platform/sysroot/usr/include/android/thermal.h - platform/prebuilts/ndk - Git at Google

 /*
  * Copyright (C) 2020 The Android Open Source Project
  *
  * Licensed under the Apache License, Version 2.0 (the "License");
  * you may not use this file except in compliance with the License.
  * You may obtain a copy of the License at
  *
  *      http://www.apache.org/licenses/LICENSE-2.0
  *
  * Unless required by applicable law or agreed to in writing, software
  * distributed under the License is distributed on an "AS IS" BASIS,
  * WITHOUT WARRANTIES OR CONDITIONS OF ANY KIND, either express or implied.
  * See the License for the specific language governing permissions and
  * limitations under the License.
  */

 /**
  * @addtogroup Thermal
  * @{
  */

 /**
  * @file thermal.h
  */

 #ifndef _ANDROID_THERMAL_H
 #define _ANDROID_THERMAL_H

 #include <sys/cdefs.h>

 /******************************************************************
  *
  * IMPORTANT NOTICE:
  *
  *   This file is part of Android's set of stable system headers
  *   exposed by the Android NDK (Native Development Kit).
  *
  *   Third-party source AND binary code relies on the definitions
  *   here to be FROZEN ON ALL UPCOMING PLATFORM RELEASES.
  *
  *   - DO NOT MODIFY ENUMS (EXCEPT IF YOU ADD NEW 32-BIT VALUES)
  *   - DO NOT MODIFY CONSTANTS OR FUNCTIONAL MACROS
  *   - DO NOT CHANGE THE SIGNATURE OF FUNCTIONS IN ANY WAY
  *   - DO NOT CHANGE THE LAYOUT OR SIZE OF STRUCTURES
  */

 /*
  * Structures and functions to access thermal status and register/unregister
  * thermal status listener in native code.
  */

 #include <stdint.h>
 #include <sys/types.h>

 #if !defined(__INTRODUCED_IN)
 #define __INTRODUCED_IN(__api_level) /* nothing */
 #endif

 #ifdef __cplusplus
 extern "C" {
 #endif

 /**
  * Thermal status used in function {@link AThermal_getCurrentThermalStatus} and
  * {@link AThermal_StatusCallback}.
  */
 enum AThermalStatus {
     /** Error in thermal status. */
     ATHERMAL_STATUS_ERROR = -1,
     /** Not under throttling. */
     ATHERMAL_STATUS_NONE = 0,
     /** Light throttling where UX is not impacted. */
     ATHERMAL_STATUS_LIGHT = 1,
     /** Moderate throttling where UX is not largely impacted. */
     ATHERMAL_STATUS_MODERATE = 2,
     /** Severe throttling where UX is largely impacted. */
     ATHERMAL_STATUS_SEVERE = 3,
     /** Platform has done everything to reduce power. */
     ATHERMAL_STATUS_CRITICAL = 4,
     /**
      * Key components in platform are shutting down due to thermal condition.
      * Device functionalities will be limited.
      */
     ATHERMAL_STATUS_EMERGENCY = 5,
     /** Need shutdown immediately. */
     ATHERMAL_STATUS_SHUTDOWN = 6,
 };

 /**
  * An opaque type representing a handle to a thermal manager.
  * An instance of thermal manager must be acquired prior to
  * using thermal status APIs and must be released after use.
  *
  * <p>To use:<ul>
  *    <li>Create a new thermal manager instance by calling the
  *        {@link AThermal_acquireManager} function.</li>
  *    <li>Get current thermal status with
  *        {@link AThermal_getCurrentThermalStatus}.</li>
  *    <li>Register a thermal status listener with
  *        {@link AThermal_registerThermalStatusListener}.</li>
  *    <li>Unregister a thermal status listener with
  *        {@link AThermal_unregisterThermalStatusListener}.</li>
  *    <li>Release the thermal manager instance with
  *        {@link AThermal_releaseManager}.</li></ul></p>
  *
  */
 typedef struct AThermalManager AThermalManager;

 /**
  * Prototype of the function that is called when thermal status changes.
  * It's passed the updated thermal status as parameter, as well as the
  * pointer provided by the client that registered a callback.
  */
 typedef void (*AThermal_StatusCallback)(void* data, AThermalStatus status);

