Author | Tokens | Token Proportion | Commits | Commit Proportion |
---|---|---|---|---|
Eric Yang | 785 | 44.75% | 3 | 7.89% |
Dmytro Laktyushkin | 642 | 36.60% | 13 | 34.21% |
Harry Wentland | 148 | 8.44% | 4 | 10.53% |
Hersen Wu | 42 | 2.39% | 2 | 5.26% |
Leo (Sunpeng) Li | 36 | 2.05% | 1 | 2.63% |
Charlene Liu | 24 | 1.37% | 2 | 5.26% |
Alex Deucher | 17 | 0.97% | 2 | 5.26% |
David Francis | 14 | 0.80% | 1 | 2.63% |
Nicholas Kazlauskas | 14 | 0.80% | 2 | 5.26% |
Ken Chalmers | 12 | 0.68% | 2 | 5.26% |
Feifei Xu | 7 | 0.40% | 1 | 2.63% |
Amy Zhang | 4 | 0.23% | 1 | 2.63% |
Aidan Wood | 4 | 0.23% | 1 | 2.63% |
Bhawanpreet Lakha | 3 | 0.17% | 1 | 2.63% |
Dave Airlie | 2 | 0.11% | 2 | 5.26% |
Total | 1754 | 38 |
/* * Copyright 2012-16 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 "dccg.h" #include "clk_mgr_internal.h" #include "dce_clk_mgr.h" #include "dce110/dce110_clk_mgr.h" #include "dce112/dce112_clk_mgr.h" #include "reg_helper.h" #include "dmcu.h" #include "core_types.h" #include "dal_asic_id.h" /* * Currently the register shifts and masks in this file are used for dce100 and dce80 * which has identical definitions. * TODO: remove this when DPREFCLK_CNTL and dpref DENTIST_DISPCLK_CNTL * is moved to dccg, where it belongs */ #include "dce/dce_8_0_d.h" #include "dce/dce_8_0_sh_mask.h" #define REG(reg) \ (clk_mgr->regs->reg) #undef FN #define FN(reg_name, field_name) \ clk_mgr->clk_mgr_shift->field_name, clk_mgr->clk_mgr_mask->field_name static const struct clk_mgr_registers disp_clk_regs = { CLK_COMMON_REG_LIST_DCE_BASE() }; static const struct clk_mgr_shift disp_clk_shift = { CLK_COMMON_MASK_SH_LIST_DCE_COMMON_BASE(__SHIFT) }; static const struct clk_mgr_mask disp_clk_mask = { CLK_COMMON_MASK_SH_LIST_DCE_COMMON_BASE(_MASK) }; /* Max clock values for each state indexed by "enum clocks_state": */ static const struct state_dependent_clocks dce80_max_clks_by_state[] = { /* ClocksStateInvalid - should not be used */ { .display_clk_khz = 0, .pixel_clk_khz = 0 }, /* ClocksStateUltraLow - not expected to be used for DCE 8.0 */ { .display_clk_khz = 0, .pixel_clk_khz = 0 }, /* ClocksStateLow */ { .display_clk_khz = 352000, .pixel_clk_khz = 330000}, /* ClocksStateNominal */ { .display_clk_khz = 600000, .pixel_clk_khz = 400000 }, /* ClocksStatePerformance */ { .display_clk_khz = 600000, .pixel_clk_khz = 400000 } }; int dentist_get_divider_from_did(int did) { if (did < DENTIST_BASE_DID_1) did = DENTIST_BASE_DID_1; if (did > DENTIST_MAX_DID) did = DENTIST_MAX_DID; if (did < DENTIST_BASE_DID_2) { return DENTIST_DIVIDER_RANGE_1_START + DENTIST_DIVIDER_RANGE_1_STEP * (did - DENTIST_BASE_DID_1); } else if (did < DENTIST_BASE_DID_3) { return DENTIST_DIVIDER_RANGE_2_START + DENTIST_DIVIDER_RANGE_2_STEP * (did - DENTIST_BASE_DID_2); } else if (did < DENTIST_BASE_DID_4) { return DENTIST_DIVIDER_RANGE_3_START + DENTIST_DIVIDER_RANGE_3_STEP * (did - DENTIST_BASE_DID_3); } else { return DENTIST_DIVIDER_RANGE_4_START + DENTIST_DIVIDER_RANGE_4_STEP * (did - DENTIST_BASE_DID_4); } } /* SW will adjust DP REF Clock average value for all purposes * (DP DTO / DP Audio DTO and DP GTC) if clock is spread for all cases: -if SS enabled on DP Ref clock and HW de-spreading enabled with SW calculations for DS_INCR/DS_MODULO (this is planned to be default case) -if SS enabled on DP Ref clock and HW de-spreading enabled with HW calculations (not planned to be used, but average clock should still be valid) -if SS enabled on DP Ref clock and HW de-spreading disabled (should not be case with CIK) then SW should program all rates generated according to average value (case as with previous ASICs) */ int dce_adjust_dp_ref_freq_for_ss(struct clk_mgr_internal *clk_mgr_dce, int dp_ref_clk_khz) { if (clk_mgr_dce->ss_on_dprefclk && clk_mgr_dce->dprefclk_ss_divider != 0) { struct fixed31_32 ss_percentage = dc_fixpt_div_int( dc_fixpt_from_fraction(clk_mgr_dce->dprefclk_ss_percentage, clk_mgr_dce->dprefclk_ss_divider), 200); struct fixed31_32 adj_dp_ref_clk_khz; ss_percentage = dc_fixpt_sub(dc_fixpt_one, ss_percentage); adj_dp_ref_clk_khz = dc_fixpt_mul_int(ss_percentage, dp_ref_clk_khz); dp_ref_clk_khz = dc_fixpt_floor(adj_dp_ref_clk_khz); } return dp_ref_clk_khz; } int dce_get_dp_ref_freq_khz(struct clk_mgr *clk_mgr_base) { struct clk_mgr_internal *clk_mgr = TO_CLK_MGR_INTERNAL(clk_mgr_base); int dprefclk_wdivider; int dprefclk_src_sel; int dp_ref_clk_khz = 600000; int target_div; /* ASSERT DP Reference Clock source is from DFS*/ REG_GET(DPREFCLK_CNTL, DPREFCLK_SRC_SEL, &dprefclk_src_sel); ASSERT(dprefclk_src_sel == 0); /* Read the mmDENTIST_DISPCLK_CNTL to get the currently * programmed DID DENTIST_DPREFCLK_WDIVIDER*/ REG_GET(DENTIST_DISPCLK_CNTL, DENTIST_DPREFCLK_WDIVIDER, &dprefclk_wdivider); /* Convert DENTIST_DPREFCLK_WDIVIDERto actual divider*/ target_div = dentist_get_divider_from_did(dprefclk_wdivider); /* Calculate the current DFS clock, in kHz.*/ dp_ref_clk_khz = (DENTIST_DIVIDER_RANGE_SCALE_FACTOR * clk_mgr->dentist_vco_freq_khz) / target_div; return dce_adjust_dp_ref_freq_for_ss(clk_mgr, dp_ref_clk_khz); } int dce12_get_dp_ref_freq_khz(struct clk_mgr *clk_mgr_base) { struct clk_mgr_internal *clk_mgr_dce = TO_CLK_MGR_INTERNAL(clk_mgr_base); return dce_adjust_dp_ref_freq_for_ss(clk_mgr_dce, clk_mgr_base->dprefclk_khz); } /* unit: in_khz before mode set, get pixel clock from context. ASIC register * may not be programmed yet */ uint32_t dce_get_max_pixel_clock_for_all_paths(struct dc_state *context) { uint32_t max_pix_clk = 0; int i; for (i = 0; i < MAX_PIPES; i++) { struct pipe_ctx *pipe_ctx = &context->res_ctx.pipe_ctx[i]; if (pipe_ctx->stream == NULL) continue; /* do not check under lay */ if (pipe_ctx->top_pipe) continue; if (pipe_ctx->stream_res.pix_clk_params.requested_pix_clk_100hz / 10 > max_pix_clk) max_pix_clk = pipe_ctx->stream_res.pix_clk_params.requested_pix_clk_100hz / 10; /* raise clock state for HBR3/2 if required. Confirmed with HW DCE/DPCS * logic for HBR3 still needs Nominal (0.8V) on VDDC rail */ if (dc_is_dp_signal(pipe_ctx->stream->signal) && pipe_ctx->stream_res.pix_clk_params.requested_sym_clk > max_pix_clk) max_pix_clk = pipe_ctx->stream_res.pix_clk_params.requested_sym_clk; } return max_pix_clk; } enum dm_pp_clocks_state dce_get_required_clocks_state( struct clk_mgr *clk_mgr_base, struct dc_state *context) { struct clk_mgr_internal *clk_mgr_dce = TO_CLK_MGR_INTERNAL(clk_mgr_base); int i; enum dm_pp_clocks_state low_req_clk; int max_pix_clk = dce_get_max_pixel_clock_for_all_paths(context); /* Iterate from highest supported to lowest valid state, and update * lowest RequiredState with the lowest state that satisfies * all required clocks */ for (i = clk_mgr_dce->max_clks_state; i >= DM_PP_CLOCKS_STATE_ULTRA_LOW; i--) if (context->bw_ctx.bw.dce.dispclk_khz > clk_mgr_dce->max_clks_by_state[i].display_clk_khz || max_pix_clk > clk_mgr_dce->max_clks_by_state[i].pixel_clk_khz) break; low_req_clk = i + 1; if (low_req_clk > clk_mgr_dce->max_clks_state) { /* set max clock state for high phyclock, invalid on exceeding display clock */ if (clk_mgr_dce->max_clks_by_state[clk_mgr_dce->max_clks_state].display_clk_khz < context->bw_ctx.bw.dce.dispclk_khz) low_req_clk = DM_PP_CLOCKS_STATE_INVALID; else low_req_clk = clk_mgr_dce->max_clks_state; } return low_req_clk; } /* TODO: remove use the two broken down functions */ int dce_set_clock( struct clk_mgr *clk_mgr_base, int requested_clk_khz) { struct clk_mgr_internal *clk_mgr_dce = TO_CLK_MGR_INTERNAL(clk_mgr_base); struct bp_pixel_clock_parameters pxl_clk_params = { 0 }; struct dc_bios *bp = clk_mgr_base->ctx->dc_bios; int actual_clock = requested_clk_khz; struct dmcu *dmcu = clk_mgr_dce->base.ctx->dc->res_pool->dmcu; /* Make sure requested clock isn't lower than minimum threshold*/ if (requested_clk_khz > 0) requested_clk_khz = max(requested_clk_khz, clk_mgr_dce->dentist_vco_freq_khz / 64); /* Prepare to program display clock*/ pxl_clk_params.target_pixel_clock_100hz = requested_clk_khz * 10; pxl_clk_params.pll_id = CLOCK_SOURCE_ID_DFS; if (clk_mgr_dce->dfs_bypass_active) pxl_clk_params.flags.SET_DISPCLK_DFS_BYPASS = true; bp->funcs->program_display_engine_pll(bp, &pxl_clk_params); if (clk_mgr_dce->dfs_bypass_active) { /* Cache the fixed display clock*/ clk_mgr_dce->dfs_bypass_disp_clk = pxl_clk_params.dfs_bypass_display_clock; actual_clock = pxl_clk_params.dfs_bypass_display_clock; } /* from power down, we need mark the clock state as ClocksStateNominal * from HWReset, so when resume we will call pplib voltage regulator.