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This adds PROP_CHARGE_COUNTER to the power supply class (documenting it as well). The OLPC battery driver uses this for spitting out its ACR values (in uAh). We have some rounding errors (the data sheet claims 416.7, the math actually works out to 416.666667, so we're forced to choose between overflows or precision loss. I chose precision loss, and stuck w/ data sheet values), but I don't think anyone will care that much. Signed-off-by: Andres Salomon <dilinger@debian.org> Signed-off-by: Anton Vorontsov <cbouatmailru@gmail.com>
173 lines
7.4 KiB
Text
173 lines
7.4 KiB
Text
Linux power supply class
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========================
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Synopsis
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~~~~~~~~
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Power supply class used to represent battery, UPS, AC or DC power supply
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properties to user-space.
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It defines core set of attributes, which should be applicable to (almost)
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every power supply out there. Attributes are available via sysfs and uevent
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interfaces.
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Each attribute has well defined meaning, up to unit of measure used. While
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the attributes provided are believed to be universally applicable to any
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power supply, specific monitoring hardware may not be able to provide them
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all, so any of them may be skipped.
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Power supply class is extensible, and allows to define drivers own attributes.
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The core attribute set is subject to the standard Linux evolution (i.e.
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if it will be found that some attribute is applicable to many power supply
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types or their drivers, it can be added to the core set).
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It also integrates with LED framework, for the purpose of providing
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typically expected feedback of battery charging/fully charged status and
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AC/USB power supply online status. (Note that specific details of the
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indication (including whether to use it at all) are fully controllable by
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user and/or specific machine defaults, per design principles of LED
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framework).
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Attributes/properties
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~~~~~~~~~~~~~~~~~~~~~
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Power supply class has predefined set of attributes, this eliminates code
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duplication across drivers. Power supply class insist on reusing its
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predefined attributes *and* their units.
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So, userspace gets predictable set of attributes and their units for any
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kind of power supply, and can process/present them to a user in consistent
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manner. Results for different power supplies and machines are also directly
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comparable.
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See drivers/power/ds2760_battery.c and drivers/power/pda_power.c for the
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example how to declare and handle attributes.
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Units
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~~~~~
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Quoting include/linux/power_supply.h:
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All voltages, currents, charges, energies, time and temperatures in µV,
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µA, µAh, µWh, seconds and tenths of degree Celsius unless otherwise
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stated. It's driver's job to convert its raw values to units in which
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this class operates.
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Attributes/properties detailed
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~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~
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~ ~ ~ ~ ~ ~ ~ Charge/Energy/Capacity - how to not confuse ~ ~ ~ ~ ~ ~ ~
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~ ~
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~ Because both "charge" (µAh) and "energy" (µWh) represents "capacity" ~
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~ of battery, this class distinguish these terms. Don't mix them! ~
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~ ~
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~ CHARGE_* attributes represents capacity in µAh only. ~
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~ ENERGY_* attributes represents capacity in µWh only. ~
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~ CAPACITY attribute represents capacity in *percents*, from 0 to 100. ~
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~ ~
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~ ~ ~ ~ ~ ~ ~ ~ ~ ~ ~ ~ ~ ~ ~ ~ ~ ~ ~ ~ ~ ~ ~ ~ ~ ~ ~ ~ ~ ~ ~ ~ ~ ~ ~ ~ ~
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Postfixes:
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_AVG - *hardware* averaged value, use it if your hardware is really able to
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report averaged values.
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_NOW - momentary/instantaneous values.
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STATUS - this attribute represents operating status (charging, full,
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discharging (i.e. powering a load), etc.). This corresponds to
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BATTERY_STATUS_* values, as defined in battery.h.
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HEALTH - represents health of the battery, values corresponds to
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POWER_SUPPLY_HEALTH_*, defined in battery.h.
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VOLTAGE_MAX_DESIGN, VOLTAGE_MIN_DESIGN - design values for maximal and
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minimal power supply voltages. Maximal/minimal means values of voltages
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when battery considered "full"/"empty" at normal conditions. Yes, there is
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no direct relation between voltage and battery capacity, but some dumb
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batteries use voltage for very approximated calculation of capacity.
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Battery driver also can use this attribute just to inform userspace
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about maximal and minimal voltage thresholds of a given battery.
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VOLTAGE_MAX, VOLTAGE_MIN - same as _DESIGN voltage values except that
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these ones should be used if hardware could only guess (measure and
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retain) the thresholds of a given power supply.
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CHARGE_FULL_DESIGN, CHARGE_EMPTY_DESIGN - design charge values, when
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battery considered full/empty.
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ENERGY_FULL_DESIGN, ENERGY_EMPTY_DESIGN - same as above but for energy.
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CHARGE_FULL, CHARGE_EMPTY - These attributes means "last remembered value
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of charge when battery became full/empty". It also could mean "value of
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charge when battery considered full/empty at given conditions (temperature,
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age)". I.e. these attributes represents real thresholds, not design values.
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CHARGE_COUNTER - the current charge counter (in µAh). This could easily
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be negative; there is no empty or full value. It is only useful for
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relative, time-based measurements.
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ENERGY_FULL, ENERGY_EMPTY - same as above but for energy.
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CAPACITY - capacity in percents.
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TEMP - temperature of the power supply.
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TEMP_AMBIENT - ambient temperature.
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TIME_TO_EMPTY - seconds left for battery to be considered empty (i.e.
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while battery powers a load)
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TIME_TO_FULL - seconds left for battery to be considered full (i.e.
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while battery is charging)
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Battery <-> external power supply interaction
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~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~
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Often power supplies are acting as supplies and supplicants at the same
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time. Batteries are good example. So, batteries usually care if they're
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externally powered or not.
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For that case, power supply class implements notification mechanism for
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batteries.
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External power supply (AC) lists supplicants (batteries) names in
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"supplied_to" struct member, and each power_supply_changed() call
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issued by external power supply will notify supplicants via
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external_power_changed callback.
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QA
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~~
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Q: Where is POWER_SUPPLY_PROP_XYZ attribute?
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A: If you cannot find attribute suitable for your driver needs, feel free
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to add it and send patch along with your driver.
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The attributes available currently are the ones currently provided by the
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drivers written.
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Good candidates to add in future: model/part#, cycle_time, manufacturer,
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etc.
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Q: I have some very specific attribute (e.g. battery color), should I add
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this attribute to standard ones?
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A: Most likely, no. Such attribute can be placed in the driver itself, if
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it is useful. Of course, if the attribute in question applicable to
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large set of batteries, provided by many drivers, and/or comes from
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some general battery specification/standard, it may be a candidate to
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be added to the core attribute set.
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Q: Suppose, my battery monitoring chip/firmware does not provides capacity
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in percents, but provides charge_{now,full,empty}. Should I calculate
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percentage capacity manually, inside the driver, and register CAPACITY
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attribute? The same question about time_to_empty/time_to_full.
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A: Most likely, no. This class is designed to export properties which are
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directly measurable by the specific hardware available.
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Inferring not available properties using some heuristics or mathematical
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model is not subject of work for a battery driver. Such functionality
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should be factored out, and in fact, apm_power, the driver to serve
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legacy APM API on top of power supply class, uses a simple heuristic of
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approximating remaining battery capacity based on its charge, current,
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voltage and so on. But full-fledged battery model is likely not subject
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for kernel at all, as it would require floating point calculation to deal
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with things like differential equations and Kalman filters. This is
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better be handled by batteryd/libbattery, yet to be written.
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