/* $NoKeywords:$ */ /** * @file * * mns3on.c * * ON memory specific function to support S3 resume * * @xrefitem bom "File Content Label" "Release Content" * @e project: AGESA * @e sub-project: (Mem/NB/ON) * @e \$Revision: 38639 $ @e \$Date: 2010-09-27 21:55:34 +0800 (Mon, 27 Sep 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. * * *************************************************************************** * */ /* *---------------------------------------------------------------------------- * MODULES USED * *---------------------------------------------------------------------------- */ #include "AGESA.h" #include "AdvancedApi.h" #include "amdlib.h" #include "Ids.h" #include "OptionMemory.h" #include "mm.h" #include "mn.h" #include "S3.h" #include "mfs3.h" #include "mnon.h" #include "cpuRegisters.h" #include "cpuFamRegisters.h" #include "cpuFamilyTranslation.h" #include "GeneralServices.h" #include "cpuCommonF14Utilities.h" #include "mnS3on.h" #include "heapManager.h" #include "Filecode.h" #define FILECODE PROC_MEM_NB_ON_MNS3ON_FILECODE /*---------------------------------------------------------------------------- * TYPEDEFS AND STRUCTURES * *---------------------------------------------------------------------------- */ /*---------------------------------------------------------------------------- * PROTOTYPES OF LOCAL FUNCTIONS * *---------------------------------------------------------------------------- */ UINT16 STATIC MemNS3GetRegLstPtrON ( IN OUT MEM_NB_BLOCK *NBPtr, IN OUT DESCRIPTOR_GROUP *DescriptPtr ); AGESA_STATUS STATIC MemNS3GetDeviceRegLstON ( IN UINT32 RegisterLstID, OUT VOID **RegisterHeader ); VOID STATIC MemNS3SetDfltPllLockTimeON ( IN ACCESS_WIDTH AccessWidth, IN PCI_ADDR Address, IN OUT VOID *Value, IN OUT VOID *ConfigPtr ); BOOLEAN STATIC MemNS3ChangeNbFrequencyWrapON ( IN OUT MEM_NB_BLOCK *NBPtr, IN UINT32 NBPstate ); VOID STATIC MemNS3GetConPCIMaskON ( IN OUT MEM_NB_BLOCK *NBPtr, IN OUT DESCRIPTOR_GROUP *DescriptPtr ); /*---------------------------------------------------------------------------- * DEFINITIONS AND MACROS * *---------------------------------------------------------------------------- */ PCI_SPECIAL_CASE PciSpecialCaseFuncON[] = { {MemNS3GetCSRNb, MemNS3SetCSRNb}, {MemNS3GetBitFieldNb, MemNS3SetBitFieldNb}, {MemNS3DisNbPsDbgNb, MemNS3DisNbPsDbgNb}, {MemNS3EnNbPsDbg1Nb, MemNS3EnNbPsDbg1Nb}, { (VOID (*) (ACCESS_WIDTH, PCI_ADDR, VOID *, VOID *)) memDefRet, MemNS3SetDfltPllLockTimeON}, { (VOID (*) (ACCESS_WIDTH, PCI_ADDR, VOID *, VOID *)) memDefRet, MemNS3SetDisAutoCompUnb}, { (VOID (*) (ACCESS_WIDTH, PCI_ADDR, VOID *, VOID *)) memDefRet, MemNS3SetDynModeChangeNb}, {MemNS3GetBitFieldNb, MemNS3SetPreDriverCalUnb} }; PCI_REG_DESCRIPTOR ROMDATA S3PciPreSelfRefDescriptorON[] = { {{0, 2, 0}, FUNC_2, 0x110, 0x00000708}, {{0, 0, 0}, FUNC_1, 0x40, 0x0FFF0003}, {{0, 0, 0}, FUNC_1, 0x44, 0xFFFF0000}, {{0, 0, 0}, FUNC_1, 0xF0, 0xFF00FF81}, {{0, 2, 0}, FUNC_2, 0x114, 0x00000200}, {{0, 0, 0}, FUNC_2, 0x118, 0x0F00CFFF}, {{0, 0, 0}, FUNC_2, 0x11C, 0x61CC507C}, {{0, 0, 0}, FUNC_2, 0x40, 0x1FF83FED}, {{0, 0, 0}, FUNC_2, 0x44, 0x1FF83FED}, {{0, 0, 0}, FUNC_2, 0x48, 0x1FF83FED}, {{0, 0, 0}, FUNC_2, 0x4C, 0x1FF83FED}, {{0, 0, 0}, FUNC_2, 0x60, 0x1FF83FE0}, {{0, 0, 0}, FUNC_2, 0x64, 0x1FF83FE0}, {{0, 1, 0}, FUNC_2, 0x80, 0x000000FF}, {{0, 0, 0}, FUNC_2, 0x84, 0x00FC2FFF}, {{0, 0, 0}, FUNC_2, 0x88, 0xFF00000F}, {{0, 0, 0}, FUNC_2, 0x8C, 0x03F7FCFF}, {{0, 0, 0}, FUNC_2, 0x90, 0x0EF20003}, {{0, 1, 0}, FUNC_2, 0xA4, 0x00000007}, {{0, 0, 0}, FUNC_2, 0xA8, 0x0078FF1F}, {{0, 2, 1}, FUNC_2, SET_S3_SPECIAL_OFFSET (DCT_EXTRA_FLAG, 0, 0x06), 0x00000F8F}, {{0, 1, 1}, FUNC_2, SET_S3_SPECIAL_OFFSET (DCT_EXTRA_FLAG, 0, 0x16), 0x0000000F}, {{0, 0, 1}, FUNC_2, SET_S3_SPECIAL_OFFSET (DCT_EXTRA_FLAG, 0, 0x40), 0x3F1F0F0F}, {{0, 0, 1}, FUNC_2, SET_S3_SPECIAL_OFFSET (DCT_EXTRA_FLAG, 0, 0x41), 0x00070707}, {{0, 2, 1}, FUNC_2, SET_S3_SPECIAL_OFFSET (DCT_EXTRA_FLAG, 0, 0x83), 0x00007177}, {{0, 0, 1}, FUNC_2, SET_S3_SPECIAL_OFFSET (DCT_EXTRA_FLAG, 0, 0x180), 0x0F0F0F0F}, {{0, 0, 1}, FUNC_2, SET_S3_SPECIAL_OFFSET (DCT_EXTRA_FLAG, 0, 0x182), 0x0F0F0F0F}, {{0, 2, 1}, FUNC_2, SET_S3_SPECIAL_OFFSET (DCT_EXTRA_FLAG, 0, 0x200), 0x00001F0F}, // Phy Initialization {{6, 3, 1}, FUNC_2, SET_S3_SPECIAL_OFFSET (DCT_PHY_FLAG, 0, 0x0B), 0}, // 3. Phy voltage related {{1, 1, 1}, DCT0, BFDataRxVioLvl, 0x00000018}, {{1, 1, 1}, DCT0, BFClkRxVioLvl, 0x00000018}, {{1, 2, 1}, DCT0, BFCmpVioLvl, 0x0000C000}, {{1, 1, 1}, DCT0, BFCmdRxVioLvl, 0x00000018}, {{1, 1, 1}, DCT0, BFAddrRxVioLvl, 0x00000018}, // 4. Frequency Change {{4, 3, 1}, DCT0, BFPllLockTime, 0}, {{0, 0, 0}, FUNC_2, 0x94, 0xFFD1CC1F}, // NB Pstate Related Register for Pstate 0 {{0, 0, 0}, FUNC_2, 0x78, 0xFFF63FCF}, {{0, 2, 1}, FUNC_2, SET_S3_SPECIAL_OFFSET (DCT_EXTRA_FLAG, 0, 0x30), 0x00001FFF}, {{0, 2, 1}, FUNC_2, SET_S3_SPECIAL_OFFSET (DCT_EXTRA_FLAG, 0, 0x31), 0x00001FFF}, {{0, 2, 1}, FUNC_2, SET_S3_SPECIAL_OFFSET (DCT_EXTRA_FLAG, 0, 0x32), 0x00009F9F}, // Access NB Pstate 1 {{3, 3, 1}, FUNC_6, 0x98, 0}, // NB Pstate Related Register for Pstate 1 {{0, 0, 0}, FUNC_2, 0x78, 0xFFF63FCF}, {{0, 2, 1}, FUNC_2, SET_S3_SPECIAL_OFFSET (DCT_EXTRA_FLAG, 0, 0x30), 0x00001FFF}, {{0, 2, 1}, FUNC_2, SET_S3_SPECIAL_OFFSET (DCT_EXTRA_FLAG, 0, 0x31), 0x00001FFF}, {{0, 2, 1}, FUNC_2, SET_S3_SPECIAL_OFFSET (DCT_EXTRA_FLAG, 0, 0x32), 0x00009F9F}, // Disable Access to NB Pstate 1 {{2, 3, 1}, FUNC_6, 0x98, 0}, {{1, 1, 1}, DCT0, BFMemClkFreqVal, 0}, {{1, 2, 1}, DCT0, BFPllLockTime, 0}, // 5. Phy Fence {{0, 0, 1}, FUNC_2, SET_S3_SPECIAL_OFFSET (DCT_PHY_FLAG, 0, 0x0C), 0x7FFF3FFF}, {{1, 2, 1}, DCT0, BFDataFence2, 0x00007FFF}, {{1, 1, 1}, DCT0, BFClkFence2, 0x0000001F}, {{1, 1, 1}, DCT0, BFCmdFence2, 0x0000001F}, {{1, 1, 1}, DCT0, BFAddrFence2, 0x0000001F}, {{0, 0, 1}, FUNC_2, SET_S3_SPECIAL_OFFSET (DCT_PHY_FLAG, 0, 0x00), 0x70777777}, {{0, 0, 1}, FUNC_2, SET_S3_SPECIAL_OFFSET (DCT_PHY_FLAG, 0, 0x04), 0x003F3F3F}, {{1, 1, 1}, DCT0, BFDQOdt03, 0x70}, {{1, 1, 1}, DCT0, BFDQOdt47, 0x70}, // 6. Phy Compensation Init {{5, 3, 1}, DCT0, BFDisablePredriverCal, 0}, {{1, 2, 1}, DCT0, BFDataByteTxPreDriverCal2Pad1, 0}, {{1, 2, 1}, DCT0, BFDataByteTxPreDriverCal2Pad2, 0}, {{7, 2, 1}, DCT0, BFDataByteTxPreDriverCal, 0}, {{1, 2, 1}, DCT0, BFCmdAddr0TxPreDriverCal2Pad1, 0}, {{1, 2, 1}, DCT0, BFCmdAddr0TxPreDriverCal2Pad2, 0}, {{1, 2, 1}, DCT0, BFCmdAddr1TxPreDriverCal2Pad1, 0}, {{1, 2, 1}, DCT0, BFCmdAddr1TxPreDriverCal2Pad2, 0}, {{1, 2, 1}, DCT0, BFAddrTxPreDriverCal2Pad1, 0}, {{1, 2, 1}, DCT0, BFAddrTxPreDriverCal2Pad2, 0}, {{1, 2, 1}, DCT0, BFAddrTxPreDriverCal2Pad3, 0}, {{1, 2, 1}, DCT0, BFAddrTxPreDriverCal2Pad4, 0}, {{7, 2, 1}, DCT0, BFCmdAddr0TxPreDriverCalPad0, 0}, {{7, 2, 1}, DCT0, BFCmdAddr1TxPreDriverCalPad0, 0}, {{7, 2, 1}, DCT0, BFAddrTxPreDriverCalPad0, 0}, {{7, 2, 1}, DCT0, BFClock0TxPreDriverCalPad0, 0}, {{7, 2, 1}, DCT0, BFClock1TxPreDriverCalPad0, 0}, {{1, 2, 1}, DCT0, BFDisablePredriverCal, 0x00006000} }; CONST PCI_REGISTER_BLOCK_HEADER ROMDATA S3PciPreSelfRefON = { 0, (sizeof (S3PciPreSelfRefDescriptorON) / sizeof (PCI_REG_DESCRIPTOR)), S3PciPreSelfRefDescriptorON, PciSpecialCaseFuncON }; CONDITIONAL_PCI_REG_DESCRIPTOR ROMDATA S3CPciPostSelfDescriptorON[] = { // DCT0 {{0, 0, 1}, FUNC_2, SET_S3_SPECIAL_OFFSET (DCT_PHY_FLAG, 0, 0x10), 0x01FF01FF, DCT0_MASK, 0x01}, {{0, 0, 1}, FUNC_2, SET_S3_SPECIAL_OFFSET (DCT_PHY_FLAG, 0, 0x11), 0x01FF01FF, DCT0_MASK, 