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概述
本文介绍了platform框架下的设备驱动开发流程和方法,主要包括设备树、驱动程序和应用程序的开发。以随机数驱动为例,实现了应用程序调用库函数,通过系统调用陷入内核,最后执行硬件驱动,获取真随机数的过程。
添加设备树节点
在soc节点下添加名为trng子节点,内容如下:
trng: trng@0x53030000 {compatible = "acme,trng";reg = <0x00 0x53030000 0x00 0x1000>;interrupts = <0x34 IRQ_TYPE_LEVEL_HIGH>;interrupt-parent = <&plic>;
};
编译设备树dts,生成相应的dtb文件:
make dtbs
使用新的dtb启动Linux内核。Linux启动成功之后查看是否有trng这个节点:
ls /proc/device-tree/soc
# trng@0x53030000
进入trng目录,查看属性相关的文件:
/proc/device-tree/soc/trng@0x53030000# ls
compatible interrupts phandle
interrupt-parent name reg
编写设备驱动
Makefile
新建trng/driver目录,并创建Makefile,内如如下:
# 内核架构
ARCH := riscv
# 交叉工具链
CROSS_COMPILE := /path/to/riscv32-linux-
# 内核目录
KERNELDIR := /path/to/linux/linux-6.1
# 当前目录
PWD := $(shell pwd)
# 目标文件
obj-m := trng.o# 目标
build: kernel_modules# 编译模块
kernel_modules:$(MAKE) ARCH=$(ARCH) CROSS_COMPILE=$(CROSS_COMPILE) -C $(KERNELDIR) M=$(PWD) modules# 清理
clean:$(MAKE) ARCH=$(ARCH) CROSS_COMPILE=$(CROSS_COMPILE) -C $(KERNELDIR) M=$(PWD) clean
驱动
在trng/driver下新建trng.c文件,内容如下:
#include <linux/kernel.h>
#include <linux/module.h>
#include <linux/interrupt.h>
#include <linux/fs.h>
#include <linux/of.h>
#include <linux/cdev.h>
#include <linux/io.h>
#include <linux/iopoll.h>
#include <linux/platform_device.h>/* TRNG寄存器 */
#define TRNG_CTRL (0x0)#define TRNG_CTRL_CMD_MASK (0x07)#define TRNG_CTRL_CMD_RNG (0x01)#define TRNG_CTRL_CMD_SEED (0x02)
#define TRNG_STAT (0x4)#define TRNG_STAT_SEEDED BIT(9)
#define TRNG_MODE (0x8)#define TRNG_MODE_R256 BIT(3)
#define TRNG_ISTAT (0x14)#define TRNG_ISTAT_RAND_RDY BIT(0)#define TRNG_ISTAT_SEED_DONE BIT(1)
#define TRNG_RAND0 (0x20)#define TRNG_TIMEOUT (50000)#define DRIVER_NAME "trng"struct trng_dev {dev_t devid; /* 设备号 */struct cdev cdev; /* cdev */struct class *class; /* 类 */struct device *dev; /* 设备 */int major; /* 主设备号 */int minor; /* 次设备号 */int irq; /* 中断号 */void __iomem *base; /* 基地址 */
};static int trng_init(void *base)
{int ret;unsigned int value;/* 模式 */value = readl(base + TRNG_MODE);value |= TRNG_MODE_R256;writel(value, base + TRNG_MODE); /* 播种 */value = readl(base + TRNG_CTRL);value &= ~TRNG_CTRL_CMD_MASK;value |= TRNG_CTRL_CMD_SEED;writel(value, base + TRNG_CTRL);/* 等待播种完成 */ret = readl_relaxed_poll_timeout_atomic(base + TRNG_ISTAT,value, (value & TRNG_ISTAT_SEED_DONE),10, TRNG_TIMEOUT);if (ret == 0) {value |= TRNG_ISTAT_SEED_DONE;writel(value, base + TRNG_ISTAT);}return ret;
}static int trng_generate_random(void *base, unsigned char *buf)
{int ret;unsigned int value;/* 启动生成随机数 */value = readl(base + TRNG_CTRL);value &= ~TRNG_CTRL_CMD_MASK;value |= TRNG_CTRL_CMD_RNG;writel(value, base + TRNG_CTRL);/* 等待随机数准备好 */ret = readl_relaxed_poll_timeout_atomic(base + TRNG_ISTAT,value, (value & TRNG_ISTAT_RAND_RDY),10, TRNG_TIMEOUT); if (ret) {return ret;}/* 清除准备好标志 */value = readl(base + TRNG_ISTAT);value &= ~TRNG_ISTAT_RAND_RDY;writel(value, base + TRNG_ISTAT);/* 读取随机数 */for (int i = 0; i < 8; i++) {*(unsigned int*)buf = readl(base + TRNG_RAND0 + i*4);buf += 4;}return 0;