 /**
   * Acquire an instance of the thermal manager. This must be freed using
   * {@link AThermal_releaseManager}.
   *
   * Available since API level 30.
   *
   * @return manager instance on success, nullptr on failure.
   */
 AThermalManager* AThermal_acquireManager() __INTRODUCED_IN(30);

 /**
  * Release the thermal manager pointer acquired via
  * {@link AThermal_acquireManager}.
  *
  * Available since API level 30.
  *
  * @param manager The manager to be released.
  */
 void AThermal_releaseManager(AThermalManager *manager) __INTRODUCED_IN(30);

 /**
   * Gets the current thermal status.
   *
   * Available since API level 30.
   *
   * @param manager The manager instance to use to query the thermal status.
   * Acquired via {@link AThermal_acquireManager}.
   *
   * @return current thermal status, ATHERMAL_STATUS_ERROR on failure.
   */
 AThermalStatus AThermal_getCurrentThermalStatus(AThermalManager *manager) __INTRODUCED_IN(30);

 /**
  * Register the thermal status listener for thermal status change.
  *
  * Available since API level 30.
  *
  * @param manager The manager instance to use to register.
  * Acquired via {@link AThermal_acquireManager}.
  * @param callback The callback function to be called when thermal status updated.
  * @param data The data pointer to be passed when callback is called.
  *
  * @return 0 on success
  *         EINVAL if the listener and data pointer were previously added and not removed.
  *         EPERM if the required permission is not held.
  *         EPIPE if communication with the system service has failed.
  */
 int AThermal_registerThermalStatusListener(AThermalManager *manager,
         AThermal_StatusCallback callback, void *data) __INTRODUCED_IN(30);

 /**
  * Unregister the thermal status listener previously resgistered.
  *
  * Available since API level 30.
  *
  * @param manager The manager instance to use to unregister.
  * Acquired via {@link AThermal_acquireManager}.
  * @param callback The callback function to be called when thermal status updated.
  * @param data The data pointer to be passed when callback is called.
  *
  * @return 0 on success
  *         EINVAL if the listener and data pointer were not previously added.
  *         EPERM if the required permission is not held.
  *         EPIPE if communication with the system service has failed.
  */
 int AThermal_unregisterThermalStatusListener(AThermalManager *manager,
         AThermal_StatusCallback callback, void *data) __INTRODUCED_IN(30);

 /**
  * Provides an estimate of how much thermal headroom the device currently has before
  * hitting severe throttling.
  *
  * Note that this only attempts to track the headroom of slow-moving sensors, such as
  * the skin temperature sensor. This means that there is no benefit to calling this function
  * more frequently than about once per second, and attempted to call significantly
  * more frequently may result in the function returning `NaN`.
  *
  * In addition, in order to be able to provide an accurate forecast, the system does
  * not attempt to forecast until it has multiple temperature samples from which to
  * extrapolate. This should only take a few seconds from the time of the first call,
  * but during this time, no forecasting will occur, and the current headroom will be
  * returned regardless of the value of `forecastSeconds`.
  *
  * The value returned is a non-negative float that represents how much of the thermal envelope
  * is in use (or is forecasted to be in use). A value of 1.0 indicates that the device is
  * (or will be) throttled at {@link #ATHERMAL_STATUS_SEVERE}. Such throttling can affect the
  * CPU, GPU, and other subsystems. Values may exceed 1.0, but there is no implied mapping
  * to specific thermal levels beyond that point. This means that values greater than 1.0
  * may correspond to {@link #ATHERMAL_STATUS_SEVERE}, but may also represent heavier throttling.
  *
  * A value of 0.0 corresponds to a fixed distance from 1.0, but does not correspond to any
  * particular thermal status or temperature. Values on (0.0, 1.0] may be expected to scale
  * linearly with temperature, though temperature changes over time are typically not linear.
  * Negative values will be clamped to 0.0 before returning.
  *
  * Available since API level 31.
  *
  * @param manager The manager instance to use.
  *                Acquired via {@link AThermal_acquireManager}.
  * @param forecastSeconds how many seconds into the future to forecast. Given that device
  *                        conditions may change at any time, forecasts from further in the
  *                        future will likely be less accurate than forecasts in the near future.
  * @return a value greater than equal to 0.0, where 1.0 indicates the SEVERE throttling threshold,
  *         as described above. Returns NaN if the device does not support this functionality or
  *         if this function is called significantly faster than once per second.
   */
 float AThermal_getThermalHeadroom(AThermalManager *manager,
         int forecastSeconds) __INTRODUCED_IN(31);

