devtmpfs文件系统创建设备节点

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devtmpfs文件系统创建设备节点
分类： LINUX

原文地址：devtmpfs文件系统创建设备节点作者：wangbaolin719

http://blog.chinaunix.net/uid-27097876-id-4334356.html

一、devtmpfs概述

1.devtmpfs 的功用是在 Linux 核心启动早期建立一个初步的 /dev，令一般启动程序不用等待 udev，缩短 GNU/Linux 的开机时间。

2.重要解释

Devtmpfs lets the kernel create a tmpfs very early at kernel initialization, before any driver core device is registered. Every device with a major/minor will have a device node created in this tmpfs instance. After the rootfs is mounted by the kernel, the populated tmpfs is mounted at /dev. In initramfs, it can be moved to the manually mounted root filesystem before /sbin/init is executed.

3.menuconfig 中加入devtmpfs支持

make menuconfig-->Device Drivers-->Generic Driver Options

Maintain a devtmpfs filesystem to mount at /dev

Automount devtmpfs at /dev, after the kernel mounted the rootfs

4.df -T显示devtmpfs

文件系统类型 1K-块已用可用已用% 挂载点

/dev/sda1 ext4 31621016 14985712 15029008 50% /

none devtmpfs 399552 276 399276 1% /dev

none tmpfs 403804 24 403780 1% /dev/shm

none tmpfs 403804 108 403696 1% /var/run

none tmpfs 403804 0 403804 0% /var/lock

none tmpfs 403804 0 403804 0% /lib/init/rw

.host:/ vmhgfs 67151668 54038400 13113268 81% /mnt/hgfs

/dev/loop0 ext2 16119 8528 6772 56% /mnt/loop

二、devtmpfs文件系统初始化

void __init driver_init(void)

{

    /* These are the core pieces */

    devtmpfs_init();//devtmpfs文件系统初始化

    devices_init();

    buses_init();

    classes_init();

    firmware_init();

    hypervisor_init();

    platform_bus_init();

    system_bus_init();

    cpu_dev_init();

    memory_dev_init();

}

static struct file_system_type dev_fs_type = {

    .name = "devtmpfs",

    .mount = dev_mount,

    .kill_sb = kill_litter_super,

};



int __init devtmpfs_init(void)

{

    int err = register_filesystem(&dev_fs_type);//注册dev_fs_type文件系统，即将dev_fs_type添加到内核全局总链表中file_systems

    if (err) {

        printk(KERN_ERR "devtmpfs: unable to register devtmpfs ""type %i ", err);

        return err;

    }



    thread = kthread_run(devtmpfsd, &err, "kdevtmpfs");//创建并启动一个内核线程devtmpfsd

    if (!IS_ERR(thread)) {

        wait_for_completion(&setup_done);//进行一个不可打断的等待,允许一个线程告诉另一个线程工作已经完成

    } else {

        err = PTR_ERR(thread);

        thread = NULL;

    }



    if (err) {

        printk(KERN_ERR "devtmpfs: unable to create devtmpfs %i ", err);

        unregister_filesystem(&dev_fs_type);

        return err;

    }



    printk(KERN_INFO "devtmpfs: initialized ");

    return 0;

}

//请求创建设备节点的请求队列req结构

static struct req {

    struct req *next;

    struct completion done;

    int err;

    const char *name;

    umode_t mode;//0代表删除

    struct device *dev;

} *requests;

//内核线程devtmpfsd

static int devtmpfsd(void *p)

{

    char options[] = "mode=0755";

    int *err = p;



    *err = sys_unshare(CLONE_NEWNS);

    if (*err)

        goto out;



    //挂载devtmpfs文件系统

    //devtmpfs是待安装设备的路径名，“/”是安装点路径名，”devtmpfs“表示文件系统类型，MS_SILENT=32768，即0x8000

    *err = sys_mount("devtmpfs", "/", "devtmpfs", MS_SILENT, options);

    if (*err)

        goto out;

    sys_chdir("/.."); //将进程的当前工作目录(pwd)设定为devtmpfs文件系统的根目录/* will traverse into overmounted root */

    sys_chroot(".");

    complete(&setup_done);//允许一个线程告诉另一个线程工作已经完成

    while (1) {

        spin_lock(&req_lock);

        while (requests) {//扫描请求链表，每当要创建一个设备节点时，都需要向requests链表中添加请求

            struct req *req = requests;//赋值给临时req

            requests = NULL;//清空

            spin_unlock(&req_lock);

            while (req) {//遍历刚才requests的请求链表

                struct req *next = req->next;

                req->err = handle(req->name, req->mode, req->dev);//对链表中的每一个请求调用handle函数

                complete(&req->done);

                req = next;

            }

            spin_lock(&req_lock);

