diff options
Diffstat (limited to 'src/vendorcode/amd/agesa/f16kb/Proc/Mem/NB/KB/mns3kb.c')
-rw-r--r-- | src/vendorcode/amd/agesa/f16kb/Proc/Mem/NB/KB/mns3kb.c | 1258 |
1 files changed, 1258 insertions, 0 deletions
diff --git a/src/vendorcode/amd/agesa/f16kb/Proc/Mem/NB/KB/mns3kb.c b/src/vendorcode/amd/agesa/f16kb/Proc/Mem/NB/KB/mns3kb.c new file mode 100644 index 0000000000..7c433ad033 --- /dev/null +++ b/src/vendorcode/amd/agesa/f16kb/Proc/Mem/NB/KB/mns3kb.c @@ -0,0 +1,1258 @@ +/* $NoKeywords:$ */ +/** + * @file + * + * mns3kb.c + * + * KB memory specific function to support S3 resume + * + * @xrefitem bom "File Content Label" "Release Content" + * @e project: AGESA + * @e sub-project: (Mem/NB/KB) + * @e \$Revision: 87696 $ @e \$Date: 2013-02-07 12:35:03 -0600 (Thu, 07 Feb 2013) $ + * + **/ +/***************************************************************************** +* + * 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. +* *************************************************************************** +* +*/ + +/* + *---------------------------------------------------------------------------- + * 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 "mnkb.h" +#include "cpuRegisters.h" +#include "cpuFamRegisters.h" +#include "cpuFamilyTranslation.h" +#include "mnS3kb.h" +#include "heapManager.h" +#include "Filecode.h" +CODE_GROUP (G3_DXE) +RDATA_GROUP (G3_DXE) + +#define FILECODE PROC_MEM_NB_KB_MNS3KB_FILECODE +#define DCT0_MEMPSTATE_MASK 0x10 +#define DCT1_MEMPSTATE_MASK 0x20 +#define DO_NOT_CARE 0 +/*---------------------------------------------------------------------------- + * TYPEDEFS AND STRUCTURES + * + *---------------------------------------------------------------------------- + */ + +/*---------------------------------------------------------------------------- + * PROTOTYPES OF LOCAL FUNCTIONS + * + *---------------------------------------------------------------------------- + */ +UINT16 +STATIC +MemNS3GetRegLstPtrKB ( + IN OUT MEM_NB_BLOCK *NBPtr, + IN OUT DESCRIPTOR_GROUP *DescriptPtr + ); + +AGESA_STATUS +STATIC +MemNS3GetDeviceRegLstKB ( + IN UINT32 RegisterLstID, + OUT VOID **RegisterHeader + ); + +VOID +STATIC +MemNS3SetDfltPhyRegKB ( + IN ACCESS_WIDTH AccessWidth, + IN PCI_ADDR Address, + IN VOID *Value, + IN OUT VOID *ConfigPtr + ); + +VOID +STATIC +MemNS3SetDynModeChangeKB ( + IN ACCESS_WIDTH AccessWidth, + IN PCI_ADDR Address, + IN OUT VOID *Value, + IN OUT VOID *ConfigPtr + ); + +VOID +STATIC +MemNS3SetPhyStatusRegKB ( + IN ACCESS_WIDTH AccessWidth, + IN PCI_ADDR Address, + IN OUT VOID *Value, + IN OUT VOID *ConfigPtr + ); + +VOID +STATIC +MemNS3DisableChannelKB ( + IN ACCESS_WIDTH AccessWidth, + IN PCI_ADDR Address, + IN OUT VOID *Value, + IN OUT VOID *ConfigPtr + ); + +VOID +STATIC +MemNS3GetConPCIMaskKB ( + IN OUT MEM_NB_BLOCK *NBPtr, + IN OUT DESCRIPTOR_GROUP *DescriptPtr + ); + +VOID +STATIC +MemNS3ChangeMemPStateContextAndFlowNb ( + IN ACCESS_WIDTH AccessWidth, + IN PCI_ADDR Address, + IN OUT VOID *Value, + IN OUT VOID *ConfigPtr + ); + +VOID +STATIC +MemNS3GetCSRKB ( + IN ACCESS_WIDTH AccessWidth, + IN PCI_ADDR Address, + IN VOID *Value, + IN OUT VOID *ConfigPtr + ); + +VOID +STATIC +MemNS3SetCSRKB ( + IN ACCESS_WIDTH AccessWidth, + IN PCI_ADDR Address, + IN OUT VOID *Value, + IN OUT VOID *ConfigPtr + ); + +VOID +STATIC +MemNS3SetPhyFenceKB ( + IN ACCESS_WIDTH AccessWidth, + IN PCI_ADDR Address, + IN VOID *Value, + IN OUT VOID *ConfigPtr + ); + +BOOLEAN +MemS3ResumeConstructNBBlockKB ( + IN OUT VOID *S3NBPtr, + IN OUT MEM_DATA_STRUCT *MemPtr, + IN UINT8 NodeID + ); + +/*---------------------------------------------------------------------------- + * DEFINITIONS AND MACROS + * + *---------------------------------------------------------------------------- + */ +PCI_SPECIAL_CASE PciSpecialCaseFuncKB[] = { + {MemNS3GetCSRKB, MemNS3SetCSRKB}, + {MemNS3GetBitFieldNb, MemNS3SetBitFieldNb}, + {MemNS3GetNBPStateDepRegUnb, MemNS3SetNBPStateDepRegUnb}, + { (VOID (*) (ACCESS_WIDTH, PCI_ADDR, VOID *, VOID *)) memDefRet, MemNS3SetDfltPhyRegKB}, + {MemNS3ChangeMemPStateContextAndFlowNb, MemNS3ChangeMemPStateContextAndFlowNb}, + { (VOID (*) (ACCESS_WIDTH, PCI_ADDR, VOID *, VOID *)) memDefRet, MemNS3SetDynModeChangeKB}, + { (VOID (*) (ACCESS_WIDTH, PCI_ADDR, VOID *, VOID *)) memDefRet, MemNS3DisableChannelKB}, + {MemNS3SaveNBRegisterUnb, MemNS3RestoreNBRegisterUnb}, + {MemNS3GetBitFieldNb, MemNS3SetPreDriverCalUnb}, + { (VOID (*) (ACCESS_WIDTH, PCI_ADDR, VOID *, VOID *)) memDefRet, MemNS3SetPhyStatusRegKB}, + { (VOID (*) (ACCESS_WIDTH, PCI_ADDR, VOID *, VOID *)) memDefRet, MemNS3SetMemClkFreqValUnb}, + {MemNS3ChangeMemPStateContextNb, MemNS3ChangeMemPStateContextNb}, + {MemNS3GetBitFieldNb, MemNS3SetPhyFenceKB}, + { (VOID (*) (ACCESS_WIDTH, PCI_ADDR, VOID *, VOID *)) memDefRet, MemNS3ReleaseNBPSUnb}, + { (VOID (*) (ACCESS_WIDTH, PCI_ADDR, VOID *, VOID *)) memDefRet, MemNS3ForceNBP0Unb}, + {MemNSaveHobDataUnb, MemNRestoreHobDataUnb} +}; + +MSR_SPECIAL_CASE MsrSpecialCaseFuncKB[] = { + { MemNModdifyMtrrFixDramModEn, MemNModdifyMtrrFixDramModEn} +}; +PCI_REG_DESCRIPTOR ROMDATA S3PciPreSelfRefDescriptorKB[] = { + {{14,3, 1}, DO_NOT_CARE, 0, 0}, + {{0, 0, 0}, FUNC_2, 0x110, 0x00000020}, + {{0, 0, 0}, FUNC_1, 0x40, 0xFFFF0703}, + {{0, 0, 0}, FUNC_1, 0x44, 0xFFFF0707}, + {{0, 0, 0}, FUNC_1, 0xF0, 0xFF00FF83}, + {{0, 0, 0}, FUNC_1, 0x120, 0x00001FFF}, + {{0, 0, 0}, FUNC_1, 0x124, 0x00001FFF}, + {{0, 0, 0}, FUNC_1, 0x200, 0x00FFF87B}, + {{0, 0, 0}, FUNC_1, 0x204, 0x00FFF800}, + {{0, 0, 0}, FUNC_2, 0x114, 0x00000200}, + {{0, 0, 0}, FUNC_2, 0x118, 0xF773FFFF}, + {{0, 0, 0}, FUNC_2, 0x11C, 0xAFFFFFFF}, + {{0, 0, 0}, FUNC_2, 0x120, 0x00FFFFFF}, + {{0, 0, 0}, FUNC_2, 0x1B0, 0xFFD3FF3F}, + {{0, 0, 0}, FUNC_2, 0x1B4, 0xFC7FFFFF}, + {{0, 0, 0}, FUNC_2, 0x1BC, 0xFFFFFFFF}, + {{0, 0, 0}, FUNC_2, 0xA4, 0x00F07900}, + {{0, 0, 0}, FUNC_5, 0x240, 0xFFFFFFC1}, + {{0, 0, 0}, FUNC_5, 0x244, 0x0000FFFF}, + {{0, 0, 0}, FUNC_5, 0x248, 0xFFFFFFC0}, + {{0, 0, 0}, FUNC_5, 0x24C, 0x0000FFFF} +}; + +CONST PCI_REGISTER_BLOCK_HEADER ROMDATA S3PciPreSelfRefKB = { + 0, + (sizeof (S3PciPreSelfRefDescriptorKB) / sizeof (PCI_REG_DESCRIPTOR)), + S3PciPreSelfRefDescriptorKB, + PciSpecialCaseFuncKB +}; + +CONDITIONAL_PCI_REG_DESCRIPTOR ROMDATA S3CPciPreSelfDescriptorKB[] = { + // DCT 0 + {{7, 0, 1}, DCT0, 0x40, 0x7FF8FFED, DCT0_MASK, DCT0_ANY_DIMM_MASK}, + {{7, 0, 1}, DCT0, 0x44, 0x7FF8FFED, DCT0_MASK, DCT0_ANY_DIMM_MASK}, + {{7, 0, 1}, DCT0, 0x48, 0x7FF8FFED, DCT0_MASK, DCT0_ANY_DIMM_MASK}, + {{7, 0, 1}, DCT0, 0x4C, 0x7FF8FFED, DCT0_MASK, DCT0_ANY_DIMM_MASK}, + {{7, 0, 1}, DCT0, 0x60, 0x7FF8FFE0, DCT0_MASK, DCT0_ANY_DIMM_MASK}, + {{7, 0, 1}, DCT0, 0x64, 0x7FF8FFE0, DCT0_MASK, DCT0_ANY_DIMM_MASK}, + {{7, 0, 1}, DCT0, 0x78, 0x00020000, DCT0_MASK, DCT0_ANY_DIMM_MASK}, + {{7, 2, 1}, DCT0, 0x80, 0x0000FFFF, DCT0_MASK, DCT0_ANY_DIMM_MASK}, + {{7, 0, 1}, DCT0, 0x84, 0x00800003, DCT0_MASK, DCT0_ANY_DIMM_MASK}, + {{7, 0, 1}, DCT0, 0x88, 0x3F000000, DCT0_MASK, DCT0_ANY_DIMM_MASK}, + {{7, 0, 1}, DCT0, 0x8C, 0x00070000, DCT0_MASK, DCT0_ANY_DIMM_MASK}, + {{7, 0, 1}, DCT0, 0x90, 0x0BFF0000, DCT0_MASK, DCT0_ANY_DIMM_MASK}, + {{7, 0, 1}, DCT0, 0xA8, 0x9C730000, DCT0_MASK, DCT0_ANY_DIMM_MASK}, + {{7, 0, 1}, DCT0, 0x1BC, 0xFFFFFFFF, DCT0_MASK, DCT0_ANY_DIMM_MASK}, + {{7, 0, 1}, DCT0, 0x200, 0x3F1F1F1F, DCT0_MASK, DCT0_ANY_DIMM_MASK}, + {{7, 0, 1}, DCT0, 0x204, 0x0F3F0F3F, DCT0_MASK, DCT0_ANY_DIMM_MASK}, + {{7, 0, 1}, DCT0, 0x208, 0x07070707, DCT0_MASK, DCT0_ANY_DIMM_MASK}, + {{7, 0, 1}, DCT0, 0x20C, 0x00030F1F, DCT0_MASK, DCT0_ANY_DIMM_MASK}, + {{2, 0, 1}, DCT0, SET_S3_NB_PSTATE_OFFSET (0x210, 0), 0xFFC7000F, DCT0_MASK, DCT0_ANY_DIMM_MASK}, + {{2, 0, 1}, DCT0, SET_S3_NB_PSTATE_OFFSET (0x210, 1), 0xFFC7000F, DCT0_NBPSTATE_SUPPORT_MASK, DCT0_ANY_DIMM_MASK}, + {{2, 0, 1}, DCT0, SET_S3_NB_PSTATE_OFFSET (0x210, 2), 0xFFC7000F, DCT0_NBPSTATE_SUPPORT_MASK, DCT0_ANY_DIMM_MASK}, + {{2, 0, 1}, DCT0, SET_S3_NB_PSTATE_OFFSET (0x210, 3), 0xFFC7000F, DCT0_NBPSTATE_SUPPORT_MASK, DCT0_ANY_DIMM_MASK}, + {{7, 0, 1}, DCT0, 0x214, 0x000F0F0F, DCT0_MASK, DCT0_ANY_DIMM_MASK}, + {{7, 0, 1}, DCT0, 0x218, 0x0F0F0F0F, DCT0_MASK, DCT0_ANY_DIMM_MASK}, + {{7, 0, 1}, DCT0, 0x21C, 0x001F1F00, DCT0_MASK, DCT0_ANY_DIMM_MASK}, + {{7, 2, 1}, DCT0, 0x220, 0x00001F0F, DCT0_MASK, DCT0_ANY_DIMM_MASK}, + {{7, 2, 1}, DCT0, 0x224, 0x0000070F, DCT0_MASK, DCT0_ANY_DIMM_MASK}, + {{7, 0, 1}, DCT0, 0x228, 0xFFFFFFFF, DCT0_MASK, DCT0_ANY_DIMM_MASK}, + {{7, 1, 1}, DCT0, 0x22C, 0x0000001F, DCT0_MASK, DCT0_ANY_DIMM_MASK}, + {{7, 0, 1}, DCT0, 0x230, 0x0F0F0F0F, DCT0_MASK, DCT0_ANY_DIMM_MASK}, + {{7, 0, 1}, DCT0, 0x234, 0x0F0F0F0F, DCT0_MASK, DCT0_ANY_DIMM_MASK}, + {{7, 0, 1}, DCT0, 0x238, 0x0F0F0F0F, DCT0_MASK, DCT0_ANY_DIMM_MASK}, + {{7, 0, 1}, DCT0, 0x23C, 0x0F0F0F0F, DCT0_MASK, DCT0_ANY_DIMM_MASK}, + {{7, 2, 1}, DCT0, 0x240, 0x000077FF, DCT0_MASK, DCT0_ANY_DIMM_MASK}, + {{7, 1, 1}, DCT0, 0x244, 0x0000000F, DCT0_MASK, DCT0_ANY_DIMM_MASK}, + {{7, 0, 1}, DCT0, 0x248, 0xBF3F1F0F, DCT0_MASK, DCT0_ANY_DIMM_MASK}, + {{7, 0, 1}, DCT0, 0x24C, 0x3F3F3F0F, DCT0_MASK, DCT0_ANY_DIMM_MASK}, + {{7, 0, 1}, DCT0, 0x2E0, 0x5F700000, DCT0_MASK, DCT0_ANY_DIMM_MASK}, + {{7, 0, 1}, DCT0, 0x2E8, 0xFFFFFFFF, DCT0_MASK, DCT0_ANY_DIMM_MASK}, + {{7, 2, 1}, DCT0, 0x2EC, 0x0000FFFF, DCT0_MASK, DCT0_ANY_DIMM_MASK}, + {{7, 1, 1}, DCT0, 0x2F0, 0x00000001, DCT0_MASK, DCT0_ANY_DIMM_MASK}, + {{7, 2, 1}, DCT0, 0x400, 0x00000F0F, DCT0_MASK, DCT0_ANY_DIMM_MASK}, + {{7, 0, 1}, DCT0, 0x404, 0x8F1F0F1F, DCT0_MASK, DCT0_ANY_DIMM_MASK}, + {{7, 0, 1}, DCT0, 0x408, 0x1F000007, DCT0_MASK, DCT0_ANY_DIMM_MASK}, + {{7, 2, 1}, DCT0, 0x420, 0x00000F0F, DCT0_MASK, DCT0_ANY_DIMM_MASK}, + + // Phy Initialization + // 1. Program D18F2x9C_x0D0F_E013_dct[1:0] = 0118h. + {{1, 2, 1}, DCT0, BFPllRegWaitTime, 0, DCT0_MASK + DCT1_MASK, ANY_DIMM_MASK}, + // 2. Force the phy to M0 with the following sequence: + // A. Program D18F2x9C_x0D0F_E006_dct[1:0][PllLockTime] = 190h. + {{3, 3, 1}, DCT0, BFPllLockTime, 0, DCT0_MASK + DCT1_MASK, ANY_DIMM_MASK}, + // B. For each DCT: Program D18F2x9C_x0000_000B_dct[1:0] = 80800000h. + {{9, 3, 1}, FUNC_2, SET_S3_SPECIAL_OFFSET (DCT_PHY_FLAG, 0, 0x0B), 0, DCT0_MASK + DCT1_MASK, ANY_DIMM_MASK}, + // C. Program D18F2x9C_x0000_000B_dct[0] = 40000000h. + // D. For each DCT: Program D18F2x9C_x0000_000B_dct[1:0] = 80000000h + {{5, 3, 1}, FUNC_2, SET_S3_SPECIAL_OFFSET (DCT_PHY_FLAG, 0, 0x0B), 0, DCT0_MASK + DCT1_MASK, ANY_DIMM_MASK}, + + // 3. Phy voltage related + {{1, 1, 1}, DCT0, BFDataRxVioLvl, 0x00000018, DCT0_MASK, ANY_DIMM_MASK}, + {{1, 1, 1}, DCT0, BFClkRxVioLvl, 0x00000018, DCT0_MASK, ANY_DIMM_MASK}, + {{1, 2, 1}, DCT0, BFCmpVioLvl, 0x0000C000, DCT0_MASK, ANY_DIMM_MASK}, + {{1, 1, 1}, DCT0, BFCmdRxVioLvl, 0x00000018, DCT0_MASK, ANY_DIMM_MASK}, + {{1, 1, 1}, DCT0, BFCsrComparator, 0x0000000C, DCT0_MASK, ANY_DIMM_MASK}, + {{1, 1, 1}, DCT0, BFAddrRxVioLvl, 0x00000018, DCT0_MASK, ANY_DIMM_MASK}, + {{1, 1, 1}, DCT0, BFObsrvVrefSel, 0x00000007, DCT0_MASK, ANY_DIMM_MASK}, + + // 4. Frequency Change + // Check if a channel needs to be disabled + {{1, 1, 1}, DCT0, BFCKETri, 0, DCT0_MASK + DCT1_MASK, ANY_DIMM_MASK}, + {{6, 3, 1}, DCT0, 0, 0, DCT0_MASK + DCT1_MASK, ANY_DIMM_MASK}, + {{1, 1, 1}, DCT0, BFPhyClkConfig0, 0, DCT0_MASK, ANY_DIMM_MASK}, + {{1, 1, 1}, DCT0, BFPhyClkConfig1, 0, DCT0_MASK, ANY_DIMM_MASK}, + + {{7, 0, 1}, DCT0, 0x94, 0x9FF1CC1F, DCT0_MASK, ANY_DIMM_MASK}, + {{1, 2, 1}, DCT0, BFPOdtOff, 0, DCT0_MASK, ANY_DIMM_MASK}, + + {{0, 0, 1}, FUNC_2, SET_S3_SPECIAL_OFFSET (DCT_PHY_FLAG, 0, 0x04), 0x003F3F3F, DCT0_MASK, ANY_DIMM_MASK}, + {{1, 2, 1}, DCT0, BFProcOdtAdv, 0, DCT0_MASK, ANY_DIMM_MASK}, + {{1, 2, 1}, DCT0, BFReducedLoop, 0, DCT0_MASK, ANY_DIMM_MASK}, + + // Enable MemClk + {{10, 0, 1}, DCT0, 0x94, 0, DCT0_MASK, DCT0_ANY_DIMM_MASK}, + {{1, 2, 1}, DCT0, BFPllLockTime, 0, DCT0_MASK, ANY_DIMM_MASK}, + // Hardware programs POdtOff for the current M-state (D18F2x9C_x0D0F_E006_dct[0][PhyPS]) with the value in D18F2x94_dct[0] + // [ProcOdtDis] (via D18F2x9C_x0000_000B_dct[0][ProcOdtDis]) when the memory frequency is updated. BIOS must reprogram this + // BIOS must reprogram this field after each frequency change if the target value differs from