Author | Tokens | Token Proportion | Commits | Commit Proportion |
---|---|---|---|---|
Roman Li | 1019 | 66.17% | 1 | 5.56% |
Hamza Mahfooz | 151 | 9.81% | 1 | 5.56% |
Taimur Hassan | 146 | 9.48% | 4 | 22.22% |
Michael Strauss | 65 | 4.22% | 2 | 11.11% |
Jake Wang | 53 | 3.44% | 1 | 5.56% |
Nicholas Kazlauskas | 49 | 3.18% | 2 | 11.11% |
Rizvi | 37 | 2.40% | 1 | 5.56% |
Daniel Miess | 6 | 0.39% | 2 | 11.11% |
Ilya Bakoulin | 6 | 0.39% | 1 | 5.56% |
Yue Hin Lau | 5 | 0.32% | 1 | 5.56% |
Jiapeng Chong | 2 | 0.13% | 1 | 5.56% |
Tom Rix | 1 | 0.06% | 1 | 5.56% |
Total | 1540 | 18 |
// SPDX-License-Identifier: MIT /* * Copyright 2022 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 "core_types.h" #include "dcn31/dcn31_dccg.h" #include "dcn314_dccg.h" #define TO_DCN_DCCG(dccg)\ container_of(dccg, struct dcn_dccg, base) #define REG(reg) \ (dccg_dcn->regs->reg) #undef FN #define FN(reg_name, field_name) \ dccg_dcn->dccg_shift->field_name, dccg_dcn->dccg_mask->field_name #define CTX \ dccg_dcn->base.ctx #define DC_LOGGER \ dccg->ctx->logger static void dccg314_trigger_dio_fifo_resync( struct dccg *dccg) { struct dcn_dccg *dccg_dcn = TO_DCN_DCCG(dccg); uint32_t dispclk_rdivider_value = 0; REG_GET(DENTIST_DISPCLK_CNTL, DENTIST_DISPCLK_RDIVIDER, &dispclk_rdivider_value); REG_UPDATE(DENTIST_DISPCLK_CNTL, DENTIST_DISPCLK_WDIVIDER, dispclk_rdivider_value); } static void dccg314_get_pixel_rate_div( struct dccg *dccg, uint32_t otg_inst, enum pixel_rate_div *k1, enum pixel_rate_div *k2) { struct dcn_dccg *dccg_dcn = TO_DCN_DCCG(dccg); uint32_t val_k1 = PIXEL_RATE_DIV_NA, val_k2 = PIXEL_RATE_DIV_NA; *k1 = PIXEL_RATE_DIV_NA; *k2 = PIXEL_RATE_DIV_NA; switch (otg_inst) { case 0: REG_GET_2(OTG_PIXEL_RATE_DIV, OTG0_PIXEL_RATE_DIVK1, &val_k1, OTG0_PIXEL_RATE_DIVK2, &val_k2); break; case 1: REG_GET_2(OTG_PIXEL_RATE_DIV, OTG1_PIXEL_RATE_DIVK1, &val_k1, OTG1_PIXEL_RATE_DIVK2, &val_k2); break; case 2: REG_GET_2(OTG_PIXEL_RATE_DIV, OTG2_PIXEL_RATE_DIVK1, &val_k1, OTG2_PIXEL_RATE_DIVK2, &val_k2); break; case 3: REG_GET_2(OTG_PIXEL_RATE_DIV, OTG3_PIXEL_RATE_DIVK1, &val_k1, OTG3_PIXEL_RATE_DIVK2, &val_k2); break; default: BREAK_TO_DEBUGGER(); return; } *k1 = (enum pixel_rate_div)val_k1; *k2 = (enum pixel_rate_div)val_k2; } static void dccg314_set_pixel_rate_div( struct dccg *dccg, uint32_t otg_inst, enum pixel_rate_div k1, enum pixel_rate_div k2) { struct dcn_dccg *dccg_dcn = TO_DCN_DCCG(dccg); enum pixel_rate_div cur_k1 = PIXEL_RATE_DIV_NA, cur_k2 = PIXEL_RATE_DIV_NA; // Don't program 0xF