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The temp[1-*]_type attribute reports the temperature sensor type. Sensor type 1 is described as "PII/Celeron Diode", which is quite restrictive; other CPUs may also have an embedded temperature sensor diode with similar characteristics. Change description to "CPU embedded diode" to be more generic. Signed-off-by: Guenter Roeck <linux@roeck-us.net> Signed-off-by: Jean Delvare <khali@linux-fr.org>
747 lines
21 KiB
Plaintext
747 lines
21 KiB
Plaintext
Naming and data format standards for sysfs files
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------------------------------------------------
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The libsensors library offers an interface to the raw sensors data
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through the sysfs interface. Since lm-sensors 3.0.0, libsensors is
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completely chip-independent. It assumes that all the kernel drivers
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implement the standard sysfs interface described in this document.
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This makes adding or updating support for any given chip very easy, as
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libsensors, and applications using it, do not need to be modified.
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This is a major improvement compared to lm-sensors 2.
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Note that motherboards vary widely in the connections to sensor chips.
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There is no standard that ensures, for example, that the second
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temperature sensor is connected to the CPU, or that the second fan is on
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the CPU. Also, some values reported by the chips need some computation
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before they make full sense. For example, most chips can only measure
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voltages between 0 and +4V. Other voltages are scaled back into that
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range using external resistors. Since the values of these resistors
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can change from motherboard to motherboard, the conversions cannot be
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hard coded into the driver and have to be done in user space.
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For this reason, even if we aim at a chip-independent libsensors, it will
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still require a configuration file (e.g. /etc/sensors.conf) for proper
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values conversion, labeling of inputs and hiding of unused inputs.
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An alternative method that some programs use is to access the sysfs
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files directly. This document briefly describes the standards that the
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drivers follow, so that an application program can scan for entries and
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access this data in a simple and consistent way. That said, such programs
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will have to implement conversion, labeling and hiding of inputs. For
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this reason, it is still not recommended to bypass the library.
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Each chip gets its own directory in the sysfs /sys/devices tree. To
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find all sensor chips, it is easier to follow the device symlinks from
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/sys/class/hwmon/hwmon*.
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Up to lm-sensors 3.0.0, libsensors looks for hardware monitoring attributes
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in the "physical" device directory. Since lm-sensors 3.0.1, attributes found
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in the hwmon "class" device directory are also supported. Complex drivers
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(e.g. drivers for multifunction chips) may want to use this possibility to
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avoid namespace pollution. The only drawback will be that older versions of
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libsensors won't support the driver in question.
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All sysfs values are fixed point numbers.
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There is only one value per file, unlike the older /proc specification.
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The common scheme for files naming is: <type><number>_<item>. Usual
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types for sensor chips are "in" (voltage), "temp" (temperature) and
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"fan" (fan). Usual items are "input" (measured value), "max" (high
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threshold, "min" (low threshold). Numbering usually starts from 1,
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except for voltages which start from 0 (because most data sheets use
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this). A number is always used for elements that can be present more
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than once, even if there is a single element of the given type on the
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specific chip. Other files do not refer to a specific element, so
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they have a simple name, and no number.
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Alarms are direct indications read from the chips. The drivers do NOT
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make comparisons of readings to thresholds. This allows violations
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between readings to be caught and alarmed. The exact definition of an
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alarm (for example, whether a threshold must be met or must be exceeded
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to cause an alarm) is chip-dependent.
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When setting values of hwmon sysfs attributes, the string representation of
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the desired value must be written, note that strings which are not a number
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are interpreted as 0! For more on how written strings are interpreted see the
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"sysfs attribute writes interpretation" section at the end of this file.
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-------------------------------------------------------------------------
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[0-*] denotes any positive number starting from 0
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[1-*] denotes any positive number starting from 1
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RO read only value
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WO write only value
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RW read/write value
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Read/write values may be read-only for some chips, depending on the
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hardware implementation.
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All entries (except name) are optional, and should only be created in a
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given driver if the chip has the feature.
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*********************
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* Global attributes *
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*********************
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name The chip name.
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This should be a short, lowercase string, not containing
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spaces nor dashes, representing the chip name. This is
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the only mandatory attribute.
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I2C devices get this attribute created automatically.
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RO
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update_interval The interval at which the chip will update readings.
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Unit: millisecond
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RW
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Some devices have a variable update rate or interval.
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This attribute can be used to change it to the desired value.
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************
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* Voltages *
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************
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in[0-*]_min Voltage min value.
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Unit: millivolt
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RW
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in[0-*]_lcrit Voltage critical min value.
