kernel_samsung_a34x-permissive/drivers/misc/mediatek/pseudo_m4u/mt_smi.h

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/* SPDX-License-Identifier: GPL-2.0 */
/*
* Copyright (c) 2019 MediaTek Inc.
*/
#ifndef _MTK_SMI_H_
#define _MTK_SMI_H_
#define MTK_SMI_MAJOR_NUMBER 190
#define MTK_IOW(num, dtype) _IOW('O', num, dtype)
#define MTK_IOR(num, dtype) _IOR('O', num, dtype)
#define MTK_IOWR(num, dtype) _IOWR('O', num, dtype)
#define MTK_IO(num) _IO('O', num)
/* -------------------------------------------------------------------------- */
#define MTK_CONFIG_MM_MAU MTK_IOW(10, unsigned long)
struct MTK_MAU_CONFIG {
int larb; /* 0~4: the larb you want to monitor */
int entry; /* 0~2: the mau entry to use */
unsigned int port_msk; /* port mask to be monitored */
int virt; /* 1: monitor va (this port is using m4u); */
/* 0: monitor pa (this port is not using m4u) */
int monitor_read; /* monitor read transaction 1-enable, 0-disable */
int monitor_write; /* monitor write transaction 1-enable, 0-disable */
unsigned int start; /* start address to monitor */
unsigned int end; /* end address to monitor */
};
int mau_config(struct MTK_MAU_CONFIG *pMauConf);
int mau_dump_status(int larb);
/* ------------------------------------------------------------------------- */
enum MTK_SMI_BWC_SCEN {
SMI_BWC_SCEN_NORMAL,
SMI_BWC_SCEN_VR,
SMI_BWC_SCEN_SWDEC_VP,
SMI_BWC_SCEN_VP,
SMI_BWC_SCEN_VP_4KOSD,
SMI_BWC_SCEN_VP_HIGH_FPS,
SMI_BWC_SCEN_VP_HIGH_RESOLUTION,
SMI_BWC_SCEN_VR_SLOW,
SMI_BWC_SCEN_MM_GPU,
SMI_BWC_SCEN_WFD,
SMI_BWC_SCEN_VENC,
SMI_BWC_SCEN_ICFP,
SMI_BWC_SCEN_UI_IDLE,
SMI_BWC_SCEN_VSS,
SMI_BWC_SCEN_FORCE_MMDVFS,
SMI_BWC_SCEN_HDMI,
SMI_BWC_SCEN_HDMI4K,
SMI_BWC_SCEN_VPMJC,
SMI_BWC_SCEN_N3D,
SMI_BWC_SCEN_CNT
};
/* MMDVFS */
enum mmdvfs_voltage_enum {
MMDVFS_VOLTAGE_DEFAULT,
MMDVFS_VOLTAGE_0 = MMDVFS_VOLTAGE_DEFAULT,
MMDVFS_VOLTAGE_LOW = MMDVFS_VOLTAGE_0,
MMDVFS_VOLTAGE_1,
MMDVFS_VOLTAGE_HIGH = MMDVFS_VOLTAGE_1,
MMDVFS_VOLTAGE_DEFAULT_STEP,
MMDVFS_VOLTAGE_COUNT
};
struct MTK_SMI_BWC_CONFIG {
enum MTK_SMI_BWC_SCEN scenario;
int b_on_off; /* 0 : exit this scenario , 1 : enter this scenario */
};
struct MTK_SMI_BWC_STATE {
unsigned int *hwc_max_pixel;
};
struct MTK_SMI_BWC_REGISTER_SET {
unsigned int address;
unsigned int value;
};
struct MTK_SMI_BWC_REGISTER_GET {
unsigned int address;
unsigned int *return_address;
};
#define MMDVFS_CAMERA_MODE_FLAG_DEFAULT 1
#define MMDVFS_CAMERA_MODE_FLAG_PIP (1 << 1)
#define MMDVFS_CAMERA_MODE_FLAG_VFB (1 << 2)
#define MMDVFS_CAMERA_MODE_FLAG_EIS_2_0 (1 << 3)
#define MMDVFS_CAMERA_MODE_FLAG_IVHDR (1 << 4)
#define MMDVFS_CAMERA_MODE_FLAG_STEREO (1 << 5)
struct MTK_MMDVFS_CMD {
unsigned int type;
enum MTK_SMI_BWC_SCEN scen;