D18F2x94_dct[0][ProcOdtDis]. + {{1, 2, 1}, DCT0, BFPOdtOff, 0, DCT0_MASK, ANY_DIMM_MASK}, + + // DCT 0 + // 5. Phy Fence + {{0, 0, 1}, FUNC_2, SET_S3_SPECIAL_OFFSET (DCT_PHY_FLAG, 0, 0x0C), 0x7FFF3FFF, DCT0_MASK + DCT1_MASK, ANY_DIMM_MASK}, + {{1, 2, 1}, DCT0, BFDataFence2, 0, DCT0_MASK, ANY_DIMM_MASK}, + {{1, 2, 1}, DCT0, BFFence2, 0x00007C1F, DCT0_MASK, ANY_DIMM_MASK}, + {{0, 0, 1}, FUNC_2, SET_S3_SPECIAL_OFFSET (DCT_PHY_FLAG, 0, 0x04), 0x003F3F3F, DCT0_MASK, ANY_DIMM_MASK}, + {{0, 0, 1}, FUNC_2, SET_S3_SPECIAL_OFFSET (DCT_PHY_FLAG, 0, 0x00), 0x70777777, DCT0_MASK, ANY_DIMM_MASK}, + // 6. Phy Compensation Init + {{3, 3, 1}, DCT0, BFDisablePredriverCal, 0, DCT0_MASK + DCT1_MASK, ANY_DIMM_MASK}, + {{1, 0, 1}, DCT0, BFPhy0x0D0F0F0B, 0, DCT0_MASK, ANY_DIMM_MASK}, + {{1, 0, 1}, DCT0, BFPhy0x0D0F0F07, 0, DCT0_MASK, ANY_DIMM_MASK}, + {{1, 0, 1}, DCT0, BFPhy0x0D0F0F03, 0, DCT0_MASK, ANY_DIMM_MASK}, + {{1, 2, 1}, DCT0, BFDataByteTxPreDriverCal2Pad1, 0, DCT0_MASK, ANY_DIMM_MASK}, + {{1, 2, 1}, DCT0, BFDataByteTxPreDriverCal2Pad2, 0, DCT0_MASK, ANY_DIMM_MASK}, + {{8, 2, 1}, DCT0, BFDataByteTxPreDriverCal, 0, DCT0_MASK, ANY_DIMM_MASK}, + {{1, 2, 1}, DCT0, BFCmdAddr0TxPreDriverCal2Pad1, 0, DCT0_MASK, ANY_DIMM_MASK}, + {{1, 2, 1}, DCT0, BFCmdAddr0TxPreDriverCal2Pad2, 0, DCT0_MASK, ANY_DIMM_MASK}, + {{1, 2, 1}, DCT0, BFCmdAddr1TxPreDriverCal2Pad1, 0, DCT0_MASK, ANY_DIMM_MASK}, + {{1, 2, 1}, DCT0, BFCmdAddr1TxPreDriverCal2Pad2, 0, DCT0_MASK, ANY_DIMM_MASK}, + {{1, 2, 1}, DCT0, BFAddrTxPreDriverCal2Pad1, 0, DCT0_MASK, ANY_DIMM_MASK}, + {{1, 2, 1}, DCT0, BFAddrTxPreDriverCal2Pad2, 0, DCT0_MASK, ANY_DIMM_MASK}, + {{1, 2, 1}, DCT0, BFAddrTxPreDriverCal2Pad3, 0, DCT0_MASK, ANY_DIMM_MASK}, + {{1, 2, 1}, DCT0, BFAddrTxPreDriverCal2Pad4, 0, DCT0_MASK, ANY_DIMM_MASK}, + {{8, 2, 1}, DCT0, BFCmdAddr0TxPreDriverCalPad0, 0, DCT0_MASK, ANY_DIMM_MASK}, + {{8, 2, 1}, DCT0, BFCmdAddr1TxPreDriverCalPad0, 0, DCT0_MASK, ANY_DIMM_MASK}, + {{8, 2, 1}, DCT0, BFAddrTxPreDriverCalPad0, 0, DCT0_MASK, ANY_DIMM_MASK}, + {{8, 2, 1}, DCT0, BFClock0TxPreDriverCalPad0, 0, DCT0_MASK, ANY_DIMM_MASK}, + {{8, 2, 1}, DCT0, BFClock1TxPreDriverCalPad0, 0, DCT0_MASK, ANY_DIMM_MASK}, + + {{1, 1, 1}, DCT0, BFDisablePredriverCal, 0, DCT0_MASK + DCT1_MASK, ANY_DIMM_MASK}, + // Program MemPstate 1 registers + // Switch to MemPstate context 1 + {{11, 3, 1}, DO_NOT_CARE, 1, DO_NOT_CARE, DCT0_MEMPSTATE_MASK + DCT1_MEMPSTATE_MASK, ANY_DIMM_MASK}, + {{1, 1, 1}, DCT0, BFRate, 0, DCT0_MASK, ANY_DIMM_MASK}, + {{1, 2, 1}, DCT0, BFProcOdtAdv, 0, DCT0_MEMPSTATE_MASK, ANY_DIMM_MASK}, + {{1, 1, 1}, DCT0, BFDataRxVioLvl, 0x00000018, DCT0_MEMPSTATE_MASK, ANY_DIMM_MASK}, + {{7, 0, 1}, DCT0, 0x200, 0x3F1F1F1F, DCT0_MEMPSTATE_MASK, DCT0_ANY_DIMM_MASK}, + {{7, 0, 1}, DCT0, 0x204, 0x0F3F0F3F, DCT0_MEMPSTATE_MASK, DCT0_ANY_DIMM_MASK}, + {{7, 0, 1}, DCT0, 0x208, 0x07070707, DCT0_MEMPSTATE_MASK, DCT0_ANY_DIMM_MASK}, + {{7, 0, 1}, DCT0, 0x20C, 0x00030F1F, DCT0_MEMPSTATE_MASK, DCT0_ANY_DIMM_MASK}, + {{7, 0, 1}, DCT0, 0x214, 0x000F0F0F, DCT0_MEMPSTATE_MASK, DCT0_ANY_DIMM_MASK}, + {{7, 0, 1}, DCT0, 0x218, 0x0F0F0F0F, DCT0_MEMPSTATE_MASK, DCT0_ANY_DIMM_MASK}, + {{7, 0, 1}, DCT0, 0x21C, 0x001F1F00, DCT0_MEMPSTATE_MASK, DCT0_ANY_DIMM_MASK}, + {{7, 1, 1}, DCT0, 0x22C, 0x0000001F, DCT0_MEMPSTATE_MASK, DCT0_ANY_DIMM_MASK}, + {{7, 2, 1}, DCT0, 0x240, 0x000077FF, DCT0_MEMPSTATE_MASK, DCT0_ANY_DIMM_MASK}, + {{7, 0, 1}, DCT0, 0x248, 0xBF3F1F0F, DCT0_MEMPSTATE_MASK, DCT0_ANY_DIMM_MASK}, + {{7, 0, 1}, DCT0, 0x2E8, 0xFFFFFFFF, DCT0_MEMPSTATE_MASK, DCT0_ANY_DIMM_MASK}, + {{7, 2, 1}, DCT0, 0x2EC, 0x0000FFFF, DCT0_MEMPSTATE_MASK, DCT0_ANY_DIMM_MASK}, + // Compute Phy fence for MemPstate 1 + // DCT 0 + {{12, 2, 1}, DCT0, BFChAM1FenceSave, 0, DCT0_MEMPSTATE_MASK, ANY_DIMM_MASK}, + {{0, 0, 1}, FUNC_2, SET_S3_SPECIAL_OFFSET (DCT_PHY_FLAG, 0, 0x04), 0x003F3F3F, DCT0_MEMPSTATE_MASK, ANY_DIMM_MASK}, + {{0, 0, 1}, FUNC_2, SET_S3_SPECIAL_OFFSET (DCT_PHY_FLAG, 0, 0x00), 0x70777777, DCT0_MEMPSTATE_MASK, ANY_DIMM_MASK}, + + {{1, 1, 1}, DCT0, BFDisablePredriverCal, 0, DCT0_MEMPSTATE_MASK + DCT1_MEMPSTATE_MASK, ANY_DIMM_MASK}, + // Switch back to MemPstate context 0 + {{11, 3, 1}, DO_NOT_CARE, 0, DO_NOT_CARE, DCT0_MEMPSTATE_MASK + DCT1_MEMPSTATE_MASK, ANY_DIMM_MASK}, + + // Set Fence back to Fence of M0 to prepare for fine delay restore for M0 + {{0, 0, 1}, FUNC_2, SET_S3_SPECIAL_OFFSET (DCT_PHY_FLAG, 0, 0x0C), 0x7FFF3FFF, DCT0_MEMPSTATE_MASK, ANY_DIMM_MASK}, + {{1, 2, 1}, DCT0, BFDataFence2, 0, DCT0_MEMPSTATE_MASK, ANY_DIMM_MASK}, + {{1, 2, 1}, DCT0, BFFence2, 0x00007C1F, DCT0_MEMPSTATE_MASK, ANY_DIMM_MASK}, + + {{15, 0, 1}, S3_UMA_SIZE, 0, 0, ANY_DIMM_MASK, ANY_DIMM_MASK, RESTORE_TRAINING_MODE | CAPSULE_REBOOT_MODE}, + {{15, 0, 1}, S3_UMA_BASE, 0, 0, ANY_DIMM_MASK, ANY_DIMM_MASK, RESTORE_TRAINING_MODE | CAPSULE_REBOOT_MODE}, + {{15, 1, 1}, S3_UMA_MODE, 0, 0, ANY_DIMM_MASK, ANY_DIMM_MASK, RESTORE_TRAINING_MODE | CAPSULE_REBOOT_MODE}, + {{15, 0, 1}, S3_SUB_4G_CACHE_TOP, 0, 0, ANY_DIMM_MASK, ANY_DIMM_MASK, RESTORE_TRAINING_MODE | CAPSULE_REBOOT_MODE}, + {{15, 0, 1}, S3_SYSLIMIT, 0, 0, ANY_DIMM_MASK, ANY_DIMM_MASK, RESTORE_TRAINING_MODE | CAPSULE_REBOOT_MODE}, + // Always put UMA_ATTRIBUTE after other types for hob data save and restore + {{15, 0, 1}, S3_UMA_ATTRIBUTE, 0, 0, ANY_DIMM_MASK, ANY_DIMM_MASK, RESTORE_TRAINING_MODE | CAPSULE_REBOOT_MODE}, + + {{15, 1, 1}, S3_VDDIO, 0, 0, ANY_DIMM_MASK, ANY_DIMM_MASK, RESTORE_TRAINING_MODE | CAPSULE_REBOOT_MODE} +}; + +CONST CPCI_REGISTER_BLOCK_HEADER ROMDATA S3CPciPreSelfRefKB = { + 0, + (sizeof (S3CPciPreSelfDescriptorKB) / sizeof (CONDITIONAL_PCI_REG_DESCRIPTOR)), + S3CPciPreSelfDescriptorKB, + PciSpecialCaseFuncKB +}; + +CONDITIONAL_PCI_REG_DESCRIPTOR ROMDATA S3CPciPostSelfDescriptorKB[] = { + // DCT0 + {{12, 2, 1}, DCT0, BFChAM1FenceSave, 0, DCT0_MEMPSTATE_MASK, ANY_DIMM_MASK}, + {{1, 2, 1}, DCT0, BFRxDqInsDly, 0, DCT0_MASK, ANY_DIMM_MASK}, + {{0, 0, 1}, FUNC_2, SET_S3_SPECIAL_OFFSET (DCT_PHY_FLAG, 0, 0x10), 0x03FF03FF, DCT0_MASK, 0x01}, + {{0, 0, 1}, FUNC_2, SET_S3_SPECIAL_OFFSET (DCT_PHY_FLAG, 0, 0x11), 0x03FF03FF, DCT0_MASK, 0x01}, + {{0, 0, 