/* $NoKeywords:$ */ /** * @file * * Procedure to map user define topology to processor configuration * * * * @xrefitem bom "File Content Label" "Release Content" * @e project: AGESA * @e sub-project: GNB * @e \$Revision: 39898 $ @e \$Date: 2010-10-15 17:08:45 -0400 (Fri, 15 Oct 2010) $ * */ /* ***************************************************************************** * * Copyright (c) 2011, Advanced Micro Devices, Inc. * All rights reserved. * * Redistribution and use in source and binary forms, with or without * modification, are permitted provided that the following conditions are met: * * Redistributions of source code must retain the above copyright * notice, this list of conditions and the following disclaimer. * * Redistributions in binary form must reproduce the above copyright * notice, this list of conditions and the following disclaimer in the * documentation and/or other materials provided with the distribution. * * Neither the name of Advanced Micro Devices, Inc. nor the names of * its contributors may be used to endorse or promote products derived * from this software without specific prior written permission. * * THIS SOFTWARE IS PROVIDED BY THE COPYRIGHT HOLDERS AND CONTRIBUTORS "AS IS" AND * ANY EXPRESS OR IMPLIED WARRANTIES, INCLUDING, BUT NOT LIMITED TO, THE IMPLIED * WARRANTIES OF MERCHANTABILITY AND FITNESS FOR A PARTICULAR PURPOSE ARE * DISCLAIMED. IN NO EVENT SHALL ADVANCED MICRO DEVICES, INC. BE LIABLE FOR ANY * DIRECT, INDIRECT, INCIDENTAL, SPECIAL, EXEMPLARY, OR CONSEQUENTIAL DAMAGES * (INCLUDING, BUT NOT LIMITED TO, PROCUREMENT OF SUBSTITUTE GOODS OR SERVICES; * LOSS OF USE, DATA, OR PROFITS; OR BUSINESS INTERRUPTION) HOWEVER CAUSED AND * ON ANY THEORY OF LIABILITY, WHETHER IN CONTRACT, STRICT LIABILITY, OR TORT * (INCLUDING NEGLIGENCE OR OTHERWISE) ARISING IN ANY WAY OUT OF THE USE OF THIS * SOFTWARE, EVEN IF ADVISED OF THE POSSIBILITY OF SUCH DAMAGE. * * *************************************************************************** * */ /*---------------------------------------------------------------------------------------- * M O D U L E S U S E D *---------------------------------------------------------------------------------------- */ #include "AGESA.h" #include "Ids.h" #include "amdlib.h" #include "Gnb.h" #include "GnbPcie.h" #include "GnbPcieFamServices.h" #include "GeneralServices.h" #include "PcieInputParser.h" #include "PcieMapTopology.h" #include GNB_MODULE_DEFINITIONS (GnbPcieConfig) #include "Filecode.h" #define FILECODE PROC_GNB_MODULES_GNBPCIECONFIG_PCIEMAPTOPOLOGY_FILECODE /*---------------------------------------------------------------------------------------- * D E F I N I T I O N S A N D M A C R O S *---------------------------------------------------------------------------------------- */ /*---------------------------------------------------------------------------------------- * T Y P E D E F S A N D S T R U C T U R E S *---------------------------------------------------------------------------------------- */ /*---------------------------------------------------------------------------------------- * P R O T O T Y P E S O F L O C A L F U N C T I O N S *---------------------------------------------------------------------------------------- */ AGESA_STATUS PcieEnginesToWrapper ( IN PCIE_ENGINE_TYPE EngineType, IN PCIe_COMPLEX_DESCRIPTOR *ComplexDescriptor, IN PCIe_WRAPPER_CONFIG *Wrapper ); AGESA_STATUS STATIC PcieMapPortsPciAddresses ( IN PCIe_SILICON_CONFIG *Silicon, IN PCIe_PLATFORM_CONFIG *Pcie ); AGESA_STATUS PcieMapTopologyOnWrapper ( IN PCIe_COMPLEX_DESCRIPTOR *ComplexDescriptor, IN OUT PCIe_WRAPPER_CONFIG *Wrapper, IN PCIe_PLATFORM_CONFIG *Pcie ); VOID PcieMapInitializeEngineData ( IN PCIe_COMPLEX_DESCRIPTOR *ComplexDescriptor, IN OUT PCIe_WRAPPER_CONFIG *Wrapper, IN PCIe_PLATFORM_CONFIG *Pcie ); BOOLEAN PcieCheckPortPciDeviceMapping ( IN PCIe_PORT_DESCRIPTOR *PortDescriptor, IN PCIe_ENGINE_CONFIG *Engine ); VOID PcieComplexConfigConfigDump ( IN PCIe_COMPLEX_DESCRIPTOR *ComplexDescriptor, IN PCIe_PLATFORM_CONFIG *Pcie ); BOOLEAN PcieIsDescriptorLinkWidthValid ( IN PCIe_ENGINE_DESCRIPTOR *EngineDescriptor ); BOOLEAN PcieCheckLanesMatch ( IN PCIe_ENGINE_DESCRIPTOR *EngineDescriptor, IN PCIe_ENGINE_CONFIG *Engine ); BOOLEAN PcieCheckDescriptorMapsToWrapper ( IN PCIe_ENGINE_DESCRIPTOR *EngineDescriptor, IN PCIe_WRAPPER_CONFIG *Wrapper ); VOID PcieAllocateEngine ( IN UINT8 DescriptorIndex, IN PCIe_ENGINE_CONFIG *Engine ); /*----------------------------------------------------------------------------------------*/ /** * Configure engine list to support lane allocation according to configuration ID. * * * * @param[in] ComplexDescriptor Pointer to used define complex descriptor * @param[in] Complex Pointer to complex descriptor * @param[in] Pcie Pointer to global PCIe configuration * @retval AGESA_SUCCESS Topology successfully mapped * @retval AGESA_ERROR Topology can not be mapped */ AGESA_STATUS PcieMapTopologyOnComplex ( IN PCIe_COMPLEX_DESCRIPTOR *ComplexDescriptor, IN PCIe_COMPLEX_CONFIG *Complex, IN PCIe_PLATFORM_CONFIG *Pcie ) { PCIe_SILICON_CONFIG *Silicon; PCIe_WRAPPER_CONFIG *Wrapper; AGESA_STATUS AgesaStatus; AGESA_STATUS Status; AgesaStatus = AGESA_SUCCESS; IDS_HDT_CONSOLE (GNB_TRACE, "PcieMapTopologyOnComplex Enter\n"); GNB_DEBUG_CODE ( PcieComplexConfigConfigDump (ComplexDescriptor, Pcie); ); Silicon = PcieComplexGetSiliconList (Complex); while (Silicon != NULL) { Wrapper = PcieSiliconGetWrapperList (Silicon); while (Wrapper != NULL) { Status = PcieMapTopologyOnWrapper (ComplexDescriptor, Wrapper, Pcie); AGESA_STATUS_UPDATE (Status, AgesaStatus); if (Status == AGESA_ERROR) { PcieConfigDisableAllEngines (PciePortEngine | PcieDdiEngine, Wrapper); IDS_HDT_CONSOLE (PCIE_MISC, " ERROR! Fail to map topology on %s Wrapper\n", PcieFmDebugGetWrapperNameString (Wrapper) ); ASSERT (FALSE); } Wrapper = PcieLibGetNextDescriptor (Wrapper); } Status = PcieMapPortsPciAddresses (Silicon, Pcie); AGESA_STATUS_UPDATE (Status, AgesaStatus); Silicon = PcieLibGetNextDescriptor (Silicon); } IDS_HDT_CONSOLE (GNB_TRACE, "PcieMapTopologyOnComplex Exit [%x]\n", AgesaStatus); return AgesaStatus; } /*----------------------------------------------------------------------------------------*/ /** * Configure engine list to support lane allocation according to configuration ID. * * * * @param[in] EngineType Engine type * @param[in] ComplexDescriptor Pointer to used define complex descriptor * @param[in] Wrapper Pointer to wrapper config descriptor * @retval AGESA_SUCCESS Topology successfully mapped * @retval AGESA_ERROR Topology can not be mapped */ AGESA_STATUS PcieEnginesToWrapper ( IN PCIE_ENGINE_TYPE EngineType, IN PCIe_COMPLEX_DESCRIPTOR *ComplexDescriptor, IN PCIe_WRAPPER_CONFIG *Wrapper ) { AGESA_STATUS Status; PCIe_ENGINE_CONFIG *EngineList; PCIe_ENGINE_DESCRIPTOR *EngineDescriptor; UINT8 ConfigurationId; UINT8 Allocations; UINTN Index; UINTN NumberOfDescriptors; ConfigurationId = 0; Allocations = 0; IDS_HDT_CONSOLE (GNB_TRACE, "PcieEnginesToWrapper Enter\n"); NumberOfDescriptors = PcieInputParserGetNumberOfEngines (ComplexDescriptor); do { Status = PcieFmConfigureEnginesLaneAllocation (Wrapper, EngineType, ConfigurationId++); if (Status == AGESA_SUCCESS) { Allocations = 0; for (Index = 0; Index < NumberOfDescriptors; Index++) { EngineDescriptor = PcieInputParserGetEngineDescriptor (ComplexDescriptor, Index); if (EngineDescriptor->EngineData.EngineType == EngineType) { // Step 1, belongs to wrapper check. if (PcieCheckDescriptorMapsToWrapper (EngineDescriptor, Wrapper)) { ++Allocations; EngineList = PcieWrapperGetEngineList (Wrapper); while (EngineList != NULL) { if (!PcieLibIsEngineAllocated (EngineList)) { // Step 2.user descriptor less or equal to link width of engine if (PcieCheckLanesMatch (EngineDescriptor, EngineList)) { // Step 3, Check if link width is correct.x1, x2, x4, x8, x16. if (!PcieIsDescriptorLinkWidthValid (EngineDescriptor)) { PcieConfigDisableEngine (EngineList); return AGESA_ERROR; } if (EngineDescriptor->EngineData.EngineType == PciePortEngine) { // Step 4, Family specifc, port device number match engine device if (PcieCheckPortPciDeviceMapping ((PCIe_PORT_DESCRIPTOR*) EngineDescriptor, EngineList)) { //Step 5, Family specifc, lanes can be muxed. if (PcieFmCheckPortPcieLaneCanBeMuxed ((PCIe_PORT_DESCRIPTOR*) EngineDescriptor, EngineList)) { PcieAllocateEngine ((UINT8) Index, EngineList); --Allocations; } } } else { PcieAllocateEngine ((UINT8) Index, EngineList); --Allocations; } } }//end if PcieLibIsEngineAllocated EngineList = PcieLibGetNextDescriptor (EngineList); } }//end if PcieCheckDescriptorMapsToWrapper }// end if EngineType }//end for } } while (Status == AGESA_SUCCESS && Allocations != 0); IDS_HDT_CONSOLE (GNB_TRACE, "PcieEnginesToWrapper Exit [%x]\n", Status); return Status; } /*----------------------------------------------------------------------------------------*/ /** * Check if lane from user port descriptor (PCIe_PORT_DESCRIPTOR) belongs to wrapper (PCIe_WRAPPER_CONFIG) * * * @param[in] EngineDescriptor Pointer to used define engine descriptor * @param[in] Wrapper Pointer to PCIe_WRAPPER_CONFIG * @retval TRUE Belongs to wrapper * @retval FALSE Not belongs to wrapper */ BOOLEAN PcieCheckDescriptorMapsToWrapper ( IN PCIe_ENGINE_DESCRIPTOR *EngineDescriptor, IN PCIe_WRAPPER_CONFIG *Wrapper ) { BOOLEAN Result; UINT16 DescriptorHiLane; UINT16 DescriptorLoLane; UINT16 DescriptorNumberOfLanes; DescriptorLoLane = MIN (EngineDescriptor->EngineData.StartLane, EngineDescriptor->EngineData.EndLane); DescriptorHiLane = MAX (EngineDescriptor->EngineData.StartLane, EngineDescriptor->EngineData.EndLane); DescriptorNumberOfLanes = DescriptorHiLane - DescriptorLoLane + 1; Result = TRUE; if (!