1What:		/sys/power/
2Date:		August 2006
3Contact:	Rafael J. Wysocki <rjw@rjwysocki.net>
4Description:
5		The /sys/power directory will contain files that will
6		provide a unified interface to the power management
7		subsystem.
8
9What:		/sys/power/state
10Date:		May 2014
11Contact:	Rafael J. Wysocki <rjw@rjwysocki.net>
12Description:
13		The /sys/power/state file controls system sleep states.
14		Reading from this file returns the available sleep state
15		labels, which may be "mem", "standby", "freeze" and "disk"
16		(hibernation).  The meanings of the first three labels depend on
17		the relative_sleep_states command line argument as follows:
18		 1) relative_sleep_states = 1
19		    "mem", "standby", "freeze" represent non-hibernation sleep
20		    states from the deepest ("mem", always present) to the
21		    shallowest ("freeze").  "standby" and "freeze" may or may
22		    not be present depending on the capabilities of the
23		    platform.  "freeze" can only be present if "standby" is
24		    present.
25		 2) relative_sleep_states = 0 (default)
26		    "mem" - "suspend-to-RAM", present if supported.
27		    "standby" - "power-on suspend", present if supported.
28		    "freeze" - "suspend-to-idle", always present.
29
30		Writing to this file one of these strings causes the system to
31		transition into the corresponding state, if available.  See
32		Documentation/power/states.txt for a description of what
33		"suspend-to-RAM", "power-on suspend" and "suspend-to-idle" mean.
34
35What:		/sys/power/disk
36Date:		September 2006
37Contact:	Rafael J. Wysocki <rjw@rjwysocki.net>
38Description:
39		The /sys/power/disk file controls the operating mode of the
40		suspend-to-disk mechanism.  Reading from this file returns
41		the name of the method by which the system will be put to
42		sleep on the next suspend.  There are four methods supported:
43		'firmware' - means that the memory image will be saved to disk
44		by some firmware, in which case we also assume that the
45		firmware will handle the system suspend.
46		'platform' - the memory image will be saved by the kernel and
47		the system will be put to sleep by the platform driver (e.g.
48		ACPI or other PM registers).
49		'shutdown' - the memory image will be saved by the kernel and
50		the system will be powered off.
51		'reboot' - the memory image will be saved by the kernel and
52		the system will be rebooted.
53
54		Additionally, /sys/power/disk can be used to turn on one of the
55		two testing modes of the suspend-to-disk mechanism: 'testproc'
56		or 'test'.  If the suspend-to-disk mechanism is in the
57		'testproc' mode, writing 'disk' to /sys/power/state will cause
58		the kernel to disable nonboot CPUs and freeze tasks, wait for 5
59		seconds, unfreeze tasks and enable nonboot CPUs.  If it is in
60		the 'test' mode, writing 'disk' to /sys/power/state will cause
61		the kernel to disable nonboot CPUs and freeze tasks, shrink
62		memory, suspend devices, wait for 5 seconds, resume devices,
63		unfreeze tasks and enable nonboot CPUs.  Then, we are able to
64		look in the log messages and work out, for example, which code
65		is being slow and which device drivers are misbehaving.
66
67		The suspend-to-disk method may be chosen by writing to this
68		file one of the accepted strings:
69
70		'firmware'
71		'platform'
72		'shutdown'
73		'reboot'
74		'testproc'
75		'test'
76
77		It will only change to 'firmware' or 'platform' if the system
78		supports that.
79
80What:		/sys/power/image_size
81Date:		August 2006
82Contact:	Rafael J. Wysocki <rjw@rjwysocki.net>
83Description:
84		The /sys/power/image_size file controls the size of the image
85		created by the suspend-to-disk mechanism.  It can be written a
86		string representing a non-negative integer that will be used
87		as an upper limit of the image size, in bytes.  The kernel's
88		suspend-to-disk code will do its best to ensure the image size
89		will not exceed this number.  However, if it turns out to be
90		impossible, the kernel will try to suspend anyway using the
91		smallest image possible.  In particular, if "0" is written to
92		this file, the suspend image will be as small as possible.
