/* $NoKeywords:$ */ /** * @file * * AMD Family_15 Trinity after warm reset sequence for NB P-states * * Performs the "NB COF and VID Transition Sequence After Warm Reset" * as described in the BKDG. * * @xrefitem bom "File Content Label" "Release Content" * @e project: AGESA * @e sub-project: CPU/Family/0x15/TN * @e \$Revision: 64197 $ @e \$Date: 2012-01-17 16:18:33 -0600 (Tue, 17 Jan 2012) $ * */ /* ****************************************************************************** * * Copyright 2008 - 2012 ADVANCED MICRO DEVICES, INC. All Rights Reserved. * * AMD is granting you permission to use this software (the Materials) * pursuant to the terms and conditions of your Software License Agreement * with AMD. This header does *NOT* give you permission to use the Materials * or any rights under AMD's intellectual property. Your use of any portion * of these Materials shall constitute your acceptance of those terms and * conditions. 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Use of the Materials by the * Government constitutes acknowledgement of AMD's proprietary rights in them. * * EXPORT ASSURANCE: You agree and certify that neither the Materials, nor any * direct product thereof will be exported directly or indirectly, into any * country prohibited by the United States Export Administration Act and the * regulations thereunder, without the required authorization from the U.S. * government nor will be used for any purpose prohibited by the same. ****************************************************************************** */ /*---------------------------------------------------------------------------------------- * M O D U L E S U S E D *---------------------------------------------------------------------------------------- */ #include "AGESA.h" #include "amdlib.h" #include "cpuF15PowerMgmt.h" #include "cpuF15TnPowerMgmt.h" #include "cpuRegisters.h" #include "cpuApicUtilities.h" #include "cpuFamilyTranslation.h" #include "GeneralServices.h" #include "cpuServices.h" #include "heapManager.h" #include "cpuF15TnNbAfterReset.h" #include "GnbRegisterAccTN.h" #include "GnbRegistersTN.h" #include "Filecode.h" CODE_GROUP (G3_DXE) RDATA_GROUP (G3_DXE) #define FILECODE PROC_CPU_FAMILY_0X15_TN_CPUF15TNNBAFTERRESET_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 *---------------------------------------------------------------------------------------- */ VOID STATIC F15TnPmNbAfterResetOnCore ( IN AMD_CONFIG_PARAMS *StdHeader ); VOID STATIC TransitionToNbLow ( IN PCI_ADDR PciAddress, IN AMD_CONFIG_PARAMS *StdHeader ); VOID STATIC TransitionToNbHigh ( IN PCI_ADDR PciAddress, IN AMD_CONFIG_PARAMS *StdHeader ); VOID STATIC WaitForNbTransitionToComplete ( IN PCI_ADDR PciAddress, IN UINT32 PstateIndex, IN AMD_CONFIG_PARAMS *StdHeader ); /*---------------------------------------------------------------------------------------- * E X P O R T E D F U N C T I O N S *---------------------------------------------------------------------------------------- */ /*---------------------------------------------------------------------------------------*/ /** * Family 15h Trinity core 0 entry point for performing the necessary steps after * a warm reset has occurred. * * The steps are as follows: * * 1. Temp1=D18F5x170[SwNbPstateLoDis]. * 2. Temp2=D18F5x170[NbPstateDisOnP0]. * 