// SPDX-License-Identifier: GPL-2.0 /* Copyright (c) 2019 Fuzhou Rockchip Electronics Co., Ltd. */ #include #include #include #include #include #include #include #include #include "dev.h" #include "regs.h" static inline size_t get_input_size(struct rkispp_params_vdev *params_vdev) { struct rkispp_device *dev = params_vdev->dev; struct rkispp_subdev *isp_sdev = &dev->ispp_sdev; return isp_sdev->out_fmt.width * isp_sdev->out_fmt.height; } static void tnr_config(struct rkispp_params_vdev *params_vdev, struct rkispp_tnr_config *arg) { u32 i, val; val = arg->opty_en << 2 | arg->optc_en << 3 | arg->gain_en << 4; rkispp_set_bits(params_vdev->dev, RKISPP_TNR_CORE_CTRL, SW_TNR_OPTY_EN | SW_TNR_OPTC_EN | SW_TNR_GLB_GAIN_EN, val); val = ISPP_PACK_4BYTE(arg->pk0_y, arg->pk1_y, arg->pk0_c, arg->pk1_c); rkispp_write(params_vdev->dev, RKISPP_TNR_CORE_PK0, val); val = ISPP_PACK_2SHORT(arg->glb_gain_cur, arg->glb_gain_nxt); rkispp_write(params_vdev->dev, RKISPP_TNR_CORE_GLB_GAIN, val); val = ISPP_PACK_2SHORT(arg->glb_gain_cur_div, arg->glb_gain_cur_sqrt); rkispp_write(params_vdev->dev, RKISPP_TNR_CORE_GLB_GAIN_DIV, val); for (i = 0; i < TNR_SIGMA_CURVE_SIZE - 1; i += 2) rkispp_write(params_vdev->dev, RKISPP_TNR_CORE_SIG_Y01 + i * 2, ISPP_PACK_2SHORT(arg->sigma_y[i], arg->sigma_y[i + 1])); rkispp_write(params_vdev->dev, RKISPP_TNR_CORE_SIG_Y10, arg->sigma_y[16]); rkispp_write(params_vdev->dev, RKISPP_TNR_CORE_SIG_X18, ISPP_PACK_4BIT(arg->sigma_x[0], arg->sigma_x[1], arg->sigma_x[2], arg->sigma_x[3], arg->sigma_x[4], arg->sigma_x[5], arg->sigma_x[6], arg->sigma_x[7])); rkispp_write(params_vdev->dev, RKISPP_TNR_CORE_SIG_X910, ISPP_PACK_4BIT(arg->sigma_x[8], arg->sigma_x[9], arg->sigma_x[10], arg->sigma_x[11], arg->sigma_x[12], arg->sigma_x[13], arg->sigma_x[14], arg->sigma_x[15])); for (i = 0; i < TNR_LUMA_CURVE_SIZE; i += 2) { val = ISPP_PACK_2SHORT(arg->luma_curve[i], arg->luma_curve[i + 1]); rkispp_write(params_vdev->dev, RKISPP_TNR_CORE_LUMACURVE_Y01 + i * 2, val); } val = ISPP_PACK_2SHORT(arg->txt_th0_y, arg->txt_th1_y); rkispp_write(params_vdev->dev, RKISPP_TNR_CORE_TH_Y, val); val = ISPP_PACK_2SHORT(arg->txt_th0_c, arg->txt_th1_c); rkispp_write(params_vdev->dev, RKISPP_TNR_CORE_TH_C, val); val = ISPP_PACK_2SHORT(arg->txt_thy_dlt, arg->txt_thc_dlt); rkispp_write(params_vdev->dev, RKISPP_TNR_CORE_TH_DLT, val); val = ISPP_PACK_4BYTE(arg->gfcoef_y0[0], arg->gfcoef_y0[1], arg->gfcoef_y0[2], arg->gfcoef_y0[3]); rkispp_write(params_vdev->dev, RKISPP_TNR_CORE_GFCOEF_Y0_0, val); val = ISPP_PACK_4BYTE(arg->gfcoef_y0[4], arg->gfcoef_y0[5], 0, 0); rkispp_write(params_vdev->dev, RKISPP_TNR_CORE_GFCOEF_Y0_1, val); val = ISPP_PACK_4BYTE(arg->gfcoef_y1[0], arg->gfcoef_y1[1], arg->gfcoef_y1[2], 0); rkispp_write(params_vdev->dev, RKISPP_TNR_CORE_GFCOEF_Y1, val); val = ISPP_PACK_4BYTE(arg->gfcoef_y2[0], arg->gfcoef_y2[1], arg->gfcoef_y2[2], 0); rkispp_write(params_vdev->dev, RKISPP_TNR_CORE_GFCOEF_Y2, val); val = ISPP_PACK_4BYTE(arg->gfcoef_y3[0], arg->gfcoef_y3[1], arg->gfcoef_y3[2], 0); rkispp_write(params_vdev->dev, RKISPP_TNR_CORE_GFCOEF_Y3, val); val = ISPP_PACK_4BYTE(arg->gfcoef_yg0[0], arg->gfcoef_yg0[1], arg->gfcoef_yg0[2], arg->gfcoef_yg0[3]); rkispp_write(params_vdev->dev, RKISPP_TNR_CORE_GFCOEF_YG0_0, val); val = ISPP_PACK_4BYTE(arg->gfcoef_yg0[4], arg->gfcoef_yg0[5], 0, 0); rkispp_write(params_vdev->dev, RKISPP_TNR_CORE_GFCOEF_YG0_1, val); val = ISPP_PACK_4BYTE(arg->gfcoef_yg1[0], arg->gfcoef_yg1[1], arg->gfcoef_yg1[2], 0); rkispp_write(params_vdev->dev, RKISPP_TNR_CORE_GFCOEF_YG1, val); val = ISPP_PACK_4BYTE(arg->gfcoef_yg2[0], arg->gfcoef_yg2[1], arg->gfcoef_yg2[2], 