93
94		Reading from this file will display the current image size
95		limit, which is set to 500 MB by default.
96
97What:		/sys/power/pm_trace
98Date:		August 2006
99Contact:	Rafael J. Wysocki <rjw@rjwysocki.net>
100Description:
101		The /sys/power/pm_trace file controls the code which saves the
102		last PM event point in the RTC across reboots, so that you can
103		debug a machine that just hangs during suspend (or more
104		commonly, during resume).  Namely, the RTC is only used to save
105		the last PM event point if this file contains '1'.  Initially
106		it contains '0' which may be changed to '1' by writing a
107		string representing a nonzero integer into it.
108
109		To use this debugging feature you should attempt to suspend
110		the machine, then reboot it and run
111
112		dmesg -s 1000000 | grep 'hash matches'
113
114		If you do not get any matches (or they appear to be false
115		positives), it is possible that the last PM event point
116		referred to a device created by a loadable kernel module.  In
117		this case cat /sys/power/pm_trace_dev_match (see below) after
118		your system is started up and the kernel modules are loaded.
119
120		CAUTION: Using it will cause your machine's real-time (CMOS)
121		clock to be set to a random invalid time after a resume.
122
123What;		/sys/power/pm_trace_dev_match
124Date:		October 2010
125Contact:	James Hogan <james@albanarts.com>
126Description:
127		The /sys/power/pm_trace_dev_match file contains the name of the
128		device associated with the last PM event point saved in the RTC
129		across reboots when pm_trace has been used.  More precisely it
130		contains the list of current devices (including those
131		registered by loadable kernel modules since boot) which match
132		the device hash in the RTC at boot, with a newline after each
133		one.
134
135		The advantage of this file over the hash matches printed to the
136		kernel log (see /sys/power/pm_trace), is that it includes
137		devices created after boot by loadable kernel modules.
138
139		Due to the small hash size necessary to fit in the RTC, it is
140		possible that more than one device matches the hash, in which
141		case further investigation is required to determine which
142		device is causing the problem.  Note that genuine RTC clock
143		values (such as when pm_trace has not been used), can still
144		match a device and output it's name here.
145
146What:		/sys/power/pm_async
147Date:		January 2009
148Contact:	Rafael J. Wysocki <rjw@rjwysocki.net>
149Description:
150		The /sys/power/pm_async file controls the switch allowing the
151		user space to enable or disable asynchronous suspend and resume
152		of devices.  If enabled, this feature will cause some device
153		drivers' suspend and resume callbacks to be executed in parallel
154		with each other and with the main suspend thread.  It is enabled
155		if this file contains "1", which is the default.  It may be
156		disabled by writing "0" to this file, in which case all devices
157		will be suspended and resumed synchronously.
158
159What:		/sys/power/wakeup_count
160Date:		July 2010
161Contact:	Rafael J. Wysocki <rjw@rjwysocki.net>
162Description:
163		The /sys/power/wakeup_count file allows user space to put the
164		system into a sleep state while taking into account the
165		concurrent arrival of wakeup events.  Reading from it returns
166		the current number of registered wakeup events and it blocks if
167		some wakeup events are being processed at the time the file is
168		read from.  Writing to it will only succeed if the current
169		number of wakeup events is equal to the written value and, if
170		successful, will make the kernel abort a subsequent transition
171		to a sleep state if any wakeup events are reported after the
172		write has returned.
173
174What:		/sys/power/reserved_size
175Date:		May 2011
176Contact:	Rafael J. Wysocki <rjw@rjwysocki.net>
177Description:
178		The /sys/power/reserved_size file allows user space to control
179		the amount of memory reserved for allocations made by device
180		drivers during the "device freeze" stage of hibernation.  It can
181		be written a string representing a non-negative integer that
182		will be used as the amount of memory to reserve for allocations
183		made by device drivers' "freeze" callbacks, in bytes.
