/**
*
* A sub-function which extracts Slow mode, Address timing and Output driver compensation value
* from a input table and store those value to a specific address.
*
* @param[in,out] *NBPtr - Pointer to the MEM_NB_BLOCK
* @param[in] *EntryOfTables - Pointer to MEM_PSC_TABLE_BLOCK
*
* @return TRUE - Table values can be extracted per dimm population and ranks type.
* @return FALSE - Table values cannot be extracted per dimm population and ranks type.
*
*/
BOOLEAN
MemPGetSAO (
IN OUT MEM_NB_BLOCK *NBPtr,
IN MEM_PSC_TABLE_BLOCK *EntryOfTables
)
{
UINT8 i;
UINT8 MaxDimmPerCh;
UINT8 NOD;
UINT8 TableSize;
UINT32 CurDDRrate;
UINT8 DDR3Voltage;
UINT16 RankTypeOfPopulatedDimm;
UINT16 RankTypeInTable;
UINT8 PsoMaskSAO;
DIMM_TYPE DimmType;
CPU_LOGICAL_ID LogicalCpuid;
UINT8 PackageType;
PSCFG_SAO_ENTRY *TblPtr;
CH_DEF_STRUCT *CurrentChannel;
CurrentChannel = NBPtr->ChannelPtr;
TblPtr = NULL;
TableSize = 0;
PackageType = 0;
LogicalCpuid.Family = AMD_FAMILY_UNKNOWN;
MaxDimmPerCh = GetMaxDimmsPerChannel (NBPtr->RefPtr->PlatformMemoryConfiguration, NBPtr->MCTPtr->SocketId, CurrentChannel->ChannelID);
NOD = (UINT8) 1 << (MaxDimmPerCh - 1);
if (CurrentChannel->RegDimmPresent != 0) {
DimmType = RDIMM_TYPE;
} else if (CurrentChannel->SODimmPresent != 0) {
DimmType = SODIMM_TYPE;
if (FindPSOverrideEntry (NBPtr->RefPtr->PlatformMemoryConfiguration, PSO_SOLDERED_DOWN_SODIMM_TYPE, NBPtr->MCTPtr->SocketId, NBPtr->ChannelPtr->ChannelID, 0, NULL, NULL) != NULL) {
DimmType = SODWN_SODIMM_TYPE;
}
} else if (CurrentChannel->LrDimmPresent != 0) {
DimmType = LRDIMM_TYPE;
} else {
DimmType = UDIMM_TYPE;
}
i = 0;
// Obtain table pointer, table size, Logical Cpuid and PSC type according to Dimm, NB and package type.
while (EntryOfTables->TblEntryOfSAO[i] != NULL) {
if (((EntryOfTables->TblEntryOfSAO[i])->Header.DimmType & DimmType) != 0) {
if (((EntryOfTables->TblEntryOfSAO[i])->Header.NumOfDimm & NOD) != 0) {
//
// Determine if this is the expected NB Type
//
LogicalCpuid = (EntryOfTables->TblEntryOfSAO[i])->Header.LogicalCpuid;
PackageType = (EntryOfTables->TblEntryOfSAO[i])->Header.PackageType;
if (MemPIsIdSupported (NBPtr, LogicalCpuid, PackageType)) {
TblPtr = (PSCFG_SAO_ENTRY *) ((EntryOfTables->TblEntryOfSAO[i])->TBLPtr);
TableSize = (EntryOfTables->TblEntryOfSAO[i])->TableSize;
break;
}
}
}
i++;
}
// Check whether no table entry is found.
