Author | Tokens | Token Proportion | Commits | Commit Proportion |
---|---|---|---|---|
Mustapha Ghaddar | 1319 | 63.91% | 8 | 29.63% |
Meenakshikumar Somasundaram | 459 | 22.24% | 3 | 11.11% |
Peichen Huang | 166 | 8.04% | 1 | 3.70% |
Wenjing Liu | 43 | 2.08% | 6 | 22.22% |
Leo (Hanghong) Ma | 42 | 2.03% | 1 | 3.70% |
Harry Wentland | 12 | 0.58% | 2 | 7.41% |
bobzhou | 8 | 0.39% | 1 | 3.70% |
Nathan Chancellor | 6 | 0.29% | 1 | 3.70% |
George Shen | 3 | 0.15% | 1 | 3.70% |
Srinivasan S | 2 | 0.10% | 1 | 3.70% |
Jimmy Kizito | 2 | 0.10% | 1 | 3.70% |
Joshua Aberback | 2 | 0.10% | 1 | 3.70% |
Total | 2064 | 27 |
/* * 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 * */ /*********************************************************************/ // USB4 DPIA BANDWIDTH ALLOCATION LOGIC /*********************************************************************/ #include "link_dp_dpia_bw.h" #include "link_dpcd.h" #include "dc_dmub_srv.h" #define DC_LOGGER \ link->ctx->logger #define Kbps_TO_Gbps (1000 * 1000) // ------------------------------------------------------------------ // PRIVATE FUNCTIONS // ------------------------------------------------------------------ /* * Always Check the following: * - Is it USB4 link? * - Is HPD HIGH? * - Is BW Allocation Support Mode enabled on DP-Tx? */ static bool get_bw_alloc_proceed_flag(struct dc_link *tmp) { return (tmp && DISPLAY_ENDPOINT_USB4_DPIA == tmp->ep_type && tmp->hpd_status && tmp->dpia_bw_alloc_config.bw_alloc_enabled); } static void reset_bw_alloc_struct(struct dc_link *link) { link->dpia_bw_alloc_config.bw_alloc_enabled = false; link->dpia_bw_alloc_config.link_verified_bw = 0; link->dpia_bw_alloc_config.link_max_bw = 0; link->dpia_bw_alloc_config.allocated_bw = 0; link->dpia_bw_alloc_config.estimated_bw = 0; link->dpia_bw_alloc_config.bw_granularity = 0; link->dpia_bw_alloc_config.dp_overhead = 0; link->dpia_bw_alloc_config.response_ready = false; link->dpia_bw_alloc_config.nrd_max_lane_count = 0; link->dpia_bw_alloc_config.nrd_max_link_rate = 0; for (int i = 0; i < MAX_SINKS_PER_LINK; i++) link->dpia_bw_alloc_config.remote_sink_req_bw[i] = 0; DC_LOG_DEBUG("reset usb4 bw alloc of link(%d)\n", link->link_index); } #define BW_GRANULARITY_0 4 // 0.25 Gbps #define BW_GRANULARITY_1 2 // 0.5 Gbps #define BW_GRANULARITY_2 1 // 1 Gbps static uint8_t get_bw_granularity(struct dc_link *link) { uint8_t bw_granularity = 0; core_link_read_dpcd( link, DP_BW_GRANULALITY, &bw_granularity, sizeof(uint8_t)); switch (bw_granularity & 0x3) { case 0: bw_granularity = BW_GRANULARITY_0; break; case 1: bw_granularity = BW_GRANULARITY_1; break; case 2: default: bw_granularity = BW_GRANULARITY_2; break; } return bw_granularity; } static int get_estimated_bw(struct dc_link *link) { uint8_t bw_estimated_bw = 0; core_link_read_dpcd( link, ESTIMATED_BW, &bw_estimated_bw, sizeof(uint8_t)); return bw_estimated_bw * (Kbps_TO_Gbps / link->dpia_bw_alloc_config.bw_granularity); } static int get_non_reduced_max_link_rate(struct dc_link *link) { uint8_t nrd_max_link_rate = 