// SPDX-License-Identifier: MIT /* * Copyright 2021 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 "dc.h" #include "dc_link_dpia.h" #include "inc/core_status.h" #include "dc_link.h" #include "dc_link_dp.h" #include "dpcd_defs.h" #include "link_hwss.h" #include "dm_helpers.h" #include "dmub/inc/dmub_cmd.h" #include "inc/link_dpcd.h" #define DC_LOGGER \ link->ctx->logger enum dc_status dpcd_get_tunneling_device_data(struct dc_link *link) { enum dc_status status = DC_OK; uint8_t dpcd_dp_tun_data[3] = {0}; uint8_t dpcd_topology_data[DPCD_USB4_TOPOLOGY_ID_LEN] = {0}; uint8_t i = 0; status = core_link_read_dpcd(link, DP_TUNNELING_CAPABILITIES_SUPPORT, dpcd_dp_tun_data, sizeof(dpcd_dp_tun_data)); status = core_link_read_dpcd(link, DP_USB4_ROUTER_TOPOLOGY_ID, dpcd_topology_data, sizeof(dpcd_topology_data)); link->dpcd_caps.usb4_dp_tun_info.dp_tun_cap.raw = dpcd_dp_tun_data[DP_TUNNELING_CAPABILITIES_SUPPORT - DP_TUNNELING_CAPABILITIES_SUPPORT]; link->dpcd_caps.usb4_dp_tun_info.dpia_info.raw = dpcd_dp_tun_data[DP_IN_ADAPTER_INFO - DP_TUNNELING_CAPABILITIES_SUPPORT]; link->dpcd_caps.usb4_dp_tun_info.usb4_driver_id = dpcd_dp_tun_data[DP_USB4_DRIVER_ID - DP_TUNNELING_CAPABILITIES_SUPPORT]; for (i = 0; i < DPCD_USB4_TOPOLOGY_ID_LEN; i++) link->dpcd_caps.usb4_dp_tun_info.usb4_topology_id[i] = dpcd_topology_data[i]; return status; } /* Configure link as prescribed in link_setting; set LTTPR mode; and * Initialize link training settings. * Abort link training if sink unplug detected. * * @param link DPIA link being trained. * @param[in] link_setting Lane count, link rate and downspread control. * @param[out] lt_settings Link settings and drive settings (voltage swing and pre-emphasis). */ static enum link_training_result dpia_configure_link(struct dc_link *link, const struct dc_link_settings *link_setting, struct link_training_settings *lt_settings) { enum dc_status status; bool fec_enable; DC_LOG_HW_LINK_TRAINING("%s\n DPIA(%d) configuring\n - LTTPR mode(%d)\n", __func__, link->link_id.enum_id - ENUM_ID_1, link->lttpr_mode); dp_decide_training_settings(link, link_setting, lt_settings); status = dpcd_configure_channel_coding(link, lt_settings); if (status != DC_OK && !link->hpd_status) return LINK_TRAINING_ABORT; /* Configure lttpr mode */ status = dpcd_configure_lttpr_mode(link, lt_settings); if (status != DC_OK && !link->hpd_status) return LINK_TRAINING_ABORT; /* Set link rate, lane count and spread. */ status = dpcd_set_link_settings(link, lt_settings); if (status != DC_OK && !link->hpd_status) return LINK_TRAINING_ABORT; if (link->preferred_training_settings.fec_enable) fec_enable = *link->preferred_training_settings.fec_enable; else fec_enable = true; status = dp_set_fec_ready(link, fec_enable); if (status != DC_OK && !link->hpd_status) return LINK_TRAINING_ABORT; return LINK_TRAINING_SUCCESS; } static enum dc_status core_link_send_set_config(struct dc_link *link, uint8_t msg_type, uint8_t msg_data) { struct set_config_cmd_payload payload; enum set_config_status set_config_result = SET_CONFIG_PENDING; /* prepare set_config payload */ payload.msg_type = msg_type; payload.msg_data = msg_data; if (!link->ddc->ddc_pin && !link->aux_access_disabled && (dm_helpers_dmub_set_config_sync(link->ctx, link, &payload, &set_config_result) == -1)) { return DC_ERROR_UNEXPECTED; } /* set_config should return ACK if successful */ return (set_config_result == SET_CONFIG_ACK_RECEIVED) ? DC_OK : DC_ERROR_UNEXPECTED; } /* Build SET_CONFIG message data payload for specified message type. */ static uint8_t dpia_build_set_config_data(enum dpia_set_config_type type, struct dc_link *link, struct link_training_settings *lt_settings) { union dpia_set_config_data data; data.raw = 0; switch (type) { case DPIA_SET_CFG_SET_LINK: data.set_link.mode = link->lttpr_mode == LTTPR_MODE_NON_TRANSPARENT ? 