3. Temp3=D18F5x170[NbPstateThreshold]. * 4. Temp4=D18F5x170[NbPstateGnbSlowDis]. * 5. If MSRC001_0070[NbPstate]=0, go to step 6. If MSRC001_0070[NbPstate]=1, go to step 11. * 6. Write 1 to D18F5x170[NbPstateGnbSlowDis]. * 7. Write 0 to D18F5x170[SwNbPstateLoDis, NbPstateDisOnP0, NbPstateThreshold]. * 8. Wait for D18F5x174[CurNbPstate] = D18F5x170[NbPstateLo] and D18F5x174[CurNbFid, CurNb- * Did]=[NbFid, NbDid] from D18F5x1[6C:60] indexed by D18F5x170[NbPstateLo]. * 9. Set D18F5x170[SwNbPstateLoDis]=1. * 10. Wait for D18F5x174[CurNbPstate] = D18F5x170[NbPstateHi] and D18F5x174[CurNbFid, CurNb- * Did]=[NbFid, NbDid] from D18F5x1[6C:60] indexed by D18F5x170[NbPstateHi]. Go to step 15. * 11. Write 1 to D18F5x170[SwNbPstateLoDis]. * 12. Wait for D18F5x174[CurNbPstate] = D18F5x170[NbPstateHi] and D18F5x174[CurNbFid, CurNb- * Did]=[NbFid, NbDid] from D18F5x1[6C:60] indexed by D18F5x170[NbPstateHi]. * 13. Write 0 to D18F5x170[SwNbPstateLoDis, NbPstateDisOnP0, NbPstateThreshold]. * 14. Wait for D18F5x174[CurNbPstate] = D18F5x170[NbPstateLo] and D18F5x174[CurNbFid, CurNb- * Did]=[NbFid, NbDid] from D18F5x1[6C:60] indexed by D18F5x170[NbPstateLo]. * 15. Set D18F5x170[SwNbPstateLoDis]=Temp1, D18F5x170[NbPstateDisOnP0]=Temp2, D18F5x170[NbP- * stateThreshold]=Temp3, and D18F5x170[NbPstateGnbSlowDis]=Temp4. * * @param[in] FamilySpecificServices The current Family Specific Services. * @param[in] CpuEarlyParamsPtr Service parameters * @param[in] StdHeader Config handle for library and services. * */ VOID F15TnPmNbAfterReset ( IN CPU_SPECIFIC_SERVICES *FamilySpecificServices, IN AMD_CPU_EARLY_PARAMS *CpuEarlyParamsPtr, IN AMD_CONFIG_PARAMS *StdHeader ) { UINT32 Socket; UINT32 Module; UINT32 Core; UINT32 TaskedCore; UINT32 Ignored; AP_TASK TaskPtr; PCI_ADDR PciAddress; AGESA_STATUS IgnoredSts; LOCATE_HEAP_PTR Locate; IDS_HDT_CONSOLE (CPU_TRACE, " F15TnPmNbAfterReset\n"); IdentifyCore (StdHeader, &Socket, &Module, &Core, &IgnoredSts); ASSERT (Core == 0); if (FamilySpecificServices->IsNbPstateEnabled (FamilySpecificServices, &CpuEarlyParamsPtr->PlatformConfig, StdHeader)) { PciAddress.AddressValue = NB_PSTATE_CTRL_PCI_ADDR; Locate.BufferHandle = AMD_CPU_NB_PSTATE_FIXUP_HANDLE; if (HeapLocateBuffer (&Locate, StdHeader) == AGESA_SUCCESS) { LibAmdPciWrite (AccessWidth32, PciAddress, Locate.BufferPtr, StdHeader); } else { ASSERT (FALSE); } } // Launch one core per node. TaskPtr.FuncAddress.PfApTask = F15TnPmNbAfterResetOnCore; TaskPtr.DataTransfer.DataSizeInDwords = 0; TaskPtr.ExeFlags = WAIT_FOR_CORE; for (Module = 0; Module < GetPlatformNumberOfModules (); Module++) { if (GetGivenModuleCoreRange (Socket, Module, &TaskedCore, &Ignored, StdHeader)) { if (TaskedCore != 0) { ApUtilRunCodeOnSocketCore ((UINT8) Socket, (UINT8) TaskedCore, &TaskPtr, StdHeader); } } } ApUtilTaskOnExecutingCore (&TaskPtr, StdHeader, (VOID *) CpuEarlyParamsPtr); } /*---------------------------------------------------------------------------------------*/ /** * Family 15h Trinity core 0 entry point for performing the necessary Nb P-state VID adjustment * after a cold reset has occurred. * * @param[in] FamilySpecificServices The current Family Specific Services. * @param[in] CpuEarlyParamsPtr Service parameters * @param[in] StdHeader Config handle for library and services. * */ VOID F15TnNbPstateVidAdjustAfterReset ( IN CPU_SPECIFIC_SERVICES *FamilySpecificServices, IN AMD_CPU_EARLY_PARAMS *CpuEarlyParamsPtr, IN AMD_CONFIG_PARAMS *StdHeader ) { PCI_ADDR PciAddress; BOOLEAN NeitherHiNorLo; NB_PSTATE_REGISTER NbPsReg; UINT32 NbPsVid; UINT32 i; NB_PSTATE_CTRL_REGISTER NbPsCtrl; NB_PSTATE_CTRL_REGISTER NbPsCtrlSave; NB_PSTATE_STS_REGISTER NbPsSts; CLK_PWR_TIMING_CTRL_5_REGISTER ClkPwrTimgCtrl5; D0F0xBC_x1F400_STRUCT D0F0xBC_x1F400; // Check if D18F5x188[NbOffsetTrim] has been programmed to 01b (-25mV) PciAddress.AddressValue = CPTC5_PCI_ADDR; LibAmdPciRead (AccessWidth32, PciAddress, &ClkPwrTimgCtrl5, StdHeader); if (ClkPwrTimgCtrl5.NbOffsetTrim == 1) { return; } // Add 25mV (-4 VID steps) to all VddNb VIDs. PciAddress.AddressValue = NB_PSTATE_0_PCI_ADDR; for (i = 0; i < NM_NB_PS_REG; i++) { PciAddress.Address.Register = NB_PSTATE_0 + (i * 4); LibAmdPciRead (AccessWidth32, PciAddress, &NbPsReg, StdHeader); if (NbPsReg.NbPstateEn == 1) { NbPsVid = GetF15TnNbVid (&NbPsReg); NbPsVid -= 4; SetF15TnNbVid (&NbPsReg, &NbPsVid); LibAmdPciWrite (AccessWidth32, PciAddress, &NbPsReg, StdHeader); } } // Check if D18F5x174[CurNbPstate] equals NbPstateHi or NbPstateLo PciAddress.Address.Register = NB_PSTATE_STATUS; LibAmdPciRead (AccessWidth32, PciAddress, &NbPsSts, StdHeader); PciAddress.Address.Register = NB_PSTATE_CTRL; LibAmdPciRead (AccessWidth32, PciAddress, &NbPsCtrl, StdHeader); // Save NB P-state control setting NbPsCtrlSave = NbPsCtrl; // Force a NB P-state Transition. NeitherHiNorLo = FALSE; if (NbPsSts.CurNbPstate == NbPsCtrl.NbPstateHi) { TransitionToNbLow (PciAddress, StdHeader); } else if (NbPsSts.CurNbPstate == NbPsCtrl.NbPstateLo) { TransitionToNbHigh (PciAddress, StdHeader); } else { NeitherHiNorLo = TRUE; } // Set OffsetTrim to -25mV: // D18F5x188[NbOffsetTrim]=01b (-25mV) // D0F0xBC_x1F400[SviLoadLineOffsetVddNB]=01b (-25mV) PciAddress.Address.Register = CPTC5_REG; LibAmdPciRead (AccessWidth32, PciAddress, &ClkPwrTimgCtrl5, StdHeader); ClkPwrTimgCtrl5.NbOffsetTrim = 1; LibAmdPciWrite (AccessWidth32, PciAddress, &ClkPwrTimgCtrl5, StdHeader); GnbRegisterReadTN (D0F0xBC_x1F400_TYPE, D0F0xBC_x1F400_ADDRESS, &D0F0xBC_x1F400, 0, StdHeader); D0F0xBC_x1F400.Field.SviLoadLineOffsetVddNB = 1; GnbRegisterWriteTN (D0F0xBC_x1F400_TYPE, D0F0xBC_x1F400_ADDRESS, &D0F0xBC_x1F400, 0, StdHeader); // Unforce NB P-state back to CurNbPstate value upon entry. if (NeitherHiNorLo || (NbPsSts.CurNbPstate == NbPsCtrl.NbPstateHi)) { TransitionToNbHigh (PciAddress, StdHeader); } else { // if (NbPsSts.CurNbPstate == NbPsCtrl.NbPstateLo) TransitionToNbLow (PciAddress, StdHeader); } // Restore NB P-state control setting PciAddress.Address.Register = NB_PSTATE_CTRL; NbPsCtrl = NbPsCtrlSave; LibAmdPciWrite (AccessWidth32, PciAddress, &NbPsCtrl, StdHeader); } /*--------------------------------------------------------------------------------------- * L O C A L F U N C T I O N S *--------------------------------------------------------------------------------------- */ /*---------------------------------------------------------------------------------------*/ /** * Support routine for F15TnPmNbAfterReset to perform MSR initialization on one * core of each die in a family 15h socket. * * This function implements steps 1 - 15 on each core. * * @param[in] StdHeader