(DescriptorLoLane >= Wrapper->StartPhyLane && DescriptorHiLane <= Wrapper->EndPhyLane)) { // Lanes of descriptor does not belongs to wrapper Result = FALSE; } return Result; } /*----------------------------------------------------------------------------------------*/ /** * Set Engine to be allocated. * * * @param[in] DescriptorIndex UINT8 index * @param[in] Engine Pointer to engine config */ VOID PcieAllocateEngine ( IN UINT8 DescriptorIndex, IN PCIe_ENGINE_CONFIG *Engine ) { Engine->Flags |= DESCRIPTOR_ALLOCATED; Engine->Scratch = DescriptorIndex; } /*----------------------------------------------------------------------------------------*/ /** * Configure engine list to support lane allocation according to configuration ID. * * PCIE port * * * 1 Check if lane from user port descriptor (PCIe_PORT_DESCRIPTOR) belongs to wrapper (PCIe_WRAPPER_CONFIG) * 2 Check if link width from user descriptor less or equal to link width of engine (PCIe_ENGINE_CONFIG) * 3 Check if link width is correct. Correct link width for PCIe port x1, x2, x4, x8, x16, correct link width for DDI x4, x8 * 4 Check if user port device number (PCIe_PORT_DESCRIPTOR) match engine port device number (PCIe_ENGINE_CONFIG) * 5 Check if lane can be muxed * * * DDI Link * * 1 Check if lane from user port descriptor (PCIe_DDI_DESCRIPTOR) belongs to wrapper (PCIe_WRAPPER_CONFIG) * 2 Check lane from (PCIe_DDI_DESCRIPTOR) match exactly phy lane (PCIe_ENGINE_CONFIG) * * * * @param[in] ComplexDescriptor Pointer to used define complex descriptor * @param[in,out] Wrapper Pointer to wrapper config descriptor * @param[in] Pcie Pointer to global PCIe configuration * @retval AGESA_SUCCESS Topology successfully mapped * @retval AGESA_ERROR Topology can not be mapped */ AGESA_STATUS PcieMapTopologyOnWrapper ( IN PCIe_COMPLEX_DESCRIPTOR *ComplexDescriptor, IN OUT PCIe_WRAPPER_CONFIG *Wrapper, IN PCIe_PLATFORM_CONFIG *Pcie ) { AGESA_STATUS AgesaStatus; AGESA_STATUS Status; PCIe_ENGINE_CONFIG *EngineList; UINT32 WrapperPhyLaneBitMap; AgesaStatus = AGESA_SUCCESS; if (PcieLibIsPcieWrapper (Wrapper)) { Status = PcieEnginesToWrapper (PciePortEngine, ComplexDescriptor, Wrapper); AGESA_STATUS_UPDATE (Status, AgesaStatus); if (Status == AGESA_ERROR) { // If we can not map topology on wrapper we can not enable any engines. PutEventLog ( AGESA_ERROR, GNB_EVENT_INVALID_PCIE_TOPOLOGY_CONFIGURATION, Wrapper->WrapId, Wrapper->StartPhyLane, Wrapper->EndPhyLane, 0, GnbLibGetHeader (Pcie) ); PcieConfigDisableAllEngines (PciePortEngine, Wrapper); } EngineList = PcieWrapperGetEngineList (Wrapper); // Assure SB is allocated while (EngineList != NULL) { if ((EngineList->EngineData.EngineType == PciePortEngine) && (EngineList->Type.Port.IsSB)) { EngineList->Flags |= DESCRIPTOR_ALLOCATED; } EngineList = PcieLibGetNextDescriptor (EngineList); } } if (PcieLibIsDdiWrapper (Wrapper)) { Status = PcieEnginesToWrapper (PcieDdiEngine, ComplexDescriptor, Wrapper); AGESA_STATUS_UPDATE (Status, AgesaStatus); if (Status == AGESA_ERROR) { // If we can not map topology on wrapper we can not enable any engines. PutEventLog ( AGESA_ERROR, GNB_EVENT_INVALID_DDI_TOPOLOGY_CONFIGURATION, Wrapper->WrapId, Wrapper->StartPhyLane, Wrapper->EndPhyLane, 0, GnbLibGetHeader (Pcie) ); PcieConfigDisableAllEngines (PcieDdiEngine, Wrapper); } } // Copy engine data PcieMapInitializeEngineData (ComplexDescriptor, Wrapper, Pcie); EngineList = PcieWrapperGetEngineList (Wrapper); // Verify if we oversubscribe lanes and PHY link width WrapperPhyLaneBitMap = 0; while (EngineList != NULL) { UINT32 EnginePhyLaneBitMap; if (PcieLibIsEngineAllocated (EngineList)) { EnginePhyLaneBitMap = PcieConfigGetEnginePhyLaneBitMap (EngineList); if ((WrapperPhyLaneBitMap & EnginePhyLaneBitMap) != 0) { IDS_HDT_CONSOLE (PCIE_MISC, " ERROR! Lanes double subscribe lanes [Engine Lanes %d..