1 : 0; break; case DPIA_SET_CFG_SET_PHY_TEST_MODE: break; case DPIA_SET_CFG_SET_VSPE: /* Assume all lanes have same drive settings. */ data.set_vspe.swing = lt_settings->lane_settings[0].VOLTAGE_SWING; data.set_vspe.pre_emph = lt_settings->lane_settings[0].PRE_EMPHASIS; data.set_vspe.max_swing_reached = lt_settings->lane_settings[0].VOLTAGE_SWING == VOLTAGE_SWING_MAX_LEVEL ? 1 : 0; data.set_vspe.max_pre_emph_reached = lt_settings->lane_settings[0].PRE_EMPHASIS == PRE_EMPHASIS_MAX_LEVEL ? 1 : 0; break; default: ASSERT(false); /* Message type not supported by helper function. */ break; } return data.raw; } /* Convert DC training pattern to DPIA training stage. */ static enum dpia_set_config_ts convert_trng_ptn_to_trng_stg(enum dc_dp_training_pattern tps) { enum dpia_set_config_ts ts; switch (tps) { case DP_TRAINING_PATTERN_SEQUENCE_1: ts = DPIA_TS_TPS1; break; case DP_TRAINING_PATTERN_SEQUENCE_2: ts = DPIA_TS_TPS2; break; case DP_TRAINING_PATTERN_SEQUENCE_3: ts = DPIA_TS_TPS3; break; case DP_TRAINING_PATTERN_SEQUENCE_4: ts = DPIA_TS_TPS4; break; default: ts = DPIA_TS_DPRX_DONE; ASSERT(false); /* TPS not supported by helper function. */ break; } return ts; } /* Write training pattern to DPCD. */ static enum dc_status dpcd_set_lt_pattern(struct dc_link *link, enum dc_dp_training_pattern pattern, uint32_t hop) { union dpcd_training_pattern dpcd_pattern = { {0} }; uint32_t dpcd_tps_offset = DP_TRAINING_PATTERN_SET; enum dc_status status; if (hop != DPRX) dpcd_tps_offset = DP_TRAINING_PATTERN_SET_PHY_REPEATER1 + ((DP_REPEATER_CONFIGURATION_AND_STATUS_SIZE) * (hop - 1)); /* DpcdAddress_TrainingPatternSet */ dpcd_pattern.v1_4.TRAINING_PATTERN_SET = dc_dp_training_pattern_to_dpcd_training_pattern(link, pattern); dpcd_pattern.v1_4.SCRAMBLING_DISABLE = dc_dp_initialize_scrambling_data_symbols(link, pattern); if (hop != DPRX) { DC_LOG_HW_LINK_TRAINING("%s\n LTTPR Repeater ID: %d\n 0x%X pattern = %x\n", __func__, hop, dpcd_tps_offset, dpcd_pattern.v1_4.TRAINING_PATTERN_SET); } else { DC_LOG_HW_LINK_TRAINING("%s\n 0x%X pattern = %x\n", __func__, dpcd_tps_offset, dpcd_pattern.v1_4.TRAINING_PATTERN_SET); } status = core_link_write_dpcd(link, dpcd_tps_offset, &dpcd_pattern.raw, sizeof(dpcd_pattern.raw)); return status; } /* Execute clock recovery phase of link training for specified hop in display * path.in non-transparent mode: * - Driver issues both DPCD and SET_CONFIG transactions. * - TPS1 is transmitted for any hops downstream of DPOA. * - Drive (VS/PE) only transmitted for the hop immediately downstream of DPOA. * - CR for the first hop (DPTX-to-DPIA) is assumed to be successful. * * @param link DPIA link being trained. * @param lt_settings link_setting and drive settings (voltage swing and pre-emphasis). * @param hop The Hop in display path. DPRX = 0. */ static enum link_training_result dpia_training_cr_non_transparent(struct dc_link *link, struct link_training_settings *lt_settings, uint32_t hop) { enum link_training_result result = LINK_TRAINING_CR_FAIL_LANE0; uint8_t repeater_cnt = 0; /* Number of hops/repeaters in display path. */ enum dc_status status; uint32_t