Config handle for library and services. * */ VOID STATIC F15TnPmNbAfterResetOnCore ( IN AMD_CONFIG_PARAMS *StdHeader ) { UINT32 NbPsCtrlOnEntry; UINT32 NbPsCtrlOnExit; UINT64 LocalMsrRegister; PCI_ADDR PciAddress; IDS_HDT_CONSOLE (CPU_TRACE, " F15TnPmNbAfterResetOnCore\n"); // 1. Temp1 = D18F5x170[SwNbPstateLoDis]. // 2. Temp2 = D18F5x170[NbPstateDisOnP0]. // 3. Temp3 = D18F5x170[NbPstateThreshold]. // 4. Temp4 = D18F5x170[NbPstateGnbSlowDis]. PciAddress.AddressValue = NB_PSTATE_CTRL_PCI_ADDR; LibAmdPciRead (AccessWidth32, PciAddress, &NbPsCtrlOnEntry, StdHeader); // Check if NB P-states were disabled, and if so, prevent any changes from occurring. if (((NB_PSTATE_CTRL_REGISTER *) &NbPsCtrlOnEntry)->SwNbPstateLoDis == 0) { // 5. If MSRC001_0070[NbPstate] = 1, go to step 11 LibAmdMsrRead (MSR_COFVID_CTL, &LocalMsrRegister, StdHeader); if (((COFVID_CTRL_MSR *) &LocalMsrRegister)->NbPstate == 0) { // 6. Write 1 to D18F5x170[NbPstateGnbSlowDis]. PciAddress.AddressValue = NB_PSTATE_CTRL_PCI_ADDR; LibAmdPciRead (AccessWidth32, PciAddress, &NbPsCtrlOnExit, StdHeader); ((NB_PSTATE_CTRL_REGISTER *) &NbPsCtrlOnExit)->NbPstateGnbSlowDis = 1; LibAmdPciWrite (AccessWidth32, PciAddress, &NbPsCtrlOnExit, StdHeader); // 7. Write 0 to D18F5x170[SwNbPstateLoDis, NbPstateDisOnP0, NbPstateThreshold]. // 8. Wait for D18F5x174[CurNbPstate] = D18F5x170[NbPstateLo] and D18F5x174[CurNbFid, // CurNbDid] = [NbFid, NbDid] from D18F5x1[6C:60] indexed by D18F5x170[NbPstateLo]. TransitionToNbLow (PciAddress, StdHeader); // 9. Set D18F5x170[SwNbPstateLoDis] = 1. // 10. Wait for D18F5x174[CurNbPstate] = D18F5x170[NbPstateHi] and D18F5x174[CurNbFid, // CurNbDid] = [NbFid, NbDid] from D18F5x1[6C:60] indexed by D18F5x170[NbPstateHi]. // Go to step 15. TransitionToNbHigh (PciAddress, StdHeader); } else { // 11. Set D18F5x170[SwNbPstateLoDis] = 1. // 12. Wait for D18F5x174[CurNbPstate] = D18F5x170[NbPstateHi] and D18F5x174[CurNbFid, // CurNbDid] = [NbFid, NbDid] from D18F5x1[6C:60] indexed by D18F5x170[NbPstateHi]. TransitionToNbHigh (PciAddress, StdHeader); // 13. Write 0 to D18F5x170[SwNbPstateLoDis, NbPstateDisOnP0, NbPstateThreshold]. // 14. Wait for D18F5x174[CurNbPstate] = D18F5x170[NbPstateLo] and D18F5x174[CurNbFid, // CurNbDid] = [NbFid, NbDid] from D18F5x1[6C:60] indexed by D18F5x170[NbPstateLo]. TransitionToNbLow (PciAddress, StdHeader); } // 15. Set D18F5x170[SwNbPstateLoDis]=Temp1, D18F5x170[NbPstateDisOnP0]=Temp2, D18F5x170[NbP- // stateThreshold]=Temp3, and D18F5x170[NbPstateGnbSlowDis]=Temp4. LibAmdPciRead (AccessWidth32, PciAddress, &NbPsCtrlOnExit, StdHeader); ((NB_PSTATE_CTRL_REGISTER *) &NbPsCtrlOnExit)->SwNbPstateLoDis = ((NB_PSTATE_CTRL_REGISTER *) &NbPsCtrlOnEntry)->SwNbPstateLoDis; ((NB_PSTATE_CTRL_REGISTER *) &NbPsCtrlOnExit)->NbPstateDisOnP0 = ((NB_PSTATE_CTRL_REGISTER *) &NbPsCtrlOnEntry)->NbPstateDisOnP0; ((NB_PSTATE_CTRL_REGISTER *) &NbPsCtrlOnExit)->NbPstateThreshold = ((NB_PSTATE_CTRL_REGISTER *) &NbPsCtrlOnEntry)->NbPstateThreshold; ((NB_PSTATE_CTRL_REGISTER *) &NbPsCtrlOnExit)->NbPstateGnbSlowDis = ((NB_PSTATE_CTRL_REGISTER *) &NbPsCtrlOnEntry)->NbPstateGnbSlowDis; LibAmdPciWrite (AccessWidth32, PciAddress, &NbPsCtrlOnExit, StdHeader); } } /*---------------------------------------------------------------------------------------*/ /** * Support routine for F15TnPmNbAfterResetOnCore to transition to the low NB P-state. * * This function implements steps 7, 8, 13, and 14 as needed. * * @param[in] PciAddress Segment, bus, device number of the node to transition. * @param[in] StdHeader Config handle for library and services. * */ VOID STATIC TransitionToNbLow ( IN PCI_ADDR PciAddress, IN AMD_CONFIG_PARAMS *StdHeader ) { NB_PSTATE_CTRL_REGISTER NbPsCtrl; IDS_HDT_CONSOLE (CPU_TRACE, " TransitionToNbLow\n"); // 7/13. Write 0 to D18F5x170[SwNbPstateLoDis, NbPstateDisOnP0, NbPstateThreshold]. PciAddress.AddressValue = NB_PSTATE_CTRL_PCI_ADDR; LibAmdPciRead (AccessWidth32, PciAddress, &NbPsCtrl, StdHeader); NbPsCtrl.SwNbPstateLoDis = 0; NbPsCtrl.NbPstateDisOnP0 = 0; NbPsCtrl.NbPstateThreshold = 0; LibAmdPciWrite (AccessWidth32, PciAddress, &NbPsCtrl, StdHeader); // 8/14. Wait for D18F5x174[CurNbPstate] = D18F5x170[NbPstateLo] and D18F5x174[CurNbFid, // CurNbDid] = [NbFid, NbDid] from D18F5x1[6C:60] indexed by D18F5x170[NbPstateLo]. WaitForNbTransitionToComplete (PciAddress, NbPsCtrl.NbPstateLo, StdHeader); } /*---------------------------------------------------------------------------------------*/ /** * Support routine for F15TnPmNbAfterResetOnCore to transition to the high NB P-state. * * This function implements steps 9, 10, 11, and 12 as needed. * * @param[in] PciAddress Segment, bus, device number of the node to transition. * @param[in] StdHeader Config handle for library and services. * */ VOID STATIC TransitionToNbHigh ( IN PCI_ADDR PciAddress, IN AMD_CONFIG_PARAMS *StdHeader ) { NB_PSTATE_CTRL_REGISTER NbPsCtrl; IDS_HDT_CONSOLE (CPU_TRACE, " TransitionToNbHigh\n"); // 9/10. Set D18F5x170[SwNbPstateLoDis] = 1. PciAddress.AddressValue = NB_PSTATE_CTRL_PCI_ADDR; LibAmdPciRead (AccessWidth32, PciAddress, &NbPsCtrl, StdHeader); NbPsCtrl.SwNbPstateLoDis = 1; LibAmdPciWrite (AccessWidth32, PciAddress, &NbPsCtrl, StdHeader); // 11/12. Wait for D18F5x174[CurNbPstate] = D18F5x170[NbPstateHi] and D18F5x174[CurNbFid, // CurNbDid] = [NbFid, NbDid] from D18F5x1[6C:60] indexed by D18F5x170[NbPstateHi]. WaitForNbTransitionToComplete (PciAddress, NbPsCtrl.NbPstateHi, StdHeader); } /*---------------------------------------------------------------------------------------*/ /** * Support routine for F15TnPmAfterResetCore to wait for NB FID and DID to * match a specific P-state. * * This function implements steps 8, 10, 12, and 14 as needed. * * @param[in] PciAddress Segment, bus, device number of the node to transition. * @param[in] PstateIndex P-state settings to match. * @param[in] StdHeader Config handle for library and services. * */ VOID STATIC WaitForNbTransitionToComplete ( IN PCI_ADDR PciAddress, IN UINT32 PstateIndex, IN AMD_CONFIG_PARAMS *StdHeader ) { NB_PSTATE_REGISTER TargetNbPs; NB_PSTATE_STS_REGISTER NbPsSts; IDS_HDT_CONSOLE (CPU_TRACE, " WaitForNbTransitionToComplete\n"); PciAddress.Address.Function = FUNC_5; PciAddress.Address.Register = NB_PSTATE_0 + (PstateIndex << 2); LibAmdPciRead (AccessWidth32, PciAddress, &TargetNbPs, StdHeader); PciAddress.Address.Register = NB_PSTATE_STATUS; do { LibAmdPciRead (AccessWidth32, PciAddress, &NbPsSts, StdHeader); } while ((NbPsSts.CurNbPstate != PstateIndex || (NbPsSts.CurNbFid != TargetNbPs.NbFid)) || (NbPsSts.CurNbDid != TargetNbPs.NbDid)); }