}static irqreturn_t trng_irq_handler(int irq, void *dev_id)
{struct trng_dev *trng;trng = (struct trng_dev*)dev_id;dev_dbg(trng->dev, "TRNG interrupt received\n");return IRQ_HANDLED;
}static int trng_open(struct inode *inode, struct file *filp)
{int ret;struct trng_dev *trng;trng = container_of(inode->i_cdev, struct trng_dev, cdev);filp->private_data = trng;dev_dbg(trng->dev, "Open trng\n");ret = trng_init(trng->base);if (ret) {dev_err(trng->dev, "Failed to init trng, ret=%d\n", ret);return ret;}return 0;
}static int trng_release(struct inode *inode, struct file *filp)
{struct trng_dev *trng;trng = filp->private_data;dev_dbg(trng->dev, "Release trng\n");return 0;
}static ssize_t trng_read(struct file *filp, char __user *buffer, size_t len, loff_t *offset)
{ int ret;unsigned char random[32];size_t copyed_len, len_to_copy;struct trng_dev *trng;trng = filp->private_data;dev_info(trng->dev, "Read trng\n");copyed_len = 0;while (len) {ret = trng_generate_random(trng->base, random);if (ret) {dev_err(trng->dev, "Failed to generate random, ret=%d\n", ret);return ret;}// print_hex_dump(KERN_INFO, "random: ", DUMP_PREFIX_NONE, 16, 1, random, sizeof(random), false);len_to_copy = (len < sizeof(random)) ? len : sizeof(random);ret = copy_to_user(buffer, random, len_to_copy);if (ret) {dev_err(trng->dev, "Failed to copy to user\n");return -EFAULT;}copyed_len += len_to_copy;buffer += len_to_copy;len -= len_to_copy;}return copyed_len;
} static ssize_t trng_write(struct file *filp, const char __user *buffer, size_t len, loff_t *offset)
{struct trng_dev *trng;trng = filp->private_data;dev_dbg(trng->dev, "Write trng\n");return len;
}static long trng_ioctl(struct file *filp, unsigned int cmd, unsigned long arg)
{struct trng_dev *trng;trng = filp->private_data;dev_dbg(trng->dev, "Ioctl trng\n");switch (cmd) {default:dev_err(trng->dev, "Unknown ioctl = 0x%x\n", cmd);break;}return -ENOTTY;
}static int trng_mmap(struct file *filp, struct vm_area_struct *vma)
{struct trng_dev *trng;trng = filp->private_data;dev_dbg(trng->dev, "Mmap trng\n");return 0;
}static const struct file_operations trng_fops = {.owner = THIS_MODULE,.open = trng_open,.release = trng_release,.read = trng_read,.write = trng_write,.unlocked_ioctl = trng_ioctl,.mmap = trng_mmap,
};static int trng_probe(struct platform_device *pdev)
