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|
/* $NoKeywords:$ */
/**
* @file
*
* AMD PSTATE, ACPI table related API functions.
*
* Contains code that generates the _PSS, _PCT, and other ACPI tables.
*
* @xrefitem bom "File Content Label" "Release Content"
* @e project: AGESA
* @e sub-project: CPU
* @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 "amdlib.h"
#include "OptionPstate.h"
#include "cpuLateInit.h"
#include "cpuRegisters.h"
#include "cpuFamilyTranslation.h"
#include "GeneralServices.h"
#include "cpuServices.h"
#include "heapManager.h"
#include "Ids.h"
#include "Filecode.h"
#include "GeneralServices.h"
#include "cpuPstateTables.h"
#include "cpuFeatures.h"
#include "cpuIoCstate.h"
CODE_GROUP (G3_DXE)
RDATA_GROUP (G3_DXE)
#define FILECODE PROC_CPU_FEATURE_CPUPSTATETABLES_FILECODE
/*----------------------------------------------------------------------------
* DEFINITIONS AND MACROS
*
*----------------------------------------------------------------------------
*/
extern OPTION_PSTATE_LATE_CONFIGURATION OptionPstateLateConfiguration; // global user config record
extern CPU_FAMILY_SUPPORT_TABLE PstateFamilyServiceTable;
extern CPU_FAMILY_SUPPORT_TABLE IoCstateFamilyServiceTable;
STATIC ACPI_TABLE_HEADER ROMDATA CpuSsdtHdrStruct =
{
{'S','S','D','T'},
0,
1,
0,
{0},
{0},
1,
{'A','M','D',' '},
1
};
/*----------------------------------------------------------------------------
* TYPEDEFS AND STRUCTURES
*
*----------------------------------------------------------------------------
*/
/*----------------------------------------------------------------------------
* PROTOTYPES OF LOCAL FUNCTIONS
*
*----------------------------------------------------------------------------
*/
UINT32
STATIC
CalAcpiTablesSize (
IN S_CPU_AMD_PSTATE *AmdPstatePtr,
IN PLATFORM_CONFIGURATION *PlatformConfig,
IN AMD_CONFIG_PARAMS *StdHeader
);
AGESA_STATUS
GenerateSsdtStub (
IN AMD_CONFIG_PARAMS *StdHeader,
IN PLATFORM_CONFIGURATION *PlatformConfig,
IN OUT VOID **SsdtPtr
);
UINT32
CreateAcpiTablesStub (
IN PLATFORM_CONFIGURATION *PlatformConfig,
IN PSTATE_LEVELING *PStateLevelingBuffer,
IN OUT VOID **SsdtPtr,
IN UINT8 LocalApicId,
IN AMD_CONFIG_PARAMS *StdHeader
);
UINT32
CreatePStateAcpiTables (
IN PLATFORM_CONFIGURATION *PlatformConfig,
IN PSTATE_LEVELING *PStateLevelingBuffer,
IN OUT VOID **SsdtPtr,
IN UINT8 LocalApicId,
IN AMD_CONFIG_PARAMS *StdHeader
);
UINT32
CreateCStateAcpiTables (
IN PLATFORM_CONFIGURATION *PlatformConfig,
IN PSTATE_LEVELING *PStateLevelingBuffer,
IN OUT VOID **SsdtPtr,
IN UINT8 LocalApicId,
IN AMD_CONFIG_PARAMS *StdHeader
);
AGESA_STATUS
GenerateSsdt (
IN AMD_CONFIG_PARAMS *StdHeader,
IN PLATFORM_CONFIGURATION *PlatformConfig,
IN OUT VOID **SsdtPtr
);
/**
*---------------------------------------------------------------------------------------
*
* CalAcpiTablesSize
*
* Description:
* This function will calculate the size of ACPI PState tables
*
* Parameters:
* @param[in] *AmdPstatePtr
* @param[in] *PlatformConfig
* @param[in] *StdHeader
*
* @retval UINT32
*
*---------------------------------------------------------------------------------------
*/
UINT32
STATIC
CalAcpiTablesSize (
IN S_CPU_AMD_PSTATE *AmdPstatePtr,
IN PLATFORM_CONFIGURATION *PlatformConfig,
IN AMD_CONFIG_PARAMS *StdHeader
)
{
UINT32 ScopeSize;
UINT32 CoreCount;
UINT32 SocketCount;
UINT32 MaxCoreNumberInCurrentSocket;
UINT32 MaxSocketNumberInSystem;
UINT32 MaxPstateNumberInCurrentCore;
UINT32 CstateAcpiObjSize;
PSTATE_LEVELING *PStateLevelingBufferStructPtr;
IO_CSTATE_FAMILY_SERVICES *IoCstateFamilyServices;
ScopeSize = sizeof (ACPI_TABLE_HEADER);
CstateAcpiObjSize = 0;
IoCstateFamilyServices = NULL;
PStateLevelingBufferStructPtr = AmdPstatePtr->PStateLevelingStruc;
MaxSocketNumberInSystem = AmdPstatePtr->TotalSocketInSystem;
if (IsFeatureEnabled (IoCstate, PlatformConfig, StdHeader)) {
GetFeatureServicesOfCurrentCore (&IoCstateFamilyServiceTable, (CONST VOID **)&IoCstateFamilyServices, StdHeader);
if (IoCstateFamilyServices != NULL) {
CstateAcpiObjSize = IoCstateFamilyServices->GetAcpiCstObj (IoCstateFamilyServices, PlatformConfig, StdHeader);
}
}
for (SocketCount = 0; SocketCount < MaxSocketNumberInSystem; SocketCount++) {
