| /* $NoKeywords:$ */ |
| /** |
| * @file |
| * |
| * AMD Family_15 Tn P-State power check |
| * |
| * Performs the "Processor-Systemboard Power Delivery Compatibility Check" as |
| * described in the BKDG. |
| * |
| * @xrefitem bom "File Content Label" "Release Content" |
| * @e project: AGESA |
| * @e sub-project: CPU/Family/0x15/TN |
| * @e \$Revision: 63425 $ @e \$Date: 2011-12-22 11:24:10 -0600 (Thu, 22 Dec 2011) $ |
| * |
| */ |
| /* |
| ****************************************************************************** |
| * |
| * 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 |
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| ****************************************************************************** |
| */ |
| |
| /*---------------------------------------------------------------------------------------- |
| * 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 "cpuF15PowerCheck.h" |
| #include "cpuF15TnPowerCheck.h" |
| #include "cpuServices.h" |
| #include "GeneralServices.h" |
| #include "OptionMultiSocket.h" |
| #include "Filecode.h" |
| CODE_GROUP (G3_DXE) |
| RDATA_GROUP (G3_DXE) |
| |
| #define FILECODE PROC_CPU_FAMILY_0X15_TN_CPUF15TNPOWERCHECK_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 |
| F15TnPmPwrCheckCore ( |
| IN VOID *ErrorData, |
| IN AMD_CONFIG_PARAMS *StdHeader |
| ); |
| |
| VOID |
| STATIC |
| F15TnPmPwrChkCopyPstate ( |
| IN UINT8 Dest, |
| IN UINT8 Src, |
| IN AMD_CONFIG_PARAMS *StdHeader |
| ); |
| |
| /*---------------------------------------------------------------------------------------- |
| * E X P O R T E D F U N C T I O N S |
| *---------------------------------------------------------------------------------------- |
| */ |
| extern OPTION_MULTISOCKET_CONFIGURATION OptionMultiSocketConfiguration; |
| /*---------------------------------------------------------------------------------------*/ |
| /** |
| * Family 15h core 0 entry point for performing the family 15h Processor- |
| * Systemboard Power Delivery Check. |
| * |
| * The steps are as follows: |
| * 1. Starting with P0, loop through all P-states until a passing state is |
| * found. A passing state is one in which the current required by the |
| * CPU is less than the maximum amount of current that the system can |
| * provide to the CPU. If P0 is under the limit, no further action is |
| * necessary. |
| * 2. If at least one P-State is under the limit & at least one P-State is |
| * over the limit, the BIOS must: |
| * a. If the processor's current P-State is disabled by the power check, |
| * then the BIOS must request a transition to an enabled P-state |
| * using MSRC001_0062[PstateCmd] and wait for MSRC001_0063[CurPstate] |
| * to reflect the new value. |
| * b. Copy the contents of the enabled P-state MSRs to the highest |
| * performance P-state locations. |
| * c. Request a P-state transition to the P-state MSR containing the |
| * COF/VID values currently applied. |
| * d. If a subset of boosted P-states are disabled, then copy the contents |
| * of the highest performance boosted P-state still enabled to the |
| * boosted P-states that have been disabled. |
| * e. If all boosted P-states are disabled, then program D18F4x15C[BoostSrc] |
| * to zero. |
| * f. Adjust the following P-state parameters affected by the P-state |
| * MSR copy by subtracting the number of P-states that are disabled |
