M7350/kernel/drivers/video/msm/mdss/mdss_mdp_pp.h
2024-09-09 08:57:42 +00:00

235 lines
9.0 KiB
C

/*
* Copyright (c) 2014-2015, 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 MDSS_MDP_PP_DEBUG_H
#define MDSS_MDP_PP_DEBUG_H
#include <linux/msm_mdp.h>
#define MDSS_BLOCK_DISP_NUM (MDP_BLOCK_MAX - MDP_LOGICAL_BLOCK_DISP_0)
/* PP STS related flags */
#define PP_STS_ENABLE 0x1
#define PP_STS_GAMUT_FIRST 0x2
#define PP_STS_PA_LUT_FIRST 0x4
#define PP_STS_PA_HUE_MASK 0x2
#define PP_STS_PA_SAT_MASK 0x4
#define PP_STS_PA_VAL_MASK 0x8
#define PP_STS_PA_CONT_MASK 0x10
#define PP_STS_PA_MEM_PROTECT_EN 0x20
#define PP_STS_PA_MEM_COL_SKIN_MASK 0x40
#define PP_STS_PA_MEM_COL_FOL_MASK 0x80
#define PP_STS_PA_MEM_COL_SKY_MASK 0x100
#define PP_STS_PA_SIX_ZONE_HUE_MASK 0x200
#define PP_STS_PA_SIX_ZONE_SAT_MASK 0x400
#define PP_STS_PA_SIX_ZONE_VAL_MASK 0x800
#define PP_STS_PA_SAT_ZERO_EXP_EN 0x1000
#define PP_STS_PA_MEM_PROT_HUE_EN 0x2000
#define PP_STS_PA_MEM_PROT_SAT_EN 0x4000
#define PP_STS_PA_MEM_PROT_VAL_EN 0x8000
#define PP_STS_PA_MEM_PROT_CONT_EN 0x10000
#define PP_STS_PA_MEM_PROT_BLEND_EN 0x20000
#define PP_STS_PA_MEM_PROT_SIX_EN 0x40000
/* Demo mode macros */
#define MDSS_SIDE_NONE 0
#define MDSS_SIDE_LEFT 1
#define MDSS_SIDE_RIGHT 2
/* size calculated for c0,c1_c2 for 4 tables */
#define GAMUT_COLOR_COEFF_SIZE_V1_7 (2 * MDP_GAMUT_TABLE_V1_7_SZ * 4)
/* 16 entries for c0,c1,c2 */
#define GAMUT_SCALE_OFFSET_SIZE_V1_7 (3 * MDP_GAMUT_SCALE_OFF_SZ)
#define GAMUT_TOTAL_TABLE_SIZE_V1_7 (GAMUT_COLOR_COEFF_SIZE_V1_7 + \
GAMUT_SCALE_OFFSET_SIZE_V1_7)
#define GAMUT_T0_SIZE 125
#define GAMUT_T1_SIZE 100
#define GAMUT_T2_SIZE 80
#define GAMUT_T3_SIZE 100
#define GAMUT_T4_SIZE 100
#define GAMUT_T5_SIZE 80
#define GAMUT_T6_SIZE 64
#define GAMUT_T7_SIZE 80
#define GAMUT_TOTAL_TABLE_SIZE (GAMUT_T0_SIZE + GAMUT_T1_SIZE + \
GAMUT_T2_SIZE + GAMUT_T3_SIZE + GAMUT_T4_SIZE + \
GAMUT_T5_SIZE + GAMUT_T6_SIZE + GAMUT_T7_SIZE)
enum pp_block_opmodes {
PP_OPMODE_VIG = 1,
PP_OPMODE_DSPP,
PP_OPMODE_MAX
};
enum pp_config_block {
SSPP_RGB = 1,
SSPP_DMA,
SSPP_VIG,
DSPP,
LM
};
struct mdp_pp_feature_ops {
u32 feature;
int (*pp_get_config)(char __iomem *base_addr, void *cfg_data,
u32 block_type, u32 disp_num);
int (*pp_set_config)(char __iomem *base_addr,
struct pp_sts_type *pp_sts, void *cfg_data,
u32 block_type);
int (*pp_get_version)(u32 *version);
};
struct mdp_pp_driver_ops {
struct mdp_pp_feature_ops pp_ops[PP_FEATURE_MAX];
void (*pp_opmode_config)(int location, struct pp_sts_type *pp_sts,
u32 *opmode, int side);
int (*get_hist_offset)(u32 block, u32 *ctl_off);
int (*get_hist_isr_info)(u32 *isr_mask);
bool (*is_sspp_hist_supp)(void);
void (*gamut_clk_gate_en)(char __iomem *base_addr);
};
