arch/arm/mach-msm/include/mach/msm_dcvs.h - kernel/msm - Git at Google

 /* Copyright (c) 2012, The Linux Foundation. All rights reserved.
  *
  * This program is free software; you can redistribute it and/or modify
  * it under the terms of the GNU General Public License version 2 and
  * only version 2 as published by the Free Software Foundation.
  *
  * This program is distributed in the hope that it will be useful,
  * but WITHOUT ANY WARRANTY; without even the implied warranty of
  * MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE.  See the
  * GNU General Public License for more details.
  *
  */
 #ifndef _ARCH_ARM_MACH_MSM_MSM_DCVS_H
 #define _ARCH_ARM_MACH_MSM_MSM_DCVS_H

 #include <mach/msm_dcvs_scm.h>

 #define CORE_NAME_MAX (32)
 #define CORES_MAX (10)

 #define CPU_OFFSET	1  /* used to notify TZ the core number */
 #define GPU_OFFSET (CORES_MAX * 2/3)  /* there will be more cpus than gpus,
 				     * let the GPU be assigned fewer core
 				     * elements and start later
 				     */

 enum msm_core_idle_state {
 	MSM_DCVS_IDLE_ENTER,
 	MSM_DCVS_IDLE_EXIT,
 };

 enum msm_core_control_event {
 	MSM_DCVS_ENABLE_IDLE_PULSE,
 	MSM_DCVS_DISABLE_IDLE_PULSE,
 	MSM_DCVS_ENABLE_HIGH_LATENCY_MODES,
 	MSM_DCVS_DISABLE_HIGH_LATENCY_MODES,
 };

 struct msm_dcvs_sync_rule {
 	unsigned long cpu_khz;
 	unsigned long gpu_floor_khz;
 };

 struct msm_dcvs_platform_data {
 	struct msm_dcvs_sync_rule *sync_rules;
 	unsigned num_sync_rules;
 	unsigned long gpu_max_nom_khz;
 };

 struct msm_gov_platform_data {
 	struct msm_dcvs_core_info *info;
 	int latency;
 };

 /**
  * msm_dcvs_register_cpu_freq
  * @freq: the frequency value to register
  * @voltage: the operating voltage (in mV) associated with the above frequency
  *
  * Register a cpu frequency and its operating voltage with dcvs.
  */
 #ifdef CONFIG_MSM_DCVS
 void msm_dcvs_register_cpu_freq(uint32_t freq, uint32_t voltage);
 #else
 static inline void msm_dcvs_register_cpu_freq(uint32_t freq, uint32_t voltage)
 {}
 #endif

 /**
  * msm_dcvs_idle
  * @dcvs_core_id: The id returned by msm_dcvs_register_core
  * @state: The enter/exit idle state the core is in
  * @iowaited: iowait in us
  * on iMSM_DCVS_IDLE_EXIT.
  * @return:
  *	0 on success,
  *	-ENOSYS,
  *	-EINVAL,
  *	SCM return values
  *
  * Send idle state notifications to the msm_dcvs driver
  */
 int msm_dcvs_idle(int dcvs_core_id, enum msm_core_idle_state state,
 		uint32_t iowaited);

 /**
  * struct msm_dcvs_core_info
  *
  * Core specific information used by algorithm. Need to provide this
  * before the sink driver can be registered.
  */
 struct msm_dcvs_core_info {
 	int					num_cores;
 	int					*sensors;
 	int					thermal_poll_ms;
 	struct msm_dcvs_freq_entry		*freq_tbl;
 	struct msm_dcvs_core_param		core_param;
 	struct msm_dcvs_algo_param		algo_param;
 	struct msm_dcvs_energy_curve_coeffs	energy_coeffs;
 	struct msm_dcvs_power_params		power_param;
 };

