Author | Tokens | Token Proportion | Commits | Commit Proportion |
---|---|---|---|---|
Wenjing Liu | 1299 | 92.06% | 12 | 63.16% |
Martin Leung | 93 | 6.59% | 1 | 5.26% |
Harry Wentland | 9 | 0.64% | 3 | 15.79% |
Michael Strauss | 6 | 0.43% | 1 | 5.26% |
Joshua Aberback | 2 | 0.14% | 1 | 5.26% |
George Shen | 2 | 0.14% | 1 | 5.26% |
Total | 1411 | 19 |
/* * 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 "link_hwss_hpo_dp.h" #include "dm_helpers.h" #include "core_types.h" #include "dccg.h" #include "dc_link_dp.h" #include "clk_mgr.h" static enum phyd32clk_clock_source get_phyd32clk_src(struct dc_link *link) { switch (link->link_enc->transmitter) { case TRANSMITTER_UNIPHY_A: return PHYD32CLKA; case TRANSMITTER_UNIPHY_B: return PHYD32CLKB; case TRANSMITTER_UNIPHY_C: return PHYD32CLKC; case TRANSMITTER_UNIPHY_D: return PHYD32CLKD; case TRANSMITTER_UNIPHY_E: return PHYD32CLKE; default: return PHYD32CLKA; } } static void set_hpo_dp_throttled_vcp_size(struct pipe_ctx *pipe_ctx, struct fixed31_32 throttled_vcp_size) { struct hpo_dp_stream_encoder *hpo_dp_stream_encoder = pipe_ctx->stream_res.hpo_dp_stream_enc; struct hpo_dp_link_encoder *hpo_dp_link_encoder = pipe_ctx->link_res.hpo_dp_link_enc; hpo_dp_link_encoder->funcs->set_throttled_vcp_size(hpo_dp_link_encoder, hpo_dp_stream_encoder->inst, throttled_vcp_size); } static void set_hpo_dp_hblank_min_symbol_width(struct pipe_ctx *pipe_ctx, const struct dc_link_settings *link_settings, struct fixed31_32 throttled_vcp_size) { struct hpo_dp_stream_encoder *hpo_dp_stream_encoder = pipe_ctx->stream_res.hpo_dp_stream_enc; struct dc_crtc_timing *timing = &pipe_ctx->stream->timing; struct fixed31_32 h_blank_in_ms, time_slot_in_ms, mtp_cnt_per_h_blank; uint32_t link_bw_in_kbps = dc_link_bandwidth_kbps(pipe_ctx->stream->link, link_settings); uint16_t hblank_min_symbol_width = 0; if (link_bw_in_kbps > 0) { h_blank_in_ms = dc_fixpt_div(dc_fixpt_from_int( timing->h_total - timing->h_addressable), dc_fixpt_from_fraction(timing->pix_clk_100hz, 10)); time_slot_in_ms = dc_fixpt_from_fraction(32 * 4, link_bw_in_kbps); mtp_cnt_per_h_blank = dc_fixpt_div(h_blank_in_ms, dc_fixpt_mul_int(time_slot_in_ms, 64)); hblank_min_symbol_width = dc_fixpt_floor( dc_fixpt_mul(mtp_cnt_per_h_blank, throttled_vcp_size)); } hpo_dp_stream_encoder->funcs->set_hblank_min_symbol_width(hpo_dp_stream_encoder, hblank_min_symbol_width); } static int get_odm_segment_count(struct pipe_ctx *pipe_ctx) { struct pipe_ctx *odm_pipe = pipe_ctx->next_odm_pipe; int count = 1; while (odm_pipe != NULL) { count++; odm_pipe = odm_pipe->next_odm_pipe; } return count; } static void setup_hpo_dp_stream_encoder(struct pipe_ctx *pipe_ctx) { struct dc *dc = pipe_ctx->stream->ctx->dc; struct hpo_dp_stream_encoder *stream_enc = pipe_ctx->stream_res.hpo_dp_stream_enc; struct hpo_dp_link_encoder *link_enc = pipe_ctx->link_res.hpo_dp_link_enc; struct dccg *dccg = dc->res_pool->dccg; struct timing_generator *tg = pipe_ctx->stream_res.tg; struct dtbclk_dto_params