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nexedi
linux
Commits
30acfaa4
Commit
30acfaa4
authored
Sep 05, 2003
by
Patrick Mochel
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[sysfs/kobject] Update documentation.
From Randy Dunlap.
parent
b930a21e
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Documentation/filesystems/sysfs.txt
Documentation/filesystems/sysfs.txt
+3
-3
Documentation/kobject.txt
Documentation/kobject.txt
+10
-10
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Documentation/filesystems/sysfs.txt
View file @
30acfaa4
...
...
@@ -116,7 +116,7 @@ static struct device_attribute dev_attr_foo = {
Subsystem-Specific Callbacks
~~~~~~~~~~~~~~~~~~~~~~~~~~~~
When a subsystem defines a new attribute type,
they
must implement a
When a subsystem defines a new attribute type,
it
must implement a
set of sysfs operations for forwarding read and write calls to the
show and store methods of the attribute owners.
...
...
@@ -204,7 +204,7 @@ Other notes:
can be done using strlen().
- show() or store() can always return errors. If a bad value comes
through, be sure
and
return an error.
through, be sure
to
return an error.
- The object passed to the methods will be pinned in memory via sysfs
referencing counting its embedded object. However, the physical
...
...
@@ -229,7 +229,7 @@ static DEVICE_ATTR(name,S_IRUGO,show_name,store_name);
(Note that the real implementation doesn't allow userspace to set the
name for a device
).
name for a device
.)
Top Level Directory Layout
...
...
Documentation/kobject.txt
View file @
30acfaa4
...
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@@ -87,7 +87,7 @@ initialized kobject may later be added to the object hierarchy by
calling kobject_add(). An initialized kobject may be used for
reference counting.
Note: calling kobject_init()
,
then kobject_add() is functionally
Note: calling kobject_init() then kobject_add() is functionally
equivalent to calling kobject_register().
When a kobject is unregistered, it is removed from its kset's list,
...
...
@@ -108,10 +108,10 @@ This allows any memory allocated for the object to be freed.
NOTE!!!
It is _imperative_ that you supply a des
c
tructor for dynamically
It is _imperative_ that you supply a destructor for dynamically
allocated kobjects to free them if you are using kobject reference
counts. The reference count controls the
duration of the lifetime of
the object. If it goes to 0, then it is assumed that the object
will
counts. The reference count controls the
lifetime of the object.
If it goes to 0, then it is assumed that the object
will
be freed and cannot be used.
More importantly, you must free the object there, and not immediately
...
...
@@ -169,7 +169,7 @@ struct kobject * kset_find_obj(struct kset *, char *);
The type that the kobjects are embedded in is described by the ktype
pointer. The subsystem that the kobject belongs to is pointed to by
pointer. The subsystem that the kobject belongs to is pointed to by
the
subsys pointer.
A kset contains a kobject itself, meaning that it may be registered in
...
...
@@ -180,7 +180,7 @@ kset (of that object type).
For example, a block device is an object (struct gendisk) that is
contained in a set of block devices. It may also contain a set of
partitions (struct hd_struct) that have been found on the device. The
following code snippet illustrates how to
properly express this
.
following code snippet illustrates how to
express this properly
.
struct gendisk * disk;
...
...
...
@@ -215,7 +215,7 @@ name. The kobject, if found, is returned.
ksets are represented in sysfs when their embedded kobjects are
registered. They follow the same rules of parenting, with one
exception. If a kset does not have a parent, nor is its embedded
kobject part of another kset, the kset's parent becomes it
'
s dominant
kobject part of another kset, the kset's parent becomes its dominant
subsystem.
If the kset does not have a parent, its directory is created at the
...
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@@ -262,7 +262,7 @@ ksets, as there may be disparate sets of identical objects.
A subsystem represents a significant entity of code that maintains an
arbitrary number of sets of objects of various types. Since the number
of ksets
, and the type of objects they contain,
are variable, a
of ksets
and the type of objects they contain
are variable, a
generic representation of a subsystem is minimal.
...
...
@@ -294,7 +294,7 @@ All ksets that are attached to a subsystem share the subsystem's R/W
semaphore.
4.2 Programming Interface.
4.2
subsystem
Programming Interface.
The subsystem programming interface is simple and does not offer the
flexibility that the kset and kobject programming interfaces do. They
...
...
@@ -305,7 +305,7 @@ calls to their embedded kobjects).
4.3 Helpers
A number of macros are available to make dealing with subsystems
,
and
A number of macros are available to make dealing with subsystems and
their embedded objects easier.
...
...
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