MaxCoreNumberInCurrentSocket = PStateLevelingBufferStructPtr->TotalCoresInNode;
for (CoreCount = 0; CoreCount < MaxCoreNumberInCurrentSocket; CoreCount++) {
MaxPstateNumberInCurrentCore = PStateLevelingBufferStructPtr->PStateCoreStruct[0].PStateMaxValue + 1;
ScopeSize += (SCOPE_STRUCT_SIZE - 1); // Scope size per core
ScopeSize += CstateAcpiObjSize; // C-State ACPI objects size per core
// Add P-State ACPI Objects size per core
if ((PStateLevelingBufferStructPtr[0].CreateAcpiTables != 0) && (PlatformConfig->UserOptionPState)) {
ScopeSize += (PCT_STRUCT_SIZE +
PSS_HEADER_STRUCT_SIZE +
(MaxPstateNumberInCurrentCore * PSS_BODY_STRUCT_SIZE) +
XPSS_HEADER_STRUCT_SIZE +
(MaxPstateNumberInCurrentCore * XPSS_BODY_STRUCT_SIZE) +
PSD_HEADER_STRUCT_SIZE +
PSD_BODY_STRUCT_SIZE +
PPC_HEADER_BODY_STRUCT_SIZE);
}
}
ScopeSize += MaxCoreNumberInCurrentSocket;
PStateLevelingBufferStructPtr = (PSTATE_LEVELING *) ((UINT8 *) PStateLevelingBufferStructPtr + (UINTN) sizeof (PSTATE_LEVELING) + (UINTN) (PStateLevelingBufferStructPtr->PStateCoreStruct[0].PStateMaxValue * sizeof (S_PSTATE_VALUES)));
}
AmdPstatePtr->SizeOfBytes = ScopeSize;
return ScopeSize;
}
/**--------------------------------------------------------------------------------------
*
* GenerateSsdtStub
*
* Description:
* This is the default routine for use when both PState and CState option is NOT
* requested. The option install process will create and fill the transfer vector
* with the address of the proper routine (Main or Stub). The link optimizer will
* strip out of the .DLL the routine that is not used.
*
* Parameters:
* @param[in] StdHeader Handle to config for library and services
* @param[in] PlatformConfig Contains the power cap parameter
* @param[in,out] SsdtPtr ACPI SSDT table pointer
*
* @retval AGESA_STATUS
*
*---------------------------------------------------------------------------------------
**/
AGESA_STATUS
GenerateSsdtStub (
IN AMD_CONFIG_PARAMS *StdHeader,
IN PLATFORM_CONFIGURATION *PlatformConfig,
IN OUT VOID **SsdtPtr
)
{
return AGESA_UNSUPPORTED;
}
/**
*---------------------------------------------------------------------------------------
*
* GenerateSsdt
*
* Description:
* This function will populate the SSDT with ACPI P-States and C-States Objects, whenever
* necessary
* This function should be called only from BSP
*
* Parameters:
* @param[in] StdHeader Handle to config for library and services
* @param[in] PlatformConfig Contains the power cap parameter
* @param[in,out] SsdtPtr ACPI SSDT pointer
*
* @retval AGESA_STATUS
*
*---------------------------------------------------------------------------------------
*/
AGESA_STATUS
GenerateSsdt (
IN AMD_CONFIG_PARAMS *StdHeader,
IN PLATFORM_CONFIGURATION *PlatformConfig,
IN OUT VOID **SsdtPtr
)
{
UINT32 i;
UINT32 j;
UINT32 TempVar8_a;
UINT32 CurrSize;
UINT32 TempVar_a;
UINT32 TempVar_b;
UINT32 ScopeSize;
UINT32 CoreCount;
UINT32 SocketCount;
UINT32 MaxCorePerNode;
UINT8 LocalApicId;
UINT8 *IntermediatePtr;
AGESA_STATUS AgesaStatus;
LOCATE_HEAP_PTR LocateHeapParams;
ALLOCATE_HEAP_PARAMS AllocateHeapParams;
S_CPU_AMD_PSTATE *AmdPstatePtr;
PSTATE_LEVELING *PStateLevelingBufferStructPtr;
SCOPE *ScopeAcpiTablesStructPtr;
SCOPE *ScopeAcpiTablesStructPtrTemp;
AGESA_TESTPOINT (TpProcCpuEntryPstate, StdHeader);
ASSERT (IsBsp (StdHeader, &AgesaStatus));
// If P-State and C-State ACPI tables do not need to be generated, exit this routine
if ((!PlatformConfig->UserOptionPState) && (!IsFeatureEnabled (IoCstate, PlatformConfig, StdHeader))) {
AgesaStatus = AGESA_UNSUPPORTED;
return AgesaStatus;
}
// Initialize data variables
ScopeSize = 0;
CoreCount = 0;
LocalApicId = 0;
CurrSize = 0;
// Locate P-State data buffer
LocateHeapParams.BufferHandle = AMD_PSTATE_DATA_BUFFER_HANDLE;
AGESA_TESTPOINT (TpProcCpuBeforeLocateSsdtBuffer, StdHeader);
if (HeapLocateBuffer (&LocateHeapParams, StdHeader) != AGESA_SUCCESS) {
return AGESA_ERROR;
}
AGESA_TESTPOINT (TpProcCpuAfterLocateSsdtBuffer, StdHeader);
AmdPstatePtr = (S_CPU_AMD_PSTATE *) LocateHeapParams.BufferPtr;
PStateLevelingBufferStructPtr = AmdPstatePtr->PStateLevelingStruc;
// Allocate rough buffer for AcpiTable, if SsdtPtr is NULL
if (*SsdtPtr == NULL) {
//Do not know the actual size.. pre-calculate it.