1}, FUNC_2, SET_S3_SPECIAL_OFFSET (DCT_PHY_FLAG, 0, 0x13), 0x03FF03FF, DCT0_MASK, 0x04}, + {{0, 0, 1}, FUNC_2, SET_S3_SPECIAL_OFFSET (DCT_PHY_FLAG, 0, 0x14), 0x03FF03FF, DCT0_MASK, 0x04}, + {{0, 0, 1}, FUNC_2, SET_S3_SPECIAL_OFFSET (DCT_PHY_FLAG, 0, 0x16), 0x03FF03FF, DCT0_MASK, 0x10}, + {{0, 0, 1}, FUNC_2, SET_S3_SPECIAL_OFFSET (DCT_PHY_FLAG, 0, 0x17), 0x03FF03FF, DCT0_MASK, 0x10}, + {{0, 0, 1}, FUNC_2, SET_S3_SPECIAL_OFFSET (DCT_PHY_FLAG, 0, 0x19), 0x03FF03FF, DCT0_MASK, 0x40}, + {{0, 0, 1}, FUNC_2, SET_S3_SPECIAL_OFFSET (DCT_PHY_FLAG, 0, 0x1A), 0x03FF03FF, DCT0_MASK, 0x40}, + {{0, 0, 1}, FUNC_2, SET_S3_SPECIAL_OFFSET (DCT_PHY_FLAG, 0, 0x20), 0x03FF03FF, DCT0_MASK, 0x01}, + {{0, 0, 1}, FUNC_2, SET_S3_SPECIAL_OFFSET (DCT_PHY_FLAG, 0, 0x21), 0x03FF03FF, DCT0_MASK, 0x01}, + {{0, 0, 1}, FUNC_2, SET_S3_SPECIAL_OFFSET (DCT_PHY_FLAG, 0, 0x23), 0x03FF03FF, DCT0_MASK, 0x04}, + {{0, 0, 1}, FUNC_2, SET_S3_SPECIAL_OFFSET (DCT_PHY_FLAG, 0, 0x24), 0x03FF03FF, DCT0_MASK, 0x04}, + {{0, 0, 1}, FUNC_2, SET_S3_SPECIAL_OFFSET (DCT_PHY_FLAG, 0, 0x26), 0x03FF03FF, DCT0_MASK, 0x10}, + {{0, 0, 1}, FUNC_2, SET_S3_SPECIAL_OFFSET (DCT_PHY_FLAG, 0, 0x27), 0x03FF03FF, DCT0_MASK, 0x10}, + {{0, 0, 1}, FUNC_2, SET_S3_SPECIAL_OFFSET (DCT_PHY_FLAG, 0, 0x29), 0x03FF03FF, DCT0_MASK, 0x40}, + {{0, 0, 1}, FUNC_2, SET_S3_SPECIAL_OFFSET (DCT_PHY_FLAG, 0, 0x2A), 0x03FF03FF, DCT0_MASK, 0x40}, + {{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, 0x201), 0xFFFFFFFF, DCT0_MASK, 0x10}, + {{0, 0, 1}, FUNC_2, SET_S3_SPECIAL_OFFSET (DCT_PHY_FLAG, 0, 0x202), 0xFFFFFFFF, DCT0_MASK, 0x10}, + {{0, 0, 1}, FUNC_2, SET_S3_SPECIAL_OFFSET (DCT_PHY_FLAG, 0, 0x301), 0xFFFFFFFF, DCT0_MASK, 0x40}, + {{0, 0, 1}, FUNC_2, SET_S3_SPECIAL_OFFSET (DCT_PHY_FLAG, 0, 0x302), 0xFFFFFFFF, DCT0_MASK, 0x40}, + {{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, 0x205), 0x3E3E3E3E, DCT0_MASK, 0x10}, + {{0, 0, 1}, FUNC_2, SET_S3_SPECIAL_OFFSET (DCT_PHY_FLAG, 0, 0x206), 0x3E3E3E3E, DCT0_MASK, 0x10}, + {{0, 0, 1}, FUNC_2, SET_S3_SPECIAL_OFFSET (DCT_PHY_FLAG, 0, 0x305), 0x3E3E3E3E, DCT0_MASK, 0x40}, + {{0, 0, 1}, FUNC_2, SET_S3_SPECIAL_OFFSET (DCT_PHY_FLAG, 0, 0x306), 0x3E3E3E3E, DCT0_MASK, 0x40}, + {{0, 0, 1}, FUNC_2, SET_S3_SPECIAL_OFFSET (DCT_PHY_FLAG, 0, 0x30), 0x00FF00FF, DCT0_MASK, 0x01}, + {{0, 0, 1}, FUNC_2, SET_S3_SPECIAL_OFFSET (DCT_PHY_FLAG, 0, 0x31), 0x00FF00FF, DCT0_MASK, 0x01}, + {{0, 0, 1}, FUNC_2, SET_S3_SPECIAL_OFFSET (DCT_PHY_FLAG, 0, 0x33), 0x00FF00FF, DCT0_MASK, 0x04}, + {{0, 0, 1}, FUNC_2, SET_S3_SPECIAL_OFFSET (DCT_PHY_FLAG, 0, 0x34), 0x00FF00FF, DCT0_MASK, 0x04}, + {{0, 0, 1}, FUNC_2, SET_S3_SPECIAL_OFFSET (DCT_PHY_FLAG, 0, 0x36), 0x00FF00FF, DCT0_MASK, 0x10}, + {{0, 0, 1}, FUNC_2, SET_S3_SPECIAL_OFFSET (DCT_PHY_FLAG, 0, 0x37), 0x00FF00FF, DCT0_MASK, 0x10}, + {{0, 0, 1}, FUNC_2, SET_S3_SPECIAL_OFFSET (DCT_PHY_FLAG, 0, 0x39), 0x00FF00FF, DCT0_MASK, 0x40}, + {{0, 0, 1}, FUNC_2, SET_S3_SPECIAL_OFFSET (DCT_PHY_FLAG, 0, 0x3A), 0x00FF00FF, DCT0_MASK, 0x40}, + {{0, 0, 1}, FUNC_2, SET_S3_SPECIAL_OFFSET (DCT_PHY_FLAG, 0, 0x40), 0x00FF00FF, DCT0_MASK, 0x01}, + {{0, 0, 1}, FUNC_2, SET_S3_SPECIAL_OFFSET (DCT_PHY_FLAG, 0, 0x41), 0x00FF00FF, DCT0_MASK, 0x01}, + {{0, 0, 1}, FUNC_2, SET_S3_SPECIAL_OFFSET (DCT_PHY_FLAG, 0, 0x43), 0x00FF00FF, DCT0_MASK, 0x04}, + {{0, 0, 1}, FUNC_2, SET_S3_SPECIAL_OFFSET (DCT_PHY_FLAG, 0, 0x44), 0x00FF00FF, DCT0_MASK, 0x04}, + {{0, 0, 1}, FUNC_2, SET_S3_SPECIAL_OFFSET (DCT_PHY_FLAG, 0, 0x46), 0x00FF00FF, DCT0_MASK, 0x10}, + {{0, 0, 1}, FUNC_2, SET_S3_SPECIAL_OFFSET (DCT_PHY_FLAG, 0, 0x47), 0x00FF00FF, DCT0_MASK, 0x10}, + {{0, 0, 1}, FUNC_2, SET_S3_SPECIAL_OFFSET (DCT_PHY_FLAG, 0, 0x49), 0x00FF00FF, DCT0_MASK, 0x40}, + {{0, 0, 1}, FUNC_2, SET_S3_SPECIAL_OFFSET (DCT_PHY_FLAG, 0, 0x4A), 0x00FF00FF, DCT0_MASK, 0x40}, + {{0, 0, 1}, FUNC_2, SET_S3_SPECIAL_OFFSET (DCT_PHY_FLAG, 0, 0x0D), 0x037F037F, DCT0_MASK, ANY_DIMM_MASK}, + {{1, 1, 1}, DCT0, BFPhy0x0D0F0F13, 0x00000083, DCT0_MASK, ANY_DIMM_MASK}, + {{1, 2, 1}, DCT0, BFDllCSRBiasTrim, 0x00007000, DCT0_MASK, ANY_DIMM_MASK}, + {{1, 2, 1}, DCT0, BFRxSsbMntClkEn, 0, DCT0_MASK, ANY_DIMM_MASK}, + {{1, 2, 1}, DCT0, BFEnRxPadStandby, 0, DCT0_MASK, ANY_DIMM_MASK}, + {{1, 1, 1}, DCT0, BFEccDLLPwrDnConf, 0, DCT0_MASK, ANY_DIMM_MASK}, + {{1, 2, 1}, DCT0, BFTxPclkGateEn, 0, DCT0_MASK, ANY_DIMM_MASK}, + {{1, 1, 1}, DCT0, BFPchgPdPclkGateEn, 0, DCT0_MASK, ANY_DIMM_MASK}, + {{1, 1, 1}, DCT0, BFDataCtlPipePclkGateEn, 0, DCT0_MASK, ANY_DIMM_MASK}, + {{1, 2, 1}, DCT0, BFDataByteDllPowerMgnByte0, 0xBFBF, DCT0_MASK, ANY_DIMM_MASK}, + {{1, 2, 1}, DCT0, BFDataByteDllPowerMgnByte1, 0xBFBF, DCT0_MASK, ANY_DIMM_MASK}, + {{1, 2, 1}, DCT0, BFDataByteDllPowerMgnByte2, 0xBFBF, DCT0_MASK, ANY_DIMM_MASK}, + {{1, 2, 1}, DCT0, BFDataByteDllPowerMgnByte3, 0xBFBF, DCT0_MASK, ANY_DIMM_MASK}, + {{1, 2, 1}, DCT0, BFDataByteDllPowerMgnByte4, 0xBFBF, DCT0_MASK, ANY_DIMM_MASK}, + {{1, 2, 1}, DCT0, BFDataByteDllPowerMgnByte5, 0xBFBF, DCT0_MASK, ANY_DIMM_MASK}, + {{1, 2, 1}, DCT0, BFDataByteDllPowerMgnByte6, 0xBFBF, DCT0_MASK, ANY_DIMM_MASK}, + {{1, 2, 1}, DCT0, BFDataByteDllPowerMgnByte7, 0xBFBF, DCT0_MASK, ANY_DIMM_MASK}, + {{1, 2, 1}, DCT0, BFDataByteDllPowerMgnByte8, 0xBFBF, DCT0_MASK, ANY_DIMM_MASK}, + + {{11, 3, 1}, DO_NOT_CARE, 1, DO_NOT_CARE, DCT0_MEMPSTATE_MASK + DCT1_MEMPSTATE_MASK, ANY_DIMM_MASK}, + + // DCT0 + {{12, 2, 1}, DCT0, BFChAM1FenceSave, 0, DCT0_MEMPSTATE_MASK, ANY_DIMM_MASK}, + {{1, 2, 1}, DCT0, BFRxDqInsDly, 0, DCT0_MEMPSTATE_MASK, ANY_DIMM_MASK}, + {{0, 0, 1}, FUNC_2, SET_S3_SPECIAL_OFFSET (DCT_PHY_FLAG, 0, 0x10), 0x03FF03FF, DCT0_MEMPSTATE_MASK, 0x01}, + {{0, 0, 1}, FUNC_2, SET_S3_SPECIAL_OFFSET (DCT_PHY_FLAG, 0, 0x11), 0x03FF03FF, DCT0_MEMPSTATE_MASK, 0x01}, + {{0, 0, 1}, FUNC_2, SET_S3_SPECIAL_OFFSET (DCT_PHY_FLAG, 0, 0x13), 0x03FF03FF, DCT0_MEMPSTATE_MASK, 0x04}, + {{0, 0, 1}, FUNC_2, SET_S3_SPECIAL_OFFSET (DCT_PHY_FLAG, 0, 0x14), 0x03FF03FF, DCT0_MEMPSTATE_MASK, 0x04}, + {{0, 0, 1}, FUNC_2, SET_S3_SPECIAL_OFFSET (DCT_PHY_FLAG, 0, 0x16), 0x03FF03FF, DCT0_MEMPSTATE_MASK, 0x10}, + {{0, 0, 1}, FUNC_2, SET_S3_SPECIAL_OFFSET (DCT_PHY_FLAG, 0, 0x17), 0x03FF03FF, DCT0_MEMPSTATE_MASK, 