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Unit: millivolt
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RW
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If voltage drops to or below this limit, the system may
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take drastic action such as power down or reset. At the very
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least, it should report a fault.
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in[0-*]_max Voltage max value.
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Unit: millivolt
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RW
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in[0-*]_crit Voltage critical max value.
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Unit: millivolt
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RW
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If voltage reaches or exceeds this limit, the system may
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take drastic action such as power down or reset. At the very
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least, it should report a fault.
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in[0-*]_input Voltage input value.
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Unit: millivolt
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RO
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Voltage measured on the chip pin.
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Actual voltage depends on the scaling resistors on the
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motherboard, as recommended in the chip datasheet.
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This varies by chip and by motherboard.
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Because of this variation, values are generally NOT scaled
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by the chip driver, and must be done by the application.
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However, some drivers (notably lm87 and via686a)
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do scale, because of internal resistors built into a chip.
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These drivers will output the actual voltage. Rule of
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thumb: drivers should report the voltage values at the
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"pins" of the chip.
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in[0-*]_average
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Average voltage
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Unit: millivolt
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RO
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in[0-*]_lowest
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Historical minimum voltage
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Unit: millivolt
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RO
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in[0-*]_highest
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Historical maximum voltage
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Unit: millivolt
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RO
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in[0-*]_reset_history
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Reset inX_lowest and inX_highest
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WO
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in_reset_history
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Reset inX_lowest and inX_highest for all sensors
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WO
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in[0-*]_label Suggested voltage channel label.
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Text string
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Should only be created if the driver has hints about what
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this voltage channel is being used for, and user-space
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doesn't. In all other cases, the label is provided by
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user-space.
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RO
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cpu[0-*]_vid CPU core reference voltage.
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Unit: millivolt
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RO
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Not always correct.
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vrm Voltage Regulator Module version number.
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RW (but changing it should no more be necessary)
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Originally the VRM standard version multiplied by 10, but now
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an arbitrary number, as not all standards have a version
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number.
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Affects the way the driver calculates the CPU core reference
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voltage from the vid pins.
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Also see the Alarms section for status flags associated with voltages.
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********
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* Fans *
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********
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fan[1-*]_min Fan minimum value
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Unit: revolution/min (RPM)
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RW
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fan[1-*]_max Fan maximum value
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Unit: revolution/min (RPM)
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Only rarely supported by the hardware.
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RW
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fan[1-*]_input Fan input value.
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Unit: revolution/min (RPM)
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RO
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fan[1-*]_div Fan divisor.
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Integer value in powers of two (1, 2, 4, 8, 16, 32, 64, 128).
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RW
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Some chips only support values 1, 2, 4 and 8.
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Note that this is actually an internal clock divisor, which
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affects the measurable speed range, not the read value.
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fan[1-*]_pulses Number of tachometer pulses per fan revolution.
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Integer value, typically between 1 and 4.
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RW
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This value is a characteristic of the fan connected to the
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device's input, so it has to be set in accordance with the fan
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model.
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Should only be created if the chip has a register to configure
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the number of pulses. In the absence of such a register (and
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thus attribute) the value assumed by all devices is 2 pulses
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per fan revolution.
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fan[1-*]_target
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Desired fan speed
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Unit: revolution/min (RPM)
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RW
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Only makes sense if the chip supports closed-loop fan speed
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control based on the measured fan speed.
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fan[1-*]_label Suggested fan channel label.
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Text string
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Should only be created if the driver has hints about what
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this fan channel is being used for, and user-space doesn't.
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In all other cases, the label is provided by user-space.
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RO
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Also see the Alarms section for status flags associated with fans.
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*******
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* PWM *
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*******
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pwm[1-*] Pulse width modulation fan control.
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Integer value in the range 0 to 255
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RW
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255 is max or 100%.
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pwm[1-*]_enable
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Fan speed control method:
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0: no fan speed control (i.e. fan at full speed)
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1: manual fan speed control enabled (using pwm[1-*])
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2+: automatic fan speed control enabled
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Check individual chip documentation files for automatic mode
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details.
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RW
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pwm[1-*]_mode 0: DC mode (direct current)
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1: PWM mode (pulse-width modulation)
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RW
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pwm[1-*]_freq Base PWM frequency in Hz.
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Only possibly available when pwmN_mode is PWM, but not always
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present even then.
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RW
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pwm[1-*]_auto_channels_temp
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Select which temperature channels affect this PWM output in
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auto mode. Bitfield, 1 is temp1, 2 is temp2, 4 is temp3 etc...
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Which values are possible depend on the chip used.