retries_cr = 0; /* Number of consecutive attempts with same VS or PE. */ uint32_t retry_count = 0; /* From DP spec, CR read interval is always 100us. */ uint32_t wait_time_microsec = TRAINING_AUX_RD_INTERVAL; enum dc_lane_count lane_count = lt_settings->link_settings.lane_count; union lane_status dpcd_lane_status[LANE_COUNT_DP_MAX] = { { {0} } }; union lane_align_status_updated dpcd_lane_status_updated = { {0} }; union lane_adjust dpcd_lane_adjust[LANE_COUNT_DP_MAX] = { { {0} } }; uint8_t set_cfg_data; enum dpia_set_config_ts ts; repeater_cnt = dp_convert_to_count(link->dpcd_caps.lttpr_caps.phy_repeater_cnt); /* Cap of LINK_TRAINING_MAX_CR_RETRY attempts at clock recovery. * Fix inherited from perform_clock_recovery_sequence() - * the DP equivalent of this function: * Required for Synaptics MST hub which can put the LT in * infinite loop by switching the VS between level 0 and level 1 * continuously. */ while ((retries_cr < LINK_TRAINING_MAX_RETRY_COUNT) && (retry_count < LINK_TRAINING_MAX_CR_RETRY)) { /* DPTX-to-DPIA */ if (hop == repeater_cnt) { /* Send SET_CONFIG(SET_LINK:LC,LR,LTTPR) to notify DPOA that * non-transparent link training has started. * This also enables the transmission of clk_sync packets. */ set_cfg_data = dpia_build_set_config_data(DPIA_SET_CFG_SET_LINK, link, lt_settings); status = core_link_send_set_config(link, DPIA_SET_CFG_SET_LINK, set_cfg_data); /* CR for this hop is considered successful as long as * SET_CONFIG message is acknowledged by DPOA. */ if (status == DC_OK) result = LINK_TRAINING_SUCCESS; else result = LINK_TRAINING_ABORT; break; } /* DPOA-to-x */ /* Instruct DPOA to transmit TPS1 then update DPCD. */ if (retry_count == 0) { ts = convert_trng_ptn_to_trng_stg(lt_settings->pattern_for_cr); status = core_link_send_set_config(link, DPIA_SET_CFG_SET_TRAINING, ts); if (status != DC_OK) { result = LINK_TRAINING_ABORT; break; } status = dpcd_set_lt_pattern(link, lt_settings->pattern_for_cr, hop); if (status != DC_OK) { result = LINK_TRAINING_ABORT; break; } } /* Update DPOA drive settings then DPCD. DPOA does only adjusts * drive settings for hops immediately downstream. */ if (hop == repeater_cnt - 1) { set_cfg_data = dpia_build_set_config_data(DPIA_SET_CFG_SET_VSPE, link, lt_settings); status = core_link_send_set_config(link, DPIA_SET_CFG_SET_VSPE, set_cfg_data); if (status != DC_OK) { result = LINK_TRAINING_ABORT; break; } } status = dpcd_set_lane_settings(link, lt_settings, hop); if (status != DC_OK) { result = LINK_TRAINING_ABORT; break; } dp_wait_for_training_aux_rd_interval(link, wait_time_microsec); /* Read status and adjustment requests from DPCD. */ status = dp_get_lane_status_and_lane_adjust( link, lt_settings, dpcd_lane_status, &dpcd_lane_status_updated, dpcd_lane_adjust, hop); if (status != DC_OK) { result = LINK_TRAINING_ABORT; break; } /* Check if clock recovery successful. */ if (dp_is_cr_done(lane_count, dpcd_lane_status)) { result = LINK_TRAINING_SUCCESS; break; } result = dp_get_cr_failure(lane_count, dpcd_lane_status); if (dp_is_max_vs_reached(lt_settings)) break; /* Count number of attempts with same drive settings. * Note: settings are the same for all lanes, * so comparing first lane is sufficient. */ if ((lt_settings->dpcd_lane_settings[0].bits.VOLTAGE_SWING_SET == dpcd_lane_adjust[0].bits.VOLTAGE_SWING_LANE) && (lt_settings->dpcd_lane_settings[0].bits.PRE_EMPHASIS_SET == dpcd_lane_adjust[0].bits.PRE_EMPHASIS_LANE)) retries_cr++; else retries_cr = 0; /* Update