 /**
  * This struct defines an instance of headroom threshold value and its status.
  * <p>
  * The value should be monotonically non-decreasing as the thermal status increases.
  * For {@link ATHERMAL_STATUS_SEVERE}, its headroom threshold is guaranteed to
  * be 1.0f. For status below severe status, the value should be lower or equal
  * to 1.0f, and for status above severe, the value should be larger or equal to 1.0f.
  * <p>
  * Also see {@link AThermal_getThermalHeadroom} for explanation on headroom, and
  * {@link AThermal_getThermalHeadroomThresholds} for how to use this.
  */
 struct AThermalHeadroomThreshold {
     float headroom;
     AThermalStatus thermalStatus;
 };

 /**
  * Gets the thermal headroom thresholds for all available thermal status.
  *
  * A thermal status will only exist in output if the device manufacturer has the
  * corresponding threshold defined for at least one of its slow-moving skin temperature
  * sensors. If it's set, one should also expect to get it from
  * {@link #AThermal_getCurrentThermalStatus} or {@link AThermal_StatusCallback}.
  * <p>
  * The headroom threshold is used to interpret the possible thermal throttling status based on
  * the headroom prediction. For example, if the headroom threshold for
  * {@link ATHERMAL_STATUS_LIGHT} is 0.7, and a headroom prediction in 10s returns 0.75
  * (or {@code AThermal_getThermalHeadroom(10)=0.75}), one can expect that in 10 seconds the system
  * could be in lightly throttled state if the workload remains the same. The app can consider
  * taking actions according to the nearest throttling status the difference between the headroom and
  * the threshold.
  * <p>
  * For new devices it's guaranteed to have a single sensor, but for older devices with multiple
  * sensors reporting different threshold values, the minimum threshold is taken to be conservative
  * on predictions. Thus, when reading real-time headroom, it's not guaranteed that a real-time value
  * of 0.75 (or {@code AThermal_getThermalHeadroom(0)}=0.75) exceeding the threshold of 0.7 above
  * will always come with lightly throttled state
  * (or {@code AThermal_getCurrentThermalStatus()=ATHERMAL_STATUS_LIGHT}) but it can be lower
  * (or {@code AThermal_getCurrentThermalStatus()=ATHERMAL_STATUS_NONE}).
  * While it's always guaranteed that the device won't be throttled heavier than the unmet
  * threshold's state, so a real-time headroom of 0.75 will never come with
  * {@link #ATHERMAL_STATUS_MODERATE} but always lower, and 0.65 will never come with
  * {@link ATHERMAL_STATUS_LIGHT} but {@link #ATHERMAL_STATUS_NONE}.
  * <p>
  * The returned list of thresholds is cached on first successful query and owned by the thermal
  * manager, which will not change between calls to this function. The caller should only need to
  * free the manager with {@link AThermal_releaseManager}.
  *
  * @param manager The manager instance to use.
  *                Acquired via {@link AThermal_acquireManager}.
  * @param outThresholds non-null output pointer to null AThermalHeadroomThreshold pointer, which
  *                will be set to the cached array of thresholds if thermal thresholds are supported
  *                by the system or device, otherwise nullptr or unmodified.
  * @param size non-null output pointer whose value will be set to the size of the threshold array
  *             or 0 if it's not supported.
  * @return 0 on success
  *         EINVAL if outThresholds or size_t is nullptr, or *outThresholds is not nullptr.
  *         EPIPE if communication with the system service has failed.
  *         ENOSYS if the feature is disabled by the current system.
  */
 int AThermal_getThermalHeadroomThresholds(AThermalManager* manager,
                                           const AThermalHeadroomThreshold ** outThresholds,
                                           size_t* size) __INTRODUCED_IN(35);