if (EntryOfTables->TblEntryOfSAO[i] == NULL) {
IDS_HDT_CONSOLE (MEM_FLOW, "\nNo SlowAccMode, AddrTmg and ODCCtrl table\n");
return FALSE;
}
CurDDRrate = (UINT32) (1 << (CurrentChannel->DCTPtr->Timings.Speed / 66));
DDR3Voltage = (UINT8) (1 << CONVERT_VDDIO_TO_ENCODED (NBPtr->RefPtr->DDR3Voltage));
RankTypeOfPopulatedDimm = MemPGetPsRankType (CurrentChannel);
for (i = 0; i < TableSize; i++) {
MemPConstructRankTypeMap ((UINT16) TblPtr->Dimm0, (UINT16) TblPtr->Dimm1, (UINT16) TblPtr->Dimm2, &RankTypeInTable);
if (TblPtr->DimmPerCh == MaxDimmPerCh) {
if ((TblPtr->DDRrate & CurDDRrate) != 0) {
if ((TblPtr->VDDIO & DDR3Voltage) != 0) {
if ((RankTypeInTable & RankTypeOfPopulatedDimm) == RankTypeOfPopulatedDimm) {
CurrentChannel->DctAddrTmg = TblPtr->AddTmgCtl;
CurrentChannel->DctOdcCtl = TblPtr->ODC;
CurrentChannel->SlowMode = (TblPtr->SlowMode == 1) ? TRUE : FALSE;
break;
}
}
}
}
TblPtr++;
}
//
// If there is no entry, check if overriding values (SlowAccMode, AddrTmg and ODCCtrl) existed. If not, show no entry found.
//
PsoMaskSAO = (UINT8) MemPProceedTblDrvOverride (NBPtr, NBPtr->RefPtr->PlatformMemoryConfiguration, PSO_TBLDRV_SLOWACCMODE);
PsoMaskSAO &= (UINT8) MemPProceedTblDrvOverride (NBPtr, NBPtr->RefPtr->PlatformMemoryConfiguration, PSO_TBLDRV_ODCCTRL);
PsoMaskSAO &= (UINT8) MemPProceedTblDrvOverride (NBPtr, NBPtr->RefPtr->PlatformMemoryConfiguration, PSO_TBLDRV_ADDRTMG);
if ((PsoMaskSAO == 0) && (i == TableSize)) {
IDS_HDT_CONSOLE (MEM_FLOW, "\nNo SlowAccMode, AddrTmg and ODCCtrl entries\n");
} else {
return TRUE;
}
if (NBPtr->SharedPtr->VoltageMap != VDDIO_DETERMINED) {
return TRUE;
}
PutEventLog (AGESA_ERROR, MEM_ERROR_SAO_NOT_FOUND, NBPtr->Node, NBPtr->Dct, NBPtr->Channel, 0, &NBPtr->MemPtr->StdHeader);
SetMemError (AGESA_ERROR, NBPtr->MCTPtr);
if (!NBPtr->MemPtr->ErrorHandling (NBPtr->MCTPtr, NBPtr->Dct, EXCLUDE_ALL_CHIPSEL, &NBPtr->MemPtr->StdHeader)) {
ASSERT (FALSE);
}
return FALSE;
}
/**
*
* A sub-function which extracts ODT Pattern value from a input table and stores extracted
* value to a specific address.
*
* @param[in,out] *NBPtr - Pointer to the MEM_NB_BLOCK
* @param[in] *EntryOfTables - Pointer to MEM_PSC_TABLE_BLOCK
*
* @return TRUE - Table values can be extracted per dimm population and ranks type.
* @return FALSE - Table values cannot be extracted per dimm population and ranks type.
*
*/
BOOLEAN
MemPGetODTPattern (
IN OUT MEM_NB_BLOCK *NBPtr,
IN MEM_PSC_TABLE_BLOCK *EntryOfTables
)
{
UINT8 i;
UINT16 RankTypeInTable;
UINT16 RankTypeOfPopulatedDimm;
UINT8 MaxDimmPerCh;
UINT8 NOD;
UINT8 TableSize;
DIMM_TYPE DimmType;
CPU_LOGICAL_ID LogicalCpuid;
UINT8 PackageType;
PSCFG_3D_ODTPAT_ENTRY *TblPtr;
CH_DEF_STRUCT *CurrentChannel;
CurrentChannel = NBPtr->ChannelPtr;
TblPtr = NULL;
TableSize = 0;
PackageType = 0;
LogicalCpuid.Family = AMD_FAMILY_UNKNOWN;
MaxDimmPerCh = GetMaxDimmsPerChannel (NBPtr->RefPtr->PlatformMemoryConfiguration, NBPtr->MCTPtr->SocketId, CurrentChannel->ChannelID);
NOD = (UINT8) 1 << (MaxDimmPerCh - 1);
if (CurrentChannel->RegDimmPresent != 0) {
DimmType = RDIMM_TYPE;
} else if (CurrentChannel->SODimmPresent != 0) {
DimmType = SODIMM_TYPE;
//@todo LRDIMM
//} else if (CurrentChannel->LrDimmPresent) {
// DimmType = LRDIMM_TYPE;
} else {
DimmType = UDIMM_TYPE;
}
i = 0;
// Obtain table pointer, table size, Logical Cpuid and PSC type according to Dimm, NB and package type.