VS/PE. */ dp_decide_lane_settings(lt_settings, dpcd_lane_adjust, lt_settings->lane_settings, lt_settings->dpcd_lane_settings); retry_count++; } /* Abort link training if clock recovery failed due to HPD unplug. */ if (!link->hpd_status) result = LINK_TRAINING_ABORT; DC_LOG_HW_LINK_TRAINING("%s\n DPIA(%d) clock recovery\n" " -hop(%d)\n - result(%d)\n - retries(%d)\n", __func__, link->link_id.enum_id - ENUM_ID_1, hop, result, retry_count); return result; } /* Execute clock recovery phase of link training in transparent LTTPR mode: * - Driver only issues DPCD transactions and leaves USB4 tunneling (SET_CONFIG) messages to DPIA. * - Driver writes TPS1 to DPCD to kick off training. * - Clock recovery (CR) for link is handled by DPOA, which reports result to DPIA on completion. * - DPIA communicates result to driver by updating CR status when driver reads DPCD. * * @param link DPIA link being trained. * @param lt_settings link_setting and drive settings (voltage swing and pre-emphasis). */ static enum link_training_result dpia_training_cr_transparent(struct dc_link *link, struct link_training_settings *lt_settings) { enum link_training_result result = LINK_TRAINING_CR_FAIL_LANE0; enum dc_status status; uint32_t retries_cr = 0; /* Number of consecutive attempts with same VS or PE. */ uint32_t retry_count = 0; uint32_t wait_time_microsec = lt_settings->cr_pattern_time; enum dc_lane_count lane_count = lt_settings->link_settings.lane_count; union lane_status dpcd_lane_status[LANE_COUNT_DP_MAX] = { { {0} } }; union lane_align_status_updated dpcd_lane_status_updated = { {0} }; union lane_adjust dpcd_lane_adjust[LANE_COUNT_DP_MAX] = { { {0} } }; /* Cap of LINK_TRAINING_MAX_CR_RETRY attempts at clock recovery. * Fix inherited from perform_clock_recovery_sequence() - * the DP equivalent of this function: * Required for Synaptics MST hub which can put the LT in * infinite loop by switching the VS between level 0 and level 1 * continuously. */ while ((retries_cr < LINK_TRAINING_MAX_RETRY_COUNT) && (retry_count < LINK_TRAINING_MAX_CR_RETRY)) { /* Write TPS1 (not VS or PE) to DPCD to start CR phase. * DPIA sends SET_CONFIG(SET_LINK) to notify DPOA to * start link training. */ if (retry_count == 0) { status = dpcd_set_lt_pattern(link, lt_settings->pattern_for_cr, DPRX); if (status != DC_OK) { result = LINK_TRAINING_ABORT; break; } } dp_wait_for_training_aux_rd_interval(link, wait_time_microsec); /* Read status and adjustment requests from DPCD. */ 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; break; } /* Check if clock recovery successful. */ if (dp_is_cr_done(lane_count, dpcd_lane_status)) { result = LINK_TRAINING_SUCCESS; break; } result = dp_get_cr_failure(lane_count, dpcd_lane_status); if (dp_is_max_vs_reached(lt_settings)) break; /* Count number of attempts with same drive settings. * Note: settings are the same for all lanes, * so comparing first lane is sufficient. */ if ((lt_settings->dpcd_lane_settings[0].bits.VOLTAGE_SWING_SET == dpcd_lane_adjust[0].bits.VOLTAGE_SWING_LANE) && (lt_settings->dpcd_lane_settings[0].bits.PRE_EMPHASIS_SET == dpcd_lane_adjust[0].bits.PRE_EMPHASIS_LANE)) retries_cr++; else retries_cr = 0; /* Update VS/PE. */ dp_decide_lane_settings(lt_settings, dpcd_lane_adjust, lt_settings->hw_lane_settings, lt_settings->dpcd_lane_settings); retry_count++; } /* Abort link training if clock recovery failed due to HPD unplug. */ if (!link->hpd_status) result = LINK_TRAINING_ABORT; DC_LOG_HW_LINK_TRAINING("%s\n