0); rkispp_write(params_vdev->dev, RKISPP_TNR_CORE_GFCOEF_YG2, val); val = ISPP_PACK_4BYTE(arg->gfcoef_yg3[0], arg->gfcoef_yg3[1], arg->gfcoef_yg3[2], 0); rkispp_write(params_vdev->dev, RKISPP_TNR_CORE_GFCOEF_YG3, val); val = ISPP_PACK_4BYTE(arg->gfcoef_yl0[0], arg->gfcoef_yl0[1], arg->gfcoef_yl0[2], arg->gfcoef_yl0[3]); rkispp_write(params_vdev->dev, RKISPP_TNR_CORE_GFCOEF_YL0_0, val); val = ISPP_PACK_4BYTE(arg->gfcoef_yl0[4], arg->gfcoef_yl0[5], 0, 0); rkispp_write(params_vdev->dev, RKISPP_TNR_CORE_GFCOEF_YL0_1, val); val = ISPP_PACK_4BYTE(arg->gfcoef_yl1[0], arg->gfcoef_yl1[1], arg->gfcoef_yl1[2], 0); rkispp_write(params_vdev->dev, RKISPP_TNR_CORE_GFCOEF_YL1, val); val = ISPP_PACK_4BYTE(arg->gfcoef_yl2[0], arg->gfcoef_yl2[1], arg->gfcoef_yl2[2], 0); rkispp_write(params_vdev->dev, RKISPP_TNR_CORE_GFCOEF_YL2, val); val = ISPP_PACK_4BYTE(arg->gfcoef_cg0[0], arg->gfcoef_cg0[1], arg->gfcoef_cg0[2], arg->gfcoef_cg0[3]); rkispp_write(params_vdev->dev, RKISPP_TNR_CORE_GFCOEF_CG0_0, val); val = ISPP_PACK_4BYTE(arg->gfcoef_cg0[4], arg->gfcoef_cg0[5], 0, 0); rkispp_write(params_vdev->dev, RKISPP_TNR_CORE_GFCOEF_CG0_1, val); val = ISPP_PACK_4BYTE(arg->gfcoef_cg1[0], arg->gfcoef_cg1[1], arg->gfcoef_cg1[2], 0); rkispp_write(params_vdev->dev, RKISPP_TNR_CORE_GFCOEF_CG1, val); val = ISPP_PACK_4BYTE(arg->gfcoef_cg2[0], arg->gfcoef_cg2[1], arg->gfcoef_cg2[2], 0); rkispp_write(params_vdev->dev, RKISPP_TNR_CORE_GFCOEF_CG2, val); val = ISPP_PACK_4BYTE(arg->gfcoef_cl0[0], arg->gfcoef_cl0[1], arg->gfcoef_cl0[2], arg->gfcoef_cl0[3]); rkispp_write(params_vdev->dev, RKISPP_TNR_CORE_GFCOEF_CL0_0, val); val = ISPP_PACK_4BYTE(arg->gfcoef_cl0[4], arg->gfcoef_cl0[5], 0, 0); rkispp_write(params_vdev->dev, RKISPP_TNR_CORE_GFCOEF_CL0_1, val); val = ISPP_PACK_4BYTE(arg->gfcoef_cl1[0], arg->gfcoef_cl1[1], arg->gfcoef_cl1[2], 0); rkispp_write(params_vdev->dev, RKISPP_TNR_CORE_GFCOEF_CL1, val); val = ISPP_PACK_2SHORT(arg->scale_yg[0], arg->scale_yg[1]); rkispp_write(params_vdev->dev, RKISPP_TNR_CORE_SCALE_YG01, val); val = ISPP_PACK_2SHORT(arg->scale_yg[2], arg->scale_yg[3]); rkispp_write(params_vdev->dev, RKISPP_TNR_CORE_SCALE_YG23, val); val = ISPP_PACK_2SHORT(arg->scale_yl[0], arg->scale_yl[1]); rkispp_write(params_vdev->dev, RKISPP_TNR_CORE_SCALE_YL01, val); rkispp_write(params_vdev->dev, RKISPP_TNR_CORE_SCALE_YL2, arg->scale_yl[2]); val = ISPP_PACK_2SHORT(arg->scale_cg[0], arg->scale_y2cg[0]); rkispp_write(params_vdev->dev, RKISPP_TNR_CORE_SCALE_CG0, val); val = ISPP_PACK_2SHORT(arg->scale_cg[1], arg->scale_y2cg[1]); rkispp_write(params_vdev->dev, RKISPP_TNR_CORE_SCALE_CG1, val); val = ISPP_PACK_2SHORT(arg->scale_cg[2], arg->scale_y2cg[2]); rkispp_write(params_vdev->dev, RKISPP_TNR_CORE_SCALE_CG2, val); val = ISPP_PACK_2SHORT(arg->scale_cl[0], arg->scale_y2cl[0]); rkispp_write(params_vdev->dev, RKISPP_TNR_CORE_SCALE_CL0, val); val = ISPP_PACK_2SHORT(arg->scale_cl[1], arg->scale_y2cl[1]); rkispp_write(params_vdev->dev, RKISPP_TNR_CORE_SCALE_CL1, val); val = arg->scale_y2cl[2] << 16; rkispp_write(params_vdev->dev, RKISPP_TNR_CORE_SCALE_CL2, val); val = ISPP_PACK_4BYTE(arg->weight_y[0], arg->weight_y[1], arg->weight_y[2], 0); rkispp_write(params_vdev->dev, RKISPP_TNR_CORE_WEIGHT, val); } static bool is_tnr_enable(struct rkispp_params_vdev *params_vdev) { u32 cur_en; cur_en = rkispp_read(params_vdev->dev, RKISPP_TNR_CORE_CTRL); cur_en &= SW_TNR_EN; return (!!cur_en); } static void tnr_enable(struct rkispp_params_vdev *params_vdev, bool en) { if (en && !is_tnr_enable(params_vdev)) rkispp_set_bits(params_vdev->dev, RKISPP_TNR_CTRL, 