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RW
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pwm[1-*]_auto_point[1-*]_pwm
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pwm[1-*]_auto_point[1-*]_temp
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pwm[1-*]_auto_point[1-*]_temp_hyst
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Define the PWM vs temperature curve. Number of trip points is
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chip-dependent. Use this for chips which associate trip points
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to PWM output channels.
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RW
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temp[1-*]_auto_point[1-*]_pwm
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temp[1-*]_auto_point[1-*]_temp
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temp[1-*]_auto_point[1-*]_temp_hyst
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Define the PWM vs temperature curve. Number of trip points is
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chip-dependent. Use this for chips which associate trip points
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to temperature channels.
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RW
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There is a third case where trip points are associated to both PWM output
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channels and temperature channels: the PWM values are associated to PWM
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output channels while the temperature values are associated to temperature
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channels. In that case, the result is determined by the mapping between
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temperature inputs and PWM outputs. When several temperature inputs are
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mapped to a given PWM output, this leads to several candidate PWM values.
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The actual result is up to the chip, but in general the highest candidate
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value (fastest fan speed) wins.
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****************
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* Temperatures *
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****************
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temp[1-*]_type Sensor type selection.
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Integers 1 to 6
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RW
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1: CPU embedded diode
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2: 3904 transistor
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3: thermal diode
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4: thermistor
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5: AMD AMDSI
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6: Intel PECI
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Not all types are supported by all chips
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temp[1-*]_max Temperature max value.
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Unit: millidegree Celsius (or millivolt, see below)
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RW
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temp[1-*]_min Temperature min value.
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Unit: millidegree Celsius
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RW
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temp[1-*]_max_hyst
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Temperature hysteresis value for max limit.
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Unit: millidegree Celsius
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Must be reported as an absolute temperature, NOT a delta
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from the max value.
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RW
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temp[1-*]_input Temperature input value.
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Unit: millidegree Celsius
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RO
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temp[1-*]_crit Temperature critical max value, typically greater than
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corresponding temp_max values.
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Unit: millidegree Celsius
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RW
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temp[1-*]_crit_hyst
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Temperature hysteresis value for critical limit.
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Unit: millidegree Celsius
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Must be reported as an absolute temperature, NOT a delta
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from the critical value.
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RW
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temp[1-*]_emergency
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Temperature emergency max value, for chips supporting more than
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two upper temperature limits. Must be equal or greater than
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corresponding temp_crit values.
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Unit: millidegree Celsius
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RW
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temp[1-*]_emergency_hyst
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Temperature hysteresis value for emergency limit.
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Unit: millidegree Celsius
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Must be reported as an absolute temperature, NOT a delta
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from the emergency value.
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RW
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temp[1-*]_lcrit Temperature critical min value, typically lower than
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corresponding temp_min values.
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Unit: millidegree Celsius
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RW
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temp[1-*]_offset
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Temperature offset which is added to the temperature reading
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by the chip.
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Unit: millidegree Celsius
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Read/Write value.
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temp[1-*]_label Suggested temperature channel label.
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Text string
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Should only be created if the driver has hints about what
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this temperature channel is being used for, and user-space
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doesn't. In all other cases, the label is provided by
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user-space.
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RO
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temp[1-*]_lowest
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Historical minimum temperature
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Unit: millidegree Celsius
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RO
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temp[1-*]_highest
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Historical maximum temperature
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Unit: millidegree Celsius
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RO
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temp[1-*]_reset_history
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Reset temp_lowest and temp_highest
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WO
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temp_reset_history
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Reset temp_lowest and temp_highest for all sensors
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WO
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Some chips measure temperature using external thermistors and an ADC, and
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report the temperature measurement as a voltage. Converting this voltage
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back to a temperature (or the other way around for limits) requires
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mathematical functions not available in the kernel, so the conversion
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must occur in user space. For these chips, all temp* files described
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above should contain values expressed in millivolt instead of millidegree
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Celsius. In other words, such temperature channels are handled as voltage
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channels by the driver.
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Also see the Alarms section for status flags associated with temperatures.
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************
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* Currents *
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************
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curr[1-*]_max Current max value
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Unit: milliampere
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RW
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curr[1-*]_min Current min value.
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Unit: milliampere
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RW
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curr[1-*]_lcrit Current critical low value
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Unit: milliampere
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RW
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curr[1-*]_crit Current critical high value.
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Unit: milliampere
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RW
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curr[1-*]_input Current input value
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Unit: milliampere
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RO
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curr[1-*]_average
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Average current use
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Unit: milliampere
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RO
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curr[1-*]_lowest
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Historical minimum current
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Unit: milliampere
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RO
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curr[1-*]_highest
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Historical maximum current
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Unit: milliampere
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RO
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curr[1-*]_reset_history
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Reset currX_lowest and currX_highest
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WO
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curr_reset_history
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Reset currX_lowest and currX_highest for all sensors
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WO
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Also see the Alarms section for status flags associated with currents.