0x10}, + {{0, 0, 1}, FUNC_2, SET_S3_SPECIAL_OFFSET (DCT_PHY_FLAG, 0, 0x19), 0x03FF03FF, DCT0_MEMPSTATE_MASK, 0x40}, + {{0, 0, 1}, FUNC_2, SET_S3_SPECIAL_OFFSET (DCT_PHY_FLAG, 0, 0x1A), 0x03FF03FF, DCT0_MEMPSTATE_MASK, 0x40}, + {{0, 0, 1}, FUNC_2, SET_S3_SPECIAL_OFFSET (DCT_PHY_FLAG, 0, 0x20), 0x03FF03FF, DCT0_MEMPSTATE_MASK, 0x01}, + {{0, 0, 1}, FUNC_2, SET_S3_SPECIAL_OFFSET (DCT_PHY_FLAG, 0, 0x21), 0x03FF03FF, DCT0_MEMPSTATE_MASK, 0x01}, + {{0, 0, 1}, FUNC_2, SET_S3_SPECIAL_OFFSET (DCT_PHY_FLAG, 0, 0x23), 0x03FF03FF, DCT0_MEMPSTATE_MASK, 0x04}, + {{0, 0, 1}, FUNC_2, SET_S3_SPECIAL_OFFSET (DCT_PHY_FLAG, 0, 0x24), 0x03FF03FF, DCT0_MEMPSTATE_MASK, 0x04}, + {{0, 0, 1}, FUNC_2, SET_S3_SPECIAL_OFFSET (DCT_PHY_FLAG, 0, 0x26), 0x03FF03FF, DCT0_MEMPSTATE_MASK, 0x10}, + {{0, 0, 1}, FUNC_2, SET_S3_SPECIAL_OFFSET (DCT_PHY_FLAG, 0, 0x27), 0x03FF03FF, DCT0_MEMPSTATE_MASK, 0x10}, + {{0, 0, 1}, FUNC_2, SET_S3_SPECIAL_OFFSET (DCT_PHY_FLAG, 0, 0x29), 0x03FF03FF, DCT0_MEMPSTATE_MASK, 0x40}, + {{0, 0, 1}, FUNC_2, SET_S3_SPECIAL_OFFSET (DCT_PHY_FLAG, 0, 0x2A), 0x03FF03FF, DCT0_MEMPSTATE_MASK, 0x40}, + {{0, 0, 1}, FUNC_2, SET_S3_SPECIAL_OFFSET (DCT_PHY_FLAG, 0, 0x01), 0xFFFFFFFF, DCT0_MEMPSTATE_MASK, 0x01}, + {{0, 0, 1}, FUNC_2, SET_S3_SPECIAL_OFFSET (DCT_PHY_FLAG, 0, 0x02), 0xFFFFFFFF, DCT0_MEMPSTATE_MASK, 0x01}, + {{0, 0, 1}, FUNC_2, SET_S3_SPECIAL_OFFSET (DCT_PHY_FLAG, 0, 0x101), 0xFFFFFFFF, DCT0_MEMPSTATE_MASK, 0x04}, + {{0, 0, 1}, FUNC_2, SET_S3_SPECIAL_OFFSET (DCT_PHY_FLAG, 0, 0x102), 0xFFFFFFFF, DCT0_MEMPSTATE_MASK, 0x04}, + {{0, 0, 1}, FUNC_2, SET_S3_SPECIAL_OFFSET (DCT_PHY_FLAG, 0, 0x201), 0xFFFFFFFF, DCT0_MEMPSTATE_MASK, 0x10}, + {{0, 0, 1}, FUNC_2, SET_S3_SPECIAL_OFFSET (DCT_PHY_FLAG, 0, 0x202), 0xFFFFFFFF, DCT0_MEMPSTATE_MASK, 0x10}, + {{0, 0, 1}, FUNC_2, SET_S3_SPECIAL_OFFSET (DCT_PHY_FLAG, 0, 0x301), 0xFFFFFFFF, DCT0_MEMPSTATE_MASK, 0x40}, + {{0, 0, 1}, FUNC_2, SET_S3_SPECIAL_OFFSET (DCT_PHY_FLAG, 0, 0x302), 0xFFFFFFFF, DCT0_MEMPSTATE_MASK, 0x40}, + {{0, 0, 1}, FUNC_2, SET_S3_SPECIAL_OFFSET (DCT_PHY_FLAG, 0, 0x05), 0x3E3E3E3E, DCT0_MEMPSTATE_MASK, 0x01}, + {{0, 0, 1}, FUNC_2, SET_S3_SPECIAL_OFFSET (DCT_PHY_FLAG, 0, 0x06), 0x3E3E3E3E, DCT0_MEMPSTATE_MASK, 0x01}, + {{0, 0, 1}, FUNC_2, SET_S3_SPECIAL_OFFSET (DCT_PHY_FLAG, 0, 0x105), 0x3E3E3E3E, DCT0_MEMPSTATE_MASK, 0x04}, + {{0, 0, 1}, FUNC_2, SET_S3_SPECIAL_OFFSET (DCT_PHY_FLAG, 0, 0x106), 0x3E3E3E3E, DCT0_MEMPSTATE_MASK, 0x04}, + {{0, 0, 1}, FUNC_2, SET_S3_SPECIAL_OFFSET (DCT_PHY_FLAG, 0, 0x205), 0x3E3E3E3E, DCT0_MEMPSTATE_MASK, 0x10}, + {{0, 0, 1}, FUNC_2, SET_S3_SPECIAL_OFFSET (DCT_PHY_FLAG, 0, 0x206), 0x3E3E3E3E, DCT0_MEMPSTATE_MASK, 0x10}, + {{0, 0, 1}, FUNC_2, SET_S3_SPECIAL_OFFSET (DCT_PHY_FLAG, 0, 0x305), 0x3E3E3E3E, DCT0_MEMPSTATE_MASK, 0x40}, + {{0, 0, 1}, FUNC_2, SET_S3_SPECIAL_OFFSET (DCT_PHY_FLAG, 0, 0x306), 0x3E3E3E3E, DCT0_MEMPSTATE_MASK, 0x40}, + {{0, 0, 1}, FUNC_2, SET_S3_SPECIAL_OFFSET (DCT_PHY_FLAG, 0, 0x30), 0x00FF00FF, DCT0_MEMPSTATE_MASK, 0x01}, + {{0, 0, 1}, FUNC_2, SET_S3_SPECIAL_OFFSET (DCT_PHY_FLAG, 0, 0x31), 0x00FF00FF, DCT0_MEMPSTATE_MASK, 0x01}, + {{0, 0, 1}, FUNC_2, SET_S3_SPECIAL_OFFSET (DCT_PHY_FLAG, 0, 0x33), 0x00FF00FF, DCT0_MEMPSTATE_MASK, 0x04}, + {{0, 0, 1}, FUNC_2, SET_S3_SPECIAL_OFFSET (DCT_PHY_FLAG, 0, 0x34), 0x00FF00FF, DCT0_MEMPSTATE_MASK, 0x04}, + {{0, 0, 1}, FUNC_2, SET_S3_SPECIAL_OFFSET (DCT_PHY_FLAG, 0, 0x36), 0x00FF00FF, DCT0_MEMPSTATE_MASK, 0x10}, + {{0, 0, 1}, FUNC_2, SET_S3_SPECIAL_OFFSET (DCT_PHY_FLAG, 0, 0x37), 0x00FF00FF, DCT0_MEMPSTATE_MASK, 0x10}, + {{0, 0, 1}, FUNC_2, SET_S3_SPECIAL_OFFSET (DCT_PHY_FLAG, 0, 0x39), 0x00FF00FF, DCT0_MEMPSTATE_MASK, 0x40}, + {{0, 0, 1}, FUNC_2, SET_S3_SPECIAL_OFFSET (DCT_PHY_FLAG, 0, 0x3A), 0x00FF00FF, DCT0_MEMPSTATE_MASK, 0x40}, + {{0, 0, 1}, FUNC_2, SET_S3_SPECIAL_OFFSET (DCT_PHY_FLAG, 0, 0x40), 0x00FF00FF, DCT0_MEMPSTATE_MASK, 0x01}, + {{0, 0, 1}, FUNC_2, SET_S3_SPECIAL_OFFSET (DCT_PHY_FLAG, 0, 0x41), 0x00FF00FF, DCT0_MEMPSTATE_MASK, 0x01}, + {{0, 0, 1}, FUNC_2, SET_S3_SPECIAL_OFFSET (DCT_PHY_FLAG, 0, 0x43), 0x00FF00FF, DCT0_MEMPSTATE_MASK, 0x04}, + {{0, 0, 1}, FUNC_2, SET_S3_SPECIAL_OFFSET (DCT_PHY_FLAG, 0, 0x44), 0x00FF00FF, DCT0_MEMPSTATE_MASK, 0x04}, + {{0, 0, 1}, FUNC_2, SET_S3_SPECIAL_OFFSET (DCT_PHY_FLAG, 0, 0x46), 0x00FF00FF, DCT0_MEMPSTATE_MASK, 0x10}, + {{0, 0, 1}, FUNC_2, SET_S3_SPECIAL_OFFSET (DCT_PHY_FLAG, 0, 0x47), 0x00FF00FF, DCT0_MEMPSTATE_MASK, 0x10}, + {{0, 0, 1}, FUNC_2, SET_S3_SPECIAL_OFFSET (DCT_PHY_FLAG, 0, 0x49), 0x00FF00FF, DCT0_MEMPSTATE_MASK, 0x40}, + {{0, 0, 1}, FUNC_2, SET_S3_SPECIAL_OFFSET (DCT_PHY_FLAG, 0, 0x4A), 0x00FF00FF, DCT0_MEMPSTATE_MASK, 0x40}, + {{0, 0, 1}, FUNC_2, SET_S3_SPECIAL_OFFSET (DCT_PHY_FLAG, 0, 0x0D), 0x037F037F, DCT0_MEMPSTATE_MASK, ANY_DIMM_MASK}, + {{1, 1, 1}, DCT0, BFPhy0x0D0F0F13, 0x00000083, DCT0_MEMPSTATE_MASK, ANY_DIMM_MASK}, + {{1, 2, 1}, DCT0, BFDllCSRBiasTrim, 0x00007000, DCT0_MEMPSTATE_MASK, ANY_DIMM_MASK}, + {{1, 2, 1}, DCT0, BFRxSsbMntClkEn, 0, DCT0_MEMPSTATE_MASK, ANY_DIMM_MASK}, + {{1, 2, 1}, DCT0, BFEnRxPadStandby, 0, DCT0_MEMPSTATE_MASK, ANY_DIMM_MASK}, + {{1, 2, 1}, DCT0, BFDataByteDllPowerMgnByte0, 0xBFBF, DCT0_MEMPSTATE_MASK, ANY_DIMM_MASK}, + {{1, 2, 1}, DCT0, BFDataByteDllPowerMgnByte1, 0xBFBF, DCT0_MEMPSTATE_MASK, ANY_DIMM_MASK}, + {{1, 2, 1}, DCT0, BFDataByteDllPowerMgnByte2, 0xBFBF, DCT0_MEMPSTATE_MASK, ANY_DIMM_MASK}, + {{1, 2, 1}, DCT0, BFDataByteDllPowerMgnByte3, 0xBFBF, DCT0_MEMPSTATE_MASK, ANY_DIMM_MASK}, + {{1, 2, 1}, DCT0, BFDataByteDllPowerMgnByte4, 0xBFBF, DCT0_MEMPSTATE_MASK, ANY_DIMM_MASK}, + {{1, 2, 1}, DCT0, BFDataByteDllPowerMgnByte5, 0xBFBF, DCT0_MEMPSTATE_MASK, ANY_DIMM_MASK}, + {{1, 2, 1}, DCT0, BFDataByteDllPowerMgnByte6, 0xBFBF, DCT0_MEMPSTATE_MASK, ANY_DIMM_MASK}, + {{1, 2, 1}, DCT0, BFDataByteDllPowerMgnByte7, 0xBFBF, DCT0_MEMPSTATE_MASK, ANY_DIMM_MASK}, + {{1, 2, 1}, DCT0, BFDataByteDllPowerMgnByte8, 0xBFBF, DCT0_MEMPSTATE_MASK, ANY_DIMM_MASK}, + + {{11, 3, 1}, DO_NOT_CARE, 0, DO_NOT_CARE, DCT0_MEMPSTATE_MASK + DCT1_MEMPSTATE_MASK, ANY_DIMM_MASK}, + + {{1, 1, 1}, DCT0, BFAddrCmdTri, 0x0000000A1, DCT0_MASK, ANY_DIMM_MASK}, + {{1, 1, 