/* SPDX-License-Identifier: ((GPL-2.0+ WITH Linux-syscall-note) OR MIT) * * Copyright (C) 2019 Rockchip Electronics Co., Ltd. */ #ifndef _UAPI_RKISPP_CONFIG_H #define _UAPI_RKISPP_CONFIG_H #include #include #define ISPP_API_VERSION KERNEL_VERSION(1, 8, 0) #ifndef BIT #define BIT(x) (~0 & (1 << x)) #endif #ifndef s8 typedef signed char s8; #endif #ifndef u8 typedef unsigned char u8; #endif #ifndef s16 typedef signed short s16; #endif #ifndef u16 typedef unsigned short u16; #endif #ifndef s32 typedef signed int s32; #endif #ifndef u32 typedef unsigned int u32; #endif #ifndef s64 typedef signed long long s64; #endif #ifndef u64 typedef unsigned long long u64; #endif #define ISPP_ID_TNR (0) #define ISPP_ID_NR (1) #define ISPP_ID_SHP (2) #define ISPP_ID_FEC (3) #define ISPP_ID_ORB (4) #define ISPP_ID_MAX (5) #define ISPP_MODULE_TNR BIT(ISPP_ID_TNR)//2TO1 #define ISPP_MODULE_NR BIT(ISPP_ID_NR) #define ISPP_MODULE_SHP BIT(ISPP_ID_SHP) #define ISPP_MODULE_FEC BIT(ISPP_ID_FEC)//CALIBRATION #define ISPP_MODULE_ORB BIT(ISPP_ID_ORB) //extra function #define ISPP_MODULE_TNR_3TO1 (BIT(16) | ISPP_MODULE_TNR) #define ISPP_MODULE_FEC_ST (BIT(17) | ISPP_MODULE_FEC)//STABILIZATION #define TNR_SIGMA_CURVE_SIZE 17 #define TNR_LUMA_CURVE_SIZE 6 #define TNR_GFCOEF6_SIZE 6 #define TNR_GFCOEF3_SIZE 3 #define TNR_SCALE_YG_SIZE 4 #define TNR_SCALE_YL_SIZE 3 #define TNR_SCALE_CG_SIZE 3 #define TNR_SCALE_Y2CG_SIZE 3 #define TNR_SCALE_CL_SIZE 2 #define TNR_SCALE_Y2CL_SIZE 3 #define TNR_WEIGHT_Y_SIZE 3 #define NR_UVNR_UVGAIN_SIZE 2 #define NR_UVNR_T1FLT_WTQ_SIZE 8 #define NR_UVNR_T2GEN_WTQ_SIZE 4 #define NR_UVNR_T2FLT_WT_SIZE 3 #define NR_YNR_SGM_DX_SIZE 16 #define NR_YNR_SGM_Y_SIZE 17 #define NR_YNR_HWEIT_D_SIZE 20 #define NR_YNR_HGRAD_Y_SIZE 24 #define NR_YNR_HSTV_Y_SIZE 17 #define NR_YNR_CI_SIZE 4 #define NR_YNR_LGAIN_MIN_SIZE 4 #define NR_YNR_LWEIT_FLT_SIZE 4 #define NR_YNR_HGAIN_SGM_SIZE 4 #define NR_YNR_HWEIT_SIZE 4 #define NR_YNR_LWEIT_CMP_SIZE 2 #define NR_YNR_ST_SCALE_SIZE 3 #define SHP_PBF_KERNEL_SIZE 3 #define SHP_MRF_KERNEL_SIZE 6 #define SHP_MBF_KERNEL_SIZE 12 #define SHP_HRF_KERNEL_SIZE 6 #define SHP_HBF_KERNEL_SIZE 3 #define SHP_EDGE_COEF_SIZE 3 #define SHP_EDGE_SMOTH_SIZE 3 #define SHP_EDGE_GAUS_SIZE 6 #define SHP_DOG_KERNEL_SIZE 6 #define SHP_LUM_POINT_SIZE 6 #define SHP_SIGMA_SIZE 8 #define SHP_LUM_CLP_SIZE 8 #define SHP_LUM_MIN_SIZE 8 #define