into the register field. Not valid since // K1 / K2 field is only 1 / 2 bits wide if (k1 == PIXEL_RATE_DIV_NA || k2 == PIXEL_RATE_DIV_NA) { BREAK_TO_DEBUGGER(); return; } dccg314_get_pixel_rate_div(dccg, otg_inst, &cur_k1, &cur_k2); if (k1 == cur_k1 && k2 == cur_k2) return; switch (otg_inst) { case 0: REG_UPDATE_2(OTG_PIXEL_RATE_DIV, OTG0_PIXEL_RATE_DIVK1, k1, OTG0_PIXEL_RATE_DIVK2, k2); break; case 1: REG_UPDATE_2(OTG_PIXEL_RATE_DIV, OTG1_PIXEL_RATE_DIVK1, k1, OTG1_PIXEL_RATE_DIVK2, k2); break; case 2: REG_UPDATE_2(OTG_PIXEL_RATE_DIV, OTG2_PIXEL_RATE_DIVK1, k1, OTG2_PIXEL_RATE_DIVK2, k2); break; case 3: REG_UPDATE_2(OTG_PIXEL_RATE_DIV, OTG3_PIXEL_RATE_DIVK1, k1, OTG3_PIXEL_RATE_DIVK2, k2); break; default: BREAK_TO_DEBUGGER(); return; } } static void dccg314_set_dtbclk_p_src( struct dccg *dccg, enum streamclk_source src, uint32_t otg_inst) { struct dcn_dccg *dccg_dcn = TO_DCN_DCCG(dccg); uint32_t p_src_sel = 0; /* selects dprefclk */ if (src == DTBCLK0) p_src_sel = 2; /* selects dtbclk0 */ switch (otg_inst) { case 0: if (src == REFCLK) REG_UPDATE(DTBCLK_P_CNTL, DTBCLK_P0_EN, 0); else REG_UPDATE_2(DTBCLK_P_CNTL, DTBCLK_P0_SRC_SEL, p_src_sel, DTBCLK_P0_EN, 1); break; case 1: if (src == REFCLK) REG_UPDATE(DTBCLK_P_CNTL, DTBCLK_P1_EN, 0); else REG_UPDATE_2(DTBCLK_P_CNTL, DTBCLK_P1_SRC_SEL, p_src_sel, DTBCLK_P1_EN, 1); break; case 2: if (src == REFCLK) REG_UPDATE(DTBCLK_P_CNTL, DTBCLK_P2_EN, 0); else REG_UPDATE_2(DTBCLK_P_CNTL, DTBCLK_P2_SRC_SEL, p_src_sel, DTBCLK_P2_EN, 1); break; case 3: if (src == REFCLK) REG_UPDATE(DTBCLK_P_CNTL, DTBCLK_P3_EN, 0); else REG_UPDATE_2(DTBCLK_P_CNTL, DTBCLK_P3_SRC_SEL, p_src_sel, DTBCLK_P3_EN, 1); break; default: BREAK_TO_DEBUGGER(); return; } } /* Controls the generation of pixel valid for OTG in (OTG -> HPO case) */ static void dccg314_set_dtbclk_dto( struct dccg *dccg, const struct dtbclk_dto_params *params) { struct dcn_dccg *dccg_dcn = TO_DCN_DCCG(dccg); /* DTO Output Rate / Pixel Rate = 1/4 */ int req_dtbclk_khz = params->pixclk_khz / 4; if (params->ref_dtbclk_khz && req_dtbclk_khz) { uint32_t modulo, phase; // phase / modulo = dtbclk / dtbclk ref modulo = params->ref_dtbclk_khz * 1000; phase = req_dtbclk_khz * 1000; REG_WRITE(DTBCLK_DTO_MODULO[params->otg_inst], modulo); REG_WRITE(DTBCLK_DTO_PHASE[params->otg_inst], phase); REG_UPDATE(OTG_PIXEL_RATE_CNTL[params->otg_inst], DTBCLK_DTO_ENABLE[params->otg_inst], 1); REG_WAIT(OTG_PIXEL_RATE_CNTL[params->otg_inst], DTBCLKDTO_ENABLE_STATUS[params->otg_inst], 1, 1, 100); /* program