| * by the power check. |
| * 1. F3x64[HtcPstateLimit] |
| * 2. F3x68[SwPstateLimit] |
| * 3. F3xDC[PstateMaxVal] |
| * 3. If all P-States are over the limit, the BIOS must: |
| * a. If the processor's current P-State is !=F3xDC[PstateMaxVal], then |
| * write F3xDC[PstateMaxVal] to MSRC001_0062[PstateCmd] and wait for |
| * MSRC001_0063[CurPstate] to reflect the new value. |
| * b. If MSRC001_0061[PstateMaxVal]!=000b, copy the contents of the P-state |
| * MSR pointed to by F3xDC[PstateMaxVal] to the software P0 MSR. |
| * Write 000b to MSRC001_0062[PstateCmd] and wait for MSRC001_0063 |
| * [CurPstate] to reflect the new value. |
| * c. Adjust the following P-state parameters to zero: |
| * 1. F3x64[HtcPstateLimit] |
| * 2. F3x68[SwPstateLimit] |
| * 3. F3xDC[PstateMaxVal] |
| * d. Program D18F4x15C[BoostSrc] to zero. |
| * |
| * @param[in] FamilySpecificServices The current Family Specific Services. |
| * @param[in] CpuEarlyParams Service parameters |
| * @param[in] StdHeader Config handle for library and services. |
| * |
| */ |
| VOID |
| F15TnPmPwrCheck ( |
| IN CPU_SPECIFIC_SERVICES *FamilySpecificServices, |
| IN AMD_CPU_EARLY_PARAMS *CpuEarlyParams, |
| IN AMD_CONFIG_PARAMS *StdHeader |
| ) |
| { |
| UINT8 DisPsNum; |
| UINT8 PsMaxVal; |
| UINT8 Pstate; |
| UINT32 ProcIddMax; |
| UINT32 LocalPciRegister; |
| UINT32 Socket; |
| UINT32 Module; |
| UINT32 Core; |
| UINT32 AndMask; |
| UINT32 OrMask; |
| UINT32 PstateLimit; |
| PCI_ADDR PciAddress; |
| UINT64 LocalMsrRegister; |
| AP_TASK TaskPtr; |
| AGESA_STATUS IgnoredSts; |
| PWRCHK_ERROR_DATA ErrorData; |
| UINT32 NumModules; |
| UINT32 HighCore; |
| UINT32 LowCore; |
| UINT32 ModuleIndex; |
| NB_CAPS_REGISTER NbCaps; |
| HTC_REGISTER HtcReg; |
| CLK_PWR_TIMING_CTRL2_REGISTER ClkPwrTimingCtrl2; |
| |
| // update PstateMaxVal if warranted by HtcPstateLimit |
| PciAddress.AddressValue = NB_CAPS_PCI_ADDR; |
| LibAmdPciRead (AccessWidth32, PciAddress, &NbCaps, StdHeader); // D18F3xE8 |
| if (NbCaps.HtcCapable == 1) { |
| PciAddress.AddressValue = (MAKE_SBDFO (0, 0, 0x18, FUNC_3, HTC_REG)); |
| LibAmdPciRead (AccessWidth32, PciAddress, &HtcReg, StdHeader); // D18F3x64 |
| if (HtcReg.HtcTmpLmt != 0) { |
| PciAddress.AddressValue = CPTC2_PCI_ADDR; |
| LibAmdPciRead (AccessWidth32, PciAddress, &ClkPwrTimingCtrl2, StdHeader); // D18F3xDC |
| if (HtcReg.HtcPstateLimit > ClkPwrTimingCtrl2.PstateMaxVal) { |
| ClkPwrTimingCtrl2.PstateMaxVal = HtcReg.HtcPstateLimit; |
| LibAmdPciWrite (AccessWidth32, PciAddress, &ClkPwrTimingCtrl2, StdHeader); // D18F3xDC |
| } |
| } |
| } |
| |
| // get the socket number |
| IdentifyCore (StdHeader, &Socket, &Module, &Core, &IgnoredSts); |
| ErrorData.SocketNumber = (UINT8) Socket; |
| |
| ASSERT (Core == 0); |
| |
| // get the Max P-state value |
| for (PsMaxVal = NM_PS_REG - 1; PsMaxVal != 0; --PsMaxVal) { |
| LibAmdMsrRead (PS_REG_BASE + PsMaxVal, &LocalMsrRegister, StdHeader); |
| if (((F15_PSTATE_MSR *) &LocalMsrRegister)->PsEnable == 1) { |
| break; |
| } |
| } |
| |
| ErrorData.HwPstateNumber = (UINT8) (PsMaxVal + 1); |
| |
| // Starting with P0, loop through all P-states until a passing state is |
| // found. A passing state is one in which the current required by the |
| // CPU is less than the maximum amount of current that the system can |
