include/hardware/power.h - platform/hardware/libhardware - Git at Google

 /*
  * Copyright (C) 2012 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.
  */

 #ifndef ANDROID_INCLUDE_HARDWARE_POWER_H
 #define ANDROID_INCLUDE_HARDWARE_POWER_H

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

 #include <hardware/hardware.h>

 __BEGIN_DECLS

 #define POWER_MODULE_API_VERSION_0_1  HARDWARE_MODULE_API_VERSION(0, 1)
 #define POWER_MODULE_API_VERSION_0_2  HARDWARE_MODULE_API_VERSION(0, 2)
 #define POWER_MODULE_API_VERSION_0_3  HARDWARE_MODULE_API_VERSION(0, 3)
 #define POWER_MODULE_API_VERSION_0_4  HARDWARE_MODULE_API_VERSION(0, 4)
 #define POWER_MODULE_API_VERSION_0_5  HARDWARE_MODULE_API_VERSION(0, 5)

 /**
  * The id of this module
  */
 #define POWER_HARDWARE_MODULE_ID "power"

 /*
  * Platform-level sleep state stats.
  * Maximum length of Platform-level sleep state name.
  */
 #define POWER_STATE_NAME_MAX_LENGTH 100

 /*
  * Platform-level sleep state stats.
  * Maximum length of Platform-level sleep state voter name.
  */
 #define POWER_STATE_VOTER_NAME_MAX_LENGTH 100

 /*
  * Power hint identifiers passed to (*powerHint)
  */

 typedef enum {
     POWER_HINT_VSYNC = 0x00000001,
     POWER_HINT_INTERACTION = 0x00000002,
     /* DO NOT USE POWER_HINT_VIDEO_ENCODE/_DECODE!  They will be removed in
      * KLP.
      */
     POWER_HINT_VIDEO_ENCODE = 0x00000003,
     POWER_HINT_VIDEO_DECODE = 0x00000004,
     POWER_HINT_LOW_POWER = 0x00000005,
     POWER_HINT_SUSTAINED_PERFORMANCE = 0x00000006,
     POWER_HINT_VR_MODE = 0x00000007,
     POWER_HINT_LAUNCH = 0x00000008,
     POWER_HINT_DISABLE_TOUCH = 0x00000009
 } power_hint_t;

 typedef enum {
     POWER_FEATURE_DOUBLE_TAP_TO_WAKE = 0x00000001
 } feature_t;

 /*
  * Platform-level sleep state stats:
  * power_state_voter_t struct is useful for describing the individual voters when a
  * Platform-level sleep state is chosen by aggregation of votes from multiple
  * clients/system conditions.
  *
  * This helps in attirbuting what in the device is blocking the device from
  * entering the lowest Platform-level sleep state.
  */
 typedef struct {
     /*
      * Name of the voter.
      */
      char name[POWER_STATE_VOTER_NAME_MAX_LENGTH];

     /*
      * Total time in msec the voter voted for the platform sleep state since boot.
      */
      uint64_t total_time_in_msec_voted_for_since_boot;

     /*
      * Number of times the voter voted for the platform sleep state since boot.
      */
      uint64_t total_number_of_times_voted_since_boot;
 } power_state_voter_t;

 /*
  * Platform-level sleep state stats:
  * power_state_platform_sleep_state_t represents the Platform-level sleep state the
  * device is capable of getting into.
  *
  * SoCs usually have more than one Platform-level sleep state.
  *
  * The caller calls the get_number_of_platform_modes function to figure out the size
  * of power_state_platform_sleep_state_t array where each array element represents
  * a specific Platform-level sleep state.
  *
  * Higher the index deeper the state is i.e. lesser steady-state power is consumed
  * by the platform to be resident in that state.
  *
  * Caller allocates power_state_voter_t *voters for each Platform-level sleep state by
  * calling get_voter_list.
  */
 typedef struct {
     /*
      * Platform-level Sleep state name.
      */
     char name[POWER_STATE_NAME_MAX_LENGTH];

     /*
      * Time spent in msec at this platform-level sleep state since boot.
      */
     uint64_t residency_in_msec_since_boot;

     /*
      * Total number of times system entered this state.
      */
     uint64_t total_transitions;

     /*
      * This platform-level sleep state can only be reached during system suspend.
      */
     bool supported_only_in_suspend;

     /*
      * The following fields are useful if the Platform-level sleep state
      * is chosen by aggregation votes from multiple clients/system conditions.
      * All the voters have to say yes or all the system conditions need to be
      * met to enter a platform-level sleep state.
      *
      * Setting number_of_voters to zero implies either the info is not available
      * or the system does not follow a voting mechanism to choose this
      * Platform-level sleep state.
      */
     uint32_t number_of_voters;