0, SW_TNR_1ST_FRM); rkispp_set_bits(params_vdev->dev, RKISPP_TNR_CORE_CTRL, SW_TNR_EN, en); } static void nr_config(struct rkispp_params_vdev *params_vdev, struct rkispp_nr_config *arg) { u32 i, val; u8 big_en, nobig_en, sd32_self_en = 0; rkispp_write(params_vdev->dev, RKISPP_NR_UVNR_GAIN_1SIGMA, arg->uvnr_gain_1sigma); rkispp_write(params_vdev->dev, RKISPP_NR_UVNR_GAIN_OFFSET, arg->uvnr_gain_offset); val = ISPP_PACK_4BYTE(arg->uvnr_gain_uvgain[0], arg->uvnr_gain_uvgain[1], arg->uvnr_gain_t2gen, arg->uvnr_gain_iso); rkispp_write(params_vdev->dev, RKISPP_NR_UVNR_GAIN_GBLGAIN, val); rkispp_write(params_vdev->dev, RKISPP_NR_UVNR_T1GEN_M3ALPHA, arg->uvnr_t1gen_m3alpha); rkispp_write(params_vdev->dev, RKISPP_NR_UVNR_T1FLT_MODE, arg->uvnr_t1flt_mode); rkispp_write(params_vdev->dev, RKISPP_NR_UVNR_T1FLT_MSIGMA, arg->uvnr_t1flt_msigma); rkispp_write(params_vdev->dev, RKISPP_NR_UVNR_T1FLT_WTP, arg->uvnr_t1flt_wtp); for (i = 0; i < NR_UVNR_T1FLT_WTQ_SIZE; i += 4) { val = ISPP_PACK_4BYTE(arg->uvnr_t1flt_wtq[i], arg->uvnr_t1flt_wtq[i + 1], arg->uvnr_t1flt_wtq[i + 2], arg->uvnr_t1flt_wtq[i + 3]); rkispp_write(params_vdev->dev, RKISPP_NR_UVNR_T1FLT_WTQ0 + i, val); } rkispp_write(params_vdev->dev, RKISPP_NR_UVNR_T2GEN_M3ALPHA, arg->uvnr_t2gen_m3alpha); rkispp_write(params_vdev->dev, RKISPP_NR_UVNR_T2GEN_MSIGMA, arg->uvnr_t2gen_msigma); rkispp_write(params_vdev->dev, RKISPP_NR_UVNR_T2GEN_WTP, arg->uvnr_t2gen_wtp); val = ISPP_PACK_4BYTE(arg->uvnr_t2gen_wtq[0], arg->uvnr_t2gen_wtq[1], arg->uvnr_t2gen_wtq[2], arg->uvnr_t2gen_wtq[3]); rkispp_write(params_vdev->dev, RKISPP_NR_UVNR_T2GEN_WTQ, val); rkispp_write(params_vdev->dev, RKISPP_NR_UVNR_T2FLT_MSIGMA, arg->uvnr_t2flt_msigma); val = ISPP_PACK_4BYTE(arg->uvnr_t2flt_wtp, arg->uvnr_t2flt_wt[0], arg->uvnr_t2flt_wt[1], arg->uvnr_t2flt_wt[2]); rkispp_write(params_vdev->dev, RKISPP_NR_UVNR_T2FLT_WT, val); val = ISPP_PACK_4BIT(arg->ynr_sgm_dx[0], arg->ynr_sgm_dx[1], arg->ynr_sgm_dx[2], arg->ynr_sgm_dx[3], arg->ynr_sgm_dx[4], arg->ynr_sgm_dx[5], arg->ynr_sgm_dx[6], arg->ynr_sgm_dx[7]); rkispp_write(params_vdev->dev, RKISPP_NR_YNR_SGM_DX_1_8, val); val = ISPP_PACK_4BIT(arg->ynr_sgm_dx[8], arg->ynr_sgm_dx[9], arg->ynr_sgm_dx[10], arg->ynr_sgm_dx[11], arg->ynr_sgm_dx[12], arg->ynr_sgm_dx[13], arg->ynr_sgm_dx[14], arg->ynr_sgm_dx[15]); rkispp_write(params_vdev->dev, RKISPP_NR_YNR_SGM_DX_9_16, val); for (i = 0; i < NR_YNR_SGM_Y_SIZE - 1; i += 2) { rkispp_write(params_vdev->dev, RKISPP_NR_YNR_LSGM_Y_0_1 + i * 2, ISPP_PACK_2SHORT(arg->ynr_lsgm_y[i], arg->ynr_lsgm_y[i + 1])); rkispp_write(params_vdev->dev, RKISPP_NR_YNR_HSGM_Y_0_1 + i * 2, ISPP_PACK_2SHORT(arg->ynr_hsgm_y[i], arg->ynr_hsgm_y[i + 1])); } rkispp_write(params_vdev->dev, RKISPP_NR_YNR_LSGM_Y_16, arg->ynr_lsgm_y[16]); rkispp_write(params_vdev->dev, RKISPP_NR_YNR_HSGM_Y_16, arg->ynr_hsgm_y[16]); val = ISPP_PACK_4BYTE(arg->ynr_lci[0], arg->ynr_lci[1], arg->ynr_lci[2], arg->ynr_lci[3]); rkispp_write(params_vdev->dev, RKISPP_NR_YNR_LCI, val); val = ISPP_PACK_4BYTE(arg->ynr_lgain_min[0], arg->ynr_lgain_min[1], arg->ynr_lgain_min[2], arg->ynr_lgain_min[3]); rkispp_write(params_vdev->dev, RKISPP_NR_YNR_LGAIN_DIRE_MIN, val); rkispp_write(params_vdev->dev, RKISPP_NR_YNR_IGAIN_DIRE_MAX, arg->ynr_lgain_max); val = ISPP_PACK_4BYTE(arg->ynr_lmerge_bound, arg->ynr_lmerge_ratio, 0, 0); rkispp_write(params_vdev->dev, RKISPP_NR_YNR_LMERGE, val); val = ISPP_PACK_4BYTE(arg->ynr_lweit_flt[0], arg->ynr_lweit_flt[1], arg->ynr_lweit_flt[2], arg->ynr_lweit_flt[3]); rkispp_write(params_vdev->dev, RKISPP_NR_YNR_LWEIT_FLT, val); val = ISPP_PACK_4BYTE(arg->ynr_hlci[0], arg->ynr_hlci[1], arg->ynr_hlci[2], arg->ynr_hlci[3]); rkispp_write(params_vdev->dev, RKISPP_NR_YNR_HLCI, val); val = ISPP_PACK_4BYTE(arg->ynr_lhci[0], arg->ynr_lhci[1], arg->ynr_lhci[2], arg->ynr_lhci[3]); rkispp_write(params_vdev->dev, RKISPP_NR_YNR_LHCI, val); val = ISPP_PACK_4BYTE(arg->ynr_hhci[0], arg->ynr_hhci[1], arg->ynr_hhci[2], arg->ynr_hhci[3]); rkispp_write(params_vdev->dev, RKISPP_NR_YNR_HHCI, val); val = ISPP_PACK_4BYTE(arg->ynr_hgain_sgm[0], arg->ynr_hgain_sgm[1], arg->ynr_hgain_sgm[2], arg->ynr_hgain_sgm[3]); rkispp_write(params_vdev->dev, RKISPP_NR_YNR_HGAIN_SGM, val); for (i = 0; i < NR_YNR_HWEIT_D_SIZE; i += 4) { val = ISPP_PACK_4BYTE(arg->ynr_hweit_d[i], arg->ynr_hweit_d[i + 1], arg->ynr_hweit_d[i + 2], arg->ynr_hweit_d[i + 3]); rkispp_write(params_vdev->dev, RKISPP_NR_YNR_HWEIT_D0 + i, val); } for (i = 0; i < NR_YNR_HGRAD_Y_SIZE; i += 4) { val = ISPP_PACK_4BYTE(arg->ynr_hgrad_y[i], arg->ynr_hgrad_y[i + 1], arg->ynr_hgrad_y[i + 2], arg->ynr_hgrad_y[i + 3]); rkispp_write(params_vdev->dev, RKISPP_NR_YNR_HGRAD_Y0 + i, val); } val = ISPP_PACK_2SHORT(arg->ynr_hweit[0], arg->ynr_hweit[1]); rkispp_write(params_vdev->dev, RKISPP_NR_YNR_HWEIT_1_2, val); val = ISPP_PACK_2SHORT(arg->ynr_hweit[2], arg->ynr_hweit[3]); rkispp_write(params_vdev->dev, RKISPP_NR_YNR_HWEIT_3_4, val); rkispp_write(params_vdev->dev, RKISPP_NR_YNR_HMAX_ADJUST, arg->ynr_hmax_adjust); rkispp_write(params_vdev->dev, RKISPP_NR_YNR_HSTRENGTH, arg->ynr_hstrength); val = ISPP_PACK_4BYTE(arg->ynr_lweit_cmp[0], arg->ynr_lweit_cmp[1], 0, 0); rkispp_write(params_vdev->dev, RKISPP_NR_YNR_LWEIT_CMP, val); rkispp_write(params_vdev->dev, RKISPP_NR_YNR_LMAXGAIN_LV4, arg->ynr_lmaxgain_lv4); for (i = 0; i < NR_YNR_HSTV_Y_SIZE - 1; i += 2) { val = ISPP_PACK_2SHORT(arg->ynr_hstv_y[i], arg->ynr_hstv_y[i + 1]); rkispp_write(params_vdev->dev, RKISPP_NR_YNR_HSTV_Y_0_1 + i * 2, val); } rkispp_write(params_vdev->dev, RKISPP_NR_YNR_HSTV_Y_16, arg->ynr_hstv_y[16]); val = ISPP_PACK_2SHORT(arg->ynr_st_scale[0], arg->ynr_st_scale[1]); rkispp_write(params_vdev->dev, RKISPP_NR_YNR_ST_SCALE_LV1_LV2, val); rkispp_write(params_vdev->dev, RKISPP_NR_YNR_ST_SCALE_LV3, arg->ynr_st_scale[2]); big_en = arg->uvnr_big_en & 0x01; nobig_en = arg->uvnr_nobig_en & 0x01; if (get_input_size(params_vdev) > ISPP_NOBIG_OVERFLOW_SIZE) { big_en = 1; nobig_en = 0; } if (params_vdev->dev->hw_dev->dev_num == 1) sd32_self_en = arg->uvnr_sd32_self_en; val = arg->uvnr_step1_en << 1 | arg->uvnr_step2_en << 2 | arg->nr_gain_en << 3 | sd32_self_en << 4 | nobig_en << 5 | big_en << 6; rkispp_set_bits(params_vdev->dev, RKISPP_NR_UVNR_CTRL_PARA, SW_UVNR_STEP1_ON | SW_UVNR_STEP2_ON | SW_NR_GAIN_BYPASS | SW_UVNR_NOBIG_EN | SW_UVNR_BIG_EN, val); } static void nr_enable(struct rkispp_params_vdev *params_vdev, bool en, struct rkispp_nr_config *arg) { u8 big_en, nobig_en; u32 val; big_en = arg->uvnr_big_en & 0x01; nobig_en = arg->uvnr_nobig_en & 0x01; if (get_input_size(params_vdev) > ISPP_NOBIG_OVERFLOW_SIZE) { big_en = 1; nobig_en = 0; } val = arg->uvnr_step1_en << 1 | arg->uvnr_step2_en << 2 | arg->nr_gain_en << 3 | nobig_en << 5 | big_en << 6; if (en) val |= SW_NR_EN; rkispp_set_bits(params_vdev->dev, RKISPP_NR_UVNR_CTRL_PARA, SW_UVNR_STEP1_ON | SW_UVNR_STEP2_ON | SW_NR_GAIN_BYPASS | SW_UVNR_NOBIG_EN | SW_UVNR_BIG_EN | SW_NR_EN, val); } static void shp_config(struct rkispp_params_vdev *params_vdev, struct rkispp_sharp_config *arg) { u32 i, val; rkispp_set_bits(params_vdev->dev, RKISPP_SHARP_CTRL, SW_SHP_WR_ROT_MODE(3), SW_SHP_WR_ROT_MODE(arg->rotation)); rkispp_write(params_vdev->dev, RKISPP_SHARP_SC_DOWN, (arg->scl_down_v & 0x1) << 1 | (arg->scl_down_h & 0x1)); rkispp_write(params_vdev->dev, RKISPP_SHARP_TILE_IDX, (arg->tile_ycnt & 0x1F) << 8 | (arg->tile_xcnt & 0xFF)); rkispp_write(params_vdev->dev, RKISPP_SHARP_HBF_FACTOR, arg->hbf_ratio | arg->ehf_th << 16 | arg->pbf_ratio << 24); rkispp_write(params_vdev->dev, RKISPP_SHARP_EDGE_TH, arg->edge_thed | arg->dir_min << 8 | arg->smoth_th4 << 16); val = ISPP_PACK_2SHORT(arg->l_alpha, arg->g_alpha); rkispp_write(params_vdev->dev, RKISPP_SHARP_EDGE_ALPHA, val); val = ISPP_PACK_4BYTE(arg->pbf_k[0], arg->pbf_k[1], arg->pbf_k[2], 0); rkispp_write(params_vdev->dev, RKISPP_SHARP_PBF_KERNEL, val); val = ISPP_PACK_4BYTE(arg->mrf_k[0], arg->mrf_k[1], arg->mrf_k[2], arg->mrf_k[3]); rkispp_write(params_vdev->dev, RKISPP_SHARP_MRF_KERNEL0, val); val = ISPP_PACK_4BYTE(arg->mrf_k[4], arg->mrf_k[5], 0, 0); rkispp_write(params_vdev->dev, RKISPP_SHARP_MRF_KERNEL1, val); for (i = 0; i < SHP_MBF_KERNEL_SIZE; i += 4) { val = ISPP_PACK_4BYTE(arg->mbf_k[i], arg->mbf_k[i + 1], arg->mbf_k[i + 2], arg->mbf_k[i + 3]); rkispp_write(params_vdev->dev, RKISPP_SHARP_MBF_KERNEL0 + i, val); } val = ISPP_PACK_4BYTE(arg->hrf_k[0], arg->hrf_k[1], arg->hrf_k[2], arg->hrf_k[3]); rkispp_write(params_vdev->dev, RKISPP_SHARP_HRF_KERNEL0, val); val = ISPP_PACK_4BYTE(arg->hrf_k[4], arg->hrf_k[5], 0, 0); rkispp_write(params_vdev->dev, RKISPP_SHARP_HRF_KERNEL1, val); val = ISPP_PACK_4BYTE(arg->hbf_k[0], arg->hbf_k[1], arg->hbf_k[2], 0); rkispp_write(params_vdev->dev, RKISPP_SHARP_HBF_KERNEL, val); val = ISPP_PACK_4BYTE(arg->eg_coef[0], arg->eg_coef[1], arg->eg_coef[2], 0); rkispp_write(params_vdev->dev, RKISPP_SHARP_EDGE_COEF, val); val = ISPP_PACK_4BYTE(arg->eg_smoth[0], arg->eg_smoth[1], arg->eg_smoth[2], 0); rkispp_write(params_vdev->dev, RKISPP_SHARP_EDGE_SMOTH, val); val = ISPP_PACK_4BYTE(arg->eg_gaus[0], arg->eg_gaus[1], arg->eg_gaus[2], arg->eg_gaus[3]); rkispp_write(params_vdev->dev, RKISPP_SHARP_EDGE_GAUS0, val); val = ISPP_PACK_4BYTE(arg->eg_gaus[4], arg->eg_gaus[5], 0, 0); rkispp_write(params_vdev->dev, RKISPP_SHARP_EDGE_GAUS1, val); val = ISPP_PACK_4BYTE(arg->dog_k[0], arg->dog_k[1], arg->dog_k[2], arg->dog_k[3]); rkispp_write(params_vdev->dev, RKISPP_SHARP_DOG_KERNEL0, val); val = ISPP_PACK_4BYTE(arg->dog_k[4], arg->dog_k[5], 0, 0); rkispp_write(params_vdev->dev, RKISPP_SHARP_DOG_KERNEL1, val); val = ISPP_PACK_4BYTE(arg->lum_point[0], arg->lum_point[1], arg->lum_point[2], arg->lum_point[3]); rkispp_write(params_vdev->dev, RKISPP_SHARP_LUM_POINT0, val); val = ISPP_PACK_4BYTE(arg->lum_point[4], arg->lum_point[5], 0, 0); rkispp_write(params_vdev->dev, RKISPP_SHARP_LUM_POINT1, val); val = ISPP_PACK_4BYTE(arg->pbf_shf_bits, arg->mbf_shf_bits, arg->hbf_shf_bits, 0); rkispp_write(params_vdev->dev, RKISPP_SHARP_SHF_BITS, val); for (i = 0; i < SHP_SIGMA_SIZE; i += 4) { val = ISPP_PACK_4BYTE(arg->pbf_sigma[i], arg->pbf_sigma[i + 1], arg->pbf_sigma[i + 2], arg->pbf_sigma[i + 3]); rkispp_write(params_vdev->dev, RKISPP_SHARP_PBF_SIGMA_INV0 + i, val); val = ISPP_PACK_4BYTE(arg->mbf_sigma[i], arg->mbf_sigma[i + 1], arg->mbf_sigma[i + 2], arg->mbf_sigma[i + 3]); rkispp_write(params_vdev->dev, RKISPP_SHARP_MBF_SIGMA_INV0 + i, val); val = ISPP_PACK_4BYTE(arg->hbf_sigma[i], arg->hbf_sigma[i + 1], arg->hbf_sigma[i + 2], arg->hbf_sigma[i + 3]); rkispp_write(params_vdev->dev, RKISPP_SHARP_HBF_SIGMA_INV0 + i, val); } for (i = 0; i < SHP_LUM_CLP_SIZE; i += 4) { val = ISPP_PACK_4BYTE(arg->lum_clp_m[i], arg->lum_clp_m[i + 1], arg->lum_clp_m[i + 2], arg->lum_clp_m[i + 3]); rkispp_write(params_vdev->dev, RKISPP_SHARP_LUM_CLP_M0 + i, val); val = ISPP_PACK_4BYTE(arg->lum_clp_h[i], arg->lum_clp_h[i + 1], arg->lum_clp_h[i + 2], arg->lum_clp_h[i + 