while (EntryOfTables->TblEntryOfODTPattern[i] != NULL) {
if (((EntryOfTables->TblEntryOfODTPattern[i])->Header.DimmType & DimmType) != 0) {
if (((EntryOfTables->TblEntryOfODTPattern[i])->Header.NumOfDimm & NOD) != 0) {
//
// Determine if this is the expected NB Type
//
LogicalCpuid = (EntryOfTables->TblEntryOfODTPattern[i])->Header.LogicalCpuid;
PackageType = (EntryOfTables->TblEntryOfODTPattern[i])->Header.PackageType;
if (MemPIsIdSupported (NBPtr, LogicalCpuid, PackageType)) {
TblPtr = (PSCFG_3D_ODTPAT_ENTRY *) ((EntryOfTables->TblEntryOfODTPattern[i])->TBLPtr);
TableSize = (EntryOfTables->TblEntryOfODTPattern[i])->TableSize;
break;
}
}
}
i++;
}
// Check whether no table entry is found.
if (EntryOfTables->TblEntryOfODTPattern[i] == NULL) {
IDS_HDT_CONSOLE (MEM_FLOW, "\nNo ODT table\n");
return FALSE;
}
RankTypeOfPopulatedDimm = MemPGetPsRankType (CurrentChannel); //@todo - LRDIMM ?
for (i = 0; i < TableSize; i++) {
MemPConstructRankTypeMap ((UINT16) TblPtr->Dimm0, (UINT16) TblPtr->Dimm1, (UINT16) TblPtr->Dimm2, &RankTypeInTable);
if ((RankTypeInTable & RankTypeOfPopulatedDimm) == RankTypeOfPopulatedDimm) {
CurrentChannel->PhyRODTCSHigh = TblPtr->RdODTCSHigh;
CurrentChannel->PhyRODTCSLow = TblPtr->RdODTCSLow;
CurrentChannel->PhyWODTCSHigh = TblPtr->WrODTCSHigh;
CurrentChannel->PhyWODTCSLow = TblPtr->WrODTCSLow;
//WL ODT
NBPtr->FamilySpecificHook[ExtractWLODT] (NBPtr, NBPtr);
return TRUE;
}
TblPtr++;
}
IDS_HDT_CONSOLE (MEM_FLOW, "\nNo ODT entries\n");
return FALSE;
}
/**
*
* A sub-function which extracts LRDIMM F0RC8, F1RC0, F1RC1 and F1RC2 value from a input
* table and stores extracted value to a specific address.
*
* @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
MemPGetLRIBT (
IN OUT MEM_NB_BLOCK *NBPtr,
IN MEM_PSC_TABLE_BLOCK *EntryOfTables
)
{
UINT8 i;
UINT8 MaxDimmPerCh;
UINT8 NOD;
UINT8 TableSize;
UINT32 CurDDRrate;
UINT8 DDR3Voltage;
UINT16 RankTypeOfPopulatedDimm;
UINT16 RankTypeInTable;
UINT8 PsoMaskLRIBT;
CPU_LOGICAL_ID LogicalCpuid;
UINT8 PackageType;
PSCFG_L_IBT_ENTRY *TblPtr;
CH_DEF_STRUCT *CurrentChannel;
CurrentChannel = NBPtr->ChannelPtr;
if (CurrentChannel->LrDimmPresent == 0) {
return TRUE;
}
TblPtr = NULL;
TableSize = 0;
PackageType = 0;
LogicalCpuid.Family = AMD_FAMILY_UNKNOWN;
MaxDimmPerCh = GetMaxDimmsPerChannel (NBPtr->RefPtr->PlatformMemoryConfiguration, NBPtr->MCTPtr->SocketId, CurrentChannel->ChannelID);
NOD = (UINT8) 1 << (MaxDimmPerCh - 1);
i = 0;
// Obtain table pointer, table size, Logical Cpuid and PSC type according to NB type and package type.