     /*
      * Voter list - Has to be allocated by the caller.
      *
      * Caller allocates power_state_voter_t *voters for each Platform-level sleep state
      * by calling get_voter_list.
      */
     power_state_voter_t *voters;
 } power_state_platform_sleep_state_t;

 /**
  * Every hardware module must have a data structure named HAL_MODULE_INFO_SYM
  * and the fields of this data structure must begin with hw_module_t
  * followed by module specific information.
  */
 typedef struct power_module {
     struct hw_module_t common;

     /*
      * (*init)() performs power management setup actions at runtime
      * startup, such as to set default cpufreq parameters.  This is
      * called only by the Power HAL instance loaded by
      * PowerManagerService.
      *
      * Platform-level sleep state stats:
      * Can Also be used to initiate device specific Platform-level
      * Sleep state nodes from version 0.5 onwards.
      */
     void (*init)(struct power_module *module);

     /*
      * (*setInteractive)() performs power management actions upon the
      * system entering interactive state (that is, the system is awake
      * and ready for interaction, often with UI devices such as
      * display and touchscreen enabled) or non-interactive state (the
      * system appears asleep, display usually turned off).  The
      * non-interactive state is usually entered after a period of
      * inactivity, in order to conserve battery power during
      * such inactive periods.
      *
      * Typical actions are to turn on or off devices and adjust
      * cpufreq parameters.  This function may also call the
      * appropriate interfaces to allow the kernel to suspend the
      * system to low-power sleep state when entering non-interactive
      * state, and to disallow low-power suspend when the system is in
      * interactive state.  When low-power suspend state is allowed, the
      * kernel may suspend the system whenever no wakelocks are held.
      *
      * on is non-zero when the system is transitioning to an
      * interactive / awake state, and zero when transitioning to a
      * non-interactive / asleep state.
      *
      * This function is called to enter non-interactive state after
      * turning off the screen (if present), and called to enter
      * interactive state prior to turning on the screen.
      */
     void (*setInteractive)(struct power_module *module, int on);

     /*
      * (*powerHint) is called to pass hints on power requirements, which
      * may result in adjustment of power/performance parameters of the
      * cpufreq governor and other controls.  The possible hints are:
      *
      * POWER_HINT_VSYNC
      *
      *     Foreground app has started or stopped requesting a VSYNC pulse
      *     from SurfaceFlinger.  If the app has started requesting VSYNC
      *     then CPU and GPU load is expected soon, and it may be appropriate
      *     to raise speeds of CPU, memory bus, etc.  The data parameter is
      *     non-zero to indicate VSYNC pulse is now requested, or zero for
      *     VSYNC pulse no longer requested.
      *
      * POWER_HINT_INTERACTION
      *
      *     User is interacting with the device, for example, touchscreen
      *     events are incoming.  CPU and GPU load may be expected soon,
      *     and it may be appropriate to raise speeds of CPU, memory bus,
      *     etc.  The data parameter is the estimated length of the interaction
      *     in milliseconds, or 0 if unknown.
      *
      * POWER_HINT_LOW_POWER
      *
      *     Low power mode is activated or deactivated. Low power mode
      *     is intended to save battery at the cost of performance. The data
      *     parameter is non-zero when low power mode is activated, and zero
      *     when deactivated.
      *
      * POWER_HINT_SUSTAINED_PERFORMANCE
      *
      *     Sustained Performance mode is actived or deactivated. Sustained
      *     performance mode is intended to provide a consistent level of
      *     performance for a prolonged amount of time. The data parameter is
      *     non-zero when sustained performance mode is activated, and zero
      *     when deactivated.
      *
      * POWER_HINT_VR_MODE
      *
      *     VR Mode is activated or deactivated. VR mode is intended to
      *     provide minimum guarantee for performance for the amount of time the
      *     device can sustain it. The data parameter is non-zero when the mode
      *     is activated and zero when deactivated.
      *
      * POWER_HINT_DISABLE_TOUCH
      *
      *     When device enters some special modes, e.g. theater mode in Android
      *     Wear, there is no touch interaction expected between device and user.
      *     Touch controller could be disabled in those modes to save power.
      *     The data parameter is non-zero when touch could be disabled, and zero
      *     when touch needs to be re-enabled.
      *
      * A particular platform may choose to ignore any hint.
      *
      * availability: version 0.2
      *
      */
     void (*powerHint)(struct power_module *module, power_hint_t hint,
                       void *data);

