Author | Tokens | Token Proportion | Commits | Commit Proportion |
---|---|---|---|---|
Bhawanpreet Lakha | 1771 | 100.00% | 1 | 100.00% |
Total | 1771 | 1 |
/* * Copyright 2020 Advanced Micro Devices, Inc. * * Permission is hereby granted, free of charge, to any person obtaining a * copy of this software and associated documentation files (the "Software"), * to deal in the Software without restriction, including without limitation * the rights to use, copy, modify, merge, publish, distribute, sublicense, * and/or sell copies of the Software, and to permit persons to whom the * Software is furnished to do so, subject to the following conditions: * * The above copyright notice and this permission notice shall be included in * all copies or substantial portions of the Software. * * THE SOFTWARE IS PROVIDED "AS IS", WITHOUT WARRANTY OF ANY KIND, EXPRESS OR * IMPLIED, INCLUDING BUT NOT LIMITED TO THE WARRANTIES OF MERCHANTABILITY, * FITNESS FOR A PARTICULAR PURPOSE AND NONINFRINGEMENT. IN NO EVENT SHALL * THE COPYRIGHT HOLDER(S) OR AUTHOR(S) BE LIABLE FOR ANY CLAIM, DAMAGES OR * OTHER LIABILITY, WHETHER IN AN ACTION OF CONTRACT, TORT OR OTHERWISE, * ARISING FROM, OUT OF OR IN CONNECTION WITH THE SOFTWARE OR THE USE OR * OTHER DEALINGS IN THE SOFTWARE. * * Authors: AMD * */ #include "reg_helper.h" #include "fixed31_32.h" #include "resource.h" #include "basics/conversion.h" #include "dwb.h" #include "dcn30_dwb.h" #include "dcn30_cm_common.h" #include "dcn10/dcn10_cm_common.h" #define REG(reg)\ dwbc30->dwbc_regs->reg #define CTX \ dwbc30->base.ctx #undef FN #define FN(reg_name, field_name) \ dwbc30->dwbc_shift->field_name, dwbc30->dwbc_mask->field_name #define TO_DCN30_DWBC(dwbc_base) \ container_of(dwbc_base, struct dcn30_dwbc, base) static void dwb3_get_reg_field_ogam(struct dcn30_dwbc *dwbc30, struct dcn3_xfer_func_reg *reg) { reg->shifts.exp_region0_lut_offset = dwbc30->dwbc_shift->DWB_OGAM_RAMA_EXP_REGION0_LUT_OFFSET; reg->masks.exp_region0_lut_offset = dwbc30->dwbc_mask->DWB_OGAM_RAMA_EXP_REGION0_LUT_OFFSET; reg->shifts.exp_region0_num_segments = dwbc30->dwbc_shift->DWB_OGAM_RAMA_EXP_REGION0_NUM_SEGMENTS; reg->masks.exp_region0_num_segments = dwbc30->dwbc_mask->DWB_OGAM_RAMA_EXP_REGION0_NUM_SEGMENTS; reg->shifts.exp_region1_lut_offset = dwbc30->dwbc_shift->DWB_OGAM_RAMA_EXP_REGION1_LUT_OFFSET; reg->masks.exp_region1_lut_offset = dwbc30->dwbc_mask->DWB_OGAM_RAMA_EXP_REGION1_LUT_OFFSET; reg->shifts.exp_region1_num_segments = dwbc30->dwbc_shift->DWB_OGAM_RAMA_EXP_REGION1_NUM_SEGMENTS; reg->masks.exp_region1_num_segments = dwbc30->dwbc_mask->DWB_OGAM_RAMA_EXP_REGION1_NUM_SEGMENTS; reg->shifts.field_region_end = dwbc30->dwbc_shift->DWB_OGAM_RAMA_EXP_REGION_END_B; reg->masks.field_region_end = dwbc30->dwbc_mask->DWB_OGAM_RAMA_EXP_REGION_END_B; reg->shifts.field_region_end_slope = dwbc30->dwbc_shift->DWB_OGAM_RAMA_EXP_REGION_END_SLOPE_B; reg->masks.field_region_end_slope = dwbc30->dwbc_mask->DWB_OGAM_RAMA_EXP_REGION_END_SLOPE_B; reg->shifts.field_region_end_base = dwbc30->dwbc_shift->DWB_OGAM_RAMA_EXP_REGION_END_BASE_B; reg->masks.field_region_end_base = dwbc30->dwbc_mask->DWB_OGAM_RAMA_EXP_REGION_END_BASE_B; reg->shifts.field_region_linear_slope = dwbc30->dwbc_shift->DWB_OGAM_RAMA_EXP_REGION_START_SLOPE_B; reg->masks.field_region_linear_slope = dwbc30->dwbc_mask->DWB_OGAM_RAMA_EXP_REGION_START_SLOPE_B; reg->masks.field_offset = dwbc30->dwbc_mask->DWB_OGAM_RAMA_OFFSET_B; reg->shifts.field_offset = dwbc30->dwbc_shift->DWB_OGAM_RAMA_OFFSET_B; reg->shifts.exp_region_start = dwbc30->dwbc_shift->DWB_OGAM_RAMA_EXP_REGION_START_B; reg->masks.exp_region_start = dwbc30->dwbc_mask->DWB_OGAM_RAMA_EXP_REGION_START_B; reg->shifts.exp_resion_start_segment = dwbc30->dwbc_shift->DWB_OGAM_RAMA_EXP_REGION_START_SEGMENT_B; reg->masks.exp_resion_start_segment = dwbc30->dwbc_mask->DWB_OGAM_RAMA_EXP_REGION_START_SEGMENT_B; } /*program dwb ogam RAM A*/ static void dwb3_program_ogam_luta_settings( struct dcn30_dwbc *dwbc30, const struct pwl_params *params) { struct dcn3_xfer_func_reg gam_regs; dwb3_get_reg_field_ogam(dwbc30, &gam_regs); gam_regs.start_cntl_b = REG(DWB_OGAM_RAMA_START_CNTL_B); gam_regs.start_cntl_g = REG(DWB_OGAM_RAMA_START_CNTL_G); gam_regs.start_cntl_r = REG(DWB_OGAM_RAMA_START_CNTL_R); gam_regs.start_base_cntl_b = REG(DWB_OGAM_RAMA_START_BASE_CNTL_B); gam_regs.start_base_cntl_g = REG(DWB_OGAM_RAMA_START_BASE_CNTL_G); gam_regs.start_base_cntl_r = REG(DWB_OGAM_RAMA_START_BASE_CNTL_R); gam_regs.start_slope_cntl_b = REG(DWB_OGAM_RAMA_START_SLOPE_CNTL_B); gam_regs.start_slope_cntl_g = REG(DWB_OGAM_RAMA_START_SLOPE_CNTL_G); gam_regs.start_slope_cntl_r = REG(DWB_OGAM_RAMA_START_SLOPE_CNTL_R); gam_regs.start_end_cntl1_b = REG(DWB_OGAM_RAMA_END_CNTL1_B); gam_regs.start_end_cntl2_b = REG(DWB_OGAM_RAMA_END_CNTL2_B); gam_regs.start_end_cntl1_g = REG(DWB_OGAM_RAMA_END_CNTL1_G); gam_regs.start_end_cntl2_g = REG(DWB_OGAM_RAMA_END_CNTL2_G); gam_regs.start_end_cntl1_r = REG(DWB_OGAM_RAMA_END_CNTL1_R); gam_regs.start_end_cntl2_r = REG(DWB_OGAM_RAMA_END_CNTL2_R); gam_regs.offset_b = REG(DWB_OGAM_RAMA_OFFSET_B); gam_regs.offset_g = REG(DWB_OGAM_RAMA_OFFSET_G); gam_regs.offset_r = REG(DWB_OGAM_RAMA_OFFSET_R); gam_regs.region_start = REG(DWB_OGAM_RAMA_REGION_0_1); gam_regs.region_end = REG(DWB_OGAM_RAMA_REGION_32_33); /*todo*/ cm_helper_program_gamcor_xfer_func(dwbc30->base.ctx, params, &gam_regs); } /*program dwb ogam RAM B*/ static void dwb3_program_ogam_lutb_settings( struct dcn30_dwbc *dwbc30, const struct pwl_params *params) { struct dcn3_xfer_func_reg gam_regs; dwb3_get_reg_field_ogam(dwbc30, &gam_regs); gam_regs.start_cntl_b = REG(DWB_OGAM_RAMB_START_CNTL_B); gam_regs.start_cntl_g = REG(DWB_OGAM_RAMB_START_CNTL_G); gam_regs.start_cntl_r = REG(DWB_OGAM_RAMB_START_CNTL_R); gam_regs.start_base_cntl_b = REG(DWB_OGAM_RAMB_START_BASE_CNTL_B); gam_regs.start_base_cntl_g = REG(DWB_OGAM_RAMB_START_BASE_CNTL_G); gam_regs.start_base_cntl_r = REG(DWB_OGAM_RAMB_START_BASE_CNTL_R); gam_regs.start_slope_cntl_b = REG(DWB_OGAM_RAMB_START_SLOPE_CNTL_B); gam_regs.start_slope_cntl_g = REG(DWB_OGAM_RAMB_START_SLOPE_CNTL_G); gam_regs.start_slope_cntl_r = REG(DWB_OGAM_RAMB_START_SLOPE_CNTL_R); gam_regs.start_end_cntl1_b = REG(DWB_OGAM_RAMB_END_CNTL1_B); gam_regs.start_end_cntl2_b = REG(DWB_OGAM_RAMB_END_CNTL2_B); gam_regs.start_end_cntl1_g = REG(DWB_OGAM_RAMB_END_CNTL1_G); gam_regs.start_end_cntl2_g = REG(DWB_OGAM_RAMB_END_CNTL2_G); gam_regs.start_end_cntl1_r = REG(DWB_OGAM_RAMB_END_CNTL1_R); gam_regs.start_end_cntl2_r = REG(DWB_OGAM_RAMB_END_CNTL2_R); gam_regs.offset_b = REG(DWB_OGAM_RAMB_OFFSET_B); gam_regs.offset_g = REG(DWB_OGAM_RAMB_OFFSET_G); gam_regs.offset_r = REG(DWB_OGAM_RAMB_OFFSET_R); gam_regs.region_start = REG(DWB_OGAM_RAMB_REGION_0_1); gam_regs.region_end = REG(DWB_OGAM_RAMB_REGION_32_33); cm_helper_program_gamcor_xfer_func(dwbc30->base.ctx, params, &gam_regs); } static enum dc_lut_mode dwb3_get_ogam_current( struct dcn30_dwbc *dwbc30) { enum dc_lut_mode mode; uint32_t state_mode; uint32_t ram_select; REG_GET(DWB_OGAM_CONTROL, DWB_OGAM_MODE, &state_mode); REG_GET(DWB_OGAM_CONTROL, DWB_OGAM_SELECT, &ram_select); if (state_mode == 0) { mode = LUT_BYPASS; } else if (state_mode == 2) { if (ram_select == 0) mode = LUT_RAM_A; else mode = LUT_RAM_B; } else { // Reserved value mode = LUT_BYPASS; BREAK_TO_DEBUGGER(); return mode; } return mode; } static void dwb3_configure_ogam_lut( struct dcn30_dwbc *dwbc30, bool is_ram_a) { REG_UPDATE(DWB_OGAM_LUT_CONTROL, DWB_OGAM_LUT_READ_COLOR_SEL, 7); REG_UPDATE(DWB_OGAM_CONTROL, DWB_OGAM_SELECT, is_ram_a == true ? 0 : 1); REG_SET(DWB_OGAM_LUT_INDEX, 0, DWB_OGAM_LUT_INDEX, 0); } static void dwb3_program_ogam_pwl(struct dcn30_dwbc *dwbc30, const struct pwl_result_data *rgb, uint32_t num) { uint32_t i; // triple base implementation for (i = 0; i < num/2; i++) { REG_SET(DWB_OGAM_LUT_DATA, 0, DWB_OGAM_LUT_DATA, rgb[2*i+0].red_reg); REG_SET(DWB_OGAM_LUT_DATA, 0, DWB_OGAM_LUT_DATA, rgb[2*i+0].green_reg); REG_SET(DWB_OGAM_LUT_DATA, 0, DWB_OGAM_LUT_DATA, rgb[2*i+0].blue_reg); REG_SET(DWB_OGAM_LUT_DATA, 0, DWB_OGAM_LUT_DATA, rgb[2*i+1].red_reg); REG_SET(DWB_OGAM_LUT_DATA, 0, DWB_OGAM_LUT_DATA, rgb[2*i+1].green_reg); REG_SET(DWB_OGAM_LUT_DATA, 0, DWB_OGAM_LUT_DATA, rgb[2*i+1].blue_reg); REG_SET(DWB_OGAM_LUT_DATA, 0, DWB_OGAM_LUT_DATA, rgb[2*i+2].red_reg); REG_SET(DWB_OGAM_LUT_DATA, 0, DWB_OGAM_LUT_DATA, rgb[2*i+2].green_reg); REG_SET(DWB_OGAM_LUT_DATA, 0, DWB_OGAM_LUT_DATA, rgb[2*i+2].blue_reg); } } static bool dwb3_program_ogam_lut( struct dcn30_dwbc *dwbc30, const struct pwl_params *params) { enum dc_lut_mode current_mode; enum dc_lut_mode next_mode; if (params == NULL) { REG_SET(DWB_OGAM_CONTROL, 0, DWB_OGAM_MODE, 0); return false; } current_mode = dwb3_get_ogam_current(dwbc30); if (current_mode == LUT_BYPASS || current_mode == LUT_RAM_A) next_mode = LUT_RAM_B; else next_mode = LUT_RAM_A; dwb3_configure_ogam_lut(dwbc30, next_mode == LUT_RAM_A ? true : false); if (next_mode == LUT_RAM_A) dwb3_program_ogam_luta_settings(dwbc30, params); else dwb3_program_ogam_lutb_settings(dwbc30, params); dwb3_program_ogam_pwl( dwbc30, params->rgb_resulted, params->hw_points_num); REG_SET(DWB_OGAM_CONTROL, 0, DWB_OGAM_MODE, 2); REG_SET(DWB_OGAM_CONTROL, 0, DWB_OGAM_SELECT, next_mode == LUT_RAM_A ? 