 /**
  * msm_dcvs_register_core
  * @type: whether this is a CPU or a GPU
  * @type_core_num: The number of the core for a type
  * @info: The core specific algorithm parameters.
  * @sensor: The thermal sensor number of the core in question
  * @return :
  *	0 on success,
  *	-ENOSYS,
  *	-ENOMEM
  *
  * Register the core with msm_dcvs driver. Done once at init before calling
  * msm_dcvs_freq_sink_register
  * Cores that need to run synchronously must share the same group id.
  */
 extern int msm_dcvs_register_core(
 	enum msm_dcvs_core_type type,
 	int type_core_num,
 	struct msm_dcvs_core_info *info,
 	int (*set_frequency)(int type_core_num, unsigned int freq),
 	unsigned int (*get_frequency)(int type_core_num),
 	int (*idle_enable)(int type_core_num,
 				enum msm_core_control_event event),
 	int (*set_floor_frequency)(int type_core_num, unsigned int freq),
 	int sensor);

 /**
  * msm_dcvs_freq_sink_start
  * @drv: The sink driver
  * @return: Handle unique to the core.
  *
  * Register the clock driver code with the msm_dvs driver to get notified about
  * frequency change requests.
  */
 extern int msm_dcvs_freq_sink_start(int dcvs_core_id);

 /**
  * msm_dcvs_freq_sink_stop
  * @drv: The sink driver
  * @return:
  *	0 on success,
  *	-EINVAL
  *
  * Unregister the sink driver for the core. This will cause the source driver
  * for the core to stop sending idle pulses.
  */
 extern int msm_dcvs_freq_sink_stop(int dcvs_core_id);

 /**
  * msm_dcvs_update_limits
  * @drv: The sink driver
  *
  * Update the frequency known to dcvs when the limits are changed.
  */
 extern void msm_dcvs_update_limits(int dcvs_core_id);

 /**
  * msm_dcvs_apply_gpu_floor
  * @cpu_freq: CPU frequency to compare to GPU sync rules
  *
  * Apply a GPU floor frequency if the corresponding CPU frequency,
  * or the number of CPUs online, requires it.
  */
 extern void msm_dcvs_apply_gpu_floor(unsigned long cpu_freq);

 /**
  * msm_dcvs_update_algo_params
  * @return:
  *      0 on success, < 0 on error
  *
  * Updates the DCVS algorithm with parameters depending on the
  * number of CPUs online.
  */
 extern int msm_dcvs_update_algo_params(void);
 #endif
	/* Copyright (c) 2012, The Linux Foundation. All rights reserved.
	*
	* This program is free software; you can redistribute it and/or modify
	* it under the terms of the GNU General Public License version 2 and
	* only version 2 as published by the Free Software Foundation.
	*
	* This program is distributed in the hope that it will be useful,
	* but WITHOUT ANY WARRANTY; without even the implied warranty of
	* MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the
	* GNU General Public License for more details.
	*
	*/
	#ifndef _ARCH_ARM_MACH_MSM_MSM_DCVS_H
	#define _ARCH_ARM_MACH_MSM_MSM_DCVS_H

	#include <mach/msm_dcvs_scm.h>

	#define CORE_NAME_MAX (32)
	#define CORES_MAX (10)

	#define CPU_OFFSET 1 /* used to notify TZ the core number */
	#define GPU_OFFSET (CORES_MAX * 2/3) /* there will be more cpus than gpus,
	* let the GPU be assigned fewer core
	* elements and start later
	*/

	enum msm_core_idle_state {
	MSM_DCVS_IDLE_ENTER,
	MSM_DCVS_IDLE_EXIT,
	};

	enum msm_core_control_event {
	MSM_DCVS_ENABLE_IDLE_PULSE,
	MSM_DCVS_DISABLE_IDLE_PULSE,
	MSM_DCVS_ENABLE_HIGH_LATENCY_MODES,
	MSM_DCVS_DISABLE_HIGH_LATENCY_MODES,
	};

	struct msm_dcvs_sync_rule {
	unsigned long cpu_khz;
	unsigned long gpu_floor_khz;
	};

	struct msm_dcvs_platform_data {
	struct msm_dcvs_sync_rule *sync_rules;
	unsigned num_sync_rules;
	unsigned long gpu_max_nom_khz;
	};

	struct msm_gov_platform_data {
	struct msm_dcvs_core_info *info;
	int latency;
	};

