drivers/thermal/intel/int340x_thermal/acpi_thermal_rel.h - linux - Git at Google

 /* SPDX-License-Identifier: GPL-2.0 */
 #ifndef __ACPI_ACPI_THERMAL_H
 #define __ACPI_ACPI_THERMAL_H

 #include <asm/ioctl.h>

 #define ACPI_THERMAL_MAGIC 's'

 #define ACPI_THERMAL_GET_TRT_LEN _IOR(ACPI_THERMAL_MAGIC, 1, unsigned long)
 #define ACPI_THERMAL_GET_ART_LEN _IOR(ACPI_THERMAL_MAGIC, 2, unsigned long)
 #define ACPI_THERMAL_GET_TRT_COUNT _IOR(ACPI_THERMAL_MAGIC, 3, unsigned long)
 #define ACPI_THERMAL_GET_ART_COUNT _IOR(ACPI_THERMAL_MAGIC, 4, unsigned long)

 #define ACPI_THERMAL_GET_TRT	_IOR(ACPI_THERMAL_MAGIC, 5, unsigned long)
 #define ACPI_THERMAL_GET_ART	_IOR(ACPI_THERMAL_MAGIC, 6, unsigned long)

 /*
  * ACPI_THERMAL_GET_PSVT_COUNT = Number of PSVT entries
  * ACPI_THERMAL_GET_PSVT_LEN = Total return data size (PSVT count x each
  * PSVT entry size)
  * ACPI_THERMAL_GET_PSVT = Get the data as an array of psvt_objects
  */
 #define ACPI_THERMAL_GET_PSVT_LEN _IOR(ACPI_THERMAL_MAGIC, 7, unsigned long)
 #define ACPI_THERMAL_GET_PSVT_COUNT _IOR(ACPI_THERMAL_MAGIC, 8, unsigned long)
 #define ACPI_THERMAL_GET_PSVT	_IOR(ACPI_THERMAL_MAGIC, 9, unsigned long)

 struct art {
 	acpi_handle source;
 	acpi_handle target;
 	struct_group(data,
 		u64 weight;
 		u64 ac0_max;
 		u64 ac1_max;
 		u64 ac2_max;
 		u64 ac3_max;
 		u64 ac4_max;
 		u64 ac5_max;
 		u64 ac6_max;
 		u64 ac7_max;
 		u64 ac8_max;
 		u64 ac9_max;
 	);
 } __packed;

 struct trt {
 	acpi_handle source;
 	acpi_handle target;
 	u64 influence;
 	u64 sample_period;
 	u64 reserved1;
 	u64 reserved2;
 	u64 reserved3;
 	u64 reserved4;
 } __packed;

 #define ACPI_NR_PSVT_ELEMENTS	12
 #define ACPI_PSVT_CONTROL_KNOB	7
 #define ACPI_LIMIT_STR_MAX_LEN	8

 struct psvt {
 	acpi_handle source;
 	acpi_handle target;
 	u64 priority;
 	u64 sample_period;
 	u64 passive_temp;
 	u64 source_domain;
 	u64 control_knob;
 	union {
 		/* For limit_type = ACPI_TYPE_INTEGER */
 		u64 integer;
 		/* For limit_type = ACPI_TYPE_STRING */
 		char string[ACPI_LIMIT_STR_MAX_LEN];
 		char *str_ptr;
 	} limit;
 	u64 step_size;
 	u64 limit_coeff;
 	u64 unlimit_coeff;
 	/* Spec calls this field reserved, so we borrow it for type info */
 	u64 control_knob_type; /* ACPI_TYPE_STRING or ACPI_TYPE_INTEGER */
 } __packed;

 #define ACPI_NR_ART_ELEMENTS 13
 /* for usrspace */
 union art_object {
 	struct {
 		char source_device[8]; /* ACPI single name */
 		char target_device[8]; /* ACPI single name */
 		struct_group(data,
 			u64 weight;
 			u64 ac0_max_level;
 			u64 ac1_max_level;
 			u64 ac2_max_level;
 			u64 ac3_max_level;
 			u64 ac4_max_level;
 			u64 ac5_max_level;
 			u64 ac6_max_level;
 			u64 ac7_max_level;
 			u64 ac8_max_level;
 			u64 ac9_max_level;
 		);
 	};
 	u64 __data[ACPI_NR_ART_ELEMENTS];
 };

 union trt_object {
 	struct {
 		char source_device[8]; /* ACPI single name */
 		char target_device[8]; /* ACPI single name */
 		u64 influence;
 		u64 sample_period;
 		u64 reserved[4];
 	};
 	u64 __data[8];
 };

 union psvt_object {
 	struct {
 		char source_device[8];
 		char target_device[8];
 		u64 priority;
 		u64 sample_period;
 		u64 passive_temp;
 		u64 source_domain;
 		u64 control_knob;
 		union {
 			u64 integer;
 			char string[ACPI_LIMIT_STR_MAX_LEN];
 		} limit;
 		u64 step_size;
 		u64 limit_coeff;
 		u64 unlimit_coeff;
 		u64 control_knob_type;
 	};
 	u64 __data[ACPI_NR_PSVT_ELEMENTS];
 };

 #ifdef __KERNEL__
 int acpi_thermal_rel_misc_device_add(acpi_handle handle);
 int acpi_thermal_rel_misc_device_remove(acpi_handle handle);
 int acpi_parse_art(acpi_handle handle, int *art_count, struct art **arts,
 		bool create_dev);
 int acpi_parse_trt(acpi_handle handle, int *trt_count, struct trt **trts,
 		bool create_dev);
 #endif