3]); rkispp_write(params_vdev->dev, RKISPP_SHARP_LUM_CLP_H0 + i, val); } for (i = 0; i < SHP_LUM_MIN_SIZE; i += 4) { val = ISPP_PACK_4BYTE(arg->lum_min_m[i], arg->lum_min_m[i + 1], arg->lum_min_m[i + 2], arg->lum_min_m[i + 3]); rkispp_write(params_vdev->dev, RKISPP_SHARP_LUM_MIN_M0 + i, val); } for (i = 0; i < SHP_EDGE_LUM_THED_SIZE; i += 4) { val = ISPP_PACK_4BYTE(arg->edge_lum_thed[i], arg->edge_lum_thed[i + 1], arg->edge_lum_thed[i + 2], arg->edge_lum_thed[i + 3]); rkispp_write(params_vdev->dev, RKISPP_SHARP_EDGE_LUM_THED0 + i, val); } for (i = 0; i < SHP_CLAMP_SIZE; i += 4) { val = ISPP_PACK_4BYTE(arg->clamp_pos[i], arg->clamp_pos[i + 1], arg->clamp_pos[i + 2], arg->clamp_pos[i + 3]); rkispp_write(params_vdev->dev, RKISPP_SHARP_CLAMP_POS_DOG0 + i, val); val = ISPP_PACK_4BYTE(arg->clamp_neg[i], arg->clamp_neg[i + 1], arg->clamp_neg[i + 2], arg->clamp_neg[i + 3]); rkispp_write(params_vdev->dev, RKISPP_SHARP_CLAMP_NEG_DOG0 + i, val); } for (i = 0; i < SHP_DETAIL_ALPHA_SIZE; i += 4) { val = ISPP_PACK_4BYTE(arg->detail_alpha[i], arg->detail_alpha[i + 1], arg->detail_alpha[i + 2], arg->detail_alpha[i + 3]); rkispp_write(params_vdev->dev, RKISPP_SHARP_DETAIL_ALPHA_DOG0 + i, val); } val = ISPP_PACK_2SHORT(arg->rfl_ratio, arg->rfh_ratio); rkispp_write(params_vdev->dev, RKISPP_SHARP_RF_RATIO, val); val = ISPP_PACK_4BYTE(arg->m_ratio, arg->h_ratio, 0, 0); rkispp_write(params_vdev->dev, RKISPP_SHARP_GRAD_RATIO, val); val = arg->alpha_adp_en << 1 | arg->yin_flt_en << 3 | arg->edge_avg_en << 4; rkispp_set_bits(params_vdev->dev, RKISPP_SHARP_CORE_CTRL, SW_SHP_ALPHA_ADP_EN | SW_SHP_YIN_FLT_EN | SW_SHP_EDGE_AVG_EN, val); } static void shp_enable(struct rkispp_params_vdev *params_vdev, bool en, struct rkispp_sharp_config *arg) { u32 ens = params_vdev->dev->stream_vdev.module_ens; u32 val; if (en && !(ens & ISPP_MODULE_FEC)) { rkispp_set_bits(params_vdev->dev, RKISPP_SCL0_CTRL, SW_SCL_FIRST_MODE, SW_SCL_FIRST_MODE); rkispp_set_bits(params_vdev->dev, RKISPP_SCL1_CTRL, SW_SCL_FIRST_MODE, SW_SCL_FIRST_MODE); rkispp_set_bits(params_vdev->dev, RKISPP_SCL2_CTRL, SW_SCL_FIRST_MODE, SW_SCL_FIRST_MODE); } else { rkispp_clear_bits(params_vdev->dev, RKISPP_SCL0_CTRL, SW_SCL_FIRST_MODE); rkispp_clear_bits(params_vdev->dev, RKISPP_SCL1_CTRL, SW_SCL_FIRST_MODE); rkispp_clear_bits(params_vdev->dev, RKISPP_SCL2_CTRL, SW_SCL_FIRST_MODE); } val = arg->alpha_adp_en << 1 | arg->yin_flt_en << 3 | arg->edge_avg_en << 4; if (en) val |= SW_SHP_EN; rkispp_set_bits(params_vdev->dev, RKISPP_SHARP_CORE_CTRL, SW_SHP_ALPHA_ADP_EN | SW_SHP_YIN_FLT_EN | SW_SHP_EDGE_AVG_EN | SW_SHP_EN, val); } static void fec_config(struct rkispp_params_vdev *params_vdev, struct rkispp_fec_config *arg) { struct rkispp_device *dev = params_vdev->dev; struct rkispp_fec_head *fec_data; u32 width, height, mesh_size; dma_addr_t dma_addr; u32 val, i, buf_idx; width = dev->ispp_sdev.out_fmt.width; height = dev->ispp_sdev.out_fmt.height; mesh_size = cal_fec_mesh(width, height, 0); if (arg->mesh_size > mesh_size) { v4l2_err(&dev->v4l2_dev, "Input mesh size too large. mesh size 0x%x, 0x%x\n", arg->mesh_size, mesh_size); return; } for (i = 0; i < params_vdev->buf_cnt; i++) { if (arg->buf_fd == params_vdev->buf_fec[i].dma_fd) break; } if (i == params_vdev->buf_cnt) { dev_err(dev->dev, "cannot find fec buf fd(%d)\n", arg->buf_fd); return; } if (!params_vdev->buf_fec[i].vaddr) { dev_err(dev->dev, "no fec buffer allocated\n"); return; } buf_idx = params_vdev->buf_fec_idx; fec_data = (struct rkispp_fec_head *)params_vdev->buf_fec[buf_idx].vaddr; fec_data->stat = FEC_BUF_INIT; buf_idx = i; fec_data = (struct rkispp_fec_head *)params_vdev->buf_fec[buf_idx].vaddr; fec_data->stat = FEC_BUF_CHIPINUSE; params_vdev->buf_fec_idx = buf_idx; rkispp_prepare_buffer(dev, ¶ms_vdev->buf_fec[buf_idx]); dma_addr = params_vdev->buf_fec[buf_idx].dma_addr; val = dma_addr + fec_data->meshxf_oft; rkispp_write(params_vdev->dev, RKISPP_FEC_MESH_XFRA_BASE, val); val = dma_addr + fec_data->meshyf_oft; rkispp_write(params_vdev->dev, RKISPP_FEC_MESH_YFRA_BASE, val); val = dma_addr + fec_data->meshxi_oft; rkispp_write(params_vdev->dev, RKISPP_FEC_MESH_XINT_BASE, val); val = dma_addr + fec_data->meshyi_oft; rkispp_write(params_vdev->dev, RKISPP_FEC_MESH_YINT_BASE, val); val = 0; if (arg->mesh_density) val = SW_MESH_DENSITY; rkispp_set_bits(params_vdev->dev, RKISPP_FEC_CORE_CTRL, SW_MESH_DENSITY, val); rkispp_write(params_vdev->dev, RKISPP_FEC_MESH_SIZE, arg->mesh_size); val = (arg->crop_height & 0x1FFFF) << 14 | (arg->crop_width & 0x1FFFF) << 1 | (arg->crop_en & 0x01); rkispp_write(params_vdev->dev, RKISPP_FEC_CROP, val); } static void fec_enable(struct rkispp_params_vdev *params_vdev, bool en) { struct rkispp_device *dev = params_vdev->dev; u32 buf_idx; if (en) { buf_idx = params_vdev->buf_fec_idx; if (!params_vdev->buf_fec[buf_idx].vaddr) { dev_err(dev->dev, "no fec buffer allocated\n"); return; } rkispp_clear_bits(params_vdev->dev, RKISPP_SCL0_CTRL, SW_SCL_FIRST_MODE); rkispp_clear_bits(params_vdev->dev, RKISPP_SCL1_CTRL, SW_SCL_FIRST_MODE); rkispp_clear_bits(params_vdev->dev, RKISPP_SCL2_CTRL, SW_SCL_FIRST_MODE); } rkispp_set_bits(params_vdev->dev, RKISPP_FEC_CORE_CTRL, SW_FEC_EN, en); } static void orb_config(struct rkispp_params_vdev *params_vdev, struct rkispp_orb_config *arg) { rkispp_write(params_vdev->dev, RKISPP_ORB_LIMIT_VALUE, arg->limit_value & 0xFF); rkispp_write(params_vdev->dev, RKISPP_ORB_MAX_FEATURE, arg->max_feature & 0x1FFFFF); } static void orb_enable(struct rkispp_params_vdev *params_vdev, bool en) { rkispp_set_bits(params_vdev->dev, RKISPP_ORB_CORE_CTRL, SW_ORB_EN, en); } static void params_vb2_buf_queue(struct vb2_buffer *vb) { struct vb2_v4l2_buffer *vbuf = to_vb2_v4l2_buffer(vb); struct rkispp_buffer *params_buf = to_rkispp_buffer(vbuf); struct vb2_queue *vq = vb->vb2_queue; struct rkispp_params_vdev *params_vdev = vq->drv_priv; struct rkispp_device *dev = params_vdev->dev; struct rkispp_stream_vdev *vdev = &dev->stream_vdev; unsigned long flags; spin_lock_irqsave(¶ms_vdev->config_lock, flags); if (params_vdev->first_params) { params_vdev->first_params = false; if (params_vdev->vdev_id == PARAM_VDEV_NR) wake_up(¶ms_vdev->dev->sync_onoff); } spin_unlock_irqrestore(¶ms_vdev->config_lock, flags); params_buf->vaddr[0] = vb2_plane_vaddr(vb, 0); spin_lock_irqsave(¶ms_vdev->config_lock, flags); list_add_tail(¶ms_buf->queue, ¶ms_vdev->params); spin_unlock_irqrestore(¶ms_vdev->config_lock, flags); if (params_vdev->vdev_id == PARAM_VDEV_NR) { struct rkisp_ispp_buf *buf_rd = NULL; spin_lock_irqsave(&vdev->tnr.buf_lock, flags); if (!list_empty(&vdev->tnr.list_rpt)) { buf_rd = list_first_entry(&vdev->tnr.list_rpt, struct rkisp_ispp_buf, list); list_del(&buf_rd->list); } spin_unlock_irqrestore(&vdev->tnr.buf_lock, flags); vdev->stream_ops->rkispp_module_work_event(dev, buf_rd, NULL, ISPP_MODULE_NR, false); } else if (params_vdev->vdev_id == PARAM_VDEV_FEC) { struct rkispp_dummy_buffer *buf_rd = NULL; spin_lock_irqsave(&vdev->nr.buf_lock, flags); if (!list_empty(&vdev->nr.list_rpt)) { buf_rd = list_first_entry(&vdev->nr.list_rpt, struct rkispp_dummy_buffer, list); list_del(&buf_rd->list); list_add_tail(&buf_rd->list, &vdev->fec.list_rd); } spin_unlock_irqrestore(&vdev->nr.buf_lock, flags); } } static void