1}, DCT0, BFDisDllShutdownSR, 0, DCT0_MASK, ANY_DIMM_MASK}, + + {{1, 1, 1}, DCT0, BFVrefSel, 0x00000007, DCT0_MASK, ANY_DIMM_MASK}, + {{1, 2, 1}, DCT0, BFVrefDAC, 0x000001F8, DCT0_MASK, ANY_DIMM_MASK}, + + {{0, 0, 0}, FUNC_2, 0x1B4, 0x08000000, ANY_DIMM_MASK, ANY_DIMM_MASK}, + {{0, 0, 0}, FUNC_3, 0x180, 0x02000000, ANY_DIMM_MASK, ANY_DIMM_MASK}, + {{0, 0, 0}, FUNC_3, 0x58, 0x0000001F, ANY_DIMM_MASK, ANY_DIMM_MASK}, + {{0, 0, 0}, FUNC_3, 0x5C, 0x00000001, ANY_DIMM_MASK, ANY_DIMM_MASK}, + {{0, 0, 0}, FUNC_3, 0x44, 0x00400004, ANY_DIMM_MASK, ANY_DIMM_MASK}, + + {{0, 0, 0}, FUNC_2, 0x118, 0x00040000, ANY_DIMM_MASK, ANY_DIMM_MASK}, + {{0, 0, 0}, FUNC_2, 0x118, 0x00080000, ANY_DIMM_MASK, ANY_DIMM_MASK}, + + {{13, 3, 1}, DO_NOT_CARE, 0, DO_NOT_CARE, ANY_DIMM_MASK, ANY_DIMM_MASK} +}; + +CONST CPCI_REGISTER_BLOCK_HEADER ROMDATA S3CPciPostSelfRefKB = { + 0, + (sizeof (S3CPciPostSelfDescriptorKB) / sizeof (CONDITIONAL_PCI_REG_DESCRIPTOR)), + S3CPciPostSelfDescriptorKB, + PciSpecialCaseFuncKB +}; + +MSR_REG_DESCRIPTOR ROMDATA S3MSRPreSelfRefDescriptorKB[] = { + {{0, 0, 0}, 0xC0010010, 0x00000000007F0000}, + {{0, 0, 0}, 0xC001001A, 0x0000FFFFFF800000}, + {{0, 0, 0}, 0xC001001D, 0x0000FFFFFF800000}, + {{0, 0, 0}, 0xC001001F, 0x0044601080000600}, + {{0, 0, 1}, 0, 0, RESTORE_TRAINING_MODE | CAPSULE_REBOOT_MODE}, + {{0, 0, 0}, 0x250, 0x1F1F1F1F1F1F1F1F, RESTORE_TRAINING_MODE | CAPSULE_REBOOT_MODE}, + {{0, 0, 0}, 0x258, 0x1F1F1F1F1F1F1F1F, RESTORE_TRAINING_MODE | CAPSULE_REBOOT_MODE}, + {{0, 0, 1}, 1, 0, RESTORE_TRAINING_MODE | CAPSULE_REBOOT_MODE}, + {{0, 0, 0}, 0x00000200, 0x0000FFFFFFFFF007, RESTORE_TRAINING_MODE | CAPSULE_REBOOT_MODE}, + {{0, 0, 0}, 0x00000202, 0x0000FFFFFFFFF007, RESTORE_TRAINING_MODE | CAPSULE_REBOOT_MODE}, + {{0, 0, 0}, 0x00000204, 0x0000FFFFFFFFF007, RESTORE_TRAINING_MODE | CAPSULE_REBOOT_MODE}, + {{0, 0, 0}, 0x00000206, 0x0000FFFFFFFFF007, RESTORE_TRAINING_MODE | CAPSULE_REBOOT_MODE}, + {{0, 0, 0}, 0x00000208, 0x0000FFFFFFFFF007, RESTORE_TRAINING_MODE | CAPSULE_REBOOT_MODE}, + {{0, 0, 0}, 0x0000020A, 0x0000FFFFFFFFF007, RESTORE_TRAINING_MODE | CAPSULE_REBOOT_MODE}, + {{0, 0, 0}, 0x00000201, 0x0000FFFFFFFFF800, RESTORE_TRAINING_MODE | CAPSULE_REBOOT_MODE}, + {{0, 0, 0}, 0x00000203, 0x0000FFFFFFFFF800, RESTORE_TRAINING_MODE | CAPSULE_REBOOT_MODE}, + {{0, 0, 0}, 0x00000205, 0x0000FFFFFFFFF800, RESTORE_TRAINING_MODE | CAPSULE_REBOOT_MODE}, + {{0, 0, 0}, 0x00000207, 0x0000FFFFFFFFF800, RESTORE_TRAINING_MODE | CAPSULE_REBOOT_MODE}, + {{0, 0, 0}, 0x00000209, 0x0000FFFFFFFFF800, RESTORE_TRAINING_MODE | CAPSULE_REBOOT_MODE}, + {{0, 0, 0}, 0x0000020B, 0x0000FFFFFFFFF800, RESTORE_TRAINING_MODE | CAPSULE_REBOOT_MODE} +}; + +CONST MSR_REGISTER_BLOCK_HEADER ROMDATA S3MSRPreSelfRefKB = { + 0, + (sizeof (S3MSRPreSelfRefDescriptorKB) / sizeof (MSR_REG_DESCRIPTOR)), + S3MSRPreSelfRefDescriptorKB, + MsrSpecialCaseFuncKB +}; + +VOID *MemS3RegListKB[] = { + (VOID *)&S3PciPreSelfRefKB, + NULL, + (VOID *)&S3CPciPreSelfRefKB, + (VOID *)&S3CPciPostSelfRefKB, + (VOID *)&S3MSRPreSelfRefKB, + 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 +MemS3ResumeConstructNBBlockKB ( + 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 (!MemNIsIdSupportedKB (&(MemPtr->DiesPerSystem[NodeID].LogicalCpuid))) { + return FALSE; + } + + NBPtr->RefPtr = NULL; + NBPtr->MemPtr = MemPtr; + NBPtr->MCTPtr = &(MemPtr->DiesPerSystem[NodeID]); + NBPtr->PciAddr.AddressValue = MemPtr->DiesPerSystem[NodeID].PciAddr.AddressValue; + MemNInitNBRegTableKB (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_KB; + NBPtr->DctCount = MAX_DCTS_PER_NODE_KB; + NBPtr->MemPstate = MEMORY_PSTATE0; + NBPtr->MemPstateStage = 0; + NBPtr->NbPsCtlReg = 0; + + NBPtr->IsSupported[SetDllShutDown] = TRUE; + + 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 = MemNSwitchDCTNb; + NBPtr->SwitchChannel = MemNSwitchChannelNb; + NBPtr->MemNCmnGetSetFieldNb = MemNCmnGetSetFieldKB; + NBPtr->GetBitField = MemNGetBitFieldNb; + NBPtr->SetBitField = MemNSetBitFieldNb; + NBPtr->MemNIsIdSupportedNb = MemNIsIdSupportedKB; + ((S3_MEM_NB_BLOCK *)S3NBPtr)->MemS3ExitSelfRefReg = (VOID (*) (MEM_NB_BLOCK *, AMD_CONFIG_PARAMS *)) memDefRet; + ((S3_MEM_NB_BLOCK *)S3NBPtr)->MemS3GetConPCIMask = MemNS3GetConPCIMaskKB; + ((S3_MEM_NB_BLOCK *)S3NBPtr)->MemS3GetConMSRMask = (VOID (*) (MEM_NB_BLOCK *, DESCRIPTOR_GROUP *)) memDefRet; + ((S3_MEM_NB_BLOCK *)S3NBPtr)->MemS3Resume = MemNS3ResumeUNb; + ((S3_MEM_NB_BLOCK *)S3NBPtr)->MemS3RestoreScrub = MemNS3RestoreScrubNb; + ((S3_MEM_NB_BLOCK *)S3NBPtr)->MemS3GetRegLstPtr = MemNS3GetRegLstPtrKB; + ((S3_MEM_NB_BLOCK *)S3NBPtr)->MemS3GetDeviceRegLst = MemNS3GetDeviceRegLstKB; + ((S3_MEM_NB_BLOCK *)S3NBPtr)->MemS3SpecialCaseHeapSize = 0; + NBPtr->FamilySpecificHook[DCTSelectSwitch] = MemNS3DctCfgSelectUnb; + + MemNSetBitFieldNb (NBPtr, BFDctCfgSel, 0); + MemNSwitchDCTNb (NBPtr, 0); + MemNSetBitFieldNb (NBPtr, BFMemPsSel, 0); + + if (MemNGetBitFieldNb (NBPtr, BFMemPstateDis) != 1) { + NBPtr->MemPstateStage = MEMORY_PSTATE_S3_STAGE; + MemNBrdcstSetUnConditionalNb (NBPtr, BFPStateToAccess, 0); + } + + return TRUE; +} + +/*---------------------------------------------------------------------------- + * LOCAL FUNCTIONS + * + *----------------------------------------------------------------------------*/ + +/* -----------------------------------------------------------------------------*/ +/** + * + * + * This function returns the register list for each device for KB + * + * @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 +MemNS3GetRegLstPtrKB ( + 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 *) MemS3RegListKB[PCI_LST_ESR_KB - PCI_LST_ESR_KB + i] != NULL) { + DescriptPtr->PCIDevice[i].RegisterListID = PCI_LST_ESR_KB + 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 *) MemS3RegListKB[CPCI_LST_ESR_KB - PCI_LST_ESR_KB + i] != NULL) { + DescriptPtr->CPCIDevice[i].RegisterListID = CPCI_LST_ESR_KB + 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 *) MemS3RegListKB[MSR_LST_ESR_KB - PCI_LST_ESR_KB + i] != NULL) { + DescriptPtr->MSRDevice[i].RegisterListID = MSR_LST_ESR_KB + 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 *) MemS3RegListKB[CMSR_LST_ESR_KB - PCI_LST_ESR_KB + i] != NULL) { + DescriptPtr->CMSRDevice[i].RegisterListID = CMSR_LST_ESR_KB + 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 AGESA_STATUS + * - AGESA_FATAL + * - AGESA_SUCCESS + */ +AGESA_STATUS +STATIC +MemNS3GetDeviceRegLstKB ( + IN UINT32 RegisterLstID, + OUT VOID **RegisterHeader + ) +{ + if (RegisterLstID >= (sizeof (MemS3RegListKB) / sizeof (VOID *))) { + ASSERT(FALSE); // RegisterListID exceeded size of Register list + return AGESA_FATAL; + } + if (MemS3RegListKB[RegisterLstID] != NULL) { + *RegisterHeader = MemS3RegListKB[RegisterLstID]; + return AGESA_SUCCESS; + } + ASSERT(FALSE); // Device register list error + return AGESA_FATAL; +} + +/* -----------------------------------------------------------------------------*/ +/** + * + * + * This function that set PllLockTime or disable auto compensation. + * + * @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 +MemNS3SetDfltPhyRegKB ( + IN ACCESS_WIDTH AccessWidth, + IN PCI_ADDR Address, + IN VOID *Value, + IN OUT VOID *ConfigPtr + ) +{ + UINT16 RegValue; + BIT_FIELD_NAME BitField; + + IDS_SKIP_HOOK (IDS_BEFORE_S3_SPECIAL, &Address, ConfigPtr) { + BitField = (BIT_FIELD_NAME) Address.Address.Register; + RegValue = 0; + + if (BitField == BFPllLockTime) { + RegValue = 0x190; + } else if (BitField == BFDisablePredriverCal) { + RegValue = 3; + } else { + ASSERT (FALSE); + } + MemNS3SetBitFieldNb (AccessS3SaveWidth16, Address, &RegValue, ConfigPtr); + } +} + +/* -----------------------------------------------------------------------------*/ +/** + * + * + * This function sets bit 31 [DynModeChange] of F2x9C_xB + * + * @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 +MemNS3SetDynModeChangeKB ( + IN ACCESS_WIDTH AccessWidth, + IN PCI_ADDR Address, + IN OUT VOID *Value, + IN OUT VOID *ConfigPtr + ) +{ + UINT32 RegValue; + + IDS_SKIP_HOOK (IDS_BEFORE_S3_SPECIAL, &Address, ConfigPtr) { + if ((Address.Address.Register & 0x400) == 0) { + RegValue = 0x40000000; + MemNS3SetCSRKB (AccessS3SaveWidth32, Address, &RegValue, ConfigPtr); + } + RegValue = 0x80000000; + MemNS3SetCSRKB (AccessS3SaveWidth32, Address, &RegValue, ConfigPtr); + } +} + +/* -----------------------------------------------------------------------------*/ +/** + * + * + * This function sets F2x9C_xB to 0x80800000 + * + * @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 +MemNS3SetPhyStatusRegKB ( + IN ACCESS_WIDTH AccessWidth, + IN PCI_ADDR Address, + IN OUT VOID *Value, + IN OUT VOID *ConfigPtr + ) +{ + UINT32 RegValue; + + IDS_SKIP_HOOK (IDS_BEFORE_S3_SPECIAL, &Address, ConfigPtr) { + RegValue = 0x80800000; + MemNS3SetCSRKB (AccessS3SaveWidth32, Address, &RegValue, ConfigPtr); + } +} + +/* -----------------------------------------------------------------------------*/ +/** + * + * + * This function does the channel disable sequence + * + * @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 +MemNS3DisableChannelKB ( + IN ACCESS_WIDTH AccessWidth, + IN PCI_ADDR Address, + IN OUT VOID *Value, + IN OUT VOID *ConfigPtr + ) +{ + MEM_NB_BLOCK *NBPtr; + LOCATE_HEAP_PTR LocateBufferPtr; + S3_MEM_NB_BLOCK *S3NBPtr; + UINT32 RegValue; + UINT8 Die; + + // See which Node should be accessed + Die = (UINT8) (Address.Address.Device - 24); + + LocateBufferPtr.BufferHandle = AMD_MEM_S3_NB_HANDLE; + if (HeapLocateBuffer (&LocateBufferPtr, ConfigPtr) == AGESA_SUCCESS) { + S3NBPtr = (S3_MEM_NB_BLOCK *) LocateBufferPtr.BufferPtr; + NBPtr = S3NBPtr[Die].NBPtr; + + // Function field contains the DCT number + NBPtr->SwitchDCT (NBPtr, (UINT8) Address.Address.Function); + RegValue = MemNGetBitFieldNb (NBPtr, BFCKETri); + // if CKETri is 0b1111, this channel is disabled + if (RegValue == 0xF) { + //Wait for 24 MEMCLKs, which is 60ns under 400MHz + MemFS3Wait10ns (6, NBPtr->MemPtr); + MemNSetBitFieldNb (NBPtr, BFMemClkDis, 0xFF); + MemNSetBitFieldNb (NBPtr, BFDisDramInterface, 1); + } + } +} + +/* -----------------------------------------------------------------------------*/ +/** + * + * + * This function changes memory Pstate context + * + * @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 TRUE + * ---------------------------------------------------------------------------- + */ +VOID +STATIC +MemNS3ChangeMemPStateContextAndFlowNb ( + IN ACCESS_WIDTH AccessWidth, + IN PCI_ADDR Address, + IN OUT VOID *Value, + IN OUT VOID *ConfigPtr + ) +{ + MEM_NB_BLOCK *NBPtr; + LOCATE_HEAP_PTR LocateBufferPtr; + S3_MEM_NB_BLOCK *S3NBPtr; + UINT8 Die; + + // See which Node should be accessed + Die = (UINT8) (Address.Address.Device - 24); + + LocateBufferPtr.BufferHandle = AMD_MEM_S3_NB_HANDLE; + + if (HeapLocateBuffer (&LocateBufferPtr, ConfigPtr) == AGESA_SUCCESS) { + S3NBPtr = (S3_MEM_NB_BLOCK *) LocateBufferPtr.BufferPtr; + NBPtr = S3NBPtr[Die].NBPtr; + if (NBPtr->MemPstate == MEMORY_PSTATE0) { + // If MemoryPstate is not disabled, switch to MemPState 1 context, and reprocess the register list + MemNChangeMemPStateContextNb (NBPtr, 1); + *(UINT32 *) Value = RESTART_FROM_BEGINNING_LIST; + } else { + // Switch back to MemPstate0 Context + MemNChangeMemPStateContextNb (NBPtr, 0); + } + } +} + +/* -----------------------------------------------------------------------------*/ +/** + * + * + * 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 +MemNS3GetConPCIMaskKB ( + IN OUT MEM_NB_BLOCK *NBPtr, + IN OUT DESCRIPTOR_GROUP *DescriptPtr + ) +{ + BIT_FIELD_NAME bitfield; + UINT32 RegVal; + UINT8 DCT; + UINT8 DimmMask; + UINT8 BadDimmMask; + UINT8 NbPsCapMsk; + UINT8 MemPstateMsk; + UINT8 CsPerDelay; + + NbPsCapMsk = 0; + MemPstateMsk = 0; + DimmMask = 0; + BadDimmMask = 0; + CsPerDelay = 1; + + for (DCT = 0; DCT < NBPtr->DctCount; DCT ++) { + MemNSwitchDCTNb (NBPtr, DCT); + if (MemNGetBitFieldNb (NBPtr, BFMemClkFreqVal)) { + if (MemNGetBitFieldNb (NBPtr, BFPerRankTimingEn) == 0) { + CsPerDelay = 2; + } + for (bitfield = BFCSBaseAddr0Reg; bitfield <= BFCSBaseAddr7Reg; bitfield ++) { + RegVal = MemNGetBitFieldNb (NBPtr, bitfield); + if (RegVal & 0x1) { + DimmMask |= (UINT8) (1 << ((((bitfield - BFCSBaseAddr0Reg) / CsPerDelay) << 