        }

        __set_current_state(TASK_INTERRUPTIBLE);//设置为睡眠状态

        spin_unlock(&req_lock);

        schedule();//系统切换

    }

    return 0;

out:

    complete(&setup_done);

    return *err;

}

static int handle(const char *name, umode_t mode, struct device *dev)

{

    if (mode)

        return handle_create(name, mode, dev);

    else

        return handle_remove(name, dev);

}

static int handle_create(const char *nodename, umode_t mode, struct device *dev)

{

    struct dentry *dentry;

    struct path path;

    int err;



    //查找节点名称的路径以及返回节点对应的父目录dentry结构，即在此目录下创建一个设备节点，即是/dev目录对应的dentry结构

    dentry = kern_path_create(AT_FDCWD, nodename, &path, 0);

    if (dentry == ERR_PTR(-ENOENT)) {

        create_path(nodename);

        dentry = kern_path_create(AT_FDCWD, nodename, &path, 0);

    }

    if (IS_ERR(dentry))

        return PTR_ERR(dentry);



    //创建设备节点

    err = vfs_mknod(path.dentry->d_inode,dentry, mode, dev->devt);

    if (!err) {

        struct iattr newattrs;

        newattrs.ia_mode = mode;/* fixup possibly umasked mode */

        newattrs.ia_valid = ATTR_MODE;

        mutex_lock(&dentry->d_inode->i_mutex);

        notify_change(dentry, &newattrs);

        mutex_unlock(&dentry->d_inode->i_mutex);

        dentry->d_inode->i_private = &thread;/* mark as kernel-created inode */

    }

    done_path_create(&path, dentry);//与前边kern_path_create对应，减少path和dentry的计数等

    return err;

}

int vfs_mknod(struct inode *dir, struct dentry *dentry, umode_t mode, dev_t dev)

{

    int error = may_create(dir, dentry);//检查是否可以创建设备文件节点



    if (error)

        return error;



    //必须是字符设备或者块设备，且具有创建节点的权限

    if ((S_ISCHR(mode) || S_ISBLK(mode)) && !capable(CAP_MKNOD))

        return -EPERM;



    if (!dir->i_op->mknod)

        return -EPERM;



    error = devcgroup_inode_mknod(mode, dev);

    if (error)

        return error;



    error = security_inode_mknod(dir, dentry, mode, dev);

    if (error)

        return error;



    //调用具体文件系统的mknod()函数

    //mount时调用shmem_fill_super()-->shmem_get_inode()分配inode节点时做出的初始化

    /*那么在shmem_get_inode中

        caseS_IFDIR:

        inc_nlink(inode);

        inode->i_size= 2 * BOGO_DIRENT_SIZE;

        inode->i_op= &shmem_dir_inode_operations;

        inode->i_fop= &simple_dir_operations;

        由于mountpoint是dev这个目录，所以dev对应的inode的i_op就是shmem_dir_inode_operations。

        staticconst struct inode_operations shmem_dir_inode_operations = {

            #ifdefCONFIG_TMPFS

            .create =shmem_create,

            .lookup =simple_lookup,

            .link =shmem_link,

            .unlink =shmem_unlink,

            .symlink =shmem_symlink,

            .mkdir =shmem_mkdir,

            .rmdir =shmem_rmdir,

            .mknod =shmem_mknod,

            .rename =shmem_rename,

            #endif

            #ifdefCONFIG_TMPFS_POSIX_ACL

            .setattr =shmem_notify_change,

            .setxattr =generic_setxattr,

            .getxattr =generic_getxattr,

            .listxattr =generic_listxattr,

            .removexattr =generic_removexattr,

            .check_acl =generic_check_acl,

            #endif

            };

        */

    error = dir->i_op->mknod(dir, dentry, mode, dev);//所以这里调用的就是shmem_mknod

    if (!error)

        fsnotify_create(dir, dentry);

    return error;

}

shmem_mknod(struct inode *dir, struct dentry *dentry, umode_t mode, dev_t dev)

{

    struct inode *inode;

    int error = -ENOSPC;



    inode = shmem_get_inode(dir->i_sb, dir, mode, dev, VM_NORESERVE);//获得一个要创建的设备节点的inode，并初始化

    if (inode) {

        error = security_inode_init_security(inode, dir,&dentry->d_name,shmem_initxattrs, NULL);

        if (error) {

            if (error != -EOPNOTSUPP) {

                iput(inode);

                return error;

            }

        }

#ifdef CONFIG_TMPFS_POSIX_ACL

        error = generic_acl_init(inode, dir);

        if (error) {

            iput(inode);

            return error;

        }

#else

        error = 0;

