1What:		/sys/bus/usb/devices/INTERFACE/authorized
2Date:		August 2015
3Description:
4		This allows to authorize (1) or deauthorize (0)
5		individual interfaces instead a whole device
6		in contrast to the device authorization.
7		If a deauthorized interface will be authorized
8		so the driver probing must be triggered manually
9		by writing INTERFACE to /sys/bus/usb/drivers_probe
10		This allows to avoid side-effects with drivers
11		that need multiple interfaces.
12		A deauthorized interface cannot be probed or claimed.
13
14What:		/sys/bus/usb/devices/usbX/interface_authorized_default
15Date:		August 2015
16Description:
17		This is used as value that determines if interfaces
18		would be authorized by default.
19		The value can be 1 or 0. It's by default 1.
20
21What:		/sys/bus/usb/device/.../authorized
22Date:		July 2008
23KernelVersion:	2.6.26
24Contact:	David Vrabel <david.vrabel@csr.com>
25Description:
26		Authorized devices are available for use by device
27		drivers, non-authorized one are not.  By default, wired
28		USB devices are authorized.
29
30		Certified Wireless USB devices are not authorized
31		initially and should be (by writing 1) after the
32		device has been authenticated.
33
34What:		/sys/bus/usb/device/.../wusb_cdid
35Date:		July 2008
36KernelVersion:	2.6.27
37Contact:	David Vrabel <david.vrabel@csr.com>
38Description:
39		For Certified Wireless USB devices only.
40
41		A devices's CDID, as 16 space-separated hex octets.
42
43What:		/sys/bus/usb/device/.../wusb_ck
44Date:		July 2008
45KernelVersion:	2.6.27
46Contact:	David Vrabel <david.vrabel@csr.com>
47Description:
48		For Certified Wireless USB devices only.
49
50		Write the device's connection key (CK) to start the
51		authentication of the device.  The CK is 16
52		space-separated hex octets.
53
54What:		/sys/bus/usb/device/.../wusb_disconnect
55Date:		July 2008
56KernelVersion:	2.6.27
57Contact:	David Vrabel <david.vrabel@csr.com>
58Description:
59		For Certified Wireless USB devices only.
60
61		Write a 1 to force the device to disconnect
62		(equivalent to unplugging a wired USB device).
63
64What:		/sys/bus/usb/drivers/.../new_id
65Date:		October 2011
66Contact:	linux-usb@vger.kernel.org
67Description:
68		Writing a device ID to this file will attempt to
69		dynamically add a new device ID to a USB device driver.
70		This may allow the driver to support more hardware than
71		was included in the driver's static device ID support
72		table at compile time. The format for the device ID is:
73		idVendor idProduct bInterfaceClass RefIdVendor RefIdProduct
74		The vendor ID and device ID fields are required, the
75		rest is optional. The Ref* tuple can be used to tell the
76		driver to use the same driver_data for the new device as
77		it is used for the reference device.
78		Upon successfully adding an ID, the driver will probe
79		for the device and attempt to bind to it.  For example:
80		# echo "8086 10f5" > /sys/bus/usb/drivers/foo/new_id
81
82		Here add a new device (0458:7045) using driver_data from
83		an already supported device (0458:704c):
84		# echo "0458 7045 0 0458 704c" > /sys/bus/usb/drivers/foo/new_id
85
86		Reading from this file will list all dynamically added
87		device IDs in the same format, with one entry per
88		line. For example:
89		# cat /sys/bus/usb/drivers/foo/new_id
90		8086 10f5
91		dead beef 06
92		f00d cafe
93
94		The list will be truncated at PAGE_SIZE bytes due to
95		sysfs restrictions.
96
97What:		/sys/bus/usb-serial/drivers/.../new_id
98Date:		October 2011
99Contact:	linux-usb@vger.kernel.org
100Description:
101		For serial USB drivers, this attribute appears under the
102		extra bus folder "usb-serial" in sysfs; apart from that
103		difference, all descriptions from the entry
104		"/sys/bus/usb/drivers/.../new_id" apply.
105
106What:		/sys/bus/usb/drivers/.../remove_id
107Date:		November 2009
108Contact:	CHENG Renquan <rqcheng@smu.edu.sg>
109Description:
110		Writing a device ID to this file will remove an ID
111		that was dynamically added via the new_id sysfs entry.