AllocateHeapParams.RequestedBufferSize = CalAcpiTablesSize (AmdPstatePtr, PlatformConfig, StdHeader);
AllocateHeapParams.BufferHandle = AMD_PSTATE_ACPI_BUFFER_HANDLE;
AllocateHeapParams.Persist = HEAP_SYSTEM_MEM;
AGESA_TESTPOINT (TpProcCpuBeforeAllocateSsdtBuffer, StdHeader);
if (HeapAllocateBuffer (&AllocateHeapParams, StdHeader) != AGESA_SUCCESS) {
return AGESA_ERROR;
}
AGESA_TESTPOINT (TpProcCpuAfterAllocateSsdtBuffer, StdHeader);
*SsdtPtr = AllocateHeapParams.BufferPtr;
}
IDS_HDT_CONSOLE (CPU_TRACE, " SSDT is created\n");
// Copy SSDT header into allocated buffer
LibAmdMemCopy (*SsdtPtr, (VOID *) &CpuSsdtHdrStruct, (UINTN) (sizeof (ACPI_TABLE_HEADER)), StdHeader);
// Update table OEM fields.
LibAmdMemCopy ((VOID *) ((ACPI_TABLE_HEADER *) *SsdtPtr)->OemId, (VOID *) &OptionPstateLateConfiguration.OemIdString,
sizeof (OptionPstateLateConfiguration.OemIdString), StdHeader);
LibAmdMemCopy ((VOID *) ((ACPI_TABLE_HEADER *) *SsdtPtr)->OemTableId, (VOID *) &OptionPstateLateConfiguration.OemTableIdString,
sizeof (OptionPstateLateConfiguration.OemTableIdString), StdHeader);
IntermediatePtr = (UINT8 *) *SsdtPtr;
ScopeAcpiTablesStructPtr = (SCOPE *) &IntermediatePtr[sizeof (ACPI_TABLE_HEADER)];
SocketCount = AmdPstatePtr->TotalSocketInSystem;
// Generate name scope and ACPI objects for every core in the system
for (i = 0; i < SocketCount; i++) {
MaxCorePerNode = PStateLevelingBufferStructPtr->TotalCoresInNode;
for (j = 0; j < MaxCorePerNode; j++) {
CoreCount++;
// Set Name Scope for CPU0, 1, 2, ..... n
// CPU0 to CPUn will name as C000 to Cnnn
// -----------------------------------------
ScopeAcpiTablesStructPtr->ScopeOpcode = SCOPE_OPCODE;
// This value will be filled at the end of this function
// Since at this time, we don't know how many Pstates we
// would have
ScopeAcpiTablesStructPtr->ScopeLength = 0;
ScopeAcpiTablesStructPtr->ScopeValue1 = SCOPE_VALUE1;
ScopeAcpiTablesStructPtr->ScopeValue2 = SCOPE_VALUE2;
ScopeAcpiTablesStructPtr->ScopeNamePt1a__ = SCOPE_NAME__;
if (PlatformConfig->ProcessorScopeInSb) {
ScopeAcpiTablesStructPtr->ScopeNamePt1a_P = SCOPE_NAME_S;
ScopeAcpiTablesStructPtr->ScopeNamePt1a_R = SCOPE_NAME_B;
} else {
ScopeAcpiTablesStructPtr->ScopeNamePt1a_P = SCOPE_NAME_P;
ScopeAcpiTablesStructPtr->ScopeNamePt1a_R = SCOPE_NAME_R;
}
ScopeAcpiTablesStructPtr->ScopeNamePt1b__ = SCOPE_NAME__;
ASSERT ((PlatformConfig->ProcessorScopeName0 >= 'A') && (PlatformConfig->ProcessorScopeName0 <= 'Z'));
ASSERT (((PlatformConfig->ProcessorScopeName1 >= 'A') && (PlatformConfig->ProcessorScopeName1 <= 'Z')) || \
((PlatformConfig->ProcessorScopeName1 >= '0') && (PlatformConfig->ProcessorScopeName1 <= '9')) || \
(PlatformConfig->ProcessorScopeName1 == '_'));
ScopeAcpiTablesStructPtr->ScopeNamePt2a_C = PlatformConfig->ProcessorScopeName0;
ScopeAcpiTablesStructPtr->ScopeNamePt2a_P = PlatformConfig->ProcessorScopeName1;
TempVar8_a = ((CoreCount - 1) >> 4) & 0x0F;
ScopeAcpiTablesStructPtr->ScopeNamePt2a_U = (UINT8) (SCOPE_NAME_0 + TempVar8_a);
TempVar8_a = (CoreCount - 1) & 0x0F;
if (TempVar8_a < 0xA) {
ScopeAcpiTablesStructPtr->ScopeNamePt2a_0 = (UINT8) (SCOPE_NAME_0 + TempVar8_a);
} else {
ScopeAcpiTablesStructPtr->ScopeNamePt2a_0 = (UINT8) (SCOPE_NAME_A + TempVar8_a - 0xA);
}
// Increment and typecast the pointer
ScopeAcpiTablesStructPtrTemp = ScopeAcpiTablesStructPtr;
ScopeAcpiTablesStructPtrTemp++;
// Get the Local Apic Id for each core
LocalApicId = PStateLevelingBufferStructPtr->PStateCoreStruct[0].LocalApicId + (UINT8) j;
// Create P-State ACPI Objects
CurrSize += ((*(OptionPstateLateConfiguration.PstateFeature)) (PlatformConfig, PStateLevelingBufferStructPtr, (VOID *) &ScopeAcpiTablesStructPtrTemp, LocalApicId, StdHeader));
// Create C-State ACPI Objects
CurrSize += ((*(OptionPstateLateConfiguration.CstateFeature)) (PlatformConfig, PStateLevelingBufferStructPtr, (VOID *) &ScopeAcpiTablesStructPtrTemp, LocalApicId, StdHeader));
// Now update the SCOPE Length field
{
CurrSize += (SCOPE_STRUCT_SIZE - 1);
ScopeSize += CurrSize;
TempVar_b = ((CurrSize << 4) & 0x0000FF00);
TempVar_b |= ((CurrSize & 0x0000000F) | 0x00000040);
TempVar_a = TempVar_b;
ScopeAcpiTablesStructPtr->ScopeLength = (UINT16) TempVar_a;
CurrSize = 0;
}
ScopeAcpiTablesStructPtr = ScopeAcpiTablesStructPtrTemp;
}
//Calculate next node buffer address
PStateLevelingBufferStructPtr = (PSTATE_LEVELING *) ((UINT8 *) PStateLevelingBufferStructPtr + (UINTN) sizeof (PSTATE_LEVELING) + (UINTN) (PStateLevelingBufferStructPtr->PStateCoreStruct[0].PStateMaxValue * sizeof (S_PSTATE_VALUES)));
}
//Update SSDT header Checksum
((ACPI_TABLE_HEADER *) *SsdtPtr)->TableLength = (ScopeSize + CoreCount + sizeof (ACPI_TABLE_HEADER));
ChecksumAcpiTable ((ACPI_TABLE_HEADER *) *SsdtPtr, StdHeader);
return AGESA_SUCCESS;
}
/**--------------------------------------------------------------------------------------
*
* CreateAcpiTablesStub
*
* Description:
* This is the default routine for use when the P-State or C-State option is NOT
* requested. The option install process will create and fill the transfer vector
* with the address of the proper routine (Main or Stub). The link optimizer will
* strip out of the .DLL the routine that is not used.