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*********
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* Power *
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*********
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power[1-*]_average Average power use
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Unit: microWatt
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RO
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power[1-*]_average_interval Power use averaging interval. A poll
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notification is sent to this file if the
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hardware changes the averaging interval.
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Unit: milliseconds
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RW
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power[1-*]_average_interval_max Maximum power use averaging interval
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Unit: milliseconds
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RO
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power[1-*]_average_interval_min Minimum power use averaging interval
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Unit: milliseconds
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RO
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power[1-*]_average_highest Historical average maximum power use
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Unit: microWatt
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RO
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power[1-*]_average_lowest Historical average minimum power use
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Unit: microWatt
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RO
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power[1-*]_average_max A poll notification is sent to
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power[1-*]_average when power use
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rises above this value.
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Unit: microWatt
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RW
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power[1-*]_average_min A poll notification is sent to
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power[1-*]_average when power use
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sinks below this value.
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Unit: microWatt
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RW
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power[1-*]_input Instantaneous power use
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Unit: microWatt
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RO
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power[1-*]_input_highest Historical maximum power use
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Unit: microWatt
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RO
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power[1-*]_input_lowest Historical minimum power use
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Unit: microWatt
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RO
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power[1-*]_reset_history Reset input_highest, input_lowest,
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average_highest and average_lowest.
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WO
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power[1-*]_accuracy Accuracy of the power meter.
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Unit: Percent
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RO
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power[1-*]_cap If power use rises above this limit, the
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system should take action to reduce power use.
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A poll notification is sent to this file if the
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cap is changed by the hardware. The *_cap
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files only appear if the cap is known to be
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enforced by hardware.
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Unit: microWatt
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RW
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power[1-*]_cap_hyst Margin of hysteresis built around capping and
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notification.
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Unit: microWatt
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RW
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power[1-*]_cap_max Maximum cap that can be set.
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Unit: microWatt
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RO
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power[1-*]_cap_min Minimum cap that can be set.
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Unit: microWatt
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RO
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power[1-*]_max Maximum power.
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Unit: microWatt
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RW
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power[1-*]_crit Critical maximum power.
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If power rises to or above this limit, the
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system is expected take drastic action to reduce
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power consumption, such as a system shutdown or
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a forced powerdown of some devices.
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Unit: microWatt
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RW
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Also see the Alarms section for status flags associated with power readings.
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**********
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* Energy *
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**********
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energy[1-*]_input Cumulative energy use
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Unit: microJoule
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RO
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************
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* Humidity *
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************
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humidity[1-*]_input Humidity
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Unit: milli-percent (per cent mille, pcm)
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RO
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**********
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* Alarms *
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**********
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Each channel or limit may have an associated alarm file, containing a
|
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boolean value. 1 means than an alarm condition exists, 0 means no alarm.
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Usually a given chip will either use channel-related alarms, or
|
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limit-related alarms, not both. The driver should just reflect the hardware
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implementation.
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in[0-*]_alarm
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curr[1-*]_alarm
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power[1-*]_alarm
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fan[1-*]_alarm
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temp[1-*]_alarm
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Channel alarm
|
|
0: no alarm
|
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1: alarm
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RO
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OR
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in[0-*]_min_alarm
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in[0-*]_max_alarm
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in[0-*]_lcrit_alarm
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in[0-*]_crit_alarm
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curr[1-*]_min_alarm
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curr[1-*]_max_alarm
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curr[1-*]_lcrit_alarm
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curr[1-*]_crit_alarm
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power[1-*]_cap_alarm
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power[1-*]_max_alarm
|
|
power[1-*]_crit_alarm
|
|
fan[1-*]_min_alarm
|
|
fan[1-*]_max_alarm
|
|
temp[1-*]_min_alarm
|
|
temp[1-*]_max_alarm
|
|
temp[1-*]_lcrit_alarm
|
|
temp[1-*]_crit_alarm
|
|
temp[1-*]_emergency_alarm
|
|
Limit alarm
|
|
0: no alarm
|
|
1: alarm
|
|
RO
|
|
|
|
Each input channel may have an associated fault file. This can be used
|
|
to notify open diodes, unconnected fans etc. where the hardware
|
|
supports it. When this boolean has value 1, the measurement for that
|
|
channel should not be trusted.