{struct device *dev = &pdev->dev;struct trng_dev *trng;int ret;/* 分配内存 */trng = devm_kzalloc(dev, sizeof(*trng), GFP_KERNEL);if (!trng) {dev_err(dev, "Failed to allocate memory\n");return -ENOMEM;}/* 将设备的资源映射到内存空间 */trng->base = devm_platform_ioremap_resource(pdev, 0);if (IS_ERR(trng->base)) {dev_err(dev, "Failed to map device registers\n");return PTR_ERR(trng->base);}/* 获取设备的中断号 */trng->irq = platform_get_irq(pdev, 0);if (trng->irq <= 0) {dev_err(dev, "Failed to get irq %d\n", trng->irq);return trng->irq; }/* 请求中断 */ret = devm_request_irq(dev, trng->irq, trng_irq_handler, 0,DRIVER_NAME, trng);if (ret) {dev_err(dev, "Failed to request IRQ\n");return ret;}/* 申请设备号 */ret = alloc_chrdev_region(&trng->devid, 0, 1, DRIVER_NAME); if (ret < 0) { dev_err(dev, "Failed to allocate device number\n"); return ret; }trng->major = MAJOR(trng->devid); trng->minor = MINOR(trng->devid); /* 初始化cdev */trng->cdev.owner = THIS_MODULE;cdev_init(&trng->cdev, &trng_fops);/* 添加一个cdev */ret = cdev_add(&trng->cdev, trng->devid, 1);if (ret < 0) {dev_err(dev, "Failed to add cdev\n");unregister_chrdev_region(trng->devid, 1);return ret;} /* 创建类 */trng->class = class_create(THIS_MODULE, DRIVER_NAME);if (IS_ERR(trng->class)) {cdev_del(&trng->cdev);unregister_chrdev_region(trng->devid, 1);dev_err(dev, "Failed to create class\n");return PTR_ERR(trng->class);}/* 创建设备 */trng->dev = device_create(trng->class, NULL, trng->devid, NULL, DRIVER_NAME);if (IS_ERR(trng->dev)) {cdev_del(&trng->cdev);unregister_chrdev_region(trng->devid, 1);class_destroy(trng->class);dev_err(dev, "Failed to create device\n");return PTR_ERR(trng->dev);}/* 保存设备私有结构体 */platform_set_drvdata(pdev, trng);dev_info(dev, "TRNG platform driver probed\n");return 0;
}static int trng_remove(struct platform_device *pdev)
{struct trng_dev *trng;/* 获取设备私有结构体 */trng = platform_get_drvdata(pdev);/* 删除cdev */cdev_del(&trng->cdev);/* 释放设备号 */unregister_chrdev_region(trng->devid, 1);/* 删除设备 */device_destroy(trng->class, trng->devid);/* 删除类 */class_destroy(trng->class);/* 释放设备内存 */// devm_kfree(&pdev->dev, trng); // devm_kzalloc为设备分配的内存,在设备移除时会自动释放dev_info(&pdev->dev, "TRNG platform driver removed\n");return 0;
}static const struct of_device_id trng_of_match[] = {{ .compatible = "acme,trng" },{ /* sentinel */ }
};
MODULE_DEVICE_TABLE(of, trng_of_match);static struct platform_driver trng_driver = {.driver = {.name = DRIVER_NAME,.of_match_table = trng_of_match,},.probe = trng_probe,.remove = trng_remove,
};module_platform_driver(trng_driver);MODULE_AUTHOR("Author");
MODULE_DESCRIPTION("Trng driver");
MODULE_LICENSE("GPL");
使用platform平台驱动设备模型编写trng的驱动程序。
-
当设备树中的节点与驱动匹配成功会执行
trng_probe函数,完成驱动的加载。 -
当应用需要获取随机数时,读取这个
trng设备,陷入内核调用函数trng_read,进而调用函数trng_generate_random完成从硬件获取随机数。 -
如果需要释放设备,会调用
trng_remove函数卸载设备驱动。
执行make编译驱动程序,编译成功生成trng.ko。
Linux启动成功之后,可以挂载nfs,将trng.ko拷贝到trng目录:
mkdir trng
mount -t nfs -o nolock xx.xx.xx.xx:/nfs/trng /root/trng
执行如下命令,加载设备驱动:
insmod trng.ko
# [ 177.821055] trng 53030000.trng: TRNG platform driver probed
如果设备驱动加载成功,可以在/dev下找到设备:
ls /dev/trng
另外可以查看trng的设备号:
cat /proc/devices
# 249 trng
如果需要卸载设备驱动,执行:
rmmod trng.ko
# [ 2947.495906] trng 53030000.trng: TRNG platform driver removed
应用App
Makefile