OTG_PIXEL_RATE_DIV for DIVK1 and DIVK2 fields */ dccg314_set_pixel_rate_div(dccg, params->otg_inst, PIXEL_RATE_DIV_BY_1, PIXEL_RATE_DIV_BY_1); /* The recommended programming sequence to enable DTBCLK DTO to generate * valid pixel HPO DPSTREAM ENCODER, specifies that DTO source select should * be set only after DTO is enabled */ REG_UPDATE(OTG_PIXEL_RATE_CNTL[params->otg_inst], PIPE_DTO_SRC_SEL[params->otg_inst], 2); } else { REG_UPDATE_2(OTG_PIXEL_RATE_CNTL[params->otg_inst], DTBCLK_DTO_ENABLE[params->otg_inst], 0, PIPE_DTO_SRC_SEL[params->otg_inst], 1); REG_WRITE(DTBCLK_DTO_MODULO[params->otg_inst], 0); REG_WRITE(DTBCLK_DTO_PHASE[params->otg_inst], 0); } } void dccg314_set_dpstreamclk( struct dccg *dccg, enum streamclk_source src, int otg_inst, int dp_hpo_inst) { struct dcn_dccg *dccg_dcn = TO_DCN_DCCG(dccg); /* set the dtbclk_p source */ dccg314_set_dtbclk_p_src(dccg, src, otg_inst); /* enabled to select one of the DTBCLKs for pipe */ switch (dp_hpo_inst) { case 0: REG_UPDATE_2(DPSTREAMCLK_CNTL, DPSTREAMCLK0_EN, (src == REFCLK) ? 0 : 1, DPSTREAMCLK0_SRC_SEL, otg_inst); break; case 1: REG_UPDATE_2(DPSTREAMCLK_CNTL, DPSTREAMCLK1_EN, (src == REFCLK) ? 0 : 1, DPSTREAMCLK1_SRC_SEL, otg_inst); break; case 2: REG_UPDATE_2(DPSTREAMCLK_CNTL, DPSTREAMCLK2_EN, (src == REFCLK) ? 0 : 1, DPSTREAMCLK2_SRC_SEL, otg_inst); break; case 3: REG_UPDATE_2(DPSTREAMCLK_CNTL, DPSTREAMCLK3_EN, (src == REFCLK) ? 0 : 1, DPSTREAMCLK3_SRC_SEL, otg_inst); break; default: BREAK_TO_DEBUGGER(); return; } } static void dccg314_init(struct dccg *dccg) { int otg_inst; /* Set HPO stream encoder to use refclk to avoid case where PHY is * disabled and SYMCLK32 for HPO SE is sourced from PHYD32CLK which * will cause DCN to hang. */ for (otg_inst = 0; otg_inst < 4; otg_inst++) dccg31_disable_symclk32_se(dccg, otg_inst); if (dccg->ctx->dc->debug.root_clock_optimization.bits.symclk32_le) for (otg_inst = 0; otg_inst < 2; otg_inst++) dccg31_disable_symclk32_le(dccg, otg_inst); if (dccg->ctx->dc->debug.root_clock_optimization.bits.dpstream) for (otg_inst = 0; otg_inst < 4; otg_inst++) dccg314_set_dpstreamclk(dccg, REFCLK, otg_inst, otg_inst); if (dccg->ctx->dc->debug.root_clock_optimization.bits.physymclk) for (otg_inst = 0; otg_inst < 5; otg_inst++) dccg31_set_physymclk(dccg, otg_inst, PHYSYMCLK_FORCE_SRC_SYMCLK, false); } static void dccg314_set_valid_pixel_rate( struct dccg *dccg, int ref_dtbclk_khz, int otg_inst, int pixclk_khz) { struct dtbclk_dto_params dto_params = {0}; dto_params.ref_dtbclk_khz = ref_dtbclk_khz; dto_params.otg_inst = otg_inst; dto_params.pixclk_khz = pixclk_khz; dccg314_set_dtbclk_dto(dccg, &dto_params); } static void dccg314_dpp_root_clock_control( struct dccg *dccg, unsigned int dpp_inst, bool clock_on) { struct dcn_dccg *dccg_dcn = TO_DCN_DCCG(dccg); if (dccg->dpp_clock_gated[dpp_inst] != clock_on) return; if (clock_on) { /* turn off the DTO and leave phase/modulo at max */ REG_UPDATE(DPPCLK_DTO_CTRL, DPPCLK_DTO_ENABLE[dpp_inst], 0); REG_SET_2(DPPCLK_DTO_PARAM[dpp_inst], 0, DPPCLK0_DTO_PHASE, 0xFF, DPPCLK0_DTO_MODULO, 0xFF); } else { /* turn on the DTO to generate a 0hz clock */ REG_UPDATE(DPPCLK_DTO_CTRL, DPPCLK_DTO_ENABLE[dpp_inst], 1); REG_SET_2(DPPCLK_DTO_PARAM[dpp_inst], 0, DPPCLK0_DTO_PHASE, 0, DPPCLK0_DTO_MODULO, 1); } dccg->dpp_clock_gated[dpp_inst] = !clock_on; } static const struct dccg_funcs dccg314_funcs = { .update_dpp_dto = dccg31_update_dpp_dto, .dpp_root_clock_control = dccg314_dpp_root_clock_control, .get_dccg_ref_freq = dccg31_get_dccg_ref_freq, .dccg_init = dccg314_init, .set_dpstreamclk = dccg314_set_dpstreamclk, .enable_symclk32_se = dccg31_enable_symclk32_se, .disable_symclk32_se = dccg31_disable_symclk32_se, .enable_symclk32_le = dccg31_enable_symclk32_le, .disable_symclk32_le = dccg31_disable_symclk32_le, .set_symclk32_le_root_clock_gating = dccg31_set_symclk32_le_root_clock_gating, .set_physymclk = dccg31_set_physymclk, .set_dtbclk_dto = dccg314_set_dtbclk_dto, .set_audio_dtbclk_dto = dccg31_set_audio_dtbclk_dto, .set_fifo_errdet_ovr_en = dccg2_set_fifo_errdet_ovr_en, .otg_add_pixel = dccg31_otg_add_pixel, .otg_drop_pixel = dccg31_otg_drop_pixel, .set_dispclk_change_mode = dccg31_set_dispclk_change_mode, .disable_dsc = dccg31_disable_dscclk, .enable_dsc = dccg31_enable_dscclk, .set_pixel_rate_div = dccg314_set_pixel_rate_div, .trigger_dio_fifo_resync = dccg314_trigger_dio_fifo_resync, .set_valid_pixel_rate = dccg314_set_valid_pixel_rate, .set_dtbclk_p_src = dccg314_set_dtbclk_p_src }; struct dccg *dccg314_create( struct dc_context *ctx, const struct dccg_registers *regs, const struct dccg_shift *dccg_shift, const struct dccg_mask *dccg_mask) { struct dcn_dccg *dccg_dcn = kzalloc(sizeof(*dccg_dcn), GFP_KERNEL); struct dccg *base; if (dccg_dcn == NULL) { BREAK_TO_DEBUGGER(); return NULL; } base = &dccg_dcn->base; base->ctx = ctx; base->funcs = &dccg314_funcs; dccg_dcn->regs = regs; dccg_dcn->dccg_shift = dccg_shift; dccg_dcn->dccg_mask = dccg_mask; return &dccg_dcn->base; }
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