dto_params = {0}; enum phyd32clk_clock_source phyd32clk = get_phyd32clk_src(pipe_ctx->stream->link); dto_params.otg_inst = tg->inst; dto_params.pixclk_khz = pipe_ctx->stream->phy_pix_clk; dto_params.num_odm_segments = get_odm_segment_count(pipe_ctx); dto_params.timing = &pipe_ctx->stream->timing; dto_params.ref_dtbclk_khz = dc->clk_mgr->funcs->get_dtb_ref_clk_frequency(dc->clk_mgr); dccg->funcs->set_dpstreamclk(dccg, DTBCLK0, tg->inst, stream_enc->inst); dccg->funcs->enable_symclk32_se(dccg, stream_enc->inst, phyd32clk); dccg->funcs->set_dtbclk_dto(dccg, &dto_params); stream_enc->funcs->enable_stream(stream_enc); stream_enc->funcs->map_stream_to_link(stream_enc, stream_enc->inst, link_enc->inst); } static void reset_hpo_dp_stream_encoder(struct pipe_ctx *pipe_ctx) { struct dc *dc = pipe_ctx->stream->ctx->dc; struct hpo_dp_stream_encoder *stream_enc = pipe_ctx->stream_res.hpo_dp_stream_enc; struct dccg *dccg = dc->res_pool->dccg; struct timing_generator *tg = pipe_ctx->stream_res.tg; struct dtbclk_dto_params dto_params = {0}; dto_params.otg_inst = tg->inst; dto_params.timing = &pipe_ctx->stream->timing; stream_enc->funcs->disable(stream_enc); dccg->funcs->set_dtbclk_dto(dccg, &dto_params); dccg->funcs->disable_symclk32_se(dccg, stream_enc->inst); dccg->funcs->set_dpstreamclk(dccg, REFCLK, tg->inst, stream_enc->inst); } static void setup_hpo_dp_stream_attribute(struct pipe_ctx *pipe_ctx) { struct hpo_dp_stream_encoder *stream_enc = pipe_ctx->stream_res.hpo_dp_stream_enc; struct dc_stream_state *stream = pipe_ctx->stream; struct dc_link *link = stream->link; stream_enc->funcs->set_stream_attribute( stream_enc, &stream->timing, stream->output_color_space, stream->use_vsc_sdp_for_colorimetry, stream->timing.flags.DSC, false); dp_source_sequence_trace(link, DPCD_SOURCE_SEQ_AFTER_DP_STREAM_ATTR); } static void enable_hpo_dp_fpga_link_output(struct dc_link *link, const struct link_resource *link_res, enum signal_type signal, enum clock_source_id clock_source, const struct dc_link_settings *link_settings) { const struct dc *dc = link->dc; enum phyd32clk_clock_source phyd32clk = get_phyd32clk_src(link); int phyd32clk_freq_khz = link_settings->link_rate == LINK_RATE_UHBR10 ? 312500 : link_settings->link_rate == LINK_RATE_UHBR13_5 ? 412875 : link_settings->link_rate == LINK_RATE_UHBR20 ? 625000 : 0; dm_set_phyd32clk(dc->ctx, phyd32clk_freq_khz); dc->res_pool->dccg->funcs->set_physymclk( dc->res_pool->dccg, link->link_enc_hw_inst, PHYSYMCLK_FORCE_SRC_PHYD32CLK, true); dc->res_pool->dccg->funcs->enable_symclk32_le( dc->res_pool->dccg, link_res->hpo_dp_link_enc->inst, phyd32clk); link_res->hpo_dp_link_enc->funcs->link_enable( link_res->hpo_dp_link_enc, link_settings->lane_count); } static void enable_hpo_dp_link_output(struct dc_link *link, const struct link_resource *link_res, enum signal_type signal, enum clock_source_id clock_source, const struct dc_link_settings *link_settings) { if (IS_FPGA_MAXIMUS_DC(link->dc->ctx->dce_environment)) enable_hpo_dp_fpga_link_output(link, link_res, signal, clock_source, link_settings); else link_res->hpo_dp_link_enc->funcs->enable_link_phy( link_res->hpo_dp_link_enc, link_settings, link->link_enc->transmitter, link->link_enc->hpd_source); } static void disable_hpo_dp_fpga_link_output(struct dc_link *link, const struct link_resource *link_res, enum signal_type signal) { const struct dc *dc = link->dc; link_res->hpo_dp_link_enc->funcs->link_disable(link_res->hpo_dp_link_enc); dc->res_pool->dccg->funcs->disable_symclk32_le( dc->res_pool->dccg, link_res->hpo_dp_link_enc->inst); dc->res_pool->dccg->funcs->set_physymclk( dc->res_pool->dccg, link->link_enc_hw_inst, PHYSYMCLK_FORCE_SRC_SYMCLK, false); dm_set_phyd32clk(dc->ctx, 0); } static void disable_hpo_dp_link_output(struct dc_link *link, const struct link_resource *link_res, enum signal_type signal) { if (IS_FPGA_MAXIMUS_DC(link->dc->ctx->dce_environment)) { disable_hpo_dp_fpga_link_output(link, link_res, signal); } else { link_res->hpo_dp_link_enc->funcs->link_disable(link_res->hpo_dp_link_enc); link_res->hpo_dp_link_enc->funcs->disable_link_phy( link_res->hpo_dp_link_enc, signal); } } static void set_hpo_dp_link_test_pattern(struct dc_link *link, const struct link_resource *link_res, struct encoder_set_dp_phy_pattern_param *tp_params) { link_res->hpo_dp_link_enc->funcs->set_link_test_pattern( link_res->hpo_dp_link_enc, tp_params); dp_source_sequence_trace(link, DPCD_SOURCE_SEQ_AFTER_SET_SOURCE_PATTERN); } static void set_hpo_dp_lane_settings(struct dc_link *link, const struct link_resource *link_res, const struct dc_link_settings *link_settings, const struct dc_lane_settings lane_settings[LANE_COUNT_DP_MAX]) { link_res->hpo_dp_link_enc->funcs->set_ffe( link_res->hpo_dp_link_enc, link_settings, lane_settings[0].FFE_PRESET.raw); } static void update_hpo_dp_stream_allocation_table(struct dc_link *link, const struct link_resource *link_res, const struct link_mst_stream_allocation_table *table) { link_res->hpo_dp_link_enc->funcs->update_stream_allocation_table( link_res->hpo_dp_link_enc, table); } static const struct link_hwss hpo_dp_link_hwss = { .setup_stream_encoder = setup_hpo_dp_stream_encoder, .reset_stream_encoder = reset_hpo_dp_stream_encoder, .setup_stream_attribute = setup_hpo_dp_stream_attribute, .ext = { .set_throttled_vcp_size = set_hpo_dp_throttled_vcp_size, .set_hblank_min_symbol_width = set_hpo_dp_hblank_min_symbol_width, .enable_dp_link_output = enable_hpo_dp_link_output, .disable_dp_link_output = disable_hpo_dp_link_output, .set_dp_link_test_pattern = set_hpo_dp_link_test_pattern, .set_dp_lane_settings = set_hpo_dp_lane_settings, .update_stream_allocation_table = update_hpo_dp_stream_allocation_table, }, }; bool can_use_hpo_dp_link_hwss(const struct dc_link *link, const struct link_resource *link_res) { return link_res->hpo_dp_link_enc != NULL; } const struct link_hwss *get_hpo_dp_link_hwss(void) { return &hpo_dp_link_hwss; }
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