1) + DCT)); + } else if (RegVal & 0x4) { + BadDimmMask |= (UINT8) (1 << ((((bitfield - BFCSBaseAddr0Reg) / CsPerDelay) << 1) + DCT)); + } + } + } + } + // Check if the system is capable of doing NB Pstate change + if (MemNGetBitFieldNb (NBPtr, BFNbPstateDis) == 0) { + NbPsCapMsk = DCT0_NBPSTATE_SUPPORT_MASK; + } + if (MemNGetBitFieldNb (NBPtr, BFMemPstateDis) == 0) { + MemPstateMsk = DCT0_MEMPSTATE_MASK; + } + + MemNSwitchDCTNb (NBPtr, 0); + // Set channel mask + DescriptPtr->CPCIDevice[PRESELFREF].Mask1 = 0; + DescriptPtr->CPCIDevice[POSTSELFREF].Mask1 = 0; + for (DCT = 0; DCT < NBPtr->DctCount; DCT ++) { + if (DimmMask & (0x55 << DCT)) { + // Set mask before exit self refresh + DescriptPtr->CPCIDevice[PRESELFREF].Mask1 |= (NbPsCapMsk | MemPstateMsk | 1) << DCT; + // Set mask after exit self refresh + DescriptPtr->CPCIDevice[POSTSELFREF].Mask1 |= (NbPsCapMsk | MemPstateMsk | 1) << DCT; + } else if (BadDimmMask & (0x55 << DCT)) { + // Need to save function 2 registers for bad dimm + DescriptPtr->CPCIDevice[PRESELFREF].Mask1 |= 1 << DCT; + } + } + + // Set dimm mask + DescriptPtr->CPCIDevice[PRESELFREF].Mask2 = DimmMask; + DescriptPtr->CPCIDevice[POSTSELFREF].Mask2 = DimmMask; +} + +/* -----------------------------------------------------------------------------*/ +/** + * + * + * This function read the value of CSR register. + * + * @param[in] AccessWidth - Access width of the register + * @param[in] Address - address of the CSR register in PCI_ADDR format. + * @param[in] *Value - Pointer to the value be read. + * @param[in, out] *ConfigPtr - Pointer to Config handle. + * @return none + */ +VOID +STATIC +MemNS3GetCSRKB ( + IN ACCESS_WIDTH AccessWidth, + IN PCI_ADDR Address, + IN VOID *Value, + IN OUT VOID *ConfigPtr + ) +{ + UINT8 TempValue; + UINT8 Dct; + UINT32 ExtendOffset; + UINT32 TempFunc; + + ExtendOffset = Address.Address.Register; + TempFunc = Address.Address.Function; + + // Switch Dct + Address.Address.Function = FUNC_1; + Address.Address.Register = 0x10C; + Dct = 0; + if (ExtendOffset & 0x400) { + Dct = 1; + } + LibAmdPciRead (AccessS3SaveWidth8, Address, &TempValue, ConfigPtr); + TempValue = (TempValue & 0xF8) | Dct; + LibAmdPciWrite (AccessS3SaveWidth8, Address, &TempValue, ConfigPtr); + Address.Address.Function = TempFunc; + + Address.Address.Register = 0x98; + ExtendOffset &= 0x3FF; + LibAmdPciWrite (AccessS3SaveWidth32, Address, &ExtendOffset, ConfigPtr); + IDS_OPTION_HOOK (IDS_AFTER_DCT_PHY_ACCESS, NULL, ConfigPtr); + Address.Address.Register = 0x9C; + LibAmdPciRead (AccessWidth, Address, Value, ConfigPtr); +} + +/* -----------------------------------------------------------------------------*/ +/** + * + * + * This function write to a CSR register + * + * @param[in] AccessWidth - Access width of the register + * @param[in] Address - address of the CSR register in PCI_ADDR format. + * @param[in, out] *Value - Pointer to the value be read. + * @param[in, out] *ConfigPtr - Pointer to Config handle. + * @return none + */ +VOID +STATIC +MemNS3SetCSRKB ( + IN ACCESS_WIDTH AccessWidth, + IN PCI_ADDR Address, + IN OUT VOID *Value, + IN OUT VOID *ConfigPtr + ) +{ + UINT8 TempValue; + UINT8 Dct; + UINT32 ExtendOffset; + UINT32 ValueWrite; + UINT32 TempFunc; + + ExtendOffset = Address.Address.Register; + + TempFunc = Address.Address.Function; + // Switch Dct + Address.Address.Function = FUNC_1; + Address.Address.Register = 0x10C; + Dct = 0; + if (ExtendOffset & 0x400) { + Dct = 1; + } + LibAmdPciRead (AccessS3SaveWidth8, Address, &TempValue, ConfigPtr); + TempValue = (TempValue & 0xFE) | Dct; + LibAmdPciWrite (AccessS3SaveWidth8, Address, &TempValue, ConfigPtr); + + Address.Address.Function = TempFunc; + Address.Address.Register = 0x9C; + + ExtendOffset &= 0x3FF; + ExtendOffset |= 0x40000000; + switch (AccessWidth) { + case AccessS3SaveWidth8: + ValueWrite = *(UINT8 *) Value; + break; + case AccessS3SaveWidth16: + ValueWrite = *(UINT16 *) Value; + break; + case AccessS3SaveWidth32: + ValueWrite = *(UINT32 *) Value; + break; + default: + ASSERT (FALSE); + } + LibAmdPciWrite (AccessS3SaveWidth32, Address, &ValueWrite, ConfigPtr); + Address.Address.Register = 0x98; + LibAmdPciWrite (AccessS3SaveWidth32, Address, &ExtendOffset, ConfigPtr); + IDS_OPTION_HOOK (IDS_AFTER_DCT_PHY_ACCESS, NULL, ConfigPtr); +} + +/* -----------------------------------------------------------------------------*/ +/** + * + * + * This function that set Phy Fence + * + * @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 +MemNS3SetPhyFenceKB ( + IN ACCESS_WIDTH AccessWidth, + IN PCI_ADDR Address, + IN VOID *Value, + IN OUT VOID *ConfigPtr + ) +{ + UINT16 FenceValue; + UINT16 Fence2Data; + UINT16 Fence2Reg; + BIT_FIELD_NAME BitField; + MEM_NB_BLOCK *NBPtr; + LOCATE_HEAP_PTR LocateBufferPtr; + S3_MEM_NB_BLOCK *S3NBPtr; + + BitField = (BIT_FIELD_NAME) Address.Address.Register; + FenceValue = *(UINT16 *) Value; + // See which Node should be accessed + + LocateBufferPtr.BufferHandle = AMD_MEM_S3_NB_HANDLE; + + if (HeapLocateBuffer (&LocateBufferPtr, ConfigPtr) == AGESA_SUCCESS) { + S3NBPtr = (S3_MEM_NB_BLOCK *) LocateBufferPtr.BufferPtr; + NBPtr = S3NBPtr[0].NBPtr; + + // Do nothing if currently in memory pstate 0 context + if (NBPtr->MemPstate == MEMORY_PSTATE0) { + return; + } + + MAKE_TSEFO (NBPtr->NBRegTable, DCT_PHY_ACCESS, 0x0C, 30, 16, BFPhyFence); + MemNSetBitFieldNb (NBPtr, BFPhyFence, FenceValue); + + // Program Fence 2 for MState 1 + Fence2Data = 0; + if ((FenceValue & 0x1F) < 16) { + Fence2Data |= (FenceValue & 0x1F) | 0x10; + } + if (((FenceValue >> 5) & 0x1F) < 16) { + Fence2Data |= (((FenceValue >> 5) & 0x1F) | 0x10) << 10; + } + if (((FenceValue >> 10) & 0x1F) < 16) { + Fence2Data |= (((FenceValue >> 10) & 0x1F) | 0x10) << 5; + } + MemNSetBitFieldNb (NBPtr, BFDataFence2, Fence2Data); + + // Program another Fence 2 register for Mstate 1 + Fence2Reg = (UINT16) MemNGetBitFieldNb (NBPtr, BFFence2); + Fence2Reg = (Fence2Reg &~(UINT16) ((0x1F << 10) | 0x1F)) | (Fence2Data & 0x1F) | (((Fence2Data >> 5) & 0x1F) << 10); + MemNSetBitFieldNb (NBPtr, BFFence2, Fence2Reg); + } +} |