struct mdss_pp_res_type_v1_7 {
u32 pgc_lm_table_c0[MDSS_BLOCK_DISP_NUM][PGC_LUT_ENTRIES];
u32 pgc_lm_table_c1[MDSS_BLOCK_DISP_NUM][PGC_LUT_ENTRIES];
u32 pgc_lm_table_c2[MDSS_BLOCK_DISP_NUM][PGC_LUT_ENTRIES];
u32 pgc_table_c0[MDSS_BLOCK_DISP_NUM][PGC_LUT_ENTRIES];
u32 pgc_table_c1[MDSS_BLOCK_DISP_NUM][PGC_LUT_ENTRIES];
u32 pgc_table_c2[MDSS_BLOCK_DISP_NUM][PGC_LUT_ENTRIES];
u32 igc_table_c0_c1[MDSS_BLOCK_DISP_NUM][IGC_LUT_ENTRIES];
u32 igc_table_c2[MDSS_BLOCK_DISP_NUM][IGC_LUT_ENTRIES];
u32 hist_lut[MDSS_BLOCK_DISP_NUM][ENHIST_LUT_ENTRIES];
u32 six_zone_lut_p0[MDSS_BLOCK_DISP_NUM][MDP_SIX_ZONE_LUT_SIZE];
u32 six_zone_lut_p1[MDSS_BLOCK_DISP_NUM][MDP_SIX_ZONE_LUT_SIZE];
struct mdp_pgc_lut_data_v1_7 pgc_dspp_v17_data[MDSS_BLOCK_DISP_NUM];
struct mdp_pgc_lut_data_v1_7 pgc_lm_v17_data[MDSS_BLOCK_DISP_NUM];
struct mdp_igc_lut_data_v1_7 igc_v17_data[MDSS_BLOCK_DISP_NUM];
struct mdp_hist_lut_data_v1_7 hist_lut_v17_data[MDSS_BLOCK_DISP_NUM];
struct mdp_dither_data_v1_7 dither_v17_data[MDSS_BLOCK_DISP_NUM];
struct mdp_gamut_data_v1_7 gamut_v17_data[MDSS_BLOCK_DISP_NUM];
struct mdp_pcc_data_v1_7 pcc_v17_data[MDSS_BLOCK_DISP_NUM];
struct mdp_pa_data_v1_7 pa_v17_data[MDSS_BLOCK_DISP_NUM];
};
struct mdss_pp_res_type {
/* logical info */
u32 pp_disp_flags[MDSS_BLOCK_DISP_NUM];
u32 igc_lut_c0c1[MDSS_BLOCK_DISP_NUM][IGC_LUT_ENTRIES];
u32 igc_lut_c2[MDSS_BLOCK_DISP_NUM][IGC_LUT_ENTRIES];
struct mdp_ar_gc_lut_data
gc_lut_r[MDSS_BLOCK_DISP_NUM][GC_LUT_SEGMENTS];
struct mdp_ar_gc_lut_data
gc_lut_g[MDSS_BLOCK_DISP_NUM][GC_LUT_SEGMENTS];
struct mdp_ar_gc_lut_data
gc_lut_b[MDSS_BLOCK_DISP_NUM][GC_LUT_SEGMENTS];
u32 enhist_lut[MDSS_BLOCK_DISP_NUM][ENHIST_LUT_ENTRIES];
struct mdp_pa_cfg pa_disp_cfg[MDSS_BLOCK_DISP_NUM];
struct mdp_pa_v2_cfg_data pa_v2_disp_cfg[MDSS_BLOCK_DISP_NUM];
u32 six_zone_lut_curve_p0[MDSS_BLOCK_DISP_NUM][MDP_SIX_ZONE_LUT_SIZE];
u32 six_zone_lut_curve_p1[MDSS_BLOCK_DISP_NUM][MDP_SIX_ZONE_LUT_SIZE];
struct mdp_pcc_cfg_data pcc_disp_cfg[MDSS_BLOCK_DISP_NUM];
struct mdp_igc_lut_data igc_disp_cfg[MDSS_BLOCK_DISP_NUM];
struct mdp_pgc_lut_data argc_disp_cfg[MDSS_BLOCK_DISP_NUM];
struct mdp_pgc_lut_data pgc_disp_cfg[MDSS_BLOCK_DISP_NUM];
struct mdp_hist_lut_data enhist_disp_cfg[MDSS_BLOCK_DISP_NUM];
struct mdp_dither_cfg_data dither_disp_cfg[MDSS_BLOCK_DISP_NUM];
struct mdp_gamut_cfg_data gamut_disp_cfg[MDSS_BLOCK_DISP_NUM];
uint16_t gamut_tbl[MDSS_BLOCK_DISP_NUM][GAMUT_TOTAL_TABLE_SIZE];
u32 hist_data[MDSS_BLOCK_DISP_NUM][HIST_V_SIZE];
struct pp_sts_type pp_disp_sts[MDSS_BLOCK_DISP_NUM];
/* physical info */
struct pp_hist_col_info *dspp_hist;
/*
* The pp_data_res will be a pointer to newer MDP revisions of the
* pp_res, which will hold the cfg_payloads of each feature in a single
* struct.
