3<<12);
vir_led2_zb->MODER |= (1<<12);
vir_led2_zb->ODR &= ~(1<<6);
//led3_zb
vir_led3_zb->MODER &= ~(3<<14);
vir_led3_zb->MODER |= (1<<14);
vir_led3_zb->ODR &= ~(1<<7);
//sp1
vir_sp1->MODER &= ~(3<<12);
vir_sp1->MODER |= (1<<12);
vir_sp1->ODR &= ~(1<<6);
//fan1
vir_led1->MODER &= ~(3<<18);
vir_led1->MODER |= (1<<18);
vir_led1->ODR &= ~(1<<9);
//m1
vir_led2->MODER &= ~(3<<12);
vir_led2->MODER |= (1<<12);
vir_led2->ODR &= ~(1<<6);
(*vir_rcc) |= (3<<4);
(*vir_rcc) |= (1<<1);
(*vir_rcc_zb) |= (1<<0);
return 0;
}
//入口函数,当驱动安装的时候执行
static int __init demo_init(void)
{
//动态注册字符设备驱动
major=register_chrdev(0,CNAME,&fops);
if(major<0)
{
printk("字符设备驱动注册失败\n");
return major;
}
printk("字符设备驱动注册成功major=%d\n",major);
//向上提交节点目录
cls=class_create(THIS_MODULE,"LED");
if(IS_ERR(cls))
{
printk("向上提交目录失败\n");
return PTR_ERR(cls);
}
printk("向上提交目录成功\n");
//创建设备节点
dev=device_create(cls,NULL,MKDEV(major,0),NULL,"myled");
if(IS_ERR(dev))
{
printk("创建节点失败\n");
return PTR_ERR(dev);
}
printk("创建节点成功\n");
//寄存器的初始化
all_led_init();
return 0;
}
//出口函数,卸载驱动的时候执行
static void __exit demo_exit(void)
{
//销毁节点
device_destroy(cls,MKDEV(major,0));
//销毁目录
class_destroy(cls);
//取消映射
iounmap(vir_led1);
iounmap(vir_led2);
iounmap(vir_led3);
iounmap(vir_rcc);
iounmap(vir_led1_zb);
iounmap(vir_led2_zb);
iounmap(vir_led3_zb);
iounmap(vir_rcc_zb);
//注销字符设备驱动
unregister_chrdev(major,CNAME);
}
module_init(demo_init);
module_exit(demo_exit);
MODULE_LICENSE("GPL");
mydev.h
#ifndef __MYDEV_H__
#define __MYDEV_H__
typedef struct{
volatile unsigned int MODER;
volatile unsigned int OTYPER;
volatile unsigned int OSPEEDR;
volatile unsigned int PUPDR;
volatile unsigned int IDR;
volatile unsigned int ODR;
volatile unsigned int BSRR;
}gpio_t;
#define PHY_LED1_ADDR 0X50006000
#define PHY_LED2_ADDR 0X50007000
#define PHY_LED3_ADDR 0X50006000
#define PHY_SP1_ADDR 0X50003000
#define PHY_RCC_ADDR 0X50000A28
#define PHY_ZB_RCC 0X54000210
#define PHY_LED1_ZB 0X54004000
#define PHY_LED2_ZB 0X54004000
#define PHY_LED3_ZB 0X54004000
enum LED
{
LED1=1,
LED2,
LED3,
LED1_ZB,
LED2_ZB,
LED3_ZB
};
#define LED_ON _IO('a',1)
#define LED_OFF _IO('a',0)
#define LedON _IOW('a',1,int)
#define LedOFF _IOW('a',0,int)
#define PWMON _IOW('a',2,int)
#define PWMOFF _IOW('a',3,int)
#endif
test.c
#include<stdio.h>
#include<sys/types.h>
#include<sys/stat.h>
#include<fcntl.h>
#include<unistd.h>
#include<stdlib.h>
#include<string.h>
#include <sys/ioctl.h>
#include"mydev.h"
int main(int argc, char const *argv[])
{
char buf[128]={};
int fd=open("/dev/myled",O_RDWR);
int which;
if(fd<0)
{
printf("打开设备文件失败\n");
exit(-1);
}
printf("设备文件打开成功\n");
//在终端输入
while(1)
{
// printf("请输入控制命令3:开灯3 2:开灯2 1:开灯1 0:关灯\n");
printf("请输入控制命令1:开启 0:关闭\n");
fgets(buf,sizeof(buf),stdin);
printf("请输入要操作的设备:1-》LED1 2->LED2 3->LED3 4->LED1_ZB 5->LED2_ZB 6->LED3_ZB 7->SP1 8->FAN1 9->M1\n");
scanf("%d",&which);
getchar();
//吃掉换行符
buf[strlen(buf)-1]='\0';
if(buf[0]=='1')
{
if(which<=3)
ioctl(fd,LedON,&which);
else
ioctl(fd,PWMON,&which);
}
else if(buf[0]=='0')
{
if(which<=3)
ioctl(fd,LedOFF,&which);
else
ioctl(fd,PWMOFF,&which);
}
}
close(fd);
return 0;
}
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