184
185		Reading from this file will display the current value, which is
186		set to 1 MB by default.
187
188What:		/sys/power/autosleep
189Date:		April 2012
190Contact:	Rafael J. Wysocki <rjw@rjwysocki.net>
191Description:
192		The /sys/power/autosleep file can be written one of the strings
193		returned by reads from /sys/power/state.  If that happens, a
194		work item attempting to trigger a transition of the system to
195		the sleep state represented by that string is queued up.  This
196		attempt will only succeed if there are no active wakeup sources
197		in the system at that time.  After every execution, regardless
198		of whether or not the attempt to put the system to sleep has
199		succeeded, the work item requeues itself until user space
200		writes "off" to /sys/power/autosleep.
201
202		Reading from this file causes the last string successfully
203		written to it to be returned.
204
205What:		/sys/power/wake_lock
206Date:		February 2012
207Contact:	Rafael J. Wysocki <rjw@rjwysocki.net>
208Description:
209		The /sys/power/wake_lock file allows user space to create
210		wakeup source objects and activate them on demand (if one of
211		those wakeup sources is active, reads from the
212		/sys/power/wakeup_count file block or return false).  When a
213		string without white space is written to /sys/power/wake_lock,
214		it will be assumed to represent a wakeup source name.  If there
215		is a wakeup source object with that name, it will be activated
216		(unless active already).  Otherwise, a new wakeup source object
217		will be registered, assigned the given name and activated.
218		If a string written to /sys/power/wake_lock contains white
219		space, the part of the string preceding the white space will be
220		regarded as a wakeup source name and handled as descrived above.
221		The other part of the string will be regarded as a timeout (in
222		nanoseconds) such that the wakeup source will be automatically
223		deactivated after it has expired.  The timeout, if present, is
224		set regardless of the current state of the wakeup source object
225		in question.
226
227		Reads from this file return a string consisting of the names of
228		wakeup sources created with the help of it that are active at
229		the moment, separated with spaces.
230
231
232What:		/sys/power/wake_unlock
233Date:		February 2012
234Contact:	Rafael J. Wysocki <rjw@rjwysocki.net>
235Description:
236		The /sys/power/wake_unlock file allows user space to deactivate
237		wakeup sources created with the help of /sys/power/wake_lock.
238		When a string is written to /sys/power/wake_unlock, it will be
239		assumed to represent the name of a wakeup source to deactivate.
240		If a wakeup source object of that name exists and is active at
241		the moment, it will be deactivated.
242
243		Reads from this file return a string consisting of the names of
244		wakeup sources created with the help of /sys/power/wake_lock
245		that are inactive at the moment, separated with spaces.
246
247What:		/sys/power/pm_print_times
248Date:		May 2012
249Contact:	Sameer Nanda <snanda@chromium.org>
250Description:
251		The /sys/power/pm_print_times file allows user space to
252		control whether the time taken by devices to suspend and
253		resume is printed.  These prints are useful for hunting down
254		devices that take too long to suspend or resume.
255
256		Writing a "1" enables this printing while writing a "0"
257		disables it.  The default value is "0".  Reading from this file
258		will display the current value.
259
260What:		/sys/power/pm_wakeup_irq
261Date:		April 2015
262Contact:	Alexandra Yates <alexandra.yates@linux.intel.org>
263Description:
264		The /sys/power/pm_wakeup_irq file reports to user space the IRQ
265		number of the first wakeup interrupt (that is, the first
266		interrupt from an IRQ line armed for system wakeup) seen by the
267		kernel during the most recent system suspend/resume cycle.
268
269		This output is useful for system wakeup diagnostics of spurious
270		wakeup interrupts.
271