while (EntryOfTables->TblEntryOfLRIBT[i] != NULL) {
if (((EntryOfTables->TblEntryOfLRIBT[i])->Header.NumOfDimm & NOD) != 0) {
LogicalCpuid = (EntryOfTables->TblEntryOfLRIBT[i])->Header.LogicalCpuid;
PackageType = (EntryOfTables->TblEntryOfLRIBT[i])->Header.PackageType;
//
// Determine if this is the expected NB Type
//
if (MemPIsIdSupported (NBPtr, LogicalCpuid, PackageType)) {
TblPtr = (PSCFG_L_IBT_ENTRY *) ((EntryOfTables->TblEntryOfLRIBT[i])->TBLPtr);
TableSize = (EntryOfTables->TblEntryOfLRIBT[i])->TableSize;
break;
}
}
i++;
}
// Check whether no table entry is found.
if (EntryOfTables->TblEntryOfLRIBT[i] == NULL) {
IDS_HDT_CONSOLE (MEM_FLOW, "\nNo LRDIMM IBT table\n");
return FALSE;
}
CurDDRrate = (UINT32) (1 << (CurrentChannel->DCTPtr->Timings.Speed / 66));
DDR3Voltage = (UINT8) (1 << CONVERT_VDDIO_TO_ENCODED (NBPtr->RefPtr->DDR3Voltage));
RankTypeOfPopulatedDimm = MemPGetPsRankType (CurrentChannel);
for (i = 0; i < TableSize; i++) {
MemPConstructRankTypeMap ((UINT16) TblPtr->Dimm0, (UINT16) TblPtr->Dimm1, (UINT16) TblPtr->Dimm2, &RankTypeInTable);
if ((TblPtr->DimmPerCh & NOD) != 0) {
if ((TblPtr->DDRrate & CurDDRrate) != 0) {
if ((TblPtr->VDDIO & DDR3Voltage) != 0) {
if ((RankTypeInTable & RankTypeOfPopulatedDimm) == RankTypeOfPopulatedDimm) {
NBPtr->PsPtr->F0RC8 = (UINT8) TblPtr->F0RC8;
NBPtr->PsPtr->F1RC0 = (UINT8) TblPtr->F1RC0;
NBPtr->PsPtr->F1RC1 = (UINT8) TblPtr->F1RC1;
NBPtr->PsPtr->F1RC2 = (UINT8) TblPtr->F1RC2;
break;
}
}
}
}
TblPtr++;
}
//
// If there is no entry, check if overriding value existed. If not, return FALSE
//
PsoMaskLRIBT = (UINT8) MemPProceedTblDrvOverride (NBPtr, NBPtr->RefPtr->PlatformMemoryConfiguration, PSO_TBLDRV_LRDIMM_IBT);
if ((PsoMaskLRIBT == 0) && (i == TableSize)) {
IDS_HDT_CONSOLE (MEM_FLOW, "\nNo LRDIMM IBT entries\n");
PutEventLog (AGESA_ERROR, MEM_ERROR_LR_IBT_NOT_FOUND, NBPtr->Node, NBPtr->Dct, NBPtr->Channel, 0, &NBPtr->MemPtr->StdHeader);
SetMemError (AGESA_ERROR, NBPtr->MCTPtr);
if (!NBPtr->MemPtr->ErrorHandling (NBPtr->MCTPtr, NBPtr->Dct, EXCLUDE_ALL_CHIPSEL, &NBPtr->MemPtr->StdHeader)) {
ASSERT (FALSE);
}
return FALSE;
}
return TRUE;
}
/**
*
* A sub-function which determine if 2D should be run
* from a input table
*
* @param[in,out] *NBPtr - Pointer to the MEM_NB_BLOCK
* @param[in] *EntryOfTables - Pointer to MEM_PSC_TABLE_BLOCK
*
* @return TRUE - Table values can be extracted per dimm population and ranks type.
* @return FALSE - Table values cannot be extracted per dimm population and ranks type.
