/* $NoKeywords:$ */ /** * @file * * AMD Family_12 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/F12 * @e \$Revision: 44324 $ @e \$Date: 2010-12-22 17:16:51 +0800 (Wed, 22 Dec 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. ****************************************************************************** */ /*---------------------------------------------------------------------------------------- * M O D U L E S U S E D *---------------------------------------------------------------------------------------- */ #include "AGESA.h" #include "amdlib.h" #include "cpuF12PowerMgmt.h" #include "cpuRegisters.h" #include "cpuApicUtilities.h" #include "cpuServices.h" #include "GeneralServices.h" #include "cpuEarlyInit.h" #include "cpuFamilyTranslation.h" #include "cpuF12PowerCheck.h" #include "Filecode.h" CODE_GROUP (G1_PEICC) RDATA_GROUP (G1_PEICC) #define FILECODE PROC_CPU_FAMILY_0X12_CPUF12POWERCHECK_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 F12PmPwrCheckCore ( IN VOID *ErrorData, IN AMD_CONFIG_PARAMS *StdHeader ); VOID STATIC F12PmPwrChkCopyPstate ( 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 *---------------------------------------------------------------------------------------- */ /*---------------------------------------------------------------------------------------*/ /** * Family 12h core 0 entry point for performing the family 12h 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. Clear both D18F4x15C[BoostSrc] and D18F4x15C[NumBoostStates] to 0. * b. 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. * c. Copy the contents of the enabled P-state MSRs to the highest * performance P-state locations. * d. Request a P-state transition to the P-state MSR containing the * COF/VID values currently applied. * e. 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. D18F3x64[HtcPstateLimit] * 2. D18F3xDC[PstateMaxVal] * 3. If all P-States are over the limit, the BIOS must: * a. Clear both D18F4x15C[BoostSrc] and D18F4x15C[NumBoostStates] to 0. * b. If the processor's current P-State is != D18F3xDC[PstateMaxVal], then * write D18F3xDC[PstateMaxVal] to MSRC001_0062[PstateCmd] and wait for * MSRC001_0063[CurPstate] to reflect the new value. * c. If D18F3xDC[PstateMaxVal]!= 000b, copy the contents of the P-state * MSR pointed to by D18F3xDC[PstateMaxVal] to MSRC001_0064 and set * MSRC001_0064[PstateEn] * d. Write 000b to MSRC001_0062[PstateCmd] and wait for MSRC001_0063 * [CurPstate] to reflect the new value. * e. Adjust the following P-state parameters to zero: * 1. D18F3x64[HtcPstateLimit] * 2. D18F3xDC[PstateMaxVal] * * @param[in] FamilySpecificServices The current Family Specific Services. * @param[in] CpuEarlyParams Service parameters. * @param[in] StdHeader Config handle for library and services. * */ VOID F12PmPwrCheck ( 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 PstateLimit; PCI_ADDR PciAddress; UINT64 LocalMsrRegister; AP_TASK TaskPtr; AGESA_STATUS IgnoredSts; PWRCHK_ERROR_DATA ErrorData; // 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 (((PSTATE_MSR *) &LocalMsrRegister)->PsEnable == 1) { break; } } ErrorData.HwPstateNumber = (UINT8) (PsMaxVal + 1); 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; } } } // If all P-state registers are disabled, move P[PsMaxVal] to P0 // and transition to P0, then wait for CurPstate = 0 ErrorData.AllowablePstateNumber = ((PsMaxVal + 1) - DisPsNum); // We only need to log this event on the BSC if (ErrorData.AllowablePstateNumber == 0) { PutEventLog (AGESA_FATAL, CPU_EVENT_PM_ALL_PSTATE_OVERCURRENT, Socket, 0, 0, 0, StdHeader); } if (DisPsNum != 0) { // Clear both D18F4x15C[BoostSrc] and D18F4x15C[NumBoostStates] to 0 PciAddress.AddressValue = CPB_CTRL_PCI_ADDR; LibAmdPciRead (AccessWidth32, PciAddress, &LocalPciRegister, StdHeader); ((CPB_CTRL_REGISTER *) &LocalPciRegister)->BoostSrc = 0; ((CPB_CTRL_REGISTER *) &LocalPciRegister)->NumBoostStates = 0; LibAmdPciWrite (AccessWidth32, PciAddress, &LocalPciRegister, StdHeader); TaskPtr.FuncAddress.PfApTaskI = F12PmPwrCheckCore; TaskPtr.DataTransfer.DataSizeInDwords = SIZE_IN_DWORDS (PWRCHK_ERROR_DATA); TaskPtr.DataTransfer.DataPtr = &ErrorData; TaskPtr.DataTransfer.DataTransferFlags = 0; TaskPtr.ExeFlags = WAIT_FOR_CORE; ApUtilRunCodeOnAllLocalCoresAtEarly (&TaskPtr, StdHeader, CpuEarlyParams); // Final Step // D18F3x64[HtPstatelimit] -= disPsNum // D18F3xDC[PstateMaxVal]-= disPsNum PciAddress.AddressValue = HTC_PCI_ADDR; LibAmdPciRead (AccessWidth32, PciAddress, &LocalPciRegister, StdHeader); // D18F3x64 PstateLimit = ((HTC_REGISTER *) &LocalPciRegister)->HtcPstateLimit; if (PstateLimit > DisPsNum) { PstateLimit -= DisPsNum; } else { PstateLimit = 0; } ((HTC_REGISTER *) &LocalPciRegister)->HtcPstateLimit = PstateLimit; LibAmdPciWrite (AccessWidth32, PciAddress, &LocalPciRegister, StdHeader); // D18F3x64 PciAddress.AddressValue = CPTC2_PCI_ADDR; LibAmdPciRead (AccessWidth32, PciAddress, &LocalPciRegister, StdHeader); // D18F3xDC PstateLimit = ((CLK_PWR_TIMING_CTRL2_REGISTER *) &LocalPciRegister)->PstateMaxVal; if (PstateLimit > DisPsNum) { PstateLimit -= DisPsNum; } else { PstateLimit = 0; } ((CLK_PWR_TIMING_CTRL2_REGISTER *) &LocalPciRegister)->PstateMaxVal = PstateLimit; LibAmdPciWrite (AccessWidth32, PciAddress, &LocalPciRegister, StdHeader); // D18F3xDC } } /*---------------------------------------------------------------------------------------*/ /** * Core-level error handler called if any p-states were determined to be out * of range for the mother board. * * This function implements steps 2b-d and 3b-d on each core. * * @param[in] ErrorData Details about the error condition. * @param[in] StdHeader Config handle for library and services. * */ VOID STATIC F12PmPwrCheckCore ( IN VOID *ErrorData, IN AMD_CONFIG_PARAMS *StdHeader ) { UINT8 i; UINT8 PsMaxVal; UINT8 DisPsNum; UINT8 CurrentPs; UINT64 LocalMsrRegister; CPU_SPECIFIC_SERVICES *FamilySpecificServices; GetCpuServicesOfCurrentCore ((const CPU_SPECIFIC_SERVICES **) &FamilySpecificServices, StdHeader); PsMaxVal = (((PWRCHK_ERROR_DATA *) ErrorData)->HwPstateNumber - 1); DisPsNum = (((PWRCHK_ERROR_DATA *) ErrorData)->HwPstateNumber - ((PWRCHK_ERROR_DATA *) ErrorData)->AllowablePstateNumber); LibAmdMsrRead (MSR_PSTATE_STS, &LocalMsrRegister, StdHeader); CurrentPs = (UINT8) (((PSTATE_STS_MSR *) &LocalMsrRegister)->CurPstate); if (((PWRCHK_ERROR_DATA *) ErrorData)->AllowablePstateNumber == 0) { // Step 1 // Transition to Pstate Max if not there already if (CurrentPs != PsMaxVal) { FamilySpecificServices->TransitionPstate (FamilySpecificServices, PsMaxVal, (BOOLEAN) TRUE, StdHeader); } // Step 2 // If Pstate Max is not P0, copy Pstate max contents to P0 and switch // to P0. if (PsMaxVal != 0) { F12PmPwrChkCopyPstate (0, PsMaxVal, StdHeader); FamilySpecificServices->TransitionPstate (FamilySpecificServices, (UINT8) 0, (BOOLEAN) TRUE, StdHeader); } } else { // move remaining P-state register(s) up // Step 1 // Transition to a valid Pstate if current Pstate has been disabled if (CurrentPs < DisPsNum) { FamilySpecificServices->TransitionPstate (FamilySpecificServices, DisPsNum, (BOOLEAN) TRUE, StdHeader); CurrentPs = DisPsNum; } // Step 2 // Move enabled Pstates up and disable the remainder for (i = 0; (i + DisPsNum) <= PsMaxVal; ++i) { F12PmPwrChkCopyPstate (i, (i + DisPsNum), StdHeader); } // Step 3 // Transition to current COF/VID at shifted location CurrentPs = (CurrentPs - DisPsNum); FamilySpecificServices->TransitionPstate (FamilySpecificServices, CurrentPs, (BOOLEAN) TRUE, StdHeader); } i = ((PWRCHK_ERROR_DATA *) ErrorData)->AllowablePstateNumber; if (i == 0) { i++; } while (i <= PsMaxVal) { FamilySpecificServices->DisablePstate (FamilySpecificServices, i, StdHeader); i++; } } /*---------------------------------------------------------------------------------------*/ /** * 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 F12PmPwrChkCopyPstate ( 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); }