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17666497fe
Without knowing this, the use of sysfs_streq() becomes puzzling. The termination happens in kernfs_fop_write(). Signed-off-by: Ulf Magnusson <ulfalizer@gmail.com> [jc: moved the new text to a different paragraph] Signed-off-by: Jonathan Corbet <corbet@lwn.net>
385 lines
12 KiB
Plaintext
385 lines
12 KiB
Plaintext
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sysfs - _The_ filesystem for exporting kernel objects.
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Patrick Mochel <mochel@osdl.org>
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Mike Murphy <mamurph@cs.clemson.edu>
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Revised: 16 August 2011
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Original: 10 January 2003
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What it is:
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~~~~~~~~~~~
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sysfs is a ram-based filesystem initially based on ramfs. It provides
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a means to export kernel data structures, their attributes, and the
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linkages between them to userspace.
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sysfs is tied inherently to the kobject infrastructure. Please read
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Documentation/kobject.txt for more information concerning the kobject
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interface.
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Using sysfs
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~~~~~~~~~~~
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sysfs is always compiled in if CONFIG_SYSFS is defined. You can access
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it by doing:
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mount -t sysfs sysfs /sys
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Directory Creation
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~~~~~~~~~~~~~~~~~~
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For every kobject that is registered with the system, a directory is
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created for it in sysfs. That directory is created as a subdirectory
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of the kobject's parent, expressing internal object hierarchies to
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userspace. Top-level directories in sysfs represent the common
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ancestors of object hierarchies; i.e. the subsystems the objects
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belong to.
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Sysfs internally stores a pointer to the kobject that implements a
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directory in the kernfs_node object associated with the directory. In
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the past this kobject pointer has been used by sysfs to do reference
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counting directly on the kobject whenever the file is opened or closed.
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With the current sysfs implementation the kobject reference count is
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only modified directly by the function sysfs_schedule_callback().
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Attributes
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~~~~~~~~~~
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Attributes can be exported for kobjects in the form of regular files in
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the filesystem. Sysfs forwards file I/O operations to methods defined
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for the attributes, providing a means to read and write kernel
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attributes.
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Attributes should be ASCII text files, preferably with only one value
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per file. It is noted that it may not be efficient to contain only one
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value per file, so it is socially acceptable to express an array of
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values of the same type.
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Mixing types, expressing multiple lines of data, and doing fancy
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formatting of data is heavily frowned upon. Doing these things may get
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you publicly humiliated and your code rewritten without notice.
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An attribute definition is simply:
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struct attribute {
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char * name;
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struct module *owner;
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umode_t mode;
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};
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int sysfs_create_file(struct kobject * kobj, const struct attribute * attr);
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void sysfs_remove_file(struct kobject * kobj, const struct attribute * attr);
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A bare attribute contains no means to read or write the value of the
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attribute. Subsystems are encouraged to define their own attribute
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structure and wrapper functions for adding and removing attributes for
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a specific object type.
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For example, the driver model defines struct device_attribute like:
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struct device_attribute {
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struct attribute attr;
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ssize_t (*show)(struct device *dev, struct device_attribute *attr,
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char *buf);
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ssize_t (*store)(struct device *dev, struct device_attribute *attr,
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const char *buf, size_t count);
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};
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int device_create_file(struct device *, const struct device_attribute *);
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void device_remove_file(struct device *, const struct device_attribute *);
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It also defines this helper for defining device attributes:
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#define DEVICE_ATTR(_name, _mode, _show, _store) \
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struct device_attribute dev_attr_##_name = __ATTR(_name, _mode, _show, _store)
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For example, declaring
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static DEVICE_ATTR(foo, S_IWUSR | S_IRUGO, show_foo, store_foo);
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is equivalent to doing:
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static struct device_attribute dev_attr_foo = {
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.attr = {
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.name = "foo",
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.mode = S_IWUSR | S_IRUGO,
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},
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.show = show_foo,
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.store = store_foo,
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};
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Subsystem-Specific Callbacks
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~~~~~~~~~~~~~~~~~~~~~~~~~~~~
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When a subsystem defines a new attribute type, it must implement a
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set of sysfs operations for forwarding read and write calls to the
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show and store methods of the attribute owners.