 #endif /* __ACPI_ACPI_THERMAL_H */
	/* SPDX-License-Identifier: GPL-2.0 */
	#ifndef __ACPI_ACPI_THERMAL_H
	#define __ACPI_ACPI_THERMAL_H

	#include <asm/ioctl.h>

	#define ACPI_THERMAL_MAGIC 's'

	#define ACPI_THERMAL_GET_TRT_LEN _IOR(ACPI_THERMAL_MAGIC, 1, unsigned long)
	#define ACPI_THERMAL_GET_ART_LEN _IOR(ACPI_THERMAL_MAGIC, 2, unsigned long)
	#define ACPI_THERMAL_GET_TRT_COUNT _IOR(ACPI_THERMAL_MAGIC, 3, unsigned long)
	#define ACPI_THERMAL_GET_ART_COUNT _IOR(ACPI_THERMAL_MAGIC, 4, unsigned long)

	#define ACPI_THERMAL_GET_TRT _IOR(ACPI_THERMAL_MAGIC, 5, unsigned long)
	#define ACPI_THERMAL_GET_ART _IOR(ACPI_THERMAL_MAGIC, 6, unsigned long)

	/*
	* ACPI_THERMAL_GET_PSVT_COUNT = Number of PSVT entries
	* ACPI_THERMAL_GET_PSVT_LEN = Total return data size (PSVT count x each
	* PSVT entry size)
	* ACPI_THERMAL_GET_PSVT = Get the data as an array of psvt_objects
	*/
	#define ACPI_THERMAL_GET_PSVT_LEN _IOR(ACPI_THERMAL_MAGIC, 7, unsigned long)
	#define ACPI_THERMAL_GET_PSVT_COUNT _IOR(ACPI_THERMAL_MAGIC, 8, unsigned long)
	#define ACPI_THERMAL_GET_PSVT _IOR(ACPI_THERMAL_MAGIC, 9, unsigned long)

	struct art {
	acpi_handle source;
	acpi_handle target;
	struct_group(data,
	u64 weight;
	u64 ac0_max;
	u64 ac1_max;
	u64 ac2_max;
	u64 ac3_max;
	u64 ac4_max;
	u64 ac5_max;
	u64 ac6_max;
	u64 ac7_max;
	u64 ac8_max;
	u64 ac9_max;
	);
	} __packed;

	struct trt {
	acpi_handle source;
	acpi_handle target;
	u64 influence;
	u64 sample_period;
	u64 reserved1;
	u64 reserved2;
	u64 reserved3;
	u64 reserved4;
	} __packed;

	#define ACPI_NR_PSVT_ELEMENTS 12
	#define ACPI_PSVT_CONTROL_KNOB 7
	#define ACPI_LIMIT_STR_MAX_LEN 8

	struct psvt {
	acpi_handle source;
	acpi_handle target;
	u64 priority;
	u64 sample_period;
	u64 passive_temp;
	u64 source_domain;
	u64 control_knob;
	union {
	/* For limit_type = ACPI_TYPE_INTEGER */
	u64 integer;
	/* For limit_type = ACPI_TYPE_STRING */
	char string[ACPI_LIMIT_STR_MAX_LEN];
	char *str_ptr;
	} limit;
	u64 step_size;
	u64 limit_coeff;
	u64 unlimit_coeff;
	/* Spec calls this field reserved, so we borrow it for type info */
	u64 control_knob_type; /* ACPI_TYPE_STRING or ACPI_TYPE_INTEGER */
	} __packed;

	#define ACPI_NR_ART_ELEMENTS 13
	/* for usrspace */
	union art_object {
	struct {
	char source_device[8]; /* ACPI single name */
	char target_device[8]; /* ACPI single name */
	struct_group(data,
	u64 weight;
	u64 ac0_max_level;
	u64 ac1_max_level;
	u64 ac2_max_level;
	u64 ac3_max_level;
	u64 ac4_max_level;
	u64 ac5_max_level;
	u64 ac6_max_level;
	u64 ac7_max_level;
	u64 ac8_max_level;
	u64 ac9_max_level;
	);
	};
	u64 __data[ACPI_NR_ART_ELEMENTS];
	};

	union trt_object {
	struct {
	char source_device[8]; /* ACPI single name */
	char target_device[8]; /* ACPI single name */
	u64 influence;
	u64 sample_period;
	u64 reserved[4];
	};
	u64 __data[8];
	};

	union psvt_object {
	struct {
	char source_device[8];
	char target_device[8];
	u64 priority;
	u64 sample_period;
	u64 passive_temp;
	u64 source_domain;
	u64 control_knob;
	union {
	u64 integer;
	char string[ACPI_LIMIT_STR_MAX_LEN];
	} limit;
	u64 step_size;
	u64 limit_coeff;
	u64 unlimit_coeff;
	u64 control_knob_type;
	};
	u64 __data[ACPI_NR_PSVT_ELEMENTS];
	};

	#ifdef __KERNEL__
	int acpi_thermal_rel_misc_device_add(acpi_handle handle);
	int acpi_thermal_rel_misc_device_remove(acpi_handle handle);
	int acpi_parse_art(acpi_handle handle, int art_count, struct art *arts,
	bool create_dev);
	int acpi_parse_trt(acpi_handle handle, int trt_count, struct trt *trts,
	bool create_dev);
	#endif

	#endif /* __ACPI_ACPI_THERMAL_H */