SHP_EDGE_LUM_THED_SIZE 8 #define SHP_CLAMP_SIZE 8 #define SHP_DETAIL_ALPHA_SIZE 8 #define ORB_DATA_NUM 10000 #define ORB_BRIEF_NUM 15 #define ORB_DUMMY_NUM 13 #define FEC_MESH_XY_POINT_SIZE 6 #define FEC_MESH_XY_NUM 131072 #define FEC_MESH_BUF_NUM 2 #define TNR_BUF_IDXFD_NUM 64 /************VIDIOC_PRIVATE*************/ #define RKISPP_CMD_GET_FECBUF_INFO \ _IOR('V', BASE_VIDIOC_PRIVATE + 0, struct rkispp_fecbuf_info) #define RKISPP_CMD_SET_FECBUF_SIZE \ _IOW('V', BASE_VIDIOC_PRIVATE + 1, struct rkispp_fecbuf_size) #define RKISPP_CMD_FEC_IN_OUT \ _IOW('V', BASE_VIDIOC_PRIVATE + 10, struct rkispp_fec_in_out) #define RKISPP_CMD_TRIGGER_YNRRUN \ _IOW('V', BASE_VIDIOC_PRIVATE + 11, struct rkispp_tnr_inf) #define RKISPP_CMD_GET_TNRBUF_FD \ _IOR('V', BASE_VIDIOC_PRIVATE + 12, struct rkispp_buf_idxfd) #define RKISPP_CMD_TRIGGER_MODE \ _IOW('V', BASE_VIDIOC_PRIVATE + 13, struct rkispp_trigger_mode) /************EVENT_PRIVATE**************/ #define RKISPP_V4L2_EVENT_TNR_COMPLETE \ (V4L2_EVENT_PRIVATE_START + 3) struct rkispp_fec_in_out { int in_width; int in_height; int out_width; int out_height; int in_fourcc; int out_fourcc; int in_pic_fd; int out_pic_fd; int mesh_xint_fd; int mesh_xfra_fd; int mesh_yint_fd; int mesh_yfra_fd; }; struct rkispp_tnr_inf { u32 dev_id; u32 frame_id; u32 gainkg_idx; u32 gainwr_idx; u32 gainkg_size; u32 gainwr_size; } __attribute__ ((packed)); struct rkispp_buf_idxfd { u32 buf_num; u32 index[TNR_BUF_IDXFD_NUM]; s32 dmafd[TNR_BUF_IDXFD_NUM]; } __attribute__ ((packed)); struct rkispp_trigger_mode { u32 module; u32 on; } __attribute__ ((packed)); struct rkispp_tnr_config { u8 opty_en; u8 optc_en; u8 gain_en; u8 pk0_y; u8 pk1_y; u8 pk0_c; u8 pk1_c; u8 glb_gain_cur_sqrt; u8 sigma_x[TNR_SIGMA_CURVE_SIZE - 1]; u8 gfcoef_y0[TNR_GFCOEF6_SIZE]; u8 gfcoef_y1[TNR_GFCOEF3_SIZE]; u8 gfcoef_y2[TNR_GFCOEF3_SIZE]; u8 gfcoef_y3[TNR_GFCOEF3_SIZE]; u8 gfcoef_yg0[TNR_GFCOEF6_SIZE]; u8 gfcoef_yg1[TNR_GFCOEF3_SIZE]; u8 gfcoef_yg2[TNR_GFCOEF3_SIZE]; u8 gfcoef_yg3[TNR_GFCOEF3_SIZE]; u8 gfcoef_yl0[TNR_GFCOEF6_SIZE]; u8 gfcoef_yl1[TNR_GFCOEF3_SIZE]; u8 gfcoef_yl2[TNR_GFCOEF3_SIZE]; u8 gfcoef_cg0[TNR_GFCOEF6_SIZE]; u8 gfcoef_cg1[TNR_GFCOEF3_SIZE]; u8 gfcoef_cg2[TNR_GFCOEF3_SIZE]; u8 gfcoef_cl0[TNR_GFCOEF6_SIZE]; u8 gfcoef_cl1[TNR_GFCOEF3_SIZE]; u8 weight_y[TNR_WEIGHT_Y_SIZE]; u16 glb_gain_cur __attribute__((aligned(2))); u16 glb_gain_nxt; u16 