Documentation/hwmon/aquacomputer_d5next.rst - linux - Git at Google

 .. SPDX-License-Identifier: GPL-2.0-or-later

 Kernel driver aquacomputer-d5next
 =================================

 Supported devices:

 * Aquacomputer Aquaero 5/6 fan controllers
 * Aquacomputer D5 Next watercooling pump
 * Aquacomputer Farbwerk RGB controller
 * Aquacomputer Farbwerk 360 RGB controller
 * Aquacomputer Octo fan controller
 * Aquacomputer Quadro fan controller
 * Aquacomputer High Flow Next sensor
 * Aquacomputer Leakshield leak prevention system
 * Aquacomputer Aquastream XT watercooling pump
 * Aquacomputer Aquastream Ultimate watercooling pump
 * Aquacomputer Poweradjust 3 fan controller
 * Aquacomputer High Flow USB flow meter
 * Aquacomputer MPS Flow devices

 Author: Aleksa Savic

 Description
 -----------

 This driver exposes hardware sensors of listed Aquacomputer devices, which
 communicate through proprietary USB HID protocols.

 The Aquaero devices expose eight physical, eight virtual and four calculated
 virtual temperature sensors, as well as two flow sensors. The fans expose their
 speed (in RPM), power, voltage and current. Temperature offsets and fan speeds
 can be controlled.

 For the D5 Next pump, available sensors are pump and fan speed, power, voltage
 and current, as well as coolant temperature and eight virtual temp sensors. Also
 available through debugfs are the serial number, firmware version and power-on
 count. Attaching a fan to it is optional and allows it to be controlled using
 temperature curves directly from the pump. If it's not connected, the fan-related
 sensors will report zeroes.

 The pump can be configured either through software or via its physical
 interface. Configuring the pump through this driver is not implemented, as it
 seems to require sending it a complete configuration. That includes addressable
 RGB LEDs, for which there is no standard sysfs interface. Thus, that task is
 better suited for userspace tools.

 The Octo exposes four physical and sixteen virtual temperature sensors, as well as
 eight PWM controllable fans, along with their speed (in RPM), power, voltage and
 current.

 The Quadro exposes four physical and sixteen virtual temperature sensors, a flow
 sensor and four PWM controllable fans, along with their speed (in RPM), power,
 voltage and current. Flow sensor pulses are also available.

 The Farbwerk and Farbwerk 360 expose four temperature sensors. Additionally,
 sixteen virtual temperature sensors of the Farbwerk 360 are exposed.

 The High Flow Next exposes +5V voltages, water quality, conductivity and flow readings.
 A temperature sensor can be connected to it, in which case it provides its reading
 and an estimation of the dissipated/absorbed power in the liquid cooling loop.

 The Leakshield exposes two temperature sensors and coolant pressure (current, min, max and
 target readings). It also exposes the estimated reservoir volume and how much of it is
 filled with coolant. Pump RPM and flow can be set to enhance on-device calculations,
 but this is not yet implemented here.

 The Aquastream XT pump exposes temperature readings for the coolant, external sensor
 and fan IC. It also exposes pump and fan speeds (in RPM), voltages, as well as pump
 current.

 The Aquastream Ultimate pump exposes coolant temp and an external temp sensor, along
 with speed, power, voltage and current of both the pump and optionally connected fan.
 It also exposes pressure and flow speed readings.

 The Poweradjust 3 controller exposes a single external temperature sensor.

 The High Flow USB exposes an internal and external temperature sensor, and a flow meter.

 The MPS Flow devices expose the same entries as the High Flow USB because they have
 the same USB product ID and report sensors equivalently.

 Depending on the device, not all sysfs and debugfs entries will be available.
 Writing to virtual temperature sensors is not currently supported.

 Usage notes
 -----------

 The devices communicate via HID reports. The driver is loaded automatically by
 the kernel and supports hotswapping.

 Sysfs entries
 -------------

 ================ ==============================================================
 temp[1-20]_input Physical/virtual temperature sensors (in millidegrees Celsius)
 temp[1-8]_offset Temperature sensor correction offset (in millidegrees Celsius)
 fan[1-8]_input   Pump/fan speed (in RPM) / Flow speed (in dL/h)
 fan1_min         Minimal fan speed (in RPM)
 fan1_max         Maximal fan speed (in RPM)
 fan1_target      Target fan speed (in RPM)
 fan5_pulses      Quadro flow sensor pulses
 power[1-8]_input Pump/fan power (in micro Watts)
 in[0-7]_input    Pump/fan voltage (in milli Volts)
 curr[1-8]_input  Pump/fan current (in milli Amperes)
 pwm[1-8]         Fan PWM (0 - 255)
 ================ ==============================================================

 Debugfs entries
 ---------------

 ================ =================================================
 serial_number    Serial number of the device
 firmware_version Version of installed firmware
 power_cycles     Count of how many times the device was powered on
 ================ =================================================
	.. SPDX-License-Identifier: GPL-2.0-or-later