0 : 1); return true; } bool dwb3_ogam_set_input_transfer_func( struct dwbc *dwbc, const struct dc_transfer_func *in_transfer_func_dwb_ogam) { struct dcn30_dwbc *dwbc30 = TO_DCN30_DWBC(dwbc); bool result = false; struct pwl_params *dwb_ogam_lut = NULL; if (in_transfer_func_dwb_ogam == NULL) return result; dwb_ogam_lut = kzalloc(sizeof(*dwb_ogam_lut), GFP_KERNEL); if (dwb_ogam_lut) { cm_helper_translate_curve_to_hw_format( in_transfer_func_dwb_ogam, dwb_ogam_lut, false); result = dwb3_program_ogam_lut( dwbc30, dwb_ogam_lut); kfree(dwb_ogam_lut); dwb_ogam_lut = NULL; } return result; } static void dwb3_program_gamut_remap( struct dwbc *dwbc, const uint16_t *regval, enum cm_gamut_coef_format coef_format, enum cm_gamut_remap_select select) { struct dcn30_dwbc *dwbc30 = TO_DCN30_DWBC(dwbc); struct color_matrices_reg gam_regs; REG_UPDATE(DWB_GAMUT_REMAP_COEF_FORMAT, DWB_GAMUT_REMAP_COEF_FORMAT, coef_format); if (regval == NULL || select == CM_GAMUT_REMAP_MODE_BYPASS) { REG_SET(DWB_GAMUT_REMAP_MODE, 0, DWB_GAMUT_REMAP_MODE, 0); return; } switch (select) { case CM_GAMUT_REMAP_MODE_RAMA_COEFF: gam_regs.csc_c11_c12 = REG(DWB_GAMUT_REMAPA_C11_C12); gam_regs.csc_c33_c34 = REG(DWB_GAMUT_REMAPA_C33_C34); cm_helper_program_color_matrices( dwbc30->base.ctx, regval, &gam_regs); break; case CM_GAMUT_REMAP_MODE_RAMB_COEFF: gam_regs.csc_c11_c12 = REG(DWB_GAMUT_REMAPB_C11_C12); gam_regs.csc_c33_c34 = REG(DWB_GAMUT_REMAPB_C33_C34); cm_helper_program_color_matrices( dwbc30->base.ctx, regval, &gam_regs); break; case CM_GAMUT_REMAP_MODE_RESERVED: /* should never happen, bug */ BREAK_TO_DEBUGGER(); return; default: break; } REG_SET(DWB_GAMUT_REMAP_MODE, 0, DWB_GAMUT_REMAP_MODE, select); } void dwb3_set_gamut_remap( struct dwbc *dwbc, const struct dc_dwb_params *params) { struct dcn30_dwbc *dwbc30 = TO_DCN30_DWBC(dwbc); struct cm_grph_csc_adjustment adjust = params->csc_params; int i = 0; if (adjust.gamut_adjust_type != CM_GAMUT_ADJUST_TYPE_SW) { /* Bypass if type is bypass or hw */ dwb3_program_gamut_remap(dwbc, NULL, adjust.gamut_coef_format, CM_GAMUT_REMAP_MODE_BYPASS); } else { struct fixed31_32 arr_matrix[12]; uint16_t arr_reg_val[12]; unsigned int current_mode; for (i = 0; i < 12; i++) arr_matrix[i] = adjust.temperature_matrix[i]; convert_float_matrix(arr_reg_val, arr_matrix, 12); REG_GET(DWB_GAMUT_REMAP_MODE, DWB_GAMUT_REMAP_MODE_CURRENT, ¤t_mode); if (current_mode == CM_GAMUT_REMAP_MODE_RAMA_COEFF) { dwb3_program_gamut_remap(dwbc, arr_reg_val, adjust.gamut_coef_format, CM_GAMUT_REMAP_MODE_RAMB_COEFF); } else { dwb3_program_gamut_remap(dwbc, arr_reg_val, adjust.gamut_coef_format, CM_GAMUT_REMAP_MODE_RAMA_COEFF); } } } void dwb3_program_hdr_mult( struct dwbc *dwbc, const struct dc_dwb_params *params) { struct dcn30_dwbc *dwbc30 = TO_DCN30_DWBC(dwbc); REG_UPDATE(DWB_HDR_MULT_COEF, DWB_HDR_MULT_COEF, params->hdr_mult); }
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