     /*
      * (*setFeature) is called to turn on or off a particular feature
      * depending on the state parameter. The possible features are:
      *
      * FEATURE_DOUBLE_TAP_TO_WAKE
      *
      *    Enabling/Disabling this feature will allow/disallow the system
      *    to wake up by tapping the screen twice.
      *
      * availability: version 0.3
      *
      */
     void (*setFeature)(struct power_module *module, feature_t feature, int state);

     /*
      * Platform-level sleep state stats:
      * Report cumulative info on the statistics on platform-level sleep states since boot.
      *
      * Caller of the function queries the get_number_of_sleep_states and allocates the
      * memory for the power_state_platform_sleep_state_t *list before calling this function.
      *
      * power_stats module is responsible to assign values to all the fields as
      * necessary.
      *
      * Higher the index deeper the state is i.e. lesser steady-state power is consumed
      * by the platform to be resident in that state.
      *
      * The function returns 0 on success or negative value -errno on error.
      * EINVAL - *list is NULL.
      * EIO - filesystem nodes access error.
      *
      * availability: version 0.5
      */
     int (*get_platform_low_power_stats)(struct power_module *module,
         power_state_platform_sleep_state_t *list);

     /*
      * Platform-level sleep state stats:
      * This function is called to determine the number of platform-level sleep states
      * for get_platform_low_power_stats.
      *
      * The value returned by this function is used to allocate memory for
      * power_state_platform_sleep_state_t *list for get_platform_low_power_stats.
      *
      * The number of parameters must not change for successive calls.
      *
      * Return number of parameters on success or negative value -errno on error.
      * EIO - filesystem nodes access error.
      *
      * availability: version 0.5
      */
     ssize_t (*get_number_of_platform_modes)(struct power_module *module);

     /*
      * Platform-level sleep state stats:
      * Provides the number of voters for each of the Platform-level sleep state.
      *
      * Caller uses this function to allocate memory for the power_state_voter_t list.
      *
      * Caller has to allocate the space for the *voter array which is
      * get_number_of_platform_modes() long.
      *
      * Return 0 on success or negative value -errno on error.
      * EINVAL - *voter is NULL.
      * EIO - filesystem nodes access error.
      *
      * availability: version 0.5
      */
     int (*get_voter_list)(struct power_module *module, size_t *voter);

 } power_module_t;


 __END_DECLS

 #endif  // ANDROID_INCLUDE_HARDWARE_POWER_H
	/*
	* Copyright (C) 2012 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.
	*/

	#ifndef ANDROID_INCLUDE_HARDWARE_POWER_H
	#define ANDROID_INCLUDE_HARDWARE_POWER_H

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

	#include <hardware/hardware.h>

	__BEGIN_DECLS

	#define POWER_MODULE_API_VERSION_0_1 HARDWARE_MODULE_API_VERSION(0, 1)
	#define POWER_MODULE_API_VERSION_0_2 HARDWARE_MODULE_API_VERSION(0, 2)
	#define POWER_MODULE_API_VERSION_0_3 HARDWARE_MODULE_API_VERSION(0, 3)
	#define POWER_MODULE_API_VERSION_0_4 HARDWARE_MODULE_API_VERSION(0, 4)
	#define POWER_MODULE_API_VERSION_0_5 HARDWARE_MODULE_API_VERSION(0, 5)

	/**
	* The id of this module
	*/
	#define POWER_HARDWARE_MODULE_ID "power"

	/*
	* Platform-level sleep state stats.
	* Maximum length of Platform-level sleep state name.
	*/
	#define POWER_STATE_NAME_MAX_LENGTH 100

	/*
	* Platform-level sleep state stats.
	* Maximum length of Platform-level sleep state voter name.
	*/
	#define POWER_STATE_VOTER_NAME_MAX_LENGTH 100

	/*
	* Power hint identifiers passed to (*powerHint)
	*/

	typedef enum {
	POWER_HINT_VSYNC = 0x00000001,
	POWER_HINT_INTERACTION = 0x00000002,
	/* DO NOT USE POWER_HINT_VIDEO_ENCODE/_DECODE! They will be removed in
	* KLP.
	*/
	POWER_HINT_VIDEO_ENCODE = 0x00000003,
	POWER_HINT_VIDEO_DECODE = 0x00000004,
	POWER_HINT_LOW_POWER = 0x00000005,
	POWER_HINT_SUSTAINED_PERFORMANCE = 0x00000006,
	POWER_HINT_VR_MODE = 0x00000007,
	POWER_HINT_LAUNCH = 0x00000008,
	POWER_HINT_DISABLE_TOUCH = 0x00000009
	} power_hint_t;

	typedef enum {
	POWER_FEATURE_DOUBLE_TAP_TO_WAKE = 0x00000001
	} feature_t;