| // provide to the CPU. If P0 is under the limit, no further action is |
| // necessary. |
| DisPsNum = 0; |
| for (Pstate = 0; Pstate < ErrorData.HwPstateNumber; Pstate++) { |
| if (FamilySpecificServices->GetProcIddMax (FamilySpecificServices, Pstate, &ProcIddMax, StdHeader)) { |
| if (ProcIddMax > CpuEarlyParams->PlatformConfig.VrmProperties[CoreVrm].CurrentLimit) { |
| // Add to event log the Pstate that exceeded the current limit |
| PutEventLog (AGESA_WARNING, |
| CPU_EVENT_PM_PSTATE_OVERCURRENT, |
| Socket, Pstate, 0, 0, StdHeader); |
| DisPsNum++; |
| } else { |
| break; |
| } |
| } |
| } |
| |
| ErrorData.AllowablePstateNumber = ((PsMaxVal + 1) - DisPsNum); |
| |
| if (ErrorData.AllowablePstateNumber == 0) { |
| PutEventLog (AGESA_FATAL, |
| CPU_EVENT_PM_ALL_PSTATE_OVERCURRENT, |
| Socket, 0, 0, 0, StdHeader); |
| } |
| |
| if (DisPsNum != 0) { |
| GetPciAddress (StdHeader, Socket, Module, &PciAddress, &IgnoredSts); |
| PciAddress.Address.Function = FUNC_4; |
| PciAddress.Address.Register = CPB_CTRL_REG; |
| LibAmdPciRead (AccessWidth32, PciAddress, &LocalPciRegister, StdHeader); // F4x15C |
| ErrorData.NumberOfBoostStates = (UINT8) ((F15_CPB_CTRL_REGISTER *) &LocalPciRegister)->NumBoostStates; |
| |
| if (DisPsNum >= ErrorData.NumberOfBoostStates) { |
| // If all boosted P-states are disabled, then program D18F4x15C[BoostSrc] to zero. |
| AndMask = 0xFFFFFFFF; |
| ((F15_CPB_CTRL_REGISTER *) &AndMask)->BoostSrc = 0; |
| OrMask = 0x00000000; |
| OptionMultiSocketConfiguration.ModifyCurrSocketPci (&PciAddress, AndMask, OrMask, StdHeader); // F4x15C |
| |
| ErrorData.NumberOfSwPstatesDisabled = DisPsNum - ErrorData.NumberOfBoostStates; |
| } else { |
| ErrorData.NumberOfSwPstatesDisabled = 0; |
| } |
| |
| NumModules = GetPlatformNumberOfModules (); |
| |
| // Only execute this loop if this is an MCM. |
| if (NumModules > 1) { |
| |
| // Since the P-State MSRs are shared across a |
| // node, we only need to set one core in the node for the modified number of supported p-states |
| // to be reported across all of the cores in the module. |
| TaskPtr.FuncAddress.PfApTaskI = F15TnPmPwrCheckCore; |
| TaskPtr.DataTransfer.DataSizeInDwords = SIZE_IN_DWORDS (PWRCHK_ERROR_DATA); |
| TaskPtr.DataTransfer.DataPtr = &ErrorData; |
| TaskPtr.DataTransfer.DataTransferFlags = 0; |
| TaskPtr.ExeFlags = WAIT_FOR_CORE; |
| |
| for (ModuleIndex = 0; ModuleIndex < NumModules; ModuleIndex++) { |
| // Execute the P-State reduction code on the module's primary core only. |
| // Skip this code for the BSC's module. |
| if (ModuleIndex != Module) { |
| if (GetGivenModuleCoreRange (Socket, ModuleIndex, &LowCore, &HighCore, StdHeader)) { |
| ApUtilRunCodeOnSocketCore ((UINT8)Socket, (UINT8)LowCore, &TaskPtr, StdHeader); |
| } |
| } |
| } |
| } |
| |
| // Path for SCM and the BSC |
| F15TnPmPwrCheckCore (&ErrorData, StdHeader); |
| |
| // Final Step |
| // F3x64[HtPstatelimit] -= disPsNum |
| // F3x68[SwPstateLimit] -= disPsNum |
| // F3xDC[PstateMaxVal] -= disPsNum |
| |
| PciAddress.Address.Function = FUNC_3; |
| PciAddress.Address.Register = HTC_REG; |
| AndMask = 0xFFFFFFFF; |
| ((HTC_REGISTER *) &AndMask)->HtcPstateLimit = 0; |
| OrMask = 0x00000000; |
| LibAmdPciRead (AccessWidth32, PciAddress, &LocalPciRegister, StdHeader); // F3x64 |
| PstateLimit = ((HTC_REGISTER *) &LocalPciRegister)->HtcPstateLimit; |