*
* Parameters:
* @param[in] PlatformConfig Platform operational characteristics; power cap
* @param[in] PStateLevelingBuffer Buffer that contains P-State Leveling information
* @param[in,out] SsdtPtr ACPI SSDT table pointer
* @param[in] LocalApicId Local Apic Id
* @param[in] StdHeader Handle to config for library and services
*
* @retval Size of generated ACPI objects
*
*---------------------------------------------------------------------------------------
**/
UINT32
CreateAcpiTablesStub (
IN PLATFORM_CONFIGURATION *PlatformConfig,
IN PSTATE_LEVELING *PStateLevelingBuffer,
IN OUT VOID **SsdtPtr,
IN UINT8 LocalApicId,
IN AMD_CONFIG_PARAMS *StdHeader
)
{
return 0;
}
/**--------------------------------------------------------------------------------------
*
* CreatePStateAcpiTables
*
* Description:
* This is the common routine for creating ACPI P-State objects
*
* Parameters:
* @param[in] PlatformConfig Platform operational characteristics; power cap
* @param[in] PStateLevelingBuffer Buffer that contains P-State Leveling information
* @param[in,out] SsdtPtr ACPI SSDT table pointer
* @param[in] LocalApicId Local Apic Id
* @param[in] StdHeader Handle to config for library and services
*
* @retval Size of generated ACPI P-States objects
*
*---------------------------------------------------------------------------------------
**/
UINT32
CreatePStateAcpiTables (
IN PLATFORM_CONFIGURATION *PlatformConfig,
IN PSTATE_LEVELING *PStateLevelingBuffer,
IN OUT VOID **SsdtPtr,
IN UINT8 LocalApicId,
IN AMD_CONFIG_PARAMS *StdHeader
)
{
UINT8 PstateCapLevelSupport;
UINT8 PStateMaxValueOnCurrentCore;
BOOLEAN PstateCapEnable;
BOOLEAN PstateCapLevelSupportDetermined;
BOOLEAN IsPsdDependent;
UINT32 k;
UINT32 TempVar_a;
UINT32 TempVar_b;
UINT32 TempVar_c;
UINT32 PstateCapInputMilliWatts;
UINT32 CurrSize;
UINT32 PstateCount;
UINT32 CoreCount1;
UINT32 TransAndBusMastLatency;
UINT32 EffectivePstatesPsdPolicy;
AGESA_STATUS IgnoredStatus;
PCI_ADDR PciAddress;
PCT_HEADER_BODY *pPctAcpiTables;
PSS_HEADER *pPssHeaderAcpiTables;
PSS_BODY *pPssBodyAcpiTables;
XPSS_HEADER *pXpssHeaderAcpiTables;
XPSS_BODY *pXpssBodyAcpiTables;
PSD_HEADER *pPsdHeaderAcpiTables;
PSD_BODY *pPsdBodyAcpiTables;
PPC_HEADER_BODY *pPpcAcpiTables;
PSTATE_CPU_FAMILY_SERVICES *FamilyServices;
CurrSize = 0;
PstateCount = 0;
PstateCapEnable = FALSE;
PstateCapLevelSupport = DEFAULT_PERF_PRESENT_CAP;
PstateCapLevelSupportDetermined = TRUE;
PstateCapInputMilliWatts = PlatformConfig->PowerCeiling;
ASSERT (PlatformConfig->PstatesPsdPolicy < PsdPolicyMax);
EffectivePstatesPsdPolicy = PlatformConfig->PstatesPsdPolicy;
// Runtime P-state dependence settings conflict check and consolidation
if (PlatformConfig->ForcePstateIndependent) {
switch (EffectivePstatesPsdPolicy) {
case PsdPolicyProcessorDefault:
// Consolidate P-state dependence setings
EffectivePstatesPsdPolicy = PsdPolicyIndependent;
break;
case PsdPolicyDependent:
// Ensure P-state dependence settings do not conflict
IDS_HDT_CONSOLE (CPU_TRACE, " P-state PSD dependence settings conflict between ForcePstateIndependent and PstatesPsdPolicy. PstatesPsdPolicy will take precedence.\n");
ASSERT (FALSE);
break;
case PsdPolicyIndependent:
// Do nothing. Two interfaces have the same setting.
break;
default:
// Invalid setting, overrides to processor default.