 #ifdef __cplusplus
 }
 #endif

 #endif // _ANDROID_THERMAL_H

 /** @} */
	/*
	* Copyright (C) 2020 The Android Open Source Project
	*
	* Licensed under the Apache License, Version 2.0 (the "License");
	* you may not use this file except in compliance with the License.
	* You may obtain a copy of the License at
	*
	* http://www.apache.org/licenses/LICENSE-2.0
	*
	* Unless required by applicable law or agreed to in writing, software
	* distributed under the License is distributed on an "AS IS" BASIS,
	* WITHOUT WARRANTIES OR CONDITIONS OF ANY KIND, either express or implied.
	* See the License for the specific language governing permissions and
	* limitations under the License.
	*/

	/**
	* @addtogroup Thermal
	* @{
	*/

	/**
	* @file thermal.h
	*/

	#ifndef _ANDROID_THERMAL_H
	#define _ANDROID_THERMAL_H

	#include <sys/cdefs.h>

	/******************************************************************
	*
	* IMPORTANT NOTICE:
	*
	* This file is part of Android's set of stable system headers
	* exposed by the Android NDK (Native Development Kit).
	*
	* Third-party source AND binary code relies on the definitions
	* here to be FROZEN ON ALL UPCOMING PLATFORM RELEASES.
	*
	* - DO NOT MODIFY ENUMS (EXCEPT IF YOU ADD NEW 32-BIT VALUES)
	* - DO NOT MODIFY CONSTANTS OR FUNCTIONAL MACROS
	* - DO NOT CHANGE THE SIGNATURE OF FUNCTIONS IN ANY WAY
	* - DO NOT CHANGE THE LAYOUT OR SIZE OF STRUCTURES
	*/

	/*
	* Structures and functions to access thermal status and register/unregister
	* thermal status listener in native code.
	*/

	#include <stdint.h>
	#include <sys/types.h>

	#if !defined(__INTRODUCED_IN)
	#define __INTRODUCED_IN(__api_level) /* nothing */
	#endif

	#ifdef __cplusplus
	extern "C" {
	#endif

	/**
	* Thermal status used in function {@link AThermal_getCurrentThermalStatus} and
	* {@link AThermal_StatusCallback}.
	*/
	enum AThermalStatus {
	/** Error in thermal status. */
	ATHERMAL_STATUS_ERROR = -1,
	/** Not under throttling. */
	ATHERMAL_STATUS_NONE = 0,
	/** Light throttling where UX is not impacted. */
	ATHERMAL_STATUS_LIGHT = 1,
	/** Moderate throttling where UX is not largely impacted. */
	ATHERMAL_STATUS_MODERATE = 2,
	/** Severe throttling where UX is largely impacted. */
	ATHERMAL_STATUS_SEVERE = 3,
	/** Platform has done everything to reduce power. */
	ATHERMAL_STATUS_CRITICAL = 4,
	/**
	* Key components in platform are shutting down due to thermal condition.
	* Device functionalities will be limited.
	*/
	ATHERMAL_STATUS_EMERGENCY = 5,
	/** Need shutdown immediately. */
	ATHERMAL_STATUS_SHUTDOWN = 6,
	};

	/**
	* An opaque type representing a handle to a thermal manager.
	* An instance of thermal manager must be acquired prior to
	* using thermal status APIs and must be released after use.
	*
	* <p>To use:<ul>
	* <li>Create a new thermal manager instance by calling the
	* {@link AThermal_acquireManager} function.</li>
	* <li>Get current thermal status with
	* {@link AThermal_getCurrentThermalStatus}.</li>
	* <li>Register a thermal status listener with
	* {@link AThermal_registerThermalStatusListener}.</li>
	* <li>Unregister a thermal status listener with
	* {@link AThermal_unregisterThermalStatusListener}.</li>
	* <li>Release the thermal manager instance with
	* {@link AThermal_releaseManager}.</li></ul></p>
	*
	*/
	typedef struct AThermalManager AThermalManager;

	/**
	* Prototype of the function that is called when thermal status changes.
	* It's passed the updated thermal status as parameter, as well as the
	* pointer provided by the client that registered a callback.
	*/
	typedef void (AThermal_StatusCallback)(void data, AThermalStatus status);