0; core_link_read_dpcd( link, DP_TUNNELING_MAX_LINK_RATE, &nrd_max_link_rate, sizeof(uint8_t)); return nrd_max_link_rate; } static int get_non_reduced_max_lane_count(struct dc_link *link) { uint8_t nrd_max_lane_count = 0; core_link_read_dpcd( link, DP_TUNNELING_MAX_LANE_COUNT, &nrd_max_lane_count, sizeof(uint8_t)); return nrd_max_lane_count; } /* * Read all New BW alloc configuration ex: estimated_bw, allocated_bw, * granuality, Driver_ID, CM_Group, & populate the BW allocation structs * for host router and dpia */ static void init_usb4_bw_struct(struct dc_link *link) { reset_bw_alloc_struct(link); /* init the known values */ link->dpia_bw_alloc_config.bw_granularity = get_bw_granularity(link); link->dpia_bw_alloc_config.estimated_bw = get_estimated_bw(link); link->dpia_bw_alloc_config.nrd_max_link_rate = get_non_reduced_max_link_rate(link); link->dpia_bw_alloc_config.nrd_max_lane_count = get_non_reduced_max_lane_count(link); DC_LOG_DEBUG("%s: bw_granularity(%d), estimated_bw(%d)\n", __func__, link->dpia_bw_alloc_config.bw_granularity, link->dpia_bw_alloc_config.estimated_bw); DC_LOG_DEBUG("%s: nrd_max_link_rate(%d), nrd_max_lane_count(%d)\n", __func__, link->dpia_bw_alloc_config.nrd_max_link_rate, link->dpia_bw_alloc_config.nrd_max_lane_count); } static uint8_t get_lowest_dpia_index(struct dc_link *link) { const struct dc *dc_struct = link->dc; uint8_t idx = 0xFF; int i; for (i = 0; i < MAX_LINKS; ++i) { if (!dc_struct->links[i] || dc_struct->links[i]->ep_type != DISPLAY_ENDPOINT_USB4_DPIA) continue; if (idx > dc_struct->links[i]->link_index) { idx = dc_struct->links[i]->link_index; break; } } return idx; } /* * Get the maximum dp tunnel banwidth of host router * * @dc: pointer to the dc struct instance * @hr_index: host router index * * return: host router maximum dp tunnel bandwidth */ static int get_host_router_total_dp_tunnel_bw(const struct dc *dc, uint8_t hr_index) { uint8_t lowest_dpia_index = get_lowest_dpia_index(dc->links[0]); uint8_t hr_index_temp = 0; struct dc_link *link_dpia_primary, *link_dpia_secondary; int total_bw = 0; for (uint8_t i = 0; i < MAX_LINKS - 1; ++i) { if (!dc->links[i] || dc->links[i]->ep_type != DISPLAY_ENDPOINT_USB4_DPIA) continue; hr_index_temp = (dc->links[i]->link_index - lowest_dpia_index) / 2; if (hr_index_temp == hr_index) { link_dpia_primary = dc->links[i]; link_dpia_secondary = dc->links[i + 1]; /** * If BW allocation enabled on both DPIAs, then * HR BW = Estimated(dpia_primary) + Allocated(dpia_secondary) * otherwise HR BW = Estimated(bw alloc enabled dpia) */ if ((link_dpia_primary->hpd_status && link_dpia_primary->dpia_bw_alloc_config.bw_alloc_enabled) && (link_dpia_secondary->hpd_status && link_dpia_secondary->dpia_bw_alloc_config.bw_alloc_enabled)) { total_bw += link_dpia_primary->dpia_bw_alloc_config.estimated_bw + link_dpia_secondary->dpia_bw_alloc_config.allocated_bw; } else if (link_dpia_primary->hpd_status && link_dpia_primary->dpia_bw_alloc_config.bw_alloc_enabled) { total_bw = link_dpia_primary->dpia_bw_alloc_config.estimated_bw; } else if (link_dpia_secondary->hpd_status && link_dpia_secondary->dpia_bw_alloc_config.bw_alloc_enabled) { total_bw += link_dpia_secondary->dpia_bw_alloc_config.estimated_bw; } break; } } return total_bw; } /* * Cleanup function for when the dpia is unplugged to reset struct * and perform any required clean up * * @link: pointer to the dc_link struct instance * * return: none */ static void dpia_bw_alloc_unplug(struct dc_link *link) { if (link) { DC_LOG_DEBUG("%s: resetting bw alloc config for link(%d)\n", __func__, link->link_index); reset_bw_alloc_struct(link); } } static void set_usb4_req_bw_req(struct dc_link *link, int req_bw) { uint8_t requested_bw; uint32_t temp; /* Error check whether request bw greater than allocated */ if (req_bw > link->dpia_bw_alloc_config.estimated_bw) { DC_LOG_ERROR("%s: Request bw greater than estimated bw for link(%d)\n", __func__, link->link_index); req_bw = link->dpia_bw_alloc_config.estimated_bw; } temp = req_bw * link->dpia_bw_alloc_config.bw_granularity; requested_bw = temp / Kbps_TO_Gbps; /* Always make sure to add more to account for floating points */ if (temp % Kbps_TO_Gbps) ++requested_bw; /* Error check whether requested and allocated are equal */ req_bw = requested_bw * (Kbps_TO_Gbps / link->dpia_bw_alloc_config.bw_granularity); if (req_bw && (req_bw == link->dpia_bw_alloc_config.allocated_bw)) { DC_LOG_ERROR("%s: Request bw equals to allocated bw for link(%d)\n", __func__, link->link_index); } link->dpia_bw_alloc_config.response_ready = false; // Reset flag core_link_write_dpcd( link, REQUESTED_BW, &requested_bw, sizeof(uint8_t)); } /* * Return the response_ready flag from dc_link struct * * @link: pointer to the dc_link struct instance * * return: response_ready flag from dc_link struct */ static bool get_cm_response_ready_flag(struct dc_link *link) { return link->dpia_bw_alloc_config.response_ready; } // ------------------------------------------------------------------ // PUBLIC FUNCTIONS // ------------------------------------------------------------------ bool link_dp_dpia_set_dptx_usb4_bw_alloc_support(struct dc_link *link) { bool ret = false; uint8_t response = 0, bw_support_dpia = 0, bw_support_cm = 0; if (!(link->ep_type == DISPLAY_ENDPOINT_USB4_DPIA && link->hpd_status)) goto out; if (core_link_read_dpcd( link, DP_TUNNELING_CAPABILITIES, &response, sizeof(uint8_t)) == DC_OK) bw_support_dpia = (response >> 7) & 1; if (core_link_read_dpcd( link, USB4_DRIVER_BW_CAPABILITY, &response, sizeof(uint8_t)) == DC_OK) bw_support_cm = (response >> 7) & 1; /* Send request acknowledgment to Turn ON DPTX support */ if (bw_support_cm && bw_support_dpia) { response = 0x80; if (core_link_write_dpcd( link, DPTX_BW_ALLOCATION_MODE_CONTROL, &response, sizeof(uint8_t)) != DC_OK) { DC_LOG_DEBUG("%s: FAILURE Enabling DPtx BW Allocation Mode Support for link(%d)\n", __func__, link->link_index); } else { // SUCCESS Enabled DPtx BW Allocation Mode Support DC_LOG_DEBUG("%s: SUCCESS Enabling DPtx BW Allocation Mode Support for link(%d)\n", __func__, link->link_index); ret = true; init_usb4_bw_struct(link); link->dpia_bw_alloc_config.bw_alloc_enabled = true; /* * During DP