IDS_HDT_CONSOLE (CPU_TRACE, " P-state PSD dependence settings invalid! Override PstatesPsdPolicy to PsdPolicyProcessorDefault.\n");
EffectivePstatesPsdPolicy = PsdPolicyProcessorDefault;
break;
}
}
TransAndBusMastLatency = 0;
if ((PStateLevelingBuffer[0].CreateAcpiTables != 0) && (PlatformConfig->UserOptionPState)) {
pPctAcpiTables = (PCT_HEADER_BODY *) *SsdtPtr;
//Check Pstate Capability
if (PstateCapInputMilliWatts != 0) {
PstateCapEnable = TRUE;
PstateCapLevelSupportDetermined = FALSE;
}
PStateMaxValueOnCurrentCore = PStateLevelingBuffer->PStateCoreStruct[0].PStateMaxValue;
if (OptionPstateLateConfiguration.CfgPstatePct) {
// Set _PCT Table
// --------------
pPctAcpiTables->NameOpcode = NAME_OPCODE;
pPctAcpiTables->PctName_a__ = PCT_NAME__;
pPctAcpiTables->PctName_a_P = PCT_NAME_P;
pPctAcpiTables->PctName_a_C = PCT_NAME_C;
pPctAcpiTables->PctName_a_T = PCT_NAME_T;
pPctAcpiTables->Value1 = PCT_VALUE1;
pPctAcpiTables->Value2 = PCT_VALUE2;
pPctAcpiTables->Value3 = PCT_VALUE3;
pPctAcpiTables->GenericRegDescription1 = GENERIC_REG_DESCRIPTION;
pPctAcpiTables->Length1 = PCT_LENGTH;
pPctAcpiTables->AddressSpaceId1 = PCT_ADDRESS_SPACE_ID;
pPctAcpiTables->RegisterBitWidth1 = PCT_REGISTER_BIT_WIDTH;
pPctAcpiTables->RegisterBitOffset1 = PCT_REGISTER_BIT_OFFSET;
pPctAcpiTables->Reserved1 = PCT_RESERVED;
pPctAcpiTables->ControlRegAddressLo = PCT_CONTROL_REG_LO;
pPctAcpiTables->ControlRegAddressHi = PCT_CONTROL_REG_HI;
pPctAcpiTables->Value4 = PCT_VALUE4;
pPctAcpiTables->Value5 = PCT_VALUE5;
pPctAcpiTables->GenericRegDescription2 = GENERIC_REG_DESCRIPTION;
pPctAcpiTables->Length2 = PCT_LENGTH;
pPctAcpiTables->AddressSpaceId2 = PCT_ADDRESS_SPACE_ID;
pPctAcpiTables->RegisterBitWidth2 = PCT_REGISTER_BIT_WIDTH;
pPctAcpiTables->RegisterBitOffset2 = PCT_REGISTER_BIT_OFFSET;
pPctAcpiTables->Reserved2 = PCT_RESERVED;
pPctAcpiTables->StatusRegAddressLo = PCT_STATUS_REG_LO;
pPctAcpiTables->StatusRegAddressHi = PCT_STATUS_REG_HI;
pPctAcpiTables->Value6 = PCT_VALUE6;
// Increment and then typecast the pointer
pPctAcpiTables++;
CurrSize += PCT_STRUCT_SIZE;
*SsdtPtr = pPctAcpiTables;
} // end of OptionPstateLateConfiguration.CfgPstatePct
pPssHeaderAcpiTables = (PSS_HEADER *) pPctAcpiTables;
pPssBodyAcpiTables = (PSS_BODY *) pPctAcpiTables;
if (OptionPstateLateConfiguration.CfgPstatePss) {
// Set _PSS Header
// Note: Set pssLength and numOfItemsInPss later
//---------------------------------------------------
pPssHeaderAcpiTables->NameOpcode = NAME_OPCODE;
pPssHeaderAcpiTables->PssName_a__ = PSS_NAME__;
pPssHeaderAcpiTables->PssName_a_P = PSS_NAME_P;
pPssHeaderAcpiTables->PssName_a_S = PSS_NAME_S;
pPssHeaderAcpiTables->PssName_b_S = PSS_NAME_S;
pPssHeaderAcpiTables->PkgOpcode = PACKAGE_OPCODE;
pPssHeaderAcpiTables++;
pPssBodyAcpiTables = (PSS_BODY *) pPssHeaderAcpiTables;
// Restore the pPssHeaderAcpiTables
pPssHeaderAcpiTables--;
// Set _PSS Body
//---------------
PstateCount = 0;
// Calculate PCI address for socket only
GetPciAddress (StdHeader, (UINT32) PStateLevelingBuffer->SocketNumber, 0, &PciAddress, &IgnoredStatus);
TransAndBusMastLatency = 0;
GetFeatureServicesOfSocket (&PstateFamilyServiceTable, (UINT32) PStateLevelingBuffer->SocketNumber, (CONST VOID **)&FamilyServices, StdHeader);
ASSERT (FamilyServices != NULL);
FamilyServices->GetPstateLatency ( FamilyServices,
PStateLevelingBuffer,
&PciAddress,
&TransAndBusMastLatency,
StdHeader);
for (k = 0; k <= PStateMaxValueOnCurrentCore; k++) {
if (PStateLevelingBuffer->PStateCoreStruct[0].PStateStruct[k].PStateEnable != 0) {
pPssBodyAcpiTables->PkgOpcode = PACKAGE_OPCODE;
pPssBodyAcpiTables->PkgLength = PSS_PKG_LENGTH;
pPssBodyAcpiTables->NumOfElements = PSS_NUM_OF_ELEMENTS;
pPssBodyAcpiTables->DwordPrefixOpcode1 = DWORD_PREFIX_OPCODE;
