• Linux下用文件IO的方式操作GPIO(/sys/class/gpio)


    通过sysfs方式控制GPIO,先访问/sys/class/gpio目录,向export文件写入GPIO编号,使得该GPIO的操作接口从内核空间暴露到用户空间,GPIO的操作接口包括direction和value等,direction控制GPIO方向,而value可控制GPIO输出或获得GPIO输入。文件IO方式操作GPIO,使用到了4个函数open、close、read、write。


    首先,看看系统中有没有“/sys/class/gpio”这个文件夹。如果没有请在编译内核的时候加入 Device Drivers-> GPIO Support ->/sys/class/gpio/… (sysfs interface)。

    /sys/class/gpio 的使用说明:
    gpio_operation 通过/sys/文件接口操作IO端口 GPIO到文件系统的映射
    ◇ 控制GPIO的目录位于/sys/class/gpio
    ◇ /sys/class/gpio/export文件用于通知系统需要导出控制的GPIO引脚编号
    ◇ /sys/class/gpio/unexport 用于通知系统取消导出
    ◇ /sys/class/gpio/gpiochipX目录保存系统中GPIO寄存器的信息,包括每个寄存器控制引脚的起始编号base,寄存器名称,引脚总数 导出一个引脚的操作步骤
    ◇ 首先计算此引脚编号,引脚编号 = 控制引脚的寄存器基数 + 控制引脚寄存器位数
    ◇ 向/sys/class/gpio/export写入此编号,比如12号引脚,在shell中可以通过以下命令实现,命令成功后生成/sys/class/gpio/gpio12目录,如果没有出现相应的目录,说明此引脚不可导出
    ◇ direction文件,定义输入输入方向,可以通过下面命令定义为输出。direction接受的参数:in, out, high, low。high/low同时设置方向为输出,并将value设置为相应的1/0
    ◇ value文件是端口的数值,为1或0

    几个例子:
    1. 导出
    /sys/class/gpio# echo 44 > export
    2. 设置方向
    /sys/class/gpio/gpio44# echo out > direction
    3. 查看方向
    /sys/class/gpio/gpio44# cat direction
    4. 设置输出
    /sys/class/gpio/gpio44# echo 1 > value
    5. 查看输出值
    /sys/class/gpio/gpio44# cat value
    6. 取消导出
    /sys/class/gpio# echo 44 > unexport

    文件读写例程:
    #include stdlib.h 
    #include stdio.h 
    #include string.h
    #include unistd.h
    #include fcntl.h //define O_WRONLY and O_RDONLY 

    //芯片复位引脚: P1_16
    #define SYSFS_GPIO_EXPORT "/sys/class/gpio/export" 
    #define SYSFS_GPIO_RST_PIN_VAL "48" 
    #define SYSFS_GPIO_RST_DIR "/sys/class/gpio/gpio48/direction"
    #define SYSFS_GPIO_RST_DIR_VAL "OUT" 
    #define SYSFS_GPIO_RST_VAL "/sys/class/gpio/gpio48/value"
    #define SYSFS_GPIO_RST_VAL_H "1"
    #define SYSFS_GPIO_RST_VAL_L "0"

    int main() 

    int fd; 

    //打开端口/sys/class/gpio# echo 48 > export
    fd = open(SYSFS_GPIO_EXPORT, O_WRONLY);
    if(fd == -1)
    {
    printf("ERR: Radio hard reset pin open error. ");
    return EXIT_FAILURE;
    }
    write(fd, SYSFS_GPIO_RST_PIN_VAL ,sizeof(SYSFS_GPIO_RST_PIN_VAL)); 
    close(fd); 

    //设置端口方向/sys/class/gpio/gpio48# echo out > direction
    fd = open(SYSFS_GPIO_RST_DIR, O_WRONLY);
    if(fd == -1)
    {
    printf("ERR: Radio hard reset pin direction open error. ");
    return EXIT_FAILURE;
    }
    write(fd, SYSFS_GPIO_RST_DIR_VAL, sizeof(SYSFS_GPIO_RST_DIR_VAL)); 
    close(fd); 

    //输出复位信号: 拉高>100ns
    fd = open(SYSFS_GPIO_RST_VAL, O_RDWR);
    if(fd == -1)
    {
    printf("ERR: Radio hard reset pin value open error. ");
    return EXIT_FAILURE;

    while(1)
    {
    write(fd, SYSFS_GPIO_RST_VAL_H, sizeof(SYSFS_GPIO_RST_VAL_H));
    usleep(1000000);
    write(fd, SYSFS_GPIO_RST_VAL_L, sizeof(SYSFS_GPIO_RST_VAL_L));
    usleep(1000000);
    }
    close(fd);

    printf("INFO: Radio hard reset pin value open error. ");
    return 0;


    另外参考网上一个网友的程序,这里做了验证,并实现中断检测函数。如下:
    #include stdlib.h 
    #include stdio.h 
    #include string.h
    #include unistd.h
    #include fcntl.h 
    #include poll.h

    #define MSG(args...) printf(args)