	/**
	* msm_dcvs_register_cpu_freq
	* @freq: the frequency value to register
	* @voltage: the operating voltage (in mV) associated with the above frequency
	*
	* Register a cpu frequency and its operating voltage with dcvs.
	*/
	#ifdef CONFIG_MSM_DCVS
	void msm_dcvs_register_cpu_freq(uint32_t freq, uint32_t voltage);
	#else
	static inline void msm_dcvs_register_cpu_freq(uint32_t freq, uint32_t voltage)
	{}
	#endif

	/**
	* msm_dcvs_idle
	* @dcvs_core_id: The id returned by msm_dcvs_register_core
	* @state: The enter/exit idle state the core is in
	* @iowaited: iowait in us
	* on iMSM_DCVS_IDLE_EXIT.
	* @return:
	* 0 on success,
	* -ENOSYS,
	* -EINVAL,
	* SCM return values
	*
	* Send idle state notifications to the msm_dcvs driver
	*/
	int msm_dcvs_idle(int dcvs_core_id, enum msm_core_idle_state state,
	uint32_t iowaited);

	/**
	* struct msm_dcvs_core_info
	*
	* Core specific information used by algorithm. Need to provide this
	* before the sink driver can be registered.
	*/
	struct msm_dcvs_core_info {
	int num_cores;
	int *sensors;
	int thermal_poll_ms;
	struct msm_dcvs_freq_entry *freq_tbl;
	struct msm_dcvs_core_param core_param;
	struct msm_dcvs_algo_param algo_param;
	struct msm_dcvs_energy_curve_coeffs energy_coeffs;
	struct msm_dcvs_power_params power_param;
	};

	/**
	* msm_dcvs_register_core
	* @type: whether this is a CPU or a GPU
	* @type_core_num: The number of the core for a type
	* @info: The core specific algorithm parameters.
	* @sensor: The thermal sensor number of the core in question
	* @return :
	* 0 on success,
	* -ENOSYS,
	* -ENOMEM
	*
	* Register the core with msm_dcvs driver. Done once at init before calling
	* msm_dcvs_freq_sink_register
	* Cores that need to run synchronously must share the same group id.
	*/
	extern int msm_dcvs_register_core(
	enum msm_dcvs_core_type type,
	int type_core_num,
	struct msm_dcvs_core_info *info,
	int (*set_frequency)(int type_core_num, unsigned int freq),
	unsigned int (*get_frequency)(int type_core_num),
	int (*idle_enable)(int type_core_num,
	enum msm_core_control_event event),
	int (*set_floor_frequency)(int type_core_num, unsigned int freq),
	int sensor);

	/**
	* msm_dcvs_freq_sink_start
	* @drv: The sink driver
	* @return: Handle unique to the core.
	*
	* Register the clock driver code with the msm_dvs driver to get notified about
	* frequency change requests.
	*/
	extern int msm_dcvs_freq_sink_start(int dcvs_core_id);

	/**
	* msm_dcvs_freq_sink_stop
	* @drv: The sink driver
	* @return:
	* 0 on success,
	* -EINVAL
	*
	* Unregister the sink driver for the core. This will cause the source driver
	* for the core to stop sending idle pulses.
	*/
	extern int msm_dcvs_freq_sink_stop(int dcvs_core_id);

	/**
	* msm_dcvs_update_limits
	* @drv: The sink driver
	*
	* Update the frequency known to dcvs when the limits are changed.
	*/
	extern void msm_dcvs_update_limits(int dcvs_core_id);

	/**
	* msm_dcvs_apply_gpu_floor
	* @cpu_freq: CPU frequency to compare to GPU sync rules
	*
	* Apply a GPU floor frequency if the corresponding CPU frequency,
	* or the number of CPUs online, requires it.
	*/
	extern void msm_dcvs_apply_gpu_floor(unsigned long cpu_freq);

	/**
	* msm_dcvs_update_algo_params
	* @return:
	* 0 on success, < 0 on error
	*
	* Updates the DCVS algorithm with parameters depending on the
	* number of CPUs online.
	*/
	extern int msm_dcvs_update_algo_params(void);
	#endif