pPssBodyAcpiTables->Frequency =
PStateLevelingBuffer->PStateCoreStruct[0].PStateStruct[k].CoreFreq;
pPssBodyAcpiTables->DwordPrefixOpcode2 = DWORD_PREFIX_OPCODE;
pPssBodyAcpiTables->Power =
PStateLevelingBuffer->PStateCoreStruct[0].PStateStruct[k].Power;
if (PstateCapEnable && (!PstateCapLevelSupportDetermined) && (PstateCapInputMilliWatts >= pPssBodyAcpiTables->Power)) {
PstateCapLevelSupport = (UINT8) PStateLevelingBuffer->PStateCoreStruct[0].PStateStruct[k].SwPstateNumber;
PstateCapLevelSupportDetermined = TRUE;
}
pPssBodyAcpiTables->DwordPrefixOpcode3 = DWORD_PREFIX_OPCODE;
pPssBodyAcpiTables->TransitionLatency = TransAndBusMastLatency;
pPssBodyAcpiTables->DwordPrefixOpcode4 = DWORD_PREFIX_OPCODE;
pPssBodyAcpiTables->BusMasterLatency = TransAndBusMastLatency;
pPssBodyAcpiTables->DwordPrefixOpcode5 = DWORD_PREFIX_OPCODE;
pPssBodyAcpiTables->Control =
PStateLevelingBuffer->PStateCoreStruct[0].PStateStruct[k].SwPstateNumber;
pPssBodyAcpiTables->DwordPrefixOpcode6 = DWORD_PREFIX_OPCODE;
pPssBodyAcpiTables->Status =
PStateLevelingBuffer->PStateCoreStruct[0].PStateStruct[k].SwPstateNumber;
pPssBodyAcpiTables++;
PstateCount++;
}
} // for (k = 0; k < MPPSTATE_MAXIMUM_STATES; k++)
if (PstateCapEnable && (!PstateCapLevelSupportDetermined)) {
PstateCapLevelSupport = PStateMaxValueOnCurrentCore;
}
// Set _PSS Header again
// Now Set pssLength and numOfItemsInPss
//---------------------------------------
TempVar_a = (PstateCount * PSS_BODY_STRUCT_SIZE) + 3;
TempVar_b = TempVar_a;
TempVar_c = ((TempVar_b << 4) & 0x0000FF00);
TempVar_c = TempVar_c | ((TempVar_b & 0x0000000F) | 0x00000040);
TempVar_a = (UINT16) TempVar_c;
pPssHeaderAcpiTables->PssLength = (UINT16) TempVar_a;
pPssHeaderAcpiTables->NumOfItemsInPss = (UINT8) PstateCount;
CurrSize += (PSS_HEADER_STRUCT_SIZE + (PstateCount * PSS_BODY_STRUCT_SIZE));
*SsdtPtr = pPssBodyAcpiTables;
} // end of PSS Body if OptionPstateLateConfiguration.CfgPstatePss
// Set XPSS Table
//---------------
// Typecast the pointer
pXpssHeaderAcpiTables = (XPSS_HEADER *) pPssBodyAcpiTables;
pXpssBodyAcpiTables = (XPSS_BODY *) pPssBodyAcpiTables;
if (OptionPstateLateConfiguration.CfgPstateXpss) {
// Set XPSS Header
// Note: Set the pssLength and numOfItemsInPss later
//---------------------------------------------------
pXpssHeaderAcpiTables->NameOpcode = NAME_OPCODE;
pXpssHeaderAcpiTables->XpssName_a_X = PSS_NAME_X;
pXpssHeaderAcpiTables->XpssName_a_P = PSS_NAME_P;
pXpssHeaderAcpiTables->XpssName_a_S = PSS_NAME_S;
pXpssHeaderAcpiTables->XpssName_b_S = PSS_NAME_S;
pXpssHeaderAcpiTables->PkgOpcode = PACKAGE_OPCODE;
// Increment and then typecast the pointer
pXpssHeaderAcpiTables++;
pXpssBodyAcpiTables = (XPSS_BODY *) pXpssHeaderAcpiTables;
// Restore the pXpssHeaderAcpiTables
pXpssHeaderAcpiTables--;
// Set XPSS Body
//---------------
for (k = 0; k <= PStateMaxValueOnCurrentCore; k++) {
if (PStateLevelingBuffer->PStateCoreStruct[0].PStateStruct[k].PStateEnable != 0) {
pXpssBodyAcpiTables->PkgOpcode = PACKAGE_OPCODE;
pXpssBodyAcpiTables->PkgLength = XPSS_PKG_LENGTH;
pXpssBodyAcpiTables->NumOfElements = XPSS_NUM_OF_ELEMENTS;
pXpssBodyAcpiTables->XpssValueTbd = 04;
pXpssBodyAcpiTables->DwordPrefixOpcode1 = DWORD_PREFIX_OPCODE;
pXpssBodyAcpiTables->Frequency =
PStateLevelingBuffer->PStateCoreStruct[0].PStateStruct[k].CoreFreq;
pXpssBodyAcpiTables->DwordPrefixOpcode2 = DWORD_PREFIX_OPCODE;
pXpssBodyAcpiTables->Power =
PStateLevelingBuffer->PStateCoreStruct[0].PStateStruct[k].Power;
pXpssBodyAcpiTables->DwordPrefixOpcode3 = DWORD_PREFIX_OPCODE;
pXpssBodyAcpiTables->TransitionLatency = TransAndBusMastLatency;
pXpssBodyAcpiTables->DwordPrefixOpcode4 = DWORD_PREFIX_OPCODE;
pXpssBodyAcpiTables->BusMasterLatency = TransAndBusMastLatency;
pXpssBodyAcpiTables->ControlBuffer = XPSS_ACPI_BUFFER;
