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Date: Fri, 17 Jan 2014 05:26:25 +0530 From: Durgadoss R <durgadoss.r@...el.com> To: rui.zhang@...el.com, eduardo.valentin@...com, linux-pm@...r.kernel.org Cc: linux-kernel@...r.kernel.org, hongbo.zhang@...escale.com, wni@...dia.com, Durgadoss R <durgadoss.r@...el.com> Subject: [PATCHv5 08/10] Thermal: Add Documentation to new APIs This patch adds Documentation for the new APIs introduced in this patch set. The documentation also has a model sysfs structure for reference. Signed-off-by: Durgadoss R <durgadoss.r@...el.com> --- Documentation/thermal/sysfs-api2.txt | 240 ++++++++++++++++++++++++++++++++++ 1 file changed, 240 insertions(+) create mode 100644 Documentation/thermal/sysfs-api2.txt diff --git a/Documentation/thermal/sysfs-api2.txt b/Documentation/thermal/sysfs-api2.txt new file mode 100644 index 0000000..dd03297 --- /dev/null +++ b/Documentation/thermal/sysfs-api2.txt @@ -0,0 +1,240 @@ +Thermal Framework +----------------- + +Written by Durgadoss R <durgadoss.r@...el.com> +Copyright (c) 2014 Intel Corporation + +Created on: 15 January 2014 + +0. Introduction +--------------- +The Linux thermal framework provides a set of interfaces for thermal +sensors and thermal cooling devices (fan, processor...) to register +with the thermal management solution and to be a part of it. + +This document focuses on how to enable new thermal sensors and cooling +devices to participate in thermal management. This solution is intended +to be 'light-weight' and platform/architecture independent. Any thermal +sensor/cooling device should be able to use the infrastructure easily. + +The goal of thermal framework is to expose the thermal sensor/zone and +cooling device attributes in a consistent way. This will help the +thermal governors to make use of the information to manage platform +thermals efficiently. + +The thermal sensor source file can be generic (can be any sensor driver, +in any subsystem). This driver will use the sensor APIs and register with +thermal framework to participate in platform Thermal management. This +does not (and should not) know about which zone it belongs to, or any +other information about platform thermals. A sensor driver is a standalone +piece of code, which can optionally register with thermal framework. + +However, for any platform, there should be a platformX_thermal.c file, +which will know about the platform thermal characteristics (e.g how many +sensors, zones, cooling devices, etc.. And how they are related to each other +i.e the mapping information). Only in this file, the zone level APIs should +be used, in which case the file will have all information required to attach +various sensors to a particular zone. + +This way, we can have one platform level thermal file, which can support +multiple platforms (may be)using the same set of sensors (but)binded in +a different way. This file can get the platform thermal information +through Firmware, ACPI tables, device tree etc. + +Unfortunately, today we don't have many drivers that can be clearly +differentiated as 'sensor_file.c' and 'platform_thermal_file.c'. +But very soon we will need/have. We see a lot of chip drivers, +starting to use thermal framework; we should keep it really +light-weight for them to do so but at the same time provide all +the necessary features to participate in platform thermal management. + +An Example: drivers/hwmon/emc1403.c - a generic thermal chip driver +In one platform this sensor can belong to 'ZoneA' and in another the +same can belong to 'ZoneB'. But, emc1403.c does not really care about +where does it belong. It just reports temperature. + +1. Terminology +-------------- +This section describes the terminology used in the rest of this +document as well as the thermal framework code. + +thermal_sensor: Hardware that can report temperature of a particular + spot in the platform, where it is placed. The temperature + reported by the sensor is the 'real' temperature reported + by the hardware. +thermal_zone: A virtual area on the device, that gets heated up. It may + have one or more thermal sensors attached to it. +cooling_device: Any component that can help in reducing the temperature of + a 'hot spot' either by reducing its performance (passive + cooling) or by other means(Active cooling E.g. Fan) + +trip_points: Various temperature levels for each sensor. As of now, we + have four levels namely active, passive, hot and critical. + Hot and critical trip point support only one value whereas + active and passive can have any number of values. These + temperature values can come from platform data, and are + exposed through sysfs in a consistent manner. Stand-alone + thermal sensor drivers are not expected to know these values. + These values are RO. +thresholds: These are programmable temperature limits, on reaching which + the thermal sensor generates an interrupt. The framework is + notified about this interrupt to take appropriate action. + There can be as many number of thresholds as that of the + hardware supports. These values are RW. + +thermal_map: This provides the mapping (aka binding) information between + various sensors and cooling devices in a particular zone. + Typically, this also comes from platform data; Stand-alone + sensor drivers or cooling device drivers are not expected + to know these mapping information. + +2. Thermal framework APIs +------------------------- +2.1: For Thermal Sensors +2.1.1 thermal_sensor_register: + This function creates a new sensor directory under /sys/class/thermal/ + as sensor[0-*]. This API is expected to be called by thermal sensor + drivers. These drivers may or may not be in thermal subsystem. This + function returns a thermal_sensor structure on success and appropriate + error on failure. + + name: Name of the sensor + count: Number of programmable thresholds associated