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/* $NoKeywords:$ */
/**
* @file
*
* mpmaxfreq.c
*
* A sub-engine which extracts max. frequency limit value.
*
* @xrefitem bom "File Content Label" "Release Content"
* @e project: AGESA
* @e sub-project: (Mem/Ps)
* @e \$Revision: 84150 $ @e \$Date: 2012-12-12 15:46:25 -0600 (Wed, 12 Dec 2012) $
*
**/
/*****************************************************************************
*
* 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 "cpuFamRegisters.h"
#include "cpuRegisters.h"
#include "OptionMemory.h"
#include "PlatformMemoryConfiguration.h"
#include "mu.h"
#include "ma.h"
#include "mp.h"
#include "GeneralServices.h"
#include "Filecode.h"
CODE_GROUP (G2_PEI)
RDATA_GROUP (G2_PEI)
#define FILECODE PROC_MEM_PS_MPMAXFREQ_FILECODE
/*----------------------------------------------------------------------------
* DEFINITIONS AND MACROS
*
*----------------------------------------------------------------------------
*/
/*----------------------------------------------------------------------------
* TYPEDEFS AND STRUCTURES
*
*----------------------------------------------------------------------------
*/
typedef struct {
UINT16 Dimms:4;
UINT16 SR:4;
UINT16 DR:4;
UINT16 QR:4;
} CDNMaxFreq;
typedef struct {
UINT16 Dimms:4;
UINT16 LR:12;
} CDNLMaxFreq;
/*----------------------------------------------------------------------------
* PROTOTYPES OF LOCAL FUNCTIONS
*
*----------------------------------------------------------------------------
*/
BOOLEAN
MemPGetMaxFreqSupported (
IN OUT MEM_NB_BLOCK *NBPtr,
IN MEM_PSC_TABLE_BLOCK *EntryOfTables
);
/*----------------------------------------------------------------------------
* EXPORTED FUNCTIONS
*
*----------------------------------------------------------------------------
*/
/* -----------------------------------------------------------------------------*/
/**
*
* A sub-function which extracts the value of max frequency supported from a input table and
* compares it with DCTPtr->Timings.TargetSpeed
*
* @param[in,out] *NBPtr - Pointer to the MEM_NB_BLOCK
* @param[in] *EntryOfTables - Pointer to MEM_PSC_TABLE_BLOCK
*
* @return TRUE - Succeed in extracting the table value
* @return FALSE - Fail to extract the table value
*
*/
BOOLEAN
MemPGetMaxFreqSupported (
IN OUT MEM_NB_BLOCK *NBPtr,
IN MEM_PSC_TABLE_BLOCK *EntryOfTables
)
{
UINT8 i;
UINT8 MaxDimmSlotPerCh;
UINT8 MaxDimmPerCh;
UINT8 NOD;
UINT8 TableSize;
PSCFG_TYPE Type;
UINT16 CDN;
UINT16 MaxFreqSupported;
UINT16 *SpeedArray;
UINT8 DDR3Voltage;
INT8 CurrentVoltage;
DIMM_TYPE DimmType;
CPU_LOGICAL_ID LogicalCpuid;
UINT8 PackageType;
BOOLEAN DisDct;
UINT8 PsoMaskMaxFreq;
UINT16 PsoMaskMaxFreq16;
UINT8 NumDimmSlotInTable;
UINT16 DimmPopInTable;
PSCFG_MAXFREQ_ENTRY *TblPtr;
CH_DEF_STRUCT *CurrentChannel;
PSC_TBL_ENTRY **TblEntryOfMaxFreq;
CurrentChannel = NBPtr->ChannelPtr;
DisDct = FALSE;
Type = PSCFG_MAXFREQ;
TblPtr = NULL;
TableSize = 0;
PackageType = 0;
NumDimmSlotInTable = 0;
DimmPopInTable = 0;
LogicalCpuid.Family = AMD_FAMILY_UNKNOWN;
SpeedArray = NULL;
