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/* SPDX-License-Identifier: GPL-2.0-only */
#ifndef SUPERIO_FINTEK_FAN_CONTROL_H
#define SUPERIO_FINTEK_FAN_CONTROL_H
#include <stdint.h>
typedef enum {
IGNORE_SENSOR = 0,
EXTERNAL_SENSOR1,
EXTERNAL_SENSOR2,
EXTERNAL_SENSOR3,
EXTERNAL_SENSOR4
} external_sensor;
typedef enum {
TEMP_SENSOR_THERMISTOR = 0,
TEMP_SENSOR_BJT,
TEMP_SENSOR_DEFAULT
} temp_sensor_type;
typedef enum {
FAN_TYPE_PWM_PUSH_PULL = 0,
FAN_TYPE_DAC_POWER,
FAN_TYPE_PWM_OPEN_DRAIN,
FAN_TYPE_RESERVED
} fan_type;
#define FAN_TYPE_PWM_CHECK 1 /* bit 0 must be 0 for PWM */
typedef enum {
FAN_MODE_AUTO_RPM = 0,
FAN_MODE_AUTO_PWM_DAC,
FAN_MODE_MANUAL_RPM,
FAN_MODE_MANUAL_PWM_DAC,
FAN_MODE_DEFAULT
} fan_mode;
typedef enum {
FAN_PWM_FREQ_23500 = 0,
FAN_PWM_FREQ_11750,
FAN_PWM_FREQ_5875,
FAN_PWM_FREQ_220
} fan_pwm_freq;
typedef enum {
FAN_TEMP_PECI = 0,
FAN_TEMP_EXTERNAL_1,
FAN_TEMP_EXTERNAL_2,
FAN_TEMP_TSI = 4,
FAN_TEMP_MXM,
} fan_temp_source;
typedef enum {
FAN_UP_RATE_2HZ = 0,
FAN_UP_RATE_5HZ,
FAN_UP_RATE_10HZ,
FAN_UP_RATE_20HZ,
FAN_UP_RATE_DEFAULT,
FAN_UP_RATE_JUMP = 8
} fan_rate_up;
typedef enum {
FAN_DOWN_RATE_2HZ = 0,
FAN_DOWN_RATE_5HZ,
FAN_DOWN_RATE_10HZ,
FAN_DOWN_RATE_20HZ,
FAN_DOWN_RATE_DEFAULT,
FAN_DOWN_RATE_SAME_AS_UP,
FAN_DOWN_RATE_JUMP = 8
} fan_rate_down;
typedef enum {
FAN_FOLLOW_STEP = 0,
FAN_FOLLOW_INTERPOLATION
} fan_follow;
struct fintek_fan {
uint8_t fan;
external_sensor sensor;
temp_sensor_type stype;
fan_temp_source temp_source;
fan_type ftype;
fan_mode fmode;
fan_pwm_freq fan_freq;
fan_rate_up rate_up;
fan_rate_down rate_down;
fan_follow follow;
uint8_t *boundaries;
uint8_t *sections;
};
#define HWM_STATUS_SUCCESS 0
#define HWM_STATUS_INVALID_FAN -1
#define HWM_STATUS_INVALID_TEMP_SOURCE -2
#define HWM_STATUS_INVALID_TYPE -3
#define HWM_STATUS_INVALID_MODE -4
#define HWM_STATUS_INVALID_RATE -5
#define HWM_STATUS_INVALID_FREQUENCY -6
#define HWM_STATUS_INVALID_TEMP_SENSOR -7
#define HWM_STATUS_INVALID_BOUNDARY_VALUE -8
#define HWM_STATUS_INVALID_SECTION_VALUE -9
#define HWM_STATUS_BOUNDARY_WRONG_ORDER -10
#define HWM_STATUS_SECTIONS_WRONG_ORDER -11
#define HWM_STATUS_WARNING_SENSOR_DISCONNECTED 1
#define HWM_STATUS_WARNING_FAN_NOT_PWM 2
#define CPU_DAMAGE_TEMP 110
/*
* Boundaries order is from highest temp. to lowest. Values from 0 to 127.
* Boundaries should be defined as u8 boundaries[FINTEK_BOUNDARIES_SIZE].
*/
#define FINTEK_BOUNDARIES_SIZE 4
/*
* Section defines the duty_cycle/voltage to be used based on where the
* temperature lies with respect to the boundaries. There are 5 sections
* (4 boundaries) and the order must be from highest to lowest. Values
* from 0% to 100%, will be converted internally to percent of 255.
* Sections should be defined as u8 sections[FINTEK_SECTIONS_SIZE].
*/
#define FINTEK_SECTIONS_SIZE 5
/*
* When using external sensor, its type must be defined. When using PECI,
* TSI or MXM use IGNORE_SENSOR to indicate so.
*/
int set_sensor_type(u16 base_address, external_sensor sensor,
temp_sensor_type type);
/*
* Define the temperature source used to control a fan.
*/
int set_fan_temperature_source(u16 base_address, u8 fan,
fan_temp_source source);
/*
* Define if fan is controlled through PWM or absolute voltage powering it
* (DAC). Then, under mode, define if control is automatic (SIO) or manual
* (CPU, through ACPI). Notice there needs to be a match between type and
* mode (PWM with PWM or DAC with DAC).
*/
int set_fan_type_mode(u16 base_address, u8 fan, fan_type type, fan_mode mode);
/*
* For fans controlled through pulse width, define the base frequency used.
*/
int set_pwm_frequency(u16 base_address, u8 fan, fan_pwm_freq frequency);
/*
* For fintek SIO HWM there are 4 (temperature) boundaries points, defining
* 5 sections (1 fan speed per section). Start with the highest temperature/
* speed. Temperature is in Celsius, speed is in percentile of max speed. The
* highest speed should be 100%, no requirements for minimum speed, could be
* 0 or above 0.
*/
int set_sections(u16 base_address, u8 fan, u8 *boundaries, u8 *sections);
/*
* Define how often temperature is measured to change fan speed.
*/
int set_fan_speed_change_rate(u16 base_address, u8 fan, fan_rate_up rate_up,
fan_rate_down rate_down);
/*
* There a 2 ways a fan can be controlled: A single speed per section, or
* interpolation. Under interpolation, the section speed is the speed at the
* lowest temperature of the section (0 Celsius for the lowest section), and
* it's the speed of the next section at the boundary to the next section.
* In between these 2 points, it's a linear function. For example, midway
* between temperature points it'll have a speed that is midway between the
* section speed and next section speed. Obviously, there's no variation for
* the highest section, reason why it must be 100% max speed.
*/
int set_fan_follow(u16 base_address, u8 fan, fan_follow follow);
/*
* This is an upper level API which calls all the above APIs in the
* appropriate order. Any API failure will be displayed. Alerts will
* also be displayed, but will not interrupt the sequence, while errors
* will interrupt the sequence.
*/
int set_fan(struct fintek_fan *fan_init);
#endif /* SUPERIO_FINTEK_FAN_CONTROL_H */
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