fec_data_abandon(struct rkispp_params_vdev *vdev, struct rkispp_params_feccfg *params) { struct rkispp_fec_head *data; int i; for (i = 0; i < vdev->buf_cnt; i++) { if (params->fec_cfg.buf_fd == vdev->buf_fec[i].dma_fd) { data = (struct rkispp_fec_head *)vdev->buf_fec[i].vaddr; if (data) data->stat = FEC_BUF_INIT; break; } } } static void rkispp_params_cfg(struct rkispp_params_vdev *params_vdev, u32 frame_id) { struct rkispp_params_cfghead *param_head = NULL; u32 module_en_update, module_cfg_update, module_ens; spin_lock(¶ms_vdev->config_lock); if (!params_vdev->streamon) { spin_unlock(¶ms_vdev->config_lock); return; } /* get buffer by frame_id */ while (!list_empty(¶ms_vdev->params) && !params_vdev->cur_buf) { params_vdev->cur_buf = list_first_entry(¶ms_vdev->params, struct rkispp_buffer, queue); param_head = (struct rkispp_params_cfghead *)(params_vdev->cur_buf->vaddr[0]); if (param_head->frame_id < frame_id) { list_del(¶ms_vdev->cur_buf->queue); /* force to on/off module */ if (param_head->module_en_update) break; if (param_head->module_cfg_update & ISPP_MODULE_FEC) fec_data_abandon(params_vdev, (struct rkispp_params_feccfg *)param_head); vb2_buffer_done(¶ms_vdev->cur_buf->vb.vb2_buf, VB2_BUF_STATE_DONE); params_vdev->cur_buf = NULL; continue; } else if (param_head->frame_id == frame_id) { list_del(¶ms_vdev->cur_buf->queue); } else { params_vdev->cur_buf = NULL; } break; } if (!params_vdev->cur_buf) { spin_unlock(¶ms_vdev->config_lock); return; } param_head = (struct rkispp_params_cfghead *)(params_vdev->cur_buf->vaddr[0]); module_en_update = param_head->module_en_update; module_cfg_update = param_head->module_cfg_update; module_ens = param_head->module_ens; if (params_vdev->dev->hw_dev->is_fec_ext) { module_en_update &= ~ISPP_MODULE_FEC; module_cfg_update &= ~ISPP_MODULE_FEC; module_ens &= ~ISPP_MODULE_FEC; } if (params_vdev->vdev_id == PARAM_VDEV_TNR) { struct rkispp_params_tnrcfg *tnr_params; tnr_params = (struct rkispp_params_tnrcfg *)param_head; if (module_cfg_update & ISPP_MODULE_TNR) tnr_config(params_vdev, &tnr_params->tnr_cfg); if (module_en_update & ISPP_MODULE_TNR) tnr_enable(params_vdev, !!(module_ens & ISPP_MODULE_TNR)); } else if (params_vdev->vdev_id == PARAM_VDEV_NR) { struct rkispp_params_nrcfg *nr_params; nr_params = (struct rkispp_params_nrcfg *)param_head; if (module_cfg_update & ISPP_MODULE_NR) nr_config(params_vdev, &nr_params->nr_cfg); if (module_en_update & ISPP_MODULE_NR) nr_enable(params_vdev, !!(module_ens & ISPP_MODULE_NR), &nr_params->nr_cfg); if (module_cfg_update & ISPP_MODULE_SHP) shp_config(params_vdev, &nr_params->shp_cfg); if (module_en_update & ISPP_MODULE_SHP) shp_enable(params_vdev, !!(module_ens & ISPP_MODULE_SHP), &nr_params->shp_cfg); if (module_cfg_update & ISPP_MODULE_ORB) orb_config(params_vdev, &nr_params->orb_cfg); if (module_en_update & ISPP_MODULE_ORB) orb_enable(params_vdev, !!(module_ens & ISPP_MODULE_ORB)); } else { struct rkispp_params_feccfg *fec_params; fec_params = (struct rkispp_params_feccfg *)param_head; if (module_cfg_update & ISPP_MODULE_FEC) fec_config(params_vdev, &fec_params->fec_cfg); if (module_en_update & ISPP_MODULE_FEC) fec_enable(params_vdev, !!(module_ens & ISPP_MODULE_FEC)); } vb2_buffer_done(¶ms_vdev->cur_buf->vb.vb2_buf, VB2_BUF_STATE_DONE); params_vdev->cur_buf = NULL; spin_unlock(¶ms_vdev->config_lock); } static struct rkispp_params_ops rkispp_params_ops = { .rkispp_params_cfg = rkispp_params_cfg, .rkispp_params_vb2_buf_queue = params_vb2_buf_queue, }; void rkispp_params_init_ops_v10(struct rkispp_params_vdev *params_vdev) { params_vdev->params_ops = &rkispp_params_ops; }