    //函数声明
    static int gpio_export(int pin);
    static int gpio_unexport(int pin);
    static int gpio_direction(int pin, int dir);
    static int gpio_write(int pin, int value);
    static int gpio_read(int pin);


    static int gpio_export(int pin) 

    char buffer[64]; 
    int len; 
    int fd; 

    fd = open("/sys/class/gpio/export", O_WRONLY); 
    if (fd < 0) { 
    MSG("Failed to open export for writing! "); 
    return(-1); 


    len = snprintf(buffer, sizeof(buffer), "%d", pin); 
    if (write(fd, buffer, len) < 0) { 
    MSG("Failed to export gpio!"); 
    return -1; 


    close(fd); 
    return 0; 
    }

    static int gpio_unexport(int pin) 

    char buffer[64]; 
    int len; 
    int fd; 

    fd = open("/sys/class/gpio/unexport", O_WRONLY); 
    if (fd < 0) { 
    MSG("Failed to open unexport for writing! "); 
    return -1; 


    len = snprintf(buffer, sizeof(buffer), "%d", pin); 
    if (write(fd, buffer, len) < 0) { 
    MSG("Failed to unexport gpio!"); 
    return -1; 


    close(fd); 
    return 0; 
    }

    //dir: 0-->IN, 1-->OUT
    static int gpio_direction(int pin, int dir) 

    static const char dir_str[] = "inout"; 
    char path[64]; 
    int fd; 

    snprintf(path, sizeof(path), "/sys/class/gpio/gpio%d/direction", pin); 
    fd = open(path, O_WRONLY); 
    if (fd < 0) { 
    MSG("Failed to open gpio direction for writing! "); 
    return -1; 


    if (write(fd, &dir_str[dir == 0 ? 0 : 3], dir == 0 ? 2 : 3) < 0) { 
    MSG("Failed to set direction! "); 
    return -1; 


    close(fd); 
    return 0; 
    }

    //value: 0-->LOW, 1-->HIGH
    static int gpio_write(int pin, int value) 

    static const char values_str[] = "01"; 
    char path[64]; 
    int fd; 

    snprintf(path, sizeof(path), "/sys/class/gpio/gpio%d/value", pin); 
    fd = open(path, O_WRONLY); 
    if (fd < 0) { 
    MSG("Failed to open gpio value for writing! "); 
    return -1; 


    if (write(fd, &values_str[value == 0 ? 0 : 1], 1) < 0) { 
    MSG("Failed to write value! "); 
    return -1; 


    close(fd); 
    return 0; 
    }

    static int gpio_read(int pin) 

    char path[64]; 
    char value_str[3]; 
    int fd; 

    snprintf(path, sizeof(path), "/sys/class/gpio/gpio%d/value", pin); 
    fd = open(path, O_RDONLY); 
    if (fd < 0) { 
    MSG("Failed to open gpio value for reading! "); 
    return -1; 


    if (read(fd, value_str, 3) < 0) { 
    MSG("Failed to read value! "); 
    return -1; 


    close(fd); 
    return (atoi(value_str));
    }

    // none表示引脚为输入,不是中断引脚
    // rising表示引脚为中断输入,上升沿触发
    // falling表示引脚为中断输入,下降沿触发
    // both表示引脚为中断输入,边沿触发
    // 0-->none, 1-->rising, 2-->falling, 3-->both
    static int gpio_edge(int pin, int edge)
    {
    const char dir_str[] = "nonerisingfallingboth"; 
    char ptr;
    char path[64]; 
    int fd; 
    switch(edge){
    case 0:
    ptr = 0;
    break;
    case 1:
    ptr = 5;
    break;
    case 2:
    ptr = 12;
    break;
    case 3:
    ptr = 20;
    break;
    default:
    ptr = 0;


    snprintf(path, sizeof(path), "/sys/class/gpio/gpio%d/edge", pin); 
    fd = open(path, O_WRONLY); 
    if (fd < 0) { 
    MSG("Failed to open gpio edge for writing! "); 
    return -1; 


    if (write(fd, &dir_str[ptr], strlen(&dir_str[ptr])) < 0) { 
    MSG("Failed to set edge! "); 
    return -1; 


    close(fd); 
    return 0; 
    }

    //GPIO1_17
    int main() 

    int gpio_fd, ret;
    struct pollfd fds[1];
    char buff[10];
    unsigned char cnt = 0;
    //LED引脚初始化
    gpio_export(115);
    gpio_direction(115, 1);
    gpio_write(115, 0);
    //按键引脚初始化
    gpio_export(49);
    gpio_direction(49, 0);
    gpio_edge(49,1);
    gpio_fd = open("/sys/class/gpio/gpio49/value",O_RDONLY);
    if(gpio_fd < 0){
    MSG("Failed to open value! "); 
    return -1; 
    }
    fds[0].fd = gpio_fd;
    fds[0].events = POLLPRI;
    ret = read(gpio_fd,buff,10);
    if( ret == -1 )
    MSG("read ");
    while(1){
    ret = poll(fds,1,0);
    if( ret == -1 )
    MSG("poll ");
    if( fds[0].revents & POLLPRI){
    ret = lseek(gpio_fd,0,SEEK_SET);
    if( ret == -1 )
    MSG("lseek ");
    ret = read(gpio_fd,buff,10);
    if( ret == -1 )
    MSG("read ");
    gpio_write(115, cnt++%2);
    }
    usleep(100000);
    }
    return 0;
    }

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  • 原文地址:https://www.cnblogs.com/Ph-one/p/8929547.html
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