glb_gain_cur_div; u16 txt_th1_y; u16 txt_th0_c; u16 txt_th1_c; u16 txt_thy_dlt; u16 txt_thc_dlt; u16 txt_th0_y; u16 sigma_y[TNR_SIGMA_CURVE_SIZE]; u16 luma_curve[TNR_LUMA_CURVE_SIZE]; u16 scale_yg[TNR_SCALE_YG_SIZE]; u16 scale_yl[TNR_SCALE_YL_SIZE]; u16 scale_cg[TNR_SCALE_CG_SIZE]; u16 scale_y2cg[TNR_SCALE_Y2CG_SIZE]; u16 scale_cl[TNR_SCALE_CL_SIZE]; u16 scale_y2cl[TNR_SCALE_Y2CL_SIZE]; } __attribute__ ((packed)); struct rkispp_nr_config { u8 uvnr_step1_en; u8 uvnr_step2_en; u8 nr_gain_en; u8 uvnr_sd32_self_en; u8 uvnr_nobig_en; u8 uvnr_big_en; u8 uvnr_gain_1sigma; u8 uvnr_gain_offset; u8 uvnr_gain_t2gen; u8 uvnr_gain_iso; u8 uvnr_t1gen_m3alpha; u8 uvnr_t1flt_mode; u8 uvnr_t1flt_wtp; u8 uvnr_t2gen_m3alpha; u8 uvnr_t2gen_wtp; u8 uvnr_gain_uvgain[NR_UVNR_UVGAIN_SIZE]; u8 uvnr_t1flt_wtq[NR_UVNR_T1FLT_WTQ_SIZE]; u8 uvnr_t2gen_wtq[NR_UVNR_T2GEN_WTQ_SIZE]; u8 uvnr_t2flt_wtp; u8 uvnr_t2flt_wt[NR_UVNR_T2FLT_WT_SIZE]; u8 ynr_sgm_dx[NR_YNR_SGM_DX_SIZE]; u8 ynr_lci[NR_YNR_CI_SIZE]; u8 ynr_lgain_min[NR_YNR_LGAIN_MIN_SIZE]; u8 ynr_lgain_max; u8 ynr_lmerge_bound; u8 ynr_lmerge_ratio; u8 ynr_lweit_flt[NR_YNR_LWEIT_FLT_SIZE]; u8 ynr_hlci[NR_YNR_CI_SIZE]; u8 ynr_lhci[NR_YNR_CI_SIZE]; u8 ynr_hhci[NR_YNR_CI_SIZE]; u8 ynr_hgain_sgm[NR_YNR_HGAIN_SGM_SIZE]; u8 ynr_hweit_d[NR_YNR_HWEIT_D_SIZE]; u8 ynr_hgrad_y[NR_YNR_HGRAD_Y_SIZE]; u8 ynr_hmax_adjust; u8 ynr_hstrength; u8 ynr_lweit_cmp[NR_YNR_LWEIT_CMP_SIZE]; u8 ynr_lmaxgain_lv4; u16 uvnr_t1flt_msigma __attribute__((aligned(2))); u16 uvnr_t2gen_msigma; u16 uvnr_t2flt_msigma; u16 ynr_lsgm_y[NR_YNR_SGM_Y_SIZE]; u16 ynr_hsgm_y[NR_YNR_SGM_Y_SIZE]; u16 ynr_hweit[NR_YNR_HWEIT_SIZE]; u16 ynr_hstv_y[NR_YNR_HSTV_Y_SIZE]; u16 ynr_st_scale[NR_YNR_ST_SCALE_SIZE]; } __attribute__ ((packed)); struct rkispp_sharp_config { u8 rotation; u8 scl_down_v; u8 scl_down_h; u8 tile_ycnt; u8 tile_xcnt; u8 alpha_adp_en; u8 yin_flt_en; u8 edge_avg_en; u8 ehf_th; u8 pbf_ratio; u8 edge_thed; u8 dir_min; u8 pbf_shf_bits; u8 mbf_shf_bits; u8 hbf_shf_bits; u8 m_ratio; u8 h_ratio; u8 pbf_k[SHP_PBF_KERNEL_SIZE]; u8 mrf_k[SHP_MRF_KERNEL_SIZE]; u8 mbf_k[SHP_MBF_KERNEL_SIZE]; u8 hrf_k[SHP_HRF_KERNEL_SIZE]; u8 hbf_k[SHP_HBF_KERNEL_SIZE]; s8 eg_coef[SHP_EDGE_COEF_SIZE]; u8 eg_smoth[SHP_EDGE_SMOTH_SIZE]; u8 eg_gaus[SHP_EDGE_GAUS_SIZE]; s8 dog_k[SHP_DOG_KERNEL_SIZE]; u8 lum_point[SHP_LUM_POINT_SIZE]; u8 pbf_sigma[SHP_SIGMA_SIZE]; u8 lum_clp_m[SHP_LUM_CLP_SIZE]; s8 