112		The format for the device ID is:
113		idVendor idProduct.	After successfully
114		removing an ID, the driver will no longer support the
115		device.  This is useful to ensure auto probing won't
116		match the driver to the device.  For example:
117		# echo "046d c315" > /sys/bus/usb/drivers/foo/remove_id
118
119		Reading from this file will list the dynamically added
120		device IDs, exactly like reading from the entry
121		"/sys/bus/usb/drivers/.../new_id"
122
123What:		/sys/bus/usb/devices/.../power/usb2_hardware_lpm
124Date:		September 2011
125Contact:	Andiry Xu <andiry.xu@amd.com>
126Description:
127		If CONFIG_PM is set and a USB 2.0 lpm-capable device is plugged
128		in to a xHCI host which support link PM, it will perform a LPM
129		test; if the test is passed and host supports USB2 hardware LPM
130		(xHCI 1.0 feature), USB2 hardware LPM will be enabled for the
131		device and the USB device directory will contain a file named
132		power/usb2_hardware_lpm.  The file holds a string value (enable
133		or disable) indicating whether or not USB2 hardware LPM is
134		enabled for the device. Developer can write y/Y/1 or n/N/0 to
135		the file to enable/disable the feature.
136
137What:		/sys/bus/usb/devices/.../power/usb3_hardware_lpm_u1
138		/sys/bus/usb/devices/.../power/usb3_hardware_lpm_u2
139Date:		November 2015
140Contact:	Kevin Strasser <kevin.strasser@linux.intel.com>
141		Lu Baolu <baolu.lu@linux.intel.com>
142Description:
143		If CONFIG_PM is set and a USB 3.0 lpm-capable device is plugged
144		in to a xHCI host which supports link PM, it will check if U1
145		and U2 exit latencies have been set in the BOS descriptor; if
146		the check is passed and the host supports USB3 hardware LPM,
147		USB3 hardware LPM will be enabled for the device and the USB
148		device directory will contain two files named
149		power/usb3_hardware_lpm_u1 and power/usb3_hardware_lpm_u2. These
150		files hold a string value (enable or disable) indicating whether
151		or not USB3 hardware LPM U1 or U2 is enabled for the device.
152
153What:		/sys/bus/usb/devices/.../removable
154Date:		February 2012
155Contact:	Matthew Garrett <mjg@redhat.com>
156Description:
157		Some information about whether a given USB device is
158		physically fixed to the platform can be inferred from a
159		combination of hub descriptor bits and platform-specific data
160		such as ACPI. This file will read either "removable" or
161		"fixed" if the information is available, and "unknown"
162		otherwise.
163
164What:		/sys/bus/usb/devices/.../ltm_capable
165Date:		July 2012
166Contact:	Sarah Sharp <sarah.a.sharp@linux.intel.com>
167Description:
168		USB 3.0 devices may optionally support Latency Tolerance
169		Messaging (LTM).  They indicate their support by setting a bit
170		in the bmAttributes field of their SuperSpeed BOS descriptors.
171		If that bit is set for the device, ltm_capable will read "yes".
172		If the device doesn't support LTM, the file will read "no".
173		The file will be present for all speeds of USB devices, and will
174		always read "no" for USB 1.1 and USB 2.0 devices.
175
176What:		/sys/bus/usb/devices/.../(hub interface)/portX
177Date:		August 2012
178Contact:	Lan Tianyu <tianyu.lan@intel.com>
179Description:
180		The /sys/bus/usb/devices/.../(hub interface)/portX
181		is usb port device's sysfs directory.
182
183What:		/sys/bus/usb/devices/.../(hub interface)/portX/connect_type
184Date:		January 2013
185Contact:	Lan Tianyu <tianyu.lan@intel.com>
186Description:
187		Some platforms provide usb port connect types through ACPI.
188		This attribute is to expose these information to user space.
189		The file will read "hotplug", "wired" and "not used" if the
190		information is available, and "unknown" otherwise.
191
192What:		/sys/bus/usb/devices/.../(hub interface)/portX/quirks
193Date:		May 2018
194Contact:	Nicolas Boichat <drinkcat@chromium.org>
195Description:
196		In some cases, we care about time-to-active for devices
197		connected on a specific port (e.g. non-standard USB port like
198		pogo pins), where the device to be connected is known in
199		advance, and behaves well according to the specification.