MaxDimmPerCh = GetMaxDimmsPerChannel (NBPtr->RefPtr->PlatformMemoryConfiguration, NBPtr->MCTPtr->SocketId, CurrentChannel->ChannelID);
MaxDimmSlotPerCh = MaxDimmPerCh - GetMaxSolderedDownDimmsPerChannel (NBPtr->RefPtr->PlatformMemoryConfiguration,
NBPtr->MCTPtr->SocketId, CurrentChannel->ChannelID);
if (CurrentChannel->RegDimmPresent != 0) {
DimmType = RDIMM_TYPE;
} else if (CurrentChannel->SODimmPresent != 0) {
DimmType = SODIMM_TYPE;
} else if (CurrentChannel->LrDimmPresent != 0) {
DimmType = LRDIMM_TYPE;
} else {
DimmType = UDIMM_TYPE;
}
// Check if it is "SODIMM plus soldered-down DRAM" or "Soldered-down DRAM only" configuration,
// DimmType is changed to 'SODWN_SODIMM_TYPE' if soldered-down DRAM exist
if (MaxDimmSlotPerCh != MaxDimmPerCh) {
// SODIMM plus soldered-down DRAM
DimmType = SODWN_SODIMM_TYPE;
} else if (FindPSOverrideEntry (NBPtr->RefPtr->PlatformMemoryConfiguration, PSO_SOLDERED_DOWN_SODIMM_TYPE, NBPtr->MCTPtr->SocketId, NBPtr->ChannelPtr->ChannelID, 0, NULL, NULL) != NULL) {
// Soldered-down DRAM only
DimmType = SODWN_SODIMM_TYPE;
MaxDimmSlotPerCh = 0;
}
NOD = (UINT8) (MaxDimmSlotPerCh != 0) ? (1 << (MaxDimmSlotPerCh - 1)) : _DIMM_NONE;
TblEntryOfMaxFreq = EntryOfTables->TblEntryOfMaxFreq;
IDS_OPTION_HOOK (IDS_GET_STRETCH_FREQUENCY_LIMIT, &TblEntryOfMaxFreq, &NBPtr->MemPtr->StdHeader);
NBPtr->FamilySpecificHook[RelocatePscTblEntryByMotherBoardLayer] (NBPtr, (VOID *) &TblEntryOfMaxFreq);
i = 0;
// Obtain table pointer, table size, Logical Cpuid and PSC type according to Dimm, NB and package type.
while (TblEntryOfMaxFreq[i] != NULL) {
if (((TblEntryOfMaxFreq[i])->Header.DimmType & DimmType) != 0) {
if (((TblEntryOfMaxFreq[i])->Header.NumOfDimm & NOD) != 0) {
//
// Determine if this is the expected NB Type
//
LogicalCpuid = (TblEntryOfMaxFreq[i])->Header.LogicalCpuid;
PackageType = (TblEntryOfMaxFreq[i])->Header.PackageType;
if (MemPIsIdSupported (NBPtr, LogicalCpuid, PackageType)) {
TblPtr = (PSCFG_MAXFREQ_ENTRY *) ((TblEntryOfMaxFreq[i])->TBLPtr);
TableSize = (TblEntryOfMaxFreq[i])->TableSize;
Type = (TblEntryOfMaxFreq[i])->Header.PSCType;
break;
}
}
}
i++;
}
// Check whether no table entry is found.
if (TblEntryOfMaxFreq[i] == NULL) {
return FALSE;
}
MaxFreqSupported = UNSUPPORTED_DDR_FREQUENCY;
CDN = 0;
DDR3Voltage = (UINT8) CONVERT_VDDIO_TO_ENCODED (NBPtr->RefPtr->DDR3Voltage);
// Construct the condition value
((CDNMaxFreq *)&CDN)->Dimms = CurrentChannel->Dimms;
if (Type == PSCFG_MAXFREQ) {
for (i = 0; i < MAX_DIMMS_PER_CHANNEL; i++) {
if ((CurrentChannel->DimmSRPresent & (UINT8) (1 << i)) != 0) {
((CDNMaxFreq *)&CDN)->SR += 1;
}
if ((CurrentChannel->DimmDrPresent & (UINT16) (1 << i)) != 0) {
((CDNMaxFreq *)&CDN)->DR += 1;
}
if ((CurrentChannel->DimmQrPresent & (UINT16) (1 << i)) != 0) {
if (i < 2) {
((CDNMaxFreq *)&CDN)->QR += 1;
}
}
}
} else {
((CDNLMaxFreq *)&CDN)->LR = CurrentChannel->Dimms;
}
for (i = 0; i < TableSize; i++) {
NumDimmSlotInTable = TblPtr->MAXFREQ_ENTRY.DimmSlotPerCh;
DimmPopInTable = (Type == PSCFG_MAXFREQ) ? TblPtr->MAXFREQ_ENTRY.CDN : ((PSCFG_LR_MAXFREQ_ENTRY *)TblPtr)->LR_MAXFREQ_ENTRY.CDN;
if (((NumDimmSlotInTable & NOD) != 0) && (CDN == DimmPopInTable)) {
if (Type == PSCFG_MAXFREQ) {
