/* * 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 * */ /* FILE POLICY AND INTENDED USAGE: * This file implements dp 128b/132b link training software policies and * sequences. */ #include "link_dp_training_128b_132b.h" #include "link_dp_training_8b_10b.h" #include "link_dpcd.h" #include "link_dp_phy.h" #include "link_dp_capability.h" #define DC_LOGGER \ link->ctx->logger static enum dc_status dpcd_128b_132b_set_lane_settings( struct dc_link *link, const struct link_training_settings *link_training_setting) { enum dc_status status = core_link_write_dpcd(link, DP_TRAINING_LANE0_SET, (uint8_t *)(link_training_setting->dpcd_lane_settings), sizeof(link_training_setting->dpcd_lane_settings)); DC_LOG_HW_LINK_TRAINING("%s:\n 0x%X TX_FFE_PRESET_VALUE = %x\n", __func__, DP_TRAINING_LANE0_SET, link_training_setting->dpcd_lane_settings[0].tx_ffe.PRESET_VALUE); return status; } static void dpcd_128b_132b_get_aux_rd_interval(struct dc_link *link, uint32_t *interval_in_us) { union dp_128b_132b_training_aux_rd_interval dpcd_interval; uint32_t interval_unit = 0; dpcd_interval.raw = 0; core_link_read_dpcd(link, DP_128B132B_TRAINING_AUX_RD_INTERVAL, &dpcd_interval.raw, sizeof(dpcd_interval.raw)); interval_unit = dpcd_interval.bits.UNIT ? 1 : 2; /* 0b = 2 ms, 1b = 1 ms */ /* (128b/132b_TRAINING_AUX_RD_INTERVAL value + 1) * * INTERVAL_UNIT. The maximum is 256 ms */ *interval_in_us = (dpcd_interval.bits.VALUE + 1) * interval_unit * 1000; } static enum link_training_result dp_perform_128b_132b_channel_eq_done_sequence( struct dc_link *link, const struct link_resource *link_res, struct link_training_settings *lt_settings) { uint8_t loop_count; uint32_t aux_rd_interval = 0; uint32_t wait_time = 0; union lane_align_status_updated dpcd_lane_status_updated = {0}; union lane_status dpcd_lane_status[LANE_COUNT_DP_MAX] = {0}; union lane_adjust dpcd_lane_adjust[LANE_COUNT_DP_MAX] = {0}; enum dc_status status = DC_OK; enum link_training_result result = LINK_TRAINING_SUCCESS; /* Transmit 128b/132b_TPS1 over Main-Link */ dp_set_hw_training_pattern(link, link_res, lt_settings->pattern_for_cr, DPRX); /* Set TRAINING_PATTERN_SET to 01h */ dpcd_set_training_pattern(link, lt_settings->pattern_for_cr); /* Adjust TX_FFE_PRESET_VALUE and Transmit 128b/132b_TPS2 over Main-Link */ dpcd_128b_132b_get_aux_rd_interval(link, &aux_rd_interval); dp_get_lane_status_and_lane_adjust(link, lt_settings, dpcd_lane_status, &dpcd_lane_status_updated, dpcd_lane_adjust, DPRX); dp_decide_lane_settings(lt_settings, dpcd_lane_adjust, lt_settings->hw_lane_settings, lt_settings->dpcd_lane_settings); dp_set_hw_lane_settings(link, link_res, lt_settings, DPRX); dp_set_hw_training_pattern(link, link_res, lt_settings->pattern_for_eq, DPRX); /* Set loop counter to start from 1 */ loop_count = 1; /* Set TRAINING_PATTERN_SET to 02h and TX_FFE_PRESET_VALUE in one AUX transaction */ dpcd_set_lt_pattern_and_lane_settings(link, lt_settings, lt_settings->pattern_for_eq, DPRX); /* poll for channel EQ done */ while (result == LINK_TRAINING_SUCCESS) { dp_wait_for_training_aux_rd_interval(link, aux_rd_interval); wait_time += aux_rd_interval; status = dp_get_lane_status_and_lane_adjust(link, lt_settings, dpcd_lane_status, &dpcd_lane_status_updated, dpcd_lane_adjust, DPRX); dp_decide_lane_settings(lt_settings, dpcd_lane_adjust, lt_settings->hw_lane_settings, lt_settings->dpcd_lane_settings); dpcd_128b_132b_get_aux_rd_interval(link, &aux_rd_interval); if (status != DC_OK) { result = LINK_TRAINING_ABORT; } else if (dp_is_ch_eq_done(lt_settings->link_settings.lane_count, dpcd_lane_status)) { /* pass */ break; } else if (loop_count >= lt_settings->eq_loop_count_limit) { result = DP_128b_132b_MAX_LOOP_COUNT_REACHED; } else if (dpcd_lane_status_updated.bits.LT_FAILED_128b_132b) { result = DP_128b_132b_LT_FAILED; } else { dp_set_hw_lane_settings(link, link_res, lt_settings, DPRX); dpcd_128b_132b_set_lane_settings(link, lt_settings); } loop_count++; } /* poll for EQ interlane align done */ while (result == LINK_TRAINING_SUCCESS) { if (status != DC_OK) { result = LINK_TRAINING_ABORT; } else if (dpcd_lane_status_updated.bits.EQ_INTERLANE_ALIGN_DONE_128b_132b) { /* pass */ break; } else if (wait_time >= lt_settings->eq_wait_time_limit) { result = DP_128b_132b_CHANNEL_EQ_DONE_TIMEOUT; } else if (dpcd_lane_status_updated.bits.LT_FAILED_128b_132b) { result = DP_128b_132b_LT_FAILED; } else { dp_wait_for_training_aux_rd_interval(link, lt_settings->eq_pattern_time); wait_time += lt_settings->eq_pattern_time; status = dp_get_lane_status_and_lane_adjust(link, lt_settings, dpcd_lane_status, &dpcd_lane_status_updated, dpcd_lane_adjust, DPRX); } } return result; } static enum link_training_result dp_perform_128b_132b_cds_done_sequence( struct dc_link *link, const struct link_resource *link_res, struct link_training_settings *lt_settings) { /* Assumption: assume hardware has transmitted eq pattern */ enum dc_status status = DC_OK; enum link_training_result result = LINK_TRAINING_SUCCESS; union lane_align_status_updated dpcd_lane_status_updated = {0}; union lane_status dpcd_lane_status[LANE_COUNT_DP_MAX] = {0}; union lane_adjust dpcd_lane_adjust[LANE_COUNT_DP_MAX] = {0}; uint32_t wait_time = 0; /* initiate CDS done sequence */ dpcd_set_training_pattern(link, lt_settings->pattern_for_cds); /* poll for CDS interlane align done and symbol lock */ while (result == LINK_TRAINING_SUCCESS) { dp_wait_for_training_aux_rd_interval(link, lt_settings->cds_pattern_time); wait_time += lt_settings->cds_pattern_time; status = dp_get_lane_status_and_lane_adjust(link, lt_settings, dpcd_lane_status, &dpcd_lane_status_updated, dpcd_lane_adjust, DPRX); if (status != DC_OK) { result = LINK_TRAINING_ABORT; } else if (dp_is_symbol_locked(lt_settings->link_settings.lane_count, dpcd_lane_status) && dpcd_lane_status_updated.bits.CDS_INTERLANE_ALIGN_DONE_128b_132b) { /* pass */ break; } else if (dpcd_lane_status_updated.bits.LT_FAILED_128b_132b) { result = DP_128b_132b_LT_FAILED; } else if (wait_time >= lt_settings->cds_wait_time_limit) { result = DP_128b_132b_CDS_DONE_TIMEOUT; } } return result; } enum link_training_result dp_perform_128b_132b_link_training( struct dc_link *link, const struct link_resource *link_res, struct link_training_settings *lt_settings) { enum link_training_result result = LINK_TRAINING_SUCCESS; /* TODO - DP2.0 Link: remove legacy_dp2_lt logic */ if (link->dc->debug.legacy_dp2_lt) { struct link_training_settings legacy_settings; decide_8b_10b_training_settings(link, <_settings->link_settings, &legacy_settings); return dp_perform_8b_10b_link_training(link, link_res, &legacy_settings); } dpcd_set_link_settings(link, lt_settings); if (result == LINK_TRAINING_SUCCESS) { result = dp_perform_128b_132b_channel_eq_done_sequence(link, link_res, lt_settings); if (result == LINK_TRAINING_SUCCESS) DC_LOG_HW_LINK_TRAINING("%s: Channel EQ done.\n", __func__); } if (result == LINK_TRAINING_SUCCESS) { result = dp_perform_128b_132b_cds_done_sequence(link, link_res, lt_settings); if (result == LINK_TRAINING_SUCCESS) DC_LOG_HW_LINK_TRAINING("%s: CDS done.\n", __func__); } return result; } void decide_128b_132b_training_settings(struct dc_link *link, const struct dc_link_settings *link_settings, struct link_training_settings *lt_settings) { memset(lt_settings, 0, sizeof(*lt_settings)); lt_settings->link_settings = *link_settings; /* TODO: should decide link spread when populating link_settings */ lt_settings->link_settings.link_spread = link->dp_ss_off ? LINK_SPREAD_DISABLED : LINK_SPREAD_05_DOWNSPREAD_30KHZ; lt_settings->pattern_for_cr = decide_cr_training_pattern(link_settings); lt_settings->pattern_for_eq = decide_eq_training_pattern(link, link_settings); lt_settings->eq_pattern_time = 2500; lt_settings->eq_wait_time_limit = 400000; lt_settings->eq_loop_count_limit = 20; lt_settings->pattern_for_cds = DP_128b_132b_TPS2_CDS; lt_settings->cds_pattern_time = 2500; lt_settings->cds_wait_time_limit = (dp_parse_lttpr_repeater_count( link->dpcd_caps.lttpr_caps.phy_repeater_cnt) + 1) * 20000; lt_settings->disallow_per_lane_settings = true; lt_settings->lttpr_mode = dp_decide_128b_132b_lttpr_mode(link); dp_hw_to_dpcd_lane_settings(lt_settings, lt_settings->hw_lane_settings, lt_settings->dpcd_lane_settings); } enum lttpr_mode dp_decide_128b_132b_lttpr_mode(struct dc_link *link) { enum lttpr_mode mode = LTTPR_MODE_NON_LTTPR; if (dp_is_lttpr_present(link)) mode = LTTPR_MODE_NON_TRANSPARENT; DC_LOG_DC("128b_132b chose LTTPR_MODE %d.\n", mode); return mode; }