0x01}, {{0, 0, 1}, FUNC_2, SET_S3_SPECIAL_OFFSET (DCT_PHY_FLAG, 0, 0x13), 0x01FF01FF, DCT0_MASK, 0x04}, {{0, 0, 1}, FUNC_2, SET_S3_SPECIAL_OFFSET (DCT_PHY_FLAG, 0, 0x14), 0x01FF01FF, DCT0_MASK, 0x04}, {{0, 0, 1}, FUNC_2, SET_S3_SPECIAL_OFFSET (DCT_PHY_FLAG, 0, 0x20), 0x01FF01FF, DCT0_MASK, 0x01}, {{0, 0, 1}, FUNC_2, SET_S3_SPECIAL_OFFSET (DCT_PHY_FLAG, 0, 0x21), 0x01FF01FF, DCT0_MASK, 0x01}, {{0, 0, 1}, FUNC_2, SET_S3_SPECIAL_OFFSET (DCT_PHY_FLAG, 0, 0x23), 0x01FF01FF, DCT0_MASK, 0x04}, {{0, 0, 1}, FUNC_2, SET_S3_SPECIAL_OFFSET (DCT_PHY_FLAG, 0, 0x24), 0x01FF01FF, DCT0_MASK, 0x04}, {{0, 0, 1}, FUNC_2, SET_S3_SPECIAL_OFFSET (DCT_PHY_FLAG, 0, 0x01), 0xFFFFFFFF, DCT0_MASK, 0x01}, {{0, 0, 1}, FUNC_2, SET_S3_SPECIAL_OFFSET (DCT_PHY_FLAG, 0, 0x02), 0xFFFFFFFF, DCT0_MASK, 0x01}, {{0, 0, 1}, FUNC_2, SET_S3_SPECIAL_OFFSET (DCT_PHY_FLAG, 0, 0x101), 0xFFFFFFFF, DCT0_MASK, 0x04}, {{0, 0, 1}, FUNC_2, SET_S3_SPECIAL_OFFSET (DCT_PHY_FLAG, 0, 0x102), 0xFFFFFFFF, DCT0_MASK, 0x04}, {{0, 0, 1}, FUNC_2, SET_S3_SPECIAL_OFFSET (DCT_PHY_FLAG, 0, 0x05), 0x3E3E3E3E, DCT0_MASK, 0x01}, {{0, 0, 1}, FUNC_2, SET_S3_SPECIAL_OFFSET (DCT_PHY_FLAG, 0, 0x06), 0x3E3E3E3E, DCT0_MASK, 0x01}, {{0, 0, 1}, FUNC_2, SET_S3_SPECIAL_OFFSET (DCT_PHY_FLAG, 0, 0x105), 0x3E3E3E3E, DCT0_MASK, 0x04}, {{0, 0, 1}, FUNC_2, SET_S3_SPECIAL_OFFSET (DCT_PHY_FLAG, 0, 0x106), 0x3E3E3E3E, DCT0_MASK, 0x04}, {{0, 0, 1}, FUNC_2, SET_S3_SPECIAL_OFFSET (DCT_PHY_FLAG, 0, 0x30), 0x00FF00FF, DCT0_DDR3_MASK, 0x01}, {{0, 0, 1}, FUNC_2, SET_S3_SPECIAL_OFFSET (DCT_PHY_FLAG, 0, 0x31), 0x00FF00FF, DCT0_DDR3_MASK, 0x01}, {{0, 0, 1}, FUNC_2, SET_S3_SPECIAL_OFFSET (DCT_PHY_FLAG, 0, 0x33), 0x00FF00FF, DCT0_DDR3_MASK, 0x04}, {{0, 0, 1}, FUNC_2, SET_S3_SPECIAL_OFFSET (DCT_PHY_FLAG, 0, 0x34), 0x00FF00FF, DCT0_DDR3_MASK, 0x04}, {{0, 0, 1}, FUNC_2, SET_S3_SPECIAL_OFFSET (DCT_PHY_FLAG, 0, 0x40), 0x00FF00FF, DCT0_DDR3_MASK, 0x01}, {{0, 0, 1}, FUNC_2, SET_S3_SPECIAL_OFFSET (DCT_PHY_FLAG, 0, 0x41), 0x00FF00FF, DCT0_DDR3_MASK, 0x01}, {{0, 0, 1}, FUNC_2, SET_S3_SPECIAL_OFFSET (DCT_PHY_FLAG, 0, 0x43), 0x00FF00FF, DCT0_DDR3_MASK, 0x04}, {{0, 0, 1}, FUNC_2, SET_S3_SPECIAL_OFFSET (DCT_PHY_FLAG, 0, 0x44), 0x00FF00FF, DCT0_DDR3_MASK, 0x04}, {{0, 0, 1}, FUNC_2, SET_S3_SPECIAL_OFFSET (DCT_PHY_FLAG, 0, 0x0D), 0x037F037F, DCT0_MASK, ANY_DIMM_MASK}, {{1, 1, 1}, DCT0, BFPhyClkConfig0, 0x00000010, DCT0_MASK, ANY_DIMM_MASK}, {{1, 1, 1}, DCT0, BFPhyClkConfig1, 0x00000010, DCT0_MASK, ANY_DIMM_MASK}, {{1, 1, 