	/*
	* Platform-level sleep state stats:
	* power_state_voter_t struct is useful for describing the individual voters when a
	* Platform-level sleep state is chosen by aggregation of votes from multiple
	* clients/system conditions.
	*
	* This helps in attirbuting what in the device is blocking the device from
	* entering the lowest Platform-level sleep state.
	*/
	typedef struct {
	/*
	* Name of the voter.
	*/
	char name[POWER_STATE_VOTER_NAME_MAX_LENGTH];

	/*
	* Total time in msec the voter voted for the platform sleep state since boot.
	*/
	uint64_t total_time_in_msec_voted_for_since_boot;

	/*
	* Number of times the voter voted for the platform sleep state since boot.
	*/
	uint64_t total_number_of_times_voted_since_boot;
	} power_state_voter_t;

	/*
	* Platform-level sleep state stats:
	* power_state_platform_sleep_state_t represents the Platform-level sleep state the
	* device is capable of getting into.
	*
	* SoCs usually have more than one Platform-level sleep state.
	*
	* The caller calls the get_number_of_platform_modes function to figure out the size
	* of power_state_platform_sleep_state_t array where each array element represents
	* a specific Platform-level sleep state.
	*
	* Higher the index deeper the state is i.e. lesser steady-state power is consumed
	* by the platform to be resident in that state.
	*
	* Caller allocates power_state_voter_t *voters for each Platform-level sleep state by
	* calling get_voter_list.
	*/
	typedef struct {
	/*
	* Platform-level Sleep state name.
	*/
	char name[POWER_STATE_NAME_MAX_LENGTH];

	/*
	* Time spent in msec at this platform-level sleep state since boot.
	*/
	uint64_t residency_in_msec_since_boot;

	/*
	* Total number of times system entered this state.
	*/
	uint64_t total_transitions;

	/*
	* This platform-level sleep state can only be reached during system suspend.
	*/
	bool supported_only_in_suspend;

	/*
	* The following fields are useful if the Platform-level sleep state
	* is chosen by aggregation votes from multiple clients/system conditions.
	* All the voters have to say yes or all the system conditions need to be
	* met to enter a platform-level sleep state.
	*
	* Setting number_of_voters to zero implies either the info is not available
	* or the system does not follow a voting mechanism to choose this
	* Platform-level sleep state.
	*/
	uint32_t number_of_voters;

	/*
	* Voter list - Has to be allocated by the caller.
	*
	* Caller allocates power_state_voter_t *voters for each Platform-level sleep state
	* by calling get_voter_list.
	*/
	power_state_voter_t *voters;
	} power_state_platform_sleep_state_t;

	/**
	* Every hardware module must have a data structure named HAL_MODULE_INFO_SYM
	* and the fields of this data structure must begin with hw_module_t
	* followed by module specific information.
	*/
	typedef struct power_module {
	struct hw_module_t common;

	/*
	* (*init)() performs power management setup actions at runtime
	* startup, such as to set default cpufreq parameters. This is
	* called only by the Power HAL instance loaded by
	* PowerManagerService.
	*
	* Platform-level sleep state stats:
	* Can Also be used to initiate device specific Platform-level
	* Sleep state nodes from version 0.5 onwards.
	*/
	void (init)(struct power_module module);

	/*
	* (*setInteractive)() performs power management actions upon the
	* system entering interactive state (that is, the system is awake
	* and ready for interaction, often with UI devices such as
	* display and touchscreen enabled) or non-interactive state (the
	* system appears asleep, display usually turned off). The
	* non-interactive state is usually entered after a period of
	* inactivity, in order to conserve battery power during
	* such inactive periods.
	*
	* Typical actions are to turn on or off devices and adjust
	* cpufreq parameters. This function may also call the
	* appropriate interfaces to allow the kernel to suspend the
	* system to low-power sleep state when entering non-interactive
	* state, and to disallow low-power suspend when the system is in
	* interactive state. When low-power suspend state is allowed, the
	* kernel may suspend the system whenever no wakelocks are held.
	*
	* on is non-zero when the system is transitioning to an
	* interactive / awake state, and zero when transitioning to a
	* non-interactive / asleep state.
	*
	* This function is called to enter non-interactive state after
	* turning off the screen (if present), and called to enter
	* interactive state prior to turning on the screen.
	*/
	void (setInteractive)(struct power_module module, int on);