DPIA(%d) clock recovery\n" " -hop(%d)\n - result(%d)\n - retries(%d)\n", __func__, link->link_id.enum_id - ENUM_ID_1, DPRX, result, retry_count); return result; } /* Execute clock recovery phase of link training for specified hop in display * path. * * @param link DPIA link being trained. * @param lt_settings link_setting and drive settings (voltage swing and pre-emphasis). * @param hop The Hop in display path. DPRX = 0. */ static enum link_training_result dpia_training_cr_phase(struct dc_link *link, struct link_training_settings *lt_settings, uint32_t hop) { enum link_training_result result = LINK_TRAINING_CR_FAIL_LANE0; if (link->lttpr_mode == LTTPR_MODE_NON_TRANSPARENT) result = dpia_training_cr_non_transparent(link, lt_settings, hop); else result = dpia_training_cr_transparent(link, lt_settings); return result; } /* Return status read interval during equalization phase. */ static uint32_t dpia_get_eq_aux_rd_interval(const struct dc_link *link, const struct link_training_settings *lt_settings, uint32_t hop) { uint32_t wait_time_microsec; if (hop == DPRX) wait_time_microsec = lt_settings->eq_pattern_time; else wait_time_microsec = dp_translate_training_aux_read_interval( link->dpcd_caps.lttpr_caps.aux_rd_interval[hop - 1]); #if defined(CONFIG_DRM_AMD_DC_DCN) /* Check debug option for extending aux read interval. */ if (link->dc->debug.dpia_debug.bits.extend_aux_rd_interval) wait_time_microsec = DPIA_DEBUG_EXTENDED_AUX_RD_INTERVAL_US; #endif return wait_time_microsec; } /* Execute equalization phase of link training for specified hop in display * path in non-transparent mode: * - driver issues both DPCD and SET_CONFIG transactions. * - TPSx is transmitted for any hops downstream of DPOA. * - Drive (VS/PE) only transmitted for the hop immediately downstream of DPOA. * - EQ for the first hop (DPTX-to-DPIA) is assumed to be successful. * - DPRX EQ only reported successful when both DPRX and DPIA requirements * (clk sync packets sent) fulfilled. * * @param link DPIA link being trained. * @param lt_settings link_setting and drive settings (voltage swing and pre-emphasis). * @param hop The Hop in display path. DPRX = 0. */ static enum link_training_result dpia_training_eq_non_transparent(struct dc_link *link, struct link_training_settings *lt_settings, uint32_t hop) { enum link_training_result result = LINK_TRAINING_EQ_FAIL_EQ; uint8_t repeater_cnt = 0; /* Number of hops/repeaters in display path. */ uint32_t retries_eq = 0; enum dc_status status; enum dc_dp_training_pattern tr_pattern; uint32_t wait_time_microsec; enum dc_lane_count lane_count = lt_settings->link_settings.lane_count; 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} } }; uint8_t set_cfg_data; enum dpia_set_config_ts ts; /* Training pattern is TPS4 for repeater; * TPS2/3/4 for DPRX depending on what it supports. */ if (hop == DPRX) tr_pattern = lt_settings->pattern_for_eq; else tr_pattern = DP_TRAINING_PATTERN_SEQUENCE_4; repeater_cnt = dp_convert_to_count(link->dpcd_caps.lttpr_caps.phy_repeater_cnt); for (retries_eq = 0; retries_eq < LINK_TRAINING_MAX_RETRY_COUNT; retries_eq++) { /* DPTX-to-DPIA equalization always successful. */ if (hop == repeater_cnt) { result = LINK_TRAINING_SUCCESS; break; } /* Instruct DPOA to transmit TPSn then update DPCD. */ if (retries_eq == 0) { ts = convert_trng_ptn_to_trng_stg(tr_pattern); status = core_link_send_set_config(link, DPIA_SET_CFG_SET_TRAINING, ts); if (status != DC_OK) { result = LINK_TRAINING_ABORT; break; } status = dpcd_set_lt_pattern(link, tr_pattern, hop); if (status != DC_OK) { result = LINK_TRAINING_ABORT; break; } } /* Update DPOA drive settings then DPCD. DPOA only adjusts * drive settings for hop immediately downstream. */ if (hop == repeater_cnt - 1) { set_cfg_data = dpia_build_set_config_data(DPIA_SET_CFG_SET_VSPE, link, lt_settings); status = core_link_send_set_config(link, DPIA_SET_CFG_SET_VSPE, set_cfg_data); if (status != DC_OK) { result = LINK_TRAINING_ABORT; break; } } status = dpcd_set_lane_settings(link, lt_settings, hop); if (status != DC_OK) { result = LINK_TRAINING_ABORT; break; } /* Extend wait time on second equalisation attempt on final hop to * ensure clock sync packets have been sent. */ if (hop == DPRX && retries_eq == 1) wait_time_microsec = max(wait_time_microsec, (uint32_t)DPIA_CLK_SYNC_DELAY); else wait_time_microsec = dpia_get_eq_aux_rd_interval(link, lt_settings, hop); dp_wait_for_training_aux_rd_interval(link, wait_time_microsec); /* Read status and adjustment requests from DPCD. */ status = dp_get_lane_status_and_lane_adjust( link, lt_settings, dpcd_lane_status, &dpcd_lane_status_updated, dpcd_lane_adjust, hop); if (status != DC_OK) { result = LINK_TRAINING_ABORT; break; } /* CR can still fail during EQ phase. Fail training if CR fails. */ if (!dp_is_cr_done(lane_count, dpcd_lane_status)) { result = LINK_TRAINING_EQ_FAIL_CR; break; } if (dp_is_ch_eq_done(lane_count, dpcd_lane_status) && dp_is_symbol_locked(link->cur_link_settings.lane_count, dpcd_lane_status) && dp_is_interlane_aligned(dpcd_lane_status_updated)) { result = LINK_TRAINING_SUCCESS; break; } /* Update VS/PE. */ dp_decide_lane_settings(lt_settings, dpcd_lane_adjust, lt_settings->hw_lane_settings, lt_settings->dpcd_lane_settings); } /* Abort link training if equalization failed due to HPD unplug. */ if (!link->hpd_status) result = LINK_TRAINING_ABORT; DC_LOG_HW_LINK_TRAINING("%s\n DPIA(%d) equalization\n" " - hop(%d)\n - result(%d)\n - retries(%d)\n", __func__, link->link_id.enum_id - ENUM_ID_1, hop, result, retries_eq); return result; } /* Execute equalization phase of link training for specified hop in display * path in transparent LTTPR mode: * - driver only issues DPCD transactions leaves USB4 tunneling (SET_CONFIG) messages to DPIA. * - driver writes TPSx to DPCD to notify DPIA that is in equalization phase. * - equalization (EQ) for link is handled by DPOA, which reports result to DPIA on completion. * - DPIA communicates result to driver by updating EQ status when driver reads DPCD. * * @param link DPIA link being trained. * @param lt_settings link_setting and drive settings (voltage swing and pre-emphasis). * @param hop The Hop in display path. DPRX = 0. */ static enum link_training_result dpia_training_eq_transparent(struct dc_link *link, struct link_training_settings *lt_settings) { enum link_training_result result = LINK_TRAINING_EQ_FAIL_EQ; uint32_t retries_eq = 0; enum dc_status status; enum dc_dp_training_pattern tr_pattern = lt_settings->pattern_for_eq; uint32_t wait_time_microsec; enum dc_lane_count lane_count = lt_settings->link_settings.lane_count; 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} } }; wait_time_microsec = dpia_get_eq_aux_rd_interval(link, lt_settings, DPRX); for (retries_eq = 0; retries_eq < LINK_TRAINING_MAX_RETRY_COUNT; retries_eq++) { if (retries_eq == 0) { status = dpcd_set_lt_pattern(link, tr_pattern, DPRX); if (status != DC_OK) { result = LINK_TRAINING_ABORT; break; } } dp_wait_for_training_aux_rd_interval(link, wait_time_microsec); /* Read status and adjustment requests from DPCD. */ 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; break; } /* CR can still fail during EQ phase. Fail training if CR fails. */ if (!dp_is_cr_done(lane_count, dpcd_lane_status)) { result = LINK_TRAINING_EQ_FAIL_CR; break; } if (dp_is_ch_eq_done(lane_count, dpcd_lane_status) && dp_is_symbol_locked(link->cur_link_settings.lane_count, dpcd_lane_status) && dp_is_interlane_aligned(dpcd_lane_status_updated)) { result = LINK_TRAINING_SUCCESS; break; } /* Update VS/PE. */ dp_decide_lane_settings(lt_settings, dpcd_lane_adjust, lt_settings->hw_lane_settings, lt_settings->dpcd_lane_settings); } /* Abort link training if equalization failed due to HPD unplug. */ if (!link->hpd_status) result = LINK_TRAINING_ABORT; DC_LOG_HW_LINK_TRAINING("%s\n DPIA(%d) equalization\n" " - hop(%d)\n - result(%d)\n - retries(%d)\n", __func__, link->link_id.enum_id - ENUM_ID_1, DPRX, result, retries_eq); return result; } /* Execute equalization phase of link training for specified hop in display * path. * * @param link DPIA link being trained. * @param lt_settings link_setting and drive settings (voltage swing and pre-emphasis). * @param hop The Hop in display path. DPRX = 0. */ static enum link_training_result dpia_training_eq_phase(struct dc_link *link, struct link_training_settings *lt_settings, uint32_t hop) { enum link_training_result result; if (link->lttpr_mode == LTTPR_MODE_NON_TRANSPARENT) result = dpia_training_eq_non_transparent(link, lt_settings, hop); else result = dpia_training_eq_transparent(link, lt_settings); return result; } /* End training of specified hop in display path. */ static enum dc_status dpcd_clear_lt_pattern(struct dc_link *link, uint32_t hop) { union dpcd_training_pattern dpcd_pattern = { {0} }; uint32_t dpcd_tps_offset = DP_TRAINING_PATTERN_SET; enum dc_status status; if (hop != DPRX) dpcd_tps_offset = DP_TRAINING_PATTERN_SET_PHY_REPEATER1 + ((DP_REPEATER_CONFIGURATION_AND_STATUS_SIZE) * (hop - 1)); status = core_link_write_dpcd(link, dpcd_tps_offset, &dpcd_pattern.raw, sizeof(dpcd_pattern.raw)); return status; } /* End training of specified hop in display path. * * In transparent LTTPR mode: * - driver clears training pattern for the specified hop in DPCD. * In non-transparent LTTPR mode: * - in addition to clearing training pattern, driver issues USB4 tunneling * (SET_CONFIG) messages to notify DPOA when training is done for first hop * (DPTX-to-DPIA) and last hop (DPRX). * * @param link DPIA link being trained. * @param hop The Hop in display path. DPRX = 0. */ static enum link_training_result dpia_training_end(struct dc_link *link, uint32_t hop) { enum link_training_result result = LINK_TRAINING_SUCCESS; uint8_t repeater_cnt = 0; /* Number of hops/repeaters in display path. */ enum dc_status status; if (link->lttpr_mode == LTTPR_MODE_NON_TRANSPARENT) { repeater_cnt = dp_convert_to_count(link->dpcd_caps.lttpr_caps.phy_repeater_cnt); if (hop == repeater_cnt) { /* DPTX-to-DPIA */ /* Send SET_CONFIG(SET_TRAINING:0xff) to notify DPOA that * DPTX-to-DPIA hop trained. No DPCD write needed for first hop. */ status = core_link_send_set_config(link, DPIA_SET_CFG_SET_TRAINING, DPIA_TS_UFP_DONE); if (status != DC_OK) result = LINK_TRAINING_ABORT; } else { /* DPOA-to-x */ /* Write 0x0 to TRAINING_PATTERN_SET */ status = dpcd_clear_lt_pattern(link, hop); if (status != DC_OK) result = LINK_TRAINING_ABORT; } /* Notify DPOA that non-transparent link training of DPRX done. */ if (hop == DPRX && result != LINK_TRAINING_ABORT) { status = core_link_send_set_config(link, DPIA_SET_CFG_SET_TRAINING, DPIA_TS_DPRX_DONE); if (status != DC_OK) result = LINK_TRAINING_ABORT; } } else { /* non-LTTPR or transparent LTTPR. */ /* Write 0x0 to TRAINING_PATTERN_SET */ status = dpcd_clear_lt_pattern(link, hop); if (status != DC_OK) result = LINK_TRAINING_ABORT; } DC_LOG_HW_LINK_TRAINING("%s\n DPIA(%d) end\n - hop(%d)\n - result(%d)\n - LTTPR mode(%d)\n", __func__, link->link_id.enum_id - ENUM_ID_1, hop, result, link->lttpr_mode); return result; } /* When aborting training of specified hop in display path, clean up by: * - Attempting to clear DPCD TRAINING_PATTERN_SET, LINK_BW_SET and LANE_COUNT_SET. * - Sending SET_CONFIG(SET_LINK) with lane count and link rate set to 0. * * @param link DPIA link being trained. * @param hop The Hop in display path. DPRX = 0. */ static void dpia_training_abort(struct dc_link *link, uint32_t hop) { uint8_t data = 0; uint32_t dpcd_tps_offset = DP_TRAINING_PATTERN_SET; DC_LOG_HW_LINK_TRAINING("%s\n DPIA(%d) aborting\n - LTTPR mode(%d)\n - HPD(%d)\n", __func__, link->link_id.enum_id - ENUM_ID_1, link->lttpr_mode, link->hpd_status); /* Abandon clean-up if sink unplugged. */ if (!link->hpd_status) return; if (hop != DPRX) dpcd_tps_offset = DP_TRAINING_PATTERN_SET_PHY_REPEATER1 + ((DP_REPEATER_CONFIGURATION_AND_STATUS_SIZE) * (hop - 1)); core_link_write_dpcd(link, dpcd_tps_offset, &data, 1); core_link_write_dpcd(link, DP_LINK_BW_SET, &data, 1); core_link_write_dpcd(link, DP_LANE_COUNT_SET, &data, 1); core_link_send_set_config(link, DPIA_SET_CFG_SET_LINK, data); } enum link_training_result dc_link_dpia_perform_link_training(struct dc_link *link, const struct dc_link_settings *link_setting, bool skip_video_pattern) { enum link_training_result result; struct link_training_settings lt_settings; uint8_t repeater_cnt = 0; /* Number of hops/repeaters in display path. */ int8_t repeater_id; /* Current hop. */ /* Configure link as prescribed in link_setting and set LTTPR mode. */ result = dpia_configure_link(link, link_setting, <_settings); if (result != LINK_TRAINING_SUCCESS) return result; if (link->lttpr_mode == LTTPR_MODE_NON_TRANSPARENT) repeater_cnt = dp_convert_to_count(link->dpcd_caps.lttpr_caps.phy_repeater_cnt); /* Train each hop in turn starting with the one closest to DPTX. * In transparent or non-LTTPR mode, train only the final hop (DPRX). */ for (repeater_id = repeater_cnt; repeater_id >= 0; repeater_id--) { /* Clock recovery. */ result = dpia_training_cr_phase(link, <_settings, repeater_id); if (result != LINK_TRAINING_SUCCESS) break; /* Equalization. */ result = dpia_training_eq_phase(link, <_settings, repeater_id); if (result != LINK_TRAINING_SUCCESS) break; /* Stop training hop. */ result = dpia_training_end(link, repeater_id); if (result != LINK_TRAINING_SUCCESS) break; } /* Double-check link status if training successful; gracefully abort * training of current hop if training failed due to message tunneling * failure; end training of hop if training ended conventionally and * falling back to lower bandwidth settings possible. */ if (result == LINK_TRAINING_SUCCESS) { msleep(5); result = dp_check_link_loss_status(link, <_settings); } else if (result == LINK_TRAINING_ABORT) { dpia_training_abort(link, repeater_id); } else { dpia_training_end(link, repeater_id); } return result; }