*
*/
BOOLEAN
MemPGetS2D (
IN OUT MEM_NB_BLOCK *NBPtr,
IN MEM_PSC_TABLE_BLOCK *EntryOfTables
)
{
UINT8 i;
UINT8 MaxDimmPerCh;
UINT8 MaxDimmSlotPerCh;
UINT8 NOD;
UINT8 TableSize;
UINT32 CurDDRrate;
UINT8 DDR3Voltage;
UINT16 RankTypeOfPopulatedDimm;
UINT16 RankTypeInTable;
BOOLEAN FoundValue;
DIMM_TYPE DimmType;
CPU_LOGICAL_ID LogicalCpuid;
UINT8 PackageType;
PSCFG_S2D_ENTRY *TblPtr;
CH_DEF_STRUCT *CurrentChannel;
UINT16 P2dTraingOveride;
CurrentChannel = NBPtr->ChannelPtr;
TblPtr = NULL;
TableSize = 0;
PackageType = 0;
LogicalCpuid.Family = AMD_FAMILY_UNKNOWN;
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;
i = 0;
// Obtain table pointer, table size, Logical Cpuid and PSC type according to Dimm, NB and package type.
while (EntryOfTables->TblEntryOfS2D[i] != NULL) {
if (((EntryOfTables->TblEntryOfS2D[i])->Header.DimmType & DimmType) != 0) {
if (((EntryOfTables->TblEntryOfS2D[i])->Header.NumOfDimm & NOD) != 0) {
//
// Determine if this is the expected NB Type
//
LogicalCpuid = (EntryOfTables->TblEntryOfS2D[i])->Header.LogicalCpuid;
PackageType = (EntryOfTables->TblEntryOfS2D[i])->Header.PackageType;
if (MemPIsIdSupported (NBPtr, LogicalCpuid, PackageType)) {
TblPtr = (PSCFG_S2D_ENTRY *) ((EntryOfTables->TblEntryOfS2D[i])->TBLPtr);
TableSize = (EntryOfTables->TblEntryOfS2D[i])->TableSize;
break;
}
}
}
i++;
}
// Check whether no table entry is found.
if (EntryOfTables->TblEntryOfS2D[i] == NULL) {
IDS_HDT_CONSOLE (MEM_FLOW, "\nNo 2D training Config table\n");
return FALSE;
}
CurDDRrate = (UINT32) (1 << (CurrentChannel->DCTPtr->Timings.Speed / 66));
DDR3Voltage = (UINT8) (1 << CONVERT_VDDIO_TO_ENCODED (NBPtr->RefPtr->DDR3Voltage));
RankTypeOfPopulatedDimm = MemPGetPsRankType (CurrentChannel);
FoundValue = FALSE;
for (i = 0; i < TableSize; i++) {
MemPConstructRankTypeMap ((UINT16) TblPtr->Dimm0, (UINT16) TblPtr->Dimm1, (UINT16) TblPtr->Dimm2, &RankTypeInTable);
if ((TblPtr->DimmPerCh & NOD) != 0) {
if ((TblPtr->DDRrate & CurDDRrate) != 0) {
if ((TblPtr->VDDIO & DDR3Voltage) != 0) {
if ((RankTypeInTable & RankTypeOfPopulatedDimm) == RankTypeOfPopulatedDimm) {
if (TblPtr->Enable2D == 1) {
FoundValue = TRUE;
break;
}
}
}
}
}
TblPtr++;
}
P2dTraingOveride = MemPProceedTblDrvOverride (NBPtr, NBPtr->RefPtr->PlatformMemoryConfiguration, PSO_TBLDRV_2D_TRAINING);
if (P2dTraingOveride != 0) {
if (NBPtr->Override2DTraining) {
FoundValue = TRUE;
} else {
FoundValue = FALSE;
}
}
//
// If there is no entry, check if overriding 2D training existed. If not, show no entry found.
//
if (FoundValue == FALSE || ((P2dTraingOveride & INVALID_CONFIG_FLAG) != 0)) {
IDS_HDT_CONSOLE (MEM_FLOW, "\nNo 2D training config entries\n");
return FALSE;
} else {
return TRUE;
}
}