| if (PstateLimit > ErrorData.NumberOfSwPstatesDisabled) { |
| PstateLimit -= ErrorData.NumberOfSwPstatesDisabled; |
| ((HTC_REGISTER *) &OrMask)->HtcPstateLimit = PstateLimit; |
| } |
| OptionMultiSocketConfiguration.ModifyCurrSocketPci (&PciAddress, AndMask, OrMask, StdHeader); // F3x64 |
| |
| PciAddress.Address.Register = SW_PS_LIMIT_REG; |
| AndMask = 0xFFFFFFFF; |
| ((SW_PS_LIMIT_REGISTER *) &AndMask)->SwPstateLimit = 0; |
| OrMask = 0x00000000; |
| LibAmdPciRead (AccessWidth32, PciAddress, &LocalPciRegister, StdHeader); // F3x68 |
| PstateLimit = ((SW_PS_LIMIT_REGISTER *) &LocalPciRegister)->SwPstateLimit; |
| if (PstateLimit > ErrorData.NumberOfSwPstatesDisabled) { |
| PstateLimit -= ErrorData.NumberOfSwPstatesDisabled; |
| ((SW_PS_LIMIT_REGISTER *) &OrMask)->SwPstateLimit = PstateLimit; |
| } |
| OptionMultiSocketConfiguration.ModifyCurrSocketPci (&PciAddress, AndMask, OrMask, StdHeader); // F3x68 |
| |
| PciAddress.Address.Register = CPTC2_REG; |
| AndMask = 0xFFFFFFFF; |
| ((CLK_PWR_TIMING_CTRL2_REGISTER *) &AndMask)->PstateMaxVal = 0; |
| OrMask = 0x00000000; |
| LibAmdPciRead (AccessWidth32, PciAddress, &LocalPciRegister, StdHeader); // F3xDC |
| PstateLimit = ((CLK_PWR_TIMING_CTRL2_REGISTER *) &LocalPciRegister)->PstateMaxVal; |
| if (PstateLimit > ErrorData.NumberOfSwPstatesDisabled) { |
| PstateLimit -= ErrorData.NumberOfSwPstatesDisabled; |
| ((CLK_PWR_TIMING_CTRL2_REGISTER *) &OrMask)->PstateMaxVal = PstateLimit; |
| } |
| OptionMultiSocketConfiguration.ModifyCurrSocketPci (&PciAddress, AndMask, OrMask, StdHeader); // F3xDC |
| } |
| } |
| |
| |
| /*---------------------------------------------------------------------------------------*/ |
| /** |
| * Core-level error handler called if any p-states were determined to be out |
| * of range for the mother board. |
| * |
| * This function implements steps 2a-c and 3a-c on each core. |
| * |
| * @param[in] ErrorData Details about the error condition. |
| * @param[in] StdHeader Config handle for library and services. |
| * |
| */ |
| VOID |
| STATIC |
| F15TnPmPwrCheckCore ( |
| IN VOID *ErrorData, |
| IN AMD_CONFIG_PARAMS *StdHeader |
| ) |
| { |
| UINT8 i; |
| UINT8 HwPsMaxVal; |
| UINT8 SwPsMaxVal; |
| UINT8 HwDisPsNum; |
| UINT8 CurrentSwPs; |
| UINT8 PsDisableCount; |
| UINT64 LocalMsrRegister; |
| CPU_SPECIFIC_SERVICES *FamilySpecificServices; |
| |
| if (IsCorePairPrimary (FirstCoreIsComputeUnitPrimary, StdHeader)) { |
| // P-state MSRs are shared, so only 1 core per compute unit needs to perform this |
| GetCpuServicesOfCurrentCore ((CONST CPU_SPECIFIC_SERVICES **)&FamilySpecificServices, StdHeader); |
| HwPsMaxVal = (((PWRCHK_ERROR_DATA *) ErrorData)->HwPstateNumber - 1); |
| HwDisPsNum = (((PWRCHK_ERROR_DATA *) ErrorData)->HwPstateNumber - |
| ((PWRCHK_ERROR_DATA *) ErrorData)->AllowablePstateNumber); |
| |
| LibAmdMsrRead (MSR_PSTATE_STS, &LocalMsrRegister, StdHeader); |
| CurrentSwPs = (UINT8) (((PSTATE_STS_MSR *) &LocalMsrRegister)->CurPstate); |
| LibAmdMsrRead (MSR_PSTATE_CURRENT_LIMIT, &LocalMsrRegister, StdHeader); |
| SwPsMaxVal = (UINT8) (((PSTATE_CURLIM_MSR *) &LocalMsrRegister)->PstateMaxVal); |
| PsDisableCount = 0; |
| |
| if (((PWRCHK_ERROR_DATA *) ErrorData)->AllowablePstateNumber == 0) { |
| // All P-States are over the limit. |
| |
| // Step 1 |
| // Transition to Pstate Max if not there already |