pXpssBodyAcpiTables->ControlLo =
PStateLevelingBuffer->PStateCoreStruct[0].PStateStruct[k].SwPstateNumber;
pXpssBodyAcpiTables->ControlHi = 0;
pXpssBodyAcpiTables->StatusBuffer = XPSS_ACPI_BUFFER;
pXpssBodyAcpiTables->StatusLo =
PStateLevelingBuffer->PStateCoreStruct[0].PStateStruct[k].SwPstateNumber;
pXpssBodyAcpiTables->StatusHi = 0;
pXpssBodyAcpiTables->ControlMaskBuffer = XPSS_ACPI_BUFFER;
pXpssBodyAcpiTables->ControlMaskLo = 0;
pXpssBodyAcpiTables->ControlMaskHi = 0;
pXpssBodyAcpiTables->StatusMaskBuffer = XPSS_ACPI_BUFFER;
pXpssBodyAcpiTables->StatusMaskLo = 0;
pXpssBodyAcpiTables->StatusMaskHi = 0;
pXpssBodyAcpiTables++;
}
} // for (k = 0; k < MPPSTATE_MAXIMUM_STATES; k++)
// Set XPSS Header again
// Now set pssLength and numOfItemsInPss
//---------------------------------------
TempVar_a = (PstateCount * XPSS_BODY_STRUCT_SIZE) + 3;
TempVar_b = TempVar_a;
TempVar_c = ((TempVar_b << 4) & 0x0000FF00);
TempVar_c = TempVar_c | ((TempVar_b & 0x0000000F) | 0x00000040);
TempVar_a = (UINT16) TempVar_c;
pXpssHeaderAcpiTables->XpssLength = (UINT16) TempVar_a;
pXpssHeaderAcpiTables->NumOfItemsInXpss = (UINT8) PstateCount;
CurrSize += (XPSS_HEADER_STRUCT_SIZE + (PstateCount * XPSS_BODY_STRUCT_SIZE));
*SsdtPtr = pXpssBodyAcpiTables;
} //end of XPSS Body OptionPstateLateConfiguration.CfgPstateXpss
// Set _PSD Table
//---------------
// Typecast the pointer
pPsdHeaderAcpiTables = (PSD_HEADER *) pXpssBodyAcpiTables;
pPsdBodyAcpiTables = (PSD_BODY *) pXpssBodyAcpiTables;
// Get Total Cores Per Node
if (GetActiveCoresInGivenSocket ((UINT32) PStateLevelingBuffer->SocketNumber, &CoreCount1, StdHeader)) {
GetFeatureServicesOfSocket (&PstateFamilyServiceTable, (UINT32) PStateLevelingBuffer->SocketNumber, (CONST VOID **)&FamilyServices, StdHeader);
ASSERT (FamilyServices != NULL);
if ((CoreCount1 != 1) && (OptionPstateLateConfiguration.CfgPstatePsd) &&
FamilyServices->IsPstatePsdNeeded (FamilyServices, PlatformConfig, StdHeader)) {
// Set _PSD Header
//----------------
pPsdHeaderAcpiTables->NameOpcode = NAME_OPCODE;
pPsdHeaderAcpiTables->PkgOpcode = PACKAGE_OPCODE;
pPsdHeaderAcpiTables->PsdLength = PSD_HEADER_LENGTH;
pPsdHeaderAcpiTables->Value1 = PSD_VALUE1;
pPsdHeaderAcpiTables->PsdName_a__ = PSD_NAME__;
pPsdHeaderAcpiTables->PsdName_a_P = PSD_NAME_P;
pPsdHeaderAcpiTables->PsdName_a_S = PSD_NAME_S;
pPsdHeaderAcpiTables->PsdName_a_D = PSD_NAME_D;
// Typecast the pointer
pPsdHeaderAcpiTables++;
CurrSize += PSD_HEADER_STRUCT_SIZE;
pPsdBodyAcpiTables = (PSD_BODY *) pPsdHeaderAcpiTables;
pPsdHeaderAcpiTables--;
// Set _PSD Body
//--------------
pPsdBodyAcpiTables->PkgOpcode = PACKAGE_OPCODE;
pPsdBodyAcpiTables->PkgLength = PSD_PKG_LENGTH;
pPsdBodyAcpiTables->NumOfEntries = NUM_OF_ENTRIES;
pPsdBodyAcpiTables->BytePrefixOpcode1 = BYTE_PREFIX_OPCODE;
pPsdBodyAcpiTables->PsdNumOfEntries = PSD_NUM_OF_ENTRIES;
pPsdBodyAcpiTables->BytePrefixOpcode2 = BYTE_PREFIX_OPCODE;
pPsdBodyAcpiTables->PsdRevision = PSD_REVISION;
pPsdBodyAcpiTables->DwordPrefixOpcode1 = DWORD_PREFIX_OPCODE;
if (EffectivePstatesPsdPolicy == PsdPolicyProcessorDefault) {
IsPsdDependent = FamilyServices->IsPstatePsdDependent (FamilyServices, PlatformConfig, StdHeader);
} else {
if (EffectivePstatesPsdPolicy == PsdPolicyDependent) {
IsPsdDependent = TRUE;
} else {
IsPsdDependent = FALSE;
}
IDS_HDT_CONSOLE (CPU_TRACE, " P-state PSD is forced by interface choice as dependent: %d\n", IsPsdDependent);
}
if (IsPsdDependent) {
pPsdBodyAcpiTables->DependencyDomain = PSD_DEPENDENCY_DOMAIN;
pPsdBodyAcpiTables->CoordinationType = PSD_COORDINATION_TYPE_SW_ALL;
pPsdBodyAcpiTables->NumOfProcessors = CoreCount1;
} else {
switch (GetComputeUnitMapping (StdHeader)) {
case AllCoresMapping:
// All cores are in their own compute unit.