*/ if (requested_clk_khz == 0) clk_mgr_dce->cur_min_clks_state = DM_PP_CLOCKS_STATE_NOMINAL; if (dmcu && dmcu->funcs->is_dmcu_initialized(dmcu)) dmcu->funcs->set_psr_wait_loop(dmcu, actual_clock / 1000 / 7); return actual_clock; } static void dce_clock_read_integrated_info(struct clk_mgr_internal *clk_mgr_dce) { struct dc_debug_options *debug = &clk_mgr_dce->base.ctx->dc->debug; struct dc_bios *bp = clk_mgr_dce->base.ctx->dc_bios; int i; if (bp->integrated_info) clk_mgr_dce->dentist_vco_freq_khz = bp->integrated_info->dentist_vco_freq; if (clk_mgr_dce->dentist_vco_freq_khz == 0) { clk_mgr_dce->dentist_vco_freq_khz = bp->fw_info.smu_gpu_pll_output_freq; if (clk_mgr_dce->dentist_vco_freq_khz == 0) clk_mgr_dce->dentist_vco_freq_khz = 3600000; } /*update the maximum display clock for each power state*/ for (i = 0; i < NUMBER_OF_DISP_CLK_VOLTAGE; ++i) { enum dm_pp_clocks_state clk_state = DM_PP_CLOCKS_STATE_INVALID; switch (i) { case 0: clk_state = DM_PP_CLOCKS_STATE_ULTRA_LOW; break; case 1: clk_state = DM_PP_CLOCKS_STATE_LOW; break; case 2: clk_state = DM_PP_CLOCKS_STATE_NOMINAL; break; case 3: clk_state = DM_PP_CLOCKS_STATE_PERFORMANCE; break; default: clk_state = DM_PP_CLOCKS_STATE_INVALID; break; } /*Do not allow bad VBIOS/SBIOS to override with invalid values, * check for > 100MHz*/ if (bp->integrated_info) if (bp->integrated_info->disp_clk_voltage[i].max_supported_clk >= 100000) clk_mgr_dce->max_clks_by_state[clk_state].display_clk_khz = bp->integrated_info->disp_clk_voltage[i].max_supported_clk; } if (!debug->disable_dfs_bypass && bp->integrated_info) if (bp->integrated_info->gpu_cap_info & DFS_BYPASS_ENABLE) clk_mgr_dce->dfs_bypass_enabled = true; } void dce_clock_read_ss_info(struct clk_mgr_internal *clk_mgr_dce) { struct dc_bios *bp = clk_mgr_dce->base.ctx->dc_bios; int ss_info_num = bp->funcs->get_ss_entry_number( bp, AS_SIGNAL_TYPE_GPU_PLL); if (ss_info_num) { struct spread_spectrum_info info = { { 0 } }; enum bp_result result = bp->funcs->get_spread_spectrum_info( bp, AS_SIGNAL_TYPE_GPU_PLL, 0, &info); /* Based on VBIOS, VBIOS will keep entry for GPU PLL SS * even if SS not enabled and in that case * SSInfo.spreadSpectrumPercentage !=0 would be sign * that SS is enabled */ if (result == BP_RESULT_OK && info.spread_spectrum_percentage != 0) { clk_mgr_dce->ss_on_dprefclk = true; clk_mgr_dce->dprefclk_ss_divider = info.spread_percentage_divider; if (info.type.CENTER_MODE == 0) { /* TODO: Currently for DP Reference clock we * need only SS percentage for * downspread */ clk_mgr_dce->dprefclk_ss_percentage = info.spread_spectrum_percentage; } return; } result = bp->funcs->get_spread_spectrum_info( bp, AS_SIGNAL_TYPE_DISPLAY_PORT, 0, &info); /* Based on VBIOS, VBIOS will keep entry for DPREFCLK SS * even if SS not enabled and in that case * SSInfo.spreadSpectrumPercentage !