SpeedArray = TblPtr->MAXFREQ_ENTRY.Speed;
} else {
SpeedArray = ((PSCFG_LR_MAXFREQ_ENTRY *)TblPtr)->LR_MAXFREQ_ENTRY.Speed;
}
break;
}
TblPtr++;
}
PsoMaskMaxFreq16 = MemPProceedTblDrvOverride (NBPtr, NBPtr->RefPtr->PlatformMemoryConfiguration, PSO_TBLDRV_SPEEDLIMIT);
if ((PsoMaskMaxFreq16 & INVALID_CONFIG_FLAG) == 0) {
PsoMaskMaxFreq = (UINT8) PsoMaskMaxFreq16;
if (PsoMaskMaxFreq != 0) {
SpeedArray = NBPtr->PsPtr->SpeedLimit;
}
} else {
SpeedArray = NULL;
}
if (SpeedArray != NULL) {
if (NBPtr->SharedPtr->VoltageMap != VDDIO_DETERMINED) {
IDS_HDT_CONSOLE (MEM_FLOW, "\nCheck speed supported for each VDDIO for Node%d DCT%d: ", NBPtr->Node, NBPtr->Dct);
for (CurrentVoltage = VOLT1_5_ENCODED_VAL; CurrentVoltage <= VOLT1_25_ENCODED_VAL; CurrentVoltage ++) {
if (NBPtr->SharedPtr->VoltageMap & (1 << CurrentVoltage)) {
IDS_HDT_CONSOLE (MEM_FLOW, "%s -> %dMHz ", (CurrentVoltage == VOLT1_5_ENCODED_VAL) ? "1.5V" : ((CurrentVoltage == VOLT1_35_ENCODED_VAL) ? "1.35V" : "1.25V"), SpeedArray[CurrentVoltage]);
if (NBPtr->DCTPtr->Timings.TargetSpeed > SpeedArray[CurrentVoltage]) {
MaxFreqSupported = SpeedArray[CurrentVoltage];
} else {
MaxFreqSupported = NBPtr->DCTPtr->Timings.TargetSpeed;
}
if (NBPtr->MaxFreqVDDIO[CurrentVoltage] > MaxFreqSupported) {
NBPtr->MaxFreqVDDIO[CurrentVoltage] = MaxFreqSupported;
}
} else {
NBPtr->MaxFreqVDDIO[CurrentVoltage] = 0;
}
}
IDS_HDT_CONSOLE (MEM_FLOW, "\n");
}
ASSERT (DDR3Voltage <= VOLT1_25_ENCODED_VAL);
for (CurrentVoltage = DDR3Voltage; CurrentVoltage >= VOLT1_5_ENCODED_VAL; CurrentVoltage --) {
if (NBPtr->SharedPtr->VoltageMap & (1 << CurrentVoltage)) {
MaxFreqSupported = SpeedArray[CurrentVoltage];
if (MaxFreqSupported != UNSUPPORTED_DDR_FREQUENCY) {
NBPtr->RefPtr->DDR3Voltage = CONVERT_ENCODED_TO_VDDIO (CurrentVoltage);
IDS_HDT_CONSOLE (MEM_FLOW, "\nVDDIO leveraged to %s\n", (CurrentVoltage == VOLT1_5_ENCODED_VAL) ? "1.5V" : ((CurrentVoltage == VOLT1_35_ENCODED_VAL) ? "1.35V" : "1.25V"));
break;
}
}
}
}
if (MaxFreqSupported == UNSUPPORTED_DDR_FREQUENCY) {
// No entry in the table for current dimm population is found
IDS_HDT_CONSOLE (MEM_FLOW, "\nDCT %d: No entry is found in the Max Frequency table\n", NBPtr->Dct);
DisDct = TRUE;
} else if (MaxFreqSupported != 0) {
if ((NBPtr->DCTPtr->Timings.TargetSpeed > MaxFreqSupported) && !NBPtr->IsSupported[AMPIsEnabled]) {
NBPtr->DCTPtr->Timings.TargetSpeed = MaxFreqSupported;
}
} else if (NBPtr->SharedPtr->VoltageMap == VDDIO_DETERMINED) {
// Dimm population is not supported at current voltage
// Also if there is no performance optimization, disable the DCT
DisDct = TRUE;
}
if (DisDct) {
NBPtr->DCTPtr->Timings.DimmExclude |= NBPtr->DCTPtr->Timings.DctDimmValid;
PutEventLog (AGESA_ERROR, MEM_ERROR_UNSUPPORTED_DIMM_CONFIG, NBPtr->Node, NBPtr->Dct, NBPtr->Channel, 0, &NBPtr->MemPtr->StdHeader);
SetMemError (AGESA_ERROR, NBPtr->MCTPtr);
// Change target speed to highest value so it won't affect other channels when leveling frequency across the node.
NBPtr->DCTPtr->Timings.TargetSpeed = UNSUPPORTED_DDR_FREQUENCY;
}
return TRUE;
}
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