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347 lines
10 KiB
347 lines
10 KiB
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. See libsensors documentation and source for
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more further information. As of writing this document, libsensors
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(from lm_sensors 2.8.3) is heavily chip-dependant. Adding or updating
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support for any given chip requires modifying the library's code.
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This is because libsensors was written for the procfs interface
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older kernel modules were using, which wasn't standardized enough.
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Recent versions of libsensors (from lm_sensors 2.8.2 and later) have
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support for the sysfs interface, though.
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The new sysfs interface was designed to be as chip-independant as
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possible.
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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-independant 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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If you are developing a userspace application please send us feedback on
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this standard.
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Note that this standard isn't completely established yet, so it is subject
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to changes, even important ones. One more reason to use the library instead
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of accessing sysfs files directly.
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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 symlinks from
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/sys/i2c/devices/
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All sysfs values are fixed point numbers. To get the true value of some
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of the values, you should divide by the specified value.
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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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-------------------------------------------------------------------------
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************
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* Voltages *
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************
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in[0-8]_min Voltage min value.
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Unit: millivolt
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Read/Write
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in[0-8]_max Voltage max value.
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Unit: millivolt
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Read/Write
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in[0-8]_input Voltage input value.
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Unit: millivolt
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Read only
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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, with various degrees of success.
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These drivers will output the actual voltage.
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Typical usage:
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in0_* CPU #1 voltage (not scaled)
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in1_* CPU #2 voltage (not scaled)
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in2_* 3.3V nominal (not scaled)
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in3_* 5.0V nominal (scaled)
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in4_* 12.0V nominal (scaled)
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in5_* -12.0V nominal (scaled)
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in6_* -5.0V nominal (scaled)
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in7_* varies
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in8_* varies
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cpu[0-1]_vid CPU core reference voltage.
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Unit: millivolt
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Read only.
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Not always correct.
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vrm Voltage Regulator Module version number.
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Read only.
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Two digit number, first is major version, second is
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minor version.
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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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********
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* Fans *
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********
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fan[1-3]_min Fan minimum value
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Unit: revolution/min (RPM)
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Read/Write.
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fan[1-3]_input Fan input value.
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Unit: revolution/min (RPM)
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Read only.
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fan[1-3]_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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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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*******
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* PWM *
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*******
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pwm[1-3] Pulse width modulation fan control.
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Integer value in the range 0 to 255
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Read/Write
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255 is max or 100%.
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pwm[1-3]_enable
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Switch PWM on and off.
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Not always present even if fan*_pwm is.
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0 to turn off
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1 to turn on in manual mode
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2 to turn on in automatic mode
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Read/Write
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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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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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OR
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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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****************
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* Temperatures *
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****************
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temp[1-3]_type Sensor type selection.
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Integers 1 to 4 or thermistor Beta value (typically 3435)
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Read/Write.
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1: PII/Celeron Diode
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2: 3904 transistor
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3: thermal diode
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4: thermistor (default/unknown Beta)
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Not all types are supported by all chips
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temp[1-4]_max Temperature max value.
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Unit: millidegree Celcius
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Read/Write value.
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temp[1-3]_min Temperature min value.
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Unit: millidegree Celcius
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Read/Write value.
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temp[1-3]_max_hyst
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Temperature hysteresis value for max limit.
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Unit: millidegree Celcius
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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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Read/Write value.
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temp[1-4]_input Temperature input value.
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Unit: millidegree Celcius
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Read only value.
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temp[1-4]_crit Temperature critical value, typically greater than
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corresponding temp_max values.
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Unit: millidegree Celcius
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Read/Write value.
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temp[1-2]_crit_hyst
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Temperature hysteresis value for critical limit.
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Unit: millidegree Celcius
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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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Read/Write value.
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temp[1-4]_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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If there are multiple temperature sensors, temp1_* is
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generally the sensor inside the chip itself,
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reported as "motherboard temperature". temp2_* to
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temp4_* are generally sensors external to the chip
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itself, for example the thermal diode inside the CPU or
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a thermistor nearby.
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************
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* Currents *
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************
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Note that no known chip provides current measurements as of writing,
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so this part is theoretical, so to say.
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curr[1-n]_max Current max value
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Unit: milliampere
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Read/Write.
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curr[1-n]_min Current min value.
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Unit: milliampere
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Read/Write.
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curr[1-n]_input Current input value
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Unit: milliampere
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Read only.
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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-n]_alarm
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fan[1-n]_alarm
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temp[1-n]_alarm
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Channel alarm
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Boolean
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Read-only
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OR
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in[0-n]_min_alarm
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in[0-n]_max_alarm
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fan[1-n]_min_alarm
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temp[1-n]_min_alarm
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temp[1-n]_max_alarm
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temp[1-n]_crit_alarm
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Limit alarm
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Boolean
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Read-only
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Each input channel may have an associated fault file. This can be used
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to notify open diodes, unconnected fans etc. where the hardware
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supports it. When this boolean has value 1, the measurement for that
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channel should not be trusted.
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in[0-n]_input_fault
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fan[1-n]_input_fault
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temp[1-n]_input_fault
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Input fault condition
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Boolean
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Read-only
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Some chips also offer the possibility to get beeped when an alarm occurs:
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beep_enable Master beep enable
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Boolean
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Read/Write
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in[0-n]_beep
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fan[1-n]_beep
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temp[1-n]_beep
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Channel beep
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0 to disable.
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1 to enable.
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Read/write
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In theory, a chip could provide per-limit beep masking, but no such chip
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was seen so far.
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Old drivers provided a different, non-standard interface to alarms and
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beeps. These interface files are deprecated, but will be kept around
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for compatibility reasons:
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alarms Alarm bitmask.
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Read only.
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Integer representation of one to four bytes.
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A '1' bit means an alarm.
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Chips should be programmed for 'comparator' mode so that
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the alarm will 'come back' after you read the register
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if it is still valid.
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Generally a direct representation of a chip's internal
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alarm registers; there is no standard for the position
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of individual bits. For this reason, the use of this
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interface file for new drivers is discouraged. Use
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individual *_alarm and *_fault files instead.
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Bits are defined in kernel/include/sensors.h.
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beep_mask Bitmask for beep.
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Same format as 'alarms' with the same bit locations,
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use discouraged for the same reason. Use individual
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*_beep files instead.
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Read/Write
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*********
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* Other *
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*********
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eeprom Raw EEPROM data in binary form.
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Read only.
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pec Enable or disable PEC (SMBus only)
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Read/Write
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