=0 would be sign * that SS is enabled */ if (result == BP_RESULT_OK && info.spread_spectrum_percentage != 0) { clk_mgr_dce->ss_on_dprefclk = true; clk_mgr_dce->dprefclk_ss_divider = info.spread_percentage_divider; if (info.type.CENTER_MODE == 0) { /* Currently for DP Reference clock we * need only SS percentage for * downspread */ clk_mgr_dce->dprefclk_ss_percentage = info.spread_spectrum_percentage; } } } } static void dce_pplib_apply_display_requirements( struct dc *dc, struct dc_state *context) { struct dm_pp_display_configuration *pp_display_cfg = &context->pp_display_cfg; pp_display_cfg->avail_mclk_switch_time_us = dce110_get_min_vblank_time_us(context); dce110_fill_display_configs(context, pp_display_cfg); if (memcmp(&dc->current_state->pp_display_cfg, pp_display_cfg, sizeof(*pp_display_cfg)) != 0) dm_pp_apply_display_requirements(dc->ctx, pp_display_cfg); } static void dce_update_clocks(struct clk_mgr *clk_mgr_base, struct dc_state *context, bool safe_to_lower) { struct clk_mgr_internal *clk_mgr_dce = TO_CLK_MGR_INTERNAL(clk_mgr_base); struct dm_pp_power_level_change_request level_change_req; int patched_disp_clk = context->bw_ctx.bw.dce.dispclk_khz; /*TODO: W/A for dal3 linux, investigate why this works */ if (!clk_mgr_dce->dfs_bypass_active) patched_disp_clk = patched_disp_clk * 115 / 100; level_change_req.power_level = dce_get_required_clocks_state(clk_mgr_base, context); /* get max clock state from PPLIB */ if ((level_change_req.power_level < clk_mgr_dce->cur_min_clks_state && safe_to_lower) || level_change_req.power_level > clk_mgr_dce->cur_min_clks_state) { if (dm_pp_apply_power_level_change_request(clk_mgr_base->ctx, &level_change_req)) clk_mgr_dce->cur_min_clks_state = level_change_req.power_level; } if (should_set_clock(safe_to_lower, patched_disp_clk, clk_mgr_base->clks.dispclk_khz)) { patched_disp_clk = dce_set_clock(clk_mgr_base, patched_disp_clk); clk_mgr_base->clks.dispclk_khz = patched_disp_clk; } dce_pplib_apply_display_requirements(clk_mgr_base->ctx->dc, context); } static struct clk_mgr_funcs dce_funcs = { .get_dp_ref_clk_frequency = dce_get_dp_ref_freq_khz, .update_clocks = dce_update_clocks }; void dce_clk_mgr_construct( struct dc_context *ctx, struct clk_mgr_internal *clk_mgr) { struct clk_mgr *base = &clk_mgr->base; struct dm_pp_static_clock_info static_clk_info = {0}; memcpy(clk_mgr->max_clks_by_state, dce80_max_clks_by_state, sizeof(dce80_max_clks_by_state)); base->ctx = ctx; base->funcs = &dce_funcs; clk_mgr->regs = &disp_clk_regs; clk_mgr->clk_mgr_shift = &disp_clk_shift; clk_mgr->clk_mgr_mask = &disp_clk_mask; clk_mgr->dfs_bypass_disp_clk = 0; clk_mgr->dprefclk_ss_percentage = 0; clk_mgr->dprefclk_ss_divider = 1000; clk_mgr->ss_on_dprefclk = false; if (dm_pp_get_static_clocks(ctx, &static_clk_info)) clk_mgr->max_clks_state = static_clk_info.max_clocks_state; else clk_mgr->max_clks_state = DM_PP_CLOCKS_STATE_NOMINAL; clk_mgr->cur_min_clks_state = DM_PP_CLOCKS_STATE_INVALID; dce_clock_read_integrated_info(clk_mgr); dce_clock_read_ss_info(clk_mgr); }
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