tunnel creation, CM preallocates BW and reduces estimated BW of other * DPIA. CM release preallocation only when allocation is complete. Do zero alloc * to make the CM to release preallocation and update estimated BW correctly for * all DPIAs per host router */ link_dp_dpia_allocate_usb4_bandwidth_for_stream(link, 0); } } out: return ret; } void dpia_handle_bw_alloc_response(struct dc_link *link, uint8_t bw, uint8_t result) { int bw_needed = 0; int estimated = 0; if (!get_bw_alloc_proceed_flag((link))) return; switch (result) { case DPIA_BW_REQ_FAILED: /* * Ideally, we shouldn't run into this case as we always validate available * bandwidth and request within that limit */ estimated = bw * (Kbps_TO_Gbps / link->dpia_bw_alloc_config.bw_granularity); DC_LOG_ERROR("%s: BW REQ FAILURE for DP-TX Request for link(%d)\n", __func__, link->link_index); DC_LOG_ERROR("%s: current estimated_bw(%d), new estimated_bw(%d)\n", __func__, link->dpia_bw_alloc_config.estimated_bw, estimated); /* Update the new Estimated BW value updated by CM */ link->dpia_bw_alloc_config.estimated_bw = estimated; /* Allocate the previously requested bandwidth */ set_usb4_req_bw_req(link, link->dpia_bw_alloc_config.estimated_bw); /* * If FAIL then it is either: * 1. Due to DP-Tx trying to allocate more than available i.e. it failed locally * => get estimated and allocate that * 2. Due to the fact that DP-Tx tried to allocated ESTIMATED BW and failed then * CM will have to update 0xE0023 with new ESTIMATED BW value. */ break; case DPIA_BW_REQ_SUCCESS: bw_needed = bw * (Kbps_TO_Gbps / link->dpia_bw_alloc_config.bw_granularity); DC_LOG_DEBUG("%s: BW REQ SUCCESS for DP-TX Request for link(%d)\n", __func__, link->link_index); DC_LOG_DEBUG("%s: current allocated_bw(%d), new allocated_bw(%d)\n", __func__, link->dpia_bw_alloc_config.allocated_bw, bw_needed); link->dpia_bw_alloc_config.allocated_bw = bw_needed; link->dpia_bw_alloc_config.response_ready = true; break; case DPIA_EST_BW_CHANGED: estimated = bw * (Kbps_TO_Gbps / link->dpia_bw_alloc_config.bw_granularity); DC_LOG_DEBUG("%s: ESTIMATED BW CHANGED for link(%d)\n", __func__, link->link_index); DC_LOG_DEBUG("%s: current estimated_bw(%d), new estimated_bw(%d)\n", __func__, link->dpia_bw_alloc_config.estimated_bw, estimated); link->dpia_bw_alloc_config.estimated_bw = estimated; break; case DPIA_BW_ALLOC_CAPS_CHANGED: DC_LOG_ERROR("%s: BW ALLOC CAPABILITY CHANGED to Disabled for link(%d)\n", __func__, link->link_index); link->dpia_bw_alloc_config.bw_alloc_enabled = false; break; } } int dpia_handle_usb4_bandwidth_allocation_for_link(struct dc_link *link, int peak_bw) { int ret = 0; uint8_t timeout = 10; if (!