Documentation/driver-model/device.txt - kernel/msm-4.9 - Gitiles


 The Basic Device Structure
 ~~~~~~~~~~~~~~~~~~~~~~~~~~

 See the kerneldoc for the struct device.


 Programming Interface
 ~~~~~~~~~~~~~~~~~~~~~
 The bus driver that discovers the device uses this to register the
 device with the core:

 int device_register(struct device * dev);

 The bus should initialize the following fields:

     - parent
     - name
     - bus_id
     - bus

 A device is removed from the core when its reference count goes to
 0. The reference count can be adjusted using:

 struct device * get_device(struct device * dev);
 void put_device(struct device * dev);

 get_device() will return a pointer to the struct device passed to it
 if the reference is not already 0 (if it's in the process of being
 removed already).

 A driver can access the lock in the device structure using:

 void lock_device(struct device * dev);
 void unlock_device(struct device * dev);


 Attributes
 ~~~~~~~~~~
 struct device_attribute {
 	struct attribute	attr;
 	ssize_t (*show)(struct device *dev, struct device_attribute *attr,
 			char *buf);
 	ssize_t (*store)(struct device *dev, struct device_attribute *attr,
 			 const char *buf, size_t count);
 };

 Attributes of devices can be exported via drivers using a simple
 procfs-like interface.

 Please see Documentation/filesystems/sysfs.txt for more information
 on how sysfs works.

 Attributes are declared using a macro called DEVICE_ATTR:

 #define DEVICE_ATTR(name,mode,show,store)

 Example:

 DEVICE_ATTR(power,0644,show_power,store_power);

 This declares a structure of type struct device_attribute named
 'dev_attr_power'. This can then be added and removed to the device's
 directory using:

 int device_create_file(struct device *device, struct device_attribute * entry);
 void device_remove_file(struct device * dev, struct device_attribute * attr);

 Example:

 device_create_file(dev,&dev_attr_power);
 device_remove_file(dev,&dev_attr_power);

 The file name will be 'power' with a mode of 0644 (-rw-r--r--).

 Word of warning:  While the kernel allows device_create_file() and
 device_remove_file() to be called on a device at any time, userspace has
 strict expectations on when attributes get created.  When a new device is
 registered in the kernel, a uevent is generated to notify userspace (like
 udev) that a new device is available.  If attributes are added after the
 device is registered, then userspace won't get notified and userspace will
 not know about the new attributes.

 This is important for device driver that need to publish additional
 attributes for a device at driver probe time.  If the device driver simply
 calls device_create_file() on the device structure passed to it, then
 userspace will never be notified of the new attributes.  Instead, it should
 probably use class_create() and class->dev_attrs to set up a list of
 desired attributes in the modules_init function, and then in the .probe()
 hook, and then use device_create() to create a new device as a child
 of the probed device.  The new device will generate a new uevent and
 properly advertise the new attributes to userspace.

 For example, if a driver wanted to add the following attributes:
 struct device_attribute mydriver_attribs[] = {
 	__ATTR(port_count, 0444, port_count_show),
 	__ATTR(serial_number, 0444, serial_number_show),
 	NULL
 };

 Then in the module init function is would do:
 	mydriver_class = class_create(THIS_MODULE, "my_attrs");
 	mydriver_class.dev_attr = mydriver_attribs;

 And assuming 'dev' is the struct device passed into the probe hook, the driver
 probe function would do something like:
 	device_create(&mydriver_class, dev, chrdev, &private_data, "my_name");

	The Basic Device Structure
	~~~~~~~~~~~~~~~~~~~~~~~~~~

	See the kerneldoc for the struct device.


	Programming Interface
	~~~~~~~~~~~~~~~~~~~~~
	The bus driver that discovers the device uses this to register the
	device with the core:

	int device_register(struct device * dev);

	The bus should initialize the following fields:

	- parent
	- name
	- bus_id
	- bus

	A device is removed from the core when its reference count goes to
	0. The reference count can be adjusted using:

	struct device * get_device(struct device * dev);
	void put_device(struct device * dev);

	get_device() will return a pointer to the struct device passed to it
	if the reference is not already 0 (if it's in the process of being
	removed already).

	A driver can access the lock in the device structure using:

	void lock_device(struct device * dev);
	void unlock_device(struct device * dev);


	Attributes
	~~~~~~~~~~
	struct device_attribute {
	struct attribute attr;
	ssize_t (show)(struct device dev, struct device_attribute *attr,
	char *buf);
	ssize_t (store)(struct device dev, struct device_attribute *attr,
	const char *buf, size_t count);
	};

	Attributes of devices can be exported via drivers using a simple
	procfs-like interface.

	Please see Documentation/filesystems/sysfs.txt for more information
	on how sysfs works.

	Attributes are declared using a macro called DEVICE_ATTR:

	#define DEVICE_ATTR(name,mode,show,store)

	Example:

	DEVICE_ATTR(power,0644,show_power,store_power);

	This declares a structure of type struct device_attribute named
	'dev_attr_power'. This can then be added and removed to the device's
	directory using:

	int device_create_file(struct device device, struct device_attribute entry);
	void device_remove_file(struct device * dev, struct device_attribute * attr);

	Example:

	device_create_file(dev,&dev_attr_power);
	device_remove_file(dev,&dev_attr_power);

	The file name will be 'power' with a mode of 0644 (-rw-r--r--).

	Word of warning: While the kernel allows device_create_file() and
	device_remove_file() to be called on a device at any time, userspace has
	strict expectations on when attributes get created. When a new device is
	registered in the kernel, a uevent is generated to notify userspace (like
	udev) that a new device is available. If attributes are added after the
	device is registered, then userspace won't get notified and userspace will
	not know about the new attributes.

	This is important for device driver that need to publish additional
	attributes for a device at driver probe time. If the device driver simply
	calls device_create_file() on the device structure passed to it, then
	userspace will never be notified of the new attributes. Instead, it should
	probably use class_create() and class->dev_attrs to set up a list of
	desired attributes in the modules_init function, and then in the .probe()
	hook, and then use device_create() to create a new device as a child
	of the probed device. The new device will generate a new uevent and
	properly advertise the new attributes to userspace.

	For example, if a driver wanted to add the following attributes:
	struct device_attribute mydriver_attribs[] = {
	__ATTR(port_count, 0444, port_count_show),
	__ATTR(serial_number, 0444, serial_number_show),
	NULL
	};

	Then in the module init function is would do:
	mydriver_class = class_create(THIS_MODULE, "my_attrs");
	mydriver_class.dev_attr = mydriver_attribs;

	And assuming 'dev' is the struct device passed into the probe hook, the driver
	probe function would do something like:
	device_create(&mydriver_class, dev, chrdev, &private_data, "my_name");