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struct sysfs_ops {
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ssize_t (*show)(struct kobject *, struct attribute *, char *);
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ssize_t (*store)(struct kobject *, struct attribute *, const char *, size_t);
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};
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[ Subsystems should have already defined a struct kobj_type as a
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descriptor for this type, which is where the sysfs_ops pointer is
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stored. See the kobject documentation for more information. ]
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When a file is read or written, sysfs calls the appropriate method
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for the type. The method then translates the generic struct kobject
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and struct attribute pointers to the appropriate pointer types, and
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calls the associated methods.
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To illustrate:
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#define to_dev(obj) container_of(obj, struct device, kobj)
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#define to_dev_attr(_attr) container_of(_attr, struct device_attribute, attr)
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static ssize_t dev_attr_show(struct kobject *kobj, struct attribute *attr,
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char *buf)
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{
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struct device_attribute *dev_attr = to_dev_attr(attr);
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struct device *dev = to_dev(kobj);
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ssize_t ret = -EIO;
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if (dev_attr->show)
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ret = dev_attr->show(dev, dev_attr, buf);
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if (ret >= (ssize_t)PAGE_SIZE) {
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print_symbol("dev_attr_show: %s returned bad count\n",
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(unsigned long)dev_attr->show);
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}
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return ret;
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}
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Reading/Writing Attribute Data
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~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~
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To read or write attributes, show() or store() methods must be
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specified when declaring the attribute. The method types should be as
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simple as those defined for device attributes:
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ssize_t (*show)(struct device *dev, struct device_attribute *attr, char *buf);
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ssize_t (*store)(struct device *dev, struct device_attribute *attr,
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const char *buf, size_t count);
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IOW, they should take only an object, an attribute, and a buffer as parameters.
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sysfs allocates a buffer of size (PAGE_SIZE) and passes it to the
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method. Sysfs will call the method exactly once for each read or
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write. This forces the following behavior on the method
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implementations:
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- On read(2), the show() method should fill the entire buffer.
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Recall that an attribute should only be exporting one value, or an
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array of similar values, so this shouldn't be that expensive.
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This allows userspace to do partial reads and forward seeks
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arbitrarily over the entire file at will. If userspace seeks back to
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zero or does a pread(2) with an offset of '0' the show() method will
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be called again, rearmed, to fill the buffer.
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- On write(2), sysfs expects the entire buffer to be passed during the
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first write. Sysfs then passes the entire buffer to the store() method.
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A terminating null is added after the data on stores. This makes
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functions like sysfs_streq() safe to use.
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When writing sysfs files, userspace processes should first read the
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entire file, modify the values it wishes to change, then write the
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entire buffer back.
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Attribute method implementations should operate on an identical
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buffer when reading and writing values.
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Other notes:
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- Writing causes the show() method to be rearmed regardless of current
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file position.
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- The buffer will always be PAGE_SIZE bytes in length. On i386, this
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is 4096.
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- show() methods should return the number of bytes printed into the
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buffer. This is the return value of scnprintf().
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- show() must not use snprintf() when formatting the value to be
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returned to user space. If you can guarantee that an overflow
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will never happen you can use sprintf() otherwise you must use
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scnprintf().
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- store() should return the number of bytes used from the buffer. If the
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entire buffer has been used, just return the count argument.
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- show() or store() can always return errors. If a bad value comes
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through, be sure to return an error.
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- The object passed to the methods will be pinned in memory via sysfs
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referencing counting its embedded object. However, the physical
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entity (e.g. device) the object represents may not be present. Be
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sure to have a way to check this, if necessary.