%d]\n", EngineList->EngineData.StartLane, EngineList->EngineData.EndLane ); PutEventLog ( AGESA_ERROR, GNB_EVENT_INVALID_LANES_CONFIGURATION, EngineList->EngineData.StartLane, EngineList->EngineData.EndLane, 0, 0, GnbLibGetHeader (Pcie) ); PcieConfigDisableEngine (EngineList); Status = AGESA_ERROR; AGESA_STATUS_UPDATE (Status, AgesaStatus); } else { WrapperPhyLaneBitMap |= EnginePhyLaneBitMap; } } EngineList = PcieLibGetNextDescriptor (EngineList); } return AgesaStatus; } /*----------------------------------------------------------------------------------------*/ /** * Initialize engine data * * * * @param[in] ComplexDescriptor Pointer to user defined complex descriptor * @param[in,out] Wrapper Pointer to wrapper config descriptor * @param[in] Pcie Pointer to global PCIe configuration */ VOID PcieMapInitializeEngineData ( IN PCIe_COMPLEX_DESCRIPTOR *ComplexDescriptor, IN OUT PCIe_WRAPPER_CONFIG *Wrapper, IN PCIe_PLATFORM_CONFIG *Pcie ) { PCIe_ENGINE_CONFIG *EngineList; PCIe_ENGINE_DESCRIPTOR *EngineDescriptor; EngineList = PcieWrapperGetEngineList (Wrapper); while (EngineList != NULL) { if (PcieLibIsEngineAllocated (EngineList)) { if (EngineList->Scratch != 0xFF) { EngineDescriptor = PcieInputParserGetEngineDescriptor (ComplexDescriptor, EngineList->Scratch); LibAmdMemCopy (&EngineList->EngineData, &EngineDescriptor->EngineData, sizeof (EngineDescriptor->EngineData), GnbLibGetHeader (Pcie)); if (PcieLibIsDdiEngine (EngineList)) { LibAmdMemCopy (&EngineList->Type.Ddi, &((PCIe_DDI_DESCRIPTOR*) EngineDescriptor)->Ddi, sizeof (PCIe_DDI_DATA), GnbLibGetHeader (Pcie)); EngineList->Type.Ddi.DisplayPriorityIndex = (UINT8) EngineList->Scratch; } else if (PcieLibIsPcieEngine (EngineList)) { LibAmdMemCopy (&EngineList->Type.Port, &((PCIe_PORT_DESCRIPTOR*) EngineDescriptor)->Port, sizeof (PCIe_PORT_DATA), GnbLibGetHeader (Pcie)); } } } EngineList = PcieLibGetNextDescriptor (EngineList); } } /*----------------------------------------------------------------------------------------*/ /** * Allocate PCI addresses for all PCIe engines on silicon * * * * @param[in] PortDescriptor Pointer to user defined engine descriptor * @param[in] Engine Pointer engine configuration * @retval TRUE Descriptor can be mapped to engine * @retval FALSE Descriptor can NOT be mapped to engine */ BOOLEAN PcieCheckPortPciDeviceMapping ( IN PCIe_PORT_DESCRIPTOR *PortDescriptor, IN PCIe_ENGINE_CONFIG *Engine ) { BOOLEAN Result; if ((PortDescriptor->Port.DeviceNumber == Engine->Type.Port.NativeDevNumber && PortDescriptor->Port.FunctionNumber == Engine->Type.Port.NativeFunNumber) || (PortDescriptor->Port.DeviceNumber == 0 && PortDescriptor->Port.FunctionNumber == 0)) { Result = TRUE; } else { Result = PcieFmCheckPortPciDeviceMapping (PortDescriptor, Engine); } return Result; } /*----------------------------------------------------------------------------------------*/ /** * Allocate PCI addresses for all PCIe engines on silicon * * * * @param[in] Silicon Pointer to silicon configurration * @param[in] Pcie Pointer PCIe configuration * @retval AGESA_ERROR Fail to allocate PCI device address * @retval AGESA_SUCCESS Successfully allocate PCI address for all PCIe ports */ AGESA_STATUS STATIC PcieMapPortsPciAddresses ( IN PCIe_SILICON_CONFIG *Silicon, IN PCIe_PLATFORM_CONFIG *Pcie ) { AGESA_STATUS Status; AGESA_STATUS AgesaStatus; PCIe_WRAPPER_CONFIG *WrapperList; PCIe_ENGINE_CONFIG *EngineList; AgesaStatus = AGESA_SUCCESS; WrapperList = PcieSiliconGetWrapperList (Silicon); while (WrapperList != NULL) { EngineList = PcieWrapperGetEngineList (WrapperList); while (EngineList != NULL) { if (PcieLibIsPcieEngine (EngineList) && PcieLibIsEngineAllocated (EngineList)) { Status = PcieFmMapPortPciAddress (EngineList, Pcie); AGESA_STATUS_UPDATE (Status, AgesaStatus); if (Status == AGESA_SUCCESS) { EngineList->Type.Port.Address.AddressValue = MAKE_SBDFO ( 0, Silicon->Address.Address.Bus, EngineList->Type.Port.PortData.DeviceNumber, EngineList->Type.Port.PortData.FunctionNumber, 0 ); } else { EngineList->Type.Port.PortData.PortPresent = OFF; IDS_HDT_CONSOLE (PCIE_MISC, " ERROR! Fail to allocate PCI address for PCIe port\n" ); //Report error PutEventLog ( AGESA_ERROR, GNB_EVENT_INVALID_PCIE_PORT_CONFIGURATION, EngineList->Type.Port.PortData.DeviceNumber, 0, 0, 0, GnbLibGetHeader (Pcie) ); } } EngineList = PcieLibGetNextDescriptor (EngineList); } WrapperList = PcieLibGetNextDescriptor (WrapperList); } return AgesaStatus; } /*----------------------------------------------------------------------------------------*/ /** * If link width from user descriptor less or equal to link width of engine * * * @param[in] EngineDescriptor Pointer to used define engine descriptor * @param[in] Engine Pointer to engine config * @retval TRUE Descriptor can be mapped to engine * @retval FALSE Descriptor can NOT be mapped to engine */ BOOLEAN PcieCheckLanesMatch ( IN PCIe_ENGINE_DESCRIPTOR *EngineDescriptor, IN PCIe_ENGINE_CONFIG *Engine ) { BOOLEAN Result; UINT16 DescriptorHiLane; UINT16 DescriptorLoLane; UINT16 DescriptorNumberOfLanes; DescriptorLoLane = MIN (EngineDescriptor->EngineData.StartLane, EngineDescriptor->EngineData.EndLane); DescriptorHiLane = MAX (EngineDescriptor->EngineData.StartLane, EngineDescriptor->EngineData.EndLane); DescriptorNumberOfLanes = DescriptorHiLane - DescriptorLoLane + 1; Result = FALSE; if (EngineDescriptor->EngineData.EngineType == PciePortEngine) { // // If link width from user descriptor less or equal to link width of engine (PCIe_ENGINE_CONFIG) // if (DescriptorNumberOfLanes <= PcieConfigGetNumberOfCoreLane (Engine)) { Result = TRUE; } } else if (EngineDescriptor->EngineData.EngineType == PcieDdiEngine) { // //For Ddi, check lane from (PCIe_DDI_DESCRIPTOR) match exactly phy lane (PCIe_ENGINE_CONFIG) // if ((Engine->EngineData.StartLane == DescriptorLoLane) && (Engine->EngineData.EndLane == DescriptorHiLane)) { Result = TRUE; } } return Result; } /*----------------------------------------------------------------------------------------*/ /** * Correct link width for PCIe port x1, x2, x4, x8, x16, correct link width for DDI x4, x8 * * * @param[in] EngineDescriptor A pointer of PCIe_ENGINE_DESCRIPTOR * @retval TRUE Descriptor can be mapped to engine * @retval FALSE Descriptor can NOT be mapped to engine */ BOOLEAN PcieIsDescriptorLinkWidthValid ( IN PCIe_ENGINE_DESCRIPTOR *EngineDescriptor ) { BOOLEAN Result; UINT16 DescriptorHiLane; UINT16 DescriptorLoLane; UINT16 DescriptorNumberOfLanes; Result = FALSE; DescriptorLoLane = MIN (EngineDescriptor->EngineData.StartLane, EngineDescriptor->EngineData.EndLane); DescriptorHiLane = MAX (EngineDescriptor->EngineData.StartLane, EngineDescriptor->EngineData.EndLane); DescriptorNumberOfLanes = DescriptorHiLane - DescriptorLoLane + 1; if (EngineDescriptor->EngineData.EngineType == PciePortEngine) { if (DescriptorNumberOfLanes == 1 || DescriptorNumberOfLanes == 2 || DescriptorNumberOfLanes == 4 || DescriptorNumberOfLanes == 8 || DescriptorNumberOfLanes == 16) { Result = TRUE; } } else if (EngineDescriptor->EngineData.EngineType == PcieDdiEngine) { if (DescriptorNumberOfLanes == 4 || DescriptorNumberOfLanes == 8) { Result = TRUE; } } GNB_DEBUG_CODE ( if (!Result) { IDS_HDT_CONSOLE (PCIE_MISC, " Invalid Link width [Engine Lanes %d..%d]\n", DescriptorLoLane, DescriptorHiLane ); } ); return Result; } /*----------------------------------------------------------------------------------------*/ /** * Helper function to dump input configuration to debug out * * * @param[in] ComplexDescriptor Pointer to used define complex descriptor * @param[in] Pcie Pointer to global PCIe configuration */ VOID PcieComplexConfigConfigDump ( IN PCIe_COMPLEX_DESCRIPTOR *ComplexDescriptor, IN PCIe_PLATFORM_CONFIG *Pcie ) { PCIe_ENGINE_DESCRIPTOR *EngineDescriptor; UINTN Index; UINTN NumberOfEngines; IDS_HDT_CONSOLE (PCIE_MISC, "<---------- PCIe User Config Start------------->\n"); NumberOfEngines = PcieInputParserGetNumberOfEngines (ComplexDescriptor); IDS_HDT_CONSOLE (PCIE_MISC, " ComplexDescriptor SocketId - %d\n NumberOfEngines - %d\n", ComplexDescriptor->SocketId, NumberOfEngines ); for (Index = 0; Index < NumberOfEngines; Index++) { EngineDescriptor = PcieInputParserGetEngineDescriptor (ComplexDescriptor, Index); IDS_HDT_CONSOLE (PCIE_MISC, " Engine Type - %s\n", (EngineDescriptor->EngineData.EngineType == PciePortEngine) ? "PCIe Port" : ( (EngineDescriptor->EngineData.EngineType == PcieDdiEngine) ? "DDI Link" : ( (EngineDescriptor->EngineData.EngineType == PcieUnusedEngine) ? "Unused" : "Invalid")) ); IDS_HDT_CONSOLE (PCIE_MISC, " Start Phy Lane - %d\n End Phy Lane - %d\n", EngineDescriptor->EngineData.StartLane, EngineDescriptor->EngineData.EndLane ); if (EngineDescriptor->EngineData.EngineType == PciePortEngine) { IDS_HDT_CONSOLE (PCIE_MISC, " PortPresent - %d\n ChannelType - %d\n DeviceNumber - %d\n FunctionNumber - %d\n LinkSpeedCapability - %d\n LinkAspm - %d\n LinkHotplug - %d\n ResetId - %d\n" , ((PCIe_PORT_DESCRIPTOR *) EngineDescriptor)->Port.PortPresent, ((PCIe_PORT_DESCRIPTOR *) EngineDescriptor)->Port.ChannelType, ((PCIe_PORT_DESCRIPTOR *) EngineDescriptor)->Port.DeviceNumber, ((PCIe_PORT_DESCRIPTOR *) EngineDescriptor)->Port.FunctionNumber, ((PCIe_PORT_DESCRIPTOR *) EngineDescriptor)->Port.LinkSpeedCapability, ((PCIe_PORT_DESCRIPTOR *) EngineDescriptor)->Port.LinkAspm, ((PCIe_PORT_DESCRIPTOR *) EngineDescriptor)->Port.LinkHotplug, ((PCIe_PORT_DESCRIPTOR *) EngineDescriptor)->Port.ResetId ); } if (EngineDescriptor->EngineData.EngineType == PcieDdiEngine) { IDS_HDT_CONSOLE (PCIE_MISC, " ConnectorType - %d\n AuxIndex - %d\n HdpIndex - %d\n" , ((PCIe_DDI_DESCRIPTOR *) EngineDescriptor)->Ddi.ConnectorType, ((PCIe_DDI_DESCRIPTOR *) EngineDescriptor)->Ddi.AuxIndex, ((PCIe_DDI_DESCRIPTOR *) EngineDescriptor)->Ddi.HdpIndex ); } } IDS_HDT_CONSOLE (PCIE_MISC, "<---------- PCIe User Config End-------------->\n"); }