diff options
Diffstat (limited to 'src/vendorcode/amd/agesa/f16kb/Proc/GNB/Modules/GnbPcieInitLibV1/PcieTopologyServices.c')
| -rw-r--r-- | src/vendorcode/amd/agesa/f16kb/Proc/GNB/Modules/GnbPcieInitLibV1/PcieTopologyServices.c | 722 |
1 files changed, 722 insertions, 0 deletions
diff --git a/src/vendorcode/amd/agesa/f16kb/Proc/GNB/Modules/GnbPcieInitLibV1/PcieTopologyServices.c b/src/vendorcode/amd/agesa/f16kb/Proc/GNB/Modules/GnbPcieInitLibV1/PcieTopologyServices.c new file mode 100644 index 0000000000..5151fb445d --- /dev/null +++ b/src/vendorcode/amd/agesa/f16kb/Proc/GNB/Modules/GnbPcieInitLibV1/PcieTopologyServices.c @@ -0,0 +1,722 @@ +/* $NoKeywords:$ */ +/** + * @file + * + * PCIe topology initialization service procedures. + * + * + * + * @xrefitem bom "File Content Label" "Release Content" + * @e project: AGESA + * @e sub-project: GNB + * @e \$Revision: 84150 $ @e \$Date: 2012-12-12 15:46:25 -0600 (Wed, 12 Dec 2012) $ + * + */ +/* +***************************************************************************** +* + * Copyright (c) 2008 - 2013, 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 "GnbCommonLib.h" +#include "GnbPcieConfig.h" +#include "GnbPcieInitLibV1.h" +#include "GnbRegistersCommon.h" +#include "Filecode.h" +#define FILECODE PROC_GNB_MODULES_GNBPCIEINITLIBV1_PCIETOPOLOGYSERVICES_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 + *---------------------------------------------------------------------------------------- + */ + + +/*----------------------------------------------------------------------------------------*/ +/** + * Cleanup reconfig + * + * + * + * @param[in] Wrapper Pointer to wrapper config descriptor + * @param[in] Pcie Pointer to global PCIe configuration + */ +VOID +PcieTopologyCleanUpReconfig ( + IN PCIe_WRAPPER_CONFIG *Wrapper, + IN PCIe_PLATFORM_CONFIG *Pcie + ) +{ + if (PcieLibIsPcieWrapper (Wrapper)) { + PcieRegisterRMW ( + Wrapper, + WRAP_SPACE (Wrapper->WrapId, D0F0xE4_WRAP_8062_ADDRESS), + D0F0xE4_WRAP_8062_ConfigXferMode_MASK, + 1 << D0F0xE4_WRAP_8062_ConfigXferMode_OFFSET, + FALSE, + Pcie + ); + } +} + + +/*----------------------------------------------------------------------------------------*/ +/** + * Prepare for reconfiguration + * + * + * + * @param[in] Wrapper Pointer to wrapper config descriptor + * @param[in] Pcie Pointer to global PCIe configuration + */ +VOID +PcieTopologyPrepareForReconfig ( + IN PCIe_WRAPPER_CONFIG *Wrapper, + IN PCIe_PLATFORM_CONFIG *Pcie + ) +{ + D0F0xE4_WRAP_8062_STRUCT D0F0xE4_WRAP_8062; + UINT8 CoreId; + if (PcieLibIsPcieWrapper (Wrapper)) { + for (CoreId = Wrapper->StartPcieCoreId; CoreId <= Wrapper->EndPcieCoreId; CoreId++) { + PcieRegisterWriteField ( + Wrapper, + CORE_SPACE (CoreId, D0F0xE4_CORE_0011_ADDRESS), + D0F0xE4_CORE_0011_DynClkLatency_OFFSET, + D0F0xE4_CORE_0011_DynClkLatency_WIDTH, + 0xf, + FALSE, + Pcie + ); + } + + D0F0xE4_WRAP_8062.Value = PcieRegisterRead ( + Wrapper, + WRAP_SPACE (Wrapper->WrapId, D0F0xE4_WRAP_8062_ADDRESS), + Pcie + ); + + D0F0xE4_WRAP_8062.Field.ConfigXferMode = 0x0; + D0F0xE4_WRAP_8062.Field.BlockOnIdle = 0x0; + PcieRegisterWrite ( + Wrapper, + WRAP_SPACE (Wrapper->WrapId, D0F0xE4_WRAP_8062_ADDRESS), + D0F0xE4_WRAP_8062.Value, + FALSE, + Pcie + ); + } +} + + +UINT8 LaneMuxSelectorTable[8] = { 0, 1, 2, 3, 4, 5, 6, 7 }; + +/*----------------------------------------------------------------------------------------*/ +/** + * Locate mux array index + * + * + * + * @param[in, out] LaneMuxSelectorArrayPtr Pointer to mux selector array + * @param[in] LaneMuxValue The value that match to array + * @retval Index Index successfully mapped + */ +STATIC UINT8 +PcieTopologyLocateMuxIndex ( + IN OUT UINT8 *LaneMuxSelectorArrayPtr, + IN UINT8 LaneMuxValue + ) +{ + UINT8 Index; + for (Index = 0; Index < sizeof (LaneMuxSelectorTable); Index++ ) { + if (LaneMuxSelectorArrayPtr [Index] == LaneMuxValue) { + return Index; + } + } + return 0; +} + +/*----------------------------------------------------------------------------------------*/ +/** + * Apply lane mux + * + * + * + * @param[in] Wrapper Pointer to wrapper config descriptor + * @param[in] Pcie Pointer to global PCIe configuration + */ + +VOID +PcieTopologyApplyLaneMux ( + IN PCIe_WRAPPER_CONFIG *Wrapper, + IN PCIe_PLATFORM_CONFIG *Pcie + ) +{ + PCIe_ENGINE_CONFIG *EngineList; + UINT8 CurrentPhyLane; + UINT8 CurrentCoreLane; + UINT8 CoreLaneIndex; + UINT8 PhyLaneIndex; + UINT8 NumberOfPhyLane; + UINT8 TxLaneMuxSelectorArray [sizeof (LaneMuxSelectorTable)]; + UINT8 RxLaneMuxSelectorArray [sizeof (LaneMuxSelectorTable)]; + UINT8 Index; + UINT32 TxMaxSelectorValue; + UINT32 RxMaxSelectorValue; + + IDS_HDT_CONSOLE (GNB_TRACE, "PcieTopologyApplyLaneMux Enter\n"); + if (PcieLibIsPcieWrapper (Wrapper)) { + EngineList = PcieConfigGetChildEngine (Wrapper); + LibAmdMemCopy ( + &TxLaneMuxSelectorArray[0], + &LaneMuxSelectorTable[0], + sizeof (LaneMuxSelectorTable), + GnbLibGetHeader (Pcie) + ); + LibAmdMemCopy ( + &RxLaneMuxSelectorArray[0], + &LaneMuxSelectorTable[0], + sizeof (LaneMuxSelectorTable), + GnbLibGetHeader (Pcie) + ); + while (EngineList != NULL) { + if (PcieLibIsPcieEngine (EngineList) && PcieLibIsEngineAllocated (EngineList)) { + CurrentPhyLane = (UINT8) PcieLibGetLoPhyLane (EngineList) - Wrapper->StartPhyLane; + NumberOfPhyLane = (UINT8) PcieConfigGetNumberOfPhyLane (EngineList); + CurrentCoreLane = (UINT8) EngineList->Type.Port.StartCoreLane; + if (PcieUtilIsLinkReversed (FALSE, EngineList, Pcie)) { + CurrentCoreLane = CurrentCoreLane + PcieConfigGetNumberOfCoreLane (EngineList) - NumberOfPhyLane; + } + for (Index = 0; Index < NumberOfPhyLane; Index = Index + 2 ) { + CoreLaneIndex = (CurrentCoreLane + Index) / 2; + PhyLaneIndex = (CurrentPhyLane + Index) / 2; + + if (RxLaneMuxSelectorArray [CoreLaneIndex] != PhyLaneIndex) { + RxLaneMuxSelectorArray [PcieTopologyLocateMuxIndex (RxLaneMuxSelectorArray, PhyLaneIndex)] = RxLaneMuxSelectorArray [CoreLaneIndex]; + RxLaneMuxSelectorArray [CoreLaneIndex] = PhyLaneIndex; + } + if (TxLaneMuxSelectorArray [PhyLaneIndex] != CoreLaneIndex) { + TxLaneMuxSelectorArray [PcieTopologyLocateMuxIndex (TxLaneMuxSelectorArray, CoreLaneIndex)] = TxLaneMuxSelectorArray [PhyLaneIndex]; + TxLaneMuxSelectorArray [PhyLaneIndex] = CoreLaneIndex; + } + } + } + EngineList = PcieLibGetNextDescriptor (EngineList); + } + RxMaxSelectorValue = 0; + TxMaxSelectorValue = 0; + for (Index = 0; Index < sizeof (LaneMuxSelectorTable); Index++) { + RxMaxSelectorValue |= (RxLaneMuxSelectorArray[Index] << (Index * 4)); + TxMaxSelectorValue |= (TxLaneMuxSelectorArray[Index] << (Index * 4)); + } + PcieRegisterWrite ( + Wrapper, + WRAP_SPACE (Wrapper->WrapId, D0F0xE4_WRAP_8021_ADDRESS), + TxMaxSelectorValue, + FALSE, + Pcie + ); + PcieRegisterWrite ( + Wrapper, + WRAP_SPACE (Wrapper->WrapId, D0F0xE4_WRAP_8022_ADDRESS), + RxMaxSelectorValue, + FALSE, + Pcie + ); + } + IDS_HDT_CONSOLE (GNB_TRACE, "PcieTopologyApplyLaneMux Exit\n"); +} + + +/*----------------------------------------------------------------------------------------*/ +/** + * Select master PLL + * + * + * + * @param[in] Wrapper Pointer to wrapper config descriptor + * @param[out] ConfigChanged Pointer to boolean indicator that configuration was changed + * @param[in] Pcie Pointer to global PCIe configuration + */ + +VOID +PcieTopologySelectMasterPll ( + IN PCIe_WRAPPER_CONFIG *Wrapper, + OUT BOOLEAN *ConfigChanged, + IN PCIe_PLATFORM_CONFIG *Pcie + ) +{ + PCIe_ENGINE_CONFIG *EngineList; + UINT16 MasterLane; + UINT16 MasterHotplugLane; + D0F0xE4_WRAP_8013_STRUCT D0F0xE4_WRAP_8013; + D0F0xE4_WRAP_8013_STRUCT D0F0xE4_WRAP_8013_BASE; + IDS_HDT_CONSOLE (GNB_TRACE, "PcieTopologySelectMasterPll Enter\n"); + MasterLane = 0xFFFF; + MasterHotplugLane = 0xFFFF; + EngineList = PcieConfigGetChildEngine (Wrapper); + while (EngineList != NULL) { + if (PcieConfigIsEngineAllocated (EngineList) && EngineList->Type.Port.PortData.PortPresent != PortDisabled && PcieConfigIsPcieEngine (EngineList)) { + if (EngineList->Type.Port.PortData.LinkHotplug != HotplugDisabled) { + MasterHotplugLane = PcieConfigGetPcieEngineMasterLane (EngineList); + } else { + MasterLane = PcieConfigGetPcieEngineMasterLane (EngineList); + if (PcieConfigIsSbPcieEngine (EngineList)) { + break; + } + } + } + EngineList = PcieLibGetNextDescriptor (EngineList); + } + + if (MasterLane == 0xffff) { + if (MasterHotplugLane != 0xffff) { + MasterLane = MasterHotplugLane; + } else { + MasterLane = 0x0; + } + } + + D0F0xE4_WRAP_8013.Value = PcieRegisterRead ( + Wrapper, + WRAP_SPACE (Wrapper->WrapId, D0F0xE4_WRAP_8013_ADDRESS), + Pcie + ); + D0F0xE4_WRAP_8013_BASE.Value = D0F0xE4_WRAP_8013.Value; + if ( MasterLane <= 3 ) { + D0F0xE4_WRAP_8013.Field.MasterPciePllA = 0x1; + D0F0xE4_WRAP_8013.Field.MasterPciePllB = 0x0; + D0F0xE4_WRAP_8013.Field.MasterPciePllC = 0x0; + D0F0xE4_WRAP_8013.Field.MasterPciePllD = 0x0; + Wrapper->MasterPll = 0xA; + } else if (MasterLane <= 7) { + D0F0xE4_WRAP_8013.Field.MasterPciePllA = 0x0; + D0F0xE4_WRAP_8013.Field.MasterPciePllB = 0x1; + D0F0xE4_WRAP_8013.Field.MasterPciePllC = 0x0; + D0F0xE4_WRAP_8013.Field.MasterPciePllD = 0x0; + Wrapper->MasterPll = 0xB; + } else if (MasterLane <= 11) { + D0F0xE4_WRAP_8013.Field.MasterPciePllA = 0x0; + D0F0xE4_WRAP_8013.Field.MasterPciePllB = 0x0; + D0F0xE4_WRAP_8013.Field.MasterPciePllC = 0x1; + D0F0xE4_WRAP_8013.Field.MasterPciePllD = 0x0; + Wrapper->MasterPll = 0xC; + } else { + D0F0xE4_WRAP_8013.Field.MasterPciePllA = 0x0; + D0F0xE4_WRAP_8013.Field.MasterPciePllB = 0x0; + D0F0xE4_WRAP_8013.Field.MasterPciePllC = 0x0; + D0F0xE4_WRAP_8013.Field.MasterPciePllD = 0x1; + Wrapper->MasterPll = 0xD; + } + if (ConfigChanged != NULL) { + *ConfigChanged = (D0F0xE4_WRAP_8013.Value == D0F0xE4_WRAP_8013_BASE.Value) ? FALSE : TRUE; + } + PcieRegisterWrite ( + Wrapper, + WRAP_SPACE (Wrapper->WrapId, D0F0xE4_WRAP_8013_ADDRESS), + D0F0xE4_WRAP_8013.Value, + FALSE, + Pcie + ); + + IDS_HDT_CONSOLE (GNB_TRACE, "PcieTopologySelectMasterPll Exit\n"); +} + +/*----------------------------------------------------------------------------------------*/ +/** + * Execute/clean up reconfiguration + * + * + * @param[in] Wrapper Pointer to wrapper config descriptor + * @param[in] Pcie Pointer to global PCIe configuration + */ +VOID +PcieTopologyExecuteReconfig ( + IN PCIe_WRAPPER_CONFIG *Wrapper, + IN PCIe_PLATFORM_CONFIG *Pcie + ) +{ + D0F0xE4_WRAP_8062_STRUCT D0F0xE4_WRAP_8062; + D0F0xE4_WRAP_8060_STRUCT D0F0xE4_WRAP_8060; + + if (PcieLibIsPcieWrapper (Wrapper)) { + IDS_HDT_CONSOLE (GNB_TRACE, "PcieTopologyExecuteReconfig Enter\n"); + + PcieTopologyServices136_fun (FALSE, Wrapper, Pcie); + + D0F0xE4_WRAP_8062.Value = PcieRegisterRead ( + Wrapper, + WRAP_SPACE (Wrapper->WrapId, D0F0xE4_WRAP_8062_ADDRESS), + Pcie + ); + D0F0xE4_WRAP_8060.Value = PcieRegisterRead ( + Wrapper, + WRAP_SPACE (Wrapper->WrapId, D0F0xE4_WRAP_8060_ADDRESS), + Pcie + ); + + D0F0xE4_WRAP_8062.Field.ReconfigureEn = 0x1; + PcieRegisterWrite ( + Wrapper, + WRAP_SPACE (Wrapper->WrapId, D0F0xE4_WRAP_8062_ADDRESS), + D0F0xE4_WRAP_8062.Value, + FALSE, + Pcie + ); + D0F0xE4_WRAP_8060.Field.Reconfigure = 0x1; + PcieRegisterWrite ( + Wrapper, + WRAP_SPACE (Wrapper->WrapId, D0F0xE4_WRAP_8060_ADDRESS), + D0F0xE4_WRAP_8060.Value, + FALSE, + Pcie + ); + do { + D0F0xE4_WRAP_8060.Value = PcieRegisterRead ( + Wrapper, + WRAP_SPACE (Wrapper->WrapId, D0F0xE4_WRAP_8060_ADDRESS), + Pcie + ); + + } while (D0F0xE4_WRAP_8060.Field.Reconfigure == 1); + D0F0xE4_WRAP_8062.Field.ConfigXferMode = 0x1; + D0F0xE4_WRAP_8062.Field.ReconfigureEn = 0x0; + PcieRegisterWrite ( + Wrapper, + WRAP_SPACE (Wrapper->WrapId, D0F0xE4_WRAP_8062_ADDRESS), + D0F0xE4_WRAP_8062.Value, + FALSE, + Pcie + ); + PcieTopologyServices136_fun (TRUE, Wrapper, Pcie); + IDS_HDT_CONSOLE (GNB_TRACE, "PcieTopologyExecuteReconfig Exit\n"); + } +} + +/*----------------------------------------------------------------------------------------*/ +/** + * Enable lane reversal + * + * + * @param[in] Wrapper Pointer to wrapper config descriptor + * @param[in] Pcie Pointer to global PCIe configuration + */ +VOID +PcieTopologySetLinkReversal ( + IN PCIe_WRAPPER_CONFIG *Wrapper, + IN PCIe_PLATFORM_CONFIG *Pcie + ) +{ + PCIe_ENGINE_CONFIG *EngineList; + IDS_HDT_CONSOLE (GNB_TRACE, "PcieTopologySetLinkReversal Enter\n"); + EngineList = PcieConfigGetChildEngine (Wrapper); + while (EngineList != NULL) { + if (PcieLibIsEngineAllocated (EngineList)) { + if (PcieLibIsPcieEngine (EngineList)) { + if (EngineList->EngineData.StartLane > EngineList->EngineData.EndLane) { + PciePortRegisterWriteField ( + EngineList, + 0xc1, + 4, + 1, + 0x1, + FALSE, + Pcie + ); + } + } + } + EngineList = PcieLibGetNextDescriptor (EngineList); + } + IDS_HDT_CONSOLE (GNB_TRACE, "PcieTopologySetLinkReversal Exit\n"); +} + + +/*----------------------------------------------------------------------------------------*/ +/** + * Reduce link width + * + * + * @param[in] LinkWidth Link width + * @param[in] Engine Pointer to Engine config descriptor + * @param[in] Pcie Pointer to global PCIe configuration + */ +VOID +PcieTopologyReduceLinkWidth ( + IN UINT8 LinkWidth, + IN PCIe_ENGINE_CONFIG *Engine, + IN PCIe_PLATFORM_CONFIG *Pcie + ) +{ + PCIe_WRAPPER_CONFIG *Wrapper; + UINT32 LinkReversed; + UINT8 DeltaLinkWidthBitmap; + UINT32 LanesToDisable; + Wrapper = PcieConfigGetParentWrapper (Engine); + LinkReversed = PcieUtilIsLinkReversed (TRUE, Engine, Pcie); + + DeltaLinkWidthBitmap = (1 << (PcieConfigGetNumberOfCoreLane (Engine) - LinkWidth)) - 1; + LanesToDisable = (DeltaLinkWidthBitmap << ((LinkReversed == 1) ? Engine->Type.Port.StartCoreLane : (Engine->Type.Port.StartCoreLane + LinkWidth))); + + PcieTopologyLaneControl ( + DisableLanes, + LanesToDisable, + Wrapper, + Pcie + ); +} + +/*----------------------------------------------------------------------------------------*/ +/** + * Lanes enable/disable control + * + * @param[in] Control Lane control action + * @param[in] LaneBitMap Core lanes bitmap + * @param[in] Wrapper Pointer to Wrapper config descriptor + * @param[in] Pcie Pointer to global PCIe configuration + */ +VOID +PcieTopologyLaneControl ( + IN LANE_CONTROL Control, + IN UINT32 LaneBitMap, + IN PCIe_WRAPPER_CONFIG *Wrapper, + IN PCIe_PLATFORM_CONFIG *Pcie + ) +{ + D0F0xE4_WRAP_8023_STRUCT D0F0xE4_WRAP_8023; + D0F0xE4_WRAP_8023.Value = PcieRegisterRead ( + Wrapper, + WRAP_SPACE (Wrapper->WrapId, D0F0xE4_WRAP_8023_ADDRESS), + Pcie + ); + + if (Control == EnableLanes) { + D0F0xE4_WRAP_8023.Value |= LaneBitMap; + } else if (Control == DisableLanes) { + D0F0xE4_WRAP_8023.Value &= (~LaneBitMap); + } + D0F0xE4_WRAP_8023.Value &= ((1 << Wrapper->NumberOfLanes) - 1); + PcieRegisterWrite ( + Wrapper, + WRAP_SPACE (Wrapper->WrapId, D0F0xE4_WRAP_8023_ADDRESS), + D0F0xE4_WRAP_8023.Value, + TRUE, + Pcie + ); +} + +VOID +PcieTopologyServices136_fun ( + IN BOOLEAN fv0, + IN PCIe_WRAPPER_CONFIG *Wrapper, + IN PCIe_PLATFORM_CONFIG *Pcie + ) +{ + GNBREGCOMMON_STR1_STRUCT GNBREGCOMMON_STR1; + GNBREGCOMMON_STR1.Value = PcieRegisterRead ( + Wrapper, + WRAP_SPACE (Wrapper->WrapId, 0x8063), + Pcie + ); + if (fv0) { + GNBREGCOMMON_STR1.Field.bit4 = 0x1; + GNBREGCOMMON_STR1.Field.bit5 = 0x1; + GNBREGCOMMON_STR1.Field.bit12 = 0x1; + GNBREGCOMMON_STR1.Field.bit13 = 0x1; + GNBREGCOMMON_STR1.Field.bit14 = 0x1; + } else { + GNBREGCOMMON_STR1.Field.bit4 = 0x0; + GNBREGCOMMON_STR1.Field.bit5 = 0x0; + GNBREGCOMMON_STR1.Field.bit12 = 0x0; + GNBREGCOMMON_STR1.Field.bit13 = 0x0; + GNBREGCOMMON_STR1.Field.bit14 = 0x0; + } + PcieRegisterWrite ( + Wrapper, + WRAP_SPACE (Wrapper->WrapId, 0x8063), + GNBREGCOMMON_STR1.Value, + FALSE, + Pcie + ); + +} + +/*----------------------------------------------------------------------------------------*/ +/** + * Set core configuration according to PCIe port topology + * + * + * + * @param[in] Wrapper Pointer to wrapper config descriptor + * @param[out] ConfigChanged Pointer to boolean indicator that configuration was changed + * @param[in] Pcie Pointer to global PCIe configuration + * @retval AGESA_SUCCESS Topology successfully mapped + * @retval AGESA_ERROR Topology can not be mapped + */ + +AGESA_STATUS +PcieTopologySetCoreConfig ( + IN PCIe_WRAPPER_CONFIG *Wrapper, + OUT BOOLEAN *ConfigChanged, + IN PCIe_PLATFORM_CONFIG *Pcie + ) +{ + UINT8 CoreId; + AGESA_STATUS Status; + D0F0xE4_WRAP_0080_STRUCT D0F0xE4_WRAP_0080; + + Status = AGESA_SUCCESS; + if (PcieLibIsPcieWrapper (Wrapper)) { + for (CoreId = Wrapper->StartPcieCoreId; CoreId <= Wrapper->EndPcieCoreId; CoreId++) { + UINT64 ConfigurationSignature; + UINT8 NewConfigurationValue; + ConfigurationSignature = PcieConfigGetConfigurationSignature (Wrapper, CoreId); + Status = PcieFmGetCoreConfigurationValue (Wrapper, CoreId, ConfigurationSignature, &NewConfigurationValue); + if (Status == AGESA_SUCCESS) { + IDS_HDT_CONSOLE (PCIE_MISC, " Core Configuration: Wrapper [%s], CoreID [%d] - %s\n", + PcieFmDebugGetWrapperNameString (Wrapper), + CoreId, + PcieFmDebugGetCoreConfigurationString (Wrapper, NewConfigurationValue) + ); + D0F0xE4_WRAP_0080.Value = PcieRegisterRead ( + Wrapper, + WRAP_SPACE (Wrapper->WrapId, D0F0xE4_WRAP_0080_ADDRESS), + Pcie + ); + if (ConfigChanged != NULL) { + if (D0F0xE4_WRAP_0080.Field.StrapBifLinkConfig != NewConfigurationValue) { + *ConfigChanged = TRUE; + } + } + D0F0xE4_WRAP_0080.Field.StrapBifLinkConfig = NewConfigurationValue; + PcieRegisterWrite ( + Wrapper, + WRAP_SPACE (Wrapper->WrapId, D0F0xE4_WRAP_0080_ADDRESS), + D0F0xE4_WRAP_0080.Value, + FALSE, + Pcie + ); + } else { + IDS_HDT_CONSOLE (PCIE_MISC, " ERROR! Core Configuration : Wrapper [%s], Signature [0x%x, 0x%x]\n", + PcieFmDebugGetWrapperNameString (Wrapper), + ((UINT32*)&ConfigurationSignature)[1], + ((UINT32*)&ConfigurationSignature)[0] + ); + PcieConfigDisableAllEngines (PciePortEngine | PcieDdiEngine, Wrapper); + } + } + } + return Status; +} + + +/*----------------------------------------------------------------------------------------*/ +/** + * Set TX control for PCIe lanes + * + * + * + * @param[in] Wrapper Pointer to wrapper config descriptor + * @param[in] Pcie Pointer to global PCIe configuration + */ +VOID +PcieWrapSetTxS1CtrlForLaneMux ( + IN PCIe_WRAPPER_CONFIG *Wrapper, + IN PCIe_PLATFORM_CONFIG *Pcie + ) +{ + D0F0xE4_WRAP_8025_STRUCT D0F0xE4_WRAP_8025; + UINT32 LaneBitmap; + UINTN Index; + D0F0xE4_WRAP_8025.Value = PcieRegisterRead ( + Wrapper, + WRAP_SPACE (Wrapper->WrapId, D0F0xE4_WRAP_8025_ADDRESS), + Pcie + ); + Index = 0; + LaneBitmap = PcieUtilGetWrapperLaneBitMap (LANE_TYPE_CORE_ALL, LANE_TYPE_PCIE_SB_CORE_CONFIG, Wrapper); + while (LaneBitmap != 0) { + if ((LaneBitmap & 0xf) != 0) { + D0F0xE4_WRAP_8025.Value &= (~(0xff << (Index * 8))); + D0F0xE4_WRAP_8025.Value |= (((0x03 << 3) | 0x1) << (Index * 8)); + } + LaneBitmap >>= 4; + ++Index; + } + PcieRegisterWrite ( + Wrapper, + WRAP_SPACE (Wrapper->WrapId, D0F0xE4_WRAP_8025_ADDRESS), + D0F0xE4_WRAP_8025.Value, + FALSE, + Pcie + ); +} + +/*----------------------------------------------------------------------------------------*/ +/** + * Set TX control for lane muxes + * + * + * + * @param[in] Wrapper Pointer to wrapper config descriptor + * @param[in] Pcie Pointer to global PCIe configuration + */ +VOID +PcieWrapSetTxOffCtrlForLaneMux ( + IN PCIe_WRAPPER_CONFIG *Wrapper, + IN PCIe_PLATFORM_CONFIG *Pcie + ) +{ + PcieRegisterWrite ( + Wrapper, + WRAP_SPACE (Wrapper->WrapId, D0F0xE4_WRAP_8025_ADDRESS), + 0x1f1f1f1f, + FALSE, + Pcie + ); +} |