unsigned int sensor_size;
unsigned int sensor_fps;
unsigned int camera_mode;
unsigned int venc_size;
unsigned int ret;
};
#define MTK_MMDVFS_CMD_TYPE_SET 0
#define MTK_MMDVFS_CMD_TYPE_QUERY 1
enum MTK_SMI_BWC_INFO_ID {
SMI_BWC_INFO_CON_PROFILE = 0,
SMI_BWC_INFO_SENSOR_SIZE,
SMI_BWC_INFO_VIDEO_RECORD_SIZE,
SMI_BWC_INFO_DISP_SIZE,
SMI_BWC_INFO_TV_OUT_SIZE,
SMI_BWC_INFO_FPS,
SMI_BWC_INFO_VIDEO_ENCODE_CODEC,
SMI_BWC_INFO_VIDEO_DECODE_CODEC,
SMI_BWC_INFO_HW_OVL_LIMIT,
SMI_BWC_INFO_CNT
};
struct MTK_SMI_BWC_INFO_SET {
int property;
int value1;
int value2;
};
struct MTK_SMI_BWC_MM_INFO {
unsigned int flag; /* Reserved */
int concurrent_profile;
int sensor_size[2];
int video_record_size[2];
int display_size[2];
int tv_out_size[2];
int fps;
int video_encode_codec;
int video_decode_codec;
int hw_ovl_limit;
};
#define MTK_IOC_SPC_CONFIG MTK_IOW(20, unsigned long)
#define MTK_IOC_SPC_DUMP_REG MTK_IOW(21, unsigned long)
#define MTK_IOC_SPC_DUMP_STA MTK_IOW(22, unsigned long)
#define MTK_IOC_SPC_CMD MTK_IOW(23, unsigned long)
#define MTK_IOC_SMI_BWC_CONFIG MTK_IOW(24, struct MTK_SMI_BWC_CONFIG)
#define MTK_IOC_SMI_BWC_STATE MTK_IOWR(25, struct MTK_SMI_BWC_STATE)
#define MTK_IOC_SMI_BWC_REGISTER_SET \
MTK_IOWR(26, struct MTK_SMI_BWC_REGISTER_SET)
#define MTK_IOC_SMI_BWC_REGISTER_GET \
MTK_IOWR(27, struct MTK_SMI_BWC_REGISTER_GET)
/* For BWC.MM property setting */
#define MTK_IOC_SMI_BWC_INFO_SET MTK_IOWR(28, struct MTK_SMI_BWC_INFO_SET)
/* For BWC.MM property get */
#define MTK_IOC_SMI_BWC_INFO_GET MTK_IOWR(29, struct MTK_SMI_BWC_MM_INFO)
/* GMP end */
#define MTK_IOC_SMI_DUMP_LARB MTK_IOWR(66, unsigned int)
#define MTK_IOC_SMI_DUMP_COMMON MTK_IOWR(67, unsigned int)
#define MTK_IOC_MMDVFS_CMD MTK_IOW(88, struct MTK_MMDVFS_CMD)
enum SPC_PROT_T {
SPC_PROT_NO_PROT = 0,
SPC_PROT_SEC_RW_ONLY,
SPC_PROT_SEC_RW_NONSEC_R,
SPC_PROT_NO_ACCESS,
};
struct MTK_SPC_CONFIG {
enum SPC_PROT_T domain_0_prot;
enum SPC_PROT_T domain_1_prot;
enum SPC_PROT_T domain_2_prot;
enum SPC_PROT_T domain_3_prot;
unsigned int start; /* start address to monitor */
unsigned int end; /* end address to monitor */
};
void spc_config(struct MTK_SPC_CONFIG *pCfg);
unsigned int spc_status_check(void);
unsigned int spc_dump_reg(void);
unsigned int spc_register_isr(void *dev);
unsigned int spc_clear_irq(void);
int spc_test(int code);
int MTK_SPC_Init(void *dev);
#define MMDVFS_ENABLE_DEFAULT_STEP_QUERY
#define MMDVFS_MMCLOCK_NOTIFICATION
/* MMDVFS kernel API */
extern int mmdvfs_set_step(enum MTK_SMI_BWC_SCEN scenario,
enum mmdvfs_voltage_enum step);
extern int mmdvfs_is_default_step_need_perf(void);
extern void mmdvfs_mm_clock_switch_notify(int is_before, int is_to_high);
#endif