#endif

        dir->i_size += BOGO_DIRENT_SIZE;

        dir->i_ctime = dir->i_mtime = CURRENT_TIME;

        d_instantiate(dentry, inode);//与dentry建立关,此时就可以在/dev下看到这个字符设备节点了

        dget(dentry); //递减dentry的计数

    }

    return error;

}

三、文件系统的mount

内核主要是通过kernel_init调用prepare_namespace()函数执行安装实际根文件系统的操作：

void __init prepare_namespace(void)

{

    int is_floppy;



    if (root_delay) {

        printk(KERN_INFO "Waiting %dsec before mounting root device... ",

               root_delay);

        ssleep(root_delay);

    }

    wait_for_device_probe();



    md_run_setup();

    /* 把root_device_name变量置为从启动参数“root”中获取的设备文件名。

  * 同样，把ROOT_DEV变量置为同一设备文件的主设备号和次设备号。*/

    if (saved_root_name[0]) {

        root_device_name = saved_root_name;

        if (!strncmp(root_device_name, "mtd", 3) ||

            !strncmp(root_device_name, "ubi", 3)) {

            mount_block_root(root_device_name, root_mountflags);

            goto out;

        }

        ROOT_DEV = name_to_dev_t(root_device_name);//转换为设备号/dev/mtdblock2.

        if (strncmp(root_device_name, "/dev/", 5) == 0)

            root_device_name += 5;

    }



    if (initrd_load())

        goto out;



    /* wait for any asynchronous scanning to complete */

    if ((ROOT_DEV == 0) && root_wait) {

        printk(KERN_INFO "Waiting for root device %s... ",

            saved_root_name);

        while (driver_probe_done() != 0 ||

            (ROOT_DEV = name_to_dev_t(saved_root_name)) == 0)

            msleep(100);

        async_synchronize_full();

    }



    is_floppy = MAJOR(ROOT_DEV) == FLOPPY_MAJOR;



    if (is_floppy && rd_doload && rd_load_disk(0))

        ROOT_DEV = Root_RAM0;



    mount_root();

out:

    devtmpfs_mount("dev");//挂载devtmpfs文件系统

    sys_mount(".", "/", NULL, MS_MOVE, NULL); /* 移动rootfs文件系统根目录上的已安装文件系统的安装点。 */

    sys_chroot(".");

}

int devtmpfs_mount(const char *mntdir)

{

    int err;



    if (!mount_dev)

        return 0;



    if (!thread)

        return 0;

    //将devtmpfs文件系统挂载到/dev目录下

    err = sys_mount("devtmpfs", (char *)mntdir, "devtmpfs", MS_SILENT, NULL);

    if (err)

        printk(KERN_INFO "devtmpfs: error mounting %i ", err);

    else

        printk(KERN_INFO "devtmpfs: mounted ");

    return err;

}

四、devtmpfs创建节点

系统在启动过程中，扫描到的设备会通过devtmpfs_create_node()函数来添加设备节点。

int devtmpfs_create_node(struct device *dev)

{

    const char *tmp = NULL;

    struct req req;



    if (!thread)

    return 0;



    req.mode = 0;

    req.name = device_get_devnode(dev, &req.mode, &tmp);//获得设备名

    if (!req.name)

        return -ENOMEM;



    if (req.mode == 0)

        req.mode = 0600;

    if (is_blockdev(dev))

        req.mode |= S_IFBLK;//块设备

    else

        req.mode |= S_IFCHR;//字符设备



    req.dev = dev;



    init_completion(&req.done);



    spin_lock(&req_lock);

    req.next = requests;//请求添加到requests链表

    requests = &req;

    spin_unlock(&req_lock);



    wake_up_process(thread);//唤醒内核线程devtmpfsd添加设备节点

    wait_for_completion(&req.done);



    kfree(tmp);



    return req.err;

}

const char *device_get_devnode(struct device *dev,umode_t *mode, const char **tmp)

{

    char *s;



    *tmp = NULL;



    /* the device type may provide a specific name */

    if (dev->type && dev->type->devnode)

        *tmp = dev->type->devnode(dev, mode);

    if (*tmp)

        return *tmp;



    /* the class may provide a specific name */

    if (dev->class && dev->class->devnode)

        *tmp = dev->class->devnode(dev, mode);

    if (*tmp)

        return *tmp;



    /* return name without allocation, tmp == NULL */

    if (strchr(dev_name(dev), '!') == NULL)

        return dev_name(dev);



    /* replace '!' in the name with '/' */

    *tmp = kstrdup(dev_name(dev), GFP_KERNEL);

    if (!*tmp)

        return NULL;

    while ((s = strchr(*tmp, '!')))

        s[0] = '/';

    return *tmp;

}
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原文地址：https://www.cnblogs.com/mull/p/4801282.html