(link && DISPLAY_ENDPOINT_USB4_DPIA == link->ep_type && link->dpia_bw_alloc_config.bw_alloc_enabled)) goto out; //1. Hot Plug if (link->hpd_status && peak_bw > 0) { // If DP over USB4 then we need to check BW allocation link->dpia_bw_alloc_config.link_max_bw = peak_bw; set_usb4_req_bw_req(link, link->dpia_bw_alloc_config.link_max_bw); do { if (timeout > 0) timeout--; else break; msleep(10); } while (!get_cm_response_ready_flag(link)); if (!timeout) ret = 0;// ERROR TIMEOUT waiting for response for allocating bw else if (link->dpia_bw_alloc_config.allocated_bw > 0) ret = link->dpia_bw_alloc_config.allocated_bw; } //2. Cold Unplug else if (!link->hpd_status) dpia_bw_alloc_unplug(link); out: return ret; } bool link_dp_dpia_allocate_usb4_bandwidth_for_stream(struct dc_link *link, int req_bw) { bool ret = false; uint8_t timeout = 10; DC_LOG_DEBUG("%s: ENTER: link(%d), hpd_status(%d), current allocated_bw(%d), req_bw(%d)\n", __func__, link->link_index, link->hpd_status, link->dpia_bw_alloc_config.allocated_bw, req_bw); if (!get_bw_alloc_proceed_flag(link)) goto out; set_usb4_req_bw_req(link, req_bw); do { if (timeout > 0) timeout--; else break; msleep(10); } while (!get_cm_response_ready_flag(link)); if (timeout) ret = true; out: DC_LOG_DEBUG("%s: EXIT: timeout(%d), ret(%d)\n", __func__, timeout, ret); return ret; } bool dpia_validate_usb4_bw(struct dc_link **link, int *bw_needed_per_dpia, const unsigned int num_dpias) { bool ret = true; int bw_needed_per_hr[MAX_HR_NUM] = { 0, 0 }, host_router_total_dp_bw = 0; uint8_t lowest_dpia_index, i, hr_index; if (!num_dpias || num_dpias > MAX_DPIA_NUM) return ret; lowest_dpia_index = get_lowest_dpia_index(link[0]); /* get total Host Router BW with granularity for the given modes */ for (i = 0; i < num_dpias; ++i) { int granularity_Gbps = 0; int bw_granularity = 0; if (!link[i]->dpia_bw_alloc_config.bw_alloc_enabled) continue; if (link[i]->link_index < lowest_dpia_index) continue; granularity_Gbps = (Kbps_TO_Gbps / link[i]->dpia_bw_alloc_config.bw_granularity); bw_granularity = (bw_needed_per_dpia[i] / granularity_Gbps) * granularity_Gbps + ((bw_needed_per_dpia[i] % granularity_Gbps) ? granularity_Gbps : 0); hr_index = (link[i]->link_index - lowest_dpia_index) / 2; bw_needed_per_hr[hr_index] += bw_granularity; } /* validate against each Host Router max BW */ for (hr_index = 0; hr_index < MAX_HR_NUM; ++hr_index) { if (bw_needed_per_hr[hr_index]) { host_router_total_dp_bw = get_host_router_total_dp_tunnel_bw(link[0]->dc, hr_index); if (bw_needed_per_hr[hr_index] > host_router_total_dp_bw) { ret = false; break; } } } return ret; } int link_dp_dpia_get_dp_overhead_in_dp_tunneling(struct dc_link *link) { int dp_overhead = 0, link_mst_overhead = 0; if (!get_bw_alloc_proceed_flag((link))) return dp_overhead; /* if its mst link, add MTPH overhead */ if ((link->type == dc_connection_mst_branch) && !link->dpcd_caps.channel_coding_cap.bits.DP_128b_132b_SUPPORTED) { /* For 8b/10b encoding: MTP is 64 time slots long, slot 0 is used for MTPH * MST overhead is 1/64 of link bandwidth (excluding any overhead) */ const struct dc_link_settings *link_cap = dc_link_get_link_cap(link); uint32_t link_bw_in_kbps = (uint32_t)link_cap->link_rate * (uint32_t)link_cap->lane_count * LINK_RATE_REF_FREQ_IN_KHZ * 8; link_mst_overhead = (link_bw_in_kbps / 64) + ((link_bw_in_kbps % 64) ? 1 : 0); } /* add all the overheads */ dp_overhead = link_mst_overhead; return dp_overhead; }
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