with this sensor + devdata: Device private data + ops: Thermal sensor callbacks + .get_temp: obtain the current temperature of the sensor + .get_trend: obtain the trend of the sensor + .get_threshold: get a particular threshold temperature + .set_threshold: set a particular threshold temperature + .get_hyst: get hysteresis value associated with a threshold + .set_hyst: set hysteresis value associated with a threshold + +2.1.2 thermal_sensor_unregister: + This function deletes the sensor directory under /sys/class/thermal/ + for the given sensor. Thermal sensor drivers may call this API + during the driver's 'exit' routine. + + ts: Thermal sensor that has to be unregistered + +2.2: For Cooling Devices +2.2.1 thermal_cdev_register: + This function adds a new thermal cooling device (fan/processor/...) + to /sys/class/thermal/ folder as cooling_device[0-*]. This function + is expected to be called by cooling device drivers that may be + present in other subsystems also. + + name: the cooling device name + devdata: device private data + ops: thermal cooling devices callbacks + .get_max_state: get the Maximum throttle state of the cooling device + .get_cur_state: get the Current throttle state of the cooling device + .set_cur_state: set the Current throttle state of the cooling device + +2.2.2 thermal_cdev_unregister: + This function deletes the given cdev entry form /sys/class/thermal; + and also cleans all the symlinks referred from various zones. + + cdev: Cooling device to be unregistered + +2.3: For Thermal Zones +2.3.1 thermal_create_thermal_zone: + This function adds a new 'zone' under /sys/class/thermal/ + directory as zone[0-*]. This zone has at least one thermal + sensor and at most MAX_SENSORS_PER_ZONE number of sensors + attached to it. Similarly, this zone has at least one cdev + and at most MAX_CDEVS_PER_ZONE number of cdevs attached to it. + As of now, MAX_*_PER_ZONE values are hard-coded to 5. We can + make them configurable, through Kconfig option(during 'menuconfig'). + + name: Name of the thermal zone + devdata: Device private data + +2.3.2 thermal_add_sensor_to_zone + This function adds a 'sensorX' entry under /sys/class/thermal/ + zoneY/ directory. This 'sensorX' is a symlink to the actual + sensor entry under /sys/class/thermal/. Correspondingly, the + method remove_sensor_from_zone deletes the symlink. + + tz: thermal zone structure + ts: thermal sensor structure + +2.3.3 thermal_add_cdev_to_zone + This function adds a 'cdevX' entry under /sys/class/thermal/ + zoneY/ directory. This 'cdevX' is a symlink to the actual + cdev entry under /sys/class/thermal/. Correspondingly, the + method remove_cdev_from_zone deletes the symlink. + + tz: thermal zone structure + cdev: thermal cooling device structure + +2.4 For Thermal Trip +2.4.1 thermal_add_sensor_trip_info + This function adds trip point information for the given sensor, + (under a given zone) under /sys/class/thermal/zoneX/. + This API creates sysfs attributes namely: + sensorX_trip_activeY, sensorX_trip_passiveY, sensorX_trip_hot, + sensorX_trip_critical. Each of these hold one trip point temperature + (in mC) values, as provided from platform data. As of now, we + support many Active and Passive trip points but only one hot + one critical trip point. + + tz: thermal zone structure + ts: thermal sensor to which the trip points are attached + trip: trip point structure. Usually obtained from platform data + +2.5 For Thermal Map +2.5.1 thermal_add_map_entry + This function adds a 'map[0-*]' sysfs attribute under + /sys/class/thermal/zoneX/mapY_*. Each map attribute helps + to describe the binding relationship between a sensor and + a cdev in the given zone. The map structure is typically + obtained as platform data. For example, through ACPI tables, + SFI tables, Device tree etc. The trip mask is a hex value; + if 'n' th bit (from LSB) is set, then for trip point 'n' this + cdev is throttled with the given weight[n]. + + tz: thermal zone to which a 'map' is being added + map: thermal_map structure + +3. Sysfs attributes structure +----------------------------- +Thermal sysfs attributes will be represented under /sys/class/thermal. + +3.1: For Thermal Sensors + /sys/class/thermal/sensor[0-*]: + |---type: Name of the thermal sensor + |---temp_input: Current temperature in mC + |---threshold[0-*]: Threshold temperature in mC + |---threshold[0-*]_hyst:Optional hysteresis value in mC + +3.2: For Thermal Cooling Devices + /sys/class/thermal/cooling_device[0-*]: + |---type: Type of the cooling device + |---max_state: Maximum throttle state of the cdev + |---cur_state: Current throttle state of the cdev + +3.3: For Thermal Zones + /sys/class/thermal/zone[0-*]: + |---zone_name: Name of the thermal zone + |---sensorX: Symlink to ../sensorX + |---cdevY: Symlink to ../cdevY + |---sensorX_trip_activeM: Active trip point for sensorX + |---sensorX_trip_passiveN: Passive trip point for sensorX + |---sensorX_trip_hot: Hot trip point for sensorX + |---sensorX_trip_critical: Critical trip point for sensorX + |---mapX_sensor_name: Sensor Name + |---mapX_cdev_name: Cooling device Name + |---mapX_trip_type: Trip point type + |---mapX_trip_mask: Trip point mask + |---mapX_weightY: Weights (used by governors) + +3.5: For Thermal Map + Each attribute represents the mapping/binding information between + a sensor and a cdev, together with a trip type. + /sys/class/thermal/zoneX/: + |---mapY_trip_type: active/passive + |---mapY_sensor_name: cpu + |---mapY_cdev_name: proc + |---mapY_trip_mask: 0x03 + |---mapY_weight0: 50 + |---mapY_weight1: 30 -- 1.7.9.5 -- To unsubscribe from this list: send the line "unsubscribe linux-kernel" in the body of a message to majordomo@...r.kernel.org More majordomo info at http://vger.kernel.org/majordomo-info.html Please read the FAQ at http://www.tux.org/lkml/
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