	/**
	* Acquire an instance of the thermal manager. This must be freed using
	* {@link AThermal_releaseManager}.
	*
	* Available since API level 30.
	*
	* @return manager instance on success, nullptr on failure.
	*/
	AThermalManager* AThermal_acquireManager() __INTRODUCED_IN(30);

	/**
	* Release the thermal manager pointer acquired via
	* {@link AThermal_acquireManager}.
	*
	* Available since API level 30.
	*
	* @param manager The manager to be released.
	*/
	void AThermal_releaseManager(AThermalManager *manager) __INTRODUCED_IN(30);

	/**
	* Gets the current thermal status.
	*
	* Available since API level 30.
	*
	* @param manager The manager instance to use to query the thermal status.
	* Acquired via {@link AThermal_acquireManager}.
	*
	* @return current thermal status, ATHERMAL_STATUS_ERROR on failure.
	*/
	AThermalStatus AThermal_getCurrentThermalStatus(AThermalManager *manager) __INTRODUCED_IN(30);

	/**
	* Register the thermal status listener for thermal status change.
	*
	* Available since API level 30.
	*
	* @param manager The manager instance to use to register.
	* Acquired via {@link AThermal_acquireManager}.
	* @param callback The callback function to be called when thermal status updated.
	* @param data The data pointer to be passed when callback is called.
	*
	* @return 0 on success
	* EINVAL if the listener and data pointer were previously added and not removed.
	* EPERM if the required permission is not held.
	* EPIPE if communication with the system service has failed.
	*/
	int AThermal_registerThermalStatusListener(AThermalManager *manager,
	AThermal_StatusCallback callback, void *data) __INTRODUCED_IN(30);

	/**
	* Unregister the thermal status listener previously resgistered.
	*
	* Available since API level 30.
	*
	* @param manager The manager instance to use to unregister.
	* Acquired via {@link AThermal_acquireManager}.
	* @param callback The callback function to be called when thermal status updated.
	* @param data The data pointer to be passed when callback is called.
	*
	* @return 0 on success
	* EINVAL if the listener and data pointer were not previously added.
	* EPERM if the required permission is not held.
	* EPIPE if communication with the system service has failed.
	*/
	int AThermal_unregisterThermalStatusListener(AThermalManager *manager,
	AThermal_StatusCallback callback, void *data) __INTRODUCED_IN(30);

	/**
	* Provides an estimate of how much thermal headroom the device currently has before
	* hitting severe throttling.
	*
	* Note that this only attempts to track the headroom of slow-moving sensors, such as
	* the skin temperature sensor. This means that there is no benefit to calling this function
	* more frequently than about once per second, and attempted to call significantly
	* more frequently may result in the function returning `NaN`.
	*
	* In addition, in order to be able to provide an accurate forecast, the system does
	* not attempt to forecast until it has multiple temperature samples from which to
	* extrapolate. This should only take a few seconds from the time of the first call,
	* but during this time, no forecasting will occur, and the current headroom will be
	* returned regardless of the value of `forecastSeconds`.
	*
	* The value returned is a non-negative float that represents how much of the thermal envelope
	* is in use (or is forecasted to be in use). A value of 1.0 indicates that the device is
	* (or will be) throttled at {@link #ATHERMAL_STATUS_SEVERE}. Such throttling can affect the
	* CPU, GPU, and other subsystems. Values may exceed 1.0, but there is no implied mapping
	* to specific thermal levels beyond that point. This means that values greater than 1.0
	* may correspond to {@link #ATHERMAL_STATUS_SEVERE}, but may also represent heavier throttling.
	*
	* A value of 0.0 corresponds to a fixed distance from 1.0, but does not correspond to any
	* particular thermal status or temperature. Values on (0.0, 1.0] may be expected to scale
	* linearly with temperature, though temperature changes over time are typically not linear.
	* Negative values will be clamped to 0.0 before returning.
	*
	* Available since API level 31.
	*
	* @param manager The manager instance to use.
	* Acquired via {@link AThermal_acquireManager}.
	* @param forecastSeconds how many seconds into the future to forecast. Given that device
	* conditions may change at any time, forecasts from further in the
	* future will likely be less accurate than forecasts in the near future.
	* @return a value greater than equal to 0.0, where 1.0 indicates the SEVERE throttling threshold,
	* as described above. Returns NaN if the device does not support this functionality or
	* if this function is called significantly faster than once per second.
	*/
	float AThermal_getThermalHeadroom(AThermalManager *manager,
	int forecastSeconds) __INTRODUCED_IN(31);