| if (CurrentSwPs != SwPsMaxVal) { |
| FamilySpecificServices->TransitionPstate (FamilySpecificServices, SwPsMaxVal, (BOOLEAN) TRUE, StdHeader); |
| } |
| |
| // Step 2 |
| // If Pstate Max is not P0, copy Pstate max contents to P0 and switch |
| // to P0. |
| if (SwPsMaxVal != 0) { |
| F15TnPmPwrChkCopyPstate (((PWRCHK_ERROR_DATA *) ErrorData)->NumberOfBoostStates, HwPsMaxVal, StdHeader); |
| FamilySpecificServices->TransitionPstate (FamilySpecificServices, (UINT8) 0, (BOOLEAN) TRUE, StdHeader); |
| } |
| |
| // Disable all SW P-states except P0 |
| PsDisableCount = ((PWRCHK_ERROR_DATA *) ErrorData)->NumberOfSwPstatesDisabled - 1; |
| } else { |
| // At least one P-State is under the limit & at least one P-State is |
| // over the limit. |
| if (((PWRCHK_ERROR_DATA *) ErrorData)->NumberOfBoostStates > HwDisPsNum) { |
| // A subset of boosted P-states are disabled. Copy the contents of the |
| // highest performance boosted P-state still enabled to the boosted |
| // P-states that have been disabled. |
| for (i = 0; i < HwDisPsNum; i++) { |
| F15TnPmPwrChkCopyPstate (i, HwDisPsNum, StdHeader); |
| } |
| } else if (((PWRCHK_ERROR_DATA *) ErrorData)->NumberOfSwPstatesDisabled != 0) { |
| // Move remaining P-state register(s) up |
| // Step 1 |
| // Transition to a valid Pstate if current Pstate has been disabled |
| if (CurrentSwPs < ((PWRCHK_ERROR_DATA *) ErrorData)->NumberOfSwPstatesDisabled) { |
| FamilySpecificServices->TransitionPstate (FamilySpecificServices, ((PWRCHK_ERROR_DATA *) ErrorData)->NumberOfSwPstatesDisabled, (BOOLEAN) TRUE, StdHeader); |
| CurrentSwPs = ((PWRCHK_ERROR_DATA *) ErrorData)->NumberOfSwPstatesDisabled; |
| } |
| |
| // Step 2 |
| // Move enabled Pstates up and disable the remainder |
| for (i = ((PWRCHK_ERROR_DATA *) ErrorData)->NumberOfBoostStates; (i + ((PWRCHK_ERROR_DATA *) ErrorData)->NumberOfSwPstatesDisabled) <= HwPsMaxVal; i++) { |
| F15TnPmPwrChkCopyPstate (i, (i + ((PWRCHK_ERROR_DATA *) ErrorData)->NumberOfSwPstatesDisabled), StdHeader); |
| } |
| |
| // Step 3 |
| // Transition to current COF/VID at shifted location |
| CurrentSwPs = (CurrentSwPs - ((PWRCHK_ERROR_DATA *) ErrorData)->NumberOfSwPstatesDisabled); |
| FamilySpecificServices->TransitionPstate (FamilySpecificServices, CurrentSwPs, (BOOLEAN) TRUE, StdHeader); |
| |
| // Disable the appropriate number of P-states |
| PsDisableCount = ((PWRCHK_ERROR_DATA *) ErrorData)->NumberOfSwPstatesDisabled; |
| } |
| } |
| // Disable the appropriate P-states if any, starting from HW Pmin |
| for (i = 0; i < PsDisableCount; i++) { |
| FamilySpecificServices->DisablePstate (FamilySpecificServices, (HwPsMaxVal - i), StdHeader); |
| } |
| } |
| } |
| |
| |
| /*---------------------------------------------------------------------------------------*/ |
| /** |
| * Copies the contents of one P-State MSR to another. |
| * |
| * @param[in] Dest Destination p-state number |
| * @param[in] Src Source p-state number |
| * @param[in] StdHeader Config handle for library and services |
| * |
| */ |
| VOID |
| STATIC |
| F15TnPmPwrChkCopyPstate ( |
| IN UINT8 Dest, |
| IN UINT8 Src, |
| IN AMD_CONFIG_PARAMS *StdHeader |
| ) |
| { |
| UINT64 LocalMsrRegister; |
| |
| LibAmdMsrRead ((UINT32) (PS_REG_BASE + Src), &LocalMsrRegister, StdHeader); |
| LibAmdMsrWrite ((UINT32) (PS_REG_BASE + Dest), &LocalMsrRegister, StdHeader); |
| } |
| |