1}, DCT0, BFPhy0x0D0F0F13Bit0to7, 0x00000083, DCT0_MASK, ANY_DIMM_MASK}, {{1, 1, 1}, DCT0, BFAddrCmdTri, 0x0000000B1, DCT0_MASK, ANY_DIMM_MASK}, {{1, 2, 1}, DCT0, BFLowPowerDrvStrengthEn, 0x00000100, DCT0_MASK, ANY_DIMM_MASK}, {{1, 2, 1}, DCT0, BFEnRxPadStandby, 0x000001000, DCT0_MASK, ANY_DIMM_MASK}, {{1, 1, 1}, DCT0, BFDisDllShutdownSR, 0x00000001, DCT0_MASK, ANY_DIMM_MASK}, {{0, 0, 0}, FUNC_2, 0x1C0, 0x100000, DCT0_MASK, ANY_DIMM_MASK}, {{0, 0, 0}, FUNC_3, 0x84, 0x00060006, DCT0_MASK, ANY_DIMM_MASK}, {{0, 2, 0}, FUNC_4, 0x12C, 0x0000FFFF, DCT0_MASK, ANY_DIMM_MASK}, {{0, 0, 0}, FUNC_4, 0x1A8, 0x3F000000, DCT0_MASK, ANY_DIMM_MASK}, {{0, 0, 0}, FUNC_3, 0x188, 0x00400000, DCT0_MASK, ANY_DIMM_MASK}, {{0, 2, 0}, FUNC_6, 0x78, 0x0000FF00, DCT0_MASK, ANY_DIMM_MASK}, // Release NB P-state force {{0, 0, 0}, FUNC_6, 0x90, 0x50000000, DCT0_MASK, ANY_DIMM_MASK}, {{0, 0, 0}, FUNC_2, 0x118, 0x00080000, DCT0_MASK, ANY_DIMM_MASK} }; CONST CPCI_REGISTER_BLOCK_HEADER ROMDATA S3CPciPostSelfRefON = { 0, (sizeof (S3CPciPostSelfDescriptorON) / sizeof (CONDITIONAL_PCI_REG_DESCRIPTOR)), S3CPciPostSelfDescriptorON, PciSpecialCaseFuncON }; MSR_REG_DESCRIPTOR ROMDATA S3MSRPreSelfRefDescriptorON[] = { {{0, 0, 0}, 0xC0010010, 0x00000000007F0000}, {{0, 0, 0}, 0xC001001A, 0x0000000FFF800000}, {{0, 0, 0}, 0xC001001D, 0x0000000FFF800000}, {{0, 0, 0}, 0xC001001F, 0x8480FC6A434243E0} }; CONST MSR_REGISTER_BLOCK_HEADER ROMDATA S3MSRPreSelfRefON = { 0, (sizeof (S3MSRPreSelfRefDescriptorON) / sizeof (MSR_REG_DESCRIPTOR)), S3MSRPreSelfRefDescriptorON, NULL }; VOID *MemS3RegListON[] = { (VOID *)&S3PciPreSelfRefON, NULL, NULL, (VOID *)&S3CPciPostSelfRefON, (VOID *)&S3MSRPreSelfRefON, NULL, NULL, NULL }; /*---------------------------------------------------------------------------- * EXPORTED FUNCTIONS * *---------------------------------------------------------------------------- */ /* -----------------------------------------------------------------------------*/ /** * * * This function initializes the northbridge block for S3 resume * * @param[in,out] *S3NBPtr - Pointer to MEM_NB_BLOCK. * @param[in,out] *MemPtr - Pointer to MEM_DATA_STRUCT. * @param[in] NodeID - Node ID of the target node. * * @return BOOLEAN * TRUE - This is the correct constructor for the targeted node. * FALSE - This isn't the correct constructor for the targeted node. */ BOOLEAN MemS3ResumeConstructNBBlockON ( IN OUT VOID *S3NBPtr, IN OUT MEM_DATA_STRUCT *MemPtr, IN UINT8 NodeID ) { INT32 i; MEM_NB_BLOCK *NBPtr; NBPtr = ((S3_MEM_NB_BLOCK *)S3NBPtr)->NBPtr; // // Determine if this is the expected NB Type // GetLogicalIdOfSocket (MemPtr->DiesPerSystem[NodeID].SocketId, &(MemPtr->DiesPerSystem[NodeID].LogicalCpuid), &(MemPtr->StdHeader)); if (!MemNIsIdSupportedON (NBPtr, &(MemPtr->DiesPerSystem[NodeID].LogicalCpuid))) { return FALSE; } NBPtr->MemPtr = MemPtr; NBPtr->MCTPtr = &(MemPtr->DiesPerSystem[NodeID]); NBPtr->PciAddr.AddressValue = MemPtr->DiesPerSystem[NodeID].PciAddr.AddressValue; MemNInitNBRegTableON (NBPtr, NBPtr->NBRegTable); NBPtr->Node = ((UINT8) NBPtr->PciAddr.Address.Device) - 24; NBPtr->Dct = 0; NBPtr->Channel = 0; NBPtr->Ganged = FALSE; NBPtr->NodeCount = MAX_NODES_SUPPORTED_ON; NBPtr->DctCount = MAX_DCTS_PER_NODE_ON; for (i = 0; i < EnumSize; i++) { NBPtr->IsSupported[i] = FALSE; } for (i = 0; i < NumberOfHooks; i++) { NBPtr->FamilySpecificHook[i] = (BOOLEAN (*) (MEM_NB_BLOCK *, VOID *)) memDefTrue; } LibAmdMemFill (NBPtr->DctCache, 0, sizeof (NBPtr->DctCache), &MemPtr->StdHeader); NBPtr->SwitchDCT = (VOID (*) (MEM_NB_BLOCK*, UINT8)) memDefRet; NBPtr->SwitchChannel = (VOID (*) (MEM_NB_BLOCK*, UINT8)) memDefRet; NBPtr->MemNCmnGetSetFieldNb = MemNCmnGetSetFieldON; NBPtr->GetBitField = MemNGetBitFieldNb; NBPtr->SetBitField = MemNSetBitFieldNb; NBPtr->MemNIsIdSupportedNb = MemNIsIdSupportedON; NBPtr->ChangeNbFrequencyWrap = MemNS3ChangeNbFrequencyWrapON; ((S3_MEM_NB_BLOCK *)S3NBPtr)->MemS3ExitSelfRefReg = (VOID (*) (MEM_NB_BLOCK *, AMD_CONFIG_PARAMS *)) memDefRet; ((S3_MEM_NB_BLOCK *)S3NBPtr)->MemS3GetConPCIMask = MemNS3GetConPCIMaskON; ((S3_MEM_NB_BLOCK *)S3NBPtr)->MemS3GetConMSRMask = (VOID (*) (MEM_NB_BLOCK *, DESCRIPTOR_GROUP *)) memDefRet; ((S3_MEM_NB_BLOCK *)S3NBPtr)->MemS3Resume = MemNS3ResumeClientNb; ((S3_MEM_NB_BLOCK *)S3NBPtr)->MemS3RestoreScrub = (VOID (*) (MEM_NB_BLOCK *, UINT8)) memDefRet; ((S3_MEM_NB_BLOCK *)S3NBPtr)->MemS3GetRegLstPtr = MemNS3GetRegLstPtrON; ((S3_MEM_NB_BLOCK *)S3NBPtr)->MemS3GetDeviceRegLst = MemNS3GetDeviceRegLstON; ((S3_MEM_NB_BLOCK *)S3NBPtr)->MemS3SpecialCaseHeapSize = 0; return TRUE; } /*---------------------------------------------------------------------------- * LOCAL FUNCTIONS * *----------------------------------------------------------------------------*/ /* -----------------------------------------------------------------------------*/ /** * * * This function returns the conditional PCI device mask * * @param[in,out] *NBPtr - Pointer to the MEM_NB_BLOCK * @param[in, out] *DescriptPtr - Pointer to DESCRIPTOR_GROUP * @return none */ VOID STATIC MemNS3GetConPCIMaskON ( IN OUT MEM_NB_BLOCK *NBPtr, IN OUT DESCRIPTOR_GROUP *DescriptPtr ) { BIT_FIELD_NAME bitfield; UINT32 RegVal; UINT8 DimmMask; DimmMask = 0; for (bitfield = BFCSBaseAddr0Reg; bitfield <= BFCSBaseAddr3Reg; bitfield ++) { RegVal = MemNGetBitFieldNb (NBPtr, bitfield); if (RegVal & 0x1) { DimmMask |= (UINT8) (1 << (((bitfield - BFCSBaseAddr0Reg) >> 1) << 1)); } } // Set mask before exit self refresh DescriptPtr->CPCIDevice[PRESELFREF].Mask1 = 1; // Set mask after exit self refresh DescriptPtr->CPCIDevice[POSTSELFREF].Mask1 = 1; // Set DDR3 mask if Dimms present are DDR3 DescriptPtr->CPCIDevice[POSTSELFREF].Mask1 |= (DescriptPtr->CPCIDevice[POSTSELFREF].Mask1 << 4); // Set dimm mask DescriptPtr->CPCIDevice[PRESELFREF].Mask2 = DimmMask; DescriptPtr->CPCIDevice[POSTSELFREF].Mask2 = DimmMask; } /* -----------------------------------------------------------------------------*/ /** * * * This function returns the register list for each device for LN * * @param[in,out] *NBPtr - Pointer to the MEM_NB_BLOCK * @param[in, out] *DescriptPtr - Pointer to DESCRIPTOR_GROUP * @return UINT16 - size of the device descriptor on the target node. */ UINT16 STATIC MemNS3GetRegLstPtrON ( IN OUT MEM_NB_BLOCK *NBPtr, IN OUT DESCRIPTOR_GROUP *DescriptPtr ) { UINT8 i; UINT16 Size; Size = 0; for (i = PRESELFREF; i <= POSTSELFREF; i ++) { DescriptPtr->PCIDevice[i].Type = (UINT8) (DEV_TYPE_PCI_PRE_ESR + i); DescriptPtr->PCIDevice[i].Node = NBPtr->Node; DescriptPtr->PCIDevice[i].RegisterListID = 0xFFFFFFFF; if ((PCI_REGISTER_BLOCK_HEADER *) MemS3RegListON[PCI_LST_ESR_ON - PCI_LST_ESR_ON + i] != NULL) { DescriptPtr->PCIDevice[i].RegisterListID = PCI_LST_ESR_ON + i; Size += sizeof (PCI_DEVICE_DESCRIPTOR); } DescriptPtr->CPCIDevice[i].Type = (UINT8) (DEV_TYPE_CPCI_PRE_ESR + i); DescriptPtr->CPCIDevice[i].Node = NBPtr->Node; DescriptPtr->CPCIDevice[i].RegisterListID = 0xFFFFFFFF; if ((CPCI_REGISTER_BLOCK_HEADER *) MemS3RegListON[CPCI_LST_ESR_ON - PCI_LST_ESR_ON + i] != NULL) { DescriptPtr->CPCIDevice[i].RegisterListID = CPCI_LST_ESR_ON + i; Size += sizeof (CONDITIONAL_PCI_DEVICE_DESCRIPTOR); } DescriptPtr->MSRDevice[i].Type = (UINT8) (DEV_TYPE_MSR_PRE_ESR + i); DescriptPtr->MSRDevice[i].RegisterListID = 0xFFFFFFFF; if ((MSR_REGISTER_BLOCK_HEADER *) MemS3RegListON[MSR_LST_ESR_ON - PCI_LST_ESR_ON + i] != NULL) { DescriptPtr->MSRDevice[i].RegisterListID = MSR_LST_ESR_ON + i; Size += sizeof (MSR_DEVICE_DESCRIPTOR); } DescriptPtr->CMSRDevice[i].Type = (UINT8) (DEV_TYPE_CMSR_PRE_ESR + i); DescriptPtr->CMSRDevice[i].RegisterListID = 0xFFFFFFFF; if ((CMSR_REGISTER_BLOCK_HEADER *) MemS3RegListON[CMSR_LST_ESR_ON - PCI_LST_ESR_ON + i] != NULL) { DescriptPtr->CMSRDevice[i].RegisterListID = CMSR_LST_ESR_ON + i; Size += sizeof (CONDITIONAL_MSR_DEVICE_DESCRIPTOR); } } return Size; } /* -----------------------------------------------------------------------------*/ /** * * * This function return the register list according to the register ID. * * @param[in] RegisterLstID - value of the Register list ID. * @param[out] **RegisterHeader - pointer to the address of the register list. * @return none */ AGESA_STATUS STATIC MemNS3GetDeviceRegLstON ( IN UINT32 RegisterLstID, OUT VOID **RegisterHeader ) { if (RegisterLstID >= (sizeof (MemS3RegListON) / sizeof (VOID *))) { ASSERT(FALSE); // RegisterListID exceeded size of Register list return AGESA_FATAL; } if (MemS3RegListON[RegisterLstID] != NULL) { *RegisterHeader = MemS3RegListON[RegisterLstID]; return AGESA_SUCCESS; } ASSERT(FALSE); // Device regiser list error return AGESA_FATAL; } /* -----------------------------------------------------------------------------*/ /** * * * This function that set PllLockTime to default state. * * @param[in] AccessWidth - Access width of the register. * @param[in] Address - address in PCI_ADDR format. * @param[in, out] *Value - Pointer to the value to be written. * @param[in, out] *ConfigPtr - Pointer to Config handle. * @return none */ VOID STATIC MemNS3SetDfltPllLockTimeON ( IN ACCESS_WIDTH AccessWidth, IN PCI_ADDR Address, IN OUT VOID *Value, IN OUT VOID *ConfigPtr ) { UINT16 RegValue; RegValue = 0x1838; MemNS3SetBitFieldNb (AccessS3SaveWidth16, Address, &RegValue, ConfigPtr); } /* -----------------------------------------------------------------------------*/ /** * * This function is a wrapper to call a CPU routine to change NB P-state and * update NB frequency. * * @param[in,out] *NBPtr - Pointer to the MEM_NB_BLOCK * @param[in] *NBPstate - NB Pstate * * @return TRUE - Succeed * @return FALSE - Fail */ BOOLEAN STATIC MemNS3ChangeNbFrequencyWrapON ( IN OUT MEM_NB_BLOCK *NBPtr, IN UINT32 NBPstate ) { BOOLEAN Status; UINT32 NBFreq; UINT32 Speed; Speed = MemNGetBitFieldNb (NBPtr, BFMemClkFreq); Status = F14NbPstateInit (((Speed + 6) * 3335) / 100, Speed, NBPstate, &NBFreq, &(NBPtr->MemPtr->StdHeader)); return Status; }