	Kernel driver aquacomputer-d5next
	=================================

	Supported devices:

	* Aquacomputer Aquaero 5/6 fan controllers
	* Aquacomputer D5 Next watercooling pump
	* Aquacomputer Farbwerk RGB controller
	* Aquacomputer Farbwerk 360 RGB controller
	* Aquacomputer Octo fan controller
	* Aquacomputer Quadro fan controller
	* Aquacomputer High Flow Next sensor
	* Aquacomputer Leakshield leak prevention system
	* Aquacomputer Aquastream XT watercooling pump
	* Aquacomputer Aquastream Ultimate watercooling pump
	* Aquacomputer Poweradjust 3 fan controller
	* Aquacomputer High Flow USB flow meter
	* Aquacomputer MPS Flow devices

	Author: Aleksa Savic

	Description
	-----------

	This driver exposes hardware sensors of listed Aquacomputer devices, which
	communicate through proprietary USB HID protocols.

	The Aquaero devices expose eight physical, eight virtual and four calculated
	virtual temperature sensors, as well as two flow sensors. The fans expose their
	speed (in RPM), power, voltage and current. Temperature offsets and fan speeds
	can be controlled.

	For the D5 Next pump, available sensors are pump and fan speed, power, voltage
	and current, as well as coolant temperature and eight virtual temp sensors. Also
	available through debugfs are the serial number, firmware version and power-on
	count. Attaching a fan to it is optional and allows it to be controlled using
	temperature curves directly from the pump. If it's not connected, the fan-related
	sensors will report zeroes.

	The pump can be configured either through software or via its physical
	interface. Configuring the pump through this driver is not implemented, as it
	seems to require sending it a complete configuration. That includes addressable
	RGB LEDs, for which there is no standard sysfs interface. Thus, that task is
	better suited for userspace tools.

	The Octo exposes four physical and sixteen virtual temperature sensors, as well as
	eight PWM controllable fans, along with their speed (in RPM), power, voltage and
	current.

	The Quadro exposes four physical and sixteen virtual temperature sensors, a flow
	sensor and four PWM controllable fans, along with their speed (in RPM), power,
	voltage and current. Flow sensor pulses are also available.

	The Farbwerk and Farbwerk 360 expose four temperature sensors. Additionally,
	sixteen virtual temperature sensors of the Farbwerk 360 are exposed.

	The High Flow Next exposes +5V voltages, water quality, conductivity and flow readings.
	A temperature sensor can be connected to it, in which case it provides its reading
	and an estimation of the dissipated/absorbed power in the liquid cooling loop.

	The Leakshield exposes two temperature sensors and coolant pressure (current, min, max and
	target readings). It also exposes the estimated reservoir volume and how much of it is
	filled with coolant. Pump RPM and flow can be set to enhance on-device calculations,
	but this is not yet implemented here.

	The Aquastream XT pump exposes temperature readings for the coolant, external sensor
	and fan IC. It also exposes pump and fan speeds (in RPM), voltages, as well as pump
	current.

	The Aquastream Ultimate pump exposes coolant temp and an external temp sensor, along
	with speed, power, voltage and current of both the pump and optionally connected fan.
	It also exposes pressure and flow speed readings.

	The Poweradjust 3 controller exposes a single external temperature sensor.

	The High Flow USB exposes an internal and external temperature sensor, and a flow meter.

	The MPS Flow devices expose the same entries as the High Flow USB because they have
	the same USB product ID and report sensors equivalently.

	Depending on the device, not all sysfs and debugfs entries will be available.
	Writing to virtual temperature sensors is not currently supported.

	Usage notes
	-----------

	The devices communicate via HID reports. The driver is loaded automatically by
	the kernel and supports hotswapping.

	Sysfs entries
	-------------

	================ ==============================================================
	temp[1-20]_input Physical/virtual temperature sensors (in millidegrees Celsius)
	temp[1-8]_offset Temperature sensor correction offset (in millidegrees Celsius)
	fan[1-8]_input Pump/fan speed (in RPM) / Flow speed (in dL/h)
	fan1_min Minimal fan speed (in RPM)
	fan1_max Maximal fan speed (in RPM)
	fan1_target Target fan speed (in RPM)
	fan5_pulses Quadro flow sensor pulses
	power[1-8]_input Pump/fan power (in micro Watts)
	in[0-7]_input Pump/fan voltage (in milli Volts)
	curr[1-8]_input Pump/fan current (in milli Amperes)
	pwm[1-8] Fan PWM (0 - 255)
	================ ==============================================================

	Debugfs entries
	---------------

	================ =================================================
	serial_number Serial number of the device
	firmware_version Version of installed firmware
	power_cycles Count of how many times the device was powered on
	================ =================================================