	/**
	* This struct defines an instance of headroom threshold value and its status.
	* <p>
	* The value should be monotonically non-decreasing as the thermal status increases.
	* For {@link ATHERMAL_STATUS_SEVERE}, its headroom threshold is guaranteed to
	* be 1.0f. For status below severe status, the value should be lower or equal
	* to 1.0f, and for status above severe, the value should be larger or equal to 1.0f.
	* <p>
	* Also see {@link AThermal_getThermalHeadroom} for explanation on headroom, and
	* {@link AThermal_getThermalHeadroomThresholds} for how to use this.
	*/
	struct AThermalHeadroomThreshold {
	float headroom;
	AThermalStatus thermalStatus;
	};

	/**
	* Gets the thermal headroom thresholds for all available thermal status.
	*
	* A thermal status will only exist in output if the device manufacturer has the
	* corresponding threshold defined for at least one of its slow-moving skin temperature
	* sensors. If it's set, one should also expect to get it from
	* {@link #AThermal_getCurrentThermalStatus} or {@link AThermal_StatusCallback}.
	* <p>
	* The headroom threshold is used to interpret the possible thermal throttling status based on
	* the headroom prediction. For example, if the headroom threshold for
	* {@link ATHERMAL_STATUS_LIGHT} is 0.7, and a headroom prediction in 10s returns 0.75
	* (or {@code AThermal_getThermalHeadroom(10)=0.75}), one can expect that in 10 seconds the system
	* could be in lightly throttled state if the workload remains the same. The app can consider
	* taking actions according to the nearest throttling status the difference between the headroom and
	* the threshold.
	* <p>
	* For new devices it's guaranteed to have a single sensor, but for older devices with multiple
	* sensors reporting different threshold values, the minimum threshold is taken to be conservative
	* on predictions. Thus, when reading real-time headroom, it's not guaranteed that a real-time value
	* of 0.75 (or {@code AThermal_getThermalHeadroom(0)}=0.75) exceeding the threshold of 0.7 above
	* will always come with lightly throttled state
	* (or {@code AThermal_getCurrentThermalStatus()=ATHERMAL_STATUS_LIGHT}) but it can be lower
	* (or {@code AThermal_getCurrentThermalStatus()=ATHERMAL_STATUS_NONE}).
	* While it's always guaranteed that the device won't be throttled heavier than the unmet
	* threshold's state, so a real-time headroom of 0.75 will never come with
	* {@link #ATHERMAL_STATUS_MODERATE} but always lower, and 0.65 will never come with
	* {@link ATHERMAL_STATUS_LIGHT} but {@link #ATHERMAL_STATUS_NONE}.
	* <p>
	* The returned list of thresholds is cached on first successful query and owned by the thermal
	* manager, which will not change between calls to this function. The caller should only need to
	* free the manager with {@link AThermal_releaseManager}.
	*
	* @param manager The manager instance to use.
	* Acquired via {@link AThermal_acquireManager}.
	* @param outThresholds non-null output pointer to null AThermalHeadroomThreshold pointer, which
	* will be set to the cached array of thresholds if thermal thresholds are supported
	* by the system or device, otherwise nullptr or unmodified.
	* @param size non-null output pointer whose value will be set to the size of the threshold array
	* or 0 if it's not supported.
	* @return 0 on success
	* EINVAL if outThresholds or size_t is nullptr, or *outThresholds is not nullptr.
	* EPIPE if communication with the system service has failed.
	* ENOSYS if the feature is disabled by the current system.
	*/
	int AThermal_getThermalHeadroomThresholds(AThermalManager* manager,
	const AThermalHeadroomThreshold ** outThresholds,
	size_t* size) __INTRODUCED_IN(35);

	#ifdef __cplusplus
	}
	#endif

	#endif // _ANDROID_THERMAL_H

	/** @} */