pPsdBodyAcpiTables->DependencyDomain = LocalApicId;
pPsdBodyAcpiTables->CoordinationType = PSD_COORDINATION_TYPE_SW_ANY;
pPsdBodyAcpiTables->NumOfProcessors = PSD_NUM_OF_PROCESSORS;
break;
case EvenCoresMapping:
// Two cores per compute unit.
pPsdBodyAcpiTables->DependencyDomain = LocalApicId >> 1;
pPsdBodyAcpiTables->CoordinationType = PSD_COORDINATION_TYPE_HW_ALL;
pPsdBodyAcpiTables->NumOfProcessors = PSD_TWO_CORES_PER_COMPUTE_UNIT;
break;
case TripleCoresMapping:
// Three cores per compute unit.
pPsdBodyAcpiTables->DependencyDomain = LocalApicId / 3;
pPsdBodyAcpiTables->CoordinationType = PSD_COORDINATION_TYPE_HW_ALL;
pPsdBodyAcpiTables->NumOfProcessors = PSD_THREE_CORES_PER_COMPUTE_UNIT;
break;
case QuadCoresMapping:
// Four cores per compute unit.
pPsdBodyAcpiTables->DependencyDomain = LocalApicId >> 2;
pPsdBodyAcpiTables->CoordinationType = PSD_COORDINATION_TYPE_HW_ALL;
pPsdBodyAcpiTables->NumOfProcessors = PSD_FOUR_CORES_PER_COMPUTE_UNIT;
break;
default:
ASSERT (FALSE);
}
}
pPsdBodyAcpiTables->DwordPrefixOpcode2 = DWORD_PREFIX_OPCODE;
pPsdBodyAcpiTables->DwordPrefixOpcode3 = DWORD_PREFIX_OPCODE;
pPsdBodyAcpiTables++;
*SsdtPtr = pPsdBodyAcpiTables;
CurrSize += PSD_BODY_STRUCT_SIZE;
}
}// end of PSD Body if (CoreCount1 != 1) || (OptionPstateLateConfiguration.CfgPstatePsd)
// Typecast the pointer
pPpcAcpiTables = (PPC_HEADER_BODY *) pPsdBodyAcpiTables;
// Set _PPC Table
//---------------
if (OptionPstateLateConfiguration.CfgPstatePpc) {
// Name (PPCV, value)
pPpcAcpiTables->NameOpcode = NAME_OPCODE;
pPpcAcpiTables->PpcName_a_P = PPC_NAME_P;
pPpcAcpiTables->PpcName_b_P = PPC_NAME_P;
pPpcAcpiTables->PpcName_a_C = PPC_NAME_C;
pPpcAcpiTables->PpcName_a_V = PPC_NAME_V;
pPpcAcpiTables->Value1 = PPC_VALUE1;
pPpcAcpiTables->DefaultPerfPresentCap = PstateCapLevelSupport;
// Method (_PPC) { return (PPCV) }
pPpcAcpiTables->MethodOpcode = METHOD_OPCODE;
pPpcAcpiTables->PpcLength = PPC_METHOD_LENGTH;
pPpcAcpiTables->PpcName_a__ = PPC_NAME__;
pPpcAcpiTables->PpcName_c_P = PPC_NAME_P;
pPpcAcpiTables->PpcName_d_P = PPC_NAME_P;
pPpcAcpiTables->PpcName_b_C = PPC_NAME_C;
pPpcAcpiTables->MethodFlags = PPC_METHOD_FLAGS;
pPpcAcpiTables->ReturnOpcode = RETURN_OPCODE;
pPpcAcpiTables->PpcName_e_P = PPC_NAME_P;
pPpcAcpiTables->PpcName_f_P = PPC_NAME_P;
pPpcAcpiTables->PpcName_c_C = PPC_NAME_C;
pPpcAcpiTables->PpcName_b_V = PPC_NAME_V;
CurrSize += PPC_HEADER_BODY_STRUCT_SIZE;
// Increment and typecast the pointer
pPpcAcpiTables++;
*SsdtPtr = pPpcAcpiTables;
}// end of OptionPstateLateConfiguration.CfgPstatePpc
}
return CurrSize;
}
/**--------------------------------------------------------------------------------------
*
* CreateCStateAcpiTables
*
* Description:
* This is the common routine for creating ACPI C-State objects
*
* Parameters:
* @param[in] PlatformConfig Platform operational characteristics; power cap
* @param[in] PStateLevelingBuffer Buffer that contains P-State Leveling information
* @param[in,out] SsdtPtr ACPI SSDT table pointer
* @param[in] LocalApicId Local Apic Id
* @param[in] StdHeader Handle to config for library and services
*
* @retval Size of ACPI C-States objects generated
*
*---------------------------------------------------------------------------------------
**/
UINT32
CreateCStateAcpiTables (
IN PLATFORM_CONFIGURATION *PlatformConfig,
IN PSTATE_LEVELING *PStateLevelingBuffer,
IN OUT VOID **SsdtPtr,
IN UINT8 LocalApicId,
IN AMD_CONFIG_PARAMS *StdHeader
)
{
UINT32 ObjSize;
IO_CSTATE_FAMILY_SERVICES *IoCstateFamilyServices;
ObjSize = 0;
if (IsFeatureEnabled (IoCstate, PlatformConfig, StdHeader)) {
GetFeatureServicesOfCurrentCore (&IoCstateFamilyServiceTable, (CONST VOID **)&IoCstateFamilyServices, StdHeader);
if (IoCstateFamilyServices != NULL) {
IoCstateFamilyServices->CreateAcpiCstObj (IoCstateFamilyServices, LocalApicId, SsdtPtr, StdHeader);
ObjSize = IoCstateFamilyServices->GetAcpiCstObj (IoCstateFamilyServices, PlatformConfig, StdHeader);
}
}
return ObjSize;
}
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