*/
void *pp_data_res;
};
#if defined(CONFIG_ARCH_MSM8996) || defined(CONFIG_ARCH_MSM8937)
void *pp_get_driver_ops(struct mdp_pp_driver_ops *ops);
#else
static inline void *pp_get_driver_ops(struct mdp_pp_driver_ops *ops)
{
memset(ops, 0, sizeof(struct mdp_pp_driver_ops));
return NULL;
}
#endif
static inline void pp_sts_set_split_bits(u32 *sts, u32 bits)
{
u32 tmp = *sts;
tmp &= ~MDSS_PP_SPLIT_MASK;
tmp |= bits & MDSS_PP_SPLIT_MASK;
*sts = tmp;
}
static inline bool pp_sts_is_enabled(u32 sts, int side)
{
bool ret = false;
/*
* If there are no sides, or if there are no split mode bits set, the
* side can't be disabled via split mode.
*
* Otherwise, if the side being checked opposes the split mode
* configuration, the side is disabled.
*/
if ((side == MDSS_SIDE_NONE) || !(sts & MDSS_PP_SPLIT_MASK))
ret = true;
else if ((sts & MDSS_PP_SPLIT_RIGHT_ONLY) && (side == MDSS_SIDE_RIGHT))
ret = true;
else if ((sts & MDSS_PP_SPLIT_LEFT_ONLY) && (side == MDSS_SIDE_LEFT))
ret = true;
return ret && (sts & PP_STS_ENABLE);
}
/* Debug related functions */
void pp_print_lut(void *data, int size, char *tab, uint32_t type);
void pp_print_uint16_lut(uint16_t *data, int size, char *tab);
void pp_print_pcc_coeff(struct mdp_pcc_coeff *pcc_coeff, int tab_depth);
void pp_print_pcc_cfg_data(struct mdp_pcc_cfg_data *pcc_data, int tab_depth);
void pp_print_csc_cfg(struct mdp_csc_cfg *data, int tab_depth);
void pp_print_csc_cfg_data(struct mdp_csc_cfg_data *data, int tab_depth);
void pp_print_igc_lut_data(struct mdp_igc_lut_data *data, int tab_depth);
void pp_print_ar_gc_lut_data(struct mdp_ar_gc_lut_data *data, int tab_depth);
void pp_print_pgc_lut_data(struct mdp_pgc_lut_data *data, int tab_depth);
void pp_print_hist_lut_data(struct mdp_hist_lut_data *data, int tab_depth);
void pp_print_lut_cfg_data(struct mdp_lut_cfg_data *data, int tab_depth);
void pp_print_qseed_cfg(struct mdp_qseed_cfg *data, int tab_depth);
void pp_print_qseed_cfg_data(struct mdp_qseed_cfg_data *data, int tab_depth);
void pp_print_pa_cfg(struct mdp_pa_cfg *data, int tab_depth);
void pp_print_pa_cfg_data(struct mdp_pa_cfg_data *data, int tab_depth);
void pp_print_mem_col_cfg(struct mdp_pa_mem_col_cfg *data, int tab_depth);
void pp_print_pa_v2_data(struct mdp_pa_v2_data *data, int tab_depth);
void pp_print_pa_v2_cfg_data(struct mdp_pa_v2_cfg_data *data, int tab_depth);
void pp_print_dither_cfg_data(struct mdp_dither_cfg_data *data, int tab_depth);
void pp_print_gamut_cfg_data(struct mdp_gamut_cfg_data *data, int tab_depth);
void pp_print_ad_init(struct mdss_ad_init *data, int tab_depth);
void pp_print_ad_cfg(struct mdss_ad_cfg *data, int tab_depth);
void pp_print_ad_init_cfg(struct mdss_ad_init_cfg *data, int tab_depth);
void pp_print_ad_input(struct mdss_ad_input *data, int tab_depth);
void pp_print_histogram_cfg(struct mdp_histogram_cfg *data, int tab_depth);
void pp_print_sharp_cfg(struct mdp_sharp_cfg *data, int tab_depth);
void pp_print_calib_config_data(struct mdp_calib_config_data *data,
int tab_depth);
void pp_print_calib_config_buffer(struct mdp_calib_config_buffer *data,
int tab_depth);
void pp_print_calib_dcm_state(struct mdp_calib_dcm_state *data, int tab_depth);
void pp_print_mdss_calib_cfg(struct mdss_calib_cfg *data, int tab_depth);
#endif