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A very simple (and naive) implementation of a device attribute is:
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static ssize_t show_name(struct device *dev, struct device_attribute *attr,
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char *buf)
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{
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return scnprintf(buf, PAGE_SIZE, "%s\n", dev->name);
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}
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static ssize_t store_name(struct device *dev, struct device_attribute *attr,
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const char *buf, size_t count)
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{
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snprintf(dev->name, sizeof(dev->name), "%.*s",
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(int)min(count, sizeof(dev->name) - 1), buf);
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return count;
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}
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static DEVICE_ATTR(name, S_IRUGO, show_name, store_name);
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(Note that the real implementation doesn't allow userspace to set the
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name for a device.)
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Top Level Directory Layout
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~~~~~~~~~~~~~~~~~~~~~~~~~~
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The sysfs directory arrangement exposes the relationship of kernel
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data structures.
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The top level sysfs directory looks like:
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block/
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bus/
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class/
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dev/
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devices/
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firmware/
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net/
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fs/
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devices/ contains a filesystem representation of the device tree. It maps
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directly to the internal kernel device tree, which is a hierarchy of
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struct device.
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bus/ contains flat directory layout of the various bus types in the
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kernel. Each bus's directory contains two subdirectories:
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devices/
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drivers/
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devices/ contains symlinks for each device discovered in the system
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that point to the device's directory under root/.
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drivers/ contains a directory for each device driver that is loaded
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for devices on that particular bus (this assumes that drivers do not
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span multiple bus types).
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fs/ contains a directory for some filesystems. Currently each
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filesystem wanting to export attributes must create its own hierarchy
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below fs/ (see ./fuse.txt for an example).
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dev/ contains two directories char/ and block/. Inside these two
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directories there are symlinks named <major>:<minor>. These symlinks
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point to the sysfs directory for the given device. /sys/dev provides a
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quick way to lookup the sysfs interface for a device from the result of
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a stat(2) operation.
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More information can driver-model specific features can be found in
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Documentation/driver-model/.
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TODO: Finish this section.
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Current Interfaces
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~~~~~~~~~~~~~~~~~~
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The following interface layers currently exist in sysfs:
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- devices (include/linux/device.h)
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----------------------------------
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Structure:
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struct device_attribute {
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struct attribute attr;
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ssize_t (*show)(struct device *dev, struct device_attribute *attr,
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char *buf);
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ssize_t (*store)(struct device *dev, struct device_attribute *attr,
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const char *buf, size_t count);
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};
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Declaring:
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DEVICE_ATTR(_name, _mode, _show, _store);
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Creation/Removal:
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int device_create_file(struct device *dev, const struct device_attribute * attr);
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void device_remove_file(struct device *dev, const struct device_attribute * attr);
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- bus drivers (include/linux/device.h)
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--------------------------------------
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Structure:
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struct bus_attribute {
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struct attribute attr;
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ssize_t (*show)(struct bus_type *, char * buf);
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ssize_t (*store)(struct bus_type *, const char * buf, size_t count);
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};
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Declaring:
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BUS_ATTR(_name, _mode, _show, _store)
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Creation/Removal:
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int bus_create_file(struct bus_type *, struct bus_attribute *);
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void bus_remove_file(struct bus_type *, struct bus_attribute *);
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- device drivers (include/linux/device.h)
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-----------------------------------------
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Structure:
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struct driver_attribute {
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struct attribute attr;
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ssize_t (*show)(struct device_driver *, char * buf);
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ssize_t (*store)(struct device_driver *, const char * buf,
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size_t count);
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};
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Declaring:
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DRIVER_ATTR(_name, _mode, _show, _store)
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Creation/Removal:
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int driver_create_file(struct device_driver *, const struct driver_attribute *);
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void driver_remove_file(struct device_driver *, const struct driver_attribute *);
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Documentation
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~~~~~~~~~~~~~
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The sysfs directory structure and the attributes in each directory define an
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ABI between the kernel and user space. As for any ABI, it is important that
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this ABI is stable and properly documented. All new sysfs attributes must be
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documented in Documentation/ABI. See also Documentation/ABI/README for more
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information.
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