200		This attribute is a bit-field that controls the behavior of
201		a specific port:
202		 - Bit 0 of this field selects the "old" enumeration scheme,
203		   as it is considerably faster (it only causes one USB reset
204		   instead of 2).
205		   The old enumeration scheme can also be selected globally
206		   using /sys/module/usbcore/parameters/old_scheme_first, but
207		   it is often not desirable as the new scheme was introduced to
208		   increase compatibility with more devices.
209		 - Bit 1 reduces TRSTRCY to the 10 ms that are required by the
210		   USB 2.0 specification, instead of the 50 ms that are normally
211		   used to help make enumeration work better on some high speed
212		   devices.
213
214What:		/sys/bus/usb/devices/.../(hub interface)/portX/over_current_count
215Date:		February 2018
216Contact:	Richard Leitner <richard.leitner@skidata.com>
217Description:
218		Most hubs are able to detect over-current situations on their
219		ports and report them to the kernel. This attribute is to expose
220		the number of over-current situation occurred on a specific port
221		to user space. This file will contain an unsigned 32 bit value
222		which wraps to 0 after its maximum is reached.
223
224What:		/sys/bus/usb/devices/.../(hub interface)/portX/usb3_lpm_permit
225Date:		November 2015
226Contact:	Lu Baolu <baolu.lu@linux.intel.com>
227Description:
228		Some USB3.0 devices are not friendly to USB3 LPM.  usb3_lpm_permit
229		attribute allows enabling/disabling usb3 lpm of a port. It takes
230		effect both before and after a usb device is enumerated. Supported
231		values are "0" if both u1 and u2 are NOT permitted, "u1" if only u1
232		is permitted, "u2" if only u2 is permitted, "u1_u2" if both u1 and
233		u2 are permitted.
234
235What:		/sys/bus/usb/devices/.../power/usb2_lpm_l1_timeout
236Date:		May 2013
237Contact:	Mathias Nyman <mathias.nyman@linux.intel.com>
238Description:
239		USB 2.0 devices may support hardware link power management (LPM)
240		L1 sleep state. The usb2_lpm_l1_timeout attribute allows
241		tuning the timeout for L1 inactivity timer (LPM timer), e.g.
242		needed inactivity time before host requests the device to go to L1 sleep.
243		Useful for power management tuning.
244		Supported values are 0 - 65535 microseconds.
245
246What:		/sys/bus/usb/devices/.../power/usb2_lpm_besl
247Date:		May 2013
248Contact:	Mathias Nyman <mathias.nyman@linux.intel.com>
249Description:
250		USB 2.0 devices that support hardware link power management (LPM)
251		L1 sleep state now use a best effort service latency value (BESL) to
252		indicate the best effort to resumption of service to the device after the
253		initiation of the resume event.
254		If the device does not have a preferred besl value then the host can select
255		one instead. This usb2_lpm_besl attribute allows to tune the host selected besl
256		value in order to tune power saving and service latency.
257
258		Supported values are 0 - 15.
259		More information on how besl values map to microseconds can be found in
260		USB 2.0 ECN Errata for Link Power Management, section 4.10)
261
262What:		/sys/bus/usb/devices/.../rx_lanes
263Date:		March 2018
264Contact:	Mathias Nyman <mathias.nyman@linux.intel.com>
265Description:
266		Number of rx lanes the device is using.
267		USB 3.2 adds Dual-lane support, 2 rx and 2 tx lanes over Type-C.
268		Inter-Chip SSIC devices support asymmetric lanes up to 4 lanes per
269		direction. Devices before USB 3.2 are single lane (rx_lanes = 1)
270
271What:		/sys/bus/usb/devices/.../tx_lanes
272Date:		March 2018
273Contact:	Mathias Nyman <mathias.nyman@linux.intel.com>
274Description:
275		Number of tx lanes the device is using.
276		USB 3.2 adds Dual-lane support, 2 rx and 2 tx -lanes over Type-C.
277		Inter-Chip SSIC devices support asymmetric lanes up to 4 lanes per
278		direction. Devices before USB 3.2 are single lane (tx_lanes = 1)
279