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|
|
fan[1-*]_fault
|
|
temp[1-*]_fault
|
|
Input fault condition
|
|
0: no fault occurred
|
|
1: fault condition
|
|
RO
|
|
|
|
Some chips also offer the possibility to get beeped when an alarm occurs:
|
|
|
|
beep_enable Master beep enable
|
|
0: no beeps
|
|
1: beeps
|
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RW
|
|
|
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in[0-*]_beep
|
|
curr[1-*]_beep
|
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fan[1-*]_beep
|
|
temp[1-*]_beep
|
|
Channel beep
|
|
0: disable
|
|
1: enable
|
|
RW
|
|
|
|
In theory, a chip could provide per-limit beep masking, but no such chip
|
|
was seen so far.
|
|
|
|
Old drivers provided a different, non-standard interface to alarms and
|
|
beeps. These interface files are deprecated, but will be kept around
|
|
for compatibility reasons:
|
|
|
|
alarms Alarm bitmask.
|
|
RO
|
|
Integer representation of one to four bytes.
|
|
A '1' bit means an alarm.
|
|
Chips should be programmed for 'comparator' mode so that
|
|
the alarm will 'come back' after you read the register
|
|
if it is still valid.
|
|
Generally a direct representation of a chip's internal
|
|
alarm registers; there is no standard for the position
|
|
of individual bits. For this reason, the use of this
|
|
interface file for new drivers is discouraged. Use
|
|
individual *_alarm and *_fault files instead.
|
|
Bits are defined in kernel/include/sensors.h.
|
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|
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beep_mask Bitmask for beep.
|
|
Same format as 'alarms' with the same bit locations,
|
|
use discouraged for the same reason. Use individual
|
|
*_beep files instead.
|
|
RW
|
|
|
|
|
|
***********************
|
|
* Intrusion detection *
|
|
***********************
|
|
|
|
intrusion[0-*]_alarm
|
|
Chassis intrusion detection
|
|
0: OK
|
|
1: intrusion detected
|
|
RW
|
|
Contrary to regular alarm flags which clear themselves
|
|
automatically when read, this one sticks until cleared by
|
|
the user. This is done by writing 0 to the file. Writing
|
|
other values is unsupported.
|
|
|
|
intrusion[0-*]_beep
|
|
Chassis intrusion beep
|
|
0: disable
|
|
1: enable
|
|
RW
|
|
|
|
|
|
sysfs attribute writes interpretation
|
|
-------------------------------------
|
|
|
|
hwmon sysfs attributes always contain numbers, so the first thing to do is to
|
|
convert the input to a number, there are 2 ways todo this depending whether
|
|
the number can be negative or not:
|
|
unsigned long u = simple_strtoul(buf, NULL, 10);
|
|
long s = simple_strtol(buf, NULL, 10);
|
|
|
|
With buf being the buffer with the user input being passed by the kernel.
|
|
Notice that we do not use the second argument of strto[u]l, and thus cannot
|
|
tell when 0 is returned, if this was really 0 or is caused by invalid input.
|
|
This is done deliberately as checking this everywhere would add a lot of
|
|
code to the kernel.
|
|
|
|
Notice that it is important to always store the converted value in an
|
|
unsigned long or long, so that no wrap around can happen before any further
|
|
checking.
|
|
|
|
After the input string is converted to an (unsigned) long, the value should be
|
|
checked if its acceptable. Be careful with further conversions on the value
|
|
before checking it for validity, as these conversions could still cause a wrap
|
|
around before the check. For example do not multiply the result, and only
|
|
add/subtract if it has been divided before the add/subtract.
|
|
|
|
What to do if a value is found to be invalid, depends on the type of the
|
|
sysfs attribute that is being set. If it is a continuous setting like a
|
|
tempX_max or inX_max attribute, then the value should be clamped to its
|
|
limits using SENSORS_LIMIT(value, min_limit, max_limit). If it is not
|
|
continuous like for example a tempX_type, then when an invalid value is
|
|
written, -EINVAL should be returned.
|
|
|
|
Example1, temp1_max, register is a signed 8 bit value (-128 - 127 degrees):
|
|
|
|
long v = simple_strtol(buf, NULL, 10) / 1000;
|
|
v = SENSORS_LIMIT(v, -128, 127);
|
|
/* write v to register */
|
|
|
|
Example2, fan divider setting, valid values 2, 4 and 8:
|
|
|
|
unsigned long v = simple_strtoul(buf, NULL, 10);
|
|
|
|
switch (v) {
|
|
case 2: v = 1; break;
|
|
case 4: v = 2; break;
|
|
case 8: v = 3; break;
|
|
default:
|
|
return -EINVAL;
|
|
}
|
|
/* write v to register */
|