新建trng/app目录,并创建Makefile,内如如下:
# 交叉工具链
CROSS_COMPILE ?= /opt/andestech/nds32le-linux-glibc-v5d/bin/riscv32-linux-# 指定C编译器
CC := $(CROSS_COMPILE)gcc# 目标文件名
TARGET := trng# 源文件名
SRC := trng.c# 默认目标
all: $(TARGET)# 编译并链接
$(TARGET): $(SRC)$(CC) $(SRC) -o $(TARGET)# 清理
clean:rm -f $(TARGET)
应用
在trng/app下新建trng.c文件,内容如下:
#include <stdio.h>
#include <stdint.h>
#include <stdlib.h>
#include <unistd.h>
#include <fcntl.h> #define TRNG_DEVICE "/dev/trng"static void hexdump(const char *name, const unsigned char *buffer, unsigned int len)
{printf("****************%s****************\n", name);for (unsigned int i = 0; i < len; i++) {printf("%02x ", buffer[i]);if ((i + 1) % 16 == 0) {printf("\n");}}if (len % 16 ) {printf("\n");}
}int main(int argc, char *argv[])
{uint8_t *buf = NULL;size_t num;int ret, fd;if (argc < 2) {printf("Usage: trng <num>\n");return -1;}num = atoi(argv[1]);buf = malloc(num);if (buf == NULL) {printf("Failed to malloc\n");return -1;}/* 打开设备 */fd = open(TRNG_DEVICE, O_RDONLY);if (fd < 0) {printf("Failed to open trng device\n");goto exit;}/* 读取随机数 */ret = read(fd, buf, num);if (ret < 0) {printf("Failed to read random, ret=%d\n", ret);goto exit;}hexdump("random", buf, num);
exit:close(fd);free(buf);return ret;
}
执行make编译应用程序,编译成功生成trng。
同理,将trng应用拷贝到trng目录,并执行:
./trng 16
# ****************random****************
# 6c 95 ea 3c a0 1f e8 c2 03 db 66 f6 19 4b 07 e3
# c0 96 a3 93 20 a9 68 c5 9f 1f a1 55 c0 9c 24 c9
# 5f 06 47 45 be 2c 21 b5 11 23 23 e6 36 94 3f d6
# 9a 30 68 91 da c4 6d ff af 46 26 c9 ab f8 79 7c
如果随机数获取成功,说明驱动和应用程序运行正常。
编译进内核
在开发前期阶段,一般将驱动编译成模块,方便调试。当驱动开发完成后,可以将其编译进内核。
驱动
在linux-6.1/drivers下新建trng目录,并创建Makefile和Kconfig文件,内容分别如下:
# SPDX-License-Identifier: GPL-2.0
#
# Makefile for the TRNG device drivers.
#obj-$(CONFIG_TRNG) := trng.o
# SPDX-License-Identifier: GPL-2.0-only
#
# TRNG device configuration
#config TRNGtristate "TRNG support"helpThis driver provides support for TRNG in SoCs.To compile this driver as a module, choose M here: the modulewill be called acme-trng.If unsure, say Y.
在linux/drivers/Makefile中添加:
obj-$(CONFIG_TRNG) += trng/
在linux/drivers/Kconfig中添加:
source "drivers/trng/Kconfig"
将trng.c驱动文件拷贝到trng目录,最终目录文件如下:
$ tree linux-6.1/drivers/trng/
├── Kconfig
├── Makefile
└── trng.c
内核配置
配置内核,输入命令:
make menuconfig
选择Device Drivers->TRNG support,选择将trng编译进内核,这里可以有三种选择:
- *:将该功能编译进内核
- 空:不编译该功能
- M:将该功能编译成内核中的模块
运行
编译Linux并启动,在启动日志中,如果打印如下,说明TRNG驱动运行正常:
[ 4.974450] trng 53030000.trng: TRNG platform driver probed
可以执行命令,获取随机数:
cat /dev/trng | hexdump -n 32
0000000 df01 f5bc de33 2509 8d16 7b5f 8868 8bea
0000010 40f3 00f2 97a4 324d 03c2 10c8 b943 3d6d
0000020
问题解决
-
加载KO报异常
trng: loading out-of-tree module taints kernel.原因在于没有将此驱动模块加入到
Kconfig导致。 -
使用函数
devm_kzalloc为设备分配的内存,在设备移除时会自动释放,可以不进行显示释放devm_kfree -
宏
container_of用于从结构体的某个成员的地址反推出整个结构体的地址,尤其注意第一个参数必须为成员的地址,如果结构体成员为指针变量,需要取该指针变量的地址。