lum_min_m[SHP_LUM_MIN_SIZE]; u8 mbf_sigma[SHP_SIGMA_SIZE]; u8 lum_clp_h[SHP_LUM_CLP_SIZE]; u8 hbf_sigma[SHP_SIGMA_SIZE]; u8 edge_lum_thed[SHP_EDGE_LUM_THED_SIZE]; u8 clamp_pos[SHP_CLAMP_SIZE]; u8 clamp_neg[SHP_CLAMP_SIZE]; u8 detail_alpha[SHP_DETAIL_ALPHA_SIZE]; u16 hbf_ratio __attribute__((aligned(2))); u16 smoth_th4; u16 l_alpha; u16 g_alpha; u16 rfl_ratio; u16 rfh_ratio; } __attribute__ ((packed)); enum rkispp_fecbuf_stat { FEC_BUF_INIT = 0, FEC_BUF_WAIT2CHIP, FEC_BUF_CHIPINUSE, }; struct rkispp_fecbuf_info { s32 buf_fd[FEC_MESH_BUF_NUM]; u32 buf_size[FEC_MESH_BUF_NUM]; } __attribute__ ((packed)); struct rkispp_fecbuf_size { u32 meas_width; u32 meas_height; u32 meas_mode; } __attribute__ ((packed)); struct rkispp_fec_head { enum rkispp_fecbuf_stat stat; u32 meshxf_oft; u32 meshyf_oft; u32 meshxi_oft; u32 meshyi_oft; } __attribute__ ((packed)); struct rkispp_fec_config { u8 mesh_density; u8 crop_en; u16 crop_width __attribute__((aligned(2))); u16 crop_height; u32 mesh_size __attribute__((aligned(4))); s32 buf_fd; } __attribute__ ((packed)); struct rkispp_orb_config { u8 limit_value; u32 max_feature __attribute__((aligned(4))); } __attribute__ ((packed)); /** * struct rkispp_params_cfg - Rockchip ISPP Input Parameters Meta Data * * @module_en_update: mask the enable bits of which module should be updated * @module_ens: mask the enable value of each module, only update the module * which correspond bit was set in module_en_update * @module_cfg_update: mask the config bits of which module should be updated * @module_init_en: initial enable module function */ struct rkispp_params_cfg { u32 module_en_update; u32 module_ens; u32 module_cfg_update; u32 module_init_ens; u32 frame_id; struct rkispp_tnr_config tnr_cfg; struct rkispp_nr_config nr_cfg; struct rkispp_sharp_config shp_cfg; struct rkispp_fec_config fec_cfg; struct rkispp_orb_config orb_cfg; } __attribute__ ((packed)); struct rkispp_orb_data { u8 brief[ORB_BRIEF_NUM]; u32 y : 13; u32 x : 13; u32 dmy1 : 6; u8 dmy2[ORB_DUMMY_NUM]; } __attribute__ ((packed)); /** * struct rkispp_stats_buffer - Rockchip ISPP Statistics * * @meas_type: measurement types * @frame_id: frame ID for sync * @data: statistics data */ struct rkispp_stats_buffer { struct rkispp_orb_data data[ORB_DATA_NUM]; u32 total_num __attribute__((aligned(4))); u32 meas_type; u32 frame_id; } __attribute__ ((packed)); #endif