	/*
	* (*powerHint) is called to pass hints on power requirements, which
	* may result in adjustment of power/performance parameters of the
	* cpufreq governor and other controls. The possible hints are:
	*
	* POWER_HINT_VSYNC
	*
	* Foreground app has started or stopped requesting a VSYNC pulse
	* from SurfaceFlinger. If the app has started requesting VSYNC
	* then CPU and GPU load is expected soon, and it may be appropriate
	* to raise speeds of CPU, memory bus, etc. The data parameter is
	* non-zero to indicate VSYNC pulse is now requested, or zero for
	* VSYNC pulse no longer requested.
	*
	* POWER_HINT_INTERACTION
	*
	* User is interacting with the device, for example, touchscreen
	* events are incoming. CPU and GPU load may be expected soon,
	* and it may be appropriate to raise speeds of CPU, memory bus,
	* etc. The data parameter is the estimated length of the interaction
	* in milliseconds, or 0 if unknown.
	*
	* POWER_HINT_LOW_POWER
	*
	* Low power mode is activated or deactivated. Low power mode
	* is intended to save battery at the cost of performance. The data
	* parameter is non-zero when low power mode is activated, and zero
	* when deactivated.
	*
	* POWER_HINT_SUSTAINED_PERFORMANCE
	*
	* Sustained Performance mode is actived or deactivated. Sustained
	* performance mode is intended to provide a consistent level of
	* performance for a prolonged amount of time. The data parameter is
	* non-zero when sustained performance mode is activated, and zero
	* when deactivated.
	*
	* POWER_HINT_VR_MODE
	*
	* VR Mode is activated or deactivated. VR mode is intended to
	* provide minimum guarantee for performance for the amount of time the
	* device can sustain it. The data parameter is non-zero when the mode
	* is activated and zero when deactivated.
	*
	* POWER_HINT_DISABLE_TOUCH
	*
	* When device enters some special modes, e.g. theater mode in Android
	* Wear, there is no touch interaction expected between device and user.
	* Touch controller could be disabled in those modes to save power.
	* The data parameter is non-zero when touch could be disabled, and zero
	* when touch needs to be re-enabled.
	*
	* A particular platform may choose to ignore any hint.
	*
	* availability: version 0.2
	*
	*/
	void (powerHint)(struct power_module module, power_hint_t hint,
	void *data);

	/*
	* (*setFeature) is called to turn on or off a particular feature
	* depending on the state parameter. The possible features are:
	*
	* FEATURE_DOUBLE_TAP_TO_WAKE
	*
	* Enabling/Disabling this feature will allow/disallow the system
	* to wake up by tapping the screen twice.
	*
	* availability: version 0.3
	*
	*/
	void (setFeature)(struct power_module module, feature_t feature, int state);

	/*
	* Platform-level sleep state stats:
	* Report cumulative info on the statistics on platform-level sleep states since boot.
	*
	* Caller of the function queries the get_number_of_sleep_states and allocates the
	* memory for the power_state_platform_sleep_state_t *list before calling this function.
	*
	* power_stats module is responsible to assign values to all the fields as
	* necessary.
	*
	* Higher the index deeper the state is i.e. lesser steady-state power is consumed
	* by the platform to be resident in that state.
	*
	* The function returns 0 on success or negative value -errno on error.
	* EINVAL - *list is NULL.
	* EIO - filesystem nodes access error.
	*
	* availability: version 0.5
	*/
	int (get_platform_low_power_stats)(struct power_module module,
	power_state_platform_sleep_state_t *list);

	/*
	* Platform-level sleep state stats:
	* This function is called to determine the number of platform-level sleep states
	* for get_platform_low_power_stats.
	*
	* The value returned by this function is used to allocate memory for
	* power_state_platform_sleep_state_t *list for get_platform_low_power_stats.
	*
	* The number of parameters must not change for successive calls.
	*
	* Return number of parameters on success or negative value -errno on error.
	* EIO - filesystem nodes access error.
	*
	* availability: version 0.5
	*/
	ssize_t (get_number_of_platform_modes)(struct power_module module);

	/*
	* Platform-level sleep state stats:
	* Provides the number of voters for each of the Platform-level sleep state.
	*
	* Caller uses this function to allocate memory for the power_state_voter_t list.
	*
	* Caller has to allocate the space for the *voter array which is
	* get_number_of_platform_modes() long.
	*
	* Return 0 on success or negative value -errno on error.
	* EINVAL - *voter is NULL.
	* EIO - filesystem nodes access error.
	*
	* availability: version 0.5
	*/
	int (get_voter_list)(struct power_module module, size_t *voter);

	} power_module_t;


	__END_DECLS

	#endif // ANDROID_INCLUDE_HARDWARE_POWER_H